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Signed-off-by: Yongseok Koh Acked-by: Nelio Laranjeiro --- drivers/net/mlx5/Makefile | 3 +- drivers/net/mlx5/mlx5_rxtx_vec.c | 4 +- drivers/net/mlx5/mlx5_rxtx_vec.h | 4 + drivers/net/mlx5/mlx5_rxtx_vec_neon.h | 1028 +++++++++++++++++++++++++++++++++ 4 files changed, 1037 insertions(+), 2 deletions(-) create mode 100644 drivers/net/mlx5/mlx5_rxtx_vec_neon.h diff --git a/drivers/net/mlx5/Makefile b/drivers/net/mlx5/Makefile index a7c7a6c51..7765e6088 100644 --- a/drivers/net/mlx5/Makefile +++ b/drivers/net/mlx5/Makefile @@ -39,7 +39,8 @@ SRCS-$(CONFIG_RTE_LIBRTE_MLX5_PMD) += mlx5.c SRCS-$(CONFIG_RTE_LIBRTE_MLX5_PMD) += mlx5_rxq.c SRCS-$(CONFIG_RTE_LIBRTE_MLX5_PMD) += mlx5_txq.c SRCS-$(CONFIG_RTE_LIBRTE_MLX5_PMD) += mlx5_rxtx.c -ifeq ($(CONFIG_RTE_ARCH_X86_64),y) +ifneq ($(filter y,$(CONFIG_RTE_ARCH_X86_64) \ + $(CONFIG_RTE_ARCH_ARM64)),) SRCS-$(CONFIG_RTE_LIBRTE_MLX5_PMD) += mlx5_rxtx_vec.c endif SRCS-$(CONFIG_RTE_LIBRTE_MLX5_PMD) += mlx5_trigger.c diff --git a/drivers/net/mlx5/mlx5_rxtx_vec.c b/drivers/net/mlx5/mlx5_rxtx_vec.c index edc663815..ba6c8cefd 100644 --- a/drivers/net/mlx5/mlx5_rxtx_vec.c +++ b/drivers/net/mlx5/mlx5_rxtx_vec.c @@ -59,8 +59,10 @@ #include "mlx5_defs.h" #include "mlx5_prm.h" -#ifdef RTE_ARCH_X86_64 +#if defined RTE_ARCH_X86_64 #include "mlx5_rxtx_vec_sse.h" +#elif defined RTE_ARCH_ARM64 +#include "mlx5_rxtx_vec_neon.h" #else #error "This should not be compiled if SIMD instructions are not supported." #endif diff --git a/drivers/net/mlx5/mlx5_rxtx_vec.h b/drivers/net/mlx5/mlx5_rxtx_vec.h index 9656fb76e..426169037 100644 --- a/drivers/net/mlx5/mlx5_rxtx_vec.h +++ b/drivers/net/mlx5/mlx5_rxtx_vec.h @@ -68,7 +68,11 @@ S_ASSERT_RTE_MBUF(offsetof(struct rte_mbuf, pkt_len) == offsetof(struct rte_mbuf, rx_descriptor_fields1) + 4); S_ASSERT_RTE_MBUF(offsetof(struct rte_mbuf, data_len) == offsetof(struct rte_mbuf, rx_descriptor_fields1) + 8); +#if (RTE_CACHE_LINE_SIZE == 128) +S_ASSERT_MLX5_CQE(offsetof(struct mlx5_cqe, pkt_info) == 64); +#else S_ASSERT_MLX5_CQE(offsetof(struct mlx5_cqe, pkt_info) == 0); +#endif S_ASSERT_MLX5_CQE(offsetof(struct mlx5_cqe, rx_hash_res) == offsetof(struct mlx5_cqe, pkt_info) + 12); S_ASSERT_MLX5_CQE(offsetof(struct mlx5_cqe, rsvd1) + diff --git a/drivers/net/mlx5/mlx5_rxtx_vec_neon.h b/drivers/net/mlx5/mlx5_rxtx_vec_neon.h new file mode 100644 index 000000000..6dd18b619 --- /dev/null +++ b/drivers/net/mlx5/mlx5_rxtx_vec_neon.h @@ -0,0 +1,1028 @@ +/*- + * BSD LICENSE + * + * Copyright 2017 6WIND S.A. + * Copyright 2017 Mellanox. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * * Neither the name of 6WIND S.A. nor the names of its + * contributors may be used to endorse or promote products derived + * from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef RTE_PMD_MLX5_RXTX_VEC_NEON_H_ +#define RTE_PMD_MLX5_RXTX_VEC_NEON_H_ + +#include +#include +#include +#include +#include + +#include +#include +#include + +#include "mlx5.h" +#include "mlx5_utils.h" +#include "mlx5_rxtx.h" +#include "mlx5_rxtx_vec.h" +#include "mlx5_autoconf.h" +#include "mlx5_defs.h" +#include "mlx5_prm.h" + +#pragma GCC diagnostic ignored "-Wcast-qual" + +/** + * Fill in buffer descriptors in a multi-packet send descriptor. + * + * @param txq + * Pointer to TX queue structure. + * @param dseg + * Pointer to buffer descriptor to be writen. + * @param pkts + * Pointer to array of packets to be sent. + * @param n + * Number of packets to be filled. + */ +static inline void +txq_wr_dseg_v(struct mlx5_txq_data *txq, uint8_t *dseg, + struct rte_mbuf **pkts, unsigned int n) +{ + unsigned int pos; + uintptr_t addr; + const uint8x16_t dseg_shuf_m = { + 3, 2, 1, 0, /* length, bswap32 */ + 4, 5, 6, 7, /* lkey */ + 15, 14, 13, 12, /* addr, bswap64 */ + 11, 10, 9, 8 + }; +#ifdef MLX5_PMD_SOFT_COUNTERS + uint32_t tx_byte = 0; +#endif + + for (pos = 0; pos < n; ++pos, dseg += MLX5_WQE_DWORD_SIZE) { + uint8x16_t desc; + struct rte_mbuf *pkt = pkts[pos]; + + addr = rte_pktmbuf_mtod(pkt, uintptr_t); + desc = vreinterpretq_u8_u32((uint32x4_t) { + DATA_LEN(pkt), + mlx5_tx_mb2mr(txq, pkt), + addr, + addr >> 32 }); + desc = vqtbl1q_u8(desc, dseg_shuf_m); + vst1q_u8(dseg, desc); +#ifdef MLX5_PMD_SOFT_COUNTERS + tx_byte += DATA_LEN(pkt); +#endif + } +#ifdef MLX5_PMD_SOFT_COUNTERS + txq->stats.obytes += tx_byte; +#endif +} + +/** + * Send multi-segmented packets until it encounters a single segment packet in + * the pkts list. + * + * @param txq + * Pointer to TX queue structure. + * @param pkts + * Pointer to array of packets to be sent. + * @param pkts_n + * Number of packets to be sent. + * + * @return + * Number of packets successfully transmitted (<= pkts_n). + */ +static uint16_t +txq_scatter_v(struct mlx5_txq_data *txq, struct rte_mbuf **pkts, + uint16_t pkts_n) +{ + uint16_t elts_head = txq->elts_head; + const uint16_t elts_n = 1 << txq->elts_n; + const uint16_t elts_m = elts_n - 1; + const uint16_t wq_n = 1 << txq->wqe_n; + const uint16_t wq_mask = wq_n - 1; + const unsigned int nb_dword_per_wqebb = + MLX5_WQE_SIZE / MLX5_WQE_DWORD_SIZE; + const unsigned int nb_dword_in_hdr = + sizeof(struct mlx5_wqe) / MLX5_WQE_DWORD_SIZE; + unsigned int n; + volatile struct mlx5_wqe *wqe = NULL; + + assert(elts_n > pkts_n); + mlx5_tx_complete(txq); + if (unlikely(!pkts_n)) + return 0; + for (n = 0; n < pkts_n; ++n) { + struct rte_mbuf *buf = pkts[n]; + unsigned int segs_n = buf->nb_segs; + unsigned int ds = nb_dword_in_hdr; + unsigned int len = PKT_LEN(buf); + uint16_t wqe_ci = txq->wqe_ci; + const uint8x16_t ctrl_shuf_m = { + 3, 2, 1, 0, /* bswap32 */ + 7, 6, 5, 4, /* bswap32 */ + 11, 10, 9, 8, /* bswap32 */ + 12, 13, 14, 15 + }; + uint8_t cs_flags = 0; + uint16_t max_elts; + uint16_t max_wqe; + uint8x16_t *t_wqe; + uint8_t *dseg; + uint8x16_t ctrl; + + assert(segs_n); + max_elts = elts_n - (elts_head - txq->elts_tail); + max_wqe = wq_n - (txq->wqe_ci - txq->wqe_pi); + /* + * A MPW session consumes 2 WQEs at most to + * include MLX5_MPW_DSEG_MAX pointers. + */ + if (segs_n == 1 || + max_elts < segs_n || max_wqe < 2) + break; + wqe = &((volatile struct mlx5_wqe64 *) + txq->wqes)[wqe_ci & wq_mask].hdr; + if (buf->ol_flags & + (PKT_TX_IP_CKSUM | PKT_TX_TCP_CKSUM | PKT_TX_UDP_CKSUM)) { + const uint64_t is_tunneled = + buf->ol_flags & (PKT_TX_TUNNEL_GRE | + PKT_TX_TUNNEL_VXLAN); + + if (is_tunneled && txq->tunnel_en) { + cs_flags = MLX5_ETH_WQE_L3_INNER_CSUM | + MLX5_ETH_WQE_L4_INNER_CSUM; + if (buf->ol_flags & PKT_TX_OUTER_IP_CKSUM) + cs_flags |= MLX5_ETH_WQE_L3_CSUM; + } else { + cs_flags = MLX5_ETH_WQE_L3_CSUM | + MLX5_ETH_WQE_L4_CSUM; + } + } + /* Title WQEBB pointer. */ + t_wqe = (uint8x16_t *)wqe; + dseg = (uint8_t *)(wqe + 1); + do { + if (!(ds++ % nb_dword_per_wqebb)) { + dseg = (uint8_t *) + &((volatile struct mlx5_wqe64 *) + txq->wqes)[++wqe_ci & wq_mask]; + } + txq_wr_dseg_v(txq, dseg, &buf, 1); + dseg += MLX5_WQE_DWORD_SIZE; + (*txq->elts)[elts_head++ & elts_m] = buf; + buf = buf->next; + } while (--segs_n); + ++wqe_ci; + /* Fill CTRL in the header. */ + ctrl = vreinterpretq_u8_u32((uint32x4_t) { + MLX5_OPC_MOD_MPW << 24 | + txq->wqe_ci << 8 | MLX5_OPCODE_TSO, + txq->qp_num_8s | ds, 0, 0}); + ctrl = vqtbl1q_u8(ctrl, ctrl_shuf_m); + vst1q_u8((void *)t_wqe, ctrl); + /* Fill ESEG in the header. */ + vst1q_u16((void *)(t_wqe + 1), + (uint16x8_t) { 0, 0, cs_flags, rte_cpu_to_be_16(len), + 0, 0, 0, 0 }); + txq->wqe_ci = wqe_ci; + } + if (!n) + return 0; + txq->elts_comp += (uint16_t)(elts_head - txq->elts_head); + txq->elts_head = elts_head; + if (txq->elts_comp >= MLX5_TX_COMP_THRESH) { + wqe->ctrl[2] = rte_cpu_to_be_32(8); + wqe->ctrl[3] = txq->elts_head; + txq->elts_comp = 0; + ++txq->cq_pi; + } +#ifdef MLX5_PMD_SOFT_COUNTERS + txq->stats.opackets += n; +#endif + mlx5_tx_dbrec(txq, wqe); + return n; +} + +/** + * Send burst of packets with Enhanced MPW. If it encounters a multi-seg packet, + * it returns to make it processed by txq_scatter_v(). All the packets in + * the pkts list should be single segment packets having same offload flags. + * This must be checked by txq_check_multiseg() and txq_calc_offload(). + * + * @param txq + * Pointer to TX queue structure. + * @param pkts + * Pointer to array of packets to be sent. + * @param pkts_n + * Number of packets to be sent (<= MLX5_VPMD_TX_MAX_BURST). + * @param cs_flags + * Checksum offload flags to be written in the descriptor. + * + * @return + * Number of packets successfully transmitted (<= pkts_n). + */ +static inline uint16_t +txq_burst_v(struct mlx5_txq_data *txq, struct rte_mbuf **pkts, uint16_t pkts_n, + uint8_t cs_flags) +{ + struct rte_mbuf **elts; + uint16_t elts_head = txq->elts_head; + const uint16_t elts_n = 1 << txq->elts_n; + const uint16_t elts_m = elts_n - 1; + const unsigned int nb_dword_per_wqebb = + MLX5_WQE_SIZE / MLX5_WQE_DWORD_SIZE; + const unsigned int nb_dword_in_hdr = + sizeof(struct mlx5_wqe) / MLX5_WQE_DWORD_SIZE; + unsigned int n = 0; + unsigned int pos; + uint16_t max_elts; + uint16_t max_wqe; + uint32_t comp_req = 0; + const uint16_t wq_n = 1 << txq->wqe_n; + const uint16_t wq_mask = wq_n - 1; + uint16_t wq_idx = txq->wqe_ci & wq_mask; + volatile struct mlx5_wqe64 *wq = + &((volatile struct mlx5_wqe64 *)txq->wqes)[wq_idx]; + volatile struct mlx5_wqe *wqe = (volatile struct mlx5_wqe *)wq; + const uint8x16_t ctrl_shuf_m = { + 3, 2, 1, 0, /* bswap32 */ + 7, 6, 5, 4, /* bswap32 */ + 11, 10, 9, 8, /* bswap32 */ + 12, 13, 14, 15 + }; + uint8x16_t *t_wqe; + uint8_t *dseg; + uint8x16_t ctrl; + + /* Make sure all packets can fit into a single WQE. */ + assert(elts_n > pkts_n); + mlx5_tx_complete(txq); + max_elts = (elts_n - (elts_head - txq->elts_tail)); + max_wqe = (1u << txq->wqe_n) - (txq->wqe_ci - txq->wqe_pi); + pkts_n = RTE_MIN((unsigned int)RTE_MIN(pkts_n, max_wqe), max_elts); + if (unlikely(!pkts_n)) + return 0; + elts = &(*txq->elts)[elts_head & elts_m]; + /* Loop for available tailroom first. */ + n = RTE_MIN(elts_n - (elts_head & elts_m), pkts_n); + for (pos = 0; pos < (n & -2); pos += 2) + vst1q_u64((void *)&elts[pos], vld1q_u64((void *)&pkts[pos])); + if (n & 1) + elts[pos] = pkts[pos]; + /* Check if it crosses the end of the queue. */ + if (unlikely(n < pkts_n)) { + elts = &(*txq->elts)[0]; + for (pos = 0; pos < pkts_n - n; ++pos) + elts[pos] = pkts[n + pos]; + } + txq->elts_head += pkts_n; + /* Save title WQEBB pointer. */ + t_wqe = (uint8x16_t *)wqe; + dseg = (uint8_t *)(wqe + 1); + /* Calculate the number of entries to the end. */ + n = RTE_MIN( + (wq_n - wq_idx) * nb_dword_per_wqebb - nb_dword_in_hdr, + pkts_n); + /* Fill DSEGs. */ + txq_wr_dseg_v(txq, dseg, pkts, n); + /* Check if it crosses the end of the queue. */ + if (n < pkts_n) { + dseg = (uint8_t *)txq->wqes; + txq_wr_dseg_v(txq, dseg, &pkts[n], pkts_n - n); + } + if (txq->elts_comp + pkts_n < MLX5_TX_COMP_THRESH) { + txq->elts_comp += pkts_n; + } else { + /* Request a completion. */ + txq->elts_comp = 0; + ++txq->cq_pi; + comp_req = 8; + } + /* Fill CTRL in the header. */ + ctrl = vreinterpretq_u8_u32((uint32x4_t) { + MLX5_OPC_MOD_ENHANCED_MPSW << 24 | + txq->wqe_ci << 8 | MLX5_OPCODE_ENHANCED_MPSW, + txq->qp_num_8s | (pkts_n + 2), + comp_req, + txq->elts_head }); + ctrl = vqtbl1q_u8(ctrl, ctrl_shuf_m); + vst1q_u8((void *)t_wqe, ctrl); + /* Fill ESEG in the header. */ + vst1q_u8((void *)(t_wqe + 1), + (uint8x16_t) { 0, 0, 0, 0, + cs_flags, 0, 0, 0, + 0, 0, 0, 0, + 0, 0, 0, 0 }); +#ifdef MLX5_PMD_SOFT_COUNTERS + txq->stats.opackets += pkts_n; +#endif + txq->wqe_ci += (nb_dword_in_hdr + pkts_n + (nb_dword_per_wqebb - 1)) / + nb_dword_per_wqebb; + /* Ring QP doorbell. */ + mlx5_tx_dbrec(txq, wqe); + return pkts_n; +} + +/** + * Store free buffers to RX SW ring. + * + * @param rxq + * Pointer to RX queue structure. + * @param pkts + * Pointer to array of packets to be stored. + * @param pkts_n + * Number of packets to be stored. + */ +static inline void +rxq_copy_mbuf_v(struct mlx5_rxq_data *rxq, struct rte_mbuf **pkts, uint16_t n) +{ + const uint16_t q_mask = (1 << rxq->elts_n) - 1; + struct rte_mbuf **elts = &(*rxq->elts)[rxq->rq_pi & q_mask]; + unsigned int pos; + uint16_t p = n & -2; + + for (pos = 0; pos < p; pos += 2) { + uint64x2_t mbp; + + mbp = vld1q_u64((void *)&elts[pos]); + vst1q_u64((void *)&pkts[pos], mbp); + } + if (n & 1) + pkts[pos] = elts[pos]; +} + +/** + * Decompress a compressed completion and fill in mbufs in RX SW ring with data + * extracted from the title completion descriptor. + * + * @param rxq + * Pointer to RX queue structure. + * @param cq + * Pointer to completion array having a compressed completion at first. + * @param elts + * Pointer to SW ring to be filled. The first mbuf has to be pre-built from + * the title completion descriptor to be copied to the rest of mbufs. + */ +static inline void +rxq_cq_decompress_v(struct mlx5_rxq_data *rxq, volatile struct mlx5_cqe *cq, + struct rte_mbuf **elts) +{ + volatile struct mlx5_mini_cqe8 *mcq = (void *)&(cq + 1)->pkt_info; + struct rte_mbuf *t_pkt = elts[0]; /* Title packet is pre-built. */ + unsigned int pos; + unsigned int i; + unsigned int inv = 0; + /* Mask to shuffle from extracted mini CQE to mbuf. */ + const uint8x16_t mcqe_shuf_m1 = { + -1, -1, -1, -1, /* skip packet_type */ + 7, 6, -1, -1, /* pkt_len, bswap16 */ + 7, 6, /* data_len, bswap16 */ + -1, -1, /* skip vlan_tci */ + 3, 2, 1, 0 /* hash.rss, bswap32 */ + }; + const uint8x16_t mcqe_shuf_m2 = { + -1, -1, -1, -1, /* skip packet_type */ + 15, 14, -1, -1, /* pkt_len, bswap16 */ + 15, 14, /* data_len, bswap16 */ + -1, -1, /* skip vlan_tci */ + 11, 10, 9, 8 /* hash.rss, bswap32 */ + }; + /* Restore the compressed count. Must be 16 bits. */ + const uint16_t mcqe_n = t_pkt->data_len + + (rxq->crc_present * ETHER_CRC_LEN); + const uint64x2_t rearm = + vld1q_u64((void *)&t_pkt->rearm_data); + const uint32x4_t rxdf_mask = { + 0xffffffff, /* packet_type */ + 0, /* skip pkt_len */ + 0xffff0000, /* vlan_tci, skip data_len */ + 0, /* skip hash.rss */ + }; + const uint8x16_t rxdf = + vandq_u8(vld1q_u8((void *)&t_pkt->rx_descriptor_fields1), + vreinterpretq_u8_u32(rxdf_mask)); + const uint16x8_t crc_adj = { + 0, 0, + rxq->crc_present * ETHER_CRC_LEN, 0, + rxq->crc_present * ETHER_CRC_LEN, 0, + 0, 0 + }; + const uint32_t flow_tag = t_pkt->hash.fdir.hi; +#ifdef MLX5_PMD_SOFT_COUNTERS + uint32_t rcvd_byte = 0; +#endif + /* Mask to shuffle byte_cnt to add up stats. Do bswap16 for all. */ + const uint8x8_t len_shuf_m = { + 7, 6, /* 1st mCQE */ + 15, 14, /* 2nd mCQE */ + 23, 22, /* 3rd mCQE */ + 31, 30 /* 4th mCQE */ + }; + + /* + * Not to overflow elts array. Decompress next time after mbuf + * replenishment. + */ + if (unlikely(mcqe_n + MLX5_VPMD_DESCS_PER_LOOP > + (uint16_t)(rxq->rq_ci - rxq->cq_ci))) + return; + /* + * A. load mCQEs into a 128bit register. + * B. store rearm data to mbuf. + * C. combine data from mCQEs with rx_descriptor_fields1. + * D. store rx_descriptor_fields1. + * E. store flow tag (rte_flow mark). + */ + for (pos = 0; pos < mcqe_n; ) { + uint8_t *p = (void *)&mcq[pos % 8]; + uint8_t *e0 = (void *)&elts[pos]->rearm_data; + uint8_t *e1 = (void *)&elts[pos + 1]->rearm_data; + uint8_t *e2 = (void *)&elts[pos + 2]->rearm_data; + uint8_t *e3 = (void *)&elts[pos + 3]->rearm_data; + uint16x4_t byte_cnt; +#ifdef MLX5_PMD_SOFT_COUNTERS + uint16x4_t invalid_mask = + vcreate_u16(mcqe_n - pos < MLX5_VPMD_DESCS_PER_LOOP ? + -1UL << ((mcqe_n - pos) * + sizeof(uint16_t) * 8) : 0); +#endif + + if (!(pos & 0x7) && pos + 8 < mcqe_n) + rte_prefetch0((void *)(cq + pos + 8)); + __asm__ volatile ( + /* A.1 load mCQEs into a 128bit register. */ + "ld1 {v16.16b - v17.16b}, [%[mcq]] \n\t" + /* B.1 store rearm data to mbuf. */ + "st1 {%[rearm].2d}, [%[e0]] \n\t" + "add %[e0], %[e0], #16 \n\t" + "st1 {%[rearm].2d}, [%[e1]] \n\t" + "add %[e1], %[e1], #16 \n\t" + /* C.1 combine data from mCQEs with rx_descriptor_fields1. */ + "tbl v18.16b, {v16.16b}, %[mcqe_shuf_m1].16b \n\t" + "tbl v19.16b, {v16.16b}, %[mcqe_shuf_m2].16b \n\t" + "sub v18.8h, v18.8h, %[crc_adj].8h \n\t" + "sub v19.8h, v19.8h, %[crc_adj].8h \n\t" + "orr v18.16b, v18.16b, %[rxdf].16b \n\t" + "orr v19.16b, v19.16b, %[rxdf].16b \n\t" + /* D.1 store rx_descriptor_fields1. */ + "st1 {v18.2d}, [%[e0]] \n\t" + "st1 {v19.2d}, [%[e1]] \n\t" + /* B.1 store rearm data to mbuf. */ + "st1 {%[rearm].2d}, [%[e2]] \n\t" + "add %[e2], %[e2], #16 \n\t" + "st1 {%[rearm].2d}, [%[e3]] \n\t" + "add %[e3], %[e3], #16 \n\t" + /* C.1 combine data from mCQEs with rx_descriptor_fields1. */ + "tbl v18.16b, {v17.16b}, %[mcqe_shuf_m1].16b \n\t" + "tbl v19.16b, {v17.16b}, %[mcqe_shuf_m2].16b \n\t" + "sub v18.8h, v18.8h, %[crc_adj].8h \n\t" + "sub v19.8h, v19.8h, %[crc_adj].8h \n\t" + "orr v18.16b, v18.16b, %[rxdf].16b \n\t" + "orr v19.16b, v19.16b, %[rxdf].16b \n\t" + /* D.1 store rx_descriptor_fields1. */ + "st1 {v18.2d}, [%[e2]] \n\t" + "st1 {v19.2d}, [%[e3]] \n\t" +#ifdef MLX5_PMD_SOFT_COUNTERS + "tbl %[byte_cnt].8b, {v16.16b - v17.16b}, %[len_shuf_m].8b \n\t" +#endif + :[byte_cnt]"=&w"(byte_cnt) + :[mcq]"r"(p), + [rxdf]"w"(rxdf), + [rearm]"w"(rearm), + [e3]"r"(e3), [e2]"r"(e2), [e1]"r"(e1), [e0]"r"(e0), + [mcqe_shuf_m1]"w"(mcqe_shuf_m1), + [mcqe_shuf_m2]"w"(mcqe_shuf_m2), + [crc_adj]"w"(crc_adj), + [len_shuf_m]"w"(len_shuf_m) + :"memory", "v16", "v17", "v18", "v19"); +#ifdef MLX5_PMD_SOFT_COUNTERS + byte_cnt = vbic_u16(byte_cnt, invalid_mask); + rcvd_byte += vget_lane_u64(vpaddl_u32(vpaddl_u16(byte_cnt)), 0); +#endif + if (rxq->mark) { + /* E.1 store flow tag (rte_flow mark). */ + elts[pos]->hash.fdir.hi = flow_tag; + elts[pos + 1]->hash.fdir.hi = flow_tag; + elts[pos + 2]->hash.fdir.hi = flow_tag; + elts[pos + 3]->hash.fdir.hi = flow_tag; + } + pos += MLX5_VPMD_DESCS_PER_LOOP; + /* Move to next CQE and invalidate consumed CQEs. */ + if (!(pos & 0x7) && pos < mcqe_n) { + mcq = (void *)&(cq + pos)->pkt_info; + for (i = 0; i < 8; ++i) + cq[inv++].op_own = MLX5_CQE_INVALIDATE; + } + } + /* Invalidate the rest of CQEs. */ + for (; inv < mcqe_n; ++inv) + cq[inv].op_own = MLX5_CQE_INVALIDATE; +#ifdef MLX5_PMD_SOFT_COUNTERS + rxq->stats.ipackets += mcqe_n; + rxq->stats.ibytes += rcvd_byte; +#endif + rxq->cq_ci += mcqe_n; +} + +/** + * Calculate packet type and offload flag for mbuf and store it. + * + * @param rxq + * Pointer to RX queue structure. + * @param ptype_info + * Array of four 4bytes packet type info extracted from the original + * completion descriptor. + * @param flow_tag + * Array of four 4bytes flow ID extracted from the original completion + * descriptor. + * @param op_err + * Opcode vector having responder error status. Each field is 4B. + * @param pkts + * Pointer to array of packets to be filled. + */ +static inline void +rxq_cq_to_ptype_oflags_v(struct mlx5_rxq_data *rxq, + uint32x4_t ptype_info, uint32x4_t flow_tag, + uint16x4_t op_err, struct rte_mbuf **pkts) +{ + uint16x4_t ptype; + uint32x4_t pinfo, cv_flags; + uint32x4_t ol_flags = vdupq_n_u32(rxq->rss_hash * PKT_RX_RSS_HASH); + const uint32x4_t ptype_ol_mask = { 0x106, 0x106, 0x106, 0x106 }; + const uint8x16_t cv_flag_sel = { + 0, + (uint8_t)(PKT_RX_VLAN_PKT | PKT_RX_VLAN_STRIPPED), + (uint8_t)(PKT_RX_IP_CKSUM_GOOD >> 1), + 0, + (uint8_t)(PKT_RX_L4_CKSUM_GOOD >> 1), + 0, + (uint8_t)((PKT_RX_IP_CKSUM_GOOD | PKT_RX_L4_CKSUM_GOOD) >> 1), + 0, 0, 0, 0, 0, 0, 0, 0, 0 + }; + const uint32x4_t cv_mask = + vdupq_n_u32(PKT_RX_IP_CKSUM_GOOD | PKT_RX_L4_CKSUM_GOOD | + PKT_RX_VLAN_PKT | PKT_RX_VLAN_STRIPPED); + const uint64x1_t mbuf_init = vld1_u64(&rxq->mbuf_initializer); + const uint64x1_t r32_mask = vcreate_u64(0xffffffff); + uint64x2_t rearm0, rearm1, rearm2, rearm3; + + if (rxq->mark) { + const uint32x4_t ft_def = vdupq_n_u32(MLX5_FLOW_MARK_DEFAULT); + const uint32x4_t fdir_flags = vdupq_n_u32(PKT_RX_FDIR); + const uint32x4_t fdir_id_flags = vdupq_n_u32(PKT_RX_FDIR_ID); + + /* Check if flow tag is non-zero then set PKT_RX_FDIR. */ + ol_flags = vorrq_u32(ol_flags, vbicq_u32(fdir_flags, + vceqzq_u32(flow_tag))); + /* Check if flow tag MLX5_FLOW_MARK_DEFAULT. */ + ol_flags = vorrq_u32(ol_flags, + vbicq_u32(fdir_id_flags, + vceqq_u32(flow_tag, ft_def))); + } + /* + * ptype_info has the following: + * bit[1] = l3_ok + * bit[2] = l4_ok + * bit[8] = cv + * bit[11:10] = l3_hdr_type + * bit[14:12] = l4_hdr_type + * bit[15] = ip_frag + * bit[16] = tunneled + * bit[17] = outer_l3_type + */ + ptype = vshrn_n_u32(ptype_info, 10); + /* Errored packets will have RTE_PTYPE_ALL_MASK. */ + ptype = vorr_u16(ptype, op_err); + pkts[0]->packet_type = + mlx5_ptype_table[vget_lane_u8(vreinterpret_u8_u16(ptype), 6)]; + pkts[1]->packet_type = + mlx5_ptype_table[vget_lane_u8(vreinterpret_u8_u16(ptype), 4)]; + pkts[2]->packet_type = + mlx5_ptype_table[vget_lane_u8(vreinterpret_u8_u16(ptype), 2)]; + pkts[3]->packet_type = + mlx5_ptype_table[vget_lane_u8(vreinterpret_u8_u16(ptype), 0)]; + /* Fill flags for checksum and VLAN. */ + pinfo = vandq_u32(ptype_info, ptype_ol_mask); + pinfo = vreinterpretq_u32_u8( + vqtbl1q_u8(cv_flag_sel, vreinterpretq_u8_u32(pinfo))); + /* Locate checksum flags at byte[2:1] and merge with VLAN flags. */ + cv_flags = vshlq_n_u32(pinfo, 9); + cv_flags = vorrq_u32(pinfo, cv_flags); + /* Move back flags to start from byte[0]. */ + cv_flags = vshrq_n_u32(cv_flags, 8); + /* Mask out garbage bits. */ + cv_flags = vandq_u32(cv_flags, cv_mask); + /* Merge to ol_flags. */ + ol_flags = vorrq_u32(ol_flags, cv_flags); + /* Merge mbuf_init and ol_flags, and store. */ + rearm0 = vcombine_u64(mbuf_init, + vshr_n_u64(vget_high_u64(vreinterpretq_u64_u32( + ol_flags)), 32)); + rearm1 = vcombine_u64(mbuf_init, + vand_u64(vget_high_u64(vreinterpretq_u64_u32( + ol_flags)), r32_mask)); + rearm2 = vcombine_u64(mbuf_init, + vshr_n_u64(vget_low_u64(vreinterpretq_u64_u32( + ol_flags)), 32)); + rearm3 = vcombine_u64(mbuf_init, + vand_u64(vget_low_u64(vreinterpretq_u64_u32( + ol_flags)), r32_mask)); + vst1q_u64((void *)&pkts[0]->rearm_data, rearm0); + vst1q_u64((void *)&pkts[1]->rearm_data, rearm1); + vst1q_u64((void *)&pkts[2]->rearm_data, rearm2); + vst1q_u64((void *)&pkts[3]->rearm_data, rearm3); +} + +/** + * Receive burst of packets. An errored completion also consumes a mbuf, but the + * packet_type is set to be RTE_PTYPE_ALL_MASK. Marked mbufs should be freed + * before returning to application. + * + * @param rxq + * Pointer to RX queue structure. + * @param[out] pkts + * Array to store received packets. + * @param pkts_n + * Maximum number of packets in array. + * + * @return + * Number of packets received including errors (<= pkts_n). + */ +static inline uint16_t +rxq_burst_v(struct mlx5_rxq_data *rxq, struct rte_mbuf **pkts, uint16_t pkts_n) +{ + const uint16_t q_n = 1 << rxq->cqe_n; + const uint16_t q_mask = q_n - 1; + volatile struct mlx5_cqe *cq; + struct rte_mbuf **elts; + unsigned int pos; + uint64_t n; + uint16_t repl_n; + uint64_t comp_idx = MLX5_VPMD_DESCS_PER_LOOP; + uint16_t nocmp_n = 0; + uint16_t rcvd_pkt = 0; + unsigned int cq_idx = rxq->cq_ci & q_mask; + unsigned int elts_idx; + const uint16x4_t ownership = vdup_n_u16(!(rxq->cq_ci & (q_mask + 1))); + const uint16x4_t owner_check = vcreate_u16(0x0001000100010001); + const uint16x4_t opcode_check = vcreate_u16(0x00f000f000f000f0); + const uint16x4_t format_check = vcreate_u16(0x000c000c000c000c); + const uint16x4_t resp_err_check = vcreate_u16(0x00e000e000e000e0); +#ifdef MLX5_PMD_SOFT_COUNTERS + uint32_t rcvd_byte = 0; +#endif + /* Mask to generate 16B length vector. */ + const uint8x8_t len_shuf_m = { + 52, 53, /* 4th CQE */ + 36, 37, /* 3rd CQE */ + 20, 21, /* 2nd CQE */ + 4, 5 /* 1st CQE */ + }; + /* Mask to extract 16B data from a 64B CQE. */ + const uint8x16_t cqe_shuf_m = { + 28, 29, /* hdr_type_etc */ + 0, /* pkt_info */ + -1, /* null */ + 47, 46, /* byte_cnt, bswap16 */ + 31, 30, /* vlan_info, bswap16 */ + 15, 14, 13, 12, /* rx_hash_res, bswap32 */ + 57, 58, 59, /* flow_tag */ + 63 /* op_own */ + }; + /* Mask to generate 16B data for mbuf. */ + const uint8x16_t mb_shuf_m = { + 4, 5, -1, -1, /* pkt_len */ + 4, 5, /* data_len */ + 6, 7, /* vlan_tci */ + 8, 9, 10, 11, /* hash.rss */ + 12, 13, 14, -1 /* hash.fdir.hi */ + }; + /* Mask to generate 16B owner vector. */ + const uint8x8_t owner_shuf_m = { + 63, -1, /* 4th CQE */ + 47, -1, /* 3rd CQE */ + 31, -1, /* 2nd CQE */ + 15, -1 /* 1st CQE */ + }; + /* Mask to generate a vector having packet_type/ol_flags. */ + const uint8x16_t ptype_shuf_m = { + 48, 49, 50, -1, /* 4th CQE */ + 32, 33, 34, -1, /* 3rd CQE */ + 16, 17, 18, -1, /* 2nd CQE */ + 0, 1, 2, -1 /* 1st CQE */ + }; + /* Mask to generate a vector having flow tags. */ + const uint8x16_t ftag_shuf_m = { + 60, 61, 62, -1, /* 4th CQE */ + 44, 45, 46, -1, /* 3rd CQE */ + 28, 29, 30, -1, /* 2nd CQE */ + 12, 13, 14, -1 /* 1st CQE */ + }; + const uint16x8_t crc_adj = { + 0, 0, rxq->crc_present * ETHER_CRC_LEN, 0, 0, 0, 0, 0 + }; + const uint32x4_t flow_mark_adj = { 0, 0, 0, rxq->mark * (-1) }; + + assert(rxq->sges_n == 0); + assert(rxq->cqe_n == rxq->elts_n); + cq = &(*rxq->cqes)[cq_idx]; + rte_prefetch_non_temporal(cq); + rte_prefetch_non_temporal(cq + 1); + rte_prefetch_non_temporal(cq + 2); + rte_prefetch_non_temporal(cq + 3); + pkts_n = RTE_MIN(pkts_n, MLX5_VPMD_RX_MAX_BURST); + /* + * Order of indexes: + * rq_ci >= cq_ci >= rq_pi + * Definition of indexes: + * rq_ci - cq_ci := # of buffers owned by HW (posted). + * cq_ci - rq_pi := # of buffers not returned to app (decompressed). + * N - (rq_ci - rq_pi) := # of buffers consumed (to be replenished). + */ + repl_n = q_n - (rxq->rq_ci - rxq->rq_pi); + if (repl_n >= MLX5_VPMD_RXQ_RPLNSH_THRESH) + mlx5_rx_replenish_bulk_mbuf(rxq, repl_n); + /* See if there're unreturned mbufs from compressed CQE. */ + rcvd_pkt = rxq->cq_ci - rxq->rq_pi; + if (rcvd_pkt > 0) { + rcvd_pkt = RTE_MIN(rcvd_pkt, pkts_n); + rxq_copy_mbuf_v(rxq, pkts, rcvd_pkt); + rxq->rq_pi += rcvd_pkt; + pkts += rcvd_pkt; + } + elts_idx = rxq->rq_pi & q_mask; + elts = &(*rxq->elts)[elts_idx]; + pkts_n = RTE_MIN(pkts_n - rcvd_pkt, + (uint16_t)(rxq->rq_ci - rxq->cq_ci)); + /* Not to overflow pkts/elts array. */ + pkts_n = RTE_ALIGN_FLOOR(pkts_n, MLX5_VPMD_DESCS_PER_LOOP); + /* Not to cross queue end. */ + pkts_n = RTE_MIN(pkts_n, q_n - elts_idx); + if (!pkts_n) + return rcvd_pkt; + /* At this point, there shouldn't be any remained packets. */ + assert(rxq->rq_pi == rxq->cq_ci); + /* + * Note that vectors have reverse order - {v3, v2, v1, v0}, because + * there's no instruction to count trailing zeros. __builtin_clzl() is + * used instead. + * + * A. copy 4 mbuf pointers from elts ring to returing pkts. + * B. load 64B CQE and extract necessary fields + * Final 16bytes cqes[] extracted from original 64bytes CQE has the + * following structure: + * struct { + * uint16_t hdr_type_etc; + * uint8_t pkt_info; + * uint8_t rsvd; + * uint16_t byte_cnt; + * uint16_t vlan_info; + * uint32_t rx_has_res; + * uint8_t flow_tag[3]; + * uint8_t op_own; + * } c; + * C. fill in mbuf. + * D. get valid CQEs. + * E. find compressed CQE. + */ + for (pos = 0; + pos < pkts_n; + pos += MLX5_VPMD_DESCS_PER_LOOP) { + uint16x4_t op_own; + uint16x4_t opcode, owner_mask, invalid_mask; + uint16x4_t comp_mask; + uint16x4_t mask; + uint16x4_t byte_cnt; + uint32x4_t ptype_info, flow_tag; + uint8_t *p0, *p1, *p2, *p3; + uint8_t *e0 = (void *)&elts[pos]->pkt_len; + uint8_t *e1 = (void *)&elts[pos + 1]->pkt_len; + uint8_t *e2 = (void *)&elts[pos + 2]->pkt_len; + uint8_t *e3 = (void *)&elts[pos + 3]->pkt_len; + void *elts_p = (void *)&elts[pos]; + void *pkts_p = (void *)&pkts[pos]; + + /* A.0 do not cross the end of CQ. */ + mask = vcreate_u16(pkts_n - pos < MLX5_VPMD_DESCS_PER_LOOP ? + -1UL >> ((pkts_n - pos) * + sizeof(uint16_t) * 8) : 0); + p0 = (void *)&cq[pos].pkt_info; + p1 = p0 + (pkts_n - pos > 1) * sizeof(struct mlx5_cqe); + p2 = p1 + (pkts_n - pos > 2) * sizeof(struct mlx5_cqe); + p3 = p2 + (pkts_n - pos > 3) * sizeof(struct mlx5_cqe); + /* Prefetch next 4 CQEs. */ + if (pkts_n - pos >= 2 * MLX5_VPMD_DESCS_PER_LOOP) { + unsigned int next = pos + MLX5_VPMD_DESCS_PER_LOOP; + rte_prefetch_non_temporal(&cq[next]); + rte_prefetch_non_temporal(&cq[next + 1]); + rte_prefetch_non_temporal(&cq[next + 2]); + rte_prefetch_non_temporal(&cq[next + 3]); + } + __asm__ volatile ( + /* B.1 (CQE 3) load a block having op_own. */ + "ld1 {v19.16b}, [%[p3]] \n\t" + "sub %[p3], %[p3], #48 \n\t" + /* B.2 (CQE 3) load the rest blocks. */ + "ld1 {v16.16b - v18.16b}, [%[p3]] \n\t" + /* B.3 (CQE 3) extract 16B fields. */ + "tbl v23.16b, {v16.16b - v19.16b}, %[cqe_shuf_m].16b \n\t" + /* B.4 (CQE 3) adjust CRC length. */ + "sub v23.8h, v23.8h, %[crc_adj].8h \n\t" + /* B.1 (CQE 2) load a block having op_own. */ + "ld1 {v19.16b}, [%[p2]] \n\t" + "sub %[p2], %[p2], #48 \n\t" + /* C.1 (CQE 3) generate final structure for mbuf. */ + "tbl v15.16b, {v23.16b}, %[mb_shuf_m].16b \n\t" + /* B.2 (CQE 2) load the rest blocks. */ + "ld1 {v16.16b - v18.16b}, [%[p2]] \n\t" + /* B.3 (CQE 2) extract 16B fields. */ + "tbl v22.16b, {v16.16b - v19.16b}, %[cqe_shuf_m].16b \n\t" + /* B.4 (CQE 2) adjust CRC length. */ + "sub v22.8h, v22.8h, %[crc_adj].8h \n\t" + /* B.1 (CQE 1) load a block having op_own. */ + "ld1 {v19.16b}, [%[p1]] \n\t" + "sub %[p1], %[p1], #48 \n\t" + /* C.1 (CQE 2) generate final structure for mbuf. */ + "tbl v14.16b, {v22.16b}, %[mb_shuf_m].16b \n\t" + /* B.2 (CQE 1) load the rest blocks. */ + "ld1 {v16.16b - v18.16b}, [%[p1]] \n\t" + /* B.3 (CQE 1) extract 16B fields. */ + "tbl v21.16b, {v16.16b - v19.16b}, %[cqe_shuf_m].16b \n\t" + /* B.4 (CQE 1) adjust CRC length. */ + "sub v21.8h, v21.8h, %[crc_adj].8h \n\t" + /* B.1 (CQE 0) load a block having op_own. */ + "ld1 {v19.16b}, [%[p0]] \n\t" + "sub %[p0], %[p0], #48 \n\t" + /* C.1 (CQE 1) generate final structure for mbuf. */ + "tbl v13.16b, {v21.16b}, %[mb_shuf_m].16b \n\t" + /* B.2 (CQE 0) load the rest blocks. */ + "ld1 {v16.16b - v18.16b}, [%[p0]] \n\t" + /* B.3 (CQE 0) extract 16B fields. */ + "tbl v20.16b, {v16.16b - v19.16b}, %[cqe_shuf_m].16b \n\t" + /* B.4 (CQE 0) adjust CRC length. */ + "sub v20.8h, v20.8h, %[crc_adj].8h \n\t" + /* A.1 load mbuf pointers. */ + "ld1 {v24.2d - v25.2d}, [%[elts_p]] \n\t" + /* D.1 extract op_own byte. */ + "tbl %[op_own].8b, {v20.16b - v23.16b}, %[owner_shuf_m].8b \n\t" + /* C.2 (CQE 3) adjust flow mark. */ + "add v15.4s, v15.4s, %[flow_mark_adj].4s \n\t" + /* C.3 (CQE 3) fill in mbuf - rx_descriptor_fields1. */ + "st1 {v15.2d}, [%[e3]] \n\t" + /* C.2 (CQE 2) adjust flow mark. */ + "add v14.4s, v14.4s, %[flow_mark_adj].4s \n\t" + /* C.3 (CQE 2) fill in mbuf - rx_descriptor_fields1. */ + "st1 {v14.2d}, [%[e2]] \n\t" + /* C.1 (CQE 0) generate final structure for mbuf. */ + "tbl v12.16b, {v20.16b}, %[mb_shuf_m].16b \n\t" + /* C.2 (CQE 1) adjust flow mark. */ + "add v13.4s, v13.4s, %[flow_mark_adj].4s \n\t" + /* C.3 (CQE 1) fill in mbuf - rx_descriptor_fields1. */ + "st1 {v13.2d}, [%[e1]] \n\t" +#ifdef MLX5_PMD_SOFT_COUNTERS + /* Extract byte_cnt. */ + "tbl %[byte_cnt].8b, {v20.16b - v23.16b}, %[len_shuf_m].8b \n\t" +#endif + /* Extract ptype_info. */ + "tbl %[ptype_info].16b, {v20.16b - v23.16b}, %[ptype_shuf_m].16b \n\t" + /* Extract flow_tag. */ + "tbl %[flow_tag].16b, {v20.16b - v23.16b}, %[ftag_shuf_m].16b \n\t" + /* A.2 copy mbuf pointers. */ + "st1 {v24.2d - v25.2d}, [%[pkts_p]] \n\t" + /* C.2 (CQE 0) adjust flow mark. */ + "add v12.4s, v12.4s, %[flow_mark_adj].4s \n\t" + /* C.3 (CQE 1) fill in mbuf - rx_descriptor_fields1. */ + "st1 {v12.2d}, [%[e0]] \n\t" + :[op_own]"=&w"(op_own), + [byte_cnt]"=&w"(byte_cnt), + [ptype_info]"=&w"(ptype_info), + [flow_tag]"=&w"(flow_tag) + :[p3]"r"(p3 + 48), [p2]"r"(p2 + 48), + [p1]"r"(p1 + 48), [p0]"r"(p0 + 48), + [e3]"r"(e3), [e2]"r"(e2), [e1]"r"(e1), [e0]"r"(e0), + [elts_p]"r"(elts_p), + [pkts_p]"r"(pkts_p), + [cqe_shuf_m]"w"(cqe_shuf_m), + [mb_shuf_m]"w"(mb_shuf_m), + [owner_shuf_m]"w"(owner_shuf_m), + [len_shuf_m]"w"(len_shuf_m), + [ptype_shuf_m]"w"(ptype_shuf_m), + [ftag_shuf_m]"w"(ftag_shuf_m), + [crc_adj]"w"(crc_adj), + [flow_mark_adj]"w"(flow_mark_adj) + :"memory", + "v12", "v13", "v14", "v15", + "v16", "v17", "v18", "v19", + "v20", "v21", "v22", "v23", + "v24", "v25"); + /* D.2 flip owner bit to mark CQEs from last round. */ + owner_mask = vand_u16(op_own, owner_check); + owner_mask = vceq_u16(owner_mask, ownership); + /* D.3 get mask for invalidated CQEs. */ + opcode = vand_u16(op_own, opcode_check); + invalid_mask = vceq_u16(opcode_check, opcode); + /* E.1 find compressed CQE format. */ + comp_mask = vand_u16(op_own, format_check); + comp_mask = vceq_u16(comp_mask, format_check); + /* D.4 mask out beyond boundary. */ + invalid_mask = vorr_u16(invalid_mask, mask); + /* D.5 merge invalid_mask with invalid owner. */ + invalid_mask = vorr_u16(invalid_mask, owner_mask); + /* E.2 mask out invalid entries. */ + comp_mask = vbic_u16(comp_mask, invalid_mask); + /* E.3 get the first compressed CQE. */ + comp_idx = __builtin_clzl(vget_lane_u64(vreinterpret_u64_u16( + comp_mask), 0)) / + (sizeof(uint16_t) * 8); + /* D.6 mask out entries after the compressed CQE. */ + mask = vcreate_u16(comp_idx < MLX5_VPMD_DESCS_PER_LOOP ? + -1UL >> (comp_idx * sizeof(uint16_t) * 8) : + 0); + invalid_mask = vorr_u16(invalid_mask, mask); + /* D.7 count non-compressed valid CQEs. */ + n = __builtin_clzl(vget_lane_u64(vreinterpret_u64_u16( + invalid_mask), 0)) / (sizeof(uint16_t) * 8); + nocmp_n += n; + /* D.2 get the final invalid mask. */ + mask = vcreate_u16(n < MLX5_VPMD_DESCS_PER_LOOP ? + -1UL >> (n * sizeof(uint16_t) * 8) : 0); + invalid_mask = vorr_u16(invalid_mask, mask); + /* D.3 check error in opcode. */ + opcode = vceq_u16(resp_err_check, opcode); + opcode = vbic_u16(opcode, invalid_mask); + /* D.4 mark if any error is set */ + rxq->pending_err |= + !!vget_lane_u64(vreinterpret_u64_u16(opcode), 0); + /* C.4 fill in mbuf - rearm_data and packet_type. */ + rxq_cq_to_ptype_oflags_v(rxq, ptype_info, flow_tag, + opcode, &elts[pos]); +#ifdef MLX5_PMD_SOFT_COUNTERS + /* Add up received bytes count. */ + byte_cnt = vbic_u16(byte_cnt, invalid_mask); + rcvd_byte += vget_lane_u64(vpaddl_u32(vpaddl_u16(byte_cnt)), 0); +#endif + /* + * Break the loop unless more valid CQE is expected, or if + * there's a compressed CQE. + */ + if (n != MLX5_VPMD_DESCS_PER_LOOP) + break; + } + /* If no new CQE seen, return without updating cq_db. */ + if (unlikely(!nocmp_n && comp_idx == MLX5_VPMD_DESCS_PER_LOOP)) + return rcvd_pkt; + /* Update the consumer indexes for non-compressed CQEs. */ + assert(nocmp_n <= pkts_n); + rxq->cq_ci += nocmp_n; + rxq->rq_pi += nocmp_n; + rcvd_pkt += nocmp_n; +#ifdef MLX5_PMD_SOFT_COUNTERS + rxq->stats.ipackets += nocmp_n; + rxq->stats.ibytes += rcvd_byte; +#endif + /* Decompress the last CQE if compressed. */ + if (comp_idx < MLX5_VPMD_DESCS_PER_LOOP && comp_idx == n) { + assert(comp_idx == (nocmp_n % MLX5_VPMD_DESCS_PER_LOOP)); + rxq_cq_decompress_v(rxq, &cq[nocmp_n], &elts[nocmp_n]); + /* Return more packets if needed. */ + if (nocmp_n < pkts_n) { + uint16_t n = rxq->cq_ci - rxq->rq_pi; + + n = RTE_MIN(n, pkts_n - nocmp_n); + rxq_copy_mbuf_v(rxq, &pkts[nocmp_n], n); + rxq->rq_pi += n; + rcvd_pkt += n; + } + } + rte_compiler_barrier(); + *rxq->cq_db = rte_cpu_to_be_32(rxq->cq_ci); + return rcvd_pkt; +} + +#endif /* RTE_PMD_MLX5_RXTX_VEC_NEON_H_ */ -- 2.11.0