--- /dev/null
+/* SPDX-License-Identifier: BSD-3-Clause
+ * Copyright(c) 2020 Inspur Corporation
+ */
+
+#include <rte_malloc.h>
+#include <rte_mbuf.h>
+#include <rte_cycles.h>
+#include <rte_ethdev.h>
+#include <rte_udp.h>
+
+#include "gro_vxlan_udp4.h"
+
+void *
+gro_vxlan_udp4_tbl_create(uint16_t socket_id,
+ uint16_t max_flow_num,
+ uint16_t max_item_per_flow)
+{
+ struct gro_vxlan_udp4_tbl *tbl;
+ size_t size;
+ uint32_t entries_num, i;
+
+ entries_num = max_flow_num * max_item_per_flow;
+ entries_num = RTE_MIN(entries_num, GRO_VXLAN_UDP4_TBL_MAX_ITEM_NUM);
+
+ if (entries_num == 0)
+ return NULL;
+
+ tbl = rte_zmalloc_socket(__func__,
+ sizeof(struct gro_vxlan_udp4_tbl),
+ RTE_CACHE_LINE_SIZE,
+ socket_id);
+ if (tbl == NULL)
+ return NULL;
+
+ size = sizeof(struct gro_vxlan_udp4_item) * entries_num;
+ tbl->items = rte_zmalloc_socket(__func__,
+ size,
+ RTE_CACHE_LINE_SIZE,
+ socket_id);
+ if (tbl->items == NULL) {
+ rte_free(tbl);
+ return NULL;
+ }
+ tbl->max_item_num = entries_num;
+
+ size = sizeof(struct gro_vxlan_udp4_flow) * entries_num;
+ tbl->flows = rte_zmalloc_socket(__func__,
+ size,
+ RTE_CACHE_LINE_SIZE,
+ socket_id);
+ if (tbl->flows == NULL) {
+ rte_free(tbl->items);
+ rte_free(tbl);
+ return NULL;
+ }
+
+ for (i = 0; i < entries_num; i++)
+ tbl->flows[i].start_index = INVALID_ARRAY_INDEX;
+ tbl->max_flow_num = entries_num;
+
+ return tbl;
+}
+
+void
+gro_vxlan_udp4_tbl_destroy(void *tbl)
+{
+ struct gro_vxlan_udp4_tbl *vxlan_tbl = tbl;
+
+ if (vxlan_tbl) {
+ rte_free(vxlan_tbl->items);
+ rte_free(vxlan_tbl->flows);
+ }
+ rte_free(vxlan_tbl);
+}
+
+static inline uint32_t
+find_an_empty_item(struct gro_vxlan_udp4_tbl *tbl)
+{
+ uint32_t max_item_num = tbl->max_item_num, i;
+
+ for (i = 0; i < max_item_num; i++)
+ if (tbl->items[i].inner_item.firstseg == NULL)
+ return i;
+ return INVALID_ARRAY_INDEX;
+}
+
+static inline uint32_t
+find_an_empty_flow(struct gro_vxlan_udp4_tbl *tbl)
+{
+ uint32_t max_flow_num = tbl->max_flow_num, i;
+
+ for (i = 0; i < max_flow_num; i++)
+ if (tbl->flows[i].start_index == INVALID_ARRAY_INDEX)
+ return i;
+ return INVALID_ARRAY_INDEX;
+}
+
+static inline uint32_t
+insert_new_item(struct gro_vxlan_udp4_tbl *tbl,
+ struct rte_mbuf *pkt,
+ uint64_t start_time,
+ uint32_t prev_idx,
+ uint16_t frag_offset,
+ uint8_t is_last_frag)
+{
+ uint32_t item_idx;
+
+ item_idx = find_an_empty_item(tbl);
+ if (unlikely(item_idx == INVALID_ARRAY_INDEX))
+ return INVALID_ARRAY_INDEX;
+
+ tbl->items[item_idx].inner_item.firstseg = pkt;
+ tbl->items[item_idx].inner_item.lastseg = rte_pktmbuf_lastseg(pkt);
+ tbl->items[item_idx].inner_item.start_time = start_time;
+ tbl->items[item_idx].inner_item.next_pkt_idx = INVALID_ARRAY_INDEX;
+ tbl->items[item_idx].inner_item.frag_offset = frag_offset;
+ tbl->items[item_idx].inner_item.is_last_frag = is_last_frag;
+ tbl->items[item_idx].inner_item.nb_merged = 1;
+ tbl->item_num++;
+
+ /* If the previous packet exists, chain the new one with it. */
+ if (prev_idx != INVALID_ARRAY_INDEX) {
+ tbl->items[item_idx].inner_item.next_pkt_idx =
+ tbl->items[prev_idx].inner_item.next_pkt_idx;
+ tbl->items[prev_idx].inner_item.next_pkt_idx = item_idx;
+ }
+
+ return item_idx;
+}
+
+static inline uint32_t
+delete_item(struct gro_vxlan_udp4_tbl *tbl,
+ uint32_t item_idx,
+ uint32_t prev_item_idx)
+{
+ uint32_t next_idx = tbl->items[item_idx].inner_item.next_pkt_idx;
+
+ /* NULL indicates an empty item. */
+ tbl->items[item_idx].inner_item.firstseg = NULL;
+ tbl->item_num--;
+ if (prev_item_idx != INVALID_ARRAY_INDEX)
+ tbl->items[prev_item_idx].inner_item.next_pkt_idx = next_idx;
+
+ return next_idx;
+}
+
+static inline uint32_t
+insert_new_flow(struct gro_vxlan_udp4_tbl *tbl,
+ struct vxlan_udp4_flow_key *src,
+ uint32_t item_idx)
+{
+ struct vxlan_udp4_flow_key *dst;
+ uint32_t flow_idx;
+
+ flow_idx = find_an_empty_flow(tbl);
+ if (unlikely(flow_idx == INVALID_ARRAY_INDEX))
+ return INVALID_ARRAY_INDEX;
+
+ dst = &(tbl->flows[flow_idx].key);
+
+ rte_ether_addr_copy(&(src->inner_key.eth_saddr),
+ &(dst->inner_key.eth_saddr));
+ rte_ether_addr_copy(&(src->inner_key.eth_daddr),
+ &(dst->inner_key.eth_daddr));
+ dst->inner_key.ip_src_addr = src->inner_key.ip_src_addr;
+ dst->inner_key.ip_dst_addr = src->inner_key.ip_dst_addr;
+ dst->inner_key.ip_id = src->inner_key.ip_id;
+
+ dst->vxlan_hdr.vx_flags = src->vxlan_hdr.vx_flags;
+ dst->vxlan_hdr.vx_vni = src->vxlan_hdr.vx_vni;
+ rte_ether_addr_copy(&(src->outer_eth_saddr), &(dst->outer_eth_saddr));
+ rte_ether_addr_copy(&(src->outer_eth_daddr), &(dst->outer_eth_daddr));
+ dst->outer_ip_src_addr = src->outer_ip_src_addr;
+ dst->outer_ip_dst_addr = src->outer_ip_dst_addr;
+ dst->outer_dst_port = src->outer_dst_port;
+
+ tbl->flows[flow_idx].start_index = item_idx;
+ tbl->flow_num++;
+
+ return flow_idx;
+}
+
+static inline int
+is_same_vxlan_udp4_flow(struct vxlan_udp4_flow_key k1,
+ struct vxlan_udp4_flow_key k2)
+{
+ /* For VxLAN packet, outer udp src port is calculated from
+ * inner packet RSS hash, udp src port of the first UDP
+ * fragment is different from one of other UDP fragments
+ * even if they are same flow, so we have to skip outer udp
+ * src port comparison here.
+ */
+ return (rte_is_same_ether_addr(&k1.outer_eth_saddr,
+ &k2.outer_eth_saddr) &&
+ rte_is_same_ether_addr(&k1.outer_eth_daddr,
+ &k2.outer_eth_daddr) &&
+ (k1.outer_ip_src_addr == k2.outer_ip_src_addr) &&
+ (k1.outer_ip_dst_addr == k2.outer_ip_dst_addr) &&
+ (k1.outer_dst_port == k2.outer_dst_port) &&
+ (k1.vxlan_hdr.vx_flags == k2.vxlan_hdr.vx_flags) &&
+ (k1.vxlan_hdr.vx_vni == k2.vxlan_hdr.vx_vni) &&
+ is_same_udp4_flow(k1.inner_key, k2.inner_key));
+}
+
+static inline int
+udp4_check_vxlan_neighbor(struct gro_vxlan_udp4_item *item,
+ uint16_t frag_offset,
+ uint16_t ip_dl)
+{
+ struct rte_mbuf *pkt = item->inner_item.firstseg;
+ int cmp;
+ uint16_t l2_offset;
+ int ret = 0;
+
+ /* Note: if outer DF bit is set, i.e outer_is_atomic is 0,
+ * we needn't compare outer_ip_id because they are same,
+ * for the case outer_is_atomic is 1, we also have no way
+ * to compare outer_ip_id because the difference between
+ * outer_ip_ids of two received packets isn't always +/-1.
+ * So skip outer_ip_id comparison here.
+ */
+
+ l2_offset = pkt->outer_l2_len + pkt->outer_l3_len;
+ cmp = udp4_check_neighbor(&item->inner_item, frag_offset, ip_dl,
+ l2_offset);
+ if (cmp > 0)
+ /* Append the new packet. */
+ ret = 1;
+ else if (cmp < 0)
+ /* Prepend the new packet. */
+ ret = -1;
+
+ return ret;
+}
+
+static inline int
+merge_two_vxlan_udp4_packets(struct gro_vxlan_udp4_item *item,
+ struct rte_mbuf *pkt,
+ int cmp,
+ uint16_t frag_offset,
+ uint8_t is_last_frag)
+{
+ if (merge_two_udp4_packets(&item->inner_item, pkt, cmp, frag_offset,
+ is_last_frag,
+ pkt->outer_l2_len + pkt->outer_l3_len)) {
+ return 1;
+ }
+
+ return 0;
+}
+
+static inline void
+update_vxlan_header(struct gro_vxlan_udp4_item *item)
+{
+ struct rte_ipv4_hdr *ipv4_hdr;
+ struct rte_udp_hdr *udp_hdr;
+ struct rte_mbuf *pkt = item->inner_item.firstseg;
+ uint16_t len;
+ uint16_t frag_offset;
+
+ /* Update the outer IPv4 header. */
+ len = pkt->pkt_len - pkt->outer_l2_len;
+ ipv4_hdr = (struct rte_ipv4_hdr *)(rte_pktmbuf_mtod(pkt, char *) +
+ pkt->outer_l2_len);
+ ipv4_hdr->total_length = rte_cpu_to_be_16(len);
+
+ /* Update the outer UDP header. */
+ len -= pkt->outer_l3_len;
+ udp_hdr = (struct rte_udp_hdr *)((char *)ipv4_hdr + pkt->outer_l3_len);
+ udp_hdr->dgram_len = rte_cpu_to_be_16(len);
+
+ /* Update the inner IPv4 header. */
+ len -= pkt->l2_len;
+ ipv4_hdr = (struct rte_ipv4_hdr *)((char *)udp_hdr + pkt->l2_len);
+ ipv4_hdr->total_length = rte_cpu_to_be_16(len);
+
+ /* Clear MF bit if it is last fragment */
+ if (item->inner_item.is_last_frag) {
+ frag_offset = rte_be_to_cpu_16(ipv4_hdr->fragment_offset);
+ ipv4_hdr->fragment_offset =
+ rte_cpu_to_be_16(frag_offset & ~RTE_IPV4_HDR_MF_FLAG);
+ }
+}
+
+int32_t
+gro_vxlan_udp4_reassemble(struct rte_mbuf *pkt,
+ struct gro_vxlan_udp4_tbl *tbl,
+ uint64_t start_time)
+{
+ struct rte_ether_hdr *outer_eth_hdr, *eth_hdr;
+ struct rte_ipv4_hdr *outer_ipv4_hdr, *ipv4_hdr;
+ struct rte_udp_hdr *udp_hdr;
+ struct rte_vxlan_hdr *vxlan_hdr;
+ uint16_t frag_offset;
+ uint8_t is_last_frag;
+ int16_t ip_dl;
+ uint16_t ip_id;
+
+ struct vxlan_udp4_flow_key key;
+ uint32_t cur_idx, prev_idx, item_idx;
+ uint32_t i, max_flow_num, remaining_flow_num;
+ int cmp;
+ uint16_t hdr_len;
+ uint8_t find;
+
+ outer_eth_hdr = rte_pktmbuf_mtod(pkt, struct rte_ether_hdr *);
+ outer_ipv4_hdr = (struct rte_ipv4_hdr *)((char *)outer_eth_hdr +
+ pkt->outer_l2_len);
+
+ udp_hdr = (struct rte_udp_hdr *)((char *)outer_ipv4_hdr +
+ pkt->outer_l3_len);
+ vxlan_hdr = (struct rte_vxlan_hdr *)((char *)udp_hdr +
+ sizeof(struct rte_udp_hdr));
+ eth_hdr = (struct rte_ether_hdr *)((char *)vxlan_hdr +
+ sizeof(struct rte_vxlan_hdr));
+ /* l2_len = outer udp hdr len + vxlan hdr len + inner l2 len */
+ ipv4_hdr = (struct rte_ipv4_hdr *)((char *)udp_hdr + pkt->l2_len);
+
+ /*
+ * Don't process the packet which has non-fragment inner IP.
+ */
+ if (!is_ipv4_fragment(ipv4_hdr))
+ return -1;
+
+ hdr_len = pkt->outer_l2_len + pkt->outer_l3_len + pkt->l2_len +
+ pkt->l3_len;
+ /*
+ * Don't process the packet whose payload length is less than or
+ * equal to 0.
+ */
+ if (pkt->pkt_len <= hdr_len)
+ return -1;
+
+ ip_dl = pkt->pkt_len - hdr_len;
+
+ ip_id = rte_be_to_cpu_16(ipv4_hdr->packet_id);
+ frag_offset = rte_be_to_cpu_16(ipv4_hdr->fragment_offset);
+ is_last_frag = ((frag_offset & RTE_IPV4_HDR_MF_FLAG) == 0) ? 1 : 0;
+ frag_offset = (uint16_t)(frag_offset & RTE_IPV4_HDR_OFFSET_MASK) << 3;
+
+ rte_ether_addr_copy(&(eth_hdr->s_addr), &(key.inner_key.eth_saddr));
+ rte_ether_addr_copy(&(eth_hdr->d_addr), &(key.inner_key.eth_daddr));
+ key.inner_key.ip_src_addr = ipv4_hdr->src_addr;
+ key.inner_key.ip_dst_addr = ipv4_hdr->dst_addr;
+ key.inner_key.ip_id = ip_id;
+
+ key.vxlan_hdr.vx_flags = vxlan_hdr->vx_flags;
+ key.vxlan_hdr.vx_vni = vxlan_hdr->vx_vni;
+ rte_ether_addr_copy(&(outer_eth_hdr->s_addr), &(key.outer_eth_saddr));
+ rte_ether_addr_copy(&(outer_eth_hdr->d_addr), &(key.outer_eth_daddr));
+ key.outer_ip_src_addr = outer_ipv4_hdr->src_addr;
+ key.outer_ip_dst_addr = outer_ipv4_hdr->dst_addr;
+ /* Note: It is unnecessary to save outer_src_port here because it can
+ * be different for VxLAN UDP fragments from the same flow.
+ */
+ key.outer_dst_port = udp_hdr->dst_port;
+
+ /* Search for a matched flow. */
+ max_flow_num = tbl->max_flow_num;
+ remaining_flow_num = tbl->flow_num;
+ find = 0;
+ for (i = 0; i < max_flow_num && remaining_flow_num; i++) {
+ if (tbl->flows[i].start_index != INVALID_ARRAY_INDEX) {
+ if (is_same_vxlan_udp4_flow(tbl->flows[i].key, key)) {
+ find = 1;
+ break;
+ }
+ remaining_flow_num--;
+ }
+ }
+
+ /*
+ * Can't find a matched flow. Insert a new flow and store the
+ * packet into the flow.
+ */
+ if (find == 0) {
+ item_idx = insert_new_item(tbl, pkt, start_time,
+ INVALID_ARRAY_INDEX, frag_offset,
+ is_last_frag);
+ if (unlikely(item_idx == INVALID_ARRAY_INDEX))
+ return -1;
+ if (insert_new_flow(tbl, &key, item_idx) ==
+ INVALID_ARRAY_INDEX) {
+ /*
+ * Fail to insert a new flow, so
+ * delete the inserted packet.
+ */
+ delete_item(tbl, item_idx, INVALID_ARRAY_INDEX);
+ return -1;
+ }
+ return 0;
+ }
+
+ /* Check all packets in the flow and try to find a neighbor. */
+ cur_idx = tbl->flows[i].start_index;
+ prev_idx = cur_idx;
+ do {
+ cmp = udp4_check_vxlan_neighbor(&(tbl->items[cur_idx]),
+ frag_offset, ip_dl);
+ if (cmp) {
+ if (merge_two_vxlan_udp4_packets(
+ &(tbl->items[cur_idx]),
+ pkt, cmp, frag_offset,
+ is_last_frag)) {
+ return 1;
+ }
+ /*
+ * Can't merge two packets, as the packet
+ * length will be greater than the max value.
+ * Insert the packet into the flow.
+ */
+ if (insert_new_item(tbl, pkt, start_time, prev_idx,
+ frag_offset, is_last_frag) ==
+ INVALID_ARRAY_INDEX)
+ return -1;
+ return 0;
+ }
+
+ /* Ensure inserted items are ordered by frag_offset */
+ if (frag_offset
+ < tbl->items[cur_idx].inner_item.frag_offset) {
+ break;
+ }
+
+ prev_idx = cur_idx;
+ cur_idx = tbl->items[cur_idx].inner_item.next_pkt_idx;
+ } while (cur_idx != INVALID_ARRAY_INDEX);
+
+ /* Can't find neighbor. Insert the packet into the flow. */
+ if (cur_idx == tbl->flows[i].start_index) {
+ /* Insert it before the first packet of the flow */
+ item_idx = insert_new_item(tbl, pkt, start_time,
+ INVALID_ARRAY_INDEX, frag_offset,
+ is_last_frag);
+ if (unlikely(item_idx == INVALID_ARRAY_INDEX))
+ return -1;
+ tbl->items[item_idx].inner_item.next_pkt_idx = cur_idx;
+ tbl->flows[i].start_index = item_idx;
+ } else {
+ if (insert_new_item(tbl, pkt, start_time, prev_idx,
+ frag_offset, is_last_frag
+ ) == INVALID_ARRAY_INDEX)
+ return -1;
+ }
+
+ return 0;
+}
+
+static int
+gro_vxlan_udp4_merge_items(struct gro_vxlan_udp4_tbl *tbl,
+ uint32_t start_idx)
+{
+ uint16_t frag_offset;
+ uint8_t is_last_frag;
+ int16_t ip_dl;
+ struct rte_mbuf *pkt;
+ int cmp;
+ uint32_t item_idx;
+ uint16_t hdr_len;
+
+ item_idx = tbl->items[start_idx].inner_item.next_pkt_idx;
+ while (item_idx != INVALID_ARRAY_INDEX) {
+ pkt = tbl->items[item_idx].inner_item.firstseg;
+ hdr_len = pkt->outer_l2_len + pkt->outer_l3_len + pkt->l2_len +
+ pkt->l3_len;
+ ip_dl = pkt->pkt_len - hdr_len;
+ frag_offset = tbl->items[item_idx].inner_item.frag_offset;
+ is_last_frag = tbl->items[item_idx].inner_item.is_last_frag;
+ cmp = udp4_check_vxlan_neighbor(&(tbl->items[start_idx]),
+ frag_offset, ip_dl);
+ if (cmp) {
+ if (merge_two_vxlan_udp4_packets(
+ &(tbl->items[start_idx]),
+ pkt, cmp, frag_offset,
+ is_last_frag)) {
+ item_idx = delete_item(tbl, item_idx,
+ INVALID_ARRAY_INDEX);
+ tbl->items[start_idx].inner_item.next_pkt_idx
+ = item_idx;
+ } else
+ return 0;
+ } else
+ return 0;
+ }
+
+ return 0;
+}
+
+uint16_t
+gro_vxlan_udp4_tbl_timeout_flush(struct gro_vxlan_udp4_tbl *tbl,
+ uint64_t flush_timestamp,
+ struct rte_mbuf **out,
+ uint16_t nb_out)
+{
+ uint16_t k = 0;
+ uint32_t i, j;
+ uint32_t max_flow_num = tbl->max_flow_num;
+
+ for (i = 0; i < max_flow_num; i++) {
+ if (unlikely(tbl->flow_num == 0))
+ return k;
+
+ j = tbl->flows[i].start_index;
+ while (j != INVALID_ARRAY_INDEX) {
+ if (tbl->items[j].inner_item.start_time <=
+ flush_timestamp) {
+ gro_vxlan_udp4_merge_items(tbl, j);
+ out[k++] = tbl->items[j].inner_item.firstseg;
+ if (tbl->items[j].inner_item.nb_merged > 1)
+ update_vxlan_header(&(tbl->items[j]));
+ /*
+ * Delete the item and get the next packet
+ * index.
+ */
+ j = delete_item(tbl, j, INVALID_ARRAY_INDEX);
+ tbl->flows[i].start_index = j;
+ if (j == INVALID_ARRAY_INDEX)
+ tbl->flow_num--;
+
+ if (unlikely(k == nb_out))
+ return k;
+ } else
+ /*
+ * Flushing packets does not strictly follow
+ * timestamp. It does not flush left packets of
+ * the flow this time once it finds one item
+ * whose start_time is greater than
+ * flush_timestamp. So go to check other flows.
+ */
+ break;
+ }
+ }
+ return k;
+}
+
+uint32_t
+gro_vxlan_udp4_tbl_pkt_count(void *tbl)
+{
+ struct gro_vxlan_udp4_tbl *gro_tbl = tbl;
+
+ if (gro_tbl)
+ return gro_tbl->item_num;
+
+ return 0;
+}
--- /dev/null
+/* SPDX-License-Identifier: BSD-3-Clause
+ * Copyright(c) 2020 Inspur Corporation
+ */
+
+#ifndef _GRO_VXLAN_UDP4_H_
+#define _GRO_VXLAN_UDP4_H_
+
+#include "gro_udp4.h"
+
+#define GRO_VXLAN_UDP4_TBL_MAX_ITEM_NUM (1024UL * 1024UL)
+
+/* Header fields representing a VxLAN flow */
+struct vxlan_udp4_flow_key {
+ struct udp4_flow_key inner_key;
+ struct rte_vxlan_hdr vxlan_hdr;
+
+ struct rte_ether_addr outer_eth_saddr;
+ struct rte_ether_addr outer_eth_daddr;
+
+ uint32_t outer_ip_src_addr;
+ uint32_t outer_ip_dst_addr;
+
+ /* Note: It is unnecessary to save outer_src_port here because it can
+ * be different for VxLAN UDP fragments from the same flow.
+ */
+ uint16_t outer_dst_port;
+};
+
+struct gro_vxlan_udp4_flow {
+ struct vxlan_udp4_flow_key key;
+ /*
+ * The index of the first packet in the flow. INVALID_ARRAY_INDEX
+ * indicates an empty flow.
+ */
+ uint32_t start_index;
+};
+
+struct gro_vxlan_udp4_item {
+ struct gro_udp4_item inner_item;
+ /* Note: VXLAN UDP/IPv4 GRO needn't check outer_ip_id because
+ * the difference between outer_ip_ids of two received packets
+ * isn't always +/-1 in case of OVS DPDK. So no outer_ip_id
+ * and outer_is_atomic fields here.
+ */
+};
+
+/*
+ * VxLAN (with an outer IPv4 header and an inner UDP/IPv4 packet)
+ * reassembly table structure
+ */
+struct gro_vxlan_udp4_tbl {
+ /* item array */
+ struct gro_vxlan_udp4_item *items;
+ /* flow array */
+ struct gro_vxlan_udp4_flow *flows;
+ /* current item number */
+ uint32_t item_num;
+ /* current flow number */
+ uint32_t flow_num;
+ /* the maximum item number */
+ uint32_t max_item_num;
+ /* the maximum flow number */
+ uint32_t max_flow_num;
+};
+
+/**
+ * This function creates a VxLAN reassembly table for VxLAN packets
+ * which have an outer IPv4 header and an inner UDP/IPv4 packet.
+ *
+ * @param socket_id
+ * Socket index for allocating the table
+ * @param max_flow_num
+ * The maximum number of flows in the table
+ * @param max_item_per_flow
+ * The maximum number of packets per flow
+ *
+ * @return
+ * - Return the table pointer on success.
+ * - Return NULL on failure.
+ */
+void *gro_vxlan_udp4_tbl_create(uint16_t socket_id,
+ uint16_t max_flow_num,
+ uint16_t max_item_per_flow);
+
+/**
+ * This function destroys a VxLAN reassembly table.
+ *
+ * @param tbl
+ * Pointer pointing to the VxLAN reassembly table
+ */
+void gro_vxlan_udp4_tbl_destroy(void *tbl);
+
+/**
+ * This function merges a VxLAN packet which has an outer IPv4 header and
+ * an inner UDP/IPv4 packet. It does not process the packet which does not
+ * have payload.
+ *
+ * This function does not check if the packet has correct checksums and
+ * does not re-calculate checksums for the merged packet. It returns the
+ * packet if there is no available space in the table.
+ *
+ * @param pkt
+ * Packet to reassemble
+ * @param tbl
+ * Pointer pointing to the VxLAN reassembly table
+ * @start_time
+ * The time when the packet is inserted into the table
+ *
+ * @return
+ * - Return a positive value if the packet is merged.
+ * - Return zero if the packet isn't merged but stored in the table.
+ * - Return a negative value for invalid parameters or no available
+ * space in the table.
+ */
+int32_t gro_vxlan_udp4_reassemble(struct rte_mbuf *pkt,
+ struct gro_vxlan_udp4_tbl *tbl,
+ uint64_t start_time);
+
+/**
+ * This function flushes timeout packets in the VxLAN reassembly table,
+ * and without updating checksums.
+ *
+ * @param tbl
+ * Pointer pointing to a VxLAN GRO table
+ * @param flush_timestamp
+ * This function flushes packets which are inserted into the table
+ * before or at the flush_timestamp.
+ * @param out
+ * Pointer array used to keep flushed packets
+ * @param nb_out
+ * The element number in 'out'. It also determines the maximum number of
+ * packets that can be flushed finally.
+ *
+ * @return
+ * The number of flushed packets
+ */
+uint16_t gro_vxlan_udp4_tbl_timeout_flush(struct gro_vxlan_udp4_tbl *tbl,
+ uint64_t flush_timestamp,
+ struct rte_mbuf **out,
+ uint16_t nb_out);
+
+/**
+ * This function returns the number of the packets in a VxLAN
+ * reassembly table.
+ *
+ * @param tbl
+ * Pointer pointing to the VxLAN reassembly table
+ *
+ * @return
+ * The number of packets in the table
+ */
+uint32_t gro_vxlan_udp4_tbl_pkt_count(void *tbl);
+#endif
#include "gro_tcp4.h"
#include "gro_udp4.h"
#include "gro_vxlan_tcp4.h"
+#include "gro_vxlan_udp4.h"
typedef void *(*gro_tbl_create_fn)(uint16_t socket_id,
uint16_t max_flow_num,
static gro_tbl_create_fn tbl_create_fn[RTE_GRO_TYPE_MAX_NUM] = {
gro_tcp4_tbl_create, gro_vxlan_tcp4_tbl_create,
- gro_udp4_tbl_create, NULL};
+ gro_udp4_tbl_create, gro_vxlan_udp4_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,
- gro_udp4_tbl_destroy,
+ gro_udp4_tbl_destroy, gro_vxlan_udp4_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,
- gro_udp4_tbl_pkt_count,
+ gro_udp4_tbl_pkt_count, gro_vxlan_udp4_tbl_pkt_count,
NULL};
#define IS_IPV4_TCP_PKT(ptype) (RTE_ETH_IS_IPV4_HDR(ptype) && \
RTE_PTYPE_INNER_L3_IPV4_EXT | \
RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN)) != 0))
+#define IS_IPV4_VXLAN_UDP4_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_UDP) == \
+ RTE_PTYPE_INNER_L4_UDP) && \
+ (((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
struct gro_udp4_item udp_items[RTE_GRO_MAX_BURST_ITEM_NUM] = {{0} };
/* Allocate a reassembly table for VXLAN TCP 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]
+ struct gro_vxlan_tcp4_tbl vxlan_tcp_tbl;
+ struct gro_vxlan_tcp4_flow vxlan_tcp_flows[RTE_GRO_MAX_BURST_ITEM_NUM];
+ struct gro_vxlan_tcp4_item vxlan_tcp_items[RTE_GRO_MAX_BURST_ITEM_NUM]
= {{{0}, 0, 0} };
+ /* Allocate a reassembly table for VXLAN UDP GRO */
+ struct gro_vxlan_udp4_tbl vxlan_udp_tbl;
+ struct gro_vxlan_udp4_flow vxlan_udp_flows[RTE_GRO_MAX_BURST_ITEM_NUM];
+ struct gro_vxlan_udp4_item vxlan_udp_items[RTE_GRO_MAX_BURST_ITEM_NUM]
+ = {{{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, do_udp4_gro = 0;
+ uint8_t do_tcp4_gro = 0, do_vxlan_tcp_gro = 0, do_udp4_gro = 0,
+ do_vxlan_udp_gro = 0;
if (unlikely((param->gro_types & (RTE_GRO_IPV4_VXLAN_TCP_IPV4 |
RTE_GRO_TCP_IPV4 |
+ RTE_GRO_IPV4_VXLAN_UDP_IPV4 |
RTE_GRO_UDP_IPV4)) == 0))
return nb_pkts;
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;
+ vxlan_tcp_flows[i].start_index = INVALID_ARRAY_INDEX;
+
+ vxlan_tcp_tbl.flows = vxlan_tcp_flows;
+ vxlan_tcp_tbl.items = vxlan_tcp_items;
+ vxlan_tcp_tbl.flow_num = 0;
+ vxlan_tcp_tbl.item_num = 0;
+ vxlan_tcp_tbl.max_flow_num = item_num;
+ vxlan_tcp_tbl.max_item_num = item_num;
+ do_vxlan_tcp_gro = 1;
+ }
+
+ if (param->gro_types & RTE_GRO_IPV4_VXLAN_UDP_IPV4) {
+ for (i = 0; i < item_num; i++)
+ vxlan_udp_flows[i].start_index = INVALID_ARRAY_INDEX;
+
+ vxlan_udp_tbl.flows = vxlan_udp_flows;
+ vxlan_udp_tbl.items = vxlan_udp_items;
+ vxlan_udp_tbl.flow_num = 0;
+ vxlan_udp_tbl.item_num = 0;
+ vxlan_udp_tbl.max_flow_num = item_num;
+ vxlan_udp_tbl.max_item_num = item_num;
+ do_vxlan_udp_gro = 1;
}
if (param->gro_types & RTE_GRO_TCP_IPV4) {
* will be flushed from the tables.
*/
if (IS_IPV4_VXLAN_TCP4_PKT(pkts[i]->packet_type) &&
- do_vxlan_gro) {
+ do_vxlan_tcp_gro) {
ret = gro_vxlan_tcp4_reassemble(pkts[i],
- &vxlan_tbl, 0);
+ &vxlan_tcp_tbl, 0);
+ if (ret > 0)
+ /* Merge successfully */
+ nb_after_gro--;
+ else if (ret < 0)
+ unprocess_pkts[unprocess_num++] = pkts[i];
+ } else if (IS_IPV4_VXLAN_UDP4_PKT(pkts[i]->packet_type) &&
+ do_vxlan_udp_gro) {
+ ret = gro_vxlan_udp4_reassemble(pkts[i],
+ &vxlan_udp_tbl, 0);
if (ret > 0)
/* Merge successfully */
nb_after_gro--;
|| (unprocess_num < nb_pkts)) {
i = 0;
/* Flush all packets from the tables */
- if (do_vxlan_gro) {
- i = gro_vxlan_tcp4_tbl_timeout_flush(&vxlan_tbl,
+ if (do_vxlan_tcp_gro) {
+ i = gro_vxlan_tcp4_tbl_timeout_flush(&vxlan_tcp_tbl,
0, pkts, nb_pkts);
}
+ if (do_vxlan_udp_gro) {
+ i += gro_vxlan_udp4_tbl_timeout_flush(&vxlan_udp_tbl,
+ 0, &pkts[i], nb_pkts - i);
+
+ }
+
if (do_tcp4_gro) {
i += gro_tcp4_tbl_timeout_flush(&tcp_tbl, 0,
&pkts[i], nb_pkts - i);
{
struct rte_mbuf *unprocess_pkts[nb_pkts];
struct gro_ctx *gro_ctx = ctx;
- void *tcp_tbl, *udp_tbl, *vxlan_tbl;
+ void *tcp_tbl, *udp_tbl, *vxlan_tcp_tbl, *vxlan_udp_tbl;
uint64_t current_time;
uint16_t i, unprocess_num = 0;
- uint8_t do_tcp4_gro, do_vxlan_gro, do_udp4_gro;
+ uint8_t do_tcp4_gro, do_vxlan_tcp_gro, do_udp4_gro, do_vxlan_udp_gro;
if (unlikely((gro_ctx->gro_types & (RTE_GRO_IPV4_VXLAN_TCP_IPV4 |
RTE_GRO_TCP_IPV4 |
+ RTE_GRO_IPV4_VXLAN_UDP_IPV4 |
RTE_GRO_UDP_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];
+ vxlan_tcp_tbl = gro_ctx->tbls[RTE_GRO_IPV4_VXLAN_TCP_IPV4_INDEX];
udp_tbl = gro_ctx->tbls[RTE_GRO_UDP_IPV4_INDEX];
+ vxlan_udp_tbl = gro_ctx->tbls[RTE_GRO_IPV4_VXLAN_UDP_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) ==
+ do_vxlan_tcp_gro = (gro_ctx->gro_types & RTE_GRO_IPV4_VXLAN_TCP_IPV4) ==
RTE_GRO_IPV4_VXLAN_TCP_IPV4;
do_udp4_gro = (gro_ctx->gro_types & RTE_GRO_UDP_IPV4) ==
RTE_GRO_UDP_IPV4;
+ do_vxlan_udp_gro = (gro_ctx->gro_types & RTE_GRO_IPV4_VXLAN_UDP_IPV4) ==
+ RTE_GRO_IPV4_VXLAN_UDP_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,
+ do_vxlan_tcp_gro) {
+ if (gro_vxlan_tcp4_reassemble(pkts[i], vxlan_tcp_tbl,
+ current_time) < 0)
+ unprocess_pkts[unprocess_num++] = pkts[i];
+ } else if (IS_IPV4_VXLAN_UDP4_PKT(pkts[i]->packet_type) &&
+ do_vxlan_udp_gro) {
+ if (gro_vxlan_udp4_reassemble(pkts[i], vxlan_udp_tbl,
current_time) < 0)
unprocess_pkts[unprocess_num++] = pkts[i];
} else if (IS_IPV4_TCP_PKT(pkts[i]->packet_type) &&
left_nb_out = max_nb_out - num;
}
+ if ((gro_types & RTE_GRO_IPV4_VXLAN_UDP_IPV4) && left_nb_out > 0) {
+ num += gro_vxlan_udp4_tbl_timeout_flush(gro_ctx->tbls[
+ RTE_GRO_IPV4_VXLAN_UDP_IPV4_INDEX],
+ flush_timestamp, &out[num], left_nb_out);
+ left_nb_out = max_nb_out - num;
+ }
+
/* If no available space in 'out', stop flushing. */
if ((gro_types & RTE_GRO_TCP_IPV4) && left_nb_out > 0) {
num += gro_tcp4_tbl_timeout_flush(