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/*
* ipsec_output.c : IPSec output node
*
* 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/vnet.h>
#include <vnet/api_errno.h>
#include <vnet/ip/ip.h>
#include <vnet/ipsec/ipsec.h>
#include <vnet/ipsec/ipsec_io.h>
#define foreach_ipsec_output_error \
_(RX_PKTS, "IPSec pkts received") \
_(POLICY_DISCARD, "IPSec policy discard") \
_(POLICY_NO_MATCH, "IPSec policy (no match)") \
_(POLICY_PROTECT, "IPSec policy protect") \
_(POLICY_BYPASS, "IPSec policy bypass") \
_(ENCAPS_FAILED, "IPSec encapsulation failed")
typedef enum
{
#define _(sym,str) IPSEC_OUTPUT_ERROR_##sym,
foreach_ipsec_output_error
#undef _
IPSEC_DECAP_N_ERROR,
} ipsec_output_error_t;
static char *ipsec_output_error_strings[] = {
#define _(sym,string) string,
foreach_ipsec_output_error
#undef _
};
typedef struct
{
u32 spd_id;
u32 policy_id;
} ipsec_output_trace_t;
/* packet trace format function */
static u8 *
format_ipsec_output_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 *);
ipsec_output_trace_t *t = va_arg (*args, ipsec_output_trace_t *);
s = format (s, "spd %u policy %d", t->spd_id, t->policy_id);
return s;
}
always_inline void
ipsec4_out_spd_add_flow_cache_entry (ipsec_main_t *im, u8 pr, u32 la, u32 ra,
u16 lp, u16 rp, u32 pol_id)
{
u64 hash;
u8 overwrite = 0, stale_overwrite = 0;
ipsec4_spd_5tuple_t ip4_5tuple = { .ip4_addr = { (ip4_address_t) la,
(ip4_address_t) ra },
.port = { lp, rp },
.proto = pr };
ip4_5tuple.kv_16_8.value = (((u64) pol_id) << 32) | ((u64) im->epoch_count);
hash = ipsec4_hash_16_8 (&ip4_5tuple.kv_16_8);
hash &= (im->ipsec4_out_spd_hash_num_buckets - 1);
ipsec_spinlock_lock (&im->ipsec4_out_spd_hash_tbl[hash].bucket_lock);
/* Check if we are overwriting an existing entry so we know
whether to increment the flow cache counter. Since flow
cache counter is reset on any policy add/remove, but
hash table values are not, we also need to check if the entry
we are overwriting is stale or not. If it's a stale entry
overwrite, we still want to increment flow cache counter */
overwrite = (im->ipsec4_out_spd_hash_tbl[hash].value != 0);
/* Check for stale entry by comparing with current epoch count */
if (PREDICT_FALSE (overwrite))
stale_overwrite =
(im->epoch_count !=
((u32) (im->ipsec4_out_spd_hash_tbl[hash].value & 0xFFFFFFFF)));
clib_memcpy_fast (&im->ipsec4_out_spd_hash_tbl[hash], &ip4_5tuple.kv_16_8,
sizeof (ip4_5tuple.kv_16_8));
ipsec_spinlock_unlock (&im->ipsec4_out_spd_hash_tbl[hash].bucket_lock);
/* Increment the counter to track active flow cache entries
when entering a fresh entry or overwriting a stale one */
if (!overwrite || stale_overwrite)
clib_atomic_fetch_add_relax (&im->ipsec4_out_spd_flow_cache_entries, 1);
return;
}
always_inline ipsec_policy_t *
ipsec4_out_spd_find_flow_cache_entry (ipsec_main_t *im, u8 pr, u32 la, u32 ra,
u16 lp, u16 rp)
{
ipsec_policy_t *p = NULL;
ipsec4_hash_kv_16_8_t kv_result;
u64 hash;
if (PREDICT_FALSE ((pr != IP_PROTOCOL_TCP) && (pr != IP_PROTOCOL_UDP) &&
(pr != IP_PROTOCOL_SCTP)))
{
lp = 0;
rp = 0;
}
ipsec4_spd_5tuple_t ip4_5tuple = { .ip4_addr = { (ip4_address_t) la,
(ip4_address_t) ra },
.port = { lp, rp },
.proto = pr };
hash = ipsec4_hash_16_8 (&ip4_5tuple.kv_16_8);
hash &= (im->ipsec4_out_spd_hash_num_buckets - 1);
ipsec_spinlock_lock (&im->ipsec4_out_spd_hash_tbl[hash].bucket_lock);
kv_result = im->ipsec4_out_spd_hash_tbl[hash];
ipsec_spinlock_unlock (&im->ipsec4_out_spd_hash_tbl[hash].bucket_lock);
if (ipsec4_hash_key_compare_16_8 ((u64 *) &ip4_5tuple.kv_16_8,
(u64 *) &kv_result))
{
if (im->epoch_count == ((u32) (kv_result.value & 0xFFFFFFFF)))
{
/* Get the policy based on the index */
p =
pool_elt_at_index (im->policies, ((u32) (kv_result.value >> 32)));
}
}
return p;
}
always_inline ipsec_policy_t *
ipsec_output_policy_match (ipsec_spd_t *spd, u8 pr, u32 la, u32 ra, u16 lp,
u16 rp, u8 flow_cache_enabled)
{
ipsec_main_t *im = &ipsec_main;
ipsec_policy_t *p;
u32 *i;
if (!spd)
return 0;
vec_foreach (i, spd->policies[IPSEC_SPD_POLICY_IP4_OUTBOUND])
{
p = pool_elt_at_index (im->policies, *i);
if (PREDICT_FALSE ((p->protocol != IPSEC_POLICY_PROTOCOL_ANY) &&
(p->protocol != pr)))
continue;
if (ra < clib_net_to_host_u32 (p->raddr.start.ip4.as_u32))
continue;
if (ra > clib_net_to_host_u32 (p->raddr.stop.ip4.as_u32))
continue;
if (la < clib_net_to_host_u32 (p->laddr.start.ip4.as_u32))
continue;
if (la > clib_net_to_host_u32 (p->laddr.stop.ip4.as_u32))
continue;
if (PREDICT_FALSE ((pr != IP_PROTOCOL_TCP) && (pr != IP_PROTOCOL_UDP) &&
(pr != IP_PROTOCOL_SCTP)))
{
lp = 0;
rp = 0;
goto add_flow_cache;
}
if (lp < p->lport.start)
continue;
if (lp > p->lport.stop)
continue;
if (rp < p->rport.start)
continue;
if (rp > p->rport.stop)
continue;
add_flow_cache:
if (flow_cache_enabled)
{
/* Add an Entry in Flow cache */
ipsec4_out_spd_add_flow_cache_entry (
im, pr, clib_host_to_net_u32 (la), clib_host_to_net_u32 (ra),
clib_host_to_net_u16 (lp), clib_host_to_net_u16 (rp), *i);
}
return p;
}
return 0;
}
always_inline uword
ip6_addr_match_range (ip6_address_t * a, ip6_address_t * la,
ip6_address_t * ua)
{
if ((memcmp (a->as_u64, la->as_u64, 2 * sizeof (u64)) >= 0) &&
(memcmp (a->as_u64, ua->as_u64, 2 * sizeof (u64)) <= 0))
return 1;
return 0;
}
always_inline ipsec_policy_t *
ipsec6_output_policy_match (ipsec_spd_t * spd,
ip6_address_t * la,
ip6_address_t * ra, u16 lp, u16 rp, u8 pr)
{
ipsec_main_t *im = &ipsec_main;
ipsec_policy_t *p;
u32 *i;
if (!spd)
return 0;
vec_foreach (i, spd->policies[IPSEC_SPD_POLICY_IP6_OUTBOUND])
{
p = pool_elt_at_index (im->policies, *i);
if (PREDICT_FALSE ((p->protocol != IPSEC_POLICY_PROTOCOL_ANY) &&
(p->protocol != pr)))
continue;
if (!ip6_addr_match_range (ra, &p->raddr.start.ip6, &p->raddr.stop.ip6))
continue;
if (!ip6_addr_match_range (la, &p->laddr.start.ip6, &p->laddr.stop.ip6))
continue;
if (PREDICT_FALSE
((pr != IP_PROTOCOL_TCP) && (pr != IP_PROTOCOL_UDP)
&& (pr != IP_PROTOCOL_SCTP)))
return p;
if (lp < p->lport.start)
continue;
if (lp > p->lport.stop)
continue;
if (rp < p->rport.start)
continue;
if (rp > p->rport.stop)
continue;
return p;
}
return 0;
}
static inline uword
ipsec_output_inline (vlib_main_t * vm, vlib_node_runtime_t * node,
vlib_frame_t * from_frame, int is_ipv6)
{
ipsec_main_t *im = &ipsec_main;
u32 *from, *to_next = 0, thread_index;
u32 n_left_from, sw_if_index0, last_sw_if_index = (u32) ~ 0;
u32 next_node_index = (u32) ~ 0, last_next_node_index = (u32) ~ 0;
vlib_frame_t *f = 0;
u32 spd_index0 = ~0;
ipsec_spd_t *spd0 = 0;
int bogus;
u64 nc_protect = 0, nc_bypass = 0, nc_discard = 0, nc_nomatch = 0;
u8 flow_cache_enabled = im->output_flow_cache_flag;
from = vlib_frame_vector_args (from_frame);
n_left_from = from_frame->n_vectors;
thread_index = vm->thread_index;
while (n_left_from > 0)
{
u32 bi0, pi0, bi1;
vlib_buffer_t *b0, *b1;
ipsec_policy_t *p0 = NULL;
ip4_header_t *ip0;
ip6_header_t *ip6_0 = 0;
udp_header_t *udp0;
u32 iph_offset = 0;
tcp_header_t *tcp0;
u64 bytes0;
bi0 = from[0];
b0 = vlib_get_buffer (vm, bi0);
if (n_left_from > 1)
{
bi1 = from[1];
b1 = vlib_get_buffer (vm, bi1);
CLIB_PREFETCH (b1, CLIB_CACHE_LINE_BYTES * 2, STORE);
vlib_prefetch_buffer_data (b1, LOAD);
}
sw_if_index0 = vnet_buffer (b0)->sw_if_index[VLIB_TX];
iph_offset = vnet_buffer (b0)->ip.save_rewrite_length;
ip0 = (ip4_header_t *) ((u8 *) vlib_buffer_get_current (b0)
+ iph_offset);
/* lookup for SPD only if sw_if_index is changed */
if (PREDICT_FALSE (last_sw_if_index != sw_if_index0))
{
uword *p = hash_get (im->spd_index_by_sw_if_index, sw_if_index0);
ALWAYS_ASSERT (p);
spd_index0 = p[0];
spd0 = pool_elt_at_index (im->spds, spd_index0);
last_sw_if_index = sw_if_index0;
}
if (is_ipv6)
{
ip6_0 = (ip6_header_t *) ((u8 *) vlib_buffer_get_current (b0)
+ iph_offset);
udp0 = ip6_next_header (ip6_0);
#if 0
clib_warning
("packet received from %U port %u to %U port %u spd_id %u",
format_ip6_address, &ip6_0->src_address,
clib_net_to_host_u16 (udp0->src_port), format_ip6_address,
&ip6_0->dst_address, clib_net_to_host_u16 (udp0->dst_port),
spd0->id);
#endif
p0 = ipsec6_output_policy_match (spd0,
&ip6_0->src_address,
&ip6_0->dst_address,
clib_net_to_host_u16
(udp0->src_port),
clib_net_to_host_u16
(udp0->dst_port), ip6_0->protocol);
}
else
{
udp0 = (udp_header_t *) ((u8 *) ip0 + ip4_header_bytes (ip0));
#if 0
clib_warning ("packet received from %U to %U port %u",
format_ip4_address, ip0->src_address.as_u8,
format_ip4_address, ip0->dst_address.as_u8,
clib_net_to_host_u16 (udp0->dst_port));
clib_warning ("sw_if_index0 %u spd_index0 %u spd_id %u",
sw_if_index0, spd_index0, spd0->id);
#endif
/*
* Check whether flow cache is enabled.
*/
if (flow_cache_enabled)
{
p0 = ipsec4_out_spd_find_flow_cache_entry (
im, ip0->protocol, ip0->src_address.as_u32,
ip0->dst_address.as_u32, udp0->src_port, udp0->dst_port);
}
/* Fall back to linear search if flow cache lookup fails */
if (p0 == NULL)
{
p0 = ipsec_output_policy_match (
spd0, ip0->protocol,
clib_net_to_host_u32 (ip0->src_address.as_u32),
clib_net_to_host_u32 (ip0->dst_address.as_u32),
clib_net_to_host_u16 (udp0->src_port),
clib_net_to_host_u16 (udp0->dst_port), flow_cache_enabled);
}
}
tcp0 = (void *) udp0;
if (PREDICT_TRUE (p0 != NULL))
{
pi0 = p0 - im->policies;
vlib_prefetch_combined_counter (&ipsec_spd_policy_counters,
thread_index, pi0);
if (is_ipv6)
{
bytes0 = clib_net_to_host_u16 (ip6_0->payload_length);
bytes0 += sizeof (ip6_header_t);
}
else
{
bytes0 = clib_net_to_host_u16 (ip0->length);
}
if (p0->policy == IPSEC_POLICY_ACTION_PROTECT)
{
ipsec_sa_t *sa = 0;
nc_protect++;
sa = ipsec_sa_get (p0->sa_index);
if (sa->protocol == IPSEC_PROTOCOL_ESP)
if (is_ipv6)
next_node_index = im->esp6_encrypt_node_index;
else
next_node_index = im->esp4_encrypt_node_index;
else if (is_ipv6)
next_node_index = im->ah6_encrypt_node_index;
else
next_node_index = im->ah4_encrypt_node_index;
vnet_buffer (b0)->ipsec.sad_index = p0->sa_index;
if (PREDICT_FALSE (b0->flags & VNET_BUFFER_F_OFFLOAD))
{
vnet_buffer_oflags_t oflags = vnet_buffer (b0)->oflags;
/*
* Clearing offload flags before checksum is computed
* It guarantees the cache hit!
*/
vnet_buffer_offload_flags_clear (b0, oflags);
if (is_ipv6)
{
if (PREDICT_FALSE (oflags &
VNET_BUFFER_OFFLOAD_F_TCP_CKSUM))
{
tcp0->checksum = ip6_tcp_udp_icmp_compute_checksum (
vm, b0, ip6_0, &bogus);
}
if (PREDICT_FALSE (oflags &
VNET_BUFFER_OFFLOAD_F_UDP_CKSUM))
{
udp0->checksum = ip6_tcp_udp_icmp_compute_checksum (
vm, b0, ip6_0, &bogus);
}
}
else
{
if (PREDICT_FALSE (oflags &
VNET_BUFFER_OFFLOAD_F_IP_CKSUM))
{
ip0->checksum = ip4_header_checksum (ip0);
}
if (PREDICT_FALSE (oflags &
VNET_BUFFER_OFFLOAD_F_TCP_CKSUM))
{
tcp0->checksum =
ip4_tcp_udp_compute_checksum (vm, b0, ip0);
}
if (PREDICT_FALSE (oflags &
VNET_BUFFER_OFFLOAD_F_UDP_CKSUM))
{
udp0->checksum =
ip4_tcp_udp_compute_checksum (vm, b0, ip0);
}
}
}
vlib_buffer_advance (b0, iph_offset);
}
else if (p0->policy == IPSEC_POLICY_ACTION_BYPASS)
{
nc_bypass++;
next_node_index = get_next_output_feature_node_index (b0, node);
}
else
{
nc_discard++;
next_node_index = im->error_drop_node_index;
}
vlib_increment_combined_counter
(&ipsec_spd_policy_counters, thread_index, pi0, 1, bytes0);
}
else
{
pi0 = ~0;
nc_nomatch++;
next_node_index = im->error_drop_node_index;
}
from += 1;
n_left_from -= 1;
if (PREDICT_FALSE ((last_next_node_index != next_node_index) || f == 0))
{
/* if this is not 1st frame */
if (f)
vlib_put_frame_to_node (vm, last_next_node_index, f);
last_next_node_index = next_node_index;
f = vlib_get_frame_to_node (vm, next_node_index);
/* frame->frame_flags, copy it from node */
/* Copy trace flag from next_frame and from runtime. */
f->frame_flags |= node->flags & VLIB_NODE_FLAG_TRACE;
to_next = vlib_frame_vector_args (f);
}
to_next[0] = bi0;
to_next += 1;
f->n_vectors++;
if (PREDICT_FALSE (node->flags & VLIB_NODE_FLAG_TRACE) &&
PREDICT_FALSE (b0->flags & VLIB_BUFFER_IS_TRACED))
{
ipsec_output_trace_t *tr =
vlib_add_trace (vm, node, b0, sizeof (*tr));
if (spd0)
tr->spd_id = spd0->id;
tr->policy_id = pi0;
}
}
vlib_put_frame_to_node (vm, next_node_index, f);
vlib_node_increment_counter (vm, node->node_index,
IPSEC_OUTPUT_ERROR_POLICY_PROTECT, nc_protect);
vlib_node_increment_counter (vm, node->node_index,
IPSEC_OUTPUT_ERROR_POLICY_BYPASS, nc_bypass);
vlib_node_increment_counter (vm, node->node_index,
IPSEC_OUTPUT_ERROR_POLICY_DISCARD, nc_discard);
vlib_node_increment_counter (vm, node->node_index,
IPSEC_OUTPUT_ERROR_POLICY_NO_MATCH,
nc_nomatch);
return from_frame->n_vectors;
}
VLIB_NODE_FN (ipsec4_output_node) (vlib_main_t * vm,
vlib_node_runtime_t * node,
vlib_frame_t * frame)
{
return ipsec_output_inline (vm, node, frame, 0);
}
/* *INDENT-OFF* */
VLIB_REGISTER_NODE (ipsec4_output_node) = {
.name = "ipsec4-output-feature",
.vector_size = sizeof (u32),
.format_trace = format_ipsec_output_trace,
.type = VLIB_NODE_TYPE_INTERNAL,
.n_errors = ARRAY_LEN(ipsec_output_error_strings),
.error_strings = ipsec_output_error_strings,
.n_next_nodes = IPSEC_OUTPUT_N_NEXT,
.next_nodes = {
#define _(s,n) [IPSEC_OUTPUT_NEXT_##s] = n,
foreach_ipsec_output_next
#undef _
},
};
/* *INDENT-ON* */
VLIB_NODE_FN (ipsec6_output_node) (vlib_main_t * vm,
vlib_node_runtime_t * node,
vlib_frame_t * frame)
{
return ipsec_output_inline (vm, node, frame, 1);
}
VLIB_REGISTER_NODE (ipsec6_output_node) = {
.name = "ipsec6-output-feature",
.vector_size = sizeof (u32),
.format_trace = format_ipsec_output_trace,
.type = VLIB_NODE_TYPE_INTERNAL,
.n_errors = ARRAY_LEN(ipsec_output_error_strings),
.error_strings = ipsec_output_error_strings,
.n_next_nodes = IPSEC_OUTPUT_N_NEXT,
.next_nodes = {
#define _(s,n) [IPSEC_OUTPUT_NEXT_##s] = n,
foreach_ipsec_output_next
#undef _
},
};
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