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|
/*
* Copyright (c) 2019 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 <vppinfra/vec.h>
#include <vppinfra/format.h>
#include <assert.h>
#include <vnet/ip/ip.h>
#include <vnet/ethernet/ethernet.h>
#include <vnet/ethernet/arp_packet.h>
#include <vxlan/vxlan.h>
#include <dpdk/device/dpdk.h>
#include <dpdk/device/dpdk_priv.h>
#include <vppinfra/error.h>
#define FLOW_IS_ETHERNET_CLASS(f) \
(f->type == VNET_FLOW_TYPE_ETHERNET)
#define FLOW_IS_IPV4_CLASS(f) \
((f->type == VNET_FLOW_TYPE_IP4) || \
(f->type == VNET_FLOW_TYPE_IP4_N_TUPLE) || \
(f->type == VNET_FLOW_TYPE_IP4_N_TUPLE_TAGGED) || \
(f->type == VNET_FLOW_TYPE_IP4_VXLAN) || \
(f->type == VNET_FLOW_TYPE_IP4_GTPC) || \
(f->type == VNET_FLOW_TYPE_IP4_GTPU) || \
(f->type == VNET_FLOW_TYPE_IP4_L2TPV3OIP) || \
(f->type == VNET_FLOW_TYPE_IP4_IPSEC_ESP) || \
(f->type == VNET_FLOW_TYPE_IP4_IPSEC_AH))
#define FLOW_IS_IPV6_CLASS(f) \
((f->type == VNET_FLOW_TYPE_IP6) || \
(f->type == VNET_FLOW_TYPE_IP6_N_TUPLE) || \
(f->type == VNET_FLOW_TYPE_IP6_N_TUPLE_TAGGED) || \
(f->type == VNET_FLOW_TYPE_IP6_VXLAN))
/* check if flow is VLAN sensitive */
#define FLOW_HAS_VLAN_TAG(f) \
((f->type == VNET_FLOW_TYPE_IP4_N_TUPLE_TAGGED) || \
(f->type == VNET_FLOW_TYPE_IP6_N_TUPLE_TAGGED))
/* check if flow is L3 type */
#define FLOW_IS_L3_TYPE(f) \
((f->type == VNET_FLOW_TYPE_IP4) || \
(f->type == VNET_FLOW_TYPE_IP6))
/* check if flow is L4 type */
#define FLOW_IS_L4_TYPE(f) \
((f->type == VNET_FLOW_TYPE_IP4_N_TUPLE) || \
(f->type == VNET_FLOW_TYPE_IP6_N_TUPLE) || \
(f->type == VNET_FLOW_TYPE_IP4_N_TUPLE_TAGGED) || \
(f->type == VNET_FLOW_TYPE_IP6_N_TUPLE_TAGGED))
/* check if flow is L4 tunnel type */
#define FLOW_IS_L4_TUNNEL_TYPE(f) \
((f->type == VNET_FLOW_TYPE_IP4_VXLAN) || \
(f->type == VNET_FLOW_TYPE_IP6_VXLAN) || \
(f->type == VNET_FLOW_TYPE_IP4_GTPC) || \
(f->type == VNET_FLOW_TYPE_IP4_GTPU))
/* constant structs */
static const struct rte_flow_attr ingress = {.ingress = 1 };
static inline bool
mac_address_is_all_zero (const u8 addr[6])
{
int i = 0;
for (i = 0; i < 6; i++)
if (addr[i] != 0)
return false;
return true;
}
static inline void
dpdk_flow_convert_rss_types (u64 type, u64 * dpdk_rss_type)
{
#define BIT_IS_SET(v, b) \
((v) & (u64)1<<(b))
*dpdk_rss_type = 0;
#undef _
#define _(n, f, s) \
if (n != -1 && BIT_IS_SET(type, n)) \
*dpdk_rss_type |= f;
foreach_dpdk_rss_hf
#undef _
return;
}
/** Maximum number of queue indices in struct rte_flow_action_rss. */
#define ACTION_RSS_QUEUE_NUM 128
static inline void
dpdk_flow_convert_rss_queues (u32 queue_index, u32 queue_num,
struct rte_flow_action_rss *rss)
{
u16 *queues = clib_mem_alloc (sizeof (*queues) * ACTION_RSS_QUEUE_NUM);
int i;
for (i = 0; i < queue_num; i++)
queues[i] = queue_index++;
rss->queue_num = queue_num;
rss->queue = queues;
return;
}
static inline enum rte_eth_hash_function
dpdk_flow_convert_rss_func (vnet_rss_function_t func)
{
enum rte_eth_hash_function rss_func;
switch (func)
{
case VNET_RSS_FUNC_DEFAULT:
rss_func = RTE_ETH_HASH_FUNCTION_DEFAULT;
break;
case VNET_RSS_FUNC_TOEPLITZ:
rss_func = RTE_ETH_HASH_FUNCTION_TOEPLITZ;
break;
case VNET_RSS_FUNC_SIMPLE_XOR:
rss_func = RTE_ETH_HASH_FUNCTION_SIMPLE_XOR;
break;
case VNET_RSS_FUNC_SYMMETRIC_TOEPLITZ:
rss_func = RTE_ETH_HASH_FUNCTION_SYMMETRIC_TOEPLITZ;
break;
default:
rss_func = RTE_ETH_HASH_FUNCTION_MAX;
break;
}
return rss_func;
}
static int
dpdk_flow_add (dpdk_device_t * xd, vnet_flow_t * f, dpdk_flow_entry_t * fe)
{
struct rte_flow_item_eth eth[2] = { };
struct rte_flow_item_ipv4 ip4[2] = { };
struct rte_flow_item_ipv6 ip6[2] = { };
struct rte_flow_item_udp udp[2] = { };
struct rte_flow_item_tcp tcp[2] = { };
struct rte_flow_item_gtp gtp[2] = { };
struct rte_flow_item_l2tpv3oip l2tp[2] = { };
struct rte_flow_item_esp esp[2] = { };
struct rte_flow_item_ah ah[2] = { };
struct rte_flow_item_raw generic[2] = {};
struct rte_flow_action_mark mark = { 0 };
struct rte_flow_action_queue queue = { 0 };
struct rte_flow_action_rss rss = { 0 };
struct rte_flow_item *item, *items = 0;
struct rte_flow_action *action, *actions = 0;
bool fate = false;
enum
{
vxlan_hdr_sz = sizeof (vxlan_header_t),
raw_sz = sizeof (struct rte_flow_item_raw)
};
union
{
struct rte_flow_item_raw item;
u8 val[raw_sz + vxlan_hdr_sz];
} raw[2];
u16 src_port = 0, dst_port = 0, src_port_mask = 0, dst_port_mask = 0;
u8 protocol = IP_PROTOCOL_RESERVED;
int rv = 0;
/* Handle generic flow first */
if (f->type == VNET_FLOW_TYPE_GENERIC)
{
generic[0].pattern = f->generic.pattern.spec;
generic[1].pattern = f->generic.pattern.mask;
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_RAW;
item->spec = generic;
item->mask = generic + 1;
goto pattern_end;
}
enum
{
FLOW_UNKNOWN_CLASS,
FLOW_ETHERNET_CLASS,
FLOW_IPV4_CLASS,
FLOW_IPV6_CLASS,
} flow_class = FLOW_UNKNOWN_CLASS;
if (FLOW_IS_ETHERNET_CLASS (f))
flow_class = FLOW_ETHERNET_CLASS;
else if (FLOW_IS_IPV4_CLASS (f))
flow_class = FLOW_IPV4_CLASS;
else if (FLOW_IS_IPV6_CLASS (f))
flow_class = FLOW_IPV6_CLASS;
else
return VNET_FLOW_ERROR_NOT_SUPPORTED;
if (f->actions & (~xd->supported_flow_actions))
return VNET_FLOW_ERROR_NOT_SUPPORTED;
/* Match items */
/* Layer 2, Ethernet */
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_ETH;
if (flow_class == FLOW_ETHERNET_CLASS)
{
vnet_flow_ethernet_t *te = &f->ethernet;
clib_memset (ð[0], 0, sizeof (eth[0]));
clib_memset (ð[1], 0, sizeof (eth[1]));
/* check if SMAC/DMAC/Ether_type assigned */
if (!mac_address_is_all_zero (te->eth_hdr.dst_address))
{
clib_memcpy_fast (ð[0].dst, &te->eth_hdr.dst_address,
sizeof (eth[0].dst));
clib_memset (ð[1].dst, 0xFF, sizeof (eth[1].dst));
}
if (!mac_address_is_all_zero (te->eth_hdr.src_address))
{
clib_memcpy_fast (ð[0].src, &te->eth_hdr.src_address,
sizeof (eth[0].src));
clib_memset (ð[1].src, 0xFF, sizeof (eth[1].src));
}
if (te->eth_hdr.type)
{
eth[0].type = clib_host_to_net_u16 (te->eth_hdr.type);
eth[1].type = clib_host_to_net_u16 (0xFFFF);
}
item->spec = eth;
item->mask = eth + 1;
}
else
{
item->spec = NULL;
item->mask = NULL;
}
/* currently only single empty vlan tag is supported */
if (FLOW_HAS_VLAN_TAG (f))
{
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_VLAN;
item->spec = NULL;
item->mask = NULL;
}
if (FLOW_IS_ETHERNET_CLASS (f))
goto pattern_end;
/* Layer 3, IP */
vec_add2 (items, item, 1);
if (flow_class == FLOW_IPV4_CLASS)
{
vnet_flow_ip4_t *ip4_ptr = &f->ip4;
item->type = RTE_FLOW_ITEM_TYPE_IPV4;
if ((!ip4_ptr->src_addr.mask.as_u32) &&
(!ip4_ptr->dst_addr.mask.as_u32) && (!ip4_ptr->protocol.mask))
{
item->spec = NULL;
item->mask = NULL;
}
else
{
ip4[0].hdr.src_addr = ip4_ptr->src_addr.addr.as_u32;
ip4[1].hdr.src_addr = ip4_ptr->src_addr.mask.as_u32;
ip4[0].hdr.dst_addr = ip4_ptr->dst_addr.addr.as_u32;
ip4[1].hdr.dst_addr = ip4_ptr->dst_addr.mask.as_u32;
ip4[0].hdr.next_proto_id = ip4_ptr->protocol.prot;
ip4[1].hdr.next_proto_id = ip4_ptr->protocol.mask;
item->spec = ip4;
item->mask = ip4 + 1;
}
if (FLOW_IS_L4_TYPE (f) || FLOW_IS_L4_TUNNEL_TYPE (f))
{
vnet_flow_ip4_n_tuple_t *ip4_n_ptr = &f->ip4_n_tuple;
src_port = ip4_n_ptr->src_port.port;
dst_port = ip4_n_ptr->dst_port.port;
src_port_mask = ip4_n_ptr->src_port.mask;
dst_port_mask = ip4_n_ptr->dst_port.mask;
}
protocol = ip4_ptr->protocol.prot;
}
else if (flow_class == FLOW_IPV6_CLASS)
{
vnet_flow_ip6_t *ip6_ptr = &f->ip6;
item->type = RTE_FLOW_ITEM_TYPE_IPV6;
if ((ip6_ptr->src_addr.mask.as_u64[0] == 0) &&
(ip6_ptr->src_addr.mask.as_u64[1] == 0) &&
(!ip6_ptr->protocol.mask))
{
item->spec = NULL;
item->mask = NULL;
}
else
{
clib_memcpy (ip6[0].hdr.src_addr, &ip6_ptr->src_addr.addr,
ARRAY_LEN (ip6_ptr->src_addr.addr.as_u8));
clib_memcpy (ip6[1].hdr.src_addr, &ip6_ptr->src_addr.mask,
ARRAY_LEN (ip6_ptr->src_addr.mask.as_u8));
clib_memcpy (ip6[0].hdr.dst_addr, &ip6_ptr->dst_addr.addr,
ARRAY_LEN (ip6_ptr->dst_addr.addr.as_u8));
clib_memcpy (ip6[1].hdr.dst_addr, &ip6_ptr->dst_addr.mask,
ARRAY_LEN (ip6_ptr->dst_addr.mask.as_u8));
ip6[0].hdr.proto = ip6_ptr->protocol.prot;
ip6[1].hdr.proto = ip6_ptr->protocol.mask;
item->spec = ip6;
item->mask = ip6 + 1;
}
if (FLOW_IS_L4_TYPE (f) || FLOW_IS_L4_TUNNEL_TYPE (f))
{
vnet_flow_ip6_n_tuple_t *ip6_n_ptr = &f->ip6_n_tuple;
src_port = ip6_n_ptr->src_port.port;
dst_port = ip6_n_ptr->dst_port.port;
src_port_mask = ip6_n_ptr->src_port.mask;
dst_port_mask = ip6_n_ptr->dst_port.mask;
}
protocol = ip6_ptr->protocol.prot;
}
if (FLOW_IS_L3_TYPE (f))
goto pattern_end;
/* Layer 3, IP */
vec_add2 (items, item, 1);
switch (protocol)
{
case IP_PROTOCOL_L2TP:
item->type = RTE_FLOW_ITEM_TYPE_L2TPV3OIP;
l2tp[0].session_id = clib_host_to_net_u32 (f->ip4_l2tpv3oip.session_id);
l2tp[1].session_id = ~0;
item->spec = l2tp;
item->mask = l2tp + 1;
break;
case IP_PROTOCOL_IPSEC_ESP:
item->type = RTE_FLOW_ITEM_TYPE_ESP;
esp[0].hdr.spi = clib_host_to_net_u32 (f->ip4_ipsec_esp.spi);
esp[1].hdr.spi = ~0;
item->spec = esp;
item->mask = esp + 1;
break;
case IP_PROTOCOL_IPSEC_AH:
item->type = RTE_FLOW_ITEM_TYPE_AH;
ah[0].spi = clib_host_to_net_u32 (f->ip4_ipsec_ah.spi);
ah[1].spi = ~0;
item->spec = ah;
item->mask = ah + 1;
break;
case IP_PROTOCOL_TCP:
item->type = RTE_FLOW_ITEM_TYPE_TCP;
if ((src_port_mask == 0) && (dst_port_mask == 0))
{
item->spec = NULL;
item->mask = NULL;
}
else
{
tcp[0].hdr.src_port = clib_host_to_net_u16 (src_port);
tcp[1].hdr.src_port = clib_host_to_net_u16 (src_port_mask);
tcp[0].hdr.dst_port = clib_host_to_net_u16 (dst_port);
tcp[1].hdr.dst_port = clib_host_to_net_u16 (dst_port_mask);
item->spec = tcp;
item->mask = tcp + 1;
}
break;
case IP_PROTOCOL_UDP:
item->type = RTE_FLOW_ITEM_TYPE_UDP;
if ((src_port_mask == 0) && (dst_port_mask == 0))
{
item->spec = NULL;
item->mask = NULL;
}
else
{
udp[0].hdr.src_port = clib_host_to_net_u16 (src_port);
udp[1].hdr.src_port = clib_host_to_net_u16 (src_port_mask);
udp[0].hdr.dst_port = clib_host_to_net_u16 (dst_port);
udp[1].hdr.dst_port = clib_host_to_net_u16 (dst_port_mask);
item->spec = udp;
item->mask = udp + 1;
}
/* handle the UDP tunnels */
if (f->type == VNET_FLOW_TYPE_IP4_GTPC)
{
gtp[0].teid = clib_host_to_net_u32 (f->ip4_gtpc.teid);
gtp[1].teid = ~0;
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_GTPC;
item->spec = gtp;
item->mask = gtp + 1;
}
else if (f->type == VNET_FLOW_TYPE_IP4_GTPU)
{
gtp[0].teid = clib_host_to_net_u32 (f->ip4_gtpu.teid);
gtp[1].teid = ~0;
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_GTPU;
item->spec = gtp;
item->mask = gtp + 1;
}
else if (f->type == VNET_FLOW_TYPE_IP4_VXLAN)
{
u32 vni = f->ip4_vxlan.vni;
vxlan_header_t spec_hdr = {
.flags = VXLAN_FLAGS_I,
.vni_reserved = clib_host_to_net_u32 (vni << 8)
};
vxlan_header_t mask_hdr = {
.flags = 0xff,
.vni_reserved = clib_host_to_net_u32 (((u32) - 1) << 8)
};
clib_memset (raw, 0, sizeof raw);
raw[0].item.relative = 1;
raw[0].item.length = vxlan_hdr_sz;
clib_memcpy_fast (raw[0].val + raw_sz, &spec_hdr, vxlan_hdr_sz);
raw[0].item.pattern = raw[0].val + raw_sz;
clib_memcpy_fast (raw[1].val + raw_sz, &mask_hdr, vxlan_hdr_sz);
raw[1].item.pattern = raw[1].val + raw_sz;
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_RAW;
item->spec = raw;
item->mask = raw + 1;
}
break;
default:
rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
goto done;
}
pattern_end:
if ((f->actions & VNET_FLOW_ACTION_RSS) &&
(f->rss_types & (1ULL << VNET_FLOW_RSS_TYPES_ESP)))
{
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_ESP;
}
vec_add2 (items, item, 1);
item->type = RTE_FLOW_ITEM_TYPE_END;
/* Actions */
/* Only one 'fate' can be assigned */
if (f->actions & VNET_FLOW_ACTION_REDIRECT_TO_QUEUE)
{
vec_add2 (actions, action, 1);
queue.index = f->redirect_queue;
action->type = RTE_FLOW_ACTION_TYPE_QUEUE;
action->conf = &queue;
fate = true;
}
if (f->actions & VNET_FLOW_ACTION_DROP)
{
vec_add2 (actions, action, 1);
action->type = RTE_FLOW_ACTION_TYPE_DROP;
if (fate == true)
{
rv = VNET_FLOW_ERROR_INTERNAL;
goto done;
}
else
fate = true;
}
if (f->actions & VNET_FLOW_ACTION_RSS)
{
u64 rss_type = 0;
vec_add2 (actions, action, 1);
action->type = RTE_FLOW_ACTION_TYPE_RSS;
action->conf = &rss;
/* convert types to DPDK rss bitmask */
dpdk_flow_convert_rss_types (f->rss_types, &rss_type);
if (f->queue_num)
/* convert rss queues to array */
dpdk_flow_convert_rss_queues (f->queue_index, f->queue_num, &rss);
rss.types = rss_type;
if ((rss.func = dpdk_flow_convert_rss_func (f->rss_fun)) ==
RTE_ETH_HASH_FUNCTION_MAX)
{
rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
goto done;
}
if (fate == true)
{
rv = VNET_FLOW_ERROR_INTERNAL;
goto done;
}
else
fate = true;
}
if (fate == false)
{
vec_add2 (actions, action, 1);
action->type = RTE_FLOW_ACTION_TYPE_PASSTHRU;
}
if (f->actions & VNET_FLOW_ACTION_MARK)
{
vec_add2 (actions, action, 1);
mark.id = fe->mark;
action->type = RTE_FLOW_ACTION_TYPE_MARK;
action->conf = &mark;
}
vec_add2 (actions, action, 1);
action->type = RTE_FLOW_ACTION_TYPE_END;
rv = rte_flow_validate (xd->device_index, &ingress, items, actions,
&xd->last_flow_error);
if (rv)
{
if (rv == -EINVAL)
rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
else if (rv == -EEXIST)
rv = VNET_FLOW_ERROR_ALREADY_EXISTS;
else
rv = VNET_FLOW_ERROR_INTERNAL;
goto done;
}
fe->handle = rte_flow_create (xd->device_index, &ingress, items, actions,
&xd->last_flow_error);
if (!fe->handle)
rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
done:
vec_free (items);
vec_free (actions);
return rv;
}
int
dpdk_flow_ops_fn (vnet_main_t * vnm, vnet_flow_dev_op_t op, u32 dev_instance,
u32 flow_index, uword * private_data)
{
vlib_main_t *vm = vlib_get_main ();
dpdk_main_t *dm = &dpdk_main;
vnet_flow_t *flow = vnet_get_flow (flow_index);
dpdk_device_t *xd = vec_elt_at_index (dm->devices, dev_instance);
dpdk_flow_entry_t *fe;
dpdk_flow_lookup_entry_t *fle = 0;
int rv;
/* recycle old flow lookup entries only after the main loop counter
increases - i.e. previously DMA'ed packets were handled */
if (vec_len (xd->parked_lookup_indexes) > 0 &&
xd->parked_loop_count != vm->main_loop_count)
{
u32 *fl_index;
vec_foreach (fl_index, xd->parked_lookup_indexes)
pool_put_index (xd->flow_lookup_entries, *fl_index);
vec_reset_length (xd->parked_lookup_indexes);
}
if (op == VNET_FLOW_DEV_OP_DEL_FLOW)
{
fe = vec_elt_at_index (xd->flow_entries, *private_data);
if ((rv = rte_flow_destroy (xd->device_index, fe->handle,
&xd->last_flow_error)))
return VNET_FLOW_ERROR_INTERNAL;
if (fe->mark)
{
/* make sure no action is taken for in-flight (marked) packets */
fle = pool_elt_at_index (xd->flow_lookup_entries, fe->mark);
clib_memset (fle, -1, sizeof (*fle));
vec_add1 (xd->parked_lookup_indexes, fe->mark);
xd->parked_loop_count = vm->main_loop_count;
}
clib_memset (fe, 0, sizeof (*fe));
pool_put (xd->flow_entries, fe);
goto disable_rx_offload;
}
if (op != VNET_FLOW_DEV_OP_ADD_FLOW)
return VNET_FLOW_ERROR_NOT_SUPPORTED;
pool_get (xd->flow_entries, fe);
fe->flow_index = flow->index;
if (flow->actions == 0)
{
rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
goto done;
}
/* if we need to mark packets, assign one mark */
if (flow->actions & (VNET_FLOW_ACTION_MARK |
VNET_FLOW_ACTION_REDIRECT_TO_NODE |
VNET_FLOW_ACTION_BUFFER_ADVANCE))
{
/* reserve slot 0 */
if (xd->flow_lookup_entries == 0)
pool_get_aligned (xd->flow_lookup_entries, fle,
CLIB_CACHE_LINE_BYTES);
pool_get_aligned (xd->flow_lookup_entries, fle, CLIB_CACHE_LINE_BYTES);
fe->mark = fle - xd->flow_lookup_entries;
/* install entry in the lookup table */
clib_memset (fle, -1, sizeof (*fle));
if (flow->actions & VNET_FLOW_ACTION_MARK)
fle->flow_id = flow->mark_flow_id;
if (flow->actions & VNET_FLOW_ACTION_REDIRECT_TO_NODE)
fle->next_index = flow->redirect_device_input_next_index;
if (flow->actions & VNET_FLOW_ACTION_BUFFER_ADVANCE)
fle->buffer_advance = flow->buffer_advance;
}
else
fe->mark = 0;
if ((xd->flags & DPDK_DEVICE_FLAG_RX_FLOW_OFFLOAD) == 0)
{
xd->flags |= DPDK_DEVICE_FLAG_RX_FLOW_OFFLOAD;
dpdk_device_setup (xd);
}
switch (flow->type)
{
case VNET_FLOW_TYPE_ETHERNET:
case VNET_FLOW_TYPE_IP4:
case VNET_FLOW_TYPE_IP6:
case VNET_FLOW_TYPE_IP4_N_TUPLE:
case VNET_FLOW_TYPE_IP6_N_TUPLE:
case VNET_FLOW_TYPE_IP4_VXLAN:
case VNET_FLOW_TYPE_IP4_GTPC:
case VNET_FLOW_TYPE_IP4_GTPU:
case VNET_FLOW_TYPE_IP4_L2TPV3OIP:
case VNET_FLOW_TYPE_IP4_IPSEC_ESP:
case VNET_FLOW_TYPE_IP4_IPSEC_AH:
case VNET_FLOW_TYPE_GENERIC:
if ((rv = dpdk_flow_add (xd, flow, fe)))
goto done;
break;
default:
rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
goto done;
}
*private_data = fe - xd->flow_entries;
done:
if (rv)
{
clib_memset (fe, 0, sizeof (*fe));
pool_put (xd->flow_entries, fe);
if (fle)
{
clib_memset (fle, -1, sizeof (*fle));
pool_put (xd->flow_lookup_entries, fle);
}
}
disable_rx_offload:
if ((xd->flags & DPDK_DEVICE_FLAG_RX_FLOW_OFFLOAD) != 0
&& pool_elts (xd->flow_entries) == 0)
{
xd->flags &= ~DPDK_DEVICE_FLAG_RX_FLOW_OFFLOAD;
dpdk_device_setup (xd);
}
return rv;
}
u8 *
format_dpdk_flow (u8 * s, va_list * args)
{
u32 dev_instance = va_arg (*args, u32);
u32 flow_index = va_arg (*args, u32);
uword private_data = va_arg (*args, uword);
dpdk_main_t *dm = &dpdk_main;
dpdk_device_t *xd = vec_elt_at_index (dm->devices, dev_instance);
dpdk_flow_entry_t *fe;
if (flow_index == ~0)
{
s = format (s, "%-25s: %U\n", "supported flow actions",
format_flow_actions, xd->supported_flow_actions);
s = format (s, "%-25s: %d\n", "last DPDK error type",
xd->last_flow_error.type);
s = format (s, "%-25s: %s\n", "last DPDK error message",
xd->last_flow_error.message ? xd->last_flow_error.message :
"n/a");
return s;
}
if (private_data >= vec_len (xd->flow_entries))
return format (s, "unknown flow");
fe = vec_elt_at_index (xd->flow_entries, private_data);
s = format (s, "mark %u", fe->mark);
return s;
}
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
|