cb12e988f3
Rx vector implementation depends on the mbuf fields (such as rearm_data/rx_descriptor_fields1) layout, this patch adds compile-time verification for this. Signed-off-by: Chengwen Feng <fengchengwen@huawei.com> Signed-off-by: Min Hu (Connor) <humin29@huawei.com>
303 lines
9.1 KiB
C
303 lines
9.1 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2020-2021 HiSilicon Limited.
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*/
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#ifndef _HNS3_RXTX_VEC_NEON_H_
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#define _HNS3_RXTX_VEC_NEON_H_
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#include <arm_neon.h>
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#pragma GCC diagnostic ignored "-Wcast-qual"
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static inline void
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hns3_vec_tx(volatile struct hns3_desc *desc, struct rte_mbuf *pkt)
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{
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uint64x2_t val1 = {
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pkt->buf_iova + pkt->data_off,
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((uint64_t)pkt->data_len) << HNS3_TXD_SEND_SIZE_SHIFT
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};
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uint64x2_t val2 = {
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0,
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((uint64_t)HNS3_TXD_DEFAULT_VLD_FE_BDTYPE) << HNS3_UINT32_BIT
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};
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vst1q_u64((uint64_t *)&desc->addr, val1);
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vst1q_u64((uint64_t *)&desc->tx.outer_vlan_tag, val2);
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}
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static uint16_t
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hns3_xmit_fixed_burst_vec(void *__restrict tx_queue,
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struct rte_mbuf **__restrict tx_pkts,
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uint16_t nb_pkts)
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{
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struct hns3_tx_queue *txq = (struct hns3_tx_queue *)tx_queue;
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volatile struct hns3_desc *tx_desc;
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struct hns3_entry *tx_entry;
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uint16_t next_to_use;
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uint16_t nb_commit;
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uint16_t nb_tx;
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uint16_t n, i;
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if (txq->tx_bd_ready < txq->tx_free_thresh)
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hns3_tx_free_buffers(txq);
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nb_commit = RTE_MIN(txq->tx_bd_ready, nb_pkts);
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if (unlikely(nb_commit == 0)) {
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txq->dfx_stats.queue_full_cnt++;
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return 0;
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}
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nb_tx = nb_commit;
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next_to_use = txq->next_to_use;
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tx_desc = &txq->tx_ring[next_to_use];
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tx_entry = &txq->sw_ring[next_to_use];
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/*
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* We need to deal with n descriptors first for better performance,
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* if nb_commit is greater than the difference between txq->nb_tx_desc
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* and next_to_use in sw_ring and tx_ring.
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*/
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n = txq->nb_tx_desc - next_to_use;
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if (nb_commit >= n) {
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for (i = 0; i < n; i++, tx_pkts++, tx_desc++) {
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hns3_vec_tx(tx_desc, *tx_pkts);
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tx_entry[i].mbuf = *tx_pkts;
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/* Increment bytes counter */
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txq->basic_stats.bytes += (*tx_pkts)->pkt_len;
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}
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nb_commit -= n;
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next_to_use = 0;
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tx_desc = &txq->tx_ring[next_to_use];
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tx_entry = &txq->sw_ring[next_to_use];
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}
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for (i = 0; i < nb_commit; i++, tx_pkts++, tx_desc++) {
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hns3_vec_tx(tx_desc, *tx_pkts);
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tx_entry[i].mbuf = *tx_pkts;
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/* Increment bytes counter */
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txq->basic_stats.bytes += (*tx_pkts)->pkt_len;
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}
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next_to_use += nb_commit;
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txq->next_to_use = next_to_use;
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txq->tx_bd_ready -= nb_tx;
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hns3_write_reg_opt(txq->io_tail_reg, nb_tx);
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return nb_tx;
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}
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static inline uint32_t
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hns3_desc_parse_field(struct hns3_rx_queue *rxq,
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struct hns3_entry *sw_ring,
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struct hns3_desc *rxdp,
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uint32_t bd_vld_num)
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{
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uint32_t l234_info, ol_info, bd_base_info;
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struct rte_mbuf *pkt;
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uint32_t retcode = 0;
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uint32_t i;
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int ret;
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for (i = 0; i < bd_vld_num; i++) {
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pkt = sw_ring[i].mbuf;
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/* init rte_mbuf.rearm_data last 64-bit */
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pkt->ol_flags = PKT_RX_RSS_HASH;
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l234_info = rxdp[i].rx.l234_info;
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ol_info = rxdp[i].rx.ol_info;
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bd_base_info = rxdp[i].rx.bd_base_info;
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ret = hns3_handle_bdinfo(rxq, pkt, bd_base_info, l234_info);
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if (unlikely(ret)) {
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retcode |= 1u << i;
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continue;
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}
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pkt->packet_type = hns3_rx_calc_ptype(rxq, l234_info, ol_info);
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/* Increment bytes counter */
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rxq->basic_stats.bytes += pkt->pkt_len;
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}
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return retcode;
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}
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static inline uint16_t
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hns3_recv_burst_vec(struct hns3_rx_queue *__restrict rxq,
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struct rte_mbuf **__restrict rx_pkts,
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uint16_t nb_pkts,
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uint64_t *bd_err_mask)
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{
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uint16_t rx_id = rxq->next_to_use;
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struct hns3_entry *sw_ring = &rxq->sw_ring[rx_id];
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struct hns3_desc *rxdp = &rxq->rx_ring[rx_id];
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uint32_t bd_valid_num, parse_retcode;
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uint16_t nb_rx = 0;
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uint32_t pos;
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int offset;
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/* mask to shuffle from desc to mbuf's rx_descriptor_fields1 */
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uint8x16_t shuf_desc_fields_msk = {
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0xff, 0xff, 0xff, 0xff, /* packet type init zero */
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22, 23, 0xff, 0xff, /* rx.pkt_len to rte_mbuf.pkt_len */
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20, 21, /* size to rte_mbuf.data_len */
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0xff, 0xff, /* rte_mbuf.vlan_tci init zero */
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8, 9, 10, 11, /* rx.rss_hash to rte_mbuf.hash.rss */
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};
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uint16x8_t crc_adjust = {
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0, 0, /* ignore pkt_type field */
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rxq->crc_len, /* sub crc on pkt_len */
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0, /* ignore high-16bits of pkt_len */
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rxq->crc_len, /* sub crc on data_len */
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0, 0, 0, /* ignore non-length fields */
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};
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/* compile-time verifies the shuffle mask */
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RTE_BUILD_BUG_ON(offsetof(struct rte_mbuf, pkt_len) !=
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offsetof(struct rte_mbuf, rx_descriptor_fields1) + 4);
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RTE_BUILD_BUG_ON(offsetof(struct rte_mbuf, data_len) !=
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offsetof(struct rte_mbuf, rx_descriptor_fields1) + 8);
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RTE_BUILD_BUG_ON(offsetof(struct rte_mbuf, hash.rss) !=
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offsetof(struct rte_mbuf, rx_descriptor_fields1) + 12);
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for (pos = 0; pos < nb_pkts; pos += HNS3_DEFAULT_DESCS_PER_LOOP,
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rxdp += HNS3_DEFAULT_DESCS_PER_LOOP) {
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uint64x2x2_t descs[HNS3_DEFAULT_DESCS_PER_LOOP];
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uint8x16x2_t pkt_mbuf1, pkt_mbuf2, pkt_mbuf3, pkt_mbuf4;
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uint8x16_t pkt_mb1, pkt_mb2, pkt_mb3, pkt_mb4;
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uint64x2_t mbp1, mbp2;
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uint16x4_t bd_vld = {0};
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uint16x8_t tmp;
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uint64_t stat;
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/* calc how many bd valid */
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bd_vld = vset_lane_u16(rxdp[0].rx.bdtype_vld_udp0, bd_vld, 0);
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bd_vld = vset_lane_u16(rxdp[1].rx.bdtype_vld_udp0, bd_vld, 1);
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bd_vld = vset_lane_u16(rxdp[2].rx.bdtype_vld_udp0, bd_vld, 2);
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bd_vld = vset_lane_u16(rxdp[3].rx.bdtype_vld_udp0, bd_vld, 3);
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/* load 2 mbuf pointer */
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mbp1 = vld1q_u64((uint64_t *)&sw_ring[pos]);
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bd_vld = vshl_n_u16(bd_vld,
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HNS3_UINT16_BIT - 1 - HNS3_RXD_VLD_B);
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bd_vld = vreinterpret_u16_s16(
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vshr_n_s16(vreinterpret_s16_u16(bd_vld),
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HNS3_UINT16_BIT - 1));
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stat = ~vget_lane_u64(vreinterpret_u64_u16(bd_vld), 0);
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/* load 2 mbuf pointer again */
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mbp2 = vld1q_u64((uint64_t *)&sw_ring[pos + 2]);
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if (likely(stat == 0))
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bd_valid_num = HNS3_DEFAULT_DESCS_PER_LOOP;
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else
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bd_valid_num = __builtin_ctzl(stat) / HNS3_UINT16_BIT;
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if (bd_valid_num == 0)
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break;
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/* use offset to control below data load oper ordering */
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offset = rxq->offset_table[bd_valid_num];
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/* store 2 mbuf pointer into rx_pkts */
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vst1q_u64((uint64_t *)&rx_pkts[pos], mbp1);
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/* read first two descs */
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descs[0] = vld2q_u64((uint64_t *)(rxdp + offset));
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descs[1] = vld2q_u64((uint64_t *)(rxdp + offset + 1));
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/* store 2 mbuf pointer into rx_pkts again */
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vst1q_u64((uint64_t *)&rx_pkts[pos + 2], mbp2);
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/* read remains two descs */
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descs[2] = vld2q_u64((uint64_t *)(rxdp + offset + 2));
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descs[3] = vld2q_u64((uint64_t *)(rxdp + offset + 3));
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pkt_mbuf1.val[0] = vreinterpretq_u8_u64(descs[0].val[0]);
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pkt_mbuf1.val[1] = vreinterpretq_u8_u64(descs[0].val[1]);
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pkt_mbuf2.val[0] = vreinterpretq_u8_u64(descs[1].val[0]);
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pkt_mbuf2.val[1] = vreinterpretq_u8_u64(descs[1].val[1]);
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/* pkt 1,2 convert format from desc to pktmbuf */
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pkt_mb1 = vqtbl2q_u8(pkt_mbuf1, shuf_desc_fields_msk);
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pkt_mb2 = vqtbl2q_u8(pkt_mbuf2, shuf_desc_fields_msk);
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/* store the first 8 bytes of pkt 1,2 mbuf's rearm_data */
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*(uint64_t *)&sw_ring[pos + 0].mbuf->rearm_data =
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rxq->mbuf_initializer;
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*(uint64_t *)&sw_ring[pos + 1].mbuf->rearm_data =
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rxq->mbuf_initializer;
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/* pkt 1,2 remove crc */
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tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb1), crc_adjust);
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pkt_mb1 = vreinterpretq_u8_u16(tmp);
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tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb2), crc_adjust);
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pkt_mb2 = vreinterpretq_u8_u16(tmp);
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pkt_mbuf3.val[0] = vreinterpretq_u8_u64(descs[2].val[0]);
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pkt_mbuf3.val[1] = vreinterpretq_u8_u64(descs[2].val[1]);
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pkt_mbuf4.val[0] = vreinterpretq_u8_u64(descs[3].val[0]);
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pkt_mbuf4.val[1] = vreinterpretq_u8_u64(descs[3].val[1]);
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/* pkt 3,4 convert format from desc to pktmbuf */
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pkt_mb3 = vqtbl2q_u8(pkt_mbuf3, shuf_desc_fields_msk);
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pkt_mb4 = vqtbl2q_u8(pkt_mbuf4, shuf_desc_fields_msk);
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/* pkt 1,2 save to rx_pkts mbuf */
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vst1q_u8((void *)&sw_ring[pos + 0].mbuf->rx_descriptor_fields1,
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pkt_mb1);
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vst1q_u8((void *)&sw_ring[pos + 1].mbuf->rx_descriptor_fields1,
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pkt_mb2);
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/* pkt 3,4 remove crc */
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tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb3), crc_adjust);
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pkt_mb3 = vreinterpretq_u8_u16(tmp);
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tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb4), crc_adjust);
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pkt_mb4 = vreinterpretq_u8_u16(tmp);
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/* store the first 8 bytes of pkt 3,4 mbuf's rearm_data */
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*(uint64_t *)&sw_ring[pos + 2].mbuf->rearm_data =
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rxq->mbuf_initializer;
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*(uint64_t *)&sw_ring[pos + 3].mbuf->rearm_data =
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rxq->mbuf_initializer;
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/* pkt 3,4 save to rx_pkts mbuf */
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vst1q_u8((void *)&sw_ring[pos + 2].mbuf->rx_descriptor_fields1,
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pkt_mb3);
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vst1q_u8((void *)&sw_ring[pos + 3].mbuf->rx_descriptor_fields1,
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pkt_mb4);
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rte_prefetch_non_temporal(rxdp + HNS3_DEFAULT_DESCS_PER_LOOP);
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parse_retcode = hns3_desc_parse_field(rxq, &sw_ring[pos],
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&rxdp[offset], bd_valid_num);
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if (unlikely(parse_retcode))
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(*bd_err_mask) |= ((uint64_t)parse_retcode) << pos;
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rte_prefetch0(sw_ring[pos +
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HNS3_DEFAULT_DESCS_PER_LOOP + 0].mbuf);
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rte_prefetch0(sw_ring[pos +
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HNS3_DEFAULT_DESCS_PER_LOOP + 1].mbuf);
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rte_prefetch0(sw_ring[pos +
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HNS3_DEFAULT_DESCS_PER_LOOP + 2].mbuf);
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rte_prefetch0(sw_ring[pos +
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HNS3_DEFAULT_DESCS_PER_LOOP + 3].mbuf);
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nb_rx += bd_valid_num;
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if (bd_valid_num < HNS3_DEFAULT_DESCS_PER_LOOP)
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break;
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}
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rxq->rx_rearm_nb += nb_rx;
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rxq->next_to_use += nb_rx;
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if (rxq->next_to_use >= rxq->nb_rx_desc)
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rxq->next_to_use = 0;
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return nb_rx;
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}
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#endif /* _HNS3_RXTX_VEC_NEON_H_ */
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