diff options
author | Damjan Marion <damarion@cisco.com> | 2017-01-10 17:07:38 +0100 |
---|---|---|
committer | Dave Barach <openvpp@barachs.net> | 2017-01-11 12:57:31 +0000 |
commit | 1c5ee872b14c5e9412b8c0e4f169b85d11238d14 (patch) | |
tree | 14afec369eeabaef32aabd38c667275effdba341 /plugins/vcgn-plugin/vcgn | |
parent | e546d3b0f739d35ec2e4702181d99ff4190e8b46 (diff) |
Remove vcgn plugin
Change-Id: I79f18ec386dedd91a8dcea2ca5726208b7b3c67c
Signed-off-by: Damjan Marion <damarion@cisco.com>
Diffstat (limited to 'plugins/vcgn-plugin/vcgn')
67 files changed, 0 insertions, 36461 deletions
diff --git a/plugins/vcgn-plugin/vcgn/README b/plugins/vcgn-plugin/vcgn/README deleted file mode 100644 index 9b903967ac4..00000000000 --- a/plugins/vcgn-plugin/vcgn/README +++ /dev/null @@ -1,100 +0,0 @@ - ================================= - CARRIER GRADE NAT - NAT44 README - ================================= - -What is implemented: -==================== -* NAT44 UDP, TCP, ICMP protocols -* Show and config commands for various parameters for the same -* NF9 logging is implemented but is not tested - -What is not implemented: -========================= -* TCP MSS -* TCP refresh direction -* Static port forwarding -* Syslog support -* Destination based logging or session logging -* None of the ALGs -* Performance optimization -* Binary APIs, suitable for configuring the feature from netconf/restconf/yang -* Support for VLANs - -Setup -===== - - +--------------+ -+------------+ GEb/0/0 | | -| Tester +-------------->+ vCGN/vPE-f | -| +<--------------+ VM in UCS | -+------------+ GE13/0/0 | | - +--------------+ - -Configure Interfaces and add routes in vPE-f -============================================= -set int ip address GigabitEthernetb/0/0 10.4.5.2/24 -set int state GigabitEthernetb/0/0 up -set int ip address GigabitEthernet13/0/0 20.4.5.2/24 -set int state GigabitEthernet13/0/0 up -ip route add 4.4.4.0/24 via GigabitEthernet13/0/0 -ip route add 1.2.3.0/24 via GigabitEthernetb/0/0 show ip fib - -Configure vCGN NAT44 for UDP/TCP/ICMP -======================================= -set vcgn inside GigabitEthernetb/0/0 outside GigabitEthernet13/0/0 -set vcgn port limit 65535 set vcgn dynamic port start 5641 -set vcgn map 10.1.1.0 - 10.1.1.31 set vcgn tcp timeout active 65535 init 65535 -set vcgn udp timeout active 65535 init 65535 set vcgn icmp timeout 65535 - -Set ARP entries for CGN to Tester -================================== -set ip arp GigabitEthernet13/0/0 4.4.4.4 11:22:33:44:55:00 -set ip arp GigabitEthernetb/0/0 1.2.3.0 11:22:33:44:55:10 -set ip arp GigabitEthernetb/0/0 1.2.3.1 11:22:33:44:55:12 -set ip arp GigabitEthernetb/0/0 1.2.3.2 11:22:33:44:55:13 -set ip arp GigabitEthernetb/0/0 1.2.3.3 11:22:33:44:55:14 -set ip arp GigabitEthernetb/0/0 1.2.3.4 11:22:33:4e:55:11 -set ip arp GigabitEthernetb/0/0 1.2.3.5 11:22:33:44:55:15 -set ip arp GigabitEthernetb/0/0 1.2.3.6 11:22:33:44:55:16 -set ip arp GigabitEthernetb/0/0 1.2.3.7 11:22:33:44:55:17 -set ip arp GigabitEthernetb/0/0 1.2.3.8 11:22:33:44:55:18 -set ip arp GigabitEthernetb/0/0 1.2.3.9 11:22:33:44:55:19 -set ip arp GigabitEthernetb/0/0 1.2.3.10 11:22:33:44:55:1a -set ip arp GigabitEthernetb/0/0 1.2.3.11 11:22:33:44:55:1b -set ip arp GigabitEthernetb/0/0 1.2.3.12 11:22:33:44:55:1c -set ip arp GigabitEthernetb/0/0 1.2.3.13 11:22:33:44:55:1d -set ip arp GigabitEthernetb/0/0 1.2.3.14 11:22:33:44:55:1e -set ip arp GigabitEthernetb/0/0 1.2.3.15 11:22:33:44:55:1f -set ip arp GigabitEthernetb/0/0 1.2.3.16 11:22:33:44:50:01 -set ip arp GigabitEthernetb/0/0 1.2.3.17 11:22:33:44:51:01 -set ip arp GigabitEthernetb/0/0 1.2.3.18 11:22:33:44:52:01 -set ip arp GigabitEthernetb/0/0 1.2.3.19 11:22:33:44:53:01 -set ip arp GigabitEthernetb/0/0 1.2.3.20 11:22:33:44:54:02 -set ip arp GigabitEthernetb/0/0 1.2.3.21 11:22:33:44:55:01 -set ip arp GigabitEthernetb/0/0 1.2.3.22 11:22:33:44:56:02 -set ip arp GigabitEthernetb/0/0 1.2.3.23 11:22:33:44:57:00 -set ip arp GigabitEthernetb/0/0 1.2.3.24 11:22:33:44:58:02 -set ip arp GigabitEthernetb/0/0 1.2.3.25 11:22:33:44:59:03 -set ip arp GigabitEthernetb/0/0 1.2.3.26 11:22:33:44:5a:01 -set ip arp GigabitEthernetb/0/0 1.2.3.27 11:22:33:44:5b:02 -set ip arp GigabitEthernetb/0/0 1.2.3.28 11:22:33:44:5c:03 -set ip arp GigabitEthernetb/0/0 1.2.3.29 11:22:33:44:5d:04 -set ip arp GigabitEthernetb/0/0 1.2.3.30 11:22:33:44:5e:05 -set ip arp GigabitEthernetb/0/0 1.2.3.31 11:22:33:44:5f:06 - - -Show commands -============= -show vcgn config -show vcgn statistics -show node counters -show interface - -Show commands to show translations -================================== -show vcgn inside-translation protocol tcp inside-addr 1.2.3.4 start-port 5641 end-port 5645 -show vcgn outside-translation protocol tcp outside-addr 10.1.1.31 start-port 7000 end-port 8000 -show vcgn inside-translation protocol icmp inside-addr 1.2.3.4 start-port 7000 end-port 8000 -show vcgn outside-translation protocol icmp outside-addr 10.1.1.31 start-port 7000 end-port 8000 - - diff --git a/plugins/vcgn-plugin/vcgn/cgn_bitmap.h b/plugins/vcgn-plugin/vcgn/cgn_bitmap.h deleted file mode 100644 index 6c46b75a608..00000000000 --- a/plugins/vcgn-plugin/vcgn/cgn_bitmap.h +++ /dev/null @@ -1,133 +0,0 @@ -/* - * Copyright (c) 2015 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ -/* - * Modifications to this file - * Copyright (c) 2006-2009 by cisco Systems, Inc. - * All rights reserved. - */ - -/* - Copyright (c) 2001, 2002, 2003, 2005 Eliot Dresselhaus - - Permission is hereby granted, free of charge, to any person obtaining - a copy of this software and associated documentation files (the - "Software"), to deal in the Software without restriction, including - without limitation the rights to use, copy, modify, merge, publish, - distribute, sublicense, and/or sell copies of the Software, and to - permit persons to whom the Software is furnished to do so, subject to - the following conditions: - - The above copyright notice and this permission notice shall be - included in all copies or substantial portions of the Software. - - THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF - MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE - LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION - OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION - WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. -*/ - -#ifndef __CGN_BITMAP_H__ -#define __CGN_BITMAP_H__ - -/* Bitmaps built as vectors of machine words. */ - -#include <string.h> -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/random.h> - -#define clib_bitmap_dup(v) vec_dup(v) -#define clib_bitmap_free(v) vec_free(v) -#define clib_bitmap_bytes(v) vec_bytes(v) -#define clib_bitmap_zero(v) vec_zero(v) - -/* Allocate bitmap with given number of bits. */ -#define clib_bitmap_alloc(v,n_bits) \ - v = vec_new (uword, ((n_bits) + BITS (uword) - 1) / BITS (uword)) - -/* Sets given bit. Returns old value. */ -static inline uword -cgn_clib_bitmap_set_no_check (uword * a, uword i) -{ - uword i0 = i / BITS (a[0]); - uword bit = (uword) 1 << (i % BITS (a[0])); - uword ai; - -/* ASSERT (i0 < vec_len (a)); */ - ai = a[i0]; - a[i0] = ai | bit; - - return (ai & bit) != 0; -} - -/* Clears given bit. Returns old value. */ -static inline -uword cgn_clib_bitmap_clear_no_check (uword * a, uword i) -{ - uword i0 = i / BITS (a[0]); - uword bit = (uword) 1 << (i % BITS (a[0])); - uword ai; - -/* ASSERT (i0 < vec_len (a)); */ - ai = a[i0]; - a[i0] = ai & ~bit; - - return (ai & bit) != 0; -} - -/* Gets num_bits from ai start at start. assume that all bits are - * in the same uword. - */ -static inline uword cgn_clib_bitmap_get_bits (uword *ai, u16 start, - unsigned char num_bits) -{ - uword i0 = start / BITS (ai[0]); - uword i1 = start % BITS (ai[0]); - uword result = ai[i0] >> i1; - if(num_bits >= BITS(ai[0])) return result; - /* Else, we have to trim the bits */ - result = result & (((uword)1 << num_bits) - 1); - return result; -} - -/* Check if all of the bits from start to numb_bits are avaiable */ -static inline uword cgn_clib_bitmap_check_if_all (uword *ai, u16 start, - i16 num_bits) -{ - /* Now check if any bits are zero.. if yes, return false */ - uword bitmask; - if(num_bits >= BITS(ai[0])) { - /* assume that its going to be multiples of BUTS(ai[0]) */ - uword i0 = start / BITS (ai[0]); - bitmask = ~0; /* set all bits to 1 */ - do { - if(ai[i0] ^ bitmask) return 0; - num_bits = num_bits - BITS (ai[0]); - i0++; - } while (num_bits > 0); - return 1; - } - else { - uword result = cgn_clib_bitmap_get_bits (ai, start, num_bits); - bitmask = ((uword)1 << num_bits) -1; /* set only num_bits */ - return (!(result ^ bitmask)); - } -} - -#endif diff --git a/plugins/vcgn-plugin/vcgn/cgse_defs.h b/plugins/vcgn-plugin/vcgn/cgse_defs.h deleted file mode 100644 index 08255875fec..00000000000 --- a/plugins/vcgn-plugin/vcgn/cgse_defs.h +++ /dev/null @@ -1,88 +0,0 @@ -/* - *------------------------------------------------------------------ - * cgse_defs.h - CGSE specific definiitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CGSE_DEFS_H__ -#define __CGSE_DEFS_H__ - -#include "spp_platform_common.h" -#include <cnat_cli.h> - - -#define CGSE_SVI_TYPE_CNAT 1 -#define CGSE_SVI_TYPE_XLAT 2 -#define CGSE_SVI_TYPE_NAT64_STATEFUL 3 -#define CGSE_SVI_TYPE_V6RD 4 -#define CGSE_SVI_TYPE_INFRA 5 -#define CGSE_SVI_TYPE_DS_LITE 7 -#define CGSE_SVI_TYPE_MAPE 9 - -#define CGSE_SET_TX_PKT_TYPE(type) PLATFORM_SET_CTX_RU_TX_PKT_TYPE(ctx, type) - -#define CGSE_INVALID_UIDX 0xffff /*invalid svi app uidb index */ -#define CGSE_INVALID_VRFID 0xffffffff /*invalid vrf id */ - -#define CGSE_VRF_MASK 0x3fff -#define CGSE_MAX_VRFMAP_ENTRIES (CGSE_VRF_MASK + 1) - -#define CGSE_VRFMAP_ENTRY_INVALID 0xffff - - -#define CGSE_INVALID_CGSE_ID (0) - -#define CGSE_TABLE_ENTRY_DELETED 0 -#define CGSE_TABLE_ENTRY_ACTIVE 1 -#define CGSE_TABLE_ENTRY_DORMANT 2 -#define CGSE_TABLE_ENTRY_INVALID_UIDB 3 - - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF1(level, a) \ - if (cgse_config_debug_level > level) printf(a); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF2(level, a, b) \ - if (cgse_config_debug_level > level) printf(a, b); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF3(level, a, b, c) \ - if (cgse_config_debug_level > level) printf(a, b, c); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF4(level, a, b, c, d) \ - if (cgse_config_debug_level > level) printf(a, b, c, d); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF5(level, a, b, c, d, e) \ - if (cgse_config_debug_level > level) printf(a, b, c, d, e); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF6(level, a, b, c, d, e, f) \ - if (cgse_config_debug_level > level) printf(a, b, c, d, e, f); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF7(level, a, b, c, d, e, f, g) \ - if (cgse_config_debug_level > level) printf(a, b, c, d, e, f, g); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF8(level, a, b, c, d, e, f, g, h) \ - if (cgse_config_debug_level > level) printf(a, b, c, d, e, f, g, h); - -#define CGSE_CONFIG_HANDLER_DEBUG_PRINTF9(level, a, b, c, d, e, f, g, h, i) \ - if (cgse_config_debug_level > level) printf(a, b, c, d, e, f, g, h, i); - -extern u16 *cgse_uidb_index_cgse_id_mapping_ptr; - -#define CGSE_ADD_UIDB_INDEX_CGSE_ID_MAPPING(uidb_index, cgse_id) \ - *(cgse_uidb_index_cgse_id_mapping_ptr + uidb_index) = cgse_id; - -extern u8 my_instance_number; - -#endif diff --git a/plugins/vcgn-plugin/vcgn/cnat_bulk_port.c b/plugins/vcgn-plugin/vcgn/cnat_bulk_port.c deleted file mode 100644 index d8894eb84f5..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_bulk_port.c +++ /dev/null @@ -1,964 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_bulk_ports.c - wrappers for bulk port allocation - * - * Copyright (c) 2011-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> -#include <vppinfra/vec.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/bitmap.h> - -#include "cnat_db.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_logging.h" -#include "spp_timers.h" -#include "platform_common.h" -#include "cgn_bitmap.h" -#include "spp_platform_trace_log.h" -#include "cnat_ports.h" - -#ifndef NO_BULK_LOGGING - -#define PORT_TO_CACHE(y, z) ((y)/(z)) -/* The last bit (MSB) is used to indicate whether the cache entry is full */ -#define CACHE_TO_PORT(x, z) (((x)& 0x7FFF) * (z)) -#define IS_CACHE_ENTRY_FULL(x) ((x) & 0x8000) -#define MARK_CACHE_ENTRY_AS_FULL(x) ((x) = ((x) | 0x8000)) -#define UNMARK_CACHE_ENTRY_AS_FULL(x) ((x) = ((x) & 0x7FFF)) -#define CACHE_ENTRY_WITHOUT_FULL_STAT(x) ((x) & 0x7FFF) - - -#define NUM_BULK_CHECK 128 /* max number of previous chache to check. - * somewhat orbirtrary.. assume 64 as bulk size.. can handle up - * to 128*64 ports allocated by a single subscriber */ - -/* #define DEBUG_BULK_PORT 1 */ -/* #define DEBUG_BULK_PORT_DETAIL 1 */ -#define HAVE_BULK_PORT_STATS 1 - -#ifdef HAVE_BULK_PORT_STATS -static uword bulk_cache_hit_count; -static uword bulk_port_use_count; -static uword bulk_port_alloc_count; -static uword mapped_port_alloc_count; -#endif /* HAVE_BULK_PORT_STATS */ - -static u32 bulk_port_rand_across; - -void show_bulk_port_allocation(u16 in_vrfid, u32 inside_ip) -{ - cnat_db_key_bucket_t u_ki; - cnat_user_db_entry_t *udb; - int i; - u32 head; - cnat_main_db_entry_t *db = NULL; - i16 printed_so_far = 0; /* entries printed so far */ - u16 prev_bulks[NUM_BULK_CHECK]; - cnat_vrfmap_t *my_vrfmap = 0; - cnat_vrfmap_t *vrfmap = 0; - bulk_alloc_size_t bulk_size; - - u_ki.k.k.vrf = in_vrfid; - u_ki.k.k.ipv4 = inside_ip; - u_ki.k.k.port = 0; - - PLATFORM_DEBUG_PRINT("Searching for user %x in invrf %d\n", - inside_ip, in_vrfid); - udb = cnat_user_db_lookup_entry(&u_ki); - if(!udb) { - PLATFORM_DEBUG_PRINT("No such user\n"); return; - } - - pool_foreach (vrfmap, cnat_map_by_vrf, ({ - if(vrfmap->i_vrf == in_vrfid) { - my_vrfmap = vrfmap; - break; - }})); - - if(!my_vrfmap) { - PLATFORM_DEBUG_PRINT("Vrf map not found\n"); - return; - } - bulk_size = BULKSIZE_FROM_VRFMAP(my_vrfmap); - - if(bulk_size == BULK_ALLOC_SIZE_NONE) { - PLATFORM_DEBUG_PRINT("Bulk allocation not enabled\n"); - return; - } - - PLATFORM_DEBUG_PRINT("\nBulk cache for subscriber 0x%x: ", inside_ip); - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - PLATFORM_DEBUG_PRINT("%d , ", - CACHE_TO_PORT(udb->bulk_port_range_cache[i], bulk_size)); - } - PLATFORM_DEBUG_PRINT("\nNon cached bulk allocation for subscriber 0x%x:\n", - inside_ip); - ASSERT(udb); - memset(prev_bulks, 0,sizeof(prev_bulks)); - - head = udb->translation_list_head_index; - if(PREDICT_FALSE(head == EMPTY)) { - return; - } - db = cnat_main_db + head; - while (1) { - /* skip static ports - static ports may not belong to bulk pool*/ - if(db->out2in_key.k.port < cnat_static_port_range) goto next_entry; - - u16 bm_index = PORT_TO_CACHE(db->out2in_key.k.port, bulk_size); - - /*Check if we have already tested this bulk */ - for(i=0; i < printed_so_far; i++) { - if(prev_bulks[i] == bm_index) goto next_entry; - } - - /*Check if this base port is already part of cache */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(CACHE_ENTRY_WITHOUT_FULL_STAT(udb->bulk_port_range_cache[i]) - == bm_index) { - goto next_entry; - } - } - /* this is not in chache already */ - PLATFORM_DEBUG_PRINT("%d ", CACHE_TO_PORT(bm_index, bulk_size)); - if(printed_so_far < NUM_BULK_CHECK) { - prev_bulks[printed_so_far] = bm_index; - printed_so_far++; - } - -next_entry: - db = cnat_main_db + db->user_ports.next; - /* - * its a circular list, so if we have reached the head again - * all the entries for that user have been read - */ - if (db == (cnat_main_db + head)) { - break; - } - } /* while loop for db entries */ - - PLATFORM_DEBUG_PRINT("\n"); - return; -} - -void show_bulk_port_stats() -{ - - cnat_vrfmap_t *my_vrfmap = 0; - PLATFORM_DEBUG_PRINT("Bulk size settings of each inside vrf ...\n"); - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - PLATFORM_DEBUG_PRINT("vrf id %d, bulk size %d\n", my_vrfmap->i_vrf, - BULKSIZE_FROM_VRFMAP(my_vrfmap)); - })); - -#ifdef HAVE_BULK_PORT_STATS - PLATFORM_DEBUG_PRINT("\nBulk port allocation, use and cache hit statistics\n"); - PLATFORM_DEBUG_PRINT("Number of times bulk ports allocated %lld\n", - bulk_port_alloc_count); - PLATFORM_DEBUG_PRINT("Number of times pre-allocated ports used %lld\n", - bulk_port_use_count); - PLATFORM_DEBUG_PRINT( - "Number of times pre-allocated bulk port found from cache %lld\n", - bulk_cache_hit_count); - PLATFORM_DEBUG_PRINT( - "Number of times mapped port (static) allocations made %lld\n", - mapped_port_alloc_count); -#else - PLATFORM_DEBUG_PRINT("\nNat44 bulk port statistics not turned on\n"); -#endif /* HAVE_BULK_PORT_STATS */ -} - -void clear_bulk_port_stats() -{ -#ifdef HAVE_BULK_PORT_STATS - bulk_port_alloc_count = 0; - bulk_port_use_count = 0; - bulk_cache_hit_count = 0; - mapped_port_alloc_count = 0; -#endif /* HAVE_BULK_PORT_STATS */ - return; -} - -void cnat_update_bulk_range_cache(cnat_user_db_entry_t *udb, u16 o_port, - bulk_alloc_size_t bulk_size) -{ - i16 i; - if(!udb) { -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("%s, null udb!\n", __func__); -#endif - return; - } - if(BULK_ALLOC_SIZE_NONE == bulk_size) { /* no bulk logging */ - return; - } - - /* Take care of caching */ - if(o_port & 0x1) { - o_port--; - } - if(PREDICT_FALSE(o_port <= 0)) { -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("%s invalid port: %d\n", __func__, o_port); -#endif - return; - } - - /* First preference is for the cache entry's that are not used yet */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(PREDICT_FALSE( - udb->bulk_port_range_cache[i] == (i16)BULK_RANGE_INVALID)) { - udb->bulk_port_range_cache[i] = PORT_TO_CACHE(o_port, bulk_size); - return; - } - } - - /* Now check if any cache entry is full and if it can be replaced */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(PREDICT_FALSE(IS_CACHE_ENTRY_FULL(udb->bulk_port_range_cache[i]))) { - udb->bulk_port_range_cache[i] = PORT_TO_CACHE(o_port, bulk_size); - return; - } - } - - return; -} - - -void cnat_port_free_v2_bulk ( - cnat_portmap_v2_t *pm, - int index, - port_pair_t ptype, - u16 base_port, - cnat_user_db_entry_t *udb, - u16 static_port_range, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req) -{ - cnat_portmap_v2_t *my_pm; - i16 bm_index; - i16 i; - int unmark_full_status = 0; - - *nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; - - /* First free up the port */ - cnat_port_free_v2(pm, index, ptype, base_port, static_port_range); - if(BULK_ALLOC_SIZE_NONE == bulk_size) /* no bulk logging */ - return; - if(PREDICT_FALSE(!udb)) { -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("%s udb is null\n", __func__); -#endif - } - - if(PREDICT_FALSE(base_port < static_port_range)) { - return; - } - /* Now check if cache needs to be removed */ - my_pm = pm + index; - base_port = base_port/bulk_size; - base_port = base_port * bulk_size; /*Align it to multiples of bulk_size */ - if(PREDICT_TRUE(!cgn_clib_bitmap_check_if_all( - my_pm->bm, base_port, bulk_size))) { - *nfv9_log_req = CACHE_ALLOC_NO_LOG_REQUIRED; - unmark_full_status = 1; - /* One or more ports are still in use */ - } else { - *nfv9_log_req = base_port; /* logging required now. indicate base port*/ - } - bm_index = PORT_TO_CACHE(base_port, bulk_size); - /* Now check if this is in the cache */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(PREDICT_FALSE( - CACHE_ENTRY_WITHOUT_FULL_STAT(udb->bulk_port_range_cache[i])) - == bm_index) { - if(unmark_full_status) { - /* Unmark full stat.. if it was marked so..*/ - UNMARK_CACHE_ENTRY_AS_FULL(udb->bulk_port_range_cache[i]); - } else { - udb->bulk_port_range_cache[i] = (i16)BULK_RANGE_INVALID; -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT( - "Clearing cache for client 0x%x, bulk port %d\n", - my_pm->ipv4_address, base_port); -#endif - } - break; - } - } - return; -} - - -/* Get suitable port from range */ -static i16 get_suiting_port_pos_from_range(cnat_portmap_v2_t *my_pm, - u16 bulk_start, i16 bulk_size, port_pair_t pair_type) -{ - i16 num_pos = 0, num_bits, iterations; - uword bulk_ports; - i16 inc = 0; - i16 num_uwords = bulk_size/BITS(my_pm->bm[0]); - - if(PREDICT_FALSE(!num_uwords)) { - iterations = 0; - num_bits = bulk_size; - bulk_size = 0; - } else { - bulk_port_rand_across = randq1(bulk_port_rand_across); - iterations = bulk_port_rand_across % num_uwords; - num_bits = BITS(my_pm->bm[0]); - } - - do { - bulk_ports = cgn_clib_bitmap_get_bits(my_pm->bm, - (bulk_start + iterations * BITS(my_pm->bm[0])), num_bits); -#ifdef DEBUG_BULK_PORT_DETAIL - PLATFORM_DEBUG_PRINT("%s %d, bulk start %d, num_bits %d, ports %lld \n", - __func__, __LINE__, bulk_start, num_bits, bulk_ports); -#endif /* DEBUG_BULK_PORT_DETAIL */ - if(PREDICT_FALSE(!bulk_ports)) goto next_uword; - if(PREDICT_TRUE((pair_type == PORT_SINGLE) - || (pair_type == PORT_PAIR))) { - num_pos =0; - inc = 1; - } else if(pair_type == PORT_S_ODD) { - num_pos = 1; - inc = 2; - } else if(pair_type == PORT_S_EVEN) { - num_pos =0; - inc = 2; - } - - for(; num_pos < num_bits; num_pos = num_pos + inc) { - if(!((bulk_ports >> num_pos) & 1)) - continue; /* In use */ - /* Check if the available port meets our - * criteria such as add, even, pair etc */ - else if(PREDICT_FALSE( - (pair_type == PORT_PAIR) && ((num_pos & 0x1) || - (!((bulk_ports >> (num_pos + 1)) & 1))))) - continue; - else break; /* Found one that meets the criteria */ - } - if(num_pos < num_bits) - return (num_pos + iterations * BITS(my_pm->bm[0])); -next_uword: - num_bits = BITS(my_pm->bm[0]); - bulk_size -= BITS(my_pm->bm[0]); - iterations++; - if(iterations >= num_uwords) iterations = 0; - } while (bulk_size > 0); - - return -2; /* nothing found */ -} - -static cnat_errno_t try_bulk_port_from_non_cache( - cnat_user_db_entry_t *udb, - cnat_portmap_v2_t *my_pm, - port_pair_t pair_type, - bulk_alloc_size_t bulk_size, - u16 *port_available, - u16 static_port_range - ) -{ - /**** - 1. user should have existing translations.. otherwise, we wouldn't get here. - 2. For each, get the outside port. get the base port. - check if it is already in cache - 3. if not, we stand chance. - 4. Check for availability from this non cached pool. - 5. if found, repalce this with one of the cache that is invalid or full?? - 6. if we are replacing the cache.. it has to be governed by user - preference on prefer oldest pool or prefer newest pool - ********/ - u32 head; - cnat_main_db_entry_t *db = NULL; - u16 bulk_start; /* start point in 64 bitmap array to search for port */ - i16 port_pos; /* indicates the position of available port in bulk */ - i16 i; /* just a counter */ - i16 attempts_so_far = 0; /* (futile-;) attemps so far..*/ - u16 prev_bulks[NUM_BULK_CHECK]; - ASSERT(udb); - memset(prev_bulks, 0,sizeof(prev_bulks)); - - head = udb->translation_list_head_index; - if(PREDICT_FALSE(head == EMPTY)) return CNAT_NO_PRE_ALLOCATED_BULK_PORTS; - - db = cnat_main_db + head; - while (1) { //what should be the limit?? - - /* skip static ports - static ports may not belong to bulk pool*/ - if(db->out2in_key.k.port < static_port_range) goto next_entry; - - u16 bm_index = PORT_TO_CACHE(db->out2in_key.k.port, bulk_size); - - /*Check if we have already tested this bulk */ - for(i=0; i < attempts_so_far; i++) { - if(prev_bulks[i] == bm_index) { - goto next_entry; - } - } - - /*Check if this base port is already part of cache */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(CACHE_ENTRY_WITHOUT_FULL_STAT(udb->bulk_port_range_cache[i]) - == bm_index) - goto next_entry; - } - - /* this is not in chache already */ - bulk_start = CACHE_TO_PORT(bm_index, bulk_size); - port_pos = get_suiting_port_pos_from_range(my_pm, - bulk_start, bulk_size, pair_type); - - if(port_pos < 0) { /* no port available in this range */ - /* Mark this bulk so that we don't have to try this again */ - if(attempts_so_far < NUM_BULK_CHECK) { - prev_bulks[attempts_so_far] = bm_index; - attempts_so_far++; - } - goto next_entry; - } - - /* Got one...Get the port number */ - *port_available = bulk_start + port_pos; - - /* Check to see if we shoud replace one of the cache */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(PREDICT_FALSE((udb->bulk_port_range_cache[i] - == (i16)BULK_RANGE_INVALID) || ( - IS_CACHE_ENTRY_FULL(udb->bulk_port_range_cache[i])))) { - udb->bulk_port_range_cache[i] = bm_index; - return CNAT_SUCCESS; - } - } - /* Check to replace an existing (in use) entry */ - /* TODO: enforce policy */ - /* order of looping should depend on policy */ - - return CNAT_SUCCESS; - -next_entry: - db = cnat_main_db + db->user_ports.next; - /* - * its a circular list, so if we have reached the head again - * all the entries for that user have been read - */ - if (db == (cnat_main_db + head)) { - break; - } - } /* while loop for db entries */ - /* no ports available from pre allocated bulk pool */ - return CNAT_NO_PORT_FROM_BULK; -} - -cnat_errno_t -cnat_dynamic_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u16 ip_n_to_1, - u32 *rseed_ip - ) -{ - - cnat_errno_t rv; - u16 port_available = 0; - i16 i; - cnat_portmap_v2_t *my_pm; - - if((BULK_ALLOC_SIZE_NONE != bulk_size) /* bulk logging enabled */ - && (udb)) { /* This user does have translations already */ - u16 bulk_start; - i16 port_pos; - - my_pm = pm + *index; - /* We have a case to check if bulk allocated ports can be used */ - /* TODO: order of looping to be based on policy - * like prefer older or prefer newer ?? - * For now, start with most recent cache entry - * so that we stand a better chance of - * finding a port - */ - for(i= 0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(PREDICT_TRUE((udb->bulk_port_range_cache[i] == - (i16)BULK_RANGE_INVALID) || - IS_CACHE_ENTRY_FULL(udb->bulk_port_range_cache[i]))) { - continue; /* This range is not initialized yet or it is full */ - } - bulk_start = CACHE_TO_PORT(udb->bulk_port_range_cache[i], - bulk_size); - port_pos = get_suiting_port_pos_from_range(my_pm, - bulk_start, bulk_size, pair_type); - if(PREDICT_FALSE(port_pos < 0)) { - /* Mark this cache entry as full so that we do not - * waste time on this entry again */ - MARK_CACHE_ENTRY_AS_FULL(udb->bulk_port_range_cache[i]); -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("Marked bulk cache entry %d as full for %x \n", - i, my_pm->ipv4_address); -#endif /* #ifdef DEBUG_BULK_PORT */ - continue; - } - /* Get the port number */ - port_available = bulk_start+ port_pos; -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT( - "Found port from cache : IP 0x%x, port %d %d iterations\n", - my_pm->ipv4_address, port_available, i) -#endif -#ifdef HAVE_BULK_PORT_STATS - bulk_cache_hit_count++; -#endif /* HAVE_BULK_PORT_STATS */ - break; - } /* end of for loop for cache check */ - /* If we have not found a port yet, check if we can have - * pre allocated bulk port from non-cache */ - if(PREDICT_FALSE(i == BULK_RANGE_CACHE_SIZE)) { - if( try_bulk_port_from_non_cache(udb, my_pm, pair_type, - bulk_size, &port_available, - static_port_range) != CNAT_SUCCESS ) { - goto ALLCOATE_NEW_BULK; - } -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("Found port from non-cache : IP 0x%x, port %d\n", - my_pm->ipv4_address, port_available); -#endif - } - /* Assign the port, mark it as in use */ - cgn_clib_bitmap_clear_no_check(my_pm->bm, port_available); - (my_pm->inuse)++; - if(PREDICT_FALSE(pair_type == PORT_PAIR)) {/* Mark the next one too */ - cgn_clib_bitmap_clear_no_check(my_pm->bm, port_available + 1); - (my_pm->inuse)++; - } - *o_ipv4_address = my_pm->ipv4_address; - *o_port = port_available; - *nfv9_log_req = CACHE_ALLOC_NO_LOG_REQUIRED; -#ifdef HAVE_BULK_PORT_STATS - bulk_port_use_count++; -#endif /* HAVE_BULK_PORT_STATS */ - return (CNAT_SUCCESS); - } -ALLCOATE_NEW_BULK: -#ifdef DEBUG_BULK_PORT - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - PLATFORM_DEBUG_PRINT( - "No port available from bulk cache, bulk size %d\n", bulk_size); - } -#endif - /* For whatever reason, we have not got a port yet */ - rv = cnat_dynamic_port_alloc_v2(pm, atype, pair_type, index, - o_ipv4_address, o_port, static_port_range, bulk_size, nfv9_log_req, - ip_n_to_1, rseed_ip); - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - return rv; - } - /* Take care of caching */ - if(PREDICT_FALSE(udb != NULL)) { - /* Predict false because, we usually allocate for new users */ - cnat_update_bulk_range_cache(udb, *o_port, bulk_size); - } -#ifdef HAVE_BULK_PORT_STATS - bulk_port_alloc_count++; -#endif /* HAVE_BULK_PORT_STATS */ - return (CNAT_SUCCESS); -} - - -cnat_errno_t -cnat_static_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 i_ipv4_address, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u16 ip_n_to_1 - ) -{ - - /*** - * Requirements - - * 1. If the port allocated is below dyn start, it should be individual - * port (not bulk) - * 2. If NOT, it should be bulk allocated - * 3. Try and keep the inside port same as outside port in both the - * cases (best effort) - - * Algorithm - * 1. Check if it is below stat port start or user is new or bulk is - * disabled. If yes, call existing function - * 2. If not, see if we can pick from bulk and yet try to keep the port - * same - difficult thing - check if the port is free - then check if the - * entire bulk is free - if not check if bulk is owned by the user already. - * If all of these fail, call existing function to allocate a new bulk - * 3. Update cache, etc return log requirements - *****/ - - cnat_errno_t rv; - i16 i; - u32 head; - cnat_portmap_v2_t *my_pm; - uword bit_test_result, start_bit; - cnat_main_db_entry_t *db = NULL; - - if((BULK_ALLOC_SIZE_NONE != bulk_size) /* bulk logging enabled */ - && (udb) && /* This user does have translations already */ - i_port >= static_port_range ) { /* It is outside stat port range*/ - - my_pm = pm + *index; - /* We have a case to check if bulk allocated ports can be used */ - - /* First check if the required port is available. */ - if(PREDICT_FALSE(clib_bitmap_get_no_check(my_pm->bm, i_port) == 0)) { - goto ALLOCATE_NEW_BULK_STATIC; - } - - /* Port is free.. check if the bulk is also free */ - start_bit= ((i_port/bulk_size) * bulk_size); - bit_test_result = cgn_clib_bitmap_check_if_all(my_pm->bm, - start_bit, bulk_size); - if(PREDICT_TRUE(bit_test_result)) { /* bulk is available, grab it */ - goto ALLOCATE_NEW_BULK_STATIC; - } - - /* else, bulk is taken by someone. check if it is me */ - /* Check if we own the bulk by any chance */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(udb->bulk_port_range_cache[i] == start_bit) break; - } - if(i == BULK_RANGE_CACHE_SIZE) { /* no luck with cache */ - head = udb->translation_list_head_index; - if(PREDICT_FALSE(head == EMPTY)) - goto ALLOCATE_NEW_BULK_STATIC; - db = cnat_main_db + head; - i = 0; - while(1) { - if((db->out2in_key.k.port/bulk_size) * bulk_size == start_bit) { - i = 1; /* Just to indicate it is found */ - break; - } - db = cnat_main_db + db->user_ports.next; - /* - * its a circular list, so if we have reached the head again - * all the entries for that user have been read - */ - if (db == (cnat_main_db + head)) break; - } /* while loop for db entries */ - if(!i) { - goto ALLOCATE_NEW_BULK_STATIC; - } - } - /* Assign the port, mark it as in use */ - cgn_clib_bitmap_clear_no_check(my_pm->bm, i_port); - (my_pm->inuse)++; - *o_ipv4_address = my_pm->ipv4_address; - *o_port = i_port; - *nfv9_log_req = CACHE_ALLOC_NO_LOG_REQUIRED; -#ifdef HAVE_BULK_PORT_STATS - bulk_port_use_count++; -#endif /* HAVE_BULK_PORT_STATS */ - -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("%s, %d, found stat port from bulk: %x, %d\n", - __func__, - __LINE__, *o_ipv4_address, *o_port); -#endif /* DEBUG_BULK_PORT */ - return (CNAT_SUCCESS); - } - -ALLOCATE_NEW_BULK_STATIC: -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("%s No port available from bulk cache, bulk size %d\n", - __func__,bulk_size); -#endif - /* For whatever reason, we have not got a port yet */ - rv = cnat_static_port_alloc_v2(pm, atype, pair_type, i_ipv4_address, - i_port, index, o_ipv4_address, o_port, static_port_range, - bulk_size, nfv9_log_req,ip_n_to_1); - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - return rv; - } - /* Take care of caching only if it was a bulk alloc */ - if(PREDICT_FALSE(udb && (BULK_ALLOC_NOT_ATTEMPTED != *nfv9_log_req))) { - cnat_update_bulk_range_cache(udb, *o_port, bulk_size); - } -#ifdef HAVE_BULK_PORT_STATS - bulk_port_alloc_count++; -#endif /* HAVE_BULK_PORT_STATS */ - return (CNAT_SUCCESS); - -} - -cnat_errno_t -cnat_mapped_static_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - u32 *index, - u32 ipv4_address, - u16 port, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u16 ip_n_to_1 - ) -{ - /* Requirements : - * 1. Check if bulk allocation is required. - * 2. Call cnat_mapped_static_port_alloc_v2 to allocate - * 3. Decide if alloc has to be cached - * 4. Update nfv9_log_req - */ - cnat_errno_t rv; - rv = cnat_mapped_static_port_alloc_v2 (pm, - atype, index, ipv4_address, port, nfv9_log_req, bulk_size, ip_n_to_1); - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - return rv; - } - /* Take care of caching only if it was a bulk alloc */ - if(PREDICT_FALSE(udb && (BULK_ALLOC_NOT_ATTEMPTED != *nfv9_log_req))) { - int i; - port = port*bulk_size; - port = port/bulk_size; /* align it to bulk size boundary */ - for(i=0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(CACHE_ENTRY_WITHOUT_FULL_STAT(udb->bulk_port_range_cache[i]) - == PORT_TO_CACHE(port, bulk_size)) - break; - } - if( i == BULK_RANGE_CACHE_SIZE) { /* else, it is alredy in cache */ - cnat_update_bulk_range_cache(udb, port, bulk_size); - } - } -#ifdef HAVE_BULK_PORT_STATS - mapped_port_alloc_count++; -#endif /* HAVE_BULK_PORT_STATS */ - return (CNAT_SUCCESS); -} - - -cnat_errno_t -cnat_dynamic_port_alloc_rtsp_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u32 *rseed_ip) -{ - - /*** - * Algorithm - * 1. Compute the range of ports required based on the number of digits - * in the port request made by the client. - * 2. Check if bulk logging is enabled. If not, use the existing method. - * 3. Check if there are 2 adjacent ports available that meet the above - * criteria in any of the bulk allocations made already. - * 4. If yes, mark them in use and return. - * 5. If not allocate a new bulk and pick 2 ports in it - ***/ - - i16 i; - cnat_portmap_v2_t *my_pm = 0; - u32 start_port1, end_port1, start_port2, end_port2; - int range_loop; - u16 bulk_start; - i16 port_pos; - u16 port_available = 0; - - ASSERT(index); - ASSERT(o_ipv4_address); - ASSERT(o_port); - - /* - * Check if the port is 4 digit or 5 digit. I am assuming we are - * not getting 3 (or 2 or 1) digit ports, which we cannot anyway - * allocate same sized outside ports - as outside ports start from 1024 - * - * Static Port has its own reserved range. Ensure that the range is - * such that atleast few 4 digit ports are available for RTSP. If - * not it does not make sense to do special allocation for RTSP. - */ - if (PREDICT_TRUE(static_port_range < MIN_STATIC_PORT_RANGE_FOR_RTSP)) { - /* - * 4 digit port or less - */ - if (i_port <= 9999) { - start_port1 = static_port_range; - end_port1 = 9999; - - start_port2 = 10000; - end_port2 = PORTS_PER_ADDR - 1; - } else { /* 5 digit port */ - start_port1 = 10000; - end_port1 = PORTS_PER_ADDR - 1; - - start_port2 = static_port_range; - end_port2 = 9999; - } - } else { /* Static port range is too big */ - start_port1 = static_port_range; - end_port1 = PORTS_PER_ADDR - 1; - - /* - * PORTS_PER_ADDR is just a placeholder for - * INVALID_PORT, valid ports are b/w 1 and PORTS_PER_ADDR - */ - start_port2 = PORTS_PER_ADDR; - end_port2 = PORTS_PER_ADDR; - } - - - if(PREDICT_TRUE(udb != NULL)) { - my_pm = pm + *index; - } - - /* Now check if this user already owns a bulk range that is - * within start range 1 - */ - - u32 start_range = start_port1; - u32 end_range = end_port1; - for(range_loop = 0; range_loop < 2; range_loop++) { - if((BULK_ALLOC_SIZE_NONE == bulk_size) || (!udb)) { - goto ALLOCATE_NEW_RTSP_PORTS; - } - for(i= 0; i < BULK_RANGE_CACHE_SIZE; i++) { - if(PREDICT_TRUE((udb->bulk_port_range_cache[i] == - (i16)BULK_RANGE_INVALID) || - IS_CACHE_ENTRY_FULL(udb->bulk_port_range_cache[i]))) { - continue; /* This range is not initialized yet or it is full */ - } - - bulk_start = CACHE_TO_PORT(udb->bulk_port_range_cache[i], - bulk_size); - if(bulk_start < start_port1 || bulk_start >= end_port1) { - continue; /* Not in the range */ - } - - port_pos = get_suiting_port_pos_from_range(my_pm, - bulk_start, bulk_size, pair_type); - if(PREDICT_FALSE(port_pos < 0)) { - /* Not Marking this cache entry as full as it failed - * for pair type. It might have individual entries - */ - continue; - } - /* Get the port number */ - port_available = bulk_start+ port_pos; -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT( - "Found port from cache : IP 0x%x, port %d %d iterations\n", - my_pm->ipv4_address, port_available, i) -#endif -#ifdef HAVE_BULK_PORT_STATS - bulk_cache_hit_count += 2; -#endif /* HAVE_BULK_PORT_STATS */ - break; - } /* end of for loop for cache check */ - - if(PREDICT_FALSE(i == BULK_RANGE_CACHE_SIZE)) { - /* we have not found a port yet, but to do not want to try - * non-cache bulks.. because, it is a very low probability and - * do not want to tweak that code for this special case - * The impact of non checking the non-cache is, we give this - * user few extra ports .. which is OK - */ - goto ALLOCATE_NEW_RTSP_PORTS; - } -#ifdef DEBUG_BULK_PORT - PLATFORM_DEBUG_PRINT("RTSP: Found port from non-cache : IP 0x%x, port %d\n", - my_pm->ipv4_address, port_available); -#endif - - /* Assign the port, mark it as in use */ - cgn_clib_bitmap_clear_no_check(my_pm->bm, port_available); - (my_pm->inuse)++; - cgn_clib_bitmap_clear_no_check(my_pm->bm, port_available + 1); - (my_pm->inuse)++; - - *o_ipv4_address = my_pm->ipv4_address; - *o_port = port_available; - *nfv9_log_req = CACHE_ALLOC_NO_LOG_REQUIRED; -#ifdef HAVE_BULK_PORT_STATS - bulk_port_use_count += 2; -#endif /* HAVE_BULK_PORT_STATS */ - return (CNAT_SUCCESS); - -ALLOCATE_NEW_RTSP_PORTS: - /* No luck. Let's try allocating new bulk.. */ - if(PREDICT_TRUE(CNAT_SUCCESS == cnat_dynamic_port_alloc_rtsp - (pm, atype, pair_type, - start_range, end_range,index, o_ipv4_address, - o_port, bulk_size, nfv9_log_req,rseed_ip))) { - if(PREDICT_FALSE(udb && - (BULK_ALLOC_NOT_ATTEMPTED != *nfv9_log_req))) { - cnat_update_bulk_range_cache(udb, *o_port, bulk_size); - } -#ifdef HAVE_BULK_PORT_STATS - bulk_port_alloc_count++; -#endif /* HAVE_BULK_PORT_STATS */ - return CNAT_SUCCESS; - } - - /* Could not allocate in range 1.. so move to range 2. */ - start_range = start_port2; - end_range = end_port2; - - } - - return (CNAT_NOT_FOUND_DIRECT); /* if we are here, we could not get any ports */ - -} - -#else /* Dummy definitions */ -void show_bulk_port_stats() -{ - PLATFORM_DEBUG_PRINT("\nBulk logging feature not included\n"); -} - - void clear_bulk_port_stats() -{ - PLATFORM_DEBUG_PRINT("\nBulk logging feature not included\n"); -} -#endif /* NO_BULK_LOGGING */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_bulk_port.h b/plugins/vcgn-plugin/vcgn/cnat_bulk_port.h deleted file mode 100644 index 3e48b9a7794..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_bulk_port.h +++ /dev/null @@ -1,157 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_bulk_port_defs.h bulk port alloc definitions - * - * Copyright (c) 2011-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_BULK_PORT_H__ -#define __CNAT_BULK_PORT_H__ - -#ifndef NO_BULK_LOGGING -#include "cnat_bulk_port_defs.h" - -cnat_errno_t -cnat_dynamic_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u16 ip_n_to_1, - u32 *rseed_ip); - -void cnat_update_bulk_range_cache(cnat_user_db_entry_t *udb, u16 o_port, - bulk_alloc_size_t bulk_size); - -void cnat_port_free_v2_bulk ( - cnat_portmap_v2_t *pm, - int index, - port_pair_t ptype, - u16 base_port, - cnat_user_db_entry_t *udb, - u16 static_port_range, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req); - -cnat_errno_t cnat_static_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 i_ipv4_address, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u16 ip_n_to_1 - ); - -cnat_errno_t cnat_dynamic_port_alloc_rtsp_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u32 *rseed_ip); - -cnat_errno_t -cnat_mapped_static_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - u32 *index, - u32 ipv4_address, - u16 port, - cnat_user_db_entry_t *udb, - bulk_alloc_size_t bulk_size, - int *nfv9_log_req, - u16 ip_n_to_1 - ); - -#else /* NO_BULK_LOGGING */ -/* use older code */ -inline cnat_errno_t -cnat_dynamic_port_alloc_v2_bulk ( - cnat_vrfmap_t *vrf_map, - port_alloc_t atype, - port_pair_t pair_type, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range, - u16 ip_n_to_1, - u32 *rseed_ip - ) -{ - return cnat_dynamic_port_alloc_v2(vrf_map->portmap_list, atype, - pair_type, index, o_ipv4_address, o_port, static_port_range, - ip_n_to_1, rseed_ip); -} - -inline void cnat_port_free_v2_bulk ( - cnat_portmap_v2_t *pm, - int index, - port_pair_t ptype, - u16 base_port, - cnat_user_db_entry_t *udb, - u16 static_port_range); -{ - return cnat_port_free_v2(pm, index, ptype, base_port, - static_port_range); -} - -inline cnat_errno_t cnat_static_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 i_ipv4_address, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range) -{ - return cnat_static_port_alloc_v2 (pm, atype, pair_type, - i_ipv4_address, i_port, index, o_ipv4_address, o_port); -} - -inline cnat_errno_t -cnat_mapped_static_port_alloc_v2_bulk ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - u32 *index, - u32 ipv4_address, - u16 port) -{ - return cnat_mapped_static_port_alloc_v2(pm, atype, index - ipv4_address, port); -} - -#endif /* NO_BULK_LOGGING */ -#endif /* __CNAT_BULK_PORT_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_bulk_port_defs.h b/plugins/vcgn-plugin/vcgn/cnat_bulk_port_defs.h deleted file mode 100644 index edb47b0a8e1..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_bulk_port_defs.h +++ /dev/null @@ -1,57 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_bulk_port_defs.h bulk port alloc definitions - * - * Copyright (c) 2011 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_BULK_PORT_DEFS_H__ -#define __CNAT_BULK_PORT_DEFS_H__ - - -#ifndef NO_BULK_LOGGING - -typedef enum { - BULK_ALLOC_SIZE_NONE = 1, - BULK_ALLOC_SIZE_16 = 16, - BULK_ALLOC_SIZE_32 = 32, - BULK_ALLOC_SIZE_64 = 64, - BULK_ALLOC_SIZE_128 = 128, - BULK_ALLOC_SIZE_256 = 256, - BULK_ALLOC_SIZE_512 = 512, - BULK_ALLOC_SIZE_1024 = 1024, - BULK_ALLOC_SIZE_2048 = 2048, - BULK_ALLOC_SIZE_4096 = 4096 -} bulk_alloc_size_t; - -/* #define DEBUG_BULK_PORT 1 TODO: remove this later */ - -#define CACHE_ALLOC_NO_LOG_REQUIRED -1 -#define BULK_ALLOC_NOT_ATTEMPTED -2 - -#define BULK_RANGE_INVALID 0xFFFF -#define BULK_RANGE_CACHE_SIZE 4 - -#define BULKSIZE_FROM_VRFMAP(vrfmap) ((vrfmap)->bulk_size) - -#define INIT_BULK_CACHE(udb) \ - { \ - int i; \ - for(i =0; i < BULK_RANGE_CACHE_SIZE; i++) \ - (udb)->bulk_port_range_cache[i] = (i16)BULK_RANGE_INVALID; \ - } - -#endif /* NO_BULK_LOGGING */ -#endif /* __CNAT_BULK_PORT_DEFS_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_cli.h b/plugins/vcgn-plugin/vcgn/cnat_cli.h deleted file mode 100644 index e9d190a577a..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_cli.h +++ /dev/null @@ -1,206 +0,0 @@ -/* *------------------------------------------------------------------ - * cnat_cli.h - CLI definitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_CLI_H__ -#define __CNAT_CLI_H__ - -#include "cnat_config_api.h" -#include "cnat_show_api.h" - -/* from iox cli error */ -typedef enum { - CNAT_SUCCESS = 0, - CNAT_NO_CONFIG, - CNAT_NO_VRF_RUN, - CNAT_NO_POOL_ANY, - CNAT_NO_PORT_ANY, -#ifndef NO_BULK_LOGGING - CNAT_NO_PORT_FROM_BULK, - CNAT_NO_PRE_ALLOCATED_BULK_PORTS, -#endif /* NO_BULK_LOGGING */ - CNAT_BAD_INUSE_ANY, - CNAT_NOT_FOUND_ANY, - CNAT_INV_PORT_DIRECT, - CNAT_DEL_PORT_DIRECT, - CNAT_BAD_INUSE_DIRECT, - CNAT_NOT_FOUND_DIRECT, - CNAT_OUT_LIMIT, - CNAT_MAIN_DB_LIMIT, - CNAT_USER_DB_LIMIT, - CNAT_NOT_STATIC_PORT, - CNAT_BAD_STATIC_PORT_REQ, - CNAT_NOT_THIS_CORE, - CNAT_ERR_PARSER, - CNAT_ERR_INVALID_MSG_ID, - CNAT_ERR_INVALID_MSG_SIZE, - CNAT_ERR_INVALID_PAYLOAD_SIZE, - CNAT_ERR_BAD_TCP_UDP_PORT, - CNAT_ERR_BULK_SINGLE_FAILURE, - CNAT_ERR_XLAT_ID_INVALID, - CNAT_ERR_XLAT_V6_PREFIX_INVALID, - CNAT_ERR_XLAT_V4_PREFIX_INVALID, - CNAT_ERR_XLAT_TCP_MSS_INVALID, - CNAT_ERR_6RD_ID_INVALID, - CNAT_ERR_6RD_V4_TUNNEL_SRC_INVALID, - CNAT_ERR_6RD_V6_PREFIX_INVALID, - CNAT_ERR_6RD_V6_BR_UNICAST_INVALID, - CNAT_ERR_6RD_V4_PREFIX_MASK_LEN_INVALID, - CNAT_ERR_6RD_V4_SUFFIX_MASK_LEN_INVALID, - CNAT_ERR_6RD_V4_COMBO_MASK_LEN_INVALID, - CNAT_ERR_6RD_TUNNEL_MTU_INVALID, - CNAT_ERR_6RD_TUNNEL_TTL_INVALID, - CNAT_ERR_6RD_TUNNEL_TOS_INVALID, - CNAT_ERR_NAT64_NO_VRF_RUN, - CNAT_ERR_NAT64_ID_INVALID, - CNAT_ERR_NAT64_V6_PREFIX_INVALID, - CNAT_ERR_NAT64_V4_PREFIX_INVALID, - CNAT_ERR_NAT64_TCP_MSS_INVALID, -#ifdef CGSE_DS_LITE - CNAT_ERR_DS_LITE_ID_INVALID, -#endif /* CGSE_DS_LITE */ - CNAT_ERR_NO_SESSION_DB, - CNAT_ERR_MAPE_ID_INVALID, - CNAT_ERR_MAX -} cnat_errno_t; - -#define CNAT_TRUE 1 -#define CNAT_FALSE 0 - - -#define CNAT_DEBUG_NONE (0) -#define CNAT_DEBUG_GLOBAL_ERR (1 << 0) -#define CNAT_DEBUG_DROP_TCP (1 << 0) -#define CNAT_DEBUG_DROP_UDP (1 << 1) -#define CNAT_DEBUG_DROP_ICMP (1 << 2) -#define CNAT_DEBUG_ERR_TCP (1 << 3) -#define CNAT_DEBUG_ERR_UDP (1 << 4) -#define CNAT_DEBUG_ERR_ICMP (1 << 5) -#define CNAT_DEBUG_ERR_ALG (1 << 6) -#define CNAT_DEBUG_GLOBAL_ALL (1 << 7) -#define CNAT_DEBUG_FTP_ALG (1 << 8) - - - -#define CNAT_DEBUG_ALL 0x1FF /*all of above*/ -#define CNAT_DEBUG_ERR_ALL 0x38 - -#define CNAT_DB_CLEAR_SPECIFIC (0) -#define CNAT_DB_CLEAR_ALL (1 << 0) -#define CNAT_DB_CLEAR_VRF (1 << 1) -#define CNAT_DB_CLEAR_ADDR (1 << 2) -#define CNAT_DB_CLEAR_PROTO (1 << 3) -#define CNAT_DB_CLEAR_PORT (1 << 4) - - -#define MAX_UIDX 0x3fff /*the max svi app uidb index */ -/* address mask per core */ -#define ADDR_MASK_PER_CORE PLATFORM_ADDR_MASK_PER_CORE -#define ADDR_MASK_PER_CORE_PER_PARTITION \ - PLATFORM_ADDR_MASK_PER_CORE_PER_PARTITION - -#define MAX_CORES PLATFORM_MAX_CORES -#define MAX_CORES_PER_PARTITION PLATFORM_MAX_CORES_PER_PARTITION - -/* - * Maximum pool size that is supported by platform - */ -#define CNAT_MAX_ADDR_POOL_SIZE PLATFORM_CNAT_MAX_ADDR_POOL_SIZE -#define CNAT_MAX_ADDR_POOL_SIZE_PER_CORE \ - (CNAT_MAX_ADDR_POOL_SIZE / MAX_CORES_PER_PARTITION) - -#define BOUNDARY_VALUE 256 - -#define BOUNDARY_VALUE_MASK 0xff - -#define NUM_ADDR_IN_RANGE(range, value, instance) \ - ((range / value) + ((instance % MAX_CORES_PER_PARTITION) < (range%value) ? 1 : 0)) - -typedef enum { - CNAT_DEBUG_FLAGS_DUMP = 0, - CNAT_DEBUG_FLAG_UDP_INSIDE_CHECKSUM_DISABLE, - CNAT_DEBUG_FLAG_UDP_OUTSIDE_CHECKSUM_DISABLE, - CNAT_DEBUG_FLAG_UDP_OUTSIDE_PKT_DUMP_ENABLE, - CNAT_DEBUG_FLAG_UDP_INSIDE_PKT_DUMP_ENABLE, - CNAT_DEBUG_FLAG_ICMP_PKT_DUMP_ENABLE, - CNAT_DEBUG_FLAG_FRAG_PKT_DUMP_ENABLE, - CNAT_DEBUG_FLAG_CONFIG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_GLOBAL_DEBUG_ALL_ENABLE, - CNAT_DEBUG_FLAG_SUMMARY_STATS_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_SHOW_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_XLAT_CONFIG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_XLAT_DATA_PATH_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_TCP_LOGGING_ENABLE, - CNAT_DEBUG_FLAG_NFV9_LOGGING_DUMP_ENABLE, - CNAT_DEBUG_FLAG_SYSLOG_LOGGING_DUMP_ENABLE, - CNAT_DEBUG_SET_STATIC_PORT_RANGE, - CNAT_DEBUG_FLAG_V6RD_DATA_PATH_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_V6RD_CONFIG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_V6RD_DEFRAG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_NAT64_CONFIG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_NAT64_DATA_PATH_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_DSLITE_DP_ENABLE, - CNAT_DEBUG_FLAG_DSLITE_CONFIG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_CONFIG_PPTP_ENABLE = 24, - CNAT_DEBUG_FLAG_CONFIG_PCP_ENABLE = 25, - CNAT_DEBUG_FLAG_MAPE_CONFIG_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_MAPE_DATA_PATH_DEBUG_ENABLE, - CNAT_DEBUG_FLAG_MAX, -} cnat_debug_variable_value; - -/* - * Don't use too small values for PATH MTU - */ -#define MIN_NFV9_PATH_MTU 100 - -extern u32 global_debug_flag; -extern u16 debug_i_vrf; -extern u32 debug_i_flag; -extern u32 debug_i_addr_start; -extern u32 debug_i_addr_end; -extern u16 debug_o_vrf; -extern u32 debug_o_flag; -extern u32 debug_o_addr_start; -extern u32 debug_o_addr_end; -extern u32 tcp_logging_enable_flag; -extern u32 nfv9_logging_debug_flag; - -extern u32 udp_inside_checksum_disable; -extern u32 udp_outside_checksum_disable; -extern u32 udp_inside_packet_dump_enable; -extern u32 udp_outside_packet_dump_enable; - -extern u32 icmp_debug_flag; -extern u32 frag_debug_flag; - -extern u32 summary_stats_debug_flag; - -extern u32 config_debug_level; -extern u32 show_debug_level; - - -/* CLI API prototypes called from vcgn_classify.c */ -extern void cnat_nat44_add_vrf_map_t_handler(spp_api_cnat_v4_add_vrf_map_t *mp, - vlib_main_t *vm); -extern void cnat_nat44_handle_show_stats(vlib_main_t *vm); -extern void cnat_nat44_handle_show_config(vlib_main_t *vm); -extern void cnat_nat44_set_protocol_timeout_value(u16 active, - u16 init, u8 *proto, u8 reset, vlib_main_t *vm); -extern void cnat_v4_show_inside_entry_req_t_handler -(spp_api_cnat_v4_show_inside_entry_req_t *mp, vlib_main_t *vm); - -#endif /* __CNAT_CLI_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_cli_handler.c b/plugins/vcgn-plugin/vcgn/cnat_cli_handler.c deleted file mode 100644 index a4010349b40..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_cli_handler.c +++ /dev/null @@ -1,961 +0,0 @@ -/* *------------------------------------------------------------------ - * cnat_cli_handler.c - CLI handler definitions - * - * Copyright (c) 2007-2015 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> -#include <vppinfra/error.h> - -#include "cnat_db.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_cli.h" -#include "cnat_logging.h" -#include "cnat_syslog.h" -#include "cnat_config_api.h" -#include "cnat_show_api.h" -#include "cnat_show_response.h" - -#include <arpa/inet.h> - -#if DPDK -#include <vnet/devices/dpdk/dpdk.h> -#endif - -u32 show_debug_level = 0; - -u32 -cnat_get_vrfmap_nfv9_logging_index (u32 i_vrf_id) -{ - cnat_nfv9_logging_info_t *my_nfv9_logging_info = 0; - u32 logging_index = EMPTY; - - /* - * Start with global logging index if available - */ - if (cnat_nfv9_global_info.cnat_nfv9_init_done) { - logging_index = cnat_nfv9_global_info.cnat_nfv9_global_collector_index; - - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - if (my_nfv9_logging_info->i_vrf_id == i_vrf_id) { - logging_index = my_nfv9_logging_info - - cnat_nfv9_logging_info_pool; - break; - } - })); - } - return (logging_index); -} - -u32 -cnat_get_vrfmap_syslog_logging_index (u32 i_vrf_id) -{ - cnat_syslog_logging_info_t *my_syslog_info = NULL; - u32 logging_index = EMPTY; - - /* - * Start with global logging index if available - */ - if(PREDICT_TRUE(cnat_syslog_global_info.cnat_syslog_init_done)) { - - pool_foreach (my_syslog_info, cnat_syslog_logging_info_pool, ({ - if (my_syslog_info->i_vrf_id == i_vrf_id) { - logging_index = my_syslog_info - - cnat_syslog_logging_info_pool; - break; - } - })); - } - return (logging_index); -} - -void -cnat_set_vrf_params_with_default(cnat_vrfmap_t *my_vrfmap, u32 i_vrf, u32 i_vrf_id) -{ - - my_vrfmap->status = S_WAO; - - my_vrfmap->i_vrf = i_vrf; - my_vrfmap->i_vrf_id = i_vrf_id; - - my_vrfmap->o_vrf = INVALID_UIDX; - my_vrfmap->o_vrf_id = INVALID_VRFID; - -#ifndef NO_BULK_LOGGING - BULKSIZE_FROM_VRFMAP(my_vrfmap) = BULK_ALLOC_SIZE_NONE; -#endif /* #ifndef NO_BULK_LOGGING */ - my_vrfmap->tcp_mss = V4_TCP_MSS_NOT_CONFIGURED_VALUE; - my_vrfmap->frag_tout = CNAT_IPV4_FRAG_TIMEOUT_DEF; - my_vrfmap->port_limit = V4_DEF_VRF_MAX_PORTS; - my_vrfmap->nfv9_logging_index = - cnat_get_vrfmap_nfv9_logging_index(i_vrf_id); - my_vrfmap->syslog_logging_index = - cnat_get_vrfmap_syslog_logging_index(i_vrf_id); - - /* Copy logging policy from nfv9 info. */ - if(my_vrfmap->nfv9_logging_index != EMPTY) { - cnat_nfv9_logging_info_t *nfv9_logging_info = - cnat_nfv9_logging_info_pool + my_vrfmap->nfv9_logging_index; - my_vrfmap->nf_logging_policy = nfv9_logging_info->logging_policy; - } - if(my_vrfmap->syslog_logging_index != EMPTY) { - cnat_syslog_logging_info_t *syslog_logging_info = - cnat_syslog_logging_info_pool + my_vrfmap->syslog_logging_index; - my_vrfmap->syslog_logging_policy = syslog_logging_info->logging_policy; - } - #if 0 - printf("Initializing params in cnat_set_vrf_params_with_default\n" - "my_vrfmap->status = %u\n" - "my_vrfmap->tcp_mss = %u\n" - "my_vrfmap->i_vrf = %u\n" - "my_vrfmap->i_vrf_id = %u\n" - "my_vrfmap->o_vrf = %u\n" - "my_vrfmap->o_vrf_id = %u\n" - "my_vrfmap->bulk_size = %u\n" - "my_vrfmap->nfv9_logging_index = %u\n" - "my_vrfmap->syslog_logging_index = %u\n" - "my_vrfmap->frag_tout = %u\n" - "my_vrfmap->port_limit = %u\n" - "my_vrfmap->nf_logging_policy = %u\n" - "my_vrfmap->syslog_logging_policy = %u\n", - my_vrfmap->status, - my_vrfmap->tcp_mss, - my_vrfmap->i_vrf, - my_vrfmap->i_vrf_id, - my_vrfmap->o_vrf, - my_vrfmap->o_vrf_id, - my_vrfmap->bulk_size, - my_vrfmap->nfv9_logging_index, - my_vrfmap->syslog_logging_index, - my_vrfmap->frag_tout, - my_vrfmap->port_limit, - my_vrfmap->nf_logging_policy, - my_vrfmap->syslog_logging_policy); - #endif /* if 0 */ -} - -/* config command handlers */ -void cnat_nat44_add_vrf_map_t_handler(spp_api_cnat_v4_add_vrf_map_t *mp, - vlib_main_t *vm) -{ - void cnat_table_entry_fill_map(u32 start_addr, u32 end_addr, - cnat_portmap_v2_t **port_map_holder); - u32 start_addr, end_addr; - u32 pm_len __attribute__((unused)); - cnat_vrfmap_t *my_vrfmap = 0; - cnat_portmap_v2_t *pm = 0; - u16 i_vrf, o_vrf; - u32 ivrf_id, ovrf_id; - u16 my_vrfmap_index; - u8 i = 0; - - start_addr = mp->start_addr[0]; - end_addr = mp->end_addr[0]; - i_vrf = mp->i_vrf; - o_vrf = mp->o_vrf; - ovrf_id = mp->o_vrf_id; - ivrf_id = mp->i_vrf_id; - -#if DEBUG_NOT_COMMENTED - vlib_cli_output(vm, "%s: saddr[0x%x], eaddr[0x%x], i_vrf[0x%x], o_vrf[0x%x], " - "ovrf_id[0x%x], ivrf_id[0x%x]\n", __func__, start_addr, end_addr, - i_vrf, o_vrf, ovrf_id, ivrf_id); -#endif - if (start_addr > end_addr) { - vlib_cli_output(vm, "Add VRF Map failed start addr 0x%x > end addr 0x%x\n", - start_addr, end_addr); - return; - } - if ((end_addr - start_addr) > CNAT_MAX_ADDR_POOL_SIZE) { - vlib_cli_output(vm, "Add VRF Map failed start addr 0x%x - end addr " - "0x%x range > 65536\n", start_addr, end_addr); - return; - } - my_vrfmap_index = vrf_map_array[i_vrf]; - - if (my_vrfmap_index != VRF_MAP_ENTRY_EMPTY) { - - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; - - my_vrfmap->o_vrf = o_vrf; - my_vrfmap->i_vrf_id = ivrf_id; - my_vrfmap->o_vrf_id = ovrf_id; - } else { - /* - * first time add - */ - pool_get(cnat_map_by_vrf, my_vrfmap); - memset(my_vrfmap, 0, sizeof(*my_vrfmap)); - /* waiting for outside vrf */ - cnat_set_vrf_params_with_default(my_vrfmap, i_vrf, ivrf_id); - my_vrfmap->i_vrf = i_vrf; - my_vrfmap->o_vrf = o_vrf; - my_vrfmap->i_vrf_id = ivrf_id; - my_vrfmap->o_vrf_id = ovrf_id; -#ifndef NO_BULK_LOGGING - BULKSIZE_FROM_VRFMAP(my_vrfmap) = BULK_ALLOC_SIZE_NONE; -#endif /* #ifndef NO_BULK_LOGGING */ - - my_vrfmap->tcp_mss = V4_TCP_MSS_NOT_CONFIGURED_VALUE; - my_vrfmap->status = S_WA; - my_vrfmap->frag_tout = 0; /* currently setting it to 0 */ - my_vrfmap->port_limit = V4_DEF_VRF_MAX_PORTS; - vrf_map_array[i_vrf] = (my_vrfmap - cnat_map_by_vrf); - } - pm = my_vrfmap->portmap_list; - pm_len = vec_len(pm); - for(i=0; i < 1 ; i++) { - start_addr = mp->start_addr[i]; - end_addr = mp->end_addr[i]; - if((start_addr == 0) || (end_addr == 0)) - break; - - cnat_table_entry_fill_map(start_addr, end_addr, - &(my_vrfmap->portmap_list)); - } - my_vrfmap->status = S_RUN; - vlib_cli_output(vm, "Address Pool Config Successful !!\n"); - return; -} - -void cnat_nat44_set_protocol_timeout_value(u16 active, - u16 init, u8 *proto, u8 reset, vlib_main_t *vm) -{ - if (!strncmp((char *) proto, "tcp", 3)) { - tcp_initial_setup_timeout = (reset) ? V4_DEF_TCP_IS_TO : init; - tcp_active_timeout = (reset) ? V4_DEF_TCP_AS_TO : active; - - } else if (!strncmp((char *) proto, "udp", 3)) { - udp_init_session_timeout = (reset) ? V4_DEF_UDP_IS_TO : init; - udp_act_session_timeout = (reset) ? V4_DEF_UDP_AS_TO : active; - - } else if (!strncmp((char *) proto, "icmp", 4)) { - icmp_session_timeout = (reset) ? V4_DEF_ICMP_S_TO : active; - - } else { - vlib_cli_output(vm, "Error !! Unsupported protocol %s\n", proto); - } - return; -} - - - - -/* Show command handlers */ -void cnat_nat44_handle_show_stats(vlib_main_t *vm) -{ - pool_header_t *h; - u32 used, free; - cnat_vrfmap_t *my_vrfmap =0; - cnat_portmap_v2_t *pm =0, *my_pm = 0; - u32 i, pm_len; - struct in_addr ip; - void cnat_nfv9_show_collector - (vlib_main_t *vm, cnat_nfv9_logging_info_t *my_nfv9_logging_info); - - /* active translations */ - h = pool_header(cnat_main_db); - free = vec_len(h->free_indices); - used = vec_len(cnat_main_db) - free; - - vlib_cli_output(vm, "vCGN NAT44 Statistics :\n"); - vlib_cli_output(vm, "\tActive Translations : %u\n", - NAT44_COMMON_STATS.active_translations); - vlib_cli_output(vm, "\tTotal free translation entries : %u\n", free); - vlib_cli_output(vm, "\tTotal used translation entries : %u\n", used); - vlib_cli_output(vm, "\ti2o drops due to port limit exceeded : %lu\n", - in2out_drops_port_limit_exceeded); - vlib_cli_output(vm, "\ti2o drops due to system limit reached : %lu\n", - in2out_drops_system_limit_reached); - vlib_cli_output(vm, "\ti2o drops due to resource depletion : %lu\n", - in2out_drops_resource_depletion); - vlib_cli_output(vm, "\to2i drops due to no translations : %lu\n", - NAT44_COMMON_STATS.no_translation_entry_drops); - - vlib_cli_output(vm, "\tPool address usage:\n"); - vlib_cli_output(vm, "\t-------------------------------------------------\n"); - vlib_cli_output(vm, "\tExternal Address \tPorts Used\n"); - vlib_cli_output(vm, "\t-------------------------------------------------\n"); - - used = 0; - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - pm = my_vrfmap->portmap_list; - pm_len = vec_len(pm); - for (i = 0; i < pm_len; i++) { - my_pm = pm + i; - if (my_pm->inuse) { - used++; - /* maximum of 200 addresses to be returned */ - if (used <= 200) { - ip.s_addr = ntohl(my_pm->ipv4_address); - vlib_cli_output(vm, "\t%s \t\t%u\n", inet_ntoa(ip), my_pm->inuse); - } - } - } - })); - return; -} - -void cnat_nat44_handle_show_config(vlib_main_t *vm) -{ - cnat_vrfmap_t * my_vrfmap; - cnat_portmap_v2_t *pm = 0; - cnat_portmap_v2_t *my_pm = 0; - u32 pm_len; - struct in_addr ip_addr; - u8 status_str[20]; - cnat_nfv9_logging_info_t *my_nfv9_logging_info, - *global_nfv9_logging_info = 0; - - vnet_hw_interface_t * hw; - vnet_main_t * vnm = vnet_get_main(); - - void cnat_nfv9_show_collector - (vlib_main_t *vm, cnat_nfv9_logging_info_t *my_nfv9_logging_info); - - vlib_cli_output(vm, "vCGN NAT44 Config:\n"); - vlib_cli_output(vm, "\tPort Limit : %u\n", cnat_main_db_max_ports_per_user); - vlib_cli_output(vm, "\ttotal address pool : %u\n", total_address_pool_allocated); - vlib_cli_output(vm, "\tdynamic port start range : %u\n", cnat_static_port_range); - - pool_foreach(my_vrfmap, cnat_map_by_vrf, ({ - hw = vnet_get_hw_interface (vnm, my_vrfmap->i_vrf); - vlib_cli_output(vm, "\tInside Interface : %v\n", hw->name); - hw = vnet_get_hw_interface (vnm, my_vrfmap->o_vrf); - vlib_cli_output(vm, "\tOutside Interface : %v\n", hw->name); - - memset(status_str, 0x00, sizeof(status_str)); - switch(my_vrfmap->status) { - case S_WAO: clib_memcpy(status_str, "S_WAO", 5); break; - case S_WA: clib_memcpy(status_str, "S_WA", 4); break; - case S_WO: clib_memcpy(status_str, "S_WO", 4); break; - case S_RUN: clib_memcpy(status_str, "ONLINE", 6); break; - case S_DEL: clib_memcpy(status_str, "S_DEL", 5); break; - default: clib_memcpy(status_str, "Invalid state", 13); - - } - vlib_cli_output(vm, - "\tAddress pool map table status : %s\n", status_str); - - pm = my_vrfmap->portmap_list; - pm_len = vec_len(pm); - my_pm = pm; - ip_addr.s_addr = clib_net_to_host_u32(my_pm->ipv4_address); - vlib_cli_output(vm, - "\tStart Address : %s\n", inet_ntoa(ip_addr)); - my_pm = pm + (pm_len - 1); - ip_addr.s_addr = clib_net_to_host_u32(my_pm->ipv4_address); - vlib_cli_output(vm, - "\tEnd Address : %s\n", inet_ntoa(ip_addr)); - - })); - vlib_cli_output(vm, - "\ttcp init timeout : %u sec\n", tcp_initial_setup_timeout); - vlib_cli_output(vm, - "\ttcp active timeout : %u sec\n", tcp_active_timeout); - vlib_cli_output(vm, - "\tudp init timeout : %u sec\n", udp_init_session_timeout); - vlib_cli_output(vm, - "\tudp active timeout : %u sec\n", udp_act_session_timeout); - vlib_cli_output(vm, - "\ticmp session timeout: %u sec\n", icmp_session_timeout); - -#if 0 - if (cnat_nfv9_global_info.cnat_nfv9_global_collector_index != EMPTY) { - vlib_cli_output(vm,"\nGloabal NFV9 Collector :"); - global_nfv9_logging_info = cnat_nfv9_logging_info_pool + - cnat_nfv9_global_info.cnat_nfv9_global_collector_index; - cnat_nfv9_show_collector(vm, global_nfv9_logging_info); - } -#endif - - vlib_cli_output(vm, "\nNFV9 Collector :"); - if (cnat_nfv9_logging_info_pool !=NULL) { - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - if (my_nfv9_logging_info != global_nfv9_logging_info) { - cnat_nfv9_show_collector(vm, my_nfv9_logging_info); - vlib_cli_output(vm, "\n"); - } - })); - } else { - vlib_cli_output(vm, "\n"); - } - - return; -} - -/* - * Check if the request flag matches the entry flags and - * if so return "1" - * - * entry_flag_ptr is an output parameter - it returns the flags - * corresponding to the translation entry - */ -static u8 cnat_v4_show_verify_display_entry ( - u16 request_flag, - cnat_main_db_entry_t *db, - u16 *entry_flag_ptr) -{ - u8 display_entry = 0; - - /* - * This should never happen - */ - if (!entry_flag_ptr) { - return (display_entry); - } - - *entry_flag_ptr = 0; - - if ((db->flags & CNAT_DB_FLAG_STATIC_PORT) - &&(db->flags & CNAT_DB_FLAG_ALG_ENTRY)) { - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_STATIC; - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_ALG; - } else if (db->flags & CNAT_DB_FLAG_STATIC_PORT) { - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_STATIC; - } else if ((db->flags & CNAT_DB_FLAG_ALG_ENTRY) || - (db->flags & CNAT_DB_FLAG_PPTP_GRE_ENTRY)) { - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_ALG; - } else if (db->flags & CNAT_DB_FLAG_PCPI) { - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_PCPI_DYNAMIC; - } else if (db->flags & CNAT_DB_FLAG_PCPE) { - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_PCPE_DYNAMIC; - } else { - *entry_flag_ptr |= CNAT_TRANSLATION_ENTRY_DYNAMIC; - } - - if (request_flag == CNAT_TRANSLATION_ENTRY_ALL) { - display_entry = 1; - } else { - /* - * Check if the request_flag is STATIC or ALG - * and the entry is STATIC or ALG as well - */ - if ((request_flag & CNAT_TRANSLATION_ENTRY_STATIC) && - (*entry_flag_ptr & CNAT_TRANSLATION_ENTRY_STATIC)) { - display_entry = 1; - } - - if ((request_flag & CNAT_TRANSLATION_ENTRY_ALG) && - (*entry_flag_ptr & CNAT_TRANSLATION_ENTRY_ALG)) { - display_entry = 1; - } - - if ((request_flag & CNAT_TRANSLATION_ENTRY_PCPI_DYNAMIC) && - (*entry_flag_ptr & CNAT_TRANSLATION_ENTRY_PCPI_DYNAMIC)) { - display_entry = 1; - } - - if ((request_flag & CNAT_TRANSLATION_ENTRY_PCPE_DYNAMIC) && - (*entry_flag_ptr & CNAT_TRANSLATION_ENTRY_PCPE_DYNAMIC)) { - display_entry = 1; - } - - /* - * For dynamic entry case, check if flags field is 0 - */ - if ((request_flag & CNAT_TRANSLATION_ENTRY_DYNAMIC) && - (*entry_flag_ptr & CNAT_TRANSLATION_ENTRY_DYNAMIC)) { - display_entry = 1; - } - } - - if (PREDICT_FALSE(show_debug_level > 2)) { - PLATFORM_DEBUG_PRINT("Entry (0x%x, %d) -> (0x%x, %d) request_flag 0x%x, entry_flag 0x%x, display_entry %d\n", db->in2out_key.k.ipv4, db->in2out_key.k.port, db->out2in_key.k.ipv4, db->out2in_key.k.port, request_flag, *entry_flag_ptr, display_entry); - } - - return (display_entry); -} -void cnat_v4_show_inside_entry_req_t_handler -(spp_api_cnat_v4_show_inside_entry_req_t *mp, vlib_main_t * vm) -{ - cnat_user_db_entry_t *udb = NULL; - cnat_main_db_entry_t *db = NULL; - cnat_db_key_bucket_t u_ki, ki; - u64 a, b, c; - u32 index; - u16 start_port, end_port, port; - u16 request_flag = 0; - u16 entry_flag = 0; - u8 num_entries = 0; - u8 proto, all; - u8 done = 0; - cnat_v4_show_translation_entry *entry_list; - cnat_v4_show_translation_entry entry[PLATFORM_MAX_TRANSLATION_ENTRIES]; - u8 display_entry; - u8 flag_str[11]; - vnet_hw_interface_t * hw; - vnet_main_t * vnm = vnet_get_main(); - - ki.k.k.ipv4 = mp->ipv4_addr; - ki.k.k.vrf = mp->vrf_id; - start_port = mp->start_port; - end_port = mp->end_port; -#if DEBUG - vlib_cli_output(vm, "## proto %d, inside-addr 0x%x, start_port %u, " - "end_port %u, vrf 0x%x, flag 0x%x\n", - mp->protocol, - mp->ipv4_addr, - mp->start_port, - mp->end_port, - mp->vrf_id, - mp->flags); -#endif - - proto = mp->protocol; - ki.k.k.vrf |= ((u16)proto << CNAT_PRO_SHIFT); - - all = mp->all_entries; /* for no port range case */ - request_flag = mp->flags; /* for all, alg, static entries case */ - entry_list = entry; - - /* - * check if the address is belonging to this core - */ - - - /* - * first we check if the user exists in the udb, if he is not then - * it does not make sense to check the main db for translations - */ - u_ki.k.k.vrf = ki.k.k.vrf & CNAT_VRF_MASK; - u_ki.k.k.ipv4 = ki.k.k.ipv4; - u_ki.k.k.port = 0; - - if (PREDICT_FALSE(show_debug_level > 0)) { - vlib_cli_output(vm, "\nI_TRANS_CORE %d: IPv4 0x%x, VRF 0x%x, " - "start_port %d, end_port %d", - my_instance_number, ki.k.k.ipv4, - ki.k.k.vrf, start_port, end_port); - } - - udb = cnat_user_db_lookup_entry(&u_ki); - if (!udb) { - if (PREDICT_FALSE(show_debug_level > 0)) { - vlib_cli_output(vm, "\nReturning %d entries", - num_entries); - } - return; - } - - if (all) { - #if 0 - if (PREDICT_FALSE(show_debug_level > 0)) { - PLATFORM_DEBUG_PRINT("\nI_TRANS: Printing ALL\n"); - } - - /* - * get the head of list of translation entries for that user - * from the user db - */ - head = udb->translation_list_head_index; - db = cnat_main_db + head; - - while (num_entries < PLATFORM_MAX_TRANSLATION_ENTRIES) { - - if (((db->in2out_key.k.vrf & CNAT_PRO_MASK) >> CNAT_PRO_SHIFT) - != proto) { - goto next_entry; - } - - display_entry = - spp_api_cnat_v4_show_verify_display_entry(request_flag, db, - &entry_flag); - - if (display_entry) { - entry_list->ipv4_addr = - spp_host_to_net_byte_order_32(db->out2in_key.k.ipv4); - entry_list->cnat_port = - spp_host_to_net_byte_order_16(db->out2in_key.k.port); - entry_list->src_port = - spp_host_to_net_byte_order_16(db->in2out_key.k.port); - - entry_list->protocol = proto; - - /* incase of gre - in2out is not accounted */ - if(proto != CNAT_PPTP) { - - entry_list->in2out_packets = - spp_host_to_net_byte_order_32(db->in2out_pkts); - } else { - entry_list->in2out_packets = 0; - } - entry_list->out2in_packets = - spp_host_to_net_byte_order_32(db->out2in_pkts); - - entry_list->flags = - spp_host_to_net_byte_order_16(entry_flag); - - num_entries++; - entry_list = entry_list + 1; - } -next_entry: - db = cnat_main_db + db->user_ports.next; - /* - * its a circular list, so if we have reached the head again - * all the entries for that user have been read - */ - if (db == (cnat_main_db + head)) { - break; - } - } - resp->num_entries = num_entries; - #endif /* if 0 */ - } else { - if (PREDICT_FALSE(show_debug_level > 0)) { - vlib_cli_output(vm, "\nI_TRANS: Printing range %d .. %d\n", - start_port, end_port); - } - /* - * port range is specified so for each port calculate the hash and - * check if the entry is present in main db - */ - port = start_port; - done = 0; - while ((!done) && (num_entries < PLATFORM_MAX_TRANSLATION_ENTRIES)) { - - ki.k.k.port = port; - if (port >= end_port) { - done = 1; - } else { - port++; - } - CNAT_V4_GET_HASH(ki.k.key64, - ki.bucket, - CNAT_MAIN_HASH_MASK); - index = cnat_in2out_hash[ki.bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - continue; - } - - do { - db = cnat_main_db + index; - if (db->in2out_key.key64 == ki.k.key64) { - break; - } - index = db->in2out_hash.next; - } while (index != EMPTY); - - if (index == EMPTY) { - continue; - } else { - - display_entry = - cnat_v4_show_verify_display_entry(request_flag, db, - &entry_flag); - if (display_entry) { - - entry_list->ipv4_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - entry_list->cnat_port = - clib_host_to_net_u16(db->out2in_key.k.port); - entry_list->src_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - entry_list->protocol = proto; - entry_list->nsessions = db->nsessions; - entry_list->flags = ((db->flags & CNAT_DB_FLAG_TCP_ACTIVE) || - (db->flags & CNAT_DB_FLAG_UDP_ACTIVE)) ? 1:0; - /* incase of gre - in2out is not accounted */ - if(proto != CNAT_PPTP) { - entry_list->in2out_packets = - clib_host_to_net_u32(db->in2out_pkts); - } else { - entry_list->in2out_packets = 0; - } - - entry_list->out2in_packets = - clib_host_to_net_u32(db->out2in_pkts); - - if (PREDICT_FALSE(show_debug_level > 3)) { - vlib_cli_output(vm, "\n1. Entry: Addr 0x%x, port %d, num_entries %d", - clib_net_to_host_u32(entry_list->ipv4_addr), - clib_net_to_host_u16(entry_list->cnat_port), - num_entries); - } - - entry_list = entry_list + 1; - num_entries++; - } - } /* if (index == EMPTY) */ - } /* while() */ - } - - if (PREDICT_FALSE(show_debug_level > 0)) { - if (num_entries) { - vlib_cli_output(vm, "\nReturning %d entries\n", - num_entries); - } - } - - entry_list = entry; - u8 i = 0; - struct in_addr ip; - u8 proto_str[10]; - u8 transl_str[10]; - memset(proto_str, 0x00, 10); - memset(transl_str, 0x00, 10); - - if (proto == 1) strncpy((char *)proto_str, "udp", 3); - else if (proto == 2) strncpy((char *)proto_str, "tcp", 3); - else if (proto == 3) strncpy((char *)proto_str, "icmp", 4); - else strncpy((char *)proto_str, "unknown", 7); - - if (request_flag == 0x04) strncpy((char *)transl_str, "Dynamic", 7); - else strncpy((char *)transl_str, "Unknown", 7); /* currently we are not supporting static/alg entries */ - - ip.s_addr = clib_net_to_host_u32(u_ki.k.k.ipv4); - hw = vnet_get_hw_interface (vnm, u_ki.k.k.vrf); - - vlib_cli_output (vm, "Inside-translation details\n"); - vlib_cli_output (vm, "--------------------------\n"); - - vlib_cli_output (vm, "Inside interface : %s\n", hw->name); - vlib_cli_output (vm, "Inside address : %s\n", inet_ntoa(ip)); - vlib_cli_output (vm, "Start port : %u\n", start_port); - vlib_cli_output (vm, "End port : %u\n", end_port); - - vlib_cli_output (vm, "--------------------------------------------------------------------------------------" - "-----------------------\n"); - vlib_cli_output (vm, "Outside Protocol Inside Outside Translation" - " I2O O2I Flag Num\n"); - vlib_cli_output (vm, "Address Src Port Src Port Type " - " Pkts Pkts Sessions\n"); - vlib_cli_output (vm, "--------------------------------------------------------------------------------------" - "-----------------------\n"); - - while ((num_entries) && (entry_list) && (i < 50)) { - - ip.s_addr = entry_list->ipv4_addr; - memset(flag_str,0x00,11); - if((proto == 1) || (proto == 2)) { - if(entry_list->flags == 1) { - strncpy((char *)flag_str,"Active",6); - } - else { - strncpy((char *) flag_str,"Non Active",10); - } - } else { - strncpy((char *) flag_str, "NA", 2); - } - vlib_cli_output(vm, "%s %10s %11u %12u %13s %10u %10u %14s %6u\n", - inet_ntoa(ip), proto_str, - clib_net_to_host_u16(entry_list->src_port), - clib_net_to_host_u16(entry_list->cnat_port), - transl_str, - clib_net_to_host_u32(entry_list->in2out_packets), - clib_net_to_host_u32(entry_list->out2in_packets), - flag_str, - entry_list->nsessions); - entry_list++; - num_entries--; i++; - } - - return; -} - -void cnat_v4_show_outside_entry_req_t_handler -(spp_api_cnat_v4_show_outside_entry_req_t *mp, vlib_main_t *vm) -{ - cnat_main_db_entry_t *db = NULL; - cnat_db_key_bucket_t ko; - u64 a, b, c; - u32 index; - u16 start_port, end_port, port; - u16 request_flag = 0; - u16 entry_flag = 0; - u8 num_entries = 0; - u8 proto; - cnat_v4_show_translation_entry *entry_list; - cnat_v4_show_translation_entry entry[PLATFORM_MAX_TRANSLATION_ENTRIES]; - u8 done = 0; - u8 display_entry; - u8 flag_str[11]; - vnet_hw_interface_t * hw; - vnet_main_t * vnm = vnet_get_main(); - - ko.k.k.ipv4 = mp->ipv4_addr; - ko.k.k.vrf = mp->vrf_id; - start_port = mp->start_port; - end_port = mp->end_port; - - proto = mp->protocol; - request_flag = mp->flags; - - ko.k.k.vrf |= ((u16)proto << CNAT_PRO_SHIFT); - - entry_list = entry; - - if (PREDICT_FALSE(show_debug_level > 0)) { - vlib_cli_output(vm, "\nO_TRANS_CORE %d: IPv4 0x%x, VRF 0x%x, " - "start_port %d, end_port %d", my_instance_number, - ko.k.k.ipv4, ko.k.k.vrf, start_port, end_port); - } - - /* - * for each ip and port combination we need to scan the main db - * and check if the entry is present in main db - */ - port = start_port; - done = 0; - while ((!done) && (num_entries < PLATFORM_MAX_TRANSLATION_ENTRIES)) { - ko.k.k.port = port; - - /* - * If we have reached the end_port, we are DONE - */ - if (port >= end_port) { - done = 1; - } else { - port++; - } - - CNAT_V4_GET_HASH(ko.k.key64, - ko.bucket, - CNAT_MAIN_HASH_MASK); - - index = cnat_out2in_hash[ko.bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - continue; - } - - do { - db = cnat_main_db + index; - if (db->out2in_key.key64 == ko.k.key64) { - break; - } - index = db->out2in_hash.next; - } while (index != EMPTY); - - if (index == EMPTY) { - continue; - } else { - display_entry = - cnat_v4_show_verify_display_entry(request_flag, db, - &entry_flag); - - if (display_entry) { - entry_list->ipv4_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - entry_list->cnat_port = - clib_host_to_net_u16(db->out2in_key.k.port); - entry_list->src_port = - clib_host_to_net_u16(db->in2out_key.k.port); - entry_list->protocol = proto; - entry_list->nsessions = db->nsessions; - entry_list->flags = ((db->flags & CNAT_DB_FLAG_TCP_ACTIVE) || - (db->flags & CNAT_DB_FLAG_UDP_ACTIVE)) ? 1:0; - /* incase of gre - in2out is not accounted */ - if(proto != CNAT_PPTP) { - entry_list->in2out_packets = - clib_host_to_net_u32(db->in2out_pkts); - } else { - entry_list->in2out_packets = 0 ; - } - entry_list->out2in_packets = - clib_host_to_net_u32(db->out2in_pkts); - #if 0 - entry_list->flags = - clib_host_to_net_u16(entry_flag); - #endif - entry_list = entry_list + 1; - num_entries++; - } - } - } - - if (num_entries == 0) { - /* No point proceeding further */ - return; - } - - if (PREDICT_FALSE(show_debug_level > 0)) { - if (num_entries) { - vlib_cli_output(vm, "\nO_TRANS: Core %d returning %d entries", - num_entries); - } - } - - entry_list = entry; - u8 i = 0; - struct in_addr ip; - u8 proto_str[10]; - u8 transl_str[10]; - memset(proto_str, 0x00, 10); - memset(transl_str, 0x00, 10); - - if (proto == 1) strncpy((char *) proto_str, "udp", 3); - else if (proto == 2) strncpy((char *) proto_str, "tcp", 3); - else if (proto == 3) strncpy((char *) proto_str, "icmp", 4); - else strncpy((char *) proto_str, "unknown", 7); - - if (request_flag == 0x04) strncpy((char *) transl_str, "Dynamic", 7); - else strncpy((char *)transl_str, "Unknown", 7); /* currently we are not supporting static/alg entries */ - - ip.s_addr = clib_net_to_host_u32(ko.k.k.ipv4); - hw = vnet_get_hw_interface (vnm, (ko.k.k.vrf & CNAT_VRF_MASK)); - - vlib_cli_output (vm, "Outside-translation details\n"); - vlib_cli_output (vm, "--------------------------\n"); - - vlib_cli_output (vm, "Outside interface : %s\n", hw->name); - vlib_cli_output (vm, "Outside address : %s\n", inet_ntoa(ip)); - vlib_cli_output (vm, "Start port : %u\n", start_port); - vlib_cli_output (vm, "End port : %u\n", end_port); - - vlib_cli_output (vm, "--------------------------------------------------------------------------------------" - "-----------------------\n"); - vlib_cli_output (vm, "Inside Protocol Outside Inside Translation" - " I2O O2I Flag Num\n"); - vlib_cli_output (vm, "Address Dst Port Dst Port Type " - " Pkts Pkts Sessions\n"); - vlib_cli_output (vm, "--------------------------------------------------------------------------------------" - "-----------------------\n"); - - while ((num_entries) && (entry_list) && (i < 50)) { - ip.s_addr = entry_list->ipv4_addr; - memset(flag_str,0x00,11); - if((proto == 1) || (proto == 2)) { - if(entry_list->flags == 1) { - strncpy((char *) flag_str,"Active",6); - } - else { - strncpy((char *) flag_str,"Non Active",10); - } - } else { - strncpy((char *) flag_str, "NA", 2); - } - vlib_cli_output(vm, "%s %10s %11u %12u %13s %10u %10u %14s %6u\n", - inet_ntoa(ip), proto_str, - clib_net_to_host_u16(entry_list->cnat_port), - clib_net_to_host_u16(entry_list->src_port), - transl_str, - clib_net_to_host_u32(entry_list->in2out_packets), - clib_net_to_host_u32(entry_list->out2in_packets), - flag_str, - entry_list->nsessions); - entry_list++; - num_entries--; i++; - - } - return; -} diff --git a/plugins/vcgn-plugin/vcgn/cnat_common_api.h b/plugins/vcgn-plugin/vcgn/cnat_common_api.h deleted file mode 100644 index a4eb74432f2..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_common_api.h +++ /dev/null @@ -1,22 +0,0 @@ -/*--------------------------------------------------------------------------- - * Copyright (c) 2009-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ -#ifndef __CNAT_COMMON_API_H__ -#define __CNAT_COMMON_API_H__ - -/* All common API prototypes */ -void cnat_scanner_db_process_turn_on(vlib_main_t *vm); - -#endif diff --git a/plugins/vcgn-plugin/vcgn/cnat_config.c b/plugins/vcgn-plugin/vcgn/cnat_config.c deleted file mode 100644 index 87183dfa961..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_config.c +++ /dev/null @@ -1,77 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_config.c - configuration definitions - * - * Copyright (c) 2007-2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#include "cnat_config.h" -#include "cnat_cli.h" -#include "cnat_v4_pptp_alg.h" -#include "platform_common.h" - -/* session timeout */ - -u16 tcp_initial_setup_timeout = V4_DEF_TCP_IS_TO; /* sec */ -u16 tcp_active_timeout = V4_DEF_TCP_AS_TO; /* sec */ -u16 udp_init_session_timeout = V4_DEF_UDP_IS_TO; /* 30 sec */ -u16 udp_act_session_timeout = V4_DEF_UDP_AS_TO; /* 2 min */ -u16 icmp_session_timeout = V4_DEF_ICMP_S_TO; /* 60 sec */ - -cnat_pptp_config_t pptp_cfg = - { - .enable = PPTP_DISABLED, - .timeout = PPTP_GRE_TIMEOUT - } ; - -/* This flag is used as indication of timeout related config - * changes and hence db needs to be updated - */ -u8 timeout_dirty_flag = 0; - -/* mapping refresh direction, - * 1 inbound and outbound refresh - */ -u8 mapping_refresh_both_direction = V4_DEF_ENABLE; - -u16 cnat_main_db_max_ports_per_user = V4_DEF_MAX_PORTS; - -u32 cnat_main_db_icmp_rate_limit = DEF_RATE_LIMIT; -u32 cnat_main_db_icmp_rate_limit_core = DEF_RATE_LIMIT_CORE; -u32 crc_zero_udp_rate_limit_core = RATE_LIMIT_UDP_CORE; -u16 cnat_static_port_range = CNAT_DEF_STATIC_PORT_RANGE; - - -/* - * ftp alg enable - */ -u8 ftp_alg_enabled = V4_DEF_DISABLE; -u16 rtsp_alg_port_num = 0; - -/* - * load balancing debug mode - */ -u8 lb_debug_enable = V4_DEF_DISABLE; - - -/* good or evil mode - * 0 endpoint-independnet filter, good mode - * 1 address depedent filter, evil mode - */ -u8 address_dependent_filtering = V4_DEF_DISABLE; - -u16 per_user_icmp_msg_limit = ICMP_MSG_RATE_LIMIT; - -u16 config_delete_timeout = V4_CONFIG_DELETE_TO; - diff --git a/plugins/vcgn-plugin/vcgn/cnat_config.h b/plugins/vcgn-plugin/vcgn/cnat_config.h deleted file mode 100644 index f104273716f..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_config.h +++ /dev/null @@ -1,582 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_config.h - configuration database definitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_CONFIG_H__ -#define __CNAT_CONFIG_H__ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> - -#include "cnat_bulk_port_defs.h" - -/* default policy value */ -#define V4_DEF_ICMP_S_TO 60 /*icmp session timeout */ -#define V4_DEF_UDP_IS_TO 30 /*udp init session timeout */ -#define V4_DEF_UDP_AS_TO 120 /*udp active session timeout */ -#define V4_DEF_TCP_IS_TO 120 /*tcp init session timeout */ -#define V4_DEF_TCP_AS_TO 1800 /*tcp active session timeout, 30 min */ -#define V4_DEF_TCP_MSS 1460 /*tcp mss */ -#define V4_DEF_MAX_PORTS 100 /*max port limit per user */ -#define DEF_RATE_LIMIT PLATFORM_MAX_CORES /* No of packets/sec icmp generated */ -#define DEF_RATE_LIMIT_CORE 1 /* No of packets/sec icmp generated (per core) */ -#define RATE_LIMIT_UDP_CORE 1000 /* Max allowed udp crc zero packets/sec/core */ - -#define NAT44_RESERVED_INST_ID 1 -#define DSLITE_START_ID (NAT44_RESERVED_INST_ID + 1) -#define V4_DEF_VRF_MAX_PORTS 0 /*max port limit per vrf user; - 0 means use the global port limit for user*/ -/*Hardcoded . TBD - can be made configurable */ - -#define V4_DEF_ENABLE 1 /* feature enable */ -#define V4_DEF_DISABLE 0 /* feature disable */ - -#define CNAT_DEF_STATIC_PORT_RANGE 1024 /* Default range for static ports */ -/* - * If TCP MSS is not configured, store the maximum possible value - */ -#define V4_TCP_MSS_NOT_CONFIGURED_VALUE 0xffff - -/* default timeout for fragments in seconds set to 2 - * in case its not configured - */ -#define CNAT_IPV4_FRAG_TIMEOUT_DEF 2 -/* other */ -/* max db entries to be scaned */ -#define MAX_DB_ENTRY_PER_SCAN PLATFORM_MAX_DB_ENTRY_PER_SCAN -/* max db entries selected per scan */ -#define MAX_DB_ENTRY_SELECTED_PER_SCAN PLATFORM_MAX_DB_ENTRY_SELECTED_PER_SCAN - -#define ICMP_MSG_RATE_LIMIT 3 /* rate limit for icmp message */ -#define V4_CONFIG_DELETE_TO 600 /* timeout for entry to be deleted */ - -/* session timeout */ - -extern u16 tcp_initial_setup_timeout; -extern u16 tcp_active_timeout; -extern u16 udp_init_session_timeout; -extern u16 udp_act_session_timeout; -extern u16 icmp_session_timeout; - -extern u8 timeout_dirty_flag; - -/* mapping refresh direction, - * 0 outbound only refresh, - * 1 inbound and outbound refresh - */ -extern u8 mapping_refresh_both_direction; - - -extern u16 cnat_main_db_max_ports_per_user; -extern u32 cnat_main_db_icmp_rate_limit; -extern u32 cnat_main_db_icmp_rate_limit_core; -extern u32 crc_zero_udp_rate_limit_core; - -extern u16 cnat_static_port_range; - -typedef enum { - LOG_FORMAT_UNDEFINED =0, - LOG_FORMAT_COMPACT, - LOG_FORMAT_NF9, - LOG_FORMAT_MAX, /* keep this as last */ -} log_format_t; - -typedef enum { - CNAT_CONFIG_DEL_OP = 0, - CNAT_CONFIG_ADD_OP, -} cnat_op_flag_t; - -extern u8 ftp_alg_enabled; -extern u16 rtsp_alg_port_num; - -/* - * load balancing debug mode - */ -extern u8 lb_debug_enable; - -/* good or evil mode - * 0 endpoint-independnet filter, good mode - * 1 address depedent filter, evil mode - */ -extern u8 address_dependent_filtering; - -extern u16 per_user_icmp_msg_limit; - -/* vrfmap or portmap holding time - * after delete - */ -extern u16 config_delete_timeout; - -/* - * Bit map for various configuration in the POLICY KNOB case - */ -#define BIDIR_REFRESH_ENABLE 0x01 -#define BIDIR_REFRESH_DISABLE 0x02 -#define FTP_ALG_ENABLE 0x04 -#define FTP_ALG_DISABLE 0x08 -#define DEFAULT_NFV9_LOGGING_SERVER_ENABLE 0x10 -#define DEFAULT_NFV9_LOGGING_SERVER_DISABLE 0x20 - - -/* - * This structure contains a single VRF map configuration - * from a bulk message. This structure is in conformanace - * with the following structures defined in cnat_config_api.h - * - spp_api_cnat_v4_bulk_vrf_map_t - * - * Any change in the above structures should be propagated here - */ -typedef struct _spp_api_cnat_v4_single_vrf_map_req { - u32 i_vrf_id; - u32 o_vrf_id; - - u16 i_vrf; - u16 o_vrf; - - u32 start_addr; - u32 end_addr; - - u16 vrf_policy_enable; -#define TCP_MSS_ENABLE 0x0001 -#define TCP_MSS_DISABLE 0x0002 -#define NFV9_LOGGING_ENABLE 0x0004 -#define NFV9_LOGGING_DISABLE 0x0008 -#define VRF_MAP_DELETE 0x0010 -#define VRF_MAP_ADD 0x0020 -#define BULK_ALLOC_CHANGE 0x0040 - - u16 tcp_mss_value; - u32 vrf_nfv9_logging_ipv4_address; - u16 vrf_nfv9_logging_udp_port; - u16 vrf_nfv9_refresh_rate; - u16 vrf_nfv9_timeout_rate; - u16 vrf_nfv9_path_mtu; -#ifndef NO_BULK_LOGGING - bulk_alloc_size_t bulk_size; -#endif /* NO_BULK_LOGGING */ -} spp_api_cnat_v4_single_vrf_map_req; - -typedef struct _spp_api_cnat_v4_single_vrf_map_rc { - u8 vrf_map_rc; - u8 tcp_mss_rc; - u8 nfv9_logging_rc; - u8 pad; -} spp_api_cnat_v4_single_vrf_map_rc; - -/* - * Bulk Response for the VRF map request - */ -typedef struct _spp_api_cnat_v4_bulk_vrf_map_resp { - u16 _spp_msg_id; - u8 bulk_rc; - u8 pad; - - u32 num_vrfmap_entries; - - spp_api_cnat_v4_single_vrf_map_rc vrf_map_rc; - -} spp_api_cnat_v4_bulk_vrf_map_resp; - -/* - * Bulk Response for the Policy Knob request - */ -typedef struct _spp_api_cnat_v4_bulk_policy_knob_resp { - u16 _spp_msg_id; - u8 bulk_rc; /* Global rc code */ - u8 pad; - - u8 port_limit_rc; - u8 icmp_timeout_rc; - u8 udp_init_timeout_rc; - u8 udp_act_timeout_rc; - - u8 tcp_init_timeout_rc; - u8 tcp_act_timeout_rc; - u8 nfv9_logging_rc; - u8 pad2; -} spp_api_cnat_v4_bulk_policy_knob_resp; - - -/* PPTP ALG defs and structures */ - -/* dont change the order.. - maintened at offset mapped to msg ids */ - -typedef struct pptp_ctrl_msg_ctrs_t { - u64 dummy; - u64 sccr; - u64 sccrp; - u64 stccrq; - u64 stccrp; - u64 erq; - u64 erp; - u64 ocrq; - u64 ocrp; - u64 icrq; - u64 icrp; - u64 iccn; - u64 cclr; - u64 cdn; - u64 wen; - u64 sli; -}pptp_ctrl_msg_ctrs_t; - -#define PPTP_INCR(ctr) pptp_cfg.counters.pptp_##ctr++ -#define PPTP_DECR(ctr) pptp_cfg.counters.pptp_##ctr-- - -typedef struct pptp_counters_t { - - u64 pptp_ctrl_msg_drops; - u64 pptp_active_tunnels; - u64 pptp_active_channels; - u64 pptp_in2out_gre_drops; - u64 pptp_out2in_gre_drops; - u64 pptp_in2out_gre_fwds; - u64 pptp_out2in_gre_fwds; - pptp_ctrl_msg_ctrs_t ctrl_ctrs; - -} pptp_counters_t; - -#define CNAT_PPTP_ENABLE 1 -#define CNAT_PPTP_DEF_TIMEOUT 60 /* secs */ - -typedef struct cnat_pptp_config_t { - u8 enable; - u16 timeout; - pptp_counters_t counters; - -} cnat_pptp_config_t; - - -#define CNAT_PPTP_ENABLE_FLAG 0x01 -#define CNAT_PPTP_TIMEOUT_FLAG 0x02 - -/* pptp config msg resp */ -typedef struct _spp_api_cnat_v4_config_pptp_alg_resp { - u16 _spp_msg_id; - u8 bulk_rc; - u8 pad; - -} spp_api_cnat_v4_config_pptp_alg_resp_t; - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad[5]; - - /* better to have a group structures rather than individual - variables, any change in counters is will automatically - reflect here */ - pptp_counters_t counters; -} pptp_show_counters_resp_t ; - - -extern cnat_pptp_config_t pptp_cfg; - - -/* ========= 6RD declarations =============================== */ - -#define V6RD_ENTRY_DELETE 0x00 -#define IPV4_TUNNEL_SRC_CONFIG 0x04 -#define TUNNEL_MTU_CONFIG 0x08 -#define IPV4_PREFIXMASK_LEN_CONFIG 0x10 -#define IPV4_SUFFIXMASK_LEN_CONFIG 0x20 -#define TTL_CONFIG 0x40 -#define TOS_CONFIG 0x80 -#define V6RD_IPV6_PREFIX_CONFIG 0x100 -#define V6RD_RESET_DF_BIT_CONFIG 0x200 -#define V6RD_UNICAST_ADDR_CONFIG 0x400 -#define V6RD_REASSEMB_CONFIG 0x800 - -#define TTL_ENABLE 0x1 -#define TOS_ENABLE 0x2 -#define RESET_DF_BIT 0x4 -#define REASSEMBLY_ENABLE 0x8 - -/* ========= 6RD declarations =============================== */ - -/* - * Single Request for XLAT config - */ -typedef struct _spp_api_cnat_v4_single_xlat_config_req { - - /* - * Indicates the xlat instance id - How big will this value be - * Can we restrict it between 0..255, that way the APP code - * can use an array to store the xlat instances. - */ - u32 xlat_id; - -#define XLAT_ENTRY_DELETE 0x0000 -#define IPV6_SVI_IF_NUM_CONFIG 0x0001 -#define IPV4_SVI_IF_NUM_CONFIG 0x0002 -#define IPV4_TO_IPV6_TCP_MSS_CONFIG 0x0004 -#define IPV6_TO_IPV4_TCP_MSS_CONFIG 0x0008 -#define IPV6_PREFIX_CONFIG 0x0010 -#define IPV6_UBIT_ON_CONFIG 0x0020 -#define IPV6_NON_TRANSLATABLE_PREFIX_MAP_CONFIG 0x0040 -#define IPV4_TOS_SETTING_CONFIG 0x0080 -#define IPV6_TOS_SETTING_CONFIG 0x0100 -#define IPV4_DFBIT_CLEAR_CONFIG 0x0200 -#define ICMPV6_PTB_MTU_SET_CONFIG 0x0400 -#define IPV6_NON_TRANSLATABLE_PREFIX_MAP_ALG_CONFIG 0x0800 -#define CPE_V4_PREFIX_CONFIG 0x1000 /* for map-t */ -#define CPE_V6_PREFIX_CONFIG 0x2000 /* for map-t */ -#define EXTERNAL_V6_PREFIX_CONFIG 0x4000 /* for map-t */ -#define PORT_SHARING_RATIO_CONFIG 0x8000 /* for map-t */ -#define CONSECUTIVE_PORTS_CONFIG 0x10000 /* for map-t */ - - u32 xlat_config_fields_enable; - - /* - * If numbers of the IPv6 and IPv4 SVI interfaces - */ - u32 ipv6_svi_if_num; - u32 ipv4_svi_if_num; - - /* - * TCP MSS values for the 2 XLAT directions - */ - u16 v4_to_v6_tcp_mss; - u16 v6_to_v4_tcp_mss; - - /* - * XLAT IPv6 prefix - */ - u32 v6_prefix[4]; - - /* - * XLAT IPv6 prefix mask - */ - u8 v6_prefix_mask_len; - - /* - * Set to non-zero if UBITs are reserved - */ -#define UBITS_ON 0x01 -#define IPV4_DF_BIT_CLEAR 0x02 -#define ICMPV6_MTU_SET 0x04 -#define IPV4_TOS_SET_ENABLED 0x08 -#define IPV6_TC_SET_ENABLED 0x10 - - u8 feature_enable_bits; - - u8 v4_prefix_mask_len; - -#define IPV6_NON_TRANSLATABLE_PREFIX_MAP_ALG_HASH 0x1 -#define IPV6_NON_TRANSLATABLE_PREFIX_MAP_ALG_TTL 0x2 -#define IPV6_NON_TRANSLATABLE_PREFIX_MAP_ALG_RANDOM 0x3 - u8 non_translatable_v6_prefix_v4_map_prefix_alg; - - u8 ipv6_tos_value; - - u8 ipv4_tos_value; - - u8 pad2; - - u8 pad3; - - u32 v4_prefix; - - /* - * MAP-T/MAP-E specific parameters - */ - u8 xlat_type; - - u32 cpe_domain_v6_prefix[4]; - u8 cpe_domain_v6_prefix_len; - - u32 cpe_domain_v4_prefix; - u8 cpe_domain_v4_prefix_len; - - u32 external_domain_v6_prefix[4]; - u8 external_domain_v6_prefix_len; - - u8 port_sharing_ratio_bits; - u8 consecutive_ports_bits; - -} spp_api_cnat_v4_single_xlat_config_req; - -/* - * Single Response for the xlat config request - */ -typedef struct _spp_api_cnat_v4_single_xlat_config_resp { - u8 v4_if_num_rc; - u8 v6_if_num_rc; - u8 v4_to_v6_tcp_mss_rc; - u8 v6_to_v4_tcp_mss_rc; - - u8 v6_prefix_rc; - u8 ubit_on_rc; - u8 v4_prefix_rc; - u8 xlat_id_rc; - - u8 non_translatable_v6_prefix_v4_map_alg_rc; - u8 ipv4_dfbit_clear_rc; - u8 icmpv6_ptb_mtu_set_rc; - u8 ipv4_tos_set_rc; - - u8 ipv6_tos_set_rc; - u8 pad1; - u8 pad2; - u8 pad3; -} spp_api_cnat_v4_single_xlat_config_resp; - -/* - * Bulk Response for the xlat config request - */ -typedef struct _spp_api_cnat_v4_bulk_xlat_config_resp { - u16 _spp_msg_id; - u16 pad; - - u32 bulk_rc; - - u32 num_xlat_entries; - - spp_api_cnat_v4_single_xlat_config_resp xlat_config_resp; - -} spp_api_cnat_v4_bulk_xlat_config_resp; - -typedef struct _spp_api_v6rd_v4_single_v6rd_config_resp { - u8 v6rd_id_rc; - u8 v4_if_num_rc; - u8 v6_if_num_rc; - u8 tunnel_source_rc; - u8 tunnel_mtu_rc; - u8 ipv4masklen_prefix_rc; - u8 ipv4masklen_suffix_rc; - u8 ttl_rc; - u8 tos_rc; - u8 anycast_rc; - u8 v6_prefix_rc; - u8 v6_br_unicast_rc; - u8 reassembly_rc; - u8 pad1; - u8 pad2; - u8 pad3; -} spp_api_v6rd_v4_single_v6rd_config_resp_t; - -typedef struct _spp_api_v6rd_v4_bulk_v6rd_config_resp { - u16 _spp_msg_id; - u16 pad; - u32 bulk_rc; - u32 num_v6rd_entries; - spp_api_v6rd_v4_single_v6rd_config_resp_t v6rd_config_resp[0]; -} spp_api_v6rd_v4_bulk_v6rd_config_resp_t; - -/* - * Single Request for MAPE config - */ -typedef struct _spp_api_mape_single_config_req { - - /* - * Indicates the mape instance id - How big will this value be - * Can we restrict it between 0..255, that way the APP code - * can use an array to store the xlat instances. - */ - u32 mape_id; - -#define MAPE_ENTRY_DELETE 0x0000 -#define MAPE_IPV4_SVI_IF_NUM_CONFIG 0x0001 -#define MAPE_IPV6_SVI_IF_NUM_CONFIG 0x0002 -#define MAPE_IPV4_TO_IPV6_TCP_MSS_CONFIG 0x0004 -#define MAPE_IPV6_TO_IPV4_TCP_MSS_CONFIG 0x0008 -#define MAPE_CPE_V4_PREFIX_CONFIG 0x0010 -#define MAPE_CPE_V6_PREFIX_CONFIG 0x0020 -#define MAPE_PORT_SHARING_RATIO_CONFIG 0x0040 -#define MAPE_CONSECUTIVE_PORTS_CONFIG 0x0080 -#define MAPE_PATH_MTU 0x0100 -#define MAPE_TUNNEL_ENDPOINT_V6_CONFIG 0x0200 - - u32 mape_config_fields_enable; - - /* - * If numbers of the IPv6 and IPv4 SVI interfaces - */ - u32 ipv6_svi_if_num; - u32 ipv4_svi_if_num; - - /* - * TCP MSS values for the 2 XLAT directions - */ - u16 v4_to_v6_tcp_mss; - u16 v6_to_v4_tcp_mss; - - /* - * Path v6 MTU. - */ - u32 path_mtu; - - /* - * CPE IPv6 prefix and mask len. - */ - u32 cpe_domain_v6_prefix[4]; - u8 cpe_domain_v6_prefix_len; - - /* - * CPE IPv4 prefix and mask len. - */ - u32 cpe_domain_v4_prefix; - u8 cpe_domain_v4_prefix_len; - - /* - * BR IPv6 tunnel end point V6 prefix and mask len. - */ - u32 aftr_tunnel_endpoint_address_v6[4]; - u8 aftr_tunnel_endpoint_address_v6_len; - - /* - * BR IPv6 tunnel end point V6 prefix and mask len. - */ - u8 port_sharing_ratio_bits; - u8 consecutive_ports_bits; - -} spp_api_mape_single_config_req; - - -/* - * Single Response for the mape config response - */ -typedef struct _spp_api_mape_single_config_resp { - u8 v4_if_num_rc; - u8 v6_if_num_rc; - u8 v4_to_v6_tcp_mss_rc; - u8 v6_to_v4_tcp_mss_rc; - u8 mape_id_rc; - u8 path_mtu_rc; - u8 cpe_v6_prefix_rc; - u8 cpe_v4_prefix_rc; - u8 tunnel_endpoint_prefix_rc; - u8 port_sharing_ratio_rc; - u8 port_contiguous_rc; - u8 pad1; -} spp_api_mape_single_config_resp; - -/* - * Bulk Response for the mape config request - */ -typedef struct _spp_api_mape_bulk_config_resp { - u16 _spp_msg_id; - u16 pad; - u32 bulk_rc; - u32 num_mape_entries; - spp_api_mape_single_config_resp mape_config_resp; -} spp_api_mape_bulk_config_resp; - - -#endif /* __CNAT_CONFIG_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_config_api.h b/plugins/vcgn-plugin/vcgn/cnat_config_api.h deleted file mode 100644 index 0789d6a92af..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_config_api.h +++ /dev/null @@ -1,46 +0,0 @@ -/* - * Copyright (c) 2015 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ -#ifndef __CNAT_CONFIG_API_H__ -#define __CNAT_CONFIG_API_H__ - -typedef struct _spp_api_cnat_v4_add_vrf_map { - u16 _spp_msg_id; - u8 rc; - u8 pad; - u32 i_vrf_id; - u32 o_vrf_id; - u16 i_vrf; - u16 o_vrf; - u32 start_addr[8]; - u32 end_addr[8]; -} spp_api_cnat_v4_add_vrf_map_t; - -typedef struct _spp_api_cnat_v4_config_nfv9_logging { - u16 _spp_msg_id; - u8 rc; - u8 enable; - u32 ipv4_address; - u32 i_vrf_id; - u16 i_vrf; - u16 port; - u16 refresh_rate; - u16 timeout_rate; - u16 path_mtu; - u8 nfv9_global_collector; - u8 session_logging; -} spp_api_cnat_v4_config_nfv9_logging_t; - - -#endif diff --git a/plugins/vcgn-plugin/vcgn/cnat_db.h b/plugins/vcgn-plugin/vcgn/cnat_db.h deleted file mode 100644 index 3596e2384e6..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_db.h +++ /dev/null @@ -1,701 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_db.h - translation database definitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_DB_H__ -#define __CNAT_DB_H__ - -#include "cnat_cli.h" -#include "cnat_ports.h" -#include "index_list.h" - -#define VRF_NAME_LEN_STORED 12 -#define MAX_VRFID 400 -typedef struct _cnat_svi_params_entry { - u16 svi_type; - u16 pad; - - u32 vrf_id; - u16 if_num; - - u32 ipv6_addr[4]; - u32 ipv4_addr; - - u8 direction; - u32 tbl_id; /* vrf */ - u32 vrf_override_id; /* tbl_id for override vrf */ - u8 vrf_override_flag; - u8 partition_id; -} cnat_svi_params_entry; - -typedef struct _cnat_ingress_vrfid_name_entry { - u32 vrf_id; - u16 ref_count; /*no# of serviceApps under a single vrf*/ - u8 vrf_name[VRF_NAME_LEN_STORED]; - u16 pad1; -} cnat_ingress_vrfid_name_entry; -#define HASH_ENHANCE 4 - -#define CNAT_DB_SIZE (PLATFORM_MAX_NAT_ENTRIES / PLATFORM_CNAT_INSTS) -#define CNAT_MAIN_HASH_SIZE (HASH_ENHANCE * PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE) -#define CNAT_MAIN_HASH_MASK (CNAT_MAIN_HASH_SIZE-1) - -#define CNAT_USER_DB_SIZE (PLATFORM_MAX_USER_ENTRIES / PLATFORM_CNAT_INSTS) -#define CNAT_USER_HASH_SIZE (HASH_ENHANCE * PLATFORM_CNAT_USER_PRELIM_HASH_SIZE) -#define CNAT_USER_HASH_MASK (CNAT_USER_HASH_SIZE-1) - -#define CNAT_SESSION_DB_SIZE (PLATFORM_MAX_NAT_ENTRIES / PLATFORM_CNAT_INSTS) -#define CNAT_SESSION_HASH_SIZE (HASH_ENHANCE * PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE) -#define CNAT_SESSION_HASH_MASK (CNAT_SESSION_HASH_SIZE-1) - - -#define CNAT_MAX_SESSIONS_PER_BIB 0xFFFF - -#define NUM_BITS_IN_UWORD (8*sizeof(uword)) - -/* No. of per ip/port config will be limited to 1024 */ -#define CNAT_TIMEOUT_HASH_SIZE 1024 -#define CNAT_TIMEOUT_HASH_MASK (CNAT_TIMEOUT_HASH_SIZE - 1) -#define CNAT_TIMEOUT_FULL_MASK 0xFFFFFFFFFFFFFFFF -#define CNAT_TIMEOUT_IPPROT_MASK PLATFORM_CNAT_TIMEOUT_IPPROT_MASK -#define CNAT_TIMEOUT_PORTPROT_MASK PLATFORM_CNAT_TIMEOUT_PORTPROT_MASK - -#define TRUE 1 -#define FALSE 0 - -/* - * The key structure. All fields are in NETWORK byte order! - */ -typedef struct { - u32 ipv4; - u16 port; - u16 vrf; //bit0-12:vrf, bit13:unused, bit14-15:protocol -} cnat_db_key_t; - -/* bit14-15:protocol in cnat_db_key_t */ -#define CNAT_INVALID_PROTO 0x0000 -#define CNAT_PPTP 0x0000 -#define CNAT_UDP 0x4000 -#define CNAT_TCP 0x8000 -#define CNAT_ICMP 0xc000 -#define CNAT_VRF_MASK 0x3fff -#define CNAT_PRO_MASK 0xc000 -#define CNAT_PRO_SHIFT 14 - -/* - * Maximum number of VRF entries supported - */ -#define CNAT_MAX_VRFMAP_ENTRIES (CNAT_VRF_MASK + 1) -/* - * for hashing purposes, fetch the key in one instr. - */ -typedef union { - cnat_db_key_t k; - u64 key64; -} cnat_key_t; - -typedef struct { - cnat_key_t k; - u32 bucket; -} cnat_db_key_bucket_t; - -typedef struct { - u32 ipv6[4]; - cnat_key_t ipv4_key; -} dslite_key_t; - -typedef struct { -/* - cnat_db_key_bucket_t ck; - u32 ipv6[4]; -*/ - dslite_key_t dk; - u32 bucket; -} dslite_db_key_bucket_t; - - -/* Per port/ip timeout related strucutres */ -extern index_slist_t *cnat_timeout_hash; - -typedef struct { - cnat_key_t timeout_key; - u16 timeout_value; -} cnat_timeout_t; - -typedef struct { - cnat_timeout_t t_key; - index_slist_t t_hash; -} cnat_timeout_db_entry_t; - -extern cnat_timeout_db_entry_t *cnat_timeout_db; - -/* - * Main translation database entries. Currently 0x5A = 90 bytes in length. - * Given 20,000,000 entries, it saves nearly 1gb of SDRAM to pack the entries - * and pay the extra prefetch. So, that's what we do. - */ - -typedef struct { - /* 0x00 */ - index_slist_t out2in_hash; /* hash-and-chain, x2 */ - index_slist_t in2out_hash; - - /* 0x08 */ - u16 flags; /* Always need flags... */ -#define CNAT_DB_FLAG_PORT_PAIR (1<<0) -#define CNAT_DB_FLAG_TCP_ACTIVE (1<<1) -#define CNAT_DB_FLAG_ENTRY_FREE (1<<2) -#define CNAT_DB_FLAG_UDP_ACTIVE (1<<3) -#define CNAT_DB_FLAG_STATIC_PORT (1<<4) -/* This alg entry is set for FTP data connection */ -#define CNAT_DB_FLAG_ALG_ENTRY (1<<5) - -/* Will be set for TCP connection with destination port - 1723 - * note - here CNAT_DB_FLAG_TCP_ACTIVE is also set */ -#define CNAT_DB_FLAG_PPTP_TUNNEL_INIT (1<<6) -#define CNAT_DB_FLAG_PPTP_TUNNEL_ACTIVE (1<<7) - -/* for PPTP GRE packtes */ -#define CNAT_DB_FLAG_PPTP_GRE_ENTRY (1<<8) - -/* for PCP support */ -#define CNAT_DB_FLAG_PCPI (1<<9) -#define CNAT_DB_FLAG_PCPE (1<<10) -#define CNAT_PCP_FLAG (CNAT_DB_FLAG_PCPI | CNAT_DB_FLAG_PCPE) - -#define CNAT_TAC_SEQ_MISMATCH (1<<11) -/* This alg entry is set for ftp control connection */ -#define CNAT_DB_FLAG_ALG_CTRL_FLOW (1<<12) - -/* This is for marking the state where connection is closing */ -#define CNAT_DB_FLAG_TCP_CLOSING (1<<13) - -#define CNAT_DB_DSLITE_FLAG (1<<14) -#define CNAT_DB_NAT64_FLAG (1<<15) - - /* 0x0A */ - u16 vrfmap_index; /* index of vrfmap */ - - /* 0x0C */ - u32 user_index; /* index of user that owns this entry */ - - /* 0x10 */ - cnat_key_t out2in_key; /* network-to-user, outside-to-inside key */ - - /* 0x18 */ - cnat_key_t in2out_key; /* user-to-network, inside-to-outside key */ - - /* 0x20 */ - index_dlist_t user_ports; /* per-user translation list */ - - /* 0x28 */ - u32 out2in_pkts; /* pkt counters */ - - /* 0x2C */ - u32 in2out_pkts; - - /* 0x30 */ - u32 entry_expires; /* timestamp used to expire translations */ - - /* 0x34 */ - union { /* used by FTP ALG, pkt len delta due to FTP PORT cmd */ - u16 delta; - i8 alg_dlt[2]; /* two delta values, 0 for previous, 1 for current */ - u16 il; /* Used to indicate if interleaved mode is used - in case of RTSP ALG */ - } alg; - - /* 0x36 */ - u16 timeout; - - /* 0x38 */ - union { - struct seq_pcp_t { - u32 tcp_seq_num; /* last tcp (FTP) seq # that has pkt len change due to PORT */ - u32 pcp_lifetime; /* peer and map life time value sent in reply*/ - } seq_pcp; - - /* This is for TCP seq check */ - struct tcp_seq_chk_t { - u32 seq_no; - u32 ack_no; - } tcp_seq_chk; - - /* used for pptp alg entries - 1. only tunnel : prev and next = 0xFFFFFFFF - 2. first gre entry : prev = tunnel db, next = next gre db - 3. last gre entry : prev = previous gre/tunnel db, next= 0xFFFFFFFF; - - *while adding gre entry- updated at the begining of head - *while deleting gre entry - hash look up will be done and prev and next are adjusted - * while deleting need not traverse throufgh the list, as done in index_dlist_remelem - - */ - index_dlist_t pptp_list; - - } proto_data; - - /* 0x40 */ - u32 dst_ipv4; /* pointer to ipv4 dst list, used in evil mode */ - - /* 0x44 */ - u16 dst_port; - - /* 0x46 */ - u16 dslite_nat44_inst_id; - - /* 0x48 */ - u32 session_head_index; - - /* 0x4C */ - u16 nsessions; - - /* 0x4E */ - u8 unused; - - /* 0x4F */ - u8 scale; - - /* 0x50 */ - u32 diff_window; - - /* Sizeof cnat_main_db_entry_t = 0x54 */ -} cnat_main_db_entry_t; - -/* Caution ... - * 1. The size of this structure should be same as that of - * nat64_bib_user_entry_t - * 2. Do not alter the position of first four fields - */ -typedef struct { - /* 0x00 */ - index_slist_t user_hash; /* hash 'n chain bucket chain */ - - /* 0x04 */ - u16 ntranslations; /* translations hold by this user */ - - /* 0x06 */ - u8 icmp_msg_count; /* use to rate limit imcp send to this user */ - - /* 0x07 */ - u8 flags; /* To identfiy whether it is NAT64 or NAT44 etc */ -#define CNAT_USER_DB_NAT44_FLAG 0 -#define CNAT_USER_DB_NAT64_FLAG 1 -#define CNAT_USER_DB_DSLITE_FLAG 2 -#define CNAT_USER_DB_PORT_LIMIT_EXCEEDED 0X80 - - /* 0x08 */ - u32 translation_list_head_index; - - /* 0x0C */ - u32 portmap_index; /* index of bound port-map */ - - /* 0x10 */ - cnat_key_t key; /* For dslite this should store IPv6 address */ - u32 ipv6[4]; // B4 ipv6 address - /* 0x18 */ -#if 0 - u32 temp1; - u32 temp2; - u32 temp3; -#endif - /* 0x28 same as nat64_user_db */ -#ifndef NO_BULK_LOGGING - /* Now adding 8 more bytes for bulk allocation.. This makes it - * 0x30 (48). Added the same to nat64_bib_user_entry_t make the - * the sizes equal. For nat64 stful, we may support bulk allocation - * later. - */ - /* Indicates the currently used bulk port range */ - i16 bulk_port_range_cache[BULK_RANGE_CACHE_SIZE]; -#endif /* #ifndef NO_BULK_LOGGING */ -} cnat_user_db_entry_t; - -/* - * cnat_session_entry_t - * This structure represents the cnat session table. It maintains the - * information about the destination of a given translation (main db) - * There would be entry here only if packets are send to more than 1 destn - * from the same source. - */ -typedef struct { - - /* 0x00 */ - index_slist_t cnat_session_hash; - - /* 0x04 */ - u32 main_db_index; /* would point to v4 src transport address */ - - /* 0x08 */ - cnat_key_t v4_dest_key; - - /* 0x10 */ - u16 flags; /* Same as cnat_main_db_t */ - - /* 0x12 */ - u16 timeout; - - /* 0x14 */ - u32 entry_expires; - /* 0x18 */ - index_dlist_t main_list; - /* 0x20 = 32 B */ - - union { /* alg same as cnat_main_db_t */ - u16 delta; - i8 alg_dlt[2]; - u16 il; - } alg; - - /* 0x22 */ - u16 tcp_flags; - - /* 0x24 */ - u32 tcp_seq_num; - - /* 0x28 */ - u32 ack_no; - - /* 0x2C */ - u32 window; - - /* 0x30 */ - u8 scale; - - /* 0x31 */ - u8 pad; - - /* 0x32 */ -} cnat_session_entry_t; - - - -/* - * out2in and in2out hash bucket arrays are simply arrays of index_slist_t's - */ - -typedef enum { - CNAT_DB_CREATE_DEFAULT=0, /* honor cnat_main_db_max_ports_per_user */ - CNAT_DB_CREATE_OVERRIDE, /* just do it. */ -} cnat_db_create_policy_t; - -typedef struct { - cnat_key_t in2out_key; - cnat_key_t out2in_key; - u32 dst_ipv4; /* evil for mode only */ - u16 cnat_instance; - cnat_portmap_t *portmap; - u16 *portmap_inuse; - cnat_main_db_entry_t *db; - cnat_db_create_policy_t policy; - port_pair_t pair_of_ports; -} cnat_db_create_args_t; - -extern cnat_main_db_entry_t *cnat_main_db; -extern cnat_user_db_entry_t *cnat_user_db; -extern cnat_session_entry_t *cnat_session_db; - -#define S_WAO 0 -#define S_WA 1 /* waiting for address pool */ -#define S_WO 2 /* waiting for outside vrf */ -#define S_RUN 3 /* got everything */ -#define S_DEL 4 /* just delete */ - -#define INVALID_UIDX 0xffff /*invalid svi app uidb index */ -#define INVALID_VRFID 0xffffffff /*invalid vrf id */ - -typedef struct { - u16 status; - u16 tcp_mss; //tcp max segment size for this inside vrf */ - u32 delete_time; - u16 i_vrf; //inside SVI uidx - u16 o_vrf; //outside SVI uidx - u32 i_vrf_id; //inside vrf id - u32 o_vrf_id; //outside vrf id - cnat_portmap_v2_t *portmap_list; - u32 nfv9_logging_index; - u32 syslog_logging_index; - u16 ip_n_to_1; -#ifndef NO_BULK_LOGGING - bulk_alloc_size_t bulk_size; -#endif /* #ifndef NO_BULK_LOGGING */ - u32 pcp_server_addr; - u32 pcp_server_port; - - u8 nf_logging_policy; - u8 syslog_logging_policy; - u8 frag_tout; - u32 rseed_ip; - u16 port_limit; - u8 tcp_seq_check_enable; - u8 pad; - u32 tcp_seq_user_window; - u8 filter_policy; - u8 ignore_port; -} cnat_vrfmap_t; - -/* - * When creating cnat_vrfmap entry, ensure that any already - * configured logging info is taken into account - */ -#define CNAT_SET_VRFMAP_NFV9_LOGGING_INDEX(logging_index, i_vrf) \ -do { \ - cnat_nfv9_logging_info_t *my_nfv9_logging_info = 0; \ - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info, ({ \ - if (my_nfv9_logging_info->i_vrf == i_vrf) { \ - logging_index = my_nfv9_logging_info - cnat_nfv9_logging_info; \ - break; \ - } \ - })); \ -while (0) - - -typedef struct { - /* - * spp_ctx_alloc() call failed - */ - u64 nfv9_logging_context_creation_fail_count; - - /* - * Cannot send the existing logging pkt, so cannot create - * any additional packets for logging purposes - */ - u64 nfv9_logging_context_creation_deferred_count; - - /* - * Cannot send the existing logging pkt due to cnat_rewrite_output - * superframe being full. - */ - u64 nfv9_downstream_constipation_count; - - /* - * buffer for spp_ctx_alloc() call failed - */ - u64 nfv9_logging_context_buffer_allocation_fail_count; - -} cnat_global_counters_t; - - -extern cnat_global_counters_t cnat_global_counters; - -extern u16 *cnat_portmap_indices_by_vrf; -extern cnat_vrfmap_t *cnat_portmap_by_vrf; -extern cnat_portmap_t **cnat_portmaps; -extern u16 **cnat_portmaps_inuse; - -extern cnat_vrfmap_t *cnat_map_by_vrf; - -/* - * Special define to indicate that the VRF map index entry is empty - */ -#define VRF_MAP_ENTRY_EMPTY 0xffff -extern u16 vrf_map_array[CNAT_MAX_VRFMAP_ENTRIES]; - -extern cnat_svi_params_entry svi_params_array[CNAT_MAX_VRFMAP_ENTRIES]; -extern cnat_ingress_vrfid_name_entry vrfid_name_map[MAX_VRFID]; - -extern index_slist_t *cnat_out2in_hash; -extern index_slist_t *cnat_in2out_hash; -extern index_slist_t *cnat_user_hash; -extern index_slist_t *cnat_session_hash; - -typedef enum { - CNAT_DB_IN2OUT = 0, - CNAT_DB_OUT2IN, -} cnat_db_which_t; - -typedef enum { - CNAT_NO_ICMP_MSG =0, - CNAT_ICMP_MSG, -} cnat_icmp_msg_t; - -typedef struct { - cnat_errno_t error; - cnat_icmp_msg_t gen_icmp_msg; - u32 svi_addr; -} cnat_gen_icmp_info; - -typedef cnat_vrfmap_t nat64_vrfmap_t; -typedef cnat_portmap_v2_t nat64_portmap_v2_t; - -#define CNAT_V4_GET_HASH(key64, hash, mask) \ - a = key64; \ - b = c = 0x9e3779b97f4a7c13LL; \ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix64(a, b, c); \ - hash = c & mask; - -#define CNAT_V4_GET_SESSION_HASH(main_index, in_addr, port, vrf, hash, mask) \ - a = main_index ^ in_addr ^ port ^ vrf; \ - b = c = 0x9e3779b9; \ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; - -#define CNAT_V4_GET_FRAG_HASH(key64, key32, hash, mask) \ - a = key64; \ - b = key32; \ - c = 0x9e3779b97f4a7c13LL; \ - hash_mix64(a, b, c); \ - hash = c % mask; - -#define CNAT_DB_UPDATE_IN2OUT_TIMER \ - db->entry_expires = cnat_current_time; \ - db->in2out_pkts++; - -#define CNAT_DB_TIMEOUT_RST(db) \ - if(PREDICT_TRUE(db->entry_expires != 0 )) \ - db->entry_expires = cnat_current_time; - -#define DEBUG_I2O_DROP(debug_flag) \ -if (debug_i_flag & debug_flag) { \ - cnat_db_debug_i2o_drop(&ki); \ -} - - -cnat_main_db_entry_t *cnat_main_db_create (cnat_db_create_args_t *a); -void cnat_main_db_entry_delete(cnat_main_db_entry_t *ep); - -void cnat_delete_main_db_entry(cnat_main_db_entry_t *ep); -void cnat_delete_main_db_entry_v2(cnat_main_db_entry_t *ep); - - -cnat_main_db_entry_t* -cnat_get_main_db_entry(cnat_db_key_bucket_t *ki, - port_pair_t port_type, - cnat_errno_t *error, - cnat_user_db_entry_t ** user_db_entry); - -cnat_main_db_entry_t* -cnat_get_main_db_entry_v2(cnat_db_key_bucket_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info, - cnat_key_t *dest_info); - -cnat_main_db_entry_t* -cnat_create_static_main_db_entry_v2(cnat_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_vrfmap_t *my_vrfmap, - cnat_gen_icmp_info *info); - -cnat_main_db_entry_t* -cnat_create_main_db_entry_and_hash(cnat_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_user_db_entry_t *udb); - -cnat_user_db_entry_t* -cnat_user_db_create_entry(cnat_db_key_bucket_t *uki, - u32 portmap_index); - -cnat_user_db_entry_t* -cnat_user_db_lookup_entry(cnat_db_key_bucket_t *uki); - -cnat_main_db_entry_t* -cnat_main_db_lookup_entry(cnat_db_key_bucket_t *ki); - -cnat_main_db_entry_t* -cnat_main_db_lookup_entry_out2in (cnat_db_key_bucket_t *ko); - -void cnat_main_db_entry_dump (cnat_main_db_entry_t *db); -void cnat_db_in2out_hash_delete (cnat_main_db_entry_t *ep, cnat_user_db_entry_t *up); -void cnat_db_out2in_hash_delete (cnat_main_db_entry_t *ep); -void cnat_user_db_delete (cnat_user_db_entry_t *up); -void cnat_db_debug_i2o_drop(cnat_db_key_bucket_t *ki); - -/* - * Function to dump the Hash Table that maps if_num to uidb_index - */ -extern void cnat_if_num_hash_table_dump(void); - -#define MAIN_DB_TYPE 0 -#define SESSION_DB_TYPE 1 -u16 query_and_update_db_timeout(void *db, u8 db_type); - -u16 cnat_timeout_db_create (cnat_timeout_t t_entry); -void cnat_timeout_db_delete(cnat_key_t t_key); - -cnat_session_entry_t * -cnat_create_session_db_entry(cnat_key_t *ko, - cnat_main_db_entry_t *bdb, u8 log); - -void cnat_dest_update_main2session(cnat_main_db_entry_t *mdb, - cnat_session_entry_t *sdb); - -cnat_session_entry_t *cnat_handle_1to2_session( - cnat_main_db_entry_t *mdb, - cnat_key_t *dest_info); - -void cnat_add_dest_n_log( - cnat_main_db_entry_t *mdb, - cnat_key_t *dest_info); - -cnat_session_entry_t * - cnat_session_db_lookup_entry(cnat_key_t *ko,u32 main_db_index); - -cnat_session_entry_t * - cnat_session_db_edm_lookup_entry(cnat_key_t *ko, - u32 session_head_index, - u32 main_db_index); - - -typedef struct{ - u32 sessions; - u32 active_translations; - u32 num_dynamic_translations; - u32 num_static_translations; - u64 in2out_drops_port_limit_exceeded; - u64 in2out_drops_system_limit_reached; - u64 in2out_drops_resource_depletion; - u64 no_translation_entry_drops; - u32 num_subscribers; - u32 dummy; - u64 drops_sessiondb_limit_exceeded; -} nat44_dslite_common_stats_t; - -typedef struct { - u32 translation_delete_count; - u32 translation_create_count; - u32 out2in_forwarding_count; -} nat44_dslite_global_stats_t; - -typedef struct { - u64 v4_to_v6_tcp_seq_mismatch_drop_count; - u64 v4_to_v6_tcp_seq_mismatch_count; - u64 v4_to_v6_out2in_session_create_count; - u64 v4_to_v6_end_point_filter_drop_count; -} nat44_counters_stats_t; - -#define NAT44_STATS 0 -#define DSLITE_STATS 1 -extern nat44_dslite_common_stats_t nat44_dslite_common_stats[255]; /* 0 is for nat44 */ -extern nat44_dslite_global_stats_t nat44_dslite_global_stats[2]; /* 0 for nat44 and 1 for dslite */ -extern nat44_counters_stats_t nat44_counters_stats[CNAT_MAX_VRFMAP_ENTRIES];/*For displaying show cgn <cgn-name> inside-vrf <vrf-name> counters */ - -#define NAT44_COMMON_STATS nat44_dslite_common_stats[NAT44_RESERVED_INST_ID] -#define NAT44_GLOBAL_STATS nat44_dslite_global_stats[NAT44_STATS] -#define DSLITE_GLOBAL_STATS nat44_dslite_global_stats[DSLITE_STATS] -#define SESSION_LOG_ENABLE 1 -#define ALG_ENABLED_DB(db) \ - ((db->flags & CNAT_PCP_FLAG) || \ - (db->flags & CNAT_DB_FLAG_ALG_CTRL_FLOW) || \ - (db->flags & (CNAT_DB_FLAG_PPTP_TUNNEL_INIT | \ - CNAT_DB_FLAG_PPTP_TUNNEL_ACTIVE))) - - -#endif /* __CNAT_DB_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_db_scanner.c b/plugins/vcgn-plugin/vcgn/cnat_db_scanner.c deleted file mode 100644 index 6e536d84c79..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_db_scanner.c +++ /dev/null @@ -1,493 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_db_scanner.c - cnat_db_scanner dispatch function and initialization - * - * Copyright (c) 2009-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> -#include <vppinfra/string.h> -#include <vppinfra/random.h> -#include <vppinfra/fifo.h> -#include <vppinfra/hash.h> -#include <vppinfra/format.h> - - -#include "cnat_db.h" -#include "cnat_logging.h" -#include "cnat_global.h" -#include "cnat_ipv4_udp.h" -#include "cnat_common_api.h" - -u32 translation_create_count, translation_delete_count; -u32 translation_create_rate, translation_delete_rate; - -u32 in2out_forwarding_count, out2in_forwarding_count; -u32 in2out_forwarding_rate, out2in_forwarding_rate; - -u32 nat44_active_translations; -u32 num_entries; -uword check_these_pool_indices[2*MAX_DB_ENTRY_SELECTED_PER_SCAN]; - -#define CNAT_DB_SCANNER_TURN_ON 5 /* just an arbitary number for easier debugging */ - -//extern u32 pcp_throttle_count; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_db_scanner_main_t; - -cnat_db_scanner_main_t cnat_db_scanner_main; - - -static inline void check_session_for_expiry( - cnat_session_entry_t * sdb, u8 timeout_dirty - /*,dslite_table_entry_t *dslite_entry_ptr*/) -{ - void cnat_delete_session_db_entry (cnat_session_entry_t *ep, u8 log); - /* Tasks - - * 1. Check for expiry for this entry - * 2. Delete if expired - */ - u32 timeout = 0; - - switch(sdb->v4_dest_key.k.vrf & CNAT_PRO_MASK) { - case CNAT_TCP: - if (sdb->flags & CNAT_DB_FLAG_TCP_ACTIVE) { - timeout = sdb->timeout; - if(PREDICT_FALSE(timeout_dirty)) { - timeout = query_and_update_db_timeout( - (void *)sdb, SESSION_DB_TYPE); - } - if(PREDICT_TRUE(timeout == 0)) { - timeout = tcp_active_timeout; - //dslite_entry_ptr->timeout_info.tcp_active_timeout; - } - } else { - timeout = tcp_initial_setup_timeout; - //dslite_entry_ptr->timeout_info.tcp_initial_setup_timeout; - } - break; - case CNAT_UDP: - if (sdb->flags & CNAT_DB_FLAG_UDP_ACTIVE) { - timeout = sdb->timeout; - if(PREDICT_FALSE(timeout_dirty)) { - timeout = query_and_update_db_timeout( - (void *)sdb, SESSION_DB_TYPE); - } - - if(PREDICT_TRUE(timeout == 0)) { - timeout = udp_act_session_timeout; - //dslite_entry_ptr->timeout_info.udp_act_session_timeout; - } - } else { - timeout = udp_init_session_timeout; - //dslite_entry_ptr->timeout_info.udp_init_session_timeout; - } - break; - case CNAT_ICMP: - timeout = icmp_session_timeout; - //dslite_entry_ptr->timeout_info.icmp_session_timeout; - break; - case CNAT_PPTP: - timeout = pptp_cfg.timeout; - break; - default: - return; - } - /* Changes required for clearing sessions */ - if (PREDICT_FALSE((sdb->entry_expires == 0) || - (sdb->entry_expires + timeout < cnat_current_time))) { - cnat_delete_session_db_entry(sdb, TRUE); - } -} - -static u8 handle_db_scan_for_sessions( - cnat_main_db_entry_t *db, int *dirty_index, uword db_index - /* ,dslite_table_entry_t *dslite_entry_ptr */) -{ - /* Tasks - - * 1. Traverse through the sessions and check for timeouts - * 2. Delete sessions that have exipred - * 3. Check if the db has only one session remaining.. if so, - * the details of the session has to be moved to main db - * and session db entry needs to be freed - * 4. If db does not have any sessions left, the db itself - * needs to be deleted. - */ - u32 nsessions, session_index_head, session_index; - cnat_session_entry_t *sdb; - u8 timeout_dirty = FALSE; - - if(PREDICT_FALSE(*dirty_index == db_index)) { - *dirty_index = -1; - } - if(PREDICT_FALSE(timeout_dirty_flag == 1)) { - timeout_dirty_flag = 0; - *dirty_index = db_index; - timeout_dirty = TRUE; - } - - session_index_head = session_index = db->session_head_index; - nsessions = db->nsessions; - - do { - sdb = cnat_session_db + session_index; - if(PREDICT_FALSE(!sdb)) { - //TO DO: Debug msg? - return FALSE; - } - session_index = sdb->main_list.next; - check_session_for_expiry(sdb, timeout_dirty /*,dslite_entry_ptr*/); - nsessions--; /* To ensure that we do not get in to an infinite loop */ - } while(session_index != session_index_head - && db->session_head_index != EMPTY && - nsessions); - - /* Note.. the code below assumes that while deleting the - * sessions, we do not delete the main db entry if it does - * not have any sessions anymore - */ - if(PREDICT_FALSE((!db->nsessions) && - (!(db->flags & CNAT_DB_FLAG_STATIC_PORT)))) { - cnat_delete_main_db_entry_v2(db); - return TRUE; /* to indicate that main db was deleted */ - } - return FALSE; -} - -static void cnat_db_scanner(void) -{ - cnat_main_db_entry_t * db; - u32 timeout; - cnat_vrfmap_t *my_vrfmap __attribute__((unused)) = 0; - static int dirty_index = -1; - u16 instance __attribute__((unused)); - //dslite_table_entry_t *dslite_entry_ptr; - u32 i; - uword db_index; - //pcp_throttle_count = 0; - - for (i = 0; i < num_entries; i++) { - db_index = check_these_pool_indices[i]; - db = cnat_main_db + db_index; - timeout=0; - my_vrfmap = 0; - -#if 0 - if(PREDICT_FALSE(db->flags & CNAT_PCP_FLAG)) { - - if(db->proto_data.seq_pcp.pcp_lifetime < cnat_current_time) { - /* mark as implicit */ - db->flags &= ~CNAT_PCP_FLAG; - } - continue; - } - -#endif - if(PREDICT_FALSE(db->nsessions > 1)) { - if(PREDICT_FALSE( - handle_db_scan_for_sessions(db, &dirty_index, db_index /*,dslite_entry_ptr */))) { - continue; - } else if(PREDICT_TRUE(db->nsessions > 1)) { - continue; - } - /* if there is exactly one dest left.. let it fall through - * and check if that needs to be deleted as well - */ - } - -#if 0 - if (PREDICT_FALSE(db->flags & CNAT_DB_FLAG_STATIC_PORT)) { - if (PREDICT_FALSE(db->flags & CNAT_DB_DSLITE_FLAG)) { - if(PREDICT_FALSE( - ((dslite_entry_ptr->nf_logging_policy != SESSION_LOG_ENABLE) && - (dslite_entry_ptr->syslog_logging_policy != SESSION_LOG_ENABLE)) - || (db->nsessions !=1))) { - continue; - } - } else { - my_vrfmap = cnat_map_by_vrf + db->vrfmap_index; - if(PREDICT_FALSE( - ((my_vrfmap->nf_logging_policy != SESSION_LOG_ENABLE) && - (my_vrfmap->syslog_logging_policy != SESSION_LOG_ENABLE)) || - (db->nsessions !=1))) { - continue; - } - } - } -#endif - - switch(db->in2out_key.k.vrf & CNAT_PRO_MASK) { - case CNAT_TCP: - if (db->flags & CNAT_DB_FLAG_TCP_ACTIVE) { - timeout = db->timeout; - if(PREDICT_FALSE(dirty_index == db_index)) { - dirty_index = -1; - } - if(PREDICT_FALSE(timeout_dirty_flag == 1)) { - timeout_dirty_flag = 0; - dirty_index = db_index; - } - if(PREDICT_FALSE(dirty_index != -1)) { - timeout = query_and_update_db_timeout( - (void *)db, MAIN_DB_TYPE); - } - if(PREDICT_TRUE(timeout == 0)) { - timeout = tcp_active_timeout; - } - } else { - timeout = tcp_initial_setup_timeout; - } - break; - case CNAT_UDP: - if (db->flags & CNAT_DB_FLAG_UDP_ACTIVE) { - timeout = db->timeout; - if(PREDICT_FALSE(dirty_index == db_index)) { - dirty_index = -1; - } - if(PREDICT_FALSE(timeout_dirty_flag == 1)) { - timeout_dirty_flag = 0; - dirty_index = db_index; - } - if(PREDICT_FALSE(dirty_index != -1)) { - timeout = query_and_update_db_timeout( - (void *)db, MAIN_DB_TYPE); - } - if(PREDICT_TRUE(timeout == 0)) { - timeout = udp_act_session_timeout; - } - } else { - timeout = udp_init_session_timeout; - } - break; - case CNAT_ICMP: - timeout = icmp_session_timeout; - break; - case CNAT_PPTP: - timeout = pptp_cfg.timeout; - break; - default: - continue; - } - - - /* Ref: CSCtu97536 */ - if (PREDICT_FALSE((db->entry_expires == 0) || - (db->entry_expires + timeout < cnat_current_time))) { -#if 0 - if (PREDICT_FALSE(db->flags & CNAT_DB_FLAG_STATIC_PORT)) { - if (PREDICT_FALSE(db->flags & CNAT_DB_DSLITE_FLAG)) { - instance = db->dslite_nat44_inst_id; - } else { - instance = NAT44_RESERVED_INST_ID; - cnat_session_log_nat44_mapping_delete(db, 0, my_vrfmap); - } - - /* Reset the session details */ - db->nsessions = 0; - db->dst_ipv4 = 0; - db->dst_port = 0; - db->flags &= ~(CNAT_DB_FLAG_TCP_ACTIVE | CNAT_DB_FLAG_UDP_ACTIVE - | CNAT_DB_FLAG_ALG_ENTRY); - db->timeout = 0; - db->entry_expires = 0; - db->alg.delta = 0; - db->proto_data.seq_pcp.tcp_seq_num = 0; - continue; - } -#endif - //printf("DELETING DB ENTRY FOR 0x%x\n", db->in2out_key.k.ipv4); - cnat_delete_main_db_entry_v2(db); - } - //free(check_these_pool_indices[i]); - } -} - -static void walk_the_db (void) -{ - pool_header_t *h = pool_header(cnat_main_db); - u32 db_uword_len; - static u32 base_index = 0, free_bitmap_index = 0; - int bits_scanned = 0, i; - uword inuse_bitmap; - - num_entries=0; - - /* Across all db entries... */ - db_uword_len = vec_len(cnat_main_db) / NUM_BITS_IN_UWORD; - if (PREDICT_FALSE(vec_len(cnat_main_db) % NUM_BITS_IN_UWORD)) { - /* - * It should not come here as in cnat_db_init_v2() - * it is made multiple of NUM_BITS_IN_UWORD - */ - ASSERT(0); - return ; - } - - if (PREDICT_FALSE(! db_uword_len)) - return ; - - while (bits_scanned < MAX_DB_ENTRY_PER_SCAN) { - - if (PREDICT_FALSE(free_bitmap_index < vec_len(h->free_bitmap))) { - - /* free_bitmap exists and it is not all 0 */ - - inuse_bitmap = ~(h->free_bitmap[free_bitmap_index]); - i = 0; - while (inuse_bitmap) { - - /* Check to see if the index is in use */ - if (PREDICT_FALSE((inuse_bitmap >> i) & 1)) { - check_these_pool_indices[num_entries] = base_index + i; - inuse_bitmap &= ~((uword) 1 << i); - num_entries++; - } - i++; - } // while (inuse_bitmap) - } else { - - /* - * 64-bit entry is 0, means all 64 entries are allocated. - * So, simply add all 64 entries here. - * No need to form inuse_bitmap, check and reset bits - */ - for (i=0; i<NUM_BITS_IN_UWORD; i++) { - - check_these_pool_indices[num_entries] = base_index + i; - num_entries++; - } - } // if (free_bitmap_index < vec_len(h->free_bitmap)) - - /* Update free_bitmap_index and base_index for next run */ - if (PREDICT_FALSE(free_bitmap_index == db_uword_len - 1)) { - /* wrap-around for next run */ - free_bitmap_index = 0; - base_index = 0; - } else { - free_bitmap_index ++; - base_index += NUM_BITS_IN_UWORD; - } - - /* increment # of bits scanned */ - bits_scanned += NUM_BITS_IN_UWORD; - - /* Found enough entries to check ? */ - if (PREDICT_FALSE(num_entries >= MAX_DB_ENTRY_SELECTED_PER_SCAN)) - { - /* This check is introduced to keep fixed MAX scan entry value */ - /* This is very much required when we do scanning for NAT64 */ - /* please check comments in cnat_db_scanner() & - * handler_nat64_db_scanner() */ - if (num_entries >= MAX_COMBINED_DB_ENTRIES_PER_SCAN) { - num_entries = MAX_COMBINED_DB_ENTRIES_PER_SCAN; - } - break; - } - - } // while (bits_scanned < MAX_DB_ENTRY_PER_SCAN) - - if (PREDICT_FALSE(num_entries > 0)) { - //printf("%s: num_entries [%d]\n", __func__, num_entries); - cnat_db_scanner(); - } - return ; -} - -static uword cnat_db_scanner_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - f64 timeout = 0.01; /* timeout value in sec (10 ms) */ - static u8 timeout_count = 0; - - uword event_type; - uword * event_data = 0; - /* Wait until vCGN is configured */ - while (1) { - /* Assigning a huge timeout value, vCGN may or - * may not get configured within this timeout */ - vlib_process_wait_for_event_or_clock (vm, 1e9); - event_type = vlib_process_get_events (vm, &event_data); - - /* check whether the process is waken up by correct guy, - * otherwise continue waiting for the vCGN config */ - if (event_type == CNAT_DB_SCANNER_TURN_ON) { - break; - } - } - - while(1) { - vlib_process_suspend(vm, timeout); - - /* Above suspend API should serve the purpose, no need to invoke wait API */ - /* vlib_process_wait_for_event_or_clock (vm, timeout); */ - - /* Lets make use of this timeout for netflow packet sent */ - if (timeout_count < 100) { /* 100*10 ms = 1 sec */ - timeout_count++; - } else { - if (nfv9_configured) { - handle_pending_nfv9_pkts(); - } - timeout_count = 0; - } - /* Do we need this ? */ - //event_type = vlib_process_get_events (vm, &event_data); - cnat_current_time = (u32)vlib_time_now (vm); - if (cnat_db_init_done) { - walk_the_db(); - } - } - - return 0; -} - - -VLIB_REGISTER_NODE (cnat_db_scanner_node) = { - .function = cnat_db_scanner_fn, - .type = VLIB_NODE_TYPE_PROCESS, - .name = "cnat-db-scanner", - .process_log2_n_stack_bytes = 18, -}; - -clib_error_t *cnat_db_scanner_init (vlib_main_t *vm) -{ - cnat_db_scanner_main_t *mp = &cnat_db_scanner_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -void cnat_scanner_db_process_turn_on(vlib_main_t *vm) -{ - vlib_process_signal_event (vm, cnat_db_scanner_node.index, - CNAT_DB_SCANNER_TURN_ON, 0); - return; -} - -VLIB_INIT_FUNCTION (cnat_db_scanner_init); - diff --git a/plugins/vcgn-plugin/vcgn/cnat_db_v2.c b/plugins/vcgn-plugin/vcgn/cnat_db_v2.c deleted file mode 100644 index 46af9f3133c..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_db_v2.c +++ /dev/null @@ -1,3806 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_db_v2.c - translation database definitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> -#include <vppinfra/error.h> - -#include "cnat_db.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_v4_functions.h" -#include "cnat_log_api.h" -#include "cnat_cli.h" -#include "spp_platform_trace_log.h" -#include "cnat_bulk_port.h" -#include "nat64_db.h" -#include "dslite_db.h" -#include "cnat_config_api.h" - -#define HASH_TABLE_SIZE 8192 // hash table size -#define THROTTLE_TIME 180 // throttle time value for out of port msg/user - -u8 cnat_db_init_done = 0; - -typedef struct { - /* Locks for multi thread support */ - CLIB_CACHE_LINE_ALIGN_MARK(cacheline0); - pthread_spinlock_t *main_db_lockp; - pthread_spinlock_t *user_db_lockp; - pthread_spinlock_t *session_db_lockp; - - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_db_v2_main_t; - -cnat_db_v2_main_t cnat_db_v2_main; - -#if 1 -/* TOBE_PORTED : Remove the following once fixed */ -#undef PREDICT_TRUE -#undef PREDICT_FALSE -#define PREDICT_TRUE(x) (x) -#define PREDICT_FALSE(x) (x) -#endif - -#define foreach_cnat_db_v2_error \ -_(DROP, "error-drop packets") - -typedef enum { -#define _(sym,str) CNAT_DB_V2_##sym, - foreach_cnat_db_v2_error -#undef _ - CNAT_DB_V2_N_ERROR, -} cnat_db_v2_error_t; - -static char * cnat_db_v2_error_strings[] __attribute__((unused)) = { -#define _(sym,string) string, - foreach_cnat_db_v2_error -#undef _ -}; - - -void cnat_table_entry_fill_map(u32 start_addr, u32 end_addr, - cnat_portmap_v2_t **port_map_holder) -{ - u32 this_start_addr, this_end_addr, this_addr, new; - u32 loop_count; - u32 pm_len, i; - cnat_portmap_v2_t *my_pm =0; - cnat_portmap_v2_t *pm = 0; - - my_instance_number = 0; - - this_start_addr = start_addr; - this_end_addr = end_addr; - - /* - * How many new addresses are getting added ?? - */ - /* commenting this. Right now end - start will be for this vCGN instance */ - //new = ((this_end_addr - this_start_addr) / MAX_CORES_PER_PARTITION) + 1; - new = (this_end_addr - this_start_addr) + 1; - - pm = *port_map_holder; - pm_len = vec_len(pm); -#if DEBUG_NOT_COMMENTED - printf("this_start_addr = 0x%08X, this_end_addr = 0x%08X, Num Addr = %d\n", - this_start_addr, this_end_addr, new); - printf("pm_len = %d\n", pm_len); -#endif - /* Check whether the address pool add requested already exists */ - my_pm = pm; - for(i = 0; i< pm_len; i++) { - if(my_pm->ipv4_address == this_start_addr) { - printf("address pool with addr 0x%08X exists\n", this_start_addr); - return; - } - my_pm++; - } - - /* - * For now give a warning message only.... - */ -#if 0 - if ((total_address_pool_allocated + new) > - CNAT_MAX_ADDR_POOL_SIZE_PER_CORE) { - printf("address pool size (%d) would cross permissible limit (%u) \n", - (total_address_pool_allocated + new), - CNAT_MAX_ADDR_POOL_SIZE_PER_CORE); - } -#endif - - total_address_pool_allocated += new; - vec_add2(pm, my_pm, new); - -#if DEBUG_NOT_COMMENTED - printf("total_address_pool_allocated changed from %d to %d (added %d)", - (total_address_pool_allocated - new), - total_address_pool_allocated, new); - printf("vec add is ok\n"); -#endif - - memset(my_pm, 0, new*sizeof(*my_pm)); - this_addr = this_start_addr; - loop_count = 0; /* Sanity counter */ - - while (this_addr <= this_end_addr) { -#if DEBUG_NOT_COMMENTED - printf("loop %d: this addr = 0x%08X\n", loop_count+1, this_addr); -#endif - my_pm->ipv4_address = this_addr; - /* - * Set all bits to "1" indicating all ports are free - */ - memset(my_pm->bm, 0xff, - (((BITS_PER_INST + BITS(uword)-1)/BITS(uword))*(sizeof(uword)))); - //this_addr += MAX_CORES_PER_PARTITION; - this_addr += 1; - my_pm++; - loop_count++; - } - /* - * We should have loop_count same as the new value - */ - if (loop_count != new) { - printf("Mismatch in loop_count (%d) != new (%d)\n", - loop_count, new); - } - - *port_map_holder = pm; - -#if DEBUG_NOT_COMMENTED - printf("revised pm len %d\n", vec_len(*port_map_holder)); -#endif - - return; -} - - -void cnat_delete_session_db_entry (cnat_session_entry_t *ep, u8 log); -void handle_cnat_port_exceeded_logging( - cnat_user_db_entry_t *udb, - cnat_key_t * key, - cnat_vrfmap_t *vrfmap); - -cnat_global_counters_t cnat_global_counters; -u32 last_log_timestamp = 0; -u32 last_user_dyn_port_exc_timestamp = 0; -u32 last_user_stat_port_exc_timestamp = 0; - -index_slist_t *cnat_out2in_hash; -index_slist_t *cnat_in2out_hash; -index_slist_t *cnat_user_hash; -index_slist_t *cnat_timeout_hash; -index_slist_t *cnat_session_hash; - -cnat_main_db_entry_t *cnat_main_db; -cnat_user_db_entry_t *cnat_user_db; -cnat_session_entry_t *cnat_session_db; -cnat_timeout_db_entry_t *cnat_timeout_db; - -cgse_nat_db_entry_t *cgse_nat_db; -cgse_nat_user_db_entry_t *cgse_user_db; -cgse_nat_session_db_entry_t *cgse_session_db; - -nat44_dslite_common_stats_t nat44_dslite_common_stats[255]; /* 0 is for nat44 */ -nat44_dslite_global_stats_t nat44_dslite_global_stats[2]; /* 0 for nat44 and 1 for dslite */ -nat44_counters_stats_t nat44_counters_stats[CNAT_MAX_VRFMAP_ENTRIES]; -/*For displaying show cgn <cgn-name> inside-vrf <vrf-name> counters */ - -/* - * This is the pool of vrf map structures used by latest main-db functions - */ -cnat_vrfmap_t *cnat_map_by_vrf; - -/* - * Have a mapping table of vrf_id-->vrf_map_index - * This helps in easily getting the vrf_map structure during - * main-db create paths - */ -u16 vrf_map_array[CNAT_MAX_VRFMAP_ENTRIES]; -cnat_svi_params_entry svi_params_array[CNAT_MAX_VRFMAP_ENTRIES]; -cnat_ingress_vrfid_name_entry vrfid_name_map[MAX_VRFID] = {{0}}; -u64 in2out_drops_port_limit_exceeded; -u64 in2out_drops_system_limit_reached; -u64 in2out_drops_resource_depletion; -u64 no_translation_entry_drops; -u32 no_sessions; - -#define CNAT_SET_ICMP_MSG_INFO \ -if (PREDICT_TRUE((my_vrfmap->i_vrf < CNAT_MAX_VRFMAP_ENTRIES) && \ - (svi_params_array[my_vrfmap->i_vrf].ipv4_addr))) { \ - info->gen_icmp_msg = icmp_msg_gen_allowed(); \ - info->svi_addr = svi_params_array[my_vrfmap->i_vrf].ipv4_addr; \ -} - -#define CNAT_DEBUG_INSIDE_ERR(err) \ -if (((protocol == CNAT_UDP) && \ - (debug_i_flag & CNAT_DEBUG_ERR_UDP)) || \ - ((protocol == CNAT_TCP) && \ - (debug_i_flag & CNAT_DEBUG_ERR_TCP)) || \ - ((protocol == CNAT_ICMP) && \ - (debug_i_flag & CNAT_DEBUG_ERR_ICMP))) { \ - cnat_db_debug_error(&u_ki, err); \ -} - -#define DSLITE_DEBUG_INSIDE_ERR(err) \ -if (((protocol == CNAT_UDP) && \ - (debug_i_flag & CNAT_DEBUG_ERR_UDP)) || \ - ((protocol == CNAT_TCP) && \ - (debug_i_flag & CNAT_DEBUG_ERR_TCP)) || \ - ((protocol == CNAT_ICMP) && \ - (debug_i_flag & CNAT_DEBUG_ERR_ICMP))) { \ - dslite_db_debug_error(&u_ki, err); \ -} - -#define PORT_LIMIT_LOW_THRESHOLD_FOR_SYSLOG 7 -/* If the max_limit is less than 10, no meaningful throttling can be - * done.. so, log only once per user and never clear the flag - * once the user exceeds limit - */ -#define CHECK_CLEAR_PORT_LIMIT_EXCEED_FLAG(udb, max_limit) \ - if(PREDICT_FALSE(udb->flags & CNAT_USER_DB_PORT_LIMIT_EXCEEDED)) { \ - if(udb->ntranslations < \ - ((max_limit/10)*PORT_LIMIT_LOW_THRESHOLD_FOR_SYSLOG) && \ - max_limit >= 10) { \ - udb->flags = udb->flags & (~CNAT_USER_DB_PORT_LIMIT_EXCEEDED); \ - } \ - } - -#ifdef TOBE_PORTED -/* Commented to remove unused variable warning */ -static char *debug_db_error[] = { - "no error", /* CNAT_SUCCESS */ - "no config", /*CNAT_NO_CONFIG*/ - "not in run state", /*CNAT_NO_VRF_RUN*/ - "no pool for any", /*CNAT_NO_POOL_ANY*/ - "no port for any", /*CNAT_NO_PORT_ANY*/ - "bad in use for any", /*CNAT_BAD_INUSE_ANY*/ - "not found for any", /*CNAT_NOT_FOUND_ANY*/ - "invalid index for direct", /*CNAT_INV_PORT_DIRECT*/ - "deleted addr for direct", /*CNAT_DEL_PORT_DIRECT*/ - "bad in use for direct",/*CNAT_BAD_INUSE_DIRECT*/ - "not found for direct",/*CNAT_NOT_FOUND_DIRECT*/ - "out of port limit", /*CNAT_OUT_LIMIT*/ - "main db limit", /*CNAT_MAIN_DB_LIMIT*/ - "user db limit", /*CNAT_USER_DB_LIMIT*/ - "not static port", /*CNAT_NOT_STATIC_PORT*/ - "bad static port request", /*CNAT_BAD_STATIC_PORT_REQ*/ - "not this core", /*CNAT_NOT_THIS_CORE*/ - "parser error", /*CNAT_ERR_PARSER*/ - "invalid msg id", /*CNAT_ERR_INVALID_MSG_ID*/ - "invalid msg size", /*CNAT_ERR_INVALID_MSG_SIZE*/ - "invalid payload size", /*CNAT_ERR_INVALID_PAYLOAD_SIZE*/ - "bad tcp udp port", /*CNAT_ERR_BAD_TCP_UDP_PORT*/ - "bulk single failure", /*CNAT_ERR_BULK_SINGLE_FAILURE*/ - "xlat id invalid", /*CNAT_ERR_XLAT_ID_INVALID*/ - "xlat v6 prefix invalid", /*CNAT_ERR_XLAT_V6_PREFIX_INVALID*/ - "xlat v4 prefix invalid", /*CNAT_ERR_XLAT_V4_PREFIX_INVALID*/ - "xlat tcp mss invalid", /*CNAT_ERR_XLAT_TCP_MSS_INVALID*/ - "6rd id invalid", /*CNAT_ERR_6RD_ID_INVALID*/ - "6rd v4 tunnel src invalid", /*CNAT_ERR_6RD_V4_TUNNEL_SRC_INVALID*/ - "6rd v6 prefix invalid", /*CNAT_ERR_6RD_V6_PREFIX_INVALID*/ - "6rd v6 BR unicast invalid", /*CNAT_ERR_6RD_V6_BR_UNICAST_INVALID*/ - "6rd v4 prefix masklen invalid", /*CNAT_ERR_6RD_V4_PREFIX_MASK_LEN_INVALID*/ - "6rd v4 suffix masklen invalid", /*CNAT_ERR_6RD_V4_SUFFIX_MASK_LEN_INVALID*/ - "6rd v4 combo masklen invalid", /*CNAT_ERR_6RD_V4_COMBO_MASK_LEN_INVALID*/ - "6rd tunnel mtu invalid", /*CNAT_ERR_6RD_TUNNEL_MTU_INVALID*/ - "6rd tunnel ttl invalid", /*CNAT_ERR_6RD_TUNNEL_TTL_INVALID*/ - "6rd tunnel tos invalid", /*CNAT_ERR_6RD_TUNNEL_TOS_INVALID*/ -}; -#endif - -f64 port_log_timestamps[HASH_TABLE_SIZE]; /* 32 KB array per core */ - -void port_exceeded_msg_log (u32 src_addr, u16 i_vrf) -{ - u32 hash_value; - f64 current_timestamp; - vlib_main_t *vlib_main; - - vlib_main = vlib_get_main(); - current_timestamp = vlib_time_now((vlib_main_t *) vlib_main); - - hash_value = ((src_addr >> 16) ^ ((src_addr & 0xffff) ^ i_vrf)) % (1024*8); - - if (PREDICT_FALSE((current_timestamp - port_log_timestamps[hash_value]) > THROTTLE_TIME)) { - u32 arg[2] = {i_vrf, src_addr}; - /* update timestamp */ - port_log_timestamps[hash_value] = current_timestamp; - spp_printf(CNAT_USER_OUT_OF_PORTS, 2, arg); - } - - return ; -} - -static void log_port_alloc_error(cnat_errno_t error, cnat_key_t *k) -{ - u32 error_code; - u32 arr[] = {k->k.vrf, k->k.ipv4, k->k.port}; - switch (error) - { - case CNAT_NO_POOL_ANY: - error_code = CNAT_NO_POOL_FOR_ANY_ERROR; - break; - case CNAT_NO_PORT_ANY: - error_code = CNAT_NO_PORT_FOR_ANY_ERROR; - break; - case CNAT_ERR_PARSER: - error_code = CNAT_WRONG_PORT_ALLOC_TYPE; - break; - case CNAT_BAD_INUSE_ANY: - error_code = CNAT_BAD_INUSE_ANY_ERROR; - break; - case CNAT_BAD_INUSE_DIRECT: - error_code = CNAT_BAD_INUSE_DIRECT_ERROR; - break; - case CNAT_NOT_FOUND_ANY: - error_code = CNAT_NOT_FOUND_ANY_ERROR; - break; - case CNAT_NOT_FOUND_DIRECT: - error_code = CNAT_NOT_FOUND_DIRECT_ERROR; - break; - case CNAT_INV_PORT_DIRECT: - error_code = CNAT_INV_PORT_FOR_DIRECT_ERROR; - break; - default: - error_code = CNAT_NEW_PORT_ALLOC_ERROR; /* If this code is seen in the log, - it means, new error codes are to be added here */ - break; - } - spp_printf(error_code, 3, arr); -} - -void cnat_db_debug_error(cnat_db_key_bucket_t *u_ki, - cnat_errno_t error) -{ - if (PREDICT_FALSE((u_ki->k.k.vrf == debug_i_vrf) && - ((u_ki->k.k.ipv4 >= debug_i_addr_start) && - (u_ki->k.k.ipv4 <= debug_i_addr_end)))) { -#ifdef DEBUG_PRINTF_ENABLED - PLATFORM_DEBUG_PRINT("failed to allocate port due to %s " - "for i-vrf 0x%x addr 0x%x port 0x%x\n", - debug_db_error[error], u_ki->k.k.vrf, - u_ki->k.k.ipv4, u_ki->k.k.port); -#endif - { - u32 arg[] = {u_ki->k.k.vrf, u_ki->k.k.ipv4, u_ki->k.k.port}; - spp_printf(error, 3, arg); - } - } -} - -void dslite_db_debug_error(dslite_db_key_bucket_t *u_ki, - cnat_errno_t error) -{ - if (PREDICT_FALSE((u_ki->dk.ipv4_key.k.vrf == debug_i_vrf) && - ((u_ki->dk.ipv4_key.k.ipv4 >= debug_i_addr_start) && - (u_ki->dk.ipv4_key.k.ipv4 <= debug_i_addr_end)))) { -#ifdef DEBUG_PRINTF_ENABLED - PLATFORM_DEBUG_PRINT("failed to allocate port due to %s " - "for i-vrf 0x%x addr 0x%x port 0x%x\n", - debug_db_error[error], u_ki->dk.ipv4_key.k.vrf, - u_ki->dk.ipv4_key.k.ipv4, u_ki->dk.ipv4_key.k.port); -#endif - { - u32 arg[] = {u_ki->dk.ipv4_key.k.vrf, u_ki->dk.ipv4_key.k.ipv4, u_ki->dk.ipv4_key.k.port}; - spp_printf(error, 3, arg); - } - } -} - -void cnat_db_debug_i2o_drop(cnat_db_key_bucket_t *ki) -{ - if (PREDICT_FALSE(((ki->k.k.vrf & CNAT_VRF_MASK) == debug_i_vrf) && - ((ki->k.k.ipv4 >= debug_i_addr_start) && - (ki->k.k.ipv4 <= debug_i_addr_end)))) { -#ifdef DEBUG_PRINTF_ENABLED - PLATFORM_DEBUG_PRINT("pakcet[i-vrf 0x%x addr 0x%x port 0x%x] dropped\n", - ki->k.k.vrf, ki->k.k.ipv4, ki->k.k.port); -#endif - { - u32 arg[] = {ki->k.k.vrf, ki->k.k.ipv4, ki->k.k.port}; - spp_printf(CNAT_PACKET_DROP_ERROR, 3, arg); - } - } -} - -void cnat_db_in2out_hash_delete (cnat_main_db_entry_t *ep, cnat_user_db_entry_t *up) -{ - u64 a, b, c; - u32 index, bucket; - cnat_main_db_entry_t *this, *prev; - -#ifdef DSLITE_DEF - if (PREDICT_FALSE(ep->flags & CNAT_DB_DSLITE_FLAG)) { - dslite_key_t dk = { - {up->ipv6[0], up->ipv6[1], up->ipv6[2], up->ipv6[3]} , - {ep->in2out_key.k.ipv4, ep->in2out_key.k.port, ep->in2out_key.k.vrf} - }; - DSLITE_V6_GET_HASH((&dk), - bucket, - CNAT_MAIN_HASH_MASK); - DSLITE_PRINTF(1, "Delete1 DSL main hash bucket ..%u\n", bucket); - } else { - CNAT_V4_GET_HASH(ep->in2out_key.key64, - bucket, CNAT_MAIN_HASH_MASK) - DSLITE_PRINTF(1, "Delete1 NAT44 main hash bucket ..%u\n", bucket); - } -#else - CNAT_V4_GET_HASH(ep->in2out_key.key64, - bucket, CNAT_MAIN_HASH_MASK) -#endif - - index = cnat_in2out_hash[bucket].next; - - ASSERT(index != EMPTY); - - prev = 0; - do { - this = cnat_main_db + index; - if (PREDICT_TRUE(this == ep)) { - if (prev == 0) { - cnat_in2out_hash[bucket].next = ep->in2out_hash.next; - return; - } else { - prev->in2out_hash.next = ep->in2out_hash.next; - return; - } - } - prev = this; - index = this->in2out_hash.next; - } while (index != EMPTY); - - ASSERT(0); -} - -void cnat_db_out2in_hash_delete (cnat_main_db_entry_t *ep) -{ - u64 a, b, c; - u32 index, bucket; - cnat_main_db_entry_t *this, *prev; - - CNAT_V4_GET_HASH(ep->out2in_key.key64, - bucket, CNAT_MAIN_HASH_MASK) - - index = cnat_out2in_hash[bucket].next; - - ASSERT(index != EMPTY); - - prev = 0; - do { - this = cnat_main_db + index; - if (PREDICT_TRUE(this == ep)) { - if (prev == 0) { - cnat_out2in_hash[bucket].next = ep->out2in_hash.next; - return; - } else { - prev->out2in_hash.next = ep->out2in_hash.next; - return; - } - } - prev = this; - index = this->out2in_hash.next; - } while (index != EMPTY); - - ASSERT(0); -} - -cnat_main_db_entry_t* -cnat_main_db_lookup_entry(cnat_db_key_bucket_t *ki) -{ - u64 a, b, c; - u32 index; - cnat_main_db_entry_t *db; - - CNAT_V4_GET_HASH(ki->k.key64, - ki->bucket, - CNAT_MAIN_HASH_MASK); - - index = cnat_in2out_hash[ki->bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - return (NULL); - } - - do { - db = cnat_main_db + index; - if (PREDICT_TRUE(db->in2out_key.key64 == ki->k.key64)) { - return db; - } - index = db->in2out_hash.next; - } while (index != EMPTY); - - return (NULL); -} - -void cnat_user_db_delete (cnat_user_db_entry_t *up) -{ - u64 a, b, c; - u32 index, bucket; - cnat_user_db_entry_t *this, *prev; - - if (PREDICT_FALSE(up->flags & CNAT_USER_DB_NAT64_FLAG) != 0) { - /* Preventive check - Not a NAT44 entry */ - return; - } - - pthread_spin_lock(cnat_db_v2_main.user_db_lockp); -#if 1 - if(PREDICT_FALSE(up->flags & CNAT_USER_DB_DSLITE_FLAG)) { - dslite_key_t dk = { - {up->ipv6[0], up->ipv6[1], up->ipv6[2], up->ipv6[3]} , - {{up->key.k.ipv4, up->key.k.port, up->key.k.vrf}} - }; - - DSLITE_V6_GET_HASH((&dk), - bucket, - CNAT_USER_HASH_MASK); - DSLITE_PRINTF(1, "Delete1 DSL user hash bucket ..%u\n", bucket); - } else { - CNAT_V4_GET_HASH(up->key.key64, - bucket, CNAT_USER_HASH_MASK) - DSLITE_PRINTF(1, "Delete1 NAT44 user hash bucket ..%u\n", bucket); - } -#else - CNAT_V4_GET_HASH(up->key.key64, - bucket, CNAT_USER_HASH_MASK) - DSLITE_PRINTF(1, "Delete2 NAT44 user hash bucket ..%u\n", bucket); -#endif - - index = cnat_user_hash[bucket].next; - - ASSERT(index != EMPTY); - - prev = 0; - do { - this = cnat_user_db + index; - if (PREDICT_TRUE(this == up)) { - if (prev == 0) { - cnat_user_hash[bucket].next = up->user_hash.next; - goto found; - } else { - prev->user_hash.next = up->user_hash.next; - goto found; - } - } - prev = this; - index = this->user_hash.next; - } while (index != EMPTY); - - ASSERT(0); - - found: - pool_put(cnat_user_db, up); - pthread_spin_unlock(cnat_db_v2_main.user_db_lockp); -} - -cnat_user_db_entry_t* -cnat_user_db_lookup_entry(cnat_db_key_bucket_t *uki) -{ - u64 a, b, c; - u32 index; - cnat_user_db_entry_t *udb=NULL; - - CNAT_V4_GET_HASH(uki->k.key64, - uki->bucket, - CNAT_USER_HASH_MASK) - - /* now: index in user vector */ - index = cnat_user_hash[uki->bucket].next; - if (PREDICT_TRUE(index != EMPTY)) { - do { - udb = cnat_user_db + index; - if (PREDICT_FALSE(udb->key.key64 == uki->k.key64)) { - return udb; - } - index = udb->user_hash.next; - } while (index != EMPTY); - } - return (NULL); -} - -cnat_user_db_entry_t* -cnat_user_db_create_entry(cnat_db_key_bucket_t *uki, - u32 portmap_index) -{ - cnat_user_db_entry_t *udb = NULL; - - pthread_spin_lock(cnat_db_v2_main.user_db_lockp); - pool_get(cnat_user_db, udb); - memset(udb, 0, sizeof(*udb)); - - udb->ntranslations = 1; - udb->portmap_index = portmap_index; - udb->key.key64 = uki->k.key64; - /* Add this user to the head of the bucket chain */ - udb->user_hash.next = - cnat_user_hash[uki->bucket].next; - cnat_user_hash[uki->bucket].next = udb - cnat_user_db; - -#ifndef NO_BULK_LOGGING - INIT_BULK_CACHE(udb) -#endif /* NO_BULK_LOGGING */ - pthread_spin_unlock(cnat_db_v2_main.user_db_lockp); - return udb; -} - -cnat_main_db_entry_t* -cnat_create_main_db_entry_and_hash(cnat_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_user_db_entry_t *udb) -{ - u64 a, b, c; - u32 db_index; - cnat_main_db_entry_t *db = NULL; - - pool_get(cnat_main_db, db); - memset(db, 0, sizeof(*db)); - - db_index = db - cnat_main_db; - db->in2out_key.k.ipv4 = ki->k.k.ipv4; - db->in2out_key.k.port = ki->k.k.port; - db->in2out_key.k.vrf = ki->k.k.vrf; - db->out2in_key.k.ipv4 = ko->k.k.ipv4; - db->out2in_key.k.port = ko->k.k.port; - db->out2in_key.k.vrf = ko->k.k.vrf; - - db->user_ports.next = db_index; - db->user_ports.prev = db_index; - db->user_index = udb - cnat_user_db; - //db->portmap_index = udb->portmap_index; - db->flags &= ~(CNAT_DB_DSLITE_FLAG); // Mark that it is not dslite - if (PREDICT_FALSE(udb->ntranslations == 1)) { - /* - * first port for this src vrf/src ip addr - */ - udb->translation_list_head_index = db_index; - } else { - index_dlist_addtail(udb->translation_list_head_index, - (u8 *)cnat_main_db, sizeof(cnat_main_db[0]), - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports), - db_index); - } - - /* - * setup o2i hash key - */ - CNAT_V4_GET_HASH(ko->k.key64, - ko->bucket, - CNAT_MAIN_HASH_MASK) - db->out2in_hash.next = cnat_out2in_hash[ko->bucket].next; - cnat_out2in_hash[ko->bucket].next = db_index; - /* - * setup i2o hash key, bucket is already calculate - */ - db->in2out_hash.next = cnat_in2out_hash[ki->bucket].next; - cnat_in2out_hash[ki->bucket].next = db_index; - -#if DEBUG > 1 - printf("\nMy_Instance_Number %d: Bucket %d, Db_Index %d", - my_instance_number, ki->bucket, db_index); - printf("\nInside (VRF 0x%x, IP 0x%x, PORT 0x%x)", - db->in2out_key.k.vrf, db->in2out_key.k.ipv4, db->in2out_key.k.port); - printf("\nOutside (VRF 0x%x, IP 0x%x, PORT 0x%x)", - db->out2in_key.k.vrf, db->out2in_key.k.ipv4, db->out2in_key.k.port); - printf("\nUser Index %d, IP 0x%x", - db->user_index, udb->key.k.ipv4); -#endif - - NAT44_COMMON_STATS.active_translations++; - - return db; -} - -static inline void pptp_clear_all_channels( - cnat_main_db_entry_t *db) -{ - u32 db_index, current_db_index; - cnat_main_db_entry_t *temp_db; - - /* clear all channels */ - - db_index = db->proto_data.pptp_list.next; - current_db_index = db - cnat_main_db; - - while( db_index != EMPTY) { - temp_db = cnat_main_db + db_index; - db_index = temp_db->proto_data.pptp_list.next; - temp_db->entry_expires = 0; - if(PREDICT_FALSE(temp_db->proto_data.pptp_list.prev - == current_db_index)) { // Decouple child GREs from parent - temp_db->proto_data.pptp_list.prev = EMPTY; - } - } - - db->proto_data.pptp_list.next = EMPTY; -} - -void pptp_remove_channel_from_tunnel(cnat_main_db_entry_t *db) { - - cnat_main_db_entry_t *prev_db, *next_db; - - prev_db = cnat_main_db + db->proto_data.pptp_list.prev; - next_db = cnat_main_db + db->proto_data.pptp_list.next; - - /* remove entry from the tunnel list */ - if(PREDICT_TRUE(db->proto_data.pptp_list.prev != EMPTY)) { - prev_db->proto_data.pptp_list.next = - db->proto_data.pptp_list.next ; - } - - if(db->proto_data.pptp_list.next != EMPTY) { - next_db->proto_data.pptp_list.prev - = db->proto_data.pptp_list.prev; - } - -} - -void cnat_delete_main_db_entry_v2 (cnat_main_db_entry_t *ep) -{ - u32 main_db_index; - u32 vrfmap_len, udb_len; - cnat_user_db_entry_t *up =0; - cnat_portmap_v2_t *pm =0; - cnat_portmap_v2_t *my_pm =0; - cnat_vrfmap_t *my_vrfmap =0; - u16 static_port_range; -#ifndef NO_BULK_LOGGING - bulk_alloc_size_t bulk_size; - int nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; -#endif - pool_header_t *h = pool_header(cnat_user_db); - u16 instance = 0; - u32 my_index; - - - if (PREDICT_FALSE(ep->flags & CNAT_DB_NAT64_FLAG) != 0) { - /* Preventive check - Not a NAT44 entry */ - return; - } - - pthread_spin_lock(cnat_db_v2_main.main_db_lockp); - if(PREDICT_FALSE(ep->flags & - CNAT_DB_FLAG_PPTP_TUNNEL_ACTIVE)) { - pptp_clear_all_channels(ep); - PPTP_DECR(active_tunnels); - } - - if(PREDICT_FALSE(ep->flags & - CNAT_DB_FLAG_PPTP_GRE_ENTRY)) { - pptp_remove_channel_from_tunnel(ep); - PPTP_DECR(active_channels); - } - - /* This function gets called from various locations.. - * many times from config handler.. so we - * to ensure that multiple sessions if any are - * released - */ - - if(PREDICT_FALSE(ep->nsessions > 1)) { - cnat_session_entry_t *sdb; - while(ep->nsessions > 1 && - ep->session_head_index != EMPTY) { - sdb = cnat_session_db + ep->session_head_index; - cnat_delete_session_db_entry(sdb, TRUE); - } - } - - /* Find the set of portmaps for the outside vrf */ - vrfmap_len = vec_len(cnat_map_by_vrf); - udb_len = vec_len(cnat_user_db); - - /* In case of invalid user just return, deleting only main db - * is not a good idea, since some valid user db entry might be pointing - * to that main db and hence leave the dbs in a inconsistent state - */ - if (PREDICT_FALSE((ep->user_index >= udb_len) || - (clib_bitmap_get(h->free_bitmap, ep->user_index)))) { -#ifdef DEBUG_PRINTF_ENABLED - printf("invalid/unused user index in db %d\n", ep->user_index); -#endif - spp_printf(CNAT_INV_UNUSED_USR_INDEX, 1, (u32 *) &(ep->user_index)); - cnat_main_db_entry_dump(ep); - goto unlock; - } - - up = cnat_user_db + ep->user_index; - -/* Point to the right portmap list */ -if (PREDICT_FALSE(ep->flags & CNAT_DB_DSLITE_FLAG)) { - instance = ep->dslite_nat44_inst_id; - pm = dslite_table_db_ptr[instance].portmap_list; - if(PREDICT_FALSE((pm == NULL))) { - DSLITE_PRINTF(3, "NULL portmap list for dslite_id %u, state %u\n", - instance, dslite_table_db_ptr[instance].state); - cnat_main_db_entry_dump(ep); - goto delete_entry; - } - static_port_range = - STAT_PORT_RANGE_FROM_INST_PTR(&(dslite_table_db_ptr[instance])); - /* - * Netflow logging API for delete event - */ - bulk_size = - BULKSIZE_FROM_VRFMAP(&(dslite_table_db_ptr[instance])); -} else { - if (PREDICT_FALSE(ep->vrfmap_index >= vrfmap_len)) { -#ifdef DEBUG_PRINTF_ENABLED - printf("invalid vrfmap index in db\n"); -#endif - spp_printf(CNAT_INVALID_VRFMAP_INDEX, 0, NULL); - cnat_main_db_entry_dump(ep); - goto delete_entry; - } - instance = NAT44_RESERVED_INST_ID; - my_vrfmap = cnat_map_by_vrf + ep->vrfmap_index; - pm = my_vrfmap->portmap_list; - static_port_range = cnat_static_port_range; - bulk_size = BULKSIZE_FROM_VRFMAP(my_vrfmap); -} - - if (PREDICT_FALSE(ep->flags & CNAT_DB_FLAG_PORT_PAIR)) { - /* Give back the port(s) */ - cnat_port_free_v2_bulk(pm, up->portmap_index, - PORT_PAIR, ep->out2in_key.k.port, up, static_port_range -#ifndef NO_BULK_LOGGING - , bulk_size, &nfv9_log_req -#endif - ); - } else { - /* Give back the port(s) */ - cnat_port_free_v2_bulk (pm, up->portmap_index, - PORT_SINGLE, ep->out2in_key.k.port, up, static_port_range -#ifndef NO_BULK_LOGGING - , bulk_size, &nfv9_log_req -#endif - ); - } - - if (PREDICT_TRUE(!(ep->flags & CNAT_DB_DSLITE_FLAG))) { - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - if(PREDICT_FALSE(my_vrfmap->nf_logging_policy == SESSION_LOG_ENABLE)) { - if(ep->nsessions != 0) { - cnat_nfv9_nat44_log_session_delete(ep, NULL, my_vrfmap); - } - } else { - cnat_nfv9_log_mapping_delete(ep, my_vrfmap -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - if(PREDICT_TRUE((my_vrfmap->syslog_logging_policy != SESSION_LOG_ENABLE) || - (ep->nsessions != 0))) { - cnat_syslog_nat44_mapping_delete(ep, my_vrfmap, NULL -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - } - } else { - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - if(PREDICT_FALSE( dslite_table_db_ptr[instance].nf_logging_policy == - SESSION_LOG_ENABLE)) { - cnat_nfv9_ds_lite_log_session_delete(ep, - (dslite_table_db_ptr + instance),NULL); - } else { - cnat_nfv9_ds_lite_mapping_delete(ep, - (dslite_table_db_ptr + instance) -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } -#ifdef TOBE_PORTED - cnat_syslog_ds_lite_mapping_delete(ep, - (dslite_table_db_ptr + instance), NULL -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); -#endif /* TOBE_PORTED */ - } - } - -delete_entry: - - main_db_index = ep - cnat_main_db; - - pthread_spin_lock(cnat_db_v2_main.user_db_lockp); - up->ntranslations--; - pthread_spin_unlock(cnat_db_v2_main.user_db_lockp); - - /* - * when user reaches max allowed port limit - * we generate icmp msg and inc the counter - * when counter reach the icmp msg rate limit - * we stop icmp msg gen - * when a user port is freed - * that means we need to clear the msg gen counter - * so that next time - * reach max port limit, we can generate new icmp msg again - */ - up->icmp_msg_count = 0; - - up->translation_list_head_index = index_dlist_remelem ( - up->translation_list_head_index, (u8 *)cnat_main_db, - sizeof (cnat_main_db[0]), - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports), - main_db_index); - - cnat_db_in2out_hash_delete(ep, up); - - if (PREDICT_FALSE(up->ntranslations == 0)) { - ASSERT(up->translation_list_head_index == EMPTY); - nat44_dslite_common_stats[instance].num_subscribers--; - my_index = up->portmap_index; - my_pm = pm + my_index; - if(PREDICT_TRUE(my_pm->private_ip_users_count)) { - my_pm->private_ip_users_count--; -#ifdef DEBUG_PRINTF_IP_N_TO_1_ENABLED - PLATFORM_DEBUG_PRINT("\n cnat_delete_main_db_entry_v2 " - "private_ip_users_count = %d", - my_pm->private_ip_users_count); -#endif - - } - cnat_user_db_delete(up); - - } - - /* Remove from main DB hashes */ - //cnat_db_in2out_hash_delete(ep); - cnat_db_out2in_hash_delete(ep); - - pool_put(cnat_main_db, ep); - - if(PREDICT_FALSE(ep->flags & CNAT_DB_FLAG_STATIC_PORT)) { - nat44_dslite_common_stats[instance].num_static_translations--; - } else { - nat44_dslite_common_stats[instance].num_dynamic_translations--; - } - nat44_dslite_common_stats[instance].active_translations--; - nat44_dslite_global_stats[!!(instance - 1)].translation_delete_count ++; -unlock: - pthread_spin_unlock(cnat_db_v2_main.main_db_lockp); -} - -cnat_main_db_entry_t* -cnat_main_db_lookup_entry_out2in (cnat_db_key_bucket_t *ko) -{ - u64 a, b, c; - u32 index; - cnat_main_db_entry_t *db; - - CNAT_V4_GET_HASH(ko->k.key64, - ko->bucket, - CNAT_MAIN_HASH_MASK); - - index = cnat_out2in_hash[ko->bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - return (NULL); - } - - do { - db = cnat_main_db + index; - if (PREDICT_TRUE(db->out2in_key.key64 == ko->k.key64)) { - return db; - } - index = db->out2in_hash.next; - } while (index != EMPTY); - - return (NULL); -} - -/* Creates 2 sessions. - * Moves the default dest info from mdb to first session - * Fills the dest_info details in to second session and - * returns the pointer to second session - */ -cnat_session_entry_t *cnat_handle_1to2_session( - cnat_main_db_entry_t *mdb, - cnat_key_t *dest_info) -{ - cnat_key_t old_dest_info; - pool_header_t *h; - u32 free_session = 0; - u16 instance; - cnat_session_entry_t *session_db1 = NULL, *session_db2 = NULL; - - h = pool_header(cnat_session_db); - free_session = vec_len(h->free_indices) - 1; - - if (PREDICT_FALSE(free_session < 2)) { - if (mdb->flags & CNAT_DB_DSLITE_FLAG) { - instance = mdb->dslite_nat44_inst_id; - } else { - instance = NAT44_RESERVED_INST_ID; - } - - /* we need 2 sessions here, return NULL */ - nat44_dslite_common_stats[instance].drops_sessiondb_limit_exceeded++; - return NULL; - } - - old_dest_info.k.ipv4 = mdb->dst_ipv4; - old_dest_info.k.port = mdb->dst_port; - old_dest_info.k.vrf = mdb->in2out_key.k.vrf; - - /* create 2 new sessions */ - session_db1 = cnat_create_session_db_entry(&old_dest_info, - mdb, FALSE); - - if(PREDICT_FALSE(session_db1 == NULL)) { - return NULL; - } - - /* update pkt info to session 2 */ - session_db2 = cnat_create_session_db_entry(dest_info, - mdb, TRUE); - - if(PREDICT_FALSE(session_db2 == NULL)) { - cnat_delete_session_db_entry(session_db1, FALSE); - return NULL; - } - /* update main db info to session 1 */ - cnat_dest_update_main2session(mdb, session_db1); - - return session_db2; -} - -/* The below function shold be called only - * when a NAT44 STATIC entry received traffic - * for the first time. This is to ensure - * the destination is noted and logged - */ -void cnat_add_dest_n_log( - cnat_main_db_entry_t *mdb, - cnat_key_t *dest_info) -{ - - if(PREDICT_FALSE(mdb->nsessions != 0)) { - return; /* Should not have been called */ - } - - mdb->dst_ipv4 = dest_info->k.ipv4; - mdb->dst_port = dest_info->k.port; - mdb->nsessions = 1; - mdb->entry_expires = cnat_current_time; - u16 instance; - - if (mdb->flags & CNAT_DB_DSLITE_FLAG) { - instance = mdb->dslite_nat44_inst_id; - cnat_session_log_ds_lite_mapping_create(mdb, - (dslite_table_db_ptr + instance),NULL); - } else { - instance = NAT44_RESERVED_INST_ID; - cnat_vrfmap_t *my_vrfmap = cnat_map_by_vrf + mdb->vrfmap_index; - cnat_session_log_nat44_mapping_create(mdb, 0, my_vrfmap); - } -} - -/* - * this function is called by exception node - * when lookup is fialed in i2o node - * - * if reash per user port limit, - * set user_db_entry pointer, and error == CNAT_OUT_LIMIT - */ -static cnat_main_db_entry_t* -_cnat_get_main_db_entry_v2(cnat_db_key_bucket_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info, - cnat_key_t *dest_info) -{ - u16 protocol; - cnat_errno_t rv; - cnat_db_key_bucket_t u_ki, ko; - u32 my_index, free_main, free_user; - u32 current_timestamp; - u16 my_vrfmap_index; - u16 my_vrfmap_entry_found = 0; - cnat_vrfmap_t *my_vrfmap =0; - cnat_portmap_v2_t *pm =0; - cnat_user_db_entry_t *udb = 0; - cnat_main_db_entry_t *db = 0; - pool_header_t *h; - u16 port_limit; - cnat_portmap_v2_t *my_pm = 0; - -#ifndef NO_BULK_LOGGING - int nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; -#endif - - - /* - * need to try lookup again because - * second pkt may come here before the entry is created - * by receiving first pkt due to high line rate. - */ - info->gen_icmp_msg = CNAT_NO_ICMP_MSG; - info->error = CNAT_SUCCESS; - db = cnat_main_db_lookup_entry(ki); - if (PREDICT_TRUE(db)) { - /* what if the source is talking to a - * new dest now? We will have to handle this case and - * take care of - creating session db and logging - */ - if(PREDICT_FALSE((!dest_info->k.ipv4) && (!dest_info->k.port))) { - return db; /* if dest_info is null don't create session */ - } - if(PREDICT_TRUE((db->dst_ipv4 == dest_info->k.ipv4) && - (db->dst_port == dest_info->k.port))) { - return db; - } - dest_info->k.vrf = db->in2out_key.k.vrf; - /* Src is indeed talking to a different dest */ - cnat_session_entry_t *session_db2 = NULL; - if(PREDICT_TRUE(db->nsessions == 1)) { - session_db2 = cnat_handle_1to2_session(db, dest_info); - if(PREDICT_TRUE(session_db2 != NULL)) { - CNAT_DB_TIMEOUT_RST(session_db2); - return db; - } else { - info->error = CNAT_ERR_NO_SESSION_DB; - return NULL; - } - } else if(PREDICT_FALSE(db->nsessions == 0)) { - /* Should be static entry.. should never happen - */ - if(PREDICT_TRUE(dest_info->k.ipv4 != 0)) { - cnat_add_dest_n_log(db, dest_info); - } - return db; - } else { - /* The src has already created multiple sessions.. very rare - */ - session_db2 = cnat_create_session_db_entry(dest_info, - db, TRUE); - if(PREDICT_TRUE(session_db2 != NULL)) { - CNAT_DB_TIMEOUT_RST(session_db2); - return db; - } else { - info->error = CNAT_ERR_NO_SESSION_DB; - return NULL; - } - } - - } - - /* - * step 1. check if outside vrf is configured or not - * and Find the set of portmaps for the outside vrf - * insider vrf is one to one mappted to outside vrf - * key is vrf and ip only - * ki.k.k.vrf has protocol bits, mask out - */ - protocol = ki->k.k.vrf & CNAT_PRO_MASK; - u_ki.k.k.vrf = ki->k.k.vrf & CNAT_VRF_MASK; - u_ki.k.k.ipv4 = ki->k.k.ipv4; - u_ki.k.k.port = 0; - - my_vrfmap_index = vrf_map_array[u_ki.k.k.vrf]; - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; - - my_vrfmap_entry_found = ((my_vrfmap_index != VRF_MAP_ENTRY_EMPTY) && - (my_vrfmap->status == S_RUN) && - (my_vrfmap->i_vrf == u_ki.k.k.vrf)); - - if (PREDICT_FALSE(!my_vrfmap_entry_found)) { - u32 arr[] = {ki->k.k.vrf, ki->k.k.ipv4, ki->k.k.port}; - if ((my_vrfmap_index == VRF_MAP_ENTRY_EMPTY) || - (my_vrfmap->i_vrf == u_ki.k.k.vrf)) { - info->error = CNAT_NO_CONFIG; - CNAT_DEBUG_INSIDE_ERR(CNAT_NO_CONFIG) - spp_printf(CNAT_NO_CONFIG_ERROR, 3, arr); - } else { - info->error = CNAT_NO_VRF_RUN; - CNAT_DEBUG_INSIDE_ERR(CNAT_NO_VRF_RUN) - spp_printf(CNAT_NO_VRF_RUN_ERROR, 3, arr); - } - - return (NULL); - } - - pm = my_vrfmap->portmap_list; - - port_limit = my_vrfmap->port_limit; - if(PREDICT_FALSE(!port_limit)) { - port_limit = cnat_main_db_max_ports_per_user; - } - /* - * set o2i key with protocl bits - */ - ko.k.k.vrf = my_vrfmap->o_vrf | protocol; - - /* - * step 2. check if src vrf, src ip addr is alreay - * in the user db - * if yes, use PORT_ALLOC_DIRECTED - * if no, use PORT_ALLOC_ANY since it is first time - */ - udb = cnat_user_db_lookup_entry(&u_ki); - if (PREDICT_TRUE(udb)) { - /* - * not first time allocate port for this user - * check limit - */ - if (PREDICT_FALSE(udb->ntranslations >= - port_limit)) { - /* Check for the port type here. If we are getting - * a STATIC PORT, allow the config. - */ - if (PREDICT_TRUE(port_type != PORT_TYPE_STATIC)) { - info->error = CNAT_OUT_LIMIT; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(CNAT_OUT_LIMIT) - port_exceeded_msg_log(u_ki.k.k.ipv4, u_ki.k.k.vrf); - in2out_drops_port_limit_exceeded ++; - u_ki.k.k.port = ki->k.k.port; - u_ki.k.k.vrf = ki->k.k.vrf; - handle_cnat_port_exceeded_logging(udb, &u_ki.k, my_vrfmap); - return (NULL); - } - } - CHECK_CLEAR_PORT_LIMIT_EXCEED_FLAG(udb, - port_limit) - - /* - * check if main db has space to accomodate new entry - */ - h = pool_header(cnat_main_db); - - free_main = vec_len(h->free_indices) - 1; - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - CNAT_SET_ICMP_MSG_INFO - in2out_drops_system_limit_reached ++; - CNAT_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) - - current_timestamp = spp_trace_log_get_unix_time_in_seconds(); - if (PREDICT_FALSE((current_timestamp - last_log_timestamp) > - 1800)) { - spp_printf(CNAT_SESSION_THRESH_EXCEEDED, 0, NULL); - last_log_timestamp = current_timestamp; - } - -#ifdef UT_TEST_CODE - printf("Limit reached : OLD USER"); -#endif - return NULL; - } - - /* - * allocate port, from existing mapping - */ - my_index = udb->portmap_index; - - if (PREDICT_FALSE(port_type == PORT_TYPE_STATIC)) { - rv = cnat_static_port_alloc_v2_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - ki->k.k.ipv4, - ki->k.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , my_vrfmap->ip_n_to_1 - ); - - } else if (PREDICT_TRUE(port_type != PORT_TYPE_RTSP) ) { - - rv = cnat_dynamic_port_alloc_v2_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , my_vrfmap->ip_n_to_1, - &(my_vrfmap->rseed_ip) - ); - - } else { - /* - * For RTSP, two translation entries are created, - * check if main db has space to accomodate two new entry - */ - free_main = free_main - 1; - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - CNAT_SET_ICMP_MSG_INFO - in2out_drops_system_limit_reached ++; - CNAT_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) - - return NULL; - } else { - rv = cnat_dynamic_port_alloc_rtsp_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - ki->k.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , &(my_vrfmap->rseed_ip) - ); - } - } - - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(rv) - in2out_drops_resource_depletion++; - log_port_alloc_error(rv, &(ki->k)); - return (NULL); - } - /* - * increment port in use for this user - */ - pthread_spin_lock(cnat_db_v2_main.user_db_lockp); - udb->ntranslations += 1; - pthread_spin_unlock(cnat_db_v2_main.user_db_lockp); - - } else { - /* - * first time allocate port for this user - */ - - /* - * Do not create entry if port limit is invalid - */ - - if (PREDICT_FALSE(!port_limit)) { - if (PREDICT_TRUE(port_type != PORT_TYPE_STATIC)) { - info->error = CNAT_OUT_LIMIT; - in2out_drops_port_limit_exceeded ++; - port_exceeded_msg_log(u_ki.k.k.ipv4, u_ki.k.k.vrf); - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(CNAT_OUT_LIMIT) - return (NULL); - } - } - - /* - * Check if main db has space for new entry - * Allowing a user db entry to be created if main db is not free - * will cause a port to be allocated to that user, which results in - * wastage of that port, hence the check is done here. - */ - h = pool_header(cnat_main_db); - free_main = vec_len(h->free_indices) - 1; - h = pool_header(cnat_user_db); - free_user = vec_len(h->free_indices) - 1; - - /* - * If either main_db or user_db does not have entries - * bail out, with appropriate error - */ - if (PREDICT_FALSE(!(free_main && free_user))) { - u32 log_error; - if(free_main) { - info->error = CNAT_USER_DB_LIMIT; - log_error = CNAT_USER_DB_LIMIT_ERROR; - } else { - info->error = CNAT_MAIN_DB_LIMIT; - log_error = CNAT_MAIN_DB_LIMIT_ERROR; - } - in2out_drops_system_limit_reached ++; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(info->error) - spp_printf(log_error, 0, 0); - return NULL; - } - - if (PREDICT_FALSE(port_type == PORT_TYPE_STATIC)) { - rv = cnat_static_port_alloc_v2_bulk(pm, - PORT_ALLOC_ANY, - port_pair_type, - ki->k.k.ipv4, - ki->k.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , my_vrfmap->ip_n_to_1 - ); - - } else if (PREDICT_TRUE(port_type != PORT_TYPE_RTSP)) { - rv = cnat_dynamic_port_alloc_v2_bulk(pm, - PORT_ALLOC_ANY, - port_pair_type, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , NULL, BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , my_vrfmap->ip_n_to_1, - &(my_vrfmap->rseed_ip) - ); - } else { - /* - * For RTSP, two translation entries are created, - * check if main db has space to accomodate two new entry - */ - free_main = free_main - 1; - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - CNAT_SET_ICMP_MSG_INFO - in2out_drops_system_limit_reached ++; - CNAT_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) - - return NULL; - } else { - - rv = cnat_dynamic_port_alloc_rtsp_bulk(pm, - PORT_ALLOC_ANY, - port_pair_type, - ki->k.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , NULL, BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , &(my_vrfmap->rseed_ip) - ); - /* TODO: Add the port pair flag here */ - } - } - - - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - in2out_drops_resource_depletion ++; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(rv) - log_port_alloc_error(rv, &(ki->k)); - return (NULL); - } - /* - * create entry in user db - */ - udb = cnat_user_db_create_entry(&u_ki, my_index); - NAT44_COMMON_STATS.num_subscribers++; - my_pm = pm + my_index; - if(PREDICT_TRUE(my_pm->private_ip_users_count < PORTS_PER_ADDR)) { - my_pm->private_ip_users_count++; -#ifdef DEBUG_PRINTF_IP_N_TO_1_ENABLED - PLATFORM_DEBUG_PRINT("\n cnat_get_main_db_entry_v2 " - "dynamic alloc private_ip_users_count = %d", - my_pm->private_ip_users_count); -#endif - } else { - PLATFORM_DEBUG_PRINT("\n ERROR: private_ip_users_count has " - "reached MAX PORTS_PER_ADDR"); - } -#ifndef NO_BULK_LOGGING - if(PREDICT_TRUE(udb && (BULK_ALLOC_NOT_ATTEMPTED != nfv9_log_req))) { - cnat_update_bulk_range_cache(udb, ko.k.k.port, - BULKSIZE_FROM_VRFMAP(my_vrfmap)); - } -#endif /* #ifndef NO_BULK_LOGGING */ - - } - - /* - * step 3: - * outside port is allocated for this src vrf/src ip addr - * 1)create a new entry in main db - * 2)setup cnat_out2in_hash key - * 3)setup cnat_in2out_hash key - */ - db = cnat_create_main_db_entry_and_hash(ki, &ko, udb); - - translation_create_count ++; -#ifdef DSLITE_DEF - db->dslite_nat44_inst_id = NAT44_RESERVED_INST_ID; -#endif - db->vrfmap_index = my_vrfmap - cnat_map_by_vrf; - - /* - * don't forget logging - * logging API is unconditional, - * logging configuration check is done inside the inline function - */ - - db->dst_ipv4 = dest_info->k.ipv4; - db->dst_port = dest_info->k.port; - if(PREDICT_TRUE(db->dst_ipv4 || db->dst_port)) { - db->nsessions++; - } - - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - if(PREDICT_FALSE(my_vrfmap->nf_logging_policy == SESSION_LOG_ENABLE)) { - /* do not log for static entries.. we will log when traffic flows */ - if(PREDICT_TRUE(db->dst_ipv4 || db->dst_port)) { - cnat_nfv9_nat44_log_session_create(db, 0, my_vrfmap); - } - } else { - cnat_nfv9_log_mapping_create(db, my_vrfmap -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - if(PREDICT_TRUE((my_vrfmap->syslog_logging_policy != SESSION_LOG_ENABLE) || - (db->dst_ipv4 || db->dst_port))) { - cnat_syslog_nat44_mapping_create(db, my_vrfmap, 0 -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - } - if (PREDICT_FALSE(port_pair_type == PORT_PAIR)) { - cnat_main_db_entry_t *db2 = 0; - cnat_db_key_bucket_t new_ki = *ki; - u64 a, b, c; - - new_ki.k.k.port += 1; - ko.k.k.port += 1; - - CNAT_V4_GET_HASH(new_ki.k.key64, new_ki.bucket, - CNAT_MAIN_HASH_MASK); - - db2 = cnat_create_main_db_entry_and_hash(&new_ki, &ko, udb); - - translation_create_count ++; -#ifdef DSLITE_DEF - db2->dslite_nat44_inst_id = NAT44_RESERVED_INST_ID; -#endif - db2->vrfmap_index = my_vrfmap - cnat_map_by_vrf; - db2->entry_expires = cnat_current_time; - db2->flags |= CNAT_DB_FLAG_ALG_ENTRY; - pthread_spin_lock(cnat_db_v2_main.user_db_lockp); - udb->ntranslations += 1; - pthread_spin_unlock(cnat_db_v2_main.user_db_lockp); - db2->dst_ipv4 = dest_info->k.ipv4; - db2->dst_port = dest_info->k.port; - db2->nsessions = 0; /* For ALG db, set sessions to 0 - CSCuf78420 */ - - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - if(PREDICT_FALSE(my_vrfmap->nf_logging_policy == SESSION_LOG_ENABLE)) { - /* do not log for static entries.. we will log when traffic flows */ - if(PREDICT_TRUE(db2->dst_ipv4 || db2->dst_port)) { - cnat_nfv9_nat44_log_session_create(db2, 0, my_vrfmap); - } - } else { - cnat_nfv9_log_mapping_create(db2, my_vrfmap -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - if(PREDICT_TRUE((my_vrfmap->syslog_logging_policy != SESSION_LOG_ENABLE) || - (db2->dst_ipv4 || db2->dst_port))) { - cnat_syslog_nat44_mapping_create(db2, my_vrfmap, 0 -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - } - } - - return db; -} - -cnat_main_db_entry_t* -cnat_get_main_db_entry_v2(cnat_db_key_bucket_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info, - cnat_key_t *dest_info) -{ - - cnat_main_db_entry_t *db; - pthread_spin_lock(cnat_db_v2_main.main_db_lockp); - db = _cnat_get_main_db_entry_v2(ki, port_pair_type, - port_type, info, dest_info); - pthread_spin_unlock(cnat_db_v2_main.main_db_lockp); - return db; -} - -/* - * this function is called from config handler only - * to allocate a static port based db entry - * - * the actual mapped address and port are already specified - */ -cnat_main_db_entry_t* -cnat_create_static_main_db_entry_v2 (cnat_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_vrfmap_t *my_vrfmap, - cnat_gen_icmp_info *info) -{ - u16 protocol; - u32 head; - cnat_errno_t rv; - cnat_db_key_bucket_t u_ki; - u32 my_index, free_main, free_user; - cnat_portmap_v2_t *pm =0; - cnat_portmap_v2_t *my_pm =0; - cnat_user_db_entry_t *udb = 0; - cnat_main_db_entry_t *db = 0; - pool_header_t *h; -#ifndef NO_BULK_LOGGING - int nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; -#endif - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - - /* - * need to try lookup again because - * second pkt may come here before the entry is created - * by receiving first pkt due to high line rate. - */ - info->gen_icmp_msg = CNAT_NO_ICMP_MSG; - info->error = CNAT_SUCCESS; - db = cnat_main_db_lookup_entry(ki); - - /* - * If we already have an entry with this inside address, port - * check delete the entry and proceed further. This should - * If yes, something is terribly wrong. Bail out - */ - if (PREDICT_FALSE(db)) { - - if (db->flags & CNAT_DB_FLAG_STATIC_PORT) { - - if ((db->out2in_key.k.ipv4 == ko->k.k.ipv4) && - (db->out2in_key.k.port == ko->k.k.port) && - (db->out2in_key.k.vrf == ko->k.k.vrf)) { - -#ifdef DEBUG_PRINTF_ENABLED - printf("Same Static Port Exists ki 0x%16llx ko 0x%16llx", - ki->k, ko->k); -#endif - /* - * We have already programmed this, return - */ - return (db); - } - - /* - * We already have a static port with different mapping - * Return an error for this case. - */ - info->error = CNAT_ERR_PARSER; - -#ifdef DEBUG_PRINTF_ENABLED - printf("Static Port Existing and Diff ki 0x%16llx ko 0x%16llx", - ki, db->out2in_key); -#endif - { - u32 arr[] = {STAT_PORT_CONFIG_IN_USE, (ki->k.k.vrf & CNAT_VRF_MASK), - ki->k.k.ipv4, ki->k.k.port, (ki->k.k.vrf & CNAT_PRO_MASK) }; - spp_printf(CNAT_CONFIG_ERROR, 5, arr); - } - return (db); - } - -#ifdef DEBUG_PRINTF_ENABLED - printf("Deleting Dynamic entry ki 0x%16llx ko 0x%16llx", - ki, db->out2in_key); -#endif - - /* - * If for some reason we have dynamic entries, just delete them - * and proceed. - */ - cnat_delete_main_db_entry_v2(db); - - db = NULL; - } - - protocol = ki->k.k.vrf & CNAT_PRO_MASK; - u_ki.k.k.vrf = ki->k.k.vrf & CNAT_VRF_MASK; - u_ki.k.k.ipv4 = ki->k.k.ipv4; - u_ki.k.k.port = 0; - - pm = my_vrfmap->portmap_list; - - /* - * check if src vrf, src ip addr is already - * in the user db - * if yes, use PORT_ALLOC_DIRECTED - * if no, use PORT_ALLOC_ANY since it is first time - */ - udb = cnat_user_db_lookup_entry(&u_ki); - if (PREDICT_TRUE(udb)) { - /* - * check if main db has space to accomodate new entry - */ - h = pool_header(cnat_main_db); - - free_main = vec_len(h->free_indices) - 1; - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - CNAT_SET_ICMP_MSG_INFO - in2out_drops_system_limit_reached ++; - CNAT_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) -#ifdef UT_TEST_CODE - printf("Limit reached : OLD USER"); -#endif - spp_printf(CNAT_MAIN_DB_LIMIT_ERROR, 0, 0); - return NULL; - } - - /* - * allocate port, from existing mapping - */ - my_index = udb->portmap_index; - my_pm = pm + my_index; - /* It is quite possible that we hit the scenario of CSCtj17774. - * Delete all the main db entries and add the ipv4 address sent by - * CGN-MA as Static port alloc any - */ - - if (PREDICT_FALSE(my_pm->ipv4_address != ko->k.k.ipv4)) { - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - printf("Delete Main db entry and check for" - " ipv4 address sanity pm add = 0x%x ip add = 0x%x\n", - my_pm->ipv4_address, ko->k.k.ipv4); - } - do { - /* udb is not NULL when we begin with for sure */ - head = udb->translation_list_head_index; - db = cnat_main_db + head; - cnat_delete_main_db_entry_v2(db); - } while (!pool_is_free(cnat_user_db, udb)); - - rv = cnat_mapped_static_port_alloc_v2_bulk (pm, - PORT_ALLOC_ANY, &my_index, ko->k.k.ipv4, ko->k.k.port, - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), &nfv9_log_req, - my_vrfmap->ip_n_to_1); - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - in2out_drops_resource_depletion ++; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(rv) - return (NULL); - } - /* - * create entry in user db - */ - udb = cnat_user_db_create_entry(&u_ki, my_index); - my_pm = pm + my_index; - if(PREDICT_TRUE(my_pm->private_ip_users_count < PORTS_PER_ADDR)) { - my_pm->private_ip_users_count++; -#ifdef DEBUG_PRINTF_IP_N_TO_1_ENABLED - PLATFORM_DEBUG_PRINT("\n cnat_create_static_main_db_entry_v2 " - "static del n alloc private_ip_users_count = " - "%d",my_pm->private_ip_users_count); -#endif - } else { - PLATFORM_DEBUG_PRINT("\n ERROR: private_ip_users_count has " - "reached MAX PORTS_PER_ADDR"); - } - NAT44_COMMON_STATS.num_subscribers++; -#ifndef NO_BULK_LOGGING - cnat_update_bulk_range_cache(udb, ko->k.k.port, - BULKSIZE_FROM_VRFMAP(my_vrfmap)); -#endif /* #ifndef NO_BULK_LOGGING */ - } else { - - rv = cnat_mapped_static_port_alloc_v2_bulk (pm, - PORT_ALLOC_DIRECTED, &my_index, ko->k.k.ipv4, ko->k.k.port, - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), &nfv9_log_req, - my_vrfmap->ip_n_to_1); - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(rv) - log_port_alloc_error(rv, &(ki->k)); - return (NULL); - } - - /* - * increment port in use for this user - */ - udb->ntranslations += 1; - } - } else { - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - printf ("Static port alloc any\n"); - } - /* - * first time allocate port for this user - */ - - /* - * Check if main db has space for new entry - * Allowing a user db entry to be created if main db is not free - * will cause a port to be allocated to that user, which results in - * wastage of that port, hence the check is done here. - */ - h = pool_header(cnat_main_db); - free_main = vec_len(h->free_indices) - 1; - h = pool_header(cnat_user_db); - free_user = vec_len(h->free_indices) - 1; - - /* - * If either main_db or user_db does not have entries - * bail out, with appropriate error - */ - if (PREDICT_FALSE(!(free_main && free_user))) { - u32 log_error; - if(free_main) { - info->error = CNAT_USER_DB_LIMIT; - log_error = CNAT_USER_DB_LIMIT_ERROR; - } else { - info->error = CNAT_MAIN_DB_LIMIT; - log_error = CNAT_MAIN_DB_LIMIT_ERROR; - } - in2out_drops_system_limit_reached ++; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(info->error) - spp_printf(log_error, 0, 0); - return NULL; - } - - rv = cnat_mapped_static_port_alloc_v2_bulk (pm, - PORT_ALLOC_ANY, &my_index, ko->k.k.ipv4, ko->k.k.port, - udb, BULKSIZE_FROM_VRFMAP(my_vrfmap), &nfv9_log_req, - my_vrfmap->ip_n_to_1); - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - in2out_drops_resource_depletion ++; - CNAT_SET_ICMP_MSG_INFO - CNAT_DEBUG_INSIDE_ERR(rv) - log_port_alloc_error(rv, &(ki->k)); - return (NULL); - } - /* - * create entry in user db - */ - udb = cnat_user_db_create_entry(&u_ki, my_index); - my_pm = pm + my_index; - if(PREDICT_TRUE(my_pm->private_ip_users_count < PORTS_PER_ADDR)) { - my_pm->private_ip_users_count++; -#ifdef DEBUG_PRINTF_IP_N_TO_1_ENABLED - PLATFORM_DEBUG_PRINT("\n cnat_create_static_main_db_entry_v2 " - "static alloc private_ip_users_count = %d", - my_pm->private_ip_users_count); -#endif - } else { - PLATFORM_DEBUG_PRINT("\n ERROR: private_ip_users_count has " - "reached MAX PORTS_PER_ADDR"); - } - NAT44_COMMON_STATS.num_subscribers++; -#ifndef NO_BULK_LOGGING - cnat_update_bulk_range_cache(udb, ko->k.k.port, - BULKSIZE_FROM_VRFMAP(my_vrfmap)); -#endif /* #ifndef NO_BULK_LOGGING */ - } - - /* - * step 3: - * outside port is allocated for this src vrf/src ip addr - * 1)create a new entry in main db - * 2)setup cnat_out2in_hash key - * 3)setup cnat_in2out_hash key - */ - db = cnat_create_main_db_entry_and_hash(ki, ko, udb); - - translation_create_count ++; - db->vrfmap_index = my_vrfmap - cnat_map_by_vrf; - - /* - * don't forget logging - * logging API is unconditional, - * logging configuration check is done inside the inline function - */ - - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - /* if session logging is enabled .. do not log as there is no - * traffic yet - */ - if(PREDICT_FALSE(my_vrfmap->nf_logging_policy != SESSION_LOG_ENABLE)) { - cnat_nfv9_log_mapping_create(db, my_vrfmap -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - if(PREDICT_FALSE(my_vrfmap->syslog_logging_policy != SESSION_LOG_ENABLE)) { - cnat_syslog_nat44_mapping_create(db, my_vrfmap, 0 -#ifndef NO_BULK_LOGGING - , nfv9_log_req -#endif - ); - } - } - - return db; -} - - -cnat_main_db_entry_t* -dslite_main_db_lookup_entry(dslite_db_key_bucket_t *ki); - -cnat_user_db_entry_t* -dslite_user_db_lookup_entry(dslite_db_key_bucket_t *uki); - -cnat_user_db_entry_t* -dslite_user_db_create_entry(dslite_db_key_bucket_t *uki, u32 portmap_index); - -cnat_main_db_entry_t* -dslite_create_main_db_entry_and_hash(dslite_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_user_db_entry_t *udb); - -#ifdef TOBE_PORTED -/* - * this function is called from config handler only - * to allocate a static port based db entry - * - * the actual mapped address and port are already specified - */ -cnat_main_db_entry_t* -dslite_create_static_main_db_entry_v2 (dslite_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - dslite_table_entry_t *dslite_entry_ptr, - cnat_gen_icmp_info *info) -{ - u16 protocol; - u32 head; - cnat_errno_t rv; - dslite_db_key_bucket_t u_ki; - u32 my_index, free_main, free_user; - cnat_portmap_v2_t *pm =0; - cnat_portmap_v2_t *my_pm =0; - cnat_user_db_entry_t *udb = 0; - cnat_main_db_entry_t *db = 0; - pool_header_t *h; - u16 dslite_id = dslite_entry_ptr->dslite_id; -#ifndef NO_BULK_LOGGING - int nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; -#endif - cnat_vrfmap_t *my_vrfmap =0; - u16 my_vrfmap_index; - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - /* - * need to try lookup again because - * second pkt may come here before the entry is created - * by receiving first pkt due to high line rate. - */ - info->gen_icmp_msg = CNAT_NO_ICMP_MSG; - info->error = CNAT_SUCCESS; - db = dslite_main_db_lookup_entry(ki); - - /* - * If we already have an entry with this inside address, port - * check delete the entry and proceed further. This should - * If yes, something is terribly wrong. Bail out - */ - if (PREDICT_FALSE(db)) { - - if (db->flags & CNAT_DB_FLAG_STATIC_PORT) { - - if ((db->out2in_key.k.ipv4 == ko->k.k.ipv4) && - (db->out2in_key.k.port == ko->k.k.port) && - (db->out2in_key.k.vrf == ko->k.k.vrf)) { - -#ifdef DEBUG_PRINTF_ENABLED - printf("Same Static Port Exists ki 0x%16llx ko 0x%16llx", - ki->k, ko->k); -#endif - /* - * We have already programmed this, return - */ - return (db); - } - - /* - * We already have a static port with different mapping - * Return an error for this case. - */ - info->error = CNAT_ERR_PARSER; - -#ifdef DEBUG_PRINTF_ENABLED - printf("Static Port Existing and Diff ki 0x%16llx ko 0x%16llx", - ki, db->out2in_key); -#endif - { - u32 arr[] = {STAT_PORT_CONFIG_IN_USE, (ki->dk.ipv4_key.k.vrf & CNAT_VRF_MASK), - ki->dk.ipv4_key.k.ipv4, ki->dk.ipv4_key.k.port, (ki->dk.ipv4_key.k.vrf & CNAT_PRO_MASK) }; - spp_printf(CNAT_CONFIG_ERROR, 5, arr); - } - return (db); - } - -#ifdef DEBUG_PRINTF_ENABLED - printf("Deleting Dynamic entry ki 0x%16llx ko 0x%16llx", - ki, db->out2in_key); -#endif - - /* - * If for some reason we have dynamic entries, just delete them - * and proceed. - */ - cnat_delete_main_db_entry_v2(db); - - db = NULL; - } - - - protocol = ki->dk.ipv4_key.k.vrf & CNAT_PRO_MASK; - u_ki.dk.ipv4_key.k.vrf = ki->dk.ipv4_key.k.vrf & CNAT_VRF_MASK; - u_ki.dk.ipv4_key.k.ipv4 = ki->dk.ipv4_key.k.ipv4; - u_ki.dk.ipv4_key.k.port = 0; - u_ki.dk.ipv6[0] = ki->dk.ipv6[0]; - u_ki.dk.ipv6[1] = ki->dk.ipv6[1]; - u_ki.dk.ipv6[2] = ki->dk.ipv6[2]; - u_ki.dk.ipv6[3] = ki->dk.ipv6[3]; - - my_vrfmap_index = vrf_map_array[u_ki.dk.ipv4_key.k.vrf]; - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; - - pm = dslite_entry_ptr->portmap_list; - - /* - * check if src vrf, src ip addr is already - * in the user db - * if yes, use PORT_ALLOC_DIRECTED - * if no, use PORT_ALLOC_ANY since it is first time - */ - udb = dslite_user_db_lookup_entry(&u_ki); - if (PREDICT_TRUE(udb)) { - /* - * check if main db has space to accomodate new entry - */ - h = pool_header(cnat_main_db); - - free_main = vec_len(h->free_indices) - 1; - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - nat44_dslite_common_stats[dslite_id].in2out_drops_port_limit_exceeded ++; - DSLITE_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) -#ifdef UT_TEST_CODE - printf("Limit reached : OLD USER"); -#endif - spp_printf(CNAT_MAIN_DB_LIMIT_ERROR, 0, 0); - return NULL; - } - - /* - * allocate port, from existing mapping - */ - my_index = udb->portmap_index; - my_pm = pm + my_index; - /* It is quite possible that we hit the scenario of CSCtj17774. - * Delete all the main db entries and add the ipv4 address sent by - * CGN-MA as Static port alloc any - */ - - if (PREDICT_FALSE(my_pm->ipv4_address != ko->k.k.ipv4)) { - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - printf("Delete Main db entry and check for" - " ipv4 address sanity pm add = 0x%x ip add = 0x%x\n", - my_pm->ipv4_address, ko->k.k.ipv4); - } - do { - /* udb is not NULL when we begin with for sure */ - head = udb->translation_list_head_index; - db = cnat_main_db + head; - cnat_delete_main_db_entry_v2(db); - } while (!pool_is_free(cnat_user_db, udb)); - - rv = cnat_mapped_static_port_alloc_v2_bulk (pm, - PORT_ALLOC_ANY, &my_index, ko->k.k.ipv4, ko->k.k.port, - udb, BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), &nfv9_log_req, - my_vrfmap->ip_n_to_1); - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - nat44_dslite_common_stats[dslite_id].in2out_drops_port_limit_exceeded ++; - DSLITE_DEBUG_INSIDE_ERR(rv) - return (NULL); - } - /* - * create entry in user db - */ - udb = dslite_user_db_create_entry(&u_ki, my_index); - nat44_dslite_common_stats[dslite_id].num_subscribers++; -#ifndef NO_BULK_LOGGING - if(PREDICT_FALSE(udb && (BULK_ALLOC_NOT_ATTEMPTED != nfv9_log_req))) { - cnat_update_bulk_range_cache(udb, ko->k.k.port, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr)); - } -#endif /* #ifndef NO_BULK_LOGGING */ - } else { - - rv = cnat_mapped_static_port_alloc_v2_bulk (pm, - PORT_ALLOC_DIRECTED, &my_index, ko->k.k.ipv4, ko->k.k.port, - udb, BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), &nfv9_log_req, - my_vrfmap->ip_n_to_1); - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - DSLITE_DEBUG_INSIDE_ERR(rv) - log_port_alloc_error(rv, &(ki->dk.ipv4_key)); - return (NULL); - } - - /* - * increment port in use for this user - */ - udb->ntranslations += 1; - } - } else { - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - printf ("Static port alloc any\n"); - } - /* - * first time allocate port for this user - */ - - /* - * Check if main db has space for new entry - * Allowing a user db entry to be created if main db is not free - * will cause a port to be allocated to that user, which results in - * wastage of that port, hence the check is done here. - */ - h = pool_header(cnat_main_db); - free_main = vec_len(h->free_indices) - 1; - h = pool_header(cnat_user_db); - free_user = vec_len(h->free_indices) - 1; - - /* - * If either main_db or user_db does not have entries - * bail out, with appropriate error - */ - if (PREDICT_FALSE(!(free_main && free_user))) { - u32 log_error; - if(free_main) { - info->error = CNAT_USER_DB_LIMIT; - log_error = CNAT_USER_DB_LIMIT_ERROR; - } else { - info->error = CNAT_MAIN_DB_LIMIT; - log_error = CNAT_MAIN_DB_LIMIT_ERROR; - } - nat44_dslite_common_stats[dslite_id].in2out_drops_port_limit_exceeded ++; - DSLITE_DEBUG_INSIDE_ERR(info->error) - spp_printf(log_error, 0, 0); - return NULL; - } - - rv = cnat_mapped_static_port_alloc_v2_bulk (pm, - PORT_ALLOC_ANY, &my_index, ko->k.k.ipv4, ko->k.k.port, - udb, BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), &nfv9_log_req, - my_vrfmap->ip_n_to_1); - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - info->error = rv; - nat44_dslite_common_stats[dslite_id].in2out_drops_port_limit_exceeded ++; - DSLITE_DEBUG_INSIDE_ERR(rv) - log_port_alloc_error(rv, &(ki->dk.ipv4_key)); - return (NULL); - } - /* - * create entry in user db - */ - udb = dslite_user_db_create_entry(&u_ki, my_index); - nat44_dslite_common_stats[dslite_id].num_subscribers++; -#ifndef NO_BULK_LOGGING - if(PREDICT_FALSE(udb && (BULK_ALLOC_NOT_ATTEMPTED != nfv9_log_req))) { - cnat_update_bulk_range_cache(udb, ko->k.k.port, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr)); - } -#endif /* #ifndef NO_BULK_LOGGING */ - } - - /* - * step 3: - * outside port is allocated for this src vrf/src ip addr - * 1)create a new entry in main db - * 2)setup cnat_out2in_hash key - * 3)setup cnat_in2out_hash key - */ - db = dslite_create_main_db_entry_and_hash(ki, ko, udb); - db->dslite_nat44_inst_id = dslite_id; - nat44_dslite_common_stats[dslite_id].active_translations++; - dslite_translation_create_count++; - - /* - * don't forget logging - * logging API is unconditional, - * logging configuration check is done inside the inline function - */ -#if 0 /* TBD - NEED TO DECIDE ON LOGGING */ - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - /* if session logging is enabled .. do not log as there is no - * traffic yet - */ -#endif /* #if 0 - this has to be removed later */ - - return db; -} -#endif /* TOBE_PORTED */ - - -/* Per port/ip timeout related routines */ -static -u32 cnat_timeout_db_hash_lookup (cnat_key_t t_key) -{ - cnat_key_t key; - u64 a, b, c; - u32 index; - cnat_timeout_db_entry_t *db; - - key.k.ipv4 = t_key.k.ipv4; - key.k.port = t_key.k.port; - key.k.vrf = t_key.k.vrf; - - CNAT_V4_GET_HASH(key.key64, - index, CNAT_TIMEOUT_HASH_MASK) - - - index = cnat_timeout_hash[index].next; - - if (PREDICT_FALSE(index == EMPTY)) - return EMPTY; - - do { - db = cnat_timeout_db + index; - if (PREDICT_TRUE((db->t_key.timeout_key.key64 & CNAT_TIMEOUT_FULL_MASK) - == (key.key64 & CNAT_TIMEOUT_FULL_MASK))) - break; - index = db->t_hash.next; - } while (index != EMPTY); - - return index; -} - -/* Pass db_type as MAIN_DB_TYPE if you are passing - * cnat_main_db_entry_t * casted as void * for db - * else pass db_type as SESSION_DB_TYPE - */ -u16 -query_and_update_db_timeout(void *db, u8 db_type) -{ - cnat_key_t t_search_key; - u32 index; - cnat_timeout_db_entry_t *timeout_db_entry; - pool_header_t *h; - u32 free; - - cnat_main_db_entry_t *mdb = NULL; - cnat_session_entry_t *sdb = NULL; - - if(PREDICT_TRUE(db_type == MAIN_DB_TYPE)) { - mdb = (cnat_main_db_entry_t *)db; - } else if(db_type == SESSION_DB_TYPE) { - sdb = (cnat_session_entry_t *)db; - } else { - return 0; - } - - h = pool_header(cnat_timeout_db); - free = vec_len(h->free_indices) - 1; - - if(free == CNAT_TIMEOUT_HASH_SIZE) { - /* No timeout db configured */ - return 0; - } - - /* First search for ip/port pair */ - if(PREDICT_TRUE(db_type == MAIN_DB_TYPE)) { - t_search_key.k.ipv4 = mdb->dst_ipv4; - t_search_key.k.port = mdb->dst_port; - t_search_key.k.vrf = mdb->in2out_key.k.vrf; - } else { - t_search_key.k.ipv4 = sdb->v4_dest_key.k.ipv4; - t_search_key.k.port = sdb->v4_dest_key.k.port; - t_search_key.k.vrf = sdb->v4_dest_key.k.vrf; - } - - index = cnat_timeout_db_hash_lookup(t_search_key); - - if(index == EMPTY) { - /* Search for port map */ - t_search_key.k.ipv4 = 0; - - index = cnat_timeout_db_hash_lookup(t_search_key); - - if(index == EMPTY) { - /* Search for ip only map */ - if(PREDICT_TRUE(db_type == MAIN_DB_TYPE)) { - t_search_key.k.ipv4 = mdb->dst_ipv4; - } else { - t_search_key.k.ipv4 = sdb->v4_dest_key.k.ipv4; - } - t_search_key.k.port = 0; - - index = cnat_timeout_db_hash_lookup(t_search_key); - if(index != EMPTY) { -#ifdef DEBUG_PRINTF_ENABLED - printf("%s: ip only map sucess\n","query_and_update_db_timeout"); -#endif - } - } else { -#ifdef DEBUG_PRINTF_ENABLED - printf("%s: port only map sucess\n", "query_and_update_db_timeout"); -#endif - } - - } else { -#ifdef DEBUG_PRINTF_ENABLED - printf("%s: ip port map sucess\n","query_and_update_db_timeout"); -#endif - - } - - if(index == EMPTY) { - /* No match found, clear timeout */ - if(PREDICT_TRUE(db_type == MAIN_DB_TYPE)) { - mdb->timeout = 0; - } else { - sdb->timeout = 0; - } -#ifdef DEBUG_PRINTF_ENABLED - printf("%s: No match\n","query_and_update_db_timeout"); -#endif - } else { - /* Match found, update timeout */ - timeout_db_entry = cnat_timeout_db + index; - if(PREDICT_TRUE(db_type == MAIN_DB_TYPE)) { - mdb->timeout = timeout_db_entry->t_key.timeout_value; - } else { - sdb->timeout = timeout_db_entry->t_key.timeout_value; - } - return timeout_db_entry->t_key.timeout_value; - } - return 0; -} - - - -static -void cnat_timeout_db_hash_add (cnat_timeout_db_entry_t *t_entry) -{ - cnat_key_t key; - u64 a, b, c; - u32 index, bucket; - cnat_key_t t_key = t_entry->t_key.timeout_key; - - key.k.ipv4 = t_key.k.ipv4; - key.k.port = t_key.k.port; - key.k.vrf = t_key.k.vrf; - - CNAT_V4_GET_HASH(key.key64, - bucket, CNAT_TIMEOUT_HASH_MASK) - - - index = cnat_timeout_hash[bucket].next; - - /* Add this db entry to the head of the bucket chain */ - t_entry->t_hash.next = index; - cnat_timeout_hash[bucket].next = t_entry - cnat_timeout_db; -} - - - -u16 -cnat_timeout_db_create (cnat_timeout_t t_entry) -{ - cnat_timeout_db_entry_t *db; - cnat_key_t t_key = t_entry.timeout_key; - u32 db_index; - - pool_header_t *h; - u32 free; - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - - db_index = cnat_timeout_db_hash_lookup(t_key); - - if(db_index != EMPTY) { - /* Entry already exists. Check if it is replay or update */ - db = cnat_timeout_db + db_index; - db->t_key.timeout_value = t_entry.timeout_value; - return CNAT_SUCCESS; - } - - h = pool_header(cnat_timeout_db); - free = vec_len(h->free_indices) - 1; - - if(free == 0) { - return CNAT_OUT_LIMIT; - } - - - pool_get(cnat_timeout_db, db); - ASSERT(db); - - memset(db, 0, sizeof(*db)); - - db_index = db - cnat_timeout_db; - - db->t_key.timeout_key.k.ipv4 = t_key.k.ipv4; - db->t_key.timeout_key.k.port = t_key.k.port; - db->t_key.timeout_key.k.vrf = t_key.k.vrf; - db->t_key.timeout_value = t_entry.timeout_value; - - - cnat_timeout_db_hash_add(db); - return CNAT_SUCCESS; -} - -void cnat_timeout_db_delete(cnat_key_t t_key) -{ - cnat_key_t key; - u64 a, b, c; - u32 index, bucket; - cnat_timeout_db_entry_t *this, *prev; - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - - key.k.ipv4 = t_key.k.ipv4; - key.k.port = t_key.k.port; - key.k.vrf = t_key.k.vrf; - - - CNAT_V4_GET_HASH(key.key64, - bucket, CNAT_TIMEOUT_HASH_MASK) - - - index = cnat_timeout_hash[bucket].next; - - if(index == EMPTY) return; - - prev = 0; - do { - this = cnat_timeout_db + index; - if (PREDICT_TRUE( - (this->t_key.timeout_key.key64 & CNAT_TIMEOUT_FULL_MASK) == - (key.key64 & CNAT_TIMEOUT_FULL_MASK))) { - if (prev == 0) { - cnat_timeout_hash[bucket].next = this->t_hash.next; - goto found; - } else { - prev->t_hash.next = this->t_hash.next; - goto found; - } - } - - prev = this; - index = this->t_hash.next; - } while (index != EMPTY); - - if(index == EMPTY) return; - - found: - pool_put(cnat_timeout_db, this); - -} - -void cnat_session_db_hash_delete (cnat_session_entry_t *ep) -{ - u32 a, b, c; - u32 index, bucket; - cnat_session_entry_t *this, *prev; - - CNAT_V4_GET_SESSION_HASH(ep->main_db_index, ep->v4_dest_key.k.ipv4, - ep->v4_dest_key.k.port, ep->v4_dest_key.k.vrf, bucket, - CNAT_SESSION_HASH_MASK) - - - index = cnat_session_hash[bucket].next; - - ASSERT(index != EMPTY); - - prev = 0; - do { - this = cnat_session_db + index; - if (PREDICT_TRUE(this == ep)) { - if (prev == 0) { - cnat_session_hash[bucket].next = - ep->cnat_session_hash.next; - return; - } else { - prev->cnat_session_hash.next = - ep->cnat_session_hash.next; - return; - } - } - prev = this; - index = this->cnat_session_hash.next; - } while (index != EMPTY); - - ASSERT(0); - -} - -cnat_session_entry_t * -cnat_session_db_edm_lookup_entry(cnat_key_t *ko,u32 session_head_index, - u32 main_db_index) -{ - u32 index; - cnat_session_entry_t *db; - - - index = session_head_index; - if (PREDICT_TRUE(index == EMPTY)) { - return (NULL); - } - - do { - db = cnat_session_db + index; - if(PREDICT_TRUE((db->main_db_index == main_db_index) && - (db->v4_dest_key.k.vrf == ko->k.vrf) && - (db->v4_dest_key.k.ipv4 == ko->k.ipv4))) { - - return db; - } - index = db->cnat_session_hash.next; - } while (index != EMPTY); - - return (NULL); -} - - - -cnat_session_entry_t * -cnat_session_db_lookup_entry(cnat_key_t *ko,u32 main_db_index) -{ - u32 a, b, c; - u32 index, bucket; - cnat_session_entry_t *db; - - CNAT_V4_GET_SESSION_HASH(main_db_index, ko->k.ipv4, ko->k.port, - ko->k.vrf, bucket, CNAT_SESSION_HASH_MASK) - - - index = cnat_session_hash[bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - return (NULL); - } - - do { - db = cnat_session_db + index; - if(PREDICT_TRUE((db->main_db_index == main_db_index) && - (db->v4_dest_key.k.vrf == ko->k.vrf) && - (db->v4_dest_key.k.port == ko->k.port) && - (db->v4_dest_key.k.ipv4 == ko->k.ipv4))) { - - return db; - } - index = db->cnat_session_hash.next; - } while (index != EMPTY); - - return (NULL); -} - -cnat_session_entry_t * -cnat_create_session_db_entry(cnat_key_t *ko, - cnat_main_db_entry_t *bdb, u8 log) -{ - u32 a, b, c; - u32 db_index, bucket_out; - cnat_session_entry_t *db = NULL; - pool_header_t *h; - u32 free_session; - u16 instance; - - db = cnat_session_db_lookup_entry(ko, bdb - cnat_main_db); - if (PREDICT_FALSE(db != NULL)) { - /*printf("Create Session - Entry already Exists\n");*/ - return db; - } - - h = pool_header(cnat_session_db); - free_session = vec_len(h->free_indices) - 1; - - if (bdb->flags & CNAT_DB_DSLITE_FLAG) { - instance = bdb->dslite_nat44_inst_id; - } else { - instance = NAT44_RESERVED_INST_ID; - } - - if (PREDICT_FALSE(!free_session)) { - nat44_dslite_common_stats[instance].drops_sessiondb_limit_exceeded++; - return NULL; - } - - if( PREDICT_FALSE(bdb->nsessions == CNAT_MAX_SESSIONS_PER_BIB)) { - /* printf("Create Session - Max sessions per BIB reached\n"); */ - return NULL; - } - - pthread_spin_lock(cnat_db_v2_main.session_db_lockp); - pool_get(cnat_session_db, db); - memset(db, 0, sizeof(*db)); - - db_index = db - cnat_session_db; - db->v4_dest_key.k.port = ko->k.port; - db->v4_dest_key.k.ipv4 = ko->k.ipv4; - db->v4_dest_key.k.vrf = ko->k.vrf; - - db->main_list.next = db_index; - db->main_list.prev = db_index; - db->main_db_index = bdb - cnat_main_db; - - db->tcp_seq_num = 0; - db->ack_no = 0; - db->window = 0; - - if(PREDICT_FALSE(log)) { - bdb->nsessions++; - query_and_update_db_timeout(db, SESSION_DB_TYPE); - } - - if (PREDICT_FALSE(bdb->nsessions == 1)) { - /* - * first port for this src vrf/src ip addr - */ - bdb->session_head_index = db_index; - } else { - index_dlist_addtail(bdb->session_head_index, - (u8 *)cnat_session_db, sizeof(cnat_session_db[0]), - STRUCT_OFFSET_OF(cnat_session_entry_t, main_list), - db_index); - } - - /* - * setup o2i hash key - */ - CNAT_V4_GET_SESSION_HASH(db->main_db_index, ko->k.ipv4, ko->k.port, - ko->k.vrf, bucket_out, CNAT_SESSION_HASH_MASK) - - - db->cnat_session_hash.next = - cnat_session_hash[bucket_out].next; - cnat_session_hash[bucket_out].next = db_index; - - - if(PREDICT_FALSE(log)) { - if (bdb->flags & CNAT_DB_DSLITE_FLAG) { - cnat_session_log_ds_lite_mapping_create(bdb, - (dslite_table_db_ptr + instance),db); - } else { - cnat_vrfmap_t *my_vrfmap = cnat_map_by_vrf + bdb->vrfmap_index; - cnat_session_log_nat44_mapping_create(bdb, db, my_vrfmap); - } - } - - /* Need to set entry_expires here, as we need to override 0 check for - newly established sessions */ - db->entry_expires = cnat_current_time; - nat44_dslite_common_stats[instance].sessions++; - pthread_spin_unlock(cnat_db_v2_main.session_db_lockp); - return db; -} - -void -cnat_dest_update_main2session(cnat_main_db_entry_t *mdb, - cnat_session_entry_t *sdb) -{ - - sdb->flags = mdb->flags; - sdb->timeout = mdb->timeout; - sdb->entry_expires = mdb->entry_expires; - sdb->alg.delta = mdb->alg.delta; - sdb->tcp_seq_num = mdb->proto_data.seq_pcp.tcp_seq_num; - - /* Reset Main db values to 0 */ - /* Reset only session specific flags */ - mdb->flags &= ~(CNAT_DB_FLAG_TCP_ACTIVE | CNAT_DB_FLAG_UDP_ACTIVE - | CNAT_DB_FLAG_ALG_ENTRY | CNAT_DB_FLAG_ALG_CTRL_FLOW); - mdb->timeout = 0; - mdb->entry_expires = 0; - mdb->alg.delta = 0; - if(PREDICT_FALSE(!((mdb->flags & CNAT_DB_FLAG_PPTP_TUNNEL_ACTIVE) || - (mdb->flags & CNAT_DB_FLAG_PPTP_TUNNEL_INIT)))) { - mdb->proto_data.seq_pcp.tcp_seq_num = 0; - } - - mdb->dst_ipv4 = 0; - mdb->dst_port = 0; -} - - -void -cnat_dest_update_session2main(cnat_main_db_entry_t *mdb, - cnat_session_entry_t *sdb) -{ - - u16 flags = sdb->flags & (CNAT_DB_FLAG_TCP_ACTIVE | - CNAT_DB_FLAG_UDP_ACTIVE | CNAT_DB_FLAG_ALG_ENTRY | - CNAT_DB_FLAG_ALG_CTRL_FLOW); - mdb->flags |= flags; - mdb->timeout = sdb->timeout; - mdb->entry_expires = sdb->entry_expires; - mdb->alg.delta = sdb->alg.delta; - if(PREDICT_FALSE(!((mdb->flags & CNAT_DB_FLAG_PPTP_TUNNEL_ACTIVE) || - (mdb->flags & CNAT_DB_FLAG_PPTP_TUNNEL_INIT)))) { - mdb->proto_data.seq_pcp.tcp_seq_num = sdb->tcp_seq_num; - } - mdb->dst_ipv4 = sdb->v4_dest_key.k.ipv4; - mdb->dst_port = sdb->v4_dest_key.k.port; -} - -static void -_cnat_delete_session_db_entry (cnat_session_entry_t *ep, u8 log) -{ - u32 session_db_index; - u32 bdb_len; - cnat_main_db_entry_t *be =0; - cnat_session_entry_t *sdb_last = NULL; - u16 instance; - - if (PREDICT_FALSE(ep->flags & CNAT_DB_NAT64_FLAG) != 0) { - /* Preventive check - Not a NAT44 entry */ - return; - } - - pool_header_t *h = pool_header(cnat_main_db); - - /* Validate .. just in case we are trying to delete a non existing one */ - bdb_len = vec_len(cnat_main_db); - - /* In case of invalid user just return, deleting only main db - * is not a good idea, since some valid user db entry might be pointing - * to that main db and hence leave the dbs in a inconsistent state - */ - if (PREDICT_FALSE((ep->main_db_index >= bdb_len) || - (clib_bitmap_get(h->free_bitmap, ep->main_db_index)))) { -#ifdef DEBUG_PRINTF_ENABLED - printf("invalid/unused user index in db %d\n", ep->main_db_index); -#endif - spp_printf(CNAT_INV_UNUSED_USR_INDEX, 1, (u32 *) &(ep->main_db_index)); - return; - } - - be = cnat_main_db + ep->main_db_index; - - session_db_index = ep - cnat_session_db; - - be->session_head_index = index_dlist_remelem ( - be->session_head_index, (u8 *)cnat_session_db, - sizeof (cnat_session_db[0]), - STRUCT_OFFSET_OF(cnat_session_entry_t, main_list), - session_db_index); - - if (be->flags & CNAT_DB_DSLITE_FLAG) { - instance = be->dslite_nat44_inst_id; - } else { - instance = NAT44_RESERVED_INST_ID; - } - - if(PREDICT_TRUE(log)) { - if (be->flags & CNAT_DB_DSLITE_FLAG) { - cnat_session_log_ds_lite_mapping_delete(be, - (dslite_table_db_ptr + instance),ep); - } else { - cnat_vrfmap_t *my_vrfmap = cnat_map_by_vrf + be->vrfmap_index; - cnat_session_log_nat44_mapping_delete(be, ep, my_vrfmap); - } - be->nsessions--; - } - - if (PREDICT_FALSE(be->nsessions == 1 && log)) { - /* There is only 1 session left - * Copy the info back to main db and release the last - * existing session - */ - - sdb_last = cnat_session_db + be->session_head_index; - ASSERT(sdb_last != NULL); - - cnat_dest_update_session2main(be, sdb_last); - _cnat_delete_session_db_entry(sdb_last, FALSE); - } - - /* Remove from session DB hashes */ - cnat_session_db_hash_delete(ep); - nat44_dslite_common_stats[instance].sessions--; - - pool_put(cnat_session_db, ep); -} - -void cnat_delete_session_db_entry (cnat_session_entry_t *ep, u8 log) -{ - pthread_spin_lock(cnat_db_v2_main.session_db_lockp); - _cnat_delete_session_db_entry (ep, log); - pthread_spin_unlock(cnat_db_v2_main.session_db_lockp); -} - -cnat_main_db_entry_t* -dslite_main_db_lookup_entry(dslite_db_key_bucket_t *ki) -{ - u64 a, b, c; - u32 index; - cnat_main_db_entry_t *db; - cnat_user_db_entry_t *userdb; - - DSLITE_V6_GET_HASH((&(ki->dk)), - ki->bucket, - CNAT_MAIN_HASH_MASK); - - DSLITE_PRINTF(1,"MDBLU hash..%u\n", ki->bucket); - - index = cnat_in2out_hash[ki->bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - DSLITE_PRINTF(1,"MDBLU index MT..\n"); - return (NULL); - } - - do { -/* We can add a flag here to indicate if the db entry is for nat44 or - * dslite. If the db entry is for nat44 then we can simply move to the - * one. - */ - db = cnat_main_db + index; - userdb = cnat_user_db + db->user_index; - if (PREDICT_TRUE(db->in2out_key.key64 == ki->dk.ipv4_key.key64) - && userdb->ipv6[0] == ki->dk.ipv6[0] - && userdb->ipv6[1] == ki->dk.ipv6[1] - && userdb->ipv6[2] == ki->dk.ipv6[2] - && userdb->ipv6[3] == ki->dk.ipv6[3]) { - DSLITE_PRINTF(1,"MDBLU success..%u\n", index); - return db; - } - index = db->in2out_hash.next; - } while (index != EMPTY); - - DSLITE_PRINTF(1,"MDBLU Entry does not exist..\n"); - return (NULL); -} - -cnat_user_db_entry_t* -dslite_user_db_lookup_entry(dslite_db_key_bucket_t *uki) -{ - u64 a, b, c; - u32 index; - cnat_user_db_entry_t *udb=NULL; - - DSLITE_V6_GET_HASH((&(uki->dk)), - uki->bucket, - CNAT_USER_HASH_MASK) - - DSLITE_PRINTF(1,"UDBLU hash..%u\n", uki->bucket); - - /* now: index in user vector */ - index = cnat_user_hash[uki->bucket].next; - if (PREDICT_TRUE(index != EMPTY)) { - DSLITE_PRINTF(1,"UDBLU hash table entry not MT..\n"); - do { - udb = cnat_user_db + index; - if (PREDICT_FALSE(udb->key.key64 == uki->dk.ipv4_key.key64) - && udb->ipv6[0] == uki->dk.ipv6[0] - && udb->ipv6[1] == uki->dk.ipv6[1] - && udb->ipv6[2] == uki->dk.ipv6[2] - && udb->ipv6[3] == uki->dk.ipv6[3]) { - DSLITE_PRINTF(1,"UDBLU success..%u\n", index); - return udb; - } - index = udb->user_hash.next; - } while (index != EMPTY); - } - DSLITE_PRINTF(1,"UDBLU Entry doesnt exist..\n"); - return (NULL); -} - -cnat_user_db_entry_t* -dslite_user_db_create_entry(dslite_db_key_bucket_t *uki, - u32 portmap_index) -{ - cnat_user_db_entry_t *udb = NULL; - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - - pool_get(cnat_user_db, udb); - memset(udb, 0, sizeof(*udb)); - - udb->ntranslations = 1; - udb->portmap_index = portmap_index; -// udb->key.key64 = uki->k.key64; - - udb->key.key64 = uki->dk.ipv4_key.key64; - udb->ipv6[0] = uki->dk.ipv6[0]; - udb->ipv6[1] = uki->dk.ipv6[1]; - udb->ipv6[2] = uki->dk.ipv6[2]; - udb->ipv6[3] = uki->dk.ipv6[3]; - - udb->flags |= CNAT_USER_DB_DSLITE_FLAG; - /* Add this user to the head of the bucket chain */ - udb->user_hash.next = - cnat_user_hash[uki->bucket].next; - cnat_user_hash[uki->bucket].next = udb - cnat_user_db; - -#ifndef NO_BULK_LOGGING - INIT_BULK_CACHE(udb) -#endif /* NO_BULK_LOGGING */ - - return udb; -} - -#ifndef TOBE_PORTED -cnat_main_db_entry_t* -dslite_create_main_db_entry_and_hash(dslite_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_user_db_entry_t *udb) -{ - return 0; -} -#else -cnat_main_db_entry_t* -dslite_create_main_db_entry_and_hash(dslite_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_user_db_entry_t *udb) -{ - u64 a, b, c; - u32 db_index; - cnat_main_db_entry_t *db = NULL; - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - - pool_get(cnat_main_db, db); - memset(db, 0, sizeof(*db)); - - db_index = db - cnat_main_db; - db->in2out_key.k.ipv4 = ki->dk.ipv4_key.k.ipv4; - db->in2out_key.k.port = ki->dk.ipv4_key.k.port; - db->in2out_key.k.vrf = ki->dk.ipv4_key.k.vrf; - db->out2in_key.k.ipv4 = ko->k.k.ipv4; - db->out2in_key.k.port = ko->k.k.port; - db->out2in_key.k.vrf = ko->k.k.vrf; - - db->user_ports.next = db_index; - db->user_ports.prev = db_index; - db->user_index = udb - cnat_user_db; - //db->portmap_index = udb->portmap_index; - db->flags |= CNAT_DB_DSLITE_FLAG; - - if (PREDICT_FALSE(udb->ntranslations == 1)) { - /* - * first port for this src vrf/src ip addr - */ - udb->translation_list_head_index = db_index; - DSLITE_PRINTF(1,"First translation of this user..\n"); - } else { - index_dlist_addtail(udb->translation_list_head_index, - (u8 *)cnat_main_db, sizeof(cnat_main_db[0]), - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports), - db_index); - } - - /* - * setup o2i hash key - */ - CNAT_V4_GET_HASH(ko->k.key64, - ko->bucket, - CNAT_MAIN_HASH_MASK) - db->out2in_hash.next = cnat_out2in_hash[ko->bucket].next; - cnat_out2in_hash[ko->bucket].next = db_index; - /* - * setup i2o hash key, bucket is already calculate - */ - db->in2out_hash.next = cnat_in2out_hash[ki->bucket].next; - cnat_in2out_hash[ki->bucket].next = db_index; - - DSLITE_PRINTF(1,"Create main db and hash..%u %u %u %u %x\n", - ki->bucket, ko->bucket, - db_index, db->user_index, ko->k.key64); - -#if DEBUG > 1 - printf("\nMy_Instance_Number %d: Bucket %d, Db_Index %d", - my_instance_number, ki->bucket, db_index); - printf("\nInside (VRF 0x%x, IP 0x%x, PORT 0x%x)", - db->in2out_key.k.vrf, db->in2out_key.k.ipv4, db->in2out_key.k.port); - printf("\nOutside (VRF 0x%x, IP 0x%x, PORT 0x%x)", - db->out2in_key.k.vrf, db->out2in_key.k.ipv4, db->out2in_key.k.port); - printf("\nUser Index %d, IP 0x%x", - db->user_index, udb->key.k.ipv4); -#endif - - //nat44_dslite_common_stats[DSLITE_COMMON_STATS].active_translations++; - - return db; -} - -static inline void handle_dslite_port_exceeded_logging( - cnat_user_db_entry_t *udb, - dslite_key_t * key, - dslite_table_entry_t *dslite_entry_ptr) -{ - - if(PREDICT_TRUE(udb->flags & CNAT_USER_DB_PORT_LIMIT_EXCEEDED)) { - /* Already logged ..*/ - return; - } - - /* else, set the flag and call the log API */ - udb->flags = udb->flags | CNAT_USER_DB_PORT_LIMIT_EXCEEDED; - cnat_log_ds_lite_port_limit_exceeded(key, dslite_entry_ptr); - return; -} -#endif - -void handle_cnat_port_exceeded_logging( - cnat_user_db_entry_t *udb, - cnat_key_t * key, - cnat_vrfmap_t *vrfmap) -{ - - if(PREDICT_TRUE(udb->flags & CNAT_USER_DB_PORT_LIMIT_EXCEEDED)) { - /* Already logged ..*/ - return; - } - - /* else, set the flag and call the log API */ - udb->flags = udb->flags | CNAT_USER_DB_PORT_LIMIT_EXCEEDED; - cnat_log_nat44_port_limit_exceeded(key,vrfmap); - return; -} - -#ifndef TOBE_PORTED -cnat_main_db_entry_t* -dslite_get_main_db_entry_v2(dslite_db_key_bucket_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info, - dslite_table_entry_t *dslite_entry_ptr, - cnat_key_t *dest_info) -{ - return 0; -} -#else -/* - * this function is called by exception node - * when lookup is fialed in i2o node - * - * if reash per user port limit, - * set user_db_entry pointer, and error == CNAT_OUT_LIMIT - */ -cnat_main_db_entry_t* -dslite_get_main_db_entry_v2(dslite_db_key_bucket_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info, - dslite_table_entry_t *dslite_entry_ptr, - cnat_key_t *dest_info) -{ - u16 protocol; - cnat_errno_t rv; - dslite_db_key_bucket_t u_ki; - cnat_db_key_bucket_t ko; - u32 my_index, free_main, free_user; - u32 current_timestamp; - cnat_vrfmap_t *my_vrfmap =0; - u16 my_vrfmap_index; - cnat_portmap_v2_t *pm =0; - cnat_user_db_entry_t *udb = 0; - cnat_main_db_entry_t *db = 0; - pool_header_t *h; - u16 dslite_id = dslite_entry_ptr->dslite_id; - -#ifndef NO_BULK_LOGGING - int nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; -#endif - - /* UNUSED. Therefore not ported to be multi-thread friendly */ - ASSERT(0); - - /* - * need to try lookup again because - * second pkt may come here before the entry is created - * by receiving first pkt due to high line rate. - */ - info->gen_icmp_msg = CNAT_NO_ICMP_MSG; - info->error = CNAT_SUCCESS; - db = dslite_main_db_lookup_entry(ki); - if (PREDICT_TRUE(db)) { - /* what if the source is talking to a - * new dest now? We will have to handle this case and - * take care of - creating session db and logging - */ - if(PREDICT_FALSE((!dest_info->k.ipv4) && (!dest_info->k.port))) { - return db; /* if dest_info is null don't create session */ - } - - if(PREDICT_TRUE((db->dst_ipv4 == dest_info->k.ipv4) && - (db->dst_port == dest_info->k.port))) { - return db; - } - dest_info->k.vrf = db->in2out_key.k.vrf; - /* Src is indeed talking to a different dest */ - cnat_session_entry_t *session_db2 = NULL; - if(PREDICT_TRUE(db->nsessions == 1)) { - session_db2 = cnat_handle_1to2_session(db, dest_info); - if(PREDICT_TRUE(session_db2 != NULL)) { - CNAT_DB_TIMEOUT_RST(session_db2); - return db; - } else { - info->error = CNAT_ERR_NO_SESSION_DB; - return NULL; - } - } else if(PREDICT_FALSE(db->nsessions == 0)) { - /* Should be static entry.. should never happen - */ - if(PREDICT_TRUE(dest_info->k.ipv4 != 0)) { - cnat_add_dest_n_log(db, dest_info); - } - return db; - } else { - /* The src has already created multiple sessions.. very rare - */ - session_db2 = cnat_create_session_db_entry(dest_info, - db, TRUE); - if(PREDICT_TRUE(session_db2 != NULL)) { - CNAT_DB_TIMEOUT_RST(session_db2); - return db; - } else { - info->error = CNAT_ERR_NO_SESSION_DB; - return NULL; - } - } - - } - - /* - * step 1. check if outside vrf is configured or not - * and Find the set of portmaps for the outside vrf - * insider vrf is one to one mappted to outside vrf - * key is vrf and ip only - * ki.k.k.vrf has protocol bits, mask out - */ - protocol = ki->dk.ipv4_key.k.vrf & CNAT_PRO_MASK; - u_ki.dk.ipv4_key.k.vrf = ki->dk.ipv4_key.k.vrf & CNAT_VRF_MASK; -#ifdef DSLITE_USER_IPV4 - u_ki.dk.ipv4_key.k.ipv4 = ki->dk.ipv4_key.k.ipv4; -#else - /* - * Inside ipv4 address should be masked, if port limit - * need to be done at B4 element level. - */ - u_ki.dk.ipv4_key.k.ipv4 = 0; -#endif - u_ki.dk.ipv4_key.k.port = 0; - - u_ki.dk.ipv6[0] = ki->dk.ipv6[0]; - u_ki.dk.ipv6[1] = ki->dk.ipv6[1]; - u_ki.dk.ipv6[2] = ki->dk.ipv6[2]; - u_ki.dk.ipv6[3] = ki->dk.ipv6[3]; - - my_vrfmap_index = vrf_map_array[u_ki.dk.ipv4_key.k.vrf]; - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; -/* Checking if the inst entry is active or not is done much earlier - */ -#if 0 - my_vrfmap_index = vrf_map_array[u_ki.k.k.vrf]; - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; - my_vrfmap_entry_found = ((my_vrfmap_index != VRF_MAP_ENTRY_EMPTY) && - (my_vrfmap->status == S_RUN) && - (my_vrfmap->i_vrf == u_ki.k.k.vrf)); - - if (PREDICT_FALSE(!my_vrfmap_entry_found)) { - u32 arr[] = {ki->k.k.vrf, ki->k.k.ipv4, ki->k.k.port}; - if ((my_vrfmap_index == VRF_MAP_ENTRY_EMPTY) || - (my_vrfmap->i_vrf == u_ki.k.k.vrf)) { - info->error = CNAT_NO_CONFIG; - CNAT_DEBUG_INSIDE_ERR(CNAT_NO_CONFIG) - spp_printf(CNAT_NO_CONFIG_ERROR, 3, arr); - } else { - info->error = CNAT_NO_VRF_RUN; - CNAT_DEBUG_INSIDE_ERR(CNAT_NO_VRF_RUN) - spp_printf(CNAT_NO_VRF_RUN_ERROR, 3, arr); - } - - return (NULL); - } -#endif -/* - dslite_inst_ptr = dslite_nat44_config_table[dslite_inst_id]; -*/ - pm = dslite_entry_ptr->portmap_list; - //pm = my_vrfmap->portmap_list; - - /* - * set o2i key with protocl bits - */ - ko.k.k.vrf = dslite_entry_ptr->o_vrf | protocol; - //ko.k.k.vrf = my_vrfmap->o_vrf | protocol; - - /* - * step 2. check if src vrf, src ip addr is alreay - * in the user db - * if yes, use PORT_ALLOC_DIRECTED - * if no, use PORT_ALLOC_ANY since it is first time - */ - udb = dslite_user_db_lookup_entry(&u_ki); - if (PREDICT_TRUE(udb)) { - /* - * not first time allocate port for this user - * check limit - */ - if (PREDICT_FALSE(udb->ntranslations >= - dslite_entry_ptr->cnat_main_db_max_ports_per_user)) { - //cnat_main_db_max_ports_per_user)) - - /* Check for the port type here. If we are getting - * a STATIC PORT, allow the config. - */ - if (PREDICT_TRUE(port_type != PORT_TYPE_STATIC)) { - info->error = CNAT_OUT_LIMIT; - DSLITE_DEBUG_INSIDE_ERR(CNAT_OUT_LIMIT) - port_exceeded_msg_log(u_ki.dk.ipv4_key.k.ipv4, u_ki.dk.ipv4_key.k.vrf); - nat44_dslite_common_stats[dslite_id].in2out_drops_port_limit_exceeded ++; - u_ki.dk.ipv4_key.k.vrf = ki->dk.ipv4_key.k.vrf; - u_ki.dk.ipv4_key.k.port = ki->dk.ipv4_key.k.port; - handle_dslite_port_exceeded_logging(udb, &u_ki.dk, dslite_entry_ptr); - return (NULL); - } - } - - CHECK_CLEAR_PORT_LIMIT_EXCEED_FLAG(udb, - dslite_entry_ptr->cnat_main_db_max_ports_per_user) - - /* - * check if main db has space to accomodate new entry - */ - h = pool_header(cnat_main_db); - - free_main = vec_len(h->free_indices) - 1; - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - nat44_dslite_common_stats[dslite_id].in2out_drops_system_limit_reached ++; - DSLITE_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) - - current_timestamp = spp_trace_log_get_unix_time_in_seconds(); - if (PREDICT_FALSE((current_timestamp - last_log_timestamp) > - 1800)) { - spp_printf(CNAT_SESSION_THRESH_EXCEEDED, 0, NULL); - last_log_timestamp = current_timestamp; - } - -#ifdef UT_TEST_CODE - printf("Limit reached : OLD USER"); -#endif - return NULL; - } - - /* - * allocate port, from existing mapping - */ - my_index = udb->portmap_index; - - if (PREDICT_FALSE(port_type == PORT_TYPE_STATIC)) { - rv = cnat_static_port_alloc_v2_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - ki->dk.ipv4_key.k.ipv4, - ki->dk.ipv4_key.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - STAT_PORT_RANGE_FROM_INST_PTR(dslite_entry_ptr) -#ifndef NO_BULK_LOGGING - , udb, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), - &nfv9_log_req -#endif - , my_vrfmap->ip_n_to_1 - ); - } else if (PREDICT_TRUE(port_type != PORT_TYPE_RTSP) ) { - - rv = cnat_dynamic_port_alloc_v2_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - STAT_PORT_RANGE_FROM_INST_PTR(dslite_entry_ptr) -#ifndef NO_BULK_LOGGING - , udb, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), - &nfv9_log_req -#endif - , 0, - &(dslite_entry_ptr->rseed_ip) - ); - DSLITE_PRINTF(1,"D_PORT_ALLOC %x %u\n", ko.k.k.ipv4, ko.k.k.port); - } else { - /* - * For RTSP, two translation entries are created, - * check if main db has space to accomodate two new entry - */ - free_main = free_main - 1; - - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - nat44_dslite_common_stats[dslite_id].in2out_drops_system_limit_reached ++; - DSLITE_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) - - return NULL; - } else { - - rv = cnat_dynamic_port_alloc_rtsp_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - ki->dk.ipv4_key.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - STAT_PORT_RANGE_FROM_INST_PTR(dslite_entry_ptr) -#ifndef NO_BULK_LOGGING - , udb, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), - &nfv9_log_req -#endif - , &(dslite_entry_ptr->rseed_ip) - ); - } - } - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - DSLITE_PRINTF(1,"D_PORT_ALLOC port alloc error\n"); - info->error = rv; - DSLITE_DEBUG_INSIDE_ERR(rv) - nat44_dslite_common_stats[dslite_id].in2out_drops_resource_depletion ++; - log_port_alloc_error(rv, &(ki->dk.ipv4_key)); - return (NULL); - } - /* - * increment port in use for this user - */ - udb->ntranslations += 1; - } else { - /* - * first time allocate port for this user - */ - - /* - * Do not create entry if port limit is invalid - */ - if (PREDICT_FALSE(!(dslite_entry_ptr->cnat_main_db_max_ports_per_user))) { - if (PREDICT_TRUE(port_type != PORT_TYPE_STATIC)) { - info->error = CNAT_OUT_LIMIT; - nat44_dslite_common_stats[dslite_id].in2out_drops_port_limit_exceeded ++; - port_exceeded_msg_log(u_ki.dk.ipv4_key.k.ipv4, u_ki.dk.ipv4_key.k.vrf); - DSLITE_DEBUG_INSIDE_ERR(CNAT_OUT_LIMIT) - return (NULL); - } - } - - /* - * Check if main db has space for new entry - * Allowing a user db entry to be created if main db is not free - * will cause a port to be allocated to that user, which results in - * wastage of that port, hence the check is done here. - */ - h = pool_header(cnat_main_db); - free_main = vec_len(h->free_indices) - 1; - - h = pool_header(cnat_user_db); - free_user = vec_len(h->free_indices) - 1; - - /* - * If either main_db or user_db does not have entries - * bail out, with appropriate error - */ - if (PREDICT_FALSE(!(free_main && free_user))) { - u32 log_error; - if(free_main) { - info->error = CNAT_USER_DB_LIMIT; - log_error = CNAT_USER_DB_LIMIT_ERROR; - } else { - info->error = CNAT_MAIN_DB_LIMIT; - log_error = CNAT_MAIN_DB_LIMIT_ERROR; - } - nat44_dslite_common_stats[dslite_id].in2out_drops_system_limit_reached ++; - DSLITE_DEBUG_INSIDE_ERR(info->error) - spp_printf(log_error, 0, 0); - return NULL; - } - - if (PREDICT_FALSE(port_type == PORT_TYPE_STATIC)) { - rv = cnat_static_port_alloc_v2_bulk(pm, - PORT_ALLOC_ANY, - port_pair_type, - ki->dk.ipv4_key.k.ipv4, - ki->dk.ipv4_key.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - STAT_PORT_RANGE_FROM_INST_PTR(dslite_entry_ptr) -#ifndef NO_BULK_LOGGING - , NULL, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), - &nfv9_log_req -#endif - , my_vrfmap->ip_n_to_1 - - ); - } else if (PREDICT_TRUE(port_type != PORT_TYPE_RTSP)) { - rv = cnat_dynamic_port_alloc_v2_bulk(pm, - PORT_ALLOC_ANY, - port_pair_type, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - STAT_PORT_RANGE_FROM_INST_PTR(dslite_entry_ptr) -#ifndef NO_BULK_LOGGING - , NULL, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), - &nfv9_log_req -#endif - , 0, - &(dslite_entry_ptr->rseed_ip) - ); - DSLITE_PRINTF(1,"NU:D PORT ALLOC..%x %u\n", ko.k.k.ipv4, - ko.k.k.port); - - } else { - /* - * For RTSP, two translation entries are created, - * check if main db has space to accomodate two new entry - */ - free_main = free_main - 1; - - if (PREDICT_FALSE(!free_main)) { - info->error = CNAT_MAIN_DB_LIMIT; - nat44_dslite_common_stats[dslite_id].in2out_drops_system_limit_reached ++; - DSLITE_DEBUG_INSIDE_ERR(CNAT_MAIN_DB_LIMIT) - - return NULL; - } else { - - rv = cnat_dynamic_port_alloc_rtsp_bulk(pm, - PORT_ALLOC_DIRECTED, - port_pair_type, - ki->dk.ipv4_key.k.port, - &my_index, - &(ko.k.k.ipv4), - &(ko.k.k.port), - STAT_PORT_RANGE_FROM_INST_PTR(dslite_entry_ptr) -#ifndef NO_BULK_LOGGING - , NULL, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr), - &nfv9_log_req -#endif - , &(dslite_entry_ptr->rseed_ip) - ); - /* TODO: Add the port pair flag here */ - } - } - - - - if (PREDICT_FALSE(rv != CNAT_SUCCESS)) { - DSLITE_PRINTF(1,"NU:D_PORT_ALLOC port alloc error\n"); - info->error = rv; - nat44_dslite_common_stats[dslite_id].in2out_drops_resource_depletion ++; - DSLITE_DEBUG_INSIDE_ERR(rv) - log_port_alloc_error(rv, &(ki->dk.ipv4_key)); - return (NULL); - } - /* - * create entry in user db - */ - udb = dslite_user_db_create_entry(&u_ki, my_index); - nat44_dslite_common_stats[dslite_id].num_subscribers++; - DSLITE_PRINTF(1,"UDB crete entry done..\n"); -#ifndef NO_BULK_LOGGING - if(PREDICT_TRUE(udb && (BULK_ALLOC_NOT_ATTEMPTED != nfv9_log_req))) { - cnat_update_bulk_range_cache(udb, ko.k.k.port, - BULKSIZE_FROM_VRFMAP(dslite_entry_ptr)); - } -#endif /* #ifndef NO_BULK_LOGGING */ - } - - /* - * step 3: - * outside port is allocated for this src vrf/src ip addr - * 1)create a new entry in main db - * 2)setup cnat_out2in_hash key - * 3)setup cnat_in2out_hash key - */ - db = dslite_create_main_db_entry_and_hash(ki, &ko, udb); - DSLITE_PRINTF(1,"dslite_create_main_db_entry_and_hash done..\n"); - //db->vrfmap_index = my_vrfmap - cnat_map_by_vrf; - db->dslite_nat44_inst_id = dslite_id; - nat44_dslite_common_stats[dslite_id].active_translations++; - if (PREDICT_FALSE(port_type == PORT_TYPE_STATIC)) { - nat44_dslite_common_stats[dslite_id].num_static_translations++; - } else { - nat44_dslite_common_stats[dslite_id].num_dynamic_translations++; - } - - dslite_translation_create_count++; - - db->dst_ipv4 = dest_info->k.ipv4; - db->dst_port = dest_info->k.port; - if(PREDICT_TRUE(db->dst_ipv4 || db->dst_port)) { - /* for static fwding, let the nsessions remain zero */ - db->nsessions++; - } - - /* - * don't forget logging - * logging API is unconditional, - * logging configuration check is done inside the inline function - */ - if(PREDICT_FALSE(nfv9_log_req != CACHE_ALLOC_NO_LOG_REQUIRED)) { - if(PREDICT_FALSE( dslite_entry_ptr->nf_logging_policy == - SESSION_LOG_ENABLE)) { - if(PREDICT_TRUE(db->dst_ipv4 || db->dst_port)) { - cnat_nfv9_ds_lite_log_session_create(db, - dslite_entry_ptr,NULL); - } - } else { - cnat_nfv9_ds_lite_mapping_create(db,dslite_entry_ptr -#ifndef NO_BULK_LOGGING - ,nfv9_log_req -#endif - ); - } - if(PREDICT_TRUE((dslite_entry_ptr->syslog_logging_policy != SESSION_LOG_ENABLE) || - (db->dst_ipv4 || db->dst_port))) { - cnat_syslog_ds_lite_mapping_create(db,dslite_entry_ptr,NULL -#ifndef NO_BULK_LOGGING - ,nfv9_log_req -#endif - ); - } - } - -#if 0 - if (PREDICT_FALSE(port_pair_type == PORT_PAIR)) { - cnat_main_db_entry_t *db2 = 0; - dslite_db_key_bucket_t new_ki = *ki; - u64 a, b, c; - - new_ki.k.k.port += 1; - ko.k.k.port += 1; - - CNAT_V4_GET_HASH(new_ki.k.key64, new_ki.bucket, - CNAT_MAIN_HASH_MASK); - - db2 = cnat_create_main_db_entry_and_hash(&new_ki, &ko, udb); - - translation_create_count ++; - db2->dslite_nat44_inst_id = dslite_id; - db2->entry_expires = cnat_current_time; - db2->flags |= CNAT_DB_FLAG_ALG_ENTRY; - udb->ntranslations += 1; -#ifndef NO_BULK_LOGGING - if(PREDICT_FALSE(nfv9_log_req == BULK_ALLOC_NOT_ATTEMPTED)) - cnat_nfv9_log_mapping_create(db2, my_vrfmap, nfv9_log_req); -#else - cnat_nfv9_log_mapping_create(db2, my_vrfmap); -#endif - } -#endif - return db; -} -#endif /* TOBE_PORTED */ - -#if 0 -/* TOBE_PORTED */ -uword -cnat_db_v2_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return 0; -} -VLIB_REGISTER_NODE (cnat_db_v2_node) = { - .function = cnat_db_v2_node_fn, - .name = "vcgn-db-v2", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_db_v2_error_strings), - .error_strings = cnat_db_v2_error_strings, - - .n_next_nodes = CNAT_DB_V2_DROP, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_DB_V2_DROP] = "error-drop", - }, -}; -#endif -void cnat_db_v2_init (void) -{ - - u32 i, n, lockinit; - cnat_timeout_db_entry_t * tdb __attribute__((unused)); - - cgse_nat_db_entry_t *comb_db __attribute__((unused)); - cgse_nat_user_db_entry_t *comb_user __attribute__((unused)); - cgse_nat_session_db_entry_t *comb_session __attribute__((unused)); - - n = CNAT_DB_SIZE*1.15; /* add 15% LB margin */ - - /* - * We also make it multiple of NUM_BITS_IN_UWORD for better - * DB scanning algorithm - */ - if (n % NUM_BITS_IN_UWORD) - n += (NUM_BITS_IN_UWORD - (n % NUM_BITS_IN_UWORD)); - - pool_alloc(cgse_nat_db,n); - for(i=0; i< n; i++) { - pool_get(cgse_nat_db, comb_db); - } - - for(i=0; i< n; i++) { - pool_put(cgse_nat_db, cgse_nat_db + i); - } - - cnat_main_db = &cgse_nat_db->nat44_main_db; - - /* For Sessions */ - if(PLATFORM_DBL_SUPPORT) { - /* create session table for NAT44 and NAT64 itself */ - printf("DBL Support exist %d\n", PLATFORM_DBL_SUPPORT); - n = CNAT_SESSION_DB_SIZE * 1.15; /* add 15% LB margin */ - } else { - /* Create session table for NAT64 only */ - printf("DBL Support Not exist\n"); - n = NAT64_MAIN_DB_SIZE * 1.15; /* add 15% LB margin */ - } - - /* - * We also make it multiple of NUM_BITS_IN_UWORD for better - * DB scanning algorithm - */ - if (n % NUM_BITS_IN_UWORD) - n += (NUM_BITS_IN_UWORD - (n % NUM_BITS_IN_UWORD)); - - pool_alloc(cgse_session_db,n); - for(i=0; i< n; i++) { - pool_get(cgse_session_db, comb_session); - } - - for(i=0; i< n; i++) { - pool_put(cgse_session_db, cgse_session_db + i); - } - - cnat_session_db = &cgse_session_db->nat44_session_db; - - vec_validate(cnat_out2in_hash, CNAT_MAIN_HASH_MASK); - memset(cnat_out2in_hash, 0xff, CNAT_MAIN_HASH_SIZE*sizeof(index_slist_t)); - - vec_validate(cnat_in2out_hash, CNAT_MAIN_HASH_MASK); - memset(cnat_in2out_hash, 0xff, CNAT_MAIN_HASH_SIZE*sizeof(index_slist_t)); - - vec_validate(cnat_session_hash, CNAT_SESSION_HASH_MASK); - memset(cnat_session_hash, 0xff, CNAT_SESSION_HASH_SIZE*sizeof(index_slist_t)); - - n = CNAT_USER_DB_SIZE * 1.15; /* use hash size as db size for LB margin */ - if (n % NUM_BITS_IN_UWORD) - n += (NUM_BITS_IN_UWORD - (n % NUM_BITS_IN_UWORD)); - - pool_alloc(cgse_user_db,n); - for(i=0; i< n; i++) { - pool_get(cgse_user_db, comb_user); - } - - for(i=0; i< n; i++) { - pool_put(cgse_user_db, cgse_user_db + i); - } - - cnat_user_db = &cgse_user_db->nat44_user_db; - - vec_validate(cnat_user_hash, CNAT_USER_HASH_MASK); - memset(cnat_user_hash, 0xff, CNAT_USER_HASH_SIZE*sizeof(index_slist_t)); - - n = CNAT_TIMEOUT_HASH_SIZE; /* use hash size as db size for LB margin */ - for(i=0; i< n; i++) { - pool_get(cnat_timeout_db, tdb); - } - - for(i=0; i< n; i++) { - pool_put(cnat_timeout_db, cnat_timeout_db + i); - } - - vec_validate(cnat_timeout_hash, CNAT_TIMEOUT_HASH_MASK); - memset(cnat_timeout_hash, 0xff, CNAT_TIMEOUT_HASH_SIZE*sizeof(index_slist_t)); - -#ifdef TOBE_PORTED - for (i=0;i<CNAT_MAX_VRFMAP_ENTRIES; i++) { - svi_params_array[i].svi_type = CGSE_SVI_TYPE_INFRA; - } -#endif - - cnat_db_v2_main.main_db_lockp = - clib_mem_alloc_aligned (CLIB_CACHE_LINE_BYTES, - CLIB_CACHE_LINE_BYTES); - - cnat_db_v2_main.user_db_lockp = - clib_mem_alloc_aligned (CLIB_CACHE_LINE_BYTES, - CLIB_CACHE_LINE_BYTES); - - cnat_db_v2_main.session_db_lockp = - clib_mem_alloc_aligned (CLIB_CACHE_LINE_BYTES, - CLIB_CACHE_LINE_BYTES); - - lockinit = pthread_spin_init(cnat_db_v2_main.main_db_lockp, - PTHREAD_PROCESS_PRIVATE); - ASSERT (lockinit == 0); - - lockinit = pthread_spin_init(cnat_db_v2_main.user_db_lockp, - PTHREAD_PROCESS_PRIVATE); - ASSERT (lockinit == 0); - - lockinit = pthread_spin_init(cnat_db_v2_main.session_db_lockp, - PTHREAD_PROCESS_PRIVATE); - ASSERT (lockinit == 0); - - cnat_db_init_done = 1; - printf("CNAT DB init is successful\n"); - return; -} diff --git a/plugins/vcgn-plugin/vcgn/cnat_debug_msg_handler.c b/plugins/vcgn-plugin/vcgn/cnat_debug_msg_handler.c deleted file mode 100644 index 519f4b64939..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_debug_msg_handler.c +++ /dev/null @@ -1,1780 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_debug_msg_handler.c - debug command - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> - -#include "cnat_cli.h" - -u32 global_debug_flag = CNAT_DEBUG_NONE; -u16 debug_i_vrf = CNAT_DEBUG_NONE; -u32 debug_i_flag = CNAT_DEBUG_NONE; -u32 debug_i_addr_start = CNAT_DEBUG_NONE; -u32 debug_i_addr_end = CNAT_DEBUG_NONE; - -u16 debug_o_vrf = CNAT_DEBUG_NONE; -u32 debug_o_flag = CNAT_DEBUG_NONE; -u32 debug_o_addr_start = CNAT_DEBUG_NONE; -u32 debug_o_addr_end = CNAT_DEBUG_NONE; - -u32 udp_inside_checksum_disable = 0; -u32 udp_outside_checksum_disable = 0; -u32 udp_inside_packet_dump_enable = 0; -u32 udp_outside_packet_dump_enable = 0; - -u32 tcp_logging_enable_flag = 0; - -u32 icmp_debug_flag = 0; -u32 frag_debug_flag = 0; - -u32 nfv9_logging_debug_flag = 0; -u32 syslog_debug_flag = 0; - -u32 summary_stats_debug_flag = 0; - -/* - * By defaut we set the config debug level to 1 - */ -u32 config_debug_level = 1; - -#ifdef TOBE_PORTED -extern void show_bulk_port_stats(); -extern void clear_bulk_port_stats(); -extern void show_bulk_port_allocation(u16 in_vrfid, u32 inside_ip); -extern void set_bulk_size_to_all_vrfs(int bulk_size); - -u32 *cnat_debug_addr_list; - -extern int global_pd_dbg_lvl; -extern int global_pi_dbg_lvl; -extern int global_l2_dbg_lvl; -extern u32 cnat_pptp_debug_flag; -extern u32 cnat_pcp_debug_flag; - -void spp_api_cnat_get_cgn_db_summary -(spp_api_cnat_generic_command_request_t *); - -void spp_api_cnat_v4_debug_dummy_t_handler -(spp_api_cnat_v4_debug_dummy_t *mp) -{ - u32 arr[] = { DEBUG_DUMMY }; - spp_printf(CNAT_DUMMY_HANDLER_HIT, 1, arr); - if(global_pd_dbg_lvl) { - PLATFORM_DEBUG_PRINT("\n invalid debug command received: message id is 0\n"); - } - mp->rc = CNAT_ERR_INVALID_MSG_ID; - -} - -void spp_api_cnat_v4_debug_dummy_max_t_handler -(spp_api_cnat_v4_debug_dummy_max_t *mp) -{ - u32 arr[] = { DEBUG_DUMMY_MAX }; - spp_printf(CNAT_DUMMY_HANDLER_HIT, 1, arr); - if(global_pd_dbg_lvl) { - PLATFORM_DEBUG_PRINT("\n invalid debug command received: message id is out of range\n"); - } - mp->rc = CNAT_ERR_INVALID_MSG_ID; - -} - - -void spp_api_cnat_v4_debug_global_t_handler -(spp_api_cnat_v4_debug_global_t *mp) -{ - if ((mp->debug_flag == CNAT_DEBUG_GLOBAL_ERR) || - (mp->debug_flag == CNAT_DEBUG_GLOBAL_ALL) || - (mp->debug_flag == CNAT_DEBUG_NONE)) { - mp->rc = CNAT_SUCCESS; - global_debug_flag = mp->debug_flag; - return; - } - - mp->rc = CNAT_ERR_PARSER; - if(global_pd_dbg_lvl) { - PLATFORM_DEBUG_PRINT("invalid global debug flag %x\n", - mp->debug_flag); - } - return; -} - -void spp_node_print_cnat_counters() -{ - if (cnat_global_counters.nfv9_downstream_constipation_count) { - PLATFORM_DEBUG_PRINT("\nNF downstream constipation count: %llu\n", - cnat_global_counters.nfv9_downstream_constipation_count); - } - - if (xlat_global_counters.v4_to_v6_frag_invalid_uidb_drop_count || - xlat_global_counters.v6_to_v4_frag_invalid_uidb_drop_count || - xlat_global_counters.v4_to_v6_icmp_invalid_uidb_drop_count || - xlat_global_counters.v6_to_v4_icmp_invalid_uidb_drop_count || - xlat_global_counters.v4_to_v6_tcp_invalid_uidb_drop_count || - xlat_global_counters.v6_to_v4_tcp_invalid_uidb_drop_count || - xlat_global_counters.v4_to_v6_udp_invalid_uidb_drop_count || - xlat_global_counters.v6_to_v4_udp_invalid_uidb_drop_count || - xlat_global_counters.v4_to_v6_udp_crc_zero_invalid_uidb_drop_count) { - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v4_to_v6 frag invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v4_to_v6_frag_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v6_to_v4 frag invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v6_to_v4_frag_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v4_to_v6 icmp invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v4_to_v6_icmp_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v6_to_v4 icmp invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v6_to_v4_icmp_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v4_to_v6 tcp invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v4_to_v6_tcp_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v6_to_v4 tcp invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v6_to_v4_tcp_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v4_to_v6 udp invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v4_to_v6_udp_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v6_to_v4 udp invalid uidb drop count %lld", - my_instance_number, - xlat_global_counters.v6_to_v4_udp_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\nMy_instance %d: v4_to_v6 udp crc0 invld uidb drop count %lld", - my_instance_number, - xlat_global_counters.v4_to_v6_udp_crc_zero_invalid_uidb_drop_count); - - PLATFORM_DEBUG_PRINT("\n"); - } - - -} - -void spp_log_p2mp_req(spp_api_cnat_p2mp_debug_request_t *mp) -{ - u8 i = 0; - u32 num_rec = spp_net_to_host_byte_order_32(&mp->param[i++]); - u32 err_c_num_args; - - while (num_rec--) { - u8 j = 0; - u16 err_c; - u16 num_args; - u32 argv[32]; - - err_c_num_args = spp_net_to_host_byte_order_32(&mp->param[i++]); - err_c = (err_c_num_args >> 16) & 0xFFFF; - num_args = err_c_num_args & 0xFFFF; - - num_args = (num_args <= 32) ? num_args : 32; - while (j < num_args) { - argv[j++] = spp_net_to_host_byte_order_32(&mp->param[i++]); - } - - i += ((num_args - 32) > 0) ? (num_args - 32) : 0; - spp_printf(err_c, num_args, argv); - } -} - -void nat64_debug_addr_pool_add_del() -{ - cnat_portmap_v2_t *my_pm = NULL; - cnat_portmap_v2_t *pm = NULL; - u32 len, i, pm_len; - - PLATFORM_DEBUG_PRINT("\n sizeof port_map =%d\n", sizeof( cnat_portmap_v2_t)); - len = 10; - PLATFORM_DEBUG_PRINT("\n adding 10 entries in vector 1-10\n "); - vec_add2(pm, my_pm, len); - pm = my_pm; - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - for(i=0;i<len;i++){ - my_pm->ipv4_address = i+1; - my_pm++; - } - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - - pm_len = vec_len(pm); - PLATFORM_DEBUG_PRINT("\n printing vector contents : vec_len = %d \n", pm_len); - my_pm = pm; - for(i=0;i<pm_len ; i++) - { - PLATFORM_DEBUG_PRINT(" %d ,",my_pm->ipv4_address); - my_pm++; - } - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - - PLATFORM_DEBUG_PRINT("\n adding 5 entries in vector 11-15\n "); - len = 5; - vec_add2(pm, my_pm, len); - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - for(i=0;i<len;i++) { - my_pm->ipv4_address = 11+i; - my_pm++; - } - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - pm_len = vec_len(pm); - PLATFORM_DEBUG_PRINT("\n printing vector contents : vec_len = %d \n", pm_len); - my_pm = pm; - for(i=0;i<pm_len ; i++) - { - PLATFORM_DEBUG_PRINT(" %d ,",my_pm->ipv4_address); - my_pm++; - } - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - - PLATFORM_DEBUG_PRINT("\n adding 6 entries in vector 16-21\n "); - len = 6; - vec_add2(pm, my_pm, len); - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - for(i=0;i<len;i++) { - my_pm->ipv4_address = 16+i; - my_pm++; - } - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - pm_len = vec_len(pm); - PLATFORM_DEBUG_PRINT("\n printing vector contents : vec_len = %d \n", pm_len); - my_pm = pm; - for(i=0;i<pm_len ; i++) - { - PLATFORM_DEBUG_PRINT(" %d ,",my_pm->ipv4_address); - my_pm++; - } - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - PLATFORM_DEBUG_PRINT("\nDeleting 7 entries starting from entry value=8\n"); - pm_len = vec_len(pm); - my_pm = pm; - PLATFORM_DEBUG_PRINT(" pm_len =%d\n", pm_len); - for(i=0;i<pm_len;i++) - { - if(my_pm->ipv4_address == 8){ - PLATFORM_DEBUG_PRINT("\n match found brraeaking..\n"); - break; - } - my_pm++; - } - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p i= %d\n", pm, my_pm, i); -// vec_delete(pm, 7, my_pm); - vec_delete(pm, 7, i); - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - - PLATFORM_DEBUG_PRINT(" printing entries aftr deletion from 8-14\n"); - pm_len = vec_len(pm); - PLATFORM_DEBUG_PRINT("\n printing vector contents : vec_len = %d \n", pm_len); - my_pm = pm; - for(i=0;i<pm_len ; i++) - { - PLATFORM_DEBUG_PRINT(" %d ,",my_pm->ipv4_address); - my_pm++; - } - - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - - PLATFORM_DEBUG_PRINT("\nadding deleted items again 8-14\n"); - len =7; - vec_add2(pm, my_pm, len); - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - for(i=0;i<len;i++) { - my_pm->ipv4_address = 8+i; - my_pm++; - } - - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - pm_len = vec_len(pm); - PLATFORM_DEBUG_PRINT("\n printing vector contents : vec_len = %d \n", pm_len); - my_pm = pm; - for(i=0;i<pm_len ; i++) - { - PLATFORM_DEBUG_PRINT(" %d ,",my_pm->ipv4_address); - my_pm++; - } - PLATFORM_DEBUG_PRINT(" pm =%p , my_pm = %p\n", pm, my_pm); - PLATFORM_DEBUG_PRINT("\n"); -} - - -void uidb_mapping_dump_timeout() { - - u32 i; - - PLATFORM_DEBUG_PRINT("\nCGSE uidb mapping table \n"); - for(i = 0;i < 30;i++) { - PLATFORM_DEBUG_PRINT("%d ",*(cgse_uidb_index_cgse_id_mapping_ptr + i)); - } - -} - -void nat64_debug_dump_info(u32 debug_value) -{ - - switch(debug_value) { - - case 1 : - bib_add_v6_entry1(); - break; - - case 2 : - bib_add_v6_entry2(); - break; - - case 3 : - bib_add_v6_entry1_new(); - break; - - case 4 : - bib_add_v6_entry1_new_static(); - break; - - case 5 : - bib_add_v6_entry3(); - break; - - case 6 : - bib_add_v6_entry_new2(); - break; - - case 7 : - nat64_fill_table_entry(); - break; - - case 10 : - nat64_db_dump_main(); - break; - - case 11 : - nat64_db_dump_user(); - break; - - case 12 : - nat64_db_dump_session(); - break; - - case 13 : - nat64_dump_table(); - break; - - case 14 : - bib_del_v6_entry1_static(); - break; - - case 15 : - nat64_debug_addr_pool_add_del(); - break; - - case 16 : - nat64_db_dump_timeout(0); - break; - - case 17 : - uidb_mapping_dump_timeout(); - break; - - default : break; - } -} - - -void cnat_debug_flags_set (spp_api_cnat_p2mp_debug_request_t *mp) -{ - u32 debug_variable = spp_net_to_host_byte_order_32(&mp->param[0]); - u32 debug_value = spp_net_to_host_byte_order_32(&mp->param[1]); - - cnat_key_t t_key; - - switch (debug_variable) { - - case CNAT_DEBUG_FLAG_UDP_INSIDE_CHECKSUM_DISABLE: - udp_inside_checksum_disable = debug_value; - PLATFORM_DEBUG_PRINT("\nudp_inside_checksum_disable set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_UDP_OUTSIDE_CHECKSUM_DISABLE: - udp_outside_checksum_disable = debug_value; - PLATFORM_DEBUG_PRINT("\nudp_outside_checksum_disable set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_UDP_OUTSIDE_PKT_DUMP_ENABLE: - udp_outside_packet_dump_enable = debug_value; - PLATFORM_DEBUG_PRINT("\nudp_outside_packet_dump_enable set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_UDP_INSIDE_PKT_DUMP_ENABLE: - udp_inside_packet_dump_enable = debug_value; - PLATFORM_DEBUG_PRINT("\nudp_inside_packet_dump_enable set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_ICMP_PKT_DUMP_ENABLE: - icmp_debug_flag = debug_value; - PLATFORM_DEBUG_PRINT("\nicmp_debug_flag set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_FRAG_PKT_DUMP_ENABLE: - frag_debug_flag = debug_value; - PLATFORM_DEBUG_PRINT("\nfrag_debug_flag set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_XLAT_CONFIG_DEBUG_ENABLE: - xlat_config_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nxlat_config_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_NAT64_CONFIG_DEBUG_ENABLE: - nat64_config_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nnat64_config_debug_level set to %d\n", debug_value); - nat64_debug_dump_info(debug_value); - break; - - case CNAT_DEBUG_FLAG_NAT64_DATA_PATH_DEBUG_ENABLE: - nat64_data_path_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nnat64_data_path_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_DSLITE_CONFIG_DEBUG_ENABLE: - ds_lite_config_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nds_lite_config_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_XLAT_DATA_PATH_DEBUG_ENABLE: - xlat_data_path_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nxlat_data_path_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_CONFIG_DEBUG_ENABLE: - config_debug_level = debug_value; - - PLATFORM_DEBUG_PRINT("\nconfig_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_CONFIG_PPTP_ENABLE: - cnat_pptp_debug_flag = debug_value; - - if(debug_value == 0) { - pptp_dump_counters(); - } - - PLATFORM_DEBUG_PRINT("\ncnat_pptp_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_CONFIG_PCP_ENABLE: - cnat_pcp_debug_flag = debug_value; - - if(debug_value == 0) { - pcp_dump_counters(); - } - PLATFORM_DEBUG_PRINT("\ncnat_pcp_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_GLOBAL_DEBUG_ALL_ENABLE: - global_debug_flag = debug_value; - PLATFORM_DEBUG_PRINT("\nglobal_debug_flag set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_SUMMARY_STATS_DEBUG_ENABLE: - summary_stats_debug_flag = debug_value; - PLATFORM_DEBUG_PRINT("\nsummary_stats_debug_flag set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_SHOW_DEBUG_ENABLE: - show_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nshow_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_TCP_LOGGING_ENABLE: - tcp_debug_logging_enable_disable(debug_value); - break; - case CNAT_DEBUG_FLAG_V6RD_DATA_PATH_DEBUG_ENABLE: - v6rd_data_path_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nv6rd_data_path_debug_level set to %d\n", debug_value); - break; - case CNAT_DEBUG_FLAG_V6RD_CONFIG_DEBUG_ENABLE: - v6rd_config_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nv6rd_config_debug_level set to %d\n", debug_value); - break; - case CNAT_DEBUG_FLAG_V6RD_DEFRAG_DEBUG_ENABLE: - /* set debug atleast to 1, so that critical errors are always - * enabled - */ - v6rd_defrag_debug_level = debug_value ? debug_value : 1; - PLATFORM_DEBUG_PRINT("\nv6rd_config_debug_level set to %d\n", debug_value); - break; - - - case CNAT_DEBUG_SET_STATIC_PORT_RANGE: - PLATFORM_DEBUG_PRINT("\nChange Static Port Range from %d --> %d\n", - cnat_static_port_range, debug_value); - cnat_static_port_range = debug_value; - break; - - case CNAT_DEBUG_FLAG_DSLITE_DP_ENABLE: - PLATFORM_DEBUG_PRINT("\n Changing dslite debug flag from %d --> %d\n", - dslite_debug_level, debug_value); - dslite_debug_level = debug_value; - break; - - case CNAT_DEBUG_FLAG_NFV9_LOGGING_DUMP_ENABLE: - nfv9_logging_debug_flag = debug_value; - PLATFORM_DEBUG_PRINT("\nnfv9_logging_debug_flag set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_SYSLOG_LOGGING_DUMP_ENABLE: - syslog_debug_flag = debug_value; - PLATFORM_DEBUG_PRINT("\nsyslog_debug_flag set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_MAPE_CONFIG_DEBUG_ENABLE: - mape_config_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nmape_config_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAG_MAPE_DATA_PATH_DEBUG_ENABLE: - mape_data_path_debug_level = debug_value; - PLATFORM_DEBUG_PRINT("\nmape_data_path_debug_level set to %d\n", debug_value); - break; - - case CNAT_DEBUG_FLAGS_DUMP: - default: - { - PLATFORM_DEBUG_PRINT("\nCurrent values of Debug Variables\n"); - PLATFORM_DEBUG_PRINT("\nTo modify an item chose its index and provide the value\n"); - PLATFORM_DEBUG_PRINT("\n%d: udp_inside_checksum_disable %d\n", - CNAT_DEBUG_FLAG_UDP_INSIDE_CHECKSUM_DISABLE, - udp_inside_checksum_disable); - PLATFORM_DEBUG_PRINT("%d: udp_outside_checksum_disable %d\n", - CNAT_DEBUG_FLAG_UDP_OUTSIDE_CHECKSUM_DISABLE, - udp_outside_checksum_disable); - PLATFORM_DEBUG_PRINT("%d: udp_inside_packet_dump_enable %d\n", - CNAT_DEBUG_FLAG_UDP_OUTSIDE_PKT_DUMP_ENABLE, - udp_inside_packet_dump_enable); - PLATFORM_DEBUG_PRINT("%d: udp_outside_packet_dump_enable %d\n", - CNAT_DEBUG_FLAG_UDP_INSIDE_PKT_DUMP_ENABLE, - udp_outside_packet_dump_enable); - PLATFORM_DEBUG_PRINT("%d: icmp_debug_flag %d\n", - CNAT_DEBUG_FLAG_ICMP_PKT_DUMP_ENABLE, - icmp_debug_flag); - PLATFORM_DEBUG_PRINT("%d: frag_debug_flag %d\n", - CNAT_DEBUG_FLAG_FRAG_PKT_DUMP_ENABLE, - frag_debug_flag); - PLATFORM_DEBUG_PRINT("%d: config_debug_level %d\n", - CNAT_DEBUG_FLAG_CONFIG_DEBUG_ENABLE, - config_debug_level); - PLATFORM_DEBUG_PRINT("%d: global_debug_flag %d\n", - CNAT_DEBUG_FLAG_GLOBAL_DEBUG_ALL_ENABLE, - global_debug_flag); - PLATFORM_DEBUG_PRINT("%d: summary_stats_debug_flag %d\n", - CNAT_DEBUG_FLAG_SUMMARY_STATS_DEBUG_ENABLE, - summary_stats_debug_flag); - PLATFORM_DEBUG_PRINT("%d: show_debug_level %d\n", - CNAT_DEBUG_FLAG_SHOW_DEBUG_ENABLE, - show_debug_level); - PLATFORM_DEBUG_PRINT("%d: xlat_config_debug_level %d\n", - CNAT_DEBUG_FLAG_XLAT_CONFIG_DEBUG_ENABLE, - xlat_config_debug_level); - PLATFORM_DEBUG_PRINT("%d: xlat_data_path_debug_level %d\n", - CNAT_DEBUG_FLAG_XLAT_DATA_PATH_DEBUG_ENABLE, - xlat_data_path_debug_level); - PLATFORM_DEBUG_PRINT("%d: tcp_logging_enable_flag %d\n", - CNAT_DEBUG_FLAG_TCP_LOGGING_ENABLE, - tcp_logging_enable_flag); - PLATFORM_DEBUG_PRINT(" tcp_logging_enable_options DISABLE %d, ENABLE %d, PKT_DUMP %d, SUMMARY_DUMP %d\n", - TCP_LOGGING_DISABLE, TCP_LOGGING_ENABLE, - TCP_LOGGING_PACKET_DUMP, TCP_LOGGING_SUMMARY_DUMP); - PLATFORM_DEBUG_PRINT("%d: nfv9_logging_debug_flag %d\n", - CNAT_DEBUG_FLAG_NFV9_LOGGING_DUMP_ENABLE, - nfv9_logging_debug_flag); - PLATFORM_DEBUG_PRINT("%d: syslog_debug_flag %d\n", - CNAT_DEBUG_FLAG_SYSLOG_LOGGING_DUMP_ENABLE, - syslog_debug_flag); - PLATFORM_DEBUG_PRINT("%d: cnat_static_port_range %d\n", - CNAT_DEBUG_SET_STATIC_PORT_RANGE, - cnat_static_port_range); - PLATFORM_DEBUG_PRINT("%d: v6rd_data_path_debug_level %d\n", - CNAT_DEBUG_FLAG_V6RD_DATA_PATH_DEBUG_ENABLE, - v6rd_data_path_debug_level); - PLATFORM_DEBUG_PRINT("%d: v6rd_config_debug_level %d\n", - CNAT_DEBUG_FLAG_V6RD_CONFIG_DEBUG_ENABLE, - v6rd_config_debug_level); - PLATFORM_DEBUG_PRINT("%d: v6rd_defrag_debug_level %d\n", - CNAT_DEBUG_FLAG_V6RD_DEFRAG_DEBUG_ENABLE, - v6rd_defrag_debug_level); - PLATFORM_DEBUG_PRINT("%d: nat64_stful_debug %d\n", - CNAT_DEBUG_FLAG_NAT64_CONFIG_DEBUG_ENABLE, - nat64_config_debug_level); - PLATFORM_DEBUG_PRINT("%d: nat64_data_path_debug_level %d\n", - CNAT_DEBUG_FLAG_NAT64_DATA_PATH_DEBUG_ENABLE, - nat64_data_path_debug_level); - PLATFORM_DEBUG_PRINT("%d: dslite_debug_level %d\n", - CNAT_DEBUG_FLAG_DSLITE_DP_ENABLE, - dslite_debug_level); - PLATFORM_DEBUG_PRINT("%d: ds_lite_config_debug_level %d\n", - CNAT_DEBUG_FLAG_DSLITE_CONFIG_DEBUG_ENABLE, - ds_lite_config_debug_level); - PLATFORM_DEBUG_PRINT("%d: mape_config_debug_level %d\n", - CNAT_DEBUG_FLAG_MAPE_CONFIG_DEBUG_ENABLE, - mape_config_debug_level); - PLATFORM_DEBUG_PRINT("%d: mape_data_path_debug_level %d\n", - CNAT_DEBUG_FLAG_MAPE_DATA_PATH_DEBUG_ENABLE, - mape_data_path_debug_level); - } - break; - } -} - -extern void dump_cnat_frag_stats(void); - -void spp_api_cnat_p2mp_debug_request_t_handler -(spp_api_cnat_p2mp_debug_request_t *mp) -{ - u16 command_type; - -/* - if (mp->core_num != my_instance_number) { - mp->rc = CNAT_NOT_THIS_CORE; - return; - } -*/ - - command_type = spp_net_to_host_byte_order_16(&mp->dump_type); - PLATFORM_DEBUG_PRINT("-->> Core%d: Received debug msg ... cmd type: %d\n", - my_instance_number, command_type); - - switch (command_type) { - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_POLICY: - PLATFORM_DEBUG_PRINT("Core%d: policy\n", my_instance_number); - cnat_db_dump_policy(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_MAIN_DB: - PLATFORM_DEBUG_PRINT("Core%d: Main db\n", my_instance_number); - cnat_db_dump_main(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_MAIN_DB_SUMMARY: - PLATFORM_DEBUG_PRINT("Core%d: Main db Summary\n", my_instance_number); - cnat_db_dump_main_summary(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_USER_DB: - PLATFORM_DEBUG_PRINT("Core%d: User db\n", my_instance_number); - cnat_db_dump_user(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_USER_DB_SUMMARY: - PLATFORM_DEBUG_PRINT("Core%d: User db Summary\n", my_instance_number); - cnat_db_dump_user_summary(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_HASHES_DB: - PLATFORM_DEBUG_PRINT("Core%d: Hashes db\n", my_instance_number); - cnat_db_dump_hashes(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_VRF_MAP: - PLATFORM_DEBUG_PRINT("Core%d: Vrf map \n", my_instance_number); - cnat_db_dump_portmaps(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_SUMMARY_DB: - PLATFORM_DEBUG_PRINT("Core%d: dump summary DB \n", my_instance_number); - cnat_db_summary(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_STATS: - PLATFORM_DEBUG_PRINT("Core%d: dump stats \n", my_instance_number); - spp_node_print_stats(1, NULL); - break; - - /* Currently does same as clear node ctr, may change */ - case CNAT_DEBUG_GENERIC_COMMAND_CLEAR_STATS: - PLATFORM_DEBUG_PRINT("Core%d: clear stats \n", my_instance_number); - spp_node_clear_stats(); - break; - - case CNAT_DEBUG_SPP_LOG: - PLATFORM_DEBUG_PRINT("Core%d: SPP LOG \n", my_instance_number); - spp_log_p2mp_req(mp); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_NODE_COUNTER: - PLATFORM_DEBUG_PRINT("Core%d: NODE Counter dump \n", my_instance_number); - spp_node_print_counters(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_CLEAR_NODE_COUNTER: - PLATFORM_DEBUG_PRINT("Core%d: clear node counter \n", my_instance_number); - spp_node_clear_stats(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_CNAT_COUNTER: - PLATFORM_DEBUG_PRINT("Core%d: CNAT Counter dump \n", my_instance_number); - spp_node_print_cnat_counters(); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_VA: - PLATFORM_DEBUG_PRINT("Core%d: VA dump \n", my_instance_number); - { - int argc = 1; - u32 arg[2] = {spp_net_to_host_byte_order_32(&mp->param[0]), 0}; - - cnat_va_dump(argc, arg); - } - break; - - case CNAT_DEBUG_GENERIC_COMMAND_SHOW_CONFIG: - PLATFORM_DEBUG_PRINT("Core%d: Show config dump \n", my_instance_number); - { - int argc = 0; - unsigned long arg[3]; - - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[0])) { - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[1])) { - ; - } else { - argc--; - } - } - - cnat_show_cdb_command_v2(argc, arg); -/* - xlat_show_config(); - cnat_alg_show(); -*/ - v6rd_show_config(); - dslite_show_config(); - nat64_dump_table(); - mape_show_config(); - } - break; - - case CNAT_DEBUG_GENERIC_COMMAND_SHOW_NFV9: - PLATFORM_DEBUG_PRINT("Core%d: NFv9 dump \n", my_instance_number); - #if 0 /* Currently not calling this */ - cnat_nfv9_show_cmd(); - #endif - break; - - case CNAT_DEBUG_GENERIC_COMMAND_SHOW_IVRF: - PLATFORM_DEBUG_PRINT("Core%d: IVRF dump \n", my_instance_number); - { - int argc = 0; - unsigned long arg[3]; - - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[0])) { - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[1])) { - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[2])) { - ; - } else { - argc--; - } - } else { - argc--; - } - } - - - PLATFORM_DEBUG_PRINT("VRF: %d \n", spp_net_to_host_byte_order_32(&mp->param[0])); - PLATFORM_DEBUG_PRINT("2nd arg: %d \n", - spp_net_to_host_byte_order_32(&mp->param[1])); - - cnat_show_ivrf_command_v2(argc, arg); - } - break; - - case CNAT_DEBUG_GENERIC_COMMAND_SHOW_OVRF: - PLATFORM_DEBUG_PRINT("Core%d: OVRF dump \n", my_instance_number); - { - int argc = 0; - unsigned long arg[3]; - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[0])) { - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[1])) { - if (arg[argc++] = spp_net_to_host_byte_order_32(&mp->param[2])) { - ; - } else { - argc--; - } - } else { - argc--; - } - } - - PLATFORM_DEBUG_PRINT("VRF: %d \n", spp_net_to_host_byte_order_32(&mp->param[0])); - PLATFORM_DEBUG_PRINT("2nd arg: %d \n", - spp_net_to_host_byte_order_32(&mp->param[1])); - - cnat_show_ovrf_command_v2(argc, arg); - } - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DEBUG_OPTIONS: - PLATFORM_DEBUG_PRINT("Core%d: Debug option dump \n", my_instance_number); - { - global_pd_dbg_lvl = 0; - global_pi_dbg_lvl = 0; - global_l2_dbg_lvl = 0; - - global_pd_dbg_lvl = - spp_net_to_host_byte_order_32(&mp->param[0]); - global_pi_dbg_lvl = - spp_net_to_host_byte_order_32(&mp->param[1]); - global_l2_dbg_lvl = - spp_net_to_host_byte_order_32(&mp->param[2]); - - PLATFORM_DEBUG_PRINT("global_pd_dbg_lvl: %d, global_pi_dbg_lvl: %d, global_l2_dbg_lvl: %d\n", - global_pd_dbg_lvl, global_pi_dbg_lvl, global_l2_dbg_lvl); - } - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DUMP_DEBUG_LEVELS: - PLATFORM_DEBUG_PRINT("Core%d: PD Debug level: %d \n", my_instance_number, global_pd_dbg_lvl); - PLATFORM_DEBUG_PRINT("Core%d: PI Debug level: %d \n", my_instance_number, global_pi_dbg_lvl); - PLATFORM_DEBUG_PRINT("Core%d: L2 Debug level: %d \n", my_instance_number, global_l2_dbg_lvl); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DEBUG_FLAGS: - PLATFORM_DEBUG_PRINT("Core%d: Debug flags \n", my_instance_number); - cnat_debug_flags_set(mp); - break; - - case CNAT_READ_TEMP_SENSORS: - PLATFORM_INIT_TEMP_SENSORS(); - PLATFORM_READ_CPU_SENSORS(TEMPERATURE_SENSOR_TEST_MODE); - break; - - case CNAT_BLOCK_OCTEON_SENSOR_READ: - - PLATFORM_SET_TEMP_READ_BLOCK(temperature_read_blocked , mp); -#ifdef TARGET_RODDICK - temperature_read_blocked = - spp_net_to_host_byte_order_32(&mp->param[0]); -#endif - break; - - case CNAT_DEBUG_TIMEOUT_DB_SUMMARY: - cnat_db_dump_timeout(); - break; - - /* This option has to be removed later */ - case CNAT_DEBUG_SET_BULK_SIZE: - PLATFORM_DEBUG_PRINT("\nSetting bulk size to %d\n", - spp_net_to_host_byte_order_32(&mp->param[0])); - set_bulk_size_to_all_vrfs( - spp_net_to_host_byte_order_32(&mp->param[0])); - break; - - case CNAT_DEBUG_SHOW_BULK_STAT: - show_bulk_port_stats(); - break; - - case CNAT_DEBUG_CLEAR_BULK_STAT: - clear_bulk_port_stats(); - break; - - case CNAT_DEBUG_SHOW_BULK_ALLOC: - { - u16 in_vrfid = spp_net_to_host_byte_order_32(&mp->param[0]); - u32 inside_ip = spp_net_to_host_byte_order_32(&mp->param[1]); - show_bulk_port_allocation(in_vrfid, inside_ip); - } - break; - - case CNAT_DEBUG_NAT44_IN2OUT_FRAG_STATS: - dump_cnat_frag_stats(); - break; - - default: - mp->rc = CNAT_ERR_INVALID_MSG_ID; - break; - } - - mp->rc = CNAT_SUCCESS; - return; -} - - -void spp_api_cnat_v4_debug_in2out_private_addr_t_handler -(spp_api_cnat_v4_debug_in2out_private_addr_t *mp) -{ - u16 i_vrf; - u32 debug_flag; - u32 start_addr, end_addr; - - - start_addr = - spp_net_to_host_byte_order_32(&mp->start_addr); - end_addr = - spp_net_to_host_byte_order_32(&mp->end_addr); - i_vrf = - spp_net_to_host_byte_order_16(&mp->i_vrf); - debug_flag = - spp_net_to_host_byte_order_32(&mp->debug_flag); - - if ((i_vrf > MAX_UIDX) || (start_addr > end_addr) || - ((debug_flag != CNAT_DEBUG_NONE) && - ((debug_flag & CNAT_DEBUG_ALL) == CNAT_DEBUG_NONE))) { - mp->rc = CNAT_ERR_PARSER; - PLATFORM_DEBUG_PRINT("invalid debug ivrf 0x%x flag 0x%x " - "start addr 0x%x end addr 0x%x\n", - i_vrf, debug_flag, - start_addr, end_addr); - return; - } - - PLATFORM_DEBUG_PRINT("debug ivrf 0x%x flag 0x%x " - "start addr 0x%x end addr 0x%x\n", - i_vrf, debug_flag, - start_addr, end_addr); - - mp->rc = CNAT_SUCCESS; - debug_i_vrf = i_vrf; - debug_i_flag = debug_flag; - debug_i_addr_start = start_addr; - debug_i_addr_end = end_addr; - -} - -void spp_api_cnat_v4_debug_out2in_public_addr_t_handler -(spp_api_cnat_v4_debug_out2in_public_addr_t *mp) -{ - u16 o_vrf; - u32 debug_flag; - u32 start_addr, end_addr; - - start_addr = - spp_net_to_host_byte_order_32(&mp->start_addr); - end_addr = - spp_net_to_host_byte_order_32(&mp->end_addr); - o_vrf = - spp_net_to_host_byte_order_16(&mp->o_vrf); - debug_flag = - spp_net_to_host_byte_order_32(&mp->debug_flag); - - if ((o_vrf > MAX_UIDX) || (start_addr > end_addr) || - ((debug_flag != CNAT_DEBUG_NONE) && - ((debug_flag & CNAT_DEBUG_ALL) == CNAT_DEBUG_NONE))) { - mp->rc = CNAT_ERR_PARSER; - PLATFORM_DEBUG_PRINT("invalid debug ovrf 0x%x flag 0x%x " - "start addr 0x%x end addr 0x%x\n", - o_vrf, debug_flag, - start_addr, end_addr); - return; - } - - mp->rc = CNAT_SUCCESS; - debug_o_vrf = o_vrf; - debug_o_flag = debug_flag; - debug_o_addr_start = start_addr; - debug_o_addr_end = end_addr; - - PLATFORM_DEBUG_PRINT(" o2i debug currently is not supported\n"); -} - -void nat64_reset_session_expiry(nat64_bib_entry_t *db) -{ - NAT64_STFUL_DEBUG_PRINT(3, " invoking nat64_clean_bib_db_entry\n " ); - nat64_clean_bib_db_entry(db); - NAT64_STFUL_DEBUG_PRINT(3, "done with clean_bib_db_entry\n " ); -} - -void spp_api_nat64_clear_db_request_t_handler -(spp_api_nat64_clear_db_request_t *mp) -{ - u16 port, proto, flag; - u32 index; - u32 i; - nat64_bib_entry_t* db; - nat64_v6_key_t ki; - nat64_table_entry_t *my_nat64_table_db_ptr; - u16 nat64_id; - - NAT64_STFUL_FUNC_ENTER; - NAT64_STFUL_DEBUG_DUMP_MSG(mp); - - nat64_id = spp_net_to_host_byte_order_16(&mp->nat64_id); - my_nat64_table_db_ptr = nat64_table_ptr + nat64_id; - - port = spp_net_to_host_byte_order_16(&mp->port_num); - proto = mp->protocol; - - ki.vrf = nat64_id; - ki.vrf |= ((u16)proto << CNAT_PRO_SHIFT); - - for(i =0 ; i< 4 ; i++) - ki.ipv6[i] = spp_net_to_host_byte_order_32(&mp->ip_addr[i]); - - ki.port = port; - - flag = mp->flags; - - mp->rc = CNAT_SUCCESS; - - NAT64_STFUL_DEBUG_PRINT(3, "\n Nat64_id = %d, port =%d, \ - proto =%d, flags=0x%08X",\ - nat64_id, port, proto, flag); - - NAT64_STFUL_DEBUG_PRINT(3, "\n IPv6 Addr = %08X : %08X: %08X: %08X",\ - ki.ipv6[0], ki.ipv6[1], ki.ipv6[2], ki.ipv6[3]); - - if (flag == CNAT_DB_CLEAR_SPECIFIC) { - NAT64_STFUL_DEBUG_PRINT(3, "\n clear specific \n"); - - db = nat64_bib_db_lookup_entry(&ki); - if (db == NULL) { - NAT64_STFUL_DEBUG_PRINT(3, "\n clear specific - not present\n"); - mp->rc = CNAT_NOT_FOUND_ANY; - return; - } - - if( !(db->flags & CNAT_DB_NAT64_FLAG) || - (db->nat64_inst_id != nat64_id)) - return; - - - nat64_reset_session_expiry(db); - return; - } - - pool_header_t *p = pool_header(nat64_bib_db); - - for(index = 0; index < vec_len(nat64_bib_db); index++) { - - /* check is it nat44, if yes skip , do it n nat44 as well */ - - if (PREDICT_FALSE(!clib_bitmap_get(p->free_bitmap, index))) { - db = nat64_bib_db + index; - - if( !(db->flags & CNAT_DB_NAT64_FLAG) || - (db->nat64_inst_id != nat64_id)) - continue; - - if (flag == CNAT_DB_CLEAR_ALL) { - nat64_reset_session_expiry(db); - continue; - } - - if (flag & CNAT_DB_CLEAR_ADDR) { - if ((db->v6_in_key.ipv6[0] != ki.ipv6[0]) || - (db->v6_in_key.ipv6[1] != ki.ipv6[1]) || - (db->v6_in_key.ipv6[2] != ki.ipv6[2]) || - (db->v6_in_key.ipv6[3] != ki.ipv6[3])){ - NAT64_STFUL_DEBUG_PRINT(3, "\n%s:%d\n", __FUNCTION__, \ - __LINE__ ); - continue; - } - } - - if (flag & CNAT_DB_CLEAR_PROTO) { - if (((db->v6_in_key.vrf & CNAT_PRO_MASK) >> CNAT_PRO_SHIFT) - != proto) { - NAT64_STFUL_DEBUG_PRINT(3, "\n%s:%d\n", __FUNCTION__, \ - __LINE__ ); - continue; - } - } - - if (flag & CNAT_DB_CLEAR_PORT) { - if (db->v6_in_key.port != port) { - NAT64_STFUL_DEBUG_PRINT(3, "\n%s:%d\n", __FUNCTION__, \ - __LINE__ ); - continue; - } - } - - NAT64_STFUL_DEBUG_PRINT(3, "\n%s:%d\n", __FUNCTION__, \ - __LINE__ ); - /* - * Delete if the db entry matches and it is not a - */ - nat64_reset_session_expiry(db); - } - } -} - -void inline cnat_clear_session_db(cnat_main_db_entry_t *db) -{ - if(PREDICT_FALSE(db->nsessions > 1)) { - u32 session_index = db->session_head_index; - cnat_session_entry_t *sdb; - do { - sdb = cnat_session_db + session_index; - if(PREDICT_FALSE(!sdb)) { - //TO DO: Debug msg? - break; - } - sdb->entry_expires = 0; - session_index = sdb->main_list.next; - } while(session_index != db->session_head_index - && db->session_head_index != EMPTY); - } - return; -} - -#ifdef CGSE_DS_LITE -extern dslite_table_entry_t dslite_table_array[]; - -void spp_api_ds_lite_clear_db_request_t_handler -(spp_api_ds_lite_clear_db_request_t *mp) -{ - u16 port, proto, flag; - u32 index; - u32 i; - cnat_main_db_entry_t *db; - cnat_user_db_entry_t *udb; - dslite_key_t ki; - dslite_table_entry_t *my_table_db_ptr; - u16 id; - u16 i_vrf; - - - id = spp_net_to_host_byte_order_16(&mp->ds_lite_id); - id = DS_LITE_CONFIG_TO_ARRAY_ID(id); - - my_table_db_ptr = &dslite_table_array[id]; - i_vrf = my_table_db_ptr->i_vrf; - - port = spp_net_to_host_byte_order_16(&mp->port_num); - proto = mp->protocol; - - ki.ipv4_key.k.vrf = i_vrf; - ki.ipv4_key.k.vrf |= ((u16)proto << CNAT_PRO_SHIFT); - - for(i =0 ; i< 4 ; i++) - ki.ipv6[i] = spp_net_to_host_byte_order_32(&mp->ip_addr[i]); - - ki.ipv4_key.k.port = port; - - flag = mp->flags; - - mp->rc = CNAT_SUCCESS; - - DSLITE_PRINTF(3, "\n dslite id = %d, port =%d" - "proto =%d, flags=0x%08X",\ - id, port, proto, flag); - - DSLITE_PRINTF(3, "\n IPv6 Addr = %08X : %08X: %08X: %08X",\ - ki.ipv6[0], ki.ipv6[1], ki.ipv6[2], ki.ipv6[3]); - - if (flag == CNAT_DB_CLEAR_SPECIFIC) { - DSLITE_PRINTF(3, "\n Clear specific NOT supported for DS Lite \n"); - return; - } - - pool_header_t *p = pool_header(cnat_main_db); - - for(index = 0; index < vec_len(cnat_main_db); index++) { - - /* check is it dslite entry, if not skip */ - - if (PREDICT_FALSE(!clib_bitmap_get(p->free_bitmap, index))) { - db = cnat_main_db + index; - - if( !(db->flags & CNAT_DB_DSLITE_FLAG) || - ((db->in2out_key.k.vrf & CNAT_VRF_MASK) != i_vrf) || - (db->flags & CNAT_DB_FLAG_STATIC_PORT)) { - continue; - } - - if (flag == CNAT_DB_CLEAR_ALL) { - - /* - * Make the entry time as very old (0), and wait - * for a timeout to auto-expire the entry. - */ - db->entry_expires = 0; - /* Handle sessions as well.. */ - cnat_clear_session_db(db); - continue; - } - - if (flag & CNAT_DB_CLEAR_ADDR) { - udb = cnat_user_db + db->user_index; - if(PREDICT_FALSE(!udb)) { - continue; - } - if ((udb->ipv6[0] != ki.ipv6[0]) || - (udb->ipv6[1] != ki.ipv6[1]) || - (udb->ipv6[2] != ki.ipv6[2]) || - (udb->ipv6[3] != ki.ipv6[3])) { - continue; - } - } - - if (flag & CNAT_DB_CLEAR_PROTO) { - if (((db->in2out_key.k.vrf & CNAT_PRO_MASK) >> CNAT_PRO_SHIFT) - != proto) { - continue; - } - } - - if (flag & CNAT_DB_CLEAR_PORT) { - if (db->in2out_key.k.port != port) { - continue; - } - } - - /* - * Mark for expiry in the next round of DB scan - */ - db->entry_expires = 0; - /* Handle sessions as well.. */ - cnat_clear_session_db(db); - } - } -} -#endif /* #ifdef CGSE_DS_LITE */ - -void spp_api_cnat_clear_db_request_t_handler -(spp_api_cnat_clear_db_request_t *mp) -{ - u16 i_vrf, port, proto, flag; - u32 ip_addr, index; - u64 a,b,c; - cnat_main_db_entry_t * db; - cnat_db_key_bucket_t ki; - -#if defined(TARGET_LINUX_UDVR) || defined(CNAT_PG) - i_vrf = mp->inside_vrf; - ip_addr = mp->ip_addr; - port = mp->port_num; - proto = mp->protocol; -#else - i_vrf = spp_net_to_host_byte_order_16(&mp->inside_vrf); - ip_addr = spp_net_to_host_byte_order_32(&mp->ip_addr); - port = spp_net_to_host_byte_order_16(&mp->port_num); - proto = spp_net_to_host_byte_order_16(&mp->protocol); -#endif - - - - ki.k.k.vrf = i_vrf; - ki.k.k.vrf |= ((u16)proto << CNAT_PRO_SHIFT); - ki.k.k.ipv4 = ip_addr; - ki.k.k.port = port; - - flag = mp->wildcard; - - mp->rc = CNAT_SUCCESS; - - if (flag == CNAT_DB_CLEAR_SPECIFIC) { - CNAT_V4_GET_HASH(ki.k.key64, - ki.bucket, - CNAT_MAIN_HASH_MASK); - index = cnat_in2out_hash[ki.bucket].next; - if (PREDICT_TRUE(index == EMPTY)) { - mp->rc = CNAT_NOT_FOUND_ANY; - return; - } - - do { - db = cnat_main_db + index; - - /* - * Delete if the db entry matches and it is not a - * STATIC port entry - */ - if ((db->in2out_key.key64 == ki.k.key64) && - !(db->flags & CNAT_DB_FLAG_STATIC_PORT) && - !(db->flags & CNAT_DB_NAT64_FLAG) && - !(db->flags & CNAT_DB_DSLITE_FLAG)) { - - /* - * Make the entry time as very old (0), and wait - * for a timeout to auto-expire the entry. - */ - db->entry_expires = 0; - /* Handle sessions as well.. */ - cnat_clear_session_db(db); - return; - } - index = db->in2out_hash.next; - } while (index != EMPTY); - - mp->rc = CNAT_NOT_FOUND_ANY; - return; - } - - pool_header_t *p = vec_header(cnat_main_db, sizeof(pool_header_t)); - - for(index = 0; index < vec_len(cnat_main_db); index++) { - - if (PREDICT_TRUE(!clib_bitmap_get(p->free_bitmap, index))) { - db = cnat_main_db + index; - - if(PREDICT_FALSE(db->flags & CNAT_DB_NAT64_FLAG)) { - continue; - } - - if(PREDICT_FALSE(db->flags & CNAT_DB_DSLITE_FLAG)) { - continue; - } - - if (flag == CNAT_DB_CLEAR_ALL) { - if (!(db->flags & CNAT_DB_FLAG_STATIC_PORT)) { - db->entry_expires = 0; - /* Handle sessions as well.. */ - cnat_clear_session_db(db); - } - continue; - } - - if (flag & CNAT_DB_CLEAR_VRF) { - if (((db->in2out_key.k.vrf & CNAT_VRF_MASK) != i_vrf)) { - continue; - } - } - - if (flag & CNAT_DB_CLEAR_ADDR) { - if ((db->in2out_key.k.ipv4 != ip_addr)) { - continue; - } - } - - if (flag & CNAT_DB_CLEAR_PROTO) { - if (((db->in2out_key.k.vrf & CNAT_PRO_MASK) >> CNAT_PRO_SHIFT) - != proto) { - continue; - } - } - - if (flag & CNAT_DB_CLEAR_PORT) { - if (db->in2out_key.k.port != port) { - continue; - } - } - - /* - * Delete if the db entry matches and it is not a - * STATIC port entry - */ - if (!(db->flags & CNAT_DB_FLAG_STATIC_PORT)) { - db->entry_expires = 0; - /* Handle sessions as well.. */ - cnat_clear_session_db(db); - } - } - } -} - -void -spp_api_cnat_generic_command_debug (cnat_generic_command_resp *mp_resp) -{ -#ifdef SHOW_DEBUG - u32 i, j; - - i = spp_net_to_host_byte_order_32(&(mp_resp->num_bytes)); - - PLATFORM_DEBUG_PRINT("\nNum_Bytes %d\n", i); - - for (j = 0; j < i; j++) { - PLATFORM_DEBUG_PRINT("0x%02X ", mp_resp->raw_data[j]); - if ((j % 16) == 15) { - PLATFORM_DEBUG_PRINT("\n"); - } - } -#endif -} - -/* - * The following commands implements command to dump the - * user-db information - * port-map information - * for a give user source IP address - * - * The format of the output is: - * Word 0: Address of udb - * Word 1: udb->translation_list_head_index - * Word 2: - * Bytes 0..1: udb->ntranslations - * Bytes 2..2: udb->icmp_msg_coung - * Bytes 3..3: udb->unused - * Word 3: udb->portmap_index - * Word 4: udb->key.k.ipv4 - * Word 5: - * Bytes 0..1: udb->key.k.port = 0 - * Bytes 2..3: udb->key.k.vrf - * Word 6: udb->user_hash - * Word 7: Address of my_pm - * Word 8: my_pm->status - * Word 9: my_pm->inuse - * Word A: my_pm->delete_time - * Word B: my_pm->ipv4_address - */ -void spp_api_cnat_generic_command_user_db_pm -(spp_api_cnat_generic_command_request_t *mp) -{ - u32 i; - cnat_db_key_bucket_t u_ki; - u16 my_vrfmap_index; - u32 *result_array; - cnat_generic_command_resp *mp_resp; - cnat_user_db_entry_t *udb; - cnat_user_db_entry_t *mp_udb; - cnat_vrfmap_t *my_vrfmap; - cnat_portmap_v2_t *pm; - cnat_portmap_v2_t *my_pm; - - /* - * Request structure is used to send the response - */ - mp_resp = (cnat_generic_command_resp *) mp; - - u_ki.k.k.vrf = spp_net_to_host_byte_order_32(&mp->params[1]); - u_ki.k.k.ipv4 = spp_net_to_host_byte_order_32(&mp->params[2]); - u_ki.k.k.port = 0; - - udb = cnat_user_db_lookup_entry(&u_ki); - - if (!udb) { - mp_resp->num_bytes = spp_host_to_net_byte_order_32(0); - goto no_udb_found; - } - - result_array = (u32 *) (&(mp_resp->raw_data[0])); - - i = 0; - result_array[i++] = spp_host_to_net_byte_order_32((u32) udb); - - mp_udb = (cnat_user_db_entry_t *) &(result_array[i]); - - /* - * Align the entry to the next 4 byte boundary - */ - i = i + ((sizeof(cnat_user_db_entry_t)+3)/4); - - /* - * Fill in the UDB information - */ - mp_udb->translation_list_head_index = - spp_host_to_net_byte_order_32(udb->translation_list_head_index); - mp_udb->ntranslations = - spp_host_to_net_byte_order_16(udb->ntranslations); - mp_udb->icmp_msg_count = udb->icmp_msg_count; - mp_udb->flags = udb->flags; - mp_udb->portmap_index = - spp_host_to_net_byte_order_32(udb->portmap_index); - mp_udb->key.k.ipv4 = - spp_host_to_net_byte_order_32(udb->key.k.ipv4); - mp_udb->key.k.port = - spp_host_to_net_byte_order_16(udb->key.k.port); - mp_udb->key.k.vrf = - spp_host_to_net_byte_order_16(udb->key.k.vrf); - mp_udb->user_hash.next = - spp_host_to_net_byte_order_32(udb->user_hash.next); - - my_vrfmap_index = vrf_map_array[u_ki.k.k.vrf]; - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; - pm = my_vrfmap->portmap_list; - my_pm = pm + udb->portmap_index; - - /* - * Fill in the port_map information - */ - result_array[i++] = spp_host_to_net_byte_order_32((u32) my_pm); - result_array[i++] = spp_host_to_net_byte_order_32(my_pm->inuse); - result_array[i++] = spp_host_to_net_byte_order_32(my_pm->delete_time); - result_array[i++] = spp_host_to_net_byte_order_32(my_pm->ipv4_address); - - mp_resp->num_bytes = spp_host_to_net_byte_order_32(i*4); - -no_udb_found: - spp_api_cnat_generic_command_debug(mp_resp); -} - -/* - * The following commands implements command to dump the - * DB usage stats for - * main-db - * user-db - * in2out hash - * out2in hash - * - * The format of the output is: - * Word 0: Main-DB - Total - * Word 1: Main-DB - Active - * Word 2: Main-DB - Free - * Word 3: User-DB - Total - * Word 4: User-DB - Active - * Word 5: User-DB - Free - * Word 6: Hash In2Out - Size - * Word 7: Hash In2Out - Used - * Word 8: Hash In2Out - Used Percentage - * Word 9: Hash Out2In - Size - * Word A: Hash Out2In - Used - * Word B: Hash Out2In - Used Percentage - */ -void spp_api_cnat_generic_command_db_summary -(spp_api_cnat_generic_command_request_t *mp) -{ - u32 count1, count2, count3; - u32 i = 0; - u32 k = 0; - cnat_generic_command_resp *mp_resp; - u32 *result_array; - - /* - * Request structure is used to send the response - */ - mp_resp = (cnat_generic_command_resp *) mp; - result_array = (u32 *) (&(mp_resp->raw_data[0])); - - /* - * Find entries free and used in main-db - */ - count1 = vec_len(cnat_main_db); - count2 = db_free_entry(cnat_main_db); - count3 = count1 - count2; - - *(result_array + i++) = spp_host_to_net_byte_order_32(count1); - *(result_array + i++) = spp_host_to_net_byte_order_32(count3); - *(result_array + i++) = spp_host_to_net_byte_order_32(count2); - - /* - * Find entries free and used in user-db - */ - count1 = vec_len(cnat_user_db); - count2 = db_free_entry(cnat_user_db); - count3 = count1 - count2; - - *(result_array + i++) = spp_host_to_net_byte_order_32(count1); - *(result_array + i++) = spp_host_to_net_byte_order_32(count3); - *(result_array + i++) = spp_host_to_net_byte_order_32(count2); - - /* - * Find entries used in in2out and out2in hash tables - * and percentage utilization. - */ - count1 = count2 = 0; - for (k = 0; k < CNAT_MAIN_HASH_SIZE; k++) { - if(cnat_in2out_hash[k].next != ~0) count1++; - if(cnat_out2in_hash[k].next != ~0) count2++; - - } - - count3 = count1*100/CNAT_MAIN_HASH_SIZE; - - *(result_array + i++) = spp_host_to_net_byte_order_32(CNAT_MAIN_HASH_SIZE); - *(result_array + i++) = spp_host_to_net_byte_order_32(count1); - *(result_array + i++) = spp_host_to_net_byte_order_32(count3); - - count3 = count2*100/CNAT_MAIN_HASH_SIZE; - - *(result_array + i++) = spp_host_to_net_byte_order_32(CNAT_MAIN_HASH_SIZE); - *(result_array + i++) = spp_host_to_net_byte_order_32(count2); - *(result_array + i++) = spp_host_to_net_byte_order_32(count3); - - mp_resp->num_bytes = spp_host_to_net_byte_order_32(i*4); - - spp_api_cnat_generic_command_debug(mp_resp); -} - -/* - * The following commands implements generic commands such as: - * - * Command 1: - * Reads num_bytes octets from a start_locn - * generic command <core_num> <cmd_type=1> <start_locn> <num_bytes> 0 0 0 0 0 - * - * Command 2: - * Writes upto 8 octets from a start_locn - * generic command <core_num> <cmd_type=2> <start_locn> <num_bytes> 0 0 0 0 0 - * - * Command 3: - * Dump the db summary stats - * generic command <core_num> <cmd_type=3> - * - * Command 4: - * Dump the user db entry - * generic command <core_num> <cmd_type=4> <vrf_id> <src_ip_addr> - * - * The following structures are referenced by this command: - * typedef struct _spp_api_cnat_generic_command_request { - * u16 _spp_msg_id; - * u8 rc; - * u8 core_num; - * u32 params[8]; - * } spp_api_cnat_generic_command_request_t; - * - * typedef struct { - * u16 spp_msg_id; - * u8 rc; - * u8 core; - * u32 num_bytes; - * u8 raw_data[0]; - * } cnat_generic_command_resp; - * - */ -void spp_api_cnat_generic_command_request_t_handler -(spp_api_cnat_generic_command_request_t *mp) -{ - cnat_generic_command_resp *resp_ptr; - u32 command_type, start_locn, num_bytes; - - command_type = spp_net_to_host_byte_order_32(&mp->params[0]); - resp_ptr = (cnat_generic_command_resp *) mp; - - switch (command_type) { - case CNAT_DEBUG_GENERIC_COMMAND_READ_MEM: - start_locn = spp_net_to_host_byte_order_32(&mp->params[1]); - num_bytes = spp_net_to_host_byte_order_32(&mp->params[2]); - clib_memcpy(&(resp_ptr->raw_data[0]), (u8 *) start_locn, num_bytes); - resp_ptr->num_bytes = spp_host_to_net_byte_order_32(num_bytes); - -#ifdef SHOW_DEBUG - { - u32 i; - - for (i = 0; i < num_bytes; i++) { - PLATFORM_DEBUG_PRINT("0x%02X ", resp_ptr->raw_data[i]); - if ((i % 16) == 15) { - PLATFORM_DEBUG_PRINT("\n"); - } - } - } -#endif - break; - - case CNAT_DEBUG_GENERIC_COMMAND_WRITE_MEM: - start_locn = spp_net_to_host_byte_order_32(&mp->params[1]); - num_bytes = spp_net_to_host_byte_order_32(&mp->params[2]); - - if (num_bytes > sizeof(u64)) { - mp->rc = CNAT_ERR_INVALID_MSG_SIZE; - return; - } - - clib_memcpy((u8 *) start_locn, &(mp->params[3]), num_bytes); - resp_ptr->num_bytes = 0; - break; - - case CNAT_DEBUG_GENERIC_COMMAND_DB_SUMMARY: - spp_api_cnat_generic_command_db_summary(mp); - break; - - case CNAT_DEBUG_GENERIC_COMMAND_USER_DB_PM: - spp_api_cnat_generic_command_user_db_pm(mp); - break; - - case CNAT_DEBUG_GET_CGN_DB_SUMMARY: - spp_api_cnat_get_cgn_db_summary(mp); - break; - - default: - mp->rc = CNAT_ERR_INVALID_MSG_ID; - break; - } -} - - -static int cnat_debug_init (void *notused) -{ - spp_msg_api_set_handler(SPP_API_CNAT_V4_DEBUG_DUMMY, - spp_api_cnat_v4_debug_dummy_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_V4_DEBUG_DUMMY_MAX, - spp_api_cnat_v4_debug_dummy_max_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_V4_DEBUG_GLOBAL, - spp_api_cnat_v4_debug_global_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_V4_DEBUG_IN2OUT_PRIVATE_ADDR, - spp_api_cnat_v4_debug_in2out_private_addr_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_V4_DEBUG_OUT2IN_PUBLIC_ADDR, - spp_api_cnat_v4_debug_out2in_public_addr_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_CLEAR_DB_REQUEST, - spp_api_cnat_clear_db_request_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_GENERIC_COMMAND_REQUEST, - spp_api_cnat_generic_command_request_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_P2MP_DEBUG_REQUEST, - spp_api_cnat_p2mp_debug_request_t_handler); - - spp_msg_api_set_handler(SPP_API_NAT64_CLEAR_DB_REQUEST, - spp_api_nat64_clear_db_request_t_handler); - - spp_msg_api_set_handler(SPP_API_DS_LITE_CLEAR_DB_REQUEST, - spp_api_ds_lite_clear_db_request_t_handler); - - return 0; -} - -/* -************************ -* spp_api_cnat_get_cgn_db_summary -* This is for finding out the per core CPU users and utilization -************************ -*/ - -void spp_api_cnat_get_cgn_db_summary -(spp_api_cnat_generic_command_request_t *mp) -{ - u32 total_db_entries, total_free_entries, used_entries; - u32 i = 0; - cnat_generic_command_resp *mp_resp; - u32 *result_array; - - /* - * Request structure is used to send the response - */ - mp_resp = (cnat_generic_command_resp *) mp; - result_array = (u32 *) (&(mp_resp->raw_data[0])); - - /* - * Find entries free and used in main-db - */ - total_db_entries = vec_len(cnat_main_db); - total_free_entries = db_free_entry(cnat_main_db); - used_entries = total_db_entries - total_free_entries; - - *(result_array + i++) = spp_host_to_net_byte_order_32(total_db_entries); - *(result_array + i++) = spp_host_to_net_byte_order_32(used_entries); - *(result_array + i++) = spp_host_to_net_byte_order_32(total_free_entries); - - /* - * Find entries free and used in user-db - */ - total_db_entries = vec_len(cnat_user_db); - total_free_entries = db_free_entry(cnat_user_db); - used_entries = total_db_entries - total_free_entries; - - *(result_array + i++) = spp_host_to_net_byte_order_32(total_db_entries); - *(result_array + i++) = spp_host_to_net_byte_order_32(used_entries); - *(result_array + i++) = spp_host_to_net_byte_order_32(total_free_entries); - - mp_resp->num_bytes = spp_host_to_net_byte_order_32(i*sizeof(u32)); -} - -SPP_INIT_FUNCTION(cnat_debug_init); -#endif /* TOBE_PORTED */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_global.c b/plugins/vcgn-plugin/vcgn/cnat_global.c deleted file mode 100644 index 7177083466e..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_global.c +++ /dev/null @@ -1,79 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_global.c - global variables - * - * Copyright (c) 2008-2009, 2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -/* gloable variables */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "dslite_defs.h" -#include "tcp_header_definitions.h" -u32 cnat_current_time; -u8 nfv9_configured = 0; -/* ctx/sf alloc error counters */ -u32 null_enq_pkt; -u32 null_deq_pkt; - -u32 null_enq_ctx; -u32 null_deq_ctx; - -u32 null_enq_wqe; -u32 null_deq_wqe; - -u32 ctx_alloc_errs; -u32 sf_alloc_errs; - -u32 rcv_pkt_errs; - -/* TOBE_PORTED : Remove following once we bring DSLite */ -u32 dslite_config_debug_level = 1; -u32 dslite_data_path_debug_level = 1; -u32 dslite_defrag_debug_level = 1; -u32 dslite_debug_level = 1; - -dslite_table_entry_t *dslite_table_db_ptr; - -/* - * ipv4_decr_ttl_n_calc_csum() - * - It decrements the TTL and calculates the incremental IPv4 checksum - */ - -/* TOBE_PORTED: Following is in cnat_util.c */ -always_inline __attribute__((unused)) -void ipv4_decr_ttl_n_calc_csum(ipv4_header *ipv4) -{ - u32 checksum; - u16 old; - u16 ttl; - - ttl = ipv4->ttl; - old = clib_net_to_host_u16(ttl); - - /* Decrement TTL */ - ipv4->ttl--; - - /* Calculate incremental checksum */ - checksum = old + (~clib_net_to_host_u16(ttl) & 0xFFFF); - checksum += clib_net_to_host_u16(ipv4->checksum); - checksum = (checksum & 0xFFFF) + (checksum >> 16); - ipv4->checksum = clib_host_to_net_u32(checksum + (checksum >> 16)); -} - diff --git a/plugins/vcgn-plugin/vcgn/cnat_global.h b/plugins/vcgn-plugin/vcgn/cnat_global.h deleted file mode 100644 index 823a47974d4..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_global.h +++ /dev/null @@ -1,87 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_global.h - global definition and variables - * to be used by non cnat files - * - * Copyright (c) 2007-2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_GLOBAL_H__ -#define __CNAT_GLOBAL_H__ - -/* gloable variables */ - -extern u8 cnat_db_init_done; -extern u32 cnat_current_time; -extern u64 in2out_drops_port_limit_exceeded; -extern u64 in2out_drops_system_limit_reached; -extern u64 in2out_drops_resource_depletion; -extern u64 no_translation_entry_drops; -extern u8 nfv9_configured; -extern u32 translation_create_count; -extern u32 translation_create_rate; - -extern u32 translation_delete_count; -extern u32 translation_delete_rate; - -extern u32 in2out_forwarding_count; -extern u32 in2out_forwarding_rate; - -extern u32 out2in_forwarding_count; -extern u32 out2in_forwarding_rate; - -extern u32 total_address_pool_allocated; - -extern u32 nat44_active_translations; - -#if 1 //DSLITE_DEF -extern u32 dslite_translation_create_rate; -extern u32 dslite_translation_delete_rate; -extern u32 dslite_translation_create_count; -extern u32 dslite_in2out_forwarding_count; -extern u32 dslite_in2out_forwarding_count; -extern u32 dslite_out2in_forwarding_rate; -#endif -/* sf/ctx allocation error collection declarations */ -#define COLLECT_FREQ_FACTOR 100 -#define NUM_SECONDS_TO_WAIT 10 -#define COUNTER_BUFFER_SIZE 25 - -extern u32 null_enq_pkt; -extern u32 null_deq_pkt; - -extern u32 null_enq_ctx; -extern u32 null_deq_ctx; - -extern u32 null_enq_wqe; -extern u32 null_deq_wqe; - -extern u32 ctx_alloc_errs; -extern u32 sf_alloc_errs; - -extern u32 rcv_pkt_errs; - -struct counter_array_t { - u32 sf_error_counter; - u32 ctx_error_counter; - u32 timestamp; -} counter_array_t; - -#define COUNTER_BUFFER_SIZE 25 -struct counter_array_t err_cnt_arr[COUNTER_BUFFER_SIZE]; - -//#define DISABLE_ICMP_THROTTLE_FOR_DEBUG_PURPOSE - -#endif /*__CNAT_GLOBAL_H__*/ diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp.h b/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp.h deleted file mode 100644 index 664b62ac3dc..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp.h +++ /dev/null @@ -1,60 +0,0 @@ -/* - *----------------------------------------------------------------------------- - * - * Filename: cnat_ipv4_icmp.h - * - * Description: common functions for icmp node - * - * Assumptions and Constraints: - * - * Copyright (c) 2000-2009, 2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *----------------------------------------------------------------------------- - */ - -#ifndef __CNAT_IPV4_ICMP_H__ -#define __CNAT_IPV4_ICMP_H__ - -#include "tcp_header_definitions.h" -#include "cnat_db.h" -#include "cnat_v4_functions.h" -#include "cnat_global.h" -#include "cnat_config.h" - -typedef struct { - icmp_v4_t *icmp; - ipv4_header *em_ip; - u16 *em_port; - u16 *em_l4_checksum; -} icmp_em_ip_info; - -extern void swap_ip_src_icmp_id(ipv4_header *ip, - icmp_v4_t *icmp, - cnat_main_db_entry_t *db, - u16 vrf); - -extern void swap_ip_dst_icmp_id(ipv4_header *ip, - icmp_v4_t *icmp, - cnat_main_db_entry_t *db, - u16 vrf); - -extern void swap_ip_src_emip_dst(ipv4_header *ip, - icmp_em_ip_info *icmp_info, - cnat_main_db_entry_t *db, u16 vrf); - -extern void swap_ip_dst_emip_src(ipv4_header *ip, - icmp_em_ip_info *icmp_info, - cnat_main_db_entry_t *db, u16 vrf); - - -#endif /* __CNAT_IPV4_ICMP_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_error_inside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_error_inside_input.c deleted file mode 100644 index 218d7e538fa..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_error_inside_input.c +++ /dev/null @@ -1,476 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_icmp_error_inside_input.c - cnat_ipv4_icmp_error_inside_input node pipeline stage functions - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_ipv4_icmp.h" - -#define foreach_cnat_ipv4_icmp_e_inside_input_error \ -_(CNAT_V4_ICMP_E_I2O_T_PKT, "cnat v4 icmp_e i2o packet transmit") \ -_(CNAT_V4_ICMP_E_I2O_D_PKT, "cnat v4 icmp_e i2o packet drop") \ -_(CNAT_V4_ICMP_E_I2O_TTL_DROP, "cnat v4 icmp_e i2o ttl drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_icmp_e_inside_input_error -#undef _ - CNAT_IPV4_ICMP_E_INSIDE_INPUT_N_ERROR, -} cnat_ipv4_icmp_e_inside_input_t; - -static char * cnat_ipv4_icmp_e_inside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_icmp_e_inside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_icmp_e_inside_input_main_t; - -typedef enum { - CNAT_V4_ICMP_E_I2O_T, - CNAT_V4_ICMP_E_I2O_D, - CNAT_V4_ICMP_E_I2O_NEXT, -} cnat_ipv4_icmp_e_inside_input_next_t; - -cnat_ipv4_icmp_e_inside_input_main_t cnat_ipv4_icmp_e_inside_input_main; -vlib_node_registration_t cnat_ipv4_icmp_e_inside_input_node; - -#define NSTAGES 5 - -inline void swap_ip_src_emip_dst(ipv4_header *ip, - icmp_em_ip_info *icmp_info, - cnat_main_db_entry_t *db, u16 vrf) -{ - icmp_v4_t *icmp; - ipv4_header *em_ip; - u16 *em_port; - u32 old_ip; - u16 old_port; - u16 old_ip_checksum; - - /* - * declear variable - */ - CNAT_UPDATE_L3_CHECKSUM_DECLARE - CNAT_UPDATE_ICMP_ERR_CHECKSUM_DECLARE - - /* - * fix inner layer ip & l4 checksum - */ - em_ip = icmp_info->em_ip; - em_port = icmp_info->em_port; - - CNAT_UPDATE_L3_CHECKSUM(((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16)), - (clib_net_to_host_u16(em_ip->checksum)), - ((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16))) - - old_ip = clib_net_to_host_u32(em_ip->dest_addr); - old_port = clib_net_to_host_u16(*em_port); - old_ip_checksum = clib_net_to_host_u16(em_ip->checksum); - - em_ip->dest_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - em_ip->checksum = - clib_host_to_net_u16(new_l3_c); - *em_port = - clib_host_to_net_u16(db->out2in_key.k.port); - - /* - * fix outter layer ip & icmp checksum - */ - icmp = icmp_info->icmp; - CNAT_UPDATE_ICMP_ERR_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (old_port), - (old_ip_checksum), - (clib_net_to_host_u16(icmp->checksum)), - ((u16)(db->out2in_key.k.ipv4 & 0xffff)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - ((u16)(db->out2in_key.k.port)), - ((u16)(new_l3_c))) - - icmp->checksum = - clib_host_to_net_u16(new_icmp_c); - - old_ip = clib_net_to_host_u32(ip->src_addr); - - ip->src_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (clib_net_to_host_u16(ip->checksum)), - ((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16))) - ip->checksum = - clib_host_to_net_u16(new_l3_c); - -#if 0 - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - /* - * fix inner layer ip & l4 checksum - */ - em_snat_ip = icmp_info->em_ip; - em_snat_port = icmp_info->em_port; - - old_ip = spp_net_to_host_byte_order_32(&(em_snat_ip->src_addr)); - old_port = spp_net_to_host_byte_order_16(em_snat_port); - old_ip_checksum = spp_net_to_host_byte_order_16(&(em_snat_ip->checksum)); - direction = 0; - if(cnat_static_dest_db_get_translation(em_snat_ip->src_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(em_snat_ip->checksum))), - ((u16)(old_postmap_ip)), - ((u16)(old_postmap_ip >> 16))) - em_snat_ip->src_addr = postmap_ip; - em_snat_ip->checksum = - spp_host_to_net_byte_order_16(new_l3_c); - - /* - * fix outter layer ip & icmp checksum - */ - icmp = icmp_info->icmp; - CNAT_UPDATE_ICMP_ERR_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (old_port), - (old_ip_checksum), - (spp_net_to_host_byte_order_16(&(icmp->checksum))), - ((u16)(old_postmap_ip & 0xffff)), - ((u16)(old_postmap_ip >> 16)), - ((u16)(old_port)), - ((u16)(new_l3_c))) - - icmp->checksum = - spp_host_to_net_byte_order_16(new_icmp_c); - - } - } - - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - direction = 0; - if(cnat_static_dest_db_get_translation(ip->dest_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - - old_ip = spp_net_to_host_byte_order_32(&(ip->dest_addr)); - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(ip->checksum))), - ((u16)(old_postmap_ip & 0xFFFF)), - ((u16)(old_postmap_ip >> 16))) - ip->dest_addr = postmap_ip; - - ip->checksum = - clib_host_to_net_u16(new_l3_c); - } - } -#endif /* if 0 */ - -} - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - ipv4_header *em_ip = (ipv4_header*)((u8*)icmp + 8); /* embedded pkt's v4 hdr */ - u8 em_ip_hdr_len = (em_ip->version_hdr_len_words & 0xf) << 2; - - u64 tmp = 0; - u32 protocol = CNAT_ICMP; - - /* Check L4 header for embedded packet */ - if (em_ip->protocol == TCP_PROT) { - tcp_hdr_type *tcp = (tcp_hdr_type*)((u8 *)em_ip + em_ip_hdr_len); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16(tcp->dest_port); - protocol = CNAT_TCP; - - } else if (em_ip->protocol == UDP_PROT) { - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8 *)em_ip + em_ip_hdr_len); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16(udp->dest_port); - protocol = CNAT_UDP; - - } else { - icmp_v4_t *icmp = (icmp_v4_t*)((u8 *)em_ip + em_ip_hdr_len); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16(icmp->identifier); - - if (PREDICT_FALSE((icmp->type != ICMPV4_ECHOREPLY) && - (icmp->type != ICMPV4_ECHO))) { - /* - * Try to set invalid protocol for these cases, so that - * hash lookup does not return valid main_db. This approach - * may optimize the regular cases with valid protocols - * as it avoids one more check for regular cases in stage3 - */ - protocol = CNAT_INVALID_PROTO; - } - } - - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(em_ip->dest_addr); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - protocol) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_in2out_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_in2out_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, LOAD); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, LOAD); - } - } -} - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->in2out_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->in2out_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - - - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - int disposition = CNAT_V4_ICMP_E_I2O_T; - int counter = CNAT_V4_ICMP_E_I2O_T_PKT; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - ipv4_header *em_ip = (ipv4_header*)((u8*)icmp + 8); /* embedded pkt's v4 hdr */ - u8 em_ip_hdr_len = (em_ip->version_hdr_len_words & 0xf) << 2; - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_icmp_e_inside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_main_db_entry_t *db = NULL; - icmp_em_ip_info icmp_info; - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - if (PREDICT_FALSE(ip->ttl <= 1)) { - /* - * As it is ICMP error packet with TTL <= 1, - * let's drop the packet (no need to genereate - * another ICMP error). - */ - - disposition = CNAT_V4_ICMP_E_I2O_D; - counter = CNAT_V4_ICMP_E_I2O_TTL_DROP; - - goto drop_pkt; - } - } - - if (PREDICT_TRUE(db_index != EMPTY)) { - icmp_info.em_ip = em_ip; - icmp_info.icmp = icmp; - //icmp_info.em_port = vnet_buffer(b0)->vcgn_uii.key.k.port; - - /* Note: This could have been done in stage1 itself, - * but we need to introduce one u16 * in vnet_buffer_opaque_t - * Since this flow is expected to be very rare in actual - * deployment scenario, we may afford to do these steps here - * as well. Lets confirm during core review. */ - if (em_ip->protocol == TCP_PROT) { - tcp_hdr_type *tcp = (tcp_hdr_type*)((u8 *)em_ip + em_ip_hdr_len); - icmp_info.em_port = &(tcp->dest_port); - } else if (em_ip->protocol == UDP_PROT) { - udp_hdr_type_t *udp = (udp_hdr_type_t *) - ((u8 *)em_ip + em_ip_hdr_len); - icmp_info.em_port = &(udp->dest_port); - } else { - icmp_v4_t *icmp_inner = (icmp_v4_t*)((u8 *)em_ip + em_ip_hdr_len); - icmp_info.em_port = &(icmp_inner->identifier); - } - - db = cnat_main_db + db_index; - /* - * 1. update dst addr:dst port of embedded ip pkt - * update src addr of icmp pkt - * 2. fix udp/tcp/ip checksum of embedded pkt - * fix icmp, ip check of icmp pkt - * don need to update the timer - */ - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT BEFORE\n"); - print_icmp_pkt(ip); - } - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - swap_ip_src_emip_dst(ip, &icmp_info, - db, db->in2out_key.k.vrf); - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT AFTER\n"); - print_icmp_pkt(ip); - } - in2out_forwarding_count++; - - } else { - disposition = CNAT_V4_ICMP_E_I2O_D; - counter = CNAT_V4_ICMP_E_I2O_D_PKT; - } - -drop_pkt: - - em->counters[node_counter_base_index + counter] += 1; - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_icmp_e_inside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_icmp_e_inside_input_node) = { - .function = cnat_ipv4_icmp_e_inside_input_node_fn, - .name = "vcgn-v4-icmp-e-i2o", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_icmp_e_inside_input_error_strings), - .error_strings = cnat_ipv4_icmp_e_inside_input_error_strings, - - .n_next_nodes = CNAT_V4_ICMP_E_I2O_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_ICMP_E_I2O_T] = "ip4-input", - [CNAT_V4_ICMP_E_I2O_D] = "error-drop", - }, -}; - -clib_error_t *cnat_ipv4_icmp_e_inside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_icmp_e_inside_input_main_t * mp = &cnat_ipv4_icmp_e_inside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_icmp_e_inside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_error_outside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_error_outside_input.c deleted file mode 100644 index f25f4d022c7..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_error_outside_input.c +++ /dev/null @@ -1,452 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_icmp_error_outside_input.c - cnat_ipv4_icmp_error_outside_input node pipeline stage functions - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_ipv4_icmp.h" - -#define foreach_cnat_ipv4_icmp_e_outside_input_error \ -_(CNAT_V4_ICMP_E_O2I_T_PKT, "cnat v4 icmp_e o2i packet transmit") \ -_(CNAT_V4_ICMP_E_O2I_D_PKT, "cnat v4 icmp_e o2i packet drop") \ -_(CNAT_V4_ICMP_E_O2I_TTL_DROP, "cnat v4 icmp_e o2i ttl drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_icmp_e_outside_input_error -#undef _ - CNAT_IPV4_ICMP_E_OUTSIDE_INPUT_N_ERROR, -} cnat_ipv4_icmp_e_outside_input_t; - -static char * cnat_ipv4_icmp_e_outside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_icmp_e_outside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_icmp_e_outside_input_main_t; - -typedef enum { - CNAT_V4_ICMP_E_O2I_T, - CNAT_V4_ICMP_E_O2I_D, - CNAT_V4_ICMP_E_O2I_NEXT, -} cnat_ipv4_icmp_e_outside_input_next_t; - -cnat_ipv4_icmp_e_outside_input_main_t cnat_ipv4_icmp_e_outside_input_main; -vlib_node_registration_t cnat_ipv4_icmp_e_outside_input_node; - -#define NSTAGES 5 - -inline void swap_ip_dst_emip_src(ipv4_header *ip, - icmp_em_ip_info *icmp_info, - cnat_main_db_entry_t *db, u16 vrf) -{ - icmp_v4_t *icmp; - ipv4_header *em_ip; - u16 *em_port; - u32 old_ip; - u16 old_port; - u16 old_ip_checksum; - - /* - * declear variable - */ - CNAT_UPDATE_L3_CHECKSUM_DECLARE - CNAT_UPDATE_ICMP_ERR_CHECKSUM_DECLARE - - /* - * fix inner layer ip & l4 checksum - */ - em_ip = icmp_info->em_ip; - em_port = icmp_info->em_port; - - CNAT_UPDATE_L3_CHECKSUM(((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - (clib_net_to_host_u16(em_ip->checksum)), - ((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16))) - - old_ip = clib_net_to_host_u32(em_ip->src_addr); - old_port = clib_net_to_host_u16(*em_port); - old_ip_checksum = clib_net_to_host_u16(em_ip->checksum); - - em_ip->src_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - em_ip->checksum = - clib_host_to_net_u16(new_l3_c); - *em_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - /* - * fix outter layer ip & icmp checksum - */ - icmp = icmp_info->icmp; - CNAT_UPDATE_ICMP_ERR_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (old_port), - (old_ip_checksum), - (clib_net_to_host_u16(icmp->checksum)), - ((u16)(db->in2out_key.k.ipv4 & 0xffff)), - ((u16)(db->in2out_key.k.ipv4 >> 16)), - ((u16)(db->in2out_key.k.port)), - ((u16)(new_l3_c))) - - icmp->checksum = - clib_host_to_net_u16(new_icmp_c); - - old_ip = clib_net_to_host_u32(ip->dest_addr); - - ip->dest_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (clib_net_to_host_u16(ip->checksum)), - ((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16))) - ip->checksum = - clib_host_to_net_u16(new_l3_c); - -#if 0 - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - /* - * fix inner layer ip & l4 checksum - */ - em_snat_ip = icmp_info->em_ip; - em_snat_port = icmp_info->em_port; - - old_ip = spp_net_to_host_byte_order_32(&(em_snat_ip->dest_addr)); - old_port = spp_net_to_host_byte_order_16(em_snat_port); - old_ip_checksum = spp_net_to_host_byte_order_16(&(em_snat_ip->checksum)); - direction = 1; - if(cnat_static_dest_db_get_translation(em_snat_ip->dest_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(em_snat_ip->checksum))), - ((u16)(old_postmap_ip)), - ((u16)(old_postmap_ip >> 16))) - em_snat_ip->dest_addr = postmap_ip; - em_snat_ip->checksum = - spp_host_to_net_byte_order_16(new_l3_c); - - /* - * fix outter layer ip & icmp checksum - */ - icmp = icmp_info->icmp; - CNAT_UPDATE_ICMP_ERR_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (old_port), - (old_ip_checksum), - (spp_net_to_host_byte_order_16(&(icmp->checksum))), - ((u16)(old_postmap_ip & 0xffff)), - ((u16)(old_postmap_ip >> 16)), - ((u16)(old_port)), - ((u16)(new_l3_c))) - - icmp->checksum = - spp_host_to_net_byte_order_16(new_icmp_c); - - } - } - - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - direction = 1; - if(cnat_static_dest_db_get_translation(ip->src_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - CNAT_UPDATE_L3_CHECKSUM_DECLARE - - old_ip = spp_net_to_host_byte_order_32(&(ip->src_addr)); - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(ip->checksum))), - ((u16)(old_postmap_ip & 0xFFFF)), - ((u16)(old_postmap_ip >> 16))) - ip->checksum = - spp_host_to_net_byte_order_16(new_l3_c); - ip->src_addr = postmap_ip; - } - } -#endif /* if 0 */ -} - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - ipv4_header *em_ip = (ipv4_header*)((u8*)icmp + 8); /* embedded pkt's v4 hdr */ - u8 em_ip_hdr_len = (em_ip->version_hdr_len_words & 0xf) << 2; - - u64 tmp = 0; - u32 protocol = CNAT_ICMP; - - /* Check L4 header for embedded packet */ - if (em_ip->protocol == TCP_PROT) { - tcp_hdr_type *tcp = (tcp_hdr_type*)((u8 *)em_ip + em_ip_hdr_len); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16(tcp->src_port); - protocol = CNAT_TCP; - - } else if (em_ip->protocol == UDP_PROT) { - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8 *)em_ip + em_ip_hdr_len); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16(udp->src_port); - protocol = CNAT_UDP; - - } else { - icmp_v4_t *icmp = (icmp_v4_t*)((u8 *)em_ip + em_ip_hdr_len); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16(icmp->identifier); - - if (PREDICT_FALSE((icmp->type != ICMPV4_ECHOREPLY) && - (icmp->type != ICMPV4_ECHO))) { - /* - * Try to set invalid protocol for these cases, so that - * hash lookup does not return valid main_db. This approach - * may optimize the regular cases with valid protocols - * as it avoids one more check for regular cases in stage3 - */ - protocol = CNAT_INVALID_PROTO; - } - } - - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(em_ip->src_addr); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - protocol) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_out2in_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_out2in_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, LOAD); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, LOAD); - } - } -} - - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->out2in_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->out2in_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - int disposition = CNAT_V4_ICMP_E_O2I_T; - int counter = CNAT_V4_ICMP_E_O2I_T_PKT; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - ipv4_header *em_ip = (ipv4_header*)((u8*)icmp + 8); /* embedded pkt's v4 hdr */ - u8 em_ip_hdr_len = (em_ip->version_hdr_len_words & 0xf) << 2; - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_icmp_e_outside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_main_db_entry_t *db = NULL; - icmp_em_ip_info icmp_info; - - - if (PREDICT_TRUE(db_index != EMPTY)) { - - icmp_info.em_ip = em_ip; - icmp_info.icmp = icmp; - - /* Note: This could have been done in stage1 itself, - * but we need to introduce one u16 * in vnet_buffer_opaque_t - * Since this flow is expected to be very rare in actual - * deployment scenario, we may afford to do these steps here - * as well. Lets confirm during core review. */ - - if (em_ip->protocol == TCP_PROT) { - tcp_hdr_type *tcp = (tcp_hdr_type*)((u8 *)em_ip + em_ip_hdr_len); - icmp_info.em_port = &(tcp->src_port); - } else if (em_ip->protocol == UDP_PROT) { - udp_hdr_type_t *udp = (udp_hdr_type_t *) - ((u8 *)em_ip + em_ip_hdr_len); - icmp_info.em_port = &(udp->src_port); - } else { - icmp_v4_t *icmp_inner = (icmp_v4_t*)((u8 *)em_ip + em_ip_hdr_len); - icmp_info.em_port = &(icmp_inner->identifier); - } - - db = cnat_main_db + db_index; - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT BEFORE\n"); - print_icmp_pkt(ip); - } - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - swap_ip_dst_emip_src(ip, &icmp_info, - db, db->in2out_key.k.vrf); - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT AFTER\n"); - print_icmp_pkt(ip); - } - - } else { - disposition = CNAT_V4_ICMP_E_O2I_D; - counter = CNAT_V4_ICMP_E_O2I_D_PKT; - } - - em->counters[node_counter_base_index + counter] += 1; - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_icmp_e_outside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_icmp_e_outside_input_node) = { - .function = cnat_ipv4_icmp_e_outside_input_node_fn, - .name = "vcgn-v4-icmp-e-o2i", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_icmp_e_outside_input_error_strings), - .error_strings = cnat_ipv4_icmp_e_outside_input_error_strings, - - .n_next_nodes = CNAT_V4_ICMP_E_O2I_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_ICMP_E_O2I_T] = "ip4-input", - [CNAT_V4_ICMP_E_O2I_D] = "error-drop", - }, -}; - -clib_error_t *cnat_ipv4_icmp_e_outside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_icmp_e_outside_input_main_t * mp = &cnat_ipv4_icmp_e_outside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_icmp_e_outside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_inside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_inside_input.c deleted file mode 100644 index 1b9f0266d71..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_inside_input.c +++ /dev/null @@ -1,404 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_icmp_query_inside_input.c - cnat_ipv4_icmp_query_inside_input node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_ipv4_icmp.h" - -#define foreach_cnat_ipv4_icmp_q_inside_input_error \ -_(CNAT_V4_ICMP_Q_I2O_T_PKT, "cnat v4 icmp_q i2o packet transmit") \ -_(CNAT_V4_ICMP_Q_I2O_MISS_PKT, "cnat v4 icmp_q i2o db miss") \ -_(CNAT_V4_ICMP_Q_I2O_TTL_GEN, "cnat v4 icmp_q i2o ttl generate") \ -_(CNAT_V4_ICMP_Q_I2O_TTL_DROP, "cnat v4 icmp_q i2o ttl drop") \ -_(CNAT_V4_ICMP_Q_I2O_NO_SESSION_DROP, "cnat v4 icmp_q i2o no session drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_icmp_q_inside_input_error -#undef _ - CNAT_IPV4_ICMP_Q_INSIDE_INPUT_N_ERROR, -} cnat_ipv4_icmp_q_inside_input_t; - -static char * cnat_ipv4_icmp_q_inside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_icmp_q_inside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_icmp_q_inside_input_main_t; - -typedef enum { - CNAT_V4_ICMP_Q_I2O_T, - CNAT_V4_ICMP_Q_I2O_E, - CNAT_V4_ICMP_Q_I2O_D, - CNAT_V4_ICMP_Q_I2O_NEXT, -} cnat_ipv4_icmp_q_inside_input_next_t; - -cnat_ipv4_icmp_q_inside_input_main_t cnat_ipv4_icmp_q_inside_input_main; -vlib_node_registration_t cnat_ipv4_icmp_q_inside_input_node; - -#define NSTAGES 5 - -inline void swap_ip_src_icmp_id(ipv4_header *ip, - icmp_v4_t *icmp, - cnat_main_db_entry_t *db, u16 vrf) -{ -#if 0 - u32 postmap_ip; - u8 direction; - u32 old_ip; - u32 old_postmap_ip; - - - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - direction = 0; - if(cnat_static_dest_db_get_translation(ip->dest_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - CNAT_UPDATE_L3_CHECKSUM_DECLARE - - old_ip = spp_net_to_host_byte_order_32(&(ip->dest_addr)); - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(ip->checksum))), - ((u16)(old_postmap_ip & 0xFFFF)), - ((u16)(old_postmap_ip >> 16))) - ip->dest_addr = postmap_ip; - - ip->checksum = - spp_host_to_net_byte_order_16(new_l3_c); - } - } -#endif /* if 0 */ - /* - * declare variable - */ - CNAT_UPDATE_L3_L4_CHECKSUM_DECLARE - /* - * calculate checksum - */ - CNAT_UPDATE_L3_ICMP_CHECKSUM(((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16)), - (db->in2out_key.k.port), - (clib_net_to_host_u16(ip->checksum)), - (clib_net_to_host_u16(icmp->checksum)), - ((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - (db->out2in_key.k.port)) - //set ip header - ip->src_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - ip->checksum = - clib_host_to_net_u16(new_l3_c); - - //set icmp header - icmp->identifier = - clib_host_to_net_u16(db->out2in_key.k.port); - icmp->checksum = - clib_host_to_net_u16(new_l4_c); -} - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - - u64 tmp = 0; - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(ip->src_addr); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16 (icmp->identifier); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_ICMP) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_in2out_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_in2out_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, LOAD); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, LOAD); - } - } -} - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->in2out_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->in2out_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - spp_ctx_t *ctx = (spp_ctx_t *) &vnet_buffer(b0)->vcgn_uii; - int disposition = CNAT_V4_ICMP_Q_I2O_T; - int counter = CNAT_V4_ICMP_Q_I2O_T_PKT; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_icmp_q_inside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_session_entry_t *session_db = NULL; - cnat_main_db_entry_t *db = NULL; - cnat_key_t dest_info; - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - if (PREDICT_FALSE(ip->ttl <= 1)) { - /* Try to generate ICMP error msg, as TTL is <= 1 */ - - if (icmpv4_generate_with_throttling - (ctx, ip, ctx->ru.rx.uidb_index)) { - - /* Generated ICMP */ - disposition = CNAT_V4_ICMP_Q_I2O_T; - counter = CNAT_V4_ICMP_Q_I2O_TTL_GEN; - } else { - /* Could not generated ICMP - drop the packet */ - disposition = CNAT_V4_ICMP_Q_I2O_D; - counter = CNAT_V4_ICMP_Q_I2O_TTL_DROP; - } - goto drop_pkt; - } - } - - if (PREDICT_TRUE(db_index != EMPTY)) { - db = cnat_main_db + db_index; - dest_info.k.port = 0; - dest_info.k.ipv4 = clib_net_to_host_u32(ip->dest_addr); - - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - goto update_pkt; - } - - if(PREDICT_FALSE(db->dst_ipv4 != dest_info.k.ipv4)) { - if(PREDICT_TRUE(db->nsessions == 1)) { - /* Handle one to 2 dest scenarion */ - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_ICMP_Q_I2O_D; - counter = CNAT_V4_ICMP_Q_I2O_NO_SESSION_DROP; - goto drop_pkt; - } - } else if (PREDICT_FALSE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - } else { /* Many translations exist already */ - dest_info.k.vrf = db->in2out_key.k.vrf; - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, - db, TRUE); - - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_ICMP_Q_I2O_D; - counter = CNAT_V4_ICMP_Q_I2O_NO_SESSION_DROP; - goto drop_pkt; - } - } - } - -update_pkt: - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT BEFORE\n"); - print_icmp_pkt(ip); - } - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - /* - * 1. update src ipv4 addr and src icmp identifier - * 2. update ipv4 checksum and icmp checksum - */ - swap_ip_src_icmp_id(ip, icmp, db, db->in2out_key.k.vrf); - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT AFTER\n"); - print_icmp_pkt(ip); - } - - /* - * update db counter, timer - */ - - if(PREDICT_FALSE(session_db != 0)) { - CNAT_DB_TIMEOUT_RST(session_db); - } else { - CNAT_DB_TIMEOUT_RST(db); - } - db->in2out_pkts++; - in2out_forwarding_count++; - - } else { - disposition = CNAT_V4_ICMP_Q_I2O_E; - counter = CNAT_V4_ICMP_Q_I2O_MISS_PKT; - } - -drop_pkt: - - em->counters[node_counter_base_index + counter] += 1; - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_icmp_q_inside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_icmp_q_inside_input_node) = { - .function = cnat_ipv4_icmp_q_inside_input_node_fn, - .name = "vcgn-v4-icmp-q-i2o", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_icmp_q_inside_input_error_strings), - .error_strings = cnat_ipv4_icmp_q_inside_input_error_strings, - - .n_next_nodes = CNAT_V4_ICMP_Q_I2O_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_ICMP_Q_I2O_E] = "vcgn-v4-icmp-q-i2o-e", - [CNAT_V4_ICMP_Q_I2O_T] = "ip4-input", - [CNAT_V4_ICMP_Q_I2O_D] = "error-drop", - }, -}; - -clib_error_t *cnat_ipv4_icmp_q_inside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_icmp_q_inside_input_main_t * mp = &cnat_ipv4_icmp_q_inside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_icmp_q_inside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_inside_input_exception.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_inside_input_exception.c deleted file mode 100644 index 9b5e280e571..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_inside_input_exception.c +++ /dev/null @@ -1,235 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_icmp_query_inside_input_exception.c - cnat_ipv4_icmp_query_inside_input_exception node pipeline stage functions - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_ipv4_icmp.h" - -#define foreach_cnat_ipv4_icmp_q_inside_input_exc_error \ -_(CNAT_V4_ICMP_Q_I2O_E_T_PKT, "v4 icmp query i2o-e transmit") \ -_(CNAT_V4_ICMP_Q_I2O_E_G_PKT, "v4 icmp query i2o-e gen icmp msg") \ -_(CNAT_V4_ICMP_Q_I2O_E_D_PKT, "v4 icmp query i2o-e pkt drop") \ -_(CNAT_V4_ICMP_Q_I2O_E_DC_PKT, "v4 icmp query i2o-e drop (no config)") \ -_(CNAT_V4_ICMP_Q_I2O_E_DR_PKT, "v4 icmp query i2o-e drop (not in run state)") \ -_(CNAT_V4_ICMP_Q_I2O_E_DD_PKT, "v4 icmp query i2o-e drop (no direct port)") \ -_(CNAT_V4_ICMP_Q_I2O_E_DA_PKT, "v4 icmp query i2o-e drop (no any port)") \ -_(CNAT_V4_ICMP_Q_I2O_E_DO_PKT, "v4 icmp query i2o-e drop (out of port limit)") \ -_(CNAT_V4_ICMP_Q_I2O_E_DS_PKT, "v4 icmp query i2o_e drop (out of session db)") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_icmp_q_inside_input_exc_error -#undef _ - CNAT_IPV4_ICMP_Q_INSIDE_INPUT_EXCEPTIONS_N_ERROR, -} cnat_ipv4_icmp_q_inside_input_exc_error_t; - - -static char * cnat_ipv4_icmp_q_inside_input_exc_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_icmp_q_inside_input_exc_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_icmp_q_inside_input_exc_main_t; - -typedef enum { - CNAT_V4_ICMP_Q_E_I2O_T, - //CNAT_V4_ICMP_Q_E_I2O_GEN, - CNAT_V4_ICMP_Q_E_I2O_D, - CNAT_V4_ICMP_Q_E_I2O_NEXT, -} cnat_ipv4_icmp_q_inside_input_exc_next_t; - -#define CNAT_V4_ICMP_Q_E_I2O_GEN CNAT_V4_ICMP_Q_E_I2O_T - -cnat_ipv4_icmp_q_inside_input_exc_main_t cnat_ipv4_icmp_q_inside_input_exc_main; -vlib_node_registration_t cnat_ipv4_icmp_q_inside_input_exc_node; - -#define NSTAGES 2 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - int disposition = CNAT_V4_ICMP_Q_E_I2O_T; - int counter = CNAT_V4_ICMP_Q_I2O_E_T_PKT; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_icmp_q_inside_input_exc_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - - cnat_key_t dest_info; - cnat_gen_icmp_info info; - cnat_db_key_bucket_t ki; - cnat_main_db_entry_t *db = NULL; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - ki.k.k.vrf, CNAT_ICMP) - - ki.k.k.ipv4 = - clib_net_to_host_u32(ip->src_addr); - ki.k.k.port = - clib_net_to_host_u16(icmp->identifier); - - dest_info.k.port = 0; - dest_info.k.ipv4 = clib_net_to_host_u32(ip->dest_addr); - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - dest_info.k.vrf, CNAT_ICMP) - - db = cnat_get_main_db_entry_v2(&ki, PORT_SINGLE, PORT_TYPE_DYNAMIC, - &info, &dest_info); - if (PREDICT_TRUE(db != 0)) { - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT BEFORE\n"); - print_icmp_pkt(ip); - } - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - /* - * step 6 do nat before fwd pkt - */ - swap_ip_src_icmp_id(ip, icmp, db, db->in2out_key.k.vrf); - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT AFTER\n"); - print_icmp_pkt(ip); - } - - /* - * update db for this pkt - */ - CNAT_DB_UPDATE_IN2OUT_TIMER - in2out_forwarding_count++; - - } else { - switch (info.error) { - case (CNAT_NO_VRF_RUN): - counter = CNAT_V4_ICMP_Q_I2O_E_DR_PKT; - break; - case (CNAT_OUT_LIMIT): - counter = CNAT_V4_ICMP_Q_I2O_E_DO_PKT; - break; - case (CNAT_NO_PORT_ANY): - case (CNAT_NO_POOL_ANY): - case (CNAT_BAD_INUSE_ANY): - case (CNAT_NOT_FOUND_ANY): - counter = CNAT_V4_ICMP_Q_I2O_E_DA_PKT; - break; - case (CNAT_INV_PORT_DIRECT): - case (CNAT_DEL_PORT_DIRECT): - case (CNAT_BAD_INUSE_DIRECT): - case (CNAT_NOT_FOUND_DIRECT): - counter = CNAT_V4_ICMP_Q_I2O_E_DD_PKT; - break; - case (CNAT_ERR_NO_SESSION_DB): - counter = CNAT_V4_ICMP_Q_I2O_E_DS_PKT; - break; - default: - counter = CNAT_V4_ICMP_Q_I2O_E_DC_PKT; - break; - } - /* - * send to icmp msg generate node - */ - if (info.gen_icmp_msg == CNAT_ICMP_MSG) { - #if 0 - u32 *fd = (u32*)ctx->feature_data; - fd[0] = info.svi_addr; - fd[1] = CNAT_ICMP_DEST_UNREACHABLE; - #endif - disposition = CNAT_V4_ICMP_Q_E_I2O_GEN; - counter = CNAT_V4_ICMP_Q_I2O_E_G_PKT; - } else { - disposition = CNAT_V4_ICMP_Q_E_I2O_D; - counter = CNAT_V4_ICMP_Q_I2O_E_D_PKT; - } - DEBUG_I2O_DROP(CNAT_DEBUG_DROP_ICMP) - } - - em->counters[node_counter_base_index + counter] += 1; - - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_icmp_q_inside_input_exc_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - -VLIB_REGISTER_NODE (cnat_ipv4_icmp_q_inside_input_exc_node) = { - .function = cnat_ipv4_icmp_q_inside_input_exc_node_fn, - .name = "vcgn-v4-icmp-q-i2o-e", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_icmp_q_inside_input_exc_error_strings), - .error_strings = cnat_ipv4_icmp_q_inside_input_exc_error_strings, - - .n_next_nodes = CNAT_V4_ICMP_Q_E_I2O_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - //[CNAT_V4_ICMP_Q_E_I2O_GEN] = "icmp_msg_gen", /* Currently it will go - //to ip4-input node. We have to port icmp msg generator node */ - [CNAT_V4_ICMP_Q_E_I2O_T] = "ip4-input", - [CNAT_V4_ICMP_Q_E_I2O_D] = "error-drop", - }, -}; - - -clib_error_t *cnat_ipv4_icmp_q_inside_input_exc_init (vlib_main_t *vm) -{ - cnat_ipv4_icmp_q_inside_input_exc_main_t * mp = &cnat_ipv4_icmp_q_inside_input_exc_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_icmp_q_inside_input_exc_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_outside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_outside_input.c deleted file mode 100644 index 2c05e0b400e..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_icmp_query_outside_input.c +++ /dev/null @@ -1,381 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_icmp_query_outside_input.c - cnat_ipv4_icmp_query_outside_input node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_ipv4_icmp.h" - -#define foreach_cnat_ipv4_icmp_q_outside_input_error \ -_(CNAT_V4_ICMP_Q_O2I_T_PKT, "cnat v4 icmp_q o2i packet transmit") \ -_(CNAT_V4_ICMP_Q_O2I_MISS_PKT, "cnat v4 icmp_q o2i drop") \ -_(CNAT_V4_ICMP_Q_O2I_TTL_GEN, "cnat v4 icmp_q o2i ttl generate") \ -_(CNAT_V4_ICMP_Q_O2I_TTL_DROP, "cnat v4 icmp_q o2i ttl drop") \ -_(CNAT_V4_ICMP_Q_O2I_NO_SESSION_DROP, "cnat v4 icmp_q o2i no session drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_icmp_q_outside_input_error -#undef _ - CNAT_IPV4_ICMP_Q_OUTSIDE_INPUT_N_ERROR, -} cnat_ipv4_icmp_q_outside_input_t; - -static char * cnat_ipv4_icmp_q_outside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_icmp_q_outside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_icmp_q_outside_input_main_t; - -typedef enum { - CNAT_V4_ICMP_Q_O2I_T, - CNAT_V4_ICMP_Q_O2I_D, - CNAT_V4_ICMP_Q_O2I_NEXT, -} cnat_ipv4_icmp_q_outside_input_next_t; - -cnat_ipv4_icmp_q_outside_input_main_t cnat_ipv4_icmp_q_outside_input_main; -vlib_node_registration_t cnat_ipv4_icmp_q_outside_input_node; - -#define NSTAGES 5 - -inline void swap_ip_dst_icmp_id(ipv4_header *ip, - icmp_v4_t *icmp, - cnat_main_db_entry_t *db, u16 vrf) -{ -#if 0 - u32 postmap_ip; - u8 direction; - u32 old_ip; - u32 old_postmap_ip; - - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - direction = 1; - if(cnat_static_dest_db_get_translation(ip->src_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - CNAT_UPDATE_L3_CHECKSUM_DECLARE - - old_ip = spp_net_to_host_byte_order_32(&(ip->src_addr)); - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(ip->checksum))), - ((u16)(old_postmap_ip & 0xFFFF)), - ((u16)(old_postmap_ip >> 16))) - ip->checksum = - spp_host_to_net_byte_order_16(new_l3_c); - ip->src_addr = postmap_ip; - } - } -#endif /* if 0 */ - /* - * declare variable - */ - CNAT_UPDATE_L3_L4_CHECKSUM_DECLARE - /* - * calculate checksum - */ - CNAT_UPDATE_L3_ICMP_CHECKSUM(((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - (db->out2in_key.k.port), - (clib_net_to_host_u16(ip->checksum)), - (clib_net_to_host_u16(icmp->checksum)), - ((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16)), - (db->in2out_key.k.port)) - //set ip header - ip->dest_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - ip->checksum = - clib_host_to_net_u16(new_l3_c); - - //set icmp header - icmp->identifier = - clib_host_to_net_u16(db->in2out_key.k.port); - icmp->checksum = - clib_host_to_net_u16(new_l4_c); -} - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - - u64 tmp = 0; - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(ip->dest_addr); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16 (icmp->identifier); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_ICMP) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_out2in_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_out2in_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, LOAD); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, LOAD); - } - } -} - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->out2in_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->out2in_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - int disposition = CNAT_V4_ICMP_Q_O2I_T; - int counter = CNAT_V4_ICMP_Q_O2I_T_PKT; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - icmp_v4_t *icmp = (icmp_v4_t *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_icmp_q_outside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_session_entry_t *session_db = NULL; - cnat_main_db_entry_t *db = NULL; - cnat_key_t dest_info; - cnat_vrfmap_t * vrf_map_p __attribute__((unused)) = NULL; - u32 vrf_index __attribute__((unused)) = 0; - - if (PREDICT_TRUE(db_index != EMPTY)) { - - db = cnat_main_db + db_index; - dest_info.k.port = 0; - dest_info.k.ipv4 = clib_net_to_host_u32(ip->src_addr); - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT BEFORE\n"); - print_icmp_pkt(ip); - } - - vrf_map_p = cnat_map_by_vrf + db->vrfmap_index; - vrf_index = (db->in2out_key.k.vrf & CNAT_VRF_MASK); - - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - goto update_pkt; - } - - if(PREDICT_FALSE(db->dst_ipv4 != dest_info.k.ipv4)) { - - if(PREDICT_TRUE(db->nsessions == 1)) { - /* Handle one to 2 dest scenarion */ - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_ICMP_Q_O2I_D; - counter = CNAT_V4_ICMP_Q_O2I_NO_SESSION_DROP; - goto drop_pkt; - } - } else if (PREDICT_FALSE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - } else { /* Many translations exist already */ - dest_info.k.vrf = db->in2out_key.k.vrf; - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, - db, TRUE); - - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_ICMP_Q_O2I_D; - counter = CNAT_V4_ICMP_Q_O2I_NO_SESSION_DROP; - goto drop_pkt; - } - } - } - -update_pkt: - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - /* - * 1. update dest ipv4 addr and icmp id - * 2. update ipv4 checksum and icmp checksum - */ - swap_ip_dst_icmp_id(ip, icmp, db, db->in2out_key.k.vrf); - - if (PREDICT_FALSE(icmp_debug_flag)) { - printf("\nDUMPING ICMP PKT AFTER\n"); - print_icmp_pkt(ip); - } - - db->out2in_pkts++; - - //nat44_dslite_global_stats[dslite_flag].out2in_forwarding_count++; - - } else { - disposition = CNAT_V4_ICMP_Q_O2I_D; - counter = CNAT_V4_ICMP_Q_O2I_MISS_PKT; - } - -drop_pkt: - em->counters[node_counter_base_index + counter] += 1; - return disposition; - -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_icmp_q_outside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_icmp_q_outside_input_node) = { - .function = cnat_ipv4_icmp_q_outside_input_node_fn, - .name = "vcgn-v4-icmp-q-o2i", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_icmp_q_outside_input_error_strings), - .error_strings = cnat_ipv4_icmp_q_outside_input_error_strings, - - .n_next_nodes = CNAT_V4_ICMP_Q_O2I_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_ICMP_Q_O2I_T] = "ip4-input", - [CNAT_V4_ICMP_Q_O2I_D] = "error-drop", - }, -}; - -clib_error_t *cnat_ipv4_icmp_q_outside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_icmp_q_outside_input_main_t * mp = &cnat_ipv4_icmp_q_outside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_icmp_q_outside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_inside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_inside_input.c deleted file mode 100644 index 5bea707385c..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_inside_input.c +++ /dev/null @@ -1,424 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_tcp_inside_input.c - cnat_ipv4_tcp_inside_input node pipeline - * stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_db.h" -#include "tcp_header_definitions.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_v4_functions.h" - -#define foreach_cnat_ipv4_tcp_inside_input_error \ -_(CNAT_V4_TCP_I2O_PKT_IN, "tcp i2o packets received") \ -_(CNAT_V4_TCP_I2O_PKT_T, "tcp i2o packets natted") \ -_(CNAT_V4_TCP_I2O_EXCEPTION, "packets to tcp i2o exception") \ -_(CNAT_V4_TCP_I2O_TTL_GEN, "generated TTL expiry ICMP packets") \ -_(CNAT_V4_TCP_I2O_TTL_GEN_DROP, "could not generate TTL expiry ICMP packets") \ -_(CNAT_V4_TCP_I2O_SESSION_DROP, "could not generate session") \ -_(CNAT_V4_UDP_I2O_FRAG_DROP, "non-first fragment drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_tcp_inside_input_error -#undef _ - CNAT_IPV4_TCP_INSIDE_INPUT_N_ERROR, -} cnat_ipv4_tcp_inside_input_t; - -static char * cnat_ipv4_tcp_inside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_tcp_inside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_tcp_inside_input_main_t; - -typedef enum { - CNAT_V4_TCP_I2O_E, - CNAT_V4_TCP_I2O_T, - CNAT_V4_TCP_I2O_D, - CNAT_V4_TCP_I2O_NEXT, -} cnat_ipv4_tcp_inside_input_next_t; - -#define CNAT_REWRITE_OUTPUT CNAT_V4_TCP_I2O_T -#define CNAT_V4_ICMP_GEN CNAT_V4_TCP_I2O_D - -//#define CNAT_V4_TCP_I2O_E CNAT_V4_TCP_I2O_D //remove it once exception node is created -cnat_ipv4_tcp_inside_input_main_t cnat_ipv4_tcp_inside_input_main; -vlib_node_registration_t cnat_ipv4_tcp_inside_input_node; - -#define NSTAGES 6 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - //cnat_feature_data_t *fd = (cnat_feature_data_t *)ctx->feature_data; - - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - tcp_hdr_type *tcp = (tcp_hdr_type *)((u8*)ip + ipv4_hdr_len); - - u64 tmp = 0; - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(ip->src_addr); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16 (tcp->src_port); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_TCP) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_in2out_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ /* nothing */ } - - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_in2out_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, LOAD); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, LOAD); - } - } -} - -static inline void -stage4(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->in2out_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->in2out_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - spp_ctx_t *ctx = (spp_ctx_t *) &vnet_buffer(b0)->vcgn_uii; - int disposition = CNAT_V4_TCP_I2O_T; - int counter = CNAT_V4_TCP_I2O_PKT_T; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - tcp_hdr_type *tcp = (tcp_hdr_type *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_tcp_inside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_session_entry_t *session_db = NULL; - cnat_main_db_entry_t *db = NULL; - cnat_key_t dest_info; - u32 window; - u8 scale; - - - INCREMENT_NODE_COUNTER(CNAT_V4_TCP_I2O_PKT_IN); - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - if (PREDICT_FALSE(ip->ttl <= 1)) { - /* Try to generate ICMP error msg, as TTL is <= 1 */ - - if (icmpv4_generate_with_throttling - (ctx, ip, ctx->ru.rx.uidb_index)) { - - /* Generated ICMP */ - disposition = CNAT_REWRITE_OUTPUT; - counter = CNAT_V4_TCP_I2O_TTL_GEN; - } else { - /* Could not generated ICMP - drop the packet */ - disposition = CNAT_V4_TCP_I2O_D; - counter = CNAT_V4_TCP_I2O_TTL_GEN_DROP; - } - goto drop_pkt; - } - } - - if (PREDICT_FALSE(db_index == EMPTY)) { - /* Deleted fragment code from here */ - disposition = CNAT_V4_TCP_I2O_E; - counter = CNAT_V4_TCP_I2O_EXCEPTION; - } else { - db = cnat_main_db + db_index; - - /* Handle destination sessions */ - dest_info.k.port = clib_net_to_host_u16(tcp->dest_port); - dest_info.k.ipv4 = clib_net_to_host_u32(ip->dest_addr); - - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - goto update_pkt; - } - - if(PREDICT_FALSE(db->dst_ipv4 != dest_info.k.ipv4 || - db->dst_port != dest_info.k.port)) { - if(PREDICT_TRUE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - } else if(PREDICT_FALSE(db->nsessions == 1)) { - /* Destn is not same as in main db. Multiple session - * scenario - */ - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_TCP_I2O_D; - counter = CNAT_V4_TCP_I2O_SESSION_DROP; - goto drop_pkt; - } - } else { /* There are already multiple destinations */ - dest_info.k.vrf = db->in2out_key.k.vrf; - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, - db, TRUE); - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_TCP_I2O_D; - counter = CNAT_V4_TCP_I2O_SESSION_DROP; - goto drop_pkt; - } - } - if(PREDICT_TRUE(session_db != 0)) { - /* Have to repeat the window size check for new destinations */ - window = (u32)clib_net_to_host_u16(tcp->window_size); - window = window << session_db->scale; - if(PREDICT_TRUE(!session_db->window)) { - calculate_window_scale(tcp, &scale); - session_db->scale = scale; - session_db->window = window; - } else if (PREDICT_FALSE(session_db->window < - window)) { - /* Update the db entry with window option from packet */ - session_db->window = window; - } else { - /* Do nothing */ - } - session_db->tcp_seq_num = clib_net_to_host_u32(tcp->seq_num); - session_db->ack_no = clib_net_to_host_u32(tcp->ack_num); -#if DEBUG > 1 - printf("\n In2out SDB stages seq no = %u," - " ack no = %u, window = %u\n", - session_db->tcp_seq_num, - session_db->ack_no, - session_db->window); -#endif - - } - } else { - //Update the seq no and ack no for subsequent communication - //after connection establishment - //No need to update window here. Window is already updated - //during connection establishment - window = (u32)clib_net_to_host_u16(tcp->window_size); - window = window << db->scale; - if(PREDICT_FALSE(!ALG_ENABLED_DB(db))) { - //This check is done since proto_data is part of union in main - //db entry - db->proto_data.tcp_seq_chk.seq_no = - clib_net_to_host_u32(tcp->seq_num); - db->proto_data.tcp_seq_chk.ack_no = - clib_net_to_host_u32(tcp->ack_num); - } - if (PREDICT_FALSE(db->diff_window < window)) { - /* Update the db entry with window option from packet */ - db->diff_window = window; - } -#if DEBUG > 1 - printf("\n In2out MainDB seq no = %u," - "\n ack no = %u\n", - db->proto_data.tcp_seq_chk.seq_no, - db->proto_data.tcp_seq_chk.ack_no); - printf("\n In2out MAINDB window = %u\n", - db->diff_window); -#endif - } -update_pkt: - - counter = CNAT_V4_TCP_I2O_PKT_T; - disposition = CNAT_V4_TCP_I2O_T; - - /* NO FRAGMENT & ALG HANDLING. DELETING THE CODE */ - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - tcp_in2out_nat_mss_n_checksum(ip, - tcp, - db->out2in_key.k.ipv4, - db->out2in_key.k.port, - db - /*, db->in2out_key.k.vrf */); - - /* update transaltion counters */ - db->in2out_pkts++; - in2out_forwarding_count++; - - /* update the timer for good mode, or evil mode dst_ip match */ - - if(PREDICT_FALSE(session_db != NULL)) { - V4_TCP_UPDATE_SESSION_DB_FLAG(session_db, tcp); - CNAT_DB_TIMEOUT_RST(session_db); - } else { - V4_TCP_UPDATE_SESSION_FLAG(db, tcp); - CNAT_DB_TIMEOUT_RST(db); - } - } - -drop_pkt: - - em->counters[node_counter_base_index + counter] += 1; - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_tcp_inside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_tcp_inside_input_node) = { - .function = cnat_ipv4_tcp_inside_input_node_fn, - .name = "vcgn-v4-tcp-i2o", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_tcp_inside_input_error_strings), - .error_strings = cnat_ipv4_tcp_inside_input_error_strings, - - .n_next_nodes = CNAT_V4_TCP_I2O_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_TCP_I2O_E] = "vcgn-v4-tcp-i2o-e", - [CNAT_V4_TCP_I2O_T] = "ip4-input", - [CNAT_V4_TCP_I2O_D] = "error-drop", - }, -}; - -clib_error_t *cnat_ipv4_tcp_inside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_tcp_inside_input_main_t * mp = &cnat_ipv4_tcp_inside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_tcp_inside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_inside_input_exceptions.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_inside_input_exceptions.c deleted file mode 100644 index bc1bebb04ba..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_inside_input_exceptions.c +++ /dev/null @@ -1,314 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_tcp_inside_input_exceptions.c - - * cnat_ipv4_tcp_inside_input_exceptions node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_db.h" -#include "tcp_header_definitions.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_v4_functions.h" - - -#define foreach_cnat_ipv4_tcp_inside_input_exc_error \ -_(CNAT_V4_TCP_I2O_E_T_PKT, "v4 tcp i2o-e transmit natted pkt") \ -_(CNAT_V4_TCP_I2O_E_D_NON_SYN_PKT, "v4 tcp i2o-e non syn drop") \ -_(CNAT_V4_TCP_I2O_E_D_INVALID_PKT, "v4 tcp i2o-e invalid pkt drop") \ -_(CNAT_V4_TCP_I2O_E_DROP, "v4 tcp i2o-e drop") \ -_(CNAT_V4_TCP_I2O_E_GEN_ICMP, "v4 tcp i2o-e gen icmp msg") \ -_(CNAT_V4_TCP_I2O_E_D_NO_SESSION, "v4 tcp i2o-e no session db entry drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_tcp_inside_input_exc_error -#undef _ - CNAT_IPV4_TCP_INSIDE_INPUT_EXCEPTIONS_N_ERROR, -} cnat_ipv4_tcp_inside_input_exc_error_t; - - -static char * cnat_ipv4_tcp_inside_input_exc_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_tcp_inside_input_exc_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_tcp_inside_input_exc_main_t; - -typedef enum { - CNAT_V4_TCP_I2O_E_T, - //CNAT_V4_TCP_I2O_E_ICMP, - CNAT_V4_TCP_I2O_E_D, - CNAT_V4_TCP_I2O_E_NEXT, -} cnat_ipv4_udp_inside_input_exc_next_t; - -#define CNAT_V4_TCP_I2O_E_ICMP CNAT_V4_TCP_I2O_E_D - -cnat_ipv4_tcp_inside_input_exc_main_t cnat_ipv4_tcp_inside_input_exc_main; -vlib_node_registration_t cnat_ipv4_tcp_inside_input_exc_node; - -#define NSTAGES 2 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - vlib_node_t *n = - vlib_get_node (vm, cnat_ipv4_tcp_inside_input_exc_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - - cnat_gen_icmp_info info; - cnat_db_key_bucket_t ki; - cnat_main_db_entry_t *db = NULL; - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - tcp_hdr_type *tcp = (tcp_hdr_type *)((u8*)ip + ipv4_hdr_len); - int disposition = CNAT_V4_TCP_I2O_E_T; - int counter = CNAT_V4_TCP_I2O_E_T_PKT; - cnat_key_t dest_info; - u32 window; - u8 scale; - - window = (u32)clib_net_to_host_u16(tcp->window_size); - calculate_window_scale(tcp, &scale); - - dest_info.k.port = clib_net_to_host_u16(tcp->dest_port); - dest_info.k.ipv4 = clib_net_to_host_u32(ip->dest_addr); - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - dest_info.k.vrf, CNAT_TCP) - - /* for TCP if not SYN or if src_port is 0, silently drop the packet */ - if (PREDICT_FALSE(!((tcp->flags & TCP_FLAG_SYN) && (tcp->src_port)))) { - - /* - * If the packet is dropped due to both reasons, - * count it as invalid packet drop - */ - if (!tcp->src_port) { - counter = CNAT_V4_TCP_I2O_E_D_INVALID_PKT; - } else { - counter = CNAT_V4_TCP_I2O_E_D_NON_SYN_PKT; - } - disposition = CNAT_V4_TCP_I2O_E_D; - goto in2out_e; - } - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - ki.k.k.vrf, CNAT_TCP) - - ki.k.k.ipv4 = clib_net_to_host_u32(ip->src_addr); - ki.k.k.port = clib_net_to_host_u16(tcp->src_port); - - db = cnat_get_main_db_entry_v2(&ki, PORT_SINGLE, PORT_TYPE_DYNAMIC, &info, - &dest_info); - - -#if DEBUG > 1 - if(PREDICT_TRUE(db)) { - printf("create db %x ip %x->%x port %x->%x dst_ip %x\n", db, - db->in2out_key.k.ipv4, db->out2in_key.k.ipv4, - db->in2out_key.k.port, db->out2in_key.k.port, db->dst_ipv4); - } -#endif - - - if (PREDICT_FALSE(db == 0)) { - /* failed to create new db entry due to either no more port, or user limit reached, - * need to generate ICMP type=3,code=13 msg here, - */ - - /* - * we rate limit the icmp msg per private user, - * so we don't flood a user with icmp msg - * in case the per user port limit reached - */ - if (PREDICT_TRUE(info.gen_icmp_msg == CNAT_ICMP_MSG)) { - /* KEEPING THINGS COMMENTED HERE..MAY NEED TO REVISIT AGAIN */ - #if 0 - u32 *fd = (u32*)ctx->feature_data; - fd[0] = info.svi_addr; - fd[1] = CNAT_ICMP_DEST_UNREACHABLE; - - /* - * Let's reverse the direction from i2o to o2i. - * This will help using the correct VRF in the fib lookup (AVSM) - * especially for the o2i_vrf_override case - */ - ctx->ru.rx.direction = 0; // 0 - o2i, 1 - i2o - #endif - disposition = CNAT_V4_TCP_I2O_E_ICMP; - counter = CNAT_V4_TCP_I2O_E_GEN_ICMP; - - } else { - disposition = CNAT_V4_TCP_I2O_E_D; - counter = CNAT_V4_TCP_I2O_E_DROP; - } - //DEBUG_I2O_DROP(CNAT_DEBUG_DROP_TCP) - } else { - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - /* NAT the packet and fix checksum */ - - tcp_in2out_nat_mss_n_checksum(ip, - tcp, - db->out2in_key.k.ipv4, - db->out2in_key.k.port, - db - /*, db->in2out_key.k.vrf */); - - /* this must be inside to outside SYN, do mss here */ - - /* update translation counters */ - db->in2out_pkts++; - - /* set keepalive timer */ - - if(PREDICT_TRUE((dest_info.k.ipv4 == db->dst_ipv4) && - (dest_info.k.port == db->dst_port))) { - if(PREDICT_FALSE(!ALG_ENABLED_DB(db))) { - //This check is done since proto_data is part of union in main - //db entry - - db->proto_data.tcp_seq_chk.seq_no = - clib_net_to_host_u32(tcp->seq_num); - db->proto_data.tcp_seq_chk.ack_no = - clib_net_to_host_u32(tcp->ack_num); - db->scale = scale; - db->diff_window = window; - } -#if DEBUG > 1 - PLATFORM_DEBUG_PRINT("\nMain DB seq no = %u," - "ack no = %u, window = %u," - "scale = %u", - db->proto_data.tcp_seq_chk.seq_no, - db->proto_data.tcp_seq_chk.ack_no, - db->diff_window - db->scale); -#endif - V4_TCP_UPDATE_SESSION_FLAG(db, tcp); - /* Check timeout db if there is config for this */ - (void) query_and_update_db_timeout((void *)db, MAIN_DB_TYPE); - db->entry_expires = cnat_current_time; - } else { - /* Got to find out the session entry corresponding to this..*/ - cnat_session_entry_t *sdb; - sdb = cnat_session_db_lookup_entry( - &dest_info, db - cnat_main_db); - if(PREDICT_FALSE(sdb == NULL)) { - disposition = CNAT_V4_TCP_I2O_E_D; - counter = CNAT_V4_TCP_I2O_E_D_NO_SESSION; - goto in2out_e; - } - sdb->tcp_seq_num = clib_net_to_host_u32(tcp->seq_num); - sdb->ack_no = clib_net_to_host_u32(tcp->ack_num); - sdb->scale = scale; - sdb->window = window; - -#if DEBUG > 1 - PLATFORM_DEBUG_PRINT("\nSDB seq no = %u, ack no = %u, window = %u" - "\nSDB scale = %u" , - sdb->tcp_seq_num, - sdb->ack_no, - sdb->window, - sdb->scale); -#endif - V4_TCP_UPDATE_SESSION_DB_FLAG(sdb, tcp); - /* Check timeout db if there is config for this */ - (void) query_and_update_db_timeout((void *)sdb, SESSION_DB_TYPE); - sdb->entry_expires = cnat_current_time; - } - - //PLATFORM_CNAT_SET_TX_VRF(ctx,db->out2in_key.k.vrf) - - counter = CNAT_V4_TCP_I2O_E_T_PKT; - in2out_forwarding_count++; - } - -in2out_e: - - em->counters[node_counter_base_index + counter] += 1; - - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_tcp_inside_input_exc_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - -VLIB_REGISTER_NODE (cnat_ipv4_tcp_inside_input_exc_node) = { - .function = cnat_ipv4_tcp_inside_input_exc_node_fn, - .name = "vcgn-v4-tcp-i2o-e", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_tcp_inside_input_exc_error_strings), - .error_strings = cnat_ipv4_tcp_inside_input_exc_error_strings, - - .n_next_nodes = CNAT_V4_TCP_I2O_E_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_TCP_I2O_E_T] = "ip4-input", - [CNAT_V4_TCP_I2O_E_D] = "error-drop", - }, -}; - - -clib_error_t *cnat_ipv4_tcp_inside_input_exc_init (vlib_main_t *vm) -{ - cnat_ipv4_tcp_inside_input_exc_main_t * mp = &cnat_ipv4_tcp_inside_input_exc_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_tcp_inside_input_exc_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_outside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_outside_input.c deleted file mode 100644 index bcf132b1dd7..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_tcp_outside_input.c +++ /dev/null @@ -1,382 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_tcp_outside_input.c - cnat_v4_tcp_out2in node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_db.h" -#include "tcp_header_definitions.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_ipv4_udp.h" -#include "cnat_v4_functions.h" - - -#define foreach_cnat_ipv4_tcp_outside_input_error \ -_(CNAT_V4_TCP_O2I_R_PKT, "v4 tcp o2i pkt received") \ -_(CNAT_V4_TCP_O2I_T_PKT, "v4 tcp o2i pkt natted & transmitted") \ -_(CNAT_V4_TCP_O2I_LOOKUP_FAILED, "v4 tcp o2i lookup failed") \ -_(CNAT_V4_TCP_O2I_TTL_GEN, "v4 tcp o2i generated TTL Expiry ICMP packet") \ -_(CNAT_V4_TCP_O2I_TTL_DROP, "v4 tcp o2i drop due to failure in creating TTL expiry ICMP msg") \ -_(CNAT_V4_TCP_O2I_PTB_GEN, "v4 tcp o2i PTB ICMP pkt generation") \ -_(CNAT_V4_UDP_O2I_PTB_DROP, "v4 tcp o2i drop due to failure in creating PTB ICMP pkt") \ -_(CNAT_V4_TCP_O2I_SESSION_DROP, "v4 tcp o2i drop due to failure in creating session db") \ -_(CNAT_V4_TCP_O2I_SEQ_MISMATCH_DROP, "v4 tcp o2i drop due to TCP sequence mismatch") \ -_(CNAT_V4_TCP_O2I_FILTER_DROP, "v4 tcp o2i drop due to endpoint filtering") \ -_(CNAT_V4_TCP_O2I_NON_SYN_RST_DROP, "v4 tcp o2i drop due no syn/rst flag") \ -_(CNAT_V4_TCP_O2I_FIRST_FRAG_DROP, "v4 tcp o2i first fragment drop") \ -_(CNAT_V4_TCP_O2I_SUB_FRAG_NO_DB_DROP, "v4 tcp o2i subsequest frag no DB drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_tcp_outside_input_error -#undef _ - CNAT_IPV4_TCP_OUTSIDE_INPUT_N_ERROR, -} cnat_ipv4_tcp_outside_input_t; - -static char * cnat_ipv4_tcp_outside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_tcp_outside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_tcp_outside_input_main_t; - -typedef enum { - //CNAT_V4_TCP_O2I_E, - CNAT_V4_TCP_O2I_T, - CNAT_V4_TCP_O2I_D, - CNAT_V4_TCP_O2I_NEXT, -} cnat_ipv4_tcp_outside_input_next_t; - -cnat_ipv4_tcp_outside_input_main_t cnat_ipv4_tcp_outside_input_main; -vlib_node_registration_t cnat_ipv4_tcp_outside_input_node; - -#define NSTAGES 6 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - tcp_hdr_type *tcp = (tcp_hdr_type *)((u8*)ip + ipv4_hdr_len); - - u64 tmp = 0; - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(ip->dest_addr); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16 (tcp->dest_port); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_TCP) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_out2in_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ /* nothing */ } - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_out2in_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, STORE); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, STORE); - } - } -} - -static inline void -stage4(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->out2in_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->out2in_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - spp_ctx_t *ctx = (spp_ctx_t *) &vnet_buffer(b0)->vcgn_uii; - int disposition = CNAT_V4_TCP_O2I_T; - int counter = CNAT_V4_TCP_O2I_T_PKT; - - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - tcp_hdr_type *tcp = (tcp_hdr_type *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_tcp_outside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_session_entry_t *session_db = NULL; - cnat_main_db_entry_t *db = NULL; - cnat_key_t dest_info; - - INCREMENT_NODE_COUNTER(CNAT_V4_TCP_O2I_R_PKT); - - if (PREDICT_FALSE(db_index == EMPTY)) { - nat44_dslite_common_stats[0].no_translation_entry_drops ++; - counter = CNAT_V4_TCP_O2I_LOOKUP_FAILED; - disposition = CNAT_V4_TCP_O2I_D; - } else { - if (PLATFORM_HANDLE_TTL_DECREMENT) { - if (PREDICT_FALSE(ip->ttl <= 1)) { - /* Try to generate ICMP error msg, as TTL is <= 1 */ - if (icmpv4_generate_with_throttling(ctx, - ip, ctx->ru.rx.uidb_index)) { - /* Generated ICMP */ - disposition = CNAT_V4_TCP_O2I_T_PKT; //CNAT_REWRITE_OUTPUT; - counter = CNAT_V4_TCP_O2I_TTL_GEN; - } else { - /* Could not generated ICMP - drop the packet */ - disposition = CNAT_V4_TCP_O2I_D; - counter = CNAT_V4_TCP_O2I_TTL_DROP; - } - goto drop_pkt; - } - } - db = cnat_main_db + db_index; -#if 0 - window = db->diff_window; - stored_seq_no = db->proto_data.tcp_seq_chk.seq_no; - stored_ack_no = db->proto_data.tcp_seq_chk.ack_no; - vrf_map_p = cnat_map_by_vrf + db->vrfmap_index; - vrf_index = (db->in2out_key.k.vrf & CNAT_VRF_MASK); -#endif - /* For Out2In packet, the dest info is src address and port */ - dest_info.k.port = clib_net_to_host_u16(tcp->src_port); - dest_info.k.ipv4 = clib_net_to_host_u32(ip->src_addr); - - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - goto update_pkt; - } - - - if(PREDICT_FALSE(db->dst_ipv4 != dest_info.k.ipv4 || - db->dst_port != dest_info.k.port)) { - - if(PREDICT_TRUE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - //goto packet_upd; - } else if(PREDICT_FALSE(db->nsessions == 1)) { - /* Destn is not same as in main db. Multiple session - * scenario - */ - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_TCP_O2I_D; - counter = CNAT_V4_TCP_O2I_SESSION_DROP; - goto drop_pkt; - } - } else { /* There are already multiple destinations */ - dest_info.k.vrf = db->in2out_key.k.vrf; - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, db, TRUE); - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_TCP_O2I_D; - counter = CNAT_V4_TCP_O2I_SESSION_DROP; - goto drop_pkt; - } - } - /* useful for ALG only */ - #if 0 - if(PREDICT_TRUE(session_db)) { - stored_seq_no = session_db->tcp_seq_num; - stored_ack_no = session_db->ack_no; - window = session_db->window; - } - #endif - } - - -update_pkt: - - counter = CNAT_V4_TCP_O2I_T_PKT; - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - /* update ip checksum, newchecksum = ~(~oldchecksum + ~old + new) */ - cnat_v4_recalculate_tcp_checksum(ip, tcp, - &(ip->dest_addr), - &(tcp->dest_port), - db->in2out_key.k.ipv4, - db->in2out_key.k.port); - - /* CNAT_PPTP_ALG_SUPPORT */ - db->out2in_pkts++; - - nat44_dslite_global_stats[0].out2in_forwarding_count++;; - - V4_TCP_UPDATE_SESSION_FLAG(db, tcp); - - - if(PREDICT_FALSE(session_db != NULL)) { - V4_TCP_UPDATE_SESSION_DB_FLAG(session_db, tcp); - CNAT_DB_TIMEOUT_RST(session_db); - } else { - V4_TCP_UPDATE_SESSION_FLAG(db, tcp); - CNAT_DB_TIMEOUT_RST(db); - } - - } - -drop_pkt: - em->counters[node_counter_base_index + counter] += 1; - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_tcp_outside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_tcp_outside_input_node) = { - .function = cnat_ipv4_tcp_outside_input_node_fn, - .name = "vcgn-v4-tcp-o2i", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_tcp_outside_input_error_strings), - .error_strings = cnat_ipv4_tcp_outside_input_error_strings, - - .n_next_nodes = CNAT_V4_TCP_O2I_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - //[CNAT_V4_TCP_O2I_E] = "vcgn-v4-tcp-o2i-e", - [CNAT_V4_TCP_O2I_T] = "ip4-input", - [CNAT_V4_TCP_O2I_D] = "error-drop", - }, -}; - -clib_error_t *cnat_ipv4_tcp_outside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_tcp_outside_input_main_t * mp = &cnat_ipv4_tcp_outside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_tcp_outside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp.h b/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp.h deleted file mode 100644 index 1ccf74a004e..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp.h +++ /dev/null @@ -1,41 +0,0 @@ -/* - *----------------------------------------------------------------------------- - * - * Filename: cnat_ipv4_udp.h - * - * Description: common functions for udp node - * - * Assumptions and Constraints: - * - * Copyright (c) 2000-2009 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *----------------------------------------------------------------------------- - */ - -#ifndef __CNAT_IPV4_UDP_H__ -#define __CNAT_IPV4_UDP_H__ - -#include "tcp_header_definitions.h" -#include "cnat_db.h" -#include "cnat_v4_functions.h" -#include "cnat_global.h" -#include "cnat_config.h" - -extern void swap_ip_src_udp_port(ipv4_header *ip, - udp_hdr_type_t *udp, - cnat_main_db_entry_t *db); -extern void swap_ip_dst_udp_port(ipv4_header *ip, - udp_hdr_type_t *udp, - cnat_main_db_entry_t *db, - u16 vrf); -#endif /* __CNAT_IPV4_UDP_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_inside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_inside_input.c deleted file mode 100644 index 657c5f1e64e..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_inside_input.c +++ /dev/null @@ -1,508 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_udp_inside_input.c - cnat_ipv4_udp_inside_input node functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_global.h" -#include "cnat_db.h" -#include "cnat_ipv4_udp.h" -#include "cnat_pcp_server.h" - - -#define foreach_cnat_ipv4_udp_inside_input_error \ -_(CNAT_V4_UDP_I2O_T_PKT, "v4 udp i2o transmit") \ -_(CNAT_V4_UDP_I2O_MISS_PKT, "v4 udp i2o db miss") \ -_(CNAT_V4_UDP_I2O_TTL_GEN, "v4 udp i2o TTL gen") \ -_(CNAT_V4_UDP_I2O_TTL_DROP, "v4 udp i2o TTL drop") \ -_(CNAT_V4_PCP_PKT, "v4 pcp pkt") \ -_(CNAT_V4_UDP_I2O_SESSION_DROP, "v4 udp i2o session drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_udp_inside_input_error -#undef _ - CNAT_IPV4_UDP_INSIDE_INPUT_N_ERROR, -} cnat_ipv4_udp_inside_input_t; - -static char * cnat_ipv4_udp_inside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_udp_inside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_udp_inside_input_main_t; - -typedef enum { - CNAT_V4_I2O_FIXME, - CNAT_V4_UDP_I2O_E, - CNAT_REWRITE_OUTPUT, - CNAT_V4_UDP_I2O_T = CNAT_REWRITE_OUTPUT, - CNAT_N_NEXT, -} cnat_ipv4_udp_inside_input_next_t; - -#define CNAT_V4_UDP_I2O_D CNAT_V4_I2O_FIXME -#define CNAT_V4_PCP_T CNAT_V4_I2O_FIXME - -cnat_ipv4_udp_inside_input_main_t cnat_ipv4_udp_inside_input_main; -vlib_node_registration_t cnat_ipv4_udp_inside_input_node; - -#define NSTAGES 6 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - -#ifndef TOBE_PORTED -static inline u32 -is_pcp_pkt(u32 addr, u16 port) -{ - return CNAT_NO_CONFIG; -} -#else -static inline u32 -is_pcp_pkt(spp_ctx_t *ctx, u32 addr, u16 port) -{ - cnat_vrfmap_t *my_vrfmap = NULL; - u16 my_vrfmap_index; - - my_vrfmap_index = vrf_map_array[ctx->ru.rx.uidb_index]; - - if (PREDICT_TRUE(my_vrfmap_index != VRF_MAP_ENTRY_EMPTY)) { - - my_vrfmap = cnat_map_by_vrf + my_vrfmap_index; - - if (PREDICT_FALSE( port == my_vrfmap->pcp_server_port)) { - if(PREDICT_TRUE(addr == my_vrfmap->pcp_server_addr)) { - return CNAT_SUCCESS; - } - } - } - - return CNAT_NO_CONFIG; -} -#endif - -inline void swap_ip_src_udp_port(ipv4_header *ip, - udp_hdr_type_t *udp, - cnat_main_db_entry_t *db) -{ - /* - * declare varibale - */ - CNAT_UPDATE_L3_L4_CHECKSUM_DECLARE - /* - * calculate checksum - */ - CNAT_UPDATE_L3_L4_CHECKSUM(((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16)), - (db->in2out_key.k.port), - (clib_net_to_host_u16(ip->checksum)), - (clib_net_to_host_u16(udp->udp_checksum)), - ((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - (db->out2in_key.k.port)) - -/* #define UDP_PACKET_DEBUG 1 */ - -// Temporary debugs which will be suppressed later -#ifdef UDP_PACKET_DEBUG - if (PREDICT_FALSE(udp_inside_packet_dump_enable)) { - printf("\nIn2Out UDP packet before translation"); - print_udp_pkt(ip); - } -#endif - - //set ip header - ip->src_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - ip->checksum = - clib_host_to_net_u16(new_l3_c); - - u16 frag_offset = - clib_net_to_host_u16(ip->frag_flags_offset); - - if(PREDICT_FALSE(frag_offset & IP_FRAG_OFFSET_MASK)) { - return; /* No need to update UDP fields */ - } - //set udp header - udp->src_port = - clib_host_to_net_u16(db->out2in_key.k.port); - - /* - * No easy way to avoid this if check except by using - * complex logic - may not be worth it. - */ - if (PREDICT_TRUE(udp->udp_checksum)) { - udp->udp_checksum = - clib_host_to_net_u16(new_l4_c); - } - -// Temporary debugs which will be suppressed later -#ifdef UDP_PACKET_DEBUG - if (PREDICT_FALSE(udp_inside_checksum_disable)) { - printf("\nIn2Out UDP checksum 0x%x disabled by force", new_l4_c); - udp->udp_checksum = 0; - } - if (PREDICT_FALSE(udp_inside_packet_dump_enable)) { - printf("\nIn2Out UDP packet after translation"); - print_udp_pkt(ip); - } -#endif -} - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8*)ip + ipv4_hdr_len); - - u64 tmp = 0; - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(ip->src_addr); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16 (udp->src_port); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_UDP) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_in2out_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ /* nothing */ } - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_in2out_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, LOAD); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, LOAD); - } - } -} - -static inline void -stage4(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->in2out_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->in2out_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - -static u64 pkt_num = 0; -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - spp_ctx_t *ctx = (spp_ctx_t *) &vnet_buffer(b0)->vcgn_uii; - int disposition = CNAT_V4_UDP_I2O_T; - int counter = CNAT_V4_UDP_I2O_T_PKT; - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_udp_inside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_session_entry_t *session_db = NULL; - cnat_key_t dest_info; - - pkt_num++; - - if(PREDICT_FALSE(is_pcp_pkt(ip->dest_addr, udp->dest_port) == - CNAT_SUCCESS)) - { - PCP_INCR(input); - disposition = CNAT_V4_PCP_T; - counter = CNAT_V4_PCP_PKT; - - goto pcp_pkt; - } - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - if (PREDICT_FALSE(ip->ttl <= 1)) { - /* Try to generate ICMP error msg, as TTL is <= 1 */ - - if (icmpv4_generate_with_throttling - (ctx, ip, ctx->ru.rx.uidb_index)) { - /* Generated ICMP */ - disposition = CNAT_REWRITE_OUTPUT; - counter = CNAT_V4_UDP_I2O_TTL_GEN; - } else { - /* Could not generated ICMP - drop the packet */ - disposition = CNAT_V4_UDP_I2O_D; - counter = CNAT_V4_UDP_I2O_TTL_DROP; - } - goto drop_pkt; - } - } - if (PREDICT_TRUE(db_index != EMPTY)) { - cnat_main_db_entry_t *db = cnat_main_db + db_index; - - dest_info.k.ipv4 = clib_net_to_host_u32(ip->dest_addr); - - /* MUST revisit: it seems farg is set to 1 for few packets & because of - * this the port is not updated & it becomes 0. Commenting teporarily - * this fargment check & setting dst port with udp dst port value */ - dest_info.k.port = clib_net_to_host_u16(udp->dest_port); - #if 0 // DONOT REMOVE THIS if 0 - if(PREDICT_FALSE(ctx->ru.rx.frag)) { -#ifdef TOBE_PORTED - /* Must have routed through cnat_v4_frag_in2out node */ - u16 *feature_data_ports = (u16 *)&ctx->feature_data[4]; - dest_info.k.port = *feature_data_ports; -#endif - } else { - dest_info.k.port = clib_net_to_host_u16(udp->dest_port); - } - #endif - - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - CNAT_DB_TIMEOUT_RST(db); - goto update_pkt; - } - - if(PREDICT_TRUE((db->dst_ipv4 == dest_info.k.ipv4) && - (db->dst_port == dest_info.k.port))) { - - CNAT_DB_TIMEOUT_RST(db); - goto update_pkt; - } else { - if (PREDICT_FALSE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - /* - * update db counter, timer - */ - - CNAT_DB_TIMEOUT_RST(db); - - } else if(PREDICT_TRUE(db->nsessions == 1)) { - /* Destn is not same as in main db. Multiple session - * scenario - */ - //printf(">>> [pkt# %lu] src_ip: 0x%x, db ip: 0x%x, db port: %u; dest ip: 0x%x, dest port: %u\n", - // pkt_num, ntohl(ip->src_addr), db->dst_ipv4, db->dst_port, dest_info.k.ipv4, dest_info.k.port); - - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - - if(PREDICT_TRUE(session_db != NULL)) { - /* session exists */ - CNAT_DB_TIMEOUT_RST(session_db); - } else { - /* could not create session db - drop packet */ - disposition = CNAT_V4_UDP_I2O_D; - counter = CNAT_V4_UDP_I2O_SESSION_DROP; - goto drop_pkt; - } - - } else { - /* More than 2 sessions exists */ - - dest_info.k.vrf = db->in2out_key.k.vrf; - - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, - db, TRUE); - - if(PREDICT_FALSE(session_db != NULL)) { - /* session exists */ - CNAT_DB_TIMEOUT_RST(session_db); - } else { - /* could not create session db - drop packet */ - disposition = CNAT_V4_UDP_I2O_D; - counter = CNAT_V4_UDP_I2O_SESSION_DROP; - goto drop_pkt; - } - } - } - -update_pkt: - /* - * 1. update src ipv4 addr and src udp port - * 2. update ipv4 checksum and udp checksum - */ - swap_ip_src_udp_port(ip, udp, db); - /* - * update db counter, timer - */ - - db->in2out_pkts++; - - /* - * need to set outside vrf - * from db->out2in_key.k.vrf - */ - - /* Temporarily keeping this commented */ - //PLATFORM_CNAT_SET_TX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_TX], - // db->out2in_key.k.vrf) - - in2out_forwarding_count++; - - } else { - disposition = CNAT_V4_UDP_I2O_E; - counter = CNAT_V4_UDP_I2O_MISS_PKT; - } - -drop_pkt: -pcp_pkt: - - em->counters[node_counter_base_index + counter] += 1; - - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_udp_inside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_udp_inside_input_node) = { - .function = cnat_ipv4_udp_inside_input_node_fn, - .name = "vcgn-v4-udp-i2o", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_udp_inside_input_error_strings), - .error_strings = cnat_ipv4_udp_inside_input_error_strings, - - .n_next_nodes = CNAT_N_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_I2O_FIXME] = "error-drop", - // [CNAT_V4_UDP_I2O_T] = "ip4-input", - [CNAT_V4_UDP_I2O_E] = "vcgn-v4-udp-i2o-e", - [CNAT_REWRITE_OUTPUT] = "ip4-input", - }, -}; - -clib_error_t *cnat_ipv4_udp_inside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_udp_inside_input_main_t * mp = &cnat_ipv4_udp_inside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_udp_inside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_inside_input_exceptions.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_inside_input_exceptions.c deleted file mode 100644 index f078c8d4391..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_inside_input_exceptions.c +++ /dev/null @@ -1,283 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_udp_inside_input_exception_stages.c - cnat_ipv4_udp_inside_input_exception node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_global.h" -#include "cnat_db.h" -#include "cnat_ipv4_udp.h" - -/* - * Dump these counters via the "show error" CLI command - */ - -#define foreach_cnat_ipv4_udp_inside_input_exc_error \ -_(CNAT_V4_UDP_I2O_T_PKT, "v4 udp i2o transmit") \ -_(CNAT_V4_UDP_I2O_D_PKT, "v4 udp i2o drop") \ -_(CNAT_V4_ICMP_G_I2O_T_PKT, "v4 udp i2o icmp msg gen") \ -_(CNAT_V4_UDP_I2O_DC_PKT, "v4 udp i2o (no config) drop") \ -_(CNAT_V4_UDP_I2O_DR_PKT, "v4 udp i2o (not in run state) drop") \ -_(CNAT_V4_UDP_I2O_DD_PKT, "v4 udp i2o (no direct port) drop") \ -_(CNAT_V4_UDP_I2O_DA_PKT, "v4 udp i2o (no any port) drop") \ -_(CNAT_V4_UDP_I2O_DO_PKT, "v4 udp i2o (out of port limit) drop") \ -_(CNAT_V4_UDP_I2O_DI_PKT, "v4 udp i2o (invalid packet) drop") \ -_(CNAT_V4_UDP_I2O_DS_PKT, "v4 udp i2o (no sessoon db) drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_udp_inside_input_exc_error -#undef _ - CNAT_IPV4_UDP_INSIDE_INPUT_EXCEPTIONS_N_ERROR, -} cnat_ipv4_udp_inside_input_exc_error_t; - - -static char * cnat_ipv4_udp_inside_input_exc_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_udp_inside_input_exc_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_udp_inside_input_exc_main_t; - -typedef enum { - CNAT_V4_UDP_I2O_T, - CNAT_V4_UDP_I2O_D, - CNAT_V4_ICMP_G_I2O_T = CNAT_V4_UDP_I2O_D, /* TOBE_PORTED */ - CNAT_V4_UDP_INSIDE_INPUT_EXC_N_NEXT, -} cnat_ipv4_udp_inside_input_exc_next_t; - -cnat_ipv4_udp_inside_input_exc_main_t cnat_ipv4_udp_inside_input_exc_main; -vlib_node_registration_t cnat_ipv4_udp_inside_input_exc_node; - -#define NSTAGES 2 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - vlib_node_t *n = - vlib_get_node (vm, cnat_ipv4_udp_inside_input_exc_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - - cnat_gen_icmp_info info; - cnat_db_key_bucket_t ki; - spp_ctx_t *ctx __attribute__((unused)) - = (spp_ctx_t *) &vnet_buffer(b0)->vcgn_uii; - cnat_main_db_entry_t *db = NULL; - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8*)ip + ipv4_hdr_len); - int disposition = CNAT_V4_UDP_I2O_T; - int counter = CNAT_V4_UDP_I2O_T_PKT; - - cnat_key_t dest_info; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_UDP) - - vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = clib_net_to_host_u32(ip->src_addr); - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - ki.k.k.vrf, CNAT_UDP) - - ki.k.k.ipv4 = clib_net_to_host_u32(ip->src_addr); - - - /* MUST REVISIT: commentting frag check. Unconditional destination port - * update. DONOT remove this #if 0 */ - ki.k.k.port = - clib_net_to_host_u16(udp->src_port); - dest_info.k.port = - clib_net_to_host_u16(udp->dest_port); -#if 0 - if(PREDICT_FALSE(ctx->ru.rx.frag)) { -#ifdef TOBE_PORTED - /* Must have routed through cnat_v4_frag_in2out node */ - u16 *feature_data_ports = (u16 *)&ctx->feature_data[2]; - ki.k.k.port = *feature_data_ports; - feature_data_ports++; - dest_info.k.port = *feature_data_ports; -#endif - } else { - ki.k.k.port = - clib_net_to_host_u16(udp->src_port); - dest_info.k.port = - clib_net_to_host_u16(udp->dest_port); - } -#endif /* if 0 */ - - dest_info.k.ipv4 = clib_net_to_host_u32(ip->dest_addr); - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - dest_info.k.vrf, CNAT_UDP) - - if (PREDICT_TRUE(ki.k.k.port)) { - if (ki.k.k.port & 0x1) { - db = cnat_get_main_db_entry_v2(&ki, PORT_S_ODD, PORT_TYPE_DYNAMIC, - &info, &dest_info); - } else { - db = cnat_get_main_db_entry_v2(&ki, PORT_S_EVEN, PORT_TYPE_DYNAMIC, - &info, &dest_info); - } - } else { - /* - * No UDP port value of 0 - drop it - */ - db = NULL; - info.error = CNAT_ERR_BAD_TCP_UDP_PORT; - } - - if (PREDICT_TRUE((u64)db)) { - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - /* - * step 6 do nat before fwd pkt - */ - swap_ip_src_udp_port(ip, udp, db); - /* - * update db for this pkt - */ - CNAT_DB_UPDATE_IN2OUT_TIMER - - /* Check timeout db if there is config for this */ - (void) query_and_update_db_timeout((void *)db, MAIN_DB_TYPE); - -/* Temporarily keeping it commented */ - //PLATFORM_CNAT_SET_TX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_TX], - // db->out2in_key.k.vrf) - in2out_forwarding_count++; - - } else { - switch (info.error) { - case (CNAT_NO_VRF_RUN): - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DR_PKT] += 1; - break; - case (CNAT_OUT_LIMIT): - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DO_PKT] += 1; - break; - case (CNAT_NO_PORT_ANY): - case (CNAT_NO_POOL_ANY): - case (CNAT_BAD_INUSE_ANY): - case (CNAT_NOT_FOUND_ANY): - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DA_PKT] += 1; - break; - case (CNAT_INV_PORT_DIRECT): - case (CNAT_DEL_PORT_DIRECT): - case (CNAT_BAD_INUSE_DIRECT): - case (CNAT_NOT_FOUND_DIRECT): - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DD_PKT] += 1; - break; - case (CNAT_ERR_BAD_TCP_UDP_PORT): - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DI_PKT] += 1; - break; - case (CNAT_ERR_NO_SESSION_DB): - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DS_PKT] += 1; - break; - default: - em->counters[node_counter_base_index + CNAT_V4_UDP_I2O_DC_PKT] += 1; - break; - } - /* - * send to icmp msg generate node - */ - if (info.gen_icmp_msg == CNAT_ICMP_MSG) { -#ifdef TOBE_PORTED - u32 *fd = (u32*)ctx->feature_data; - fd[0] = info.svi_addr; - fd[1] = CNAT_ICMP_DEST_UNREACHABLE; -#endif - disposition = CNAT_V4_ICMP_G_I2O_T; - counter = CNAT_V4_ICMP_G_I2O_T_PKT; - } else { - disposition = CNAT_V4_UDP_I2O_D; - counter = CNAT_V4_UDP_I2O_D_PKT; - } - DEBUG_I2O_DROP(CNAT_DEBUG_DROP_UDP) - } - - em->counters[node_counter_base_index + counter] += 1; - - return disposition; -} - - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_udp_inside_input_exc_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - -VLIB_REGISTER_NODE (cnat_ipv4_udp_inside_input_exc_node) = { - .function = cnat_ipv4_udp_inside_input_exc_node_fn, - .name = "vcgn-v4-udp-i2o-e", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_udp_inside_input_exc_error_strings), - .error_strings = cnat_ipv4_udp_inside_input_exc_error_strings, - - .n_next_nodes = CNAT_V4_UDP_INSIDE_INPUT_EXC_N_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [CNAT_V4_UDP_I2O_T] = "ip4-input", - [CNAT_V4_UDP_I2O_D] = "error-drop", - }, -}; - - -clib_error_t *cnat_ipv4_udp_inside_input_exc_init (vlib_main_t *vm) -{ - cnat_ipv4_udp_inside_input_exc_main_t * mp = &cnat_ipv4_udp_inside_input_exc_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_udp_inside_input_exc_init); - diff --git a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_outside_input.c b/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_outside_input.c deleted file mode 100644 index 5a24a111f75..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ipv4_udp_outside_input.c +++ /dev/null @@ -1,605 +0,0 @@ - -/* - *--------------------------------------------------------------------------- - * cnat_ipv4_udp_outside_input_stages.c - cnat_ipv4_udp_outside_input node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_ipv4_udp.h" -#include "dslite_db.h" -#include "cnat_db.h" -#include "cnat_v4_functions.h" - -//#include <dslite_v6_functions.h> -//#include <pool.h> -//#include "cnat_va_db.h" - -#define foreach_cnat_ipv4_udp_outside_input_error \ -_(CNAT_V4_UDP_O2I_T_PKT, "v4 udp o2i transmit") \ -_(CNAT_V4_DSLITE_ENCAP_CTR, "to dslite encap") \ -_(CNAT_V4_UDP_O2I_MISS_PKT, "v4 udp o2i db miss drop") \ -_(CNAT_V4_UDP_O2I_TTL_GEN, "v4 udp o2i TTL gen") \ -_(CNAT_V4_UDP_O2I_TTL_DROP, "v4 udp o2i TTL drop") \ -_(CNAT_V4_UDP_O2I_PTB_GEN, "v4 ptb gen") \ -_(CNAT_V4_UDP_O2I_PTB_DROP, "v4 ptb throttle drop") \ -_(CNAT_V4_UDP_O2I_SESSION_DROP, "v4 udp o2i session drop") \ -_(CNAT_V4_UDP_O2I_FILTER_DROP, "v4 udp o2i drop: end point filtering") \ -_(CNAT_V4_UDP_O2I_SUB_FRAG_NO_DB_DROP, "v4 udp o2i subsequent frag no DB drop") \ -_(CNAT_V4_UDP_O2I_1ST_FRAG_FILTER_DROP, "v4 udp i2o 1st frag filter drop") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_udp_outside_input_error -#undef _ - CNAT_IPV4_UDP_OUTSIDE_INPUT_N_ERROR, -} cnat_ipv4_udp_outside_input_t; - -static char * cnat_ipv4_udp_outside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_udp_outside_input_error -#undef _ -}; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ipv4_udp_outside_input_main_t; - -typedef enum { - //CNAT_V4_O2I_FIXME, - CNAT_V4_UDP_O2I_E, - CNAT_V4_UDP_O2I_T, - CNAT_V4_UDP_O2I_NEXT, -} cnat_ipv4_udp_outside_input_next_t; - -//#define CNAT_V4_DSLITE_ENCAP CNAT_V4_O2I_FIXME -//#define CNAT_V4_UDP_O2I_E CNAT_V4_O2I_FIXME - -cnat_ipv4_udp_outside_input_main_t cnat_ipv4_udp_outside_input_main; -vlib_node_registration_t cnat_ipv4_udp_outside_input_node; - -#define NSTAGES 6 - -/* - * Use the generic buffer metadata + first line of packet data prefetch - * stage function from <api/pipeline.h>. This is usually a Good Idea. - */ -#define stage0 generic_stage0 - - -#if 0 -typedef struct cnat_ipv4_udp_outside_input_pipeline_data_ { - //spp_node_main_vector_t *nmv; - dslite_common_pipeline_data_t common_data; - /* Add additional pipeline stage data here... */ - u32 bucket; -#ifdef DSLITE_DEF - u32 user_bucket; - dslite_v4_to_v6_udp_counter_t *udp_counter; - dslite_icmp_gen_counter_t *icmp_gen_counter; - -#endif - cnat_key_t ki; - udp_hdr_type_t *udp; - u8 frag_pkt; -} cnat_ipv4_udp_outside_input_pipeline_data_t; - -#endif - -#define CNAT_UDP_OUTSIDE_UPDATE_FLAG_TIMER(db,dslite_nat44_inst_id) \ - if (PREDICT_FALSE(!(db->flags & CNAT_DB_FLAG_UDP_ACTIVE))) { \ - db->flags |= CNAT_DB_FLAG_UDP_ACTIVE; \ - CNAT_DB_TIMEOUT_RST(db); \ - } else if (PREDICT_FALSE(db->flags & CNAT_DB_DSLITE_FLAG)) { \ - if (PREDICT_TRUE(dslite_table_db_ptr[dslite_nat44_inst_id].mapping_refresh_both_direction)) { \ - CNAT_DB_TIMEOUT_RST(db); \ - } \ - } else if (PREDICT_TRUE(mapping_refresh_both_direction)) { \ - CNAT_DB_TIMEOUT_RST(db); \ - } \ - -#if 0 -static cnat_ipv4_udp_outside_input_pipeline_data_t pctx_data[SPP_MAXDISPATCH]; -#define EXTRA_PIPELINE_ARGS_PROTO , cnat_ipv4_udp_outside_input_pipeline_data_t *pctx -#define EXTRA_PIPELINE_ARGS , pctx - -#endif - -/*inline u32 -is_static_dest_nat_enabled(u16 vrf) -{ - if(static_dest_vrf_map_array[vrf] == 1) { - return CNAT_SUCCESS; - } - return CNAT_NO_CONFIG; -}*/ - -static inline void __attribute__((unused)) -swap_ip_dst(ipv4_header *ip, cnat_main_db_entry_t *db, u16 vrf) -{ - - CNAT_UPDATE_L3_CHECKSUM_DECLARE - /* - * calculate checksum - */ - CNAT_UPDATE_L3_CHECKSUM(((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - (clib_host_to_net_u16(ip->checksum)), - ((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16))) - //set ip header - ip->dest_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - ip->checksum = - clib_host_to_net_u16(new_l3_c); - -#if 0 - - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - direction = 1; - if(cnat_static_dest_db_get_translation(ip->src_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - old_ip = spp_net_to_host_byte_order_32(&(ip->src_addr)); - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(ip->checksum))), - ((u16)(old_postmap_ip & 0xFFFF)), - ((u16)(old_postmap_ip >> 16))) - ip->checksum = - clib_host_to_net_u16(new_l3_c); - ip->src_addr = postmap_ip; - } - } -#endif -} - -inline void swap_ip_dst_udp_port(ipv4_header *ip, - udp_hdr_type_t *udp, - cnat_main_db_entry_t *db, u16 vrf) -{ - -#define UDP_PACKET_DEBUG 1 - -// Temporary debugs which will be suppressed later -#ifdef UDP_PACKET_DEBUG - if (PREDICT_FALSE(udp_outside_packet_dump_enable)) { - printf("\nOut2In UDP packet before translation"); - print_udp_pkt(ip); - } -#endif - -#if 0 - if(is_static_dest_nat_enabled(vrf) == CNAT_SUCCESS) { - direction = 1; - if(cnat_static_dest_db_get_translation(ip->src_addr, &postmap_ip, vrf, direction) == CNAT_SUCCESS) { - - CNAT_UPDATE_L3_L4_CHECKSUM_DECLARE - - old_ip = spp_net_to_host_byte_order_32(&(ip->src_addr)); - old_postmap_ip = spp_net_to_host_byte_order_32(&postmap_ip); - - CNAT_UPDATE_L3_L4_CHECKSUM(((u16)(old_ip & 0xFFFF)), - ((u16)(old_ip >> 16)), - (spp_net_to_host_byte_order_16(&(udp->src_port))), - (spp_net_to_host_byte_order_16(&(ip->checksum))), - (spp_net_to_host_byte_order_16(&(udp->udp_checksum))), - ((u16)(old_postmap_ip & 0xFFFF)), - ((u16)(old_postmap_ip >> 16)), - (spp_net_to_host_byte_order_16(&(udp->src_port)))) - - ip->checksum = - clib_host_to_net_u16(new_l3_c); - ip->src_addr = postmap_ip; - if (PREDICT_TRUE(udp->udp_checksum)) { - udp->udp_checksum = clib_host_to_net_u16(new_l4_c); - } - } - } -#endif - /* - * declare variable - */ - CNAT_UPDATE_L3_L4_CHECKSUM_DECLARE - /* - * calculate checksum - */ - CNAT_UPDATE_L3_L4_CHECKSUM(((u16)(db->out2in_key.k.ipv4)), - ((u16)(db->out2in_key.k.ipv4 >> 16)), - (db->out2in_key.k.port), - (clib_net_to_host_u16(ip->checksum)), - (clib_net_to_host_u16(udp->udp_checksum)), - ((u16)(db->in2out_key.k.ipv4)), - ((u16)(db->in2out_key.k.ipv4 >> 16)), - (db->in2out_key.k.port)) - - - - - //set ip header - ip->dest_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - ip->checksum = - clib_host_to_net_u16(new_l3_c); - - //set udp header - udp->dest_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - /* - * No easy way to avoid this if check except by using - * complex logic - may not be worth it. - */ - if (PREDICT_TRUE(udp->udp_checksum)) { - udp->udp_checksum = clib_host_to_net_u16(new_l4_c); - } - - - -// Temporary debugs which will be suppressed later -#ifdef UDP_PACKET_DEBUG - if (PREDICT_FALSE(udp_outside_checksum_disable)) { - printf("\nOut2In UDP checksum 0x%x disabled by force", new_l4_c); - udp->udp_checksum = 0; - } - if (PREDICT_FALSE(udp_outside_packet_dump_enable)) { - printf("\nOut2In UDP packet after translation"); - print_udp_pkt(ip); - } -#endif -} - -static inline void -stage1(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - u64 a, b, c; - u32 bucket; - u8 *prefetch_target; - - vlib_buffer_t * b0 = vlib_get_buffer (vm, buffer_index); - ipv4_header *ip = vlib_buffer_get_current (b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8*)ip + ipv4_hdr_len); - - u64 tmp = 0; - tmp = vnet_buffer(b0)->vcgn_uii.key.k.ipv4 = - clib_net_to_host_u32(ip->dest_addr); - vnet_buffer(b0)->vcgn_uii.key.k.port = - clib_net_to_host_u16 (udp->dest_port); - - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.port) << 32; - - PLATFORM_CNAT_SET_RX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_RX], - vnet_buffer(b0)->vcgn_uii.key.k.vrf, - CNAT_UDP) - tmp |= ((u64)vnet_buffer(b0)->vcgn_uii.key.k.vrf) << 48; - - CNAT_V4_GET_HASH(tmp, bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_out2in_hash[bucket]); - vnet_buffer(b0)->vcgn_uii.bucket = bucket; - - /* Prefetch the hash bucket */ - CLIB_PREFETCH(prefetch_target, CLIB_CACHE_LINE_BYTES, LOAD); -} - -static inline void -stage2(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ /* nothing */ } - -#define SPP_LOG2_CACHE_LINE_BYTES 6 -#define SPP_CACHE_LINE_BYTES (1 << SPP_LOG2_CACHE_LINE_BYTES) - -static inline void -stage3(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - uword prefetch_target0, prefetch_target1; - u32 bucket = vnet_buffer(b0)->vcgn_uii.bucket; - - /* read the hash bucket */ - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket - = cnat_out2in_hash[bucket].next; - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - prefetch_target0 = (uword)(cnat_main_db + db_index); - CLIB_PREFETCH((void*)prefetch_target0, CLIB_CACHE_LINE_BYTES, STORE); - /* Just beyond DB key #2 */ - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - /* If the targets are in different lines, do the second prefetch */ - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - CLIB_PREFETCH((void *)prefetch_target1, CLIB_CACHE_LINE_BYTES, STORE); - } - } -} - -static inline void -stage4(vlib_main_t * vm, vlib_node_runtime_t * node, u32 buffer_index) -{ - cnat_main_db_entry_t *db; - vlib_buffer_t * b0 = vlib_get_buffer(vm, buffer_index); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->out2in_key.key64 == - vnet_buffer(b0)->vcgn_uii.key.key64)) { - break; - } - db_index = db->out2in_hash.next; - } while (db_index != EMPTY); - - /* Stick the answer back into the pipeline context structure */ - vnet_buffer(b0)->vcgn_uii.bucket = db_index; - } -} - -#if 0 - -ALWAYS_INLINE( -static inline void -stage5(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO)) -{ - spp_ctx_t *ctx = ctxs[index]; - u32 db_index = pctx[index].bucket; - /* for nat44, dslite_id will be 1 */ - u16 dslite_id = *(pctx[index].common_data.dslite_id_ptr); - - DSLITE_PREFETCH_COUNTER(pctx[index].udp_counter, - &dslite_all_counters[dslite_id].v46_udp_counters, - dslite_v4_to_v6_udp_counter_t, - v4_to_v6_udp_output_count, - "V4_TO_V6_UDP") - - DSLITE_PREFETCH_COUNTER(pctx[index].icmp_gen_counter, - &dslite_all_counters[dslite_id].dslite_icmp_gen_counters, - dslite_icmp_gen_counter_t, - v6_icmp_gen_count, - "V4_TO_V6_icmp") - -if (PREDICT_TRUE(db_index != EMPTY)) { - cnat_main_db_entry_t *db = cnat_main_db + db_index; - - u32 user_db_index = db->user_index; - DSLITE_PRINTF(1, "UDP o2i, db entry found %u %u %u\n", - db_index, user_db_index, - db->dslite_nat44_inst_id); - uword prefetch_target0 = (uword)(cnat_user_db + user_db_index); - SPP_PREFETCH(prefetch_target0, 0, LOAD); - pctx[index].user_bucket = user_db_index; - DSLITE_PRINTF(1, "UDP: Done with prefetch..\n"); -} else { - DSLITE_PRINTF(1, "UDP: Stage 5, db_index empty...\n"); -} -} - -#endif - - -static inline u32 last_stage (vlib_main_t *vm, vlib_node_runtime_t *node, - u32 bi) -{ - - vlib_buffer_t *b0 = vlib_get_buffer (vm, bi); - u32 db_index = vnet_buffer(b0)->vcgn_uii.bucket; - //spp_ctx_t *ctx = (spp_ctx_t *) &vnet_buffer(b0)->vcgn_uii; - int disposition = CNAT_V4_UDP_O2I_T; - int counter = CNAT_V4_UDP_O2I_T_PKT; - ipv4_header *ip = (ipv4_header *)vlib_buffer_get_current(b0); - u8 ipv4_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; - udp_hdr_type_t *udp = (udp_hdr_type_t *)((u8*)ip + ipv4_hdr_len); - vlib_node_t *n = vlib_get_node (vm, cnat_ipv4_udp_outside_input_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - cnat_session_entry_t *session_db = NULL; - cnat_main_db_entry_t *db = NULL; - cnat_key_t dest_info; - u16 dslite_nat44_inst_id __attribute__((unused)) = 0; - - dest_info.k.port = clib_net_to_host_u16(udp->src_port); - dest_info.k.ipv4 = clib_net_to_host_u32(ip->src_addr); - - if (PREDICT_TRUE(db_index != EMPTY)) { - /* TTL gen was disabled for nat44 earlier - * But since dslite has got integrated in this - * TTL gen is enabled - */ - - db = cnat_main_db + db_index; - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - CNAT_UDP_OUTSIDE_UPDATE_FLAG_TIMER(db, 0) - goto update_pkt; - } - - - if(PREDICT_TRUE((db->dst_ipv4 == dest_info.k.ipv4) && - (db->dst_port == dest_info.k.port))) { - - CNAT_UDP_OUTSIDE_UPDATE_FLAG_TIMER(db, 0) - goto update_pkt; - } else { - /* The session entries belonging to this entry are checked to find - * if an entry exist whose destination IP and port match with the - * source IP and port of the packet being processed - */ - dest_info.k.vrf = db->in2out_key.k.vrf; - - if (PREDICT_FALSE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - CNAT_UDP_OUTSIDE_UPDATE_FLAG_TIMER(db, 0) - - } else if(PREDICT_TRUE(db->nsessions == 1)) { - - /* Destn is not same as in main db. Multiple session - * scenario - */ - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_V4_UDP_O2I_E; - counter = CNAT_V4_UDP_O2I_SESSION_DROP; - goto drop_pkt; - } - - /* update session_db(cur packet) timer */ - CNAT_UDP_OUTSIDE_UPDATE_FLAG_TIMER(session_db, 0) - } else { - /* More 2 sessions exists */ - - dest_info.k.vrf = db->in2out_key.k.vrf; - - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, - db, TRUE); - - if(PREDICT_FALSE(session_db != NULL)) { - /* session exists */ - CNAT_UDP_OUTSIDE_UPDATE_FLAG_TIMER(session_db, 0) - } else { - /* could not create session db - drop packet */ - disposition = CNAT_V4_UDP_O2I_E; - counter = CNAT_V4_UDP_O2I_SESSION_DROP; - goto drop_pkt; - } - } - } - -update_pkt: - - /* - * 1. update dest ipv4 addr and dest udp port - * 2. update ipv4 checksum and udp checksum - */ - //swap_ip_dst(ip, db, db->in2out_key.k.vrf); - swap_ip_dst_udp_port(ip, udp, db, db->in2out_key.k.vrf); - //DSLITE_PRINTF(1, "Done with swap_ip_dst_udp_port..\n"); - - db->out2in_pkts++; - - nat44_dslite_global_stats[0].out2in_forwarding_count++; - - /* #### Temporarily COMMENTED FOR IP ROUTE LOOKUP ISSUE #### */ - - //PLATFORM_CNAT_SET_TX_VRF(vnet_buffer(b0)->sw_if_index[VLIB_TX], - // db->in2out_key.k.vrf) - } else { - disposition = CNAT_V4_UDP_O2I_E; - counter = CNAT_V4_UDP_O2I_MISS_PKT; - /* for NAT44 dslite_id would be 1 */ - nat44_dslite_common_stats[0].no_translation_entry_drops ++; - } - -drop_pkt: - - em->counters[node_counter_base_index + counter] += 1; - return disposition; -} - -#include <vnet/pipeline.h> - -static uword cnat_ipv4_udp_outside_input_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - return dispatch_pipeline (vm, node, frame); -} - - -VLIB_REGISTER_NODE (cnat_ipv4_udp_outside_input_node) = { - .function = cnat_ipv4_udp_outside_input_node_fn, - .name = "vcgn-v4-udp-o2i", - .vector_size = sizeof (u32), - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(cnat_ipv4_udp_outside_input_error_strings), - .error_strings = cnat_ipv4_udp_outside_input_error_strings, - - .n_next_nodes = CNAT_V4_UDP_O2I_NEXT, - - /* edit / add dispositions here */ -#if 0 - .next_nodes = { - //[CNAT_V4_O2I_FIXME] = "error-drop", - //[CNAT_V4_UDP_O2I_E] = "vcgn-v4-udp-o2i-e", - [CNAT_V4_UDP_O2I_E] = "vcgn-v4-udp-o2i-e", - [CNAT_V4_UDP_O2I_T] = "ip4-input", - }, -#endif - .next_nodes = { - [CNAT_V4_UDP_O2I_E] = "error-drop", - [CNAT_V4_UDP_O2I_T] = "ip4-input", - }, - -}; - -clib_error_t *cnat_ipv4_udp_outside_input_init (vlib_main_t *vm) -{ - cnat_ipv4_udp_outside_input_main_t * mp = &cnat_ipv4_udp_outside_input_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - return 0; -} - -VLIB_INIT_FUNCTION (cnat_ipv4_udp_outside_input_init); diff --git a/plugins/vcgn-plugin/vcgn/cnat_log_api.h b/plugins/vcgn-plugin/vcgn/cnat_log_api.h deleted file mode 100644 index 60cf683697d..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_log_api.h +++ /dev/null @@ -1,114 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_log_api.h - * Declraes the common APIs for logging (both syslog and NFV9) - * Copyright (c) 2013, 20122 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_LOG_API_H__ -#define __CNAT_LOG_API_H__ - -#include "cnat_logging.h" - -static inline void cnat_log_ds_lite_mapping_delete(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - return; -} - -static inline void cnat_log_ds_lite_mapping_create(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - return; -} - -static inline void cnat_log_ds_lite_port_limit_exceeded( - dslite_key_t * key, - dslite_table_entry_t *dslite_entry_ptr) -{ - return; - -} - -static inline void cnat_log_nat44_port_limit_exceeded( - cnat_key_t * key, - cnat_vrfmap_t *vrfmap) -{ - return; -} -static inline void cnat_log_nat44_mapping_create(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - return; -} - -static inline void cnat_log_nat44_mapping_delete(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - return; -} - -/* Session Logging API for nat44 */ -static inline void cnat_session_log_nat44_mapping_create ( - cnat_main_db_entry_t *db, - cnat_session_entry_t *sdb, - cnat_vrfmap_t *vrfmap ) -{ - return; -} - -static inline void cnat_session_log_nat44_mapping_delete ( - cnat_main_db_entry_t *db, - cnat_session_entry_t *sdb, - cnat_vrfmap_t *vrfmap ) -{ - return; -} - -/* Session Logging API for dslite */ -static inline void cnat_session_log_ds_lite_mapping_create ( - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, - cnat_session_entry_t *sdb ) -{ - return; -} - -static inline void cnat_session_log_ds_lite_mapping_delete ( - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, - cnat_session_entry_t *sdb ) -{ - return; -} - -#endif /* #ifndef __CNAT_LOG_API_H__ */ - diff --git a/plugins/vcgn-plugin/vcgn/cnat_log_common.h b/plugins/vcgn-plugin/vcgn/cnat_log_common.h deleted file mode 100644 index 52731bc0028..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_log_common.h +++ /dev/null @@ -1,79 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_log_common.h - * Contains macros and definitions that are common to both syslog and nfv9 - * Copyright (c) 2011-2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_LOG_COMMON_H__ -#define __CNAT_LOG_COMMON_H__ - -#include <stdio.h> -#include <vlib/vlib.h> -#include <vnet/vnet.h> - -#include "cnat_db.h" -#include "nat64_db.h" -#include "spp_timers.h" -#include "spp_ctx.h" - -/* - * This corresponds to the length of the IMETRO SHIM Header for RODDICK - * For non-roddick cases, introduce an Ethernet header as well - */ -#if 0 - #if defined(TARGET_RODDICK) - #define CNAT_NFV9_SHIM_HDR_OFFSET 8 - #define CNAT_NFV9_L2_ENCAPS_OFFSET 0 - #else - #define CNAT_NFV9_SHIM_HDR_OFFSET 0 - #define CNAT_NFV9_L2_ENCAPS_OFFSET 16 - #endif -#endif - - #define CNAT_NFV9_IP_HDR_OFFSET 0 - - #define CNAT_NFV9_UDP_HDR_OFFSET \ - (CNAT_NFV9_IP_HDR_OFFSET + sizeof(ipv4_header)) - - #define CNAT_NFV9_HDR_OFFSET \ - (CNAT_NFV9_UDP_HDR_OFFSET + sizeof(udp_hdr_type_t)) - -u32 cnat_get_sys_up_time_in_ms(void); -u32 cnat_get_unix_time_in_seconds(void); -void cnat_dump_time_change_logs(void); -void cnat_handle_sys_time_change (time_t current_unix_time); -/* - * Maximum number of time log changes we maintain - */ - -#define MAX_TIME_CHANGE_LOGS (8) - -typedef struct { - /* - * A timer structure to periodically send NFv9 & syslog logging packets - * that have been waiting to be full for a long time. This will - * ensure add/delete events don't get delayed too much before they - * are sent to the collector. - */ - spp_timer_t log_timer; - - /* - * Whether we have initialized the NFv9 information - */ - u8 cnat_log_init_done; -} cnat_log_global_info_t; - -#endif /* __CNAT_LOG_COMMON_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_logging.c b/plugins/vcgn-plugin/vcgn/cnat_logging.c deleted file mode 100644 index 71f156a9c14..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_logging.c +++ /dev/null @@ -1,3500 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_logging.c - * - * Copyright (c) 2009-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> -#include <vnet/ip/ip.h> -#include <vnet/ip/ip4.h> -#include <vnet/ip/ip4_packet.h> -#include <vnet/ip/format.h> -#include <vnet/ip/udp.h> - - -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_v4_functions.h" -#include "tcp_header_definitions.h" -#include "cnat_v4_ftp_alg.h" -#include "cnat_logging.h" -#include "platform_common.h" - -#define CNAT_NFV9_DEBUG_CODE 2 -#if CNAT_NFV9_DEBUG_CODE > 3 - -#define NFV9_COND if ((my_instance_number != 0) && (my_instance_number != 15)) - -#define NFV9_DEBUG_PRINTF1(a) NFV9_COND printf(a); -#define NFV9_DEBUG_PRINTF2(a, b) NFV9_COND printf(a, b); -#define NFV9_DEBUG_PRINTF3(a, b, c) NFV9_COND printf(a, b, c); -#define NFV9_DEBUG_PRINTF4(a, b, c, d) NFV9_COND printf(a, b, c, d); - -#else - -#define NFV9_DEBUG_PRINTF1(a) -#define NFV9_DEBUG_PRINTF2(a, b) -#define NFV9_DEBUG_PRINTF3(a, b, c) -#define NFV9_DEBUG_PRINTF4(a, b, c, d) - -#endif - -static void cnat_nfv9_insert_ingress_vrfid_name_record(cnat_nfv9_logging_info_t *nfv9_logging_info, u16 index); -void cnat_nfv9_ingress_vrfid_name_mapping_create( - cnat_nfv9_logging_info_t *nfv9_logging_info); - - -cnat_nfv9_global_info_t cnat_nfv9_global_info; - -cnat_nfv9_template_t cnat_nfv9_template_info; - -#define CNAT_NFV9_OPTION_TEMPLATE cnat_nfv9_template_info.cnat_nfv9_option_template - -u16 cnat_template_id[MAX_RECORDS] = - {0, CNAT_NFV9_ADD_TEMPLATE_ID, CNAT_NFV9_DEL_TEMPLATE_ID, - CNAT_NFV9_NAT64_ADD_BIB_TEMPLATE_ID,CNAT_NFV9_NAT64_DEL_BIB_TEMPLATE_ID, - CNAT_NFV9_NAT64_ADD_SESSION_TEMPLATE_ID, - CNAT_NFV9_NAT64_DEL_SESSION_TEMPLATE_ID, - CNAT_NFV9_DS_LITE_ADD_TEMPLATE_ID, - CNAT_NFV9_DS_LITE_DEL_TEMPLATE_ID -#ifndef NO_BULK_LOGGING - , CNAT_NFV9_NAT44_BULK_ADD_TEMPLATE_ID, - CNAT_NFV9_NAT44_BULK_DEL_TEMPLATE_ID, - CNAT_NFV9_DS_LITE_BULK_ADD_TEMPLATE_ID, - CNAT_NFV9_DS_LITE_BULK_DEL_TEMPLATE_ID -#endif /* #ifndef NO_BULK_LOGGING */ - , CNAT_NFV9_INGRESS_VRF_ID_NAME_TEMPLATE_ID, - CNAT_NFV9_NAT44_ADD_SESSION_TEMPLATE_ID, - CNAT_NFV9_NAT44_DEL_SESSION_TEMPLATE_ID, - CNAT_NFV9_DS_LITE_ADD_SESSION_TEMPLATE_ID, - CNAT_NFV9_DS_LITE_DEL_SESSION_TEMPLATE_ID - }; - -/* - * Logging information structures - */ -cnat_nfv9_logging_info_t cnat_default_nfv9_logging_info; -cnat_nfv9_logging_info_t *cnat_nfv9_logging_info_pool; -#define NFV9_SERVER_POOL_SIZE 16 -nfv9_server_info_t *nfv9_server_info_pool; - -u32 nfv9_src_id = 0; - -u32 -cnat_get_sys_up_time_in_ms (void) -{ - vlib_main_t * vm = vlib_get_main(); - u32 cnat_curr_time; - - cnat_curr_time = (u32)vlib_time_now (vm); - return cnat_curr_time; -} - -void -cnat_dump_time_change_logs (void) -{ - return; -} - -inline void cnat_nfv9_handle_sys_time_change(time_t current_unix_time) -{ - return; - #if 0 - cnat_handle_sys_time_change(current_unix_time); - #endif -} - -void cnat_nfv9_update_sys_time_change() -{ - cnat_nfv9_logging_info_t *my_nfv9_logging_info = NULL; - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - nfv9_server_info_t *server = nfv9_server_info_pool + - my_nfv9_logging_info->server_index; - server->last_template_sent_time = 0; - })); -} - -void nfv9_params_show(u32 logging_index) -{ - cnat_nfv9_logging_info_t *log_info; - if(logging_index == EMPTY) { - PLATFORM_DEBUG_PRINT("\nNetflow logging not configured\n"); - return; - } - - log_info = cnat_nfv9_logging_info_pool + logging_index; - nfv9_server_info_t *server __attribute__((unused)) - = nfv9_server_info_pool + log_info->server_index; - - - PLATFORM_DEBUG_PRINT("\nNetflow parameters --\n"); - PLATFORM_DEBUG_PRINT("Server index %d IPV4 address: %x, port %d, max log size %d\n", - log_info->server_index, server->ipv4_address, - server->port, log_info->max_length_minus_max_record_size); - - PLATFORM_DEBUG_PRINT("Server ref count %d Refresh rate %d timeout rate %d\n", - server->ref_count, server->refresh_rate, - server->timeout_rate); - -} - -/* - * Code to dump NFV9 packets before they are sent - */ -void -cnat_nfv9_dump_logging_context (u32 value1, - cnat_nfv9_logging_info_t *nfv9_logging_info, - u32 value2) -{ - u8 *pkt_ptr; - u32 i; - u32 next_nfv9_template_data_index = 0xffff; - u32 next_data_flow_index = 0xffff; - u32 next_data_record = 0xffff; - u32 data_record_size = 0; - vlib_main_t *vm = vlib_get_main(); - - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_logging_info->server_index; - - vlib_cli_output(vm,"\nDumping %s packet at locn %d: time 0x%x", - (value2 == 1) ? "CURRENT" : "QUEUED", - value1, - cnat_nfv9_get_unix_time_in_seconds()); - - vlib_cli_output(vm, "\ni_vrf 0x%x, ip_address 0x%x, port %d", - nfv9_logging_info->i_vrf, - server->ipv4_address, - server->port); - - vlib_cli_output(vm,"\nseq_num %d", - server->sequence_num); - - vlib_cli_output(vm,"\nlast_template_sent time 0x%x, pkts_since_last_template %d", - server->last_template_sent_time, - server->pkts_since_last_template); - - vlib_cli_output(vm, "\npkt_len %d, add_rec_len %d, del_rec_len %d, total_rec_count %d", - nfv9_logging_info->pkt_length, - nfv9_logging_info->record_length[NAT44_ADD_RECORD], - nfv9_logging_info->record_length[NAT44_DEL_RECORD], - nfv9_logging_info->total_record_count); - - vlib_cli_output(vm,"\nbulk_add_rec_len %d, bulk_del_rec_len %d", - nfv9_logging_info->record_length[NAT44_BULK_ADD_RECORD], - nfv9_logging_info->record_length[NAT44_BULK_DEL_RECORD]); - - vlib_cli_output(vm,"\ncurr_logging_ctx 0x%p, timestamp 0x%x, queued_logging_ctx 0x%p", - nfv9_logging_info->current_logging_context, - nfv9_logging_info->current_logging_context_timestamp, - nfv9_logging_info->queued_logging_context); - - vlib_cli_output(vm,"\nnfv9_hdr 0x%p, tmpl_hdr 0x%p, dataflow_hdr 0x%p", - nfv9_logging_info->nfv9_header, - nfv9_logging_info->nfv9_template_header, - nfv9_logging_info->dataflow_header); - - vlib_cli_output(vm,"\nadd_rec 0x%p, del_rec 0x%p, next_data_ptr 0x%p", - nfv9_logging_info->record[NAT44_ADD_RECORD], - nfv9_logging_info->record[NAT44_DEL_RECORD], - nfv9_logging_info->next_data_ptr); - - vlib_cli_output(vm,"\n"); - - pkt_ptr = vlib_buffer_get_current(nfv9_logging_info->current_logging_context); - /* - * Dump along with 8 bytes of SHIM header - */ - for (i = 0; i < (nfv9_logging_info->pkt_length + CNAT_NFV9_IP_HDR_OFFSET); - i = i + 1) { - u8 c1, c2, c3; - if (i == CNAT_NFV9_IP_HDR_OFFSET) { - vlib_cli_output(vm,"\nIP_HEADER: \n"); - } else if (i == CNAT_NFV9_UDP_HDR_OFFSET) { - vlib_cli_output(vm,"\nUDP_HEADER: \n"); - } else if (i == CNAT_NFV9_HDR_OFFSET) { - vlib_cli_output(vm,"\nNFV9 Header: Version:Count: \n"); - } else if (i == (CNAT_NFV9_HDR_OFFSET+4)) { - vlib_cli_output(vm,"\nBoot_Up_Time_In_ms: \n"); - } else if (i == (CNAT_NFV9_HDR_OFFSET+8)) { - vlib_cli_output(vm, "\nUNIX_Time: \n"); - } else if (i == (CNAT_NFV9_HDR_OFFSET+12)) { - vlib_cli_output(vm,"\nSeq_Num: \n"); - } else if (i == (CNAT_NFV9_HDR_OFFSET+16)) { - vlib_cli_output(vm,"\nSource ID: \n"); - } else if (i == (CNAT_NFV9_HDR_OFFSET+20)) { - if (nfv9_logging_info->nfv9_template_header) { - vlib_cli_output(vm,"\nNFV9 TEMPLATE HDR: \n"); - next_nfv9_template_data_index = i + 4; - } else { - next_data_flow_index = i; - } - } else if (i == (CNAT_NFV9_TEMPLATE_OFFSET+CNAT_NFV9_TEMPLATE_LENGTH)) { - if (nfv9_logging_info->nfv9_template_header) { - next_data_flow_index = i; - } - } - - if (i == next_nfv9_template_data_index) { - vlib_cli_output(vm,"\nNFV9 TEMPLATE DATA: \n"); - } else if (i == next_data_flow_index) { - if (*(pkt_ptr + i) == 0x01) { - if (*(pkt_ptr + i + 1) == 0x00) { - data_record_size = 21; - next_data_record = i + 4; - next_data_flow_index = i + *(pkt_ptr + i + 3) + - *(pkt_ptr + i + 2)*0x100; - vlib_cli_output(vm,"\nADD_RECORD (total %d): next_data_flow_index (%d->%d)\n", (next_data_flow_index - i), i, next_data_flow_index); - } else if (*(pkt_ptr + i + 1) == 0x01) { - data_record_size = 11; - next_data_record = i + 4; - next_data_flow_index = i + *(pkt_ptr + i + 3) + - *(pkt_ptr + i + 2)*0x100; - vlib_cli_output(vm,"\nDEL_RECORD (total %d) : next_data_flow_index (%d->%d)\n", (next_data_flow_index - i), i, next_data_flow_index); - } else if (*(pkt_ptr + i + 1) == 0x09) { - data_record_size = 20; - next_data_record = i + 4; - next_data_flow_index = i + *(pkt_ptr + i + 3) + - *(pkt_ptr + i + 2)*0x100; - vlib_cli_output(vm,"\nBULK_ADD_RECORD (total %d) : next_data_flow_index (%d->%d)\n", (next_data_flow_index - i), i, next_data_flow_index); - } else if (*(pkt_ptr + i + 1) == 0x0a) { - data_record_size = 10; - next_data_record = i + 4; - next_data_flow_index = i + *(pkt_ptr + i + 3) + - *(pkt_ptr + i + 2)*0x100; - vlib_cli_output(vm,"\nBULK_DEL_RECORD (total %d) : next_data_flow_index (%d->%d)\n", (next_data_flow_index - i), i, next_data_flow_index); - } - - } - } else if (i == next_data_record) { - vlib_cli_output(vm,"\n"); - next_data_record += data_record_size; - } - - c3 = *(pkt_ptr + i); - - c2 = c3 & 0xf; - c1 = (c3 >> 4) & 0xf; - - - vlib_cli_output(vm,"%c%c ", - ((c1 <= 9) ? (c1 + '0') : (c1 - 10 + 'a')), - ((c2 <= 9) ? (c2 + '0') : (c2 - 10 + 'a'))); - - } - vlib_cli_output(vm,"\n"); -} - -/* - * edt: * * cnat_nfv9_pad_added_to_an_addr - * - * Returns the difference (no# of bytes) between new_addr - * & org_addr - * - * Argument: u8 *new_addr, u8 *org_addr - * returns the difference - */ - -static inline -int cnat_nfv9_pad_added_to_an_addr(u8 *new_addr, u8 *org_addr) -{ - uword addr1 = (uword) new_addr; - uword addr2 = (uword) org_addr; - return (addr1 - addr2); -} - -/* - * edt: * * cnat_nfv9_add_end_of_record_padding - * - * Tries to add padding to data_ptr to ensure it is word aligned - * - * Argument: u8 * data_ptr - * pointer to the data pointer - */ - -static inline -u8 *cnat_nfv9_add_end_of_record_padding (u8 *data_ptr) -{ - uword tmp = (uword) data_ptr; - uword pad_value = (uword) NFV9_PAD_VALUE; - - tmp = (tmp + pad_value) & (~pad_value); - - return ((u8 *) tmp); -} - -/* - * edt: * * cnat_nfv9_pad_end_of_record_length - * - * Tries to add padding to data_ptr to ensure it is word aligned - * - * Argument: u8 * data_ptr - * pointer to the data pointer - */ - -static inline -u16 cnat_nfv9_pad_end_of_record_length (u16 record_length) -{ - u16 pad_value = NFV9_PAD_VALUE; - - return ((record_length + pad_value) & (~pad_value)); -} - -void fill_ip_n_udp_hdr (u32 ipv4_addr, u16 port, - cnat_nfv9_logging_info_t *nfv9_logging_info) -{ - vlib_buffer_t * b0 = nfv9_logging_info->current_logging_context; - ipv4_header *ip_header = vlib_buffer_get_current(b0); - udp_hdr_type_t *udp_header = (udp_hdr_type_t *)((u8*)ip_header + sizeof(ipv4_header)); - vlib_main_t *vm = vlib_get_main(); - u16 ip_length __attribute__((unused)); - u16 pkt_len = nfv9_logging_info->pkt_length; - ip4_address_t *ia0 = 0; - u16 src_port = 0x0a0a; - - /* - * Clear the SHIM header fields. The PD nodes will set it - * appropriately. - */ - PLATFORM_MEMSET_CNAT_LOG_PKT_DATA - - /* - * Don't need a special define for 0x45 - IP version and hdr len - */ - ip_header->version_hdr_len_words = 0x45; - ip_header->tos = 0; - ip_header->frag_flags_offset = 0; - ip_header->ttl = 0xff; - ip_header->protocol = UDP_PROT; - ip_header->dest_addr = clib_host_to_net_u32(ipv4_addr); - ip_length = vlib_buffer_length_in_chain (vm, b0); - ip_header->total_len_bytes = clib_host_to_net_u16(pkt_len); - ia0 = ip4_interface_first_address(&ip4_main, nfv9_logging_info->i_vrf_id, 0); - ip_header->src_addr = ia0->as_u32; - udp_header->src_port = clib_host_to_net_u16(src_port); - udp_header->dest_port = clib_host_to_net_u16(port); - udp_header->udp_checksum = 0; - udp_header->udp_length = - clib_host_to_net_u16(pkt_len - sizeof(ipv4_header)); - ip_header->checksum = ip4_header_checksum((ip4_header_t *)ip_header); -} - -/* - * edt: * * cnat_nfv9_fill_nfv9_ip_header - * - * Tries to fill the fields of the IP header before it - * is sent to the L3 infra node. - * - * Argument: cnat_nfv9_logging_info_t *nfv9_logging_info - * structure that contains the packet context - */ - -static inline -void cnat_nfv9_fill_nfv9_ip_header (cnat_nfv9_logging_info_t *nfv9_logging_info) -{ - u16 new_record_length = 0; - u16 orig_record_length = 0; - vlib_buffer_t * b0 = nfv9_logging_info->current_logging_context; - - /* - * Fill in the IP header and port number of the Netflow collector - * The L3 Infra node will fill in the rest of the fields - */ - - nfv9_logging_info->nfv9_header->count = - clib_host_to_net_u16(nfv9_logging_info->total_record_count); - - /* - * Pad the last add/del record to ensure multiple of 4 bytes - */ - - if(nfv9_logging_info->last_record != RECORD_INVALID) { - - orig_record_length = - nfv9_logging_info->record_length[nfv9_logging_info->last_record]; - - new_record_length = cnat_nfv9_pad_end_of_record_length( - orig_record_length); - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u16(new_record_length); - } - - /* - * If the record is padded, ensure the padded bytes are ZERO - */ - if (PREDICT_TRUE(new_record_length - orig_record_length)) { - u8 *pkt_ptr = (u8 *) (b0 + nfv9_logging_info->pkt_length); - - /* - * Blindly copy 3 bytes of data to Zero to avoid for loops - * We have sufficient padding bytes for safety and we won't - * go over buffer limits - */ - *pkt_ptr++ = 0; - *pkt_ptr++ = 0; - *pkt_ptr++ = 0; - - nfv9_logging_info->pkt_length += - (new_record_length - orig_record_length); - } - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_logging_info->server_index; - fill_ip_n_udp_hdr(server->ipv4_address, - server->port, nfv9_logging_info); - /* - * It is important to set the sw_if_index for the new buffer create - */ - vnet_buffer(b0)->sw_if_index[VLIB_TX] = (u32)~0; - -} - -/* - * edt: * * cnat_nfv9_send_queued_pkt - * - * Tries to send a logging pkt that has been queued earlier - * because it could not be sent due to downstream constipation - * - * Argument: cnat_nfv9_logging_info_t *nfv9_logging_info - * structure that contains the packet context - */ - -static inline -void cnat_nfv9_send_queued_pkt (cnat_nfv9_logging_info_t *nfv9_logging_info) -{ - return; -} - -/* - * edt: * * cnat_nfv9_send_pkt - * - * Tries to send a logging pkt. If the packet cannot be sent - * because of rewrite_output node cannot process it, queue - * it temporarily and try to send it later. - * - * Argument: cnat_nfv9_logging_info_t *nfv9_logging_info - * structure that contains the packet context - */ - -static inline -void cnat_nfv9_send_pkt (cnat_nfv9_logging_info_t *nfv9_logging_info) -{ - cnat_nfv9_fill_nfv9_ip_header(nfv9_logging_info); - - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_logging_info->server_index; - - /* Update sequence number just before sending. - * So that, multiple NAT44/NAT64/DSLite instances sharing a - * a single server instance can stamp the sequence number - * in the right sequence (as seen by the server). - */ - server->sequence_num += 1; - nfv9_logging_info->nfv9_header->sequence_num = - clib_host_to_net_u32(server->sequence_num); - -#if DEBUG - cnat_nfv9_dump_logging_context (2, nfv9_logging_info, 1); -#endif -#if 0 /* commented out below */ - send_vpp3_nfv9_pkt(nfv9_logging_info); -#endif - nfv9_logging_info->current_logging_context = NULL; - /* - * Increase last packet sent count - */ - server->pkts_since_last_template++; - - /* - * If we are sending an nfv9 tempate with this packet - * log this timestamp - */ - if (nfv9_logging_info->nfv9_template_header) { - server->last_template_sent_time = - cnat_nfv9_get_unix_time_in_seconds(); - server->pkts_since_last_template = 0; - } - - return; -} - -/* - * send_vpp3_nfv9_pkt: to send multiple b0 in a frame - */ - -static inline -void send_vpp3_nfv9_pkt (cnat_nfv9_logging_info_t *nfv9_logging_info) -{ - vlib_node_t *output_node; - vlib_main_t *vm = vlib_get_main(); - vlib_frame_t *f; - vlib_buffer_t *b0; - u32 *to_next; - u32 bi=0; - ipv4_header *ip; - - //Lets check and send it to ip4-lookup node - output_node = vlib_get_node_by_name (vm, (u8 *) "ip4-lookup"); - f = vlib_get_frame_to_node (vm, output_node->index); - - if ( nfv9_logging_info->current_logging_context != NULL) { - /* Build a pkt from whole cloth */ - b0 = nfv9_logging_info->current_logging_context; - ip = vlib_buffer_get_current(b0); - to_next = vlib_frame_vector_args (f); - bi = vlib_get_buffer_index (vm, b0); - to_next[0] = bi; - - f->n_vectors = 1; - b0->current_length = clib_net_to_host_u16(ip->total_len_bytes); - vlib_put_frame_to_node (vm, output_node->index, f); - } - return; -} -/* - * edt: * * cnat_nfv9_send_pkt_always_success - * - * Tries to send a logging pkt. This cannot fail due to downstream - * constipation because we have already checked if the rewrite_output - * node can accept it. - * - * Argument: cnat_nfv9_logging_info_t *nfv9_logging_info - * structure that contains the packet context - * - * Argument: vlib_node_t *output_node - * vlib_node_t structure for rewrite_output node - */ - -static inline -void cnat_nfv9_send_pkt_always_success ( - cnat_nfv9_logging_info_t *nfv9_logging_info, - vlib_node_t *output_node) -{ - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_logging_info->server_index; - vlib_main_t * vm = vlib_get_main(); - - /* - * At this point we either have a current or queued logging context - */ - if (PREDICT_TRUE(nfv9_logging_info->current_logging_context != NULL)) { - server->sequence_num += 1; - nfv9_logging_info->nfv9_header->sequence_num = - clib_host_to_net_u32(server->sequence_num); - cnat_nfv9_fill_nfv9_ip_header(nfv9_logging_info); - - nfv9_logging_info->current_logging_context->current_length = - nfv9_logging_info->pkt_length; - vlib_cli_output(vm, "\nNFV9: 3. Sending Current packet\n"); -#if DEBUG - cnat_nfv9_dump_logging_context (3, nfv9_logging_info, 1); -#endif - send_vpp3_nfv9_pkt(nfv9_logging_info); - nfv9_logging_info->current_logging_context = NULL; - } else { - /* - * For queued logging context, nfv9_header-> count is already set - */ - nfv9_logging_info->queued_logging_context->current_length = - nfv9_logging_info->pkt_length; - vlib_cli_output(vm,"\nNFV9: 4. Sending Queued packet\n"); -#if DEBUG - cnat_nfv9_dump_logging_context (4, nfv9_logging_info, 2); -#endif - send_vpp3_nfv9_pkt(nfv9_logging_info); - - nfv9_logging_info->queued_logging_context = NULL; - } - - /* - * NF Logging info already deleted, just free it and return - */ - if (PREDICT_FALSE(nfv9_logging_info->deleted)) { - pool_put(cnat_nfv9_logging_info_pool, nfv9_logging_info); - return; - } - - /* - * Increase last packet sent count and timestamp - */ - server->pkts_since_last_template++; - - /* - * If we are sending an nfv9 tempate with this packet - * log this timestamp - */ - if (nfv9_logging_info->nfv9_template_header) { - server->last_template_sent_time = - cnat_nfv9_get_unix_time_in_seconds(); - server->pkts_since_last_template = 0; - } -} - -/* - * edt: * * cnat_nfv9_create_logging_context - * - * Tries to create a logging context with packet buffer - * to send a new logging packet - * - * Argument: cnat_nfv9_logging_info_t *nfv9_logging_info - * structure that contains the nfv9 logging info and will store - * the packet context as well. - */ - -static inline -void cnat_nfv9_create_logging_context ( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_nfv9_template_add_flag_t template_flag) -{ - vlib_main_t *vm = vlib_get_main(); - vlib_buffer_t *b0; - static u32 bi; - u8 i; - - /* - * If queued_logging_context_index is non-EMPTY, we already have a logging - * packet queued to be sent. First try sending this before allocating - * a new context. We can have only one active packet context per - * nfv9_logging_info structure - */ - if (PREDICT_FALSE(nfv9_logging_info->queued_logging_context != NULL)) { - cnat_nfv9_send_queued_pkt(nfv9_logging_info); - /* - * If we cannot still send the queued pkt, just return - * Downstream Constipation count would have increased anyway - */ - if (nfv9_logging_info->queued_logging_context != NULL) { - cnat_global_counters.nfv9_logging_context_creation_deferred_count++; - return; - } - } - - - /* - * No context can be allocated, return silently - * calling routine will handle updating the error counters - */ - if (vlib_buffer_alloc (vm, &bi, 1) != 1) { - vlib_cli_output(vm, "buffer allocation failure"); - return; - } - /* Build a pkt from whole cloth */ - b0 = vlib_get_buffer (vm, bi); - b0->current_data = 0; - - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_logging_info->server_index; - - nfv9_logging_info->current_logging_context = b0; - nfv9_logging_info->current_logging_context_timestamp = - cnat_nfv9_get_sys_up_time_in_ms(); - - - nfv9_logging_info->nfv9_header = - (nfv9_header_t *) (vlib_buffer_get_current(b0) + - (sizeof(ipv4_header)) + - (sizeof(udp_hdr_type_t))); - - nfv9_logging_info->nfv9_header->version = - clib_host_to_net_u16(CNAT_NFV9_VERSION_NUMBER); - - nfv9_logging_info->nfv9_header->sys_up_time = - clib_host_to_net_u32(cnat_nfv9_get_sys_up_time_in_ms()); - - nfv9_logging_info->nfv9_header->timestamp = - clib_host_to_net_u32(cnat_nfv9_get_unix_time_in_seconds()); - - - nfv9_logging_info->nfv9_header->source_id = - clib_host_to_net_u32(nfv9_src_id); - - nfv9_logging_info->dataflow_header = 0; - - for(i = 0; i < MAX_RECORDS;i++) { - nfv9_logging_info->record[i] = NULL; - nfv9_logging_info->record_length[i] = 0; - } - nfv9_logging_info->last_record = 0; - - - nfv9_logging_info->nfv9_template_header = 0; - nfv9_logging_info->next_data_ptr = - (u8 *) (vlib_buffer_get_current(b0) + - sizeof(ipv4_header) + sizeof(udp_hdr_type_t) + - sizeof(nfv9_header_t)); - - nfv9_logging_info->pkt_length = (CNAT_NFV9_TEMPLATE_OFFSET - - CNAT_NFV9_IP_HDR_OFFSET); - - - /* - * Now we have 0 records to start with - */ - - nfv9_logging_info->total_record_count = 0; - - if ((template_flag == cnat_nfv9_template_add_always) || - (server->pkts_since_last_template > - server->refresh_rate) || - ((cnat_nfv9_get_unix_time_in_seconds() - - server->last_template_sent_time) > - server->timeout_rate)) { - - /* - * Send a new template - */ - nfv9_logging_info->nfv9_template_header = - (cnat_nfv9_template_t *) nfv9_logging_info->next_data_ptr; - - clib_memcpy(nfv9_logging_info->nfv9_template_header, - &cnat_nfv9_template_info, - sizeof(cnat_nfv9_template_info)); - - /* - * Templates are sent irrespective of particular service-type config - */ - nfv9_logging_info->total_record_count = MAX_RECORDS - 1; - - nfv9_logging_info->pkt_length += CNAT_NFV9_TEMPLATE_LENGTH; - - /* - * Set the data pointer beyond the template field - */ - nfv9_logging_info->next_data_ptr = - (u8 *) (nfv9_logging_info->nfv9_template_header + 1); - /* - * Setting template_sent flag as TRUE. this will be checked in - * handle_vrfid_name_mapping() - */ - server->template_sent = TEMPLATE_SENT_TRUE; - } -} - -void cnat_nfv9_record_create ( - cnat_nfv9_logging_info_t *nfv9_logging_info, u16 cur_record) -{ - int byte_diff = 0; - u16 last_record = nfv9_logging_info->last_record; - - if(last_record != 0 && last_record != cur_record) { - u16 orig_length, new_length; - - orig_length = nfv9_logging_info->record_length[last_record]; - new_length = cnat_nfv9_pad_end_of_record_length(orig_length); - - /* - * The padding bytes are required after the last record - * Ensure length of last record accounts for padding bytes - */ - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u16(new_length); - - /* - * Since we are working on the del record, set add record to 0 - */ - nfv9_logging_info->record[last_record] = 0; - - nfv9_logging_info->record_length[last_record] = 0; - - nfv9_logging_info->last_record = 0; - } - - nfv9_logging_info->last_record = cur_record; - - /* - * The padding bytes are required after the last record - * Ensure that we skip over the padding bytes - */ - nfv9_logging_info->dataflow_header = (nfv9_dataflow_record_header_t *) - cnat_nfv9_add_end_of_record_padding(nfv9_logging_info->next_data_ptr); - /* - * Get the difference - */ - byte_diff = cnat_nfv9_pad_added_to_an_addr( - (u8 *)nfv9_logging_info->dataflow_header, - nfv9_logging_info->next_data_ptr); - if(byte_diff > 0) { - /* - * Update the packet length to account for the pad bytes - */ - nfv9_logging_info->pkt_length += byte_diff; - u8 *pkt_ptr = nfv9_logging_info->next_data_ptr; - - /* - * Blindly copy 3 bytes of data to Zero to avoid for loops - * We have sufficient padding bytes for safety and we won't - * go over buffer limits - */ - *pkt_ptr++ = 0; - *pkt_ptr++ = 0; - *pkt_ptr++ = 0; - } - /* - * Initialize the template_id and the length of the add record - */ - nfv9_logging_info->dataflow_header->dataflow_template_id = - clib_host_to_net_u16(cnat_template_id[cur_record]); - - nfv9_logging_info->record[cur_record] = - (u8 *) (nfv9_logging_info->dataflow_header + 1); - - nfv9_logging_info->record_length[cur_record] = - CNAT_NFV9_DATAFLOW_RECORD_HEADER_LENGTH; - - /* - * Update the length of the total NFV9 record - */ - nfv9_logging_info->pkt_length += - CNAT_NFV9_DATAFLOW_RECORD_HEADER_LENGTH; - - /* - * Set the data pointer beyond the dataflow header field - */ - nfv9_logging_info->next_data_ptr = - (u8 *) (nfv9_logging_info->dataflow_header + 1); - -} - -static void cnat_nfv9_insert_add_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap) -{ - u16 my_proto_mask; - u8 my_protocol; - nfv9_add_record_t nfv9_logging_add_record; - if (PREDICT_FALSE(nfv9_logging_info->record[NAT44_ADD_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, NAT44_ADD_RECORD); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - - nfv9_logging_add_record.inside_vrf_id = - clib_host_to_net_u32(vrfmap->i_vrf_id); - - nfv9_logging_add_record.outside_vrf_id = - clib_host_to_net_u32(vrfmap->o_vrf_id); - - nfv9_logging_add_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - nfv9_logging_add_record.outside_ip_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - nfv9_logging_add_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - nfv9_logging_add_record.outside_ip_port = - clib_host_to_net_u16(db->out2in_key.k.port); - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : GRE_PROT))); - - nfv9_logging_add_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[NAT44_ADD_RECORD], - &nfv9_logging_add_record, CNAT_NFV9_ADD_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT44_ADD_RECORD] - += CNAT_NFV9_ADD_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_ADD_RECORD_LENGTH; - - nfv9_logging_info->record[NAT44_ADD_RECORD] - += CNAT_NFV9_ADD_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT44_ADD_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT44_ADD_RECORD]); - -} - - -static void cnat_nfv9_ds_lite_insert_add_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry) -{ - - nfv9_ds_lite_add_record_t nfv9_logging_add_record = {0}; - cnat_user_db_entry_t *udb = NULL; - u16 my_proto_mask; - u8 my_protocol; - - udb = cnat_user_db + db->user_index; - if (PREDICT_FALSE(!udb)) { - return; - } - if (PREDICT_FALSE(nfv9_logging_info->record[DS_LITE_ADD_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, DS_LITE_ADD_RECORD); - } - /* - * We should definitely have add_record now, no need to sanitize - */ - nfv9_logging_add_record.inside_vrf_id = - clib_host_to_net_u32(dslite_entry->i_vrf_id); - nfv9_logging_add_record.outside_vrf_id = - clib_host_to_net_u32(dslite_entry->o_vrf_id); - -#ifdef DSLITE_USER_IPV4 - nfv9_logging_add_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); -#else - /* - * Inside ipv4 address is sent as 0.0.0.0 for ds-lite case as - * ipv6 is user here. - */ - nfv9_logging_add_record.inside_ip_addr = 0; -#endif - - nfv9_logging_add_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(udb->ipv6[0]); - nfv9_logging_add_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(udb->ipv6[1]); - nfv9_logging_add_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(udb->ipv6[2]); - nfv9_logging_add_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(udb->ipv6[3]); - - nfv9_logging_add_record.outside_ip_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - nfv9_logging_add_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - nfv9_logging_add_record.outside_ip_port = - clib_host_to_net_u16(db->out2in_key.k.port); - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : 0))); - nfv9_logging_add_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[DS_LITE_ADD_RECORD], - &nfv9_logging_add_record, CNAT_NFV9_DS_LITE_ADD_RECORD_LENGTH); - - nfv9_logging_info->record_length[DS_LITE_ADD_RECORD] - += CNAT_NFV9_DS_LITE_ADD_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_DS_LITE_ADD_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[DS_LITE_ADD_RECORD] - += CNAT_NFV9_DS_LITE_ADD_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[DS_LITE_ADD_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[DS_LITE_ADD_RECORD]); -} - - -static void cnat_nfv9_ds_lite_insert_del_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry) -{ - - nfv9_ds_lite_del_record_t nfv9_logging_del_record = {0}; - cnat_user_db_entry_t *udb = NULL; - u16 my_proto_mask; - u8 my_protocol; - - udb = cnat_user_db + db->user_index; - if (PREDICT_FALSE(!udb)) { - return; - } - if (PREDICT_FALSE(nfv9_logging_info->record[DS_LITE_DEL_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, DS_LITE_DEL_RECORD); - } - /* - * We should definitely have a del record now. - * No need to sanitize - */ - nfv9_logging_del_record.inside_vrf_id = - clib_host_to_net_u32(dslite_entry->i_vrf_id); - -#ifdef DSLITE_USER_IPV4 - nfv9_logging_del_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); -#else - /* - * Inside ipv4 address is sent as 0.0.0.0 for ds-lite case as - * ipv6 is user here. - */ - nfv9_logging_del_record.inside_ip_addr = 0; -#endif - - nfv9_logging_del_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(udb->ipv6[0]); - nfv9_logging_del_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(udb->ipv6[1]); - nfv9_logging_del_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(udb->ipv6[2]); - nfv9_logging_del_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(udb->ipv6[3]); - - nfv9_logging_del_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : 0))); - nfv9_logging_del_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[DS_LITE_DEL_RECORD], - &nfv9_logging_del_record, CNAT_NFV9_DS_LITE_DEL_RECORD_LENGTH); - - nfv9_logging_info->record_length[DS_LITE_DEL_RECORD] += - CNAT_NFV9_DS_LITE_DEL_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_DS_LITE_DEL_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[DS_LITE_DEL_RECORD] - += CNAT_NFV9_DS_LITE_DEL_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[DS_LITE_DEL_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[DS_LITE_DEL_RECORD]); -} - -#ifndef NO_BULK_LOGGING -static void cnat_nfv9_insert_bulk_add_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, - int bulk_alloc_start_port) -{ - nfv9_bulk_add_record_t nfv9_logging_bulk_add_record; - bulk_alloc_size_t bulk_size = BULKSIZE_FROM_VRFMAP(vrfmap); - if (PREDICT_FALSE(nfv9_logging_info->record[NAT44_BULK_ADD_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, NAT44_BULK_ADD_RECORD); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - - nfv9_logging_bulk_add_record.inside_vrf_id = - clib_host_to_net_u32(vrfmap->i_vrf_id); - nfv9_logging_bulk_add_record.outside_vrf_id = - clib_host_to_net_u32(vrfmap->o_vrf_id); - - nfv9_logging_bulk_add_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - nfv9_logging_bulk_add_record.outside_ip_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - nfv9_logging_bulk_add_record.outside_ip_port_start = - clib_host_to_net_u16(bulk_alloc_start_port); - nfv9_logging_bulk_add_record.outside_ip_port_end = - clib_host_to_net_u16(bulk_alloc_start_port + bulk_size -1); - - clib_memcpy(nfv9_logging_info->record[NAT44_BULK_ADD_RECORD], - &nfv9_logging_bulk_add_record, CNAT_NFV9_BULK_ADD_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT44_BULK_ADD_RECORD] - += CNAT_NFV9_BULK_ADD_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_BULK_ADD_RECORD_LENGTH; - - nfv9_logging_info->record[NAT44_BULK_ADD_RECORD] - += CNAT_NFV9_BULK_ADD_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT44_BULK_ADD_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT44_BULK_ADD_RECORD]); - -} - - -static void cnat_nfv9_ds_lite_insert_bulk_add_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, - int bulk_alloc_start_port) -{ - - nfv9_ds_lite_bulk_add_record_t nfv9_logging_bulk_add_record = {0}; - cnat_user_db_entry_t *udb = NULL; - bulk_alloc_size_t bulk_size = BULKSIZE_FROM_VRFMAP(dslite_entry); - - if (PREDICT_FALSE(nfv9_logging_info->record[DS_LITE_BULK_ADD_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, DS_LITE_BULK_ADD_RECORD); - } - udb = cnat_user_db + db->user_index; - if (PREDICT_FALSE(!udb)) { - return; - } - /* - * We should definitely have add_record now, no need to sanitize - */ - - nfv9_logging_bulk_add_record.inside_vrf_id = - clib_host_to_net_u32(dslite_entry->i_vrf_id); - nfv9_logging_bulk_add_record.outside_vrf_id = - clib_host_to_net_u32(dslite_entry->o_vrf_id); - -#ifdef DSLITE_USER_IPV4 - nfv9_logging_bulk_add_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); -#else - /* - * Inside ipv4 address is sent as 0.0.0.0 for ds-lite case as - * ipv6 is user here. - */ - nfv9_logging_bulk_add_record.inside_ip_addr = 0; -#endif - - nfv9_logging_bulk_add_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(udb->ipv6[0]); - nfv9_logging_bulk_add_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(udb->ipv6[1]); - nfv9_logging_bulk_add_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(udb->ipv6[2]); - nfv9_logging_bulk_add_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(udb->ipv6[3]); - - nfv9_logging_bulk_add_record.outside_ip_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - nfv9_logging_bulk_add_record.outside_ip_port_start = - clib_host_to_net_u16(bulk_alloc_start_port); - nfv9_logging_bulk_add_record.outside_ip_port_end = - clib_host_to_net_u16(bulk_alloc_start_port + bulk_size -1); - - clib_memcpy(nfv9_logging_info->record[DS_LITE_BULK_ADD_RECORD], - &nfv9_logging_bulk_add_record, CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_LENGTH); - - nfv9_logging_info->record_length[DS_LITE_BULK_ADD_RECORD] - += CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - nfv9_logging_info->record[DS_LITE_BULK_ADD_RECORD] - += CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[DS_LITE_BULK_ADD_RECORD]; - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[DS_LITE_BULK_ADD_RECORD]); -} - - -static void cnat_nfv9_ds_lite_insert_bulk_del_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, - int bulk_alloc_start_port) -{ - - nfv9_ds_lite_bulk_del_record_t nfv9_logging_bulk_del_record = {0}; - cnat_user_db_entry_t *udb = NULL; - - if (PREDICT_FALSE(nfv9_logging_info->record[DS_LITE_BULK_DEL_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, DS_LITE_BULK_DEL_RECORD); - } - udb = cnat_user_db + db->user_index; - if (PREDICT_FALSE(!udb)) { - return; - } - /* - * We should definitely have add_record now, no need to sanitize - */ - - nfv9_logging_bulk_del_record.inside_vrf_id = - clib_host_to_net_u32(dslite_entry->i_vrf_id); - -#ifdef DSLITE_USER_IPV4 - nfv9_logging_bulk_del_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); -#else - nfv9_logging_bulk_del_record.inside_ip_addr = - clib_host_to_net_u32(0); -#endif - - nfv9_logging_bulk_del_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(udb->ipv6[0]); - nfv9_logging_bulk_del_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(udb->ipv6[1]); - nfv9_logging_bulk_del_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(udb->ipv6[2]); - nfv9_logging_bulk_del_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(udb->ipv6[3]); - - nfv9_logging_bulk_del_record.outside_ip_port_start = - clib_host_to_net_u16(bulk_alloc_start_port); - - clib_memcpy(nfv9_logging_info->record[DS_LITE_BULK_DEL_RECORD], - &nfv9_logging_bulk_del_record, - CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_LENGTH); - nfv9_logging_info->record_length[DS_LITE_BULK_DEL_RECORD] += - CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_LENGTH; - nfv9_logging_info->pkt_length += - CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - nfv9_logging_info->record[DS_LITE_BULK_DEL_RECORD] += - CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[DS_LITE_BULK_DEL_RECORD]; - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[DS_LITE_BULK_DEL_RECORD]); -} -#endif /* #ifndef NO_BULK_LOGGING */ - -static void cnat_nfv9_insert_del_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap) -{ - u16 my_proto_mask; - u8 my_protocol; - nfv9_del_record_t nfv9_logging_del_record; - - if (PREDICT_FALSE(nfv9_logging_info->record[NAT44_DEL_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, NAT44_DEL_RECORD); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - - nfv9_logging_del_record.inside_vrf_id = - clib_host_to_net_u32(vrfmap->i_vrf_id); - - nfv9_logging_del_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - - nfv9_logging_del_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : GRE_PROT))); - - nfv9_logging_del_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[NAT44_DEL_RECORD], - &nfv9_logging_del_record, CNAT_NFV9_DEL_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT44_DEL_RECORD] - += CNAT_NFV9_DEL_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_DEL_RECORD_LENGTH; - - nfv9_logging_info->record[NAT44_DEL_RECORD] - += CNAT_NFV9_DEL_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT44_DEL_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT44_DEL_RECORD]); - -} - -#ifndef NO_BULK_LOGGING -static void cnat_nfv9_insert_bulk_del_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, - int bulk_alloc_start_port) -{ - nfv9_bulk_del_record_t nfv9_logging_bulk_del_record; - if (PREDICT_FALSE(nfv9_logging_info->record[NAT44_BULK_DEL_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, NAT44_BULK_DEL_RECORD); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - - nfv9_logging_bulk_del_record.inside_vrf_id = - clib_host_to_net_u32(vrfmap->i_vrf_id); - - nfv9_logging_bulk_del_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - - nfv9_logging_bulk_del_record.outside_ip_port_start = - clib_host_to_net_u16(bulk_alloc_start_port); - - clib_memcpy(nfv9_logging_info->record[NAT44_BULK_DEL_RECORD], - &nfv9_logging_bulk_del_record, CNAT_NFV9_BULK_DEL_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT44_BULK_DEL_RECORD] - += CNAT_NFV9_BULK_DEL_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_BULK_DEL_RECORD_LENGTH; - - nfv9_logging_info->record[NAT44_BULK_DEL_RECORD] - += CNAT_NFV9_BULK_DEL_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT44_BULK_DEL_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT44_BULK_DEL_RECORD]); - -} - -#endif /* #ifndef NO_BULK_LOGGING */ -/* - * edt: * * cnat_nfv9_log_mapping_create - * - * Tries to log a creation of mapping record - * - * Argument: cnat_main_db_entry_t *db - * Main DB entry being created - * - * Argument: cnat_vrfmap_t *vrfmap - * VRF Map for the Main DB entry being created - */ -void cnat_nfv9_log_mapping_create (cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - vlib_main_t * vm = vlib_get_main(); - - if (PREDICT_FALSE(vrfmap->nfv9_logging_index == EMPTY)) { - - //vlib_cli_output(vm, "\n1. Log Mapping failed"); - /* - * No logging configured, silently return - */ - return; - } - - if (cnat_nfv9_logging_info_pool == NULL) { - vlib_cli_output(vm, "%s: info_pool pointer is NULL !!!!\n", __func__); - return; - } - nfv9_logging_info = - cnat_nfv9_logging_info_pool + vrfmap->nfv9_logging_index; - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - //vlib_cli_output(vm, "\n2. Log Mapping failed"); - return; - } - - } - -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - cnat_nfv9_insert_bulk_add_record(nfv9_logging_info, db, vrfmap, - bulk_alloc); - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) - return; /* No logging required.. bulk port usage */ - else /* Individual logging .. fall back to old method */ -#endif - cnat_nfv9_insert_add_record(nfv9_logging_info, db, vrfmap); - - nfv9_logging_info->total_record_count += 1; - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - -/* - * edt: * * cnat_nfv9_log_mapping_delete - * - * Tries to log a deletion of mapping record - * - * Argument: cnat_main_db_entry_t *db - * Main DB entry being deleted - * - * Argument: cnat_vrfmap_t *vrfmap - * VRF Map for the Main DB entry being deleted - */ -void cnat_nfv9_log_mapping_delete (cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - - if (PREDICT_FALSE(vrfmap->nfv9_logging_index == EMPTY)) { - //vlib_cli_output(vm, "\n3. Log Mapping failed"); - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + vrfmap->nfv9_logging_index; - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - //vlib_cli_output(vm, "\n4. Log Mapping failed"); - return; - } - } -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - cnat_nfv9_insert_bulk_del_record(nfv9_logging_info, db, vrfmap, - bulk_alloc); - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) - return; /* No logging required.. bulk port usage */ - else /* Individual logging .. fall back to old method */ -#endif - cnat_nfv9_insert_del_record(nfv9_logging_info, db, vrfmap); - - nfv9_logging_info->total_record_count += 1; - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - - -/* NAT64 Related routines */ - -/* - * edt: * * cnat_nfv9_bib_mapping_create - * - * Tries to log a creation of Bib mapping record - * - * Argument: nat64_bib_entry_t *db - * BIB DB entry being created - * - * Argument: nat64_table_entry_t *nat64_entry - * NAT64 Instance where this BIB belongs - */ -void cnat_nfv9_bib_mapping_create (nat64_bib_entry_t *db, - nat64_table_entry_t *nat64_entry) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - u16 my_proto_mask; - u8 my_protocol; - nfv9_nat64_add_bib_record_t nfv9_logging_add_record; - - if (PREDICT_FALSE(nat64_entry->logging_index == EMPTY)) { - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + nat64_entry->logging_index; - - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - return; - } - } - - if (PREDICT_FALSE(nfv9_logging_info->record[NAT64_ADD_BIB_RECORD] == NULL)){ - cnat_nfv9_record_create(nfv9_logging_info,NAT64_ADD_BIB_RECORD); - } - - - nfv9_logging_add_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(db->v6_in_key.ipv6[0]); - nfv9_logging_add_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(db->v6_in_key.ipv6[1]); - nfv9_logging_add_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(db->v6_in_key.ipv6[2]); - nfv9_logging_add_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(db->v6_in_key.ipv6[3]); - - - nfv9_logging_add_record.outside_v4_src_addr = - clib_host_to_net_u32(db->v4_out_key.k.ipv4); - - nfv9_logging_add_record.inside_src_port = - clib_host_to_net_u16(db->v6_in_key.port); - nfv9_logging_add_record.outside_src_port = - clib_host_to_net_u16(db->v4_out_key.k.port); - - my_proto_mask = db->v6_in_key.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? IPV6_PROTO_ICMPV6 : 0))); - nfv9_logging_add_record.protocol = my_protocol; - - - clib_memcpy(nfv9_logging_info->record[NAT64_ADD_BIB_RECORD], - &nfv9_logging_add_record, CNAT_NFV9_NAT64_ADD_BIB_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT64_ADD_BIB_RECORD] += - CNAT_NFV9_NAT64_ADD_BIB_RECORD_LENGTH; - nfv9_logging_info->pkt_length += CNAT_NFV9_NAT64_ADD_BIB_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[NAT64_ADD_BIB_RECORD] - += CNAT_NFV9_NAT64_ADD_BIB_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT64_ADD_BIB_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT64_ADD_BIB_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - - -/* - * edt: * * cnat_nfv9_session_mapping_create - * - * Tries to log a creation of Bib mapping record - * - * Argument: nat64_bib_entry_t *bdb - * BIB DB entry for the session that is created - * - * Argument: nat64_session_entry_t *sdb - * Session DB entry being created - * - * Argument: nat64_table_entry_t *nat64_entry - * NAT64 Instance where this BIB and Session belongs - */ -void cnat_nfv9_session_mapping_create (nat64_bib_entry_t *bdb, - nat64_session_entry_t *sdb, - nat64_table_entry_t *nat64_entry_ptr) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - u16 my_proto_mask; - u8 my_protocol; - u32 dest_v6[4]; - nfv9_nat64_add_session_record_t nfv9_logging_add_record; - u8 *ipv6_addr_ptr; - u8 *ipv4_addr_ptr; - - - if (PREDICT_FALSE(nat64_entry_ptr->logging_index == EMPTY)) { - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + nat64_entry_ptr->logging_index; - - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)){ - return; - } - } - - if (PREDICT_FALSE(nfv9_logging_info->record[NAT64_ADD_SESSION_RECORD] - == NULL)){ - cnat_nfv9_record_create(nfv9_logging_info, NAT64_ADD_SESSION_RECORD); - } - - - nfv9_logging_add_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[0]); - nfv9_logging_add_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[1]); - nfv9_logging_add_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[2]); - nfv9_logging_add_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[3]); - - - nfv9_logging_add_record.outside_v4_src_addr = - clib_host_to_net_u32(bdb->v4_out_key.k.ipv4); - - - nfv9_logging_add_record.outside_v4_dest_addr = - clib_host_to_net_u32(sdb->v4_dest_key.k.ipv4); - - /* Need to create the V6 address using prefix */ - dest_v6[0] = nat64_entry_ptr->v6_prefix[0]; - dest_v6[1] = nat64_entry_ptr->v6_prefix[1]; - dest_v6[2] = nat64_entry_ptr->v6_prefix[2]; - dest_v6[3] = nat64_entry_ptr->v6_prefix[3]; - - ipv6_addr_ptr = (u8 *) (&(dest_v6[0])); - ipv4_addr_ptr = (u8 *) (&(sdb->v4_dest_key.k.ipv4)); - - *(ipv6_addr_ptr + nat64_entry_ptr->octet0_position) = *(ipv4_addr_ptr); - *(ipv6_addr_ptr + nat64_entry_ptr->octet1_position) = *(ipv4_addr_ptr + 1); - *(ipv6_addr_ptr + nat64_entry_ptr->octet2_position) = *(ipv4_addr_ptr + 2); - *(ipv6_addr_ptr + nat64_entry_ptr->octet3_position) = *(ipv4_addr_ptr + 3); - - nfv9_logging_add_record.inside_v6_dest_addr[0] = - clib_host_to_net_u32(dest_v6[0]); - nfv9_logging_add_record.inside_v6_dest_addr[1] = - clib_host_to_net_u32(dest_v6[1]); - nfv9_logging_add_record.inside_v6_dest_addr[2] = - clib_host_to_net_u32(dest_v6[2]); - nfv9_logging_add_record.inside_v6_dest_addr[3] = - clib_host_to_net_u32(dest_v6[3]); - - nfv9_logging_add_record.outside_v4_dest_addr = - clib_host_to_net_u32(sdb->v4_dest_key.k.ipv4); - - nfv9_logging_add_record.inside_src_port = - clib_host_to_net_u16(bdb->v6_in_key.port); - nfv9_logging_add_record.outside_src_port = - clib_host_to_net_u16(bdb->v4_out_key.k.port); - - nfv9_logging_add_record.dest_port = - clib_host_to_net_u16(sdb->v4_dest_key.k.port); - - - my_proto_mask = bdb->v6_in_key.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? IPV6_PROTO_ICMPV6 : 0))); - nfv9_logging_add_record.protocol = my_protocol; - - - clib_memcpy(nfv9_logging_info->record[NAT64_ADD_SESSION_RECORD], - &nfv9_logging_add_record, CNAT_NFV9_NAT64_ADD_SESSION_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT64_ADD_SESSION_RECORD] += - CNAT_NFV9_NAT64_ADD_SESSION_RECORD_LENGTH; - nfv9_logging_info->pkt_length += CNAT_NFV9_NAT64_ADD_SESSION_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[NAT64_ADD_SESSION_RECORD] - += CNAT_NFV9_NAT64_ADD_SESSION_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT64_ADD_SESSION_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT64_ADD_SESSION_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - - -/* - * edt: * * cnat_nfv9_bib_mapping_delete - * - * Tries to log a deletion of Bib mapping record - * - * Argument: nat64_bib_entry_t *db - * BIB DB entry being created - * - * Argument: nat64_table_entry_t *nat64_entry - * NAT64 Instance where this BIB belongs - */ -void cnat_nfv9_bib_mapping_delete (nat64_bib_entry_t *db, - nat64_table_entry_t *nat64_entry) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - u16 my_proto_mask; - u8 my_protocol; - nfv9_nat64_del_bib_record_t nfv9_logging_del_record; - if (PREDICT_FALSE(nat64_entry->logging_index == EMPTY)) { - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + nat64_entry->logging_index; - - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)){ - return; - } - } - - if (PREDICT_FALSE(nfv9_logging_info->record[NAT64_DEL_BIB_RECORD] == NULL)){ - cnat_nfv9_record_create(nfv9_logging_info,NAT64_DEL_BIB_RECORD); - } - - - nfv9_logging_del_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(db->v6_in_key.ipv6[0]); - nfv9_logging_del_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(db->v6_in_key.ipv6[1]); - nfv9_logging_del_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(db->v6_in_key.ipv6[2]); - nfv9_logging_del_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(db->v6_in_key.ipv6[3]); - - - nfv9_logging_del_record.inside_src_port = - clib_host_to_net_u16(db->v6_in_key.port); - - my_proto_mask = db->v6_in_key.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? IPV6_PROTO_ICMPV6 : 0))); - nfv9_logging_del_record.protocol = my_protocol; - - - clib_memcpy(nfv9_logging_info->record[NAT64_DEL_BIB_RECORD], - &nfv9_logging_del_record, CNAT_NFV9_NAT64_DEL_BIB_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT64_DEL_BIB_RECORD] += - CNAT_NFV9_NAT64_DEL_BIB_RECORD_LENGTH; - nfv9_logging_info->pkt_length += CNAT_NFV9_NAT64_DEL_BIB_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[NAT64_DEL_BIB_RECORD] - += CNAT_NFV9_NAT64_DEL_BIB_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT64_DEL_BIB_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT64_DEL_BIB_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - - -/* - * edt: * * cnat_nfv9_session_mapping_delete - * - * Tries to log a deletion of Bib mapping record - * - * Argument: nat64_bib_entry_t *bdb - * BIB DB entry for the session that is created - * - * Argument: nat64_session_entry_t *sdb - * Session DB entry being created - * - * Argument: nat64_table_entry_t *nat64_entry - * NAT64 Instance where this BIB and Session belongs - */ -void cnat_nfv9_session_mapping_delete (nat64_bib_entry_t *bdb, - nat64_session_entry_t *sdb, - nat64_table_entry_t *nat64_entry_ptr) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - u16 my_proto_mask; - u8 my_protocol; - u32 dest_v6[4]; - nfv9_nat64_del_session_record_t nfv9_logging_del_record; - u8 *ipv6_addr_ptr; - u8 *ipv4_addr_ptr; - - if (PREDICT_FALSE(nat64_entry_ptr->logging_index == EMPTY)) { - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + nat64_entry_ptr->logging_index; - - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)){ - return; - } - } - - if (PREDICT_FALSE(nfv9_logging_info->record[NAT64_DEL_SESSION_RECORD] - == NULL)){ - cnat_nfv9_record_create(nfv9_logging_info, NAT64_DEL_SESSION_RECORD); - } - - - nfv9_logging_del_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[0]); - nfv9_logging_del_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[1]); - nfv9_logging_del_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[2]); - nfv9_logging_del_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(bdb->v6_in_key.ipv6[3]); - - /* Need to create the V6 address using prefix */ - dest_v6[0] = nat64_entry_ptr->v6_prefix[0]; - dest_v6[1] = nat64_entry_ptr->v6_prefix[1]; - dest_v6[2] = nat64_entry_ptr->v6_prefix[2]; - dest_v6[3] = nat64_entry_ptr->v6_prefix[3]; - - ipv6_addr_ptr = (u8 *) (&(dest_v6[0])); - ipv4_addr_ptr = (u8 *) (&(sdb->v4_dest_key.k.ipv4)); - - *(ipv6_addr_ptr + nat64_entry_ptr->octet0_position) = *(ipv4_addr_ptr); - *(ipv6_addr_ptr + nat64_entry_ptr->octet1_position) = *(ipv4_addr_ptr + 1); - *(ipv6_addr_ptr + nat64_entry_ptr->octet2_position) = *(ipv4_addr_ptr + 2); - *(ipv6_addr_ptr + nat64_entry_ptr->octet3_position) = *(ipv4_addr_ptr + 3); - - nfv9_logging_del_record.inside_v6_dest_addr[0] = - clib_host_to_net_u32(dest_v6[0]); - nfv9_logging_del_record.inside_v6_dest_addr[1] = - clib_host_to_net_u32(dest_v6[1]); - nfv9_logging_del_record.inside_v6_dest_addr[2] = - clib_host_to_net_u32(dest_v6[2]); - nfv9_logging_del_record.inside_v6_dest_addr[3] = - clib_host_to_net_u32(dest_v6[3]); - - nfv9_logging_del_record.inside_src_port = - clib_host_to_net_u16(bdb->v6_in_key.port); - - nfv9_logging_del_record.dest_port = - clib_host_to_net_u16(sdb->v4_dest_key.k.port); - - - my_proto_mask = bdb->v6_in_key.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? IPV6_PROTO_ICMPV6 : 0))); - nfv9_logging_del_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[NAT64_DEL_SESSION_RECORD], - &nfv9_logging_del_record, CNAT_NFV9_NAT64_DEL_SESSION_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT64_DEL_SESSION_RECORD] += - CNAT_NFV9_NAT64_DEL_SESSION_RECORD_LENGTH; - nfv9_logging_info->pkt_length += CNAT_NFV9_NAT64_DEL_SESSION_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[NAT64_DEL_SESSION_RECORD] - += CNAT_NFV9_NAT64_DEL_SESSION_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT64_DEL_SESSION_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT64_DEL_SESSION_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - -/* - * edt: * * cnat_nfv9_nat44_log_session_create - * - * Tries to log a creation of mapping record (session based) - * - * Argument: cnat_main_db_entry_t *db - * Main DB entry being created - * Arugment: cnat_session_entry_t *sdb - * Session DB entry if the destination is not the first dest - * Argument: cnat_vrfmap_t *vrfmap - * VRF Map for the Main DB entry being created - */ - -void cnat_nfv9_nat44_log_session_create(cnat_main_db_entry_t *db, - cnat_session_entry_t *sdb, - cnat_vrfmap_t *vrfmap) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - u16 my_proto_mask; - u8 my_protocol; - nfv9_add_session_record_t nfv9_logging_add_session_record; - - if (PREDICT_FALSE(vrfmap->nfv9_logging_index == EMPTY)) { - //vlib_cli_output(vm,"\n1. Log Mapping failed"); - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + vrfmap->nfv9_logging_index; - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - //vlib_cli_output(vm,"\n2. Log Mapping failed"); - return; - } - } - - if(PREDICT_FALSE(nfv9_logging_info->record[ - NAT44_ADD_SESSION_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, NAT44_ADD_SESSION_RECORD); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - nfv9_logging_add_session_record.inside_vrf_id = - clib_host_to_net_u32(vrfmap->i_vrf_id); - nfv9_logging_add_session_record.outside_vrf_id = - clib_host_to_net_u32(vrfmap->o_vrf_id); - - nfv9_logging_add_session_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - nfv9_logging_add_session_record.outside_ip_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - /* If sdb is null, it is assumed that logging is being done - * for the first destination which is held in the main db - - * itself - */ - if(PREDICT_TRUE(sdb == NULL)) { - nfv9_logging_add_session_record.dest_ip_addr = - clib_host_to_net_u32(db->dst_ipv4); - nfv9_logging_add_session_record.dest_port = - clib_host_to_net_u16(db->dst_port); - } else { - nfv9_logging_add_session_record.dest_ip_addr = - clib_host_to_net_u32(sdb->v4_dest_key.k.ipv4); - nfv9_logging_add_session_record.dest_port = - clib_host_to_net_u16(sdb->v4_dest_key.k.port); - } - - nfv9_logging_add_session_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - nfv9_logging_add_session_record.outside_ip_port = - clib_host_to_net_u16(db->out2in_key.k.port); - - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : GRE_PROT))); - nfv9_logging_add_session_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[NAT44_ADD_SESSION_RECORD], - &nfv9_logging_add_session_record, - CNAT_NFV9_NAT44_ADD_SESSION_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT44_ADD_SESSION_RECORD] - += CNAT_NFV9_NAT44_ADD_SESSION_RECORD_LENGTH; - nfv9_logging_info->pkt_length += CNAT_NFV9_NAT44_ADD_SESSION_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - - nfv9_logging_info->record[NAT44_ADD_SESSION_RECORD] - += CNAT_NFV9_NAT44_ADD_SESSION_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT44_ADD_SESSION_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT44_ADD_SESSION_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - -/* - * edt: * * cnat_nfv9_nat44_log_session_delete - * - * Tries to log a deletion of mapping record (session based) - * - * Argument: cnat_main_db_entry_t *db - * Main DB entry being created - * Arugment: cnat_session_entry_t *sdb - * Session DB entry if the destination is not the first dest - * Argument: cnat_vrfmap_t *vrfmap - * VRF Map for the Main DB entry being deleted - */ - -void cnat_nfv9_nat44_log_session_delete(cnat_main_db_entry_t *db, - cnat_session_entry_t *sdb, - cnat_vrfmap_t *vrfmap) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - u16 my_proto_mask; - u8 my_protocol; - nfv9_del_session_record_t nfv9_logging_del_session_record; - - if (PREDICT_FALSE(vrfmap->nfv9_logging_index == EMPTY)) { - //vlib_cli_output(vm, "\n1. Log Mapping failed"); - /* - * No logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + vrfmap->nfv9_logging_index; - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - //vlib_cli_output(vm, "\n2. Log Mapping failed"); - return; - } - } - - if(PREDICT_FALSE(nfv9_logging_info->record[ - NAT44_DEL_SESSION_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, NAT44_DEL_SESSION_RECORD); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - nfv9_logging_del_session_record.inside_vrf_id = - clib_host_to_net_u32(vrfmap->i_vrf_id); - - nfv9_logging_del_session_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - - /* If sdb is null, it is assumed that logging is being done - * for the first destination which is held in the main db - * itself - */ - if(PREDICT_TRUE(sdb == NULL)) { - nfv9_logging_del_session_record.dest_ip_addr = - clib_host_to_net_u32(db->dst_ipv4); - nfv9_logging_del_session_record.dest_port = - clib_host_to_net_u16(db->dst_port); - } else { - nfv9_logging_del_session_record.dest_ip_addr = - clib_host_to_net_u32(sdb->v4_dest_key.k.ipv4); - nfv9_logging_del_session_record.dest_port = - clib_host_to_net_u16(sdb->v4_dest_key.k.port); - } - - nfv9_logging_del_session_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : GRE_PROT))); - - nfv9_logging_del_session_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[NAT44_DEL_SESSION_RECORD], - &nfv9_logging_del_session_record, - CNAT_NFV9_NAT44_DEL_SESSION_RECORD_LENGTH); - - nfv9_logging_info->record_length[NAT44_DEL_SESSION_RECORD] - += CNAT_NFV9_NAT44_DEL_SESSION_RECORD_LENGTH; - nfv9_logging_info->pkt_length += CNAT_NFV9_NAT44_DEL_SESSION_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[NAT44_DEL_SESSION_RECORD] - += CNAT_NFV9_NAT44_DEL_SESSION_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[NAT44_DEL_SESSION_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[NAT44_DEL_SESSION_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - -/* - * DS-Lite APIs for netflow logging - */ - -/* - * edt: * * cnat_nfv9_ds_lite_mapping_create - * - * Tries to log a creation of mapping record - * - * Argument: cnat_main_db_entry_t *db - * Main DB entry being created - * - * Argument: dslite_table_entry_t *dslite_entry - * ds-lite instance for the Main DB entry being created - */ -void cnat_nfv9_ds_lite_mapping_create(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - - cnat_nfv9_logging_info_t *nfv9_logging_info = NULL; - - if (PREDICT_FALSE(!(db && dslite_entry))) { - return; - } - if (PREDICT_FALSE(dslite_entry->nfv9_logging_index == EMPTY)) { - /* - * no logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + dslite_entry->nfv9_logging_index; - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - return; - } - } -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - cnat_nfv9_ds_lite_insert_bulk_add_record(nfv9_logging_info, - db, dslite_entry, bulk_alloc); - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) - return; /* No logging required.. bulk port usage */ - else /* Individual logging .. fall back to old method */ -#endif /*NO_BULK_LOGGING*/ - cnat_nfv9_ds_lite_insert_add_record(nfv9_logging_info, db, dslite_entry); - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - -/* - * edt: * * cnat_nfv9_ds_lite_mapping_delete - * - * Tries to log a deletion of mapping record - * - * Argument: cnat_main_db_entry_t *db - * Main DB entry being deleted - * - * Argument: dslite_table_entry_t *dslite_entry - * ds-lite instance for the Main DB entry being deleted - */ -void cnat_nfv9_ds_lite_mapping_delete(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - - cnat_nfv9_logging_info_t *nfv9_logging_info = NULL; - if (PREDICT_FALSE(!(db && dslite_entry))) { - return; - } - if (PREDICT_FALSE(dslite_entry->nfv9_logging_index == EMPTY)) { - /* - * No logging configured, silently return - */ - return; - } - nfv9_logging_info = - cnat_nfv9_logging_info_pool + dslite_entry->nfv9_logging_index; - - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - return; - } - } -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - cnat_nfv9_ds_lite_insert_bulk_del_record(nfv9_logging_info, - db, dslite_entry, bulk_alloc); - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) - return; /* No logging required.. bulk port usage */ - else /* Individual logging .. fall back to old method */ -#endif /*NO_BULK_LOGGING*/ - cnat_nfv9_ds_lite_insert_del_record(nfv9_logging_info, db, dslite_entry); - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } -} - -/* - * edt: * * cnat_nfv9_dslite_log_session_create - * - * Tries to log a creation of mapping record (session based) - * Argument: cnat_main_db_entry_t *db - * Main DB entry being created - * Arugment: cnat_session_entry_t *sdb - * Session DB entry if the destination is not the first dest - * Argument: dslite_table_entry_t *dslite_entry, - * dslite table entry for dslite instance - */ - -void cnat_nfv9_ds_lite_log_session_create( - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, - cnat_session_entry_t *sdb) -{ - - nfv9_ds_lite_add_session_record_t nfv9_logging_add_record ; - cnat_user_db_entry_t *udb = NULL; - u16 my_proto_mask; - u8 my_protocol; - cnat_nfv9_logging_info_t *nfv9_logging_info = 0; - - if (PREDICT_FALSE(dslite_entry->nfv9_logging_index == EMPTY)) { - /* - * no logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + dslite_entry->nfv9_logging_index; - udb = cnat_user_db + db->user_index; - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - return; - } - } - - udb = cnat_user_db + db->user_index; - if (PREDICT_FALSE(!udb)) { - return; - } - if (PREDICT_FALSE(nfv9_logging_info->record[DS_LITE_ADD_SESSION_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, DS_LITE_ADD_SESSION_RECORD); - } - /* - * We should definitely have add_record now, no need to sanitize - */ - nfv9_logging_add_record.inside_vrf_id = - clib_host_to_net_u32(dslite_entry->i_vrf_id); - nfv9_logging_add_record.outside_vrf_id = - clib_host_to_net_u32(dslite_entry->o_vrf_id); - - nfv9_logging_add_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - - nfv9_logging_add_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(udb->ipv6[0]); - nfv9_logging_add_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(udb->ipv6[1]); - nfv9_logging_add_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(udb->ipv6[2]); - nfv9_logging_add_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(udb->ipv6[3]); - - nfv9_logging_add_record.outside_ip_addr = - clib_host_to_net_u32(db->out2in_key.k.ipv4); - - nfv9_logging_add_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - nfv9_logging_add_record.outside_ip_port = - clib_host_to_net_u16(db->out2in_key.k.port); - - /* If sdb is null, it is assumed that logging is being done - * for the first destination which is held in the main db - - * itself - */ - if(PREDICT_TRUE(sdb == NULL)) { - nfv9_logging_add_record.dest_ip_addr = - clib_host_to_net_u32(db->dst_ipv4); - nfv9_logging_add_record.dest_port = - clib_host_to_net_u16(db->dst_port); - } else { - nfv9_logging_add_record.dest_ip_addr = - clib_host_to_net_u32(sdb->v4_dest_key.k.ipv4); - nfv9_logging_add_record.dest_port = - clib_host_to_net_u16(sdb->v4_dest_key.k.port); - } - - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : 0))); - nfv9_logging_add_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[DS_LITE_ADD_SESSION_RECORD], - &nfv9_logging_add_record, CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_LENGTH); - - nfv9_logging_info->record_length[DS_LITE_ADD_SESSION_RECORD] - += CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[DS_LITE_ADD_SESSION_RECORD] - += CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[DS_LITE_ADD_SESSION_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[DS_LITE_ADD_SESSION_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } - -} - -/* - * edt: * * cnat_nfv9_dslite_log_session_delete - * - * Tries to log a creation of mapping record (session based) - * Argument: cnat_main_db_entry_t *db - * Main DB entry being created - * Arugment: cnat_session_entry_t *sdb - * Session DB entry if the destination is not the first dest - * Argument: dslite_table_entry_t *dslite_entry, - * dslite table entry for dslite instance - */ - -void cnat_nfv9_ds_lite_log_session_delete( - cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, - cnat_session_entry_t *sdb) -{ - - nfv9_ds_lite_del_session_record_t nfv9_logging_add_record = {0}; - cnat_user_db_entry_t *udb = NULL; - u16 my_proto_mask; - u8 my_protocol; - cnat_nfv9_logging_info_t *nfv9_logging_info = NULL; - - if (PREDICT_FALSE(dslite_entry->nfv9_logging_index == EMPTY)) { - /* - * no logging configured, silently return - */ - return; - } - - nfv9_logging_info = - cnat_nfv9_logging_info_pool + dslite_entry->nfv9_logging_index; - udb = cnat_user_db + db->user_index; - - if (PREDICT_FALSE(!udb)) { - return; - } - - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(nfv9_logging_info->current_logging_context == NULL)) { - return; - } - } - - if (PREDICT_FALSE(nfv9_logging_info->record[DS_LITE_DEL_SESSION_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, DS_LITE_DEL_SESSION_RECORD); - } - /* - * We should definitely have add_record now, no need to sanitize - */ - nfv9_logging_add_record.inside_vrf_id = - clib_host_to_net_u32(dslite_entry->i_vrf_id); - - nfv9_logging_add_record.inside_ip_addr = - clib_host_to_net_u32(db->in2out_key.k.ipv4); - - nfv9_logging_add_record.inside_v6_src_addr[0] = - clib_host_to_net_u32(udb->ipv6[0]); - nfv9_logging_add_record.inside_v6_src_addr[1] = - clib_host_to_net_u32(udb->ipv6[1]); - nfv9_logging_add_record.inside_v6_src_addr[2] = - clib_host_to_net_u32(udb->ipv6[2]); - nfv9_logging_add_record.inside_v6_src_addr[3] = - clib_host_to_net_u32(udb->ipv6[3]); - - nfv9_logging_add_record.inside_ip_port = - clib_host_to_net_u16(db->in2out_key.k.port); - - /* If sdb is null, it is assumed that logging is being done - * for the first destination which is held in the main db - * itself - */ - if(PREDICT_TRUE(sdb == NULL)) { - nfv9_logging_add_record.dest_ip_addr = - clib_host_to_net_u32(db->dst_ipv4); - nfv9_logging_add_record.dest_port = - clib_host_to_net_u16(db->dst_port); - } else { - nfv9_logging_add_record.dest_ip_addr = - clib_host_to_net_u32(sdb->v4_dest_key.k.ipv4); - nfv9_logging_add_record.dest_port = - clib_host_to_net_u16(sdb->v4_dest_key.k.port); - } - - - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - - my_protocol = ((my_proto_mask == CNAT_UDP) ? UDP_PROT : - ((my_proto_mask == CNAT_TCP) ? TCP_PROT : - ((my_proto_mask == CNAT_ICMP) ? ICMP_PROT : 0))); - nfv9_logging_add_record.protocol = my_protocol; - - clib_memcpy(nfv9_logging_info->record[DS_LITE_DEL_SESSION_RECORD], - &nfv9_logging_add_record, CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_LENGTH); - - nfv9_logging_info->record_length[DS_LITE_DEL_SESSION_RECORD] - += CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_LENGTH; - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[DS_LITE_DEL_SESSION_RECORD] - += CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_LENGTH; - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[DS_LITE_DEL_SESSION_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[DS_LITE_DEL_SESSION_RECORD]); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } - -} - - -/* - * netflow logging API for ingress vrf_id to name mapping - */ - -/* - * edt: * * handle_vrfid_name_mapping - * It will search for valid natflow entry in netflow pool, - * once found one, will send all vrfid name mapping info - * using that entry - */ - - -static inline __attribute__((unused)) -void handle_vrfid_name_mapping(void) -{ - cnat_nfv9_logging_info_t *nfv9_logging_info = NULL; - - pool_foreach (nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - if(PREDICT_FALSE(nfv9_logging_info == NULL)) { - continue; - } - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_logging_info->server_index; - if(server->template_sent == TEMPLATE_SENT_TRUE) { - cnat_nfv9_ingress_vrfid_name_mapping_create(nfv9_logging_info); - server->template_sent = TEMPLATE_SENT_FALSE; - } - })); -} - -/* - * edt: * * cnat_nfv9_ingress_vrfid_name_mapping_create - * - * Tries to log vrfid-name mapping record - * Argument: netflow pointer - */ - - -void cnat_nfv9_ingress_vrfid_name_mapping_create( - cnat_nfv9_logging_info_t *nfv9_logging_info) -{ - u16 index = 0; - - for (index = 0; index < MAX_VRFID; index++) { - if(vrfid_name_map[index].ref_count == 0) { - continue; - } - if (PREDICT_FALSE( - nfv9_logging_info->current_logging_context == NULL)) { - cnat_nfv9_create_logging_context(nfv9_logging_info, - cnat_nfv9_template_add_default); - } - cnat_nfv9_insert_ingress_vrfid_name_record( - nfv9_logging_info,index); - if (PREDICT_FALSE(nfv9_logging_info->pkt_length > - nfv9_logging_info->max_length_minus_max_record_size) || - PREDICT_FALSE(index == MAX_VRFID - 1)) { - if (PREDICT_TRUE(nfv9_logging_info->current_logging_context - != NULL)) { - cnat_nfv9_send_pkt(nfv9_logging_info); - } - } - }/*for()*/ - return; -} - -static void cnat_nfv9_insert_ingress_vrfid_name_record( - cnat_nfv9_logging_info_t *nfv9_logging_info, u16 index) -{ - nfv9_ingress_vrfid_name_record_t nfv9_ingress_vrfid_name_record = {0}; - - if (PREDICT_FALSE( - nfv9_logging_info->record[INGRESS_VRF_ID_NAME_RECORD] == NULL)) { - cnat_nfv9_record_create(nfv9_logging_info, INGRESS_VRF_ID_NAME_RECORD); - } - nfv9_ingress_vrfid_name_record.ingress_vrf_id = - clib_host_to_net_u32(vrfid_name_map[index].vrf_id); - - clib_memcpy(nfv9_ingress_vrfid_name_record.ingress_vrf_name, - vrfid_name_map[index].vrf_name, NFV9_VRF_NAME_LEN); - - clib_memcpy(nfv9_logging_info->record[INGRESS_VRF_ID_NAME_RECORD], - &nfv9_ingress_vrfid_name_record, - CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_LENGTH); - - nfv9_logging_info->record_length[INGRESS_VRF_ID_NAME_RECORD] - += CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_LENGTH; - - nfv9_logging_info->pkt_length += - CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_LENGTH; - - nfv9_logging_info->total_record_count += 1; - - nfv9_logging_info->record[INGRESS_VRF_ID_NAME_RECORD] - += CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_LENGTH; - - nfv9_logging_info->next_data_ptr = - nfv9_logging_info->record[INGRESS_VRF_ID_NAME_RECORD]; - - nfv9_logging_info->dataflow_header->dataflow_length = - clib_host_to_net_u32( - nfv9_logging_info->record_length[INGRESS_VRF_ID_NAME_RECORD]); - return; -} -/* - * edt: * * cnat_log_timer_handler - * - * Timer handler for sending any pending NFV9 record - * - * Argument: spp_timer_t * timer_p - * Timer handler structure - */ -void handle_pending_nfv9_pkts() -{ - vlib_node_t *output_node; - vlib_main_t * vm = vlib_get_main(); - cnat_nfv9_logging_info_t *my_nfv9_logging_info = 0; - u32 current_timestamp = cnat_nfv9_get_sys_up_time_in_ms(); - u32 current_unix_time_in_seconds = cnat_nfv9_get_unix_time_in_seconds(); - - output_node = vlib_get_node_by_name (vm, (u8 *) "ip4-lookup"); - - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - nfv9_server_info_t *server = nfv9_server_info_pool + - my_nfv9_logging_info->server_index; - if (my_nfv9_logging_info->queued_logging_context || - (my_nfv9_logging_info->current_logging_context && - (current_timestamp - - my_nfv9_logging_info->current_logging_context_timestamp) - > 1000)) { - /* - * If there is a current logging context and timestamp - * indicates it is pending for long, send it out - * Also if there is a queued context send it out as well - */ - vlib_cli_output(vm, "\nNFV9_TIMER: queued %p, curr %p", - my_nfv9_logging_info->queued_logging_context, - my_nfv9_logging_info->current_logging_context); - - - cnat_nfv9_send_pkt_always_success(my_nfv9_logging_info, - output_node); - } else { - /* - * If the last_template_sent_time is too far back in time - * send the template even if there is no NFv9 records to send - */ - if ((my_nfv9_logging_info->queued_logging_context == NULL) && - (my_nfv9_logging_info->current_logging_context == NULL) && - ((current_unix_time_in_seconds - - server->last_template_sent_time) > - server->timeout_rate)) { - cnat_nfv9_create_logging_context(my_nfv9_logging_info, - cnat_nfv9_template_add_always); - if (PREDICT_TRUE(my_nfv9_logging_info->current_logging_context - != NULL)) { - cnat_nfv9_send_pkt(my_nfv9_logging_info); - } - } - } - })); -} - -/* - * Code to initialize NFV9 Template. This is done when a NFV9 is enabled - * It is done only once and later used when sending NFV9 template records. - */ -static void -cnat_nfv9_template_init (void) -{ - cnat_nfv9_template_info.flowset_id = - clib_host_to_net_u16(CNAT_NFV9_TEMPLATE_FLOWSET_ID); - cnat_nfv9_template_info.length = - clib_host_to_net_u16(CNAT_NFV9_TEMPLATE_LENGTH - - CNAT_NFV9_OPTION_TEMPLATE_LENGTH); - /* - * Create the add Template - */ - cnat_nfv9_template_info.add_template_id = - clib_host_to_net_u16(CNAT_NFV9_ADD_TEMPLATE_ID); - cnat_nfv9_template_info.add_field_count = - clib_host_to_net_u16(CNAT_NFV9_ADD_FIELD_COUNT); - - cnat_nfv9_template_info.add_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.add_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.add_outside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.add_outside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.add_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_outside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_outside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.add_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - /* - * Create the delete Template - */ - cnat_nfv9_template_info.del_template_id = - clib_host_to_net_u16(CNAT_NFV9_DEL_TEMPLATE_ID); - cnat_nfv9_template_info.del_field_count = - clib_host_to_net_u16(CNAT_NFV9_DEL_FIELD_COUNT); - - cnat_nfv9_template_info.del_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.del_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.del_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.del_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.del_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.del_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.del_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.del_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - - /* Create NAT64 BIB Add template */ -#if 0 - cnat_nfv9_template_info.nat64_add_bib_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT64_ADD_BIB_TEMPLATE_ID); - cnat_nfv9_template_info.nat64_add_bib_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT64_ADD_BIB_FIELD_COUNT); - - - cnat_nfv9_template_info.nat64_add_bib_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_bib_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_bib_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_bib_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_bib_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_bib_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_bib_outside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_bib_outside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_bib_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_bib_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - - /* NAT64 BIB Delete */ - cnat_nfv9_template_info.nat64_del_bib_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT64_DEL_BIB_TEMPLATE_ID); - cnat_nfv9_template_info.nat64_del_bib_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT64_DEL_BIB_FIELD_COUNT); - - cnat_nfv9_template_info.nat64_del_bib_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_bib_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_del_bib_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_bib_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_del_bib_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_bib_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - - /* NAt64 SESSION ADD */ - - cnat_nfv9_template_info.nat64_add_session_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT64_ADD_SESSION_TEMPLATE_ID); - cnat_nfv9_template_info.nat64_add_session_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT64_ADD_SESSION_FIELD_COUNT); - - - cnat_nfv9_template_info.nat64_add_session_inside_ipv6_src_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_inside_ipv6_src_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_session_outside_ip_src_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_outside_ip_src_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - - cnat_nfv9_template_info.nat64_add_session_inside_ipv6_dst_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_DST_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_inside_ipv6_dst_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_DST_ADDR_FIELD_SIZE); - - - cnat_nfv9_template_info.nat64_add_session_outside_ip_dst_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_DST_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_outside_ip_dst_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_DST_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_session_inside_ip_src_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_inside_ip_src_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - - cnat_nfv9_template_info.nat64_add_session_outside_ip_src_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_outside_ip_src_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE); - - - cnat_nfv9_template_info.nat64_add_session_ip_dest_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_ip_dest_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_add_session_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.nat64_add_session_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - - - /* Session Delete */ - cnat_nfv9_template_info.nat64_del_session_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT64_DEL_SESSION_TEMPLATE_ID); - cnat_nfv9_template_info.nat64_del_session_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT64_DEL_SESSION_FIELD_COUNT); - - cnat_nfv9_template_info.nat64_del_session_inside_ip_src_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_session_inside_ip_src_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_del_session_inside_ip_dst_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_DST_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_session_inside_ip_dst_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_DST_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_del_session_inside_ip_src_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_session_inside_ip_src_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_del_session_inside_ip_dst_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_session_inside_ip_dst_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat64_del_session_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.nat64_del_session_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); -#endif - /* - * Create the nat44 session add Template - */ - cnat_nfv9_template_info.nat44_session_add_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT44_ADD_SESSION_TEMPLATE_ID); - cnat_nfv9_template_info.nat44_session_add_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT44_ADD_SESSION_FIELD_COUNT); - - cnat_nfv9_template_info.nat44_session_add_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_outside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_outside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_outside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_outside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_dest_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_dest_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_dest_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_dest_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_add_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_add_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - /* - * Create the nat44 session del Template - */ - cnat_nfv9_template_info.nat44_session_del_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT44_DEL_SESSION_TEMPLATE_ID); - cnat_nfv9_template_info.nat44_session_del_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT44_DEL_SESSION_FIELD_COUNT); - - cnat_nfv9_template_info.nat44_session_del_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_del_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_del_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_del_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_del_dest_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_del_dest_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_del_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_del_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_del_dest_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_del_dest_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.nat44_session_del_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.nat44_session_del_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - /* - * Ds-lite add template - */ -#if 0 - cnat_nfv9_template_info.add_dslite_template_id = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_ADD_TEMPLATE_ID); - cnat_nfv9_template_info.add_dslite_field_count = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_ADD_FIELD_COUNT); - - cnat_nfv9_template_info.add_dslite_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_outside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_outside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_outside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_outside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - /* - * Ds-lite delete template - */ - cnat_nfv9_template_info.del_dslite_template_id = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_DEL_TEMPLATE_ID); - cnat_nfv9_template_info.del_dslite_field_count = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_DEL_FIELD_COUNT); - - cnat_nfv9_template_info.del_dslite_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - /* - * Ds-lite session add template - */ - - cnat_nfv9_template_info.add_dslite_session_template_id = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_ADD_SESSION_TEMPLATE_ID); - cnat_nfv9_template_info.add_dslite_session_field_count = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_ADD_SESSION_FIELD_COUNT); - - cnat_nfv9_template_info.add_dslite_session_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_outside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_outside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_outside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_outside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_dest_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_dest_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_dest_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_dest_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.add_dslite_session_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.add_dslite_session_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - /* - * Ds-lite session delete template - */ - cnat_nfv9_template_info.del_dslite_session_template_id = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_DEL_SESSION_TEMPLATE_ID); - cnat_nfv9_template_info.del_dslite_session_field_count = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_DEL_SESSION_FIELD_COUNT); - - cnat_nfv9_template_info.del_dslite_session_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_session_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_session_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_session_inside_ip_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_inside_ip_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_session_dest_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_dest_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_session_dest_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_dest_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE); - - cnat_nfv9_template_info.del_dslite_session_protocol_field_type = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_TYPE); - cnat_nfv9_template_info.del_dslite_session_protocol_field_size = - clib_host_to_net_u16(CNAT_NFV9_PROTOCOL_FIELD_SIZE); - - /* Create add bulk template */ - cnat_nfv9_template_info.bulk_add_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT44_BULK_ADD_TEMPLATE_ID); - cnat_nfv9_template_info.bulk_add_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT44_BULK_ADD_FIELD_COUNT); - - cnat_nfv9_template_info.bulk_add_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.bulk_add_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_add_outside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.bulk_add_outside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_add_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_add_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_add_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_add_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_add_outside_start_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_TYPE); - cnat_nfv9_template_info.bulk_add_outside_start_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_add_outside_end_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_END_FIELD_TYPE); - cnat_nfv9_template_info.bulk_add_outside_end_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_END_FIELD_SIZE); - - /* - * Create the bulk delete Template - */ - cnat_nfv9_template_info.bulk_del_template_id = - clib_host_to_net_u16(CNAT_NFV9_NAT44_BULK_DEL_TEMPLATE_ID); - cnat_nfv9_template_info.bulk_del_field_count = - clib_host_to_net_u16(CNAT_NFV9_NAT44_BULK_DEL_FIELD_COUNT); - - cnat_nfv9_template_info.bulk_del_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.bulk_del_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_del_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_del_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_del_outside_start_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_TYPE); - cnat_nfv9_template_info.bulk_del_outside_start_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_SIZE); - - /* - * Ds-lite bulk add template - */ - cnat_nfv9_template_info.bulk_dslite_add_template_id = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_BULK_ADD_TEMPLATE_ID); - cnat_nfv9_template_info.bulk_dslite_add_field_count = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_BULK_ADD_FIELD_COUNT); - - cnat_nfv9_template_info.bulk_dslite_add_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_add_outside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_outside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_add_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_add_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_add_outside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_outside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_add_outside_start_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_outside_start_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_add_outside_end_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_END_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_add_outside_end_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_END_FIELD_SIZE); - - /* - * Ds-lite bulk delete template - */ - - cnat_nfv9_template_info.bulk_dslite_del_template_id = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_BULK_DEL_TEMPLATE_ID); - cnat_nfv9_template_info.bulk_dslite_del_field_count = - clib_host_to_net_u16(CNAT_NFV9_DS_LITE_BULK_DEL_FIELD_COUNT); - - cnat_nfv9_template_info.bulk_dslite_del_inside_vrf_id_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_del_inside_vrf_id_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_del_inside_ip_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_del_inside_ip_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_del_inside_ipv6_addr_field_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_del_inside_ipv6_addr_field_size = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE); - - cnat_nfv9_template_info.bulk_dslite_del_outside_start_port_field_type = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_TYPE); - cnat_nfv9_template_info.bulk_dslite_del_outside_start_port_field_size = - clib_host_to_net_u16(CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_SIZE); - -#endif /* NO_BULK_LOGGING */ - - /* - * Ingress vrfid - name mapping - */ - CNAT_NFV9_OPTION_TEMPLATE.flowset_id = - clib_host_to_net_u16(CNAT_NFV9_OPTION_TEMPLATE_FLOWSET_ID); - CNAT_NFV9_OPTION_TEMPLATE.length = - clib_host_to_net_u16(CNAT_NFV9_OPTION_TEMPLATE_LENGTH); - - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_template_id = - clib_host_to_net_u16(CNAT_NFV9_INGRESS_VRF_ID_NAME_TEMPLATE_ID); - /* currently no scope field supported */ - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_scope_len = 0; - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_option_len = - clib_host_to_net_u16(CNAT_NFV9_INGRESS_VRF_ID_NAME_OPTION_LEN); - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_vrfid_option_type = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE); - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_vrfid_option_len = - clib_host_to_net_u16(CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE); - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_vrfname_option_type = - clib_host_to_net_u16(CNAT_NFV9_INGRESS_VRF_NAME_FIELD_TYPE); - CNAT_NFV9_OPTION_TEMPLATE.ingress_vrfid_name_map_vrfname_option_len = - clib_host_to_net_u16(CNAT_NFV9_INGRESS_VRF_NAME_FIELD_SIZE); - - /* - * Set the padding (which was added to make the size of template - * multiple of 4) to zero - */ - CNAT_NFV9_OPTION_TEMPLATE.padding1 = 0; -} - -/* - * one time function - * has to be called at the init time - */ -void cnat_nfv9_logging_init() -{ - if (!cnat_nfv9_global_info.cnat_nfv9_init_done) { - cnat_nfv9_template_init(); - - /* Pre allocate for NFV9_SERVER_POOL_SIZE. Will be good - * enough for most deployments - */ - pool_alloc(nfv9_server_info_pool, NFV9_SERVER_POOL_SIZE); - int i; - nfv9_server_info_t *server __attribute__((unused)); - for(i = 0; i < NFV9_SERVER_POOL_SIZE; i++) { - pool_get(nfv9_server_info_pool, server); - } - - for(i = 0; i < NFV9_SERVER_POOL_SIZE; i++) { - pool_put(nfv9_server_info_pool, nfv9_server_info_pool + i); - } - - memset(&cnat_nfv9_global_info, 0 , sizeof(cnat_nfv9_global_info_t)); - ASSERT(cnat_nfv9_global_info.cnat_nfv9_disp_node_index != (u16)~0); - - cnat_nfv9_global_info.cnat_nfv9_global_collector_index = EMPTY; - cnat_nfv9_global_info.cnat_nfv9_init_done = 1; - - /* - * src id is set to infra IPv4 address + octeon core number - */ - nfv9_src_id = my_instance_number; - } -} diff --git a/plugins/vcgn-plugin/vcgn/cnat_logging.h b/plugins/vcgn-plugin/vcgn/cnat_logging.h deleted file mode 100644 index 7bd43ecf21e..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_logging.h +++ /dev/null @@ -1,1091 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_logging.h - * - * Copyright (c) 2009, 2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_LOGGING_H__ -#define __CNAT_LOGGING_H__ - -#include <stdio.h> -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> - -#include "nat64_db.h" -#include "cnat_log_common.h" -#include "dslite_defs.h" - -#define NFV9_DEF_PATH_MTU 1500 -#define NFV9_VRF_NAME_LEN 12 - -/* one time call at the beginning */ -void cnat_nfv9_logging_init(); - -/* - * unconditional call - * will check logging config inside - */ -void cnat_nfv9_log_mapping_create(cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); - -void cnat_nfv9_nat44_log_session_create(cnat_main_db_entry_t * db, - cnat_session_entry_t * sdb, - cnat_vrfmap_t *vrfmap); - -void cnat_nfv9_nat44_log_session_delete(cnat_main_db_entry_t * db, - cnat_session_entry_t * sdb, - cnat_vrfmap_t *vrfmap); - - -/* - * unconditional call - * will check logging config inside - */ -void cnat_nfv9_log_mapping_delete(cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); - -/* nat44 syslog APIs */ -void cnat_syslog_nat44_mapping_create(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, cnat_session_entry_t * sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); - -void cnat_syslog_nat44_mapping_delete(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, cnat_session_entry_t *sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); - -/* - * dslite - */ -void cnat_nfv9_ds_lite_mapping_create(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); - -void cnat_nfv9_ds_lite_mapping_delete(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); -void cnat_nfv9_ds_lite_log_session_create(cnat_main_db_entry_t * db, - dslite_table_entry_t *dslite_entry, - cnat_session_entry_t * sdb); - -void cnat_nfv9_ds_lite_log_session_delete(cnat_main_db_entry_t * db, - dslite_table_entry_t *dslite_entry, - cnat_session_entry_t * sdb); - -/* - * nat64 - */ - -void cnat_nfv9_bib_mapping_create (nat64_bib_entry_t *db, - nat64_table_entry_t *nat64_entry); - -void cnat_nfv9_session_mapping_create (nat64_bib_entry_t *bdb, - nat64_session_entry_t *sdb, - nat64_table_entry_t *nat64_entry_ptr); - -void cnat_nfv9_bib_mapping_delete (nat64_bib_entry_t *db, - nat64_table_entry_t *nat64_entry); - -void cnat_nfv9_session_mapping_delete (nat64_bib_entry_t *bdb, - nat64_session_entry_t *sdb, - nat64_table_entry_t *nat64_entry_ptr); - -typedef enum { - RECORD_INVALID = 0, - NAT44_ADD_RECORD, - NAT44_DEL_RECORD, - NAT64_ADD_BIB_RECORD, - NAT64_DEL_BIB_RECORD, - NAT64_ADD_SESSION_RECORD, - NAT64_DEL_SESSION_RECORD, - DS_LITE_ADD_RECORD, - DS_LITE_DEL_RECORD, - NAT44_BULK_ADD_RECORD, - NAT44_BULK_DEL_RECORD, - DS_LITE_BULK_ADD_RECORD, - DS_LITE_BULK_DEL_RECORD, - INGRESS_VRF_ID_NAME_RECORD, - NAT44_ADD_SESSION_RECORD, - NAT44_DEL_SESSION_RECORD, - DS_LITE_ADD_SESSION_RECORD, - DS_LITE_DEL_SESSION_RECORD, - MAX_RECORDS -} netflow_record; - -typedef enum { - TEMPLATE_SENT_FALSE = 0, - TEMPLATE_SENT_TRUE = 1 -} netflow_template_sent; - -#define cnat_nfv9_get_sys_up_time_in_ms cnat_get_sys_up_time_in_ms - -#define cnat_nfv9_get_unix_time_in_seconds cnat_get_unix_time_in_seconds - -#define cnat_nfv9_dump_time_change_logs cnat_dump_time_change_logs - - -/* - * Netflow V9 Specific Defines and structures - */ - -#define CNAT_NFV9_VERSION_NUMBER 9 - -#define CNAT_NFV9_TEMPLATE_FLOWSET_ID 0 -#define CNAT_NFV9_OPTION_TEMPLATE_FLOWSET_ID 1 - -#define CNAT_NFV9_ADD_FIELD_COUNT 7 -#define CNAT_NFV9_DEL_FIELD_COUNT 4 -#define CNAT_NFV9_DS_LITE_ADD_FIELD_COUNT 8 -#define CNAT_NFV9_DS_LITE_DEL_FIELD_COUNT 5 -#define CNAT_NFV9_NAT64_ADD_BIB_FIELD_COUNT 5 -#define CNAT_NFV9_NAT64_DEL_BIB_FIELD_COUNT 3 -#define CNAT_NFV9_NAT64_ADD_SESSION_FIELD_COUNT 8 -#define CNAT_NFV9_NAT64_DEL_SESSION_FIELD_COUNT 5 -#define CNAT_NFV9_NAT44_ADD_SESSION_FIELD_COUNT 9 -#define CNAT_NFV9_NAT44_DEL_SESSION_FIELD_COUNT 6 -#define CNAT_NFV9_DS_LITE_ADD_SESSION_FIELD_COUNT 10 -#define CNAT_NFV9_DS_LITE_DEL_SESSION_FIELD_COUNT 7 - -#define CNAT_NFV9_ADD_TEMPLATE_ID 256 -#define CNAT_NFV9_DEL_TEMPLATE_ID 257 -#define CNAT_NFV9_NAT64_ADD_BIB_TEMPLATE_ID 258 -#define CNAT_NFV9_NAT64_DEL_BIB_TEMPLATE_ID 259 -#define CNAT_NFV9_NAT64_ADD_SESSION_TEMPLATE_ID 260 -#define CNAT_NFV9_NAT64_DEL_SESSION_TEMPLATE_ID 261 -#define CNAT_NFV9_INGRESS_VRF_ID_NAME_TEMPLATE_ID 262 -#define CNAT_NFV9_DS_LITE_ADD_TEMPLATE_ID 267 -#define CNAT_NFV9_DS_LITE_DEL_TEMPLATE_ID 268 -#define CNAT_NFV9_NAT44_ADD_SESSION_TEMPLATE_ID 271 -#define CNAT_NFV9_NAT44_DEL_SESSION_TEMPLATE_ID 272 -#define CNAT_NFV9_DS_LITE_ADD_SESSION_TEMPLATE_ID 273 -#define CNAT_NFV9_DS_LITE_DEL_SESSION_TEMPLATE_ID 274 - -#ifndef NO_BULK_LOGGING -#define CNAT_NFV9_NAT44_BULK_ADD_TEMPLATE_ID 265 -#define CNAT_NFV9_NAT44_BULK_DEL_TEMPLATE_ID 266 -#define CNAT_NFV9_DS_LITE_BULK_ADD_TEMPLATE_ID 269 -#define CNAT_NFV9_DS_LITE_BULK_DEL_TEMPLATE_ID 270 - -#define CNAT_NFV9_NAT44_BULK_ADD_FIELD_COUNT 6 -#define CNAT_NFV9_NAT44_BULK_DEL_FIELD_COUNT 3 -#define CNAT_NFV9_DS_LITE_BULK_ADD_FIELD_COUNT 7 -#define CNAT_NFV9_DS_LITE_BULK_DEL_FIELD_COUNT 4 - -#define CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_TYPE 361 -#define CNAT_NFV9_OUTSIDE_IP_PORT_START_FIELD_SIZE 2 - -#define CNAT_NFV9_OUTSIDE_IP_PORT_END_FIELD_TYPE 362 -#define CNAT_NFV9_OUTSIDE_IP_PORT_END_FIELD_SIZE 2 - -#endif /* #ifndef NO_BULK_LOGGING */ - -#define CNAT_NFV9_INGRESS_VRF_NAME_FIELD_TYPE 236 -#define CNAT_NFV9_INGRESS_VRF_NAME_FIELD_SIZE 12 -/* 4 byte for vrf_id + 4 byte for vrf_name (option fields) */ -#define CNAT_NFV9_INGRESS_VRF_ID_NAME_OPTION_LEN 8 -extern u16 cnat_template_id[MAX_RECORDS]; - -#define CNAT_NFV9_INSIDE_VRFID_FIELD_TYPE 234 -#define CNAT_NFV9_INSIDE_VRFID_FIELD_SIZE 4 - -#define CNAT_NFV9_OUTSIDE_VRFID_FIELD_TYPE 235 -#define CNAT_NFV9_OUTSIDE_VRFID_FIELD_SIZE 4 - -#define CNAT_NFV9_INSIDE_IP_ADDR_FIELD_TYPE 8 -#define CNAT_NFV9_INSIDE_IP_ADDR_FIELD_SIZE 4 - -#define CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_TYPE 225 -#define CNAT_NFV9_OUTSIDE_IP_ADDR_FIELD_SIZE 4 - -#define CNAT_NFV9_INSIDE_IP_PORT_FIELD_TYPE 7 -#define CNAT_NFV9_INSIDE_IP_PORT_FIELD_SIZE 2 - -#define CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_TYPE 227 -#define CNAT_NFV9_OUTSIDE_IP_PORT_FIELD_SIZE 2 - -#define CNAT_NFV9_PROTOCOL_FIELD_TYPE 4 -#define CNAT_NFV9_PROTOCOL_FIELD_SIZE 1 - -/* IPv6 related info */ - -#define CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_TYPE 27 -#define CNAT_NFV9_INSIDE_IPV6_SRC_ADDR_FIELD_SIZE 16 - -#define CNAT_NFV9_INSIDE_IPV6_DST_ADDR_FIELD_TYPE 28 -#define CNAT_NFV9_INSIDE_IPV6_DST_ADDR_FIELD_SIZE 16 - -#define CNAT_NFV9_OUTSIDE_IP_DST_ADDR_FIELD_TYPE 226 -#define CNAT_NFV9_OUTSIDE_IP_DST_ADDR_FIELD_SIZE 4 - -#define CNAT_NFV9_INSIDE_DST_PORT_FIELD_TYPE 11 -#define CNAT_NFV9_INSIDE_DST_PORT_FIELD_SIZE 2 - -#define CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_TYPE 12 -#define CNAT_NFV9_DESTINATION_IP_ADDR_FIELD_SIZE 4 - - -typedef struct { - u16 version; - u16 count; - u32 sys_up_time; /* time in ms since system was booted */ - u32 timestamp; /* UNIX time in seconds since 1970 */ - u32 sequence_num; - u32 source_id; -} nfv9_header_t; - -/* - * Hardcoded - need to be fixed - */ -#define CNAT_NFV9_SOURCE_ID_VALUE 0x1234 - -typedef struct { - u16 flowset_id; - u16 length; - - u16 ingress_vrfid_name_map_template_id; - u16 ingress_vrfid_name_map_scope_len; - u16 ingress_vrfid_name_map_option_len; - u16 ingress_vrfid_name_map_vrfid_option_type; - u16 ingress_vrfid_name_map_vrfid_option_len; - u16 ingress_vrfid_name_map_vrfname_option_type; - u16 ingress_vrfid_name_map_vrfname_option_len; - /* - * Adding the padding so as to make the tempalate - * structure end on a 4 byte boundary - */ - u16 padding1; - -} cnat_nfv9_option_template_t; - -/* - * The following structure defines the Netflow Template that - * will be exported to the Netflow Collector - */ - -typedef struct { - u16 flowset_id; - u16 length; - - u16 add_template_id; - u16 add_field_count; - u16 add_inside_vrf_id_field_type; - u16 add_inside_vrf_id_field_size; - u16 add_outside_vrf_id_field_type; - u16 add_outside_vrf_id_field_size; - u16 add_inside_ip_addr_field_type; - u16 add_inside_ip_addr_field_size; - u16 add_outside_ip_addr_field_type; - u16 add_outside_ip_addr_field_size; - u16 add_inside_ip_port_field_type; - u16 add_inside_ip_port_field_size; - u16 add_outside_ip_port_field_type; - u16 add_outside_ip_port_field_size; - u16 add_protocol_field_type; - u16 add_protocol_field_size; - - u16 del_template_id; - u16 del_field_count; - u16 del_inside_vrf_id_field_type; - u16 del_inside_vrf_id_field_size; - u16 del_inside_ip_addr_field_type; - u16 del_inside_ip_addr_field_size; - u16 del_inside_ip_port_field_type; - u16 del_inside_ip_port_field_size; - u16 del_protocol_field_type; - u16 del_protocol_field_size; -#if 0 - /* NAT64 related info */ - u16 nat64_add_bib_template_id; - u16 nat64_add_bib_field_count; - u16 nat64_add_bib_inside_ipv6_addr_field_type; - u16 nat64_add_bib_inside_ipv6_addr_field_size; - u16 nat64_add_bib_outside_ip_addr_field_type; - u16 nat64_add_bib_outside_ip_addr_field_size; - u16 nat64_add_bib_inside_ip_port_field_type; - u16 nat64_add_bib_inside_ip_port_field_size; - u16 nat64_add_bib_outside_ip_port_field_type; - u16 nat64_add_bib_outside_ip_port_field_size; - u16 nat64_add_bib_protocol_field_type; - u16 nat64_add_bib_protocol_field_size; - - u16 nat64_del_bib_template_id; - u16 nat64_del_bib_field_count; - u16 nat64_del_bib_inside_ip_addr_field_type; - u16 nat64_del_bib_inside_ip_addr_field_size; - u16 nat64_del_bib_inside_ip_port_field_type; - u16 nat64_del_bib_inside_ip_port_field_size; - u16 nat64_del_bib_protocol_field_type; - u16 nat64_del_bib_protocol_field_size; - - - u16 nat64_add_session_template_id; - u16 nat64_add_session_field_count; - u16 nat64_add_session_inside_ipv6_src_addr_field_type; - u16 nat64_add_session_inside_ipv6_src_addr_field_size; - u16 nat64_add_session_outside_ip_src_addr_field_type; - u16 nat64_add_session_outside_ip_src_addr_field_size; - u16 nat64_add_session_inside_ipv6_dst_addr_field_type; - u16 nat64_add_session_inside_ipv6_dst_addr_field_size; - u16 nat64_add_session_outside_ip_dst_addr_field_type; - u16 nat64_add_session_outside_ip_dst_addr_field_size; - u16 nat64_add_session_inside_ip_src_port_field_type; - u16 nat64_add_session_inside_ip_src_port_field_size; - u16 nat64_add_session_outside_ip_src_port_field_type; - u16 nat64_add_session_outside_ip_src_port_field_size; - u16 nat64_add_session_ip_dest_port_field_type; - u16 nat64_add_session_ip_dest_port_field_size; - u16 nat64_add_session_protocol_field_type; - u16 nat64_add_session_protocol_field_size; - - u16 nat64_del_session_template_id; - u16 nat64_del_session_field_count; - u16 nat64_del_session_inside_ip_src_addr_field_type; - u16 nat64_del_session_inside_ip_src_addr_field_size; - u16 nat64_del_session_inside_ip_dst_addr_field_type; - u16 nat64_del_session_inside_ip_dst_addr_field_size; - u16 nat64_del_session_inside_ip_src_port_field_type; - u16 nat64_del_session_inside_ip_src_port_field_size; - u16 nat64_del_session_inside_ip_dst_port_field_type; - u16 nat64_del_session_inside_ip_dst_port_field_size; - u16 nat64_del_session_protocol_field_type; - u16 nat64_del_session_protocol_field_size; - - /* - * Ds-Lite specific info - */ - u16 add_dslite_template_id; - u16 add_dslite_field_count; - u16 add_dslite_inside_vrf_id_field_type; - u16 add_dslite_inside_vrf_id_field_size; - u16 add_dslite_outside_vrf_id_field_type; - u16 add_dslite_outside_vrf_id_field_size; - u16 add_dslite_inside_ip_addr_field_type; - u16 add_dslite_inside_ip_addr_field_size; - u16 add_dslite_inside_ipv6_addr_field_type; - u16 add_dslite_inside_ipv6_addr_field_size; - u16 add_dslite_outside_ip_addr_field_type; - u16 add_dslite_outside_ip_addr_field_size; - u16 add_dslite_inside_ip_port_field_type; - u16 add_dslite_inside_ip_port_field_size; - u16 add_dslite_outside_ip_port_field_type; - u16 add_dslite_outside_ip_port_field_size; - u16 add_dslite_protocol_field_type; - u16 add_dslite_protocol_field_size; - - u16 del_dslite_template_id; - u16 del_dslite_field_count; - u16 del_dslite_inside_vrf_id_field_type; - u16 del_dslite_inside_vrf_id_field_size; - u16 del_dslite_inside_ip_addr_field_type; - u16 del_dslite_inside_ip_addr_field_size; - u16 del_dslite_inside_ipv6_addr_field_type; - u16 del_dslite_inside_ipv6_addr_field_size; - u16 del_dslite_inside_ip_port_field_type; - u16 del_dslite_inside_ip_port_field_size; - u16 del_dslite_protocol_field_type; - u16 del_dslite_protocol_field_size; -#endif - -//#ifndef NO_BULK_LOGGING /* commenting for time being */ -#if 0 - u16 bulk_add_template_id; - u16 bulk_add_field_count; - u16 bulk_add_inside_vrf_id_field_type; - u16 bulk_add_inside_vrf_id_field_size; - u16 bulk_add_outside_vrf_id_field_type; - u16 bulk_add_outside_vrf_id_field_size; - u16 bulk_add_inside_ip_addr_field_type; - u16 bulk_add_inside_ip_addr_field_size; - u16 bulk_add_outside_ip_addr_field_type; - u16 bulk_add_outside_ip_addr_field_size; - u16 bulk_add_outside_start_port_field_type; - u16 bulk_add_outside_start_port_field_size; - u16 bulk_add_outside_end_port_field_type; - u16 bulk_add_outside_end_port_field_size; - - u16 bulk_del_template_id; - u16 bulk_del_field_count; - u16 bulk_del_inside_vrf_id_field_type; - u16 bulk_del_inside_vrf_id_field_size; - u16 bulk_del_inside_ip_addr_field_type; - u16 bulk_del_inside_ip_addr_field_size; - u16 bulk_del_outside_start_port_field_type; - u16 bulk_del_outside_start_port_field_size; - - /* ds-lite bulk logging create delete event */ - - u16 bulk_dslite_add_template_id; - u16 bulk_dslite_add_field_count; - u16 bulk_dslite_add_inside_vrf_id_field_type; - u16 bulk_dslite_add_inside_vrf_id_field_size; - u16 bulk_dslite_add_outside_vrf_id_field_type; - u16 bulk_dslite_add_outside_vrf_id_field_size; - u16 bulk_dslite_add_inside_ip_addr_field_type; - u16 bulk_dslite_add_inside_ip_addr_field_size; - u16 bulk_dslite_add_inside_ipv6_addr_field_type; - u16 bulk_dslite_add_inside_ipv6_addr_field_size; - u16 bulk_dslite_add_outside_ip_addr_field_type; - u16 bulk_dslite_add_outside_ip_addr_field_size; - u16 bulk_dslite_add_outside_start_port_field_type; - u16 bulk_dslite_add_outside_start_port_field_size; - u16 bulk_dslite_add_outside_end_port_field_type; - u16 bulk_dslite_add_outside_end_port_field_size; - - u16 bulk_dslite_del_template_id; - u16 bulk_dslite_del_field_count; - u16 bulk_dslite_del_inside_vrf_id_field_type; - u16 bulk_dslite_del_inside_vrf_id_field_size; - u16 bulk_dslite_del_inside_ip_addr_field_type; - u16 bulk_dslite_del_inside_ip_addr_field_size; - u16 bulk_dslite_del_inside_ipv6_addr_field_type; - u16 bulk_dslite_del_inside_ipv6_addr_field_size; - u16 bulk_dslite_del_outside_start_port_field_type; - u16 bulk_dslite_del_outside_start_port_field_size; - -#endif /* NO_BULK_LOGGING */ - - u16 nat44_session_add_template_id; - u16 nat44_session_add_field_count; - u16 nat44_session_add_inside_vrf_id_field_type; - u16 nat44_session_add_inside_vrf_id_field_size; - u16 nat44_session_add_outside_vrf_id_field_type; - u16 nat44_session_add_outside_vrf_id_field_size; - u16 nat44_session_add_inside_ip_addr_field_type; - u16 nat44_session_add_inside_ip_addr_field_size; - u16 nat44_session_add_outside_ip_addr_field_type; - u16 nat44_session_add_outside_ip_addr_field_size; - u16 nat44_session_add_inside_ip_port_field_type; - u16 nat44_session_add_inside_ip_port_field_size; - u16 nat44_session_add_outside_ip_port_field_type; - u16 nat44_session_add_outside_ip_port_field_size; - u16 nat44_session_add_dest_ip_addr_field_type; - u16 nat44_session_add_dest_ip_addr_field_size; - u16 nat44_session_add_dest_port_field_type; - u16 nat44_session_add_dest_port_field_size; - u16 nat44_session_add_protocol_field_type; - u16 nat44_session_add_protocol_field_size; - - u16 nat44_session_del_template_id; - u16 nat44_session_del_field_count; - u16 nat44_session_del_inside_vrf_id_field_type; - u16 nat44_session_del_inside_vrf_id_field_size; - u16 nat44_session_del_inside_ip_addr_field_type; - u16 nat44_session_del_inside_ip_addr_field_size; - u16 nat44_session_del_dest_ip_addr_field_type; - u16 nat44_session_del_dest_ip_addr_field_size; - u16 nat44_session_del_inside_ip_port_field_type; - u16 nat44_session_del_inside_ip_port_field_size; - u16 nat44_session_del_dest_port_field_type; - u16 nat44_session_del_dest_port_field_size; - u16 nat44_session_del_protocol_field_type; - u16 nat44_session_del_protocol_field_size; - -#if 0 - u16 add_dslite_session_template_id; - u16 add_dslite_session_field_count; - u16 add_dslite_session_inside_vrf_id_field_type; - u16 add_dslite_session_inside_vrf_id_field_size; - u16 add_dslite_session_outside_vrf_id_field_type; - u16 add_dslite_session_outside_vrf_id_field_size; - u16 add_dslite_session_inside_ip_addr_field_type; - u16 add_dslite_session_inside_ip_addr_field_size; - u16 add_dslite_session_inside_ipv6_addr_field_type; - u16 add_dslite_session_inside_ipv6_addr_field_size; - u16 add_dslite_session_outside_ip_addr_field_type; - u16 add_dslite_session_outside_ip_addr_field_size; - u16 add_dslite_session_inside_ip_port_field_type; - u16 add_dslite_session_inside_ip_port_field_size; - u16 add_dslite_session_outside_ip_port_field_type; - u16 add_dslite_session_outside_ip_port_field_size; - u16 add_dslite_session_dest_ip_addr_field_type; - u16 add_dslite_session_dest_ip_addr_field_size; - u16 add_dslite_session_dest_port_field_type; - u16 add_dslite_session_dest_port_field_size; - u16 add_dslite_session_protocol_field_type; - u16 add_dslite_session_protocol_field_size; - - u16 del_dslite_session_template_id; - u16 del_dslite_session_field_count; - u16 del_dslite_session_inside_vrf_id_field_type; - u16 del_dslite_session_inside_vrf_id_field_size; - u16 del_dslite_session_inside_ip_addr_field_type; - u16 del_dslite_session_inside_ip_addr_field_size; - u16 del_dslite_session_inside_ipv6_addr_field_type; - u16 del_dslite_session_inside_ipv6_addr_field_size; - u16 del_dslite_session_dest_ip_addr_field_type; - u16 del_dslite_session_dest_ip_addr_field_size; - u16 del_dslite_session_inside_ip_port_field_type; - u16 del_dslite_session_inside_ip_port_field_size; - u16 del_dslite_session_dest_port_field_type; - u16 del_dslite_session_dest_port_field_size; - u16 del_dslite_session_protocol_field_type; - u16 del_dslite_session_protocol_field_size; -#endif - - /* - * Netflow option template - * Ingress VRF ID - Name mapping - * This template will be sent under flowset id 1 - */ - cnat_nfv9_option_template_t cnat_nfv9_option_template; -} cnat_nfv9_template_t; - -/* - * The Dataflow header for each add/delete record group - */ -typedef struct { - u16 dataflow_template_id; - u16 dataflow_length; -} nfv9_dataflow_record_header_t; - -/* - * NFv9 Add record definition - */ - -/* - * pad bytes needed to make the structure a multiple of 4 bytes - */ -#define CNAT_NFV9_ADD_RECORD_PAD_BYTES (3) -#define CNAT_NFV9_DEL_RECORD_PAD_BYTES (1) - -#define CNAT_NFV9_NAT64_ADD_BIB_RECORD_PAD_BYTES (3) -#define CNAT_NFV9_NAT64_DEL_BIB_RECORD_PAD_BYTES (1) -#define CNAT_NFV9_NAT64_ADD_SESSION_RECORD_PAD_BYTES (1) -#define CNAT_NFV9_NAT64_DEL_SESSION_RECORD_PAD_BYTES (3) -#define CNAT_NFV9_NAT44_ADD_SESSION_RECORD_PAD_BYTES (1) -#define CNAT_NFV9_NAT44_DEL_SESSION_RECORD_PAD_BYTES (3) - -#define CNAT_NFV9_DS_LITE_ADD_RECORD_PAD_BYTES (3) -#define CNAT_NFV9_DS_LITE_DEL_RECORD_PAD_BYTES (1) -#define CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_PAD_BYTES (1) -#define CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_PAD_BYTES (3) - -#define CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_PAD_BYTES (0) - -typedef struct { - u32 inside_vrf_id; - u32 outside_vrf_id; - u32 inside_ip_addr; - u32 outside_ip_addr; - u16 inside_ip_port; - u16 outside_ip_port; - u8 protocol; - u8 pad[CNAT_NFV9_ADD_RECORD_PAD_BYTES]; -} nfv9_add_record_t; - -/* - * NFv9 Delete record definition - */ -typedef struct { - u32 inside_vrf_id; - u32 inside_ip_addr; - u16 inside_ip_port; - u8 protocol; - u8 pad[CNAT_NFV9_DEL_RECORD_PAD_BYTES]; -} nfv9_del_record_t; - -#ifndef NO_BULK_LOGGING - -#define CNAT_NFV9_BULK_ADD_RECORD_PAD_BYTES (0) -#define CNAT_NFV9_BULK_DEL_RECORD_PAD_BYTES (2) - -typedef struct { - u32 inside_vrf_id; - u32 outside_vrf_id; - u32 inside_ip_addr; - u32 outside_ip_addr; - u16 outside_ip_port_start; - u16 outside_ip_port_end; - u8 pad[CNAT_NFV9_BULK_ADD_RECORD_PAD_BYTES]; -} nfv9_bulk_add_record_t; - -/* - * NFv9 Delete record definition - */ -typedef struct { - u32 inside_vrf_id; - u32 inside_ip_addr; - u16 outside_ip_port_start; - u8 pad[CNAT_NFV9_BULK_DEL_RECORD_PAD_BYTES]; -} nfv9_bulk_del_record_t; - -/* - * DS-lite bulk port (user based) add record definition - */ - -#define CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_PAD_BYTES (0) -#define CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_PAD_BYTES (2) - -typedef struct { - u32 inside_vrf_id; - u32 outside_vrf_id; - u32 inside_ip_addr; - u32 inside_v6_src_addr[4]; - u32 outside_ip_addr; - u16 outside_ip_port_start; - u16 outside_ip_port_end; - u8 pad[CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_PAD_BYTES]; -} nfv9_ds_lite_bulk_add_record_t; - - -/* - * DS-lite bulk port (user based) delete record definition - */ - -typedef struct { - u32 inside_vrf_id; - u32 inside_ip_addr; - u32 inside_v6_src_addr[4]; - u16 outside_ip_port_start; - u8 pad[CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_PAD_BYTES]; -} nfv9_ds_lite_bulk_del_record_t; - -#endif /* NO_BULK_LOGGING */ - -/* NAT64 related structures */ - -typedef struct { - u32 inside_v6_src_addr[4]; - u32 outside_v4_src_addr; - u16 inside_src_port; - u16 outside_src_port; - u8 protocol; - u8 pad[CNAT_NFV9_NAT64_ADD_BIB_RECORD_PAD_BYTES]; -} nfv9_nat64_add_bib_record_t; - - -typedef struct { - u32 inside_v6_src_addr[4]; - u32 outside_v4_src_addr; - u32 inside_v6_dest_addr[4]; - u32 outside_v4_dest_addr; - u16 inside_src_port; - u16 outside_src_port; - u16 dest_port; - u8 protocol; - u8 pad[CNAT_NFV9_NAT64_ADD_SESSION_RECORD_PAD_BYTES]; -} nfv9_nat64_add_session_record_t; - - -typedef struct { - u32 inside_v6_src_addr[4]; - u16 inside_src_port; - u8 protocol; - u8 pad[CNAT_NFV9_NAT64_DEL_BIB_RECORD_PAD_BYTES]; -} nfv9_nat64_del_bib_record_t; - - -typedef struct { - u32 inside_v6_src_addr[4]; - u32 inside_v6_dest_addr[4]; - u16 inside_src_port; - u16 dest_port; - u8 protocol; - u8 pad[CNAT_NFV9_NAT64_DEL_SESSION_RECORD_PAD_BYTES]; -} nfv9_nat64_del_session_record_t; - -/* - * NFv9 Session based Add record definition - */ -typedef struct { - u32 inside_vrf_id; - u32 outside_vrf_id; - u32 inside_ip_addr; - u32 outside_ip_addr; - u16 inside_ip_port; - u16 outside_ip_port; - u32 dest_ip_addr; - u16 dest_port; - u8 protocol; - u8 pad[CNAT_NFV9_NAT44_ADD_SESSION_RECORD_PAD_BYTES]; -} nfv9_add_session_record_t; - -/* - * NFv9 Session based del record definition - */ -typedef struct { - u32 inside_vrf_id; - u32 inside_ip_addr; - u32 dest_ip_addr; - u16 inside_ip_port; - u16 dest_port; - u8 protocol; - u8 pad[CNAT_NFV9_NAT44_DEL_SESSION_RECORD_PAD_BYTES]; -} nfv9_del_session_record_t; - -/* - * DS-lite NFv9 create record structure - */ -typedef struct { - u32 inside_vrf_id; - u32 outside_vrf_id; - u32 inside_ip_addr; - u32 inside_v6_src_addr[4]; - u32 outside_ip_addr; - u16 inside_ip_port; - u16 outside_ip_port; - u8 protocol; - u8 pad[CNAT_NFV9_DS_LITE_ADD_RECORD_PAD_BYTES]; -} nfv9_ds_lite_add_record_t; - -typedef struct { - u32 inside_vrf_id; - u32 inside_ip_addr; - u32 inside_v6_src_addr[4]; - u16 inside_ip_port; - u8 protocol; - u8 pad[CNAT_NFV9_DS_LITE_DEL_RECORD_PAD_BYTES]; -} nfv9_ds_lite_del_record_t; - -/* - * NFv9 Session based Add record definition - */ -typedef struct { - u32 inside_vrf_id; - u32 outside_vrf_id; - u32 inside_ip_addr; - u32 inside_v6_src_addr[4]; - u32 outside_ip_addr; - u16 inside_ip_port; - u16 outside_ip_port; - u32 dest_ip_addr; - u16 dest_port; - u8 protocol; - u8 pad[CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_PAD_BYTES]; -} nfv9_ds_lite_add_session_record_t; - -/* - * NFv9 Session based del record definition - */ -typedef struct { - u32 inside_vrf_id; - u32 inside_ip_addr; - u32 inside_v6_src_addr[4]; - u32 dest_ip_addr; - u16 inside_ip_port; - u16 dest_port; - u8 protocol; - u8 pad[CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_PAD_BYTES]; -} nfv9_ds_lite_del_session_record_t; - - -typedef struct { - u32 ingress_vrf_id; - u8 ingress_vrf_name[NFV9_VRF_NAME_LEN]; - u8 pad[CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_PAD_BYTES]; -} nfv9_ingress_vrfid_name_record_t; - -#define CNAT_NFV9_TEMPLATE_OFFSET \ - (CNAT_NFV9_HDR_OFFSET + sizeof(nfv9_header_t)) - -#define CNAT_NFV9_TEMPLATE_LENGTH (sizeof(cnat_nfv9_template_t)) -#define CNAT_NFV9_OPTION_TEMPLATE_LENGTH (sizeof(cnat_nfv9_option_template_t)) - -#define CNAT_NFV9_DATAFLOW_RECORD_HEADER_LENGTH \ - (sizeof(nfv9_dataflow_record_header_t)) - -/* - * No padding is needed for the add/delete records - reduce padding bytes - */ - -#define CNAT_NFV9_ADD_RECORD_LENGTH (sizeof(nfv9_add_record_t) - \ - CNAT_NFV9_ADD_RECORD_PAD_BYTES) - -#define CNAT_NFV9_DEL_RECORD_LENGTH (sizeof(nfv9_del_record_t) - \ - CNAT_NFV9_DEL_RECORD_PAD_BYTES) - -#define CNAT_NFV9_DS_LITE_ADD_RECORD_LENGTH (sizeof(nfv9_ds_lite_add_record_t) - \ - CNAT_NFV9_DS_LITE_ADD_RECORD_PAD_BYTES) -#define CNAT_NFV9_DS_LITE_DEL_RECORD_LENGTH (sizeof(nfv9_ds_lite_del_record_t) - \ - CNAT_NFV9_DS_LITE_DEL_RECORD_PAD_BYTES) -#ifndef NO_BULK_LOGGING -#define CNAT_NFV9_BULK_ADD_RECORD_LENGTH (sizeof(nfv9_bulk_add_record_t) - \ - CNAT_NFV9_BULK_ADD_RECORD_PAD_BYTES) -#define CNAT_NFV9_BULK_DEL_RECORD_LENGTH (sizeof(nfv9_bulk_del_record_t) - \ - CNAT_NFV9_BULK_DEL_RECORD_PAD_BYTES) - -#define CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_LENGTH (sizeof(nfv9_ds_lite_bulk_add_record_t) - \ - CNAT_NFV9_DS_LITE_BULK_ADD_RECORD_PAD_BYTES) -#define CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_LENGTH (sizeof(nfv9_ds_lite_bulk_del_record_t) - \ - CNAT_NFV9_DS_LITE_BULK_DEL_RECORD_PAD_BYTES) - - -#endif /* NO_BULK_LOGGING */ - -#define CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_LENGTH (sizeof(nfv9_ingress_vrfid_name_record_t) - \ - CNAT_NFV9_INGRESS_VRFID_NAME_RECORD_PAD_BYTES) - -#define CNAT_NFV9_NAT64_ADD_BIB_RECORD_LENGTH \ - (sizeof(nfv9_nat64_add_bib_record_t) - \ - CNAT_NFV9_NAT64_ADD_BIB_RECORD_PAD_BYTES) - -#define CNAT_NFV9_NAT64_DEL_BIB_RECORD_LENGTH \ - (sizeof(nfv9_nat64_del_bib_record_t) - \ - CNAT_NFV9_NAT64_DEL_BIB_RECORD_PAD_BYTES) - -#define CNAT_NFV9_NAT64_ADD_SESSION_RECORD_LENGTH \ - (sizeof(nfv9_nat64_add_session_record_t) - \ - CNAT_NFV9_NAT64_ADD_SESSION_RECORD_PAD_BYTES) - -#define CNAT_NFV9_NAT64_DEL_SESSION_RECORD_LENGTH \ - (sizeof(nfv9_nat64_del_session_record_t) - \ - CNAT_NFV9_NAT64_DEL_SESSION_RECORD_PAD_BYTES) - -#define CNAT_NFV9_MAX_SINGLE_RECORD_LENGTH \ - (sizeof(nfv9_ds_lite_add_session_record_t) - \ - CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_PAD_BYTES) - -#define CNAT_NFV9_NAT44_ADD_SESSION_RECORD_LENGTH \ - (sizeof(nfv9_add_session_record_t) -\ - CNAT_NFV9_NAT44_ADD_SESSION_RECORD_PAD_BYTES) - -#define CNAT_NFV9_NAT44_DEL_SESSION_RECORD_LENGTH \ - (sizeof(nfv9_del_session_record_t) -\ - CNAT_NFV9_NAT44_DEL_SESSION_RECORD_PAD_BYTES) - -#define CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_LENGTH \ - (sizeof(nfv9_ds_lite_add_session_record_t) -\ - CNAT_NFV9_DS_LITE_ADD_SESSION_RECORD_PAD_BYTES) - -#define CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_LENGTH \ - (sizeof(nfv9_ds_lite_del_session_record_t) -\ - CNAT_NFV9_DS_LITE_DEL_SESSION_RECORD_PAD_BYTES) - -/* - * Minimum value of the path MTU value - */ -#define CNAT_NFV9_MIN_RECORD_SIZE (60 + \ - CNAT_NFV9_DATAFLOW_RECORD_HEADER_LENGTH + \ - CNAT_NFV9_TEMPLATE_LENGTH + \ - CNAT_NFV9_MAX_SINGLE_RECORD_LENGTH) - -/* - * Let us put the maximum length of the netflow data to be 1400 - */ -#define CNAT_NFV9_MAX_PKT_LENGTH 1400 - -/* - * Data structures and defines to store NFV9 specific info - */ -#define CNAT_NFV9_INVALID_LOGGING_INDEX 0xffffffff - -/* - * Padding value between ADD and DELETE records. This can be atmost 3 bytes - */ -#define NFV9_PAD_VALUE (3) - -typedef struct { - /* NFV9 server specific info - * For now, it will maintain only package sequence count. - * Later it will maintain server address, port, etc. - * Though it currently has server address and port, it is only for - * cross refernce - */ - u32 ipv4_address; /* Destination IP address of the collector */ - u16 port; /* Destination port number of the collector */ - u16 refresh_rate; /* Refresh rate in packets after which template is sent */ - u16 timeout_rate; /* Timeout rate in seconds after which template is sent */ - u16 ref_count; /* Num of instances using this data */ - u32 sequence_num; /* Sequence number of the logging packet */ - /* - * Keep track of the time and packets since last template send - */ - u32 last_template_sent_time; - u32 pkts_since_last_template; - u8 template_sent; /* used while sending vrfid-name mapping */ - -} nfv9_server_info_t; - -/* - * This structure store the Netflow Logging information on per NFv9 - * collector basis. This structure is allocated from a pool and index - * to this structure is stored VRF MAP structures - */ -typedef struct { - /* - * nat64_id will be 0 for nat44 config and i_vrf_id, i_vrf will be 0 - * for nat64 config. Nat64_id will be used while nat64 collector is - * search and i_vrf* for nat44 collector - */ - /* Similarly for ds_lite, ds_lite_id will be used and nat64_id, - * ivrf_id shall be set to 0 - */ - u32 i_vrf_id; /* Inside VRF ID corresponding to this collector */ - u16 i_vrf; /* Inside VRF (uidb_index) corresponding to this collector */ - u16 nat64_id; /* NAT64 instance for to this collector */ - u16 ds_lite_id; /* DS Lite instance for this collector */ - - /* - * This field determines the maximum size of the Netflow V9 information - * that can be stored in a logging packet - */ - u16 max_length_minus_max_record_size; - - /* - * Indicates if the entry is already deleted - */ - u16 deleted; - - u16 pkt_length; /* Length of the currently NFv9 information */ - u16 record_length[MAX_RECORDS]; /* Length of delete record */ - u16 total_record_count; /* Total number of records including templates */ - - u8 logging_policy; - - /* - * Keep track of the time and packets since last template send - */ - u32 last_template_sent_time; - u32 pkts_since_last_template; - - /* Server info */ - u32 server_index; - - /* - * current logging context - */ - vlib_buffer_t *current_logging_context; - - /* - * Timestamp in UNIX seconds corresponding to when the current - * logging packet was created - */ - u32 current_logging_context_timestamp; - - /* - * Queued logging context waiting to be sent to the l3 infra node - */ - vlib_buffer_t *queued_logging_context; - - /* - * Headers corresponding to various records in this - * current nfv9 logging context - */ - nfv9_header_t *nfv9_header; - cnat_nfv9_template_t *nfv9_template_header; - nfv9_dataflow_record_header_t *dataflow_header; - u8 *record[MAX_RECORDS]; - u8 *next_data_ptr; - u8 last_record; - u32 nfv9_logging_next_index; - u32 ip4_input_node_index; - vlib_frame_t *f; - u32 *to_next; -} cnat_nfv9_logging_info_t; - - -/* - * Global structure for CGN APP configuration - */ -typedef struct { - /* - * Global NFv9 Logging Collector Index - */ - u32 cnat_nfv9_global_collector_index; - - /* - * Node index corresponding to the infra L3 output node - * to which the nfv9 logging node will send the packet - */ - u16 cnat_nfv9_disp_node_index; - - /* - * Whether we have initialized the NFv9 information - */ - u8 cnat_nfv9_init_done; -} cnat_nfv9_global_info_t; - -typedef enum { - cnat_nfv9_template_add_default, - cnat_nfv9_template_add_always -} cnat_nfv9_template_add_flag_t; - -extern cnat_nfv9_template_t cnat_nfv9_template_info; - -extern cnat_nfv9_logging_info_t cnat_default_nfv9_logging_info; -extern cnat_nfv9_logging_info_t *cnat_nfv9_logging_info_pool; - -extern cnat_nfv9_global_info_t cnat_nfv9_global_info; -extern nfv9_server_info_t *nfv9_server_info_pool; - -/* #define DEBUG_NF_SERVER_CONFIG 1 */ -static inline void nfv9_delete_server_info(cnat_nfv9_logging_info_t *nfv9_info) -{ - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_info->server_index; - if(nfv9_info->server_index == EMPTY) { -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - PLATFORM_DEBUG_PRINT("Deleting empty server info\n"); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - return; - } - - /* Check if this server is not used by anyone.. if not delete */ - /* Caller of this function does not need it..so decrement ref count */ - server->ref_count--; - if(!(server->ref_count)) { -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - PLATFORM_DEBUG_PRINT("Deleting nfv9 server %x, %d at %d\n", - server->ipv4_address, - server->port, - nfv9_info->server_index); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - pool_put(nfv9_server_info_pool, server); - nfv9_info->server_index = EMPTY; - } -#ifdef DEBUG_NF_SERVER_CONFIG - else { - if(my_instance_number == 1) { - PLATFORM_DEBUG_PRINT("Not Deleting nfv9 server %x, %d rc %d\n", - server->ipv4_address, - server->port, - server->ref_count); - } - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - return; -} - -void handle_pending_nfv9_pkts(); -#endif /* __CNAT_LOGGING_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_pcp_server.h b/plugins/vcgn-plugin/vcgn/cnat_pcp_server.h deleted file mode 100644 index c77c6a875f8..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_pcp_server.h +++ /dev/null @@ -1,398 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_pcp_server.h - * - * Copyright (c) 2009-2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_PCP_SERVER_H__ -#define __CNAT_PCP_SERVER_H__ - -#include "dslite_defs.h" - -/* Debug utils of PCP */ -#define PCP_DBG(debug, ...) \ - if(PREDICT_FALSE(cnat_pcp_debug_flag >= debug)) { \ - printf("%s:%s:%d - ", \ - __FILE__, __FUNCTION__, __LINE__);\ - printf(__VA_ARGS__);\ - printf("\n"); \ - } - -#define PCP_DUMP_PDATA \ - if(PREDICT_FALSE(cnat_pcp_debug_flag >= 100)) { \ - printf("%s:%s:%d - \n", \ - __FILE__, __FUNCTION__, __LINE__);\ - printf("src - ip = %X, proto = %d, port = %d i_vrf = %d, o_vrf = %d\n", \ - pcp_data.src_ip[3], pcp_data.proto, pcp_data.src_port, pcp_data.i_vrf, pcp_data.o_vrf); \ - printf(" third party ip = %X\n", pcp_data.third_party_ip[3]); \ - printf("map - ip = %X, port = %d \n", \ - pcp_data.ext_ip[3], pcp_data.ext_port);\ - printf("remote - ip = %X, port = %d \n", \ - pcp_data.peer_ip[3], pcp_data.peer_port); \ - printf("req life time = %d \n", pcp_data.req_lifetime); \ - printf("drop = %d \n", pcp_data.drop);\ - printf("udp_len = %d \n", pcp_data.udp_len); \ - printf("pm = %p \n", pcp_data.pm); \ - printf("cnat_proto = %X \n", pcp_data.cnat_proto); \ - printf("inst_id = %X \n", pcp_data.inst_id); \ - printf("======================================================\n"); \ - } - -#define PCP_DUMP_PACKET(ip, len) pcp_hex_dump(ip, len) - -#ifdef TOBE_PORTED -#define PCP_INCR(counter) pcp_counters.pcp_##counter++ ; -#else -#define PCP_INCR(counter) -#endif - -typedef struct pcp_debug_counters { - u64 pcp_input; - u64 pcp_output; - u64 pcp_service_nat44; - u64 pcp_service_dslite; - /* below all are drops */ - u64 pcp_drops; - u64 pcp_i2o_key_inuse; - u64 pcp_throttle_drops; - u64 pcp_udp_len; - u64 pcp_nrequest; - u64 pcp_min_udp_len; - u64 pcp_max_udp_len; - u64 pcp_mod4_len; - u64 pcp_invalid_3rd_len; - u64 pcp_invalid_option; - u64 pcp_version; - u64 pcp_invalid_opcode; - u64 pcp_invalid_client_ip; - u64 pcp_invalid_proto; - u64 pcp_invalid_port; - u64 pcp_invalid_vrfmap; - u64 pcp_invalid_ext_addr; - u64 pcp_out_addr_inuse; - u64 pcp_exact_match; - u64 pcp_exact_entry_created; - u64 pcp_exact_db_alloc_failed; - u64 pcp_udb_mismatch; - u64 pcp_noexact_db_allocated; - u64 pcp_static_entry_present; - u64 pcp_entry_deleted; - u64 pcp_3rd_party_option; - - /* map counters */ - u64 pcp_map_input; - u64 pcp_map_min_len; - u64 pcp_map_max_len; - u64 pcp_map_invalid_option; - u64 pcp_map_invalid_option_len; - u64 pcp_map_pref_fail_option; - u64 pcp_map_invalid_delete_req; - u64 pcp_map_delete_req; - u64 pcp_map_create_req; - u64 pcp_map_refresh; - - /* peer counters */ - u64 pcp_peer_input; - u64 pcp_peer_invalid_len; - u64 pcp_peer_delete_req; - u64 pcp_peer_create_req; - u64 pcp_peer_addr_mistmatch; - u64 pcp_peer_refresh; - -} pcp_debug_counters_t; - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad[5]; - - /* better to have a group structures rather than individual - variables, any change in counters is will automatically - reflect here */ - pcp_debug_counters_t counters; -} pcp_show_counters_resp_t ; - - - -/* PCP opcodes */ -typedef enum pcp_opcode { - PCP_OPCODE_MAP = 1, - PCP_OPCODE_PEER = 2 -}pcp_opcode_t; - - -/* PCP opcodes */ -typedef enum pcp_options { - PCP_OPTION_3RD_PARTY = 1, - PCP_OPTION_PREF_FAIL = 2, - PCP_OPTION_FILTER = 3 -} pcp_options_t; - -/* PCP Result codes */ -typedef enum pcp_result_codes { - PCP_SUCCESS = 0, - PCP_ERR_UNSUPP_VERSION = 1, - PCP_ERR_NOT_AUTHORIZED = 2, - PCP_ERR_MALFORMED_REQUEST = 3, - PCP_ERR_UNSUPP_OPCODE = 4, - PCP_ERR_UNSUPP_OPTION = 5, - PCP_ERR_MALFORMED_OPTION = 6, - PCP_ERR_NETWORK_FAILURE = 7, - PCP_ERR_NO_RESOURCES = 8, - PCP_ERR_UNSUPP_PROTOCOL = 9, - PCP_ERR_USER_EX_QUOTA = 10, - PCP_ERR_CANNOT_PROVIDE_EXTERNAL = 11, - PCP_ERR_ADDRESS_MISMATCH = 12, - PCP_ERR_EXCESSIVE_REMOTE_PEERS = 13 -} pcp_result_codes_t; - -#define PCP_DISABLED 0 -#define PCP_ENABLED 1 - -#define PCP_DROP 1 - -#define PCP_STATIC_LIFETIME 0xFFFFFFFF -#define PCP_MAX_LIFETIME 0x00015180 /* 24 hours = 86400 seconds*/ - -#define PCP_VERSION_SUPPORTED 1 - -#define PCP_NO_PREF_FAIL_OPTION 0 -#define PCP_PREF_FAIL_OPTION 1 - -#define CNAT_DEF_PCP_PORT 5351 - -#define PCP_REQ_RESP_BIT 0x80 -#define PCP_RESPONSE(r_opcode) (r_opcode & PCP_REQ_RESP_BIT) -#define PCP_REQUEST(r_opcode) !(PCP_RESPONSE(r_opcode)) - -#define PCP_REQ_OPCODE(r_opcode) (r_opcode & 0x7F) - -/* 24 bytes */ -#define PCP_COMMON_HDR_LEN sizeof(pcp_request_t) - -/* 8 bytes */ -#define UDP_HDR_LEN sizeof(udp_hdr_type_t) - -#define PCP_PREF_FAIL_OPTION_SIZE \ - sizeof(pcp_prefer_fail_option_t) - -#define PCP_3RD_PARTY_OPTION_SIZE \ - sizeof(pcp_3rd_party_option_t) - -#define PCP_MIN_LEN PCP_COMMON_HDR_LEN - -/* 24+8=32 bytes */ -#define PCP_MIN_UDP_LEN (PCP_MIN_LEN + UDP_HDR_LEN) - -#define PCP_MAX_LEN 1024 - -/* 1024+8 = 1032 bytes */ -#define PCP_MAX_UDP_LEN (PCP_MAX_LEN + UDP_HDR_LEN) - -/* 24+ 24 = 48 bytes */ -#define PCP_MAP_OPCODE_MIN_LEN (PCP_COMMON_HDR_LEN + \ - sizeof( pcp_map_option_specific_data_t)) - -/* 24 + 44 = 68 bytes */ -#define PCP_PEER_OPCODE_MIN_LEN (PCP_COMMON_HDR_LEN + \ - sizeof( pcp_peer_option_specific_data_t)) - -/* 48 + 8 = 56 bytes */ -#define PCP_MAP_OPCODE_MIN_UDP_LEN (PCP_MAP_OPCODE_MIN_LEN + \ - UDP_HDR_LEN ) - -#define PCP_GET_MAP_OPTION_OFFSET(req) \ - ((u8*)req + PCP_MAP_OPCODE_MIN_LEN) - -#define PCP_GET_PEER_OPTION_OFFSET(req) \ - ((u8*)req + PCP_PEER_OPCODE_MIN_LEN) - - -#define PCP_REQ_TOTAL_LEN(udp) (udp->udp_length - \ - UDP_HDR_LEN) -/* 56 + 4 = 60 bytes */ -#define PCP_MAP_OPCODE_PREF_FAIL_OPTION_LEN \ - (PCP_MAP_OPCODE_MIN_UDP_LEN + \ - sizeof(pcp_prefer_fail_option_t)) - - -/* 68 + 8 = 76 bytes */ -#define PCP_PEER_OPCODE_MIN_UDP_LEN (PCP_PEER_OPCODE_MIN_LEN + \ - UDP_HDR_LEN) - -#define PCP_MUST_OPTION(option_code) (option_code & 0x80) - - - -/* 56 + 20 = 76*/ -#define PCP_DSLITE_MAP_OPCODE_MIN_UDP_LEN \ - ( PCP_MAP_OPCODE_MIN_UDP_LEN + \ - PCP_3RD_PARTY_OPTION_SIZE) - -/* 60 + 20 = 80 */ -#define PCP_DSLITE_MAP_OPCODE_MAX_UDP_LEN \ - ( PCP_MAP_OPCODE_PREF_FAIL_OPTION_LEN + \ - PCP_3RD_PARTY_OPTION_SIZE) - -/* 76 + 20 = 96 */ -#define PCP_DSLITE_PEER_OPCODE_MIN_UDP_LEN \ - ( PCP_PEER_OPCODE_MIN_UDP_LEN + \ - PCP_3RD_PARTY_OPTION_SIZE) - - -#define PCP_SET_CNAT_PROTO(proto) \ - pcp_data.cnat_proto = (proto == TCP_PROT) ? CNAT_TCP: \ - (proto == UDP_PROT)? CNAT_UDP : CNAT_ICMP; - -#define PCP_SET_REQ_LIFETIME() \ - if(pcp_data.db->flags & CNAT_DB_FLAG_STATIC_PORT) { \ - pcp_data.db->proto_data.seq_pcp.pcp_lifetime = \ - PCP_STATIC_LIFETIME; \ - pcp_data.req_lifetime = PCP_STATIC_LIFETIME; \ - } else { \ - pcp_data.db->proto_data.seq_pcp.pcp_lifetime = \ - pcp_data.req_lifetime + cnat_current_time ; \ - } - - -/* per second not more than PCP_THROTTLE_LIMIT - * delete requests will be handled. - * this excludes , specific entries, in which - * only one entry needs to be deleted - */ -#define PCP_THROTTLE_LIMIT 2 - -typedef struct pcp_request { - u8 ver; - u8 r_opcode; - u16 reserved; - u32 req_lifetime; - u32 ip[4]; /* ipv4 will be represented - by the ipv4 mapped ipv6 */ -} pcp_request_t; - -typedef struct pcp_response { - u8 ver; - u8 r_opcode; - u8 reserved; - u8 result_code; - u32 lifetime; - u32 epochtime; - u32 reserved1[3]; -} pcp_response_t; - - -typedef struct pcp_options_hdr { - u8 code; - u8 reserved; - u16 len; - u8 data[0]; -} pcp_options_hdr_t; - - -/* same for both request and response */ -typedef struct pcp_map_option_specific_data { - u8 protocol; - u8 reserved[3]; - u16 int_port; - u16 ext_port; - u32 ext_ip[4]; /* ipv4 will be represnted - by the ipv4 mapped ipv6 */ -} pcp_map_option_specific_data_t; - -/* same for both request and response */ -typedef struct pcp_peer_option_specific_data { - u8 protocol; - u8 reserved[3]; - u16 int_port; - u16 ext_port; - u32 ext_ip[4]; /* ipv4 will be represented - by the ipv4 mapped ipv6 */ - u16 peer_port; - u16 reserved1; - u32 peer_ip[4]; -} pcp_peer_option_specific_data_t; - -typedef struct pcp_prefer_fail_option { - u8 option; - u8 reserved; - u16 len; -} pcp_prefer_fail_option_t; - - -typedef struct pcp_3rd_party_option{ - u8 option; - u8 reserved; - u16 len; - u32 ip[4]; -} pcp_3rd_party_option_t; - -/* structure used as pipeline data */ - -typedef struct pcp_pipeline_data { - - union { - - u8 *p; - ipv4_header *ip ; - ipv6_header_t *ipv6 ; - - } l3addr; - - udp_hdr_type_t *udp; - pcp_request_t *req; - pcp_response_t *resp; - pcp_opcode_t opcode; - u32 src_ip[4]; - u16 src_port; - u8 proto; - u16 i_vrf; - u16 o_vrf; - u32 ext_ip[4]; - u16 ext_port; - u32 third_party_ip[4]; - - /* valid for peer opcode */ - u32 peer_ip[4]; - u32 peer_port; - u32 req_lifetime; - u32 udp_len; - pcp_options_t pref_fail; - pcp_options_t third_party; - u8 *option_spec; - pcp_result_codes_t ret_code; - cnat_portmap_v2_t *pm; - cnat_main_db_entry_t *db; - cnat_vrfmap_t *vrfmap; - dslite_table_entry_t *inst_ptr; - u16 inst_id; - u32 flags; - u16 cnat_proto; - - /* is packet needs to be dropped ? */ - u8 drop; - /* nat44, dslite, nat64 */ -#define PCP_SERVICE_NAT44 1 -#define PCP_SERVICE_DSLITE 2 -#define PCP_SERVICE_NAT64 3 - u8 service_type; - -#define PCP_REQ_ENTRY_PRESENT 1 -#define PCP_REQ_EXT_MAP_PRESENT 1 - u8 state; -} pcp_pipeline_data_t; - -#endif /* __CNAT_PCP_sERVER_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_ports.c b/plugins/vcgn-plugin/vcgn/cnat_ports.c deleted file mode 100644 index 943fb3ed38c..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ports.c +++ /dev/null @@ -1,1113 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_ports.c - port allocator - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> -#include <vppinfra/bitmap.h> - -#include "cnat_db.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_logging.h" -#include "spp_timers.h" -#include "platform_common.h" -#include "cgn_bitmap.h" -#include "spp_platform_trace_log.h" -#include "cnat_ports.h" - -#if 1 /* TOBE_PORTED */ -/* Following is defined elsewhere. */ -#define msg_spp_err(s) \ -do { \ - fprintf(stderr,(i8 *)s); \ - fputs("\n", stderr); \ -} while(0); -#endif - - -#define PM_90_PERCENT_USE 58980 -/* - * instance number provisioned from HW - */ -u8 my_instance_number = 0; - -typedef struct { - u32 cached_next_index; - /* $$$$ add data here */ - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; -} cnat_ports_main_t; - -cnat_ports_main_t cnat_ports_main; - -static u32 rseed_port; /* random number generator seed */ - -void -cnat_db_dump_portmap_for_vrf (u32 vrfmap_index) -{ - u32 i, pm_len; - cnat_vrfmap_t *my_vrfmap = cnat_map_by_vrf + vrfmap_index; - cnat_portmap_v2_t *pm, *my_pm __attribute__((unused)); - - pm = my_vrfmap->portmap_list; - pm_len = vec_len(pm); - - for (i = 0; i < pm_len; i++) { - my_pm = pm + i; - - PLATFORM_DEBUG_PRINT("pm %d: IPv4 Addr 0x%x - in use %d private_ip_users_count %d\n", - i, my_pm->ipv4_address, my_pm->inuse, - my_pm->private_ip_users_count); - - PLATFORM_DEBUG_PRINT("pm %d: IPv4 Addr 0x%x - in use %d " - "private_ip_users_count %d\n", - i, my_pm->ipv4_address, my_pm->inuse, - my_pm->private_ip_users_count); - } -} - -void -cnat_db_dump_portmaps () -{ - u32 i, vrfmap_index; - - for (i = 0; i < CNAT_MAX_VRFMAP_ENTRIES; i++) { - vrfmap_index = vrf_map_array[i]; - - if (vrfmap_index == VRF_MAP_ENTRY_EMPTY) { - continue; - } - - PLATFORM_DEBUG_PRINT("\n\nDumping the port map for uidb_index %d\n", i); - cnat_db_dump_portmap_for_vrf(vrfmap_index); - } -} - -#ifndef NO_BULK_LOGGING -static int check_if_stat_alloc_ok_for_bulk(cnat_portmap_v2_t *pm, - u16 i_port, bulk_alloc_size_t bulk_size, - u16 static_port_range) -{ - uword bit_test_result; - if(BULK_ALLOC_SIZE_NONE == bulk_size) return 1; /* No issues */ - - if(i_port < static_port_range) return 1; /* we don't want bulk */ - - i_port = (i_port/bulk_size) * bulk_size; - bit_test_result = cgn_clib_bitmap_check_if_all(pm->bm, i_port, bulk_size); - return(bit_test_result); -} -#else /* dummy */ -inline static int check_if_stat_alloc_ok_for_bulk(cnat_portmap_v2_t *pm, - u16 i_port, bulk_alloc_size_t bulk_size, - u16 static_port_range) -{ - return 1; -} -#endif /* NO_BULK_LOGGING */ -/* - * cnat_port_alloc_static_v2 - * public ipv4 address/port allocator for Static Port commands - * tries to allocate same outside port as inside port - */ -cnat_errno_t -cnat_static_port_alloc_v2 ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 i_ipv4_address, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif - , u16 ip_n_to_1 - ) -{ - u32 i, hash_value, my_index, found, max_attempts; - u16 start_bit, new_port; - cnat_portmap_v2_t *my_pm = 0; - u32 pm_len = vec_len(pm); - uword bit_test_result; - -#ifndef NO_BULK_LOGGING - *nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; -#endif - - if (PREDICT_FALSE(pm_len == 0)) { - return (CNAT_NO_POOL_ANY); - } - - switch (atype) { - - case PORT_ALLOC_ANY: - - found = 0; - - /* - * Try to hash the IPv4 address to get an index value to select the pm - */ - hash_value = (i_ipv4_address & 0xffff) ^ - ((i_ipv4_address > 16) & 0xffff); - - /* - * If pm_len <= 256, compact the hash to 8 bits - */ - if (PREDICT_TRUE(pm_len <= 256)) { - hash_value = (hash_value & 0xff) ^ ((hash_value > 8) & 0xff); - } - - /* - * Ensure that the hash value is in the range 0 .. (pm_len-1) - */ - my_index = hash_value % pm_len; - - for (i = 0; i < PORT_PROBE_LIMIT; i++) { - my_pm = pm + my_index; - if(PREDICT_TRUE(ip_n_to_1)) { - if(PREDICT_TRUE(my_pm->private_ip_users_count < ip_n_to_1)) { - /* - * Try to find a PM with atlest 33% free and my_port free - */ - if (PREDICT_TRUE((my_pm->inuse < ((BITS_PER_INST*2)/3)) && - clib_bitmap_get_no_check(my_pm->bm, - i_port) == 1) -#ifndef NO_BULK_LOGGING - && check_if_stat_alloc_ok_for_bulk(my_pm, i_port, - bulk_size, - static_port_range) -#endif - ) { - found = 1; - break; - } - } - - } else { - /* - * Try to find a PM with atlest 33% free and my_port free - */ - if (PREDICT_TRUE((my_pm->inuse < ((BITS_PER_INST*2)/3)) && - clib_bitmap_get_no_check(my_pm->bm, - i_port) == 1) -#ifndef NO_BULK_LOGGING - && check_if_stat_alloc_ok_for_bulk(my_pm, i_port, - bulk_size, - static_port_range) -#endif - ) { - found = 1; - break; - } - } - my_index = (my_index + 1) % pm_len; - } - - /* - * If not found do it the hard way . - * "hard" way, best-fit. - */ - if (!found) { - u32 min_inuse_any, min_inuse_myport; - u32 min_index_any, min_index_myport; - - min_inuse_any = min_inuse_myport = PORTS_PER_ADDR + 1; - min_index_any = min_index_myport = ~0; - for (i = 0; i < pm_len; i++) { - my_pm = pm + i; - if(PREDICT_TRUE(ip_n_to_1)) { - if(PREDICT_TRUE(my_pm->private_ip_users_count < ip_n_to_1)) { - if (PREDICT_FALSE(my_pm->inuse < min_inuse_any)) { - min_inuse_any = my_pm->inuse; - min_index_any = my_pm - pm; - } - if (PREDICT_FALSE(my_pm->inuse < min_inuse_myport)) { - if (PREDICT_TRUE(clib_bitmap_get_no_check( - my_pm->bm,i_port) == 1) -#ifndef NO_BULK_LOGGING - && check_if_stat_alloc_ok_for_bulk(my_pm, - i_port,bulk_size,static_port_range) -#endif - ) { - min_inuse_myport = my_pm->inuse; - min_index_myport = my_pm - pm; - } - } - - } - - } else { - if (PREDICT_FALSE(my_pm->inuse < min_inuse_any)) { - min_inuse_any = my_pm->inuse; - min_index_any = my_pm - pm; - } - if (PREDICT_FALSE(my_pm->inuse < min_inuse_myport)) { - if (PREDICT_TRUE(clib_bitmap_get_no_check( - my_pm->bm, i_port) == 1) -#ifndef NO_BULK_LOGGING - && check_if_stat_alloc_ok_for_bulk(my_pm, i_port, - bulk_size, static_port_range) -#endif - ) { - min_inuse_myport = my_pm->inuse; - min_index_myport = my_pm - pm; - } - } - } - } - - /* - * Check if we have an exactly matching PM that has - * myport free. If so use it. If no such PM is - * available, use any PM - */ - if (PREDICT_TRUE(min_inuse_myport < PORTS_PER_ADDR)) { - my_pm = pm + min_index_myport; - my_index = min_index_myport; - found = 1; - } else if (PREDICT_TRUE(min_inuse_any < PORTS_PER_ADDR)) { - my_pm = pm + min_index_any; - my_index = min_index_any; - found = 1; - } - } - - if (!found) { - return (CNAT_NO_PORT_ANY); - } - break; - - case PORT_ALLOC_DIRECTED: - my_index = *index; - if (PREDICT_FALSE(my_index > pm_len)) { - return (CNAT_INV_PORT_DIRECT); - } - my_pm = pm + my_index; - break; - - default: - return (CNAT_ERR_PARSER); - } - - /* Allocate a matching port if possible */ - start_bit = i_port; - found = 0; - max_attempts = BITS_PER_INST; -#ifndef NO_BULK_LOGGING - if((BULK_ALLOC_SIZE_NONE != bulk_size) && - (i_port >= static_port_range)) { - start_bit = (start_bit/bulk_size) * bulk_size; - max_attempts = BITS_PER_INST/bulk_size; - } -#endif /* NO_BULK_LOGGING */ - - for (i = 0; i < max_attempts; i++) { -#ifndef NO_BULK_LOGGING - if((BULK_ALLOC_SIZE_NONE != bulk_size) && - (i_port >= static_port_range)) { - bit_test_result = cgn_clib_bitmap_check_if_all(my_pm->bm, - start_bit, bulk_size); - } - else -#endif /* #ifndef NO_BULK_LOGGING */ - bit_test_result = clib_bitmap_get_no_check(my_pm->bm, start_bit); - - if (PREDICT_TRUE(bit_test_result)) { -#ifndef NO_BULK_LOGGING - if((BULK_ALLOC_SIZE_NONE != bulk_size) && - (i_port >= static_port_range)) { - *nfv9_log_req = start_bit; - if(i==0) new_port = i_port; /* First go */ - else { - new_port = bit2port(start_bit); - if (pair_type == PORT_S_ODD && (new_port & 0x1) == 0) - new_port++; - } - found = 1; - break; - } - else { -#endif /* NO_BULK_LOGGING */ - new_port = bit2port(start_bit); - if (pair_type == PORT_S_ODD) { - if ((new_port & 0x1) == 1) { - found = 1; - break; - } - } else if (pair_type == PORT_S_EVEN) { - if ((new_port & 0x1) == 0) { - found = 1; - break; - } - } else { - found = 1; - break; - } -#ifndef NO_BULK_LOGGING - } -#endif - } -#ifndef NO_BULK_LOGGING - if((BULK_ALLOC_SIZE_NONE != bulk_size) && - (i_port >= static_port_range)) - start_bit = (start_bit + bulk_size) % BITS_PER_INST; - else { -#endif /* NO_BULK_LOGGING */ - start_bit = (start_bit + 1) % BITS_PER_INST; - if(PREDICT_FALSE(start_bit == 0)) { - start_bit = 1; /* Port 0 is invalid, so start from 1 */ - } -#ifndef NO_BULK_LOGGING - } -#endif - } /* End of for loop */ - - if (!found) { - /* Port allocation failure */ - if (atype == PORT_ALLOC_DIRECTED) { - return (CNAT_NOT_FOUND_DIRECT); - } else { - return (CNAT_NOT_FOUND_ANY); - } - } - - /* Accounting */ - cgn_clib_bitmap_clear_no_check(my_pm->bm, new_port); - (my_pm->inuse)++; - - *index = my_pm - pm; - *o_ipv4_address = my_pm->ipv4_address; - - *o_port = new_port; - - return (CNAT_SUCCESS); -} - -/* - * Try to allocate a portmap structure based on atype field - */ -cnat_portmap_v2_t * -cnat_dynamic_addr_alloc_from_pm ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - u32 *index, - cnat_errno_t *err, - u16 ip_n_to_1, - u32 *rseed_ip) -{ - u32 i, pm_len; - int my_index; - int min_inuse, min_index; - - cnat_portmap_v2_t *my_pm = 0; - *err = CNAT_NO_POOL_ANY; - - pm_len = vec_len(pm); - - switch(atype) { - case PORT_ALLOC_ANY: - if (PREDICT_FALSE(pm_len == 0)) { - my_pm = 0; - *err = CNAT_NO_POOL_ANY; - goto done; - } - - /* "Easy" way, first address with at least 200 free ports */ - for (i = 0; i < PORT_PROBE_LIMIT; i++) { - *rseed_ip = randq1(*rseed_ip); - my_index = (*rseed_ip) % pm_len; - my_pm = pm + my_index; - if (PREDICT_FALSE(ip_n_to_1)) { - if(PREDICT_TRUE(ip_n_to_1 == 1)) { - if (PREDICT_FALSE(0 == my_pm->inuse)) { - goto done; - } - } else { - if(PREDICT_TRUE(my_pm->private_ip_users_count < ip_n_to_1)) { - if (PREDICT_FALSE(my_pm->inuse < ((BITS_PER_INST*2)/3))) { - goto done; - } - } - } - } else { - if (PREDICT_FALSE(my_pm->inuse < ((BITS_PER_INST*2)/3))) { - goto done; - } - } - } - - /* "hard" way, best-fit. $$$$ Throttle complaint */ - min_inuse = PORTS_PER_ADDR + 1; - min_index = ~0; - for (i = 0; i < pm_len; i++) { - my_pm = pm + i; - if (PREDICT_FALSE(ip_n_to_1)) { - if(PREDICT_TRUE(ip_n_to_1 == 1)) { - if (PREDICT_FALSE(!my_pm->inuse)) { - min_inuse = my_pm->inuse; - min_index = my_pm - pm; - } - } else { - if(PREDICT_TRUE(my_pm->private_ip_users_count < ip_n_to_1)) { - if (PREDICT_TRUE(my_pm->inuse < min_inuse)) { - min_inuse = my_pm->inuse; - min_index = my_pm - pm; - } - - } - } - - } else { - if (PREDICT_TRUE(my_pm->inuse < min_inuse)) { - min_inuse = my_pm->inuse; - min_index = my_pm - pm; - } - } - } - - if (PREDICT_TRUE(min_inuse < PORTS_PER_ADDR)) { - my_pm = pm + min_index; - my_index = min_index; - goto done; - } - - /* Completely out of ports */ -#ifdef DEBUG_PRINTF_ENABLED - PLATFORM_DEBUG_PRINT("%s out of ports\n", __FUNCTION__); -#endif - - my_pm = 0; - *err = CNAT_NO_PORT_ANY; - break; - - - case PORT_ALLOC_DIRECTED: - //ASSERT(*index < pm_len); - if (PREDICT_FALSE(*index > pm_len)) { - my_pm = 0; - *err = CNAT_INV_PORT_DIRECT; - goto done; - } - my_pm = pm + *index; - my_index = *index; - break; - - default: - msg_spp_err("bad allocation type in cnat_port_alloc"); - my_pm = 0; - *err = CNAT_ERR_PARSER; - break; - } - - done: - if (PREDICT_FALSE(my_pm == NULL)) { - return (my_pm); - } - - if (PREDICT_FALSE(my_pm->inuse >= BITS_PER_INST)) { - my_pm = 0; - if (atype == PORT_ALLOC_DIRECTED) { - *err = CNAT_BAD_INUSE_DIRECT; - } else { - *err = CNAT_BAD_INUSE_ANY; - } - } - - return (my_pm); -} - - -/* - * cnat_port_alloc_v2 - * public ipv4 address/port allocator for dynamic ports - * - * 200K users / 20M translations means vec_len(cnat_portmap) will be - * around 300. - * - */ -cnat_errno_t -cnat_dynamic_port_alloc_v2 ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif - , u16 ip_n_to_1, - u32 *rseed_ip - ) -{ - int i; - cnat_errno_t my_err = CNAT_NO_POOL_ANY; - cnat_portmap_v2_t *my_pm = 0; - u16 start_bit; - u16 new_port; - uword bit_test_result; - uword max_trys_to_find_port; - - ASSERT(index); - ASSERT(o_ipv4_address); - ASSERT(o_port); - - my_pm = cnat_dynamic_addr_alloc_from_pm(pm, atype, index, &my_err, ip_n_to_1, - rseed_ip); - - if (PREDICT_FALSE(my_pm == NULL)) { - return (my_err); - } - if(PREDICT_FALSE(my_pm->dyn_full == 1)) { - if (atype == PORT_ALLOC_DIRECTED) { - return (CNAT_NOT_FOUND_DIRECT); - } else { - return (CNAT_NOT_FOUND_ANY); - } - } - -#if DEBUG > 1 - PLATFORM_DEBUG_PRINT("ALLOC_PORT_V2: My_Instance_Number %d: IP addr 0x%x, Inuse %d\n", - my_instance_number, my_pm->ipv4_address, my_pm->inuse); -#endif - - rseed_port = randq1(rseed_port); - - /* - * Exclude the static port range for allocating dynamic ports - */ - start_bit = (rseed_port) % (BITS_PER_INST - static_port_range); - start_bit = start_bit + static_port_range; - -#ifndef NO_BULK_LOGGING - *nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; - if(BULK_ALLOC_SIZE_NONE != bulk_size) - { - /* We need the start port of the range to be alined on integer multiple - * of bulk_size */ - max_trys_to_find_port = BITS_PER_INST/bulk_size; - start_bit= ((start_bit + bulk_size -1)/bulk_size) * bulk_size; - } - else -#endif /* #ifndef NO_BULK_LOGGING */ - max_trys_to_find_port = BITS_PER_INST; - - /* Allocate a random port / port-pair */ - for (i = 0; i < max_trys_to_find_port; i++) { - - /* start_bit is only a u16.. so it can rollover and become zero */ - if (PREDICT_FALSE( /* (start_bit >= BITS_PER_INST) || FIXME u16 cannot be >= 65536 */ - (start_bit < static_port_range))) { - start_bit = static_port_range; -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - start_bit= ((start_bit + bulk_size -1)/bulk_size) * bulk_size; - } -#endif /* #ifndef NO_BULK_LOGGING */ - } - /* Scan forward from random position */ -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - bit_test_result = cgn_clib_bitmap_check_if_all(my_pm->bm, - start_bit, bulk_size); - } - else -#endif /* #ifndef NO_BULK_LOGGING */ - bit_test_result = clib_bitmap_get_no_check(my_pm->bm, start_bit); - - if (PREDICT_TRUE(bit_test_result)) { - new_port = bit2port(start_bit); -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) - *nfv9_log_req = new_port; -#endif - if ((pair_type == PORT_S_ODD) && - (!(new_port & 0x1))) { -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - start_bit++; /* Just use the next one in the bulk range */ - new_port++; - goto found2; - } -#endif /* #ifndef NO_BULK_LOGGING */ - goto notfound; - } else if ((pair_type == PORT_S_EVEN) && - (new_port & 0x1)) { - goto notfound; - } - - /* OK we got one or two suitable ports */ - goto found2; - } - - notfound: -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) - start_bit += bulk_size; - else -#endif /* #ifndef NO_BULK_LOGGING */ - start_bit++; - - } /* end of for loop */ - - /* Completely out of ports */ - - /* Port allocation failure */ - /* set dyn_full flag. This would be used to verify - * for further dyn session before searching for port - */ - if (atype == PORT_ALLOC_DIRECTED) { - my_pm->dyn_full = 1; - return (CNAT_NOT_FOUND_DIRECT); - } else { - my_pm->dyn_full = 1; - return (CNAT_NOT_FOUND_ANY); - } - - - found2: - - /* Accounting */ - cgn_clib_bitmap_clear_no_check (my_pm->bm, start_bit); - (my_pm->inuse)++; - - *index = my_pm - pm; - *o_ipv4_address = my_pm->ipv4_address; - - *o_port = new_port; - return (CNAT_SUCCESS); -} - -#ifdef TOBE_PORTED -/* - * cnat_alloc_port_from_pm - * Given a portmap structure find port/port_pair that are free - * - * The assumption in this function is that bit in bm corresponds - * to a port number. This is TRUE and hence there is no call - * to the function bit2port here, though it is done in other - * places in this file. - * - */ -static u32 -cnat_alloc_port_from_pm ( - u32 start_port, - u32 end_port, - cnat_portmap_v2_t *my_pm, - port_pair_t pair_type -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif /* #ifnded NO_BULK_ALLOCATION */ - ) -{ - u32 i; - u32 start_bit; - u32 total_ports = end_port - start_port + 1; - uword bit_test_result; - uword max_trys_to_find_port; - - rseed_port = randq1(rseed_port); - - start_bit = rseed_port % total_ports; - start_bit = start_bit + start_port; -#ifndef NO_BULK_LOGGING - *nfv9_log_req = BULK_ALLOC_NOT_ATTEMPTED; - if(BULK_ALLOC_SIZE_NONE != bulk_size) - { - /* We need the start port of the range to be alined on integer multiple - * of bulk_size */ - max_trys_to_find_port = total_ports/bulk_size; - start_bit= ((start_bit + bulk_size -1)/bulk_size) * bulk_size; - } - else -#endif /* #ifndef NO_BULK_LOGGING */ - max_trys_to_find_port = total_ports; - - /* Allocate a random port / port-pair */ - for (i = 0; i < max_trys_to_find_port; i++) { - /* start_bit is only a u16.. so it can rollover and become zero */ - if (PREDICT_FALSE((start_bit >= end_port) || - (start_bit < start_port))) { - start_bit = start_port; -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - start_bit= ((start_bit + bulk_size -1)/bulk_size) * bulk_size; - } -#endif /* #ifndef NO_BULK_LOGGING */ - } - - /* Scan forward from random position */ -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - bit_test_result = cgn_clib_bitmap_check_if_all(my_pm->bm, - start_bit, bulk_size); - } - else -#endif /* #ifndef NO_BULK_LOGGING */ - bit_test_result = clib_bitmap_get_no_check(my_pm->bm, start_bit); - - if (PREDICT_TRUE(bit_test_result)) { -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - /* Got the entire bulk range */ - *nfv9_log_req = bit2port(start_bit); - return start_bit; - } else { -#endif /* #ifndef NO_BULK_LOGGING */ - /* - * For PORT_PAIR, first port has to be Even - * subsequent port <= end_port - * subsequent port should be unallocated - */ - if ((start_bit & 0x1) || - ((start_bit + 1) > end_port) || - (clib_bitmap_get_no_check(my_pm->bm, - (start_bit + 1)) == 0)) { - goto notfound; - } - return (start_bit); -#ifndef NO_BULK_LOGGING - } -#endif /* #ifndef NO_BULK_LOGGING */ - } /* if( free port found ) */ - -notfound: -#ifndef NO_BULK_LOGGING - if(BULK_ALLOC_SIZE_NONE != bulk_size) { - start_bit += bulk_size; - } else -#endif /* #ifndef NO_BULK_LOGGING */ - start_bit++; - - } - return (BITS_PER_INST); -} - -/* - * cnat_dynamic_port_alloc_rtsp - * public ipv4 address/port allocator for dynamic ports - * - * 200K users / 20M translations means vec_len(cnat_portmap) will be - * around 300. - * - */ - -cnat_errno_t -cnat_dynamic_port_alloc_rtsp ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u16 start_range, - u16 end_range, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif - , u32 *rseed_ip - ) -{ - - u32 current_timestamp; - cnat_errno_t my_err = CNAT_NO_POOL_ANY; - cnat_portmap_v2_t *my_pm = 0; - u32 alloc_bit; - - ASSERT(index); - ASSERT(o_ipv4_address); - ASSERT(o_port); - - my_pm = cnat_dynamic_addr_alloc_from_pm(pm, atype, index, &my_err, 0,rseed_ip); - - if (PREDICT_FALSE(my_pm == NULL)) { - return (my_err); - } - -#if DEBUG > 1 - PLATFORM_DEBUG_PRINT("ALLOC_PORT_V2: My_Instance_Number %d: IP addr 0x%x, Inuse %d\n", - my_instance_number, my_pm->ipv4_address, my_pm->inuse); -#endif - - alloc_bit = - cnat_alloc_port_from_pm(start_range, end_range, my_pm, pair_type -#ifndef NO_BULK_LOGGING - , bulk_size, nfv9_log_req -#endif /* #ifndef NO_BULK_LOGGING */ - ); - - if (alloc_bit < BITS_PER_INST) { - if (pair_type == PORT_PAIR) { - /* Accounting */ - cgn_clib_bitmap_clear_no_check (my_pm->bm, alloc_bit); - cgn_clib_bitmap_clear_no_check (my_pm->bm, alloc_bit+1); - (my_pm->inuse) += 2; - } else { - /* Accounting */ - cgn_clib_bitmap_clear_no_check (my_pm->bm, alloc_bit); - (my_pm->inuse)++; - } - - *index = my_pm - pm; - *o_ipv4_address = my_pm->ipv4_address; - - *o_port = bit2port(alloc_bit);; - - return (CNAT_SUCCESS); - } - - /* Completely out of ports */ - current_timestamp = spp_trace_log_get_unix_time_in_seconds(); - if (PREDICT_FALSE((current_timestamp - my_pm->last_sent_timestamp) > - 1000)) { - spp_printf(CNAT_NO_EXT_PORT_AVAILABLE, 0, NULL); - my_pm->last_sent_timestamp = current_timestamp; - } - - - /* Port allocation failure */ - if (atype == PORT_ALLOC_DIRECTED) { - return (CNAT_NOT_FOUND_DIRECT); - } else { - return (CNAT_NOT_FOUND_ANY); - } -} -#else -cnat_errno_t -cnat_dynamic_port_alloc_rtsp ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u16 start_range, - u16 end_range, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif - , u32 *rseed_ip - ) -{ - return (CNAT_NOT_FOUND_ANY); -} -#endif - - -/* - * cnat_mapped_static_port_alloc_v2 - * / - */ -cnat_errno_t -cnat_mapped_static_port_alloc_v2 ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - u32 *index, - u32 ipv4_address, - u16 port -#ifndef NO_BULK_LOGGING - , int *nfv9_log_req, - bulk_alloc_size_t bulk_size -#endif - , u16 ip_n_to_1 - ) -{ - int i; - u32 pm_len; - u16 bm_bit; - cnat_portmap_v2_t *my_pm = 0; - u32 my_index; - - ASSERT(index); - - /* - * Map the port to the bit in the pm bitmap structure. - * Note that we use ports from 1024..65535, so - * port number x corresponds to (x-1024) position in bitmap - */ - bm_bit = port2bit(port); - - pm_len = vec_len(pm); - - switch(atype) { - case PORT_ALLOC_ANY: - if (PREDICT_FALSE(pm_len == 0)) { - return (CNAT_NO_POOL_ANY); - } - - /* - * Find the pm that is allocated for this translated IP address - */ - my_index = pm_len; - - for (i = 0; i < pm_len; i++) { - my_pm = pm + i; - if (PREDICT_FALSE(my_pm->ipv4_address == ipv4_address)) { - my_index = i; - break; - } - } - - if ((PREDICT_FALSE(my_index >= pm_len)) || - ((PREDICT_FALSE(ip_n_to_1)) && (PREDICT_TRUE(my_pm->private_ip_users_count >= ip_n_to_1)))) { - return (CNAT_NO_POOL_ANY); - } - - break; - - case PORT_ALLOC_DIRECTED: - if (PREDICT_FALSE(*index > pm_len)) { - return (CNAT_INV_PORT_DIRECT); - } - - my_index = *index; - my_pm = pm + my_index; - if (PREDICT_FALSE(my_pm->ipv4_address != ipv4_address)) { - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - PLATFORM_DEBUG_PRINT("Delete all main db entry for that particular in ipv4 address\n"); - } - return (CNAT_INV_PORT_DIRECT); - } - - break; - - default: - msg_spp_err("bad allocation type in cnat_port_alloc"); - return (CNAT_ERR_PARSER); - } - - - if (PREDICT_FALSE(my_pm == NULL)) { - return (CNAT_NO_POOL_ANY); - } - - /* - * Check if the port is already allocated to some other mapping - */ - if (PREDICT_FALSE(clib_bitmap_get_no_check (my_pm->bm, bm_bit) == 0)) { - return (CNAT_NO_POOL_ANY); - } - -#if DEBUG > 1 - PLATFORM_DEBUG_PRINT("ALLOC_PORT_V2: My_Instance_Number %d: IP addr 0x%x, Inuse %d\n", - my_instance_number, my_pm->ipv4_address, my_pm->inuse); -#endif - - /* - * Indicate that the port is already allocated - */ - cgn_clib_bitmap_clear_no_check (my_pm->bm, bm_bit); - (my_pm->inuse)++; - - *index = my_index; - - return (CNAT_SUCCESS); -} - -void cnat_port_free_v2 ( - cnat_portmap_v2_t *pm, - int index, - port_pair_t pair_type, - u16 base_port, - u16 static_port_range) -{ - cnat_portmap_v2_t *my_pm; - uword bit; - - /* check for valid portmap */ - if (PREDICT_FALSE(index > vec_len(pm))) { - spp_printf(CNAT_INVALID_INDEX_TO_FREE_PORT, 0, 0); - return; - } - - my_pm = pm + index; - bit = port2bit(base_port); - -#if DEBUG > 0 - if(clib_bitmap_get_no_check(my_pm->bm, bit)) - ASSERT(clib_bitmap_get_no_check(my_pm->bm, bit) == 0); -#endif - - cgn_clib_bitmap_set_no_check(my_pm->bm, bit); - - my_pm->inuse -= 1; - if(base_port >= static_port_range) { - /* Clear the full flag. we can have a new dynamic session now */ - my_pm->dyn_full = 0; - } - - return; -} - -void cnat_portmap_dump_v2 (cnat_portmap_v2_t *pm, u16 print_limit) -{ - int i; - u32 inuse =0; - - ASSERT(pm); - - for (i = 0; i < BITS_PER_INST; i++) { - if (PREDICT_FALSE(clib_bitmap_get_no_check (pm->bm, i) == 0)) { - if (PREDICT_TRUE(inuse++ < print_limit)) - PLATFORM_DEBUG_PRINT(" %d", bit2port(i)); - } - } - if (PREDICT_FALSE(inuse >= print_limit)) { - PLATFORM_DEBUG_PRINT("%d printed, print limit is %d\n", - inuse, print_limit); - } - PLATFORM_DEBUG_PRINT("\n"); -} - - -/* - * cnat_ports_init - */ -clib_error_t *cnat_ports_init(vlib_main_t *vm) -{ - cnat_ports_main_t *mp = &cnat_ports_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - - /* suppress crypto-random port numbering */ -#ifdef SOON - if (spp_get_int_prop("no_crypto_random_ports") == 0) - crypto_random32(&seed); -#endif - - return 0; -} - -VLIB_INIT_FUNCTION(cnat_ports_init); - diff --git a/plugins/vcgn-plugin/vcgn/cnat_ports.h b/plugins/vcgn-plugin/vcgn/cnat_ports.h deleted file mode 100644 index bc1fb0d24a8..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_ports.h +++ /dev/null @@ -1,208 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_ports.h - port database definitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_PORTS_H__ -#define __CNAT_PORTS_H__ - -#include "platform_common.h" -#include "cnat_bulk_port_defs.h" - -#define PORTS_PER_ADDR 65536 - -#define CNAT_INSTS PLATFORM_CNAT_INSTS - -#define BITS_PER_INST (PORTS_PER_ADDR) - -/* - * Ensure that atleast few 4 bit ports are available for RTSP - * in case we want to map 4 digit inside ports to 4 digit outside ports - */ -#define MIN_STATIC_PORT_RANGE_FOR_RTSP (9900) - -extern u8 my_instance_number; - -/* - * Now it is a 1-to-1 mapping between bit and port values - */ -static inline u16 bit2port (u32 bit) -{ - return bit; -} - -static inline uword port2bit (u16 port) -{ - return port; -} - -/* - * Port bitmap structure - * THIS structure is not used to be REMOVED.... - */ - - -typedef struct { - u32 ipv4_address; /* native bit order */ - u16 vrf; - u16 pad; - u32 threshold_crossed; - uword bm[(BITS_PER_INST + BITS(uword)-1)/BITS(uword)]; -} cnat_portmap_t; - -//cnat_portmap_t *cnat_portmap; - - -typedef struct { - u32 inuse; - u32 delete_time; - u32 ipv4_address; /* native bit order */ - u32 last_sent_timestamp; - uword bm[(BITS_PER_INST + BITS(uword)-1)/BITS(uword)]; - u32 dyn_full; - u32 private_ip_users_count; /* number of private ip's(subscribers) to this - public ip */ -} cnat_portmap_v2_t; - - -typedef enum { - PORT_SINGLE=0, - PORT_PAIR=1, - PORT_S_EVEN=2, - PORT_S_ODD=3, -} port_pair_t; - -typedef enum { - PORT_TYPE_DYNAMIC=0, - PORT_TYPE_STATIC=1, - PORT_TYPE_RTSP=2, -} port_type_t; - - -typedef enum { - PORT_ALLOC_ANY=1, - PORT_ALLOC_DIRECTED=2, -} port_alloc_t; - -#define PORT_PROBE_LIMIT 20 - - -/* - * randq1 - * Linear congruential random number generator with - * extensively studied properties. See Numerical Recipes in C - * 2nd Ed. page 284. Known to behave according to the test vector - * supplied in the text, on X86 and Octeon. - */ -static inline u32 randq1 (u32 prev) -{ - return (1664525L*prev + 1013904223L); -} - -cnat_errno_t -cnat_static_port_alloc_v2( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 i_ipv4_address, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif /* NO_BULK_LOGGING */ - , u16 ip_n_to_1 - ); - -cnat_errno_t -cnat_mapped_static_port_alloc_v2 ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - u32 *index, - u32 ipv4_address, - u16 port -#ifndef NO_BULK_LOGGING - , int *nfv9_log_req, - bulk_alloc_size_t bulk_size -#endif - , u16 ip_n_to_1 - ); - -cnat_errno_t -cnat_dynamic_port_alloc_v2( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port, - u16 static_port_range -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif - , u16 ip_n_to_1, - u32 *rseed_ip - ); - - -cnat_errno_t -cnat_dynamic_port_alloc_rtsp ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u16 start_range, - u16 end_range, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port -#ifndef NO_BULK_LOGGING - , bulk_alloc_size_t bulk_size, - int *nfv9_log_req -#endif - , u32 *rseed_ip - ); - -void cnat_port_free_v2( - cnat_portmap_v2_t *pm, - int index, - port_pair_t ptype, - u16 base_port, - u16 static_port_range); - -void cnat_portmap_dump_v2(cnat_portmap_v2_t *pm, - u16 print_limit); - - - -cnat_errno_t -nat64_static_port_alloc ( - cnat_portmap_v2_t *pm, - port_alloc_t atype, - port_pair_t pair_type, - u32 *i_ipv6_address, - u16 i_port, - u32 *index, - u32 *o_ipv4_address, - u16 *o_port); - - - -#endif /* __CNAT_PORTS_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_show.c b/plugins/vcgn-plugin/vcgn/cnat_show.c deleted file mode 100644 index 68c52756d2a..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_show.c +++ /dev/null @@ -1,810 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_show.c - translation database definitions - * - * Copyright (c) 2007-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> - -#include "cnat_db.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_logging.h" -#include "spp_ctx.h" -#include "spp_timers.h" -#include "platform_common.h" -#include "cnat_syslog.h" -#include "cnat_v4_pptp_alg.h" -#include "platform_common.h" - -#ifndef TOBE_PORTED -/* The following variable is in cnat_config_msg_handler.c which - * is to be ported later.. if required - */ -u32 total_address_pool_allocated = 0; -#endif - -#ifndef NO_BULK_LOGGING -#define CNAT_MY_VRFMAP_PRINT \ -PLATFORM_DEBUG_PRINT("i-uidx 0x%x o-uidx 0x%x i-vrfid 0x%x o-vrfid 0x%x\n" \ - "status %d del time 0x%x tcp mss 0x%x pm list 0x%x\n" \ - "bulk size %d\n" \ - "ip n:1 %d\n" \ - "NFV9 template index 0x%x\n" \ - "SYSLOG template index 0x%x\n" \ - "Netflow Session Logging %d \n" \ - "Syslog Session Logging %d \n" \ - "PCP Server 0x%x, Port %u \n", \ - my_vrfmap->i_vrf, my_vrfmap->o_vrf, my_vrfmap->i_vrf_id, \ - my_vrfmap->o_vrf_id, my_vrfmap->status, my_vrfmap->delete_time, \ - my_vrfmap->tcp_mss, my_vrfmap->portmap_list, \ - BULKSIZE_FROM_VRFMAP(my_vrfmap), \ - my_vrfmap->ip_n_to_1, \ - my_vrfmap->nfv9_logging_index, \ - my_vrfmap->syslog_logging_index,\ - my_vrfmap->nf_logging_policy, \ - my_vrfmap->syslog_logging_policy, \ - my_vrfmap->pcp_server_addr, \ - my_vrfmap->pcp_server_port); -#else -#define CNAT_MY_VRFMAP_PRINT \ -PLATFORM_DEBUG_PRINT("i-uidx 0x%x o-uidx 0x%x i-vrfid 0x%x o-vrfid 0x%x\n" \ - "status %d del time 0x%x tcp mss 0x%x pm list 0x%x\n" \ - "NFV9 template index 0x%x\n ip n:1 %d\n", \ - my_vrfmap->i_vrf, my_vrfmap->o_vrf, my_vrfmap->i_vrf_id, \ - my_vrfmap->o_vrf_id, my_vrfmap->status, my_vrfmap->delete_time, \ - my_vrfmap->tcp_mss, my_vrfmap->portmap_list, \ - my_vrfmap->nfv9_logging_index, my_vrfmap->ip_n_to_1); -#endif /* NO_BULK_LOGGING */ - -#define CNAT_MY_LOGGING_INFO_PRINT \ -do { \ - cnat_syslog_logging_info_t *my_syslog_info = 0; \ - PLATFORM_DEBUG_PRINT("SYSLOG config: \n"); \ - pool_foreach (my_syslog_info, cnat_syslog_logging_info_pool, ({ \ - if (my_syslog_info->i_vrf == my_vrfmap->i_vrf) { \ - PLATFORM_DEBUG_PRINT(" \ - ipv4[0x%x], port[%u], hostname[%s]\n", \ - my_syslog_info->ipv4_address, my_syslog_info->port, \ - my_syslog_info->header_hostname); \ - break; \ - } \ - })); \ -}while (0) \ -; - - -void printf_ipv4(u32 ad) -{ - u8 a __attribute__((unused)), b __attribute__((unused)), - c __attribute__((unused)), d __attribute__((unused)); - - a = ad>>24; - b = (ad>>16) & 0xFF; - c = (ad>>8) & 0xFF; - d = (ad>>0) & 0xFF; - - PLATFORM_DEBUG_PRINT("%d.%d.%d.%d", a, b, c, d); -} -void cnat_main_db_entry_dump (cnat_main_db_entry_t *db) -{ - PLATFORM_DEBUG_PRINT("Main DB entry at %p, index %ld dst_ip %x\n", - db, db - cnat_main_db, db->dst_ipv4); - /* only dump hash next index if it's non EMPTY */ - if (db->out2in_hash.next != EMPTY || db->in2out_hash.next != EMPTY) - PLATFORM_DEBUG_PRINT("out2in hash %u, in2out hash %u\n", - db->out2in_hash.next, - db->in2out_hash.next); - PLATFORM_DEBUG_PRINT("out2in key ipv4 0x%08X, port 0x%04X (%5d), vrf %d, protocol %s\n", - db->out2in_key.k.ipv4, - db->out2in_key.k.port, - db->out2in_key.k.port, - db->out2in_key.k.vrf & CNAT_VRF_MASK, - (db->out2in_key.k.vrf & CNAT_PRO_MASK) == CNAT_UDP ? "UDP" : - ((db->in2out_key.k.vrf & CNAT_PRO_MASK) == CNAT_TCP ? "TCP" : - ((db->in2out_key.k.vrf & CNAT_PRO_MASK) == CNAT_ICMP ? "ICMP" : "PPTP ALG"))); - - PLATFORM_DEBUG_PRINT("in2out key ipv4 0x%08X, port 0x%04X (%5d), vrf %d, protocol %s\n", - db->in2out_key.k.ipv4, - db->in2out_key.k.port, - db->in2out_key.k.port, - db->in2out_key.k.vrf & CNAT_VRF_MASK, - (db->in2out_key.k.vrf & CNAT_PRO_MASK) == CNAT_UDP ? "UDP" : - ((db->in2out_key.k.vrf & CNAT_PRO_MASK) == CNAT_TCP ? "TCP" : - ((db->in2out_key.k.vrf & CNAT_PRO_MASK) == CNAT_ICMP ? "ICMP" : "UNKNOWN"))); - - PLATFORM_DEBUG_PRINT("user %d, user ports (nxt) %d (prev) %d, vrfmap_index 0x%x\n", - db->user_index, db->user_ports.next, db->user_ports.prev, - db->vrfmap_index); - PLATFORM_DEBUG_PRINT("timeout %d \n", db->timeout); - PLATFORM_DEBUG_PRINT("flags 0x%x ", db->flags); - - if (db->flags & CNAT_DB_FLAG_TCP_ACTIVE) { - PLATFORM_DEBUG_PRINT(" TCP_ACTIVE "); - } else if (db->flags & CNAT_DB_FLAG_UDP_ACTIVE) { - PLATFORM_DEBUG_PRINT(" UDP_ACTIVE "); - } else if (db->flags & CNAT_DB_FLAG_STATIC_PORT) { - PLATFORM_DEBUG_PRINT(" STATIC_PORT "); - } - - PLATFORM_DEBUG_PRINT(" ALG dlt0 0x%02X dlt1 0x%02X\n", db->alg.alg_dlt[0], db->alg.alg_dlt[1]); - PLATFORM_DEBUG_PRINT("\n"); - - PLATFORM_DEBUG_PRINT("out2in_pkts: %u\n", db->out2in_pkts); - PLATFORM_DEBUG_PRINT("in2out_pkts: %u\n", db->in2out_pkts); - PLATFORM_DEBUG_PRINT("entry_expires: %u current time: %u\n", db->entry_expires, cnat_current_time); - PLATFORM_DEBUG_PRINT("-------------------------\n"); -} - -void cnat_user_db_entry_dump (cnat_user_db_entry_t *up) -{ - u32 db_entry_index, first_db_entry_index; - cnat_main_db_entry_t *ep; - - PLATFORM_DEBUG_PRINT("User DB entry at %p, index %ld\n", - up, up - cnat_user_db); - PLATFORM_DEBUG_PRINT("translation list head index %u, %u translations portmapindex 0x%x\n", - up->translation_list_head_index, - up->ntranslations, up->portmap_index); - PLATFORM_DEBUG_PRINT("source ipv4 0x%x, source port 0x%x, vrf %d\n", - up->key.k.ipv4, - up->key.k.port, - up->key.k.vrf); - first_db_entry_index = db_entry_index = up->translation_list_head_index; - if (first_db_entry_index != EMPTY) { - PLATFORM_DEBUG_PRINT("Port translation list:\n"); - do { - PLATFORM_DEBUG_PRINT(" [%d]\n", db_entry_index); - ep = cnat_main_db + db_entry_index; - db_entry_index = ep->user_ports.next; - } while (first_db_entry_index != db_entry_index); - } else { - PLATFORM_DEBUG_PRINT("WARNING: empty translation list!\n"); - } - PLATFORM_DEBUG_PRINT("-------------------------\n"); -} - -void cnat_user_db_entry_dump_summary (cnat_user_db_entry_t *up) -{ - u32 db_entry_index, first_db_entry_index; - u32 total_entries = 0; - - PLATFORM_DEBUG_PRINT("User DB entry at %p, index %ld\n", - up, up - cnat_user_db); - PLATFORM_DEBUG_PRINT("translation list head index %u, %u translations portmapindex 0x%x\n", - up->translation_list_head_index, - up->ntranslations, up->portmap_index); - PLATFORM_DEBUG_PRINT("source ipv4 0x%x, source port 0x%x, vrf %d\n", - up->key.k.ipv4, - up->key.k.port, - up->key.k.vrf); - first_db_entry_index = db_entry_index = up->translation_list_head_index; - if (first_db_entry_index != EMPTY) { - PLATFORM_DEBUG_PRINT("Port translation list:\n"); - do { - total_entries++; - } while (first_db_entry_index != db_entry_index); - PLATFORM_DEBUG_PRINT("TOTAL_ENTRIES: %d\n", total_entries); - } else { - PLATFORM_DEBUG_PRINT("WARNING: empty translation list!\n"); - } - PLATFORM_DEBUG_PRINT("-------------------------\n"); -} - -/* for internal development and UT only */ -void cnat_db_dump_main_by_index (int argc, unsigned long *argv) -{ - u32 index, i, len; - u32 active_count, scan_count; - - if (argc != 1) { - PLATFORM_DEBUG_PRINT("invalid input %d\n", argc); - return; - } - - index = argv[0]; - - len = vec_len(cnat_main_db); - - active_count = pool_elts(cnat_main_db); - - if (index >= active_count) { - PLATFORM_DEBUG_PRINT("Index %u >= total active entries %u\n", index, active_count); - return; - } - - scan_count = 0; - for (i=0; i< len; i++) { - if(pool_is_free_index(cnat_main_db, i)) continue; - - if (index == scan_count) { - cnat_main_db_entry_dump(cnat_main_db + i); - break; - } - scan_count++; - } -} - -void cnat_db_dump_main (int argc, unsigned long *argv) -{ - cnat_main_db_entry_t *db; - - pool_foreach(db, cnat_main_db, ({ - cnat_main_db_entry_dump(db); - })); -} - -void cnat_db_dump_main_summary (int argc, unsigned long *argv) -{ - cnat_main_db_entry_t *db; - u32 num_entries = 0; - - pool_foreach(db, cnat_main_db, ({ - num_entries++; - })); - - PLATFORM_DEBUG_PRINT("\nNum main entries %d\n", num_entries); -} - -void cnat_db_dump_user (int argc, unsigned long *argv) -{ - cnat_user_db_entry_t *up; - - pool_foreach(up, cnat_user_db, ({ - cnat_user_db_entry_dump(up); - })); -} - -void cnat_db_dump_user_summary (int argc, unsigned long *argv) -{ - cnat_user_db_entry_t *up; - - pool_foreach(up, cnat_user_db, ({ - cnat_user_db_entry_dump_summary(up); - })); -} - -void cnat_db_dump_hashes (int argc, unsigned long *argv) -{ - int i; - - PLATFORM_DEBUG_PRINT("Main DB out2in hash:\n"); - for (i = 0; i < vec_len(cnat_out2in_hash); i++) { - if (cnat_out2in_hash[i].next != EMPTY) { - PLATFORM_DEBUG_PRINT("[%d]: %u\n", i, cnat_out2in_hash[i].next); - } - } - PLATFORM_DEBUG_PRINT("Main DB in2out hash:\n"); - for (i = 0; i < vec_len(cnat_in2out_hash); i++) { - if (cnat_in2out_hash[i].next != EMPTY) { - PLATFORM_DEBUG_PRINT("[%d]: %u\n", i, cnat_in2out_hash[i].next); - } - } - - PLATFORM_DEBUG_PRINT("User hash:\n"); - for (i = 0; i < vec_len(cnat_user_hash); i++) { - if (cnat_user_hash[i].next != EMPTY) { - PLATFORM_DEBUG_PRINT("[%d]: %u\n", i, cnat_user_hash[i].next); - } - } - PLATFORM_DEBUG_PRINT("-------------------------\n"); -} - - -#ifdef OLD_VRFMAP - -void cnat_db_dump_cdb (int argc, unsigned long *argv) -{ - int k; - int verbose=0; - int all = 0; - - if (argc > 0) { - verbose = 1; - } - - if (argc > 1) { - all = 1; - } - - PLATFORM_DEBUG_PRINT ("%d vrfmap vectors \n", vec_len(cnat_portmap_by_vrf)); - - for (k = 0; k < vec_len(cnat_portmap_by_vrf); k++) { - PLATFORM_DEBUG_PRINT("index%d: status %d i_vrf 0x%x o_vrf 0x%x\n", k, - cnat_portmap_by_vrf[k].status, - cnat_portmap_by_vrf[k].i_vrf, - cnat_portmap_by_vrf[k].o_vrf); - cnat_db_dump_address_portmap(verbose, all, - cnat_portmaps[k], - cnat_portmaps_inuse[k]); - } -} - -void cnat_db_dump_i_vrf (int argc, unsigned long *argv) -{ - u32 k; - u32 vrf =0; - int verbose=0; - int all = 0; - - if (!argc) { - PLATFORM_DEBUG_PRINT("need vrf input ,return\n"); - return; - } - - if (argc > 0) { - vrf = argv[0]; - } - - if (argc > 1) { - verbose = 1; - } - - if (argc > 2) { - all = 1; - } - - PLATFORM_DEBUG_PRINT ("%d vrfmap vectors \n", vec_len(cnat_portmap_by_vrf)); - - for (k = 0; k < vec_len(cnat_portmap_by_vrf); k++) { - if (cnat_portmap_by_vrf[k].i_vrf == vrf) { - PLATFORM_DEBUG_PRINT("%d: i_vrf 0x%x o_vrf 0x%x\n", k, - cnat_portmap_by_vrf[k].i_vrf, - cnat_portmap_by_vrf[k].o_vrf); - cnat_db_dump_address_portmap(verbose, all, - cnat_portmaps[k], - cnat_portmaps_inuse[k]); - return; - } - } - PLATFORM_DEBUG_PRINT("not found\n"); -} - -void cnat_db_dump_o_vrf (int argc, unsigned long *argv) -{ - u32 k; - int verbose=0; - int all = 0; - u32 vrf =0; - - if (!argc) { - PLATFORM_DEBUG_PRINT("need vrf input ,return\n"); - return; - } - - if (argc > 0) { - vrf = argv[0]; - } - - if (argc > 1) { - verbose = 1; - } - - if (argc > 2) { - all = 1; - } - - PLATFORM_DEBUG_PRINT ("%d vrfmap vectors \n", vec_len(cnat_portmap_by_vrf)); - - for (k = 0; k < vec_len(cnat_portmap_by_vrf); k++) { - if (cnat_portmap_by_vrf[k].o_vrf == vrf) { - PLATFORM_DEBUG_PRINT("index%d: status %d i_vrf 0x%x o_vrf 0x%x\n", k, - cnat_portmap_by_vrf[k].status, - cnat_portmap_by_vrf[k].i_vrf, - cnat_portmap_by_vrf[k].o_vrf); - cnat_db_dump_address_portmap(verbose, all, - cnat_portmaps[k], - cnat_portmaps_inuse[k]); - return; - } - } - PLATFORM_DEBUG_PRINT("not found\n"); -} -#endif - -#ifdef TOBE_PORTED -/* This does not seem to be used */ -void cnat_db_mem_usage_cmd (int argc, unsigned long *argv) -{ - pool_header_t * p; - _VEC *_v; - u32 bitmap_bytes=0, free_indices_bytes=0, vec_bytes=0, total_bytes=0; - - if (cnat_main_db) { - p = pool_header(cnat_main_db); - if (p->free_bitmap) { - _v = _vec_find(p->free_bitmap); - bitmap_bytes = _v->alen; - } else { - bitmap_bytes = 0; - } - if (p->free_indices) { - _v = _vec_find(p->free_indices); - free_indices_bytes = _v->alen; - } else { - free_indices_bytes = 0; - } - _v = _vec_find(cnat_main_db); - vec_bytes = _v->alen; - } else { - vec_bytes = 0; - } - - total_bytes = bitmap_bytes + free_indices_bytes + vec_bytes; - - PLATFORM_DEBUG_PRINT ("Main DB: %d total bytes, %d bitmap, %d indices, %d vec\n", - total_bytes, bitmap_bytes, free_indices_bytes, vec_bytes); - PLATFORM_DEBUG_PRINT (" vector length %d\n", vec_len(cnat_main_db)); - - if (cnat_user_db) { - p = pool_header(cnat_user_db); - if (p->free_bitmap) { - _v = _vec_find(p->free_bitmap); - bitmap_bytes = _v->alen; - } else { - bitmap_bytes = 0; - } - if (p->free_indices) { - _v = _vec_find(p->free_indices); - free_indices_bytes = _v->alen; - } else { - free_indices_bytes = 0; - } - _v = _vec_find(cnat_user_db); - vec_bytes = _v->alen; - } else { - vec_bytes = 0; - } - - total_bytes = bitmap_bytes + free_indices_bytes + vec_bytes; - - PLATFORM_DEBUG_PRINT ("User DB: %d total bytes, %d bitmap, %d indices, %d vec\n", - total_bytes, bitmap_bytes, free_indices_bytes, vec_bytes); - PLATFORM_DEBUG_PRINT (" vector length %d\n", vec_len(cnat_user_db)); - - _v = _vec_find(cnat_out2in_hash); - PLATFORM_DEBUG_PRINT("out2in hash: %d total bytes\n", _v->alen); - - _v = _vec_find(cnat_in2out_hash); - PLATFORM_DEBUG_PRINT("in2out hash: %d total bytes\n", _v->alen); -} -#endif - -static void print_server_ip_address (vlib_main_t *vm, u32 ip) -{ - unsigned char bytes[4]; - bytes[0] = ip & 0xFF; - bytes[1] = (ip >> 8) & 0xFF; - bytes[2] = (ip >> 16) & 0xFF; - bytes[3] = (ip >> 24) & 0xFF; - vlib_cli_output(vm, "\tIP Address : %d.%d.%d.%d\n", bytes[0], bytes[1], bytes[2], bytes[3]); -} - -void cnat_nfv9_show_collector (vlib_main_t *vm, cnat_nfv9_logging_info_t *my_nfv9_logging_info) -{ - nfv9_server_info_t *server = nfv9_server_info_pool + - my_nfv9_logging_info->server_index; -#if 0 - vlib_cli_output(vm,"\tVRF - 0x%x - %s\n", my_nfv9_logging_info->i_vrf, - my_nfv9_logging_info->deleted?"DELETED":"ACTIVE"); -#endif - print_server_ip_address(vm, clib_net_to_host_u32(server->ipv4_address)); - vlib_cli_output(vm,"\tPort : %d\n", server->port); - vlib_cli_output(vm,"\tTimeout : %d\n", server->timeout_rate); - vlib_cli_output(vm,"\tRefresh Rate : %d\n", server->refresh_rate); - vlib_cli_output(vm,"\tMax Pkt Size : %d\n", my_nfv9_logging_info->max_length_minus_max_record_size); - - return; -} - -void cnat_db_dump_policy (int argc, unsigned long *argv) -{ - - PLATFORM_CNAT_DB_DUMP_POLICY_PRINT(); - - if (cnat_nfv9_global_info.cnat_nfv9_init_done) { - if (cnat_nfv9_global_info.cnat_nfv9_global_collector_index != EMPTY) { - cnat_nfv9_logging_info_t *my_nfv9_logging_info; - nfv9_server_info_t *server __attribute__((unused)); - - my_nfv9_logging_info = cnat_nfv9_logging_info_pool + - cnat_nfv9_global_info.cnat_nfv9_global_collector_index; - server = nfv9_server_info_pool + - my_nfv9_logging_info->server_index; - - PLATFORM_DEBUG_PRINT("NFv9 logging ip 0x%x port 0x%x refresh-rate %d timeout %d\n", - server->ipv4_address, - server->port, - server->refresh_rate, - server->timeout_rate); - PLATFORM_DEBUG_PRINT("NFv9 path_mtu = %d\n", - my_nfv9_logging_info->max_length_minus_max_record_size); - } else { - PLATFORM_DEBUG_PRINT("NFv9 global logging is not configured\n"); - } - } else { - PLATFORM_DEBUG_PRINT("NFv9 LOGGING is not configured\n"); - } - -} - -#ifdef OLD_VRFMAP -void cnat_show_cdb (int verbose) -{ - int k, l, i; - for (i = 0; i < vec_len(cnat_portmap_by_vrf); i++) { - PLATFORM_DEBUG_PRINT("i_vrf %d : o_vrf %d\n", - cnat_portmap_by_vrf[i].i_vrf, - cnat_portmap_by_vrf[i].o_vrf); - } - - PLATFORM_DEBUG_PRINT("port limit %d\n", cnat_main_db_max_ports_per_user); - - PLATFORM_DEBUG_PRINT ("%d portmap vectors\n", vec_len(cnat_portmaps)); - - for (k = 0; k < vec_len(cnat_portmaps); k++) { - cnat_portmap_t *pm; - u16 *inuse; - pm = cnat_portmaps[k]; - inuse = cnat_portmaps_inuse[k]; - for (l = 0; l < vec_len(pm); l++) { - if (inuse[l] || verbose ) { - u32 net_address; - net_address = - spp_host_to_net_byte_order_32((pm+l)->ipv4_address); - printf_ipv4(net_address); - PLATFORM_DEBUG_PRINT (": %d inuse\n", inuse[l]); - if (verbose && inuse[l]) { - cnat_portmap_dump (pm+l, inuse+l); - } - } - } - } -} -#endif - - - -/* v2 show command */ -void cnat_show_address_portmap_sumary (cnat_portmap_v2_t *pm) -{ - cnat_portmap_v2_t *my_pm =0; - u32 first_address = 0; - u32 second_address = 0; - u32 last_address = 0; - u32 i, pm_len; - - if ((pm_len = vec_len(pm))) { - PLATFORM_DEBUG_PRINT("%d portmap in this list 0x%lx\n", - pm_len, (u32)pm); - for (i = 0; i < pm_len; i++) { - my_pm = pm + i; - if (!first_address) { - first_address = my_pm->ipv4_address; - } else if (!second_address) { - second_address = my_pm->ipv4_address; - } - last_address = my_pm->ipv4_address; - } - - if (first_address) { - PLATFORM_DEBUG_PRINT("1. 0x%08x", first_address); - } - if (second_address) { - PLATFORM_DEBUG_PRINT(", 2. 0x%08x", second_address); - } - - if ((last_address != first_address) && - (last_address != second_address)) { - PLATFORM_DEBUG_PRINT(", ....., %d. 0x%08x", pm_len, last_address); - } - PLATFORM_DEBUG_PRINT("\n"); - } else { - PLATFORM_DEBUG_PRINT("ZERO POOL ADDRESSES in this list 0x%x \n", (u32)pm); - } -} - - -void cnat_show_address_portmap (int verbose, int all, - cnat_portmap_v2_t *pm, u16 port_limit) -{ - cnat_portmap_v2_t *my_pm =0; - u32 i, pm_len; - - pm_len = vec_len(pm); - if (!all) { - cnat_show_address_portmap_sumary(pm); - } else { - PLATFORM_DEBUG_PRINT("%d portmap in this list 0x%x \n", pm_len, (u32)pm); - } - - for (i = 0; i < pm_len; i++) { - - my_pm = pm + i; - if (all) { - PLATFORM_DEBUG_PRINT("pm:0x%x ip address:0x%x del_time 0x%x inuse:%d\n", - (u32)my_pm, my_pm->ipv4_address, my_pm->delete_time, my_pm->inuse); - } else if (my_pm->inuse) { - PLATFORM_DEBUG_PRINT("pm:0x%x ip address:0x%x inuse:%d\n", - (u32)my_pm, my_pm->ipv4_address, my_pm->inuse); - } - - if (verbose && (my_pm->inuse)) { - if(PREDICT_FALSE(!port_limit)) { - cnat_portmap_dump_v2 (my_pm, cnat_main_db_max_ports_per_user); - } - else { - cnat_portmap_dump_v2 (my_pm, port_limit); - } - } - } - - PLATFORM_DEBUG_PRINT("\n"); -} - - -void cnat_show_cdb_v2 (int verbose, int all) -{ - cnat_vrfmap_t *my_vrfmap = 0; - cnat_portmap_v2_t *pm =0; - PLATFORM_DEBUG_PRINT("port limit %d\n", cnat_main_db_max_ports_per_user); - PLATFORM_DEBUG_PRINT("total address pool allocated %d\n", total_address_pool_allocated); - PLATFORM_DEBUG_PRINT("icmp rate limit %d (per core %d)\n", - cnat_main_db_icmp_rate_limit, cnat_main_db_icmp_rate_limit_core); - PLATFORM_DEBUG_PRINT("dynamic port range start %d\n", cnat_static_port_range); - if (pptp_cfg.enable == PPTP_DISABLED) { - PLATFORM_DEBUG_PRINT("PPTP alg disabled \n"); - } else { - PLATFORM_DEBUG_PRINT("PPTP alg enabled \n"); - } - - if (ftp_alg_enabled) { - PLATFORM_DEBUG_PRINT("FTP alg enabled\n"); - } else { - PLATFORM_DEBUG_PRINT("FTP alg disabled\n"); - } - - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - CNAT_MY_VRFMAP_PRINT - CNAT_MY_LOGGING_INFO_PRINT - PLATFORM_DEBUG_PRINT("per vrf port limit %d\n", my_vrfmap->port_limit); - pm = my_vrfmap->portmap_list; - cnat_show_address_portmap(verbose, all, pm, my_vrfmap->port_limit); - - })); -} - - -void cnat_show_cdb_command_v2(int argc, unsigned long *argv) -{ - int verbose=0; - int all = 0; - - if (argc > 0) { - verbose = 1; - } - - if (argc > 1) { - all = 1; - } - - cnat_show_cdb_v2(verbose, all); -} - -void cnat_show_ivrf_command_v2 (int argc, unsigned long *argv) -{ - u32 vrf =0; - int verbose=0; - int all = 0; - cnat_vrfmap_t *my_vrfmap = 0; - cnat_portmap_v2_t *pm =0; - - if (!argc) { - PLATFORM_DEBUG_PRINT("need vrf input ,return\n"); - return; - } - if (argc > 0) { - vrf = argv[0]; - } - if (argc > 1) { - verbose = 1; - } - if (argc > 2) { - all = 1; - } - PLATFORM_DEBUG_PRINT ("%lld vrfmap vectors \n", pool_elts(cnat_map_by_vrf)); - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if (my_vrfmap->i_vrf == vrf) { - CNAT_MY_VRFMAP_PRINT - pm = my_vrfmap->portmap_list; - cnat_show_address_portmap(verbose, all, pm,my_vrfmap->port_limit); - return; - } - })); - PLATFORM_DEBUG_PRINT("not found\n"); -} - -void cnat_show_ovrf_command_v2 (int argc, unsigned long *argv) -{ - u32 not_found =1; - u32 vrf =0; - int verbose=0; - int all = 0; - cnat_vrfmap_t *my_vrfmap = 0; - cnat_portmap_v2_t *pm =0; - - if (!argc) { - PLATFORM_DEBUG_PRINT("need vrf input ,return\n"); - return; - } - if (argc > 0) { - vrf = argv[0]; - } - if (argc > 1) { - verbose = 1; - } - if (argc > 2) { - all = 1; - } - PLATFORM_DEBUG_PRINT("%d vrfmap vectors \n", pool_elts(cnat_map_by_vrf)); - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if (my_vrfmap->o_vrf == vrf) { - CNAT_MY_VRFMAP_PRINT - pm = my_vrfmap->portmap_list; - cnat_show_address_portmap(verbose, all, pm,my_vrfmap->port_limit); - not_found = 0; - } - })); - if (not_found) { - PLATFORM_DEBUG_PRINT("not found\n"); - } -} - -void cnat_timeout_db_entry_dump (cnat_timeout_db_entry_t *up) -{ - u32 db_entry_index __attribute__((unused)), - first_db_entry_index __attribute__((unused)); - - PLATFORM_DEBUG_PRINT("Timeout DB entry at index %ld\n", up - cnat_timeout_db); - PLATFORM_DEBUG_PRINT("Desnt key 0x%16llx\n", up->t_key.timeout_key.key64); - PLATFORM_DEBUG_PRINT("Timeout value %d\n", up->t_key.timeout_value); - PLATFORM_DEBUG_PRINT("Hash Next 0x%x\n", up->t_hash.next); - -} - -void cnat_db_dump_timeout () -{ - cnat_timeout_db_entry_t *up; - pool_header_t *h; - u32 used __attribute__((unused)), free __attribute__((unused)); - - h = pool_header(cnat_timeout_db); - free = vec_len(h->free_indices); - used = (vec_len(cnat_timeout_db) - free); - - PLATFORM_DEBUG_PRINT("Timeout DB Free %d, Used %d\n",free, used); - - pool_foreach(up, cnat_timeout_db, ({ - cnat_timeout_db_entry_dump(up); - })); -} - diff --git a/plugins/vcgn-plugin/vcgn/cnat_show_api.h b/plugins/vcgn-plugin/vcgn/cnat_show_api.h deleted file mode 100644 index 5904c7e2dd6..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_show_api.h +++ /dev/null @@ -1,40 +0,0 @@ -/* - * Copyright (c) 2015 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ -#ifndef __CNAT_SHOW_API_H__ -#define __CNAT_SHOW_API_H__ - -typedef struct _spp_api_cnat_v4_show_inside_entry_req { - u16 _spp_msg_id; - u16 vrf_id; - u32 ipv4_addr; - u16 start_port; - u16 end_port; - u8 flags; - u8 all_entries; - u8 protocol; -} spp_api_cnat_v4_show_inside_entry_req_t; - -typedef struct _spp_api_cnat_v4_show_outside_entry_req { - u16 _spp_msg_id; - u16 vrf_id; - u32 ipv4_addr; - u16 start_port; - u16 end_port; - u8 flags; - u8 protocol; -} spp_api_cnat_v4_show_outside_entry_req_t; - - -#endif diff --git a/plugins/vcgn-plugin/vcgn/cnat_show_response.h b/plugins/vcgn-plugin/vcgn/cnat_show_response.h deleted file mode 100644 index bec1bd97245..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_show_response.h +++ /dev/null @@ -1,580 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_show_response.h show command response structs - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_SHOW_RESPONSE_H__ -#define __CNAT_SHOW_RESPONSE_H__ - -/* - * Flags indicating the type of translation entry - */ -#define CNAT_TRANSLATION_ENTRY_ALL 0x0 -#define CNAT_TRANSLATION_ENTRY_STATIC 0x1 -#define CNAT_TRANSLATION_ENTRY_ALG 0x2 -#define CNAT_TRANSLATION_ENTRY_DYNAMIC 0x4 - -/* for PCP support */ -#define CNAT_TRANSLATION_ENTRY_PCPI_DYNAMIC 0x08 -#define CNAT_TRANSLATION_ENTRY_PCPE_DYNAMIC 0x10 - -#define MAX_NODE_NAME_LEN 18 -#define MAX_CTR_NAME_LEN 10 - -/* - * show translation entry response structures - */ -typedef struct { - u16 call_id; - u16 cnat_call_id; /* mapped call Id */ - u16 dst_call_id; /* dest call id */ -} cnat_v4_show_gre_entry; - -typedef struct { - u16 msg_id; - u16 rc; /* o/p parameter. */ - u16 num_entries; /* Number of entries sent as output */ - u16 vrf_id; /* vrf id */ - u32 pns_ip; - cnat_v4_show_gre_entry entries[0]; -} cnat_v4_show_gre_entry_resp; - -/* - * show translation entry response structures - */ -typedef struct { - u32 ipv4_addr; - u16 src_port; - u16 cnat_port; /* port which replaced the src port */ - u8 protocol; - u8 pad; - u16 flags; - u16 nsessions; - u32 in2out_packets; - u32 out2in_packets; -} cnat_v4_show_translation_entry; - -typedef struct { - u16 msg_id; - u8 rc; /* o/p parameter. */ - u8 num_entries; /* Number of entries sent as output */ - u16 vrf_id; /* vrf id */ - u16 pad; - cnat_v4_show_translation_entry entries[0]; -} cnat_v4_show_entry_resp; - -/* - * show free/used ipv4 address/port response structure - */ -typedef struct { - u32 ip_addr; - u32 free_used_ports; -} cnat_v4_show_free_used_entry; - -typedef struct { - u16 msg_id; - u8 rc; - u8 count; - u32 max_ports; - cnat_v4_show_free_used_entry entry_list[0]; -} cnat_v4_show_free_used_entry_resp; - -/* - * Node name to id mapping - */ -typedef struct { - u8 node_id; - u8 pad; - char node_name[MAX_NODE_NAME_LEN]; -} cnat_statistics_node_name; - -typedef struct { - u16 msg_id; - u8 rc; - u8 num_nodes; - cnat_statistics_node_name node_name_array[0]; -} cnat_statistics_node_name_mapping_resp; - -/* - * Counter name to id mapping - */ -typedef struct { - u8 node_id; - u8 counter_id; - char counter_name[MAX_CTR_NAME_LEN]; -} cnat_statistics_counter_name; - -typedef struct { - u16 msg_id; - u8 rc; - u8 num_counters; - cnat_statistics_counter_name counter_name_array[0]; -} cnat_statistics_counter_name_mapping_resp; - - -/* - * Node name to id mapping - */ -typedef struct { - u16 msg_id; - u8 rc; - u8 num_nodes; - u32 pad; - u64 counters [0]; -} cnat_statistics_counter_values; - -/* - * Summary Stats - */ -typedef struct { - u32 eaddr; - u32 ports_used; -} pool_address_usage_t; - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad; - u16 max_pkt_size; - u16 pool_address_copied; - u32 active_translations; - u32 translation_create_rate; - u32 translation_delete_rate; - u32 in2out_forwarding_rate; - u32 out2in_forwarding_rate; - u32 dummy; - u64 in2out_drops_port_limit_exceeded; - u64 in2out_drops_system_limit_reached; - u64 in2out_drops_resource_depletion; - u64 no_translation_entry_drops; - u64 pptp_active_tunnels; - u64 pptp_active_channels; - u64 pptp_ctrlmsg_drops; - u32 no_sessions; - - u32 pool_address_totally_free; - u32 pool_address_used; /* The following array size will be lesser of - (pool_address_used, 200) */ - u32 num_subscribers; - u64 drops_sessiondb_limit_exceeded; - u64 in2out_drops_src_ip_no_config; // for deterministic nat on brahmos - pool_address_usage_t pool_address_usage[0]; -} cnat_show_statistics_summary_resp; - - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad; - u64 o2i_tcp_seq_mismatch_drop; - u64 o2i_tcp_seq_mismatch; - u64 o2i_sessions_created; - u64 o2i_end_point_filter_drop; -} cnat_show_counters_summary_resp; - - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad; - - /* - * XLAT statistics - */ - u64 v6_to_v4_tcp_input_count; - u64 v6_to_v4_tcp_non_translatable_drop_count; - u64 v6_to_v4_tcp_invalid_next_hdr_drop_count; - u64 v6_to_v4_tcp_no_db_drop_count; - u64 v6_to_v4_tcp_output_count; - - u64 v4_to_v6_tcp_input_count; - u64 v4_to_v6_tcp_no_db_drop_count; - u64 v4_to_v6_tcp_output_count; - - u64 v6_to_v4_udp_input_count; - u64 v6_to_v4_udp_non_translatable_drop_count; - u64 v6_to_v4_udp_invalid_next_hdr_drop_count; - u64 v6_to_v4_udp_no_db_drop_count; - u64 v6_to_v4_udp_output_count; - - u64 v4_to_v6_udp_input_count; - u64 v4_to_v6_udp_no_db_drop_count; - u64 v4_to_v6_udp_output_count; - u64 v4_to_v6_udp_frag_crc_zero_drop_count; - u64 v4_to_v6_udp_crc_zero_recycle_sent_count; - u64 v4_to_v6_udp_crc_zero_recycle_drop_count; - - u64 v6_to_v4_icmp_qry_input_count; - u64 v6_to_v4_icmp_no_db_drop_count; - u64 v6_to_v4_icmp_frag_drop_count; - u64 v6_to_v4_icmp_invalid_next_hdr_drop_count; - u64 v6_to_v4_icmp_non_translatable_drop_count; - u64 v6_to_v4_icmp_non_translatable_fwd_count; - u64 v6_to_v4_icmp_unsupported_type_drop_count; - u64 v6_to_v4_icmp_err_output_count; - u64 v6_to_v4_icmp_qry_output_count; - - u64 v4_to_v6_icmp_qry_input_count; - u64 v4_to_v6_icmp_no_db_drop_count; - u64 v4_to_v6_icmp_frag_drop_count; - u64 v4_to_v6_icmp_unsupported_type_drop_count; - u64 v4_to_v6_icmp_err_output_count; - u64 v4_to_v6_icmp_qry_output_count; - - u64 v6_to_v4_subsequent_frag_input_count; - u64 v6_to_v4_subsequent_frag_non_translatable_drop_count; - u64 v6_to_v4_subsequent_frag_invalid_next_hdr_drop_count; - u64 v6_to_v4_subsequent_frag_no_db_drop_count; - u64 v6_to_v4_subsequent_frag_output_count; - - u64 v4_to_v6_subsequent_frag_input_count; - u64 v4_to_v6_subsequent_frag_no_db_drop_count; - u64 v4_to_v6_subsequent_frag_output_count; - - u64 v4_to_v6_subsequent_frag_drop_count; - u64 v4_to_v6_subsequent_frag_throttled_count; - u64 v4_to_v6_subsequent_frag_timeout_drop_count; - u64 v4_to_v6_subsequent_frag_tcp_input_count; - u64 v4_to_v6_subsequent_frag_udp_input_count; - u64 v4_to_v6_subsequent_frag_icmp_input_count; - - u64 v6_to_v4_options_input_count; - u64 v6_to_v4_options_drop_count; - u64 v6_to_v4_options_forward_count; - u64 v6_to_v4_options_no_db_drop_count; - u64 v6_to_v4_unsupp_proto_count; - - u64 v4_to_v6_options_input_count; - u64 v4_to_v6_options_drop_count; - u64 v4_to_v6_options_forward_count; - u64 v4_to_v6_options_no_db_drop_count; - u64 v4_to_v6_unsupp_proto_count; - - u64 v4_icmp_gen_count; - u64 v6_icmp_gen_count; -} xlat_show_statistics_summary_resp; - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad; - /* Total v4 packets to BR */ - u64 v4_to_v6_input_total_count; - /* Total v4 tunneled packets to BR */ - u64 v4_to_v6_41_input_total_count; - /* proto 41 packets without minimum, of 40, v6 payload */ - u64 v4_to_v6_41_insuff_v6payld_count; - /* total proto 41 packets being considered for decap */ - u64 v4_to_v6_41_valid_count; - /* proto 41 packets that failed security check*/ - u64 v4_to_v6_41_sec_check_fail_count; - /* packets with no active db entry */ - u64 v4_to_v6_no_db_drop_count; - /* proto 41 packets actually getting decapped */ - u64 v4_to_v6_41_decap_count; - /* total v4 packets which are neither icmp nor 41 */ - u64 v4_to_v6_unsupported_protocol_count; - /* v4 tunneled packets with invalid v6 source address */ - u64 v4_to_v6_41_invalid_v6_source; - /* total icmpv4 packets destined to BR */ - u64 v4_forus_icmp_input_count; - /* total icmpv4 echo replies by BR */ - u64 v4_icmp_reply_count; - /* total icmpv4 error messages translated to icmpv6 by BR */ - u64 v4_to_v6_icmp_translation_count; - /* total packets with icmpv4 type/code which are not supported by BR */ - u64 v4_icmp_unsupported_count; - /* total icmpv4 packets which are rate-limited by BR */ - u64 v4_icmp_throttled_count; - /* total ICMPv4 error messages which could not be translated */ - u64 v4_icmp_non_translatable_drop_count; - - /* ipv4 defrag stats */ - u64 v4_to_v6_frag_input_count; - u64 v4_to_v6_frag_sec_check_fail_count; - u64 v4_to_v6_frag_reassem_count; - u64 v4_to_v6_frag_timeout_drop_count; - u64 v4_to_v6_frag_icmp_input_count; - u64 v4_to_v6_frag_41_insuff_v6payld_count; - u64 v4_to_v6_frag_no_db_drop_count; - u64 v4_to_v6_frag_unsupported_protocol_count; - u64 v4_to_v6_frag_41_invalid_v6_source; - u64 v4_to_v6_frag_throttled_count; - u64 v4_to_v6_frag_dup_count; - u64 v4_to_v6_frag_reassem_frag_count; - u64 v4_to_v6_frag_disable_count; - u64 v4_to_v6_frag_drop_count; - - /* total v6 packets input to BR */ - u64 v6_to_v4_total_input_count; - /* v6 packets with no active db entry */ - u64 v6_to_v4_no_db_drop_count; - /* forus v6 packets with next header other than icmpv6 */ - u64 v6_to_v4_forus_unsupp_proto_count; - /* total v6 packets that got tunneled */ - u64 v6_to_v4_encap_count; - /* total icmpv6 packets destined to BR */ - u64 v6_forus_icmp_input_count; - /* total icmpv6 echo replies by BR */ - u64 v6_icmp_reply_count; - /* total icmpv6 PTB messages generated by BR */ - u64 v6_ptb_generated_count; - /* total ipv6 packets for which PTBv6 was NOT generated by BR */ - u64 v6_ptb_not_generated_drop_count; - /* total icmpv6 Neighbor Advertisements generated by BR */ - u64 v6_na_generated_count; - /* total icmpv6 TTL expiry messages generated by BR */ - u64 v6_ttl_expiry_generated_count; - /* total ICMPv6 fragments, which are dropped by BR */ - u64 v6_to_v4_frag_icmp_input_count; - /* total packets with icmpv6 type/code which are not supported by BR */ - u64 v6_icmp_unsupported_count; - /* total icmpv6 packets which are rate-limited by BR */ - u64 v6_icmp_throttled_count; -} v6rd_show_statistics_summary_resp; - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad; - - /* Total Incoming Count */ - u64 v4_input_count; - /* Total Drop Count */ - u64 v4_drop_count; - /* Total Output Count */ - u64 v4_to_v6_output_count; - /* TCP Incoming Count */ - u64 v4_tcp_input_count; - /* TCP Output Count */ - u64 v4_tcp_output_count; - /* UDP Incoming Count */ - u64 v4_udp_input_count; - /* UDP Output Count */ - u64 v4_udp_output_count; - /* ICMPv4 Incoming Count */ - u64 v4_icmp_input_count; - /* ICMPv4 Output Count */ - u64 v4_to_v6_icmp_output_count; - /* Invalid UIDB Drop Count */ - u64 v4_invalid_uidb_drop_count; - /* NoDb Drop Count */ - u64 v4_no_db_drop_count; - /* TTL Expire Drop Count */ - u64 v4_ttl_expire_drop_count; - /* Invalid IP Destination Drop Count */ - u64 v4_invalid_destination_prefix_drop_count; - /* Packet Execeeding Path MTU Drop Count */ - u64 v4_path_mtu_exceed_count; - /* Unsupported Protocol Drop Count */ - u64 v4_invalid_proto_type_drop_count; - /* ICMPv4 Generated for TTL Expire Count */ - u64 v4_ttl_expiry_generated_count; - /* ICMPv4 Generated for Error Count */ - u64 v4_icmp_error_gen_count; - /* ICMPv4 Packets Rate-Limited Count */ - u64 v4_icmp_throttled_drop_count; - /* TCP MSS Changed Count */ - u64 v4_tcp_mss_changed_count; - - /* Total Incoming Count */ - u64 v6_input_count; - /* Total Drop Count */ - u64 v6_drop_count; - /* Total Output Count */ - u64 v6_to_v4_output_count; - /* TCP Incoming Count */ - u64 v6_tcp_input_count; - /* TCP Output Count */ - u64 v6_tcp_output_count; - /* UDP Incoming Count */ - u64 v6_udp_input_count; - /* UDP Output Count */ - u64 v6_udp_output_count; - /* ICMPv4 Incoming Count */ - u64 v6_icmpv4_input_count; - /* ICMPv4 Output Count */ - u64 v6_icmpv4_output_count; - /* Invalid UIDB Drop Count */ - u64 v6_invalid_uidb_drop_count; - /* NoDb Drop Count */ - u64 v6_no_db_drop_count; - /* TTL Expire Drop Count */ - u64 v6_ttl_expire_drop_count; - /* Invalid IPv6 Destination Drop Count */ - u64 v6_invalid_destination_drop_count; - /* Invalid Source Prefix Drop Count */ - u64 v6_invalid_source_prefix_drop_count; - /* Unsupported Protocol Drop Count */ - u64 v6_invalid_proto_type_drop_count; - /* ICMPv6 Input Count */ - u64 v6_icmp_input_count; - /* ICMPv6 Invalid UIDB Drop Count */ - u64 v6_icmp_invalid_uidb_drop_count; - /* ICMPv6 NoDb Drop Count */ - u64 v6_icmp_no_db_drop_count; - /* ICMPv6 TTL Expire Drop Count */ - u64 v6_icmp_ttl_expire_drop_count; - /* ICMPv6 Invalid IPv6 Destination Drop Count */ - u64 v6_icmp_invalid_destination_drop_count; - /* ICMPv6 Unsupported Type Drop Count */ - u64 v6_icmp_unsupported_type_drop_count; - /* ICMPv6 Invalid NxtHdr Drop Count*/ - u64 v6_icmp_unsupported_nxthdr_drop_count; - /* ICMPv6 Frag Drop Count */ - u64 v6_icmp_frag_drop_count; - /* ICMPv6 Forus Count */ - u64 v6_forus_icmp_input_count; - /* ICMPv6 Echo Response Received Count */ - u64 v6_received_echo_response_count; - /* ICMPv6 Echo Replies Count */ - u64 v6_echo_reply_count; - /* ICMPv6 Translated to ICMPV4 Output Count*/ - u64 v6_to_v4_icmp_output_count; - /* ICMPv6 Generated for TTL Expire Count */ - u64 v6_ttl_expiry_generated_count; - /* ICMPv6 Generated for Error Count */ - u64 v6_icmp_error_gen_count; - /* ICMPv6 Packets Rate-Limited Count */ - u64 v6_icmp_throttled_drop_count; - /* TCP MSS Changed Count */ - u64 v6_tcp_mss_changed_count; - - /*Total Input Count*/ - u64 v4_to_v6_frag_input_count; - /*Total Drop Count*/ - u64 v4_to_v6_frag_drop_count; - /*Reassembled Output Count*/ - u64 v4_to_v6_frag_reassem_count; - - /*TCP Input Count*/ - u64 v4_to_v6_frag_tcp_input_count; - /*UDP Input Count*/ - u64 v4_to_v6_frag_udp_input_count; - /*ICMPv4 Input Count*/ - u64 v4_to_v6_frag_icmp_input_count; - - /*Invalid UIDB Drop Count */ - u64 v4_to_v6_frag_invalid_uidb_drop_count; - /*NoDb Drop Count*/ - u64 v4_to_v6_frag_no_db_drop_count; - /*Unsupported Protocol Drop Count*/ - u64 v4_to_v6_frag_invalid_proto_type_drop_count; - /*Throttled Count*/ - u64 v4_to_v6_frag_throttled_count; - /*Timeout Drop Count*/ - u64 v4_to_v6_frag_timeout_drop_count; - /*Duplicates Drop Count*/ - u64 v4_to_v6_frag_dup_count; - - /*Total Input Count*/ - u64 v6_to_v4_inner_frag_input_count; - /*Total Drop Count*/ - u64 v6_to_v4_inner_frag_drop_count; - /*Total Output Count*/ - u64 v6_to_v4_inner_frag_output_count; - - /*TCP Input Count*/ - u64 v6_to_v4_inner_frag_tcp_input_count; - /*UDP Input Count*/ - u64 v6_to_v4_inner_frag_udp_input_count; - /*ICMPv4 Input Count*/ - u64 v6_to_v4_inner_frag_icmp_input_count; - - /*Invalid Source Prefix Drop Count*/ - u64 v6_to_v4_inner_frag_invalid_source_prefix_drop_count; - /*Unsupported Protocol Drop Count*/ - u64 v6_to_v4_inner_frag_invalid_proto_type_drop_count; - /*Throttled Count*/ - u64 v6_to_v4_inner_frag_throttled_count; - /*Timeout Drop Count*/ - u64 v6_to_v4_inner_frag_timeout_drop_count; - /*Duplicates Drop Count*/ - u64 v6_to_v4_inner_frag_dup_count; - - /*ICMPv6 Generated for Error Count */ - u64 v6_to_v4_inner_frag_icmp_error_gen_count; - /*ICMPv6 Packets Rate-Limited Count */ - u64 v6_to_v4_inner_frag_icmp_throttled_drop_count; - - /*TCP MSS Changed Count */ - u64 v6_to_v4_inner_frag_tcp_mss_changed_count; - -} mape_show_statistics_summary_resp; - -/* - * The following are the command types for Generic Command cases - */ -#define CNAT_DEBUG_GENERIC_COMMAND_READ_MEM 1 -#define CNAT_DEBUG_GENERIC_COMMAND_WRITE_MEM 2 -#define CNAT_DEBUG_GENERIC_COMMAND_DB_SUMMARY 3 -#define CNAT_DEBUG_GENERIC_COMMAND_USER_DB_PM 4 -#define CNAT_DEBUG_GET_CGN_DB_SUMMARY 5 - -typedef enum { - CNAT_DEBUG_GENERIC_COMMAND_DUMP_POLICY, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_MAIN_DB, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_USER_DB, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_HASHES_DB, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_VRF_MAP, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_SUMMARY_DB, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_STATS, - CNAT_DEBUG_GENERIC_COMMAND_CLEAR_STATS, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_NODE_COUNTER, - CNAT_DEBUG_GENERIC_COMMAND_CLEAR_NODE_COUNTER, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_CNAT_COUNTER, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_VA, - CNAT_DEBUG_GENERIC_COMMAND_SHOW_CONFIG, - CNAT_DEBUG_GENERIC_COMMAND_SHOW_NFV9, - CNAT_DEBUG_GENERIC_COMMAND_SHOW_IVRF, - CNAT_DEBUG_GENERIC_COMMAND_SHOW_OVRF, - CNAT_DEBUG_SPP_LOG, - CNAT_DEBUG_GENERIC_COMMAND_DEBUG_OPTIONS, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_DEBUG_LEVELS, - CNAT_DEBUG_GENERIC_COMMAND_DEBUG_FLAGS, - CNAT_READ_TEMP_SENSORS, - CNAT_BLOCK_OCTEON_SENSOR_READ, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_MAIN_DB_SUMMARY, - CNAT_DEBUG_GENERIC_COMMAND_DUMP_USER_DB_SUMMARY, - CNAT_DEBUG_DUMP_6RD_STATS, - CNAT_DEBUG_TIMEOUT_DB_SUMMARY, - CNAT_NAT64_STFUL_DEBUG_COMMAND, - CNAT_DEBUG_SET_BULK_SIZE, - CNAT_DEBUG_SHOW_BULK_STAT, - CNAT_DEBUG_CLEAR_BULK_STAT, - CNAT_DEBUG_SHOW_BULK_ALLOC, - CNAT_DEBUG_NAT64, - CNAT_DEBUG_NAT44_IN2OUT_FRAG_STATS, -} cnat_debug_dump_type_t; - -typedef enum { - CNAT_DEBUG_FLAG_UDP_INSIDE_CHECKSUM_MODIFY, - CNAT_DEBUG_FLAG_UDP_OUTSIDE_CHECKSUM_MODIFY, - CNAT_DEBUG_FLAG_UDP_INSIDE_PACKET_DUMP, - CNAT_DEBUG_FLAG_UDP_OUTSIDE_PACKET_DUMP, -} cnat_debug_flag_type_t; - -typedef struct { - u16 spp_msg_id; - u8 rc; - u8 core; - u32 num_bytes; - u8 raw_data[0]; -} cnat_generic_command_resp; - -extern u32 db_free_entry (void * p); -#endif /*__CNAT_SHOW_RESPONSE_H__*/ diff --git a/plugins/vcgn-plugin/vcgn/cnat_syslog.c b/plugins/vcgn-plugin/vcgn/cnat_syslog.c deleted file mode 100644 index 91758f141a9..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_syslog.c +++ /dev/null @@ -1,1787 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_syslog.c - * - * Copyright (c) 2011-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <arpa/inet.h> -#include "cnat_syslog.h" -#include "platform_common.h" -#include "cnat_db.h" -#include "cnat_log_common.h" -#include <vppinfra/pool.h> - -#define SYSLOG_DELIMITER ' ' -#define SYSLOG_FIELD_ABSENT '-' -/* #define SHOW_SYSLOG_TIMESTAMP 1 TO DO. Remove this later */ -/* - * Defining the below macro here for now. Assumption is, syslog packets - * are sent out via same channel as that of NFV9. - * Has to be overridden if this assumption is false. - */ -#define PLATFORM_SYSLOG_DISP_NODE_IDX PLATFORM_NFV9_DISP_NODE_IDX - -cnat_syslog_global_info_t cnat_syslog_global_info; -cnat_syslog_logging_info_t *cnat_syslog_logging_info_pool; -cnat_syslog_global_counters_t cnat_syslog_global_counter; -extern u32 syslog_debug_flag; - -#define CNAT_SYSLOG_DEBUG_CODE 2 - -#if CNAT_SYSLOG_DEBUG_CODE > 3 -#define SYSLOG_COND if(my_instance_number == 0) - -#define SYSLOG_DEBUG_PRINTF1(a) SYSLOG_COND printf(a); -#define SYSLOG_DEBUG_PRINTF2(a, b) SYSLOG_COND printf(a, b); -#define SYSLOG_DEBUG_PRINTF3(a, b, c) SYSLOG_COND printf(a, b, c); -#define SYSLOG_DEBUG_PRINTF4(a, b, c, d) SYSLOG_COND printf(a, b, c, d); - -#else - -#define SYSLOG_DEBUG_PRINTF1(a) -#define SYSLOG_DEBUG_PRINTF2(a, b) -#define SYSLOG_DEBUG_PRINTF3(a, b, c) -#define SYSLOG_DEBUG_PRINTF4(a, b, c, d) - -#endif - - -void syslog_params_show(u32 logging_index) -{ - cnat_syslog_logging_info_t *log_info __attribute__((unused)); - if(logging_index == EMPTY) { - PLATFORM_DEBUG_PRINT("\nSyslog logging not configured\n"); - return; - } - - log_info = cnat_syslog_logging_info_pool + logging_index; - - PLATFORM_DEBUG_PRINT("\nSyslog parameters --\n"); - PLATFORM_DEBUG_PRINT("IPV4 address: %x, port %d, max log size %d\n", - log_info->ipv4_address, - log_info->port, log_info->max_length_minus_max_record_size); - PLATFORM_DEBUG_PRINT("Host name: %s, priority %d", - log_info->header_hostname, log_info->header_priority); - -} - -/* Util function to copy a number as ASCII in to a buf in a - * faster way (should be faster than sprintf) - */ - -const unsigned char ascii_numbers[][3] = - { {'0', '0', '0'}, - {'1', '0', '0'}, - {'2', '0', '0'}, - {'3', '0', '0'}, - {'4', '0', '0'}, - {'5', '0', '0'}, - {'6', '0', '0'}, - {'7', '0', '0'}, - {'8', '0', '0'}, - {'9', '0', '0'}, - {'1', '0', '0'}, - {'1', '1', '0'}, - {'1', '2', '0'}, - {'1', '3', '0'}, - {'1', '4', '0'}, - {'1', '5', '0'}, - {'1', '6', '0'}, - {'1', '7', '0'}, - {'1', '8', '0'}, - {'1', '9', '0'}, - {'2', '0', '0'}, - {'2', '1', '0'}, - {'2', '2', '0'}, - {'2', '3', '0'}, - {'2', '4', '0'}, - {'2', '5', '0'}, - {'2', '6', '0'}, - {'2', '7', '0'}, - {'2', '8', '0'}, - {'2', '9', '0'}, - {'3', '0', '0'}, - {'3', '1', '0'}, - {'3', '2', '0'}, - {'3', '3', '0'}, - {'3', '4', '0'}, - {'3', '5', '0'}, - {'3', '6', '0'}, - {'3', '7', '0'}, - {'3', '8', '0'}, - {'3', '9', '0'}, - {'4', '0', '0'}, - {'4', '1', '0'}, - {'4', '2', '0'}, - {'4', '3', '0'}, - {'4', '4', '0'}, - {'4', '5', '0'}, - {'4', '6', '0'}, - {'4', '7', '0'}, - {'4', '8', '0'}, - {'4', '9', '0'}, - {'5', '0', '0'}, - {'5', '1', '0'}, - {'5', '2', '0'}, - {'5', '3', '0'}, - {'5', '4', '0'}, - {'5', '5', '0'}, - {'5', '6', '0'}, - {'5', '7', '0'}, - {'5', '8', '0'}, - {'5', '9', '0'}, - {'6', '0', '0'}, - {'6', '1', '0'}, - {'6', '2', '0'}, - {'6', '3', '0'}, - {'6', '4', '0'}, - {'6', '5', '0'}, - {'6', '6', '0'}, - {'6', '7', '0'}, - {'6', '8', '0'}, - {'6', '9', '0'}, - {'7', '0', '0'}, - {'7', '1', '0'}, - {'7', '2', '0'}, - {'7', '3', '0'}, - {'7', '4', '0'}, - {'7', '5', '0'}, - {'7', '6', '0'}, - {'7', '7', '0'}, - {'7', '8', '0'}, - {'7', '9', '0'}, - {'8', '0', '0'}, - {'8', '1', '0'}, - {'8', '2', '0'}, - {'8', '3', '0'}, - {'8', '4', '0'}, - {'8', '5', '0'}, - {'8', '6', '0'}, - {'8', '7', '0'}, - {'8', '8', '0'}, - {'8', '9', '0'}, - {'9', '0', '0'}, - {'9', '1', '0'}, - {'9', '2', '0'}, - {'9', '3', '0'}, - {'9', '4', '0'}, - {'9', '5', '0'}, - {'9', '6', '0'}, - {'9', '7', '0'}, - {'9', '8', '0'}, - {'9', '9', '0'}, - {'1', '0', '0'}, - {'1', '0', '1'}, - {'1', '0', '2'}, - {'1', '0', '3'}, - {'1', '0', '4'}, - {'1', '0', '5'}, - {'1', '0', '6'}, - {'1', '0', '7'}, - {'1', '0', '8'}, - {'1', '0', '9'}, - {'1', '1', '0'}, - {'1', '1', '1'}, - {'1', '1', '2'}, - {'1', '1', '3'}, - {'1', '1', '4'}, - {'1', '1', '5'}, - {'1', '1', '6'}, - {'1', '1', '7'}, - {'1', '1', '8'}, - {'1', '1', '9'}, - {'1', '2', '0'}, - {'1', '2', '1'}, - {'1', '2', '2'}, - {'1', '2', '3'}, - {'1', '2', '4'}, - {'1', '2', '5'}, - {'1', '2', '6'}, - {'1', '2', '7'}, - {'1', '2', '8'}, - {'1', '2', '9'}, - {'1', '3', '0'}, - {'1', '3', '1'}, - {'1', '3', '2'}, - {'1', '3', '3'}, - {'1', '3', '4'}, - {'1', '3', '5'}, - {'1', '3', '6'}, - {'1', '3', '7'}, - {'1', '3', '8'}, - {'1', '3', '9'}, - {'1', '4', '0'}, - {'1', '4', '1'}, - {'1', '4', '2'}, - {'1', '4', '3'}, - {'1', '4', '4'}, - {'1', '4', '5'}, - {'1', '4', '6'}, - {'1', '4', '7'}, - {'1', '4', '8'}, - {'1', '4', '9'}, - {'1', '5', '0'}, - {'1', '5', '1'}, - {'1', '5', '2'}, - {'1', '5', '3'}, - {'1', '5', '4'}, - {'1', '5', '5'}, - {'1', '5', '6'}, - {'1', '5', '7'}, - {'1', '5', '8'}, - {'1', '5', '9'}, - {'1', '6', '0'}, - {'1', '6', '1'}, - {'1', '6', '2'}, - {'1', '6', '3'}, - {'1', '6', '4'}, - {'1', '6', '5'}, - {'1', '6', '6'}, - {'1', '6', '7'}, - {'1', '6', '8'}, - {'1', '6', '9'}, - {'1', '7', '0'}, - {'1', '7', '1'}, - {'1', '7', '2'}, - {'1', '7', '3'}, - {'1', '7', '4'}, - {'1', '7', '5'}, - {'1', '7', '6'}, - {'1', '7', '7'}, - {'1', '7', '8'}, - {'1', '7', '9'}, - {'1', '8', '0'}, - {'1', '8', '1'}, - {'1', '8', '2'}, - {'1', '8', '3'}, - {'1', '8', '4'}, - {'1', '8', '5'}, - {'1', '8', '6'}, - {'1', '8', '7'}, - {'1', '8', '8'}, - {'1', '8', '9'}, - {'1', '9', '0'}, - {'1', '9', '1'}, - {'1', '9', '2'}, - {'1', '9', '3'}, - {'1', '9', '4'}, - {'1', '9', '5'}, - {'1', '9', '6'}, - {'1', '9', '7'}, - {'1', '9', '8'}, - {'1', '9', '9'}, - {'2', '0', '0'}, - {'2', '0', '1'}, - {'2', '0', '2'}, - {'2', '0', '3'}, - {'2', '0', '4'}, - {'2', '0', '5'}, - {'2', '0', '6'}, - {'2', '0', '7'}, - {'2', '0', '8'}, - {'2', '0', '9'}, - {'2', '1', '0'}, - {'2', '1', '1'}, - {'2', '1', '2'}, - {'2', '1', '3'}, - {'2', '1', '4'}, - {'2', '1', '5'}, - {'2', '1', '6'}, - {'2', '1', '7'}, - {'2', '1', '8'}, - {'2', '1', '9'}, - {'2', '2', '0'}, - {'2', '2', '1'}, - {'2', '2', '2'}, - {'2', '2', '3'}, - {'2', '2', '4'}, - {'2', '2', '5'}, - {'2', '2', '6'}, - {'2', '2', '7'}, - {'2', '2', '8'}, - {'2', '2', '9'}, - {'2', '3', '0'}, - {'2', '3', '1'}, - {'2', '3', '2'}, - {'2', '3', '3'}, - {'2', '3', '4'}, - {'2', '3', '5'}, - {'2', '3', '6'}, - {'2', '3', '7'}, - {'2', '3', '8'}, - {'2', '3', '9'}, - {'2', '4', '0'}, - {'2', '4', '1'}, - {'2', '4', '2'}, - {'2', '4', '3'}, - {'2', '4', '4'}, - {'2', '4', '5'}, - {'2', '4', '6'}, - {'2', '4', '7'}, - {'2', '4', '8'}, - {'2', '4', '9'}, - {'2', '5', '0'}, - {'2', '5', '1'}, - {'2', '5', '2'}, - {'2', '5', '3'}, - {'2', '5', '4'}, - {'2', '5', '5'} - }; - -inline static int -byte_to_ascii_decimal_unaligned( - unsigned char *ptr, unsigned char num) -{ - *ptr++ = ascii_numbers[num][0]; - if(PREDICT_FALSE(num < 10)) { - return 1; - } - *ptr++ = ascii_numbers[num][1]; - if(PREDICT_FALSE(num < 100)) { - return 2; - } - *ptr++ = ascii_numbers[num][2]; - return 3; -} - -/* Copies the dotted decimal format of ipv4 - * in to the space provided and - * returns the number of bytes copied - */ -inline static int __attribute__((unused)) -copy_ipv4_addr(unsigned char *ptr, u32 ipv4) -{ - unsigned char *temp = ptr; - temp += byte_to_ascii_decimal_unaligned(temp, (ipv4 >> 24)); - *temp++ = '.'; - temp += byte_to_ascii_decimal_unaligned(temp, ((ipv4 >> 16) & 0xFF)); - *temp++ = '.'; - temp += byte_to_ascii_decimal_unaligned(temp, ((ipv4 >> 8) & 0xFF)); - *temp++ = '.'; - temp += byte_to_ascii_decimal_unaligned(temp, (ipv4 & 0xFF)); - - return (temp - ptr); -} - -#ifdef TOBE_PORTED -/* - * edt: * * cnat_syslog_fill_ip_header - * - * Tries to fill the fields of the IP header before it - * is sent to the L3 infra node. - * - * Argument: cnat_syslog_logging_info_t *logging_info - * structure that contains the packet context - */ -inline -void cnat_syslog_fill_ip_header (cnat_syslog_logging_info_t *logging_info) -{ - spp_ctx_t *ctx; - - /* - * Fill in the IP header and port number of the Netflow collector - * The L3 Infra node will fill in the rest of the fields - */ - ctx = logging_info->current_logging_context; - fill_ip_n_udp_hdr(ctx, logging_info->ipv4_address, - logging_info->port, logging_info->pkt_length); - -} -#else -inline -void cnat_syslog_fill_ip_header (cnat_syslog_logging_info_t *logging_info) -{ - return; -} -#endif - -#ifndef TOBE_PORTED -void cnat_syslog_logging_init() -{ - return; -} - -void cnat_syslog_log_mapping_create(cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap) -{ - return; -} - -void cnat_syslog_log_mapping_delete(cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap) -{ - return; -} - -void cnat_syslog_ds_lite_port_limit_exceeded( - dslite_key_t * key, - dslite_table_entry_t *dslite_entry) -{ - return; -} - -void cnat_syslog_nat44_mapping_create(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, cnat_session_entry_t * sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - return; -} - -/* Following are in cnat_util.c which are not ported */ -/* This function is defined in cnat_util.c which need to be ported */ -cnat_icmp_msg_t icmp_msg_gen_allowed () -{ - return 1; -} - -void cnat_syslog_nat44_mapping_delete(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, cnat_session_entry_t *sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - return; -} - -u32 -cnat_get_unix_time_in_seconds (void) -{ - return 0; -} -#else /* TOBE_PORTED */ -void -cnat_syslog_dump_logging_context (u32 value1, - cnat_syslog_logging_info_t *logging_info, - u32 value2) -{ - u8 *pkt_ptr; - u32 i; - - if (PREDICT_TRUE(syslog_debug_flag == 0)) { - return; - } - /* - * Reduce the logging to few cores, to enable easier debugging - */ - if ((my_instance_number & 0x7) != 0) { - return; - } - printf("\nDumping %s packet at locn %d: time 0x%x", - (value2 == 1) ? "CURRENT" : "QUEUED", - value1, - cnat_get_unix_time_in_seconds()); - - printf("\ni_vrf 0x%x, ip_address 0x%x, port %d, pkt len %d", - 0 /* TO DP Add vrf like nfv9_logging_info->i_vrf */, - logging_info->ipv4_address, - logging_info->port, - logging_info->pkt_length); - printf("\n"); - - if (value2 == 1) { - pkt_ptr = logging_info->current_logging_context->packet_data; - } else { - pkt_ptr = logging_info->queued_logging_context->packet_data; - } - - /* - * Dump along with 8 bytes of SHIM header - */ - for (i = 0; i < - (logging_info->pkt_length + CNAT_NFV9_IP_HDR_OFFSET); - i = i + 1) { - u8 c1, c2, c3; - - if (i == 0) { - printf("\nL2_HEADER + SHIM_HEADER: \n"); - } else if (i == CNAT_NFV9_IP_HDR_OFFSET) { - printf("\nIP_HEADER: \n"); - } else if (i == CNAT_NFV9_UDP_HDR_OFFSET) { - printf("\nUDP_HEADER: \n"); - } else if (i == CNAT_NFV9_HDR_OFFSET) { - printf("\nSyslog content..\n"); - while(i < - (logging_info->pkt_length + CNAT_NFV9_HDR_OFFSET)) { - printf("%c", (u8)(*(pkt_ptr + i))); - i++; - if((u8)(*(pkt_ptr + i)) == '[') /* new record begins */ - printf("\n"); - } - return; - } - - c3 = *(pkt_ptr + i); - c2 = c3 & 0xf; - c1 = (c3 >> 4) & 0xf; - - printf("%c%c ", - ((c1 <= 9) ? (c1 + '0') : (c1 - 10 + 'a')), - ((c2 <= 9) ? (c2 + '0') : (c2 - 10 + 'a'))); - - } - - printf("\n"); -} - - -/* - * edt: * * cnat_syslog_send_pkt - * - * Tries to send a logging pkt. If the packet cannot be sent - * because of rewrite_output node cannot process it, queue - * it temporarily and try to send it later. - * - * Argument: cnat_syslog_logging_info_t *logging_info - * structure that contains the packet context - */ -inline -void cnat_syslog_send_pkt (cnat_syslog_logging_info_t *logging_info) -{ - spp_node_t *output_node; - - cnat_syslog_fill_ip_header(logging_info); - - output_node = spp_get_nodes() + - cnat_syslog_global_info.cnat_syslog_disp_node_index; - - cnat_syslog_dump_logging_context (2, logging_info, 1); - - if (PREDICT_TRUE(output_node->sf.nused < SPP_MAXDISPATCH)) { - /* - * Move the logging context to output node - */ - logging_info->current_logging_context->current_length = - logging_info->pkt_length; - PLATFORM_SET_CTX_RU_TX_FROM_NODE(logging_info->current_logging_context, \ - NODE_LOGGING); - spp_dispatch_make_node_runnable(output_node); - output_node->sf.ctxs[output_node->sf.nused++] = - logging_info->current_logging_context; - - if(PREDICT_FALSE(syslog_debug_flag > 10)) - printf("\nSyslog: 2. Sending Current packet\n"); - } else { - /* - * Queue the context into the logging_info structure, - * We will try to send it later. Currently, we will - * restrict to only one context queued. - */ - cnat_syslog_global_counter.downstream_constipation_count++; - if(PREDICT_FALSE(syslog_debug_flag > 10)) - printf("\nSyslog: 2. Downstream congestion \n"); - - /* - * Attach the current logging context which is full to the - * queued context list in logging_info structure - */ - logging_info->queued_logging_context = - logging_info->current_logging_context; - } - - /* - * Whether the context is queued or not, set the current context index - * to EMPTY, as the earlier context can no more be used to send - * more logging records. - */ - logging_info->current_logging_context = NULL; -} - - -/* - * edt: * * cnat_syslog_send_queued_pkt - * - * Tries to send a logging pkt that has been queued earlier - * because it could not be sent due to downstream constipation - * - * Argument: cnat_syslog_logging_info_t *logging_info - * structure that contains the packet context - */ -inline -void cnat_syslog_send_queued_pkt (cnat_syslog_logging_info_t *logging_info) -{ - spp_node_t *output_node; - - output_node = spp_get_nodes() + - cnat_syslog_global_info.cnat_syslog_disp_node_index; - - cnat_syslog_dump_logging_context(1, logging_info, 2); - - if(PREDICT_TRUE(output_node->sf.nused < SPP_MAXDISPATCH)) { - /* - * Move the logging context to output node - */ - /** This looks like a bug to me .. need to confirm ***** - logging_info->queued_logging_context->current_length = - nfv9_logging_info->pkt_length; ***/ - PLATFORM_SET_CTX_RU_TX_FROM_NODE(logging_info->queued_logging_context, - NODE_LOGGING) - spp_dispatch_make_node_runnable(output_node); - output_node->sf.ctxs[output_node->sf.nused++] = - logging_info->queued_logging_context; - - SYSLOG_DEBUG_PRINTF1("\nSYSLOG: 1. Sending Queued packet\n") - - /* - * Context has been queued, it will be freed after the pkt - * is sent. Clear this from the logging_context_info structure - */ - logging_info->queued_logging_context = NULL; - - } else { - cnat_syslog_global_counter.downstream_constipation_count++; - } -} - -/* - * edt: * * handle_pending_syslog_pkts - * - * Timer handler for sending any pending syslog record - * - */ -inline -void handle_pending_syslog_pkts() -{ - spp_node_t *output_node; - cnat_syslog_logging_info_t *my_logging_info = 0; - u32 current_timestamp = cnat_get_sys_up_time_in_ms(); - i16 sf_nused; - - output_node = spp_get_nodes() + - cnat_syslog_global_info.cnat_syslog_disp_node_index; - - sf_nused = output_node->sf.nused; - - pool_foreach (my_logging_info, cnat_syslog_logging_info_pool, ({ - /* - * Check if no more logging contexts can be queued - */ - if (PREDICT_FALSE(sf_nused >= SPP_MAXDISPATCH)) { - break; - } - if (my_logging_info->queued_logging_context) - cnat_syslog_send_queued_pkt (my_logging_info); - - if(my_logging_info->current_logging_context && - ((current_timestamp - - my_logging_info->current_logging_context_timestamp) - > 1000)) { - /* - * If there is a current logging context and timestamp - * indicates it is pending for long, send it out - * Also if there is a queued context send it out as well - */ - SYSLOG_DEBUG_PRINTF4("\nLOG_TIMER: queued %p, curr %p, sf_nused %d", - my_logging_info->queued_logging_context, - my_logging_info->current_logging_context, - sf_nused); - cnat_syslog_send_pkt(my_logging_info); - } - })); -} - -const unsigned char hex_numbers_single_digit[] = - { '0', '1', '2', '3', '4', '5', '6', '7', '8', - '9', 'a', 'b', 'c', 'd', 'e', 'f' }; - -inline static int u16_to_ascii_decimal_aligned( - unsigned char *ptr, u16 num, u16 min_digits) -{ - /* The logic below is replicated in - * function u16_to_ascii_decimal_unaligned - * except the use of min_digits - * Replication is done to optimize run time - * if you fix a bug here, check u16_to_ascii_decimal_unaligned - * as well (and vice versa) - */ - unsigned char *temp = ptr; - int no_leading_zeros = 0; - - if(num > 9999 || min_digits == 5) { - *temp++ = hex_numbers_single_digit[num/10000]; - num = num%10000; - no_leading_zeros = 1; - } - - if(no_leading_zeros || num > 999 || min_digits == 4) { - *temp++ = hex_numbers_single_digit[num/1000]; - num = num%1000; - no_leading_zeros = 1; - } - - if(no_leading_zeros || num > 99 || min_digits == 3) { - *temp++ = hex_numbers_single_digit[num/100]; - num = num%100; - no_leading_zeros = 1; - } - - if(no_leading_zeros || num > 9 || min_digits == 2) { - *temp++ = hex_numbers_single_digit[num/10]; - num = num%10; - } - - *temp++ = hex_numbers_single_digit[num]; - - return temp-ptr; -} - -inline static int u16_to_ascii_decimal_unaligned( - unsigned char *ptr, u16 num) -{ - /* - * return u16_to_ascii_decimal_aligned(ptr, num, 0); - * should do the job.. however, to opimize the run time - * the code of u16_to_ascii_decimal_aligned is being - * repeated here without the use of min_digits - * if you fix a bug here, please check - * u16_to_ascii_decimal_aligned as well (and vice versa) - */ - unsigned char *temp = ptr; - int no_leading_zeros = 0; - - if(num > 9999) { - *temp++ = hex_numbers_single_digit[num/10000]; - num = num%10000; - no_leading_zeros = 1; - } - - if(no_leading_zeros || num > 999) { - *temp++ = hex_numbers_single_digit[num/1000]; - num = num%1000; - no_leading_zeros = 1; - } - - if(no_leading_zeros || num > 99) { - *temp++ = hex_numbers_single_digit[num/100]; - num = num%100; - no_leading_zeros = 1; - } - - if(no_leading_zeros || num > 9) { - *temp++ = hex_numbers_single_digit[num/10]; - num = num%10; - } - - *temp++ = hex_numbers_single_digit[num]; - - return temp-ptr; -} - -static int syslog_get_timestamp(unsigned char *ts) -{ - static const char *months[] = {"Jan ", "Feb ", "Mar ", "Apr ", "May ", - "Jun ", "Jul ", "Aug ", "Sep ", "Oct ", "Nov ", "Dec " }; - - unsigned char *temp = ts; - /* Inserts time stamp in the syslog format and returns lenght - * assumes that ts has sufficient space - */ - /* China Telecom has demanded that the time stamp has to be - * in the format '2011 Jun 7 12:34:08' - */ - time_t time = (time_t)cnat_get_unix_time_in_seconds(); - struct tm tm1; - - gmtime_r(&time, &tm1); - /* Now put the pieces together */ - /* Year */ - ts += u16_to_ascii_decimal_unaligned(ts, (tm1.tm_year + 1900)); - *ts++ = SYSLOG_DELIMITER; - /* Month */ - clib_memcpy(ts, months[tm1.tm_mon], 4); - ts += 4; /* DELIMITER taken care */ - /* day */ - ts += u16_to_ascii_decimal_unaligned(ts, tm1.tm_mday); - *ts++ = SYSLOG_DELIMITER; - /* hours */ - ts += u16_to_ascii_decimal_aligned(ts, tm1.tm_hour, 2); - *ts++ = ':'; - /* minutes */ - ts += u16_to_ascii_decimal_aligned(ts, tm1.tm_min, 2); - *ts++ = ':'; - /* seconds */ - ts += u16_to_ascii_decimal_aligned(ts, tm1.tm_sec, 2); - return ts - temp; -} - -/* Ensure that the order of the below array matches with - * syslog_service_type enum - */ -static char *syslog_service_string[] = { "NAT44", "DSLITE" }; - -/* Ensure that the order of below array matches with - * syslog_event_type_t enum - */ -typedef struct { - char *event_name; - int name_length; -} syslog_event_description_type; - -const static syslog_event_description_type sys_log_event[] = { - { "UserbasedA", 10 }, /* yes, 10 is strlen of "UserbasedA" */ - { "UserbasedW", 10 }, - { "SessionbasedA", 13 }, - { "SessionbasedW", 13 }, - { "SessionbasedAD", 14 }, - { "SessionbasedWD", 14 }, - { "Portblockrunout", 15 }, - { "TCPseqmismatch", 14}, - { "Invalid", 7 } -}; - -inline static int syslog_fill_header(const cnat_syslog_logging_info_t *log_info, - syslog_service_type_t s_type) -{ - /* Forms the syslog header and returns the lenght - * Assumes that header has sufficient space - */ - - /* Sample header (as agreed for China Telecom requirements -- - * <134> 1 2011 May 31 10:30:45 192.168.2.3 - - NAT44 - - */ - - unsigned char *temp, *header; - int count; - temp = header = (unsigned char *) - &(log_info->current_logging_context->packet_data[CNAT_NFV9_HDR_OFFSET]); - *temp++ = '<'; - temp += byte_to_ascii_decimal_unaligned(temp, - log_info->header_priority); - *temp++ = '>'; - *temp++ = SYSLOG_DELIMITER; - *temp++ = '1'; /* Syslog version -- always set to 1 */ - *temp++ = SYSLOG_DELIMITER; - temp += syslog_get_timestamp(temp); - *temp++ = SYSLOG_DELIMITER; - count = strlen(log_info->header_hostname); - clib_memcpy(temp, log_info->header_hostname, count); - temp += count; - *temp++ = SYSLOG_DELIMITER; - *temp++ = SYSLOG_FIELD_ABSENT; /* App name - nil value */ - *temp++ = SYSLOG_DELIMITER; - *temp++ = SYSLOG_FIELD_ABSENT; /* Proc ID - nil value for now */ - *temp++ = SYSLOG_DELIMITER; - /* Now the msg id */ - count = strlen(syslog_service_string[s_type]); - clib_memcpy(temp, syslog_service_string[s_type], count); - temp += count; - *temp++ = SYSLOG_DELIMITER; - *temp++ = SYSLOG_FIELD_ABSENT; /* No structured elements */ - *temp++ = SYSLOG_DELIMITER; -#ifdef SHOW_SYSLOG_TIMESTAMP - printf("\nSysLog TS: %s : Length %d", header, temp - header); -#endif /* SHOW_SYSLOG_TIMESTAMP */ - return temp-header; -} - -extern void cnat_logging_init(); - -/* one time call at the beginning */ -void cnat_syslog_logging_init() -{ - if(PREDICT_TRUE(cnat_syslog_global_info.cnat_syslog_init_done)) - return; /* Already done */ - - cnat_logging_init(); - cnat_syslog_global_info.cnat_syslog_disp_node_index = - spp_lookup_node_index(PLATFORM_SYSLOG_DISP_NODE_IDX); - ASSERT(cnat_syslog_global_info.cnat_syslog_disp_node_index != (u16)~0); - - cnat_syslog_global_info.cnat_syslog_init_done = 1; -} - -/* - * edt: * * cnat_syslog_create_logging_context - * - * Tries to create a logging context with packet buffer - * to send a new logging packet - * - * Argument: cnat_syslog_logging_info_t *logging_info - * structure that contains the logging info and will store - * the packet context as well. - */ -inline -void cnat_syslog_create_logging_context ( - cnat_syslog_logging_info_t *logging_info, - syslog_service_type_t s_type) -{ - spp_ctx_t *ctx; - - /* - * If queued_logging_context_index is non-EMPTY, we already have a logging - * packet queued to be sent. First try sending this before allocating - * a new context. We can have only one active packet context per - * logging_info structure - */ - - if (PREDICT_FALSE(logging_info->queued_logging_context != NULL)) { - cnat_syslog_send_queued_pkt(logging_info); - /* - * If we cannot still send the queued pkt, just return - * Downstream Constipation count would have increased anyway - */ - if (logging_info->queued_logging_context != NULL) { - cnat_syslog_global_counter.logging_context_creation_deferred_count++; - return; - } - } - - /* - * If no context can be allocated, return silently - * calling routine will handle updating the error counters - */ - if (spp_ctx_alloc(&ctx, 1) < 1) { - cnat_syslog_global_counter.logging_context_creation_fail_count++; - SYSLOG_DEBUG_PRINTF1("\nCould not allocate ctx for syslog"); - return; - } - - // Allocate packet buffer (used for AVSM currently) - PLATFORM_ALLOC_NFV9_PKT_BUFFER(ctx, 0); - - logging_info->current_logging_context = ctx; - - PLATFORM_SET_CTX_RU_TX_FROM_NODE(ctx, NODE_LOGGING); - - ctx->flags = SPP_CTX_END_OF_PACKET; - ctx->next_ctx_this_packet = (spp_ctx_t*) SPP_CTX_NO_NEXT_CTX; - ctx->current_header = &ctx->packet_data[CNAT_NFV9_HDR_OFFSET]; - - logging_info->pkt_length = syslog_fill_header(logging_info, s_type); - logging_info->pkt_length += (CNAT_NFV9_HDR_OFFSET - - CNAT_NFV9_IP_HDR_OFFSET); - logging_info->current_logging_context_timestamp = - cnat_get_sys_up_time_in_ms(); - -} - -inline static int u16_to_ascii_hex_unaligned( - unsigned char *ptr, u16 num) -{ - unsigned char nibble, *temp; - int no_leading_zeros = 0; - temp = ptr; - nibble = (num >> 12); - if(nibble) { - *temp++ = hex_numbers_single_digit[nibble]; - no_leading_zeros = 1; - } - - nibble = (num >> 8) & 0xF; - if(nibble || no_leading_zeros) { - *temp++ = hex_numbers_single_digit[nibble]; - no_leading_zeros = 1; - } - - nibble = (num >> 4) & 0xF; - if(nibble || no_leading_zeros) { - *temp++ = hex_numbers_single_digit[nibble]; - } - - *temp++ = hex_numbers_single_digit[num & 0xF]; - - return temp-ptr; -} - -inline static int ipv6_int_2_str(u32 ipv6[], unsigned char *ipv6_str) -{ -/* DC stands for Double Colon. - * Refer http://tools.ietf.org/html/rfc5952 for - * more details on text representations of - * IPV6 address - */ -#define DC_NOT_USED_YET 0 -#define DC_IN_USE 1 /* Zeros are skipped */ -#define DC_ALREADY_USED 2 /* Cannot skip zeros anymore */ - int i; - u16 *ipv6_temp = (u16 *)ipv6; - unsigned char *temp = ipv6_str; - int double_colon = DC_NOT_USED_YET; - for(i = 0; i < 7; i++) { - if(ipv6_temp[i]) { - ipv6_str += u16_to_ascii_hex_unaligned(ipv6_str, ipv6_temp[i]); - *ipv6_str++ = ':'; - if(double_colon == DC_IN_USE) { /* Cannot use DC anymore */ - double_colon = DC_ALREADY_USED; - } - } else { - if(double_colon == DC_IN_USE) { - /* Skip this zero as well */ - continue; - } else if((ipv6_temp[i+1]) - /* DC makes sense if there is more than one contiguous zero */ - || (double_colon != DC_NOT_USED_YET)) { - ipv6_str += u16_to_ascii_hex_unaligned(ipv6_str, - ipv6_temp[i]); - *ipv6_str++ = ':'; - } else { /* Start using DC */ - *ipv6_str++ = ':'; /* The 2nd colon */ - double_colon = DC_IN_USE; - } - } - } - if(ipv6_temp[7]) { - ipv6_str += u16_to_ascii_hex_unaligned(ipv6_str, ipv6_temp[7]); - } else if(double_colon != DC_IN_USE) { - *ipv6_str++ = '0'; - } - *ipv6_str = 0; - - return ipv6_str - temp; -} - -/* insert syslog record for nat44 */ - -void cnat_syslog_insert_nat44_record( - cnat_syslog_logging_info_t *log_info, - cnat_main_db_entry_t *db, cnat_vrfmap_t *vrfmap, - cnat_session_entry_t *sdb, int bulk_alloc, syslog_event_type_t e_type) -{ - /* This record should like this - - * [EventName <L4> <Original Source IP> <Inside VRF Name> - * <Original Source IPv6> < Translated Source IP> <Original Port> - * <Translated First Source Port> <Translated Last Source Port> - * <Destination ip address> <destination port>] - */ - u32 original_source = db->in2out_key.k.ipv4; - u32 translated_ip = db->out2in_key.k.ipv4; - cnat_user_db_entry_t *udb = cnat_user_db + db->user_index; - unsigned char *temp, *record; - u32 network_order_ipv6[4]; - - SYSLOG_CONFIG_DEBUG_PRINTF(4,"In Function %s\n", __func__); - temp = record = &(log_info->current_logging_context->packet_data[ - CNAT_NFV9_IP_HDR_OFFSET + log_info->pkt_length]); - - if (PREDICT_FALSE(!udb)) { - SYSLOG_DEBUG_PRINTF1("\nnull udb!"); - return; - } - - /* Now we point to the location where record needs to be inserted */ - *record++ = '['; /* Open the record */ - - /* Copy the record type */ - clib_memcpy(record, sys_log_event[e_type].event_name, - sys_log_event[e_type].name_length); - record += sys_log_event[e_type].name_length; - *record++ = SYSLOG_DELIMITER; - - /* Copy the Protocol type */ - if(PREDICT_FALSE( - e_type == sessionbased_assign || e_type == sessionbased_withdraw || - e_type == sessionbased_assignD || e_type == sessionbased_withdrawD)) { - u16 my_proto_mask; - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - if(PREDICT_TRUE(my_proto_mask == CNAT_TCP)) { - *record++ = '6'; - } else if(PREDICT_TRUE(my_proto_mask == CNAT_UDP)) { - *record++ = '1'; - *record++ = '7'; - } else if(PREDICT_TRUE(my_proto_mask == CNAT_ICMP)) { - *record++ = '1'; - } else { /* Default, assume GRE (for PPTP) */ - *record++ = '4'; - *record++ = '7'; - } - } else { - *record++ = SYSLOG_FIELD_ABSENT; - } - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original Source IP */ - record += copy_ipv4_addr(record, original_source); - *record++ = SYSLOG_DELIMITER; - - /* copy configured VRF NAME */ - clib_memcpy(record, log_info->vrf_name, log_info->vrf_name_len); - record += log_info->vrf_name_len; - *record++ = SYSLOG_DELIMITER; - - /* No IPV6 source address for nat44 */ - *record++ = SYSLOG_FIELD_ABSENT; - *record++ = SYSLOG_DELIMITER; - - /* Copy the translated IP address */ - record += copy_ipv4_addr(record, translated_ip); - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original port */ - if(e_type == sessionbased_assign || e_type == sessionbased_withdraw || - e_type == sessionbased_assignD || e_type == sessionbased_withdrawD) { - record += u16_to_ascii_decimal_unaligned( - record, db->in2out_key.k.port); - } else { - *record++ = SYSLOG_FIELD_ABSENT; - } - *record++ = SYSLOG_DELIMITER; - - /* Copy the start outside port */ - record += u16_to_ascii_decimal_unaligned(record, bulk_alloc); - *record++ = SYSLOG_DELIMITER; - - /* Copy the last outside port */ - if(e_type == userbased_assign || e_type == userbased_withdraw) { - record += u16_to_ascii_decimal_unaligned(record, - (bulk_alloc + BULKSIZE_FROM_VRFMAP(vrfmap) - 1)); - } else { - *record++ = SYSLOG_FIELD_ABSENT; - } - *record++ = SYSLOG_DELIMITER; - - /* Copy destination ip and port in case for DBL*/ - if(PREDICT_FALSE(e_type == sessionbased_assignD || e_type == sessionbased_withdrawD)) { - if(PREDICT_TRUE(sdb == NULL)) { - record += copy_ipv4_addr(record,db->dst_ipv4); - *record++ = SYSLOG_DELIMITER; - record += u16_to_ascii_decimal_unaligned(record, db->dst_port); - } else { - record += copy_ipv4_addr(record, sdb->v4_dest_key.k.ipv4); - *record++ = SYSLOG_DELIMITER; - record += u16_to_ascii_decimal_unaligned(record, sdb->v4_dest_key.k.port); - } - } else { - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - *record++ = '-'; - } - *record++ = SYSLOG_DELIMITER; - - *record++ = ']'; /* End of the reocrd */ - - log_info->pkt_length += record - temp; -} - -void cnat_syslog_insert_record( - cnat_syslog_logging_info_t *log_info, - cnat_main_db_entry_t *db, dslite_table_entry_t *dslite_entry, - cnat_session_entry_t *sdb, int bulk_alloc, syslog_event_type_t e_type) -{ - /* This record should like this - - * [EventName <L4> <Original Source IP> <Inside VRF Name> - * <Original Source IPv6> < Translated Source IP> <Original Port> - * <Translated First Source Port> <Translated Last Source Port> - * <Destination ip address> <destination port>] - */ - u32 original_source = db->in2out_key.k.ipv4; - u32 translated_ip = db->out2in_key.k.ipv4; - cnat_user_db_entry_t *udb = cnat_user_db + db->user_index; - unsigned char *temp, *record; - u32 network_order_ipv6[4]; - - temp = record = &(log_info->current_logging_context->packet_data[ - CNAT_NFV9_IP_HDR_OFFSET + log_info->pkt_length]); - - if (PREDICT_FALSE(!udb)) { - SYSLOG_DEBUG_PRINTF1("\nnull udb!"); - return; - } - - /* Now we point to the location where record needs to be inserted */ - *record++ = '['; /* Open the record */ - - /* Copy the record type */ - clib_memcpy(record, sys_log_event[e_type].event_name, - sys_log_event[e_type].name_length); - record += sys_log_event[e_type].name_length; - *record++ = SYSLOG_DELIMITER; - - /* Copy the Protocol type */ - if(PREDICT_FALSE( - e_type == sessionbased_assign || e_type == sessionbased_withdraw || - e_type == sessionbased_assignD || e_type == sessionbased_withdrawD)) { - u16 my_proto_mask; - my_proto_mask = db->in2out_key.k.vrf & CNAT_PRO_MASK; - if(PREDICT_TRUE(my_proto_mask == CNAT_TCP)) { - *record++ = '6'; - } else if(PREDICT_TRUE(my_proto_mask == CNAT_UDP)) { - *record++ = '1'; - *record++ = '7'; - } else { - *record++ = '1'; - } - } else { - *record++ = SYSLOG_FIELD_ABSENT; - } - - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original Source IP */ -#ifdef DSLITE_USER_IPV4 - record += copy_ipv4_addr(record, original_source); -#else - /* - * Do not include inside ipv4 address for B4 element level port limiting - */ - *record++ = SYSLOG_FIELD_ABSENT; -#endif - *record++ = SYSLOG_DELIMITER; - - /* copy configured VRF NAME */ - clib_memcpy(record, log_info->vrf_name, log_info->vrf_name_len); - record += log_info->vrf_name_len; - *record++ = SYSLOG_DELIMITER; - - /* Copy the IPV6 source address */ - /* CSCtt16960 Fix. */ - network_order_ipv6[0] = htonl(udb->ipv6[0]); - network_order_ipv6[1] = htonl(udb->ipv6[1]); - network_order_ipv6[2] = htonl(udb->ipv6[2]); - network_order_ipv6[3] = htonl(udb->ipv6[3]); - - inet_ntop(AF_INET6,network_order_ipv6,record,INET6_ADDRSTRLEN); - record += strlen(record); - *record++ = SYSLOG_DELIMITER; - - /* Copy the translated IP address */ - record += copy_ipv4_addr(record, translated_ip); - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original port */ - if(e_type == sessionbased_assign || e_type == sessionbased_withdraw || - e_type == sessionbased_assignD || e_type == sessionbased_withdrawD) { - record += u16_to_ascii_decimal_unaligned( - record, db->in2out_key.k.port); - } else { - *record++ = SYSLOG_FIELD_ABSENT; - } - *record++ = SYSLOG_DELIMITER; - - /* Copy the start outside port */ - record += u16_to_ascii_decimal_unaligned(record, bulk_alloc); - *record++ = SYSLOG_DELIMITER; - - /* Copy the last outside port */ - if(e_type == userbased_assign || e_type == userbased_withdraw) { - record += u16_to_ascii_decimal_unaligned(record, - (bulk_alloc + BULKSIZE_FROM_VRFMAP(dslite_entry) - 1)); - } else { - *record++ = SYSLOG_FIELD_ABSENT; - } - *record++ = SYSLOG_DELIMITER; - - if(PREDICT_FALSE(e_type == sessionbased_assignD || e_type == sessionbased_withdrawD)) { - if(sdb == NULL) { - record += copy_ipv4_addr(record, db->dst_ipv4); - *record++ = SYSLOG_DELIMITER; - record += u16_to_ascii_decimal_unaligned(record, db->dst_port); - } else { - record += copy_ipv4_addr(record, sdb->v4_dest_key.k.ipv4); - *record++ = SYSLOG_DELIMITER; - record += u16_to_ascii_decimal_unaligned(record, sdb->v4_dest_key.k.port); - } - } else { - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - *record++ = '-'; - } - *record++ = SYSLOG_DELIMITER; - - *record++ = ']'; /* End of the reocrd */ - - log_info->pkt_length += record - temp; -} - -#define SYSLOG_PRECHECK(entry, s_type) \ - if(PREDICT_FALSE((entry)->syslog_logging_index == EMPTY)) { \ - SYSLOG_DEBUG_PRINTF1("\n1. Log Mapping failed") \ - return; \ - } \ - logging_info = \ - cnat_syslog_logging_info_pool + (entry)->syslog_logging_index; \ - if(PREDICT_FALSE(logging_info->current_logging_context == NULL)) { \ - cnat_syslog_create_logging_context(logging_info, s_type); \ - if(PREDICT_FALSE(logging_info->current_logging_context == NULL)) { \ - SYSLOG_DEBUG_PRINTF1("\n2. Log Mapping failed") \ - return; \ - } \ - } - -void cnat_syslog_nat44_mapping_create(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, cnat_session_entry_t * sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - cnat_syslog_logging_info_t *logging_info = 0; - syslog_event_type_t e_type; - int start_port; - - SYSLOG_CONFIG_DEBUG_PRINTF(4,"In Function %s\n", __func__); - SYSLOG_PRECHECK(vrfmap, NAT44) - -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - e_type = userbased_assign; - start_port = bulk_alloc; - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) { - return; /* No logging required.. bulk port usage */ - } - else { /* Individual logging .. fall back to old method */ -#endif - if(vrfmap->syslog_logging_policy == SESSION_LOG_ENABLE) { - e_type = sessionbased_assignD; - } else { - e_type = sessionbased_assign; - } - start_port = db->out2in_key.k.port; -#ifndef NO_BULK_LOGGING - } -#endif - - cnat_syslog_insert_nat44_record(logging_info, db, vrfmap, sdb, - start_port, e_type); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} - -void cnat_syslog_ds_lite_mapping_create(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, cnat_session_entry_t *sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - cnat_syslog_logging_info_t *logging_info = 0; - syslog_event_type_t e_type; - int start_port; - - SYSLOG_PRECHECK(dslite_entry, DSLite) - -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - e_type = userbased_assign; - start_port = bulk_alloc; - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) { - return; /* No logging required.. bulk port usage */ - } - else { /* Individual logging .. fall back to old method */ -#endif - if(PREDICT_FALSE(dslite_entry->syslog_logging_policy == SESSION_LOG_ENABLE)) { - e_type = sessionbased_assignD; - } else { - e_type = sessionbased_assign; - } - start_port = db->out2in_key.k.port; -#ifndef NO_BULK_LOGGING - } -#endif - - cnat_syslog_insert_record(logging_info, db, dslite_entry, sdb, - start_port, e_type); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} - -void cnat_syslog_nat44_mapping_delete(cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap, cnat_session_entry_t *sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - cnat_syslog_logging_info_t *logging_info = 0; - syslog_event_type_t e_type; - int start_port; - - SYSLOG_CONFIG_DEBUG_PRINTF(4,"In Function %s\n", __func__); - SYSLOG_PRECHECK(vrfmap, NAT44) - -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - e_type = userbased_withdraw; - start_port = bulk_alloc; - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) { - return; /* No logging required.. bulk port usage */ - } - else { /* Individual logging .. fall back to old method */ -#endif - if(vrfmap->syslog_logging_policy == SESSION_LOG_ENABLE) { - e_type = sessionbased_withdrawD; - } else { - e_type = sessionbased_withdraw; - } - start_port = db->out2in_key.k.port; -#ifndef NO_BULK_LOGGING - } -#endif - cnat_syslog_insert_nat44_record(logging_info, db, vrfmap, sdb, - start_port, e_type); - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} - -void cnat_syslog_ds_lite_mapping_delete(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, cnat_session_entry_t *sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ) -{ - cnat_syslog_logging_info_t *logging_info = 0; - syslog_event_type_t e_type; - int start_port; - - SYSLOG_PRECHECK(dslite_entry, DSLite) - -#ifndef NO_BULK_LOGGING - if(bulk_alloc > 0) { /* new bulk alloc - use bulk add template */ - e_type = userbased_withdraw; - start_port = bulk_alloc; - } else if(bulk_alloc == CACHE_ALLOC_NO_LOG_REQUIRED) { - return; /* No logging required.. bulk port usage */ - } - else { /* Individual logging .. fall back to old method */ -#endif - if(PREDICT_FALSE(dslite_entry->syslog_logging_policy == SESSION_LOG_ENABLE)) { - e_type = sessionbased_withdrawD; - } else { - e_type = sessionbased_withdraw; - } - start_port = db->out2in_key.k.port; -#ifndef NO_BULK_LOGGING - } -#endif - cnat_syslog_insert_record(logging_info, db, dslite_entry, sdb, - start_port, e_type); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} - -void cnat_syslog_dslite_insert_port_exceeded( - cnat_syslog_logging_info_t *log_info, - dslite_key_t * key) -{ - /* This record should like this - - * [Portblockrunout <L4> <Original Source IP> <Inside VRF Name> - * <Original Source IPv6> - <Original Port> - - - -] - */ - u32 network_order_ipv6[4]; - unsigned char *temp, *record; - - temp = record = &(log_info->current_logging_context->packet_data[ - CNAT_NFV9_IP_HDR_OFFSET + log_info->pkt_length]); - - /* Now we point to the location where record needs to be inserted */ - *record++ = '['; /* Open the record */ - - /* Copy the record type */ - clib_memcpy(record, sys_log_event[port_block_runout].event_name, - sys_log_event[port_block_runout].name_length); - record += sys_log_event[port_block_runout].name_length; - *record++ = SYSLOG_DELIMITER; - - u16 my_proto_mask; - my_proto_mask = key->ipv4_key.k.vrf & CNAT_PRO_MASK; - if(PREDICT_TRUE(my_proto_mask == CNAT_TCP)) { - *record++ = '6'; - } else if(PREDICT_TRUE(my_proto_mask == CNAT_UDP)) { - *record++ = '1'; - *record++ = '7'; - } else { - *record++ = '1'; - } - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original Source IP */ - record += copy_ipv4_addr(record, key->ipv4_key.k.ipv4); - *record++ = SYSLOG_DELIMITER; - - /* copy configured VRF NAME */ - clib_memcpy(record, log_info->vrf_name, log_info->vrf_name_len); - record += log_info->vrf_name_len; - *record++ = SYSLOG_DELIMITER; - - /* Copy the IPV6 source address */ - network_order_ipv6[0] = htonl(key->ipv6[0]); - network_order_ipv6[1] = htonl(key->ipv6[1]); - network_order_ipv6[2] = htonl(key->ipv6[2]); - network_order_ipv6[3] = htonl(key->ipv6[3]); - - inet_ntop(AF_INET6,network_order_ipv6,record,INET6_ADDRSTRLEN); - record += strlen(record); - *record++ = SYSLOG_DELIMITER; - - *record++ = SYSLOG_FIELD_ABSENT; /* No translated source ip */ - *record++ = SYSLOG_DELIMITER; - - record += u16_to_ascii_decimal_unaligned( - record, key->ipv4_key.k.port); - *record++ = SYSLOG_DELIMITER; - - *record++ = SYSLOG_FIELD_ABSENT; /* No translated start port */ - *record++ = SYSLOG_DELIMITER; - - *record++ = SYSLOG_FIELD_ABSENT; /* No translated end port */ - *record++ = SYSLOG_DELIMITER; - - /*No Destination Info*/ - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - - *record++ = ']'; /* End of the reocrd */ - - log_info->pkt_length += record - temp; -} - -void cnat_syslog_ds_lite_port_limit_exceeded( - dslite_key_t * key, - dslite_table_entry_t *dslite_entry) -{ - cnat_syslog_logging_info_t *logging_info = 0; - - SYSLOG_PRECHECK(dslite_entry, DSLite) - - cnat_syslog_dslite_insert_port_exceeded(logging_info, key); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} - -void cnat_syslog_nat44_insert_port_exceeded( - cnat_syslog_logging_info_t *log_info, - cnat_key_t * key) -{ - /* This record should like this - - * [Portblockrunout <L4> <Original Source IP> <Inside VRF Name> - * - - <Original Port> - - - -] - */ - unsigned char *temp, *record; - - temp = record = &(log_info->current_logging_context->packet_data[ - CNAT_NFV9_IP_HDR_OFFSET + log_info->pkt_length]); - - /* Now we point to the location where record needs to be inserted */ - *record++ = '['; /* Open the record */ - - /* Copy the record type */ - clib_memcpy(record, sys_log_event[port_block_runout].event_name, - sys_log_event[port_block_runout].name_length); - record += sys_log_event[port_block_runout].name_length; - *record++ = SYSLOG_DELIMITER; - - u16 my_proto_mask; - my_proto_mask = key->k.vrf & CNAT_PRO_MASK; - if(PREDICT_TRUE(my_proto_mask == CNAT_TCP)) { - *record++ = '6'; - } else if(PREDICT_TRUE(my_proto_mask == CNAT_UDP)) { - *record++ = '1'; - *record++ = '7'; - } else { - *record++ = '1'; - } - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original Source IP */ - record += copy_ipv4_addr(record, key->k.ipv4); - *record++ = SYSLOG_DELIMITER; - - /* copy configured VRF NAME */ - clib_memcpy(record, log_info->vrf_name, log_info->vrf_name_len); - record += log_info->vrf_name_len; - *record++ = SYSLOG_DELIMITER; - - /* No IPV6 source address for nat44 */ - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - - *record++ = '-'; /* No translated source ip */ - *record++ = SYSLOG_DELIMITER; - - record += u16_to_ascii_decimal_unaligned( - record, key->k.port); - *record++ = SYSLOG_DELIMITER; - - *record++ = '-'; /* No translated start port */ - *record++ = SYSLOG_DELIMITER; - - *record++ = '-'; /* No translated end port */ - *record++ = SYSLOG_DELIMITER; - - /*No Destination Info*/ - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - - *record++ = ']'; /* End of the reocrd */ - - log_info->pkt_length += record - temp; -} - -void cnat_syslog_nat44_port_limit_exceeded( - cnat_key_t * key, - cnat_vrfmap_t *vrfmap) -{ - cnat_syslog_logging_info_t *logging_info = 0; - - SYSLOG_PRECHECK(vrfmap, NAT44) - - cnat_syslog_nat44_insert_port_exceeded(logging_info, key); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} - -void cnat_syslog_nat44_insert_tcp_seq_mismatch( - cnat_syslog_logging_info_t *log_info, - cnat_main_db_entry_t *db) -{ - /* This record should like this - - * [TCPseqmismatch <L4> <Original Source IP> <Inside VRF Name> - * - <Translated Source IP> <Original Port> <Translated Source Port> - - -] - */ - unsigned char *temp, *record; - - temp = record = &(log_info->current_logging_context->packet_data[ - CNAT_NFV9_IP_HDR_OFFSET + log_info->pkt_length]); - - /* Now we point to the location where record needs to be inserted */ - *record++ = '['; /* Open the record */ - - /* Copy the record type */ - clib_memcpy(record, sys_log_event[tcp_seq_mismatch].event_name, - sys_log_event[tcp_seq_mismatch].name_length); - record += sys_log_event[tcp_seq_mismatch].name_length; - *record++ = SYSLOG_DELIMITER; - - /* Next field is TCP */ - *record++ = '6'; - *record++ = SYSLOG_DELIMITER; - - /* Copy the Original Source IP */ - record += copy_ipv4_addr(record, db->in2out_key.k.ipv4); - *record++ = SYSLOG_DELIMITER; - - /* copy configured VRF NAME */ - clib_memcpy(record, log_info->vrf_name, log_info->vrf_name_len); - record += log_info->vrf_name_len; - *record++ = SYSLOG_DELIMITER; - - /* No IPV6 source address for nat44 */ - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - - record += copy_ipv4_addr(record, db->out2in_key.k.ipv4); - *record++ = SYSLOG_DELIMITER; - - record += u16_to_ascii_decimal_unaligned( - record, db->in2out_key.k.port); - *record++ = SYSLOG_DELIMITER; - - record += u16_to_ascii_decimal_unaligned( - record, db->out2in_key.k.port); - *record++ = SYSLOG_DELIMITER; - - *record++ = '-'; /* No translated end port */ - *record++ = SYSLOG_DELIMITER; - - /*No Destination Info*/ - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - *record++ = '-'; - *record++ = SYSLOG_DELIMITER; - - *record++ = ']'; /* End of the reocrd */ - - log_info->pkt_length += record - temp; -} - -void cnat_syslog_nat44_tcp_seq_mismatch( - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap) -{ - cnat_syslog_logging_info_t *logging_info = 0; - - SYSLOG_PRECHECK(vrfmap, NAT44) - - cnat_syslog_nat44_insert_tcp_seq_mismatch(logging_info, db); - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - - if (PREDICT_FALSE(logging_info->pkt_length > - logging_info->max_length_minus_max_record_size)) { - cnat_syslog_send_pkt(logging_info); - } -} -#endif diff --git a/plugins/vcgn-plugin/vcgn/cnat_syslog.h b/plugins/vcgn-plugin/vcgn/cnat_syslog.h deleted file mode 100644 index 931f4b9cd22..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_syslog.h +++ /dev/null @@ -1,190 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_syslog.h - * - * Copyright (c) 2011-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_SYSLOG_H__ -#define __CNAT_SYSLOG_H__ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vnet/pg/pg.h> -#include <vppinfra/error.h> - -#include "cnat_db.h" -#include "nat64_db.h" -#include "cnat_log_common.h" -#include "dslite_defs.h" - -#define SYSLOG_CONFIG_DEBUG_PRINTF(level, ...) \ - if (config_debug_level > level) PLATFORM_DEBUG_PRINT(__VA_ARGS__); - - -/* one time call at the beginning */ -void cnat_syslog_logging_init(); - -/* - * unconditional call - * will check logging config inside - */ -void cnat_syslog_log_mapping_create(cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap); - -/* - * unconditional call - * will check logging config inside - */ -void cnat_syslog_log_mapping_delete(cnat_main_db_entry_t * db, - cnat_vrfmap_t *vrfmap); - -void cnat_syslog_ds_lite_mapping_create(cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry, cnat_session_entry_t *sdb -#ifndef NO_BULK_LOGGING - , int bulk_alloc -#endif - ); - -void cnat_syslog_ds_lite_port_limit_exceeded( - dslite_key_t * key, - dslite_table_entry_t *dslite_entry); - -#define SYSLOG_TIMESTAMP_LENGTH 20 - -#define CNAT_SYSLOG_VERSION_NUMBER 1 -#define CNAT_SYSLOG_PRIORITY 16*8+6 -/* facility = local0 + severity = info */ - -#define MAX_SYSLOG_HOSTNAME_LEN 32 - -/* 6 for priority + space - * 2 for version + space - * 21 YYYY MMM DD HH:MM:SS + space - * 33 for hostname + space - * 4 for App Name (-) + space + Proc ID (-) + space - * 7 for Msg ID (DSLite is the longest Msg ID so far + space - * 2 for Structured data (-) + space - */ -#define MAX_SYSLOG_HEADER_LEN 75 - -/* 18 for Event Name (Portblockrunout is the longest as of now) - * 3 for L4 (including space) - * 16 for original souce IP + space - * 33 for inside vrf name + space - * 40 for original source IPV6 + space - * 16 for translated source IP + space - * 6 for original port + space - * 6 for translated first source port + space - * 5 for translated last source port - * 2 for [] enclosure - */ -#define MAX_SYSLOG_RECORD_LEN 145 - -typedef enum { - NAT44, - DSLite -} syslog_service_type_t; - -typedef enum { - userbased_assign, - userbased_withdraw, - sessionbased_assign, - sessionbased_withdraw, - sessionbased_assignD, - sessionbased_withdrawD, - port_block_runout, - tcp_seq_mismatch, - max_syslog_event_type -} syslog_event_type_t; - -/* - * This structure store the Syslog Logging information on per - * collector basis. This structure is allocated from a pool and index - * to this structure is stored VRF MAP structures - */ -typedef struct { - /* - * nat64_id will be 0 for nat44 config and i_vrf_id, i_vrf will be 0 - * for nat64 config. Nat64_id will be used while nat64 collector is - * search and i_vrf* for nat44 collector - */ - /* Similarly for ds_lite, ds_lite_id will be used and nat64_id, - * ivrf_id shall be set to 0 - */ - u32 i_vrf_id; /* Inside VRF ID corresponding to this collector */ - u16 i_vrf; /* Inside VRF (uidb_index) corresponding to this collector */ - u16 ds_lite_id; /* DS Lite instance for this collector */ - u16 port; /* Destination port number of the collector */ - - /* - * This field determines the maximum size of the Syslog information - * that can be stored in a logging packet - */ - u16 max_length_minus_max_record_size; - u32 ipv4_address; /* Destination IP address of the collector */ - /* - * Timestamp in UNIX seconds corresponding to when the current - * logging packet was created - */ - u32 current_logging_context_timestamp; - - /* - * Indicates if the entry is already deleted - */ - u8 deleted; - - u8 header_priority; - u16 pkt_length; - - char header_hostname[MAX_SYSLOG_HOSTNAME_LEN]; - char vrf_name[VRF_NAME_LEN_STORED]; - u16 vrf_name_len; - u8 logging_policy; - /* - * current logging context - */ - spp_ctx_t *current_logging_context; - spp_ctx_t *queued_logging_context; - -} cnat_syslog_logging_info_t; - - -/* - * Global structure for CGN APP configuration - */ -typedef struct { - - u16 cnat_syslog_disp_node_index; - - /* - * Whether we have initialized the Syslog information - */ - u8 cnat_syslog_init_done; - -} cnat_syslog_global_info_t; - -typedef struct { - u64 logging_context_creation_fail_count; - u64 downstream_constipation_count; - u64 logging_context_creation_deferred_count; -} cnat_syslog_global_counters_t; - -extern cnat_syslog_logging_info_t *cnat_syslog_logging_info_pool; -extern cnat_syslog_global_info_t cnat_syslog_global_info; - -#define SYSLOG_DEF_PATH_MTU 1500 - -#endif /* __CNAT_SYSLOG_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_util.c b/plugins/vcgn-plugin/vcgn/cnat_util.c deleted file mode 100644 index c3697b6be2f..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_util.c +++ /dev/null @@ -1,2256 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_util.c - cnat helpers - * - * Copyright (c) 2009-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> -#include <vppinfra/error.h> - -#include "tcp_header_definitions.h" - -#if 0 -void spp_api_cnat_v4_config_dummy_t_handler -(spp_api_cnat_v4_config_dummy_t *mp); - -void spp_api_cnat_v4_config_dummy_max_t_handler -(spp_api_cnat_v4_config_dummy_max_t *mp); - -void spp_api_cnat_v4_config_icmp_timeout_t_handler -(spp_api_cnat_v4_config_icmp_timeout_t *mp); - -void spp_api_cnat_clear_db_request_t_handler -(spp_api_cnat_clear_db_request_t *mp); - -void spp_api_cnat_v4_debug_global_t_handler -(spp_api_cnat_v4_debug_global_t *mp); - -void spp_api_cnat_v4_show_outside_entry_req_t_handler -(spp_api_cnat_v4_show_outside_entry_req_t *mp); - -void spp_api_cnat_v4_show_inside_entry_req_t_handler -(spp_api_cnat_v4_show_inside_entry_req_t *mp); - -void spp_api_cnat_show_statistics_summary_req_t_handler -(spp_api_cnat_show_statistics_summary_req_t *mp); - -void cnat_db_create_db_entries_cmd (int argc, unsigned long *argv) -{ - int i, j ; - int nusers = 3000; - - cnat_db_key_bucket_t key_info; - cnat_main_db_entry_t *db; - cnat_gen_icmp_info info; - cnat_key_t dest_info_dummy; - - memset(&dest_info_dummy, 0, sizeof(cnat_key_t)); - printf ("Create %d users, 100 translations each...\n", nusers); - - for (i = 0; i < nusers; i++) { - for (j = 0; j < 100; j++) { - - key_info.k.k.vrf = CNAT_TCP | (1 & CNAT_VRF_MASK); - key_info.k.k.ipv4 = 0x0c000001+i; - key_info.k.k.port = 1024+j; - - db = cnat_get_main_db_entry_v2(&key_info, PORT_SINGLE, - PORT_TYPE_DYNAMIC, &info, &dest_info_dummy); - - if (db == 0) { - printf ("OOPS: cnat_main_db_create failed users %d trans %d\n", i, j); - return; /*jli*/ - } - - db->entry_expires = cnat_current_time; - - } - } -} - -void db_test_clear (int argc, unsigned long *argv) -{ - spp_api_cnat_clear_db_request_t mp; - - mp.wildcard = argv[0]; - mp.protocol = argv[1]; - mp.port_num = argv[2]; - mp.inside_vrf = argv[3]; - mp.ip_addr = argv[4]; - spp_api_cnat_clear_db_request_t_handler(&mp); -} - -/* test code*/ -void cnat_db_test_show (int argc, unsigned long *argv) -{ - - spp_api_cnat_v4_show_inside_entry_req_t mp1[2000]; - spp_api_cnat_v4_show_outside_entry_req_t mp2[30000]; - - if (argc > 1) { - if (argc != 7) { - printf("Usage: db test show dec((which)) dec((vrf)) dec((proto)) dec((ip)) dec((start_port)) dec((end_port)) dec((flags))\n"); - return; - } - - mp1[0].vrf_id = argv[1]; - mp1[0].protocol = argv[2];; - mp1[0].ipv4_addr = argv[3]; - mp1[0].start_port = argv[4]; - mp1[0].end_port = argv[5]; - mp1[0].flags = argv[6]; - mp1[0].all_entries = 0; - - if (argv[0] == 1) { - spp_api_cnat_v4_show_inside_entry_req_t_handler (&(mp1[0])); - } else { - spp_api_cnat_v4_show_outside_entry_req_t_handler (&(mp2[0])); - } - - return; - } else { - printf("inside entries \n"); - mp1[0].ipv4_addr = 0x016994CA; - mp1[0].vrf_id = 1; - mp1[0].all_entries = 0; - mp1[0].start_port = 32765; - mp1[0].end_port = 65535; - mp1[0].protocol = 2; - mp1[0].flags = 3; - - spp_api_cnat_v4_show_inside_entry_req_t_handler (&(mp1[0])); - - mp2[0].ipv4_addr = 0x640200c1; - mp2[0].vrf_id = 0; - mp2[0].start_port = 1025; - mp2[0].end_port = 62235; - mp2[0].protocol = 2; - mp2[0].flags = 3; - - spp_api_cnat_v4_show_outside_entry_req_t_handler (&(mp2[0])); - } - -#if 1 - { - spp_api_cnat_stats_node_mapping_t mp3[20000]; - spp_api_cnat_stats_counter_mapping_t mp4[20000]; - spp_api_cnat_stats_counter_values_t mp5[23000]; - - mp3[0].rc = 0; - spp_api_cnat_stats_node_mapping_t_handler (&mp3); - mp4[0].rc = 0; - spp_api_cnat_stats_counter_mapping_t_handler (&mp4); - - mp5[0].flag = 1; - spp_api_cnat_stats_counter_values_t_handler(&mp5); - } -#endif - -#if 0 - mp1.ipv4_addr = 0x0A010102; - mp1.vrf_id = 1; - mp1.all_entries = 1; - mp1.protocol = 1; - - spp_api_cnat_v4_show_inside_entry_req_t_handler (&mp1); - - - mp1.ipv4_addr = 0x0A010103; - mp1.vrf_id = 1; - mp1.all_entries = 1; - mp1.protocol = 2; - - spp_api_cnat_v4_show_inside_entry_req_t_handler (&mp1); - - mp6[0].inside_vrf_id = 1; - mp6[0].start_ipv4_address = 0x64020001; - mp6[0].end_ipv4_address = 0x64020101; - mp6[0].free_addr = 0; - mp6[0].flags = CNAT_TRANSLATION_ENTRY_STATIC; - - spp_api_cnat_v4_show_freeUsed_entry_req_t_handler(&mp6); - -#endif - printf("returned here"); - - return; -} - - - -void cnat_db_clear_all_entries (int argc, unsigned long *argv) -{ - cnat_main_db_entry_t * db; - u32 index; - - pool_header_t * p = vec_header(cnat_main_db, sizeof(pool_header_t) ); - - for(index = 0; index < vec_len(cnat_main_db); index++) { - - if ( !clib_bitmap_get(p->free_bitmap, index)) { - - db = cnat_main_db + index; - cnat_delete_main_db_entry_v2(db); - - } - } - -} - - -void spp_log_cmd (int argc, unsigned long *argv) -{ - u16 num_traces; - u16 error_code; - u16 num_args; - u32 arg[7]; - u8 i; - - num_traces = argv[0]; - - for (i = 0; i < num_traces; i++) { - error_code = argv[1 + 4*i]; - num_args = argv[2 + 4*i]; - arg[0] = argv[3 + 4*i]; - arg[1] = argv[4 + 4*i]; - - spp_printf(error_code, num_args, arg); - } -} - - -void cnat_db_create_random_entries (int argc, unsigned long *argv) -{ - - platform_cnat_db_create_random_entries(); -} - -#define MAX_DEPTH 10 - -void show_user_db_hash_chain_len() { - - u32 max_len, len, n, i, max_idx, index, used; - cnat_user_db_entry_t * udb; - u32 hash_depth[MAX_DEPTH]; - - memset(hash_depth, 0, sizeof(u32)*MAX_DEPTH); - - n = vec_len(cnat_user_hash); - - used = 0; - max_len = 0; - for(i=0;i<n;i++) { - - index = cnat_user_hash[i].next; - - len = 0; - if (index != EMPTY) used++; - - while (index != EMPTY) { - len++ ; - udb = cnat_user_db + index; - index = udb->user_hash.next; - } - - if(len < (MAX_DEPTH-1) ) { - hash_depth[len]++; - } else { - hash_depth[MAX_DEPTH-1]++; - } - - if (max_len < len) { - max_len = len; - max_idx = cnat_user_hash[i].next; - } - } - - printf("Max user db hash length %u, total buckets %u used %u\n", - max_len, n, used); - - for( i=1; i<(MAX_DEPTH - 1); i++) { - printf("Hash chain len %02d, entries count %d\n", i, hash_depth[i]); - } - - printf("Hash chain len >%02d, entries count %d\n", - MAX_DEPTH-1, hash_depth[MAX_DEPTH-1]); - -} - -void show_main_db_hash_chain_len() { - - u32 max_len, len, n, i, max_idx, index, used; - cnat_main_db_entry_t * db; - u32 hash_depth[MAX_DEPTH]; - - memset(hash_depth, 0, sizeof(u32)*MAX_DEPTH); - - n = vec_len(cnat_in2out_hash); - - used = 0; - max_len = 0; - for(i=0;i<n;i++) { - - index = cnat_in2out_hash[i].next; - - len = 0; - if (index != EMPTY) used++; - - while (index != EMPTY) { - len++ ; - db = cnat_main_db + index; - index = db->in2out_hash.next; - } - - if(len < (MAX_DEPTH-1) ) { - hash_depth[len]++; - } else { - hash_depth[MAX_DEPTH-1]++; - } - - if (max_len < len) { - max_len = len; - max_idx = cnat_in2out_hash[i].next; - } - } - - printf("Max main db I2O hash length %u, total buckets %u used %u\n", - max_len, n, used); - - for( i=1; i<(MAX_DEPTH - 1); i++) { - printf("Hash chain len %02d, entries count %d\n", i, hash_depth[i]); - } - - printf("Hash chain len >%02d, entries count %d\n", - MAX_DEPTH-1, hash_depth[MAX_DEPTH-1]); - - - memset(hash_depth, 0, sizeof(u32)*MAX_DEPTH); - - n = vec_len(cnat_out2in_hash); - used = 0; - max_len = 0; - - for(i=0;i<n;i++) { - - index = cnat_out2in_hash[i].next; - len = 0; - - if (index != EMPTY) used++; - - while (index != EMPTY) { - len++ ; - db = cnat_main_db + index; - index = db->out2in_hash.next; - } - - if(len < (MAX_DEPTH-1) ) { - hash_depth[len]++; - } else { - hash_depth[MAX_DEPTH-1]++; - } - - if (max_len < len) { - max_len = len; - max_idx = cnat_in2out_hash[i].next; - } - } - - printf("Max main db O2I hash length %u, total buckets %u used %u\n", - max_len, n, used); - - for( i=1; i<(MAX_DEPTH - 1); i++) { - printf("Hash chain len %02d, entries count %d\n", i, hash_depth[i]); - } - - printf("Hash chain len >%02d, entries count %d\n", - MAX_DEPTH-1, hash_depth[MAX_DEPTH-1]); - - -} - -u32 db_free_entry (void * p) { - - pool_header_t * h; - u32 free; - - h = pool_header(p); - - free = p == 0 ? 0: vec_len(h->free_indices); - - return free; -} - -void cnat_db_summary (int argc, unsigned long *argv) { - - PLATFORM_DEBUG_PRINT("\n-----------------------------------------"); - PLATFORM_DEBUG_PRINT("\nSummary DB"); - PLATFORM_DEBUG_PRINT("\n-----------------------------------------\n"); - u32 count1, count2, i; -#ifndef NO_NAT64_DEF - extern void nat64_session_db_summary(); -#endif - /* main db active entry count*/ - count1 = vec_len(cnat_main_db); - count2 = db_free_entry(cnat_main_db); - - PLATFORM_DEBUG_PRINT("main db entries: total %u, active %u, free %u\n", count1, count1 - count2, count2); - - /* user db active entry count */ - count1 = vec_len(cnat_user_db); - count2 = db_free_entry(cnat_user_db); - - PLATFORM_DEBUG_PRINT("user db entries: total %u, active %u, free %u\n", count1, count1 - count2, count2); - - - /* user db active entry count */ -#ifndef NO_NAT64_DEF - nat64_session_db_summary(); -#endif - - /* main db hash i2o o2i usage count */ - count1 = 0; - count2 = 0; - - for (i=0; i< CNAT_MAIN_HASH_SIZE; i++) { - - if(cnat_in2out_hash[i].next != ~0) count1++; - if(cnat_out2in_hash[i].next != ~0) count2++; - - } - - PLATFORM_DEBUG_PRINT("main hash in2out: total %6u, used %u (%.2f%%)\n", - CNAT_MAIN_HASH_SIZE, count1, - (100.0*count1)/CNAT_MAIN_HASH_SIZE); - - PLATFORM_DEBUG_PRINT("main hash out2in: total %6u, used %u (%.2f%%)\n", - CNAT_MAIN_HASH_SIZE, count2, - (100.0 * count1)/CNAT_MAIN_HASH_SIZE); - - /* use db hashing usage count */ - - count1 = 0; - - for (i=0; i< CNAT_USER_HASH_SIZE; i++) { - if(cnat_user_hash[i].next != ~0) count1++; - } - - PLATFORM_DEBUG_PRINT("user db hash: total %6u, used %u (%.2f%%)\n", - CNAT_USER_HASH_SIZE, count1, - (100.0*count1)/CNAT_USER_HASH_SIZE); - - PLATFORM_DEBUG_PRINT("\nNull pointer exceptions:\n"); - PLATFORM_DEBUG_PRINT("packet_pool: null enq : %10u, null deq : %10u\n",null_enq_pkt, null_deq_pkt); - PLATFORM_DEBUG_PRINT("ctx_pool : null enq : %10u, null deq : %10u\n",null_enq_ctx, null_deq_ctx); - PLATFORM_DEBUG_PRINT("wqe_pool : null enq : %10u, null deq : %10u\n",null_enq_wqe, null_deq_wqe); - - PLATFORM_DEBUG_PRINT("\nReceived Packet Errors on SPI:\n"); - PLATFORM_DEBUG_PRINT("rcv_pkt_errs: %10u\n",rcv_pkt_errs); - - PLATFORM_DEBUG_PRINT("\nctx/sf allocation failure errors: \n"); -#ifndef CGN_PERF_SCALE_DEBUG - PLATFORM_DEBUG_PRINT("Warning: collection of error counts <with timestamp> is disabled.\n"); - PLATFORM_DEBUG_PRINT("sf alloc errors: %10u, ctx alloc errors: %10u\n",sf_alloc_errs,ctx_alloc_errs); -#else - for(i=0;i<COUNTER_BUFFER_SIZE;i++) - PLATFORM_DEBUG_PRINT("<%2d>Timestamp <sec>: %10u, sf errors: %10u, ctx errors: %10u\n",\ - i,err_cnt_arr[i].timestamp,\ - err_cnt_arr[i].sf_error_counter, \ - err_cnt_arr[i].ctx_error_counter); -#endif -} - -void cnat_db_hash_summary (int argc, unsigned long *argv) { - - show_main_db_hash_chain_len(); - - show_user_db_hash_chain_len(); -} - -/* - * cnat_port_alloc - * This function is now deprecated... - * - */ -#ifdef LB_PORT -int cnat_port_alloc (cnat_portmap_t *cnat_portmap, u16 *portmap_inuse, - int cnat_instance, - port_alloc_t atype, port_pair_t ptype, - int *index, u32 *ipv4_address, u16 *base_port) -#else -int cnat_port_alloc (cnat_portmap_t *cnat_portmap, u16 *portmap_inuse, - port_alloc_t atype, port_pair_t ptype, - int *index, u32 *ipv4_address, u16 *base_port) -#endif -{ - - return (0); -} - -/* - * cnat_port_free - * This function is now deprecated... - * - */ -#ifdef LB_PORT -void cnat_port_free (cnat_portmap_t *cnat_portmap, u16 *portmap_inuse, - int instance, int index, port_pair_t ptype, u16 base_port) -#else -void cnat_port_free (cnat_portmap_t *cnat_portmap, u16 *portmap_inuse, - int index, port_pair_t ptype, u16 base_port) -#endif -{ -} - -void spp_api_cnat_port_allocate_t_handler(spp_api_cnat_port_allocate_t *mp) -{ - int i, j, k1, k2; - int pm_index; - u32 ipv4_address; - u16 aport; - int rv; - char *out1, *out2, *out_f; - port_alloc_t pt1, pt2; - cnat_portmap_t *pm = 0; - u16 *pm_inuse = 0; - u32 *firstp =0; - u32 nr_ports =0; - u32 nodd_ports = 0; - u32 neven_ports = 0; -#ifdef LB_PORT - u32 my_instance = 1; -#endif - char out_r[12] = "allocated-r"; - char out_o[12] = "allocated-o"; - char out_e[12] = "allocated-e"; - - - /* - * this command is run after db create portmap - * vrf is hardcode to 1 - */ - - /* Already have a portmap vector for this VRF? */ - for (i = 0; i < vec_len(cnat_portmap_indices_by_vrf); i++) { - if (cnat_portmap_indices_by_vrf[i] == mp->vrf) { - pm = cnat_portmaps[i]; - pm_inuse = cnat_portmaps_inuse[i]; - goto found_portmaps; - } - } - - printf("need to run db create portmaps first 0x%d\n", - vec_len(cnat_portmap_indices_by_vrf)); - return; - -found_portmaps: - nr_ports = mp->nr_ports; - nodd_ports = mp->nodd_ports; - neven_ports = mp->neven_ports; - - if ((nr_ports + nodd_ports + neven_ports ) > (PORTS_PER_ADDR)) { - printf("invalid port# nr_ports %d + odd %d + even %d " - "should be less than 200 \n", nr_ports, nodd_ports, neven_ports); - return; - } - - /* - * first port - */ - firstp = nr_ports ? (&nr_ports) : (nodd_ports ? (&nodd_ports) : (&neven_ports)); - if (!(*firstp)) { - printf("invalid port# nr_ports %d odd %d even %d ", - nr_ports, nodd_ports, neven_ports); - } - out_f = nr_ports ? out_r : (nodd_ports ? out_o : out_e); - -#ifdef LB_PORT - rv = cnat_port_alloc (pm, pm_inuse, my_instance, - PORT_ALLOC_ANY, PORT_S_ODD, - &pm_index, &ipv4_address, &aport); -#else - rv = cnat_port_alloc (pm, pm_inuse, - PORT_ALLOC_ANY, PORT_S_ODD, - &pm_index, &ipv4_address, &aport); -#endif - - if (!rv) { - printf("failed-o\n"); - return; - } - printf("%s %8d %10x %8d\n", out_f, - pm_index, ipv4_address, aport); - - (*firstp)--; - - for (i=0; i < nr_ports; i++) { -#ifdef LB_PORT - rv = cnat_port_alloc (pm, pm_inuse, my_instance, - PORT_ALLOC_DIRECTED, PORT_SINGLE, - &pm_index, &ipv4_address, &aport); -#else - rv = cnat_port_alloc (pm, pm_inuse, - PORT_ALLOC_DIRECTED, PORT_SINGLE, - &pm_index, &ipv4_address, &aport); -#endif - if (rv) { - printf("%s %8d %10x %8d\n", out_r, - pm_index, ipv4_address, aport); - } else { - printf("%s failed\n", out_r); - return; - } - } - - if (nodd_ports > neven_ports) { - k1 = nodd_ports; - k2 = neven_ports; - pt1 = PORT_S_ODD; - pt2 = PORT_S_EVEN; - out1 = out_o; - out2 = out_e; - } else { - k1= neven_ports; - pt1 = PORT_S_EVEN; - k2 = nodd_ports; - pt2 = PORT_S_ODD; - out1 = out_e; - out2 = out_o; - } - - j = 0; - for (i=0; i < k1; i++) { -#ifdef LB_PORT - rv = cnat_port_alloc (pm, pm_inuse, my_instance, - PORT_ALLOC_DIRECTED, pt1, - &pm_index, &ipv4_address, &aport); -#else - rv = cnat_port_alloc (pm, pm_inuse, - PORT_ALLOC_DIRECTED, pt1, - &pm_index, &ipv4_address, &aport); -#endif - if (rv) { - printf("%s %8d %10x %8d\n", out1, - pm_index, ipv4_address, aport); - } else { - printf("%s failed\n", out1); - return; - } - - if (j < k2) { -#ifdef LB_PORT - rv = cnat_port_alloc (pm, pm_inuse, my_instance, - PORT_ALLOC_DIRECTED, pt2, - &pm_index, &ipv4_address, &aport); -#else - rv = cnat_port_alloc (pm, pm_inuse, - PORT_ALLOC_DIRECTED, pt2, - &pm_index, &ipv4_address, &aport); -#endif - - if (rv) { - printf("%s %8d %10x %8d\n", out2, - pm_index, ipv4_address, aport); - j++; - } else { - printf("%s failed\n", __FUNCTION__); - return; - } - } - } -} - -void cnat_db_summary_stats (int argc, unsigned long *argv) -{ - spp_api_cnat_show_statistics_summary_req_t mp[50000]; - - spp_api_cnat_show_statistics_summary_req_t_handler(&(mp[0])); -} - -void cnat_debug_global_test (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_debug_global_t *mp; - spp_api_cnat_v4_config_dummy_t mp1; - spp_api_cnat_v4_config_icmp_timeout_t mp2[10]; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_V4_DEBUG_GLOBAL; - mp->debug_flag = argv[0]; - - platform_send_msg(mp); - - mp2[0].default_value = 3; - - spp_api_cnat_v4_config_dummy_t_handler(&mp1); - spp_api_cnat_v4_config_icmp_timeout_t_handler(&(mp2[0])); -} - -void cnat_debug_inside_test (int argc, unsigned long *argv) -{ - - spp_api_cnat_v4_debug_in2out_private_addr_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_V4_DEBUG_IN2OUT_PRIVATE_ADDR; - - mp->start_addr = spp_host_to_net_byte_order_32(argv[0]); - mp->end_addr = spp_host_to_net_byte_order_32(argv[1]); - mp->i_vrf = spp_host_to_net_byte_order_16(argv[2]); - mp->debug_flag = spp_host_to_net_byte_order_32(argv[3]); - - platform_send_msg(mp); -} - -void cnat_config_ports_user (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_config_port_limit_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_V4_CONFIG_PORT_LIMIT; - - mp->port_limit = spp_host_to_net_byte_order_16(argv[0]); - - platform_send_msg(mp); - -} - -void cnat_debug_outside_test (int argc, unsigned long *argv) -{ - - spp_api_cnat_v4_debug_out2in_public_addr_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_V4_DEBUG_OUT2IN_PUBLIC_ADDR; - - mp->start_addr = spp_host_to_net_byte_order_32(argv[0]); - mp->end_addr = spp_host_to_net_byte_order_32(argv[1]); - mp->o_vrf = spp_host_to_net_byte_order_16(argv[2]); - mp->debug_flag = spp_host_to_net_byte_order_32(argv[3]); - - platform_send_msg(mp); -} - -void cnat_debug_udp_dump (int argc, unsigned long *argv) -{ - - spp_api_cnat_p2mp_debug_request_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_P2MP_DEBUG_REQUEST; - mp->dump_type = - spp_host_to_net_byte_order_16(CNAT_DEBUG_GENERIC_COMMAND_DEBUG_FLAGS); - - if (spp_host_to_net_byte_order_32(argv[0]) == 1) { - mp->param[0] = spp_host_to_net_byte_order_32( - CNAT_DEBUG_FLAG_UDP_INSIDE_PACKET_DUMP); - } else { - mp->param[0] = spp_host_to_net_byte_order_32( - CNAT_DEBUG_FLAG_UDP_OUTSIDE_PACKET_DUMP); - } - mp->param[1] = spp_host_to_net_byte_order_32(argv[1]); - - platform_send_msg(mp); - - - -} - -void cnat_debug_udp_crc (int argc, unsigned long *argv) -{ - spp_api_cnat_p2mp_debug_request_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_P2MP_DEBUG_REQUEST; - mp->dump_type = - spp_host_to_net_byte_order_16(CNAT_DEBUG_GENERIC_COMMAND_DEBUG_FLAGS); - - if (spp_host_to_net_byte_order_32(argv[0]) == 1) { - mp->param[0] = spp_host_to_net_byte_order_32( - CNAT_DEBUG_FLAG_UDP_INSIDE_CHECKSUM_MODIFY); - } else { - mp->param[0] = spp_host_to_net_byte_order_32( - CNAT_DEBUG_FLAG_UDP_OUTSIDE_CHECKSUM_MODIFY); - } - mp->param[1] = spp_host_to_net_byte_order_32(argv[1]); - - platform_send_msg(mp); - -} - -void cnat_db_allocate_port_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_port_allocate_t *mp; - - - if (!argc) { - printf("no port# defined\n"); - return; - } - - if ( argc < 3) { - printf("no port# defined\n"); - return; - } - - if ((argc == 3) && (argv[0] == 0) && (argv[1] == 0) && (argv[2] == 0)) { - printf("no port# defined\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_PORT_ALLOCATE; - mp->nr_ports = argv[0]; - mp->nodd_ports = argv[1]; - mp->neven_ports = argv[2]; - mp->vrf = 1; - - platform_send_msg(mp); -} - - -void spp_api_cnat_port_clear_t_handler(spp_api_cnat_port_clear_t *mp) -{ - u32 i; - cnat_portmap_t *pm = 0; - u16 *pm_inuse = 0; -#ifdef LB_PORT - u32 my_instance = 1; -#endif - - - /* - * this command is run after db create port - * vrf is hardcode to 1 - */ - - /* Already have a portmap vector for this VRF? */ - for (i = 0; i < vec_len(cnat_portmap_indices_by_vrf); i++) { - if (cnat_portmap_indices_by_vrf[i] == mp->vrf) { - pm = cnat_portmaps[i]; - pm_inuse = cnat_portmaps_inuse[i]; - goto found_portmaps; - } - } - - printf("portmap is not created 0x%d\n", - vec_len(cnat_portmap_indices_by_vrf)); - return; - -found_portmaps: - if (mp->pm_index >= vec_len(pm)) { - printf("invalid port_index 0x%d >= 0x%d\n", - mp->pm_index, vec_len(pm)); - return; - } - -#ifdef LB_PORT - cnat_port_free(pm, pm_inuse, my_instance, - mp->pm_index, PORT_SINGLE, mp->port); -#else - cnat_port_free(pm, pm_inuse, - mp->pm_index, PORT_SINGLE, mp->port); -#endif - printf("\n pm_index %d port %d is deleted\n", mp->pm_index, mp->port); -} - - - -void cnat_db_clear_port_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_port_clear_t *mp; - - if (!argc) { - printf("no port# defined\n"); - return; - } - - if ( argc < 2 ) { - printf("no port# defined\n"); - return; - } - - if (argc > 2) { - printf("too many port# defined\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_PORT_CLEAR; - mp->pm_index = argv[0]; - mp->port = argv[1]; - mp->vrf = 1; - - platform_send_msg(mp); -} - - -void spp_api_cnat_v4_add_vrf_map_t_handler -(spp_api_cnat_v4_add_vrf_map_t *mp); - -void spp_api_cnat_v4_del_vrf_map_t_handler -(spp_api_cnat_v4_del_vrf_map_t *mp); - -void spp_api_cnat_v4_add_static_port_t_handler -(spp_api_cnat_v4_add_static_port_t *mp); - -void spp_api_cnat_v4_del_static_port_t_handler -(spp_api_cnat_v4_del_static_port_t *mp); - - -void cnat_db_create_vrfmap_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_add_vrf_map_t *mp; - - if ((argc != 4)) { - printf("need right input\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_ADD_VRF_MAP; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - mp->o_vrf = spp_host_to_net_byte_order_16(argv[1]); - mp->start_addr[0] = spp_host_to_net_byte_order_32(argv[2]); - mp->end_addr[0] = spp_host_to_net_byte_order_32(argv[3]); - - /* - * Some hardcoded values for the vrf ids - */ - mp->i_vrf_id = spp_host_to_net_byte_order_32(0x00000100 | mp->i_vrf); - mp->o_vrf_id = spp_host_to_net_byte_order_32(0x00000200 | mp->o_vrf); - - platform_send_msg(mp); -} - - -void cnat_db_delete_vrfmap_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_del_vrf_map_t *mp; - - if (argc != 4) { - printf("need right input\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_DEL_VRF_MAP; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - mp->start_addr[0] = spp_host_to_net_byte_order_32(argv[2]); - mp->end_addr[0] = spp_host_to_net_byte_order_32(argv[3]); - - platform_send_msg(mp); -} - -void cnat_db_add_svi_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_config_svi_params_t *mp; - - if (argc != 3) { - printf("need right input\n"); - return; - } - - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_CONFIG_SVI_PARAMS; - mp->uidb_index = spp_host_to_net_byte_order_16(argv[1]); - mp->svi_ipv4_addr = spp_host_to_net_byte_order_32(argv[2]); - platform_send_msg(mp); - return; -} - - - -void spp_api_cnat_port_create_t_handler(spp_api_cnat_port_create_t *mp) -{ - int i, j, k1, k2; - int my_index; - u32 ipv4_address; - u16 aport; - u32 pm_len =0; - cnat_errno_t rv; - u16 i_vrf; - char *out1, *out2, *out_f; - port_alloc_t pt1, pt2; - cnat_vrfmap_t *my_vrfmap; - cnat_portmap_v2_t *pm = 0; - u32 *firstp =0; - u32 nr_ports =0; - u32 nodd_ports = 0; - u32 neven_ports = 0; -#ifdef LB_PORT - u32 my_instance = 1; -#endif - char out_r[12] = "allocated-r"; - char out_o[12] = "allocated-o"; - char out_e[12] = "allocated-e"; -#ifndef NO_BULK_LOGGING - int nfv9_log_req; -#endif - - nr_ports = mp->nr_ports; - nodd_ports = mp->nodd_ports; - neven_ports = mp->neven_ports; - i_vrf = mp->vrf; - - /* - * this command is run after db create vrfmap - * or using vrf id in init function - */ - /* Already have a portmap vector for this VRF? */ - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if ((my_vrfmap->status == S_RUN) && - (my_vrfmap->i_vrf == i_vrf)) { - pm = my_vrfmap->portmap_list; - pm_len = vec_len(pm); - if (pm_len) { - goto found_portmaps; - } - } - })); - - printf("need to run db create vrfmaps first for this vrf0x%d\n", pm_len); - return; - -found_portmaps: - - if ((nr_ports + nodd_ports + neven_ports ) > (PORTS_PER_ADDR)) { - printf("invalid port# nr_ports %d + odd %d + even %d " - "should be less than 200 \n", nr_ports, nodd_ports, neven_ports); - return; - } - - /* - * first port - */ - firstp = nr_ports ? (&nr_ports) : (nodd_ports ? (&nodd_ports) : (&neven_ports)); - if (!(*firstp)) { - printf("invalid port# nr_ports %d odd %d even %d ", - nr_ports, nodd_ports, neven_ports); - } - out_f = nr_ports ? out_r : (nodd_ports ? out_o : out_e); - - rv = cnat_dynamic_port_alloc_v2 (pm, PORT_ALLOC_ANY, PORT_S_ODD, - &my_index, &ipv4_address, &aport, - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , 0, - &(my_vrfmap->rseed_ip) - ); - - if (rv != CNAT_SUCCESS) { - printf("failed-o\n"); - return; - } - printf("%s %8d %10x %8d\n", out_f, - my_index, ipv4_address, aport); - - (*firstp)--; - - for (i=0; i < nr_ports; i++) { - rv = cnat_dynamic_port_alloc_v2 (pm, PORT_ALLOC_DIRECTED, PORT_SINGLE, - &my_index, &ipv4_address, &aport, - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , 0, - &(my_vrfmap->rseed_ip) - ); - - if (rv == CNAT_SUCCESS) { - printf("%s %8d %10x %8d\n", out_r, - my_index, ipv4_address, aport); - } else { - printf("%s failed\n", __FUNCTION__); - return; - } - } - - if (nodd_ports > neven_ports) { - k1 = nodd_ports; - k2 = neven_ports; - pt1 = PORT_S_ODD; - pt2 = PORT_S_EVEN; - out1 = out_o; - out2 = out_e; - } else { - k1= neven_ports; - pt1 = PORT_S_EVEN; - k2 = nodd_ports; - pt2 = PORT_S_ODD; - out1 = out_e; - out2 = out_o; - } - - j = 0; - for (i=0; i < k1; i++) { - rv = cnat_dynamic_port_alloc_v2 (pm, PORT_ALLOC_DIRECTED, pt1, - &my_index, &ipv4_address, &aport, - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , 0, - &(my_vrfmap->rseed_ip) - ); - - if (rv == CNAT_SUCCESS) { - printf("%s %8d %10x %8d\n", out1, - my_index, ipv4_address, aport); - } else { - printf("%s failed\n", __FUNCTION__); - return; - } - - if (j < k2) { - rv = cnat_dynamic_port_alloc_v2 (pm, PORT_ALLOC_DIRECTED, pt2, - &my_index, &ipv4_address, &aport, - cnat_static_port_range -#ifndef NO_BULK_LOGGING - , BULKSIZE_FROM_VRFMAP(my_vrfmap), - &nfv9_log_req -#endif - , 0, - &(my_vrfmap->rseed_ip) - ); - - if (rv == CNAT_SUCCESS) { - printf("%s %8d %10x %8d\n", out2, - my_index, ipv4_address, aport); - j++; - } else { - printf("%s failed\n", __FUNCTION__); - return; - return; - } - } - } -} - - -void cnat_db_create_port_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_port_create_t *mp; - - if (argc != 4) { - printf("no proper input defined\n"); - return; - } - - if ((argv[0] == 0) && (argv[1] == 0) && (argv[2] == 0)) { - printf("no port# defined\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_PORT_CREATE; - mp->nr_ports = argv[0]; - mp->nodd_ports = argv[1]; - mp->neven_ports = argv[2]; - mp->vrf = argv[3]; - - platform_send_msg(mp); -} - -void spp_api_cnat_port_delete_t_handler(spp_api_cnat_port_delete_t *mp) -{ - u32 pm_len; - cnat_vrfmap_t *my_vrfmap; - cnat_portmap_v2_t *pm = 0; - - u32 my_index, my_port; - u16 i_vrf; -#ifdef LB_PORT - u32 my_instance = 1; -#endif - - my_index = mp->pm_index; - my_port = mp->port; - i_vrf = mp->vrf; - - /* - * this command is run after db create port - */ - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if (my_vrfmap->i_vrf == i_vrf) { - pm = my_vrfmap->portmap_list; - pm_len = vec_len(pm); - if (pm_len) { - goto found_portmaps; - } - } - })); - - printf("portmap is not created 0x%d\n", - vec_len(cnat_portmap_indices_by_vrf)); - return; - -found_portmaps: - if (my_index >= pm_len) { - printf("invalid port_index 0x%d >= 0x%d\n", - my_index, pm_len); - return; - } - -#ifdef LB_PORT - cnat_port_free_v2(pm, my_instance, - my_index, PORT_SINGLE, mp->port,cnat_static_port_range); -#else - cnat_port_free_v2(pm, my_index, PORT_SINGLE, mp->port,cnat_static_port_range); -#endif - printf("\n pm_index %d port %d is deleted\n", mp->pm_index, mp->port); -} - -void cnat_db_delete_port_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_port_clear_t *mp; - - if (argc != 3) { - printf("no proper input defined\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - - mp->_spp_msg_id = SPP_API_CNAT_PORT_DELETE; - mp->pm_index = argv[0]; - mp->port = argv[1]; - mp->vrf = argv[2]; - platform_send_msg(mp); -} - -void cnat_db_create_static_fwd_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_add_static_port_t *mp; - - if (argc != 4) { - printf("need right input\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_ADD_STATIC_PORT; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - mp->i_ip = spp_host_to_net_byte_order_32(argv[1]); - mp->i_port = spp_host_to_net_byte_order_16(argv[2]); - mp->proto = argv[3]; - - platform_send_msg(mp); - return; -} - -void cnat_db_create_static_fwd_stby_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_add_static_port_t *mp; - - if (argc != 7) { - printf("need right input\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_ADD_STATIC_PORT; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - mp->i_ip = spp_host_to_net_byte_order_32(argv[1]); - mp->i_port = spp_host_to_net_byte_order_16(argv[2]); - mp->proto = argv[3]; - mp->o_vrf_id = spp_host_to_net_byte_order_32(argv[4]); - mp->o_ip = spp_host_to_net_byte_order_32(argv[5]); - mp->o_port = spp_host_to_net_byte_order_16(argv[6]); - -printf("\ni_vrf %d, ip 0x%x, port %d, o_ip, port %d", mp->i_vrf, mp->i_ip, mp->i_port, mp->o_ip, mp->o_port); - - platform_send_msg(mp); - return; -} - -void cnat_db_delete_static_fwd_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_del_static_port_t *mp; - - if (argc != 3) { - printf("need right input\n"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_DEL_STATIC_PORT; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - mp->i_ip = spp_host_to_net_byte_order_32(argv[1]); - mp->i_port = spp_host_to_net_byte_order_16(argv[2]); - - platform_send_msg(mp); - return; -} - -void cnat_nfv9_create_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_config_nfv9_logging_t *mp; - - if (argc < 3) { - printf("nfv9 create i_vrf ip_addr port [refresh_rate] [timeout] [mtu]"); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_CONFIG_NFV9_LOGGING; - mp->enable = 1; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - - mp->ipv4_address = spp_host_to_net_byte_order_32(argv[1]); - mp->port = spp_host_to_net_byte_order_16(argv[2]); - - if (argc > 3) { - mp->refresh_rate = spp_host_to_net_byte_order_16(argv[3]); - mp->timeout_rate = spp_host_to_net_byte_order_16(argv[4]); - mp->path_mtu = spp_host_to_net_byte_order_16(argv[5]); - } else { - mp->refresh_rate = spp_host_to_net_byte_order_16(1000); - mp->timeout_rate = spp_host_to_net_byte_order_16(30); - mp->path_mtu = spp_host_to_net_byte_order_16(1500); - } - platform_send_msg(mp); -} - -void cnat_delete_cgn (int argc, unsigned long *argv) -{ - void *mp_send; - spp_api_cnat_del_cgn_t *mp; - u32 mp_size; - - mp_size = sizeof(spp_api_cnat_del_cgn_t); - - mp = spp_msg_api_alloc(mp_size); - memset(mp, 0, mp_size); - - mp->_spp_msg_id = SPP_API_CNAT_DEL_CGN; - - mp_send = mp; - - platform_send_msg(mp); -} - -void cnat_debug_global_all (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_debug_global_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - mp->_spp_msg_id = SPP_API_CNAT_V4_DEBUG_GLOBAL; - mp->debug_flag = CNAT_DEBUG_GLOBAL_ALL; - - platform_send_msg(mp); -} - -void cnat_debug_global_none (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_debug_global_t *mp; - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - - mp->_spp_msg_id = SPP_API_CNAT_V4_DEBUG_GLOBAL; - mp->debug_flag = CNAT_DEBUG_NONE; - - platform_send_msg(mp); -} - - -void cnat_bulk_cmd (int argc, unsigned long *argv) -{ - void *mp_send; - - if (argc < 1) { - printf("\nargc = %d", argc); - printf("\n1. bulk cmd [0=static-port, 1=bulk_vrf, 2=policy_knob]"); - return; - } - - - switch (argv[0]) { - case 0: - { - spp_api_cnat_v4_bulk_add_delete_static_port_t *mp; - spp_api_cnat_v4_add_static_port_t *mp_sp; - u32 mp_size = - sizeof(spp_api_cnat_v4_bulk_add_delete_static_port_t) + - (sizeof(spp_api_cnat_v4_add_static_port_t))*2; - - mp = spp_msg_api_alloc(mp_size); - memset(mp, 0, mp_size); - - mp->_spp_msg_id = SPP_API_CNAT_V4_BULK_ADD_DELETE_STATIC_PORT; - - mp->num_static_port_entries = spp_host_to_net_byte_order_32(3); - - mp_sp = (spp_api_cnat_v4_add_static_port_t *) &(mp->pad2); - - mp_sp->_spp_msg_id = spp_host_to_net_byte_order_16( - SPP_API_CNAT_V4_ADD_STATIC_PORT); - mp_sp->proto = 2; - mp_sp->i_vrf = spp_host_to_net_byte_order_16(0x1); - mp_sp->i_ip = spp_host_to_net_byte_order_32(0x11111111); - mp_sp->i_port = spp_host_to_net_byte_order_16(0x7777); - - mp_sp++; - - - mp_sp->_spp_msg_id = spp_host_to_net_byte_order_16( - SPP_API_CNAT_V4_ADD_STATIC_PORT); - mp_sp->proto = 1; - mp_sp->i_vrf = spp_host_to_net_byte_order_16(0x1); - mp_sp->i_ip = spp_host_to_net_byte_order_32(0x22222222); - mp_sp->i_port = spp_host_to_net_byte_order_16(0x6666); - - mp_sp++; - - - mp_sp->_spp_msg_id = spp_host_to_net_byte_order_16( - SPP_API_CNAT_V4_ADD_STATIC_PORT); - mp_sp->proto = 1; - mp_sp->i_vrf = spp_host_to_net_byte_order_16(0x1); - mp_sp->i_ip = spp_host_to_net_byte_order_32(0x33333333); - mp_sp->i_port = spp_host_to_net_byte_order_16(0x5555); - - mp_send = mp; - - } - break; - - case 1: - { - spp_api_cnat_v4_bulk_vrf_map_t *mp; - spp_api_cnat_v4_single_vrf_map_req *mp_sp; - - u32 mp_size = sizeof(spp_api_cnat_v4_bulk_vrf_map_t) + - (sizeof(spp_api_cnat_v4_single_vrf_map_req))*2; - - mp = spp_msg_api_alloc(mp_size); - memset(mp, 0, mp_size); - - mp->_spp_msg_id = SPP_API_CNAT_V4_BULK_VRF_MAP; - - mp->num_vrfmap_entries = spp_host_to_net_byte_order_32(3); - - mp_sp = (spp_api_cnat_v4_single_vrf_map_req *) - &(mp->vrf_policy_enable); - - mp_sp->i_vrf_id = spp_host_to_net_byte_order_32(0xe0000001); - mp_sp->o_vrf_id = spp_host_to_net_byte_order_32(0xe0000000); - mp_sp->i_vrf = spp_host_to_net_byte_order_16(0x1); - mp_sp->o_vrf = spp_host_to_net_byte_order_16(0x0); - mp_sp->start_addr = spp_host_to_net_byte_order_32(0x11111100); - mp_sp->end_addr = spp_host_to_net_byte_order_32(0x111111ff); - mp_sp->vrf_policy_enable = spp_host_to_net_byte_order_16(0x3); - mp_sp->tcp_mss_value = spp_host_to_net_byte_order_16(0x111); - mp_sp->vrf_nfv9_logging_ipv4_address = spp_host_to_net_byte_order_32(0x11000001); - mp_sp->vrf_nfv9_logging_udp_port = spp_host_to_net_byte_order_16(0x1001); - mp_sp->vrf_nfv9_refresh_rate = spp_host_to_net_byte_order_16(0x100); - mp_sp->vrf_nfv9_timeout_rate = spp_host_to_net_byte_order_16(0x10); - mp_sp->vrf_nfv9_path_mtu = spp_host_to_net_byte_order_16(0x100); - - mp_sp++; - - mp_sp->i_vrf_id = spp_host_to_net_byte_order_32(0xe0000002); - mp_sp->o_vrf_id = spp_host_to_net_byte_order_32(0xe0000000); - mp_sp->i_vrf = spp_host_to_net_byte_order_16(0x2); - mp_sp->o_vrf = spp_host_to_net_byte_order_16(0x0); - mp_sp->start_addr = spp_host_to_net_byte_order_32(0x22220000); - mp_sp->end_addr = spp_host_to_net_byte_order_32(0x2222ffff); - mp_sp->vrf_policy_enable = spp_host_to_net_byte_order_16(0x1); - mp_sp->tcp_mss_value = spp_host_to_net_byte_order_16(0x222); - mp_sp->vrf_nfv9_logging_ipv4_address = spp_host_to_net_byte_order_32(0x22000002); - mp_sp->vrf_nfv9_logging_udp_port = spp_host_to_net_byte_order_16(0x2002); - mp_sp->vrf_nfv9_refresh_rate = spp_host_to_net_byte_order_16(0x200); - mp_sp->vrf_nfv9_timeout_rate = spp_host_to_net_byte_order_16(0x20); - mp_sp->vrf_nfv9_path_mtu = spp_host_to_net_byte_order_16(0x200); - - mp_sp++; - - mp_sp->i_vrf_id = spp_host_to_net_byte_order_32(0xe0000003); - mp_sp->o_vrf_id = spp_host_to_net_byte_order_32(0xe0000007); - mp_sp->i_vrf = spp_host_to_net_byte_order_16(0x3); - mp_sp->o_vrf = spp_host_to_net_byte_order_16(0x7); - mp_sp->start_addr = spp_host_to_net_byte_order_32(0x33333000); - mp_sp->end_addr = spp_host_to_net_byte_order_32(0x33333fff); - mp_sp->vrf_policy_enable = spp_host_to_net_byte_order_16(0x1); - mp_sp->tcp_mss_value = spp_host_to_net_byte_order_16(0x333); - mp_sp->vrf_nfv9_logging_ipv4_address = spp_host_to_net_byte_order_32(0x33000003); - mp_sp->vrf_nfv9_logging_udp_port = spp_host_to_net_byte_order_16(0x3003); - mp_sp->vrf_nfv9_refresh_rate = spp_host_to_net_byte_order_16(0x300); - mp_sp->vrf_nfv9_timeout_rate = spp_host_to_net_byte_order_16(0x30); - mp_sp->vrf_nfv9_path_mtu = spp_host_to_net_byte_order_16(0x300); - - mp_send = mp; - } - break; - - case 2: - { - spp_api_cnat_v4_bulk_policy_knob_t *mp; - - u32 mp_size = - sizeof(spp_api_cnat_v4_bulk_policy_knob_t) + - (sizeof(spp_api_cnat_v4_single_vrf_map_req))*2; - - mp = spp_msg_api_alloc(mp_size); - memset(mp, 0, mp_size); - - mp->_spp_msg_id = SPP_API_CNAT_V4_BULK_POLICY_KNOB; - - mp->port_limit = spp_host_to_net_byte_order_16(345); - mp->icmp_timeout = spp_host_to_net_byte_order_16(300); - mp->udp_init_timeout = spp_host_to_net_byte_order_16(175); - mp->udp_act_timeout = spp_host_to_net_byte_order_16(133); - mp->tcp_init_timeout = spp_host_to_net_byte_order_16(222); - mp->tcp_act_timeout = spp_host_to_net_byte_order_16(2345); - - mp->nat_policy_enable = spp_host_to_net_byte_order_32(0x7); - - mp->global_nfv9_logging_ipv4_address = spp_host_to_net_byte_order_32(0x77777777); - mp->global_nfv9_logging_udp_port = spp_host_to_net_byte_order_16(0x7007); - mp->global_nfv9_refresh_rate = spp_host_to_net_byte_order_16(0x700); - mp->global_nfv9_timeout_rate = spp_host_to_net_byte_order_16(0x70); - mp->global_nfv9_path_mtu = spp_host_to_net_byte_order_16(0x700); - - mp_send = mp; - } - break; - - - default: - printf("\nargv[2] = %d", argv[2]); - printf("\n2. bulk cmd [0=static-port, 1=bulk_vrf, 2=policy_knob+bulk_vrf]"); - return; - - } - platform_send_msg(mp_send); -} - -void cnat_nfv9_delete_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_v4_config_nfv9_logging_t *mp; - - if (argc != 1) { - printf("nfv9 delete i_vrf "); - return; - } - - mp = spp_msg_api_alloc (sizeof (*mp)); - memset(mp, 0, sizeof (*mp)); - mp->_spp_msg_id = SPP_API_CNAT_V4_CONFIG_NFV9_LOGGING; - mp->enable = 0; - mp->i_vrf = spp_host_to_net_byte_order_16(argv[0]); - platform_send_msg(mp); -} - -void cnat_generic_cmd (int argc, unsigned long *argv) -{ - spp_api_cnat_generic_command_request_t *mp; - - if (argc != 9) { - printf("generic command core type p1 p2 p3 p4 p5 p6 p7 "); - return; - } - - /* - * Allocate a large buffer for message req and resp structure - */ - mp = spp_msg_api_alloc (MAX_DEBUG_BUFFER_SIZE); - memset(mp, 0, MAX_DEBUG_BUFFER_SIZE); - mp->_spp_msg_id = SPP_API_CNAT_GENERIC_COMMAND_REQUEST; - mp->core_num = argv[0]; - mp->params[0] = spp_host_to_net_byte_order_32(argv[1]); - mp->params[1] = spp_host_to_net_byte_order_32(argv[2]); - mp->params[2] = spp_host_to_net_byte_order_32(argv[3]); - mp->params[3] = spp_host_to_net_byte_order_32(argv[4]); - mp->params[4] = spp_host_to_net_byte_order_32(argv[5]); - mp->params[5] = spp_host_to_net_byte_order_32(argv[6]); - mp->params[6] = spp_host_to_net_byte_order_32(argv[7]); - mp->params[7] = spp_host_to_net_byte_order_32(argv[8]); - platform_send_msg(mp); -} - -u32 icmp_sent_timestamps; /* 32 KB array per core */ -u8 v4_pkt_count = 0; - -cnat_icmp_msg_t icmp_msg_gen_allowed () -{ -#ifdef DISABLE_ICMP_THROTTLE_FOR_DEBUG_PURPOSE - return CNAT_ICMP_MSG; -#else - u32 current_timestamp; - spp_node_main_vector_t *nmv; - u32 updated_timestamp; - - v4_pkt_count ++; - - nmv = spp_get_node_main_vectorized_inline(); - - current_timestamp = nmv->ticks / nmv->ticks_per_second; - - PLATFORM_UPDATE_TIMESTAMP - if (PREDICT_FALSE(icmp_sent_timestamps != updated_timestamp)) { - v4_pkt_count = 1; - /* update timestamp */ - icmp_sent_timestamps = updated_timestamp; - } - if (PREDICT_TRUE(v4_pkt_count <= cnat_main_db_icmp_rate_limit_core)) { - return CNAT_ICMP_MSG; - } else { - return CNAT_NO_ICMP_MSG; - } -#endif -} - -u32 v6_icmp_sent_timestamps; /* 32 KB array per core */ -u8 v6_pkt_count = 0; - -cnat_icmp_msg_t v6_icmp_msg_gen_allowed () -{ -#ifdef DISABLE_ICMP_THROTTLE_FOR_DEBUG_PURPOSE - return CNAT_ICMP_MSG; -#else - u32 current_timestamp; - spp_node_main_vector_t *nmv; - u32 updated_timestamp; - - nmv = spp_get_node_main_vectorized_inline(); - - current_timestamp = nmv->ticks / nmv->ticks_per_second; - PLATFORM_UPDATE_TIMESTAMP - v6_pkt_count ++; - - if (PREDICT_FALSE(v6_icmp_sent_timestamps != updated_timestamp)) { - v6_pkt_count = 1; - /* update timestamp */ - v6_icmp_sent_timestamps = updated_timestamp; - } - if (PREDICT_TRUE(v6_pkt_count <= cnat_main_db_icmp_rate_limit_core)) { - return CNAT_ICMP_MSG; - } else { - return CNAT_NO_ICMP_MSG; - } -#endif -} - -u32 v4_udp_crc_zero_timestamps; -u32 v4_udp_crc_zero_pkt_count = 0; -int v4_crc_zero_udp_allowed () -{ - PLATFORM_V4_CRC_ZERO_UDP_ALLOWED - /* Currently not supported for Brahmos. we need to take care of this */ - spp_node_main_vector_t *nmv; - u32 hash_value, current_timestamp; - - nmv = spp_get_node_main_vectorized_inline(); - - current_timestamp = nmv->ticks / nmv->ticks_per_second; - v4_udp_crc_zero_pkt_count++; - if (PREDICT_FALSE(v4_udp_crc_zero_timestamps != current_timestamp)) { - v4_udp_crc_zero_pkt_count = 1; - v4_udp_crc_zero_timestamps = current_timestamp; - } - if (PREDICT_TRUE(v4_udp_crc_zero_pkt_count <= - crc_zero_udp_rate_limit_core)) { - return 1; - } else { - return 0; - } -} - -/* - * ipv4_decr_ttl_n_calc_csum() - * - It decrements the TTL and calculates the incremental IPv4 checksum - */ - -ALWAYS_INLINE( -void ipv4_decr_ttl_n_calc_csum(ipv4_header *ipv4)) -{ - u32 checksum; - u16 old; - - old = ntohs(*(u16 *)&ipv4->ttl); - - /* Decrement TTL */ - ipv4->ttl--; - - /* Calculate incremental checksum */ - checksum = old + (~ntohs(*(u16 *)&ipv4->ttl) & 0xFFFF); - checksum += ntohs(ipv4->checksum); - checksum = (checksum & 0xFFFF) + (checksum >> 16); - ipv4->checksum = htons(checksum + (checksum >> 16)); -} - -ALWAYS_INLINE( -void calc_ipv4_checksum (ipv4_header *ipv4)) -{ - u16 *data = (u16 *) ipv4; - u32 checksum = 0; - - checksum = crc_calc(ipv4); - - /* Now produce the 1's complement */ - ipv4->checksum = spp_host_to_net_byte_order_16(((u16) (~(u16)checksum))); -} - -ALWAYS_INLINE( -void calc_v4_icmp_checksum (icmp_v4_t *icmp, int ipv4_payload_size)) -{ - u16 *data = (u16 *) icmp; - int num_hwords = (ipv4_payload_size)/2; - u32 checksum = 0; - - icmp->checksum = 0; - if (PREDICT_FALSE((ipv4_payload_size%2) != 0)) { - num_hwords += 1; - /* Append 0's in the last octet */ - *((u8 *)data + ipv4_payload_size) = 0; - } - while (num_hwords) { - checksum += (u32)spp_net_to_host_byte_order_16(data++); - num_hwords--; - } - - /* Add in the carry of the original sum */ - checksum = (checksum & 0xFFFF) + (checksum >> 16); - /* Add in the carry of the final sum */ - checksum = (checksum & 0xFFFF) + (checksum >> 16); - /* Now produce the 1's complement */ - icmp->checksum = spp_host_to_net_byte_order_16(((u16) (~(u16)checksum))); -} - -ALWAYS_INLINE( -void calc_v6_icmp_checksum (ipv6_header_t *ipv6, u16 ip_payload_size)) -{ - u16 *data; - u16 *data1; - int i; - icmp_v6_t *icmp; - int num_hwords = (ip_payload_size)/2; - u32 checksum = 0; - pseudo_v6_header_t pseudo_header; - - icmp = (icmp_v6_t *) ((u8 *)ipv6 + IPV6_HDR_LEN); - data = (u16 *) icmp; - icmp->checksum = 0; - -#if 1 - if (PREDICT_FALSE((ip_payload_size%2) != 0)) { - num_hwords += 1; - /* Append 0's in the last octet */ - *((u8 *)data + ip_payload_size) = 0; - } -#endif - - /* construct the pseudo header */ - - pseudo_header.src_addr[0] = ipv6->src_addr[0]; - pseudo_header.src_addr[1] = ipv6->src_addr[1]; - pseudo_header.src_addr[2] = ipv6->src_addr[2]; - pseudo_header.src_addr[3] = ipv6->src_addr[3]; - pseudo_header.dst_addr[0] = ipv6->dst_addr[0]; - pseudo_header.dst_addr[1] = ipv6->dst_addr[1]; - pseudo_header.dst_addr[2] = ipv6->dst_addr[2]; - pseudo_header.dst_addr[3] = ipv6->dst_addr[3]; - pseudo_header.payload_length = spp_host_to_net_byte_order_16(ip_payload_size); - pseudo_header.next_header = spp_host_to_net_byte_order_16(ipv6->next_header); - - data1 = (u16 *) &pseudo_header; - - /* sizeof(pseudo_v6_header_t) = 36 */ - for (i = 0; i < 18; i++) { - checksum += (u32)spp_net_to_host_byte_order_16(data1++); - } - -checksum_calc: - - if (PREDICT_TRUE(num_hwords)) { - checksum += (u32)spp_net_to_host_byte_order_16(data); - num_hwords--; - data++; - goto checksum_calc; - } - - /* Add in the carry of the original sum */ - checksum = (checksum & 0xFFFF) + (checksum >> 16); - /* Add in the carry of the final sum */ - checksum = (checksum & 0xFFFF) + (checksum >> 16); - /* Now produce the 1's complement */ - icmp->checksum = spp_host_to_net_byte_order_16(((u16) (~(u16)checksum))); -} - -void icmp_error_generate_v6 (spp_ctx_t *ctx, u8 icmp_type, - u8 icmp_code, u16 uidb_index) { - - u16 ip_hdr_len, ip_payload_size; - u32 *src_p, * dst_p; - icmp_v6_t *icmp; - int i; - ipv6_header_t *ip_old, *ip_new; - u16 icmp_payload_len; - - /* - * As per RFC 2463, we limit the maximum size of generated ICMPv6 message to * 1280. And hence if the packet is bigger than 1280, then it needs to be - * truncated. Also, if the packet had multiple chained buffers, we need to - * free all chained buffers, except the first one. - */ - free_all_but_first_chained_buffers(ctx); - - ip_hdr_len = IPV6_HDR_LEN; - /* offset to ip payload */ - - ip_old = (ipv6_header_t *)PLATFORM_CTX_CURRENT_HDR; - ip_new = (ipv6_header_t *) ((u8 *) PLATFORM_CTX_CURRENT_HDR - ICMPV6_ERR_SIZE); - icmp = (icmp_v6_t*) ( (u8*)ip_new + ip_hdr_len); - - icmp_payload_len = ip_hdr_len + - spp_net_to_host_byte_order_16(&(ip_old->payload_length)) ; - - ip_payload_size = ICMPV6_HDR_SIZE + icmp_payload_len; - /* - * There is no easy way to predict this case as the probablity that the IPv6 - * pkt is big depends on the type of traffic. Let us optimize the big - * pkt case as it involves more processing - * - * If the pkt size exceeds IPV6_MIN_PATH_MTU truncate it to IPV6_MIN_PATH_MTU - */ - if (PREDICT_TRUE((ip_payload_size + ip_hdr_len) > IPV6_MIN_PATH_MTU)) { - ip_payload_size = IPV6_MIN_PATH_MTU - ip_hdr_len; - } - - /* Following ICMP op has to be after ip header being copied */ - icmp->type = icmp_type; - icmp->code = icmp_code; - - ip_new->version_trafficclass_flowlabel = spp_host_to_net_byte_order_32( - VERSION_TRAFFICCLASS_FLOWLABEL); - ip_new->payload_length = spp_host_to_net_byte_order_16(ip_payload_size); - ip_new->next_header = IPV6_PROTO_ICMPV6; - ip_new->hop_limit = 64; - ip_new->dst_addr[0] = ip_old->src_addr[0]; - ip_new->dst_addr[1] = ip_old->src_addr[1]; - ip_new->dst_addr[2] = ip_old->src_addr[2]; - ip_new->dst_addr[3] = ip_old->src_addr[3]; - - ip_new->src_addr[0] = - spp_host_to_net_byte_order_32(svi_params_array[uidb_index].ipv6_addr[0]); - ip_new->src_addr[1] = - spp_host_to_net_byte_order_32(svi_params_array[uidb_index].ipv6_addr[1]); - ip_new->src_addr[2] = - spp_host_to_net_byte_order_32(svi_params_array[uidb_index].ipv6_addr[2]); - ip_new->src_addr[3] = - spp_host_to_net_byte_order_32(svi_params_array[uidb_index].ipv6_addr[3]); - /* calc checksum for icmp */ - - calc_v6_icmp_checksum(ip_new, ip_payload_size); -#if 0 - printf("Flow = 0x%x\n", ip_new->version_trafficclass_flowlabel); - printf("Hoplimit = 0x%x\n", ip_new->hop_limit); - printf("Length= 0x%x\n", ip_new->payload_length); - printf("Next header = 0x%x\n", ip_new->next_header); - printf("Src add0 = 0x%x\n", ip_new->src_addr[0]); - printf("Src add1 = 0x%x\n", ip_new->src_addr[1]); - printf("Src add2 = 0x%x\n", ip_new->src_addr[2]); - printf("Src add3 = 0x%x\n", ip_new->src_addr[3]); - printf("Dst add0 = 0x%x\n", ip_new->dst_addr[0]); - printf("Dst add1 = 0x%x\n", ip_new->dst_addr[1]); - printf("Dst add2 = 0x%x\n", ip_new->dst_addr[2]); - printf("Dst add3 = 0x%x\n", ip_new->dst_addr[3]); - printf("Icmp type = 0x%x\n", icmp->type); - printf("Icmp code = 0x%x\n", icmp->code); - - printf("\n\nICMP packet:\n"); - for (i = 0; i < 10; i ++) { - printf("0x%x " , *((u8 *)icmp + i)); - if ((i%16) == 15) { - printf("\n"); - } - } -#endif - - ctx->current_header -= ICMPV6_ERR_SIZE; - ctx->current_length = ip_payload_size + ip_hdr_len; - PLATFORM_CNAT_SET_TX_VRF(ctx,uidb_index); -} - -void icmp_error_generate_v2 (ipv4_header *ip, u8 icmp_type, - u8 icmp_code, u16 mtu, u32 src_ip) -{ - - u16 ip_hdr_len, ip_payload_size; - u32 *src_p, * dst_p; - icmp_v4_t *icmp; - - ip_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; /* offset to ip payload */ - icmp = (icmp_v4_t*) ( (u8*)ip + ip_hdr_len); - ip_payload_size = sizeof(icmp_v4_t) + ip_hdr_len + - ICMP_UNREACHABLE_IP_PAYLOAD_SIZE; - - src_p = (u32*) - ((u8*)ip + ip_hdr_len + ICMP_UNREACHABLE_IP_PAYLOAD_SIZE - 4); - dst_p = (u32*) ((u8*)src_p + sizeof(ipv4_header) + - sizeof(icmp_v4_t)); - - while(src_p >= (u32*)ip) *dst_p-- = *src_p--; - - /* Following ICMP op has to be after ip header being copied */ - icmp->type = icmp_type; - icmp->code = icmp_code; - icmp->identifier = 0; - icmp->sequence = 0; - if(PREDICT_FALSE(mtu != 0)) { - icmp->sequence = spp_host_to_net_byte_order_16(mtu); - } - - - /* build icmp header, keep original tos, identification values */ - ip->version_hdr_len_words = 0x45; - ip->total_len_bytes = sizeof(ipv4_header) + ip_payload_size; - ip->total_len_bytes = spp_host_to_net_byte_order_16(ip->total_len_bytes); - ip->frag_flags_offset = 0; - ip->ttl = 64; - ip->protocol = ICMP_PROT; - ip->checksum = 0; - ip->dest_addr = ip->src_addr; - ip->src_addr = spp_host_to_net_byte_order_32(src_ip); - - /* calc checksum for ip and icmp */ - - calc_ipv4_checksum(ip); - calc_v4_icmp_checksum( (icmp_v4_t *) ((u8*) ip + sizeof(ipv4_header)), - ip_payload_size); -} - -void icmp_error_generate (ipv4_header *ip, u8 icmp_type, - u8 icmp_code, u16 uidb_index) { - - u16 ip_hdr_len, ip_payload_size; - u32 *src_p, * dst_p; - icmp_v4_t *icmp; - - ip_hdr_len = (ip->version_hdr_len_words & 0xf) << 2; /* offset to ip payload */ - icmp = (icmp_v4_t*) ( (u8*)ip + ip_hdr_len); - ip_payload_size = sizeof(icmp_v4_t) + ip_hdr_len + - ICMP_UNREACHABLE_IP_PAYLOAD_SIZE; - - src_p = (u32*) - ((u8*)ip + ip_hdr_len + ICMP_UNREACHABLE_IP_PAYLOAD_SIZE - 4); - dst_p = (u32*) ((u8*)src_p + sizeof(ipv4_header) + - sizeof(icmp_v4_t)); - - while(src_p >= (u32*)ip) *dst_p-- = *src_p--; - - /* Following ICMP op has to be after ip header being copied */ - icmp->type = icmp_type; - icmp->code = icmp_code; - icmp->identifier = 0; - icmp->sequence = 0; - - - /* build icmp header, keep original tos, identification values */ - ip->version_hdr_len_words = 0x45; - ip->total_len_bytes = sizeof(ipv4_header) + ip_payload_size; - ip->total_len_bytes = spp_host_to_net_byte_order_16(ip->total_len_bytes); - ip->frag_flags_offset = 0; - ip->ttl = 64; - ip->protocol = ICMP_PROT; - ip->checksum = 0; - ip->dest_addr = ip->src_addr; - - ip->src_addr = spp_host_to_net_byte_order_32(svi_params_array[uidb_index].ipv4_addr); - - /* calc checksum for ip and icmp */ - - calc_ipv4_checksum(ip); - calc_v4_icmp_checksum( (icmp_v4_t *) ((u8*) ip + sizeof(ipv4_header)), - ip_payload_size); -#if 0 - printf("version_hdr_len_words = 0x%x\n", ip->version_hdr_len_words); - printf("total_len_bytes = 0x%x\n", ip->total_len_bytes); - printf("Frag = 0x%x\n", ip->frag_flags_offset); - printf("ttl = 0x%x\n", ip->ttl); - printf("Protocol = 0x%x\n", ip->protocol); - printf("checksum = 0x%x\n", ip->checksum); - printf("Dest addr = 0x%x\n", ip->dest_addr); - printf("Src addr = 0x%x\n", ip->src_addr); - printf("Icmp type = 0x%x\n", icmp->type); - printf("Icmp code = 0x%x\n", icmp->code); -#endif - -} - -int icmpv4_generate_with_throttling_v2 (spp_ctx_t *ctx, ipv4_header *ipv4, - int icmp_type, int icmp_code, - u16 mtu, u32 src_ip) -{ - u16 ip_hdr_len; - icmp_v4_t *icmp; - u16 rx_uidb_index = ctx->ru.rx.uidb_index; - if (icmp_msg_gen_allowed()) { - free_all_but_first_chained_buffers(ctx); - icmp_error_generate_v2(ipv4, icmp_type, icmp_code, mtu, src_ip); - ctx->current_length = (u16) - ((u8*)ctx->current_header - ctx->packet_data) + - spp_net_to_host_byte_order_16(&ipv4->total_len_bytes); - PLATFORM_CNAT_SET_TX_VRF(ctx,rx_uidb_index); - return 1; - } else { - return 0; - } -} - -int icmpv4_generate_with_throttling (spp_ctx_t *ctx, ipv4_header *ipv4, - u16 rx_uidb_index) -{ - int icmp_type; - int icmp_code; - - if (icmp_msg_gen_allowed()) { - /* ICMP error would be small, so one buffer is enough. Clear the other */ - free_all_but_first_chained_buffers(ctx); - - icmp_type = ICMPV4_TIMEEXCEEDED; - icmp_code = ICMPV4_TIMTTL; - icmp_error_generate(ipv4, icmp_type, icmp_code, rx_uidb_index); - ctx->current_length = (u16) - ((u8*)ctx->current_header - ctx->packet_data) + - spp_net_to_host_byte_order_16(&ipv4->total_len_bytes); - PLATFORM_CNAT_SET_TX_VRF(ctx,rx_uidb_index); - return 1; - } else { - return 0; - } -} - -int icmpv4_generate_with_throttling_v1 (spp_ctx_t *ctx, ipv4_header *ipv4, - u16 rx_uidb_index, u32 type, u32 code) -{ - if (icmp_msg_gen_allowed()) { - /* ICMP error would be small, so one buffer is enough. Clear the other */ - free_all_but_first_chained_buffers(ctx); - - icmp_error_generate(ipv4, type, code, rx_uidb_index); - ctx->current_length = (u16) - ((u8*)ctx->current_header - ctx->packet_data) + - spp_net_to_host_byte_order_16(&ipv4->total_len_bytes); - PLATFORM_CNAT_SET_TX_VRF(ctx,rx_uidb_index); - return 1; - } else { - return 0; - } -} - - -int icmpv6_generate_with_throttling (spp_ctx_t *ctx, ipv6_header_t *ipv6, - u16 rx_uidb_index) -{ - int icmp_type; - int icmp_code; - - if (v6_icmp_msg_gen_allowed()) { - icmp_type = ICMPV6_TIMEEXCEEDED; - icmp_code = ICMPV6_TIMTTL; - icmp_error_generate_v6(ctx, icmp_type, icmp_code, rx_uidb_index); - return 1; - } else { - return 0; - } -} - -int icmpv6_generate_with_throttling_v1 (spp_ctx_t *ctx, ipv6_header_t *ipv6, - u16 rx_uidb_index, u32 type, u32 code) -{ - - if (v6_icmp_msg_gen_allowed()) { - icmp_error_generate_v6(ctx, type, code, rx_uidb_index); - return 1; - } else { - return 0; - } -} -#endif - -void calculate_window_scale(tcp_hdr_type *tcp_header, u8 *scale) { - - u8 check_options = 0; - - *scale = 0; - check_options = ((tcp_header->flags & TCP_FLAG_SYN) && - (((tcp_header->hdr_len>>4) << 2) > sizeof(tcp_hdr_type))); - - if (PREDICT_FALSE(check_options)) { - u8 *options_ptr = tcp_findoption(tcp_header, TCP_OPTION_WINDOW_SCALE); - - /* - * TCP option field: | kind 1B | len 1B | value 2B| - * where kind != [0, 1] - */ - if (PREDICT_TRUE(options_ptr && - (options_ptr[1] == TCP_OPTION_WINDOW_SCALE))) { - u8 *ptr = (u8*)(options_ptr + 2); - *scale = *ptr; - - if(PREDICT_FALSE(*scale >= 14)) { - *scale = 14; - } - - return; - } - } -} - -#if 0 -ALWAYS_INLINE( -void cnat_log_nat44_tcp_seq_mismatch( - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap)) -{ - /* As of now, Netflow does not require this to be logged - * So only syslog - */ - if(PREDICT_TRUE(db->flags & CNAT_TAC_SEQ_MISMATCH)) { - /* Already logged ..*/ - return; - } - /* else, set the flag and call the log API */ - - db->flags = db->flags | CNAT_TAC_SEQ_MISMATCH; - - cnat_syslog_nat44_tcp_seq_mismatch(db, vrfmap); -} - - -static int cnat_util_init (void *notused) -{ - /* run SPP_API_CNAT_PORTMAP_CREATE first*/ - spp_msg_api_set_handler(SPP_API_CNAT_PORT_ALLOCATE, - spp_api_cnat_port_allocate_t_handler); - - - spp_msg_api_set_handler(SPP_API_CNAT_PORT_CLEAR, - spp_api_cnat_port_clear_t_handler); - - /* run vrfmap config first */ - spp_msg_api_set_handler(SPP_API_CNAT_PORT_CREATE, - spp_api_cnat_port_create_t_handler); - - spp_msg_api_set_handler(SPP_API_CNAT_PORT_DELETE, - spp_api_cnat_port_delete_t_handler); - return 0; -} - -void -print_ipv6_pkt (ipv6_header_t *ip) -{ - u32 i, total_len, l4_len=0; - - u8 *pkt = (u8 *) ip; - - total_len = spp_net_to_host_byte_order_16(&ip->payload_length); - - /* we rarely need to debug > 200 bytes of packet */ - if(total_len > 200) { - total_len = 200; - } - - printf("\n======== PRINTING PKT START======\n"); - printf("======== IPv6 PAYLOAD LEN %d ===========\n", total_len); - for (i=0; i < 40; i++) { - printf(" %02X ", *(pkt + i)); - if(i%16==15) - printf("\n"); - } - - if (ip->next_header == IPV6_PROTO_TCP) { - printf("\n======== TCP HEADER =================\n"); - l4_len = 20; - } - else if (ip->next_header == IPV6_PROTO_UDP) { - printf("\n======== UDP HEADER =================\n"); - l4_len = 8; - } - else if (ip->next_header == IPV6_PROTO_ICMPV6) { - printf("\n======== ICMP HEADER =================\n"); - l4_len = 8; - } - - for (i=40; i < (l4_len + 40); i++) { - printf(" %02X ", *(pkt + i)); - } - - printf("\n======== LAYER4 PAYLOAD ===================\n"); - for (i=(l4_len + 40); i < total_len; i++) { - printf(" %02X ", *(pkt + i)); - if(i%16==15) - printf("\n"); - } - - printf("\n======== PRINTING PKT END =======\n"); -} - - - -PLATFORM_SPP_INIT_FUNCTION(cnat_util_init); -#endif diff --git a/plugins/vcgn-plugin/vcgn/cnat_v4_ftp_alg.h b/plugins/vcgn-plugin/vcgn/cnat_v4_ftp_alg.h deleted file mode 100644 index df3dfcb0797..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_v4_ftp_alg.h +++ /dev/null @@ -1,133 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_v4_ftp_alg.h - * - * Copyright (c) 2012-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_V4_FTP_ALG_H__ -#define __CNAT_V4_FTP_ALG_H__ - - -#include <vlib/vlib.h> -#include <vnet/vnet.h> - -#include "tcp_header_definitions.h" -#include "dslite_defs.h" -#include "dslite_db.h" - -/* shorter form of byte order functions */ - -#define net2host16(x) clib_net_to_host_u16( x) -#define net2host32(x) clib_net_to_host_u32( x) -#define net2host64(x) clib_net_to_host_u64( x) -#define host2net16(x) clib_host_to_net_u16(x) -#define host2net32(x) clib_host_to_net_u32(x) -#define host2net64(x) clib_host_to_net_u64(x) - -//#define BIGENDIAN - -typedef struct iphdrtype_ { - u8 v_ihl; /* version and IP header length */ - u8 tos; /* type of service */ - u16 tl; /* total length */ - u16 id; /* identifier */ - u16 ipreserved: 1; - u16 dontfragment: 1; - u16 morefragments: 1; - u16 fo: 13; /* fragment offset */ - u8 ttl; /* time to live */ - u8 prot; /* protocol type */ - u16 checksum; /* checksum */ - u32 srcadr; /* IP source address */ - u32 dstadr; /* IP destination address */ -} iphdrtype; - - -typedef struct tcptype_ { - u16 sourceport; - u16 destinationport; - u32 sequencenumber; - u32 acknowledgementnumber; - u8 dataoffset; - u8 flags; -#if 0 -/* bypass the ENDIAN part */ -#ifdef BIGENDIAN - u8 reserved: 2; - u8 urg: 1; - u8 ack: 1; - u8 psh: 1; - u8 rst: 1; - u8 syn: 1; - u8 fin: 1; -#else - u8 fin: 1; - u8 syn: 1; - u8 rst: 1; - u8 psh: 1; - u8 ack: 1; - u8 urg: 1; - u8 reserved2: 2; -#endif -#endif - - u16 window; - u16 checksum; - u16 urgentpointer; - u8 data[0]; -} tcptype ; - - -int watch_ftp_port_cmd (iphdrtype *ip, - tcptype *tcp, - u32 * ip_addr, - u16 * port); - - -u8 * ftp_test_pkt_gen (u32 ip_addr, u16 port); - -int update_ftp_port(u8 * pkt, u32 new_ip, u16 new_port, i8 * delta, - cnat_main_db_entry_t *db_tcp_control, - dslite_table_entry_t *dslite_entry_ptr, - ipv6_header_t *ipv6_hdr); -/* - * caller needs to check if it's a ftp packet - * this function returns 1 - * if packet being updated for PORT - * otherwise return 0. - * Assume IP header DOES NOT have option fields - */ - -int cnat_ftp_alg ( u8* pkt, i8 * delta, cnat_main_db_entry_t *db, - dslite_table_entry_t *dslite_entry_ptr, - ipv6_header_t *ipv6_hdr); - -#define FTP_ALG_DEBUG_PRINTF_ENABLED 1 - -#ifdef FTP_ALG_DEBUG_PRINTF_ENABLED - -#define FTP_ALG_DEBUG_PRINTF(...) { \ - if (global_debug_flag & CNAT_DEBUG_FTP_ALG) { \ - printf(__VA_ARGS__); \ - } } - -#else - -#define FTP_ALG_DEBUG_PRINTF(...) - -#endif - -#endif /* __CNAT_V4_FTP_ALG_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_v4_functions.c b/plugins/vcgn-plugin/vcgn/cnat_v4_functions.c deleted file mode 100644 index d3051fba5a7..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_v4_functions.c +++ /dev/null @@ -1,364 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_v4_funtions.c - * - * Copyright (c) 2008-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vnet/pg/pg.h> -#include <vppinfra/error.h> - - -#include "tcp_header_definitions.h" -#include "cnat_db.h" -#include "cnat_config.h" -#include "cnat_v4_functions.h" -#include "dslite_defs.h" -#include "dslite_db.h" - -static u32 tcp_logging_count; -static u32 tcp_logging_overflow; - -static tcp_logging_struct_t tcp_logging_array[MAX_TCP_LOGGING_COUNT]; - -/* - * Function to log TCP pkts checksum changes.. - */ -void -tcp_debug_logging ( - u32 seq_num, - u32 ack_num, - u32 old_ip, - u32 new_ip, - u16 old_port, - u16 new_port, - u16 old_ip_crc, - u16 new_ip_crc, - u16 old_tcp_crc, - u16 new_tcp_crc) -{ - tcp_logging_array[tcp_logging_count].seq_num = seq_num; - tcp_logging_array[tcp_logging_count].ack_num = ack_num; - tcp_logging_array[tcp_logging_count].old_ip = old_ip; - tcp_logging_array[tcp_logging_count].new_ip = new_ip; - tcp_logging_array[tcp_logging_count].old_port = old_port; - tcp_logging_array[tcp_logging_count].new_port = new_port; - tcp_logging_array[tcp_logging_count].old_ip_crc = old_ip_crc; - tcp_logging_array[tcp_logging_count].new_ip_crc = new_ip_crc; - tcp_logging_array[tcp_logging_count].old_tcp_crc = old_tcp_crc; - tcp_logging_array[tcp_logging_count].new_tcp_crc = new_tcp_crc; - - tcp_logging_count++; - - if (tcp_logging_count >= MAX_TCP_LOGGING_COUNT) { - tcp_logging_overflow = 1; - tcp_logging_count = 0; - } -} - -/* - * Function to dmp TCP pkts logged.. - */ -void -tcp_debug_logging_dump (void) -{ - u32 i, total_count, start_entry; - - if (tcp_logging_overflow) { - total_count = MAX_TCP_LOGGING_COUNT; - start_entry = tcp_logging_count; - printf("Logging Entries Wrapped Around, displaying %d entries\n", - total_count); - } else { - total_count = tcp_logging_count; - start_entry = 0; - printf("Displaying %d entries\n", total_count); - } - - printf("SEQ ACK IP_O IP_N PORT_O PORT_N L3_CRC_O L3_CRC_N L4_CRC_O L4_CRC_N\n"); - - for (i = 0; i < total_count; i++) { - u32 entry = (i + start_entry) % MAX_TCP_LOGGING_COUNT; - - printf("%04d: 0x%08x 0x%08x 0x%08x 0x%08x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x\n", - entry, - tcp_logging_array[entry].seq_num, - tcp_logging_array[entry].ack_num, - tcp_logging_array[entry].old_ip, - tcp_logging_array[entry].new_ip, - tcp_logging_array[entry].old_port, - tcp_logging_array[entry].new_port, - tcp_logging_array[entry].old_ip_crc, - tcp_logging_array[entry].new_ip_crc, - tcp_logging_array[entry].old_tcp_crc, - tcp_logging_array[entry].new_tcp_crc); - } -} - -/* - * Function to enable TCP logging - */ -void -tcp_debug_logging_enable_disable (u32 enable_flag) -{ - switch (enable_flag) { - - case TCP_LOGGING_DISABLE: - if (tcp_logging_enable_flag == TCP_LOGGING_DISABLE) { - printf("\nTCP Logging ALREADY DISABLED\n"); - } else { - printf("\nTCP Logging DISABLED\n"); - } - tcp_logging_enable_flag = 0; - break; - - case TCP_LOGGING_ENABLE: - if (tcp_logging_enable_flag == TCP_LOGGING_ENABLE) { - printf("\nTCP Logging ALREADY ENABLED\n"); - } else { - tcp_logging_enable_flag = 1; - tcp_logging_count = 0; - tcp_logging_overflow = 0; - - printf("\nTCP Logging ENABLED\n"); - } - break; - - case TCP_LOGGING_PACKET_DUMP: - tcp_debug_logging_dump(); - break; - - case TCP_LOGGING_SUMMARY_DUMP: - default: - printf("\ntcp_logging_enable_flag %d, tcp_log_count %d\n", - tcp_logging_enable_flag, tcp_logging_count); - printf("To Enable TCP LOGGING provide a flag value of %d\n", - TCP_LOGGING_ENABLE); - break; - } -} - -void hex_dump (u8 * p, int len) { - int i; - for (i=0;i<len;i++) { - if(i && (i & 0x3 ) == 0) printf(" "); - if(i && (i & 0xf ) == 0) printf("\n"); - PLATFORM_DEBUG_PRINT("%02X ", p[i]); - } - PLATFORM_DEBUG_PRINT("\n"); -} - -void -print_icmp_pkt (ipv4_header *ip) -{ - u32 i, total_len; - - u8 *pkt = (u8 *) ip; - - total_len = clib_net_to_host_u16(ip->total_len_bytes); - - printf("\n======== PRINTING PKT START======\n"); - printf("======== IP PACKET LEN %d ===========\n", total_len); - for (i=0; i < 20; i++) { - printf(" %02X ", *(pkt + i)); - } - - printf("\n======== ICMP HEADER =================\n"); - for (i=20; i < 28; i++) { - printf(" %02X ", *(pkt + i)); - } - - printf("\n======== ICMP BODY ===================\n"); - for (i=28; i < total_len; i++) { - printf(" %02X ", *(pkt + i)); - } - - printf("\n======== PRINTING PKT END =======\n"); -} - -void -print_udp_pkt (ipv4_header *ip) -{ - u32 i, total_len, udp_len; - - u8 *pkt = (u8 *) ip; - - total_len = clib_net_to_host_u16(ip->total_len_bytes); - udp_len = total_len - 20; - - printf("\n======== PRINTING PKT START======\n"); - printf("======== IP PACKET LEN %d ===========\n", total_len); - for (i=0; i < 20; i++) { - printf(" %02X ", *(pkt + i)); - } - printf("\n======== UDP PSEUDO HEADER ==========\n"); - for (i=12; i < 20; i++) { - printf(" %02X ", *(pkt + i)); - } - printf(" 00 11 %02X %02X ", udp_len >> 8, udp_len & 0xff); - - printf("\n======== UDP HEADER =================\n"); - for (i=20; i < 28; i++) { - printf(" %02X ", *(pkt + i)); - } - printf("\n======== UDP BODY ===================\n"); - for (i=28; i < total_len; i++) { - printf(" %02X ", *(pkt + i)); - } - - printf("\n======== PRINTING PKT END =======\n"); -} - -void -print_tcp_pkt (ipv4_header *ip) -{ - u32 i, total_len, tcp_len; - - u8 *pkt = (u8 *) ip; - - total_len = clib_net_to_host_u16(ip->total_len_bytes); - tcp_len = total_len - 20; - - printf("\n======== PRINTING PKT START======\n"); - printf("======== IP PACKET LEN %d ===========\n", total_len); - for (i=0; i < 20; i++) { - printf(" %02X ", *(pkt + i)); - } - printf("\n======== TCP PSEUDO HEADER ==========\n"); - for (i=12; i < 20; i++) { - printf(" %02X ", *(pkt + i)); - } - printf(" 00 06 %02X %02X ", tcp_len >> 8, tcp_len & 0xff); - - printf("\n======== TCP HEADER =================\n"); - for (i=20; i < 40; i++) { - printf(" %02X ", *(pkt + i)); - } - printf("\n======== TCP BODY ===================\n"); - for (i=40; i < total_len; i++) { - printf(" %02X ", *(pkt + i)); - } - - printf("\n======== PRINTING PKT END =======\n"); -} - -/* IN: ipv4 and tcp header pointer, - * new ipv4 addr and port value - * main db index for accessing per vrf mss value - * DO: - * NAT - * mss adjust if needed - * ip & tcp checksum update (incremental) - */ - -inline void tcp_in2out_nat_mss_n_checksum (ipv4_header * ip, - tcp_hdr_type * tcp, - u32 ipv4_addr, - u16 port, - cnat_main_db_entry_t * db) -{ - u8 *mss_ptr; - u8 check_mss = 0; - u16 mss_old, mss_new; - cnat_vrfmap_t * vrf_map_p; - - cnat_v4_recalculate_tcp_checksum(ip, - tcp, - &(ip->src_addr), - &(tcp->src_port), - ipv4_addr, - port); - u16 frag_offset = - clib_net_to_host_u16(ip->frag_flags_offset); - - if(PREDICT_FALSE(frag_offset & IP_FRAG_OFFSET_MASK)) { - return; /* No TCP Header at all */ - } - - /* - * check SYN bit and if options field is present - * If yes, proceed to extract the options and get TCP MSS value - */ - check_mss = ((tcp->flags & TCP_FLAG_SYN) && - (((tcp->hdr_len>>4) << 2) > sizeof(tcp_hdr_type))); - - if (PREDICT_FALSE(check_mss)) { - - /* get per VRF mss config */ - if(PREDICT_FALSE(db->flags & (CNAT_DB_DSLITE_FLAG))) { - mss_new = dslite_table_db_ptr[db->dslite_nat44_inst_id].tcp_mss; - } else { - vrf_map_p = cnat_map_by_vrf + db->vrfmap_index; - mss_new = vrf_map_p->tcp_mss; - } - DSLITE_PRINTF(1, "Check MSS true..%u\n", mss_new); - /* - * If TCP MSS is not configured, skip the MSS checks - */ - if (PREDICT_FALSE(mss_new != V4_TCP_MSS_NOT_CONFIGURED_VALUE)) { - - /* if mss_ptr != NULL, then it points to MSS option */ - mss_ptr = tcp_findoption(tcp, TCP_OPTION_MSS); - - /* - * TCP option field: | kind 1B | len 1B | value 2B| - * where kind != [0,1] - */ - if (PREDICT_TRUE(mss_ptr && (mss_ptr[1] == 4))) { - - u16 *ptr = (u16*)(mss_ptr + 2); - - mss_old = clib_net_to_host_u16(*ptr); - - if (PREDICT_FALSE(mss_old > mss_new)) { - u32 sum32; - u16 mss_old_r, old_tcp_checksum_r; - - *ptr = clib_host_to_net_u16(mss_new); - - mss_old_r = ~mss_old; - - old_tcp_checksum_r = - ~clib_net_to_host_u16(tcp->tcp_checksum); - - /* - * Revise the TCP checksum - */ - sum32 = old_tcp_checksum_r + mss_old_r + mss_new; - FILL_CHECKSUM(tcp->tcp_checksum, sum32) - - if (PREDICT_FALSE(tcp_logging_enable_flag)) { - tcp_debug_logging( - clib_net_to_host_u32(tcp->seq_num), - clib_net_to_host_u32(tcp->ack_num), - 0, - 0, - mss_old, - mss_new, - 0, - 0, - ~old_tcp_checksum_r, - clib_net_to_host_u16(tcp->tcp_checksum)); - } - } - } - } - } -} - -u32 get_my_svi_intf_ip_addr() { - return 0x01010101; -} diff --git a/plugins/vcgn-plugin/vcgn/cnat_v4_functions.h b/plugins/vcgn-plugin/vcgn/cnat_v4_functions.h deleted file mode 100644 index 2429e5e1437..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_v4_functions.h +++ /dev/null @@ -1,342 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_v4_functions.h - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_V4_FUNCTOINS__ -#define __CNAT_V4_FUNCTOINS__ - -#include "tcp_header_definitions.h" -#include "cnat_db.h" -#include "spp_ctx.h" - -#include "platform_common.h" - -/* - * Defines and structures to enable TCP packet logging - */ -#define TCP_LOGGING_DISABLE 0 -#define TCP_LOGGING_ENABLE 1 -#define TCP_LOGGING_PACKET_DUMP 2 -#define TCP_LOGGING_SUMMARY_DUMP 3 - -#define MAX_TCP_LOGGING_COUNT 1024 - -typedef struct tcp_logging_struct { - u32 seq_num; - u32 ack_num; - u32 old_ip; - u32 new_ip; - u16 old_port; - u16 new_port; - u16 old_ip_crc; - u16 new_ip_crc; - u16 old_tcp_crc; - u16 new_tcp_crc; -} tcp_logging_struct_t; - -void tcp_debug_logging_dump (void); -void tcp_debug_logging_enable_disable (u32 enable_flag); - -void -tcp_debug_logging ( - u32 seq_num, - u32 ack_num, - u32 old_ip, - u32 new_ip, - u16 old_port, - u16 new_port, - u16 old_ip_crc, - u16 new_ip_crc, - u16 old_tcp_crc, - u16 new_tcp_crc); - -#define JLI printf("%s %s %d\n", __FILE__, __FUNCTION__, __LINE__); fflush(stdout); - -#define CNAT_ICMP_DEST_UNREACHABLE 100 -#define INCREMENT_NODE_COUNTER(c) \ - em->counters[node_counter_base_index + c] += 1; - -#define V4_TCP_UPDATE_SESSION_FLAG(db, tcp) \ -if ((tcp->flags & TCP_FLAG_ACK) && (tcp->flags & TCP_FLAG_SYN)) { \ - db->flags |= CNAT_DB_FLAG_TCP_ACTIVE; \ -} \ -if ((tcp->flags & TCP_FLAG_RST) || (tcp->flags & TCP_FLAG_FIN)) { \ - db->flags &= ~CNAT_DB_FLAG_TCP_ACTIVE; \ - db->flags |= CNAT_DB_FLAG_TCP_CLOSING; \ -} - -#define V4_TCP_UPDATE_SESSION_DB_FLAG(sdb, tcp) \ -if ((tcp->flags & TCP_FLAG_ACK) && (tcp->flags & TCP_FLAG_SYN)) { \ - sdb->flags |= CNAT_DB_FLAG_TCP_ACTIVE; \ -} \ -if ((tcp->flags & TCP_FLAG_RST) || (tcp->flags & TCP_FLAG_FIN)) { \ - sdb->flags &= ~CNAT_DB_FLAG_TCP_ACTIVE; \ - sdb->flags |= CNAT_DB_FLAG_TCP_CLOSING; \ -} - -/* - * Code to recalculate checksum after ACK/SEQ number changes - * This macro assumes, we have pointer to tcp structure - * referenced by the name "tcp" - */ -#define CNAT_UPDATE_TCP_SEQ_ACK_CHECKSUM(old_val32, new_val32) \ -{ \ - u16 old_val_lower, old_val_upper, old_tcp_cr; \ - u16 new_val_lower, new_val_upper, new_tcp_cr; \ - u32 sum32; \ - \ - old_val_lower = ~((u16) old_val32); \ - old_val_upper = ~((u16) (old_val32 >> 16)); \ - old_tcp_cr = ~net2host16(&tcp->tcp_checksum); \ - new_val_lower = (u16) new_val32; \ - new_val_upper = (u16) (new_val32 >> 16); \ - \ - sum32 = old_val_lower + old_val_upper + old_tcp_cr + \ - new_val_lower + new_val_upper; \ - \ - sum32 = (sum32 & 0xffff) + ((sum32 >> 16) & 0xffff); \ - sum32 = (sum32 & 0xffff) + ((sum32 >> 16) & 0xffff); \ - new_tcp_cr = ~((u16)sum32); \ - \ - tcp->tcp_checksum = host2net16(new_tcp_cr); \ -} - -/* - * newchecksum = ~(~oldchecksum + ~old + new) - * old/new for l3 checksum: ip address - */ -#define CNAT_UPDATE_L3_CHECKSUM_DECLARE \ -u16 old_l3_1r, old_l3_2r; \ -u16 old_l3_cr, new_l3_c; \ -u32 new32; - -#define CNAT_UPDATE_L3_CHECKSUM(old_l3_1, old_l3_2, old_l3_c, \ - new_l3_1, new_l3_2) \ -old_l3_1r = ~(old_l3_1); \ -old_l3_2r = ~(old_l3_2); \ -old_l3_cr = ~(old_l3_c); \ -new32 = old_l3_cr + old_l3_1r + old_l3_2r + new_l3_1 + new_l3_2; \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new_l3_c = ~((u16)new32); - - -/* - * newchecksum = ~(~oldchecksum + ~old + new) - * old/new for l3 checksum: ip address - * old/new for l4 checksum: ip address and port - */ -#define CNAT_UPDATE_L3_L4_CHECKSUM_DECLARE \ -u16 old_l3_1r, old_l3_2r, old_l4r; \ -u16 old_l3_cr, old_l4_cr; \ -u16 new_l3_c, new_l4_c; \ -u32 sum32, new32; - -#define CNAT_UPDATE_L3_L4_CHECKSUM(old_l3_1, old_l3_2, old_l4, \ - old_l3_c, old_l4_c, \ - new_l3_1, new_l3_2, new_l4) \ -old_l3_1r = ~(old_l3_1); \ -old_l3_2r = ~(old_l3_2); \ -old_l3_cr = ~(old_l3_c); \ -sum32 = old_l3_1r + old_l3_2r + new_l3_1 + new_l3_2; \ -new32 = old_l3_cr + sum32; \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new_l3_c = ~((u16)new32); \ -old_l4r = ~(old_l4); \ -old_l4_cr = ~(old_l4_c); \ -sum32 += old_l4r + new_l4; \ -new32 = old_l4_cr + sum32; \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new_l4_c = ~((u16)new32); - -/* - * For ICMP checksums, we don't use the top IP header for checksum calculation - */ -#define CNAT_UPDATE_L3_ICMP_CHECKSUM(old_l3_1, old_l3_2, old_l4, \ - old_l3_c, old_l4_c, \ - new_l3_1, new_l3_2, new_l4) \ -old_l3_1r = ~(old_l3_1); \ -old_l3_2r = ~(old_l3_2); \ -old_l3_cr = ~(old_l3_c); \ -sum32 = old_l3_1r + old_l3_2r + new_l3_1 + new_l3_2; \ -new32 = old_l3_cr + sum32; \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new_l3_c = ~((u16)new32); \ -old_l4r = ~(old_l4); \ -old_l4_cr = ~(old_l4_c); \ -sum32 = old_l4r + new_l4; \ -new32 = old_l4_cr + sum32; \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new_l4_c = ~((u16)new32); - - -/* - * icmp error type message: - * newchecksum = ~(~oldchecksum + ~old + new) - * old/new for outlayer ip checksum: ip address - * old/new for outlayer icmp checksum: - * out-layer: ip address - * inner-layer: ip addr, port, l3 checksum, l4 checksum - */ -#define CNAT_UPDATE_ICMP_ERR_CHECKSUM_DECLARE \ -u16 old_ip_1r, old_ip_2r, old_ip_port_r, old_ip_cr, old_icmp_cr; \ -u16 new_icmp_c; \ -u32 sum32; - - -#define CNAT_UPDATE_ICMP_ERR_CHECKSUM(old_ip_1, old_ip_2, old_ip_port, old_ip_c, old_icmp_c, \ - new_ip_1, new_ip_2, new_ip_port, new_ip_c) \ -old_ip_1r = ~(old_ip_1); \ -old_ip_2r = ~(old_ip_2); \ -old_ip_port_r = ~(old_ip_port); \ -old_ip_cr = ~(old_ip_c); \ -old_icmp_cr = ~(old_icmp_c); \ -sum32 = old_ip_1r + old_ip_2r + new_ip_1 + new_ip_2 + \ - old_ip_port_r + new_ip_port + old_ip_cr + new_ip_c; \ -new32 = old_icmp_cr + sum32; \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new32 = (new32 & 0xffff) + ((new32 >> 16) & 0xffff); \ -new_icmp_c = ~((u16)new32); \ - -/* - * Add the two 16 bit parts of the 32 bit field - * Repeat it one more time to take care of any overflow - * Complement the u16 value and store it in network format - */ -#define FILL_CHECKSUM(checksum_field, sum32) { \ - sum32 = (sum32 & 0xffff) + ((sum32>>16) & 0xffff); \ - sum32 = (sum32 & 0xffff) + ((sum32>>16) & 0xffff); \ - checksum_field = clib_host_to_net_u16(~((u16) sum32)); \ -} - -static inline void -cnat_v4_recalculate_tcp_checksum (ipv4_header *ip, - tcp_hdr_type *tcp, - u32 *ip_addr_ptr, - u16 *tcp_port_addr_ptr, - u32 new_ip, - u16 new_port) -{ - u32 old_ip_addr, old_ip32_r, new_ip32, sum32; - u16 old_port_r, old_ip_checksum_r, old_tcp_checksum_r; - - u16 *p16; - - p16 = (u16*) ip_addr_ptr; - - old_ip_addr = *ip_addr_ptr; - old_ip32_r = (((u16) ~clib_net_to_host_u16(*p16)) + - ((u16) ~clib_net_to_host_u16(*(p16+1)))); - - old_port_r = ~clib_net_to_host_u16(*tcp_port_addr_ptr); - - *ip_addr_ptr = clib_host_to_net_u32(new_ip); - - new_ip32 = (new_ip & 0xffff) + ((new_ip >> 16) & 0xffff); - - old_ip_checksum_r = ~clib_net_to_host_u16(ip->checksum); - - /* - * Recalculate the new IP checksum - */ - sum32 = old_ip32_r + new_ip32 + old_ip_checksum_r; - - FILL_CHECKSUM(ip->checksum, sum32); - - u16 frag_offset = - clib_net_to_host_u16((ip->frag_flags_offset)); - - if(PREDICT_FALSE(frag_offset & IP_FRAG_OFFSET_MASK)) { - return; /* No need to update TCP fields */ - } - - *tcp_port_addr_ptr = clib_host_to_net_u16(new_port); - old_tcp_checksum_r = ~clib_net_to_host_u16(tcp->tcp_checksum); - - /* - * Recalculate the new TCP checksum - */ - sum32 = old_ip32_r + new_ip32 + - old_port_r + new_port + old_tcp_checksum_r; - - FILL_CHECKSUM(tcp->tcp_checksum, sum32); - - if (PREDICT_FALSE(tcp_logging_enable_flag)) { - tcp_debug_logging( - clib_net_to_host_u32(tcp->seq_num), - clib_net_to_host_u32(tcp->ack_num), - clib_net_to_host_u32(old_ip_addr), - clib_net_to_host_u32(*ip_addr_ptr), - ~old_port_r, - clib_net_to_host_u16(*tcp_port_addr_ptr), - ~old_ip_checksum_r, - clib_net_to_host_u16(ip->checksum), - ~old_tcp_checksum_r, - clib_net_to_host_u16(tcp->tcp_checksum)); - } -} - - -extern void tcp_in2out_nat_mss_n_checksum (ipv4_header *ip, - tcp_hdr_type *tcp, - u32 ipv4_addr, - u16 port, - cnat_main_db_entry_t * db); - -void hex_dump(u8 * p, int len); - -u32 get_my_svi_intf_ip_addr(); - -/* - * in cnat_v4_icmp_gen.c, - * return 1 if icmp msg allow to generate - * for this user - */ - -u32 icmp_msg_gen_allowed (); - -cnat_icmp_msg_t v6_icmp_msg_gen_allowed(); - -int v4_crc_zero_udp_allowed(); -void ipv4_decr_ttl_n_calc_csum(ipv4_header *ipv4); -int icmpv4_generate_with_throttling (spp_ctx_t *ctx, ipv4_header *ipv4, - u16 rx_uidb_index); - -int icmpv6_generate_with_throttling (spp_ctx_t *ctx, ipv6_header_t *ipv4, - u16 rx_uidb_index); - -void icmp_error_generate_v6(spp_ctx_t *ctx, u8 icmp_type, - u8 icmp_code, u16 uidb_index); - -void calculate_window_scale(tcp_hdr_type *tcp_header, u8 *scale); - -void cnat_log_nat44_tcp_seq_mismatch( - cnat_main_db_entry_t *db, - cnat_vrfmap_t *vrfmap); -void print_icmp_pkt (ipv4_header *ip); -void print_udp_pkt (ipv4_header *ip); -void print_tcp_pkt (ipv4_header *ip); -void print_ipv6_pkt (ipv6_header_t *ip); - - -#endif - diff --git a/plugins/vcgn-plugin/vcgn/cnat_v4_pptp_alg.h b/plugins/vcgn-plugin/vcgn/cnat_v4_pptp_alg.h deleted file mode 100644 index 5a6d4243165..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_v4_pptp_alg.h +++ /dev/null @@ -1,150 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_v4_pptp_alg.h - * - * Copyright (c) 2009-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_V4_PPTP_ALG_H__ -#define __CNAT_V4_PPTP_ALG_H__ - -/* Debug utils of PPTP */ -#define PPTP_DBG(debug, ...) \ - if(PREDICT_FALSE(cnat_pptp_debug_flag >= debug)) { \ - PLATFORM_DEBUG_PRINT("%s:%s:%d - ", \ - __FILE__, __FUNCTION__, __LINE__);\ - PLATFORM_DEBUG_PRINT(__VA_ARGS__);\ - PLATFORM_DEBUG_PRINT("\n"); \ - } - -#define PPTP_DUMP_PACKET(ip, len) pptp_hex_dump(ip, len) - - -#define PPTP_DISABLED 0 -#define PPTP_ENABLED 1 - -#define PPTP_GRE_TIMEOUT 60 /*sec */ - -#define TCP_PPTP_PORT 1723 - -#define PPTP_PAC 0 -#define PPTP_PNS 1 - -/* PPTP MSG TYPE */ - -#define PPTP_MSG_TYPE_CONTROL 1 -#define PPTP_MSG_TYPE_MGMT 2 - -/* PPTP control messages */ - -/* control connection mgmt */ -#define PPTP_START_CC_RQ 1 -#define PPTP_START_CC_RP 2 -#define PPTP_STOP_CC_RQ 3 -#define PPTP_STOP_CC_RP 4 -#define PPTP_ECHO_RQ 5 -#define PPTP_ECHO_RP 6 - -/* call mgmt */ -#define PPTP_OBOUND_CALL_RQ 7 -#define PPTP_OBOUND_CALL_RP 8 -#define PPTP_IBOUND_CALL_RQ 9 -#define PPTP_IBOUND_CALL_RP 10 -#define PPTP_IBOUND_CALL_CN 11 -#define PPTP_CALL_CLEAR_RQ 12 -#define PPTP_CALL_DISCON_NT 13 - -/* other */ - -#define PPTP_WAN_ERR_NT 14 -#define PPTP_SET_LINK_INF 15 - -#define PPTP_MIN_HDR_LEN 8 - -/* Byte offsets from start of TCP Data(PPTP header) */ - -#define PPTP_CTRL_MGMT_TYPE_OFFSET 0x02 -#define PPTP_CC_TYPE_OFFSET 0x08 -#define PPTP_HDR_CALL_ID_OFFSET 0x0c -#define PPTP_HDR_PEER_CALL_ID_OFFSET 0x0e - -#define PPTP_HDR_RESULT_CODE_OFFSET_STCCRP 0x0e -#define PPTP_HDR_RESULT_CODE_OFFSET 0x10 - - -/* Offset of control/mgmt msg types - from start of TCP header */ - -#define TCP_HEADER_SIZE(tcp) \ - ((tcp->hdr_len>>4) << 2) - - -#define PPTP_MSG_START_OFFSET(tcp) \ - ((u8*)tcp + TCP_HEADER_SIZE(tcp)) - - -#define PPTP_CC_MSG_TYPE_OFFSET(tcp) \ - (PPTP_MSG_START_OFFSET(tcp) + \ - PPTP_CC_TYPE_OFFSET ) - -#define PPTP_MGMT_MSG_TYPE_OFFSET(tcp) \ - ( PPTP_MSG_START_OFFSET(tcp) + \ - PPTP_CTRL_MGMT_TYPE_OFFSET ) - -#define PPTP_CALL_ID_OFFSET(tcp) \ - ( PPTP_MSG_START_OFFSET(tcp) + \ - PPTP_HDR_CALL_ID_OFFSET ) - -#define PPTP_PEER_CALL_ID_OFFSET(tcp) \ - ( PPTP_MSG_START_OFFSET(tcp) + \ - PPTP_HDR_PEER_CALL_ID_OFFSET ) - -#define PPTP_RESULT_CODE_OFFSET(tcp) \ - ( PPTP_MSG_START_OFFSET(tcp) + \ - PPTP_HDR_RESULT_CODE_OFFSET ) - -#define PPTP_RESULT_CODE_OFFSET_STCCRP(tcp) \ - ( PPTP_MSG_START_OFFSET(tcp) + \ - PPTP_HDR_RESULT_CODE_OFFSET_STCCRP) - -/* values */ -#define PPTP_CC_MSG_TYPE(tcp) \ - (u16*)PPTP_CC_MSG_TYPE_OFFSET(tcp) - -#define PPTP_MGMT_MSG_TYPE(tcp) \ - (u16*)PPTP_MGMT_MSG_TYPE_OFFSET(tcp) - -#define PPTP_CALL_ID(tcp) \ - (u16*)PPTP_CALL_ID_OFFSET(tcp) - -#define PPTP_PEER_CALL_ID(tcp) \ - (u16*)PPTP_PEER_CALL_ID_OFFSET(tcp) - -#define PPTP_RESULT_CODE(tcp) \ - *(u8*)PPTP_RESULT_CODE_OFFSET(tcp); - -#define PPTP_RESULT_CODE_STCCRP(tcp) \ - *(u8*)PPTP_RESULT_CODE_OFFSET_STCCRP(tcp); - - -/* other code */ -#define PPTP_CHAN_SUCCESS 1 - - -/* Data structures */ - -extern u32 cnat_pptp_debug_flag; - -#endif /* __CNAT_V4_PPTP_ALG_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/cnat_v4_tcp_in2out_stages.c b/plugins/vcgn-plugin/vcgn/cnat_v4_tcp_in2out_stages.c deleted file mode 100644 index 220ced461aa..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_v4_tcp_in2out_stages.c +++ /dev/null @@ -1,679 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * cnat_v4_tcp_in2out_stages.c - cnat_v4_tcp_in2out node pipeline stage functions - * - * - * Copyright (c) 2008-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vppinfra/error.h> -#include <vnet/buffer.h> - -#include "cnat_db.h" -/* #include <cnat_feature_data.h> */ -#include "ipv4_packet.h" -#include "tcp_header_definitions.h" -#include "cnat_config.h" -#include "cnat_global.h" -#include "cnat_v4_functions.h" -#include "cnat_v4_ftp_alg.h" -#include "cnat_v4_pptp_alg.h" - -#define foreach_cnat_ipv4_tcp_inside_input_error \ -_(TCP_NAT_IN, "packets received") \ -_(TCP_NAT, "packets NATed") \ -_(TCP_EXCEPTION, "packets to exception") \ -_(TCP_TTL_GEN, "Generated TTL Expiry ICMP packet") \ -_(TCP_TTL_DROP, "Could not generate TTL Expiry ICMP packet") \ -_(TCP_SESSION_DROP, "Could not generate session") \ -_(TCP_FRAG_DROP, "Non-first Fragment received") - -typedef enum { -#define _(sym,str) sym, - foreach_cnat_ipv4_tcp_inside_input_error -#undef _ - CNAT_IPV4_TCP_INSIDE_INPUT_N_ERROR, -} cnat_ipv4_tcp_inside_input_t; - -static char * cnat_ipv4_tcp_inside_input_error_strings[] = { -#define _(sym,string) string, - foreach_cnat_ipv4_tcp_inside_input_error -#undef _ - - - -typedef struct cnat_v4_tcp_in2out_pipeline_data_ { - spp_node_main_vector_t *nmv; - /* Add additional pipeline stage data here... */ - u32 bucket; - u16 src_port; /* Added for handling fragments */ - u16 dst_port; /* Added for handling fragments */ -} cnat_v4_tcp_in2out_pipeline_data_t; - -static cnat_v4_tcp_in2out_pipeline_data_t pctx_data[SPP_MAXDISPATCH]; - -#define EXTRA_PIPELINE_ARGS_PROTO , cnat_v4_tcp_in2out_pipeline_data_t *pctx -#define EXTRA_PIPELINE_ARGS , pctx - -ALWAYS_INLINE( -static inline void -stage0(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO)) -{ - spp_ctx_t *ctx = ctxs[index]; - /* - * Prefetch the context header. This is almost always - * the right thing to do - */ - SPP_PREFETCH_CTX(ctx); -} - -ALWAYS_INLINE( -static inline void -stage1(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO)) -{ - spp_ctx_t *ctx = ctxs[index]; - /* got ctx, prefetch packet data separately */ - SPP_PREFETCH_CTX_DATA(ctx, 1*CACHE_DATA_QUANTUM); -} - -ALWAYS_INLINE( -static inline void -stage2(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO)) -{ - spp_ctx_t *ctx = ctxs[index]; - u64 a, b, c; - u32 bucket; - cnat_feature_data_t *fd = (cnat_feature_data_t *)ctx->feature_data; - ipv4_header *ip; - tcp_hdr_type * tcp; - u8 *prefetch_target; - - INCREMENT_NODE_COUNTER(np, TCP_NAT_IN); - - /* extract the key from ctx and save it to feature_data */ - - ip = (ipv4_header *)(ctx->current_header); - ctx->application_start = (ip->version_hdr_len_words & 0xf) << 2; - tcp = (tcp_hdr_type*) ((u8 *)ip + ctx->application_start); - - PLATFORM_CNAT_SET_RX_VRF(ctx,fd->dbl.k.k.vrf, CNAT_TCP, 1); - fd->dbl.k.k.ipv4 = spp_net_to_host_byte_order_32(&ip->src_addr); - - if(PREDICT_FALSE(ctx->ru.rx.frag)) { - /* Must have routed through cnat_v4_frag_in2out node - * Since feature data of the ctx is being used for other - * purposes here, copy them to extra stage argument - */ - u16 *feature_data_ports = (u16 *)&ctx->feature_data[2]; - pctx[index].src_port = fd->dbl.k.k.port = *feature_data_ports; - feature_data_ports++; - pctx[index].dst_port = *feature_data_ports; - } else { - fd->dbl.k.k.port = spp_net_to_host_byte_order_16(&tcp->src_port); - pctx[index].dst_port = - spp_net_to_host_byte_order_16(&tcp->dest_port); - } - -#if 0 - /* extra info for evil mode, or default value for dst_ipv4 field in good mode */ - fd->dbl.dst_ipv4 = address_dependent_filtering ? - spp_net_to_host_byte_order_32(&ip->dest_addr) : 0; -#endif - - CNAT_V4_GET_HASH(fd->dbl.k.key64, - bucket, CNAT_MAIN_HASH_MASK) - - prefetch_target = (u8 *)(&cnat_in2out_hash[bucket]); - pctx[index].bucket = bucket; - - /* Prefetch the hash bucket */ - SPP_PREFETCH(prefetch_target, 0, LOAD); - -} - -ALWAYS_INLINE( -static inline void -stage3(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO)) -{ - u32 db_index; - u32 bucket; - uword prefetch_target0, prefetch_target1; - - bucket = pctx[index].bucket; - - /* read the hash bucket */ - db_index = pctx[index].bucket = cnat_in2out_hash[bucket].next; - if (PREDICT_TRUE(db_index != EMPTY)) { - - /* - * Prefetch database keys. We save space by not cache-line - * aligning the DB entries. We don't want to waste LSU - * bandwidth prefetching stuff we won't need. - */ - - prefetch_target0 = (uword)(cnat_main_db + db_index); - - SPP_PREFETCH(prefetch_target0, 0, LOAD); - - /* Just beyond DB key #2 */ - - prefetch_target1 = prefetch_target0 + - STRUCT_OFFSET_OF(cnat_main_db_entry_t, user_ports); - - /* If the targets are in different lines, do the second prefetch */ - - if (PREDICT_FALSE((prefetch_target0 & ~(SPP_CACHE_LINE_BYTES-1)) != - (prefetch_target1 & ~(SPP_CACHE_LINE_BYTES-1)))) { - - SPP_PREFETCH(prefetch_target1, 0, LOAD); - - } - } -} - -static inline void -stage4(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO) -{ - spp_ctx_t *ctx = ctxs[index]; - u32 db_index = pctx[index].bucket; - cnat_main_db_entry_t *db; - cnat_feature_data_t *fd; - - /* - * Note: if the search already failed (empty bucket), - * the answer is already in the pipeline context structure - */ - if (PREDICT_FALSE(db_index == EMPTY)) { - return; - } - - fd = (cnat_feature_data_t *)ctx->feature_data; - - /* - * Note: hash collisions suck. We can't easily prefetch around them. - * The first trip around the track will be fast. After that, maybe - * not so much... - */ - do { - - db = cnat_main_db + db_index; - if (PREDICT_TRUE(db->in2out_key.key64 == fd->dbl.k.key64)) - break; - db_index = db->in2out_hash.next; - - } while (db_index != EMPTY); - - /* even in evil mode, for in2out, we nat all packets regardless mode and dst_ip */ - - /* Stick the answer back into the pipeline context structure */ - pctx[index].bucket = db_index; -} - -ALWAYS_INLINE( -static inline void -stage5(spp_ctx_t **ctxs, int index, spp_node_t *np, - u8 *disp_used EXTRA_PIPELINE_ARGS_PROTO)) -{ - spp_ctx_t *ctx = ctxs[index]; - u32 db_index = pctx[index].bucket; - cnat_feature_data_t *fd = (cnat_feature_data_t *)ctx->feature_data; - int disposition; - cnat_main_db_entry_t *db; - /* Below two pointers are just to keep the cnat_ftp_alg call happy*/ - dslite_table_entry_t *dslite_entry_ptr = NULL; - ipv6_header_t *ipv6_hdr = NULL; - tcp_hdr_type *tcp; - ipv4_header *ip; - i8 delta; - u32 seq, seq1; - u32 window; - u8 scale; - int rc; - - ip = (ipv4_header *) ctx->current_header; - - if (PLATFORM_HANDLE_TTL_DECREMENT) { - if (PREDICT_FALSE(ip->ttl <= 1)) { - /* Try to generate ICMP error msg, as TTL is <= 1 */ - - if (icmpv4_generate_with_throttling - (ctx, ip, ctx->ru.rx.uidb_index)) { - /* Generated ICMP */ - disposition = CNAT_REWRITE_OUTPUT; - INCREMENT_NODE_COUNTER(np, TCP_TTL_GEN); - } else { - /* Could not generated ICMP - drop the packet */ - disposition = CNAT_DROP; - INCREMENT_NODE_COUNTER(np, TCP_TTL_DROP); - } - goto drop_pkt; - } - } - - if (PREDICT_FALSE(db_index == EMPTY)) { - if(PREDICT_FALSE(ctx->ru.rx.frag)) { - /* Must have routed through cnat_v4_frag_in2out node */ - u16 frag_offset = - spp_net_to_host_byte_order_16(&(ip->frag_flags_offset)); - if(PREDICT_FALSE(frag_offset & IP_FRAG_OFFSET_MASK)) { - INCREMENT_NODE_COUNTER(np, TCP_FRAG_DROP); - disposition = CNAT_DROP; - goto drop_pkt; - } else { - INCREMENT_NODE_COUNTER(np, TCP_EXCEPTION); - disposition = CNAT_V4_TCP_IE; - } - } else { - INCREMENT_NODE_COUNTER(np, TCP_EXCEPTION); - disposition = CNAT_V4_TCP_IE; - } - } else { - cnat_key_t dest_info; - cnat_session_entry_t *session_db = NULL; - db = cnat_main_db + db_index; - /* Handle destination sessions */ - tcp = (tcp_hdr_type*) ((u8*)ip + ctx->application_start); - dest_info.k.port = pctx[index].dst_port; - dest_info.k.ipv4 = spp_net_to_host_byte_order_32(&(ip->dest_addr)); - - if(PREDICT_TRUE(!PLATFORM_DBL_SUPPORT)) { - - /* No DBL support, so just update the destn and proceed */ - db->dst_ipv4 = dest_info.k.ipv4; - db->dst_port = dest_info.k.port; - goto update_pkt; - } - - if(PREDICT_FALSE(db->dst_ipv4 != dest_info.k.ipv4 || - db->dst_port != dest_info.k.port)) { - if(PREDICT_TRUE(db->nsessions == 0)) { - /* Should be a static entry - * Note this session as the first session and log - */ - cnat_add_dest_n_log(db, &dest_info); - } else if(PREDICT_FALSE(db->nsessions == 1)) { - /* Destn is not same as in main db. Multiple session - * scenario - */ - dest_info.k.vrf = db->in2out_key.k.vrf; - session_db = cnat_handle_1to2_session(db, &dest_info); - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_DROP; - INCREMENT_NODE_COUNTER(np, TCP_SESSION_DROP); - goto drop_pkt; - } - } else { /* There are already multiple destinations */ - dest_info.k.vrf = db->in2out_key.k.vrf; - /* If session already exists, - * cnat_create_session_db_entry will return the existing db - * else create a new db - * If could not create, return NULL - */ - session_db = cnat_create_session_db_entry(&dest_info, - db, TRUE); - if(PREDICT_FALSE(session_db == NULL)) { - disposition = CNAT_DROP; - INCREMENT_NODE_COUNTER(np, TCP_SESSION_DROP); - goto drop_pkt; - } - } - if(PREDICT_TRUE(session_db)) { - /* Have to repeat the window size check for new destinations */ - window = (u32)spp_net_to_host_byte_order_16( - &tcp->window_size); - window = window << session_db->scale; - if(PREDICT_TRUE(!session_db->window)) { - calculate_window_scale(tcp, &scale); - session_db->scale = scale; - session_db->window = window; - } else if (PREDICT_FALSE(session_db->window < - window)) { - /* Update the db entry with window option from packet */ - session_db->window = window; - } else { - /* Do nothing */ - } - session_db->tcp_seq_num = spp_net_to_host_byte_order_32( - &tcp->seq_num); - session_db->ack_no = spp_net_to_host_byte_order_32( - &tcp->ack_num); - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - PLATFORM_DEBUG_PRINT("\n In2out SDB stages seq no = %u," - " ack no = %u, window = %u\n", - session_db->tcp_seq_num, - session_db->ack_no, - session_db->window); - } - } - } else { - //Update the seq no and ack no for subsequent communication - //after connection establishment - //No need to update window here. Window is already updated - //during connection establishment - window = (u32)spp_net_to_host_byte_order_16( - &tcp->window_size); - window = window << db->scale; - if(PREDICT_FALSE(!ALG_ENABLED_DB(db))) { - //This check is done since proto_data is part of union in main - //db entry - db->proto_data.tcp_seq_chk.seq_no = - spp_net_to_host_byte_order_32( - &tcp->seq_num); - db->proto_data.tcp_seq_chk.ack_no = - spp_net_to_host_byte_order_32( - &tcp->ack_num); - } - if (PREDICT_FALSE(db->diff_window < window)) { - /* Update the db entry with window option from packet */ - db->diff_window = window; - } - if (PREDICT_FALSE(global_debug_flag && CNAT_DEBUG_GLOBAL_ALL)) { - PLATFORM_DEBUG_PRINT("\n In2out MainDB seq no = %u," - "\n ack no = %u\n", - db->proto_data.tcp_seq_chk.seq_no, - db->proto_data.tcp_seq_chk.ack_no); - PLATFORM_DEBUG_PRINT("\n In2out MAINDB window = %u\n", - db->diff_window); - } - } -update_pkt: - - INCREMENT_NODE_COUNTER(np, TCP_NAT); - - disposition = CNAT_REWRITE_OUTPUT; - - /* NAT the packet and update checksum (increamental) */ - - /* If it is a non-first fragment, we need not worry about - * ALGs as the packet does not have TCP header.. - * However, under a very race scenario when this non-first - * fragment is containing an FTP PORT command OR RTSP command - * we cannot handle that case.. in that case the ALG will fail - * Do not want to add a lot of complexity to handle one in million - * of such ALG case - */ - u16 frag_offset = - spp_net_to_host_byte_order_16(&(ip->frag_flags_offset)); - - if(PREDICT_FALSE(frag_offset & IP_FRAG_OFFSET_MASK)) { - /* Non first fragment.. no TCP header */ - FTP_ALG_DEBUG_PRINTF("Non first frag.. cannot handle ALG"); - goto handle_ttl_n_checksum; - } - - FTP_ALG_DEBUG_PRINTF("src port 0x%x, dst_port 0x%x", - spp_net_to_host_byte_order_16(&tcp->src_port), - spp_net_to_host_byte_order_16(&tcp->dest_port)) - - /* handle FTP ALG */ - if (PREDICT_FALSE(ftp_alg_enabled && - (spp_net_to_host_byte_order_16(&tcp->src_port) == 21 || - spp_net_to_host_byte_order_16(&tcp->dest_port) == 21))) { - - if(PREDICT_FALSE((db->flags & CNAT_DB_FLAG_PPTP_TUNNEL_ACTIVE) || - (db->flags & CNAT_DB_FLAG_PPTP_TUNNEL_INIT))) - { - /* FTP on a PPTP Control session? Ignore FTP */ - goto handle_ttl_n_checksum; - } - - if (PREDICT_FALSE(tcp->flags & (TCP_FLAG_SYN | TCP_FLAG_RST | - TCP_FLAG_FIN))) { - - FTP_ALG_DEBUG_PRINTF("SYN Case setting delta = 0") - - /* reset the delta */ - if(PREDICT_FALSE(session_db != NULL)) { - session_db->alg.delta = 0; - } else { - db->alg.delta = 0; - } - - } else { - - /* need to adjust seq # for in2out pkt if delta is not 0 */ - if (PREDICT_TRUE((session_db && (session_db->alg.delta != 0)) - || ((!session_db) && (db->alg.delta != 0)))) { - seq = net2host32(&tcp->seq_num); - - FTP_ALG_DEBUG_PRINTF("Orig Seq Num 0x%x", seq) - /* - * for ftp packets, due to PORT command translation, - * we may have cases that a packet/payload len gets - * changed for tcp, we need to adjust the packet's - * sequence numbers to match the changes. The delta - * of orig pkt len and new len is in alg_dlt[1] together - * with the sequence number that cuased the delta. When - * there are multiple len changes, we keep theprevious - * delta in alg_dlt[0] for case like pkt retransmission. - * So depends on packet seq number, we decide to use - * either latest delta or previous delta ([0]) - * We won't be here if both delta values are 0 - */ - if(PREDICT_FALSE(session_db != NULL)) { - seq1 = seq > session_db->tcp_seq_num ? - (seq + session_db->alg.alg_dlt[1]): - (seq + session_db->alg.alg_dlt[0]); - } else { - seq1 = seq > db->proto_data.seq_pcp.tcp_seq_num ? - (seq + db->alg.alg_dlt[1]): - (seq + db->alg.alg_dlt[0]); - } - - FTP_ALG_DEBUG_PRINTF("Old_seq_num 0x%x New Seq Num 0x%x", - seq, seq1) - - if (PREDICT_TRUE(seq1 != seq)) { - - tcp->seq_num = host2net32(seq1); - - FTP_ALG_DEBUG_PRINTF("Old TCP Checksum 0x%x", - net2host16(&tcp->tcp_checksum)) - - /* - * fix checksum incremental for seq # changes - * newchecksum = ~(~oldchecksum + ~old + new) - */ - CNAT_UPDATE_TCP_SEQ_ACK_CHECKSUM(seq, seq1) - } /* There is a diff in seq */ - - } /* ALG Delta is non zero */ - - rc = cnat_ftp_alg((u8*) ip, &delta, db, dslite_entry_ptr, ipv6_hdr); - - FTP_ALG_DEBUG_PRINTF("cnat_ftp_alg rc 0x%x", rc) - - /*if located PORT cmd, packet being updated, take the delta and seq # */ - if (PREDICT_FALSE(rc)) { - - /* set alg flag for this ftp control connection */ - if(PREDICT_FALSE(session_db != NULL)) { - session_db->flags |= CNAT_DB_FLAG_ALG_CTRL_FLOW; - } else { - db->flags |= CNAT_DB_FLAG_ALG_CTRL_FLOW; - } - - /* - * rc != 0 indicates this packet has triggered a new pkt len delta - * we need to update db entry's seq# with seq# of this packet. - * - * Move alg_dlt[1] to [0], (current delta -> previous delta) - * then apply latest delta to alg_dlt[1] (keep [1] as latest delta) - */ - if(PREDICT_FALSE(session_db != NULL)) { - session_db->tcp_seq_num = net2host32(&tcp->seq_num); - session_db->alg.alg_dlt[0] = session_db->alg.alg_dlt[1]; - - /* accumulate the delta ! */ - session_db->alg.alg_dlt[1] += delta; - FTP_ALG_DEBUG_PRINTF( - "cnat_ftp_alg seq_num 0x%x, dlt0 0x%x, dlt1 0x%x", - session_db->tcp_seq_num, - session_db->alg.alg_dlt[0], - session_db->alg.alg_dlt[1]) - - } else { - db->proto_data.seq_pcp.tcp_seq_num = net2host32(&tcp->seq_num); - db->alg.alg_dlt[0] = db->alg.alg_dlt[1]; - - /* accumulate the delta ! */ - db->alg.alg_dlt[1] += delta; - - FTP_ALG_DEBUG_PRINTF( - "cnat_ftp_alg seq_num 0x%x, dlt0 0x%x, dlt1 0x%x", - db->proto_data.seq_pcp.tcp_seq_num, - db->alg.alg_dlt[0], - db->alg.alg_dlt[1]) - } - ctx->current_length += delta; - }/* cnat_ftp_alg returned non zero */ - } /* It is not a SYN, RST or FIN */ - } else if (PREDICT_FALSE(rtsp_alg_port_num && - ((spp_net_to_host_byte_order_16(&tcp->dest_port) == rtsp_alg_port_num) || - (spp_net_to_host_byte_order_16(&tcp->src_port) == rtsp_alg_port_num))) ) { - - if (PREDICT_FALSE(tcp->flags & (TCP_FLAG_SYN | TCP_FLAG_RST | - TCP_FLAG_FIN))) { - - FTP_ALG_DEBUG_PRINTF("SYN Case setting delta = 0") - - /* reset the delta */ - if(PREDICT_FALSE(session_db != NULL)) { - session_db->alg.delta = 0; - } else { - db->alg.delta = 0; - } - - } else { -#define RTSP_ALG_DELTA_MASK 0xFF - /* need to adjust seq # for in2out pkt if delta is not 0 */ - if (PREDICT_FALSE((session_db && - (session_db->alg.delta & RTSP_ALG_DELTA_MASK) != 0) || - ((!session_db) && - (db->alg.delta & RTSP_ALG_DELTA_MASK) != 0))) { - seq = net2host32(&tcp->seq_num); - - if(PREDICT_FALSE(session_db != NULL)) { - seq1 = seq > session_db->tcp_seq_num ? - (seq + db->alg.alg_dlt[1]): - (seq + db->alg.alg_dlt[0]); - } else { - seq1 = seq > db->proto_data.seq_pcp.tcp_seq_num ? - (seq + db->alg.alg_dlt[1]): - (seq + db->alg.alg_dlt[0]); - } - - FTP_ALG_DEBUG_PRINTF("Old_seq_num 0x%x New Seq Num 0x%x", - seq, seq1) - - if (PREDICT_TRUE(seq1 != seq)) { - - tcp->seq_num = host2net32(seq1); - - FTP_ALG_DEBUG_PRINTF("Old TCP Checksum 0x%x", - net2host16(&tcp->tcp_checksum)) - - /* - * fix checksum incremental for seq # changes - * newchecksum = ~(~oldchecksum + ~old + new) - */ - CNAT_UPDATE_TCP_SEQ_ACK_CHECKSUM(seq, seq1) - } - - } - } - if ((session_db && (!session_db->alg.il)) || - ((!session_db) && (!db->alg.il))) { - cnat_rtsp_alg((u8*) ip, - &delta, - db, - ctx->current_length, - NULL, - NULL); - } - } -handle_ttl_n_checksum: - if (PLATFORM_HANDLE_TTL_DECREMENT) { - /* - * Decrement TTL and update IPv4 checksum - */ - ipv4_decr_ttl_n_calc_csum(ip); - } - - tcp_in2out_nat_mss_n_checksum(ip, - tcp, - db->out2in_key.k.ipv4, - db->out2in_key.k.port, - db); -/* CNAT_PPTP_ALG_SUPPORT */ - /* code to handle pptp control msgs */ - if(PREDICT_FALSE( - (spp_net_to_host_byte_order_16(&tcp->dest_port) == - TCP_PPTP_PORT))) { - - u32 ret; - - PPTP_DBG(3, "PPTP mgmt/ctrl msg recieved"); - - ret = cnat_handle_pptp_msg(ctx, db , tcp, PPTP_PNS ); - - if( PREDICT_FALSE( ret != CNAT_SUCCESS) ) { - PPTP_DBG(3, "PPTP mgmt/ctrl msg drop"); - disposition = CNAT_DROP; - PPTP_INCR(ctrl_msg_drops); - goto drop_pkt; - } - } - -/* CNAT_PPTP_ALG_SUPPORT */ - - /* update transaltion counters */ - db->in2out_pkts++; - - in2out_forwarding_count++; - - PLATFORM_CNAT_SET_TX_VRF(ctx,db->out2in_key.k.vrf); - - /* update the timer for good mode, or evil mode dst_ip match */ - -// if (!address_dependent_filtering || fd->dbl.dst_ipv4 == db->dst_ipv4) { - if(PREDICT_FALSE(session_db != NULL)) { - V4_TCP_UPDATE_SESSION_DB_FLAG(session_db, tcp); - CNAT_DB_TIMEOUT_RST(session_db); - } else { - V4_TCP_UPDATE_SESSION_FLAG(db, tcp); - CNAT_DB_TIMEOUT_RST(db); - } - -// } - - } - - /* Pick up the answer and put it into the context */ - fd->dbl.db_index = db_index; - -drop_pkt: - - DISP_PUSH_CTX(np, ctx, disposition, disp_used, last_disposition, last_contexts_ptr, last_nused_ptr); - -} - diff --git a/plugins/vcgn-plugin/vcgn/cnat_va_db.c b/plugins/vcgn-plugin/vcgn/cnat_va_db.c deleted file mode 100644 index 7423bdf2de2..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_va_db.c +++ /dev/null @@ -1,286 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_va_db.c - virtual assembly database - * - * Copyright (c) 2009, 2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <stdio.h> -#include <stdlib.h> -#include <string.h> -#include <cnat_va_db.h> -#include <format.h> -#include <spp_node.h> -#include <spp_alloc.h> -#include <spp_byteorder.h> -#include <spp_main.h> -#include <spp_cache.h> -#include <spp_interface.h> -#include <spp_api.h> -#include <spp_client_api.h> -#include <spp_timers.h> -#include <cnat_db.h> -#include <spp_plugin.h> -#include <cnat_v4_functions.h> - - -va_bucket_t va_bucket[VA_BUCKETS]; - -void va_bucket_init () { - - u32 i; - - /* - * set the pointer in each bucket - * points to nowhere - */ - for (i=0; i<VA_BUCKETS; i++) { - va_bucket[i].next_available_entry = ~0; - } - -} - -inline void va_db_add_new_entry (u32 bucket_index, - va_lookup_key * key ) -{ - - va_entry_t * entry_p; - u32 head, next; - - entry_p = va_db_lookup(bucket_index, key); - - if (PREDICT_FALSE(entry_p)) { - FRAG_DEBUG_PRINTF6( - "\nVA_ADD_NEW: Bucket %d fnd Existng entry [%d, %d] -> [%d, %d]\n", - bucket_index, entry_p->src_port, - entry_p->dst_port, key->e.src_port, key->e.dst_port) - - /* found match entry, update it */ - entry_p->src_port = key->e.src_port; - entry_p->dst_port = key->e.dst_port; - - FRAG_DEBUG_PRINTF3("VA_ADD_NEW: Existing bucket %d, counter %d\n", - bucket_index, - va_bucket[bucket_index].new_entry_counter) - - } else { - - /* no match, add a new one */ - head = va_bucket[bucket_index].head_entry; - next = va_bucket[bucket_index].next_available_entry; - - FRAG_DEBUG_PRINTF5( - "\nVA_ADD_NEW: Filling bucket %d, index %d with key 0x%llx %x\n", - bucket_index, next, key->k.key64, key->k.key32) - - va_bucket[bucket_index].va_entry[next] = key->e; - - /* increase next pointer */ - va_bucket[bucket_index].next_available_entry = (next+1) & VA_BUCKET_MASK; - - if (PREDICT_FALSE(head == va_bucket[bucket_index].next_available_entry)) { - /* adjust head circular pointer */ - va_bucket[bucket_index].head_entry = (head+1) & VA_BUCKET_MASK; - } - - va_bucket[bucket_index].new_entry_counter++; - - FRAG_DEBUG_PRINTF4( - "VA_ADD_NEW: NEW bucket %d, entry %d counter %d\n", - bucket_index, next, va_bucket[bucket_index].new_entry_counter) - } -} - - -/* - * use the key, - * return pointer to the entry if found, - * NULL if not - */ - -inline -va_entry_t * va_db_lookup (u32 bucket_index, va_lookup_key * key) -{ - - u32 index, next; - va_entry_t * entry_p; - va_bucket_t * bucket; - - bucket = &va_bucket[bucket_index]; - index = bucket->head_entry; - next = bucket->next_available_entry; - entry_p = NULL; - - FRAG_DEBUG_PRINTF4( - "\nVA_DB_LOOKUP: bucket index %d head %d next %d\n", - bucket_index, index, next) - - /* loop through the entries in the bucket */ - while( index != next) { - - if(PREDICT_TRUE(memcmp(&bucket->va_entry[index], key, VA_KEY_SIZE)==0)) { - - entry_p = &bucket->va_entry[index]; - /*In add frag entry function we are again assigning key's src - port to entry_p's src port. So when a main DB entry is deleted/ - timed out, and again another entry is created for the same - src ip and src port pair, the frag's entry_p will have the - previous port info stored and not updated. Hence the below - line is not required*/ - - /* *(u32*)&key->e.src_port = *(u32*)&entry_p->src_port; */ - /* do two ports as u32 :) */ - - break; - } - - index = (index +1) & VA_BUCKET_MASK; - - } - -#ifdef FRAG_DEBUG - if (PREDICT_TRUE(entry_p)) { - FRAG_DEBUG_PRINTF3("VA_DB_LOOKUP: bucket index %d entry index %d\n", - bucket_index, index) - FRAG_DEBUG_PRINTF5("VA_DB_LOOKUP: SRC-->DST [0x%x, %d] [0x%x, %d]\n", - entry_p->src_ip, entry_p->src_port, - entry_p->dst_ip, entry_p->dst_port) - FRAG_DEBUG_PRINTF3("[vrf 0x%x, id 0x%x]\n", - entry_p->vrf, entry_p->ip_id) - } else { - FRAG_DEBUG_PRINTF1("\nNULL ENTRY\n") - } -#endif - - return entry_p; - -} - -inline -int va_db_delete_entry (u32 bucket_index, va_lookup_key * key) -{ - - u32 index, next; - int entry_found = 0; - va_bucket_t * bucket; - - bucket = &va_bucket[bucket_index]; - index = bucket->head_entry; - next = bucket->next_available_entry; - - FRAG_DEBUG_PRINTF4( - "\nVA_DB_DELETE_ENTRY: bucket index %d head %d next %d\n", - bucket_index, index, next); - - /* loop through the entries in the bucket */ - while( index != next) { - if(PREDICT_TRUE(memcmp(&bucket->va_entry[index], key, - VA_KEY_SIZE)==0)) { - /* Clear the entry */ - FRAG_DEBUG_PRINTF1("Entry found in delete API"); - memset(&bucket->va_entry[index], 0, sizeof(va_entry_t)); - entry_found = 1; - break; - } - index = (index +1) & VA_BUCKET_MASK; - } - return entry_found; -} - - - -void cnat_va_bucket_used (int argc, unsigned long * argv) -{ - - u32 i, sum = 0;; - - for(i=0;i<VA_BUCKETS;i++) { - - if(PREDICT_TRUE(va_bucket[i].new_entry_counter)) sum++; - - } - - if (PREDICT_FALSE(!sum)) { - printf("no bucket in use\n"); - return; - } - - printf("index head next counter (%d bucket in use)\n", sum); - - for(i=0;i<VA_BUCKETS;i++) { - - if (PREDICT_FALSE(!va_bucket[i].new_entry_counter)) continue; - - printf(" %04d %04d %04d %d\n", i, - va_bucket[i].head_entry, - va_bucket[i].next_available_entry, - va_bucket[i].new_entry_counter); - - } -} - -void cnat_va_dump (int argc, unsigned long * argv) -{ - - u32 i, sum, index ; - - PLATFORM_DEBUG_PRINT("====== SUMMARY ======\n"); - PLATFORM_DEBUG_PRINT("Total buckets: %d\n", VA_BUCKETS); - PLATFORM_DEBUG_PRINT("Entries per bucket: %d\n", VA_ENTRY_PER_BUCKET); - - sum = 0; - - for(i=0; i<VA_BUCKETS; i++) { - if (PREDICT_TRUE(va_bucket[i].new_entry_counter > 0)) sum ++; - } - - PLATFORM_DEBUG_PRINT("buckets in use: %d\n", sum); - - sum = 0; - for(i=0; i<VA_BUCKETS; i++) { - - if ( PREDICT_FALSE(((va_bucket[i].next_available_entry+1) & VA_BUCKET_MASK) - == va_bucket[i].head_entry)) { - - sum ++; - } - } - - PLATFORM_DEBUG_PRINT("bucket full: %d\n", sum); - - /* dump per bucket info */ - - if (argc == 0 ) return; - - index = (u32) argv[0]; - - if (PREDICT_FALSE(index >= VA_BUCKETS)) { - PLATFORM_DEBUG_PRINT("invalid bucket index %d\n", index); - return; - } - - PLATFORM_DEBUG_PRINT("\n====== Bucket %d ======\n", index); - - PLATFORM_DEBUG_PRINT("bucket head index %d\n", va_bucket[index].head_entry); - - PLATFORM_DEBUG_PRINT("bucket next index %d\n", va_bucket[index].next_available_entry); - - PLATFORM_DEBUG_PRINT(" source IP dest IP VRF ip-id srcP dstP\n"); - - for(i=0;i<VA_ENTRY_PER_BUCKET;i++) { - hex_dump((u8*)&va_bucket[index].va_entry[i], sizeof(va_entry_t)); - } - -} diff --git a/plugins/vcgn-plugin/vcgn/cnat_va_db.h b/plugins/vcgn-plugin/vcgn/cnat_va_db.h deleted file mode 100644 index 6e0051b46f7..00000000000 --- a/plugins/vcgn-plugin/vcgn/cnat_va_db.h +++ /dev/null @@ -1,121 +0,0 @@ -/* - *------------------------------------------------------------------ - * cnat_va_db.h - definition for virtual assembly database - * - * Copyright (c) 2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __CNAT_VA_DB_H__ -#define __CNAT_VA_DB_H__ - -#include <clib_lite.h> - -#define FRAG_DEBUG 1 - -/* virtual assemble hash database size ~ 16B x 64K = 1MB */ - -#define VA_TOTAL_ENTRIES (64*1024) -#define VA_ENTRY_PER_BUCKET (8) /* make sure size is power of 2 for circular FIFO */ -#define VA_BUCKET_MASK (VA_ENTRY_PER_BUCKET -1) -#define VA_BUCKETS (VA_TOTAL_ENTRIES / VA_ENTRY_PER_BUCKET) -#define VA_KEY_SIZE 12 - -typedef struct _va_entry { - /* key: top 12 bytes */ - u32 src_ip; - u32 dst_ip; - u16 vrf; /* overloaded with protocol info with top two bits */ - u16 ip_id; - - /* values */ - u16 src_port; - u16 dst_port; -} va_entry_t; - -typedef struct _va_keys { - u64 key64; /* src & dst IP */ - u32 key32; /* vrf, protocol and ip_id */ -} va_keys; - -typedef union { - va_entry_t e; - va_keys k; -} va_lookup_key; - -typedef struct _va_bucket_t { - u32 head_entry; - u32 next_available_entry; /* ~0 for empty bucket */ - u32 new_entry_counter; /* for debug purpose */ - va_entry_t va_entry[VA_ENTRY_PER_BUCKET]; -} va_bucket_t; - -extern va_bucket_t va_bucket[]; /* hash table in cnat_va_db.c */ - -void va_bucket_init (); - -inline void va_db_add_new_entry (u32 bucket_index, va_lookup_key * ); -inline int va_db_delete_entry (u32 bucket_index, va_lookup_key * ); -inline va_entry_t * va_db_lookup (u32 bucket_index, va_lookup_key * key); - -#ifdef FRAG_DEBUG - -#define FRAG_DEBUG_PRINTF1(a) \ - if (frag_debug_flag) { \ - PLATFORM_DEBUG_PRINT(a); \ - } - -#define FRAG_DEBUG_PRINTF2(a, b) \ - if (frag_debug_flag) { \ - PLATFORM_DEBUG_PRINT(a, b); \ - } - -#define FRAG_DEBUG_PRINTF3(a, b, c) \ - if (frag_debug_flag) { \ - PLATFORM_DEBUG_PRINT(a, b, c); \ - } - -#define FRAG_DEBUG_PRINTF4(a, b, c, d) \ - if (frag_debug_flag) { \ - PLATFORM_DEBUG_PRINT(a, b, c, d); \ - } - -#define FRAG_DEBUG_PRINTF5(a, b, c, d, e) \ - if (frag_debug_flag) { \ - PLATFORM_DEBUG_PRINT(a, b, c, d, e); \ - } - -#define FRAG_DEBUG_PRINTF6(a, b, c, d, e, f) \ - if (frag_debug_flag) { \ - PLATFORM_DEBUG_PRINT(a, b, c, d, e, f); \ - } -#else - -#define FRAG_DEBUG_PRINTF1(a) - -#define FRAG_DEBUG_PRINTF2(a, b) - -#define FRAG_DEBUG_PRINTF3(a, b, c) - -#define FRAG_DEBUG_PRINTF4(a, b, c, d) - -#define FRAG_DEBUG_PRINTF5(a, b, c, d, e) - -#define FRAG_DEBUG_PRINTF6(a, b, c, d, e, f) - -#endif - -#endif /* __CNAT_VA_DB_H__ */ - - diff --git a/plugins/vcgn-plugin/vcgn/dslite_db.h b/plugins/vcgn-plugin/vcgn/dslite_db.h deleted file mode 100644 index 2269b98c989..00000000000 --- a/plugins/vcgn-plugin/vcgn/dslite_db.h +++ /dev/null @@ -1,170 +0,0 @@ -/* - *------------------------------------------------------------------ - * dslite_db.h - Stateful DSLITE translation database definitions - * - * Copyright (c) 2010-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#ifndef __DSLITE_DB_H__ -#define __DSLITE_DB_H__ - -#include "cnat_cli.h" -#include "index_list.h" -#include "cnat_ports.h" -#include "cnat_db.h" -#include "dslite_defs.h" - -#define DSLITE_PRINTF(level, ...) \ - if (dslite_debug_level > level) PLATFORM_DEBUG_PRINT(__VA_ARGS__); -/* -#define DSLITE_PRINTF(lvl, ...) \ -{ \ - avsm_dispatlib_debug (__VA_ARGS__); \ -} -*/ - -#define HASH_ENHANCE 4 -//#define DSLITE_DEF -#define DSLITE_MAIN_DB_SIZE (20000000 / PLATFORM_CNAT_INSTS) -#define DSLITE_MAIN_HASH_SIZE \ - (HASH_ENHANCE * PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE) - -#define DSLITE_MAIN_HASH_MASK (DSLITE_MAIN_HASH_SIZE-1) - - -/* nb: 200000 users / 64 CNAT = 3125, 76% occupancy */ -#define DSLITE_USER_HASH_SIZE CNAT_USER_HASH_SIZE -#define DSLITE_USER_HASH_MASK (DSLITE_USER_HASH_SIZE-1) - -/* No. of per ip/port config will be limited to 1000 */ -#define DSLITE_TIMEOUT_HASH_SIZE 1000 -#define DSLITE_TIMEOUT_HASH_MASK (DSLITE_TIMEOUT_HASH_SIZE - 1) -#define DSLITE_TIMEOUT_FULL_MASK 0xFFFFFFFFFFFFFFFF - -#define CNAT_MAX_SESSIONS_PER_BIB 0xFFFF - -#define FORCE_DEL 1 /* Delete static BIB entries as well */ - -/* default timeout values */ -#define DSLITE_UDP_DEFAULT 300 /* 5 min */ -#define DSLITE_UDP_MIN 120 /* 2 min */ -#define DSLITE_TCP_TRANS 240 /* 4 min */ -#define DSLITE_TCP_EST 7200 /* 2 hrs */ -#define DSLITE_TCP_V4_SYN 6 /* 6 sec */ -#define DSLITE_FRAG_MIN 2 /* 2 sec */ -#define DSLITE_ICMP_DEFAULT 60 /* 1 min */ - -extern u32 dslite_translation_create_count; -extern u32 dslite_translation_delete_count; -extern u32 dslite_translation_create_rate; -extern u32 dslite_translation_delete_rate; -extern u32 dslite_in2out_forwarding_count; -extern u32 dslite_in2out_forwarding_rate; -extern u32 dslite_out2in_forwarding_count; -extern u32 dslite_out2in_forwarding_rate; - -#define DSLITE_V6_GET_HASH(in_key, hash, mask) \ - a = in_key->ipv6[0] ^ in_key->ipv6[1] ^ in_key->ipv6[2] ^ in_key->ipv6[3] \ - ^ in_key->ipv4_key.k.ipv4 ^ ((in_key->ipv4_key.k.port << 16) | in_key->ipv4_key.k.vrf); \ - DSLITE_PRINTF(1, "%x:%x:%x:%x:%x:%x:%x\n", in_key->ipv6[0], in_key->ipv6[1], in_key->ipv6[2], in_key->ipv6[3], \ - in_key->ipv4_key.k.ipv4, in_key->ipv4_key.k.port, in_key->ipv4_key.k.vrf); \ - b = c = 0x9e3779b9;\ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; \ - - -#define DSLITE_V6_GET_USER_HASH(ipv6, hash, mask) \ - a = ipv6[0] ^ ipv6[1] ^ ipv6[2] ^ ipv6[3]; \ - b = c = 0x9e3779b9;\ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; \ - -#define DSLITE_V4_GET_HASH(in_key, hash, mask) \ - a = in_key.ipv4 ^ ((in_key.port << 16) | in_key.vrf); \ - b = c = 0x9e3779b9; \ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; - -#define PRIVATE_V4_ADDR_CHECK(addr, invalid) \ - invalid = 0; \ - int range1 = ((addr & 0xFF000000) >> 24); \ - int range2 = ((addr & 0xFFF00000) >> 20); \ - int range3 = ((addr & 0xFFFF0000) >> 16); \ - int range4 = ((addr & 0xFFFFFFF8) >> 3); \ - if(range1 != 0xa && range2 != 0xac1 && range3 != 0xc0a8 && range4 != 0x18000000) \ - invalid = 1; - -#define V4_MAPPED_V6_CHECK(v6_addr, invalid) \ - invalid = 0; \ - int word1 = v6_addr[0]; \ - int word2 = v6_addr[1]; \ - int word3 = v6_addr[2]; \ - if(!((word1 == 0) && (word2 == 0) && (word3 == 0x0000FFFF))) \ - invalid = 1; - - -extern dslite_table_entry_t dslite_table_array[DSLITE_MAX_DSLITE_ENTRIES]; -extern dslite_table_entry_t *dslite_table_ptr; - -#define DSLITE_CMP_V6_KEY(key1, key2) \ - memcmp(key1, key2, sizeof(dslite_v6_key_t)) - -#define DSLITE_CMP_V4_KEY(key1, key2) \ - memcmp(key1, key2, sizeof(dslite_v4_key_t)) - - -#define DSLITE_CMP_V6_IP(ip1, ip2) \ - memcmp(ip1, ip2, (sizeof(u32) * 4)) - - -#define DSLITE_CMP_V6_KEY1(key1, key2) \ - (key1.ipv6[0] == key2.ipv6[0]) && (key1.ipv6[1] == key2.ipv6[1]) && \ - (key1.ipv6[2] == key2.ipv6[2]) && (key1.ipv6[3] == key2.ipv6[3]) && \ - (key1.port == key2.port) && (key1.vrf == key2.vrf) - - -#define DSLITE_CMP_V6_IP1(ip1, ip2) \ - ((ip1[0] == ip2[0]) && (ip1[1] == ip2[1]) && \ - (ip1[2] == ip2[2]) && (ip1[3] == ip2[3])) - -#define DSLITE_CMP_V4_KEY1(key1, key2) \ - (key1.key64 == key2.key64) - -cnat_main_db_entry_t* -dslite_get_main_db_entry_v2(dslite_db_key_bucket_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info, - dslite_table_entry_t *dslite_entry_ptr, - cnat_key_t *dest_info); - -cnat_main_db_entry_t* -dslite_main_db_lookup_entry(dslite_db_key_bucket_t *ki); - - -cnat_user_db_entry_t* -dslite_user_db_lookup_entry(dslite_db_key_bucket_t *uki); - -cnat_user_db_entry_t* -dslite_user_db_create_entry(dslite_db_key_bucket_t *uki, u32 portmap_index); - -cnat_main_db_entry_t* -dslite_create_main_db_entry_and_hash(dslite_db_key_bucket_t *ki, - cnat_db_key_bucket_t *ko, - cnat_user_db_entry_t *udb); - -#endif diff --git a/plugins/vcgn-plugin/vcgn/dslite_defs.h b/plugins/vcgn-plugin/vcgn/dslite_defs.h deleted file mode 100644 index 4860adcb77d..00000000000 --- a/plugins/vcgn-plugin/vcgn/dslite_defs.h +++ /dev/null @@ -1,336 +0,0 @@ -/* - *------------------------------------------------------------------ - * dslite_defs.h - DSLITE structure definiitions - * - * Copyright (c) 2011-2012 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __DSLITE_DEFS_H__ -#define __DSLITE_DEFS_H__ - -#ifdef TOBE_PORTED -#include "spp_platform_common.h" -#include "cgse_defs.h" -#endif -#include "cnat_cli.h" -#include "cnat_config.h" -#include "cnat_ports.h" -#include "cnat_bulk_port_defs.h" - -extern u32 ds_lite_config_debug_level; - -#define SWAP_IPV6_ADDR(ipv6_hdr, dslite_entry_ptr) \ - ipv6_hdr->dst_addr[0] = ipv6_hdr->src_addr[0]; \ - ipv6_hdr->dst_addr[1] = ipv6_hdr->src_addr[1]; \ - ipv6_hdr->dst_addr[2] = ipv6_hdr->src_addr[2]; \ - ipv6_hdr->dst_addr[3] = ipv6_hdr->src_addr[3]; \ - ipv6_hdr->src_addr[0] = spp_host_to_net_byte_order_32(dslite_entry_ptr->AFTR_v6_address[0]); \ - ipv6_hdr->src_addr[1] = spp_host_to_net_byte_order_32(dslite_entry_ptr->AFTR_v6_address[1]); \ - ipv6_hdr->src_addr[2] = spp_host_to_net_byte_order_32(dslite_entry_ptr->AFTR_v6_address[2]); \ - ipv6_hdr->src_addr[3] = spp_host_to_net_byte_order_32(dslite_entry_ptr->AFTR_v6_address[3]); - -#define DSLITE_SET_TX_PKT_TYPE(type) { \ - ctx->ru.tx.packet_type = type; \ -} - -#define DSLITE_INC_STATS_V4(PTR, COUNTER, IPV4_SRC_ADDR) { \ - PTR->COUNTER++; \ -} - -#define DSLITE_INC_STATS_V6(PTR, COUNTER, IPV6_DEST_ADDR) { \ - PTR->COUNTER++; \ -} - - -#define DSLITE_INVALID_UIDX 0xffff /*invalid svi app uidb index */ -#define DSLITE_INVALID_VRFID 0xffffffff /*invalid vrf id */ - -#define DSLITE_VRF_MASK 0x3fff -#define DSLITE_MAX_VRFMAP_ENTRIES (DSLITE_VRF_MASK + 1) - -#define DSLITE_VRFMAP_ENTRY_INVALID 0xffff - -#define DSLITE_V6_PREFIX_MASK_MIN 16 -#define DSLITE_V6_PREFIX_MASK_MAX 96 -#define DSLITE_V6_PREFIX_MASK_MULTIPLE 8 - -#define DSLITE_TUNNEL_MTU_MIN 1280 -#define DSLITE_TUNNEL_MTU_MAX 9216 - -#define DSLITE_TUNNEL_TTL_MIN 0 -#define DSLITE_TUNNEL_TTL_MAX 255 - -#define DSLITE_TUNNEL_TOS_MIN 0 -#define DSLITE_TUNNEL_TOS_MAX 255 - -#define DSLITE_V4_MASK_MAX 32 - -//#define XLAT_MAX_FRAG_ID_COUNTERS (256) -#define DSLITE_AFTR_IPV4_ADDR 0xC0000001 - -#define DSLITE_MAX_TAP_RG_ENTRIES 2 -#define DSLITE_MAX_DSLITE_ENTRIES (256) -#define DSLITE_MAX_DSLITE_ID (DSLITE_MAX_DSLITE_ENTRIES-1) -/* Define the below value as 64 if first 64 entries are for NAT44 */ -#define DSLITE_INDEX_OFFSET 1 - -#define DSLITE_INVALID_DSLITE_ID (0) - -#define DSLITE_TABLE_ENTRY_DELETED 0 -#define DSLITE_TABLE_ENTRY_ACTIVE 1 -#define DSLITE_TABLE_ENTRY_DORMANT 2 -#define DSLITE_TABLE_ENTRY_INVALID_UIDB 3 - -typedef struct { - u16 tcp_initial_setup_timeout; - u16 tcp_active_timeout; - u16 udp_init_session_timeout; - u16 udp_act_session_timeout; - u16 icmp_session_timeout; - u16 temp; -} dslite_timeout_info_t; - - -typedef struct { - - u16 state; /* To use nat44 enums ?? TBD */ - u16 dslite_id; /* DSLITE_ID value for this table entry - for easy access */ - - u16 i_vrf; /* V6 uidb index */ - u16 o_vrf; /* V4 uidb index */ - - u16 cnat_main_db_max_ports_per_user; /* port limit */ - u16 tcp_mss; /*tcp max segment size for this inside vrf */ - - u32 delete_time; - - cnat_portmap_v2_t *portmap_list; - - u32 nfv9_logging_index; - u32 syslog_logging_index; - u32 AFTR_v6_address[4]; - -#define DSLITE_IPV4_TOS_OVERRIDE_FLAG 0x00000001 -#define DSLITE_IPV6_TOS_OVERRIDE_FLAG 0x00000002 -#define DSLITE_IPV4_TTL_OVERRIDE_FLAG 0x00000004 -#define DSLITE_IPV6_TTL_OVERRIDE_FLAG 0x00000008 -#define DSLITE_IPV6_FRAG_REASSEMB_ENG 0x00000010 -#define DSLITE_FTP_ALG_ENABLE 0x00000020 -#define DSLITE_RTSP_ALG_ENABLE 0x00000040 -#define DSLITE_NETFLOW_ENABLE 0x00000080 -#define DSLITE_SYSLOG_ENABLE 0x00000100 - - u16 feature_flags; - u16 tunnel_mtu; - - u8 ipv4_ttl_value; - u8 ipv6_ttl_value; - u8 ipv4_tos_value; - u8 ipv6_tos_value; - - u32 v4_if_num; /* V4 SVI ifnum */ - u32 v6_if_num; /* V6 SVI ifnum */ - u32 i_vrf_id; //inside vrf id - u32 o_vrf_id; //outside vrf id - - dslite_timeout_info_t timeout_info; - u16 cnat_static_port_range; - u16 dyn_start_port; - - u32 AFTR_v4_addr; - bulk_alloc_size_t bulk_size; /* should be equivalent to u16 - 2 bytes */ - u32 pcp_server_addr; - u16 pcp_server_port; - u8 mapping_refresh_both_direction; - u8 pad; - u16 rtsp_port; -#define DSLITE_BIDIR_REFRESH 1 - u8 dslite_enable; /* DS-Lite enable check flag */ - u8 syslog_logging_policy; /* DS-Lite Session Logging check flag */ - u8 nf_logging_policy; - - u8 temp1; - u16 temp2; - u32 temp3; - u32 rseed_ip; -} dslite_table_entry_t; - -typedef struct { - u64 v4_to_v6_invalid_uidb_drop_count; - u64 v6_to_v4_invalid_uidb_drop_count; - u64 v4_to_v6_frag_invalid_uidb_drop_count; -} dslite_global_counters_t; - -typedef struct { - u32 tap_enable; - u32 ipv4_addr; - u32 ipv6_addr[4]; -} dslite_tap_rg_t; - -extern dslite_table_entry_t *dslite_table_db_ptr; - - -#define DSLITE_ADD_UIDB_INDEX_DSLITE_ID_MAPPING(uidb_index, dslite_id) \ - *(cgse_uidb_index_cgse_id_mapping_ptr + uidb_index) = dslite_id; - -extern u8 my_instance_number; - -extern void dslite_clear_counters(u16 dslite_id); -extern void dslite_clear_per_RG_counters(); -extern dslite_global_counters_t dslite_global_counters; -extern u32 dslite_config_debug_level; -extern u32 dslite_data_path_debug_level; -extern u32 dslite_defrag_debug_level; -extern u32 dslite_debug_level; - -typedef struct { - u64 v6_to_v4_tcp_input_count; - u64 v6_to_v4_tcp_nat_error; - u64 v6_to_v4_tcp_output_count; -} dslite_v6_to_v4_tcp_counter_t; - -typedef struct { - u64 v4_to_v6_tcp_input_count; - u64 v4_to_v6_tcp_no_entry; - u64 v4_to_v6_tcp_output_count; -} dslite_v4_to_v6_tcp_counter_t; - -typedef struct { - u64 v6_to_v4_udp_input_count; - u64 v6_to_v4_udp_nat_error; - u64 v6_to_v4_udp_output_count; -} dslite_v6_to_v4_udp_counter_t; - -typedef struct { - u64 v4_to_v6_udp_input_count; - u64 v4_to_v6_udp_no_entry; - u64 v4_to_v6_udp_output_count; -} dslite_v4_to_v6_udp_counter_t; - -typedef struct { - u64 v6_to_v4_icmp_qry_input_count; - u64 v6_to_v4_icmp_qry_nat_error; - u64 v6_to_v4_icmp_qry_output_count; -} dslite_v6_to_v4_icmp_qry_counter_t; - -typedef struct { - u64 v4_to_v6_icmp_qry_input_count; - u64 v4_to_v6_icmp_qry_no_nat_entry; - u64 v4_to_v6_icmp_qry_output_count; -} dslite_v4_to_v6_icmp_qry_counter_t; - -typedef struct { - u64 v6_to_v4_icmp_error_input_count; - u64 v6_to_v4_icmp_error_nat_error; - u64 v6_to_v4_icmp_error_output_count; -} dslite_v6_to_v4_icmp_error_counter_t; - -typedef struct { - u64 v4_to_v6_icmp_error_input_count; - u64 v4_to_v6_icmp_error_no_nat_entry; - u64 v4_to_v6_icmp_error_output_count; -} dslite_v4_to_v6_icmp_error_counter_t; - -typedef struct { - u64 v6_icmp_error_input_count; - u64 v6_AFTR_echo_reply_count; - u64 v6_to_v4_icmp_error_unsupported_type_drop_count; - u64 v6_to_v4_icmp_error_no_db_entry_count; - u64 v6_to_v4_icmp_err_throttled_count; - u64 v6_to_v4_icmp_error_xlated_count; -} dslite_v6_icmp_error_counter_t; - -typedef struct { - u64 v4_to_v6_ttl_gen_count; - u64 v4_to_v6_icmp_throttle_count; - u64 v4_to_v6_ptb_gen_count; - u64 v4_to_v6_aftr_v4_echo_reply_count; - u64 v6_to_v4_ttl_gen_count; - u64 v6_to_v4_icmp_throttle_count; - u64 v6_to_v4_admin_prohib_icmp_count; - u64 v6_to_v4_aftr_v4_echo_reply_count; - u64 v6_icmp_gen_count; -} dslite_icmp_gen_counter_t; - -typedef struct { - u64 dslite_input_tunnel_pkt; - u64 dslite_encap_count; - u64 dslite_decap_count; - u64 dslite_sec_check_failed; - u64 dslite_unsupp_packet; -} dslite_common_counter_t; - -typedef struct { - - dslite_v6_to_v4_tcp_counter_t v64_tcp_counters; - dslite_v4_to_v6_tcp_counter_t v46_tcp_counters; - dslite_v6_to_v4_udp_counter_t v64_udp_counters; - dslite_v4_to_v6_udp_counter_t v46_udp_counters; - dslite_v6_to_v4_icmp_qry_counter_t v64_icmp_counters; - dslite_v4_to_v6_icmp_qry_counter_t v46_icmp_counters; - dslite_v6_to_v4_icmp_error_counter_t v64_icmp_error_counters; - dslite_v4_to_v6_icmp_error_counter_t v46_icmp_error_counters; - dslite_v6_icmp_error_counter_t dslite_v6_icmp_err_counters; - dslite_icmp_gen_counter_t dslite_icmp_gen_counters; - dslite_common_counter_t dslite_common_counters; -} dslite_counters_t; - -typedef struct { - u32 active_translations; - u32 translation_create_rate; - u32 translation_delete_rate; - u32 in2out_forwarding_rate; - u32 out2in_forwarding_rate; - u32 in2out_drops_port_limit_exceeded; - u32 in2out_drops_system_limit_reached; - u32 in2out_drops_resource_depletion; - u32 no_translation_entry_drops; - u32 pool_address_totally_free; - u32 num_subscribers; - u32 dummy; - u64 drops_sessiondb_limit_exceeded; -} dslite_common_stats_t; - -typedef struct { - u16 msg_id; - u8 rc; - u8 pad[5]; - dslite_counters_t counters; -} dslite_show_statistics_summary_resp; - - -#define CMD_GENERATE_PTB 0x1 -#define CMD_GENERATE_TTL 0x2 - -/* - * This structure is to provide abstraction for data exchanged from one - * VPP node to its disposition or further in the dslite node graph. - */ -typedef struct { - u32 icmp_gen_type; // ctx->feature_data[0] - u32 reserved1; // ctx->feature_data[1] - u32 reserved2; // ctx->feature_data[2] - u32 reserved3; // ctx->feature_data[3] -} dslite_feature_data_t; - -extern dslite_counters_t dslite_all_counters[DSLITE_MAX_DSLITE_ENTRIES]; -//extern dslite_inst_gen_counter_t dslite_inst_gen_counters[DSLITE_MAX_DSLITE_ENTRIES]; - - - extern void dslite_show_config(void); -#define STAT_PORT_RANGE_FROM_INST_PTR(inst) ((inst)->cnat_static_port_range) - -#endif /* __DSLITE_DEFS_H__ */ - diff --git a/plugins/vcgn-plugin/vcgn/index_list.c b/plugins/vcgn-plugin/vcgn/index_list.c deleted file mode 100644 index ec1b83b0b30..00000000000 --- a/plugins/vcgn-plugin/vcgn/index_list.c +++ /dev/null @@ -1,336 +0,0 @@ -/* - *------------------------------------------------------------------ - * index_list.c - vector-index-based lists. 64-bit pointers suck. - * - * Copyright (c) 2008-2009, 2011 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#include <stdio.h> -#include <string.h> -//#include <clib_lite.h> -#include <vppinfra/vec.h> -#include "index_list.h" - -/* - * index_slist_addhead - * - * args: headp -- pointer to e.g. a hash bucket - * vector -- vector containing the list - * elsize -- size of an element in this vector - * offset -- offset in each vector element of this list thread - * index_to_add -- index in the vector to add to the list - * - * Adds new items to the head of the list. Try not to screw up the args! - */ -void index_slist_addhead (index_slist_t *headp, - u8 *vector, u32 elsize, u32 offset, u32 index_to_add) -{ - return (index_slist_addhead_inline(headp, vector, elsize, offset, - index_to_add)); -} - -/* - * index_slist_remelem - * - * args: headp -- pointer to e.g. a hash bucket - * vector -- vector containing the list - * elsize -- size of an element in this vector - * offset -- offset in each vector element of this list thread - * index_to_del -- index in the vector to delete from the list - * - * Try not to screw up the args! - */ - -int index_slist_remelem (index_slist_t *headp, - u8 *vector, u32 elsize, u32 offset, - u32 index_to_delete) -{ - return (index_slist_remelem_inline(headp, vector, elsize, offset, - index_to_delete)); -} - - -/* - * index_dlist_addtail - * - * Append the indicated vector element to the doubly-linked list - * whose first element is pointed to by headp. - * - * args: head_index -- listhead vector element index. - * vector -- vector containing the list - * elsize -- size of an element in this vector - * offset -- offset in each vector element of this list thread - * index_to_add -- index in the vector to add to the list - * - * Do not call this routine to create the listhead. Simply set - * index_dlist->next = index_dlist->prev = index of item. - * - * Try not to screw up the args. - */ - -void index_dlist_addtail (u32 head_index, u8 *vector, u32 elsize, - u32 offset, u32 index_to_add) -{ - index_dlist_t *elp; - index_dlist_t *elp_next; - index_dlist_t *headp; - - headp = (index_dlist_t *)(vector + offset + elsize*head_index); - elp = (index_dlist_t *)(vector + offset + elsize*index_to_add); - elp->next = index_to_add; - elp->prev = index_to_add; - - elp->next = headp->next; - headp->next = index_to_add; - - elp_next = (index_dlist_t *)(vector + offset + elsize*elp->next); - elp->prev = elp_next->prev; - elp_next->prev = index_to_add; -} - -u32 index_dlist_remelem (u32 head_index, - u8 *vector, u32 elsize, u32 offset, - u32 index_to_delete) -{ - u32 rv = head_index; - index_dlist_t *headp, *elp, *elp_next; - - elp = (index_dlist_t *)(vector + offset + elsize*index_to_delete); - - /* Deleting the head index? */ - if (PREDICT_FALSE(head_index == index_to_delete)) { - rv = elp->next; - /* The only element on the list? */ - if (PREDICT_FALSE(rv == head_index)) - rv = EMPTY; - } - - headp = (index_dlist_t *)(vector + offset + elsize*elp->prev); - headp->next = elp->next; - elp_next = (index_dlist_t *)(vector + offset + elsize*elp->next); - elp_next->prev = elp->prev; - - elp->next = elp->prev = EMPTY; - - return rv; -} - - -#ifdef TEST_CODE2 - -typedef struct tv_ { - char junk[43]; - index_dlist_t l; -} tv_t; - - -void index_list_test_cmd(int argc, unsigned long *argv) -{ - int i, j; - u32 head_index; - index_dlist_t *headp; - tv_t *tp=0; - - vec_validate(tp, 3); - head_index = 3; - - memset(tp, 0xa, sizeof(tp[0])*vec_len(tp)); - - /* Here's how to set up the head element... */ - headp = &((tp + head_index)->l); - headp->next = headp->prev = head_index; - - for (i = 0; i < 3; i++) { - index_dlist_addtail(head_index, (u8 *)tp, sizeof(tp[0]), - STRUCT_OFFSET_OF(tv_t, l), i); - printf("headp next %d prev %d\n", - headp->next, headp->prev); - for (j = 0; j <= 3; j++) { - printf ("[%d]: next %d prev %d\n", j, - tp[j].l.next, tp[j].l.prev); - } - printf("---------------\n"); - - } - - printf("After all adds:\n"); - - printf("headp next %d prev %d\n", - headp->next, headp->prev); - - for (j = 0; j <= 3; j++) { - printf ("[%d]: next %d prev %d\n", j, - tp[j].l.next, tp[j].l.prev); - } - printf("---------------\n"); - - head_index = index_dlist_remelem (head_index, (u8 *)tp, sizeof(tp[0]), - STRUCT_OFFSET_OF(tv_t, l), 1); - - printf("after delete 1, head index %d\n", head_index); - headp = &((tp + head_index)->l); - printf("headp next %d prev %d\n", - headp->next, headp->prev); - for (j = 0; j <= 3; j++) { - printf ("[%d]: next %d prev %d\n", j, - tp[j].l.next, tp[j].l.prev); - } - printf("---------------\n"); - - index_dlist_addtail(head_index, (u8 *)tp, sizeof(tp[0]), - STRUCT_OFFSET_OF(tv_t, l), 1); - - printf("after re-add 1, head index %d\n", head_index); - headp = &((tp + head_index)->l); - printf("headp next %d prev %d\n", - headp->next, headp->prev); - for (j = 0; j <= 3; j++) { - printf ("[%d]: next %d prev %d\n", j, - tp[j].l.next, tp[j].l.prev); - } - printf("---------------\n"); - - for (i = 3; i >= 0; i--) { - head_index = index_dlist_remelem (head_index, (u8 *)tp, sizeof(tp[0]), - STRUCT_OFFSET_OF(tv_t, l), i); - printf("after delete, head index %d\n", head_index); - if (head_index != EMPTY) { - headp = &((tp + head_index)->l); - printf("headp next %d prev %d\n", - headp->next, headp->prev); - for (j = 0; j <= 3; j++) { - printf ("[%d]: next %d prev %d\n", j, - tp[j].l.next, tp[j].l.prev); - } - } else { - printf("empty list\n"); - } - printf("---------------\n"); - } -} -#endif /* test code 2 */ - -#ifdef TEST_CODE - -typedef struct tv_ { - char junk[43]; - index_slist_t l; -} tv_t; - - -void index_list_test_cmd(int argc, unsigned long *argv) -{ - int i, j; - tv_t *tp = 0; - index_slist_t *buckets = 0; - - vec_add1((u32 *)buckets, EMPTY); - vec_validate(tp, 9); - - for (i = 0; i < 10; i++) { - index_slist_addhead(buckets, (u8 *)tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i); - } - - printf ("after adds, buckets[0] = %u\n", buckets[0]); - - for (j = 0; j < 10; j++) { - printf("tp[%d] next %u\n", j, tp[j].l); - - } - - for (i = 0; i < 10; i++) { - if (PREDICT_FALSE(index_slist_remelem(buckets, (u8 *) tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i))) { - printf("OUCH: remelem failure at index %d\n", i); - } - if (PREDICT_FALSE(tp[i].l.next != EMPTY)) { - printf("OUCH: post-remelem next not EMPTY, index %d\n", i); - } - } - - printf ("after deletes, buckets[0] = %x\n", buckets[0]); - - for (i = 0; i < 10; i++) { - index_slist_addhead(buckets, (u8 *)tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i); - } - - printf ("after adds, buckets[0] = %u\n", buckets[0]); - - for (j = 0; j < 10; j++) { - printf("tp[%d] next %u\n", j, tp[j].l); - - } - - for (i = 9; i >= 0; i--) { - if (PREDICT_FALSE(index_slist_remelem(buckets, (u8 *) tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i))) { - printf("OUCH: remelem failure at index %d\n", i); - } - if ((tp[i].l.next != EMPTY)) { - printf("OUCH: post-remelem next not EMPTY, index %d\n", i); - } - } - - printf ("after deletes, buckets[0] = %x\n", buckets[0]); - - printf("add evens, then odds...\n"); - - for (i = 0; i < 10; i += 2) { - index_slist_addhead(buckets, (u8 *)tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i); - - printf ("head = buckets[0].next = %d\n", buckets[0].next); - for (j = 0; j < 10; j++) { - printf("tp[%d] next %u\n", j, tp[j].l); - } - printf("-------------\n"); - } - - for (i = 1; i < 10; i += 2) { - index_slist_addhead(buckets, (u8 *)tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i); - - printf ("head = buckets[0].next = %d\n", buckets[0].next); - for (j = 0; j < 10; j++) { - printf("tp[%d] next %u\n", j, tp[j].l); - } - printf("-------------\n"); - } - - printf ("after adds, buckets[0] = %u\n", buckets[0]); - - for (j = 0; j < 10; j++) { - printf("tp[%d] next %u\n", j, tp[j].l); - - } - - for (i = 9; i >= 0; i--) { - if (PREDICT_FALSE(index_slist_remelem(buckets, (u8 *) tp, sizeof(*tp), - STRUCT_OFFSET_OF(tv_t, l), i))) { - printf("OUCH: remelem failure at index %d\n", i); - } - if (PREDICT_FALSE(tp[i].l.next != EMPTY)) { - printf("OUCH: post-remelem next not EMPTY, index %d\n", i); - } - } - - printf ("after deletes, buckets[0] = %x\n", buckets[0]); - - vec_free(buckets); - vec_free(tp); -} -#endif /* test code */ diff --git a/plugins/vcgn-plugin/vcgn/index_list.h b/plugins/vcgn-plugin/vcgn/index_list.h deleted file mode 100644 index 498cd7eb7ad..00000000000 --- a/plugins/vcgn-plugin/vcgn/index_list.h +++ /dev/null @@ -1,118 +0,0 @@ -/* - *------------------------------------------------------------------ - * index_list.h - vector-index-based doubly-linked lists - * - * Copyright (c) 2008-2009 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef _INDEX_LIST_H_ -#define _INDEX_LIST_H_ 1 - -/* An index we can't possibly see in practice... */ -#define EMPTY ((u32)~0) - -typedef struct index_slist_ { - u32 next; -} index_slist_t; - -/* - * index_slist_addhead - * - * args: headp -- pointer to e.g. a hash bucket - * vector -- vector containing the list - * elsize -- size of an element in this vector - * offset -- offset in each vector element of this list thread - * index_to_add -- index in the vector to add to the list - * - * Adds new items to the head of the list. Try not to screw up the args! - */ -static inline void - index_slist_addhead_inline (index_slist_t *headp, - u8 *vector, u32 elsize, - u32 offset, u32 index_to_add) -{ - index_slist_t *addme; - - addme = (index_slist_t *)(vector + offset + elsize*index_to_add); - addme->next = EMPTY; - - if (headp->next == EMPTY) { - headp->next = index_to_add; - return; - } else { - addme->next = headp->next; - headp->next = index_to_add; - } -} - -/* - * index_slist_remelem - * - * args: headp -- pointer to e.g. a hash bucket - * vector -- vector containing the list - * elsize -- size of an element in this vector - * offset -- offset in each vector element of this list thread - * index_to_del -- index in the vector to delete from the list - * - * Try not to screw up the args! - */ - -static inline int - index_slist_remelem_inline (index_slist_t *headp, - u8 *vector, u32 elsize, - u32 offset, u32 index_to_delete) -{ - index_slist_t *findme; - index_slist_t *prev; - index_slist_t *cur; - - findme = (index_slist_t *)(vector + offset + elsize*index_to_delete); - - if (headp->next == index_to_delete) { - headp->next = findme->next; - findme->next = EMPTY; - return 0; - } - - prev = (index_slist_t *)(vector + offset + elsize*headp->next); - cur = (index_slist_t *)(vector + offset + elsize*prev->next); - while (cur != findme) { - if (cur->next == EMPTY) - return (1); - prev = cur; - cur = (index_slist_t *)(vector + offset + elsize*cur->next); - } - prev->next = findme->next; - findme->next = EMPTY; - return 0; -} - -void index_slist_addhead (index_slist_t *headp, - u8 *vector, u32 elsize, u32 offset, u32 index); -int index_slist_remelem (index_slist_t *headp, - u8 *vector, u32 elsize, u32 offset, u32 index); - -typedef struct index_dlist_ { - u32 next; - u32 prev; -} index_dlist_t; - -void index_dlist_addtail (u32 head_index, u8 *vector, u32 elsize, - u32 offset, u32 index_to_add); - -u32 index_dlist_remelem (u32 head_index, - u8 *vector, u32 elsize, u32 offset, - u32 index_to_delete); -#endif /* _INDEX_LIST_H_ */ diff --git a/plugins/vcgn-plugin/vcgn/nat64_db.h b/plugins/vcgn-plugin/vcgn/nat64_db.h deleted file mode 100644 index 837464f6940..00000000000 --- a/plugins/vcgn-plugin/vcgn/nat64_db.h +++ /dev/null @@ -1,480 +0,0 @@ -/* - *------------------------------------------------------------------ - * nat64_db.h - Stateful NAT64 translation database definitions - * - * Copyright (c) 2010-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#ifndef __NAT64_DB_H__ -#define __NAT64_DB_H__ - -#include "cnat_cli.h" -#include "index_list.h" -#include "cnat_ports.h" -#include "cnat_db.h" -#include "nat64_defs.h" -#include "cnat_bulk_port_defs.h" - -nat64_vrfmap_t *nat64_map_by_vrf; - -#define SESSION_OPT - -#define HASH_ENHANCE 4 - - -#define NAT64_MAIN_DB_SIZE \ - (PLATFORM_NAT64_MAX_SESSIONS / PLATFORM_CNAT_INSTS) -#define NAT64_MAIN_HASH_SIZE \ - (HASH_ENHANCE * PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE) - -#define NAT64_MAIN_HASH_MASK (NAT64_MAIN_HASH_SIZE-1) - - -/* nb: 200000 users / 64 CNAT = 3125, 76% occupancy */ -#define NAT64_USER_HASH_SIZE CNAT_USER_HASH_SIZE -#define NAT64_USER_HASH_MASK (NAT64_USER_HASH_SIZE-1) - -/* Number of sessions per BIB entry/NAT64 translation - - nsessions is u16 type. So selected 0xFFFF - - Ideally Sessions per transltion will not reach the limit - - Only DoS can possible. It can take care of it */ -#define NAT64_MAX_SESSIONS_PER_BIB 0xFFFF - -/* No. of per ip/port config will be limited to 1000 */ -/* totally 25K across all instances) */ -#define NAT64_TIMEOUT_HASH_SIZE \ - PLATFORM_NAT64_TIMEOUT_HASH_SIZE - -#define NAT64_TIMEOUT_HASH_MASK (NAT64_TIMEOUT_HASH_SIZE - 1) -#define NAT64_TIMEOUT_FULL_MASK 0xFFFFFFFFFFFFFFFF - - -#define FORCE_DEL 1 /* Delete static BIB entries as well */ - -/* default timeout values */ -#define NAT64_UDP_DEFAULT 300 /* 5 min */ -#define NAT64_UDP_MIN 120 /* 2 min */ -#define NAT64_TCP_TRANS 240 /* 4 min */ -#define NAT64_TCP_EST 7200 /* 2 hrs */ -#define NAT64_TCP_V4_SYN 6 /* 6 sec */ -#define NAT64_FRAG_MIN 2 /* 2 sec */ -#define NAT64_ICMP_DEFAULT 60 /* 1 min */ - - -#define NAT64_V6_GET_HASH(in_key, hash, mask) \ - a = in_key->ipv6[0] ^ in_key->ipv6[1] ^ in_key->ipv6[2] ^ in_key->ipv6[3] \ - ^ ((in_key->port << 16) | in_key->vrf); \ - b = c = 0x9e3779b9;\ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; \ - - -#define NAT64_V4_GET_HASH(in_key, hash, mask) \ - a = in_key.ipv4 ^ ((in_key.port << 16) | in_key.vrf); \ - b = c = 0x9e3779b9; \ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; - - - -#define NAT64_V6_GET_SESSION_HASH(bib_index, in_addr, port, vrf, hash, mask) \ - a = bib_index ^ in_addr[0] ^ in_addr[1] ^ in_addr[2] ^ in_addr[3] \ - ^ port ^ vrf; \ - b = c = 0x9e3779b9; \ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; - -#define NAT64_V4_GET_SESSION_HASH(bib_index, in_addr, port, vrf, hash, mask) \ - a = bib_index ^ in_addr ^ port ^ vrf; \ - b = c = 0x9e3779b9; \ - /* Jenkins hash, arbitrarily use c as the "answer" */ \ - hash_mix32(a, b, c); \ - hash = c & mask; - - -extern index_slist_t *nat64_bib_out2in_hash; -extern index_slist_t *nat64_bib_in2out_hash; -extern index_slist_t *nat64_bib_user_hash; -extern index_slist_t *nat64_session_out2in_hash; -#ifndef SESSION_OPT -extern index_slist_t *nat64_session_in2out_hash; -#endif -extern index_slist_t *nat64_frag_out2in_hash; -extern index_slist_t *nat64_frag_in2out_hash; -extern index_slist_t *nat64_timeout_hash; - - -/* - * nat64_ bib_entry_t - * This structure depicts Binding Information Base of NAT64 sessions. - * It stores information about the inside v6 source transport address and - * corresponding outside v4 source transport address for each protocol. - */ - -typedef struct { - - index_slist_t nat64_bib_out2in_hash; - index_slist_t nat64_bib_in2out_hash; - - /* 0x08 */ - u16 flags; /* flags in cnat_db.h (cnat_main_db_entry_t) */ -#define NAT64_DB_FLAG_STATIC_PORT CNAT_DB_FLAG_STATIC_PORT -#define NAT64_DB_NAT64_FLAG CNAT_DB_NAT64_FLAG -#define NAT64_DB_FLAG_ALG_ENTRY CNAT_DB_FLAG_ALG_ENTRY -#define NAT64_DB_FLAG_PCPI CNAT_DB_FLAG_PCPI -#define NAT64_DB_FLAG_PCPE CNAT_DB_FLAG_PCPE - - /* 0x0A */ - u16 nat64_inst_id; - /* 0x0C */ - u32 user_index; - - /* 0x10 */ - nat64_v4_key_t v4_out_key; - - /* 0x18 */ - nat64_v6_key_t v6_in_key; - - /* 0x2C */ - index_dlist_t user_ports; - /* 0x34 */ - u32 session_head_index; - /* 0x38 - 56B*/ - u16 nsessions; - u16 pad2; - - /* 0x3C - 60B */ - u32 in2outpkts; - u32 out2inpkts; - /* 0x44 - 68B */ - - /* 0x42 - 70B */ - union { /* used by FTP ALG, pkt len delta due to FTP PORT cmd */ - u16 delta; - i8 alg_dlt[2]; /* two delta values, 0 for previous, 1 for current */ - u16 il; /* Used to indicate if interleaved mode is used - in case of RTSP ALG */ - } alg; - - u16 temp1; - - u32 entry_expires; - - u32 temp3; - /* unused, temp1 ,temp2 and temp3 put to make it in sync with nat44 main db entry size */ - /* size of = 0x54 = 84 B */ - u32 unused; - -} nat64_bib_entry_t ; - -/* - * nat64_bib_user_entry_t - * This structure stores information about translations of a particular user - * (User here refers to a same inside source address) - */ -typedef struct { - /* 0x00 */ - index_slist_t user_hash; - /* 0x04 */ - u16 ntranslations; - /* 0x06 */ - u8 icmp_msg_count; - /* 0x07 */ - u8 flags; -#define NAT64_USER_DB_NAT64_FLAG CNAT_USER_DB_NAT64_FLAG - - /* 0x08 */ - u32 translation_list_head_index; - /* 0x0C */ - u32 portmap_index; - /* 0x10 */ - nat64_v6_key_t v6_in_key; - /* 0x24 = 36 B */ - - u32 align1; /* Make it 8B boundary and in sync with nat44 user db entry size */ -#ifndef NO_BULK_LOGGING - /* size of = 0x28 = 40 B */ - /* Now adding 8 more bytes for bulk allocation.. This makes it - * 0x30 (48). For nat64 stful, we may support bulk allocation - * later */ - /* Indicates the currently used bulk port range */ - i16 bulk_port_range_cache[BULK_RANGE_CACHE_SIZE]; -#endif /* NO_BULK_LOGGING */ -} nat64_bib_user_entry_t; - -/* - * nat64_session_entry_t - * This structure represents the session table. It maintains the information - * about the flow of the packets. It would consist of source and destination - * (inside and outside) ipv4 and ipv4 transport addresses. - */ -typedef struct { - - /* 0x00 */ - index_slist_t nat64_session_out2in_hash; - - /* 0x04 */ - u32 bib_index; /* would point to v4/v6 src transport address */ - - /* 0x08 */ - nat64_v4_key_t v4_dest_key; - -#ifndef SESSION_OPT - index_slist_t nat64_session_in2out_hash; - nat64_v6_key_t v6_dest_key; -#endif - - /* 0x10 */ - u16 flags;/* Will be used for flags same as nat44 session */ - - /* 0x12 */ - u16 timeout; - - /* 0x14 */ - u32 entry_expires; - /* 0x18 */ - index_dlist_t bib_list; - /* 0x20 = 32 B */ - - union { /* alg same as cnat_main_db_t */ - u16 delta; - i8 alg_dlt[2]; - u16 il; - } alg; - - /* 0x22 */ - u16 tcp_flags; /* Mainly TCP events - check nat64_tcp_sm.h */ - - /* 0x24 */ - u32 tcp_seq_num; - - /* 0x28 */ /* unused1, unused2 and unused3 are put to make it in sync with - * cnat_session_db */ - u32 unused1; - - /* 0x2C */ - u32 unused2; - - /* 0x30 */ - u16 unused3; - - /* 0x32 - 50B */ - -} nat64_session_entry_t; - -/* - * nat64_session_tcp_init_entry_t - * This structure will be used to store information about v4 initiation - * tcp entries. - */ -typedef struct { - nat64_v6_key_t v6_in_key; - nat64_v4_key_t v4_out_key; -} nat64_session_tcp_init_entry_t; - -/* - * nat64_in_v6_frag_entry_t - * This structure will be used to store information about fragment flows - * that are coming from inside v6 hosts. - */ -typedef struct { - index_slist_t nat64_frag_in2out_hash; - - u32 v6_src_addr[4]; - u32 v6_destn_addr[4]; - u32 frag_iden; - u16 vrf; - u16 pad1; -} nat64_in_v6_frag_entry_t ; - -/* - * nat64_out_v4_frag_entry_t - * This structure will be used to store information about fragment flows - * that are coming from outside v4 machines. - */ -typedef struct { - index_slist_t nat64_frag_out2in_hash; - - u32 v4_src_addr; - u32 v4_destn_addr; - u16 frag_iden; - u16 vrf; -} nat64_out_v4_frag_entry_t ; - -/* - * nat64_timeout _t - * These following structures will be used to store information destination - * timeouts configured. - */ -typedef struct { - nat64_v4_key_t timeout_key; - u16 timeout_value; -} nat64_timeout_t; - -/* - * nat64_timeout_db_entry_t - */ -typedef struct { - nat64_timeout_t t_key; - index_slist_t t_hash; -} nat64_timeout_db_entry_t; - - -typedef union { - cnat_main_db_entry_t nat44_main_db; - nat64_bib_entry_t nat64_bib_db; -} cgse_nat_db_entry_t; - -typedef union { - cnat_session_entry_t nat44_session_db; - nat64_session_entry_t nat64_session_db; -} cgse_nat_session_db_entry_t; - -typedef union { - cnat_user_db_entry_t nat44_user_db; - nat64_bib_user_entry_t nat64_user_db; -} cgse_nat_user_db_entry_t; - -extern index_slist_t *nat64_bib_out2in_hash; -extern index_slist_t *nat64_bib_in2out_hash; -extern index_slist_t *nat64_bib_user_hash; -extern index_slist_t *nat64_session_out2in_hash; -extern index_slist_t *nat64_session_in2out_hash; -extern index_slist_t *nat64_frag_out2in_hash; -extern index_slist_t *nat64_frag_in2out_hash; -extern index_slist_t *nat64_timeout_hash; - -extern nat64_bib_entry_t *nat64_bib_db; -extern nat64_bib_user_entry_t *nat64_bib_user_db; -extern nat64_session_entry_t *nat64_session_db; -extern nat64_in_v6_frag_entry_t *nat64_in_frag_db; -extern nat64_out_v4_frag_entry_t *nat64_out_frag_db; -extern nat64_session_tcp_init_entry_t *nat64_tcp_init_db ; -extern nat64_timeout_db_entry_t *nat64_timeout_db; - -extern nat64_table_entry_t nat64_table_array[NAT64_MAX_NAT64_ENTRIES]; -extern nat64_table_entry_t *nat64_table_ptr; - -extern cgse_nat_db_entry_t *cgse_nat_db; -extern cgse_nat_user_db_entry_t *cgse_user_db; -extern cgse_nat_session_db_entry_t *cgse_session_db; - -void nat64_bib_user_db_delete (nat64_bib_user_entry_t *up); - -nat64_bib_user_entry_t* -nat64_bib_user_db_create_entry(nat64_v6_key_t *uki, u32 bucket, - u32 portmap_index); - -nat64_bib_user_entry_t* -nat64_bib_user_db_lookup_entry(nat64_v6_key_t *uki, u32 *bucket); - - -nat64_bib_entry_t* -nat64_bib_db_lookup_entry(nat64_v6_key_t *ki); - -void nat64_bib_db_in2out_hash_delete (nat64_bib_entry_t *ep); - -void nat64_bib_db_out2in_hash_delete (nat64_bib_entry_t *ep); - -nat64_bib_entry_t * -nat64_create_bib_db_entry_and_hash(nat64_v6_key_t *ki, - nat64_v4_key_t *ko, - nat64_bib_user_entry_t *udb); - - -void nat64_delete_bib_db_entry (nat64_bib_entry_t *ep, u8 force); - -nat64_bib_entry_t * -nat64_bib_db_lookup_entry_out2in (nat64_v4_key_t *ko); - -nat64_bib_entry_t * -nat64_get_bib_db_entry (nat64_v6_key_t *ki, - port_pair_t port_pair_type, - port_type_t port_type, - cnat_gen_icmp_info *info); - - -nat64_bib_entry_t* -nat64_create_static_bib_db_entry (nat64_v6_key_t *ki, - nat64_v4_key_t *ko, - nat64_table_entry_t *my_table, - cnat_gen_icmp_info *info); - - - -//void nat64_session_db_in2out_hash_delete (nat64_session_entry_t *ep); -void nat64_session_db_out2in_hash_delete (nat64_session_entry_t *ep); - -/*nat64_session_entry_t * -nat64_session_db_lookup_entry(nat64_v6_key_t *ki, u32 bib_index); */ - - -nat64_session_entry_t * -nat64_session_db_lookup_entry_out2in (nat64_v4_key_t *ko,u32 bib_index); - -/* -nat64_session_entry_t * -nat64_create_session_db_entry(nat64_v6_key_t *ki, - nat64_v4_key_t *ko, - nat64_bib_entry_t *bdb); -*/ -nat64_session_entry_t * -nat64_create_session_db_entry_v2( nat64_v4_key_t *ko, - nat64_bib_entry_t *bdb); - - -//void nat64_delete_session_db_entry (nat64_session_entry_t *ep); -void nat64_delete_session_db_entry_v2 (nat64_session_entry_t *ep, u8 force); - -u32 nat64_timeout_db_hash_lookup (nat64_v4_key_t t_key); - -u16 query_and_update_db_timeout_nat64(nat64_session_entry_t *db); - -void nat64_timeout_db_hash_add (nat64_timeout_db_entry_t *t_entry); - -u16 nat64_timeout_db_create (nat64_timeout_t t_entry); - -void nat64_timeout_db_delete(nat64_v4_key_t t_key); - -#define NAT64_CMP_V6_KEY(key1, key2) \ - memcmp(key1, key2, sizeof(nat64_v6_key_t)) - -#define NAT64_CMP_V4_KEY(key1, key2) \ - memcmp(key1, key2, sizeof(nat64_v4_key_t)) - - -#define NAT64_CMP_V6_IP(ip1, ip2) \ - memcmp(ip1, ip2, (sizeof(u32) * 4)) - - -#define NAT64_CMP_V6_KEY1(key1, key2) \ - (key1.ipv6[0] == key2.ipv6[0]) && (key1.ipv6[1] == key2.ipv6[1]) && \ - (key1.ipv6[2] == key2.ipv6[2]) && (key1.ipv6[3] == key2.ipv6[3]) && \ - (key1.port == key2.port) && (key1.vrf == key2.vrf) - - -#define NAT64_CMP_V6_IP1(ip1, ip2) \ - ((ip1[0] == ip2[0]) && (ip1[1] == ip2[1]) && \ - (ip1[2] == ip2[2]) && (ip1[3] == ip2[3])) - -#define NAT64_CMP_V4_KEY1(key1, key2) \ - (key1.key64 == key2.key64) - - -extern u8 nat64_timeout_dirty_flag[NAT64_MAX_NAT64_ENTRIES]; - -#endif diff --git a/plugins/vcgn-plugin/vcgn/nat64_defs.h b/plugins/vcgn-plugin/vcgn/nat64_defs.h deleted file mode 100644 index 47e431a7462..00000000000 --- a/plugins/vcgn-plugin/vcgn/nat64_defs.h +++ /dev/null @@ -1,576 +0,0 @@ -/* - *------------------------------------------------------------------ - * nat64_defs.h - NAT64 structure definiitions - * - * Copyright (c) 2007-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __NAT64_DEFS_H__ -#define __NAT64_DEFS_H__ - -#ifdef TOBE_PORTED -#include "spp_platform_common.h" -#include "cgse_defs.h" -#include "xlat_defs.h" -#endif -#include "cnat_cli.h" -#include "cnat_ports.h" -#include "tcp_header_definitions.h" -#include "nat64_tcp_sm.h" -#include "cnat_db.h" - -#define NAT64_MAX_FRAG_ID_COUNTERS (256) - -#define NAT64_MAX_NAT64_ENTRIES 500 - -#define NAT64_MAX_ID (NAT64_MAX_NAT64_ENTRIES-1) - -#define NAT64_INVALID_ID (0) - -#define NAT64_MAX_CFG_INSTANCES 64 - -#define NAT64_TABLE_ENTRY_DELETED 0 -#define NAT64_TABLE_ENTRY_ACTIVE 1 -#define NAT64_TABLE_ENTRY_DORMANT 2 -#define NAT64_TABLE_ENTRY_INVALID_UIDB 3 - -#define NAT64_MAX_TRANSLATION_ENTRIES PLATFORM_MAX_TRANSLATION_ENTRIES - -#define NAT64_WKP_PREFIX_LEN 96 -#define NAT64_WKP_PREFIX_0 0x0064FF9B -#define NAT64_WKP_PREFIX_1 0x00000000 -#define NAT64_WKP_PREFIX_2 0x00000000 -#define NAT64_WKP_PREFIX_3 0x00000000 - - -/* Reset the expiry time only if it is not 0 -** if it is 0 - then queue for delete by clear command -**/ - -#define NAT64_TIMEOUT_RST(db) \ - if(PREDICT_TRUE(db->entry_expires !=0 )) \ - db->entry_expires = cnat_current_time; - -extern u32 nat64_config_debug_level; -extern u32 nat64_data_path_debug_level; - -extern u32 nat64_translation_create_count[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_translation_delete_count[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_translation_create_rate[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_translation_delete_rate[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_in2out_forwarding_count[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_in2out_forwarding_rate[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_out2in_forwarding_count[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_out2in_forwarding_rate[NAT64_MAX_NAT64_ENTRIES]; - -extern u32 nat64_translation_create_count_old[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_translation_delete_count_old[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_in2out_forwarding_count_old[NAT64_MAX_NAT64_ENTRIES]; -extern u32 nat64_out2in_forwarding_count_old[NAT64_MAX_NAT64_ENTRIES]; - -extern u16 *nat64_frag_id_counter_ptr; - -typedef struct { - u64 v6_to_v4_tcp_input_count; - u64 v6_to_v4_tcp_non_translatable_drop_count; - u64 v6_to_v4_tcp_state_drop_count; - u64 v6_to_v4_tcp_no_db_drop_count; - u64 v6_to_v4_tcp_output_count; -} nat64_v6_to_v4_tcp_counter_t; - -typedef struct { - u64 v4_to_v6_tcp_input_count; - u64 v4_to_v6_tcp_no_db_drop_count; - u64 v4_to_v6_tcp_v4_init_policy_drop_count; - u64 v4_to_v6_tcp_state_drop_count; - u64 v4_to_v6_tcp_output_count; - u64 v4_to_v6_tcp_filter_drop_count; -} nat64_v4_to_v6_tcp_counter_t; - -typedef struct { - u64 v6_to_v4_udp_input_count; - u64 v6_to_v4_udp_non_translatable_drop_count; - u64 v6_to_v4_udp_no_db_drop_count; - u64 v6_to_v4_udp_output_count; - u64 v6_to_v4_udp_checksum_zero_count; -} nat64_v6_to_v4_udp_counter_t; - -typedef struct { - u64 v4_to_v6_udp_input_count; - u64 v4_to_v6_udp_no_db_drop_count; - u64 v4_to_v6_udp_filter_drop_count; - u64 v4_to_v6_udp_output_count; - u64 v4_to_v6_udp_crc_zero_drop_count; - u64 v4_to_v6_udp_frag_crc_zero_drop_count; - u64 v4_to_v6_udp_crc_zero_recycle_sent_count; - u64 v4_to_v6_udp_crc_zero_recycle_drop_count; -} nat64_v4_to_v6_udp_counter_t; - -typedef struct { - u64 v6_to_v4_icmp_input_count; - u64 v6_to_v4_icmp_no_db_drop_count; - u64 v6_to_v4_icmp_non_translatable_drop_count; - u64 v6_to_v4_icmp_qry_output_count; -} nat64_v6_to_v4_icmp_counter_t; - -typedef struct { - u64 v4_to_v6_icmp_input_count; - u64 v4_to_v6_icmp_no_db_drop_count; - u64 v4_to_v6_icmp_filter_drop; - u64 v4_to_v6_icmp_qry_output_count; -} nat64_v4_to_v6_icmp_counter_t; - -typedef struct { - u64 v6_to_v4_icmp_error_input_count; - u64 v6_to_v4_icmp_error_no_db_drop_count; - u64 v6_to_v4_icmp_error_invalid_next_hdr_drop_count; - u64 v6_to_v4_icmp_error_non_translatable_drop_count; - u64 v6_to_v4_icmp_error_unsupported_type_drop_count; - u64 v6_to_v4_icmp_error_output_count; -} nat64_v6_to_v4_icmp_error_counter_t; - -typedef struct { - u64 v4_to_v6_icmp_error_input_count; - u64 v4_to_v6_icmp_error_no_db_drop_count; - u64 v4_to_v6_icmp_error_unsupported_type_drop_count; - u64 v4_to_v6_icmp_error_unsupported_protocol_drop_count; - u64 v4_to_v6_icmp_error_output_count; -} nat64_v4_to_v6_icmp_error_counter_t; - - - -typedef struct { - u64 nat64_v4_frag_input_count; - u64 nat64_v4_frag_forward_count; - u64 nat64_v4_frag_drop_count; - u64 nat64_v4_frag_throttled_count; - u64 nat64_v4_frag_timeout_drop_count; - u64 nat64_v4_frag_tcp_input_count; - u64 nat64_v4_frag_udp_input_count; - u64 nat64_v4_frag_icmp_input_count; - - u64 nat64_v6_frag_input_count; - u64 nat64_v6_frag_forward_count; - u64 nat64_v6_frag_drop_count; - u64 nat64_v6_frag_throttled_count; - u64 nat64_v6_frag_timeout_drop_count; - u64 nat64_v6_frag_tcp_input_count; - u64 nat64_v6_frag_udp_input_count; - u64 nat64_v6_frag_icmp_input_count; - u64 nat64_v6_frag_invalid_input_count; -} nat64_frag_counter_t; - -typedef struct { - u64 v6_to_v4_options_input_count; - u64 v6_to_v4_options_drop_count; - u64 v6_to_v4_options_forward_count; - u64 v6_to_v4_options_no_db_drop_count; - u64 v6_to_v4_unsupp_proto_count; - - u64 v4_to_v6_options_input_count; - u64 v4_to_v6_options_drop_count; - u64 v4_to_v6_options_forward_count; - u64 v4_to_v6_options_no_db_drop_count; - u64 v4_to_v6_unsupp_proto_count; -} nat64_options_counter_t; - -typedef struct { - u64 v4_icmp_gen_count; - u64 v6_icmp_gen_count; -} nat64_icmp_gen_counter_t; - -typedef struct{ - u32 nat64_num_translations; - u32 nat64_num_dynamic_translations; - u32 nat64_num_static_translations; - u32 nat64_sessions; - u64 nat64_port_limit_exceeded; - u64 nat64_system_limit_reached; - u64 nat64_resource_depletion_drops; - u64 nat64_no_translation_entry_drops; - u64 nat64_filtering_drops ; - u64 nat64_invalid_ipv6_prefix_drops; - u32 num_subscribers; - u32 dummy; - u64 drops_sessiondb_limit_exceeded; -} nat64_inst_gen_counter_t; - -typedef struct { - - nat64_v6_to_v4_tcp_counter_t v64_tcp_counters; - nat64_v4_to_v6_tcp_counter_t v46_tcp_counters; - nat64_v6_to_v4_udp_counter_t v64_udp_counters; - nat64_v4_to_v6_udp_counter_t v46_udp_counters; - nat64_v6_to_v4_icmp_counter_t v64_icmp_counters; - nat64_v4_to_v6_icmp_counter_t v46_icmp_counters; - nat64_v6_to_v4_icmp_error_counter_t v64_icmp_error_counters; - nat64_v4_to_v6_icmp_error_counter_t v46_icmp_error_counters; - nat64_frag_counter_t nat64_frag_counters; - nat64_options_counter_t nat64_options_counters; - nat64_icmp_gen_counter_t nat64_icmp_gen_counters; - -} nat64_counters_t; - -/* - * nat64_portmap_v2_t - * This structure stores information about the IP address and ports - * available for NAT for this nat64 instance. - */ - -typedef struct { - u32 delete_time; - u32 last_sent_timestamp; - u32 inuse; - u32 ipv4_address; /* native bit order */ - uword bm[(BITS_PER_INST + BITS(uword)-1)/BITS(uword)]; -} nat64_portmap_t; - -/* - * nat64_v4_db_key_t - * This structure gives information about the v4 transport address - * (ipv4, port, protocol) - */ -typedef struct { - u32 ipv4; - u16 port; - u16 vrf; //bit0-12:inst_id, bit13:unused, bit14-15:protocol -} nat64_v4_db_key_t; - -/* Union will be easier while compare/hash */ -typedef union { - nat64_v4_db_key_t k; - u64 key64; -} nat64_v4_key_t; -/* - * nat64_v6_db_key_t - * This structure gives information about the v6 transport address - * (ipv6, port, protocol) - */ -typedef struct { - u32 ipv6[4]; - u16 port; - u16 vrf; //bit0-12:inst_id, bit13:unused, bit14-15:protocol -} nat64_v6_key_t; - - -typedef struct { - u16 udp_timeout; - u16 tcp_trans_timeout; - u16 tcp_est_timeout; - u16 tcp_v4_init_timeout; - u16 frag_timeout; - u16 icmp_timeout; -} nat64_timeout_info_t; - -#define NAT64_UDP_DEF 300 /* 5min */ -#define NAT64_TCP_TRANS_DEF 240 /* 4min */ -#define NAT64_TCP_EST_DEF 7200 /* 2Hrs */ -#define NAT64_TCP_V4_DEF 6 /* 6 sec */ -#define NAT64_FRAG_DEF 2 /* 2 sec */ -#define NAT64_ICMP_DEF 60 /* 60 sec */ - -/* - * nat64_table_entry_t - * This structure is used to store information regarding every nat64 instance. - */ - -/* structure will hold the L4 information, of a particular frag stream set - * src_port - holds the original src port - * dst_port - holds the original dst port - * total_len - useful only in ICMP nodes - * cnat_port - vlaue used for looksups - * next_prot - Protocol after translation */ - -typedef struct l4_frag_info { - u16 next_node_idx; - u16 src_port; - u16 dst_port; - u16 total_length; - u8 protocol; - u16 cnat_prot; - u16 next_prot; -} l4_frag_info_t; - -typedef struct { - u16 state; - u16 nat64_id; /* nat64_id value for this table entry - for easy access */ - - u16 v4_uidb_index; /* V4 uidb index */ - u16 v6_uidb_index; /* V6 uidb index */ - - u8 octet0_position; - u8 octet1_position; - u8 octet2_position; - u8 octet3_position; - - u16 v4_to_v6_tcp_mss; /* TCP MSS */ - u16 v6_to_v4_tcp_mss; /* TCP MSS */ - - /* - * V6 NAT64 prefix value and mask size - */ - u32 v6_prefix[4]; - u32 v6_prefix_mask[4]; - - u8 v6_prefix_mask_len; - u8 ubits_reserved_on; -#define IPV4_TOS_OVERRIDE_FLAG 0x1 -#define IPV6_TOS_OVERRIDE_FLAG 0x2 -#define NAT64_STFUL_RTSP_ALG_ENABLE 0x4 - u8 feature_flags; - - u8 ipv4_tos_value; - u8 ipv6_tos_value; - u8 df_bit_clear; - u8 ipv6_mtu_set; - - u8 filtering_policy; -#define NAT64_ADDRESS_DEPENDENT_ENABLE 1 - u8 tcp_policy; -#define NAT64_TCP_SECURITY_FLAG_DISABLE 1 - u8 ftp_flags; - - u8 tcp_v4_init_enable; -#define NAT64_TCP_V4_INIT_ENABLE 1 - - u8 logging_policy; -#define NAT64_BIB_LOG_ENABLE 0 /* Default */ -#define NAT64_SESSION_LOG_ENABLE 1 - -#define NAT64_BIDIR_REFRESH 1 /* 1 - timer refresh in both direction */ -#define NAT64_UNIDIR_REFRESH 0 /* 0 - default (only v6 side refresh timer)*/ - - u8 nat64_refresh_both_direction; /* 0 - default (only v6 side refresh timer) */ -#define NAT64_BIDIR_REFRESH 1 /* 1 - timer refresh in both direction */ - - u8 udp_zero_checksum; /* 0 - default (calc checksum) */ -#define NAT64_UDP_ZERO_CHECKSUM_DROP 1 /* 1 -drop */ - - u16 port_limit; - - cnat_portmap_v2_t *port_map; - - u32 logging_index; - - nat64_timeout_info_t timeout_info; - /* - * These fields are not used much, let us keep it in the end - */ - u32 v4_vrf_id; /* V4 vrf id */ - u32 v6_vrf_id; /* V6 vrf id */ - - u32 v4_if_num; /* V4 SVI ifnum */ - u32 v6_if_num; /* V6 SVI ifnum */ - - u16 dyn_start_port; - - u16 pcp_server_port; - u32 pcp_server_addr[4]; - u32 rseed_ip; -#define NAT64_FRAG_ENABLE 1 -#define NAT64_FRAG_DISABLE 0 - u8 frag_state; - u8 nat64_enable; /* Enable/Disable this instance. */ - - u16 rtsp_port; - -} nat64_table_entry_t; - - - -extern nat64_table_entry_t nat64_table_array[NAT64_MAX_NAT64_ENTRIES]; -extern nat64_table_entry_t *nat64_table_ptr; -extern nat64_counters_t nat64_all_counters[NAT64_MAX_NAT64_ENTRIES]; -extern nat64_inst_gen_counter_t nat64_inst_gen_counters[NAT64_MAX_NAT64_ENTRIES]; - -typedef struct nat64_common_pipeline_data_ { -#ifdef TOBE_PORTED - spp_node_main_vector_t *nmv; -#endif - - u16 *nat64_id_ptr; - - nat64_table_entry_t *nat64_entry_ptr; - -} nat64_common_pipeline_data_t; - -typedef struct nat64_v6_to_v4_pipeline_data_ { - nat64_common_pipeline_data_t common_data; - - u32 bib_bucket; - u32 session_bucket; - - nat64_v6_key_t v6_in_key; - nat64_v6_key_t v6_dest_key; - - /* - * IPv6 Data, everthing in host order except for the addr fields - */ - u32 version_trafficclass_flowlabel; - - u16 payload_length; - u8 next_header; - u8 hop_limit; - - /* - * These Address fields are in Network Order, so that - * it is easy to extract the IPv4 address from them - */ - u32 ipv6_src[4]; - - u32 ipv6_dst[4]; - - u8 frag_next_header; - u8 frag_reserved; - u16 frag_offset_res_m; - u32 frag_identification; - - ipv4_header *ipv4_header; - union { - struct _v4_l4_info { - u8 *ipv4_l4_header; - u8 pad0; - u8 pad1; - u8 pad2; - u8 pad3; - } v4_l4_info; - struct _v4_icmp_info { - icmp_v4_t *ipv4_icmp_header; - u8 old_icmp_type; - u8 new_icmp_type; - u8 old_icmp_code; - u8 new_icmp_code; - u16 checksum; - u16 old_iden; // length (ICMP extn), ptr (param) - u16 new_iden; // ----- do ------------- - u16 old_seq; // MTU for PTB case - u16 new_seq; // ----- do ------------- - } v4_icmp_info; - struct _v4_udp_info { - udp_hdr_type_t *ipv4_udp_header; - u8 pad0; - u8 pad1; - u8 pad2; - u8 pad3; - } v4_udp_info; - struct _v4_tcp_info { - tcp_hdr_type *ipv4_tcp_header; - u16 old_src_port; - u16 new_src_port; - u16 dest_port; - nat64_tcp_events tcp_event; - } v4_tcp_info; - } l4_u; - - - l4_frag_info_t *frag_info; /* port for tcp/udp, ident - icmp */ - - - /* Counters will be added here */ - union { - nat64_v6_to_v4_tcp_counter_t *tcp_counter; - nat64_v6_to_v4_udp_counter_t *udp_counter; - nat64_v6_to_v4_icmp_counter_t *icmp_counter; - nat64_v6_to_v4_icmp_error_counter_t *icmp_error_counter; - nat64_frag_counter_t *frag_counter; - nat64_options_counter_t *options_counter; - } nat64_ctr_u; - nat64_icmp_gen_counter_t *icmp_gen_counter; -} nat64_v6_to_v4_pipeline_data_t; - - -typedef struct nat64_v4_to_v6_pipeline_data_ { - nat64_common_pipeline_data_t common_data; - - u32 bib_bucket; - u32 session_bucket; - - nat64_v4_key_t v4_src_key; /* Will be translated using Prefix */ - nat64_v4_key_t v4_dest_key; /* will be the out key for NAT64 */ - - /* - * IPv4 data - */ - u8 version_hdr_len_words; - u8 tos; - u16 total_len_bytes; - - u16 identification; - u16 frag_flags_offset; - - u8 ttl; - u8 protocol; - u16 l4_checksum; - - u32 ipv4_src_addr; - u32 ipv4_dst_addr; - - /* - * Pointers to IPv6 headers - */ - ipv6_header_t *ipv6_header; - ipv6_frag_header_t *ipv6_frag_header; - - union { - struct _v6_l4_info { - u8 *ipv6_l4_header; - u8 pad0; - u8 pad1; - u8 pad2; - u8 pad3; - } v6_l4_info; - struct _v6_icmp_info { - icmp_v6_t *ipv6_icmp_header; - u8 old_icmp_type; - u8 new_icmp_type; - u8 old_icmp_code; - u8 new_icmp_code; - u16 old_iden; // length (ICMP extn), ptr (param) - u16 new_iden; // ----- do ------------- - u16 old_seq; // MTU for PTB case - u16 new_seq; // ----- do ------------- - } v6_icmp_info; - struct _v6_udp_info { - udp_hdr_type_t *ipv6_udp_header; - u8 pad0; - u8 pad1; - u8 pad2; - u8 pad3; - } v6_udp_info; - struct _v6_tcp_info { - tcp_hdr_type *ipv6_tcp_header; - u16 old_dest_port; - u16 new_dest_port; - u16 src_port; - nat64_tcp_events tcp_event; - } v6_tcp_info; - } l4_u; - - l4_frag_info_t *frag_info; /* port for tcp/udp, ident - icmp */ - - /* Need to add counters here */ - union { - nat64_v4_to_v6_tcp_counter_t *tcp_counter; - nat64_v4_to_v6_udp_counter_t *udp_counter; - nat64_v4_to_v6_icmp_counter_t *icmp_counter; - nat64_v4_to_v6_icmp_error_counter_t *icmp_error_counter; - nat64_frag_counter_t *frag_counter; - nat64_options_counter_t *options_counter; - } nat64_ctr_u; - nat64_icmp_gen_counter_t *icmp_gen_counter; - -} nat64_v4_to_v6_pipeline_data_t; - -#endif diff --git a/plugins/vcgn-plugin/vcgn/nat64_tcp_sm.h b/plugins/vcgn-plugin/vcgn/nat64_tcp_sm.h deleted file mode 100644 index 3a505bc1649..00000000000 --- a/plugins/vcgn-plugin/vcgn/nat64_tcp_sm.h +++ /dev/null @@ -1,91 +0,0 @@ -/* - *------------------------------------------------------------------ - * nat64_tcp_sm.h - Stateful NAT64 translation TCP State machine - * - * Copyright (c) 2011 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#ifndef __NAT64_TCP_SM_H__ -#define __NAT64_TCP_SM_H__ - - -/* TCP States */ -typedef enum { - TCP_CLOSED, - TCP_V4_INIT, - TCP_V6_INIT, - TCP_ESTABLISHED, - TCP_V4_FIN_RCV, - TCP_V6_FIN_RCV, - TCP_V4V6_FIN_RCV, - TCP_TRANS, - TCP_NONE -} nat64_tcp_states; - -/* TCP Events */ -typedef enum { - TCP_TIMEOUT_EV, - TCP_V6_SYN_EV, - TCP_V4_SYN_EV, - TCP_V6_FIN_EV, - TCP_V4_FIN_EV, - TCP_V6_RST_EV, - TCP_V4_RST_EV, - TCP_DEFAULT_EV, - TCP_EV_COUNT -} nat64_tcp_events; - -/* TCP Actions */ -typedef enum { - TCP_FORWARD, - TCP_COND_FORWARD, /* Conditional forward, based on presence of - * session and bib entries */ - TCP_STORE, - TCP_PROBE, - TCP_CREATE_SESSION, - TCP_DELETE_SESSION, - TCP_DROP, - TCP_ACTION_NONE, - TCP_ACTION_COUNT -} nat64_tcp_actions; - -typedef struct { - nat64_tcp_states next_state; - nat64_tcp_actions action; -} nat64_tcp_trans_t; - -typedef struct { - nat64_tcp_trans_t event[TCP_EV_COUNT]; -} nat64_tcp_state_trans_t; - -extern nat64_tcp_state_trans_t nat64_tcp_sm_lookup[TCP_NONE]; - -/* -inline void -nat64_update_v6_to_v4_tcp (nat64_v6_to_v4_pipeline_data_t *pctx_ptr, - nat64_bib_entry_t *bib_ptr); - -inline u8 nat64_v6_to_v4_tcp_perform_action ( - spp_ctx_t *ctx, - nat64_v6_to_v4_pipeline_data_t *pctx_ptr, - nat64_bib_entry_t *bib_db, - nat64_session_entry_t *session_db); - -inline void -nat64_copy_tcp_into_pctx (nat64_v6_to_v4_pipeline_data_t *pctx_ptr); -*/ - - - -#endif diff --git a/plugins/vcgn-plugin/vcgn/platform_common.h b/plugins/vcgn-plugin/vcgn/platform_common.h deleted file mode 100644 index 2805b6078ce..00000000000 --- a/plugins/vcgn-plugin/vcgn/platform_common.h +++ /dev/null @@ -1,136 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * platform_common.h -- file has all platform related macros defined as NULL - * included "platform_common_override.h will have actual - * platform specific defines - * - * Copyright (c) 2011-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ -#ifndef __PLATFORM_COMMON_H__ -#define __PLATFORM_COMMON_H__ - -/* $$$ FIXME causes printf format warnings */ -#define PLATFORM_DEBUG_PRINT(...) /* printf(__VA_ARGS__) */ -#define PLATFORM_FILL_DST_ADDR_PORT_TABLE -#define PLATFORM_SET_CTX_RU_TX_FROM_NODE(ctx, value) -#define PLATFORM_SET_CTX_RU_TX_DST_IPPORT_IDX(ctx, value) -#define PLATFORM_SET_CTX_RU_TX_PKT_TYPE(ctx, type) -#define PLATFORM_SET_RX_VRF(ctx, rx_vrf, hardcode, mask) -#define PLATFORM_SET_TX_VRF(ctx, tx_vrf) -/* PLATFORM_CNAT_SET_RX_VRF definition is not same as PLATFORM_SET_RX_VRF, - * So, maintaining two different definitions - */ -#define PLATFORM_CNAT_SET_RX_VRF(ctx, rx_vrf, proto) -#define PLATFORM_CNAT_SET_TX_VRF(ctx, tx_vrf) - -#define PLATFORM_PRINT_TESTING_PG() -#define PLATFORM_INIT_TEMP_SENSORS() -#define PLATFORM_READ_CPU_SENSORS(value) -#define PLATFORM_SET_TEMP_READ_BLOCK(var, val) -#define PLATFORM_NFV9_DISP_NODE_IDX - - -/* Assumption is, syslog packets - * are sent out via same channel as that of NFV9. - * Has to be overridden if this assumption is false. - */ -#define PLATFORM_SYSLOG_DISP_NODE_IDX PLATFORM_NFV9_DISP_NODE_IDX - -#define PLATFORM_CNAT_DB_DUMP_POLICY_PRINT() -#define PLATFORM_PRINT_CTX_VALUES(ctx) -#define PLATFORM_ADD_VRF_MAP_HANDLE_PARTITION(uidb_index, partition_id) -#define PLATFORM_DEL_VRF_MAP_HANDLE_PARTITION(uidb_index, partition_id) -#define PLATFORM_ALLOC_NFV9_PKT_BUFFER(ctx, to_lc_cpu) -#define PLATFORM_SET_DSLITE_ENABLE_FLAG(uidb_index, dslite_id) -#define PLATFORM_CHECK_DSLITE_ENABLE_FLAG - -#define PLATFORM_CNAT_INSTS 1 -#define PLATFORM_HANDLE_TTL_DECREMENT 0 // Don't handle TTL in NAT44 Application (default). - -// For ISM, we need to copy the ipv6->hop_limit to ipv4 ttl. -#define PLATFORM_6RD_COPY_TTL_IPV6_TO_IPV4 0 - -//For ISM case, need to allow as the TTL decrement happens at ingress LC -#define PLATFORM_6RD_ALLOW_TTL_1 0 - -#define PLATFORM_HANDLE_ICMP_TTL_EXPIRED 0 // Don't handle ICMP_ERROR msg for TTL <=1 in NAT44 App (default). - -#define PLATFORM_IPV4_FRAG_FRAG_HOLD_LIMIT 1 -#define PLATFORM_MAX_IPV4_CTX_ENTRIES 1 -#define PLATFORM_MAPE_FRAG 0 - -#define PLATFORM_ADDR_MASK_PER_CORE 0 -#define PLATFORM_ADDR_MASK_PER_CORE_PER_PARTITION 0 -#define PLATFORM_MAX_CORES 1 -#define PLATFORM_MAX_CORES_PER_PARTITION 1 -#define PLATFORM_MAX_NAT_ENTRIES 1 -#define PLATFORM_MAX_USER_ENTRIES 1 -#define PLATFORM_CNAT_MAX_ADDR_POOL_SIZE 0x1 -#define PLATFORM_DBL_SUPPORT 0 /* Default no DBL support, no NAT44 session table */ - -#define PLATFORM_MAX_DB_ENTRY_PER_SCAN 1 -#define PLATFORM_MAX_DB_ENTRY_SELECTED_PER_SCAN 1 -#define MAX_COMBINED_DB_ENTRIES_PER_SCAN 0 - -#define PLATFORM_CNAT_TIMEOUT_IPPROT_MASK 0 -#define PLATFORM_CNAT_TIMEOUT_PORTPROT_MASK 0 - -#define PLATFORM_MAX_SHOW_BUFFER_SIZE 1700 -#define PLATFORM_MAX_TRANSLATION_ENTRIES (50) -#define PLATFORM_MAX_UTIL_ENTRIES (100) -#define PLATFORM_MAX_NAT44_UTIL_ENTRIES ((64)/PLATFORM_MAX_CORES) - -#define PLATFORM_CNAT_NFV9_SHIM_HDR_OFFSET 0 -#define PLATFORM_CNAT_NFV9_L2_ENCAPS_OFFSET 0 - - -/* Below are nat64 statful related define */ -#define PLATFORM_NAT64_SET_RX_VRF(rx_vrf, proto, inst_id) \ - rx_vrf = proto | (inst_id & CNAT_VRF_MASK); - -#define PLATFORM_NAT64_MAX_TRANSLATION_ENTRIES (30) -#define PLATFORM_DS_LITE_MAX_TRANSLATION_ENTRIES (30) - -#define PLATFORM_SET_NAT64_ENABLE_FLAG(uidb_index, nat64_id) \ - { \ - nat64_set_enable_flag(nat64_id, ENABLE); \ - } - -#define PLATFORM_CHECK_NAT64_ENABLE_FLAG 1 -#define PLATFORM_SET_MAPE_ENABLE_FLAG(uidb_index, mape_id) -#define PLATFORM_CHECK_MAPE_ENABLE_FLAG 1 - -/* very small number , PD has correct value. - this is bcoz, if platform doesnt support nat64..shudnt take too much..*/ -#define PLATFORM_NAT64_MAX_SESSIONS 10 -#define PLATFORM_NAT64_TIMEOUT_HASH_SIZE 10 -#define PLATFORM_MAP_ADDR_PER_CORE 1024 - -#define ENABLE 1 -#define DISABLE 0 - -/* Platform Xlat inline learn function */ -#define PLATFORM_INLINE_LEARN_FUNC(a,b,c) - - -/* Checksum calculation to be done in software */ -#define PLATFORM_XLAT_SW_CHECKSUM_CALC 0 - - -/* Below include overrides all the above null defs and defines platform specific - define */ -#include "platform_common_override.h" - -#endif /* __PLATFORM_COMMON_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/platform_common_override.h b/plugins/vcgn-plugin/vcgn/platform_common_override.h deleted file mode 100644 index d6d3b0785b5..00000000000 --- a/plugins/vcgn-plugin/vcgn/platform_common_override.h +++ /dev/null @@ -1,304 +0,0 @@ -/* - *--------------------------------------------------------------------------- - * platform_common_override.h -- Files has actual platform specific defines. - * Will only included by platform_common.h - * - * Copyright (c) 2011-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#ifndef __PLATFORM_COMMON_OVERRIDE_H__ -#define __PLATFORM_COMMON_OVERRIDE_H__ - -extern unsigned char my_octeon_id; - -#undef PLATFORM_DBL_SUPPORT -#define PLATFORM_DBL_SUPPORT 1 // Destination Based logging support - // NAT44 session table required. - -#undef PLATFORM_ADDR_MASK_PER_CORE -/* commenting this. Currently we are considering only single core */ -//#define PLATFORM_ADDR_MASK_PER_CORE 0x3f // Using 64 cores -#define PLATFORM_ADDR_MASK_PER_CORE 0x01 - -#undef MAX_COMBINED_DB_ENTRIES_PER_SCAN -#define MAX_COMBINED_DB_ENTRIES_PER_SCAN 128 - -#undef PLATFORM_MAX_CORES -#define PLATFORM_MAX_CORES (PLATFORM_ADDR_MASK_PER_CORE + 1) - -// Roddick does not have any partition of cores -#undef PLATFORM_ADDR_MASK_PER_CORE_PER_PARTITION -#define PLATFORM_ADDR_MASK_PER_CORE_PER_PARTITION \ - PLATFORM_ADDR_MASK_PER_CORE - -#undef PLATFORM_MAX_CORES_PER_PARTITION -#define PLATFORM_MAX_CORES_PER_PARTITION PLATFORM_MAX_CORES - -#undef PLATFORM_CNAT_INSTS -//#define PLATFORM_CNAT_INSTS 64 -#define PLATFORM_CNAT_INSTS 1 /* currently its only single instance */ - -#undef PLATFORM_MAX_NAT_ENTRIES -//#define PLATFORM_MAX_NAT_ENTRIES 20000000 // 20M -#define PLATFORM_MAX_NAT_ENTRIES 1666660 // ~80M/48 (79999680/48) - -#undef PLATFORM_MAX_USER_ENTRIES -#define PLATFORM_MAX_USER_ENTRIES 20800 // ~1M/48 (998400/48) - - -/* 524288: - (20000000 translations) / (64 CNAT INSTANCES) = 312500 - nearest higher number which is power of 2 next to 312500 -*/ -#undef PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE -//#define PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE 524288 -#define PLATFORM_CNAT_MAIN_PRELIM_HASH_SIZE (5<<20) -/* 4096: - (200000 users) / (64 CNAT INSTANCES) = 3125 - nearest higher number which is power of 2 next to 3125 -*/ -#undef PLATFORM_CNAT_USER_PRELIM_HASH_SIZE -#define PLATFORM_CNAT_USER_PRELIM_HASH_SIZE 4096 - -#undef PLATFORM_CNAT_MAX_ADDR_POOL_SIZE -#define PLATFORM_CNAT_MAX_ADDR_POOL_SIZE 0x10000 // max /16 - -#undef PLATFORM_MAX_DB_ENTRY_PER_SCAN -#define PLATFORM_MAX_DB_ENTRY_PER_SCAN 400 - -#undef PLATFORM_MAX_DB_ENTRY_SELECTED_PER_SCAN -#define PLATFORM_MAX_DB_ENTRY_SELECTED_PER_SCAN 100 // 1/4th of above - -#undef PLATFORM_CNAT_TIMEOUT_IPPROT_MASK -#define PLATFORM_CNAT_TIMEOUT_IPPROT_MASK 0xFFFFFFFF0000FFFF - -#undef PLATFORM_CNAT_TIMEOUT_PORTPROT_MASK -#define PLATFORM_CNAT_TIMEOUT_PORTPROT_MASK 0x00000000FFFFFFFF - -#ifdef TARGET_RODDICK /* EVB doesnt need it */ -#undef PLATFORM_FILL_DST_ADDR_PORT_TABLE -#define PLATFORM_FILL_DST_ADDR_PORT_TABLE fill_dst_addr_port_table(); -#endif - - -#ifndef RODDICK_ON_LINUX_OR_EVB -#undef PLATFORM_SET_CTX_RU_TX_FROM_NODE -#undef PLATFORM_SET_CTX_RU_TX_DST_IPPORT_IDX -#undef PLATFORM_SET_CTX_RU_TX_PKT_TYPE - -#define PLATFORM_SET_CTX_RU_TX_FROM_NODE(ctx, value) \ - (vnet_buffer(ctx))->vcgn_uii.ru.tx.from_node = value; -#define PLATFORM_SET_CTX_RU_TX_DST_IPPORT_IDX(ctx, value) \ - (vnet_buffer(ctx))->vcgn_uii.ru.tx.dst_ip_port_idx = value; -#define PLATFORM_SET_CTX_RU_TX_PKT_TYPE(ctx, type) \ - (vnet_buffer(ctx))->vcgn_uii.ru.tx.packet_type = type; -#endif - -#undef PLATFORM_SET_RX_VRF -#undef PLATFORM_SET_TX_VRF -#ifdef TARGET_RODDICK -#define PLATFORM_SET_RX_VRF(ctx, rx_vrf, hardcode, mask) \ - rx_vrf = (ctx->ru.rx.uidb_index & CNAT_VRF_MASK); -#define PLATFORM_SET_TX_VRF(ctx, tx_vrf) \ - ctx->ru.tx.uidb_index = tx_vrf; -#else /*EVB */ -#define PLATFORM_SET_RX_VRF(ctx, rx_vrf, hardcode, mask) \ - rx_vrf = hardcode; -#define PLATFORM_SET_TX_VRF(ctx, tx_vrf) -#endif - -#undef PLATFORM_CNAT_SET_RX_VRF -#undef PLATFORM_CNAT_SET_TX_VRF - -#define PLATFORM_CNAT_SET_RX_VRF(if_index, rx_vrf, proto) \ - rx_vrf = proto | ((if_index) & CNAT_VRF_MASK); - -#define PLATFORM_CNAT_SET_TX_VRF(if_index, tx_vrf) \ - (if_index) = ((tx_vrf) & CNAT_VRF_MASK); - - - -#undef PLATFORM_NAT64_SET_RX_VRF - -#ifdef TARGET_RODDICK - -#define PLATFORM_NAT64_SET_RX_VRF(rx_vrf, proto, inst_id) \ - rx_vrf = proto | (inst_id & CNAT_VRF_MASK); - -#else /* EVB */ - -#define PLATFORM_NAT64_SET_RX_VRF(rx_vrf, proto, inst_id) \ - rx_vrf = proto | inst_id; - -#endif - -#ifdef TARGET_EVB -#define VRF_MAP_CONFIG -#endif - -#undef PLATFORM_PRINT_TESTING_PG -#if defined(TARGET_LINUX_UDVR) || defined(CNAT_PG) -#define PLATFORM_PRINT_TESTING_PG() printf("testing pg\n"); -#else -#define PLATFORM_PRINT_TESTING_PG() -#endif - -#ifdef TARGET_RODDICK -#undef PLATFORM_INIT_TEMP_SENSORS -#undef PLATFORM_READ_CPU_SENSORS -#undef PLATFORM_SET_TEMP_READ_BLOCK - -#define PLATFORM_INIT_TEMP_SENSORS() Init_temperature_sensors(); -#define PLATFORM_READ_CPU_SENSORS(value) read_octeon_sensors(value); -#define PLATFORM_SET_TEMP_READ_BLOCK(var, val) var = &val->param[0]; -#endif - -#undef PLATFORM_HANDLE_ICMP_TTL_EXPIRED -#define PLATFORM_HANDLE_ICMP_TTL_EXPIRED 1 // handle TTL in NAT44 Application (for AVSM) - -#undef PLATFORM_NFV9_DISP_NODE_IDX -#ifdef TARGET_RODDICK -#define PLATFORM_NFV9_DISP_NODE_IDX "roddick_infra_l3_tx" -#else /* EVB */ -#define PLATFORM_NFV9_DISP_NODE_IDX "cnat_rewrite_output" -#endif - -#undef PLATFORM_CNAT_DB_DUMP_POLICY_PRINT -#define PLATFORM_CNAT_DB_DUMP_POLICY_PRINT() \ - printf("my instance:%d\n" \ - "icmp timeout %d udp init timeout %d act timeout %d\n" \ - "tcp init timeout %d act timeout %d mapping refresh %d\n" \ - "port limit per user %d ftp alg %d lb debug %d\n" \ - "icmp rate limit 0x%x config delete timer 0x%x\n" \ - "global debug flag 0x%x\n" \ - "icmp rate limit (pkts/per sec) %d\n" \ - "dynamic port range start %d\n" \ - "debug ivrf 0x%x flag 0x%x start_addr 0x%x end_addr 0x%x\n" \ - "debug ovrf 0x%x flag 0x%x start_addr 0x%x end_addr 0x%x\n", \ - my_instance_number, \ - icmp_session_timeout, udp_init_session_timeout, udp_act_session_timeout, \ - tcp_initial_setup_timeout, tcp_active_timeout, \ - mapping_refresh_both_direction, cnat_main_db_max_ports_per_user, \ - ftp_alg_enabled, lb_debug_enable, per_user_icmp_msg_limit, \ - config_delete_timeout, \ - global_debug_flag, \ - cnat_main_db_icmp_rate_limit, \ - cnat_static_port_range, \ - debug_i_vrf, debug_i_flag, debug_i_addr_start, debug_i_addr_end, \ - debug_o_vrf, debug_o_flag, debug_o_addr_start, debug_o_addr_end); - - -#undef PLATFORM_PRINT_CTX_VALUES -#ifdef TARGET_RODDICK -#define PLATFORM_PRINT_CTX_VALUES(ctx) \ - printf("\nAFTER: %s cur_hdr %p, uidb %d, pkt_type %d, cur_len %d\n", \ - type_str, \ - ctx->current_header, \ - ctx->ru.tx.uidb_index, \ - ctx->ru.tx.packet_type, \ - ctx->current_length); -#else /* EVB */ -#define PLATFORM_PRINT_CTX_VALUES(ctx) \ - printf("\nAFTER: %s cur_hdr %p, cur_len %d\n", \ - type_str,\ - ctx->current_header, \ - ctx->current_length); -#endif - -#undef PLATFORM_ADD_VRF_MAP_HANDLE_PARTITION -#define PLATFORM_ADD_VRF_MAP_HANDLE_PARTITION(uidb_index, partition_id) - -#undef PLATFORM_DEL_VRF_MAP_HANDLE_PARTITION -#define PLATFORM_DEL_VRF_MAP_HANDLE_PARTITION(uidb_index, partition_id) - -#undef PLATFORM_ALLOC_NFV9_PKT_BUFFER -#define PLATFORM_ALLOC_NFV9_PKT_BUFFER(ctx, to_lc_cpu) - -#undef PLATFORM_CNAT_NFV9_SHIM_HDR_OFFSET -#ifdef TARGET_RODDICK -// This corresponds to the length of the IMETRO SHIM Header for RODDICK -#define PLATFORM_CNAT_NFV9_SHIM_HDR_OFFSET 8 -#else -#define PLATFORM_CNAT_NFV9_SHIM_HDR_OFFSET 0 -#endif - -#undef PLATFORM_CNAT_NFV9_L2_ENCAPS_OFFSET -#ifdef TARGET_RODDICK -#define PLATFORM_CNAT_NFV9_L2_ENCAPS_OFFSET 0 -#else -#define PLATFORM_CNAT_NFV9_L2_ENCAPS_OFFSET 16 -#endif - -#undef PLATFORM_MAX_SHOW_BUFFER_SIZE -#undef PLATFORM_MAX_TRANSLATION_ENTRIES -#undef PLATFORM_MAX_UTIL_ENTRIES - -#define PLATFORM_MAX_SHOW_BUFFER_SIZE 1700 -#define PLATFORM_MAX_TRANSLATION_ENTRIES (50) -#define PLATFORM_NAT64_MAX_TRANSLATION_ENTRIES (30) -#define PLATFORM_MAX_UTIL_ENTRIES (100) - - -#undef PLATFORM_NAT64_MAX_SESSIONS -#undef PLATFORM_NAT64_TIMEOUT_HASH_SIZE -#define PLATFORM_NAT64_MAX_SESSIONS 20000000 -#define PLATFORM_NAT64_TIMEOUT_HASH_SIZE 24001 /* Ref: CSCtr36242 */ - -#undef PLATFORM_CHECK_DSLITE_ENABLE_FLAG -#define PLATFORM_CHECK_DSLITE_ENABLE_FLAG 1 - -/* Fragment hold limit is Platform specific */ -/* For Roddick, it is 63 due to hardware limitation */ -#undef PLATFORM_IPV4_FRAG_FRAG_HOLD_LIMIT -#define PLATFORM_IPV4_FRAG_FRAG_HOLD_LIMIT 63 - -#undef PLATFORM_MAX_IPV4_CTX_ENTRIES -#define PLATFORM_MAX_IPV4_CTX_ENTRIES 80 - -#undef PLATFORM_DIRN_IN_TO_OUT -#undef PLATFORM_DIRN_OUT_TO_IN -#undef PLATFORM_SET_SVI_PARAMS_FIELD - -#define PLATFORM_DIRN_IN_TO_OUT -#define PLATFORM_DIRN_OUT_TO_IN -#define PLATFORM_SET_SVI_PARAMS_FIELD(var, value) - -#undef PLATFORM_GET_NFV9_L3_HDR_OFFSET -#define PLATFORM_GET_NFV9_L3_HDR_OFFSET \ - ((u8 *)ctx + ctx->data + CNAT_NFV9_IP_HDR_OFFSET); - -#undef PLATFORM_GET_NFV9_L4_HDR_OFFSET -#define PLATFORM_GET_NFV9_L4_HDR_OFFSET \ - ((u8 *) ctx + ctx->data + CNAT_NFV9_UDP_HDR_OFFSET); - -#undef PLATFORM_MEMSET_CNAT_LOG_PKT_DATA -#define PLATFORM_MEMSET_CNAT_LOG_PKT_DATA - -/* - Index 0 -- SE_P2MP - Index 1 -- HA Destination 1 - Index 2 -- HA Destination 2 - Index 3 -- EXT_LOG_SRVR -*/ -enum { - NODE_CGNCFG, - NODE_HA, - NODE_PD_CONFIG, - NODE_LOGGING, - NODE_TRACE_BACKUP, - NODE_MAX, -}; - -#endif /* __PLATFORM_COMMON_OVERRIDE_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/spp_ctx.h b/plugins/vcgn-plugin/vcgn/spp_ctx.h deleted file mode 100644 index 2d3c95c8887..00000000000 --- a/plugins/vcgn-plugin/vcgn/spp_ctx.h +++ /dev/null @@ -1,76 +0,0 @@ -/* - *------------------------------------------------------------------ - * spp_ctx.h - packet / context definitions - * - * Copyright (c) 2007-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __SPP_CTX_H__ -#define __SPP_CTX_H__ - -/* Packet header / data */ - -/* Any change to spp_ctx_t structure should be updated in vnet/buffer.h - * as well. - */ -typedef struct _spp_ctx { -#ifdef TOBE_PORTED - /* Following fields are required to handle multibuffer */ - u32 num_buffers; /* Number of buffers part of packet */ - vlib_buffer_t *next_ctx_this_packet; - - /* Following is used by non-UDP protocols */ -#define SPP_CTX_FEATURE_DATA_SIZE 16 - - u8 feature_data[SPP_CTX_FEATURE_DATA_SIZE]; -#endif - - union { /* Roddick specific */ - u32 roddick_info; - struct __tx_pkt_info { /* Used by PI to PI communication for TX */ - u32 uidb_index:16; /* uidb_index to transmit */ - u32 packet_type:2; /* 1-IPv4, 2-Ipv6, - 0,3 - Unused */ - u32 ipv4_defrag:1; /* 0 - Normal, 1 - update first - * segment size - * (set by 6rd defrag node) - */ - - u32 dst_ip_port_idx:4;/* Index to dst_ip_port_table */ - u32 from_node:4; - u32 calc_chksum:1; - u32 reserved:4; - } tx; - struct __rx_pkt_info { /* Used by PD / PI communication */ - u32 uidb_index:16; /* uidb_index received in packet */ - u32 packet_type:2; /* 1-IPv4, 2-Ipv6, - 0,3 - Unused */ - u32 icmp_type:1; /* 0-ICMP query type, 1-ICMP error type */ - u32 protocol_type:2; /* 1-TCP, 2-UDP, 3-ICMP, 0 - Unused */ - u32 ipv4_defrag:1; /* 0 - Normal, 1 - update first - * segment size - * (set by 6rd defrag node) - */ - - u32 direction:1; /* 0-Outside, 1-Inside */ - u32 frag:1; /*IP fragment-1, Otherwise-0*/ - u32 option:1; /* 0-No IP option (v4) present, non-fragHdr - * option hdr present (v6) - */ - u32 df_bit:1; /* IPv4 DF bit copied here */ - u32 reserved1:6; - } rx; - } ru; -} spp_ctx_t; - -#endif diff --git a/plugins/vcgn-plugin/vcgn/spp_platform_trace_log.c b/plugins/vcgn-plugin/vcgn/spp_platform_trace_log.c deleted file mode 100644 index a96894f935d..00000000000 --- a/plugins/vcgn-plugin/vcgn/spp_platform_trace_log.c +++ /dev/null @@ -1,989 +0,0 @@ -/* - *------------------------------------------------------------------ - * spp_platform_trace_log.c - * - * Copyright (c) 2008-2011, 2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *--------------------------------------------------------------------------- - */ - -#include <vlib/vlib.h> -#include <stdio.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> -#include <vlib/main.h> - -#include "tcp_header_definitions.h" -#include "platform_common.h" -#include "spp_platform_trace_log.h" - -#define WORD_SIZE sizeof(u32) - -int temperature_read_blocked = 1; - -spp_cnat_logger_tbl_t spp_cnat_logger_table[] = -{ - { CNAT_ERROR_SUCCESS, - 3, - 0, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NO_CONFIG_ERROR, - 3, - 180, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NO_VRF_RUN_ERROR, - 3, - 180, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NO_POOL_FOR_ANY_ERROR, - 3, - 180, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NO_PORT_FOR_ANY_ERROR, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_BAD_INUSE_ANY_ERROR, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NOT_FOUND_ANY_ERROR, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_INV_PORT_FOR_DIRECT_ERROR, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_BAD_INUSE_DIRECT_ERROR, - 3, - 1, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NOT_FOUND_DIRECT_ERROR, - 3, - 1, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_OUT_OF_PORT_LIMIT_ERROR, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_MAIN_DB_CREATE_ERROR, - 0, - 30, - {""} - }, - { CNAT_LOOKUP_ERROR, - 1, - 30, - {"Type"} - }, - { CNAT_INDEX_MISMATCH_ERROR, - 2, - 30, - {"in2out_index", - "out2in_index"} - }, - { CNAT_PACKET_DROP_ERROR, - 3, - 15, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_INV_UNUSED_USR_INDEX, - 1, - 10, - {"invalid/unused user index"} - }, - { CNAT_INVALID_VRFMAP_INDEX, - 0, - 60, - {""} - }, - { CNAT_USER_OUT_OF_PORTS, - 2, - 1800, - {"i-vrf", - "ipv4 addr"} - }, - { CNAT_EXT_PORT_THRESH_EXCEEDED, - 2, - 180, - {"i-vrf", - "ipv4 address"} - }, - { CNAT_EXT_PORT_THRESH_NORMAL, - 2, - 180, - {"vrf", - "ipv4 address"} - }, - { CNAT_NO_EXT_PORT_AVAILABLE, - 0, - 1, - {"",} - }, - { CNAT_SESSION_THRESH_EXCEEDED, - 2, - 1800, - {"vrf", - "ipv4 address"} - }, - { CNAT_SESSION_THRESH_NORMAL, - 2, - 30, /* changed to 30 */ - {"vrf", - "ipv4 address"} - }, - { WQE_ALLOCATION_ERROR, - 0, - 180, /* changed to 180 */ - {""} - }, - { ERROR_PKT_DROPPED, - 2, - 60, /* changed to 60 */ - {"spi-port", - "error-code"} - }, - { SYSMGR_PD_KEY_CREATION_ERROR, - 0, - 30, - {""} - }, - { SYSMGR_PD_SHMEM_ID_ERROR, - 0, - 1, - {""} - }, - { SYSMGR_PD_SHMEM_ATTACH_ERROR, - 0, - 1, - {""} - }, - { OCTEON_CKHUM_SKIPPED, - 2, - 60, /* changed to 60 */ - {"version", - "protocol"} - }, - { PK0_SEND_STATUS, - 1, - 15, - {"status"} - }, - { CMD_BUF_ALLOC_ERR, - 0, - 60, - {""} - }, - { SPP_CTX_ALLOC_FAILED, - 1, - 300, /* every 5 min */ - {"node"} - }, - { SPP_MAX_DISPATCH_REACHED, - 1, - 60, - {"node"} - }, - { HA_SIGCHILD_RECV, - 3, - 1, - {"pid", - "uid", - "signal",} - }, - { SIGACTION_ERR, - 0, - 1, - {""} - }, - { HA_INVALID_SEQ_OR_CONFIG_OR_TYPE, - 2, - 10, - {"seq-id or config option", - "Type"} - }, - { NODE_CREATION_ERROR, - 1, - 1, - {"node"} - }, - - { CNAT_CLI_INVALID_INPUT, - 4, - 0, - {"Error Type", - "Passed", - "Expected", - "Type"} - }, - { CNAT_DUMMY_HANDLER_HIT, - 1, - 0, - {"Handler"} - }, - { CNAT_CONFIG_ERROR, - 5, - 0, - {"Sub code", - "Param 1", - "Param 2", - "Param 3", - "Param 4"} - }, - { CNAT_NFV9_ERROR, - 1, - 180, /* changed to 180 */ - {"Sub code"} - }, - { CNAT_CMVX_TWSI_READ_WRITE_FAIL, - 3, - 180, - {"Operation", - "Location", - "Data"} - }, - { CNAT_TEMP_SENSOR_TIMEOUT, - 0, - 180, - {""} - }, - { CNAT_TEMP_SENSOR_DATA_MISMATCH, - 2, - 180, - {"Actual", - "Expected"} - }, - { CNAT_TEMP_SENSOR_CONFIG_FAILED, - 1, - 180, - {"Glik"} - }, - { HA_APP_NOT_RESPONDING, - 2, - 180, - {"CPU", - "Core"} - }, - { HA_DATA_PATH_TEST_FAILED, - 0, - 30, - {""} - }, - { CNAT_WRONG_PORT_ALLOC_TYPE, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_NEW_PORT_ALLOC_ERROR, - 3, - 60, - {"i-vrf", - "ipv4 addr", - "port"} - }, - { CNAT_INVALID_INDEX_TO_FREE_PORT, - 0, - 60, - {""} - }, - { CNAT_DELETE_DB_ENTRY_NO_PORTMAP, - 0, - 60, - {""} - }, - { CNAT_MAIN_DB_LIMIT_ERROR, - 0, - 180, - {""} - }, - { CNAT_USER_DB_LIMIT_ERROR, - 0, - 180, - {""} - }, - { CNAT_FRAG_DB_ERROR, - 1, - 180, - {"Type"} - }, - - { DROP_PKT_DUMP, - 0, - 20, - {""} - } -}; - -#define LOG_TABLE_MAX_ENTRIES \ - (sizeof(spp_cnat_logger_table)/sizeof(spp_cnat_logger_table[0])) - -u32 error_code_timestamps[LOG_TABLE_MAX_ENTRIES]; -spp_timer_t sensor_timer; -spp_trace_log_global_info_t spp_trace_log_global_info; -spp_global_counters_t spp_global_counters; - -/* - * Logging information structures - */ -spp_trace_log_info_t spp_default_trace_log_info; -spp_trace_log_info_t *spp_trace_log_info_pool; - -#ifdef TOBE_PORTED -/* - * The following 2 functions are temporary hacks until - * we have RTC support from the PD nodes - */ -inline -u32 spp_trace_log_get_sys_up_time_in_ms (void) -{ - spp_node_main_vector_t *nmv; - u32 sys_up_time; - - nmv = spp_get_node_main_vectorized_inline(); - - sys_up_time = (u32) (nmv->ticks / nmv->ticks_per_ms); - - return (sys_up_time); -} - -u32 spp_trace_log_get_unix_time_in_seconds (void) -{ - spp_node_main_vector_t *nmv; - u32 unix_time; - - nmv = spp_get_node_main_vectorized_inline(); - - unix_time = (u32) (nmv->ticks / nmv->ticks_per_second); - - return (unix_time); -} - -/* - * edt: * * spp_trace_log_send_queued_pkt - * - * Tries to send a logging pkt that has been queued earlier - * because it could not be sent due to downstream constipation - * - * Argument: spp_trace_log_info_t *trace_logging_info - * structure that contains the packet context - */ -inline -void spp_trace_log_send_queued_pkt (spp_trace_log_info_t *trace_logging_info) -{ - spp_node_t *output_node; - - output_node = spp_get_nodes() + - spp_trace_log_global_info.spp_trace_log_disp_node_index; - - if (PREDICT_TRUE(output_node->sf.nused < SPP_MAXDISPATCH)) { - /* - * Move the logging context to output node - */ - spp_dispatch_make_node_runnable(output_node); - output_node->sf.ctxs[output_node->sf.nused++] = - trace_logging_info->queued_logging_context; - - /* - * Context has been queued, it will be freed after the pkt - * is sent. Clear this from the logging_context_info structure - */ - trace_logging_info->queued_logging_context = NULL; - - } else { - /* - * Can't do much, just return, may be we can send it later - */ - spp_global_counters.spp_trace_log_downstream_constipation_count++; - } -} - -/* - * edt: * * spp_trace_log_send_pkt - * - * Tries to send a logging pkt. If the packet cannot be sent - * because of rewrite_output node cannot process it, queue - * it temporarily and try to send it later. - * - * Argument: spp_trace_log_info_t *trace_logging_info - * structure that contains the packet context - */ -inline -void spp_trace_log_send_pkt (spp_trace_log_info_t *trace_logging_info) -{ - spp_node_t *output_node; - - - output_node = spp_get_nodes() + - spp_trace_log_global_info.spp_trace_log_disp_node_index; - - if (PREDICT_TRUE(output_node->sf.nused < SPP_MAXDISPATCH)) { - /* - * Move the logging context to output node - */ - spp_dispatch_make_node_runnable(output_node); - output_node->sf.ctxs[output_node->sf.nused++] = - trace_logging_info->current_logging_context; - - } else { - /* - * Queue the context into the logging_info structure, - * We will try to send it later. Currently, we will - * restrict to only one context queued. - */ - spp_global_counters.spp_trace_log_downstream_constipation_count++; - - /* - * Attach the current logging context which is full to the - * queued context list in trace_logging_info structure - */ - trace_logging_info->queued_logging_context = - trace_logging_info->current_logging_context; - - /* - * Whether the context is queued or not, set the current context index - * to EMPTY, as the earlier context can no more be used to send - * more logging records. - */ - } - - trace_logging_info->current_logging_context = NULL; -} - -/* - * edt: * * spp_trace_log_send_pkt_always_success - * - * Tries to send a logging pkt. This cannot fail due to downstream - * constipation because we have already checked if the rewrite_output - * node can accept it. - * - * Argument: spp_trace_log_info_t *trace_logging_info - * structure that contains the packet context - * - * Argument: spp_node_t *output_node - * spp_node_t structure for rewrite_output node - */ -inline -void spp_trace_log_send_pkt_always_success ( - spp_trace_log_info_t *trace_logging_info, - spp_node_t *output_node) -{ - /* - * At this point we either have a current or queued logging context - */ - if (PREDICT_TRUE(trace_logging_info->current_logging_context != NULL)) { - - output_node->sf.ctxs[output_node->sf.nused++] = - trace_logging_info->current_logging_context; - - trace_logging_info->current_logging_context = NULL; - } else { - /* - * For queued logging context - */ - output_node->sf.ctxs[output_node->sf.nused++] = - trace_logging_info->queued_logging_context; - - trace_logging_info->queued_logging_context = NULL; - } - - /* - * Move the logging context to output node - */ - spp_dispatch_make_node_runnable(output_node); - -} - -/* - * edt: * * spp_create_trace_log_context - * - * Tries to create a logging context with packet buffer - * to send a new logging packet - * - * Argument: spp_trace_log_info_t *trace_logging_info - * structure that contains the nfv9 logging info and will store - * the packet context as well. - */ -inline -void spp_create_trace_log_context ( - spp_trace_log_info_t *trace_logging_info) -{ - spp_ctx_t *ctx; - - /* - * If queued_logging_context_index is non-EMPTY, we already have a logging - * packet queued to be sent. First try sending this before allocating - * a new context. We can have only one active packet context per - * trace_logging_info structure - */ - if (PREDICT_FALSE(trace_logging_info->queued_logging_context != NULL)) { - spp_trace_log_send_queued_pkt(trace_logging_info); - /* - * If we cannot still send the queued pkt, just return - * Downstream Constipation count would have increased anyway - */ - if (trace_logging_info->queued_logging_context != NULL) { - spp_global_counters.spp_trace_log_context_creation_deferred_count++; - return; - } - } - - - /* - * No context can be allocated, return silently - * calling routine will handle updating the error counters - */ - if (spp_ctx_alloc(&ctx, 1) < 1) { - spp_global_counters.spp_trace_log_context_creation_fail_count++; - return; - } - - trace_logging_info->current_logging_context = ctx; - trace_logging_info->pkt_length = 0; - - trace_logging_info->current_logging_context_timestamp = - spp_trace_log_get_sys_up_time_in_ms(); - - ctx->flags = SPP_CTX_END_OF_PACKET; - ctx->ru.tx.from_node = NODE_TRACE_BACKUP; - ctx->ru.tx.dst_ip_port_idx = EXT_TRACE_BACKUP_INDEX; - ctx->next_ctx_this_packet = (spp_ctx_t*) SPP_CTX_NO_NEXT_CTX; - ctx->current_header = &ctx->packet_data[SPP_TRACE_LOG_HDR_OFFSET]; - ctx->current_length = 0; - - trace_logging_info->log_record = 0; - trace_logging_info->total_record_count = 0; - trace_logging_info->next_data_ptr = - (u8 *) &ctx->packet_data[SPP_TRACE_LOG_HDR_OFFSET]; - -} - -/* - * edt: * * spp_trace_log_add_record_create - * - * Tries to create an add record to the NFV9 packet - * - * Argument: spp_trace_log_info_t *trace_logging_info - * structure that contains the nfv9 logging info and will store - * the packet context as well. - */ -inline -void spp_trace_log_add_record_create (spp_trace_log_info_t *trace_logging_info) -{ - - trace_logging_info->log_header = - (spp_trace_log_hdr_t *) (trace_logging_info->next_data_ptr); - - /* - * Initialize the number of traces recorded - */ - trace_logging_info->log_header->num_traces = - spp_host_to_net_byte_order_32(0); - - - trace_logging_info->log_record = - (spp_trace_log_t *) (trace_logging_info->log_header + 1); - - /* - * Update the length of the total pkt - */ - trace_logging_info->pkt_length += - SPP_LOG_TRACE_HEADER_LENGTH; - - /* - * Set the data pointer beyond the trace header field - */ - trace_logging_info->next_data_ptr = - (u8 *) (trace_logging_info->log_header + 1); - -} - -/* - * edt: * * spp_trace_logger - * - * Tries to log spp/cnat event/errors - * - * Argument: u8 *error_code - * Error code passed - * - * Argument: optional arguments - */ -void spp_trace_logger (u16 error_code, u16 num_args, u32 *arg) -{ - spp_trace_log_info_t *trace_logging_info = 0; - u8 i; - - trace_logging_info = - spp_trace_log_info_pool + - spp_trace_log_global_info.spp_log_pool_index[SPP_LOG_LTRACE]; - - if (PREDICT_FALSE(trace_logging_info->current_logging_context == NULL)) { - spp_create_trace_log_context(trace_logging_info); - - /* - * If still empty, return after increasing the count - */ - if (PREDICT_FALSE(trace_logging_info->current_logging_context == NULL)) { - return; - } - } - - if (PREDICT_FALSE(trace_logging_info->log_record == NULL)) { - spp_trace_log_add_record_create(trace_logging_info); - } - - /* - * We should definitely have add_record now, no need to sanitize - */ - trace_logging_info->log_record->error_code = - spp_host_to_net_byte_order_16(error_code); - trace_logging_info->log_record->num_args = - spp_host_to_net_byte_order_16(num_args); - - for (i = 0; i < num_args; i++) { - trace_logging_info->log_record->arg[i] = - spp_host_to_net_byte_order_32(*(arg + i)); - } - - trace_logging_info->pkt_length += SPP_TRACE_LOG_RECORD_LENGTH + WORD_SIZE*num_args; - trace_logging_info->current_logging_context->current_length = - trace_logging_info->pkt_length; - trace_logging_info->total_record_count += 1; - - trace_logging_info->next_data_ptr = - (u8 *) (trace_logging_info->next_data_ptr + WORD_SIZE + WORD_SIZE*num_args); - - trace_logging_info->log_record = - (spp_trace_log_t *) (trace_logging_info->next_data_ptr); - - /* - * Initialize the number of traces recorded - */ - trace_logging_info->log_header->num_traces = - spp_host_to_net_byte_order_32(trace_logging_info->total_record_count); - - - - /* - * If we have exceeded the packet length, let us send the - * packet now. There is buffer of additional bytes beyond - * max_pkt_length to ensure that the last add/delete record - * can be stored safely. - */ - if (trace_logging_info->pkt_length > - trace_logging_info->max_length_minus_max_record_size) { - spp_trace_log_send_pkt(trace_logging_info); - } -} - - -/* - * edt: * * spp_trace_log_timer_handler - * - * Timer handler for sending any pending NFV9 record - * - * Argument: spp_timer_t * timer_p - * Timer handler structure - */ -inline -void spp_trace_log_timer_handler (spp_timer_t * timer_p) -{ - spp_node_t *output_node; - spp_trace_log_info_t *trace_logging_info = 0; - u32 current_timestamp = spp_trace_log_get_sys_up_time_in_ms(); - i16 sf_nused; - - output_node = spp_get_nodes() + - spp_trace_log_global_info.spp_trace_log_disp_node_index; - - sf_nused = output_node->sf.nused; - - pool_foreach (trace_logging_info, spp_trace_log_info_pool, ({ - /* - * Check if no more logging contexts can be queued - */ - if (PREDICT_FALSE(sf_nused >= SPP_MAXDISPATCH)) { - break; - } - - /* - * If there is a current logging context and timestamp - * indicates it is pending for long, send it out - * Also if there is a queued context send it out as well - */ - if (trace_logging_info->queued_logging_context || - (trace_logging_info->current_logging_context && - (current_timestamp - - trace_logging_info->current_logging_context_timestamp) - > 1000)) { - spp_trace_log_send_pkt_always_success(trace_logging_info, - output_node); - sf_nused++; - } - })); - - timer_p->expires = - spp_timer_in_n_ms_inline(1000); /* every 1 sec */ - spp_timer_start(timer_p); - -} -inline -void spp_sensor_timer_handler (spp_timer_t * timer_p) -{ -#ifdef TARGET_RODDICK - if (!temperature_read_blocked) { - Init_temperature_sensors(); - read_octeon_sensors(TEMPERATURE_SENSOR_QUIET_MODE); - } - - timer_p->expires = - spp_timer_in_n_ms_inline(60000); /* every 1 sec */ - spp_timer_start(timer_p); - -#endif -} -void init_trace_log_buf_pool (void) -{ - spp_trace_log_info_t *my_spp_log_info; - u8 found; - spp_log_type_t log_type; - - /* - * Init SPP logging info as needed, this will be done only once - */ - spp_trace_log_init(); - - found = 0; - - for (log_type = SPP_LOG_LTRACE; log_type < SPP_LOG_MAX; log_type++ ) { - /* Do we already have a map for this log type? */ - pool_foreach (my_spp_log_info, spp_trace_log_info_pool, ({ - if (my_spp_log_info->log_type == log_type) { - found = 1; - break; - } - })); - - /* - * Entry not present - */ - if (!found) { - pool_get(spp_trace_log_info_pool, my_spp_log_info); - memset(my_spp_log_info, 0, sizeof(*my_spp_log_info)); - - /* - * Make the current and head logging context indeices as EMPTY. - * When first logging happens, these get set correctly - */ - my_spp_log_info->current_logging_context = NULL; - my_spp_log_info->queued_logging_context = NULL; - - my_spp_log_info->log_type = log_type; - my_spp_log_info->max_length_minus_max_record_size = - SPP_TRACE_LOG_MAX_PKT_LENGTH; - - spp_trace_log_global_info.spp_log_pool_index[log_type] = - my_spp_log_info - spp_trace_log_info_pool; - } - - } - - return; -} - - -/* - * one time function - * has to be called at the init time - */ -void spp_trace_log_init (void) -{ - if (!spp_trace_log_global_info.spp_trace_log_init_done) { - -#ifdef TARGET_RODDICK - spp_trace_log_global_info.spp_trace_log_disp_node_index = - spp_lookup_node_index("roddick_infra_l3_tx"); -#elif defined(TARGET_BOOSTER) - spp_trace_log_global_info.spp_trace_log_disp_node_index = - spp_lookup_node_index("booster_infra_l3_tx"); -#endif - ASSERT(spp_trace_log_global_info.spp_trace_log_disp_node_index != (u16)~0); - - spp_trace_log_global_info.log_timer.cb_index = - spp_timer_register_callback(spp_trace_log_timer_handler); - spp_trace_log_global_info.log_timer.expires = - spp_timer_in_n_ms_inline(1000); /* every 1 sec */ - spp_timer_start(&spp_trace_log_global_info.log_timer); - - if (!my_core_id) { - sensor_timer.cb_index = - spp_timer_register_callback(spp_sensor_timer_handler); - sensor_timer.expires = - spp_timer_in_n_ms_inline(60000); /* every 1 sec */ - spp_timer_start(&sensor_timer); - } - - spp_trace_log_global_info.spp_trace_log_init_done = 1; - - /* - * Set MSC ip_addr, port values - */ -#ifdef TARGET_RODDICK - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].ipv4_address = - vpp_boot_params.msc_ip_address; - switch(vpp_boot_params.octeon_number) { - case 0: - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].port = 0x15BF; - break; - case 1: - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].port = 0x15BF; - break; - case 2: - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].port = 0x15BF; - break; - case 3: - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].port = 0x15BF; - break; - } -#else - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].ipv4_address = 0x01020304; - dst_ipv4_port_table[EXT_TRACE_BACKUP_INDEX].port = 0x15BF; -#endif - - } -} - -void spp_printf (u16 error_code, u16 num_args, u32 *arg) -{ - u32 current_timestamp; - spp_node_main_vector_t *nmv; - - if (PREDICT_FALSE(error_code >= LOG_TABLE_MAX_ENTRIES)) - { - /* printf("Error code invalid %d, %d, %d, %d\n", - error_code, LOG_TABLE_MAX_ENTRIES, - sizeof(spp_cnat_logger_table), sizeof(spp_cnat_logger_table[0])); - */ - return; /* Should not happen */ - } - - nmv = spp_get_node_main_vectorized_inline(); - current_timestamp = nmv->ticks / nmv->ticks_per_second; - - /* Check if any further hashing is required */ - - if (PREDICT_FALSE(error_code == DUMP_PKT_IDX)) { -#ifdef TARGET_RODDICK || defined(TARGET_BOOSTER) - spp_trace_logger(error_code, num_args, arg); -#else - u8 j ; - - printf("PKT DUMP :: "); - for (j = 0 ; j < num_args; j++) { - printf("0x%x ", arg[j]); - if (j == (num_args - 1)) { - printf("\n"); - } - } -#endif - } else if (PREDICT_TRUE((current_timestamp - error_code_timestamps[error_code]) >= - spp_cnat_logger_table[error_code].rate_limit_time)) { - /* update timestamp */ - error_code_timestamps[error_code] = current_timestamp; - -#ifdef TARGET_RODDICK || defined(TARGET_BOOSTER) - spp_trace_logger(error_code, num_args, arg); -#else - u8 j ; - - for (j = 0 ; j < num_args; j++) { - printf("%s: %d ", spp_cnat_logger_table[error_code].param_name[j], arg[j]); - if (j == (num_args - 1)) { - printf("\n"); - } - } -#endif - } -} - -#else /* TOBE_PORTEED */ -void spp_trace_logger(u16 error_code, u16 num_args, u32 *arg) -{ - /* To be filled */ -} - -void spp_trace_log_init(void) -{ - /* To be filled */ -} - -void init_trace_log_buf_pool(void) -{ - /* To be filled */ -} - -void spp_printf(u16 error_code, u16 num_args, u32 *arg) -{ - /* To be filled */ -} - -inline u32 spp_trace_log_get_unix_time_in_seconds (void) -{ - vlib_main_t *vlib_main; - - vlib_main = vlib_get_main(); - return(vlib_time_now((vlib_main_t *) vlib_main)); -} - -#endif /* TOBE_PORTED */ - diff --git a/plugins/vcgn-plugin/vcgn/spp_platform_trace_log.h b/plugins/vcgn-plugin/vcgn/spp_platform_trace_log.h deleted file mode 100644 index 36da710f28c..00000000000 --- a/plugins/vcgn-plugin/vcgn/spp_platform_trace_log.h +++ /dev/null @@ -1,358 +0,0 @@ -/* - *------------------------------------------------------------------ - * spp_platform_trace_log.h - * - * Copyright (c) 2009-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __SPP_PLATFORM_TRACE_LOG_H__ -#define __SPP_PLATFORM_TRACE_LOG_H__ - -#include <stdio.h> -#include <vppinfra/vec.h> -#include <vppinfra/bitmap.h> -#include <vppinfra/hash.h> -#include <vppinfra/pool.h> -#include <vppinfra/clib.h> - -#include "spp_ctx.h" -#include "spp_timers.h" - - -typedef enum { - SPP_LOG_LTRACE, - SPP_LOG_MAX -} spp_log_type_t; - -typedef struct { - u32 num_traces; -} spp_trace_log_hdr_t; - -typedef struct { - u16 error_code; - u16 num_args; - u32 arg[0]; -} spp_trace_log_t; - -#define DUMP_PKT_IDX 61 -#define OCTEON_SENSOR_READ 62 - -typedef enum { - CNAT_ERROR_SUCCESS, - CNAT_NO_CONFIG_ERROR, - CNAT_NO_VRF_RUN_ERROR, - CNAT_NO_POOL_FOR_ANY_ERROR, - CNAT_NO_PORT_FOR_ANY_ERROR, - CNAT_BAD_INUSE_ANY_ERROR, - CNAT_NOT_FOUND_ANY_ERROR, - CNAT_INV_PORT_FOR_DIRECT_ERROR, - CNAT_BAD_INUSE_DIRECT_ERROR, - CNAT_NOT_FOUND_DIRECT_ERROR, - CNAT_OUT_OF_PORT_LIMIT_ERROR, - CNAT_MAIN_DB_CREATE_ERROR, - CNAT_LOOKUP_ERROR, - CNAT_INDEX_MISMATCH_ERROR, - CNAT_PACKET_DROP_ERROR, - CNAT_INV_UNUSED_USR_INDEX, - CNAT_INVALID_VRFMAP_INDEX, - CNAT_USER_OUT_OF_PORTS, - CNAT_EXT_PORT_THRESH_EXCEEDED, - CNAT_EXT_PORT_THRESH_NORMAL, - CNAT_NO_EXT_PORT_AVAILABLE, - CNAT_SESSION_THRESH_EXCEEDED, - CNAT_SESSION_THRESH_NORMAL, - WQE_ALLOCATION_ERROR, - ERROR_PKT_DROPPED, - SYSMGR_PD_KEY_CREATION_ERROR, - SYSMGR_PD_SHMEM_ID_ERROR, - SYSMGR_PD_SHMEM_ATTACH_ERROR, - OCTEON_CKHUM_SKIPPED, - PK0_SEND_STATUS, - CMD_BUF_ALLOC_ERR, - SPP_CTX_ALLOC_FAILED, - SPP_MAX_DISPATCH_REACHED, - HA_SIGCHILD_RECV, - SIGACTION_ERR, - HA_INVALID_SEQ_OR_CONFIG_OR_TYPE, - NODE_CREATION_ERROR, - CNAT_CLI_INVALID_INPUT, /* new adds as part of CSCto04510, see sub codes below */ - CNAT_DUMMY_HANDLER_HIT, /* Has sub codes , see spp_dummy_handler_sub_cdes_t */ - CNAT_CONFIG_ERROR, /* has subcodes-see spp_config_error_sub_codes_t below */ - CNAT_NFV9_ERROR, /* Has sub codes see spp_nfv9_error_sub_codes_t below */ - CNAT_CMVX_TWSI_READ_WRITE_FAIL, /* Hassub codes see spp_cmvx_error_sub_codes_t */ - CNAT_TEMP_SENSOR_TIMEOUT, - CNAT_TEMP_SENSOR_DATA_MISMATCH, - CNAT_TEMP_SENSOR_CONFIG_FAILED, - HA_APP_NOT_RESPONDING, - HA_DATA_PATH_TEST_FAILED, - CNAT_WRONG_PORT_ALLOC_TYPE, - CNAT_NEW_PORT_ALLOC_ERROR, - CNAT_INVALID_INDEX_TO_FREE_PORT, - CNAT_DELETE_DB_ENTRY_NO_PORTMAP, - CNAT_MAIN_DB_LIMIT_ERROR, - CNAT_USER_DB_LIMIT_ERROR, - CNAT_FRAG_DB_ERROR, /* see spp_frag_db_error_sub_codes_t below */ - - DROP_PKT_DUMP, - CNAT_NAT64_SYSTEM_LIMIT_ERROR, - CNAT_ERROR_MAX -} spp_error_codes_t; - -typedef enum { - - TCP_MSS_INVALID_IVRF = 10, /* 1 param - vrf id */ - NFV9_LOG_INVALID_IP_OR_PORT = 20, /* 2 params - nfv9 server ip and port */ - NFV9_LOG_INVALID_PARAMS_OTHERS, /* 3 params, ref rate, time out, path mtu */ - NFV9_LOG_PATH_MTU_TOO_SMALL, /* 1 param, path mtu passed */ - NFV9_LOG_CANNOT_ADD_VRF_NOT_FOUND, /* 1 param, in vrf id */ - - VRF_MAP_ADDR_POOL_START_ADDR_GT_END_ADDR = 30, /* 2 params, start and end addr */ - VRF_MAP_ADDR_POOL_ADDR_POOL_TOO_LARGE, /* 2 params, start and end addr */ - VRF_MAP_ADDR_POOL_INVALID_IN_OR_OUT_VRF, /* 2 params, in vrf and out vrf */ - VRF_MAP_ADDR_POOL_TOO_LARGE_FOR_CORE, /* 2 params, pool size, core instance */ - VRF_MAP_DEL_POOL_START_ADDR_GT_END_ADDR, /* 2 params, start and end addr */ - VRF_MAP_DEL_POOL_ADDR_POOL_NOT_FOUND, /* 2 params, start and end addr */ - VRF_MAP_DEL_POOL_VRF_MAP_EMPTY, /* 2 params, start and end addr */ - - ADD_SVI_ADDR_INVALID_VRF = 40, /* 2 params, vrf passed and ipv4 addr */ - ADD_SVI_INDEX_INVALID_VRF, /* 2 params, vrf, uidb_index */ - - MAPPED_STAT_PORT_INVALID_OUTPUT_PARAMS = 50, - /* 3 params, out vrf, out ip, out port */ - MAPPED_STAT_PORT_UDP_PORT_POLARITY_MISMATCH, /* 2 params, in port and out port */ - MAPPED_STAT_PORT_IN_VRF_MAP_EMPTY, /* 1 param, in vrf id passed */ - MAPPED_STAT_PORT_VRF_MAP_NOT_IN_S_RUN, /* 1 param, vrf map status */ - MAPPED_STAT_PORT_INVALID_OUT_VRF_ID, /* 1 param, out vrf id passed */ - MAPPED_STAT_PORT_FAILED_TO_ADD_STAT_PORT, /* 4 params, in vrf, in ip, in port, error code */ - - STAT_PORT_INVALID_IN_PARAMS = 60, /* 4 params, in vrf, in ip, in port, proto */ - STAT_PORT_FAILED_TO_ADD_STAT_PORT, /* 4 params, in vrf, in ip, in port, error code */ - STAT_PORT_CONFIG_IN_USE, /* 4 params, in vrf, in ip, in port, proto */ - - DEL_STAT_PORT_IN_VRF_MAP_EMPTY = 70, /* 1 param, in vrf id passed */ - DEL_STAT_PORT_INVALID_IN_PARAMS, /* 4 params, in vrf, in ip, in port, proto */ - DEL_STAT_PORT_CANNOT_DELETE_NO_ENTRY, /* 4 params, in vrf, in ip, in port, proto */ - DEL_STAT_PORT_CANNOT_DELETE_NOT_STATIC_PORT, /* 4 params, in vrf, in ip, in port, proto*/ - - XLAT_SVI_CFG_INVALID_INDEX = 80, /* 1 param - uidb_index */ - XLAT_WRONG_V6_PREFIX_MASK, /* 1 param - v6 prefix mask */ - XLAT_INVALID_XLAT_ID_ERROR, /* 1 param - id */ - - V6RD_INVALID_6RD_ID_ERROR = 90, /*1 param - id */ - MAPE_INVALID_MAPE_ID_ERROR = 100 /* param - id */ -} spp_config_error_sub_codes_t; - -typedef enum { - CONFIG_DUMMY, - CONFIG_DUMMY_MAX, - SHOW_DUMMY, - SHOW_DUMMY_MAX, - DEBUG_DUMMY, - DEBUG_DUMMY_MAX -} spp_dummy_handler_sub_cdes_t; - -typedef enum { - CMVX_READ, - CMVX_WRITE -} spp_cmvx_error_sub_codes_t; - -typedef enum { - FRAG_DB_INVALID_BUCKET, - FRAG_DB_NO_ENTRY -} spp_frag_db_error_sub_codes_t; - -typedef enum { - CLI_INVALID_PAYLOAD_SIZE, - CLI_INVALID_MSG_ID -} spp_cli_error_sub_codes_t; - -typedef enum { - NFV9_DOWNSTREAM_CONGESTION, - NFV9_FAILED_TO_CREATE_CONTEXT -} spp_nfv9_error_sub_codes_t; - -typedef struct spp_cnat_logger_tbl_t_ { - u16 error_code; // The thread id stored by software - u16 num_args; - u16 rate_limit_time; // If we need to rate_limit logging - u8 param_name[7][32];// Parameter name for debug purposes -} spp_cnat_logger_tbl_t; - -extern spp_cnat_logger_tbl_t spp_cnat_logger_table[]; - -/* - * This corresponds to the length of the IMETRO SHIM Header for RODDICK - * For non-roddick cases, introduce an Ethernet header as well - */ -#if defined(RODDICK) -#define SPP_TRACE_LOG_SHIM_HDR_OFFSET 8 -#define SPP_TRACE_LOG_ENCAPS_OFFSET 0 -#else -#define SPP_TRACE_LOG_SHIM_HDR_OFFSET 0 -#define SPP_TRACE_LOG_ENCAPS_OFFSET 16 -#endif - -#define SPP_LOG_TRACE_HEADER_LENGTH \ - (sizeof(spp_trace_log_hdr_t)) - - -#define SPP_TRACE_LOG_IP_HDR_OFFSET \ - (SPP_TRACE_LOG_ENCAPS_OFFSET + \ - SPP_TRACE_LOG_SHIM_HDR_OFFSET) - - -#define SPP_TRACE_LOG_UDP_HDR_OFFSET \ - (SPP_TRACE_LOG_IP_HDR_OFFSET + sizeof(ipv4_header)) - -#define SPP_TRACE_LOG_HDR_OFFSET \ - (SPP_TRACE_LOG_UDP_HDR_OFFSET + sizeof(udp_hdr_type_t)) - -#define SPP_TRACE_LOG_RECORD_LENGTH 4 - -/* - * Let us put the maximum length of the log data to be 1400 - */ -#define SPP_TRACE_LOG_MAX_PKT_LENGTH 800 - -/* Structures and defines to store log info for MSC */ -#define SPP_TRACE_LOG_INVALID_LOGGING_INDEX 0xffffffff - -/* - * This structure stores the Logging information on per LOG TYPE - * basis. This structure is allocated from a pool and index - * to this structure based on log type - */ -typedef struct { - /* - * This field determines the maximum size of the Netflow V9 information - * that can be stored in a logging packet - */ - u16 max_length_minus_max_record_size; - - u32 sequence_num; /* Sequence number of the logging packet */ - u32 last_pkt_sent_count; - u16 pkt_length; /* Length of the currently NFv9 information */ - u16 log_record_length; /* Length of add record */ - u16 total_record_length; /* number of trace records */ - u16 total_record_count; - spp_log_type_t log_type; - /* - * current logging context - */ - spp_ctx_t *current_logging_context; - - /* - * Timestamp in UNIX seconds corresponding to when the current - * logging packet was created - */ - u32 current_logging_context_timestamp; - - /* - * Queued logging context waiting to be sent to the l3 infra node - */ - spp_ctx_t *queued_logging_context; - - /* - * Headers corresponding to various records in this - * current nfv9 logging context - */ - spp_trace_log_t *log_record; - spp_trace_log_hdr_t *log_header; - u8 *next_data_ptr; - -} spp_trace_log_info_t; - -typedef struct { - /* - * spp_ctx_alloc() call failed - */ - u64 spp_trace_log_context_creation_fail_count; - - /* - * Cannot send the existing logging pkt, so cannot create - * any additional packets for logging purposes - */ - u64 spp_trace_log_context_creation_deferred_count; - - /* - * Cannot send the existing logging pkt due to cnat_rewrite_output - * superframe being full. - */ - u64 spp_trace_log_downstream_constipation_count; -} spp_global_counters_t; - - -/* - * Global structure for SPP LOGS - */ -typedef struct { - /* A timer structure to periodically send log packets - * that have been waiting to be full for a long time. This will - * ensure event/error logs don't get delayed too much before they - * are sent to the MSC. - */ - spp_timer_t log_timer; - - /* - * Node index corresponding to the infra L3 output node - * to which the nfv9 logging node will send the packet - */ - u16 spp_trace_log_disp_node_index; - - /* - * Whether we have initialized the NFv9 information - */ - u8 spp_trace_log_init_done; - - /* - * pool index in global pool based on log type - */ - u32 spp_log_pool_index[SPP_LOG_MAX]; - -} spp_trace_log_global_info_t; - - -extern spp_timer_t sensor_timer; -extern spp_trace_log_info_t spp_default_trace_log_info; -extern spp_trace_log_info_t *spp_trace_log_info_pool; - -extern spp_trace_log_global_info_t spp_trace_log_global_info; - -void spp_trace_logger(u16 error_code, u16 num_args, u32 *arg); -void spp_trace_log_init(void); -void init_trace_log_buf_pool(void); -void spp_printf(u16 error_code, u16 num_args, u32 *arg); - -/* - * The following 2 functions are temporary hacks until - * we have RTC support from the PD nodes - */ -#if 0 -inline -u32 spp_trace_log_get_sys_up_time_in_ms (void); -#endif -extern -u32 spp_trace_log_get_unix_time_in_seconds (void); - -enum { - TEMPERATURE_SENSOR_TEST_MODE, - TEMPERATURE_SENSOR_QUIET_MODE, -}; - -extern int temperature_read_blocked; - -void read_octeon_sensors(u8 mode); -void Init_temperature_sensors(); -#endif /* __SPP_PLATFORM_TRACE_LOG_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/spp_timers.h b/plugins/vcgn-plugin/vcgn/spp_timers.h deleted file mode 100644 index afb0147b2ed..00000000000 --- a/plugins/vcgn-plugin/vcgn/spp_timers.h +++ /dev/null @@ -1,139 +0,0 @@ -/* - *------------------------------------------------------------------ - * spp_timers.h - * - * Copyright (c) 2008-2009 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ -#ifndef __SPP_TIMERS_H__ -#define __SPP_TIMERS_H__ - - -typedef struct d_list_el_ { - struct d_list_el_ *next; - struct d_list_el_ *prev; -} d_list_el_t; - -/* - * d_list_init - */ - -static inline void d_list_init (d_list_el_t *headp) -{ - headp->prev = headp->next = headp; -} - -/* - * d_list_init - add at head of list - */ - -static inline void d_list_add_head (d_list_el_t *headp, - d_list_el_t *elp) -{ - ASSERT(elp->prev == elp); /* multiple enqueue, BAD! */ - ASSERT(elp->next == elp); - - elp->next = headp->next; - headp->next = elp; - elp->prev = elp->next->prev; - elp->next->prev = elp; -} - -/* - * d_list_add_tail - add element at tail of list - */ -static inline void d_list_add_tail (d_list_el_t *headp, - d_list_el_t *elp) -{ - ASSERT(elp->prev == elp); /* multiple enqueue, BAD! */ - ASSERT(elp->next == elp); - - headp = headp->prev; - - elp->next = headp->next; - headp->next = elp; - elp->prev = elp->next->prev; - elp->next->prev = elp; -} - -/* - * d_list_rem_head - removes first element from list - */ -static inline d_list_el_t *d_list_rem_head (d_list_el_t *headp) -{ - d_list_el_t *elp; - - elp = headp->next; - if (elp == headp) - return (NULL); - headp->next = elp->next; - elp->next->prev = elp->prev; - - elp->next = elp->prev = elp; - return (elp); -} - -/* - * d_list_rem_elem - removes specific element from list. - */ -static inline void d_list_rem_elem (d_list_el_t *elp) -{ - d_list_el_t *headp; - - headp = elp->prev; - - headp->next = elp->next; - elp->next->prev = elp->prev; - elp->next = elp->prev = elp; -} - -#define TIMER_BKTS_PER_WHEEL 128 /* power of 2, please */ -#define TIMER_NWHEELS 4 - -typedef struct { - i32 curindex; /* current index for this wheel */ - d_list_el_t *bkts; /* vector of bucket listheads */ -} spp_timer_wheel_t; - - -typedef struct { - u64 next_run_ticks; /* Next time we expire timers */ - spp_timer_wheel_t **wheels; /* pointers to wheels */ -} spp_timer_axle_t; - - -typedef struct { - d_list_el_t el; - u16 cb_index; - u16 flags; - u64 expires; -} spp_timer_t; - -#define SPP_TIMER_RUNNING 0x0001 - - -/* - * prototypes - */ -void spp_timer_set_ticks_per_ms(u64); -void spp_timer_axle_init (spp_timer_axle_t *ta); -void spp_timer_expire(spp_timer_axle_t *ta, u64 now); -void spp_timer_final_init(void); - -void spp_timer_start(spp_timer_t *tp); -void spp_timer_start_axle(spp_timer_axle_t *ta, spp_timer_t *tp); -void spp_timer_stop(spp_timer_t *tp); -u16 spp_timer_register_callback (void (*fp)(spp_timer_t *)); - -#endif /* __SPP_TIMERS_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/tcp_header_definitions.h b/plugins/vcgn-plugin/vcgn/tcp_header_definitions.h deleted file mode 100644 index 02920bcc8ee..00000000000 --- a/plugins/vcgn-plugin/vcgn/tcp_header_definitions.h +++ /dev/null @@ -1,1582 +0,0 @@ -/* - *----------------------------------------------------------------------------- - * - * Filename: tcp_header_definitions.h - * - * Description: Layer 2, 3, 4 definitions and header types - * - * Assumptions and Constraints: - * - * Copyright (c) 2012-2013 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *----------------------------------------------------------------------------- - */ - -#ifndef __TCP_HEADER_DEFINITIONS_H__ -#define __TCP_HEADER_DEFINITIONS_H__ - -/* - * A general list of Layer 3 protocols, used by many Layer 2 encaps. - * - * formerly: - * TYPE_IP TYPE_IP10MB - * TYPE_ARP TYPE_RFC826_ARP - * TYPE_RARP TYPE_REVERSE_ARP - * TYPE_MPLS TYPE_TAGSWITCH - */ -#define TYPE_IP 0x0800 -#define TYPE_IP_V6 0x86DD -#define TYPE_ARP 0x0806 -#define TYPE_RARP 0x8035 -#define TYPE_MPLS 0x8847 -#define TYPE_CDP 0x2000 -#define TYPE_CGMP 0x2001 -#define TYPE_LACP 0x8808 /* 802.3ad */ -#define TYPE_CLNS 0xFEFE - -#define TYPE_PPPOE_SESSION 0x8864 /* PTA plus */ -#define TYPE_PPPOE_DISCOVERY 0x8863 /* PTA plus */ - -/* - * for atm arp handling - */ -#define IN_ATM_ARP_BIT 0x0008 - -/* - * The Layer 2 header structures. - */ - - -/* -** HDLC -*/ - -typedef struct hdlc_hdr_type { - u16 addr; - u16 type; - u8 data[0]; -} hdlc_hdr_type; - -#define HDLC_ADDR_CMD 0x0F00 -#define HDLC_HDR_LEN 4 -#define HDLC_BROADCAST_BIT 31 -#define TYPE_KEEP 0x8035 - -#define HDLC_CLNS (HDLC_ADDR_CMD<<16|TYPE_CLNS) -#define HDLC_CDP (HDLC_ADDR_CMD<<16|TYPE_CDP) -#define HDLC_MPLS (HDLC_ADDR_CMD<<16|TYPE_MPLS) -#define HDLC_IP (HDLC_ADDR_CMD<<16|TYPE_IP) -#define HDLC_IP_V6 (HDLC_ADDR_CMD<<16|TYPE_IP_V6) -#define HDLC_KEEPALIVE_CMD (HDLC_ADDR_CMD<<16|TYPE_KEEP) - -/* -** PPP -*/ - -typedef struct ppp_comp_hdr_type { - union { - u8 ppp_u8[4]; - u16 ppp_u16[2]; - u32 ppp_u32; - } ppp_comp_u; -} ppp_comp_hdr_type; - -#define PPP_STATION 0xFF03 -#define PPP_STATION_LEN 0x2 -#define PPP_ENDPROTO 0x01 -#define PPP_NOT_ENDPROTO 0xfffffffe -#define PPP_CONTROL_PROTOCOL_MASK 0x8000 -#define PPP_CONTROL_PROTOCOL_BIT 15 -#define PPP_CSCO_LEN 4 -#define PPP_RFC1661_LEN 2 -#define PPP_RFC1661_COMP_LEN 1 - -#define TYPE_PPP_IP 0x0021 -#define TYPE_PPP_IP_V6 0x0057 -#define TYPE_PPP_MPLS_UNICAST 0x0281 -#define TYPE_PPP_MPLS_CONTROL 0x8281 -#define TYPE_PPP_CLNS 0x0023 -#define TYPE_PPP_CDP 0x0207 - -#define TYPE_PPP_IPCP 0x8021 -#define TYPE_PPP_LCP 0xC021 -#define TYPE_PPP_PAP 0xC023 -#define TYPE_PPP_LQR 0xC025 -#define TYPE_PPP_CHAP 0xC223 - - -#define TYPE_PPP_LCP_ECHO_REQUEST 0x09 -/* -** MultiLink PPP -*/ - -#define MLPPP_FLAGS_FIELD_LEN 4 -#define MLPPP_BEGIN_MASK 0x80000000 -#define MLPPP_END_MASK 0x40000000 -#define MLPPP_BEGIN_END_MASK (MLPPP_BEGIN_MASK|MLPPP_END_MASK) -#define MLPPP_BEGIN_END_SHIFT 30 -#define MLPPP_SEQUENCE_NUM_MASK 0x00FFFFFF -#define MLPPP_MC_CLASS_ID_MASK 0x3C000000 -#define MLPPP_MC_CLASS_SHIFT 26 - -#define TYPE_PPP_MULTILINK 0x003D - -/* these are needed in the micro-code, for optimizations */ -#define TYPE_PPP_FULL_IP_4 0xff030021 -#define TYPE_PPP_FULL_IP_3 0xff0321 -#define TYPE_PPP_FULL_IP_2 0x0021 -#define TYPE_PPP_FULL_IP_1 0x21 - -#define MLPPP_BEGIN_END_MASK_BYTE 0xC0 -#define MLPPP_BEGIN_BIT 7 -#define MLPPP_END_BIT 6 -#define MLPPP_MC_CLASS_ID_MASK_BYTE 0x3C -#define MLPPP_MC_CLASS_ID_SHIFT_BYTE 2 - -#define MLPOA_BEGIN_END_SHIFT 24 - -/* -** Ethernet ARPA -*/ - - -typedef struct ethernet_arpa_hdr_type { - u8 daddr[6]; - u8 saddr[6]; - u16 type; - u8 data[0]; -} ethernet_arpa_hdr_type; - -typedef struct extension_802p3_type { - u16 type; - u8 ctl; - u8 data[0]; -} extension_802p3_type; - -typedef struct ethernet_802p3_hdr_type { - u8 daddr[6]; - u8 saddr[6]; - u16 length; - extension_802p3_type extension; -} ethernet_802p3_hdr_type; - - -typedef struct ethernet_vlan_802p3_hdr_type { - u8 daddr[6]; - u8 saddr[6]; - u16 type1; - u16 vlan_id; - u16 length; - extension_802p3_type extension; -} ethernet_vlan_802p3_hdr_type; - -#define MIN_ETHERNET_PKT_LEN 60 -#define MAX_ETHERNET_PKT_LEN 1500 -#define ETHERNET_ARPA_HDR_LEN 14 -#define ETHERNET_TYPE_FIELD_SIZE 2 - - -/* -** Ethernet 802.1q (VLAN) -*/ - -typedef struct ethernet_vlan_hdr_type { - u8 dest_addr[6]; - u8 src_addr[6]; - u16 type1; - u16 vlan_hdr; - u16 type2; - u8 data[0]; -} ethernet_vlan_hdr_type; - - -/* -** Ethernet 802.1.q-in-q (QinQ) -*/ - -typedef struct ethernet_qinq_hdr_type { - u8 dest_addr[6]; - u8 src_addr[6]; - u16 type1; - u16 vlan_hdr1; - u16 type2; - u16 vlan_hdr2; - u16 type3; - u8 data[0]; -} ethernet_qinq_hdr_type; - - -/* -** Ethernet 802.3ad EtherChannel control -*/ - -typedef struct ethernet_lacp_hdr_type { - u8 daddr[6]; - u8 saddr[6]; - u16 type; - u16 LAcmd; - u8 data[0]; -} ethernet_lacp_hdr_type; - - -/* -** Ethernet 802.1 Bridge (spanning tree) PDU -*/ - -typedef struct ethernet_bpdu_hdr_type { - u8 daddr[6]; - u8 saddr[6]; - u8 dsap; - u8 ssap; - u8 control; - u8 more[0]; -} ethernet_bpdu_hdr_type; - -#define ETH_BPDU_DSAP 0x42 -#define ETH_BPDU_SSAP 0x42 -#define ETH_BPDU_CONTROL 0x03 -#define ETH_BPDU_MATCH 0x424203 - - -/************************************************************/ -/* PTA PLUS ETHERNET ENCAPSULATIONS */ -/* - * PPPoEoARPA 20 bytes - */ -typedef struct ethernet_pppoe_arpa_hdr_type { - u8 daddr[6]; - u8 saddr[6]; - u16 type; - /* pppoe hdr at begining of enet payload */ - u16 vtc; /* version(4b), type(4b) and code(8b) fields */ - u16 sid; - u16 len; - u8 ppp_header[0]; /* PPP header start, no ff03 field present */ -} ethernet_pppoe_arpa_hdr_type; - -typedef struct pppoe_hdr_type { - /* pppoe hdr at begining of enet payload */ - u16 vtc; /* version(4b), type(4b) and code(8b) fields */ - u16 sid; - u16 len; - u8 ppp_header[0]; /* PPP header start, no ff03 field present */ -} pppoe_hdr_type; - -/* -** PPPoEoVLAN (802.1p or 802.1q) 24 bytes -*/ -typedef struct ethernet_pppoe_vlan_hdr_type { - u8 dest_addr[6]; - u8 src_addr[6]; - u16 type1; - u16 vlan_hdr; - u16 type2; - /* pppoe hdr at begining of enet payload */ - u16 vtc; /* version(4b), type(4b) and code(8b) fields */ - u16 sid; - u16 len; - u8 ppp_header[0]; /* PPP header start, no ff03 field present */ -} ethernet_pppoe_vlan_hdr_type; - -/* -** PPPoEoQinQ 28 bytes -*/ -typedef struct ethernet_pppoe_qinq_hdr_type { - u8 dest_addr[6]; - u8 src_addr[6]; - u16 type1; - u16 vlan_hdr1; - u16 type2; - u16 vlan_hdr2; - u16 type3; - /* pppoe hdr at begining of enet payload */ - u16 vtc; /* version(4b), type(4b) and code(8b) fields */ - u16 sid; - u16 len; - u8 ppp_header[0]; /* PPP header start, no ff03 field present */ -} ethernet_pppoe_qinq_hdr_type; - -#define ETH_PPPOE_ARPA_HDR_LEN sizeof(ethernet_pppoe_arpa_hdr_type) -#define ETH_PPPOE_VLAN_HDR_LEN sizeof(ethernet_pppoe_vlan_hdr_type) -#define ETH_PPPOE_QINQ_HDR_LEN sizeof(ethernet_pppoe_qinq_hdr_type) -#define PPPOE_HDR_LEN 6 -/* End PTA PLUS ETHERNET ENCAPSULATIONS */ -/****************************************************************/ - - - -#define TYPE_DOT1Q 0x8100 -#define DOT1Q_HDR_LEN 18 -#define DOT1Q_VLAN_ID_MASK 0x0FFF -#define DOT1Q_VLAN_ID_RES_0 0x0000 -#define DOT1Q_VLAN_ID_RES_4095 0x0FFF -#define DOT1Q_ARPA_INDEX DOT1Q_VLAN_ID_RES_0 - -#define TYPE_QINQ_91 0x9100 -#define TYPE_QINQ_92 0x9200 -#define TYPE_QINQ_88A8 0x88A8 -#define QINQ_HDR_LEN 22 - -/* - * 802.1p support - */ -#define DOT1P_VLAN_COS_MASK 0xE000 -#define DOT1P_VLAN_COS_SHIFT 13 -#define DOT1P_MAX_COS_VALUE 7 - -/* -** Frame Relay -*/ - -/* - * formerly: - * TYPE_FR_IETF_IPV4 ENCAPS_FR_IETF - * TYPE_FR_CISCO_IPV4 ENCAPS_FR_CISCO - * TYPE_FR_ISIS ENCAPS_FR_ISIS - * - * FR_LMI_DLCI_CISCO LMI_DLCI_CISCO - * FR_LMI_DLCI_IETF LMI_DLCI_ITUANSI - */ - -typedef struct frame_relay_hdr_type { - u16 address; - u16 control_nlpid; - u8 data[0]; -} frame_relay_hdr_type; - -typedef struct fr_snap_hdr_type { - u16 address; - u8 control; - u8 pad; - u8 nlpid; - u8 oui[3]; - u16 protocol_id; -} fr_snap_hdr_type; - -#define FR_ADDR_LEN 2 -#define FR_CTL_NLPID_LEN 2 -#define FR_HDR_LEN (FR_ADDR_LEN+FR_CTL_NLPID_LEN) - -/* - * These defines are for the FR-SNAP header. - * The SNAP header is set up solely so that we can - * identify ARP packets, which look like this: - * - * control pad nlpid oui protocol_id - * 03 00 80 00 00 00 0806 - */ -#define FR_ARP_CONTROL 0x03 -#define FR_ARP_PAD 0x00 -#define FR_ARP_NLPID 0x80 -#define FR_ARP_OUI_0 0x00 -#define FR_ARP_OUI_1 0x00 -#define FR_ARP_OUI_2 0x00 -/* - * these are used only in the tmc code - */ -#define FR_NLPID_OUI_LEN 4 -#define FR_ARP_CONTROL_PAD 0x0300 -#define FR_ARP_NLPID_OUI 0x80000000 - - -#define FR_DLCI_UPPER_MASK 0xFC00 -#define FR_DLCI_UPPER_SHIFT 6 -#define FR_DLCI_LOWER_MASK 0x00F0 -#define FR_DLCI_LOWER_SHIFT 4 - -/* - * Defines for converting a DLCI for insertion into a synthesized FR address - * field for FRoMPLS disposition. - - * bit 8 7 6 5 4 3 2 1 - * +-------------------------------+ - * | Flag | - * | 0 1 1 1 1 1 1 0 | - * +-------------------------------+ - * | Upper DLCI |C/R| 0 | - * +-------------------------------+ - * | Lower DLCI | F | B | DE| 1 | - * +-------------------------------+ - * | | - * :Frame relay information field : - * : (i.e.payload) : - * | | - * +-------------------------------+ - * | FCS (2 or 4 octets) | - * | | - * +-------------------------------+ - * | Flag | - * | 0 1 1 1 1 1 1 0 | - * +-------------------------------+ - * - * a-With 10 bits for the DLCI - */ -#define FR_DLCI_TO_HDR_UPPER_MASK 0x3f0 -#define FR_DLCI_TO_HDR_UPPER_SHIFT (10-4) -#define FR_DLCI_TO_HDR_LOWER_MASK 0xf -#define FR_DLCI_TO_HDR_LOWER_SHIFT 4 - -#define TYPE_FR_IETF_IP 0x03CC -#define TYPE_FR_IETF_IP_V6 0x038E -#define TYPE_FR_CISCO_IP 0x0800 -#define TYPE_FR_CISCO_IP_V6 0x86DD -#define TYPE_FR_ISIS 0x0383 -#define TYPE_FR_SNAP0PAD 0x0380 -#define TYPE_FR_SNAP1PAD 0x0300 -#define TYPE_FR_FRF12 0x03B1 -#define TYPE_FR_MLP 0x03CF -#define TYPE_FR_EEK 0x8037 - -#define FR_LMI_DLCI_CISCO 1023 -#define FR_LMI_DLCI_IETF 0 - -#define FR_NOT_NOT_NOT 0 -#define FR_NOT_NOT_DE 1 -#define FR_NOT_BECN_NOT 2 -#define FR_NOT_BECN_DE 3 -#define FR_FECN_NOT_NOT 4 -#define FR_FECN_NOT_DE 5 -#define FR_FECN_BECN_NOT 6 -#define FR_FECN_BECN_DE 7 - -#define FR_FECN_BECN_DE_MASK 0x000E -#define FR_FECN_BECN_DE_SHIFT 1 - -/* Address field extension bit for standard 2-byte FR address field */ -#define FR_EA1_MASK 0x0001 -#define FR_EA1_MASK_BIT 0 - -/* - * these are needed in the micro-code, for optimizations - */ - -/* the bit position (in the address field) of the LSB of the DLCI */ -#define FR_DLCI_LS_BIT 4 - - -/* -** -** MultiLink Frame Relay -** -*/ - -typedef struct mlfr_hdr_type { - u16 frag_hdr; - u16 address; - u16 control_nlpid; - u8 data[0]; -} mlfr_hdr_type; - -/* - * LIP frames have B, E and C set--the other - * bits in the frag_hdr field are irrelevant. - * - * NOTE: Injected LIP packets have a frag_hdr of 0xE100. - * - */ -#define MLFR_LIP_FRAME 0xE100 -#define MLFR_LIP_MASK 0xE000 -#define MLFR_FRAG_HDR_LEN 2 - -#define MLFR_BEGIN_MASK 0x8000 -#define MLFR_END_MASK 0x4000 -#define MLFR_BEGIN_END_MASK (MLFR_BEGIN_MASK|MLFR_END_MASK) -#define MLFR_BEGIN_END_SHIFT 14 - -#define MLFR_SEQ_NUM_HI_MASK 0x1E00 -#define MLFR_SEQ_NUM_HI_SHIFT 1 -#define MLFR_SEQ_NUM_LO_MASK 0x00FF - -/* - * these are needed in the micro-code, for optimizations - */ -#define MLFR_BEGIN_END_MASK_BYTE 0xC0 - - -/* - * FRF.12 definitions - */ -typedef struct frf12_hdr_type_ { - u16 address; - u16 control_nlpid; - u16 frag_hdr; - u8 data[0]; -} frf12_hdr_type; - -#define FRF12_FRAG_HDR_LEN sizeof(frf12_hdr_type) - -#define FRF12_BEGIN_MASK 0x8000 -#define FRF12_END_MASK 0x4000 -#define FRF12_BEGIN_END_MASK (FRF12_BEGIN_MASK|FRF12_END_MASK) -#define FRF12_BEGIN_END_SHIFT 8 - -#define FRF12_SEQ_NUM_HI_MASK 0x1E00 -#define FRF12_SEQ_NUM_HI_SHIFT 1 -#define FRF12_SEQ_NUM_LO_MASK 0x00FF -#define FRF12_BEGIN_END_MASK_BYTE 0xC0 - - - -/* -** -** MLP over Frame Relay -** The ppp hdr can be either a -** an MLP hdr or a PPP hdr -** -** MLP can be compressed or not: -** a) 0xff03003d -** b) 0x003d -** c) 0x3d -** followed by: -** 1 byte with begin/end bits -** 3 bytes of a sequence # -** -** PPP can be also be compressed or not. -** Only these will be fwded: -** a) 0xff030021 -** b) 0xff0321 -** c) 0x0021 -** d) 0x21 -** -** -*/ -typedef struct mlpofr_hdr_type { - u16 address; - u16 control_nlpid; - u8 ppp_header[0]; -} mlpofr_hdr_type; - -/* -** ATM - -*/ - -/* - * channel_handle is defined as follows: - * - * bits 15 = reserved (must be 0) - * bits 14 - 0 = channel handle - * - * - * flags is a bitfield defined as follows: - * - * bits 15 - 13 = proto (PPPoA RFC1661 = 0, - * PPPoE = 1, - * RBE = 2, - * PPPoA Cisco = 3, - * MLPoATM RFC1661 = 4, - * MLPoATM Cisco = 5, - * Reserved = 6-7) - * bit 12 = encap (MUX=0, - * SNAP=1) - * bits 11 - 6 = reserved (must be 0) - * bits 5 - 3 = pkt_type (AAL5 pkt = 0, - * Raw cell (includes F4 OAM) = 1, - * F5 segment OAM cell = 2 - * F5 end-to-end OAM cell = 3 - * Reserved = 4-7) - * bit 2 = EFCI (congestion indication) - * bit 1 = reserved (must be 0) - * bit 0 = CLP (cell loss priority) - */ - -typedef struct apollo_atm_generic_hdr_type { - u16 channel_handle; - u16 flags; -} apollo_atm_generic_hdr_type; - -typedef struct apollo_atm_aal5_snap_hdr_type { - u16 channel_handle; - u16 flags; - u8 dsap; - u8 ssap; - u8 control; - u8 oui[3]; - u16 type; - u8 data[0]; -} apollo_atm_aal5_snap_hdr_type; - -typedef struct atm_aal5_snap_hdr_type { - u8 dsap; - u8 ssap; - u8 control; - u8 oui[3]; - u16 pid; - u16 pad; - u8 data[0]; -} atm_aal5_snap_hdr_type; - - -typedef struct apollo_atm_aal5_snap_hdr1_type { - u16 channel_handle; - u16 flags; - u8 dsap; - u8 ssap; - u8 control; - u8 oui0; - u8 oui1; - u8 oui2; - u16 type; - u8 data[0]; -} apollo_atm_aal5_snap_hdr1_type; - -typedef struct apollo_atm_aal5_clns_hdr_type { - u16 channel_handle; - u16 flags; - u16 type; - u16 data; -} apollo_atm_aal5_clns_hdr_type; - -typedef struct apollo_atm_aal5_ilmi_hdr_type { - u16 channel_handle; - u16 flags; - u8 data[0]; -} apollo_atm_aal5_ilmi_hdr_type; - -typedef struct apollo_atm_aal5_mux_hdr_type { - u16 channel_handle; - u16 flags; - u8 data[0]; -} apollo_atm_aal5_mux_hdr_type; - -typedef struct apollo_atm_oam_f4_hdr_type { - u16 channel_handle; - u16 flags; - /* - * gcf_vpi_vci_pt_clp is a bitfield defined as follows: - * - * bits 31 - 28 = GCF - * bits 27 - 20 = VPI - * bits 19 - 4 = VCI - * bits 3 - 1 = PT - * bit 0 = CLP - */ - u32 gcf_vpi_vci_pt_clp; - u8 data[0]; -} apollo_atm_oam_f4_hdr_type; - -#define APOLLO_ATM_OAM_F4_HDR_PT_MASK 0xE -#define APOLLO_ATM_OAM_F4_HDR_PT_SHIFT 1 - -typedef struct apollo_atm_oam_f5_hdr_type { - u16 channel_handle; - u16 flags; - u8 data[0]; -} apollo_atm_oam_f5_hdr_type; - -#define APOLLO_IRONBUS_EXT_LESS_PROTO 0xFFFF0FFF -#define APOLLO_CHANNEL_HANDLE_MASK 0xFFFF -#define APOLLO_PKT_TYPE_MASK 0x0038 -#define APOLLO_PKT_TYPE_SHIFT 3 -#define APOLLO_FLAG_CLP_MASK 0x0001 -#define APOLLO_FLAG_CLP_BIT 0 - -#define APOLLO_CHANNEL_HANDLE_RES_0 0x0000 -/* - * The 1 byte HEC field is removed by the line card. - */ -#define APOLLO_F4_RX_CELL_SIZE 52 -#define APOLLO_F5_RX_CELL_SIZE 52 - -#define APOLLO_ATM_PACKET_TYPE_AAL5 0 -#define APOLLO_ATM_PACKET_TYPE_F4 1 -#define APOLLO_ATM_PACKET_TYPE_F5_SEG 2 -#define APOLLO_ATM_PACKET_TYPE_F5_E_TO_E 3 -#define APOLLO_ATM_PACKET_TYPE_4 4 -#define APOLLO_ATM_PACKET_TYPE_5 5 -#define APOLLO_ATM_PACKET_TYPE_6 6 -#define APOLLO_ATM_PACKET_RESERVED 7 - -#define APOLLO_AAL5_MUX_IP_HDR_LEN 4 -#define APOLLO_AAL5_SNAP_HDR_LEN 12 - -#define APOLLO_RCV_IRON_BUS_EXT_LEN 4 -#define APOLLO_TX_IRON_BUS_EXT_LEN 8 - -/* - * MLPoA type definitions - */ -#define MLPOA_CISCO_HDR 0xFF03 -#define MLPOA_SNAP_HDR_LEN 4 -#define MLPOA_CISCO_HDR_LEN 2 - -/************************************************************/ -/* PTA PLUS ATM ENCAPSULATIONS */ - -/* RBE header 28 bytes*/ -typedef struct apollo_atm_aal5_llcsnap_rbe_hdr_type { - u16 channel_handle; - u16 flags; - u8 dsap; - u8 ssap; - u8 control; - u8 oui[3]; - u16 pid; - u16 pad; - /* enet header within */ - u8 daddr[6]; - u8 saddr[6]; - u16 type; - u8 data[0]; /* start of IP */ -} apollo_atm_aal5_llcsnap_rbe_hdr_type; - -/* PPPoEoA header 34 bytes*/ -typedef struct apollo_atm_aal5_llcsnap_pppoe_hdr_type { - u16 channel_handle; - u16 flags; - u8 dsap; - u8 ssap; - u8 control; - u8 oui[3]; - u16 pid; - u16 pad; - /* enet header within */ - u8 daddr[6]; - u8 saddr[6]; - u16 type; - /* pppoe hdr at begining of enet payload */ - u16 vtc; /* version(4b), type(4b) and code(8b) fields */ - u16 sid; - u16 len; - u8 ppp_header[0]; /* PPP header start, no ff03 field present */ -} apollo_atm_aal5_llcsnap_pppoe_hdr_type; - - -/* PPPoA MUX 4 bytes*/ -typedef struct apollo_atm_aal5_mux_pppoa_hdr_type { - u16 channel_handle; - u16 flags; - u8 ppp_header[0]; -} apollo_atm_aal5_mux_pppoa_hdr_type; - - -/* PPPoA SNAP LLC 8 bytes */ -typedef struct apollo_atm_aal5_llcsnap_pppoa_hdr_type { - u16 channel_handle; - u16 flags; - u8 dsap; - u8 ssap; - u8 control; - u8 nlpid; - u8 ppp_header[0]; -} apollo_atm_aal5_llcsnap_pppoa_hdr_type; - -/* MLPoA MUX (generic) */ -typedef struct apollo_atm_aal5_mux_mlpoa_hdr_type { - u16 channel_handle; - u16 flags; - u8 ppp_header[0]; -} apollo_atm_aal5_mux_mlpoa_hdr_type; - -/* MLPoA SNAP LLC */ -typedef struct apollo_atm_aal5_llcsnap_mlpoa_hdr_type { - u16 channel_handle; - u16 flags; - u8 dsap; - u8 ssap; - u8 control; - u8 nlpid; - u8 ppp_header[0]; -} apollo_atm_aal5_llcsnap_mlpoa_hdr_type; - - -#define PPPOA_SNAPLLC_HDR_LEN sizeof(apollo_atm_aal5_llcsnap_pppoa_hdr_type) -#define PPPOA_MUX_HDR_LEN sizeof(apollo_atm_aal5_mux_pppoa_hdr_type) -#define PPPOE_SNAPLLC_HDR_LEN sizeof(apollo_atm_aal5_llcsnap_pppoe_hdr_type) -#define RBE_SNAPLLC_HDR_LEN sizeof(apollo_atm_aal5_llcsnap_rbe_hdr_type) - -/* End PTA PLUS ATM ENCAPSULATIONS */ -/****************************************************************/ - -#define LLCSNAP_PID_DOT3_NOFCS 0x0007 - -/* -** the SNAP header -*/ - -/* - * Note that some of these definitions are split - * up along certain word or half word boundaries - * to help expediate the TMC code. - */ -#define LLC_SNAP_HDR_DSAP 0xAA -#define LLC_SNAP_HDR_SSAP 0xAA -#define LLC_SNAP_HDR_CONTROL 0x03 -#define LLC_SNAP_HDR_OUI_0 0x00 -#define LLC_SNAP_HDR_OUI_1 0x00 -#define LLC_SNAP_HDR_OUI_2 0x00 -#define LLC_SNAP_HDR_OUI_2_CDP 0x0C - -#define LLC_SNAP_HDR_DSAP_SSAP 0xAAAA -#define LLC_SNAP_HDR_DSAP_SSAP_CTRL_OUI0 0xAAAA0300 -#define LLC_SNAP_HDR_CONTROL_OUI 0x03000000 -#define LLC_SNAP_HDR_OUI1_OUI2_CDP 0x000C2000 - - - -/* -** SRP -*/ - -/* - * The v2_gen_hdr is a 2-byte field that contains the following: - * - * [ ttl | ring_id | mode | priority | parity ] - * bits 8 1 3 3 1 - */ -typedef struct srp_hdr_type { - u16 v2_gen_hdr; - u8 dest_addr[6]; - u8 src_addr[6]; - u16 protocol; - u8 data[0]; -} srp_hdr_type; - -#define SRP_HDR_LEN 16 - -#define SRP_IB_CHANNEL_CONTROL 0x0000 -#define SRP_IB_CHANNEL_DATA_HI 0x0001 -#define SRP_IB_CHANNEL_DATA_LO 0x0002 - -#define SRP_RING_ID_MASK 0x0080 -#define SRP_RING_ID_BIT 7 - -#define SRP_MODE_BITS_MASK 0x0070 -#define SRP_MODE_BITS_SHIFT 4 -#define SRP_MODE_CONTROL_TOPOLOGY 4 -#define SRP_MODE_CONTROL_IPS 5 -#define SRP_MODE_DATA 7 - -#define SRP_PRIORITY_BITS_MASK 0x000E -#define SRP_PRIORITY_BITS_SHIFT 1 -#define SRP_PRIORITY_HIGH 7 -#define SRP_PRIORITY_PAK_PRIORITY 6 - -/* this is for the tmc code */ -#define SRP_INV_PRIORITY_BITS_MASK 0xFFF1 - -#define SRP_PROT_CONTROL_TOPOLOGY 0x2007 -#define SRP_PROT_CONTROL_IPS 0x2007 - -/* this is for the tmc code */ -#define SRP_TRUE 1 -#define SRP_FALSE 0 - -/* -** MPLS -*/ -#define MPLS_EOS_BIT 0x00000100 -#define MPLS_EOS_SHIFT 8 -#define MPLS_LABEL_SIZE 4 -#define MAX_MPLS_LABEL_STACK 6 -#define MPLS_LABEL_MASK 0xfffff000 -#define MPLS_LABEL_SHIFT 12 -#define MPLS_TTL_MASK 0x000000ff -#define MPLS_EXP_MASK 0x00000e00 -#define MPLS_EXP_SHIFT 9 -#define MPLS_EXP_TTL_MASK 0x00000eff - - - -typedef union _layer2 { - hdlc_hdr_type hdlc; - ppp_comp_hdr_type ppp; - ethernet_arpa_hdr_type eth_arpa; - ethernet_vlan_hdr_type eth_vlan; - ethernet_qinq_hdr_type eth_qinq; - ethernet_lacp_hdr_type eth_lacp; - ethernet_bpdu_hdr_type eth_bpdu; - ethernet_802p3_hdr_type eth_802p3; - ethernet_vlan_802p3_hdr_type eth_vlan_802p3; - ethernet_pppoe_arpa_hdr_type eth_pppoe_arpa; /* PTA plus */ - ethernet_pppoe_vlan_hdr_type eth_pppoe_vlan; /* PTA plus */ - ethernet_pppoe_qinq_hdr_type eth_pppoe_qinq; /* PTA plus */ - frame_relay_hdr_type frame_relay; - fr_snap_hdr_type fr_snap; - mlfr_hdr_type mlfr; - mlpofr_hdr_type mlpofr; - frf12_hdr_type frf12; - apollo_atm_generic_hdr_type atm_generic; - apollo_atm_aal5_snap_hdr_type atm_aal5_snap; - apollo_atm_aal5_snap_hdr1_type atm_aal5_snap1; - apollo_atm_aal5_clns_hdr_type atm_aal5_clns; - apollo_atm_aal5_ilmi_hdr_type atm_aal5_ilmi; - apollo_atm_aal5_mux_hdr_type atm_aal5_mux; - apollo_atm_oam_f4_hdr_type atm_oam_f4; - apollo_atm_oam_f5_hdr_type atm_oam_f5; - apollo_atm_aal5_llcsnap_rbe_hdr_type atm_aal5_rbe_snapllc; /* PTA plus */ - apollo_atm_aal5_llcsnap_pppoe_hdr_type atm_aal5_pppoe_snapllc; /* PTA plus */ - apollo_atm_aal5_mux_pppoa_hdr_type atm_aal5_pppoa_mux; /* PTA plus */ - apollo_atm_aal5_llcsnap_pppoa_hdr_type atm_aal5_pppoa_snapllc; /* PTA plus */ - apollo_atm_aal5_mux_mlpoa_hdr_type mlpoa_generic; - apollo_atm_aal5_llcsnap_mlpoa_hdr_type mlpoa_snapllc; - srp_hdr_type srp; -} layer2_t; - -/* - * Define the Common OAM cell format - F4 & F5 cells - * For F4 cells: - * VPI == User VPI - * VCI == (3 == Segment), (4 == End-to-End) - * - * For F5 cells: - * VPI == User VPI - * VCI == User VCI - * PT == (100 == Segment, 101 == End-to-End) - * - * OAM Cell Type & Function Type: - * - * OAM_TYPE = (0001 == Fault management) - * OAM_FUNC == (0000 == AIS, 0001 == RDI, 0100 == CC, - * 1000 == loopback) - * - * OAM_TYPE = (0010 == Performance management) - * OAM_FUNC == (0000 == Forward Monitoring(FM), - * 0001 == Backward monitoring(BR), - * 0010 == Monitoring & reporting (FM+BR)) - * - * OAM_TYPE = (1000 == Activation/Deactivation) - * OAM_FUNC == (0000 == Performance Monitoring, - * 0001 == Continuity Check) - * - * OAM_TYPE = (1111 == Sytem Management) - * OAM_FUNC == (0001 == Security - non-real-time, - * 0010 == Security - real-time) - * - */ -#define ATM_OAM_FAULT_MGMT 0x1 /* OAM Fault mgmt. code */ -#define ATM_OAM_PRFRM_MGMT 0x2 /* performance mgmt code */ -#define ATM_OAM_ACT_DEACT 0x8 /* OAM Activation/Deactivation - code */ -#define ATM_OAM_SYSTEM_MGMT 0xF /* System Management code */ - -#define ATM_OAM_AIS_FUNC 0x0 /* AIS function type */ -#define ATM_OAM_RDI_FUNC 0x1 /* RDI function type */ -#define ATM_OAM_CC_FUNC 0x4 /* OAM CC FM function code */ -#define ATM_OAM_LOOP_FUNC 0x8 /* Loopback function type */ - -#define ATM_OAM_F5_SEGMENT 0x4 /* Segment function */ -#define ATM_OAM_F5_ENDTOEND 0x5 /* End-to-End function */ -#define ATM_OAM_F4_SEGMENT 0x3 /* Segment function */ -#define ATM_OAM_F4_ENDTOEND 0x4 /* End-to-End function */ -#define ATM_OAM_F4_PTI_ZERO 0x0 /* PTI=0 for F4 OAM */ - -typedef struct atm_oam_hdr_t_ { - unsigned oam_gfc:4; /* GFC */ - unsigned oam_vpi:8; /* VPI */ - unsigned oam_vci_ms:4; /* VCI (Most Significant Bits) */ - - unsigned oam_vci_ls:12; /* VCI (Least Significant Bits) */ - unsigned oam_pt:3; /* Payload Type */ - unsigned oam_clp:1; /* Cell Loss Priority */ - u8 data[0]; -} atm_oam_hdr_t; - -typedef struct atm_oam_type_func_t_ { - u8 oam_type:4; - u8 oam_func:4; - u8 data[0]; -} atm_oam_type_func_t; - -/* -** IP Version 4 header -*/ - -/* - * version_hdr_len_words [7-4] IP Header Version - * [3-0] IP Header Length in 32-bit words - * tos Type of Service - * total_len_bytes Total IP datagram length in bytes - * (including IP header) - * identification Unique fragmentation identifier - * frag_flags_offset [15-13] Fragmentation flags - * [12-0] Fragmentation Offset - * ttl Time To Live - * protocol_id Protocol Identifier - * checksum 16-bit 1's complement IP Header checksum - * src_addr IP Source Address - * dest_addr IP Destination Address - */ -typedef struct ipv4_header { - u8 version_hdr_len_words; - u8 tos; - u16 total_len_bytes; - u16 identification; - u16 frag_flags_offset; - u8 ttl; - u8 protocol; - u16 checksum; - u32 src_addr; - u32 dest_addr; - u8 data[0]; -} ipv4_header; - -/*OPTIONS PACKET TYPE - * +-+-+-+-+-+-+-+-+ - * |C| CL| OP | - * +-+-+-+-+-+-+-+-+ - */ -typedef struct ipv4_options { - u8 copy :1 ; - u8 op_class :2 ; - u8 option :5 ; - u8 pad ; -}ipv4_options; - -#define LOOSE_SOURCE_ROUTE 131 -#define STRICT_SOURCE_ROUTE 137 -#define IPV4_NO_OPTIONS_HDR_LEN (sizeof(ipv4_header)) -#define IPV4_VERSION 4 -#define IPV4_HEADER_LENGTH_WORDS 5 -#define IPV4_VERSION_HDR_LEN_FIELD ((u8) 0x45) -#define IPV4_HEADER_LENGTH_WORDS 5 -#define IPV4_MIN_HEADER_LENGTH_BYTES 20 -#define IP_HDR_LEN sizeof(ipv4_header) -#define IPV4_VERSION_VALUE_SHIFT 4 - -#define IPV4_FRAG_OFFSET_MASK (0x1fff) -#define IPV4_FRAG_MF_MASK (0x2000) -#define IPV4_FRAG_MF_SHIFT (13) - -/* 0.0.0.0 */ -#define IP_BOOTP_SOURCE_ADDRESS 0 -/* 255.255.255.255 */ -#define IP_LIMITED_BROADCAST_ADDRESS 0xFFFFFFFF - -/* - * IPv4 header - version & length fields - */ -#define IP_VER_LEN 0x45 -#define IP_VER 0x4 -#define IP_MIN_LEN 0x5 -#define IP_VER_MASK 0xf0 -#define IP_LEN_MASK 0x0f - -/* - * IPv4 header - TOS field - */ -#define PS_IP_TOS_MASK 0xff -#define IP_PRECEDENCE_SHIFT 5 /* shift value up to precedence bits */ -#define IP_DSCP_SHIFT 2 /* shift value up to dscp bits */ - -#define IP_TOS_PRECEDENCE 0xe0 /* mask of precedence in tos byte */ -#define IP_TOS_NO_PRECEDENCE 0x1f -#define IP_TOS_LOW_DELAY 8 /* values must be shifted 1 bit */ -#define IP_TOS_HIGH_TPUT 4 /* before using */ -#define IP_TOS_HIGH_RELY 2 -#define IP_TOS_LOW_COST 1 -#define IP_TOS_NORMAL 0 -#define IP_TOS_MASK 0x1e /* mask of tos in tos byte */ -#define IP_TOS_MBZ_MASK 0x01 /* mask for MZB bit in tos byte */ -#define IP_TOS_DSCP 0xfc /* mask for dscp in tos byte */ -#define IP_TOS_NO_DSCP 0x03 - -#define IP_TOS_METRIC_TYPES 8 -#define IP_TOS_SHIFT 1 - -#define IP_TOS_PRECEDENCE_MASK (IP_TOS_PRECEDENCE | IP_TOS_MASK) - -/* - * IP TOS Precedence values (High order 3 bits) - */ -#define TOS_PREC_NET_CONTROL 0xe0 -#define TOS_PREC_INET_CONTROL 0xc0 -#define TOS_PREC_CRIT_ECP 0xa0 -#define TOS_PREC_FLASH_OVER 0x80 -#define TOS_PREC_FLASH 0x60 -#define TOS_PREC_IMMEDIATE 0x40 -#define TOS_PREC_PRIORITY 0x20 -#define TOS_PREC_ROUTINE 0x00 -#define TOS_PREC_ILLEGAL 0xff /* invalid precedence value */ - -#define TOS_PREC_NET_CONTROL_NUM 7 -#define TOS_PREC_INET_CONTROL_NUM 6 -#define TOS_PREC_CRIT_ECP_NUM 5 -#define TOS_PREC_FLASH_OVER_NUM 4 -#define TOS_PREC_FLASH_NUM 3 -#define TOS_PREC_IMMEDIATE_NUM 2 -#define TOS_PREC_PRIORITY_NUM 1 -#define TOS_PREC_ROUTINE_NUM 0 - - - -/* - * IPv4 header - flags and fragment offset fields - */ -#define IP_FRAG_OFFSET_MASK 0x1fff - - -#define IP_FRAG_MORE_MASK 0x2000 -#define IP_FRAG_DF_MASK 0x4000 -#define IP_FRAG_UNDEF_MASK 0x8000 -#define IP_FRAG_NO_DF_SET 0x0000 - -/* bit definitions for fragment flags */ -#define IP_FRAG_MORE_BIT 13 -#define IP_FRAG_DF_BIT 14 -#define IP_FRAG_UNDEF_BIT 15 - -/* - * IPv4 header - TTL field - */ -#define TTL_DEFAULT 255 -#define TTL_1 1 -#define TTL_2 2 -#define TTL_255 255 - - -/* - * IPv4 header - protocol field - * - * ICMP_PROT 1 ICMP - * IGMP_PROT 2 group management - * GGP_PROT 3 GGP - * IPINIP_PROT 4 IPv4 in IPv4 encapsulation - * TCP_PROT 6 TCP - * EGP_PROT 8 EGP - * IGRP_PROT 9 IGRP - * UDP_PROT 17 UDP - * HMP_PROT 20 HMP - * RDP_PROT 27 RDP - * IPV6_INIP_PROT 41 IPV6 in IPv4 encapsulation - * RSVP_PROT 46 RSVP - * GRE_PROT 47 GRE - * ESP_PROT 50 ESP - * AHP_PROT 51 AHP - * SDNS0_PROT 53 SNDS - * NHRP_PROT 54 NHRP - * SDNS1_PROT 55 SDNS1 - * HELLO_PROT 63 HELLO - * ND_PROT 77 ND - * EONIP_PROT 80 CLNS over IP - * VINES_PROT 83 Banyan Vines - * NEWIGRP_PROT 88 IGRP - * OSPF_PROT 89 OSPF - * FST_RSRB_PROT 90 RSRB - * FST_DLSW_PROT 91 DLSW - * NOSIP_PROT 94 KA9Q/NOS compatible IP over IP - * PIM_PROT 103 PIMv2 - * PCP_PROT 108 PCP - * PGM_PROT 113 PGM - * MAX_PROT 113 maximum protocol number in the above list, - * used in creating case registry - */ -#define ICMP_PROT 1 -#define IGMP_PROT 2 -#define GGP_PROT 3 -#define IPINIP_PROT 4 -#define TCP_PROT 6 -#define EGP_PROT 8 -#define IGRP_PROT 9 -#define UDP_PROT 17 -#define HMP_PROT 20 -#define RDP_PROT 27 -#define IPV6_INIP_PROT 41 -#define RSVP_PROT 46 -#define GRE_PROT 47 -#define ESP_PROT 50 -#define AHP_PROT 51 -#define SDNS0_PROT 53 -#define NHRP_PROT 54 -#define SDNS1_PROT 55 -#define HELLO_PROT 63 -#define ND_PROT 77 -#define EONIP_PROT 80 -#define VINES_PROT 83 -#define NEWIGRP_PROT 88 -#define OSPF_PROT 89 -#define FST_RSRB_PROT 90 -#define FST_DLSW_PROT 91 -#define NOSIP_PROT 94 -#define PIM_PROT 103 -#define PCP_PROT 108 -#define PGM_PROT 113 -#define MAX_PROT 113 - -/*Well Known Application ports */ -#define FTP_PORT 21 /* For control connection */ -/* - * TCP header - */ -typedef struct tcp_hdr_type { - u16 src_port; - u16 dest_port; - u32 seq_num; - u32 ack_num; - u8 hdr_len; - u8 flags; - u16 window_size; - u16 tcp_checksum; - u16 urgent_pointer; - u8 option_data[0]; -} tcp_hdr_type; - -#define TCP_FLAG_FIN 0x01 -#define TCP_FLAG_SYN 0x02 -#define TCP_FLAG_RST 0x04 -#define TCP_FLAG_PUSH 0x08 -#define TCP_FLAG_ACK 0x10 -#define TCP_FLAG_URG 0x20 -#define TCP_FLAG_ECE 0x40 -#define TCP_FLAG_CWR 0x80 - -/* - * TCP Option - */ -typedef struct tcp_option_s { - u8 kind; - u8 length; - u8 data[0]; -} tcp_option_t; - -#define TCP_END_OPTIONS_LIST 0 -#define TCP_OPTION_NOP 1 -#define TCP_OPTION_MSS 2 -#define TCP_OPTION_WINDOW_SCALE 3 -#define TCP_OPTION_SACK_PERMITTED 4 -#define TCP_OPTION_SACK_DATA 5 -#define TCP_OPTION_ECHO 6 -#define TCP_OPTION_ECHO_REPLY 7 -#define TCP_OPTION_TSOPT 8 -/* - 9 2 Partial Order Connection Permitted. RFC 1693 - 10 3 Partial Order Service Profile. RFC 1693 - 11 6 CC, Connection Count. RFC 1644 - 12 6 CC.NEW RFC 1644 - 13 6 CC.ECHO RFC 1644 - 14 3 TCP Alternate Checksum Request. RFC 1146 - 15 Variable. TCP Alternate Checksum Data. RFC 1146 - 16 Skeeter. - 17 Bubba. - 18 3 Trailer Checksum Option. -*/ -#define TCP_OPTION_MD5_SIGNATURE 19 -/* - 20 SCPS Capabilities. - 21 Selective Negative Acknowledgements. - 22 Record Boundaries. - 23 Corruption experienced. - 24 SNAP. - 25 - 26 TCP Compression Filter. -*/ -#define TCP_OPTION_QUICK_START 27 - -#define TCP_OPTION_NUM_MAX 27 - -#ifdef TARGET_CISCO -#define tcp_printf(format_str, params...) //printf(format_str, ## params) -#else -#define tcp_printf(format_str, params...) printf(format_str, ## params) -#endif - -typedef struct udp_hdr_type { - u16 src_port; - u16 dest_port; - u16 udp_length; - u16 udp_checksum; -} udp_hdr_type_t; - -#define TYPE_IPV6 0x86dd -#define TYPE_IPV4 0x0800 - -/* - * version_trafficclass_flowlabel [31:28] IP Header Version, - [27:20] traffic_class, - [19:0] flow_label[20] - * payload_length Length of packet in bytes excluding header size(s) - * next_header Identifies the type of header following the IPv6 header - * hop_limit Decremented by 1 by each forwarding node, packet discarded when zero - * src_addr IPv6 Source Address - * dst_addr IPv6 Destination Address - */ -typedef struct ipv6_header { - u32 version_trafficclass_flowlabel; - u16 payload_length; - u8 next_header; - u8 hop_limit; - u32 src_addr[4]; - u32 dst_addr[4]; - u8 data[0]; -} ipv6_header_t; - -#define IPV6_HDR_LEN 40 -#define IPV6_HDR_LEN_WORDS 10 -#define IPV6_FLABLE_MASK 0x000FFFFF -#define IPV6_MIN_PATH_MTU (1280) - -#define IPV6_GET_IP_VER(ih) ((clib_net_to_host_u32((ih) \ - ->version_trafficclass_flowlabel) >> 28) & 0xf) -#define IPV6_GET_TOS(ih) ((clib_net_to_host_u32((ih) \ - ->version_trafficclass_flowlabel) >> 20) & 0xff) -#define IPV6_GET_FLOW_LABEL(ih) ((clib_net_to_host_u32((ih) \ - ->version_trafficclass_flowlabel)) & 0xfffff) - -#define IPV6_VERSION_VALUE (6) -#define IPV6_VERSION_VALUE_SHIFT (28) -#define IPV6_TRAFFIC_CLASS_VALUE_SHIFT (20) -#define IPV6_TRAFFIC_CLASS_VALUE_MASK (0xff) - -#define IPV6_PROTO_HOPOPTS 0 -#define IPV6_PROTO_TCP 6 -#define IPV6_PROTO_UDP 17 -#define IPV6_PROTO_IPV6 41 -#define IPV6_PROTO_ROUTING 43 -#define IPV6_PROTO_FRAGMENT 44 -#define IPV6_PROTO_DESTOPTS 60 -#define IPV6_PROTO_ESP 50 -#define IPV6_PROTO_AH 51 -#define IPV6_PROTO_ICMPV6 58 -#define IPV6_PROTO_NONE 59 - -/* standard v6 extension header are 2 tytes - * one byte next header - * one byte header length - */ - -typedef struct ipv6_frag_header { - u8 next_header; - u8 reserved; - u16 frag_offset_res_m; - u32 identification; -} ipv6_frag_header_t; - -#define IPV6_FRAG_HDR_LEN (sizeof(ipv6_frag_header_t)) - -#define IPV6_FRAG_OFFSET_MASK (0xFFF8) -#define IPV6_FRAG_OFFSET_SHIFT (3) -#define IPV6_FRAG_MORE_FRAG_MASK (0x0001) - -#define IPV6_TOS_SHIFT 20 -#define IPV6_TOS_SHIFT_HLF_WD 4 -#define IPV6_NEXT_HDR_SHIFT 8 - -typedef struct ipv6_routing_header { - u8 next_header; - u8 hdr_ext_len; - u8 routing_type; - u8 segments_left; - u8 data[0]; -} ipv6_routing_header_t; -#define IPV6_ROUTING_HDR_LEN (sizeof(ipv6_routing_header_t)) - -typedef struct ipv6_hop_header { - u8 next_header; - u8 hdr_ext_len; - u8 options[0]; -} ipv6_hop_header_t; -#define IPV6_HOP_LEN (sizeof(ipv6_hop_header_t)) - -typedef struct ipv6_dest_opt_header { - u8 next_header; - u8 hdr_ext_len; - u8 options[0]; -} ipv6_dest_opt_header_t; -#define IPV6_DESTOPT_LEN (sizeof(ipv6_dest_opt_header_t)) - - -/* Definition of ICMP header */ -typedef struct icmp_v4_s { - u8 type; - u8 code; - u16 checksum; - u16 identifier; - u16 sequence; -} icmp_v4_t; - -#define ICMPV4_HDR_SIZE (sizeof(icmp_v4_t)) -#define ICMPV4_ECHOREPLY 0 /* Type: echo reply */ -#define ICMPV4_ECHO 8 /* Type: echo request */ - -#define ICMPV4_UNREACHABLE 3 /* Type: destination unreachable */ -#define ICMPV4_UNRNET 0 /* Code: Net unreachable */ -#define ICMPV4_UNRHOST 1 /* Code: host unreachable */ -#define ICMPV4_UNRPROT 2 /* Code: protocol unreachable */ -#define ICMPV4_UNRPORT 3 /* Code: port unreachable */ -#define ICMPV4_UNRFRAG 4 /* Code: frag req DF set */ -#define ICMPV4_UNRADMIN 13 /* Code: administratively prohib. */ -#define ICMPV4_SOURCEROUTE_FAILED 5 /* Code: administratively prohib. */ - -#define ICMPV4_SRC_ROUTE_FAIL 5 /* Code: Source Route Failed */ -#define ICMPV4_NO_ROUTE_DESTN_8 8 /* Code: No Route to Destn */ -#define ICMPV4_NO_ROUTE_DESTN_11 11 /* Code: No Route to Destn */ -#define ICMPV4_NO_ROUTE_DESTN_12 12 /* Code: No Route to Destn */ - -#define ICMPV4_ADMIN_PROH_9 9 /* Code: Administratively Prohibited */ -#define ICMPV4_ADMIN_PROH_10 10 /* Code: Administratively Prohibited */ -#define ICMPV4_PREC_CUTOFF 15 /* Code: Precedence Cutoff */ - - -#define ICMPV4_TIMEEXCEEDED 11 /* Type: time exceeded */ -#define ICMPV4_TIMTTL 0 /* Code: ttl in transit code */ - -#define ICMPV4_PARAMETER_PROBLEM 12 /* Type: Parameter Problem */ -#define ICMPV4_PARAM_ERROR 0 /* Code: Pointer to Error */ -#define ICMPV4_MISSING_OPTION_CODE 1 /* Code: Mission option */ -#define ICMPV4_PARAM_BAD_LEN 2 /* Code: Bad Length */ - -#define ICMPV4_CONVERSION_ERROR 31 -#define ICMPV4_SOURCE_QUENCH 4 -#define ICMPV4_REDIRECT 5 -#define ICMPV4_TIMESTAMP 13 -#define ICMPV4_TIMESTAMP_REPLY 14 -#define ICMPV4_INFO_REQUEST 15 -#define ICMPV4_INFO_REPLY 16 -#define ICMPV4_ADDR_MASK_REQUEST 17 -#define ICMPV4_ADDR_MASK_REPLY 18 - -typedef struct icmp_v6_s { - - u8 type; - u8 code; - u16 checksum; - - u32 data[0]; -} icmp_v6_t; - -typedef struct pseudo_v6_header { - u32 src_addr[4]; - u32 dst_addr[4]; - u16 payload_length; - u16 next_header; -} pseudo_v6_header_t; - - -#define ICMPV6_ECHO 128 -#define ICMPV6_ECHO_REPLY 129 -#define ICMPV6_PKT_TOO_BIG 2 -#define ICMPV6_TIMEEXCEEDED 3 -#define ICMPV6_TIMTTL 0 -#define ICMPV6_PARAMETER_PROBLEM 4 -#define ICMPV6_UNREACHABLE 1 -#define ICMPV6_NEIGHBOR_SOLICITAION 135 -#define ICMPV6_NEIGHBOR_ADVT 136 -/* ICMP V6 generated packet size */ -#define ICMPV6_ERR_SIZE 48 -#define ICMPV6_HDR_SIZE (sizeof(icmp_v6_t) +sizeof(u32)) - -/* Code for Type 1 */ -#define ICMPV6_UNRDESTN 0 /* Code: No route to Desnt */ -#define ICMPV6_ADM_PROH 1 /* Code: Adminitrative Prohibited */ -#define ICMPV6_SRC_ADD_SCOPE 2 /* Code: Source Address beyond scope */ -#define ICMPV6_UNRHOST 3 /* Code: Host Unreachable */ -#define ICMPV6_UNRPORT 4 /* Code: Port UnReachable */ - -#define ICMPV6_UNRPROT 1 /* type 4 - Code: No route to Desnt */ - -#define ICMPV6_PTB_CODE 0 /* Code: For PTB */ -#define ICMPV6_PARAM_CODE 0 /* Code: For Parameter Problem */ -#define ICMPV6_UNREC_HDR 1 /* Code: For Parameter Problem */ -#define ICMPV6_SRC_ADD_FAIL 5 /* Code: For Source address failed */ -#define ICMP_ECHO_REPLY_CODE 0 -#define DEFAULT_TTL_HOPLIMIT_VAL 64 - -typedef struct pptp_hdr_type { - - u16 flags_ver; - u16 proto_type; /* PPP = 0x880B */ - u16 payload_len; - u16 call_id; - u32 seq_no; - u32 ack_no; - -} pptp_hdr_type_t; - -/* - * NAME - * - * tcp_findoption - * - * SYNOPSIS - * u8* tcp_findoption (tcp_hdr_t *tcp, uchar option) - * - * PARAMETERS - * tcp - pointer to TCP header - * option - TCP option - * - * RETURNS - * This function returns a pointer to the option found, - * otherwise returns null. - * - * - * DESCRIPTION - * This function searches the option and returns a pointer to the - * matched option field containing option kind/length/data sub-fields. - * - */ -static inline u8* tcp_findoption (tcp_hdr_type *tcp, u8 option) -{ - u8*data; - u8 len, optlen; - - data = tcp->option_data; - len = ((tcp->hdr_len>>4) << 2) - sizeof(tcp_hdr_type); - -#define MAXTCPOPTIONBYTES 40 -#define MINTCPOPTIONLENGTH 2 - - while (len) { - if (PREDICT_TRUE(option == data[0])) { - return (data); - } else { - switch (data[0]) { - case TCP_END_OPTIONS_LIST: - return (NULL); - case TCP_OPTION_NOP: - len -= 1; - data += 1; - break; - default: - /* Sanity check the length. */ - optlen = data[1]; - if ((optlen < MINTCPOPTIONLENGTH) || - (optlen > MAXTCPOPTIONBYTES) || - (optlen > len)) { - return (NULL); - } - len -= optlen; - data += optlen; - break; - } - } - } - - return (NULL); -} - - -static inline u32 crc_calc (ipv4_header *ipv4) -{ - u16 *ipv4_word_ptr = (u16 *) ipv4; - u32 crc32; - /* - * Add all fields except the checksum field - */ - crc32 = (u32)clib_net_to_host_u16(*ipv4_word_ptr) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 1)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 2)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 3)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 4)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 6)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 7)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 8)) + - (u32)clib_net_to_host_u16(*(ipv4_word_ptr + 9)); - - /* Add in the carry of the original sum */ - crc32 = (crc32 & 0xFFFF) + (crc32 >> 16); - /* Add in the carry of the final sum */ - crc32 = (crc32 & 0xFFFF) + (crc32 >> 16); - - return crc32; -} - -#endif /* __TCP_HEADER_DEFINITIONS_H__ */ diff --git a/plugins/vcgn-plugin/vcgn/vcgn_classify.c b/plugins/vcgn-plugin/vcgn/vcgn_classify.c deleted file mode 100644 index b9917df65ea..00000000000 --- a/plugins/vcgn-plugin/vcgn/vcgn_classify.c +++ /dev/null @@ -1,1508 +0,0 @@ -/* - * Copyright (c) 2015 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -#include <vnet/plugin/plugin.h> -#include <vlib/vlib.h> -#include <vnet/vnet.h> -#include <vnet/pg/pg.h> -#include <vppinfra/error.h> -#include <vppinfra/pool.h> - -#include <vnet/ip/ip.h> -#include <vnet/ethernet/ethernet.h> - -#include "cnat_db.h" -#include "cnat_global.h" -#include "cnat_cli.h" -#include "cnat_config.h" -#include "cnat_logging.h" -#include "cnat_config_api.h" -#include "cnat_show_api.h" -#include "cnat_show_response.h" -#include "cnat_ipv4_udp.h" -#include "cnat_common_api.h" - -#include <arpa/inet.h> - -typedef struct { - u32 cached_next_index; - - /* inside, outside interface handles */ - u32 * inside_sw_if_index_table; - u32 * outside_sw_if_index_table; - - /* convenience variables */ - vlib_main_t * vlib_main; - vnet_main_t * vnet_main; - u8 cnat_db_initalized; -} vcgn_classify_main_t; - -typedef struct { - /* $$$$ fill in with per-pkt trace data */ - u32 next_index; - u32 sw_if_index; - u32 orig_dst_address; - u16 orig_dst_port; -} vcgn_classify_trace_t; - -#define FIND_MY_VRF_USING_I_VRF_ID \ - my_vrfmap_found = 0; \ - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ \ - if (my_vrfmap->i_vrf_id == i_vrf_id) { \ - my_vrfmap_found = 1; \ - my_vrfmap_temp = my_vrfmap; \ - break; \ - } \ - })); - - -/* packet trace format function */ -static u8 * format_swap_trace (u8 * s, va_list * args) -{ - CLIB_UNUSED (vlib_main_t * vm) = va_arg (*args, vlib_main_t *); - CLIB_UNUSED (vlib_node_t * node) = va_arg (*args, vlib_node_t *); - vcgn_classify_trace_t * t = va_arg (*args, vcgn_classify_trace_t *); - - s = format (s, "VCGN_CLASSIFY: dst %U dst_port %d sw_if_index %d next %d", - format_ip4_address, (ip4_header_t *) &t->orig_dst_address, - clib_net_to_host_u16(t->orig_dst_port), - t->sw_if_index, t->next_index); - return s; -} - -vcgn_classify_main_t vcgn_classify_main; - -vlib_node_registration_t vcgn_classify_node; - -#define foreach_vcgn_classify_error \ -_(PACKETS_RECEIVED, "total packets received") \ -_(V4_PACKETS_PROCESSED, "ipv4 packets processed for vCGN") \ -_(V4_PACKETS_PUNTED, "ipv4 packets punted") \ -_(V6_PACKETS_PUNTED, "ipv6 packets punted") \ -_(MPLS_PACKETS_PUNTED, "mpls unicast packets punted") \ -_(ETH_PACKETS_PUNTED, "ethernet packets punted") - - -typedef enum { -#define _(sym,str) VCGN_CLASSIFY_ERROR_##sym, - foreach_vcgn_classify_error -#undef _ - VCGN_CLASSIFY_N_ERROR, -} vcgn_classify_error_t; - -static char * vcgn_classify_error_strings[] = { -#define _(sym,string) string, - foreach_vcgn_classify_error -#undef _ -}; - -/* - * To drop a pkt and increment one of the previous counters: - * - * set b0->error = error_node->errors[VCGN_CLASSIFY_ERROR_EXAMPLE]; - * set next0 to a disposition index bound to "error-drop". - * - * To manually increment the specific counter VCGN_CLASSIFY_ERROR_EXAMPLE: - * - * vlib_node_t *n = vlib_get_node (vm, vcgn_classify.index); - * u32 node_counter_base_index = n->error_heap_index; - * vlib_error_main_t * em = &vm->error_main; - * em->counters[node_counter_base_index + VCGN_CLASSIFY_ERROR_EXAMPLE] += 1; - * - */ - -typedef enum { - VCGN_CLASSIFY_NEXT_IP4_INPUT, - VCGN_CLASSIFY_NEXT_IP6_INPUT, - VCGN_CLASSIFY_NEXT_MPLS_INPUT, - VCGN_CLASSIFY_NEXT_ETHERNET_INPUT, - VCGN_CLASSIFY_NEXT_UDP_INSIDE, - VCGN_CLASSIFY_NEXT_UDP_OUTSIDE, - VCGN_CLASSIFY_NEXT_TCP_INSIDE, - VCGN_CLASSIFY_NEXT_TCP_OUTSIDE, - VCGN_CLASSIFY_NEXT_ICMP_Q_INSIDE, - VCGN_CLASSIFY_NEXT_ICMP_Q_OUTSIDE, - VCGN_CLASSIFY_NEXT_ICMP_E_INSIDE, - VCGN_CLASSIFY_NEXT_ICMP_E_OUTSIDE, - VCGN_CLASSIFY_N_NEXT, -} vcgn_classify_next_t; - -static uword -vcgn_classify_node_fn (vlib_main_t * vm, - vlib_node_runtime_t * node, - vlib_frame_t * frame) -{ - u32 n_left_from, * from, * to_next; - vcgn_classify_next_t next_index; - vcgn_classify_main_t * vcm = &vcgn_classify_main; - vlib_node_t *n = vlib_get_node (vm, vcgn_classify_node.index); - u32 node_counter_base_index = n->error_heap_index; - vlib_error_main_t * em = &vm->error_main; - u16 *l3_type; - int counter; - - from = vlib_frame_vector_args (frame); - n_left_from = frame->n_vectors; - next_index = node->cached_next_index; - - while (n_left_from > 0) - { - u32 n_left_to_next; - - vlib_get_next_frame (vm, node, next_index, - to_next, n_left_to_next); - - #if 0 - while (n_left_from >= 4 && n_left_to_next >= 2) - { - u32 bi0, bi1; - vlib_buffer_t * b0, * b1; - u32 next0, next1; - u32 sw_if_index0, sw_if_index1; - - /* Prefetch next iteration. */ - { - vlib_buffer_t * p2, * p3; - - p2 = vlib_get_buffer (vm, from[2]); - p3 = vlib_get_buffer (vm, from[3]); - - vlib_prefetch_buffer_header (p2, LOAD); - vlib_prefetch_buffer_header (p3, LOAD); - - CLIB_PREFETCH (p2->data, CLIB_CACHE_LINE_BYTES, STORE); - CLIB_PREFETCH (p3->data, CLIB_CACHE_LINE_BYTES, STORE); - } - - /* speculatively enqueue b0 and b1 to the current next frame */ - to_next[0] = bi0 = from[0]; - to_next[1] = bi1 = from[1]; - from += 2; - to_next += 2; - n_left_from -= 2; - n_left_to_next -= 2; - - b0 = vlib_get_buffer (vm, bi0); - b1 = vlib_get_buffer (vm, bi1); - - sw_if_index0 = vnet_buffer(b0)->sw_if_index[VLIB_RX]; - next0 = vcm->cached_next_index; - sw_if_index1 = vnet_buffer(b1)->sw_if_index[VLIB_RX]; - next1 = vcm->cached_next_index; - - /* $$$$ your message in this space. Process 2 x pkts */ - em->counters[node_counter_base_index + VCGN_CLASSIFY_ERROR_PACKETS_RECEIVED] += 2; - - if (PREDICT_FALSE((node->flags & VLIB_NODE_FLAG_TRACE))) - { - if (b0->flags & VLIB_BUFFER_IS_TRACED) - { - vcgn_classify_trace_t *t = - vlib_add_trace (vm, node, b0, sizeof (*t)); - t->sw_if_index = sw_if_index0; - t->next_index = next0; - } - if (b1->flags & VLIB_BUFFER_IS_TRACED) - { - vcgn_classify_trace_t *t = - vlib_add_trace (vm, node, b1, sizeof (*t)); - t->sw_if_index = sw_if_index1; - t->next_index = next1; - } - } - - /* verify speculative enqueues, maybe switch current next frame */ - vlib_validate_buffer_enqueue_x2 (vm, node, next_index, - to_next, n_left_to_next, - bi0, bi1, next0, next1); - } - #endif /* if 0 */ - - while (n_left_from > 0 && n_left_to_next > 0) - { - u32 bi0; - vlib_buffer_t * b0; - u32 next0; - u32 sw_if_index0; - ip4_header_t * h0; - //ipv4_header *h0; - ethernet_header_t *eth0; - icmp_v4_t *icmp; - u8 icmp_type; - u8 ipv4_hdr_len; - - /* speculatively enqueue b0 to the current next frame */ - bi0 = from[0]; - to_next[0] = bi0; - from += 1; - to_next += 1; - n_left_from -= 1; - n_left_to_next -= 1; - - b0 = vlib_get_buffer (vm, bi0); - - eth0 = (ethernet_header_t *) vlib_buffer_get_current(b0); - u16 *etype = ð0->type; - - /* vlan tag 0x8100 */ - if (*etype == clib_host_to_net_u16(ETHERNET_TYPE_VLAN)) { - l3_type = (etype + 1); /* Skip 2 bytes of vlan id */ - vlib_buffer_advance(b0, 18); - } else { - l3_type = etype; - vlib_buffer_advance(b0, 14); - } - /* Handling v4 pkts 0x800 */ - if (*l3_type == clib_host_to_net_u16(ETHERNET_TYPE_IP4)) { - - h0 = vlib_buffer_get_current (b0); - - u8 protocol_type = h0->protocol; - - sw_if_index0 = vnet_buffer(b0)->sw_if_index[VLIB_RX]; - next0 = VCGN_CLASSIFY_NEXT_IP4_INPUT; - counter = VCGN_CLASSIFY_ERROR_V4_PACKETS_PROCESSED; - - if (protocol_type == 0x11) { /* UDP# 17 */ - next0 = (sw_if_index0 < vec_len(vcm->inside_sw_if_index_table) && - vcm->inside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_UDP_INSIDE : next0; - - next0 = (sw_if_index0 < vec_len(vcm->outside_sw_if_index_table) && - vcm->outside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_UDP_OUTSIDE : next0; - - } else if (protocol_type == 0x06) { /* TCP# 6 */ - next0 = (sw_if_index0 < vec_len(vcm->inside_sw_if_index_table) && - vcm->inside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_TCP_INSIDE : next0; - - next0 = (sw_if_index0 < vec_len(vcm->outside_sw_if_index_table) && - vcm->outside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_TCP_OUTSIDE : next0; - - } else if (protocol_type == 0x01) { /* ICMP # 1 */ - - ipv4_hdr_len = (h0->ip_version_and_header_length & 0xf) << 2; - icmp = (icmp_v4_t *)((u8*)h0 + ipv4_hdr_len); - icmp_type = icmp->type; - - if ((icmp_type == ICMPV4_ECHO) || - (icmp_type == ICMPV4_ECHOREPLY)) { - next0 = (sw_if_index0 < vec_len(vcm->inside_sw_if_index_table) && - vcm->inside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_ICMP_Q_INSIDE : next0; - - next0 = (sw_if_index0 < vec_len(vcm->outside_sw_if_index_table) && - vcm->outside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_ICMP_Q_OUTSIDE : next0; - - } else { - next0 = (sw_if_index0 < vec_len(vcm->inside_sw_if_index_table) && - vcm->inside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_ICMP_E_INSIDE : next0; - - next0 = (sw_if_index0 < vec_len(vcm->outside_sw_if_index_table) && - vcm->outside_sw_if_index_table[sw_if_index0] != EMPTY) ? - VCGN_CLASSIFY_NEXT_ICMP_E_OUTSIDE : next0; - } - } else { - /* cannot do NATting with this L4 protocol */ - counter = VCGN_CLASSIFY_ERROR_V4_PACKETS_PUNTED; - } - - if (PREDICT_FALSE((node->flags & VLIB_NODE_FLAG_TRACE) - && (b0->flags & VLIB_BUFFER_IS_TRACED))) { - udp_header_t * u0 = (udp_header_t *)(h0+1); - vcgn_classify_trace_t *t = - vlib_add_trace (vm, node, b0, sizeof (*t)); - t->sw_if_index = sw_if_index0; - t->next_index = next0; - t->orig_dst_address = h0->dst_address.as_u32; - t->orig_dst_port = u0->dst_port; - } - - } else if (*l3_type == clib_host_to_net_u16(ETHERNET_TYPE_IP6)) { - - /* IPv6 0x86DD */ - next0 = VCGN_CLASSIFY_NEXT_IP6_INPUT; - counter = VCGN_CLASSIFY_ERROR_V6_PACKETS_PUNTED; - - } else if (*l3_type == - clib_host_to_net_u16(ETHERNET_TYPE_MPLS_UNICAST)) { - - /* MPLS unicast 0x8847 */ - next0 = VCGN_CLASSIFY_NEXT_MPLS_INPUT; - counter = VCGN_CLASSIFY_ERROR_MPLS_PACKETS_PUNTED; - } else { /* Remaining all should be pushed to "ethernet-input" */ - - next0 = VCGN_CLASSIFY_NEXT_ETHERNET_INPUT; - counter = VCGN_CLASSIFY_ERROR_ETH_PACKETS_PUNTED; - } - - em->counters[node_counter_base_index + counter] += 1; - em->counters[node_counter_base_index + - VCGN_CLASSIFY_ERROR_PACKETS_RECEIVED] += 1; - - /* verify speculative enqueue, maybe switch current next frame */ - vlib_validate_buffer_enqueue_x1 (vm, node, next_index, - to_next, n_left_to_next, - bi0, next0); - } - - vlib_put_next_frame (vm, node, next_index, n_left_to_next); - } - - return frame->n_vectors; -} - -VLIB_REGISTER_NODE (vcgn_classify_node) = { - .function = vcgn_classify_node_fn, - .name = "vcgn-classify", - .vector_size = sizeof (u32), - .format_trace = format_swap_trace, - .type = VLIB_NODE_TYPE_INTERNAL, - - .n_errors = ARRAY_LEN(vcgn_classify_error_strings), - .error_strings = vcgn_classify_error_strings, - - .n_next_nodes = VCGN_CLASSIFY_N_NEXT, - - /* edit / add dispositions here */ - .next_nodes = { - [VCGN_CLASSIFY_NEXT_IP4_INPUT] = "ip4-input", - [VCGN_CLASSIFY_NEXT_IP6_INPUT] = "ip6-input", - [VCGN_CLASSIFY_NEXT_MPLS_INPUT] = "mpls-input", - [VCGN_CLASSIFY_NEXT_ETHERNET_INPUT] = "ethernet-input", - [VCGN_CLASSIFY_NEXT_UDP_INSIDE] = "vcgn-v4-udp-i2o", - [VCGN_CLASSIFY_NEXT_UDP_OUTSIDE] = "vcgn-v4-udp-o2i", - [VCGN_CLASSIFY_NEXT_TCP_INSIDE] = "vcgn-v4-tcp-i2o", - [VCGN_CLASSIFY_NEXT_TCP_OUTSIDE] = "vcgn-v4-tcp-o2i", - [VCGN_CLASSIFY_NEXT_ICMP_Q_INSIDE] = "vcgn-v4-icmp-q-i2o", - [VCGN_CLASSIFY_NEXT_ICMP_Q_OUTSIDE] = "vcgn-v4-icmp-q-o2i", - [VCGN_CLASSIFY_NEXT_ICMP_E_INSIDE] = "vcgn-v4-icmp-e-i2o", - [VCGN_CLASSIFY_NEXT_ICMP_E_OUTSIDE] = "vcgn-v4-icmp-e-o2i" - }, -}; - - -/* A test function to init the vrf map */ - -clib_error_t *vcgn_classify_init (vlib_main_t *vm) -{ - vcgn_classify_main_t * mp = &vcgn_classify_main; - - mp->vlib_main = vm; - mp->vnet_main = vnet_get_main(); - u32 inside_sw_if_index = 1; - u32 outside_sw_if_index = 0; - - vec_validate_init_empty (mp->inside_sw_if_index_table, - inside_sw_if_index + 1, EMPTY); - vec_validate_init_empty (mp->outside_sw_if_index_table, - outside_sw_if_index + 1, EMPTY); - - /* - * inside_sw_if_index cell of the table stores outside_sw_if_index - * and vice versa. This is ensurs pair of indices being remembered - * using one mem-location. - */ - mp->inside_sw_if_index_table[inside_sw_if_index] = outside_sw_if_index; - mp->outside_sw_if_index_table[outside_sw_if_index] = inside_sw_if_index; - -#if DPDK==1 - dpdk_set_next_node (DPDK_RX_NEXT_IP4_INPUT, "vcgn-classify"); -#endif - - { - pg_node_t * pn; - pn = pg_get_node (vcgn_classify_node.index); - pn->unformat_edit = unformat_pg_ip4_header; - } - return 0; -} - -VLIB_INIT_FUNCTION (vcgn_classify_init); - -/* Show command handlers */ -static clib_error_t * -show_vcgn_stats_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - if (cnat_db_init_done) { - cnat_nat44_handle_show_stats(vm); - } else { - vlib_cli_output(vm, "vCGN is not configured !!\n"); - } - return 0; -} - - -static clib_error_t * -show_vcgn_config_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - cnat_nat44_handle_show_config(vm); - return 0; -} - -static clib_error_t * -show_vcgn_inside_translation_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - spp_api_cnat_v4_show_inside_entry_req_t inside_req; - u8 *proto; - ip4_address_t inside_addr; - u32 start_port = 1; - u32 end_port = 65535; - u32 inside_sw_if_index = EMPTY; - - inside_req.start_port = start_port; - inside_req.end_port = end_port; - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "protocol %s", &proto)) { - if (!strncmp((char *) proto, "udp", 3)) { - inside_req.protocol = 1; - } else if (!strncmp((char *) proto, "tcp", 3)) { - inside_req.protocol = 2; - } else { - inside_req.protocol = 3; - } - } else if (unformat (input, "interface %U", - unformat_vnet_sw_interface, vnm, &inside_sw_if_index)) { - if (inside_sw_if_index > vec_len(vcm->inside_sw_if_index_table) || - vcm->inside_sw_if_index_table[inside_sw_if_index] == EMPTY) { - return clib_error_return (0, "Could not find the inside interface"); - } - } else if (unformat (input, "inside-addr %U", - unformat_ip4_address, &inside_addr)) { - inside_req.ipv4_addr = clib_net_to_host_u32(inside_addr.as_u32); - } else if (unformat(input, "start-port %u", &start_port)) { - inside_req.start_port = start_port; - } else if (unformat(input, "end-port %u", &end_port)) { - inside_req.end_port = end_port; - } else { break;} - } - inside_req.vrf_id = inside_sw_if_index; - inside_req.flags |= CNAT_TRANSLATION_ENTRY_DYNAMIC; /* as of now only dynamic */ - inside_req.all_entries = 0; /* we can see it later */ -#if DEBUG - vlib_cli_output(vm, "proto %d, inside-addr 0x%x, start_port %u, " - "end_port %u, vrf 0x%x\n", - inside_req.protocol, - inside_req.ipv4_addr, - inside_req.start_port, - inside_req.end_port, - inside_sw_if_index); -#endif - if (cnat_db_init_done) { - cnat_v4_show_inside_entry_req_t_handler(&inside_req, vm); - } else { - vlib_cli_output(vm, "vCGN is not configured !!\n"); - } - return 0; -} - - -static clib_error_t * -show_vcgn_outside_translation_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - void cnat_v4_show_outside_entry_req_t_handler - (spp_api_cnat_v4_show_outside_entry_req_t *mp, vlib_main_t *vm); - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - spp_api_cnat_v4_show_outside_entry_req_t outside_req; - u8 *proto; - ip4_address_t outside_addr; - u32 start_port = 1; - u32 end_port = 65535; - u32 outside_sw_if_index = EMPTY; - - - outside_req.start_port = start_port; - outside_req.end_port = end_port; - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "protocol %s", &proto)) { - if (!strncmp((char *) proto, "udp", 3)) { - outside_req.protocol = 1; - } else if (!strncmp((char *) proto, "tcp", 3)) { - outside_req.protocol = 2; - } else { - outside_req.protocol = 3; - } - } else if (unformat (input, "interface %U", - unformat_vnet_sw_interface, vnm, &outside_sw_if_index)) { - if (outside_sw_if_index > vec_len(vcm->outside_sw_if_index_table) || - vcm->outside_sw_if_index_table[outside_sw_if_index] == EMPTY) { - return clib_error_return (0, "Could not find the outside interface"); - } - } else if (unformat (input, "outside-addr %U", - unformat_ip4_address, &outside_addr)) { - outside_req.ipv4_addr = clib_net_to_host_u32(outside_addr.as_u32); - } else if (unformat(input, "start-port %u", &start_port)) { - outside_req.start_port = start_port; - } else if (unformat(input, "end-port %u", &end_port)) { - outside_req.end_port = end_port; - } else { break;} - } - outside_req.vrf_id = outside_sw_if_index; - outside_req.flags |= CNAT_TRANSLATION_ENTRY_DYNAMIC; /* as of now only dynamic */ -#if DEBUG - vlib_cli_output(vm, "proto %d, outside-addr 0x%x, start_port %u, " - "end_port %u, vrf 0x%x\n", - outside_req.protocol, - outside_req.ipv4_addr, - outside_req.start_port, - outside_req.end_port, - outside_sw_if_index); -#endif - if (cnat_db_init_done) { - cnat_v4_show_outside_entry_req_t_handler(&outside_req, vm); - } else { - vlib_cli_output(vm, "vCGN is not configured !!\n"); - } - return 0; -} - - -/* Config command handlers */ -static clib_error_t * -set_vcgn_inside_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - u32 inside_sw_if_index = 1; - u32 outside_sw_if_index = ~0; - void cnat_db_v2_init (void ); - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "%U", - unformat_vnet_sw_interface, vnm, &inside_sw_if_index)) - ; - else if (unformat(input, "outside %U", - unformat_vnet_sw_interface, vnm, &outside_sw_if_index)) - ; - else break; - } - if (inside_sw_if_index == ~0 || - outside_sw_if_index == ~0) - return clib_error_return (0, "unknown input `%U'", - format_unformat_error, input); - - if (inside_sw_if_index == outside_sw_if_index) - return clib_error_return (0, "inside and outside interfaces can't be the same..."); - - /* - * Initialize in/out sw_if_index table. Could use - * non-indexed table to reduce memory. However, this - * is consulted in vcgn_classify for every packet. - * Therefore, table is indexed by sw_if_index. - */ - vec_validate_init_empty (vcm->inside_sw_if_index_table, - inside_sw_if_index + 1, EMPTY); - vec_validate_init_empty (vcm->outside_sw_if_index_table, - outside_sw_if_index + 1, EMPTY); - - /* - * inside_sw_if_index cell of the table stores outside_sw_if_index - * and vice versa. This is ensurs pair of indices being remembered - * using one mem-location. - */ - vcm->inside_sw_if_index_table[inside_sw_if_index] = outside_sw_if_index; - vcm->outside_sw_if_index_table[outside_sw_if_index] = inside_sw_if_index; - - if (! vcm->cnat_db_initalized) { - int i; - cnat_db_v2_init(); - - for (i = 0; i < CNAT_MAX_VRFMAP_ENTRIES; i++) { - vrf_map_array[i] = VRF_MAP_ENTRY_EMPTY; - } - /* Turn on the db scanner process */ - cnat_scanner_db_process_turn_on(vm); - vcm->cnat_db_initalized = 1; - } - return 0; -} - -static clib_error_t * -set_vcgn_map_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - ip4_address_t lo, hi; - spp_api_cnat_v4_add_vrf_map_t map; - u32 inside_sw_if_index = EMPTY; - u32 outside_sw_if_index; - - vnet_hw_interface_t *inside_hw_if_index = NULL; - vnet_hw_interface_t *outside_hw_if_index = NULL; - - if (! unformat(input, "inside %U", - unformat_vnet_sw_interface, vnm, &inside_sw_if_index)) - return clib_error_return (0, "unknown input `%U'", - format_unformat_error, input); - - if (!unformat (input, "%U", unformat_ip4_address, &lo)) - return clib_error_return (0, "unknown input `%U'", - format_unformat_error, input); - - if (unformat (input, "- %U", unformat_ip4_address, &hi)) - ; - - /* $$$$ remember to set i_vrf, i_vrf_id as needed */ - - /* Fill the structure spp_api_cnat_v4_add_vrf_map_t & let this API handle it */ - /* i_vrf_id & o_vrf_id are 32-bit & i_vrf, o_vrf are 16 bit */ - - if (inside_sw_if_index > vec_len(vcm->inside_sw_if_index_table) || - vcm->inside_sw_if_index_table[inside_sw_if_index] == EMPTY) { - return clib_error_return (0, "Could not find the inside interface"); - } - outside_sw_if_index = vcm->inside_sw_if_index_table[inside_sw_if_index]; - - map.i_vrf_id = inside_sw_if_index; - map.o_vrf_id = outside_sw_if_index; - map.i_vrf = inside_sw_if_index; - map.o_vrf = outside_sw_if_index; - - map.start_addr[0] = clib_net_to_host_u32(lo.as_u32); - map.end_addr[0] = clib_net_to_host_u32(hi.as_u32); - - cnat_nat44_add_vrf_map_t_handler(&map, vm); - -#if 1 - inside_hw_if_index = vnet_get_sup_hw_interface(vcm->vnet_main, inside_sw_if_index); - if (inside_hw_if_index) { - vnet_hw_interface_rx_redirect_to_node(vcm->vnet_main, - inside_hw_if_index->hw_if_index, vcgn_classify_node.index); - } - outside_hw_if_index = vnet_get_sup_hw_interface(vcm->vnet_main, outside_sw_if_index); - if (outside_hw_if_index) { - vnet_hw_interface_rx_redirect_to_node(vcm->vnet_main, - outside_hw_if_index->hw_if_index, vcgn_classify_node.index); - } -#endif - return 0; -} - -static clib_error_t * -set_vcgn_tcp_timeout_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - /* - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - */ - u32 act_timeout = 0; - u32 init_timeout = 0; - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "active %u", &act_timeout)) - tcp_active_timeout = act_timeout; - else if (unformat(input, "init %u", &init_timeout)) - tcp_initial_setup_timeout = init_timeout; - else break; - } - return 0; -} - -static clib_error_t * -set_vcgn_udp_timeout_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - /* - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - */ - u32 act_timeout = 0; - u32 init_timeout = 0; - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "active %u", &act_timeout)) - udp_act_session_timeout = act_timeout; - else if (unformat(input, "init %u", &init_timeout)) - udp_init_session_timeout = init_timeout; - else break; - } - return 0; -} - - -static clib_error_t * -set_vcgn_icmp_timeout_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - /* - * vnet_main_t * vnm = vnet_get_main(); - * vcgn_classify_main_t * vcm = &vcgn_classify_main; - */ - u32 timeout = 0; - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "%u", &timeout)) - ; - else break; - } - icmp_session_timeout = timeout; - return 0; -} - - -static clib_error_t * -set_vcgn_protocol_default_timeout_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - /* - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - */ - u8 *protocol; - u8 reset = 1; - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "%s", &protocol)) - ; - else break; - } - cnat_nat44_set_protocol_timeout_value(0, 0, protocol, reset, vm); - return 0; -} - -static clib_error_t * -set_vcgn_dynamic_port_start_range_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - /* - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - */ - u32 port = 0; - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "%u", &port)) - ; - else break; - } - if (port != 0 && port > 65535) { - vlib_cli_output(vm, "Error !! Invalid port\n"); - } else { - cnat_static_port_range = port; - vlib_cli_output(vm, "Dynamic Port Range Config Successful !!\n"); - } - return 0; -} - -static clib_error_t * -set_vcgn_port_limit_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - /* - vnet_main_t * vnm = vnet_get_main(); - vcgn_classify_main_t * vcm = &vcgn_classify_main; - */ - u32 port = 0; - - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat(input, "%u", &port)) - ; - else break; - } - if (port != 0 && port > 65535) { - vlib_cli_output(vm, "Error !! Invalid port\n"); - } else { - cnat_main_db_max_ports_per_user = port; - vlib_cli_output(vm, "Port Limit Config Successful !!\n"); - } - return 0; -} - -static inline void nfv9_init_pkt_sent_data(cnat_nfv9_logging_info_t *nfv9_info) -{ - nfv9_server_info_t *server = nfv9_server_info_pool + - nfv9_info->server_index; - - /* - * Reset the pkts_since_last_template and sent_time - * so that template will be sent next time - */ - server->last_template_sent_time = 0; - server->pkts_since_last_template = 0xffffffff; -} - -static inline u16 nfv9_get_max_length_minus_max_record_size(u16 path_mtu) -{ - u16 max_length_minus_max_record_size; - if(!path_mtu) /* Use default */ - path_mtu = NFV9_DEF_PATH_MTU; - - max_length_minus_max_record_size = path_mtu - - CNAT_NFV9_DATAFLOW_RECORD_HEADER_LENGTH - - NFV9_PAD_VALUE - - CNAT_NFV9_MAX_SINGLE_RECORD_LENGTH; /* Note.. as of now this record - * requires max number of bytes. If you add more records, - * this needs to be re-checked */ - if (max_length_minus_max_record_size < CNAT_NFV9_MIN_RECORD_SIZE) { - max_length_minus_max_record_size = CNAT_NFV9_MIN_RECORD_SIZE; - } - return max_length_minus_max_record_size; -} - -/* This function finds if the netflow server indicated by - * new_server_info is already configured for some other instance - * if yes, it returns the same pointer so that, info sent to the - * server is consistent. If the server is not found, a new instance - * is created and returned. If an existing server is used, its refernce - * count is incrimented (indicating the number of instances using the - * same server - */ - /* #define DEBUG_NF_SERVER_CONFIG 1 */ -static u16 nfv9_get_server_instance( - cnat_nfv9_logging_info_t *nfv9_info, nfv9_server_info_t *new_server_info) -{ - - /* Check if the instance has a server already and if yes, does it match */ - nfv9_server_info_t *server; - if(nfv9_info->server_index != EMPTY) { - server = nfv9_server_info_pool + nfv9_info->server_index; - - if((server->ipv4_address == new_server_info->ipv4_address) && - (server->port == new_server_info->port)) { - /* Same server.. just check if refresh rate/timeouts are reduced */ -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - printf("\n Server match for %x and port %d\n", - new_server_info->ipv4_address, new_server_info->port); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - goto adjust_refresh_rate; - } else { /* The server is being changed */ - server->ref_count--; -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - printf("\n Server change from %x, %d to %x, %d" - "Ref count %d\n", - server->ipv4_address, - server->port, - new_server_info->ipv4_address, new_server_info->port, - server->ref_count); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - if(!server->ref_count) { - /* Return this server to pool */ -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - PLATFORM_DEBUG_PRINT("Deleting Server %x, %d at %d\n", - server->ipv4_address, - server->port, - nfv9_info->server_index); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - pool_put(nfv9_server_info_pool, server); - } - } - } - - /* Now check if the server is already present in the pool */ - u8 found = 0; - server = 0; - pool_foreach (server, nfv9_server_info_pool, ({ - if ((server->ipv4_address == new_server_info->ipv4_address) && - (server->port == new_server_info->port)) { - server->ref_count++; - nfv9_info->server_index = server - nfv9_server_info_pool; - found = 1; -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - printf("Re-using server %x, %d Ref count %d\n", - server->ipv4_address, server->port, server->ref_count); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - break; - } - })); - - if(!found) { - /* Create a new one, initialize and return */ - server = 0; - pool_get(nfv9_server_info_pool, server); - clib_memcpy(server, new_server_info, sizeof(nfv9_server_info_t)); - server->ref_count = 1; - nfv9_info->server_index = server - nfv9_server_info_pool; -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - printf("Create new server for at %d %x and port %d\n", - nfv9_info->server_index, - new_server_info->ipv4_address, new_server_info->port); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - return CNAT_SUCCESS; - } - -adjust_refresh_rate: - if(server->refresh_rate > - new_server_info->refresh_rate) { - server->refresh_rate = - new_server_info->refresh_rate; -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - printf("Reset refresh rate to %d\n", - server->refresh_rate); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - } - - if(server->timeout_rate > - new_server_info->timeout_rate) { - server->timeout_rate = - new_server_info->timeout_rate; -#ifdef DEBUG_NF_SERVER_CONFIG - if(my_instance_number == 1) { - printf("Reset timeout rate to %d\n", - server->timeout_rate); - } -#endif /* #ifdef DEBUG_NF_SERVER_CONFIG */ - } - - return CNAT_SUCCESS; -} -static clib_error_t * -set_vcgn_nfv9_logging_cofig_command_fn (vlib_main_t * vm, - unformat_input_t * input, - vlib_cli_command_t * cmd) -{ - vcgn_classify_main_t * vcm = &vcgn_classify_main; - spp_api_cnat_v4_config_nfv9_logging_t nfv9_conf; - ip4_address_t server_addr; - u32 ip_addr = 0; - u32 port; - u32 refresh_rate = 0; - u32 timeout = 0; - u32 pmtu = 0; - u8 enable = 1; -/* vcgn changes start*/ - cnat_nfv9_logging_info_t *my_nfv9_logging_info = NULL; - cnat_nfv9_logging_info_t *my_nfv9_logging_info_tmp = NULL; - cnat_vrfmap_t *my_vrfmap = 0, *my_vrfmap_temp = 0; - u16 i_vrf = ~0; - u32 i_vrf_id = ~0; - u8 found; - u32 inside_sw_if_index = EMPTY; - /* - * Init NFv9 logging info as needed, this will be done only once - */ - cnat_nfv9_logging_init(); - - found = 0; - -/* vcgn changes end*/ - while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT) { - if (unformat (input, "inside %U", - unformat_vnet_sw_interface, &inside_sw_if_index)) { - /* Do nothing */ - } else if (unformat (input, "server %U", unformat_ip4_address, &server_addr)) - ip_addr = clib_net_to_host_u32(server_addr.as_u32); - else if (unformat(input, "port %u", &port)) - ; - else if (unformat(input, "refresh-rate %u", &refresh_rate)) - ; - else if (unformat(input, "timeout %u", &timeout)) - ; - else if (unformat(input, "pmtu %u", &pmtu)) - ; - else if (unformat(input, "del")) - enable = 0; - else break; - } - - if (inside_sw_if_index > vec_len(vcm->inside_sw_if_index_table) || - vcm->inside_sw_if_index_table[inside_sw_if_index] == EMPTY) { - return clib_error_return (0, "Could not find the inside interface"); - } - i_vrf = inside_sw_if_index; - i_vrf_id = inside_sw_if_index; - - #if 0 - vlib_cli_output(vm, "ip 0x%x, port %u, refresh %u, " - "timeout %u, pmtu %u enable %u\n", - ip_addr, port, refresh_rate, - timeout, pmtu, enable); - #endif - if (refresh_rate == 0) refresh_rate = 500; /* num of pkts */ - if (timeout == 0) timeout = 30; /* in mins */ - - nfv9_conf.enable = enable; - nfv9_conf.ipv4_address = ip_addr; - nfv9_conf.i_vrf_id = inside_sw_if_index; - nfv9_conf.i_vrf = inside_sw_if_index; - nfv9_conf.port = port; - nfv9_conf.refresh_rate = refresh_rate; - nfv9_conf.timeout_rate = timeout; - nfv9_conf.path_mtu = pmtu; - nfv9_conf.nfv9_global_collector = 0; - nfv9_conf.session_logging = 0; - - /* - * At this point the NFv9 global information should already be - * inited as we have called cnat_nfv9_logging_init() - */ - - if (nfv9_conf.nfv9_global_collector) { - if (cnat_nfv9_global_info.cnat_nfv9_global_collector_index != EMPTY) { - found = 1; - my_nfv9_logging_info = cnat_nfv9_logging_info_pool + - cnat_nfv9_global_info.cnat_nfv9_global_collector_index; - } - } else { - /* Do we already have a map for this VRF? */ - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - if (my_nfv9_logging_info->i_vrf_id == i_vrf_id) { - nfv9_server_info_t *server = nfv9_server_info_pool + - my_nfv9_logging_info->server_index; - if((server->ipv4_address == (nfv9_conf.ipv4_address)) && (server->port == (nfv9_conf.port))) { - found = 1; - my_nfv9_logging_info_tmp = my_nfv9_logging_info; - break; - } - } - })); - } - - if ((nfv9_conf.ipv4_address == 0) || - (nfv9_conf.port == 0)) { - vlib_cli_output(vm, - "Add NFv9 ivrf %d Logging Invalid values [IPv4 0x%x, PORT %d]\n", - i_vrf, - (nfv9_conf.ipv4_address), - (nfv9_conf.port)); - goto done; - } - - if (nfv9_conf.enable) { - if ((nfv9_conf.ipv4_address == 0) || - (nfv9_conf.port == 0)) { - nfv9_conf.rc = CNAT_ERR_PARSER; - vlib_cli_output(vm, - "NFV9_logging i_vrf %d, Invalid [v4_addr 0x%x port %d]\n", - i_vrf, - (nfv9_conf.ipv4_address), - (nfv9_conf.port)); - goto done; - } - - nfv9_server_info_t new_server_info; - memset(&new_server_info, 0, sizeof(nfv9_server_info_t)); - new_server_info.ipv4_address = - nfv9_conf.ipv4_address; - new_server_info.port = - (nfv9_conf.port); - new_server_info.refresh_rate = - (nfv9_conf.refresh_rate); - /* - * Store the timeout in seconds. User configures it in minutes - */ - new_server_info.timeout_rate = - 60*(nfv9_conf.timeout_rate); - if (found && my_nfv9_logging_info) { - /* - * Entry already present, change it - */ - my_nfv9_logging_info->max_length_minus_max_record_size = - nfv9_get_max_length_minus_max_record_size( - ((nfv9_conf.path_mtu))); - } else { - pool_get(cnat_nfv9_logging_info_pool, my_nfv9_logging_info); - memset(my_nfv9_logging_info, 0, sizeof(*my_nfv9_logging_info)); - my_nfv9_logging_info->server_index = EMPTY; - my_nfv9_logging_info->nfv9_logging_next_index = EMPTY; - /* - * Make the current and head logging context indeices as EMPTY. - * When first logging happens, these get set correctly - */ - my_nfv9_logging_info->current_logging_context = NULL; - my_nfv9_logging_info->queued_logging_context = NULL; -#if 0 - my_nfv9_logging_info->f = NULL; - my_nfv9_logging_info->to_next = NULL; - output_node = vlib_get_node_by_name (vm, (u8 *) "ip4-input"); - my_nfv9_logging_info->ip4_input_node_index = output_node->index; - printf("ip4_input_node_index %d\n", my_nfv9_logging_info->ip4_input_node_index); -#endif - my_nfv9_logging_info->i_vrf = i_vrf; - my_nfv9_logging_info->i_vrf_id = i_vrf_id; - my_nfv9_logging_info->max_length_minus_max_record_size = - nfv9_get_max_length_minus_max_record_size( - nfv9_conf.path_mtu); - - /* my_nfv9_logging_info will have a copy of logging_policy - * because, it is quite possible that nfv9 config arrives before - * the corresponding vrfmap is initialized. In such cases - * this copy will be used to update the vrfmap entry - */ - my_nfv9_logging_info->logging_policy = nfv9_conf.session_logging; - - if (nfv9_conf.nfv9_global_collector) { - cnat_nfv9_global_info.cnat_nfv9_global_collector_index = - my_nfv9_logging_info - cnat_nfv9_logging_info_pool; - - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if (my_vrfmap->nfv9_logging_index == EMPTY) { - my_vrfmap->nfv9_logging_index = - cnat_nfv9_global_info.cnat_nfv9_global_collector_index; - } - })); - } else { - u32 my_vrfmap_found = 0; - - FIND_MY_VRF_USING_I_VRF_ID - my_vrfmap = my_vrfmap_temp; - if (my_vrfmap_found) { - if(my_vrfmap->nfv9_logging_index == EMPTY) { - my_vrfmap->nfv9_logging_index = - my_nfv9_logging_info - cnat_nfv9_logging_info_pool; - // my_vrfmap->nf_logging_policy = mp->session_logging; - } else { - cnat_nfv9_logging_info_t *my_nfv9_logging_info_temp = cnat_nfv9_logging_info_pool + my_vrfmap->nfv9_logging_index; - while(my_nfv9_logging_info_temp->nfv9_logging_next_index != EMPTY){ - my_nfv9_logging_info_temp = cnat_nfv9_logging_info_pool + my_nfv9_logging_info_temp->nfv9_logging_next_index; - } - my_nfv9_logging_info_temp->nfv9_logging_next_index = my_nfv9_logging_info - cnat_nfv9_logging_info_pool; - } - } - } - } - - /* Update logging policy */ - my_nfv9_logging_info->logging_policy = nfv9_conf.session_logging; - if (nfv9_conf.nfv9_global_collector) { - if(PLATFORM_DBL_SUPPORT) { - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if (my_vrfmap->nfv9_logging_index == - cnat_nfv9_global_info.cnat_nfv9_global_collector_index) { - my_vrfmap->nf_logging_policy = nfv9_conf.session_logging; - } - })); - } else { - nfv9_conf.rc = CNAT_ERR_NO_SESSION_DB; - } - } else { - if(PLATFORM_DBL_SUPPORT) { - u32 my_vrfmap_found = 0; - my_vrfmap_temp = NULL; - FIND_MY_VRF_USING_I_VRF_ID - my_vrfmap = my_vrfmap_temp; - if (my_vrfmap_found) { - // my_vrfmap->nf_logging_policy = mp->session_logging; - } - } else { - nfv9_conf.rc = CNAT_ERR_NO_SESSION_DB; - } - } - u8 nfv9_logging_policy = 0; - u32 my_vrfmap_found = 0; - my_vrfmap_temp = NULL; - FIND_MY_VRF_USING_I_VRF_ID - my_vrfmap = my_vrfmap_temp; - if (my_vrfmap_found) { - u32 index_curr = my_vrfmap->nfv9_logging_index; - cnat_nfv9_logging_info_t *my_nfv9_logging_info_temp; - while(index_curr != EMPTY) { - my_nfv9_logging_info_temp = cnat_nfv9_logging_info_pool + index_curr; - nfv9_logging_policy = nfv9_logging_policy || my_nfv9_logging_info_temp->logging_policy; - index_curr = (cnat_nfv9_logging_info_pool + index_curr)->nfv9_logging_next_index; - } - my_vrfmap->nf_logging_policy = nfv9_logging_policy; - } - //vlib_cli_output(vm,"Netflow logging policy = %d\n", my_vrfmap->nf_logging_policy); - if(nfv9_get_server_instance(my_nfv9_logging_info, &new_server_info) - != CNAT_SUCCESS) { - vlib_cli_output(vm, "Error to get server instance"); - nfv9_conf.rc = CNAT_ERR_PARSER; - goto done; - } - nfv9_init_pkt_sent_data(my_nfv9_logging_info); - - vlib_cli_output(vm,"Adding NFv9 Logging Succeeded\n"); - nfv9_configured = 1; - - } else { - /*Delete path*/ - if (found) { - /* if found entry then we need to overwrite the my_nfv9_logging_info_tmp - * to my_nfv9_logging_info - */ - my_nfv9_logging_info = my_nfv9_logging_info_tmp; - if (i_vrf == INVALID_UIDX) { - /* - * We are deleting a global collector. Mark the collectors - * in those VRFs using the global collector - */ - pool_foreach (my_vrfmap, cnat_map_by_vrf, ({ - if (my_vrfmap->nfv9_logging_index == - cnat_nfv9_global_info.cnat_nfv9_global_collector_index) { - my_vrfmap->nfv9_logging_index = EMPTY; - } - })); - - cnat_nfv9_global_info.cnat_nfv9_global_collector_index = EMPTY; - } else { - u32 my_vrfmap_found = 0; - my_vrfmap_temp = NULL; - FIND_MY_VRF_USING_I_VRF_ID - my_vrfmap = my_vrfmap_temp; - if (my_vrfmap_found) { - // my_vrfmap->nfv9_logging_index = cnat_nfv9_global_info.cnat_nfv9_global_collector_index; - } - } - if (my_nfv9_logging_info->queued_logging_context || - my_nfv9_logging_info->current_logging_context) { - /* - * If there is a pending context: - * Set the deleted flag to 1. This will ensure - * that the logging info structure gets freed after any - * pending packet get sent - */ - my_nfv9_logging_info->deleted = 1; - } else { - /* - * No pending context, just free the logging info structure - */ - u32 index = my_nfv9_logging_info - cnat_nfv9_logging_info_pool; - if(index == my_vrfmap->nfv9_logging_index) { - /* Deleting the first sever */ - my_vrfmap->nfv9_logging_index = my_nfv9_logging_info->nfv9_logging_next_index; - /* if(my_nfv9_logging_info->nfv9_logging_next_index != EMPTY){ - my_vrfmap->nf_logging_policy = (cnat_nfv9_logging_info_pool + my_nfv9_logging_info->nfv9_logging_next_index)->logging_policy; - } else { - my_vrfmap->nf_logging_policy = EMPTY; - }*/ - } else { - u32 index_curr = my_vrfmap->nfv9_logging_index; - u32 index_prev = EMPTY; - while(index_curr != EMPTY) { - index_prev = index_curr; - index_curr = (cnat_nfv9_logging_info_pool + index_curr)->nfv9_logging_next_index; - if(index == index_curr) - { - (cnat_nfv9_logging_info_pool + index_prev)->nfv9_logging_next_index = (cnat_nfv9_logging_info_pool + index_curr)->nfv9_logging_next_index; - break; - } - } - } - nfv9_delete_server_info(my_nfv9_logging_info); - pool_put(cnat_nfv9_logging_info_pool, my_nfv9_logging_info); - } - - vlib_cli_output(vm, "Deleting NFv9 Logging Succeeded\n"); - /* - * Search across all vrf and check if nfv9 logging is configured. - */ - nfv9_configured = 0; - pool_foreach (my_nfv9_logging_info, cnat_nfv9_logging_info_pool, ({ - nfv9_configured = 1; - break; - })); - } else { - nfv9_conf.rc = CNAT_NO_CONFIG; - vlib_cli_output(vm, "Add NFv9 Logging Failed (2) Non Existent vrf %d\n", - i_vrf); - - } - u8 nfv9_logging_policy = 0; - u32 my_vrfmap_found = 0; - my_vrfmap_temp = NULL; - FIND_MY_VRF_USING_I_VRF_ID - my_vrfmap = my_vrfmap_temp; - if (my_vrfmap_found) { - u32 index_curr = my_vrfmap->nfv9_logging_index; - cnat_nfv9_logging_info_t *my_nfv9_logging_info_temp; - while(index_curr != EMPTY) { - my_nfv9_logging_info_temp = cnat_nfv9_logging_info_pool + index_curr; - nfv9_logging_policy = nfv9_logging_policy || my_nfv9_logging_info_temp->logging_policy; - index_curr = (cnat_nfv9_logging_info_pool + index_curr)->nfv9_logging_next_index; - } - my_vrfmap->nf_logging_policy = nfv9_logging_policy; - } - } - -done: - return 0; -} - -/* config CLIs */ -VLIB_CLI_COMMAND (set_vcgn_map_command) = { - .path = "set vcgn map", - .short_help = "set vcgn map <lo-address> [- <hi-address>]", - .function = set_vcgn_map_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_inside_command) = { - .path = "set vcgn inside", - .short_help = "set vcgn inside <inside intfc> outside <outside intfc>", - .function = set_vcgn_inside_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_tcp_timeout_command) = { - .path = "set vcgn tcp timeout", - .short_help = "set vcgn tcp timeout active <1-65535> init <1-65535>", - .function = set_vcgn_tcp_timeout_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_udp_timeout_command) = { - .path = "set vcgn udp timeout", - .short_help = "set vcgn udp timeout active <1-65535> init <1-65535>", - .function = set_vcgn_udp_timeout_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_icmp_timeout_command) = { - .path = "set vcgn icmp timeout", - .short_help = "set vcgn icmp timeout <1-65535>", - .function = set_vcgn_icmp_timeout_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_protocol_default_timeout_command) = { - .path = "set vcgn default timeout", - .short_help = "set vcgn default timeout protocol <tcp/udp/icmp>", - .function = set_vcgn_protocol_default_timeout_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_dynamic_port_start_range_command) = { - .path = "set vcgn dynamic port start", - .short_help = "set vcgn dynamic port start <1-65535>", - .function = set_vcgn_dynamic_port_start_range_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_port_limit_command) = { - .path = "set vcgn port limit", - .short_help = "set vcgn port limit <1-65535>", - .function = set_vcgn_port_limit_command_fn, -}; - -VLIB_CLI_COMMAND (set_vcgn_nfv9_logging_cofig_command) = { - .path = "set vcgn nfv9", - .short_help = "set vcgn nfv9 [del] inside <interface> " - "server <ip-addr> port <port> [refresh-rate <n>] " - "[timeout <n>] [pmtu <n>]", - .function = set_vcgn_nfv9_logging_cofig_command_fn, -}; - - -/* show CLIs */ -VLIB_CLI_COMMAND (show_vcgn_config_command) = { - .path = "show vcgn config", - .short_help = "show vcgn config", - .function = show_vcgn_config_command_fn, -}; - -VLIB_CLI_COMMAND (show_vcgn_stat_command) = { - .path = "show vcgn statistics", - .short_help = "show vcgn statistics", - .function = show_vcgn_stats_command_fn, -}; - -VLIB_CLI_COMMAND (show_vcgn_inside_translation_command) = { - .path = "show vcgn inside-translation", - .short_help = "show vcgn inside-translation protocol <tcp/udp/icmp> " - "interface <inside-if> inside-addr <ip-addr> " - "[start-port <n>] [end-port <n>]", - .function = show_vcgn_inside_translation_command_fn, -}; - -VLIB_CLI_COMMAND (show_vcgn_outside_translation_command) = { - .path = "show vcgn outside-translation", - .short_help = "show vcgn outside-translation protocol <tcp/udp/icmp> " - "interface <outside-if> outside-addr <ip-addr> " - "[start-port <n>] [end-port <n>]", - .function = show_vcgn_outside_translation_command_fn, -}; - -static clib_error_t * -vcgn_init (vlib_main_t * vm) -{ - clib_error_t * error = 0; - - if ((error = vlib_call_init_function - (vm, vcgn_classify_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_udp_inside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_udp_outside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_udp_inside_input_exc_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_db_scanner_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_tcp_inside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_tcp_inside_input_exc_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_tcp_outside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_icmp_q_inside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_icmp_q_inside_input_exc_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_icmp_q_outside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_icmp_e_inside_input_init))) - return error; - if ((error = vlib_call_init_function - (vm, cnat_ipv4_icmp_e_outside_input_init))) - return error; - - return error; -} - -/* - * This routine exists to convince the vlib plugin framework that - * we haven't accidentally copied a random .dll into the plugin - * directory. This is used in lieu of VLIB_INIT_FUNCTION(vcgn_init). - * - * Also collects global variable pointers passed from the vpp engine - */ -clib_error_t * -vlib_plugin_register (vlib_main_t * vm, vnet_plugin_handoff_t * h, - int from_early_init) -{ - return vcgn_init(vm); -} diff --git a/plugins/vcgn-plugin/vcgn/vcgn_db.h b/plugins/vcgn-plugin/vcgn/vcgn_db.h deleted file mode 100644 index cd7d835cba1..00000000000 --- a/plugins/vcgn-plugin/vcgn/vcgn_db.h +++ /dev/null @@ -1,117 +0,0 @@ -/* - *------------------------------------------------------------------ - * vcgn_db.h - translation database definitions - * - * Copyright (c) 2007-2014 Cisco and/or its affiliates. - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at: - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - *------------------------------------------------------------------ - */ - -#ifndef __VCGN_DB_H__ -#define __VCGN_DB_H__ - -#include "index_list.h" - -/* - * The key structure. All fields are in NETWORK byte order! - */ -typedef struct { - u32 ipv4; - u16 port; - u16 vrf; //bit0-12:vrf, bit13:unused, bit14-15:protocol -} cnat_db_key_t; - -/* bit14-15:protocol in cnat_db_key_t */ -#define CNAT_INVALID_PROTO 0x0000 -#define CNAT_UDP 0x4000 -#define CNAT_TCP 0x8000 -#define CNAT_ICMP 0xc000 -#define CNAT_VRF_MASK 0x3fff -#define CNAT_PRO_MASK 0xc000 -#define CNAT_PRO_SHIFT 14 - -/* - * Maximum number of VRF entries supported - */ -#define CNAT_MAX_VRFMAP_ENTRIES (CNAT_VRF_MASK + 1) -/* - * for hashing purposes, fetch the key in one instr. - */ -typedef union { - cnat_db_key_t k; - u64 key64; -} cnat_key_t; - -/* - * Main translation database entries. Currently 0x50 = 80 bytes in length. - * Given 20,000,000 entries, it saves nearly 1gb of SDRAM to pack the entries - * and pay the extra prefetch. So, that's what we do. - */ - -typedef struct { - /* 0x00 */ - index_slist_t out2in_hash; /* hash-and-chain, x2 */ - index_slist_t in2out_hash; - - /* 0x08 */ - cnat_key_t out2in_key; /* network-to-user, outside-to-inside key */ - - /* 0x10 */ - cnat_key_t in2out_key; /* user-to-network, inside-to-outside key */ - - /* 0x18 */ - index_dlist_t user_ports; /* per-user translation list */ - - /* 0x20 */ - u32 user_index; /* index of user that owns this entry */ - - /* 0x24 */ - u16 vrfmap_index; /* index of vrfmap */ - - /* 0x26 */ - u16 flags; /* Always need flags... */ -#define CNAT_DB_FLAG_PORT_PAIR (1<<0) -#define CNAT_DB_FLAG_TCP_ACTIVE (1<<1) -#define CNAT_DB_FLAG_ENTRY_FREE (1<<2) -#define CNAT_DB_FLAG_UDP_ACTIVE (1<<3) -#define CNAT_DB_FLAG_STATIC_PORT (1<<4) -#define CNAT_DB_FLAG_ALG_ENTRY (1<<5) - - /* 0x28 */ - u32 dst_ipv4; /* pointer to ipv4 dst list, used in evil mode */ - - /* 0x2C */ - u32 out2in_pkts; /* pkt counters */ - - /* 0x30 */ - u32 in2out_pkts; - - /* 0x34 */ - u32 entry_expires; /* timestamp used to expire translations */ - - /* 0x38 */ - union { /* used by FTP ALG, pkt len delta due to FTP PORT cmd */ - u16 delta; - i8 alg_dlt[2]; /* two delta values, 0 for previous, 1 for current */ - u16 il; /* Used to indicate if interleaved mode is used - in case of RTSP ALG */ - } alg; - - /* 0x 48 */ - u32 tcp_seq_num; /* last tcp (FTP) seq # that has pkt len change due to PORT */ - - cnat_timeout_t destn_key; - - /* 0x4C... last byte -- 72 total */ -} cnat_main_db_entry_t; -#endif |