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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2017 Intel Corporation
*/
#include <rte_malloc.h>
#include <rte_mbuf.h>
#include <rte_cycles.h>
#include <rte_ethdev.h>
#include "rte_gro.h"
#include "gro_tcp4.h"
#include "gro_vxlan_tcp4.h"
typedef void *(*gro_tbl_create_fn)(uint16_t socket_id,
uint16_t max_flow_num,
uint16_t max_item_per_flow);
typedef void (*gro_tbl_destroy_fn)(void *tbl);
typedef uint32_t (*gro_tbl_pkt_count_fn)(void *tbl);
static gro_tbl_create_fn tbl_create_fn[RTE_GRO_TYPE_MAX_NUM] = {
gro_tcp4_tbl_create, gro_vxlan_tcp4_tbl_create, NULL};
static gro_tbl_destroy_fn tbl_destroy_fn[RTE_GRO_TYPE_MAX_NUM] = {
gro_tcp4_tbl_destroy, gro_vxlan_tcp4_tbl_destroy,
NULL};
static gro_tbl_pkt_count_fn tbl_pkt_count_fn[RTE_GRO_TYPE_MAX_NUM] = {
gro_tcp4_tbl_pkt_count, gro_vxlan_tcp4_tbl_pkt_count,
NULL};
#define IS_IPV4_TCP_PKT(ptype) (RTE_ETH_IS_IPV4_HDR(ptype) && \
((ptype & RTE_PTYPE_L4_TCP) == RTE_PTYPE_L4_TCP))
#define IS_IPV4_VXLAN_TCP4_PKT(ptype) (RTE_ETH_IS_IPV4_HDR(ptype) && \
((ptype & RTE_PTYPE_L4_UDP) == RTE_PTYPE_L4_UDP) && \
((ptype & RTE_PTYPE_TUNNEL_VXLAN) == \
RTE_PTYPE_TUNNEL_VXLAN) && \
((ptype & RTE_PTYPE_INNER_L4_TCP) == \
RTE_PTYPE_INNER_L4_TCP) && \
(((ptype & RTE_PTYPE_INNER_L3_MASK) & \
(RTE_PTYPE_INNER_L3_IPV4 | \
RTE_PTYPE_INNER_L3_IPV4_EXT | \
RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN)) != 0))
/*
* GRO context structure. It keeps the table structures, which are
* used to merge packets, for different GRO types. Before using
* rte_gro_reassemble(), applications need to create the GRO context
* first.
*/
struct gro_ctx {
/* GRO types to perform */
uint64_t gro_types;
/* reassembly tables */
void *tbls[RTE_GRO_TYPE_MAX_NUM];
};
void *
rte_gro_ctx_create(const struct rte_gro_param *param)
{
struct gro_ctx *gro_ctx;
gro_tbl_create_fn create_tbl_fn;
uint64_t gro_type_flag = 0;
uint64_t gro_types = 0;
uint8_t i;
gro_ctx = rte_zmalloc_socket(__func__,
sizeof(struct gro_ctx),
RTE_CACHE_LINE_SIZE,
param->socket_id);
if (gro_ctx == NULL)
return NULL;
for (i = 0; i < RTE_GRO_TYPE_MAX_NUM; i++) {
gro_type_flag = 1ULL << i;
if ((param->gro_types & gro_type_flag) == 0)
continue;
create_tbl_fn = tbl_create_fn[i];
if (create_tbl_fn == NULL)
continue;
gro_ctx->tbls[i] = create_tbl_fn(param->socket_id,
param->max_flow_num,
param->max_item_per_flow);
if (gro_ctx->tbls[i] == NULL) {
/* destroy all created tables */
gro_ctx->gro_types = gro_types;
rte_gro_ctx_destroy(gro_ctx);
return NULL;
}
gro_types |= gro_type_flag;
}
gro_ctx->gro_types = param->gro_types;
return gro_ctx;
}
void
rte_gro_ctx_destroy(void *ctx)
{
gro_tbl_destroy_fn destroy_tbl_fn;
struct gro_ctx *gro_ctx = ctx;
uint64_t gro_type_flag;
uint8_t i;
for (i = 0; i < RTE_GRO_TYPE_MAX_NUM; i++) {
gro_type_flag = 1ULL << i;
if ((gro_ctx->gro_types & gro_type_flag) == 0)
continue;
destroy_tbl_fn = tbl_destroy_fn[i];
if (destroy_tbl_fn)
destroy_tbl_fn(gro_ctx->tbls[i]);
}
rte_free(gro_ctx);
}
uint16_t
rte_gro_reassemble_burst(struct rte_mbuf **pkts,
uint16_t nb_pkts,
const struct rte_gro_param *param)
{
/* allocate a reassembly table for TCP/IPv4 GRO */
struct gro_tcp4_tbl tcp_tbl;
struct gro_tcp4_flow tcp_flows[RTE_GRO_MAX_BURST_ITEM_NUM];
struct gro_tcp4_item tcp_items[RTE_GRO_MAX_BURST_ITEM_NUM] = {{0} };
/* Allocate a reassembly table for VXLAN GRO */
struct gro_vxlan_tcp4_tbl vxlan_tbl;
struct gro_vxlan_tcp4_flow vxlan_flows[RTE_GRO_MAX_BURST_ITEM_NUM];
struct gro_vxlan_tcp4_item vxlan_items[RTE_GRO_MAX_BURST_ITEM_NUM] = {
{{0}, 0, 0} };
struct rte_mbuf *unprocess_pkts[nb_pkts];
uint32_t item_num;
int32_t ret;
uint16_t i, unprocess_num = 0, nb_after_gro = nb_pkts;
uint8_t do_tcp4_gro = 0, do_vxlan_gro = 0;
if (unlikely((param->gro_types & (RTE_GRO_IPV4_VXLAN_TCP_IPV4 |
RTE_GRO_TCP_IPV4)) == 0))
return nb_pkts;
/* Get the maximum number of packets */
item_num = RTE_MIN(nb_pkts, (param->max_flow_num *
param->max_item_per_flow));
item_num = RTE_MIN(item_num, RTE_GRO_MAX_BURST_ITEM_NUM);
if (param->gro_types & RTE_GRO_IPV4_VXLAN_TCP_IPV4) {
for (i = 0; i < item_num; i++)
vxlan_flows[i].start_index = INVALID_ARRAY_INDEX;
vxlan_tbl.flows = vxlan_flows;
vxlan_tbl.items = vxlan_items;
vxlan_tbl.flow_num = 0;
vxlan_tbl.item_num = 0;
vxlan_tbl.max_flow_num = item_num;
vxlan_tbl.max_item_num = item_num;
do_vxlan_gro = 1;
}
if (param->gro_types & RTE_GRO_TCP_IPV4) {
for (i = 0; i < item_num; i++)
tcp_flows[i].start_index = INVALID_ARRAY_INDEX;
tcp_tbl.flows = tcp_flows;
tcp_tbl.items = tcp_items;
tcp_tbl.flow_num = 0;
tcp_tbl.item_num = 0;
tcp_tbl.max_flow_num = item_num;
tcp_tbl.max_item_num = item_num;
do_tcp4_gro = 1;
}
for (i = 0; i < nb_pkts; i++) {
/*
* The timestamp is ignored, since all packets
* will be flushed from the tables.
*/
if (IS_IPV4_VXLAN_TCP4_PKT(pkts[i]->packet_type) &&
do_vxlan_gro) {
ret = gro_vxlan_tcp4_reassemble(pkts[i], &vxlan_tbl, 0);
if (ret > 0)
/* Merge successfully */
nb_after_gro--;
else if (ret < 0)
unprocess_pkts[unprocess_num++] = pkts[i];
} else if (IS_IPV4_TCP_PKT(pkts[i]->packet_type) &&
do_tcp4_gro) {
ret = gro_tcp4_reassemble(pkts[i], &tcp_tbl, 0);
if (ret > 0)
/* merge successfully */
nb_after_gro--;
else if (ret < 0)
unprocess_pkts[unprocess_num++] = pkts[i];
} else
unprocess_pkts[unprocess_num++] = pkts[i];
}
if (nb_after_gro < nb_pkts) {
i = 0;
/* Flush all packets from the tables */
if (do_vxlan_gro) {
i = gro_vxlan_tcp4_tbl_timeout_flush(&vxlan_tbl,
0, pkts, nb_pkts);
}
if (do_tcp4_gro) {
i += gro_tcp4_tbl_timeout_flush(&tcp_tbl, 0,
&pkts[i], nb_pkts - i);
}
/* Copy unprocessed packets */
if (unprocess_num > 0) {
memcpy(&pkts[i], unprocess_pkts,
sizeof(struct rte_mbuf *) *
unprocess_num);
}
}
return nb_after_gro;
}
uint16_t
rte_gro_reassemble(struct rte_mbuf **pkts,
uint16_t nb_pkts,
void *ctx)
{
struct rte_mbuf *unprocess_pkts[nb_pkts];
struct gro_ctx *gro_ctx = ctx;
void *tcp_tbl, *vxlan_tbl;
uint64_t current_time;
uint16_t i, unprocess_num = 0;
uint8_t do_tcp4_gro, do_vxlan_gro;
if (unlikely((gro_ctx->gro_types & (RTE_GRO_IPV4_VXLAN_TCP_IPV4 |
RTE_GRO_TCP_IPV4)) == 0))
return nb_pkts;
tcp_tbl = gro_ctx->tbls[RTE_GRO_TCP_IPV4_INDEX];
vxlan_tbl = gro_ctx->tbls[RTE_GRO_IPV4_VXLAN_TCP_IPV4_INDEX];
do_tcp4_gro = (gro_ctx->gro_types & RTE_GRO_TCP_IPV4) ==
RTE_GRO_TCP_IPV4;
do_vxlan_gro = (gro_ctx->gro_types & RTE_GRO_IPV4_VXLAN_TCP_IPV4) ==
RTE_GRO_IPV4_VXLAN_TCP_IPV4;
current_time = rte_rdtsc();
for (i = 0; i < nb_pkts; i++) {
if (IS_IPV4_VXLAN_TCP4_PKT(pkts[i]->packet_type) &&
do_vxlan_gro) {
if (gro_vxlan_tcp4_reassemble(pkts[i], vxlan_tbl,
current_time) < 0)
unprocess_pkts[unprocess_num++] = pkts[i];
} else if (IS_IPV4_TCP_PKT(pkts[i]->packet_type) &&
do_tcp4_gro) {
if (gro_tcp4_reassemble(pkts[i], tcp_tbl,
current_time) < 0)
unprocess_pkts[unprocess_num++] = pkts[i];
} else
unprocess_pkts[unprocess_num++] = pkts[i];
}
if (unprocess_num > 0) {
memcpy(pkts, unprocess_pkts, sizeof(struct rte_mbuf *) *
unprocess_num);
}
return unprocess_num;
}
uint16_t
rte_gro_timeout_flush(void *ctx,
uint64_t timeout_cycles,
uint64_t gro_types,
struct rte_mbuf **out,
uint16_t max_nb_out)
{
struct gro_ctx *gro_ctx = ctx;
uint64_t flush_timestamp;
uint16_t num = 0;
gro_types = gro_types & gro_ctx->gro_types;
flush_timestamp = rte_rdtsc() - timeout_cycles;
if (gro_types & RTE_GRO_IPV4_VXLAN_TCP_IPV4) {
num = gro_vxlan_tcp4_tbl_timeout_flush(gro_ctx->tbls[
RTE_GRO_IPV4_VXLAN_TCP_IPV4_INDEX],
flush_timestamp, out, max_nb_out);
max_nb_out -= num;
}
/* If no available space in 'out', stop flushing. */
if ((gro_types & RTE_GRO_TCP_IPV4) && max_nb_out > 0) {
num += gro_tcp4_tbl_timeout_flush(
gro_ctx->tbls[RTE_GRO_TCP_IPV4_INDEX],
flush_timestamp,
&out[num], max_nb_out);
}
return num;
}
uint64_t
rte_gro_get_pkt_count(void *ctx)
{
struct gro_ctx *gro_ctx = ctx;
gro_tbl_pkt_count_fn pkt_count_fn;
uint64_t gro_types = gro_ctx->gro_types, flag;
uint64_t item_num = 0;
uint8_t i;
for (i = 0; i < RTE_GRO_TYPE_MAX_NUM && gro_types; i++) {
flag = 1ULL << i;
if ((gro_types & flag) == 0)
continue;
gro_types ^= flag;
pkt_count_fn = tbl_pkt_count_fn[i];
if (pkt_count_fn)
item_num += pkt_count_fn(gro_ctx->tbls[i]);
}
return item_num;
}
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