5fde1a7592
Use new macro RTE_IPV4_VHL_DEF instead of IP_VHL_DEF wherever applicable. Signed-off-by: Reshma Pattan <reshma.pattan@intel.com> Acked-by: Hyong Youb Kim <hyonkim@cisco.com> Reviewed-by: Ferruh Yigit <ferruh.yigit@intel.com>
360 lines
9.5 KiB
C
360 lines
9.5 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2010-2014 Intel Corporation
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*/
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#include <stdarg.h>
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#include <string.h>
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#include <stdio.h>
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#include <errno.h>
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#include <stdint.h>
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#include <unistd.h>
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#include <inttypes.h>
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#include <sys/queue.h>
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#include <sys/stat.h>
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#include <rte_common.h>
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#include <rte_byteorder.h>
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#include <rte_log.h>
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#include <rte_debug.h>
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#include <rte_cycles.h>
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#include <rte_memory.h>
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#include <rte_memcpy.h>
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#include <rte_launch.h>
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#include <rte_eal.h>
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#include <rte_per_lcore.h>
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#include <rte_lcore.h>
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#include <rte_atomic.h>
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#include <rte_branch_prediction.h>
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#include <rte_mempool.h>
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#include <rte_mbuf.h>
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#include <rte_interrupts.h>
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#include <rte_pci.h>
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#include <rte_ether.h>
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#include <rte_ethdev.h>
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#include <rte_ip.h>
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#include <rte_tcp.h>
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#include <rte_udp.h>
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#include <rte_string_fns.h>
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#include <rte_flow.h>
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#include "testpmd.h"
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/* use RFC863 Discard Protocol */
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uint16_t tx_udp_src_port = 9;
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uint16_t tx_udp_dst_port = 9;
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/* use RFC5735 / RFC2544 reserved network test addresses */
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uint32_t tx_ip_src_addr = (192U << 24) | (18 << 16) | (0 << 8) | 1;
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uint32_t tx_ip_dst_addr = (192U << 24) | (18 << 16) | (0 << 8) | 2;
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#define IP_DEFTTL 64 /* from RFC 1340. */
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static struct rte_ipv4_hdr pkt_ip_hdr; /**< IP header of transmitted packets. */
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RTE_DEFINE_PER_LCORE(uint8_t, _ip_var); /**< IP address variation */
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static struct rte_udp_hdr pkt_udp_hdr; /**< UDP header of tx packets. */
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static void
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copy_buf_to_pkt_segs(void* buf, unsigned len, struct rte_mbuf *pkt,
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unsigned offset)
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{
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struct rte_mbuf *seg;
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void *seg_buf;
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unsigned copy_len;
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seg = pkt;
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while (offset >= seg->data_len) {
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offset -= seg->data_len;
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seg = seg->next;
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}
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copy_len = seg->data_len - offset;
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seg_buf = rte_pktmbuf_mtod_offset(seg, char *, offset);
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while (len > copy_len) {
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rte_memcpy(seg_buf, buf, (size_t) copy_len);
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len -= copy_len;
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buf = ((char*) buf + copy_len);
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seg = seg->next;
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seg_buf = rte_pktmbuf_mtod(seg, char *);
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copy_len = seg->data_len;
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}
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rte_memcpy(seg_buf, buf, (size_t) len);
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}
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static inline void
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copy_buf_to_pkt(void* buf, unsigned len, struct rte_mbuf *pkt, unsigned offset)
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{
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if (offset + len <= pkt->data_len) {
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rte_memcpy(rte_pktmbuf_mtod_offset(pkt, char *, offset),
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buf, (size_t) len);
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return;
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}
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copy_buf_to_pkt_segs(buf, len, pkt, offset);
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}
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static void
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setup_pkt_udp_ip_headers(struct rte_ipv4_hdr *ip_hdr,
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struct rte_udp_hdr *udp_hdr,
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uint16_t pkt_data_len)
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{
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uint16_t *ptr16;
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uint32_t ip_cksum;
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uint16_t pkt_len;
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/*
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* Initialize UDP header.
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*/
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pkt_len = (uint16_t) (pkt_data_len + sizeof(struct rte_udp_hdr));
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udp_hdr->src_port = rte_cpu_to_be_16(tx_udp_src_port);
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udp_hdr->dst_port = rte_cpu_to_be_16(tx_udp_dst_port);
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udp_hdr->dgram_len = RTE_CPU_TO_BE_16(pkt_len);
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udp_hdr->dgram_cksum = 0; /* No UDP checksum. */
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/*
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* Initialize IP header.
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*/
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pkt_len = (uint16_t) (pkt_len + sizeof(struct rte_ipv4_hdr));
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ip_hdr->version_ihl = RTE_IPV4_VHL_DEF;
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ip_hdr->type_of_service = 0;
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ip_hdr->fragment_offset = 0;
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ip_hdr->time_to_live = IP_DEFTTL;
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ip_hdr->next_proto_id = IPPROTO_UDP;
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ip_hdr->packet_id = 0;
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ip_hdr->total_length = RTE_CPU_TO_BE_16(pkt_len);
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ip_hdr->src_addr = rte_cpu_to_be_32(tx_ip_src_addr);
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ip_hdr->dst_addr = rte_cpu_to_be_32(tx_ip_dst_addr);
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/*
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* Compute IP header checksum.
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*/
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ptr16 = (unaligned_uint16_t*) ip_hdr;
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ip_cksum = 0;
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ip_cksum += ptr16[0]; ip_cksum += ptr16[1];
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ip_cksum += ptr16[2]; ip_cksum += ptr16[3];
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ip_cksum += ptr16[4];
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ip_cksum += ptr16[6]; ip_cksum += ptr16[7];
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ip_cksum += ptr16[8]; ip_cksum += ptr16[9];
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/*
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* Reduce 32 bit checksum to 16 bits and complement it.
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*/
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ip_cksum = ((ip_cksum & 0xFFFF0000) >> 16) +
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(ip_cksum & 0x0000FFFF);
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if (ip_cksum > 65535)
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ip_cksum -= 65535;
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ip_cksum = (~ip_cksum) & 0x0000FFFF;
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if (ip_cksum == 0)
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ip_cksum = 0xFFFF;
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ip_hdr->hdr_checksum = (uint16_t) ip_cksum;
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}
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static inline bool
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pkt_burst_prepare(struct rte_mbuf *pkt, struct rte_mempool *mbp,
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struct rte_ether_hdr *eth_hdr, const uint16_t vlan_tci,
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const uint16_t vlan_tci_outer, const uint64_t ol_flags)
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{
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struct rte_mbuf *pkt_segs[RTE_MAX_SEGS_PER_PKT];
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uint8_t ip_var = RTE_PER_LCORE(_ip_var);
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struct rte_mbuf *pkt_seg;
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uint32_t nb_segs, pkt_len;
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uint8_t i;
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if (unlikely(tx_pkt_split == TX_PKT_SPLIT_RND))
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nb_segs = random() % tx_pkt_nb_segs + 1;
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else
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nb_segs = tx_pkt_nb_segs;
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if (nb_segs > 1) {
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if (rte_mempool_get_bulk(mbp, (void **)pkt_segs, nb_segs - 1))
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return false;
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}
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rte_pktmbuf_reset_headroom(pkt);
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pkt->data_len = tx_pkt_seg_lengths[0];
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pkt->ol_flags = ol_flags;
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pkt->vlan_tci = vlan_tci;
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pkt->vlan_tci_outer = vlan_tci_outer;
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pkt->l2_len = sizeof(struct rte_ether_hdr);
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pkt->l3_len = sizeof(struct rte_ipv4_hdr);
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pkt_len = pkt->data_len;
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pkt_seg = pkt;
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for (i = 1; i < nb_segs; i++) {
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pkt_seg->next = pkt_segs[i - 1];
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pkt_seg = pkt_seg->next;
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pkt_seg->data_len = tx_pkt_seg_lengths[i];
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pkt_len += pkt_seg->data_len;
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}
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pkt_seg->next = NULL; /* Last segment of packet. */
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/*
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* Copy headers in first packet segment(s).
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*/
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copy_buf_to_pkt(eth_hdr, sizeof(*eth_hdr), pkt, 0);
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copy_buf_to_pkt(&pkt_ip_hdr, sizeof(pkt_ip_hdr), pkt,
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sizeof(struct rte_ether_hdr));
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if (txonly_multi_flow) {
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struct rte_ipv4_hdr *ip_hdr;
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uint32_t addr;
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ip_hdr = rte_pktmbuf_mtod_offset(pkt,
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struct rte_ipv4_hdr *,
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sizeof(struct rte_ether_hdr));
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/*
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* Generate multiple flows by varying IP src addr. This
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* enables packets are well distributed by RSS in
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* receiver side if any and txonly mode can be a decent
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* packet generator for developer's quick performance
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* regression test.
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*/
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addr = (tx_ip_dst_addr | (ip_var++ << 8)) + rte_lcore_id();
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ip_hdr->src_addr = rte_cpu_to_be_32(addr);
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}
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copy_buf_to_pkt(&pkt_udp_hdr, sizeof(pkt_udp_hdr), pkt,
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sizeof(struct rte_ether_hdr) +
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sizeof(struct rte_ipv4_hdr));
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/*
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* Complete first mbuf of packet and append it to the
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* burst of packets to be transmitted.
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*/
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pkt->nb_segs = nb_segs;
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pkt->pkt_len = pkt_len;
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return true;
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}
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/*
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* Transmit a burst of multi-segments packets.
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*/
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static void
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pkt_burst_transmit(struct fwd_stream *fs)
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{
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struct rte_mbuf *pkts_burst[MAX_PKT_BURST];
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struct rte_port *txp;
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struct rte_mbuf *pkt;
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struct rte_mempool *mbp;
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struct rte_ether_hdr eth_hdr;
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uint16_t nb_tx;
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uint16_t nb_pkt;
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uint16_t vlan_tci, vlan_tci_outer;
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uint32_t retry;
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uint64_t ol_flags = 0;
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uint64_t tx_offloads;
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#ifdef RTE_TEST_PMD_RECORD_CORE_CYCLES
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uint64_t start_tsc;
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uint64_t end_tsc;
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uint64_t core_cycles;
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#endif
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#ifdef RTE_TEST_PMD_RECORD_CORE_CYCLES
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start_tsc = rte_rdtsc();
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#endif
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mbp = current_fwd_lcore()->mbp;
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txp = &ports[fs->tx_port];
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tx_offloads = txp->dev_conf.txmode.offloads;
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vlan_tci = txp->tx_vlan_id;
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vlan_tci_outer = txp->tx_vlan_id_outer;
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if (tx_offloads & DEV_TX_OFFLOAD_VLAN_INSERT)
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ol_flags = PKT_TX_VLAN_PKT;
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if (tx_offloads & DEV_TX_OFFLOAD_QINQ_INSERT)
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ol_flags |= PKT_TX_QINQ_PKT;
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if (tx_offloads & DEV_TX_OFFLOAD_MACSEC_INSERT)
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ol_flags |= PKT_TX_MACSEC;
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/*
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* Initialize Ethernet header.
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*/
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rte_ether_addr_copy(&peer_eth_addrs[fs->peer_addr], ð_hdr.d_addr);
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rte_ether_addr_copy(&ports[fs->tx_port].eth_addr, ð_hdr.s_addr);
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eth_hdr.ether_type = rte_cpu_to_be_16(RTE_ETHER_TYPE_IPV4);
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if (rte_mempool_get_bulk(mbp, (void **)pkts_burst,
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nb_pkt_per_burst) == 0) {
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for (nb_pkt = 0; nb_pkt < nb_pkt_per_burst; nb_pkt++) {
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if (unlikely(!pkt_burst_prepare(pkts_burst[nb_pkt], mbp,
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ð_hdr, vlan_tci,
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vlan_tci_outer,
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ol_flags))) {
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rte_mempool_put_bulk(mbp,
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(void **)&pkts_burst[nb_pkt],
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nb_pkt_per_burst - nb_pkt);
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break;
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}
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}
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} else {
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for (nb_pkt = 0; nb_pkt < nb_pkt_per_burst; nb_pkt++) {
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pkt = rte_mbuf_raw_alloc(mbp);
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if (pkt == NULL)
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break;
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if (unlikely(!pkt_burst_prepare(pkt, mbp, ð_hdr,
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vlan_tci,
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vlan_tci_outer,
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ol_flags))) {
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rte_pktmbuf_free(pkt);
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break;
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}
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pkts_burst[nb_pkt] = pkt;
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}
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}
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if (nb_pkt == 0)
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return;
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nb_tx = rte_eth_tx_burst(fs->tx_port, fs->tx_queue, pkts_burst, nb_pkt);
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/*
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* Retry if necessary
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*/
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if (unlikely(nb_tx < nb_pkt) && fs->retry_enabled) {
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retry = 0;
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while (nb_tx < nb_pkt && retry++ < burst_tx_retry_num) {
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rte_delay_us(burst_tx_delay_time);
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nb_tx += rte_eth_tx_burst(fs->tx_port, fs->tx_queue,
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&pkts_burst[nb_tx], nb_pkt - nb_tx);
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}
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}
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fs->tx_packets += nb_tx;
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if (txonly_multi_flow)
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RTE_PER_LCORE(_ip_var) += nb_tx;
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#ifdef RTE_TEST_PMD_RECORD_BURST_STATS
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fs->tx_burst_stats.pkt_burst_spread[nb_tx]++;
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#endif
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if (unlikely(nb_tx < nb_pkt)) {
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if (verbose_level > 0 && fs->fwd_dropped == 0)
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printf("port %d tx_queue %d - drop "
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"(nb_pkt:%u - nb_tx:%u)=%u packets\n",
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fs->tx_port, fs->tx_queue,
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(unsigned) nb_pkt, (unsigned) nb_tx,
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(unsigned) (nb_pkt - nb_tx));
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fs->fwd_dropped += (nb_pkt - nb_tx);
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do {
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rte_pktmbuf_free(pkts_burst[nb_tx]);
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} while (++nb_tx < nb_pkt);
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}
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#ifdef RTE_TEST_PMD_RECORD_CORE_CYCLES
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end_tsc = rte_rdtsc();
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core_cycles = (end_tsc - start_tsc);
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fs->core_cycles = (uint64_t) (fs->core_cycles + core_cycles);
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#endif
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}
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static void
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tx_only_begin(__attribute__((unused)) portid_t pi)
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{
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uint16_t pkt_data_len;
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pkt_data_len = (uint16_t) (tx_pkt_length - (
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sizeof(struct rte_ether_hdr) +
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sizeof(struct rte_ipv4_hdr) +
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sizeof(struct rte_udp_hdr)));
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setup_pkt_udp_ip_headers(&pkt_ip_hdr, &pkt_udp_hdr, pkt_data_len);
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}
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struct fwd_engine tx_only_engine = {
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.fwd_mode_name = "txonly",
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.port_fwd_begin = tx_only_begin,
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.port_fwd_end = NULL,
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.packet_fwd = pkt_burst_transmit,
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};
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