net/mlx5/mlx5_rxtx.c

8fd92a66SOlivier Matz/* SPDX-License-Identifier: BSD-3-Clause
2e22920bSAdrien Mazarguil * Copyright 2015 6WIND S.A.
eb8121abSViacheslav Ovsiienko * Copyright 2015-2019 Mellanox Technologies, Ltd
2e22920bSAdrien Mazarguil */
2e22920bSAdrien Mazarguil
2e22920bSAdrien Mazarguil#include <assert.h>
2e22920bSAdrien Mazarguil#include <stdint.h>
2e22920bSAdrien Mazarguil#include <string.h>
2e22920bSAdrien Mazarguil#include <stdlib.h>
2e22920bSAdrien Mazarguil
2e22920bSAdrien Mazarguil/* Verbs header. */
2e22920bSAdrien Mazarguil/* ISO C doesn't support unnamed structs/unions, disabling -pedantic. */
2e22920bSAdrien Mazarguil#ifdef PEDANTIC
fc5b160fSBruce Richardson#pragma GCC diagnostic ignored "-Wpedantic"
2e22920bSAdrien Mazarguil#endif
2e22920bSAdrien Mazarguil#include <infiniband/verbs.h>
43e9d979SShachar Beiser#include <infiniband/mlx5dv.h>
2e22920bSAdrien Mazarguil#ifdef PEDANTIC
fc5b160fSBruce Richardson#pragma GCC diagnostic error "-Wpedantic"
2e22920bSAdrien Mazarguil#endif
2e22920bSAdrien Mazarguil
2e22920bSAdrien Mazarguil#include <rte_mbuf.h>
2e22920bSAdrien Mazarguil#include <rte_mempool.h>
2e22920bSAdrien Mazarguil#include <rte_prefetch.h>
2e22920bSAdrien Mazarguil#include <rte_common.h>
2e22920bSAdrien Mazarguil#include <rte_branch_prediction.h>
6218063bSNélio Laranjeiro#include <rte_ether.h>
88c07335SMatan Azrad#include <rte_cycles.h>
2e22920bSAdrien Mazarguil
2e22920bSAdrien Mazarguil#include "mlx5.h"
2e22920bSAdrien Mazarguil#include "mlx5_utils.h"
2e22920bSAdrien Mazarguil#include "mlx5_rxtx.h"
f3db9489SYaacov Hazan#include "mlx5_autoconf.h"
2e22920bSAdrien Mazarguil#include "mlx5_defs.h"
6218063bSNélio Laranjeiro#include "mlx5_prm.h"
6218063bSNélio Laranjeiro
eb8121abSViacheslav Ovsiienko/* TX burst subroutines return codes. */
eb8121abSViacheslav Ovsiienkoenum mlx5_txcmp_code {
eb8121abSViacheslav Ovsiienko	MLX5_TXCMP_CODE_EXIT = 0,
eb8121abSViacheslav Ovsiienko	MLX5_TXCMP_CODE_ERROR,
eb8121abSViacheslav Ovsiienko	MLX5_TXCMP_CODE_SINGLE,
eb8121abSViacheslav Ovsiienko	MLX5_TXCMP_CODE_MULTI,
eb8121abSViacheslav Ovsiienko	MLX5_TXCMP_CODE_TSO,
eb8121abSViacheslav Ovsiienko	MLX5_TXCMP_CODE_EMPW,
eb8121abSViacheslav Ovsiienko};
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko/*
eb8121abSViacheslav Ovsiienko * These defines are used to configure Tx burst routine option set
eb8121abSViacheslav Ovsiienko * supported at compile time. The not specified options are optimized out
eb8121abSViacheslav Ovsiienko * out due to if conditions can be explicitly calculated at compile time.
eb8121abSViacheslav Ovsiienko * The offloads with bigger runtime check (require more CPU cycles to
eb8121abSViacheslav Ovsiienko * skip) overhead should have the bigger index - this is needed to
eb8121abSViacheslav Ovsiienko * select the better matching routine function if no exact match and
eb8121abSViacheslav Ovsiienko * some offloads are not actually requested.
eb8121abSViacheslav Ovsiienko */
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_MULTI (1u << 0) /* Multi-segment packets.*/
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_TSO (1u << 1) /* TCP send offload supported.*/
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_SWP (1u << 2) /* Tunnels/SW Parser offloads.*/
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_CSUM (1u << 3) /* Check Sums offloaded. */
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_INLINE (1u << 4) /* Data inlining supported. */
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_VLAN (1u << 5) /* VLAN insertion supported.*/
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_METADATA (1u << 6) /* Flow metadata. */
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_EMPW (1u << 8) /* Enhanced MPW supported.*/
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko/* The most common offloads groups. */
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_NONE 0
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG_FULL (MLX5_TXOFF_CONFIG_MULTI | \
eb8121abSViacheslav Ovsiienko				MLX5_TXOFF_CONFIG_TSO | \
eb8121abSViacheslav Ovsiienko				MLX5_TXOFF_CONFIG_SWP | \
eb8121abSViacheslav Ovsiienko				MLX5_TXOFF_CONFIG_CSUM | \
eb8121abSViacheslav Ovsiienko				MLX5_TXOFF_CONFIG_INLINE | \
eb8121abSViacheslav Ovsiienko				MLX5_TXOFF_CONFIG_VLAN | \
eb8121abSViacheslav Ovsiienko				MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_CONFIG(mask) (olx & MLX5_TXOFF_CONFIG_##mask)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_DECL(func, olx) \
eb8121abSViacheslav Ovsiienkostatic uint16_t mlx5_tx_burst_##func(void *txq, \
eb8121abSViacheslav Ovsiienko				     struct rte_mbuf **pkts, \
eb8121abSViacheslav Ovsiienko				    uint16_t pkts_n) \
eb8121abSViacheslav Ovsiienko{ \
eb8121abSViacheslav Ovsiienko	return mlx5_tx_burst_tmpl((struct mlx5_txq_data *)txq, \
eb8121abSViacheslav Ovsiienko		    pkts, pkts_n, (olx)); \
eb8121abSViacheslav Ovsiienko}
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko#define MLX5_TXOFF_INFO(func, olx) {mlx5_tx_burst_##func, olx},
eb8121abSViacheslav Ovsiienko
c0583d98SJerin Jacobstatic __rte_always_inline uint32_t
3cc08bc6SXueming Lirxq_cq_to_pkt_type(struct mlx5_rxq_data *rxq, volatile struct mlx5_cqe *cqe);
ff1807a3SNélio Laranjeiro
c0583d98SJerin Jacobstatic __rte_always_inline int
78142aacSNélio Laranjeiromlx5_rx_poll_len(struct mlx5_rxq_data *rxq, volatile struct mlx5_cqe *cqe,
2e633f1fSYongseok Koh		 uint16_t cqe_cnt, volatile struct mlx5_mini_cqe8 **mcqe);
ff1807a3SNélio Laranjeiro
c0583d98SJerin Jacobstatic __rte_always_inline uint32_t
6ba07449SXueming Lirxq_cq_to_ol_flags(volatile struct mlx5_cqe *cqe);
ff1807a3SNélio Laranjeiro
3e1f82a1SYongseok Kohstatic __rte_always_inline void
3e1f82a1SYongseok Kohrxq_cq_to_mbuf(struct mlx5_rxq_data *rxq, struct rte_mbuf *pkt,
3e1f82a1SYongseok Koh	       volatile struct mlx5_cqe *cqe, uint32_t rss_hash_res);
3e1f82a1SYongseok Koh
7d6bf6b8SYongseok Kohstatic __rte_always_inline void
3a22f387SMatan Azradmprq_buf_replace(struct mlx5_rxq_data *rxq, uint16_t rq_idx,
3a22f387SMatan Azrad		 const unsigned int strd_n);
7d6bf6b8SYongseok Koh
35c090eaSMatan Azradstatic int
35c090eaSMatan Azradmlx5_queue_state_modify(struct rte_eth_dev *dev,
35c090eaSMatan Azrad			struct mlx5_mp_arg_queue_state_modify *sm);
35c090eaSMatan Azrad
2579543fSMatan Azradstatic inline void
2579543fSMatan Azradmlx5_lro_update_tcp_hdr(struct rte_tcp_hdr *restrict tcp,
2579543fSMatan Azrad			volatile struct mlx5_cqe *restrict cqe,
2579543fSMatan Azrad			uint32_t phcsum);
2579543fSMatan Azrad
2579543fSMatan Azradstatic inline void
2579543fSMatan Azradmlx5_lro_update_hdr(uint8_t *restrict padd,
2579543fSMatan Azrad		    volatile struct mlx5_cqe *restrict cqe,
2579543fSMatan Azrad		    uint32_t len);
2579543fSMatan Azrad
ea16068cSYongseok Kohuint32_t mlx5_ptype_table[] __rte_cache_aligned = {
ea16068cSYongseok Koh	[0xff] = RTE_PTYPE_ALL_MASK, /* Last entry for errored packet. */
ea16068cSYongseok Koh};
ea16068cSYongseok Koh
5f8ba81cSXueming Liuint8_t mlx5_cksum_table[1 << 10] __rte_cache_aligned;
5f8ba81cSXueming Liuint8_t mlx5_swp_types_table[1 << 10] __rte_cache_aligned;
5f8ba81cSXueming Li
ea16068cSYongseok Koh/**
ea16068cSYongseok Koh * Build a table to translate Rx completion flags to packet type.
ea16068cSYongseok Koh *
ea16068cSYongseok Koh * @note: fix mlx5_dev_supported_ptypes_get() if any change here.
ea16068cSYongseok Koh */
ea16068cSYongseok Kohvoid
ea16068cSYongseok Kohmlx5_set_ptype_table(void)
ea16068cSYongseok Koh{
ea16068cSYongseok Koh	unsigned int i;
ea16068cSYongseok Koh	uint32_t (*p)[RTE_DIM(mlx5_ptype_table)] = &mlx5_ptype_table;
ea16068cSYongseok Koh
9807f113SYongseok Koh	/* Last entry must not be overwritten, reserved for errored packet. */
9807f113SYongseok Koh	for (i = 0; i < RTE_DIM(mlx5_ptype_table) - 1; ++i)
ea16068cSYongseok Koh		(*p)[i] = RTE_PTYPE_UNKNOWN;
6cb559d6SYongseok Koh	/*
6cb559d6SYongseok Koh	 * The index to the array should have:
ea16068cSYongseok Koh	 * bit[1:0] = l3_hdr_type
ea16068cSYongseok Koh	 * bit[4:2] = l4_hdr_type
ea16068cSYongseok Koh	 * bit[5] = ip_frag
ea16068cSYongseok Koh	 * bit[6] = tunneled
ea16068cSYongseok Koh	 * bit[7] = outer_l3_type
99c12dccSNélio Laranjeiro	 */
3ca63b88SShahaf Shuler	/* L2 */
3ca63b88SShahaf Shuler	(*p)[0x00] = RTE_PTYPE_L2_ETHER;
ea16068cSYongseok Koh	/* L3 */
ea16068cSYongseok Koh	(*p)[0x01] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_NONFRAG;
ea16068cSYongseok Koh	(*p)[0x02] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_NONFRAG;
ea16068cSYongseok Koh	/* Fragmented */
ea16068cSYongseok Koh	(*p)[0x21] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_FRAG;
ea16068cSYongseok Koh	(*p)[0x22] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_FRAG;
ea16068cSYongseok Koh	/* TCP */
ea16068cSYongseok Koh	(*p)[0x05] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_TCP;
ea16068cSYongseok Koh	(*p)[0x06] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x0d] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x0e] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x11] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x12] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
ea16068cSYongseok Koh	/* UDP */
ea16068cSYongseok Koh	(*p)[0x09] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_UDP;
ea16068cSYongseok Koh	(*p)[0x0a] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_UDP;
ea16068cSYongseok Koh	/* Repeat with outer_l3_type being set. Just in case. */
ea16068cSYongseok Koh	(*p)[0x81] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_NONFRAG;
ea16068cSYongseok Koh	(*p)[0x82] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_NONFRAG;
ea16068cSYongseok Koh	(*p)[0xa1] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_FRAG;
ea16068cSYongseok Koh	(*p)[0xa2] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_FRAG;
ea16068cSYongseok Koh	(*p)[0x85] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_TCP;
ea16068cSYongseok Koh	(*p)[0x86] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x8d] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x8e] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x91] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
0915e287SBin Huang	(*p)[0x92] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_L4_TCP;
ea16068cSYongseok Koh	(*p)[0x89] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_UDP;
ea16068cSYongseok Koh	(*p)[0x8a] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_L4_UDP;
ea16068cSYongseok Koh	/* Tunneled - L3 */
3cc08bc6SXueming Li	(*p)[0x40] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN;
ea16068cSYongseok Koh	(*p)[0x41] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_NONFRAG;
ea16068cSYongseok Koh	(*p)[0x42] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_NONFRAG;
3cc08bc6SXueming Li	(*p)[0xc0] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN;
ea16068cSYongseok Koh	(*p)[0xc1] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_NONFRAG;
ea16068cSYongseok Koh	(*p)[0xc2] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_NONFRAG;
ea16068cSYongseok Koh	/* Tunneled - Fragmented */
ea16068cSYongseok Koh	(*p)[0x61] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_FRAG;
ea16068cSYongseok Koh	(*p)[0x62] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_FRAG;
ea16068cSYongseok Koh	(*p)[0xe1] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_FRAG;
ea16068cSYongseok Koh	(*p)[0xe2] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L4_FRAG;
ea16068cSYongseok Koh	/* Tunneled - TCP */
ea16068cSYongseok Koh	(*p)[0x45] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_TCP;
ea16068cSYongseok Koh	(*p)[0x46] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0x4d] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0x4e] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0x51] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0x52] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
ea16068cSYongseok Koh	(*p)[0xc5] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_TCP;
ea16068cSYongseok Koh	(*p)[0xc6] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0xcd] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0xce] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0xd1] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
0915e287SBin Huang	(*p)[0xd2] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
0915e287SBin Huang		     RTE_PTYPE_INNER_L4_TCP;
ea16068cSYongseok Koh	/* Tunneled - UDP */
ea16068cSYongseok Koh	(*p)[0x49] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_UDP;
ea16068cSYongseok Koh	(*p)[0x4a] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV4_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_UDP;
ea16068cSYongseok Koh	(*p)[0xc9] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV6_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_UDP;
ea16068cSYongseok Koh	(*p)[0xca] = RTE_PTYPE_L2_ETHER | RTE_PTYPE_L3_IPV6_EXT_UNKNOWN |
ea16068cSYongseok Koh		     RTE_PTYPE_INNER_L3_IPV4_EXT_UNKNOWN |
6c897093SYongseok Koh		     RTE_PTYPE_INNER_L4_UDP;
ea16068cSYongseok Koh}
fdcb0f53SNélio Laranjeiro
2e22920bSAdrien Mazarguil/**
5f8ba81cSXueming Li * Build a table to translate packet to checksum type of Verbs.
5f8ba81cSXueming Li */
5f8ba81cSXueming Livoid
5f8ba81cSXueming Limlx5_set_cksum_table(void)
5f8ba81cSXueming Li{
5f8ba81cSXueming Li	unsigned int i;
5f8ba81cSXueming Li	uint8_t v;
5f8ba81cSXueming Li
5f8ba81cSXueming Li	/*
5f8ba81cSXueming Li	 * The index should have:
5f8ba81cSXueming Li	 * bit[0] = PKT_TX_TCP_SEG
5f8ba81cSXueming Li	 * bit[2:3] = PKT_TX_UDP_CKSUM, PKT_TX_TCP_CKSUM
5f8ba81cSXueming Li	 * bit[4] = PKT_TX_IP_CKSUM
5f8ba81cSXueming Li	 * bit[8] = PKT_TX_OUTER_IP_CKSUM
5f8ba81cSXueming Li	 * bit[9] = tunnel
5f8ba81cSXueming Li	 */
5f8ba81cSXueming Li	for (i = 0; i < RTE_DIM(mlx5_cksum_table); ++i) {
5f8ba81cSXueming Li		v = 0;
5f8ba81cSXueming Li		if (i & (1 << 9)) {
5f8ba81cSXueming Li			/* Tunneled packet. */
5f8ba81cSXueming Li			if (i & (1 << 8)) /* Outer IP. */
5f8ba81cSXueming Li				v |= MLX5_ETH_WQE_L3_CSUM;
5f8ba81cSXueming Li			if (i & (1 << 4)) /* Inner IP. */
5f8ba81cSXueming Li				v |= MLX5_ETH_WQE_L3_INNER_CSUM;
5f8ba81cSXueming Li			if (i & (3 << 2 | 1 << 0)) /* L4 or TSO. */
5f8ba81cSXueming Li				v |= MLX5_ETH_WQE_L4_INNER_CSUM;
5f8ba81cSXueming Li		} else {
5f8ba81cSXueming Li			/* No tunnel. */
5f8ba81cSXueming Li			if (i & (1 << 4)) /* IP. */
5f8ba81cSXueming Li				v |= MLX5_ETH_WQE_L3_CSUM;
5f8ba81cSXueming Li			if (i & (3 << 2 | 1 << 0)) /* L4 or TSO. */
5f8ba81cSXueming Li				v |= MLX5_ETH_WQE_L4_CSUM;
5f8ba81cSXueming Li		}
5f8ba81cSXueming Li		mlx5_cksum_table[i] = v;
5f8ba81cSXueming Li	}
5f8ba81cSXueming Li}
5f8ba81cSXueming Li
5f8ba81cSXueming Li/**
5f8ba81cSXueming Li * Build a table to translate packet type of mbuf to SWP type of Verbs.
5f8ba81cSXueming Li */
5f8ba81cSXueming Livoid
5f8ba81cSXueming Limlx5_set_swp_types_table(void)
5f8ba81cSXueming Li{
5f8ba81cSXueming Li	unsigned int i;
5f8ba81cSXueming Li	uint8_t v;
5f8ba81cSXueming Li
5f8ba81cSXueming Li	/*
5f8ba81cSXueming Li	 * The index should have:
5f8ba81cSXueming Li	 * bit[0:1] = PKT_TX_L4_MASK
5f8ba81cSXueming Li	 * bit[4] = PKT_TX_IPV6
5f8ba81cSXueming Li	 * bit[8] = PKT_TX_OUTER_IPV6
5f8ba81cSXueming Li	 * bit[9] = PKT_TX_OUTER_UDP
5f8ba81cSXueming Li	 */
5f8ba81cSXueming Li	for (i = 0; i < RTE_DIM(mlx5_swp_types_table); ++i) {
5f8ba81cSXueming Li		v = 0;
5f8ba81cSXueming Li		if (i & (1 << 8))
5f8ba81cSXueming Li			v |= MLX5_ETH_WQE_L3_OUTER_IPV6;
5f8ba81cSXueming Li		if (i & (1 << 9))
5f8ba81cSXueming Li			v |= MLX5_ETH_WQE_L4_OUTER_UDP;
5f8ba81cSXueming Li		if (i & (1 << 4))
5f8ba81cSXueming Li			v |= MLX5_ETH_WQE_L3_INNER_IPV6;
5f8ba81cSXueming Li		if ((i & 3) == (PKT_TX_UDP_CKSUM >> 52))
5f8ba81cSXueming Li			v |= MLX5_ETH_WQE_L4_INNER_UDP;
5f8ba81cSXueming Li		mlx5_swp_types_table[i] = v;
5f8ba81cSXueming Li	}
5f8ba81cSXueming Li}
5f8ba81cSXueming Li
5f8ba81cSXueming Li/**
18a1c200SViacheslav Ovsiienko * Set Software Parser flags and offsets in Ethernet Segment of WQE.
18a1c200SViacheslav Ovsiienko * Flags must be preliminary initialized to zero.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param swp_flags
18a1c200SViacheslav Ovsiienko *   Pointer to store Software Parser flags
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Software Parser offsets packed in dword.
18a1c200SViacheslav Ovsiienko *   Software Parser flags are set by pointer.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline uint32_t
18a1c200SViacheslav Ovsiienkotxq_mbuf_to_swp(struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		uint8_t *swp_flags,
18a1c200SViacheslav Ovsiienko		unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	uint64_t ol, tunnel;
18a1c200SViacheslav Ovsiienko	unsigned int idx, off;
18a1c200SViacheslav Ovsiienko	uint32_t set;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	if (!MLX5_TXOFF_CONFIG(SWP))
18a1c200SViacheslav Ovsiienko		return 0;
18a1c200SViacheslav Ovsiienko	ol = loc->mbuf->ol_flags;
18a1c200SViacheslav Ovsiienko	tunnel = ol & PKT_TX_TUNNEL_MASK;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Check whether Software Parser is required.
18a1c200SViacheslav Ovsiienko	 * Only customized tunnels may ask for.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	if (likely(tunnel != PKT_TX_TUNNEL_UDP && tunnel != PKT_TX_TUNNEL_IP))
18a1c200SViacheslav Ovsiienko		return 0;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The index should have:
18a1c200SViacheslav Ovsiienko	 * bit[0:1] = PKT_TX_L4_MASK
18a1c200SViacheslav Ovsiienko	 * bit[4] = PKT_TX_IPV6
18a1c200SViacheslav Ovsiienko	 * bit[8] = PKT_TX_OUTER_IPV6
18a1c200SViacheslav Ovsiienko	 * bit[9] = PKT_TX_OUTER_UDP
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	idx = (ol & (PKT_TX_L4_MASK | PKT_TX_IPV6 | PKT_TX_OUTER_IPV6)) >> 52;
18a1c200SViacheslav Ovsiienko	idx |= (tunnel == PKT_TX_TUNNEL_UDP) ? (1 << 9) : 0;
18a1c200SViacheslav Ovsiienko	*swp_flags = mlx5_swp_types_table[idx];
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Set offsets for SW parser. Since ConnectX-5, SW parser just
18a1c200SViacheslav Ovsiienko	 * complements HW parser. SW parser starts to engage only if HW parser
18a1c200SViacheslav Ovsiienko	 * can't reach a header. For the older devices, HW parser will not kick
18a1c200SViacheslav Ovsiienko	 * in if any of SWP offsets is set. Therefore, all of the L3 offsets
18a1c200SViacheslav Ovsiienko	 * should be set regardless of HW offload.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	off = loc->mbuf->outer_l2_len;
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) && ol & PKT_TX_VLAN_PKT)
18a1c200SViacheslav Ovsiienko		off += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko	set = (off >> 1) << 8; /* Outer L3 offset. */
18a1c200SViacheslav Ovsiienko	off += loc->mbuf->outer_l3_len;
18a1c200SViacheslav Ovsiienko	if (tunnel == PKT_TX_TUNNEL_UDP)
18a1c200SViacheslav Ovsiienko		set |= off >> 1; /* Outer L4 offset. */
18a1c200SViacheslav Ovsiienko	if (ol & (PKT_TX_IPV4 | PKT_TX_IPV6)) { /* Inner IP. */
18a1c200SViacheslav Ovsiienko		const uint64_t csum = ol & PKT_TX_L4_MASK;
18a1c200SViacheslav Ovsiienko			off += loc->mbuf->l2_len;
18a1c200SViacheslav Ovsiienko		set |= (off >> 1) << 24; /* Inner L3 offset. */
18a1c200SViacheslav Ovsiienko		if (csum == PKT_TX_TCP_CKSUM ||
18a1c200SViacheslav Ovsiienko		    csum == PKT_TX_UDP_CKSUM ||
18a1c200SViacheslav Ovsiienko		    (MLX5_TXOFF_CONFIG(TSO) && ol & PKT_TX_TCP_SEG)) {
18a1c200SViacheslav Ovsiienko			off += loc->mbuf->l3_len;
18a1c200SViacheslav Ovsiienko			set |= (off >> 1) << 16; /* Inner L4 offset. */
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	set = rte_cpu_to_le_32(set);
18a1c200SViacheslav Ovsiienko	return set;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Convert the Checksum offloads to Verbs.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param buf
18a1c200SViacheslav Ovsiienko *   Pointer to the mbuf.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Converted checksum flags.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline uint8_t
18a1c200SViacheslav Ovsiienkotxq_ol_cksum_to_cs(struct rte_mbuf *buf)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	uint32_t idx;
18a1c200SViacheslav Ovsiienko	uint8_t is_tunnel = !!(buf->ol_flags & PKT_TX_TUNNEL_MASK);
18a1c200SViacheslav Ovsiienko	const uint64_t ol_flags_mask = PKT_TX_TCP_SEG | PKT_TX_L4_MASK |
18a1c200SViacheslav Ovsiienko				       PKT_TX_IP_CKSUM | PKT_TX_OUTER_IP_CKSUM;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The index should have:
18a1c200SViacheslav Ovsiienko	 * bit[0] = PKT_TX_TCP_SEG
18a1c200SViacheslav Ovsiienko	 * bit[2:3] = PKT_TX_UDP_CKSUM, PKT_TX_TCP_CKSUM
18a1c200SViacheslav Ovsiienko	 * bit[4] = PKT_TX_IP_CKSUM
18a1c200SViacheslav Ovsiienko	 * bit[8] = PKT_TX_OUTER_IP_CKSUM
18a1c200SViacheslav Ovsiienko	 * bit[9] = tunnel
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	idx = ((buf->ol_flags & ol_flags_mask) >> 50) | (!!is_tunnel << 9);
18a1c200SViacheslav Ovsiienko	return mlx5_cksum_table[idx];
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
26f04883STom Barbette * Internal function to compute the number of used descriptors in an RX queue
8788fec1SOlivier Matz *
26f04883STom Barbette * @param rxq
26f04883STom Barbette *   The Rx queue.
8788fec1SOlivier Matz *
8788fec1SOlivier Matz * @return
26f04883STom Barbette *   The number of used rx descriptor.
8788fec1SOlivier Matz */
26f04883STom Barbettestatic uint32_t
26f04883STom Barbetterx_queue_count(struct mlx5_rxq_data *rxq)
8788fec1SOlivier Matz{
8788fec1SOlivier Matz	struct rxq_zip *zip = &rxq->zip;
8788fec1SOlivier Matz	volatile struct mlx5_cqe *cqe;
8788fec1SOlivier Matz	const unsigned int cqe_n = (1 << rxq->cqe_n);
8788fec1SOlivier Matz	const unsigned int cqe_cnt = cqe_n - 1;
8788fec1SOlivier Matz	unsigned int cq_ci;
8788fec1SOlivier Matz	unsigned int used;
8788fec1SOlivier Matz
8788fec1SOlivier Matz	/* if we are processing a compressed cqe */
8788fec1SOlivier Matz	if (zip->ai) {
8788fec1SOlivier Matz		used = zip->cqe_cnt - zip->ca;
8788fec1SOlivier Matz		cq_ci = zip->cq_ci;
8788fec1SOlivier Matz	} else {
8788fec1SOlivier Matz		used = 0;
8788fec1SOlivier Matz		cq_ci = rxq->cq_ci;
8788fec1SOlivier Matz	}
8788fec1SOlivier Matz	cqe = &(*rxq->cqes)[cq_ci & cqe_cnt];
88c07335SMatan Azrad	while (check_cqe(cqe, cqe_n, cq_ci) != MLX5_CQE_STATUS_HW_OWN) {
8788fec1SOlivier Matz		int8_t op_own;
8788fec1SOlivier Matz		unsigned int n;
8788fec1SOlivier Matz
8788fec1SOlivier Matz		op_own = cqe->op_own;
8788fec1SOlivier Matz		if (MLX5_CQE_FORMAT(op_own) == MLX5_COMPRESSED)
6b30a6a8SShachar Beiser			n = rte_be_to_cpu_32(cqe->byte_cnt);
8788fec1SOlivier Matz		else
8788fec1SOlivier Matz			n = 1;
8788fec1SOlivier Matz		cq_ci += n;
8788fec1SOlivier Matz		used += n;
8788fec1SOlivier Matz		cqe = &(*rxq->cqes)[cq_ci & cqe_cnt];
8788fec1SOlivier Matz	}
8788fec1SOlivier Matz	used = RTE_MIN(used, (1U << rxq->elts_n) - 1);
26f04883STom Barbette	return used;
26f04883STom Barbette}
26f04883STom Barbette
26f04883STom Barbette/**
26f04883STom Barbette * DPDK callback to check the status of a rx descriptor.
26f04883STom Barbette *
26f04883STom Barbette * @param rx_queue
26f04883STom Barbette *   The Rx queue.
26f04883STom Barbette * @param[in] offset
26f04883STom Barbette *   The index of the descriptor in the ring.
26f04883STom Barbette *
26f04883STom Barbette * @return
26f04883STom Barbette *   The status of the tx descriptor.
26f04883STom Barbette */
26f04883STom Barbetteint
26f04883STom Barbettemlx5_rx_descriptor_status(void *rx_queue, uint16_t offset)
26f04883STom Barbette{
26f04883STom Barbette	struct mlx5_rxq_data *rxq = rx_queue;
26f04883STom Barbette	struct mlx5_rxq_ctrl *rxq_ctrl =
26f04883STom Barbette			container_of(rxq, struct mlx5_rxq_ctrl, rxq);
26f04883STom Barbette	struct rte_eth_dev *dev = ETH_DEV(rxq_ctrl->priv);
26f04883STom Barbette
26f04883STom Barbette	if (dev->rx_pkt_burst != mlx5_rx_burst) {
26f04883STom Barbette		rte_errno = ENOTSUP;
26f04883STom Barbette		return -rte_errno;
26f04883STom Barbette	}
26f04883STom Barbette	if (offset >= (1 << rxq->elts_n)) {
26f04883STom Barbette		rte_errno = EINVAL;
26f04883STom Barbette		return -rte_errno;
26f04883STom Barbette	}
26f04883STom Barbette	if (offset < rx_queue_count(rxq))
8788fec1SOlivier Matz		return RTE_ETH_RX_DESC_DONE;
8788fec1SOlivier Matz	return RTE_ETH_RX_DESC_AVAIL;
8788fec1SOlivier Matz}
8788fec1SOlivier Matz
8788fec1SOlivier Matz/**
26f04883STom Barbette * DPDK callback to get the number of used descriptors in a RX queue
26f04883STom Barbette *
26f04883STom Barbette * @param dev
26f04883STom Barbette *   Pointer to the device structure.
26f04883STom Barbette *
26f04883STom Barbette * @param rx_queue_id
26f04883STom Barbette *   The Rx queue.
26f04883STom Barbette *
26f04883STom Barbette * @return
26f04883STom Barbette *   The number of used rx descriptor.
26f04883STom Barbette *   -EINVAL if the queue is invalid
26f04883STom Barbette */
26f04883STom Barbetteuint32_t
26f04883STom Barbettemlx5_rx_queue_count(struct rte_eth_dev *dev, uint16_t rx_queue_id)
26f04883STom Barbette{
dbeba4cfSThomas Monjalon	struct mlx5_priv *priv = dev->data->dev_private;
26f04883STom Barbette	struct mlx5_rxq_data *rxq;
26f04883STom Barbette
26f04883STom Barbette	if (dev->rx_pkt_burst != mlx5_rx_burst) {
26f04883STom Barbette		rte_errno = ENOTSUP;
26f04883STom Barbette		return -rte_errno;
26f04883STom Barbette	}
26f04883STom Barbette	rxq = (*priv->rxqs)[rx_queue_id];
26f04883STom Barbette	if (!rxq) {
26f04883STom Barbette		rte_errno = EINVAL;
26f04883STom Barbette		return -rte_errno;
26f04883STom Barbette	}
26f04883STom Barbette	return rx_queue_count(rxq);
26f04883STom Barbette}
26f04883STom Barbette
066cfecdSMatan Azrad#define MLX5_SYSTEM_LOG_DIR "/var/log"
066cfecdSMatan Azrad/**
066cfecdSMatan Azrad * Dump debug information to log file.
066cfecdSMatan Azrad *
066cfecdSMatan Azrad * @param fname
066cfecdSMatan Azrad *   The file name.
066cfecdSMatan Azrad * @param hex_title
066cfecdSMatan Azrad *   If not NULL this string is printed as a header to the output
066cfecdSMatan Azrad *   and the output will be in hexadecimal view.
066cfecdSMatan Azrad * @param buf
066cfecdSMatan Azrad *   This is the buffer address to print out.
066cfecdSMatan Azrad * @param len
066cfecdSMatan Azrad *   The number of bytes to dump out.
066cfecdSMatan Azrad */
066cfecdSMatan Azradvoid
066cfecdSMatan Azradmlx5_dump_debug_information(const char *fname, const char *hex_title,
066cfecdSMatan Azrad			    const void *buf, unsigned int hex_len)
066cfecdSMatan Azrad{
066cfecdSMatan Azrad	FILE *fd;
066cfecdSMatan Azrad
066cfecdSMatan Azrad	MKSTR(path, "%s/%s", MLX5_SYSTEM_LOG_DIR, fname);
066cfecdSMatan Azrad	fd = fopen(path, "a+");
066cfecdSMatan Azrad	if (!fd) {
066cfecdSMatan Azrad		DRV_LOG(WARNING, "cannot open %s for debug dump\n",
066cfecdSMatan Azrad			path);
066cfecdSMatan Azrad		MKSTR(path2, "./%s", fname);
066cfecdSMatan Azrad		fd = fopen(path2, "a+");
066cfecdSMatan Azrad		if (!fd) {
066cfecdSMatan Azrad			DRV_LOG(ERR, "cannot open %s for debug dump\n",
066cfecdSMatan Azrad				path2);
066cfecdSMatan Azrad			return;
066cfecdSMatan Azrad		}
066cfecdSMatan Azrad		DRV_LOG(INFO, "New debug dump in file %s\n", path2);
066cfecdSMatan Azrad	} else {
066cfecdSMatan Azrad		DRV_LOG(INFO, "New debug dump in file %s\n", path);
066cfecdSMatan Azrad	}
066cfecdSMatan Azrad	if (hex_title)
066cfecdSMatan Azrad		rte_hexdump(fd, hex_title, buf, hex_len);
066cfecdSMatan Azrad	else
066cfecdSMatan Azrad		fprintf(fd, "%s", (const char *)buf);
066cfecdSMatan Azrad	fprintf(fd, "\n\n\n");
066cfecdSMatan Azrad	fclose(fd);
066cfecdSMatan Azrad}
066cfecdSMatan Azrad
26f04883STom Barbette/**
35c090eaSMatan Azrad * Move QP from error state to running state and initialize indexes.
957e45fbSMatan Azrad *
35c090eaSMatan Azrad * @param txq_ctrl
35c090eaSMatan Azrad *   Pointer to TX queue control structure.
957e45fbSMatan Azrad *
957e45fbSMatan Azrad * @return
35c090eaSMatan Azrad *   0 on success, else -1.
957e45fbSMatan Azrad */
957e45fbSMatan Azradstatic int
35c090eaSMatan Azradtx_recover_qp(struct mlx5_txq_ctrl *txq_ctrl)
957e45fbSMatan Azrad{
35c090eaSMatan Azrad	struct mlx5_mp_arg_queue_state_modify sm = {
35c090eaSMatan Azrad			.is_wq = 0,
35c090eaSMatan Azrad			.queue_id = txq_ctrl->txq.idx,
957e45fbSMatan Azrad	};
35c090eaSMatan Azrad
35c090eaSMatan Azrad	if (mlx5_queue_state_modify(ETH_DEV(txq_ctrl->priv), &sm))
35c090eaSMatan Azrad		return -1;
35c090eaSMatan Azrad	txq_ctrl->txq.wqe_ci = 0;
35c090eaSMatan Azrad	txq_ctrl->txq.wqe_pi = 0;
35c090eaSMatan Azrad	txq_ctrl->txq.elts_comp = 0;
957e45fbSMatan Azrad	return 0;
957e45fbSMatan Azrad}
957e45fbSMatan Azrad
957e45fbSMatan Azrad/* Return 1 if the error CQE is signed otherwise, sign it and return 0. */
957e45fbSMatan Azradstatic int
957e45fbSMatan Azradcheck_err_cqe_seen(volatile struct mlx5_err_cqe *err_cqe)
957e45fbSMatan Azrad{
957e45fbSMatan Azrad	static const uint8_t magic[] = "seen";
957e45fbSMatan Azrad	int ret = 1;
957e45fbSMatan Azrad	unsigned int i;
957e45fbSMatan Azrad
957e45fbSMatan Azrad	for (i = 0; i < sizeof(magic); ++i)
957e45fbSMatan Azrad		if (!ret || err_cqe->rsvd1[i] != magic[i]) {
957e45fbSMatan Azrad			ret = 0;
957e45fbSMatan Azrad			err_cqe->rsvd1[i] = magic[i];
957e45fbSMatan Azrad		}
957e45fbSMatan Azrad	return ret;
957e45fbSMatan Azrad}
957e45fbSMatan Azrad
957e45fbSMatan Azrad/**
957e45fbSMatan Azrad * Handle error CQE.
957e45fbSMatan Azrad *
957e45fbSMatan Azrad * @param txq
957e45fbSMatan Azrad *   Pointer to TX queue structure.
957e45fbSMatan Azrad * @param error_cqe
957e45fbSMatan Azrad *   Pointer to the error CQE.
957e45fbSMatan Azrad *
957e45fbSMatan Azrad * @return
da1df1ccSViacheslav Ovsiienko *   Negative value if queue recovery failed,
da1df1ccSViacheslav Ovsiienko *   the last Tx buffer element to free otherwise.
957e45fbSMatan Azrad */
da1df1ccSViacheslav Ovsiienkoint
18a1c200SViacheslav Ovsiienkomlx5_tx_error_cqe_handle(struct mlx5_txq_data *restrict txq,
957e45fbSMatan Azrad			 volatile struct mlx5_err_cqe *err_cqe)
957e45fbSMatan Azrad{
957e45fbSMatan Azrad	if (err_cqe->syndrome != MLX5_CQE_SYNDROME_WR_FLUSH_ERR) {
957e45fbSMatan Azrad		const uint16_t wqe_m = ((1 << txq->wqe_n) - 1);
957e45fbSMatan Azrad		struct mlx5_txq_ctrl *txq_ctrl =
957e45fbSMatan Azrad				container_of(txq, struct mlx5_txq_ctrl, txq);
957e45fbSMatan Azrad		uint16_t new_wqe_pi = rte_be_to_cpu_16(err_cqe->wqe_counter);
957e45fbSMatan Azrad		int seen = check_err_cqe_seen(err_cqe);
957e45fbSMatan Azrad
957e45fbSMatan Azrad		if (!seen && txq_ctrl->dump_file_n <
957e45fbSMatan Azrad		    txq_ctrl->priv->config.max_dump_files_num) {
957e45fbSMatan Azrad			MKSTR(err_str, "Unexpected CQE error syndrome "
957e45fbSMatan Azrad			      "0x%02x CQN = %u SQN = %u wqe_counter = %u "
957e45fbSMatan Azrad			      "wq_ci = %u cq_ci = %u", err_cqe->syndrome,
38b4b397SViacheslav Ovsiienko			      txq->cqe_s, txq->qp_num_8s >> 8,
957e45fbSMatan Azrad			      rte_be_to_cpu_16(err_cqe->wqe_counter),
957e45fbSMatan Azrad			      txq->wqe_ci, txq->cq_ci);
957e45fbSMatan Azrad			MKSTR(name, "dpdk_mlx5_port_%u_txq_%u_index_%u_%u",
957e45fbSMatan Azrad			      PORT_ID(txq_ctrl->priv), txq->idx,
957e45fbSMatan Azrad			      txq_ctrl->dump_file_n, (uint32_t)rte_rdtsc());
957e45fbSMatan Azrad			mlx5_dump_debug_information(name, NULL, err_str, 0);
957e45fbSMatan Azrad			mlx5_dump_debug_information(name, "MLX5 Error CQ:",
957e45fbSMatan Azrad						    (const void *)((uintptr_t)
38b4b397SViacheslav Ovsiienko						    txq->cqes),
957e45fbSMatan Azrad						    sizeof(*err_cqe) *
957e45fbSMatan Azrad						    (1 << txq->cqe_n));
957e45fbSMatan Azrad			mlx5_dump_debug_information(name, "MLX5 Error SQ:",
957e45fbSMatan Azrad						    (const void *)((uintptr_t)
a6bd4911SViacheslav Ovsiienko						    txq->wqes),
957e45fbSMatan Azrad						    MLX5_WQE_SIZE *
957e45fbSMatan Azrad						    (1 << txq->wqe_n));
957e45fbSMatan Azrad			txq_ctrl->dump_file_n++;
957e45fbSMatan Azrad		}
957e45fbSMatan Azrad		if (!seen)
957e45fbSMatan Azrad			/*
957e45fbSMatan Azrad			 * Count errors in WQEs units.
957e45fbSMatan Azrad			 * Later it can be improved to count error packets,
957e45fbSMatan Azrad			 * for example, by SQ parsing to find how much packets
957e45fbSMatan Azrad			 * should be counted for each WQE.
957e45fbSMatan Azrad			 */
957e45fbSMatan Azrad			txq->stats.oerrors += ((txq->wqe_ci & wqe_m) -
957e45fbSMatan Azrad						new_wqe_pi) & wqe_m;
35c090eaSMatan Azrad		if (tx_recover_qp(txq_ctrl) == 0) {
957e45fbSMatan Azrad			txq->cq_ci++;
957e45fbSMatan Azrad			/* Release all the remaining buffers. */
957e45fbSMatan Azrad			return txq->elts_head;
957e45fbSMatan Azrad		}
957e45fbSMatan Azrad		/* Recovering failed - try again later on the same WQE. */
da1df1ccSViacheslav Ovsiienko		return -1;
957e45fbSMatan Azrad	} else {
957e45fbSMatan Azrad		txq->cq_ci++;
957e45fbSMatan Azrad	}
957e45fbSMatan Azrad	/* Do not release buffers. */
957e45fbSMatan Azrad	return txq->elts_tail;
957e45fbSMatan Azrad}
957e45fbSMatan Azrad
957e45fbSMatan Azrad/**
67fa62bcSAdrien Mazarguil * Translate RX completion flags to packet type.
67fa62bcSAdrien Mazarguil *
3cc08bc6SXueming Li * @param[in] rxq
3cc08bc6SXueming Li *   Pointer to RX queue structure.
6218063bSNélio Laranjeiro * @param[in] cqe
6218063bSNélio Laranjeiro *   Pointer to CQE.
67fa62bcSAdrien Mazarguil *
78a38edfSJianfeng Tan * @note: fix mlx5_dev_supported_ptypes_get() if any change here.
78a38edfSJianfeng Tan *
67fa62bcSAdrien Mazarguil * @return
67fa62bcSAdrien Mazarguil *   Packet type for struct rte_mbuf.
67fa62bcSAdrien Mazarguil */
67fa62bcSAdrien Mazarguilstatic inline uint32_t
3cc08bc6SXueming Lirxq_cq_to_pkt_type(struct mlx5_rxq_data *rxq, volatile struct mlx5_cqe *cqe)
67fa62bcSAdrien Mazarguil{
ea16068cSYongseok Koh	uint8_t idx;
ea16068cSYongseok Koh	uint8_t pinfo = cqe->pkt_info;
ea16068cSYongseok Koh	uint16_t ptype = cqe->hdr_type_etc;
67fa62bcSAdrien Mazarguil
ea16068cSYongseok Koh	/*
ea16068cSYongseok Koh	 * The index to the array should have:
ea16068cSYongseok Koh	 * bit[1:0] = l3_hdr_type
ea16068cSYongseok Koh	 * bit[4:2] = l4_hdr_type
ea16068cSYongseok Koh	 * bit[5] = ip_frag
ea16068cSYongseok Koh	 * bit[6] = tunneled
ea16068cSYongseok Koh	 * bit[7] = outer_l3_type
ea16068cSYongseok Koh	 */
ea16068cSYongseok Koh	idx = ((pinfo & 0x3) << 6) | ((ptype & 0xfc00) >> 10);
3cc08bc6SXueming Li	return mlx5_ptype_table[idx] | rxq->tunnel * !!(idx & (1 << 6));
67fa62bcSAdrien Mazarguil}
67fa62bcSAdrien Mazarguil
67fa62bcSAdrien Mazarguil/**
6bb506ccSMatan Azrad * Initialize Rx WQ and indexes.
6bb506ccSMatan Azrad *
6bb506ccSMatan Azrad * @param[in] rxq
6bb506ccSMatan Azrad *   Pointer to RX queue structure.
6bb506ccSMatan Azrad */
6bb506ccSMatan Azradvoid
6bb506ccSMatan Azradmlx5_rxq_initialize(struct mlx5_rxq_data *rxq)
6bb506ccSMatan Azrad{
6bb506ccSMatan Azrad	const unsigned int wqe_n = 1 << rxq->elts_n;
6bb506ccSMatan Azrad	unsigned int i;
6bb506ccSMatan Azrad
6bb506ccSMatan Azrad	for (i = 0; (i != wqe_n); ++i) {
6bb506ccSMatan Azrad		volatile struct mlx5_wqe_data_seg *scat;
6bb506ccSMatan Azrad		uintptr_t addr;
6bb506ccSMatan Azrad		uint32_t byte_count;
6bb506ccSMatan Azrad
6bb506ccSMatan Azrad		if (mlx5_rxq_mprq_enabled(rxq)) {
6bb506ccSMatan Azrad			struct mlx5_mprq_buf *buf = (*rxq->mprq_bufs)[i];
6bb506ccSMatan Azrad
6bb506ccSMatan Azrad			scat = &((volatile struct mlx5_wqe_mprq *)
6bb506ccSMatan Azrad				rxq->wqes)[i].dseg;
3a22f387SMatan Azrad			addr = (uintptr_t)mlx5_mprq_buf_addr(buf,
3a22f387SMatan Azrad							 1 << rxq->strd_num_n);
6bb506ccSMatan Azrad			byte_count = (1 << rxq->strd_sz_n) *
6bb506ccSMatan Azrad					(1 << rxq->strd_num_n);
6bb506ccSMatan Azrad		} else {
6bb506ccSMatan Azrad			struct rte_mbuf *buf = (*rxq->elts)[i];
6bb506ccSMatan Azrad
6bb506ccSMatan Azrad			scat = &((volatile struct mlx5_wqe_data_seg *)
6bb506ccSMatan Azrad					rxq->wqes)[i];
6bb506ccSMatan Azrad			addr = rte_pktmbuf_mtod(buf, uintptr_t);
6bb506ccSMatan Azrad			byte_count = DATA_LEN(buf);
6bb506ccSMatan Azrad		}
6bb506ccSMatan Azrad		/* scat->addr must be able to store a pointer. */
6bb506ccSMatan Azrad		assert(sizeof(scat->addr) >= sizeof(uintptr_t));
6bb506ccSMatan Azrad		*scat = (struct mlx5_wqe_data_seg){
6bb506ccSMatan Azrad			.addr = rte_cpu_to_be_64(addr),
6bb506ccSMatan Azrad			.byte_count = rte_cpu_to_be_32(byte_count),
6bb506ccSMatan Azrad			.lkey = mlx5_rx_addr2mr(rxq, addr),
6bb506ccSMatan Azrad		};
6bb506ccSMatan Azrad	}
6bb506ccSMatan Azrad	rxq->consumed_strd = 0;
6bb506ccSMatan Azrad	rxq->decompressed = 0;
6bb506ccSMatan Azrad	rxq->rq_pi = 0;
6bb506ccSMatan Azrad	rxq->zip = (struct rxq_zip){
6bb506ccSMatan Azrad		.ai = 0,
6bb506ccSMatan Azrad	};
6bb506ccSMatan Azrad	/* Update doorbell counter. */
6bb506ccSMatan Azrad	rxq->rq_ci = wqe_n >> rxq->sges_n;
6bb506ccSMatan Azrad	rte_cio_wmb();
6bb506ccSMatan Azrad	*rxq->rq_db = rte_cpu_to_be_32(rxq->rq_ci);
6bb506ccSMatan Azrad}
6bb506ccSMatan Azrad
6bb506ccSMatan Azrad/**
84537d3cSDekel Peled * Modify a Verbs/DevX queue state.
2d77cb61SMatan Azrad * This must be called from the primary process.
2d77cb61SMatan Azrad *
2d77cb61SMatan Azrad * @param dev
2d77cb61SMatan Azrad *   Pointer to Ethernet device.
2d77cb61SMatan Azrad * @param sm
2d77cb61SMatan Azrad *   State modify request parameters.
2d77cb61SMatan Azrad *
2d77cb61SMatan Azrad * @return
2d77cb61SMatan Azrad *   0 in case of success else non-zero value and rte_errno is set.
2d77cb61SMatan Azrad */
2d77cb61SMatan Azradint
2d77cb61SMatan Azradmlx5_queue_state_modify_primary(struct rte_eth_dev *dev,
2d77cb61SMatan Azrad			const struct mlx5_mp_arg_queue_state_modify *sm)
2d77cb61SMatan Azrad{
2d77cb61SMatan Azrad	int ret;
2d77cb61SMatan Azrad	struct mlx5_priv *priv = dev->data->dev_private;
2d77cb61SMatan Azrad
2d77cb61SMatan Azrad	if (sm->is_wq) {
2d77cb61SMatan Azrad		struct mlx5_rxq_data *rxq = (*priv->rxqs)[sm->queue_id];
2d77cb61SMatan Azrad		struct mlx5_rxq_ctrl *rxq_ctrl =
2d77cb61SMatan Azrad			container_of(rxq, struct mlx5_rxq_ctrl, rxq);
2d77cb61SMatan Azrad
84537d3cSDekel Peled		if (rxq_ctrl->obj->type == MLX5_RXQ_OBJ_TYPE_IBV) {
84537d3cSDekel Peled			struct ibv_wq_attr mod = {
84537d3cSDekel Peled				.attr_mask = IBV_WQ_ATTR_STATE,
84537d3cSDekel Peled				.wq_state = sm->state,
84537d3cSDekel Peled			};
84537d3cSDekel Peled
93403560SDekel Peled			ret = mlx5_glue->modify_wq(rxq_ctrl->obj->wq, &mod);
84537d3cSDekel Peled		} else { /* rxq_ctrl->obj->type == MLX5_RXQ_OBJ_TYPE_DEVX_RQ. */
84537d3cSDekel Peled			struct mlx5_devx_modify_rq_attr rq_attr;
84537d3cSDekel Peled
84537d3cSDekel Peled			memset(&rq_attr, 0, sizeof(rq_attr));
84537d3cSDekel Peled			if (sm->state == IBV_WQS_RESET) {
84537d3cSDekel Peled				rq_attr.rq_state = MLX5_RQC_STATE_ERR;
84537d3cSDekel Peled				rq_attr.state = MLX5_RQC_STATE_RST;
84537d3cSDekel Peled			} else if (sm->state == IBV_WQS_RDY) {
84537d3cSDekel Peled				rq_attr.rq_state = MLX5_RQC_STATE_RST;
84537d3cSDekel Peled				rq_attr.state = MLX5_RQC_STATE_RDY;
84537d3cSDekel Peled			} else if (sm->state == IBV_WQS_ERR) {
84537d3cSDekel Peled				rq_attr.rq_state = MLX5_RQC_STATE_RDY;
84537d3cSDekel Peled				rq_attr.state = MLX5_RQC_STATE_ERR;
84537d3cSDekel Peled			}
84537d3cSDekel Peled			ret = mlx5_devx_cmd_modify_rq(rxq_ctrl->obj->rq,
84537d3cSDekel Peled						      &rq_attr);
84537d3cSDekel Peled		}
2d77cb61SMatan Azrad		if (ret) {
2d77cb61SMatan Azrad			DRV_LOG(ERR, "Cannot change Rx WQ state to %u  - %s\n",
2d77cb61SMatan Azrad					sm->state, strerror(errno));
2d77cb61SMatan Azrad			rte_errno = errno;
2d77cb61SMatan Azrad			return ret;
2d77cb61SMatan Azrad		}
35c090eaSMatan Azrad	} else {
35c090eaSMatan Azrad		struct mlx5_txq_data *txq = (*priv->txqs)[sm->queue_id];
35c090eaSMatan Azrad		struct mlx5_txq_ctrl *txq_ctrl =
35c090eaSMatan Azrad			container_of(txq, struct mlx5_txq_ctrl, txq);
35c090eaSMatan Azrad		struct ibv_qp_attr mod = {
35c090eaSMatan Azrad			.qp_state = IBV_QPS_RESET,
35c090eaSMatan Azrad			.port_num = (uint8_t)priv->ibv_port,
35c090eaSMatan Azrad		};
35c090eaSMatan Azrad		struct ibv_qp *qp = txq_ctrl->ibv->qp;
35c090eaSMatan Azrad
35c090eaSMatan Azrad		ret = mlx5_glue->modify_qp(qp, &mod, IBV_QP_STATE);
35c090eaSMatan Azrad		if (ret) {
35c090eaSMatan Azrad			DRV_LOG(ERR, "Cannot change the Tx QP state to RESET "
35c090eaSMatan Azrad				"%s\n", strerror(errno));
35c090eaSMatan Azrad			rte_errno = errno;
35c090eaSMatan Azrad			return ret;
35c090eaSMatan Azrad		}
35c090eaSMatan Azrad		mod.qp_state = IBV_QPS_INIT;
35c090eaSMatan Azrad		ret = mlx5_glue->modify_qp(qp, &mod,
35c090eaSMatan Azrad					   (IBV_QP_STATE | IBV_QP_PORT));
35c090eaSMatan Azrad		if (ret) {
35c090eaSMatan Azrad			DRV_LOG(ERR, "Cannot change Tx QP state to INIT %s\n",
35c090eaSMatan Azrad				strerror(errno));
35c090eaSMatan Azrad			rte_errno = errno;
35c090eaSMatan Azrad			return ret;
35c090eaSMatan Azrad		}
35c090eaSMatan Azrad		mod.qp_state = IBV_QPS_RTR;
35c090eaSMatan Azrad		ret = mlx5_glue->modify_qp(qp, &mod, IBV_QP_STATE);
35c090eaSMatan Azrad		if (ret) {
35c090eaSMatan Azrad			DRV_LOG(ERR, "Cannot change Tx QP state to RTR %s\n",
35c090eaSMatan Azrad				strerror(errno));
35c090eaSMatan Azrad			rte_errno = errno;
35c090eaSMatan Azrad			return ret;
35c090eaSMatan Azrad		}
35c090eaSMatan Azrad		mod.qp_state = IBV_QPS_RTS;
35c090eaSMatan Azrad		ret = mlx5_glue->modify_qp(qp, &mod, IBV_QP_STATE);
35c090eaSMatan Azrad		if (ret) {
35c090eaSMatan Azrad			DRV_LOG(ERR, "Cannot change Tx QP state to RTS %s\n",
35c090eaSMatan Azrad				strerror(errno));
35c090eaSMatan Azrad			rte_errno = errno;
35c090eaSMatan Azrad			return ret;
35c090eaSMatan Azrad		}
2d77cb61SMatan Azrad	}
2d77cb61SMatan Azrad	return 0;
2d77cb61SMatan Azrad}
2d77cb61SMatan Azrad
2d77cb61SMatan Azrad/**
2d77cb61SMatan Azrad * Modify a Verbs queue state.
2d77cb61SMatan Azrad *
2d77cb61SMatan Azrad * @param dev
2d77cb61SMatan Azrad *   Pointer to Ethernet device.
2d77cb61SMatan Azrad * @param sm
2d77cb61SMatan Azrad *   State modify request parameters.
2d77cb61SMatan Azrad *
2d77cb61SMatan Azrad * @return
2d77cb61SMatan Azrad *   0 in case of success else non-zero value.
2d77cb61SMatan Azrad */
2d77cb61SMatan Azradstatic int
2d77cb61SMatan Azradmlx5_queue_state_modify(struct rte_eth_dev *dev,
2d77cb61SMatan Azrad			struct mlx5_mp_arg_queue_state_modify *sm)
2d77cb61SMatan Azrad{
2d77cb61SMatan Azrad	int ret = 0;
2d77cb61SMatan Azrad
2d77cb61SMatan Azrad	switch (rte_eal_process_type()) {
2d77cb61SMatan Azrad	case RTE_PROC_PRIMARY:
2d77cb61SMatan Azrad		ret = mlx5_queue_state_modify_primary(dev, sm);
2d77cb61SMatan Azrad		break;
2d77cb61SMatan Azrad	case RTE_PROC_SECONDARY:
2d77cb61SMatan Azrad		ret = mlx5_mp_req_queue_state_modify(dev, sm);
2d77cb61SMatan Azrad		break;
2d77cb61SMatan Azrad	default:
2d77cb61SMatan Azrad		break;
2d77cb61SMatan Azrad	}
2d77cb61SMatan Azrad	return ret;
2d77cb61SMatan Azrad}
2d77cb61SMatan Azrad
2d77cb61SMatan Azrad/**
88c07335SMatan Azrad * Handle a Rx error.
88c07335SMatan Azrad * The function inserts the RQ state to reset when the first error CQE is
88c07335SMatan Azrad * shown, then drains the CQ by the caller function loop. When the CQ is empty,
88c07335SMatan Azrad * it moves the RQ state to ready and initializes the RQ.
88c07335SMatan Azrad * Next CQE identification and error counting are in the caller responsibility.
88c07335SMatan Azrad *
88c07335SMatan Azrad * @param[in] rxq
88c07335SMatan Azrad *   Pointer to RX queue structure.
88c07335SMatan Azrad * @param[in] mbuf_prepare
88c07335SMatan Azrad *   Whether to prepare mbufs for the RQ.
88c07335SMatan Azrad *
88c07335SMatan Azrad * @return
88c07335SMatan Azrad *   -1 in case of recovery error, otherwise the CQE status.
88c07335SMatan Azrad */
88c07335SMatan Azradint
88c07335SMatan Azradmlx5_rx_err_handle(struct mlx5_rxq_data *rxq, uint8_t mbuf_prepare)
88c07335SMatan Azrad{
88c07335SMatan Azrad	const uint16_t cqe_n = 1 << rxq->cqe_n;
88c07335SMatan Azrad	const uint16_t cqe_mask = cqe_n - 1;
88c07335SMatan Azrad	const unsigned int wqe_n = 1 << rxq->elts_n;
88c07335SMatan Azrad	struct mlx5_rxq_ctrl *rxq_ctrl =
88c07335SMatan Azrad			container_of(rxq, struct mlx5_rxq_ctrl, rxq);
88c07335SMatan Azrad	union {
88c07335SMatan Azrad		volatile struct mlx5_cqe *cqe;
88c07335SMatan Azrad		volatile struct mlx5_err_cqe *err_cqe;
88c07335SMatan Azrad	} u = {
88c07335SMatan Azrad		.cqe = &(*rxq->cqes)[rxq->cq_ci & cqe_mask],
88c07335SMatan Azrad	};
2d77cb61SMatan Azrad	struct mlx5_mp_arg_queue_state_modify sm;
88c07335SMatan Azrad	int ret;
88c07335SMatan Azrad
88c07335SMatan Azrad	switch (rxq->err_state) {
88c07335SMatan Azrad	case MLX5_RXQ_ERR_STATE_NO_ERROR:
88c07335SMatan Azrad		rxq->err_state = MLX5_RXQ_ERR_STATE_NEED_RESET;
88c07335SMatan Azrad		/* Fall-through */
88c07335SMatan Azrad	case MLX5_RXQ_ERR_STATE_NEED_RESET:
2d77cb61SMatan Azrad		sm.is_wq = 1;
2d77cb61SMatan Azrad		sm.queue_id = rxq->idx;
2d77cb61SMatan Azrad		sm.state = IBV_WQS_RESET;
2d77cb61SMatan Azrad		if (mlx5_queue_state_modify(ETH_DEV(rxq_ctrl->priv), &sm))
88c07335SMatan Azrad			return -1;
88c07335SMatan Azrad		if (rxq_ctrl->dump_file_n <
88c07335SMatan Azrad		    rxq_ctrl->priv->config.max_dump_files_num) {
88c07335SMatan Azrad			MKSTR(err_str, "Unexpected CQE error syndrome "
88c07335SMatan Azrad			      "0x%02x CQN = %u RQN = %u wqe_counter = %u"
88c07335SMatan Azrad			      " rq_ci = %u cq_ci = %u", u.err_cqe->syndrome,
2d77cb61SMatan Azrad			      rxq->cqn, rxq_ctrl->wqn,
88c07335SMatan Azrad			      rte_be_to_cpu_16(u.err_cqe->wqe_counter),
88c07335SMatan Azrad			      rxq->rq_ci << rxq->sges_n, rxq->cq_ci);
88c07335SMatan Azrad			MKSTR(name, "dpdk_mlx5_port_%u_rxq_%u_%u",
88c07335SMatan Azrad			      rxq->port_id, rxq->idx, (uint32_t)rte_rdtsc());
88c07335SMatan Azrad			mlx5_dump_debug_information(name, NULL, err_str, 0);
88c07335SMatan Azrad			mlx5_dump_debug_information(name, "MLX5 Error CQ:",
88c07335SMatan Azrad						    (const void *)((uintptr_t)
88c07335SMatan Azrad								    rxq->cqes),
88c07335SMatan Azrad						    sizeof(*u.cqe) * cqe_n);
88c07335SMatan Azrad			mlx5_dump_debug_information(name, "MLX5 Error RQ:",
88c07335SMatan Azrad						    (const void *)((uintptr_t)
88c07335SMatan Azrad								    rxq->wqes),
88c07335SMatan Azrad						    16 * wqe_n);
88c07335SMatan Azrad			rxq_ctrl->dump_file_n++;
88c07335SMatan Azrad		}
88c07335SMatan Azrad		rxq->err_state = MLX5_RXQ_ERR_STATE_NEED_READY;
88c07335SMatan Azrad		/* Fall-through */
88c07335SMatan Azrad	case MLX5_RXQ_ERR_STATE_NEED_READY:
88c07335SMatan Azrad		ret = check_cqe(u.cqe, cqe_n, rxq->cq_ci);
88c07335SMatan Azrad		if (ret == MLX5_CQE_STATUS_HW_OWN) {
88c07335SMatan Azrad			rte_cio_wmb();
88c07335SMatan Azrad			*rxq->cq_db = rte_cpu_to_be_32(rxq->cq_ci);
88c07335SMatan Azrad			rte_cio_wmb();
88c07335SMatan Azrad			/*
88c07335SMatan Azrad			 * The RQ consumer index must be zeroed while moving
88c07335SMatan Azrad			 * from RESET state to RDY state.
88c07335SMatan Azrad			 */
88c07335SMatan Azrad			*rxq->rq_db = rte_cpu_to_be_32(0);
88c07335SMatan Azrad			rte_cio_wmb();
2d77cb61SMatan Azrad			sm.is_wq = 1;
2d77cb61SMatan Azrad			sm.queue_id = rxq->idx;
2d77cb61SMatan Azrad			sm.state = IBV_WQS_RDY;
2d77cb61SMatan Azrad			if (mlx5_queue_state_modify(ETH_DEV(rxq_ctrl->priv),
2d77cb61SMatan Azrad						    &sm))
88c07335SMatan Azrad				return -1;
88c07335SMatan Azrad			if (mbuf_prepare) {
88c07335SMatan Azrad				const uint16_t q_mask = wqe_n - 1;
88c07335SMatan Azrad				uint16_t elt_idx;
88c07335SMatan Azrad				struct rte_mbuf **elt;
88c07335SMatan Azrad				int i;
88c07335SMatan Azrad				unsigned int n = wqe_n - (rxq->rq_ci -
88c07335SMatan Azrad							  rxq->rq_pi);
88c07335SMatan Azrad
88c07335SMatan Azrad				for (i = 0; i < (int)n; ++i) {
88c07335SMatan Azrad					elt_idx = (rxq->rq_ci + i) & q_mask;
88c07335SMatan Azrad					elt = &(*rxq->elts)[elt_idx];
88c07335SMatan Azrad					*elt = rte_mbuf_raw_alloc(rxq->mp);
88c07335SMatan Azrad					if (!*elt) {
88c07335SMatan Azrad						for (i--; i >= 0; --i) {
88c07335SMatan Azrad							elt_idx = (rxq->rq_ci +
88c07335SMatan Azrad								   i) & q_mask;
88c07335SMatan Azrad							elt = &(*rxq->elts)
88c07335SMatan Azrad								[elt_idx];
88c07335SMatan Azrad							rte_pktmbuf_free_seg
88c07335SMatan Azrad								(*elt);
88c07335SMatan Azrad						}
88c07335SMatan Azrad						return -1;
88c07335SMatan Azrad					}
88c07335SMatan Azrad				}
88c07335SMatan Azrad			}
88c07335SMatan Azrad			mlx5_rxq_initialize(rxq);
88c07335SMatan Azrad			rxq->err_state = MLX5_RXQ_ERR_STATE_NO_ERROR;
88c07335SMatan Azrad		}
88c07335SMatan Azrad		return ret;
88c07335SMatan Azrad	default:
88c07335SMatan Azrad		return -1;
88c07335SMatan Azrad	}
88c07335SMatan Azrad}
88c07335SMatan Azrad
88c07335SMatan Azrad/**
99c12dccSNélio Laranjeiro * Get size of the next packet for a given CQE. For compressed CQEs, the
99c12dccSNélio Laranjeiro * consumer index is updated only once all packets of the current one have
99c12dccSNélio Laranjeiro * been processed.
99c12dccSNélio Laranjeiro *
99c12dccSNélio Laranjeiro * @param rxq
99c12dccSNélio Laranjeiro *   Pointer to RX queue.
99c12dccSNélio Laranjeiro * @param cqe
99c12dccSNélio Laranjeiro *   CQE to process.
2e633f1fSYongseok Koh * @param[out] mcqe
2e633f1fSYongseok Koh *   Store pointer to mini-CQE if compressed. Otherwise, the pointer is not
2e633f1fSYongseok Koh *   written.
99c12dccSNélio Laranjeiro *
99c12dccSNélio Laranjeiro * @return
88c07335SMatan Azrad *   0 in case of empty CQE, otherwise the packet size in bytes.
99c12dccSNélio Laranjeiro */
99c12dccSNélio Laranjeirostatic inline int
78142aacSNélio Laranjeiromlx5_rx_poll_len(struct mlx5_rxq_data *rxq, volatile struct mlx5_cqe *cqe,
2e633f1fSYongseok Koh		 uint16_t cqe_cnt, volatile struct mlx5_mini_cqe8 **mcqe)
99c12dccSNélio Laranjeiro{
99c12dccSNélio Laranjeiro	struct rxq_zip *zip = &rxq->zip;
99c12dccSNélio Laranjeiro	uint16_t cqe_n = cqe_cnt + 1;
88c07335SMatan Azrad	int len;
d2e842d0SYongseok Koh	uint16_t idx, end;
99c12dccSNélio Laranjeiro
88c07335SMatan Azrad	do {
88c07335SMatan Azrad		len = 0;
99c12dccSNélio Laranjeiro		/* Process compressed data in the CQE and mini arrays. */
99c12dccSNélio Laranjeiro		if (zip->ai) {
99c12dccSNélio Laranjeiro			volatile struct mlx5_mini_cqe8 (*mc)[8] =
99c12dccSNélio Laranjeiro				(volatile struct mlx5_mini_cqe8 (*)[8])
88c07335SMatan Azrad				(uintptr_t)(&(*rxq->cqes)[zip->ca &
88c07335SMatan Azrad							  cqe_cnt].pkt_info);
99c12dccSNélio Laranjeiro
6b30a6a8SShachar Beiser			len = rte_be_to_cpu_32((*mc)[zip->ai & 7].byte_cnt);
2e633f1fSYongseok Koh			*mcqe = &(*mc)[zip->ai & 7];
99c12dccSNélio Laranjeiro			if ((++zip->ai & 7) == 0) {
d2e842d0SYongseok Koh				/* Invalidate consumed CQEs */
d2e842d0SYongseok Koh				idx = zip->ca;
d2e842d0SYongseok Koh				end = zip->na;
d2e842d0SYongseok Koh				while (idx != end) {
d2e842d0SYongseok Koh					(*rxq->cqes)[idx & cqe_cnt].op_own =
d2e842d0SYongseok Koh						MLX5_CQE_INVALIDATE;
d2e842d0SYongseok Koh					++idx;
d2e842d0SYongseok Koh				}
99c12dccSNélio Laranjeiro				/*
88c07335SMatan Azrad				 * Increment consumer index to skip the number
88c07335SMatan Azrad				 * of CQEs consumed. Hardware leaves holes in
88c07335SMatan Azrad				 * the CQ ring for software use.
99c12dccSNélio Laranjeiro				 */
99c12dccSNélio Laranjeiro				zip->ca = zip->na;
99c12dccSNélio Laranjeiro				zip->na += 8;
99c12dccSNélio Laranjeiro			}
99c12dccSNélio Laranjeiro			if (unlikely(rxq->zip.ai == rxq->zip.cqe_cnt)) {
d2e842d0SYongseok Koh				/* Invalidate the rest */
d2e842d0SYongseok Koh				idx = zip->ca;
d2e842d0SYongseok Koh				end = zip->cq_ci;
99c12dccSNélio Laranjeiro
99c12dccSNélio Laranjeiro				while (idx != end) {
97267b8eSNelio Laranjeiro					(*rxq->cqes)[idx & cqe_cnt].op_own =
99c12dccSNélio Laranjeiro						MLX5_CQE_INVALIDATE;
99c12dccSNélio Laranjeiro					++idx;
99c12dccSNélio Laranjeiro				}
99c12dccSNélio Laranjeiro				rxq->cq_ci = zip->cq_ci;
99c12dccSNélio Laranjeiro				zip->ai = 0;
99c12dccSNélio Laranjeiro			}
88c07335SMatan Azrad		/*
88c07335SMatan Azrad		 * No compressed data, get next CQE and verify if it is
88c07335SMatan Azrad		 * compressed.
88c07335SMatan Azrad		 */
99c12dccSNélio Laranjeiro		} else {
99c12dccSNélio Laranjeiro			int ret;
99c12dccSNélio Laranjeiro			int8_t op_own;
99c12dccSNélio Laranjeiro
97267b8eSNelio Laranjeiro			ret = check_cqe(cqe, cqe_n, rxq->cq_ci);
88c07335SMatan Azrad			if (unlikely(ret != MLX5_CQE_STATUS_SW_OWN)) {
88c07335SMatan Azrad				if (unlikely(ret == MLX5_CQE_STATUS_ERR ||
88c07335SMatan Azrad					     rxq->err_state)) {
88c07335SMatan Azrad					ret = mlx5_rx_err_handle(rxq, 0);
88c07335SMatan Azrad					if (ret == MLX5_CQE_STATUS_HW_OWN ||
88c07335SMatan Azrad					    ret == -1)
99c12dccSNélio Laranjeiro						return 0;
88c07335SMatan Azrad				} else {
88c07335SMatan Azrad					return 0;
88c07335SMatan Azrad				}
88c07335SMatan Azrad			}
99c12dccSNélio Laranjeiro			++rxq->cq_ci;
99c12dccSNélio Laranjeiro			op_own = cqe->op_own;
99c12dccSNélio Laranjeiro			if (MLX5_CQE_FORMAT(op_own) == MLX5_COMPRESSED) {
99c12dccSNélio Laranjeiro				volatile struct mlx5_mini_cqe8 (*mc)[8] =
99c12dccSNélio Laranjeiro					(volatile struct mlx5_mini_cqe8 (*)[8])
88c07335SMatan Azrad					(uintptr_t)(&(*rxq->cqes)
88c07335SMatan Azrad						[rxq->cq_ci &
4aff4bcbSYongseok Koh						 cqe_cnt].pkt_info);
99c12dccSNélio Laranjeiro
99c12dccSNélio Laranjeiro				/* Fix endianness. */
6b30a6a8SShachar Beiser				zip->cqe_cnt = rte_be_to_cpu_32(cqe->byte_cnt);
99c12dccSNélio Laranjeiro				/*
88c07335SMatan Azrad				 * Current mini array position is the one
88c07335SMatan Azrad				 * returned by check_cqe64().
99c12dccSNélio Laranjeiro				 *
88c07335SMatan Azrad				 * If completion comprises several mini arrays,
88c07335SMatan Azrad				 * as a special case the second one is located
88c07335SMatan Azrad				 * 7 CQEs after the initial CQE instead of 8
88c07335SMatan Azrad				 * for subsequent ones.
99c12dccSNélio Laranjeiro				 */
d2e842d0SYongseok Koh				zip->ca = rxq->cq_ci;
99c12dccSNélio Laranjeiro				zip->na = zip->ca + 7;
99c12dccSNélio Laranjeiro				/* Compute the next non compressed CQE. */
99c12dccSNélio Laranjeiro				--rxq->cq_ci;
99c12dccSNélio Laranjeiro				zip->cq_ci = rxq->cq_ci + zip->cqe_cnt;
99c12dccSNélio Laranjeiro				/* Get packet size to return. */
6b30a6a8SShachar Beiser				len = rte_be_to_cpu_32((*mc)[0].byte_cnt);
2e633f1fSYongseok Koh				*mcqe = &(*mc)[0];
99c12dccSNélio Laranjeiro				zip->ai = 1;
88c07335SMatan Azrad				/* Prefetch all to be invalidated */
d2e842d0SYongseok Koh				idx = zip->ca;
d2e842d0SYongseok Koh				end = zip->cq_ci;
d2e842d0SYongseok Koh				while (idx != end) {
88c07335SMatan Azrad					rte_prefetch0(&(*rxq->cqes)[(idx) &
88c07335SMatan Azrad								    cqe_cnt]);
d2e842d0SYongseok Koh					++idx;
d2e842d0SYongseok Koh				}
99c12dccSNélio Laranjeiro			} else {
6b30a6a8SShachar Beiser				len = rte_be_to_cpu_32(cqe->byte_cnt);
99c12dccSNélio Laranjeiro			}
99c12dccSNélio Laranjeiro		}
88c07335SMatan Azrad		if (unlikely(rxq->err_state)) {
88c07335SMatan Azrad			cqe = &(*rxq->cqes)[rxq->cq_ci & cqe_cnt];
88c07335SMatan Azrad			++rxq->stats.idropped;
88c07335SMatan Azrad		} else {
99c12dccSNélio Laranjeiro			return len;
99c12dccSNélio Laranjeiro		}
88c07335SMatan Azrad	} while (1);
88c07335SMatan Azrad}
99c12dccSNélio Laranjeiro
99c12dccSNélio Laranjeiro/**
67fa62bcSAdrien Mazarguil * Translate RX completion flags to offload flags.
67fa62bcSAdrien Mazarguil *
6218063bSNélio Laranjeiro * @param[in] cqe
6218063bSNélio Laranjeiro *   Pointer to CQE.
67fa62bcSAdrien Mazarguil *
67fa62bcSAdrien Mazarguil * @return
67fa62bcSAdrien Mazarguil *   Offload flags (ol_flags) for struct rte_mbuf.
67fa62bcSAdrien Mazarguil */
67fa62bcSAdrien Mazarguilstatic inline uint32_t
6ba07449SXueming Lirxq_cq_to_ol_flags(volatile struct mlx5_cqe *cqe)
67fa62bcSAdrien Mazarguil{
67fa62bcSAdrien Mazarguil	uint32_t ol_flags = 0;
6b30a6a8SShachar Beiser	uint16_t flags = rte_be_to_cpu_16(cqe->hdr_type_etc);
67fa62bcSAdrien Mazarguil
0603df73SNélio Laranjeiro	ol_flags =
0603df73SNélio Laranjeiro		TRANSPOSE(flags,
0603df73SNélio Laranjeiro			  MLX5_CQE_RX_L3_HDR_VALID,
0603df73SNélio Laranjeiro			  PKT_RX_IP_CKSUM_GOOD) |
0603df73SNélio Laranjeiro		TRANSPOSE(flags,
0603df73SNélio Laranjeiro			  MLX5_CQE_RX_L4_HDR_VALID,
83e9d9a3SNelio Laranjeiro			  PKT_RX_L4_CKSUM_GOOD);
67fa62bcSAdrien Mazarguil	return ol_flags;
67fa62bcSAdrien Mazarguil}
67fa62bcSAdrien Mazarguil
67fa62bcSAdrien Mazarguil/**
3e1f82a1SYongseok Koh * Fill in mbuf fields from RX completion flags.
3e1f82a1SYongseok Koh * Note that pkt->ol_flags should be initialized outside of this function.
3e1f82a1SYongseok Koh *
3e1f82a1SYongseok Koh * @param rxq
3e1f82a1SYongseok Koh *   Pointer to RX queue.
3e1f82a1SYongseok Koh * @param pkt
3e1f82a1SYongseok Koh *   mbuf to fill.
3e1f82a1SYongseok Koh * @param cqe
3e1f82a1SYongseok Koh *   CQE to process.
3e1f82a1SYongseok Koh * @param rss_hash_res
3e1f82a1SYongseok Koh *   Packet RSS Hash result.
3e1f82a1SYongseok Koh */
3e1f82a1SYongseok Kohstatic inline void
3e1f82a1SYongseok Kohrxq_cq_to_mbuf(struct mlx5_rxq_data *rxq, struct rte_mbuf *pkt,
3e1f82a1SYongseok Koh	       volatile struct mlx5_cqe *cqe, uint32_t rss_hash_res)
3e1f82a1SYongseok Koh{
3e1f82a1SYongseok Koh	/* Update packet information. */
3e1f82a1SYongseok Koh	pkt->packet_type = rxq_cq_to_pkt_type(rxq, cqe);
3e1f82a1SYongseok Koh	if (rss_hash_res && rxq->rss_hash) {
3e1f82a1SYongseok Koh		pkt->hash.rss = rss_hash_res;
3e1f82a1SYongseok Koh		pkt->ol_flags |= PKT_RX_RSS_HASH;
3e1f82a1SYongseok Koh	}
3e1f82a1SYongseok Koh	if (rxq->mark && MLX5_FLOW_MARK_IS_VALID(cqe->sop_drop_qpn)) {
3e1f82a1SYongseok Koh		pkt->ol_flags |= PKT_RX_FDIR;
3e1f82a1SYongseok Koh		if (cqe->sop_drop_qpn !=
3e1f82a1SYongseok Koh		    rte_cpu_to_be_32(MLX5_FLOW_MARK_DEFAULT)) {
3e1f82a1SYongseok Koh			uint32_t mark = cqe->sop_drop_qpn;
3e1f82a1SYongseok Koh
3e1f82a1SYongseok Koh			pkt->ol_flags |= PKT_RX_FDIR_ID;
3e1f82a1SYongseok Koh			pkt->hash.fdir.hi = mlx5_flow_mark_get(mark);
3e1f82a1SYongseok Koh		}
3e1f82a1SYongseok Koh	}
3e1f82a1SYongseok Koh	if (rxq->csum)
3e1f82a1SYongseok Koh		pkt->ol_flags |= rxq_cq_to_ol_flags(cqe);
3e1f82a1SYongseok Koh	if (rxq->vlan_strip &&
3e1f82a1SYongseok Koh	    (cqe->hdr_type_etc & rte_cpu_to_be_16(MLX5_CQE_VLAN_STRIPPED))) {
3e1f82a1SYongseok Koh		pkt->ol_flags |= PKT_RX_VLAN | PKT_RX_VLAN_STRIPPED;
3e1f82a1SYongseok Koh		pkt->vlan_tci = rte_be_to_cpu_16(cqe->vlan_info);
3e1f82a1SYongseok Koh	}
3e1f82a1SYongseok Koh	if (rxq->hw_timestamp) {
3e1f82a1SYongseok Koh		pkt->timestamp = rte_be_to_cpu_64(cqe->timestamp);
3e1f82a1SYongseok Koh		pkt->ol_flags |= PKT_RX_TIMESTAMP;
3e1f82a1SYongseok Koh	}
3e1f82a1SYongseok Koh}
3e1f82a1SYongseok Koh
3e1f82a1SYongseok Koh/**
2e22920bSAdrien Mazarguil * DPDK callback for RX.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * @param dpdk_rxq
2e22920bSAdrien Mazarguil *   Generic pointer to RX queue structure.
2e22920bSAdrien Mazarguil * @param[out] pkts
2e22920bSAdrien Mazarguil *   Array to store received packets.
2e22920bSAdrien Mazarguil * @param pkts_n
2e22920bSAdrien Mazarguil *   Maximum number of packets in array.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * @return
2e22920bSAdrien Mazarguil *   Number of packets successfully received (<= pkts_n).
2e22920bSAdrien Mazarguil */
2e22920bSAdrien Mazarguiluint16_t
2e22920bSAdrien Mazarguilmlx5_rx_burst(void *dpdk_rxq, struct rte_mbuf **pkts, uint16_t pkts_n)
2e22920bSAdrien Mazarguil{
78142aacSNélio Laranjeiro	struct mlx5_rxq_data *rxq = dpdk_rxq;
b4b12e55SNélio Laranjeiro	const unsigned int wqe_cnt = (1 << rxq->elts_n) - 1;
e2f116eeSNélio Laranjeiro	const unsigned int cqe_cnt = (1 << rxq->cqe_n) - 1;
9964b965SNélio Laranjeiro	const unsigned int sges_n = rxq->sges_n;
9964b965SNélio Laranjeiro	struct rte_mbuf *pkt = NULL;
9964b965SNélio Laranjeiro	struct rte_mbuf *seg = NULL;
97267b8eSNelio Laranjeiro	volatile struct mlx5_cqe *cqe =
97267b8eSNelio Laranjeiro		&(*rxq->cqes)[rxq->cq_ci & cqe_cnt];
9964b965SNélio Laranjeiro	unsigned int i = 0;
9964b965SNélio Laranjeiro	unsigned int rq_ci = rxq->rq_ci << sges_n;
4e66a6feSNelio Laranjeiro	int len = 0; /* keep its value across iterations. */
2e22920bSAdrien Mazarguil
9964b965SNélio Laranjeiro	while (pkts_n) {
9964b965SNélio Laranjeiro		unsigned int idx = rq_ci & wqe_cnt;
7d6bf6b8SYongseok Koh		volatile struct mlx5_wqe_data_seg *wqe =
7d6bf6b8SYongseok Koh			&((volatile struct mlx5_wqe_data_seg *)rxq->wqes)[idx];
9964b965SNélio Laranjeiro		struct rte_mbuf *rep = (*rxq->elts)[idx];
2e633f1fSYongseok Koh		volatile struct mlx5_mini_cqe8 *mcqe = NULL;
2e633f1fSYongseok Koh		uint32_t rss_hash_res;
9964b965SNélio Laranjeiro
9964b965SNélio Laranjeiro		if (pkt)
9964b965SNélio Laranjeiro			NEXT(seg) = rep;
9964b965SNélio Laranjeiro		seg = rep;
9964b965SNélio Laranjeiro		rte_prefetch0(seg);
6218063bSNélio Laranjeiro		rte_prefetch0(cqe);
9964b965SNélio Laranjeiro		rte_prefetch0(wqe);
fbfd9955SOlivier Matz		rep = rte_mbuf_raw_alloc(rxq->mp);
2e22920bSAdrien Mazarguil		if (unlikely(rep == NULL)) {
15a756b6SSagi Grimberg			++rxq->stats.rx_nombuf;
15a756b6SSagi Grimberg			if (!pkt) {
15a756b6SSagi Grimberg				/*
15a756b6SSagi Grimberg				 * no buffers before we even started,
15a756b6SSagi Grimberg				 * bail out silently.
15a756b6SSagi Grimberg				 */
15a756b6SSagi Grimberg				break;
15a756b6SSagi Grimberg			}
a1bdb71aSNélio Laranjeiro			while (pkt != seg) {
a1bdb71aSNélio Laranjeiro				assert(pkt != (*rxq->elts)[idx]);
fe5fe382SNélio Laranjeiro				rep = NEXT(pkt);
8f094a9aSOlivier Matz				NEXT(pkt) = NULL;
8f094a9aSOlivier Matz				NB_SEGS(pkt) = 1;
1f88c0a2SOlivier Matz				rte_mbuf_raw_free(pkt);
fe5fe382SNélio Laranjeiro				pkt = rep;
9964b965SNélio Laranjeiro			}
6218063bSNélio Laranjeiro			break;
2e22920bSAdrien Mazarguil		}
9964b965SNélio Laranjeiro		if (!pkt) {
97267b8eSNelio Laranjeiro			cqe = &(*rxq->cqes)[rxq->cq_ci & cqe_cnt];
2e633f1fSYongseok Koh			len = mlx5_rx_poll_len(rxq, cqe, cqe_cnt, &mcqe);
ecf60761SNélio Laranjeiro			if (!len) {
1f88c0a2SOlivier Matz				rte_mbuf_raw_free(rep);
6218063bSNélio Laranjeiro				break;
6218063bSNélio Laranjeiro			}
9964b965SNélio Laranjeiro			pkt = seg;
9964b965SNélio Laranjeiro			assert(len >= (rxq->crc_present << 2));
0ac64846SMaxime Leroy			pkt->ol_flags = 0;
2e633f1fSYongseok Koh			/* If compressed, take hash result from mini-CQE. */
2e633f1fSYongseok Koh			rss_hash_res = rte_be_to_cpu_32(mcqe == NULL ?
2e633f1fSYongseok Koh							cqe->rx_hash_res :
2e633f1fSYongseok Koh							mcqe->rx_hash_result);
3e1f82a1SYongseok Koh			rxq_cq_to_mbuf(rxq, pkt, cqe, rss_hash_res);
6218063bSNélio Laranjeiro			if (rxq->crc_present)
35b2d13fSOlivier Matz				len -= RTE_ETHER_CRC_LEN;
6218063bSNélio Laranjeiro			PKT_LEN(pkt) = len;
2579543fSMatan Azrad			if (cqe->lro_num_seg > 1) {
2579543fSMatan Azrad				mlx5_lro_update_hdr
2579543fSMatan Azrad					(rte_pktmbuf_mtod(pkt, uint8_t *), cqe,
2579543fSMatan Azrad					 len);
2579543fSMatan Azrad				pkt->ol_flags |= PKT_RX_LRO;
2579543fSMatan Azrad				pkt->tso_segsz = len / cqe->lro_num_seg;
2579543fSMatan Azrad			}
9964b965SNélio Laranjeiro		}
9964b965SNélio Laranjeiro		DATA_LEN(rep) = DATA_LEN(seg);
9964b965SNélio Laranjeiro		PKT_LEN(rep) = PKT_LEN(seg);
9964b965SNélio Laranjeiro		SET_DATA_OFF(rep, DATA_OFF(seg));
9964b965SNélio Laranjeiro		PORT(rep) = PORT(seg);
9964b965SNélio Laranjeiro		(*rxq->elts)[idx] = rep;
9964b965SNélio Laranjeiro		/*
9964b965SNélio Laranjeiro		 * Fill NIC descriptor with the new buffer.  The lkey and size
9964b965SNélio Laranjeiro		 * of the buffers are already known, only the buffer address
9964b965SNélio Laranjeiro		 * changes.
9964b965SNélio Laranjeiro		 */
6b30a6a8SShachar Beiser		wqe->addr = rte_cpu_to_be_64(rte_pktmbuf_mtod(rep, uintptr_t));
974f1e7eSYongseok Koh		/* If there's only one MR, no need to replace LKey in WQE. */
974f1e7eSYongseok Koh		if (unlikely(mlx5_mr_btree_len(&rxq->mr_ctrl.cache_bh) > 1))
974f1e7eSYongseok Koh			wqe->lkey = mlx5_rx_mb2mr(rxq, rep);
9964b965SNélio Laranjeiro		if (len > DATA_LEN(seg)) {
9964b965SNélio Laranjeiro			len -= DATA_LEN(seg);
9964b965SNélio Laranjeiro			++NB_SEGS(pkt);
9964b965SNélio Laranjeiro			++rq_ci;
9964b965SNélio Laranjeiro			continue;
9964b965SNélio Laranjeiro		}
9964b965SNélio Laranjeiro		DATA_LEN(seg) = len;
87011737SAdrien Mazarguil#ifdef MLX5_PMD_SOFT_COUNTERS
87011737SAdrien Mazarguil		/* Increment bytes counter. */
9964b965SNélio Laranjeiro		rxq->stats.ibytes += PKT_LEN(pkt);
87011737SAdrien Mazarguil#endif
6218063bSNélio Laranjeiro		/* Return packet. */
6218063bSNélio Laranjeiro		*(pkts++) = pkt;
9964b965SNélio Laranjeiro		pkt = NULL;
9964b965SNélio Laranjeiro		--pkts_n;
9964b965SNélio Laranjeiro		++i;
9964b965SNélio Laranjeiro		/* Align consumer index to the next stride. */
9964b965SNélio Laranjeiro		rq_ci >>= sges_n;
6218063bSNélio Laranjeiro		++rq_ci;
9964b965SNélio Laranjeiro		rq_ci <<= sges_n;
2e22920bSAdrien Mazarguil	}
9964b965SNélio Laranjeiro	if (unlikely((i == 0) && ((rq_ci >> sges_n) == rxq->rq_ci)))
2e22920bSAdrien Mazarguil		return 0;
6218063bSNélio Laranjeiro	/* Update the consumer index. */
9964b965SNélio Laranjeiro	rxq->rq_ci = rq_ci >> sges_n;
4fe7f662SYongseok Koh	rte_cio_wmb();
6b30a6a8SShachar Beiser	*rxq->cq_db = rte_cpu_to_be_32(rxq->cq_ci);
4fe7f662SYongseok Koh	rte_cio_wmb();
6b30a6a8SShachar Beiser	*rxq->rq_db = rte_cpu_to_be_32(rxq->rq_ci);
87011737SAdrien Mazarguil#ifdef MLX5_PMD_SOFT_COUNTERS
87011737SAdrien Mazarguil	/* Increment packets counter. */
9964b965SNélio Laranjeiro	rxq->stats.ipackets += i;
87011737SAdrien Mazarguil#endif
9964b965SNélio Laranjeiro	return i;
2e22920bSAdrien Mazarguil}
2e22920bSAdrien Mazarguil
e4c2a16eSMatan Azrad/**
e4c2a16eSMatan Azrad * Update LRO packet TCP header.
e4c2a16eSMatan Azrad * The HW LRO feature doesn't update the TCP header after coalescing the
e4c2a16eSMatan Azrad * TCP segments but supplies information in CQE to fill it by SW.
e4c2a16eSMatan Azrad *
e4c2a16eSMatan Azrad * @param tcp
e4c2a16eSMatan Azrad *   Pointer to the TCP header.
e4c2a16eSMatan Azrad * @param cqe
e4c2a16eSMatan Azrad *   Pointer to the completion entry..
e4c2a16eSMatan Azrad * @param phcsum
e4c2a16eSMatan Azrad *   The L3 pseudo-header checksum.
e4c2a16eSMatan Azrad */
e4c2a16eSMatan Azradstatic inline void
e4c2a16eSMatan Azradmlx5_lro_update_tcp_hdr(struct rte_tcp_hdr *restrict tcp,
e4c2a16eSMatan Azrad			volatile struct mlx5_cqe *restrict cqe,
e4c2a16eSMatan Azrad			uint32_t phcsum)
e4c2a16eSMatan Azrad{
e4c2a16eSMatan Azrad	uint8_t l4_type = (rte_be_to_cpu_16(cqe->hdr_type_etc) &
e4c2a16eSMatan Azrad			   MLX5_CQE_L4_TYPE_MASK) >> MLX5_CQE_L4_TYPE_SHIFT;
e4c2a16eSMatan Azrad	/*
e4c2a16eSMatan Azrad	 * The HW calculates only the TCP payload checksum, need to complete
e4c2a16eSMatan Azrad	 * the TCP header checksum and the L3 pseudo-header checksum.
e4c2a16eSMatan Azrad	 */
e4c2a16eSMatan Azrad	uint32_t csum = phcsum + cqe->csum;
e4c2a16eSMatan Azrad
e4c2a16eSMatan Azrad	if (l4_type == MLX5_L4_HDR_TYPE_TCP_EMPTY_ACK ||
e4c2a16eSMatan Azrad	    l4_type == MLX5_L4_HDR_TYPE_TCP_WITH_ACL) {
e4c2a16eSMatan Azrad		tcp->tcp_flags |= RTE_TCP_ACK_FLAG;
e4c2a16eSMatan Azrad		tcp->recv_ack = cqe->lro_ack_seq_num;
e4c2a16eSMatan Azrad		tcp->rx_win = cqe->lro_tcp_win;
e4c2a16eSMatan Azrad	}
e4c2a16eSMatan Azrad	if (cqe->lro_tcppsh_abort_dupack & MLX5_CQE_LRO_PUSH_MASK)
e4c2a16eSMatan Azrad		tcp->tcp_flags |= RTE_TCP_PSH_FLAG;
e4c2a16eSMatan Azrad	tcp->cksum = 0;
e4c2a16eSMatan Azrad	csum += rte_raw_cksum(tcp, (tcp->data_off & 0xF) * 4);
e4c2a16eSMatan Azrad	csum = ((csum & 0xffff0000) >> 16) + (csum & 0xffff);
e4c2a16eSMatan Azrad	csum = (~csum) & 0xffff;
e4c2a16eSMatan Azrad	if (csum == 0)
e4c2a16eSMatan Azrad		csum = 0xffff;
e4c2a16eSMatan Azrad	tcp->cksum = csum;
e4c2a16eSMatan Azrad}
e4c2a16eSMatan Azrad
e4c2a16eSMatan Azrad/**
e4c2a16eSMatan Azrad * Update LRO packet headers.
e4c2a16eSMatan Azrad * The HW LRO feature doesn't update the L3/TCP headers after coalescing the
e4c2a16eSMatan Azrad * TCP segments but supply information in CQE to fill it by SW.
e4c2a16eSMatan Azrad *
e4c2a16eSMatan Azrad * @param padd
e4c2a16eSMatan Azrad *   The packet address.
e4c2a16eSMatan Azrad * @param cqe
e4c2a16eSMatan Azrad *   Pointer to the completion entry..
e4c2a16eSMatan Azrad * @param len
e4c2a16eSMatan Azrad *   The packet length.
e4c2a16eSMatan Azrad */
e4c2a16eSMatan Azradstatic inline void
e4c2a16eSMatan Azradmlx5_lro_update_hdr(uint8_t *restrict padd,
e4c2a16eSMatan Azrad		    volatile struct mlx5_cqe *restrict cqe,
e4c2a16eSMatan Azrad		    uint32_t len)
e4c2a16eSMatan Azrad{
e4c2a16eSMatan Azrad	union {
e4c2a16eSMatan Azrad		struct rte_ether_hdr *eth;
e4c2a16eSMatan Azrad		struct rte_vlan_hdr *vlan;
e4c2a16eSMatan Azrad		struct rte_ipv4_hdr *ipv4;
e4c2a16eSMatan Azrad		struct rte_ipv6_hdr *ipv6;
e4c2a16eSMatan Azrad		struct rte_tcp_hdr *tcp;
e4c2a16eSMatan Azrad		uint8_t *hdr;
e4c2a16eSMatan Azrad	} h = {
e4c2a16eSMatan Azrad			.hdr = padd,
e4c2a16eSMatan Azrad	};
e4c2a16eSMatan Azrad	uint16_t proto = h.eth->ether_type;
e4c2a16eSMatan Azrad	uint32_t phcsum;
e4c2a16eSMatan Azrad
e4c2a16eSMatan Azrad	h.eth++;
e4c2a16eSMatan Azrad	while (proto == RTE_BE16(RTE_ETHER_TYPE_VLAN) ||
e4c2a16eSMatan Azrad	       proto == RTE_BE16(RTE_ETHER_TYPE_QINQ)) {
e4c2a16eSMatan Azrad		proto = h.vlan->eth_proto;
e4c2a16eSMatan Azrad		h.vlan++;
e4c2a16eSMatan Azrad	}
e4c2a16eSMatan Azrad	if (proto == RTE_BE16(RTE_ETHER_TYPE_IPV4)) {
e4c2a16eSMatan Azrad		h.ipv4->time_to_live = cqe->lro_min_ttl;
e4c2a16eSMatan Azrad		h.ipv4->total_length = rte_cpu_to_be_16(len - (h.hdr - padd));
e4c2a16eSMatan Azrad		h.ipv4->hdr_checksum = 0;
e4c2a16eSMatan Azrad		h.ipv4->hdr_checksum = rte_ipv4_cksum(h.ipv4);
e4c2a16eSMatan Azrad		phcsum = rte_ipv4_phdr_cksum(h.ipv4, 0);
e4c2a16eSMatan Azrad		h.ipv4++;
e4c2a16eSMatan Azrad	} else {
e4c2a16eSMatan Azrad		h.ipv6->hop_limits = cqe->lro_min_ttl;
e4c2a16eSMatan Azrad		h.ipv6->payload_len = rte_cpu_to_be_16(len - (h.hdr - padd) -
e4c2a16eSMatan Azrad						       sizeof(*h.ipv6));
e4c2a16eSMatan Azrad		phcsum = rte_ipv6_phdr_cksum(h.ipv6, 0);
e4c2a16eSMatan Azrad		h.ipv6++;
e4c2a16eSMatan Azrad	}
e4c2a16eSMatan Azrad	mlx5_lro_update_tcp_hdr(h.tcp, cqe, phcsum);
e4c2a16eSMatan Azrad}
e4c2a16eSMatan Azrad
7d6bf6b8SYongseok Kohvoid
7d6bf6b8SYongseok Kohmlx5_mprq_buf_free_cb(void *addr __rte_unused, void *opaque)
7d6bf6b8SYongseok Koh{
7d6bf6b8SYongseok Koh	struct mlx5_mprq_buf *buf = opaque;
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Koh	if (rte_atomic16_read(&buf->refcnt) == 1) {
7d6bf6b8SYongseok Koh		rte_mempool_put(buf->mp, buf);
7d6bf6b8SYongseok Koh	} else if (rte_atomic16_add_return(&buf->refcnt, -1) == 0) {
7d6bf6b8SYongseok Koh		rte_atomic16_set(&buf->refcnt, 1);
7d6bf6b8SYongseok Koh		rte_mempool_put(buf->mp, buf);
7d6bf6b8SYongseok Koh	}
7d6bf6b8SYongseok Koh}
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Kohvoid
7d6bf6b8SYongseok Kohmlx5_mprq_buf_free(struct mlx5_mprq_buf *buf)
7d6bf6b8SYongseok Koh{
7d6bf6b8SYongseok Koh	mlx5_mprq_buf_free_cb(NULL, buf);
7d6bf6b8SYongseok Koh}
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Kohstatic inline void
3a22f387SMatan Azradmprq_buf_replace(struct mlx5_rxq_data *rxq, uint16_t rq_idx,
3a22f387SMatan Azrad		 const unsigned int strd_n)
7d6bf6b8SYongseok Koh{
7d6bf6b8SYongseok Koh	struct mlx5_mprq_buf *rep = rxq->mprq_repl;
7d6bf6b8SYongseok Koh	volatile struct mlx5_wqe_data_seg *wqe =
7d6bf6b8SYongseok Koh		&((volatile struct mlx5_wqe_mprq *)rxq->wqes)[rq_idx].dseg;
7d6bf6b8SYongseok Koh	void *addr;
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Koh	assert(rep != NULL);
7d6bf6b8SYongseok Koh	/* Replace MPRQ buf. */
7d6bf6b8SYongseok Koh	(*rxq->mprq_bufs)[rq_idx] = rep;
7d6bf6b8SYongseok Koh	/* Replace WQE. */
3a22f387SMatan Azrad	addr = mlx5_mprq_buf_addr(rep, strd_n);
7d6bf6b8SYongseok Koh	wqe->addr = rte_cpu_to_be_64((uintptr_t)addr);
7d6bf6b8SYongseok Koh	/* If there's only one MR, no need to replace LKey in WQE. */
7d6bf6b8SYongseok Koh	if (unlikely(mlx5_mr_btree_len(&rxq->mr_ctrl.cache_bh) > 1))
7d6bf6b8SYongseok Koh		wqe->lkey = mlx5_rx_addr2mr(rxq, (uintptr_t)addr);
7d6bf6b8SYongseok Koh	/* Stash a mbuf for next replacement. */
7d6bf6b8SYongseok Koh	if (likely(!rte_mempool_get(rxq->mprq_mp, (void **)&rep)))
7d6bf6b8SYongseok Koh		rxq->mprq_repl = rep;
7d6bf6b8SYongseok Koh	else
7d6bf6b8SYongseok Koh		rxq->mprq_repl = NULL;
7d6bf6b8SYongseok Koh}
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Koh/**
7d6bf6b8SYongseok Koh * DPDK callback for RX with Multi-Packet RQ support.
7d6bf6b8SYongseok Koh *
7d6bf6b8SYongseok Koh * @param dpdk_rxq
7d6bf6b8SYongseok Koh *   Generic pointer to RX queue structure.
7d6bf6b8SYongseok Koh * @param[out] pkts
7d6bf6b8SYongseok Koh *   Array to store received packets.
7d6bf6b8SYongseok Koh * @param pkts_n
7d6bf6b8SYongseok Koh *   Maximum number of packets in array.
7d6bf6b8SYongseok Koh *
7d6bf6b8SYongseok Koh * @return
7d6bf6b8SYongseok Koh *   Number of packets successfully received (<= pkts_n).
7d6bf6b8SYongseok Koh */
7d6bf6b8SYongseok Kohuint16_t
7d6bf6b8SYongseok Kohmlx5_rx_burst_mprq(void *dpdk_rxq, struct rte_mbuf **pkts, uint16_t pkts_n)
7d6bf6b8SYongseok Koh{
7d6bf6b8SYongseok Koh	struct mlx5_rxq_data *rxq = dpdk_rxq;
7d6bf6b8SYongseok Koh	const unsigned int strd_n = 1 << rxq->strd_num_n;
7d6bf6b8SYongseok Koh	const unsigned int strd_sz = 1 << rxq->strd_sz_n;
7d6bf6b8SYongseok Koh	const unsigned int strd_shift =
7d6bf6b8SYongseok Koh		MLX5_MPRQ_STRIDE_SHIFT_BYTE * rxq->strd_shift_en;
7d6bf6b8SYongseok Koh	const unsigned int cq_mask = (1 << rxq->cqe_n) - 1;
7d6bf6b8SYongseok Koh	const unsigned int wq_mask = (1 << rxq->elts_n) - 1;
7d6bf6b8SYongseok Koh	volatile struct mlx5_cqe *cqe = &(*rxq->cqes)[rxq->cq_ci & cq_mask];
7d6bf6b8SYongseok Koh	unsigned int i = 0;
3afdf157SXueming Li	uint32_t rq_ci = rxq->rq_ci;
1787eb7bSYongseok Koh	uint16_t consumed_strd = rxq->consumed_strd;
a496e093SMatan Azrad	uint16_t headroom_sz = rxq->strd_headroom_en * RTE_PKTMBUF_HEADROOM;
7d6bf6b8SYongseok Koh	struct mlx5_mprq_buf *buf = (*rxq->mprq_bufs)[rq_ci & wq_mask];
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Koh	while (i < pkts_n) {
7d6bf6b8SYongseok Koh		struct rte_mbuf *pkt;
7d6bf6b8SYongseok Koh		void *addr;
7d6bf6b8SYongseok Koh		int ret;
7d6bf6b8SYongseok Koh		unsigned int len;
1787eb7bSYongseok Koh		uint16_t strd_cnt;
1787eb7bSYongseok Koh		uint16_t strd_idx;
7d6bf6b8SYongseok Koh		uint32_t offset;
7d6bf6b8SYongseok Koh		uint32_t byte_cnt;
2e633f1fSYongseok Koh		volatile struct mlx5_mini_cqe8 *mcqe = NULL;
1787eb7bSYongseok Koh		uint32_t rss_hash_res = 0;
e4c2a16eSMatan Azrad		uint8_t lro_num_seg;
7d6bf6b8SYongseok Koh
1787eb7bSYongseok Koh		if (consumed_strd == strd_n) {
7d6bf6b8SYongseok Koh			/* Replace WQE only if the buffer is still in use. */
7d6bf6b8SYongseok Koh			if (rte_atomic16_read(&buf->refcnt) > 1) {
3a22f387SMatan Azrad				mprq_buf_replace(rxq, rq_ci & wq_mask, strd_n);
7d6bf6b8SYongseok Koh				/* Release the old buffer. */
7d6bf6b8SYongseok Koh				mlx5_mprq_buf_free(buf);
7d6bf6b8SYongseok Koh			} else if (unlikely(rxq->mprq_repl == NULL)) {
7d6bf6b8SYongseok Koh				struct mlx5_mprq_buf *rep;
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Koh				/*
7d6bf6b8SYongseok Koh				 * Currently, the MPRQ mempool is out of buffer
7d6bf6b8SYongseok Koh				 * and doing memcpy regardless of the size of Rx
7d6bf6b8SYongseok Koh				 * packet. Retry allocation to get back to
7d6bf6b8SYongseok Koh				 * normal.
7d6bf6b8SYongseok Koh				 */
7d6bf6b8SYongseok Koh				if (!rte_mempool_get(rxq->mprq_mp,
7d6bf6b8SYongseok Koh						     (void **)&rep))
7d6bf6b8SYongseok Koh					rxq->mprq_repl = rep;
7d6bf6b8SYongseok Koh			}
7d6bf6b8SYongseok Koh			/* Advance to the next WQE. */
1787eb7bSYongseok Koh			consumed_strd = 0;
7d6bf6b8SYongseok Koh			++rq_ci;
7d6bf6b8SYongseok Koh			buf = (*rxq->mprq_bufs)[rq_ci & wq_mask];
7d6bf6b8SYongseok Koh		}
7d6bf6b8SYongseok Koh		cqe = &(*rxq->cqes)[rxq->cq_ci & cq_mask];
2e633f1fSYongseok Koh		ret = mlx5_rx_poll_len(rxq, cqe, cq_mask, &mcqe);
7d6bf6b8SYongseok Koh		if (!ret)
7d6bf6b8SYongseok Koh			break;
7d6bf6b8SYongseok Koh		byte_cnt = ret;
1787eb7bSYongseok Koh		strd_cnt = (byte_cnt & MLX5_MPRQ_STRIDE_NUM_MASK) >>
7d6bf6b8SYongseok Koh			   MLX5_MPRQ_STRIDE_NUM_SHIFT;
1787eb7bSYongseok Koh		assert(strd_cnt);
1787eb7bSYongseok Koh		consumed_strd += strd_cnt;
7d6bf6b8SYongseok Koh		if (byte_cnt & MLX5_MPRQ_FILLER_MASK)
7d6bf6b8SYongseok Koh			continue;
1787eb7bSYongseok Koh		if (mcqe == NULL) {
1787eb7bSYongseok Koh			rss_hash_res = rte_be_to_cpu_32(cqe->rx_hash_res);
1787eb7bSYongseok Koh			strd_idx = rte_be_to_cpu_16(cqe->wqe_counter);
1787eb7bSYongseok Koh		} else {
1787eb7bSYongseok Koh			/* mini-CQE for MPRQ doesn't have hash result. */
1787eb7bSYongseok Koh			strd_idx = rte_be_to_cpu_16(mcqe->stride_idx);
1787eb7bSYongseok Koh		}
1787eb7bSYongseok Koh		assert(strd_idx < strd_n);
1787eb7bSYongseok Koh		assert(!((rte_be_to_cpu_16(cqe->wqe_id) ^ rq_ci) & wq_mask));
e4c2a16eSMatan Azrad		lro_num_seg = cqe->lro_num_seg;
7d6bf6b8SYongseok Koh		/*
7d6bf6b8SYongseok Koh		 * Currently configured to receive a packet per a stride. But if
7d6bf6b8SYongseok Koh		 * MTU is adjusted through kernel interface, device could
7d6bf6b8SYongseok Koh		 * consume multiple strides without raising an error. In this
7d6bf6b8SYongseok Koh		 * case, the packet should be dropped because it is bigger than
7d6bf6b8SYongseok Koh		 * the max_rx_pkt_len.
7d6bf6b8SYongseok Koh		 */
e4c2a16eSMatan Azrad		if (unlikely(!lro_num_seg && strd_cnt > 1)) {
7d6bf6b8SYongseok Koh			++rxq->stats.idropped;
7d6bf6b8SYongseok Koh			continue;
7d6bf6b8SYongseok Koh		}
7d6bf6b8SYongseok Koh		pkt = rte_pktmbuf_alloc(rxq->mp);
7d6bf6b8SYongseok Koh		if (unlikely(pkt == NULL)) {
7d6bf6b8SYongseok Koh			++rxq->stats.rx_nombuf;
7d6bf6b8SYongseok Koh			break;
7d6bf6b8SYongseok Koh		}
7d6bf6b8SYongseok Koh		len = (byte_cnt & MLX5_MPRQ_LEN_MASK) >> MLX5_MPRQ_LEN_SHIFT;
7d6bf6b8SYongseok Koh		assert((int)len >= (rxq->crc_present << 2));
7d6bf6b8SYongseok Koh		if (rxq->crc_present)
35b2d13fSOlivier Matz			len -= RTE_ETHER_CRC_LEN;
1787eb7bSYongseok Koh		offset = strd_idx * strd_sz + strd_shift;
3a22f387SMatan Azrad		addr = RTE_PTR_ADD(mlx5_mprq_buf_addr(buf, strd_n), offset);
7d6bf6b8SYongseok Koh		/*
7d6bf6b8SYongseok Koh		 * Memcpy packets to the target mbuf if:
7d6bf6b8SYongseok Koh		 * - The size of packet is smaller than mprq_max_memcpy_len.
7d6bf6b8SYongseok Koh		 * - Out of buffer in the Mempool for Multi-Packet RQ.
7d6bf6b8SYongseok Koh		 */
7d6bf6b8SYongseok Koh		if (len <= rxq->mprq_max_memcpy_len || rxq->mprq_repl == NULL) {
7d6bf6b8SYongseok Koh			/*
7d6bf6b8SYongseok Koh			 * When memcpy'ing packet due to out-of-buffer, the
7d6bf6b8SYongseok Koh			 * packet must be smaller than the target mbuf.
7d6bf6b8SYongseok Koh			 */
7d6bf6b8SYongseok Koh			if (unlikely(rte_pktmbuf_tailroom(pkt) < len)) {
7d6bf6b8SYongseok Koh				rte_pktmbuf_free_seg(pkt);
7d6bf6b8SYongseok Koh				++rxq->stats.idropped;
7d6bf6b8SYongseok Koh				continue;
7d6bf6b8SYongseok Koh			}
7d6bf6b8SYongseok Koh			rte_memcpy(rte_pktmbuf_mtod(pkt, void *), addr, len);
be39124eSMatan Azrad			DATA_LEN(pkt) = len;
7d6bf6b8SYongseok Koh		} else {
7d6bf6b8SYongseok Koh			rte_iova_t buf_iova;
7d6bf6b8SYongseok Koh			struct rte_mbuf_ext_shared_info *shinfo;
1787eb7bSYongseok Koh			uint16_t buf_len = strd_cnt * strd_sz;
e4c2a16eSMatan Azrad			void *buf_addr;
7d6bf6b8SYongseok Koh
7d6bf6b8SYongseok Koh			/* Increment the refcnt of the whole chunk. */
7d6bf6b8SYongseok Koh			rte_atomic16_add_return(&buf->refcnt, 1);
7d6bf6b8SYongseok Koh			assert((uint16_t)rte_atomic16_read(&buf->refcnt) <=
7d6bf6b8SYongseok Koh			       strd_n + 1);
a496e093SMatan Azrad			buf_addr = RTE_PTR_SUB(addr, headroom_sz);
7d6bf6b8SYongseok Koh			/*
7d6bf6b8SYongseok Koh			 * MLX5 device doesn't use iova but it is necessary in a
7d6bf6b8SYongseok Koh			 * case where the Rx packet is transmitted via a
7d6bf6b8SYongseok Koh			 * different PMD.
7d6bf6b8SYongseok Koh			 */
7d6bf6b8SYongseok Koh			buf_iova = rte_mempool_virt2iova(buf) +
e4c2a16eSMatan Azrad				   RTE_PTR_DIFF(buf_addr, buf);
3a22f387SMatan Azrad			shinfo = &buf->shinfos[strd_idx];
3a22f387SMatan Azrad			rte_mbuf_ext_refcnt_set(shinfo, 1);
7d6bf6b8SYongseok Koh			/*
7d6bf6b8SYongseok Koh			 * EXT_ATTACHED_MBUF will be set to pkt->ol_flags when
7d6bf6b8SYongseok Koh			 * attaching the stride to mbuf and more offload flags
7d6bf6b8SYongseok Koh			 * will be added below by calling rxq_cq_to_mbuf().
7d6bf6b8SYongseok Koh			 * Other fields will be overwritten.
7d6bf6b8SYongseok Koh			 */
e4c2a16eSMatan Azrad			rte_pktmbuf_attach_extbuf(pkt, buf_addr, buf_iova,
e4c2a16eSMatan Azrad						  buf_len, shinfo);
a496e093SMatan Azrad			/* Set mbuf head-room. */
a496e093SMatan Azrad			pkt->data_off = headroom_sz;
7d6bf6b8SYongseok Koh			assert(pkt->ol_flags == EXT_ATTACHED_MBUF);
7d6bf6b8SYongseok Koh			/*
7d6bf6b8SYongseok Koh			 * Prevent potential overflow due to MTU change through
7d6bf6b8SYongseok Koh			 * kernel interface.
7d6bf6b8SYongseok Koh			 */
7d6bf6b8SYongseok Koh			if (unlikely(rte_pktmbuf_tailroom(pkt) < len)) {
7d6bf6b8SYongseok Koh				rte_pktmbuf_free_seg(pkt);
7d6bf6b8SYongseok Koh				++rxq->stats.idropped;
7d6bf6b8SYongseok Koh				continue;
7d6bf6b8SYongseok Koh			}
be39124eSMatan Azrad			DATA_LEN(pkt) = len;
be39124eSMatan Azrad			/*
be39124eSMatan Azrad			 * LRO packet may consume all the stride memory, in this
be39124eSMatan Azrad			 * case packet head-room space is not guaranteed so must
be39124eSMatan Azrad			 * to add an empty mbuf for the head-room.
be39124eSMatan Azrad			 */
be39124eSMatan Azrad			if (!rxq->strd_headroom_en) {
be39124eSMatan Azrad				struct rte_mbuf *headroom_mbuf =
be39124eSMatan Azrad						rte_pktmbuf_alloc(rxq->mp);
be39124eSMatan Azrad
be39124eSMatan Azrad				if (unlikely(headroom_mbuf == NULL)) {
be39124eSMatan Azrad					rte_pktmbuf_free_seg(pkt);
be39124eSMatan Azrad					++rxq->stats.rx_nombuf;
be39124eSMatan Azrad					break;
be39124eSMatan Azrad				}
be39124eSMatan Azrad				PORT(pkt) = rxq->port_id;
be39124eSMatan Azrad				NEXT(headroom_mbuf) = pkt;
be39124eSMatan Azrad				pkt = headroom_mbuf;
be39124eSMatan Azrad				NB_SEGS(pkt) = 2;
be39124eSMatan Azrad			}
7d6bf6b8SYongseok Koh		}
7d6bf6b8SYongseok Koh		rxq_cq_to_mbuf(rxq, pkt, cqe, rss_hash_res);
e4c2a16eSMatan Azrad		if (lro_num_seg > 1) {
e4c2a16eSMatan Azrad			mlx5_lro_update_hdr(addr, cqe, len);
e4c2a16eSMatan Azrad			pkt->ol_flags |= PKT_RX_LRO;
e4c2a16eSMatan Azrad			pkt->tso_segsz = strd_sz;
e4c2a16eSMatan Azrad		}
7d6bf6b8SYongseok Koh		PKT_LEN(pkt) = len;
7d6bf6b8SYongseok Koh		PORT(pkt) = rxq->port_id;
7d6bf6b8SYongseok Koh#ifdef MLX5_PMD_SOFT_COUNTERS
7d6bf6b8SYongseok Koh		/* Increment bytes counter. */
7d6bf6b8SYongseok Koh		rxq->stats.ibytes += PKT_LEN(pkt);
7d6bf6b8SYongseok Koh#endif
7d6bf6b8SYongseok Koh		/* Return packet. */
7d6bf6b8SYongseok Koh		*(pkts++) = pkt;
7d6bf6b8SYongseok Koh		++i;
7d6bf6b8SYongseok Koh	}
7d6bf6b8SYongseok Koh	/* Update the consumer indexes. */
1787eb7bSYongseok Koh	rxq->consumed_strd = consumed_strd;
0cfdc180SYongseok Koh	rte_cio_wmb();
7d6bf6b8SYongseok Koh	*rxq->cq_db = rte_cpu_to_be_32(rxq->cq_ci);
7d6bf6b8SYongseok Koh	if (rq_ci != rxq->rq_ci) {
7d6bf6b8SYongseok Koh		rxq->rq_ci = rq_ci;
0cfdc180SYongseok Koh		rte_cio_wmb();
7d6bf6b8SYongseok Koh		*rxq->rq_db = rte_cpu_to_be_32(rxq->rq_ci);
7d6bf6b8SYongseok Koh	}
7d6bf6b8SYongseok Koh#ifdef MLX5_PMD_SOFT_COUNTERS
7d6bf6b8SYongseok Koh	/* Increment packets counter. */
7d6bf6b8SYongseok Koh	rxq->stats.ipackets += i;
7d6bf6b8SYongseok Koh#endif
7d6bf6b8SYongseok Koh	return i;
7d6bf6b8SYongseok Koh}
7d6bf6b8SYongseok Koh
2e22920bSAdrien Mazarguil/**
2e22920bSAdrien Mazarguil * Dummy DPDK callback for TX.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * This function is used to temporarily replace the real callback during
2e22920bSAdrien Mazarguil * unsafe control operations on the queue, or in case of error.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * @param dpdk_txq
2e22920bSAdrien Mazarguil *   Generic pointer to TX queue structure.
2e22920bSAdrien Mazarguil * @param[in] pkts
2e22920bSAdrien Mazarguil *   Packets to transmit.
2e22920bSAdrien Mazarguil * @param pkts_n
2e22920bSAdrien Mazarguil *   Number of packets in array.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * @return
2e22920bSAdrien Mazarguil *   Number of packets successfully transmitted (<= pkts_n).
2e22920bSAdrien Mazarguil */
2e22920bSAdrien Mazarguiluint16_t
56f08e16SNélio Laranjeiroremoved_tx_burst(void *dpdk_txq __rte_unused,
56f08e16SNélio Laranjeiro		 struct rte_mbuf **pkts __rte_unused,
56f08e16SNélio Laranjeiro		 uint16_t pkts_n __rte_unused)
2e22920bSAdrien Mazarguil{
2aac5b5dSYongseok Koh	rte_mb();
2e22920bSAdrien Mazarguil	return 0;
2e22920bSAdrien Mazarguil}
2e22920bSAdrien Mazarguil
2e22920bSAdrien Mazarguil/**
2e22920bSAdrien Mazarguil * Dummy DPDK callback for RX.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * This function is used to temporarily replace the real callback during
2e22920bSAdrien Mazarguil * unsafe control operations on the queue, or in case of error.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * @param dpdk_rxq
2e22920bSAdrien Mazarguil *   Generic pointer to RX queue structure.
2e22920bSAdrien Mazarguil * @param[out] pkts
2e22920bSAdrien Mazarguil *   Array to store received packets.
2e22920bSAdrien Mazarguil * @param pkts_n
2e22920bSAdrien Mazarguil *   Maximum number of packets in array.
2e22920bSAdrien Mazarguil *
2e22920bSAdrien Mazarguil * @return
2e22920bSAdrien Mazarguil *   Number of packets successfully received (<= pkts_n).
2e22920bSAdrien Mazarguil */
2e22920bSAdrien Mazarguiluint16_t
56f08e16SNélio Laranjeiroremoved_rx_burst(void *dpdk_txq __rte_unused,
56f08e16SNélio Laranjeiro		 struct rte_mbuf **pkts __rte_unused,
56f08e16SNélio Laranjeiro		 uint16_t pkts_n __rte_unused)
2e22920bSAdrien Mazarguil{
2aac5b5dSYongseok Koh	rte_mb();
2e22920bSAdrien Mazarguil	return 0;
2e22920bSAdrien Mazarguil}
6cb559d6SYongseok Koh
6cb559d6SYongseok Koh/*
6cb559d6SYongseok Koh * Vectorized Rx/Tx routines are not compiled in when required vector
6cb559d6SYongseok Koh * instructions are not supported on a target architecture. The following null
6cb559d6SYongseok Koh * stubs are needed for linkage when those are not included outside of this file
6cb559d6SYongseok Koh * (e.g.  mlx5_rxtx_vec_sse.c for x86).
6cb559d6SYongseok Koh */
6cb559d6SYongseok Koh
81bede55SKeith Wiles__rte_weak uint16_t
56f08e16SNélio Laranjeiromlx5_rx_burst_vec(void *dpdk_txq __rte_unused,
56f08e16SNélio Laranjeiro		  struct rte_mbuf **pkts __rte_unused,
56f08e16SNélio Laranjeiro		  uint16_t pkts_n __rte_unused)
6cb559d6SYongseok Koh{
6cb559d6SYongseok Koh	return 0;
6cb559d6SYongseok Koh}
6cb559d6SYongseok Koh
81bede55SKeith Wiles__rte_weak int
af4f09f2SNélio Laranjeiromlx5_rxq_check_vec_support(struct mlx5_rxq_data *rxq __rte_unused)
6cb559d6SYongseok Koh{
6cb559d6SYongseok Koh	return -ENOTSUP;
6cb559d6SYongseok Koh}
6cb559d6SYongseok Koh
81bede55SKeith Wiles__rte_weak int
af4f09f2SNélio Laranjeiromlx5_check_vec_rx_support(struct rte_eth_dev *dev __rte_unused)
6cb559d6SYongseok Koh{
6cb559d6SYongseok Koh	return -ENOTSUP;
6cb559d6SYongseok Koh}
a6bd4911SViacheslav Ovsiienko
a6bd4911SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Free the mbufs from the linear array of pointers.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param pkts
18a1c200SViacheslav Ovsiienko *   Pointer to array of packets to be free.
18a1c200SViacheslav Ovsiienko * @param pkts_n
18a1c200SViacheslav Ovsiienko *   Number of packets to be freed.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_free_mbuf(struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko		  unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct rte_mempool *pool = NULL;
18a1c200SViacheslav Ovsiienko	struct rte_mbuf **p_free = NULL;
18a1c200SViacheslav Ovsiienko	struct rte_mbuf *mbuf;
18a1c200SViacheslav Ovsiienko	unsigned int n_free = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The implemented algorithm eliminates
18a1c200SViacheslav Ovsiienko	 * copying pointers to temporary array
18a1c200SViacheslav Ovsiienko	 * for rte_mempool_put_bulk() calls.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(pkts);
18a1c200SViacheslav Ovsiienko	assert(pkts_n);
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		for (;;) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Decrement mbuf reference counter, detach
18a1c200SViacheslav Ovsiienko			 * indirect and external buffers if needed.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			mbuf = rte_pktmbuf_prefree_seg(*pkts);
18a1c200SViacheslav Ovsiienko			if (likely(mbuf != NULL)) {
18a1c200SViacheslav Ovsiienko				assert(mbuf == *pkts);
18a1c200SViacheslav Ovsiienko				if (likely(n_free != 0)) {
18a1c200SViacheslav Ovsiienko					if (unlikely(pool != mbuf->pool))
18a1c200SViacheslav Ovsiienko						/* From different pool. */
18a1c200SViacheslav Ovsiienko						break;
18a1c200SViacheslav Ovsiienko				} else {
18a1c200SViacheslav Ovsiienko					/* Start new scan array. */
18a1c200SViacheslav Ovsiienko					pool = mbuf->pool;
18a1c200SViacheslav Ovsiienko					p_free = pkts;
18a1c200SViacheslav Ovsiienko				}
18a1c200SViacheslav Ovsiienko				++n_free;
18a1c200SViacheslav Ovsiienko				++pkts;
18a1c200SViacheslav Ovsiienko				--pkts_n;
18a1c200SViacheslav Ovsiienko				if (unlikely(pkts_n == 0)) {
18a1c200SViacheslav Ovsiienko					mbuf = NULL;
18a1c200SViacheslav Ovsiienko					break;
18a1c200SViacheslav Ovsiienko				}
18a1c200SViacheslav Ovsiienko			} else {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * This happens if mbuf is still referenced.
18a1c200SViacheslav Ovsiienko				 * We can't put it back to the pool, skip.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				++pkts;
18a1c200SViacheslav Ovsiienko				--pkts_n;
18a1c200SViacheslav Ovsiienko				if (unlikely(n_free != 0))
18a1c200SViacheslav Ovsiienko					/* There is some array to free.*/
18a1c200SViacheslav Ovsiienko					break;
18a1c200SViacheslav Ovsiienko				if (unlikely(pkts_n == 0))
18a1c200SViacheslav Ovsiienko					/* Last mbuf, nothing to free. */
18a1c200SViacheslav Ovsiienko					return;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		for (;;) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * This loop is implemented to avoid multiple
18a1c200SViacheslav Ovsiienko			 * inlining of rte_mempool_put_bulk().
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			assert(pool);
18a1c200SViacheslav Ovsiienko			assert(p_free);
18a1c200SViacheslav Ovsiienko			assert(n_free);
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Free the array of pre-freed mbufs
18a1c200SViacheslav Ovsiienko			 * belonging to the same memory pool.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			rte_mempool_put_bulk(pool, (void *)p_free, n_free);
18a1c200SViacheslav Ovsiienko			if (unlikely(mbuf != NULL)) {
18a1c200SViacheslav Ovsiienko				/* There is the request to start new scan. */
18a1c200SViacheslav Ovsiienko				pool = mbuf->pool;
18a1c200SViacheslav Ovsiienko				p_free = pkts++;
18a1c200SViacheslav Ovsiienko				n_free = 1;
18a1c200SViacheslav Ovsiienko				--pkts_n;
18a1c200SViacheslav Ovsiienko				if (likely(pkts_n != 0))
18a1c200SViacheslav Ovsiienko					break;
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * This is the last mbuf to be freed.
18a1c200SViacheslav Ovsiienko				 * Do one more loop iteration to complete.
18a1c200SViacheslav Ovsiienko				 * This is rare case of the last unique mbuf.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				mbuf = NULL;
18a1c200SViacheslav Ovsiienko				continue;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (likely(pkts_n == 0))
18a1c200SViacheslav Ovsiienko				return;
18a1c200SViacheslav Ovsiienko			n_free = 0;
18a1c200SViacheslav Ovsiienko			break;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Free the mbuf from the elts ring buffer till new tail.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to Tx queue structure.
18a1c200SViacheslav Ovsiienko * @param tail
18a1c200SViacheslav Ovsiienko *   Index in elts to free up to, becomes new elts tail.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_free_elts(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  uint16_t tail,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	uint16_t n_elts = tail - txq->elts_tail;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(n_elts);
18a1c200SViacheslav Ovsiienko	assert(n_elts <= txq->elts_s);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Implement a loop to support ring buffer wraparound
18a1c200SViacheslav Ovsiienko	 * with single inlining of mlx5_tx_free_mbuf().
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		unsigned int part;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		part = txq->elts_s - (txq->elts_tail & txq->elts_m);
18a1c200SViacheslav Ovsiienko		part = RTE_MIN(part, n_elts);
18a1c200SViacheslav Ovsiienko		assert(part);
18a1c200SViacheslav Ovsiienko		assert(part <= txq->elts_s);
18a1c200SViacheslav Ovsiienko		mlx5_tx_free_mbuf(&txq->elts[txq->elts_tail & txq->elts_m],
18a1c200SViacheslav Ovsiienko				  part, olx);
18a1c200SViacheslav Ovsiienko		txq->elts_tail += part;
18a1c200SViacheslav Ovsiienko		n_elts -= part;
18a1c200SViacheslav Ovsiienko	} while (n_elts);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Store the mbuf being sent into elts ring buffer.
18a1c200SViacheslav Ovsiienko * On Tx completion these mbufs will be freed.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to Tx queue structure.
18a1c200SViacheslav Ovsiienko * @param pkts
18a1c200SViacheslav Ovsiienko *   Pointer to array of packets to be stored.
18a1c200SViacheslav Ovsiienko * @param pkts_n
18a1c200SViacheslav Ovsiienko *   Number of packets to be stored.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_copy_elts(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko		  unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko	struct rte_mbuf **elts = (struct rte_mbuf **)txq->elts;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(pkts);
18a1c200SViacheslav Ovsiienko	assert(pkts_n);
18a1c200SViacheslav Ovsiienko	part = txq->elts_s - (txq->elts_head & txq->elts_m);
18a1c200SViacheslav Ovsiienko	assert(part);
18a1c200SViacheslav Ovsiienko	assert(part <= txq->elts_s);
18a1c200SViacheslav Ovsiienko	/* This code is a good candidate for vectorizing with SIMD. */
18a1c200SViacheslav Ovsiienko	rte_memcpy((void *)(elts + (txq->elts_head & txq->elts_m)),
18a1c200SViacheslav Ovsiienko		   (void *)pkts,
18a1c200SViacheslav Ovsiienko		   RTE_MIN(part, pkts_n) * sizeof(struct rte_mbuf *));
18a1c200SViacheslav Ovsiienko	txq->elts_head += pkts_n;
18a1c200SViacheslav Ovsiienko	if (unlikely(part < pkts_n))
18a1c200SViacheslav Ovsiienko		/* The copy is wrapping around the elts array. */
18a1c200SViacheslav Ovsiienko		rte_memcpy((void *)elts, (void *)(pkts + part),
18a1c200SViacheslav Ovsiienko			   (pkts_n - part) * sizeof(struct rte_mbuf *));
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
da1df1ccSViacheslav Ovsiienko * Update completion queue consuming index via doorbell
da1df1ccSViacheslav Ovsiienko * and flush the completed data buffers.
da1df1ccSViacheslav Ovsiienko *
da1df1ccSViacheslav Ovsiienko * @param txq
da1df1ccSViacheslav Ovsiienko *   Pointer to TX queue structure.
da1df1ccSViacheslav Ovsiienko * @param valid CQE pointer
da1df1ccSViacheslav Ovsiienko *   if not NULL update txq->wqe_pi and flush the buffers
da1df1ccSViacheslav Ovsiienko * @param itail
da1df1ccSViacheslav Ovsiienko *   if not negative - flush the buffers till this index.
da1df1ccSViacheslav Ovsiienko * @param olx
da1df1ccSViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
da1df1ccSViacheslav Ovsiienko *   compile time and may be used for optimization.
da1df1ccSViacheslav Ovsiienko */
da1df1ccSViacheslav Ovsiienkostatic __rte_always_inline void
da1df1ccSViacheslav Ovsiienkomlx5_tx_comp_flush(struct mlx5_txq_data *restrict txq,
da1df1ccSViacheslav Ovsiienko		   volatile struct mlx5_cqe *last_cqe,
da1df1ccSViacheslav Ovsiienko		   int itail,
da1df1ccSViacheslav Ovsiienko		   unsigned int olx __rte_unused)
da1df1ccSViacheslav Ovsiienko{
da1df1ccSViacheslav Ovsiienko	uint16_t tail;
da1df1ccSViacheslav Ovsiienko
da1df1ccSViacheslav Ovsiienko	if (likely(last_cqe != NULL)) {
da1df1ccSViacheslav Ovsiienko		txq->wqe_pi = rte_be_to_cpu_16(last_cqe->wqe_counter);
da1df1ccSViacheslav Ovsiienko		tail = ((volatile struct mlx5_wqe_cseg *)
da1df1ccSViacheslav Ovsiienko			(txq->wqes + (txq->wqe_pi & txq->wqe_m)))->misc;
da1df1ccSViacheslav Ovsiienko	} else if (itail >= 0) {
da1df1ccSViacheslav Ovsiienko		tail = (uint16_t)itail;
da1df1ccSViacheslav Ovsiienko	} else {
da1df1ccSViacheslav Ovsiienko		return;
da1df1ccSViacheslav Ovsiienko	}
da1df1ccSViacheslav Ovsiienko	rte_compiler_barrier();
da1df1ccSViacheslav Ovsiienko	*txq->cq_db = rte_cpu_to_be_32(txq->cq_ci);
da1df1ccSViacheslav Ovsiienko	if (likely(tail != txq->elts_tail)) {
da1df1ccSViacheslav Ovsiienko		mlx5_tx_free_elts(txq, tail, olx);
da1df1ccSViacheslav Ovsiienko		assert(tail == txq->elts_tail);
da1df1ccSViacheslav Ovsiienko	}
da1df1ccSViacheslav Ovsiienko}
da1df1ccSViacheslav Ovsiienko
da1df1ccSViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Manage TX completions. This routine checks the CQ for
18a1c200SViacheslav Ovsiienko * arrived CQEs, deduces the last accomplished WQE in SQ,
18a1c200SViacheslav Ovsiienko * updates SQ producing index and frees all completed mbufs.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * NOTE: not inlined intentionally, it makes tx_burst
18a1c200SViacheslav Ovsiienko * routine smaller, simple and faster - from experiments.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic void
18a1c200SViacheslav Ovsiienkomlx5_tx_handle_completion(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
318ea4cfSViacheslav Ovsiienko	unsigned int count = MLX5_TX_COMP_MAX_CQE;
da1df1ccSViacheslav Ovsiienko	volatile struct mlx5_cqe *last_cqe = NULL;
18a1c200SViacheslav Ovsiienko	int ret;
18a1c200SViacheslav Ovsiienko
da1df1ccSViacheslav Ovsiienko	static_assert(MLX5_CQE_STATUS_HW_OWN < 0, "Must be negative value");
da1df1ccSViacheslav Ovsiienko	static_assert(MLX5_CQE_STATUS_SW_OWN < 0, "Must be negative value");
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		volatile struct mlx5_cqe *cqe;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		cqe = &txq->cqes[txq->cq_ci & txq->cqe_m];
18a1c200SViacheslav Ovsiienko		ret = check_cqe(cqe, txq->cqe_s, txq->cq_ci);
18a1c200SViacheslav Ovsiienko		if (unlikely(ret != MLX5_CQE_STATUS_SW_OWN)) {
18a1c200SViacheslav Ovsiienko			if (likely(ret != MLX5_CQE_STATUS_ERR)) {
18a1c200SViacheslav Ovsiienko				/* No new CQEs in completion queue. */
18a1c200SViacheslav Ovsiienko				assert(ret == MLX5_CQE_STATUS_HW_OWN);
318ea4cfSViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			}
da1df1ccSViacheslav Ovsiienko			/*
da1df1ccSViacheslav Ovsiienko			 * Some error occurred, try to restart.
da1df1ccSViacheslav Ovsiienko			 * We have no barrier after WQE related Doorbell
da1df1ccSViacheslav Ovsiienko			 * written, make sure all writes are completed
da1df1ccSViacheslav Ovsiienko			 * here, before we might perform SQ reset.
da1df1ccSViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			rte_wmb();
da1df1ccSViacheslav Ovsiienko			ret = mlx5_tx_error_cqe_handle
18a1c200SViacheslav Ovsiienko				(txq, (volatile struct mlx5_err_cqe *)cqe);
da1df1ccSViacheslav Ovsiienko			/*
da1df1ccSViacheslav Ovsiienko			 * Flush buffers, update consuming index
da1df1ccSViacheslav Ovsiienko			 * if recovery succeeded. Otherwise
da1df1ccSViacheslav Ovsiienko			 * just try to recover later.
da1df1ccSViacheslav Ovsiienko			 */
da1df1ccSViacheslav Ovsiienko			last_cqe = NULL;
da1df1ccSViacheslav Ovsiienko			break;
318ea4cfSViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/* Normal transmit completion. */
18a1c200SViacheslav Ovsiienko		++txq->cq_ci;
da1df1ccSViacheslav Ovsiienko		last_cqe = cqe;
18a1c200SViacheslav Ovsiienko#ifndef NDEBUG
18a1c200SViacheslav Ovsiienko		if (txq->cq_pi)
18a1c200SViacheslav Ovsiienko			--txq->cq_pi;
18a1c200SViacheslav Ovsiienko#endif
318ea4cfSViacheslav Ovsiienko	/*
318ea4cfSViacheslav Ovsiienko	 * We have to restrict the amount of processed CQEs
318ea4cfSViacheslav Ovsiienko	 * in one tx_burst routine call. The CQ may be large
318ea4cfSViacheslav Ovsiienko	 * and many CQEs may be updated by the NIC in one
318ea4cfSViacheslav Ovsiienko	 * transaction. Buffers freeing is time consuming,
318ea4cfSViacheslav Ovsiienko	 * multiple iterations may introduce significant
318ea4cfSViacheslav Ovsiienko	 * latency.
318ea4cfSViacheslav Ovsiienko	 */
318ea4cfSViacheslav Ovsiienko	} while (--count);
da1df1ccSViacheslav Ovsiienko	mlx5_tx_comp_flush(txq, last_cqe, ret, olx);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Check if the completion request flag should be set in the last WQE.
18a1c200SViacheslav Ovsiienko * Both pushed mbufs and WQEs are monitored and the completion request
18a1c200SViacheslav Ovsiienko * flag is set if any of thresholds is reached.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
*4dec9c79SViacheslav Ovsiienko * @param multi,
*4dec9c79SViacheslav Ovsiienko *   Routine is called from multi-segment sending loop,
*4dec9c79SViacheslav Ovsiienko *   do not correct the elts_head according to the pkts_copy.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_request_completion(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			   struct mlx5_txq_local *restrict loc,
*4dec9c79SViacheslav Ovsiienko			   bool multi,
5a93e173SViacheslav Ovsiienko			   unsigned int olx)
18a1c200SViacheslav Ovsiienko{
5a93e173SViacheslav Ovsiienko	uint16_t head = txq->elts_head;
5a93e173SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko
*4dec9c79SViacheslav Ovsiienko	part = (MLX5_TXOFF_CONFIG(INLINE) || multi) ?
*4dec9c79SViacheslav Ovsiienko	       0 : loc->pkts_sent - loc->pkts_copy;
5a93e173SViacheslav Ovsiienko	head += part;
18a1c200SViacheslav Ovsiienko	if ((uint16_t)(head - txq->elts_comp) >= MLX5_TX_COMP_THRESH ||
5a93e173SViacheslav Ovsiienko	     (MLX5_TXOFF_CONFIG(INLINE) &&
5a93e173SViacheslav Ovsiienko	     (uint16_t)(txq->wqe_ci - txq->wqe_comp) >= txq->wqe_thres)) {
18a1c200SViacheslav Ovsiienko		volatile struct mlx5_wqe *last = loc->wqe_last;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		txq->elts_comp = head;
5a93e173SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(INLINE))
18a1c200SViacheslav Ovsiienko			txq->wqe_comp = txq->wqe_ci;
18a1c200SViacheslav Ovsiienko		/* Request unconditional completion on last WQE. */
18a1c200SViacheslav Ovsiienko		last->cseg.flags = RTE_BE32(MLX5_COMP_ALWAYS <<
18a1c200SViacheslav Ovsiienko					    MLX5_COMP_MODE_OFFSET);
18a1c200SViacheslav Ovsiienko		/* Save elts_head in unused "immediate" field of WQE. */
18a1c200SViacheslav Ovsiienko		last->cseg.misc = head;
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * A CQE slot must always be available. Count the
18a1c200SViacheslav Ovsiienko		 * issued CEQ "always" request instead of production
18a1c200SViacheslav Ovsiienko		 * index due to here can be CQE with errors and
18a1c200SViacheslav Ovsiienko		 * difference with ci may become inconsistent.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		assert(txq->cqe_s > ++txq->cq_pi);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
a6bd4911SViacheslav Ovsiienko * DPDK callback to check the status of a tx descriptor.
a6bd4911SViacheslav Ovsiienko *
a6bd4911SViacheslav Ovsiienko * @param tx_queue
a6bd4911SViacheslav Ovsiienko *   The tx queue.
a6bd4911SViacheslav Ovsiienko * @param[in] offset
a6bd4911SViacheslav Ovsiienko *   The index of the descriptor in the ring.
a6bd4911SViacheslav Ovsiienko *
a6bd4911SViacheslav Ovsiienko * @return
a6bd4911SViacheslav Ovsiienko *   The status of the tx descriptor.
a6bd4911SViacheslav Ovsiienko */
a6bd4911SViacheslav Ovsiienkoint
a6bd4911SViacheslav Ovsiienkomlx5_tx_descriptor_status(void *tx_queue, uint16_t offset)
a6bd4911SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_txq_data *restrict txq = tx_queue;
18a1c200SViacheslav Ovsiienko	uint16_t used;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	mlx5_tx_handle_completion(txq, 0);
18a1c200SViacheslav Ovsiienko	used = txq->elts_head - txq->elts_tail;
18a1c200SViacheslav Ovsiienko	if (offset < used)
a6bd4911SViacheslav Ovsiienko		return RTE_ETH_TX_DESC_FULL;
18a1c200SViacheslav Ovsiienko	return RTE_ETH_TX_DESC_DONE;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Control Segment with specified opcode:
18a1c200SViacheslav Ovsiienko * - MLX5_OPCODE_SEND
18a1c200SViacheslav Ovsiienko * - MLX5_OPCODE_ENHANCED_MPSW
18a1c200SViacheslav Ovsiienko * - MLX5_OPCODE_TSO
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param wqe
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Control Segment.
18a1c200SViacheslav Ovsiienko * @param ds
18a1c200SViacheslav Ovsiienko *   Supposed length of WQE in segments.
18a1c200SViacheslav Ovsiienko * @param opcode
18a1c200SViacheslav Ovsiienko *   SQ WQE opcode to put into Control Segment.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_cseg_init(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc __rte_unused,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe *restrict wqe,
18a1c200SViacheslav Ovsiienko		  unsigned int ds,
18a1c200SViacheslav Ovsiienko		  unsigned int opcode,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_cseg *restrict cs = &wqe->cseg;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	cs->opcode = rte_cpu_to_be_32((txq->wqe_ci << 8) | opcode);
18a1c200SViacheslav Ovsiienko	cs->sq_ds = rte_cpu_to_be_32(txq->qp_num_8s | ds);
18a1c200SViacheslav Ovsiienko	cs->flags = RTE_BE32(MLX5_COMP_ONLY_FIRST_ERR <<
18a1c200SViacheslav Ovsiienko			     MLX5_COMP_MODE_OFFSET);
18a1c200SViacheslav Ovsiienko	cs->misc = RTE_BE32(0);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Ethernet Segment without inlined data.
18a1c200SViacheslav Ovsiienko * Supports Software Parser, Checksums and VLAN
18a1c200SViacheslav Ovsiienko * insertion Tx offload features.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param wqe
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Ethernet Segment.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_eseg_none(struct mlx5_txq_data *restrict txq __rte_unused,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe *restrict wqe,
18a1c200SViacheslav Ovsiienko		  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_eseg *restrict es = &wqe->eseg;
18a1c200SViacheslav Ovsiienko	uint32_t csum;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set check sum flags first, dword field
18a1c200SViacheslav Ovsiienko	 * in segment may be shared with Software Parser flags.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	csum = MLX5_TXOFF_CONFIG(CSUM) ? txq_ol_cksum_to_cs(loc->mbuf) : 0;
18a1c200SViacheslav Ovsiienko	es->flags = rte_cpu_to_le_32(csum);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set Software Parser offsets and flags.
18a1c200SViacheslav Ovsiienko	 * These flags a set for custom UDP and IP tunnel packets.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	es->swp_offs = txq_mbuf_to_swp(loc, &es->swp_flags, olx);
18a1c200SViacheslav Ovsiienko	/* Fill metadata field if needed. */
18a1c200SViacheslav Ovsiienko	es->metadata = MLX5_TXOFF_CONFIG(METADATA) ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->ol_flags & PKT_TX_METADATA ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->tx_metadata : 0 : 0;
18a1c200SViacheslav Ovsiienko	/* Engage VLAN tag insertion feature if requested. */
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko	    loc->mbuf->ol_flags & PKT_TX_VLAN_PKT) {
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * We should get here only if device support
18a1c200SViacheslav Ovsiienko		 * this feature correctly.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		assert(txq->vlan_en);
18a1c200SViacheslav Ovsiienko		es->inline_hdr = rte_cpu_to_be_32(MLX5_ETH_WQE_VLAN_INSERT |
18a1c200SViacheslav Ovsiienko						  loc->mbuf->vlan_tci);
18a1c200SViacheslav Ovsiienko	} else {
18a1c200SViacheslav Ovsiienko		es->inline_hdr = RTE_BE32(0);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Ethernet Segment with minimal inlined data
18a1c200SViacheslav Ovsiienko * of MLX5_ESEG_MIN_INLINE_SIZE bytes length. This is
18a1c200SViacheslav Ovsiienko * used to fill the gap in single WQEBB WQEs.
18a1c200SViacheslav Ovsiienko * Supports Software Parser, Checksums and VLAN
18a1c200SViacheslav Ovsiienko * insertion Tx offload features.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param wqe
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Ethernet Segment.
18a1c200SViacheslav Ovsiienko * @param vlan
18a1c200SViacheslav Ovsiienko *   Length of VLAN tag insertion if any.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_eseg_dmin(struct mlx5_txq_data *restrict txq __rte_unused,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe *restrict wqe,
18a1c200SViacheslav Ovsiienko		  unsigned int vlan,
18a1c200SViacheslav Ovsiienko		  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_eseg *restrict es = &wqe->eseg;
18a1c200SViacheslav Ovsiienko	uint32_t csum;
18a1c200SViacheslav Ovsiienko	uint8_t *psrc, *pdst;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set check sum flags first, dword field
18a1c200SViacheslav Ovsiienko	 * in segment may be shared with Software Parser flags.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	csum = MLX5_TXOFF_CONFIG(CSUM) ? txq_ol_cksum_to_cs(loc->mbuf) : 0;
18a1c200SViacheslav Ovsiienko	es->flags = rte_cpu_to_le_32(csum);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set Software Parser offsets and flags.
18a1c200SViacheslav Ovsiienko	 * These flags a set for custom UDP and IP tunnel packets.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	es->swp_offs = txq_mbuf_to_swp(loc, &es->swp_flags, olx);
18a1c200SViacheslav Ovsiienko	/* Fill metadata field if needed. */
18a1c200SViacheslav Ovsiienko	es->metadata = MLX5_TXOFF_CONFIG(METADATA) ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->ol_flags & PKT_TX_METADATA ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->tx_metadata : 0 : 0;
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_ESEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				(sizeof(uint16_t) +
18a1c200SViacheslav Ovsiienko				 sizeof(rte_v128u32_t)),
18a1c200SViacheslav Ovsiienko		      "invalid Ethernet Segment data size");
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_ESEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				(sizeof(uint16_t) +
18a1c200SViacheslav Ovsiienko				 sizeof(struct rte_vlan_hdr) +
18a1c200SViacheslav Ovsiienko				 2 * RTE_ETHER_ADDR_LEN),
18a1c200SViacheslav Ovsiienko		      "invalid Ethernet Segment data size");
18a1c200SViacheslav Ovsiienko	psrc = rte_pktmbuf_mtod(loc->mbuf, uint8_t *);
18a1c200SViacheslav Ovsiienko	es->inline_hdr_sz = RTE_BE16(MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko	es->inline_data = *(unaligned_uint16_t *)psrc;
18a1c200SViacheslav Ovsiienko	psrc +=	sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko	pdst = (uint8_t *)(es + 1);
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) && vlan) {
18a1c200SViacheslav Ovsiienko		/* Implement VLAN tag insertion as part inline data. */
18a1c200SViacheslav Ovsiienko		memcpy(pdst, psrc, 2 * RTE_ETHER_ADDR_LEN - sizeof(uint16_t));
18a1c200SViacheslav Ovsiienko		pdst += 2 * RTE_ETHER_ADDR_LEN - sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko		psrc +=	2 * RTE_ETHER_ADDR_LEN - sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko		/* Insert VLAN ethertype + VLAN tag. */
18a1c200SViacheslav Ovsiienko		*(unaligned_uint32_t *)pdst = rte_cpu_to_be_32
18a1c200SViacheslav Ovsiienko						((RTE_ETHER_TYPE_VLAN << 16) |
18a1c200SViacheslav Ovsiienko						 loc->mbuf->vlan_tci);
18a1c200SViacheslav Ovsiienko		pdst += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko		/* Copy the rest two bytes from packet data. */
18a1c200SViacheslav Ovsiienko		assert(pdst == RTE_PTR_ALIGN(pdst, sizeof(uint16_t)));
18a1c200SViacheslav Ovsiienko		*(uint16_t *)pdst = *(unaligned_uint16_t *)psrc;
18a1c200SViacheslav Ovsiienko	} else {
18a1c200SViacheslav Ovsiienko		/* Fill the gap in the title WQEBB with inline data. */
18a1c200SViacheslav Ovsiienko		rte_mov16(pdst, psrc);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Ethernet Segment with entire packet
18a1c200SViacheslav Ovsiienko * data inlining. Checks the boundary of WQEBB and
18a1c200SViacheslav Ovsiienko * ring buffer wrapping, supports Software Parser,
18a1c200SViacheslav Ovsiienko * Checksums and VLAN insertion Tx offload features.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param wqe
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Ethernet Segment.
18a1c200SViacheslav Ovsiienko * @param vlan
18a1c200SViacheslav Ovsiienko *   Length of VLAN tag insertion if any.
18a1c200SViacheslav Ovsiienko * @param inlen
18a1c200SViacheslav Ovsiienko *   Length of data to inline (VLAN included, if any).
18a1c200SViacheslav Ovsiienko * @param tso
18a1c200SViacheslav Ovsiienko *   TSO flag, set mss field from the packet.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Pointer to the next Data Segment (aligned and wrapped around).
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline struct mlx5_wqe_dseg *
18a1c200SViacheslav Ovsiienkomlx5_tx_eseg_data(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe *restrict wqe,
18a1c200SViacheslav Ovsiienko		  unsigned int vlan,
18a1c200SViacheslav Ovsiienko		  unsigned int inlen,
18a1c200SViacheslav Ovsiienko		  unsigned int tso,
18a1c200SViacheslav Ovsiienko		  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_eseg *restrict es = &wqe->eseg;
18a1c200SViacheslav Ovsiienko	uint32_t csum;
18a1c200SViacheslav Ovsiienko	uint8_t *psrc, *pdst;
18a1c200SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set check sum flags first, dword field
18a1c200SViacheslav Ovsiienko	 * in segment may be shared with Software Parser flags.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	csum = MLX5_TXOFF_CONFIG(CSUM) ? txq_ol_cksum_to_cs(loc->mbuf) : 0;
18a1c200SViacheslav Ovsiienko	if (tso) {
18a1c200SViacheslav Ovsiienko		csum <<= 24;
18a1c200SViacheslav Ovsiienko		csum |= loc->mbuf->tso_segsz;
18a1c200SViacheslav Ovsiienko		es->flags = rte_cpu_to_be_32(csum);
18a1c200SViacheslav Ovsiienko	} else {
18a1c200SViacheslav Ovsiienko		es->flags = rte_cpu_to_le_32(csum);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set Software Parser offsets and flags.
18a1c200SViacheslav Ovsiienko	 * These flags a set for custom UDP and IP tunnel packets.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	es->swp_offs = txq_mbuf_to_swp(loc, &es->swp_flags, olx);
18a1c200SViacheslav Ovsiienko	/* Fill metadata field if needed. */
18a1c200SViacheslav Ovsiienko	es->metadata = MLX5_TXOFF_CONFIG(METADATA) ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->ol_flags & PKT_TX_METADATA ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->tx_metadata : 0 : 0;
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_ESEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				(sizeof(uint16_t) +
18a1c200SViacheslav Ovsiienko				 sizeof(rte_v128u32_t)),
18a1c200SViacheslav Ovsiienko		      "invalid Ethernet Segment data size");
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_ESEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				(sizeof(uint16_t) +
18a1c200SViacheslav Ovsiienko				 sizeof(struct rte_vlan_hdr) +
18a1c200SViacheslav Ovsiienko				 2 * RTE_ETHER_ADDR_LEN),
18a1c200SViacheslav Ovsiienko		      "invalid Ethernet Segment data size");
18a1c200SViacheslav Ovsiienko	psrc = rte_pktmbuf_mtod(loc->mbuf, uint8_t *);
18a1c200SViacheslav Ovsiienko	es->inline_hdr_sz = rte_cpu_to_be_16(inlen);
18a1c200SViacheslav Ovsiienko	es->inline_data = *(unaligned_uint16_t *)psrc;
18a1c200SViacheslav Ovsiienko	psrc +=	sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko	pdst = (uint8_t *)(es + 1);
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) && vlan) {
18a1c200SViacheslav Ovsiienko		/* Implement VLAN tag insertion as part inline data. */
18a1c200SViacheslav Ovsiienko		memcpy(pdst, psrc, 2 * RTE_ETHER_ADDR_LEN - sizeof(uint16_t));
18a1c200SViacheslav Ovsiienko		pdst += 2 * RTE_ETHER_ADDR_LEN - sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko		psrc +=	2 * RTE_ETHER_ADDR_LEN - sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko		/* Insert VLAN ethertype + VLAN tag. */
18a1c200SViacheslav Ovsiienko		*(unaligned_uint32_t *)pdst = rte_cpu_to_be_32
18a1c200SViacheslav Ovsiienko						((RTE_ETHER_TYPE_VLAN << 16) |
18a1c200SViacheslav Ovsiienko						 loc->mbuf->vlan_tci);
18a1c200SViacheslav Ovsiienko		pdst += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko		/* Copy the rest two bytes from packet data. */
18a1c200SViacheslav Ovsiienko		assert(pdst == RTE_PTR_ALIGN(pdst, sizeof(uint16_t)));
18a1c200SViacheslav Ovsiienko		*(uint16_t *)pdst = *(unaligned_uint16_t *)psrc;
18a1c200SViacheslav Ovsiienko		psrc += sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko	} else {
18a1c200SViacheslav Ovsiienko		/* Fill the gap in the title WQEBB with inline data. */
18a1c200SViacheslav Ovsiienko		rte_mov16(pdst, psrc);
18a1c200SViacheslav Ovsiienko		psrc += sizeof(rte_v128u32_t);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	pdst = (uint8_t *)(es + 2);
18a1c200SViacheslav Ovsiienko	assert(inlen >= MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko	assert(pdst < (uint8_t *)txq->wqes_end);
18a1c200SViacheslav Ovsiienko	inlen -= MLX5_ESEG_MIN_INLINE_SIZE;
18a1c200SViacheslav Ovsiienko	if (!inlen) {
18a1c200SViacheslav Ovsiienko		assert(pdst == RTE_PTR_ALIGN(pdst, MLX5_WSEG_SIZE));
18a1c200SViacheslav Ovsiienko		return (struct mlx5_wqe_dseg *)pdst;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The WQEBB space availability is checked by caller.
18a1c200SViacheslav Ovsiienko	 * Here we should be aware of WQE ring buffer wraparound only.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	part = (uint8_t *)txq->wqes_end - pdst;
18a1c200SViacheslav Ovsiienko	part = RTE_MIN(part, inlen);
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		rte_memcpy(pdst, psrc, part);
18a1c200SViacheslav Ovsiienko		inlen -= part;
18a1c200SViacheslav Ovsiienko		if (likely(!inlen)) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * If return value is not used by the caller
18a1c200SViacheslav Ovsiienko			 * the code below will be optimized out.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			pdst += part;
18a1c200SViacheslav Ovsiienko			pdst = RTE_PTR_ALIGN(pdst, MLX5_WSEG_SIZE);
18a1c200SViacheslav Ovsiienko			if (unlikely(pdst >= (uint8_t *)txq->wqes_end))
18a1c200SViacheslav Ovsiienko				pdst = (uint8_t *)txq->wqes;
18a1c200SViacheslav Ovsiienko			return (struct mlx5_wqe_dseg *)pdst;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		pdst = (uint8_t *)txq->wqes;
18a1c200SViacheslav Ovsiienko		psrc += part;
18a1c200SViacheslav Ovsiienko		part = inlen;
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Copy data from chain of mbuf to the specified linear buffer.
18a1c200SViacheslav Ovsiienko * Checksums and VLAN insertion Tx offload features. If data
18a1c200SViacheslav Ovsiienko * from some mbuf copied completely this mbuf is freed. Local
18a1c200SViacheslav Ovsiienko * structure is used to keep the byte stream state.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param pdst
18a1c200SViacheslav Ovsiienko *   Pointer to the destination linear buffer.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param len
18a1c200SViacheslav Ovsiienko *   Length of data to be copied.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_mseg_memcpy(uint8_t *pdst,
18a1c200SViacheslav Ovsiienko		    struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		    unsigned int len,
18a1c200SViacheslav Ovsiienko		    unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct rte_mbuf *mbuf;
18a1c200SViacheslav Ovsiienko	unsigned int part, dlen;
18a1c200SViacheslav Ovsiienko	uint8_t *psrc;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(len);
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		/* Allow zero length packets, must check first. */
18a1c200SViacheslav Ovsiienko		dlen = rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko		if (dlen <= loc->mbuf_off) {
18a1c200SViacheslav Ovsiienko			/* Exhausted packet, just free. */
18a1c200SViacheslav Ovsiienko			mbuf = loc->mbuf;
18a1c200SViacheslav Ovsiienko			loc->mbuf = mbuf->next;
18a1c200SViacheslav Ovsiienko			rte_pktmbuf_free_seg(mbuf);
18a1c200SViacheslav Ovsiienko			loc->mbuf_off = 0;
18a1c200SViacheslav Ovsiienko			assert(loc->mbuf_nseg > 1);
18a1c200SViacheslav Ovsiienko			assert(loc->mbuf);
18a1c200SViacheslav Ovsiienko			--loc->mbuf_nseg;
18a1c200SViacheslav Ovsiienko			continue;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		dlen -= loc->mbuf_off;
18a1c200SViacheslav Ovsiienko		psrc = rte_pktmbuf_mtod_offset(loc->mbuf, uint8_t *,
18a1c200SViacheslav Ovsiienko					       loc->mbuf_off);
18a1c200SViacheslav Ovsiienko		part = RTE_MIN(len, dlen);
18a1c200SViacheslav Ovsiienko		rte_memcpy(pdst, psrc, part);
18a1c200SViacheslav Ovsiienko		loc->mbuf_off += part;
18a1c200SViacheslav Ovsiienko		len -= part;
18a1c200SViacheslav Ovsiienko		if (!len) {
18a1c200SViacheslav Ovsiienko			if (loc->mbuf_off >= rte_pktmbuf_data_len(loc->mbuf)) {
18a1c200SViacheslav Ovsiienko				loc->mbuf_off = 0;
18a1c200SViacheslav Ovsiienko				/* Exhausted packet, just free. */
18a1c200SViacheslav Ovsiienko				mbuf = loc->mbuf;
18a1c200SViacheslav Ovsiienko				loc->mbuf = mbuf->next;
18a1c200SViacheslav Ovsiienko				rte_pktmbuf_free_seg(mbuf);
18a1c200SViacheslav Ovsiienko				loc->mbuf_off = 0;
18a1c200SViacheslav Ovsiienko				assert(loc->mbuf_nseg >= 1);
18a1c200SViacheslav Ovsiienko				--loc->mbuf_nseg;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			return;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		pdst += part;
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Ethernet Segment with inlined data from
18a1c200SViacheslav Ovsiienko * multi-segment packet. Checks the boundary of WQEBB
18a1c200SViacheslav Ovsiienko * and ring buffer wrapping, supports Software Parser,
18a1c200SViacheslav Ovsiienko * Checksums and VLAN insertion Tx offload features.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param wqe
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Ethernet Segment.
18a1c200SViacheslav Ovsiienko * @param vlan
18a1c200SViacheslav Ovsiienko *   Length of VLAN tag insertion if any.
18a1c200SViacheslav Ovsiienko * @param inlen
18a1c200SViacheslav Ovsiienko *   Length of data to inline (VLAN included, if any).
18a1c200SViacheslav Ovsiienko * @param tso
18a1c200SViacheslav Ovsiienko *   TSO flag, set mss field from the packet.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Pointer to the next Data Segment (aligned and
18a1c200SViacheslav Ovsiienko *   possible NOT wrapped around - caller should do
18a1c200SViacheslav Ovsiienko *   wrapping check on its own).
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline struct mlx5_wqe_dseg *
18a1c200SViacheslav Ovsiienkomlx5_tx_eseg_mdat(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe *restrict wqe,
18a1c200SViacheslav Ovsiienko		  unsigned int vlan,
18a1c200SViacheslav Ovsiienko		  unsigned int inlen,
18a1c200SViacheslav Ovsiienko		  unsigned int tso,
18a1c200SViacheslav Ovsiienko		  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_eseg *restrict es = &wqe->eseg;
18a1c200SViacheslav Ovsiienko	uint32_t csum;
18a1c200SViacheslav Ovsiienko	uint8_t *pdst;
18a1c200SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set check sum flags first, uint32_t field
18a1c200SViacheslav Ovsiienko	 * in segment may be shared with Software Parser flags.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	csum = MLX5_TXOFF_CONFIG(CSUM) ? txq_ol_cksum_to_cs(loc->mbuf) : 0;
18a1c200SViacheslav Ovsiienko	if (tso) {
18a1c200SViacheslav Ovsiienko		csum <<= 24;
18a1c200SViacheslav Ovsiienko		csum |= loc->mbuf->tso_segsz;
18a1c200SViacheslav Ovsiienko		es->flags = rte_cpu_to_be_32(csum);
18a1c200SViacheslav Ovsiienko	} else {
18a1c200SViacheslav Ovsiienko		es->flags = rte_cpu_to_le_32(csum);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate and set Software Parser offsets and flags.
18a1c200SViacheslav Ovsiienko	 * These flags a set for custom UDP and IP tunnel packets.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	es->swp_offs = txq_mbuf_to_swp(loc, &es->swp_flags, olx);
18a1c200SViacheslav Ovsiienko	/* Fill metadata field if needed. */
18a1c200SViacheslav Ovsiienko	es->metadata = MLX5_TXOFF_CONFIG(METADATA) ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->ol_flags & PKT_TX_METADATA ?
18a1c200SViacheslav Ovsiienko		       loc->mbuf->tx_metadata : 0 : 0;
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_ESEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				(sizeof(uint16_t) +
18a1c200SViacheslav Ovsiienko				 sizeof(rte_v128u32_t)),
18a1c200SViacheslav Ovsiienko		      "invalid Ethernet Segment data size");
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_ESEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				(sizeof(uint16_t) +
18a1c200SViacheslav Ovsiienko				 sizeof(struct rte_vlan_hdr) +
18a1c200SViacheslav Ovsiienko				 2 * RTE_ETHER_ADDR_LEN),
18a1c200SViacheslav Ovsiienko		      "invalid Ethernet Segment data size");
7014ef5bSViacheslav Ovsiienko	assert(inlen >= MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko	es->inline_hdr_sz = rte_cpu_to_be_16(inlen);
18a1c200SViacheslav Ovsiienko	pdst = (uint8_t *)&es->inline_data;
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) && vlan) {
18a1c200SViacheslav Ovsiienko		/* Implement VLAN tag insertion as part inline data. */
18a1c200SViacheslav Ovsiienko		mlx5_tx_mseg_memcpy(pdst, loc, 2 * RTE_ETHER_ADDR_LEN, olx);
18a1c200SViacheslav Ovsiienko		pdst += 2 * RTE_ETHER_ADDR_LEN;
18a1c200SViacheslav Ovsiienko		*(unaligned_uint32_t *)pdst = rte_cpu_to_be_32
18a1c200SViacheslav Ovsiienko						((RTE_ETHER_TYPE_VLAN << 16) |
18a1c200SViacheslav Ovsiienko						 loc->mbuf->vlan_tci);
18a1c200SViacheslav Ovsiienko		pdst += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko		inlen -= 2 * RTE_ETHER_ADDR_LEN + sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	assert(pdst < (uint8_t *)txq->wqes_end);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The WQEBB space availability is checked by caller.
18a1c200SViacheslav Ovsiienko	 * Here we should be aware of WQE ring buffer wraparound only.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	part = (uint8_t *)txq->wqes_end - pdst;
18a1c200SViacheslav Ovsiienko	part = RTE_MIN(part, inlen);
18a1c200SViacheslav Ovsiienko	assert(part);
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		mlx5_tx_mseg_memcpy(pdst, loc, part, olx);
18a1c200SViacheslav Ovsiienko		inlen -= part;
18a1c200SViacheslav Ovsiienko		if (likely(!inlen)) {
18a1c200SViacheslav Ovsiienko			pdst += part;
18a1c200SViacheslav Ovsiienko			pdst = RTE_PTR_ALIGN(pdst, MLX5_WSEG_SIZE);
18a1c200SViacheslav Ovsiienko			return (struct mlx5_wqe_dseg *)pdst;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		pdst = (uint8_t *)txq->wqes;
18a1c200SViacheslav Ovsiienko		part = inlen;
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Data Segment of pointer type.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param dseg
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Data Segment.
18a1c200SViacheslav Ovsiienko * @param buf
18a1c200SViacheslav Ovsiienko *   Data buffer to point.
18a1c200SViacheslav Ovsiienko * @param len
18a1c200SViacheslav Ovsiienko *   Data buffer length.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_dseg_ptr(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		 struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		 struct mlx5_wqe_dseg *restrict dseg,
18a1c200SViacheslav Ovsiienko		 uint8_t *buf,
18a1c200SViacheslav Ovsiienko		 unsigned int len,
18a1c200SViacheslav Ovsiienko		 unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	assert(len);
18a1c200SViacheslav Ovsiienko	dseg->bcount = rte_cpu_to_be_32(len);
18a1c200SViacheslav Ovsiienko	dseg->lkey = mlx5_tx_mb2mr(txq, loc->mbuf);
18a1c200SViacheslav Ovsiienko	dseg->pbuf = rte_cpu_to_be_64((uintptr_t)buf);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Data Segment of pointer type or inline
18a1c200SViacheslav Ovsiienko * if data length is less than buffer in minimal
18a1c200SViacheslav Ovsiienko * Data Segment size.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param dseg
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Data Segment.
18a1c200SViacheslav Ovsiienko * @param buf
18a1c200SViacheslav Ovsiienko *   Data buffer to point.
18a1c200SViacheslav Ovsiienko * @param len
18a1c200SViacheslav Ovsiienko *   Data buffer length.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_dseg_iptr(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe_dseg *restrict dseg,
18a1c200SViacheslav Ovsiienko		  uint8_t *buf,
18a1c200SViacheslav Ovsiienko		  unsigned int len,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	uintptr_t dst, src;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(len);
18a1c200SViacheslav Ovsiienko	if (len > MLX5_DSEG_MIN_INLINE_SIZE) {
18a1c200SViacheslav Ovsiienko		dseg->bcount = rte_cpu_to_be_32(len);
18a1c200SViacheslav Ovsiienko		dseg->lkey = mlx5_tx_mb2mr(txq, loc->mbuf);
18a1c200SViacheslav Ovsiienko		dseg->pbuf = rte_cpu_to_be_64((uintptr_t)buf);
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		return;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	dseg->bcount = rte_cpu_to_be_32(len | MLX5_ETH_WQE_DATA_INLINE);
18a1c200SViacheslav Ovsiienko	/* Unrolled implementation of generic rte_memcpy. */
18a1c200SViacheslav Ovsiienko	dst = (uintptr_t)&dseg->inline_data[0];
18a1c200SViacheslav Ovsiienko	src = (uintptr_t)buf;
18a1c200SViacheslav Ovsiienko#ifdef RTE_ARCH_STRICT_ALIGN
18a1c200SViacheslav Ovsiienko	memcpy(dst, src, len);
18a1c200SViacheslav Ovsiienko#else
18a1c200SViacheslav Ovsiienko	if (len & 0x08) {
18a1c200SViacheslav Ovsiienko		*(uint64_t *)dst = *(uint64_t *)src;
18a1c200SViacheslav Ovsiienko		dst += sizeof(uint64_t);
18a1c200SViacheslav Ovsiienko		src += sizeof(uint64_t);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	if (len & 0x04) {
18a1c200SViacheslav Ovsiienko		*(uint32_t *)dst = *(uint32_t *)src;
18a1c200SViacheslav Ovsiienko		dst += sizeof(uint32_t);
18a1c200SViacheslav Ovsiienko		src += sizeof(uint32_t);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	if (len & 0x02) {
18a1c200SViacheslav Ovsiienko		*(uint16_t *)dst = *(uint16_t *)src;
18a1c200SViacheslav Ovsiienko		dst += sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko		src += sizeof(uint16_t);
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	if (len & 0x01)
18a1c200SViacheslav Ovsiienko		*(uint8_t *)dst = *(uint8_t *)src;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Data Segment of inlined data from single
18a1c200SViacheslav Ovsiienko * segment packet, no VLAN insertion.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param dseg
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Data Segment.
18a1c200SViacheslav Ovsiienko * @param buf
18a1c200SViacheslav Ovsiienko *   Data buffer to point.
18a1c200SViacheslav Ovsiienko * @param len
18a1c200SViacheslav Ovsiienko *   Data buffer length.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Pointer to the next Data Segment after inlined data.
18a1c200SViacheslav Ovsiienko *   Ring buffer wraparound check is needed. We do not
18a1c200SViacheslav Ovsiienko *   do it here because it may not be needed for the
18a1c200SViacheslav Ovsiienko *   last packet in the eMPW session.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline struct mlx5_wqe_dseg *
18a1c200SViacheslav Ovsiienkomlx5_tx_dseg_empw(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc __rte_unused,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe_dseg *restrict dseg,
18a1c200SViacheslav Ovsiienko		  uint8_t *buf,
18a1c200SViacheslav Ovsiienko		  unsigned int len,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko	uint8_t *pdst;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	dseg->bcount = rte_cpu_to_be_32(len | MLX5_ETH_WQE_DATA_INLINE);
18a1c200SViacheslav Ovsiienko	pdst = &dseg->inline_data[0];
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The WQEBB space availability is checked by caller.
18a1c200SViacheslav Ovsiienko	 * Here we should be aware of WQE ring buffer wraparound only.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	part = (uint8_t *)txq->wqes_end - pdst;
18a1c200SViacheslav Ovsiienko	part = RTE_MIN(part, len);
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		rte_memcpy(pdst, buf, part);
18a1c200SViacheslav Ovsiienko		len -= part;
18a1c200SViacheslav Ovsiienko		if (likely(!len)) {
18a1c200SViacheslav Ovsiienko			pdst += part;
18a1c200SViacheslav Ovsiienko			pdst = RTE_PTR_ALIGN(pdst, MLX5_WSEG_SIZE);
18a1c200SViacheslav Ovsiienko			/* Note: no final wraparound check here. */
18a1c200SViacheslav Ovsiienko			return (struct mlx5_wqe_dseg *)pdst;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		pdst = (uint8_t *)txq->wqes;
18a1c200SViacheslav Ovsiienko		buf += part;
18a1c200SViacheslav Ovsiienko		part = len;
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Data Segment of inlined data from single
18a1c200SViacheslav Ovsiienko * segment packet with VLAN insertion.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param dseg
18a1c200SViacheslav Ovsiienko *   Pointer to the dseg fill with built Data Segment.
18a1c200SViacheslav Ovsiienko * @param buf
18a1c200SViacheslav Ovsiienko *   Data buffer to point.
18a1c200SViacheslav Ovsiienko * @param len
18a1c200SViacheslav Ovsiienko *   Data buffer length.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Pointer to the next Data Segment after inlined data.
18a1c200SViacheslav Ovsiienko *   Ring buffer wraparound check is needed.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline struct mlx5_wqe_dseg *
18a1c200SViacheslav Ovsiienkomlx5_tx_dseg_vlan(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc __rte_unused,
18a1c200SViacheslav Ovsiienko		  struct mlx5_wqe_dseg *restrict dseg,
18a1c200SViacheslav Ovsiienko		  uint8_t *buf,
18a1c200SViacheslav Ovsiienko		  unsigned int len,
18a1c200SViacheslav Ovsiienko		  unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko	uint8_t *pdst;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(len > MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_DSEG_MIN_INLINE_SIZE ==
18a1c200SViacheslav Ovsiienko				 (2 * RTE_ETHER_ADDR_LEN),
18a1c200SViacheslav Ovsiienko		      "invalid Data Segment data size");
18a1c200SViacheslav Ovsiienko	dseg->bcount = rte_cpu_to_be_32((len + sizeof(struct rte_vlan_hdr)) |
18a1c200SViacheslav Ovsiienko					MLX5_ETH_WQE_DATA_INLINE);
18a1c200SViacheslav Ovsiienko	pdst = &dseg->inline_data[0];
18a1c200SViacheslav Ovsiienko	memcpy(pdst, buf, MLX5_DSEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko	buf += MLX5_DSEG_MIN_INLINE_SIZE;
18a1c200SViacheslav Ovsiienko	pdst += MLX5_DSEG_MIN_INLINE_SIZE;
18a1c200SViacheslav Ovsiienko	/* Insert VLAN ethertype + VLAN tag. Pointer is aligned. */
18a1c200SViacheslav Ovsiienko	assert(pdst == RTE_PTR_ALIGN(pdst, MLX5_WSEG_SIZE));
18a1c200SViacheslav Ovsiienko	*(uint32_t *)pdst = rte_cpu_to_be_32((RTE_ETHER_TYPE_VLAN << 16) |
18a1c200SViacheslav Ovsiienko					      loc->mbuf->vlan_tci);
18a1c200SViacheslav Ovsiienko	pdst += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko	if (unlikely(pdst >= (uint8_t *)txq->wqes_end))
18a1c200SViacheslav Ovsiienko		pdst = (uint8_t *)txq->wqes;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * The WQEBB space availability is checked by caller.
18a1c200SViacheslav Ovsiienko	 * Here we should be aware of WQE ring buffer wraparound only.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	part = (uint8_t *)txq->wqes_end - pdst;
18a1c200SViacheslav Ovsiienko	part = RTE_MIN(part, len);
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		rte_memcpy(pdst, buf, part);
18a1c200SViacheslav Ovsiienko		len -= part;
18a1c200SViacheslav Ovsiienko		if (likely(!len)) {
18a1c200SViacheslav Ovsiienko			pdst += part;
18a1c200SViacheslav Ovsiienko			pdst = RTE_PTR_ALIGN(pdst, MLX5_WSEG_SIZE);
18a1c200SViacheslav Ovsiienko			/* Note: no final wraparound check here. */
18a1c200SViacheslav Ovsiienko			return (struct mlx5_wqe_dseg *)pdst;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		pdst = (uint8_t *)txq->wqes;
18a1c200SViacheslav Ovsiienko		buf += part;
18a1c200SViacheslav Ovsiienko		part = len;
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Build the Ethernet Segment with optionally inlined data with
18a1c200SViacheslav Ovsiienko * VLAN insertion and following Data Segments (if any) from
18a1c200SViacheslav Ovsiienko * multi-segment packet. Used by ordinary send and TSO.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param wqe
18a1c200SViacheslav Ovsiienko *   Pointer to WQE to fill with built Ethernet/Data Segments.
18a1c200SViacheslav Ovsiienko * @param vlan
18a1c200SViacheslav Ovsiienko *   Length of VLAN header to insert, 0 means no VLAN insertion.
18a1c200SViacheslav Ovsiienko * @param inlen
18a1c200SViacheslav Ovsiienko *   Data length to inline. For TSO this parameter specifies
18a1c200SViacheslav Ovsiienko *   exact value, for ordinary send routine can be aligned by
18a1c200SViacheslav Ovsiienko *   caller to provide better WQE space saving and data buffer
18a1c200SViacheslav Ovsiienko *   start address alignment. This length includes VLAN header
18a1c200SViacheslav Ovsiienko *   being inserted.
18a1c200SViacheslav Ovsiienko * @param tso
18a1c200SViacheslav Ovsiienko *   Zero means ordinary send, inlined data can be extended,
18a1c200SViacheslav Ovsiienko *   otherwise this is TSO, inlined data length is fixed.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   Actual size of built WQE in segments.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline unsigned int
18a1c200SViacheslav Ovsiienkomlx5_tx_mseg_build(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		   struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		   struct mlx5_wqe *restrict wqe,
18a1c200SViacheslav Ovsiienko		   unsigned int vlan,
18a1c200SViacheslav Ovsiienko		   unsigned int inlen,
18a1c200SViacheslav Ovsiienko		   unsigned int tso,
18a1c200SViacheslav Ovsiienko		   unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_dseg *restrict dseg;
18a1c200SViacheslav Ovsiienko	unsigned int ds;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert((rte_pktmbuf_pkt_len(loc->mbuf) + vlan) >= inlen);
18a1c200SViacheslav Ovsiienko	loc->mbuf_nseg = NB_SEGS(loc->mbuf);
18a1c200SViacheslav Ovsiienko	loc->mbuf_off = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	dseg = mlx5_tx_eseg_mdat(txq, loc, wqe, vlan, inlen, tso, olx);
18a1c200SViacheslav Ovsiienko	if (!loc->mbuf_nseg)
18a1c200SViacheslav Ovsiienko		goto dseg_done;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * There are still some mbuf remaining, not inlined.
18a1c200SViacheslav Ovsiienko	 * The first mbuf may be partially inlined and we
18a1c200SViacheslav Ovsiienko	 * must process the possible non-zero data offset.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	if (loc->mbuf_off) {
18a1c200SViacheslav Ovsiienko		unsigned int dlen;
18a1c200SViacheslav Ovsiienko		uint8_t *dptr;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Exhausted packets must be dropped before.
18a1c200SViacheslav Ovsiienko		 * Non-zero offset means there are some data
18a1c200SViacheslav Ovsiienko		 * remained in the packet.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		assert(loc->mbuf_off < rte_pktmbuf_data_len(loc->mbuf));
18a1c200SViacheslav Ovsiienko		assert(rte_pktmbuf_data_len(loc->mbuf));
18a1c200SViacheslav Ovsiienko		dptr = rte_pktmbuf_mtod_offset(loc->mbuf, uint8_t *,
18a1c200SViacheslav Ovsiienko					       loc->mbuf_off);
18a1c200SViacheslav Ovsiienko		dlen = rte_pktmbuf_data_len(loc->mbuf) - loc->mbuf_off;
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Build the pointer/minimal data Data Segment.
18a1c200SViacheslav Ovsiienko		 * Do ring buffer wrapping check in advance.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		if ((uintptr_t)dseg >= (uintptr_t)txq->wqes_end)
18a1c200SViacheslav Ovsiienko			dseg = (struct mlx5_wqe_dseg *)txq->wqes;
18a1c200SViacheslav Ovsiienko		mlx5_tx_dseg_iptr(txq, loc, dseg, dptr, dlen, olx);
18a1c200SViacheslav Ovsiienko		/* Store the mbuf to be freed on completion. */
18a1c200SViacheslav Ovsiienko		assert(loc->elts_free);
18a1c200SViacheslav Ovsiienko		txq->elts[txq->elts_head++ & txq->elts_m] = loc->mbuf;
18a1c200SViacheslav Ovsiienko		--loc->elts_free;
18a1c200SViacheslav Ovsiienko		++dseg;
18a1c200SViacheslav Ovsiienko		if (--loc->mbuf_nseg == 0)
18a1c200SViacheslav Ovsiienko			goto dseg_done;
18a1c200SViacheslav Ovsiienko		loc->mbuf = loc->mbuf->next;
18a1c200SViacheslav Ovsiienko		loc->mbuf_off = 0;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		if (unlikely(!rte_pktmbuf_data_len(loc->mbuf))) {
18a1c200SViacheslav Ovsiienko			struct rte_mbuf *mbuf;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko			/* Zero length segment found, just skip. */
18a1c200SViacheslav Ovsiienko			mbuf = loc->mbuf;
18a1c200SViacheslav Ovsiienko			loc->mbuf = loc->mbuf->next;
18a1c200SViacheslav Ovsiienko			rte_pktmbuf_free_seg(mbuf);
18a1c200SViacheslav Ovsiienko			if (--loc->mbuf_nseg == 0)
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko		} else {
18a1c200SViacheslav Ovsiienko			if ((uintptr_t)dseg >= (uintptr_t)txq->wqes_end)
18a1c200SViacheslav Ovsiienko				dseg = (struct mlx5_wqe_dseg *)txq->wqes;
18a1c200SViacheslav Ovsiienko			mlx5_tx_dseg_iptr
18a1c200SViacheslav Ovsiienko				(txq, loc, dseg,
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_mtod(loc->mbuf, uint8_t *),
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_data_len(loc->mbuf), olx);
18a1c200SViacheslav Ovsiienko			assert(loc->elts_free);
18a1c200SViacheslav Ovsiienko			txq->elts[txq->elts_head++ & txq->elts_m] = loc->mbuf;
18a1c200SViacheslav Ovsiienko			--loc->elts_free;
18a1c200SViacheslav Ovsiienko			++dseg;
18a1c200SViacheslav Ovsiienko			if (--loc->mbuf_nseg == 0)
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			loc->mbuf = loc->mbuf->next;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienkodseg_done:
18a1c200SViacheslav Ovsiienko	/* Calculate actual segments used from the dseg pointer. */
18a1c200SViacheslav Ovsiienko	if ((uintptr_t)wqe < (uintptr_t)dseg)
18a1c200SViacheslav Ovsiienko		ds = ((uintptr_t)dseg - (uintptr_t)wqe) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko	else
18a1c200SViacheslav Ovsiienko		ds = (((uintptr_t)dseg - (uintptr_t)wqe) +
18a1c200SViacheslav Ovsiienko		      txq->wqe_s * MLX5_WQE_SIZE) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko	return ds;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Tx one packet function for multi-segment TSO. Supports all
18a1c200SViacheslav Ovsiienko * types of Tx offloads, uses MLX5_OPCODE_TSO to build WQEs,
18a1c200SViacheslav Ovsiienko * sends one packet per WQE.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * This routine is responsible for storing processed mbuf
18a1c200SViacheslav Ovsiienko * into elts ring buffer and update elts_head.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EXIT - sending is done or impossible.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_ERROR - some unrecoverable error occurred.
18a1c200SViacheslav Ovsiienko * Local context variables partially updated.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_packet_multi_tso(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko			unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe *restrict wqe;
18a1c200SViacheslav Ovsiienko	unsigned int ds, dlen, inlen, ntcp, vlan = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate data length to be inlined to estimate
18a1c200SViacheslav Ovsiienko	 * the required space in WQE ring buffer.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	dlen = rte_pktmbuf_pkt_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) && loc->mbuf->ol_flags & PKT_TX_VLAN_PKT)
18a1c200SViacheslav Ovsiienko		vlan = sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko	inlen = loc->mbuf->l2_len + vlan +
18a1c200SViacheslav Ovsiienko		loc->mbuf->l3_len + loc->mbuf->l4_len;
18a1c200SViacheslav Ovsiienko	if (unlikely((!inlen || !loc->mbuf->tso_segsz)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko	if (loc->mbuf->ol_flags & PKT_TX_TUNNEL_MASK)
18a1c200SViacheslav Ovsiienko		inlen += loc->mbuf->outer_l2_len + loc->mbuf->outer_l3_len;
18a1c200SViacheslav Ovsiienko	/* Packet must contain all TSO headers. */
18a1c200SViacheslav Ovsiienko	if (unlikely(inlen > MLX5_MAX_TSO_HEADER ||
18a1c200SViacheslav Ovsiienko		     inlen <= MLX5_ESEG_MIN_INLINE_SIZE ||
18a1c200SViacheslav Ovsiienko		     inlen > (dlen + vlan)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko	assert(inlen >= txq->inlen_mode);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Check whether there are enough free WQEBBs:
18a1c200SViacheslav Ovsiienko	 * - Control Segment
18a1c200SViacheslav Ovsiienko	 * - Ethernet Segment
18a1c200SViacheslav Ovsiienko	 * - First Segment of inlined Ethernet data
18a1c200SViacheslav Ovsiienko	 * - ... data continued ...
18a1c200SViacheslav Ovsiienko	 * - Data Segments of pointer/min inline type
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	ds = NB_SEGS(loc->mbuf) + 2 + (inlen -
18a1c200SViacheslav Ovsiienko				       MLX5_ESEG_MIN_INLINE_SIZE +
18a1c200SViacheslav Ovsiienko				       MLX5_WSEG_SIZE +
18a1c200SViacheslav Ovsiienko				       MLX5_WSEG_SIZE - 1) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko	if (unlikely(loc->wqe_free < ((ds + 3) / 4)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko	/* Check for maximal WQE size. */
18a1c200SViacheslav Ovsiienko	if (unlikely((MLX5_WQE_SIZE_MAX / MLX5_WSEG_SIZE) < ((ds + 3) / 4)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko	/* Update sent data bytes/packets counters. */
18a1c200SViacheslav Ovsiienko	ntcp = (dlen - (inlen - vlan) + loc->mbuf->tso_segsz - 1) /
18a1c200SViacheslav Ovsiienko		loc->mbuf->tso_segsz;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * One will be added for mbuf itself
18a1c200SViacheslav Ovsiienko	 * at the end of the mlx5_tx_burst from
18a1c200SViacheslav Ovsiienko	 * loc->pkts_sent field.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	--ntcp;
18a1c200SViacheslav Ovsiienko	txq->stats.opackets += ntcp;
18a1c200SViacheslav Ovsiienko	txq->stats.obytes += dlen + vlan + ntcp * inlen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko	wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko	loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko	mlx5_tx_cseg_init(txq, loc, wqe, 0, MLX5_OPCODE_TSO, olx);
18a1c200SViacheslav Ovsiienko	ds = mlx5_tx_mseg_build(txq, loc, wqe, vlan, inlen, 1, olx);
18a1c200SViacheslav Ovsiienko	wqe->cseg.sq_ds = rte_cpu_to_be_32(txq->qp_num_8s | ds);
18a1c200SViacheslav Ovsiienko	txq->wqe_ci += (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko	loc->wqe_free -= (ds + 3) / 4;
5a93e173SViacheslav Ovsiienko	/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko	mlx5_tx_request_completion(txq, loc, true, olx);
18a1c200SViacheslav Ovsiienko	return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Tx one packet function for multi-segment SEND. Supports all
18a1c200SViacheslav Ovsiienko * types of Tx offloads, uses MLX5_OPCODE_SEND to build WQEs,
18a1c200SViacheslav Ovsiienko * sends one packet per WQE, without any data inlining in
18a1c200SViacheslav Ovsiienko * Ethernet Segment.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * This routine is responsible for storing processed mbuf
18a1c200SViacheslav Ovsiienko * into elts ring buffer and update elts_head.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EXIT - sending is done or impossible.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_ERROR - some unrecoverable error occurred.
18a1c200SViacheslav Ovsiienko * Local context variables partially updated.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_packet_multi_send(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko			  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe_dseg *restrict dseg;
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe *restrict wqe;
18a1c200SViacheslav Ovsiienko	unsigned int ds, nseg;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(NB_SEGS(loc->mbuf) > 1);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * No inline at all, it means the CPU cycles saving
18a1c200SViacheslav Ovsiienko	 * is prioritized at configuration, we should not
18a1c200SViacheslav Ovsiienko	 * copy any packet data to WQE.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	nseg = NB_SEGS(loc->mbuf);
18a1c200SViacheslav Ovsiienko	ds = 2 + nseg;
18a1c200SViacheslav Ovsiienko	if (unlikely(loc->wqe_free < ((ds + 3) / 4)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko	/* Check for maximal WQE size. */
18a1c200SViacheslav Ovsiienko	if (unlikely((MLX5_WQE_SIZE_MAX / MLX5_WSEG_SIZE) < ((ds + 3) / 4)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Some Tx offloads may cause an error if
18a1c200SViacheslav Ovsiienko	 * packet is not long enough, check against
18a1c200SViacheslav Ovsiienko	 * assumed minimal length.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	if (rte_pktmbuf_pkt_len(loc->mbuf) <= MLX5_ESEG_MIN_INLINE_SIZE)
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko	/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko	txq->stats.obytes += rte_pktmbuf_pkt_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko	    loc->mbuf->ol_flags & PKT_TX_VLAN_PKT)
18a1c200SViacheslav Ovsiienko		txq->stats.obytes += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * SEND WQE, one WQEBB:
18a1c200SViacheslav Ovsiienko	 * - Control Segment, SEND opcode
18a1c200SViacheslav Ovsiienko	 * - Ethernet Segment, optional VLAN, no inline
18a1c200SViacheslav Ovsiienko	 * - Data Segments, pointer only type
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko	loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko	mlx5_tx_cseg_init(txq, loc, wqe, ds, MLX5_OPCODE_SEND, olx);
18a1c200SViacheslav Ovsiienko	mlx5_tx_eseg_none(txq, loc, wqe, olx);
18a1c200SViacheslav Ovsiienko	dseg = &wqe->dseg[0];
18a1c200SViacheslav Ovsiienko	do {
18a1c200SViacheslav Ovsiienko		if (unlikely(!rte_pktmbuf_data_len(loc->mbuf))) {
18a1c200SViacheslav Ovsiienko			struct rte_mbuf *mbuf;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Zero length segment found, have to
18a1c200SViacheslav Ovsiienko			 * correct total size of WQE in segments.
18a1c200SViacheslav Ovsiienko			 * It is supposed to be rare occasion, so
18a1c200SViacheslav Ovsiienko			 * in normal case (no zero length segments)
18a1c200SViacheslav Ovsiienko			 * we avoid extra writing to the Control
18a1c200SViacheslav Ovsiienko			 * Segment.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			--ds;
18a1c200SViacheslav Ovsiienko			wqe->cseg.sq_ds -= RTE_BE32(1);
18a1c200SViacheslav Ovsiienko			mbuf = loc->mbuf;
18a1c200SViacheslav Ovsiienko			loc->mbuf = mbuf->next;
18a1c200SViacheslav Ovsiienko			rte_pktmbuf_free_seg(mbuf);
18a1c200SViacheslav Ovsiienko			if (--nseg == 0)
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko		} else {
18a1c200SViacheslav Ovsiienko			mlx5_tx_dseg_ptr
18a1c200SViacheslav Ovsiienko				(txq, loc, dseg,
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_mtod(loc->mbuf, uint8_t *),
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_data_len(loc->mbuf), olx);
18a1c200SViacheslav Ovsiienko			txq->elts[txq->elts_head++ & txq->elts_m] = loc->mbuf;
18a1c200SViacheslav Ovsiienko			--loc->elts_free;
18a1c200SViacheslav Ovsiienko			if (--nseg == 0)
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			++dseg;
18a1c200SViacheslav Ovsiienko			if ((uintptr_t)dseg >= (uintptr_t)txq->wqes_end)
18a1c200SViacheslav Ovsiienko				dseg = (struct mlx5_wqe_dseg *)txq->wqes;
18a1c200SViacheslav Ovsiienko			loc->mbuf = loc->mbuf->next;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko	} while (true);
18a1c200SViacheslav Ovsiienko	txq->wqe_ci += (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko	loc->wqe_free -= (ds + 3) / 4;
5a93e173SViacheslav Ovsiienko	/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko	mlx5_tx_request_completion(txq, loc, true, olx);
18a1c200SViacheslav Ovsiienko	return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Tx one packet function for multi-segment SEND. Supports all
18a1c200SViacheslav Ovsiienko * types of Tx offloads, uses MLX5_OPCODE_SEND to build WQEs,
18a1c200SViacheslav Ovsiienko * sends one packet per WQE, with data inlining in
18a1c200SViacheslav Ovsiienko * Ethernet Segment and minimal Data Segments.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * This routine is responsible for storing processed mbuf
18a1c200SViacheslav Ovsiienko * into elts ring buffer and update elts_head.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EXIT - sending is done or impossible.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_ERROR - some unrecoverable error occurred.
18a1c200SViacheslav Ovsiienko * Local context variables partially updated.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_packet_multi_inline(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			    struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko			    unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_wqe *restrict wqe;
18a1c200SViacheslav Ovsiienko	unsigned int ds, inlen, dlen, vlan = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko	assert(NB_SEGS(loc->mbuf) > 1);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * First calculate data length to be inlined
18a1c200SViacheslav Ovsiienko	 * to estimate the required space for WQE.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	dlen = rte_pktmbuf_pkt_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) && loc->mbuf->ol_flags & PKT_TX_VLAN_PKT)
18a1c200SViacheslav Ovsiienko		vlan = sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko	inlen = dlen + vlan;
18a1c200SViacheslav Ovsiienko	/* Check against minimal length. */
18a1c200SViacheslav Ovsiienko	if (inlen <= MLX5_ESEG_MIN_INLINE_SIZE)
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko	assert(txq->inlen_send >= MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko	if (inlen > txq->inlen_send) {
18a1c200SViacheslav Ovsiienko		struct rte_mbuf *mbuf;
18a1c200SViacheslav Ovsiienko		unsigned int nxlen;
18a1c200SViacheslav Ovsiienko		uintptr_t start;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Packet length exceeds the allowed inline
18a1c200SViacheslav Ovsiienko		 * data length, check whether the minimal
18a1c200SViacheslav Ovsiienko		 * inlining is required.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		if (txq->inlen_mode) {
18a1c200SViacheslav Ovsiienko			assert(txq->inlen_mode >= MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko			assert(txq->inlen_mode <= txq->inlen_send);
18a1c200SViacheslav Ovsiienko			inlen = txq->inlen_mode;
18a1c200SViacheslav Ovsiienko		} else {
18a1c200SViacheslav Ovsiienko			if (!vlan || txq->vlan_en) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * VLAN insertion will be done inside by HW.
18a1c200SViacheslav Ovsiienko				 * It is not utmost effective - VLAN flag is
18a1c200SViacheslav Ovsiienko				 * checked twice, but we should proceed the
18a1c200SViacheslav Ovsiienko				 * inlining length correctly and take into
18a1c200SViacheslav Ovsiienko				 * account the VLAN header being inserted.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				return mlx5_tx_packet_multi_send
18a1c200SViacheslav Ovsiienko							(txq, loc, olx);
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			inlen = MLX5_ESEG_MIN_INLINE_SIZE;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Now we know the minimal amount of data is requested
18a1c200SViacheslav Ovsiienko		 * to inline. Check whether we should inline the buffers
18a1c200SViacheslav Ovsiienko		 * from the chain beginning to eliminate some mbufs.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		mbuf = loc->mbuf;
18a1c200SViacheslav Ovsiienko		nxlen = rte_pktmbuf_data_len(mbuf);
18a1c200SViacheslav Ovsiienko		if (unlikely(nxlen <= txq->inlen_send)) {
18a1c200SViacheslav Ovsiienko			/* We can inline first mbuf at least. */
18a1c200SViacheslav Ovsiienko			if (nxlen < inlen) {
18a1c200SViacheslav Ovsiienko				unsigned int smlen;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko				/* Scan mbufs till inlen filled. */
18a1c200SViacheslav Ovsiienko				do {
18a1c200SViacheslav Ovsiienko					smlen = nxlen;
18a1c200SViacheslav Ovsiienko					mbuf = NEXT(mbuf);
18a1c200SViacheslav Ovsiienko					assert(mbuf);
18a1c200SViacheslav Ovsiienko					nxlen = rte_pktmbuf_data_len(mbuf);
18a1c200SViacheslav Ovsiienko					nxlen += smlen;
18a1c200SViacheslav Ovsiienko				} while (unlikely(nxlen < inlen));
18a1c200SViacheslav Ovsiienko				if (unlikely(nxlen > txq->inlen_send)) {
18a1c200SViacheslav Ovsiienko					/* We cannot inline entire mbuf. */
18a1c200SViacheslav Ovsiienko					smlen = inlen - smlen;
18a1c200SViacheslav Ovsiienko					start = rte_pktmbuf_mtod_offset
18a1c200SViacheslav Ovsiienko						    (mbuf, uintptr_t, smlen);
18a1c200SViacheslav Ovsiienko					goto do_align;
18a1c200SViacheslav Ovsiienko				}
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			do {
18a1c200SViacheslav Ovsiienko				inlen = nxlen;
18a1c200SViacheslav Ovsiienko				mbuf = NEXT(mbuf);
18a1c200SViacheslav Ovsiienko				/* There should be not end of packet. */
18a1c200SViacheslav Ovsiienko				assert(mbuf);
18a1c200SViacheslav Ovsiienko				nxlen = inlen + rte_pktmbuf_data_len(mbuf);
18a1c200SViacheslav Ovsiienko			} while (unlikely(nxlen < txq->inlen_send));
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		start = rte_pktmbuf_mtod(mbuf, uintptr_t);
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Check whether we can do inline to align start
18a1c200SViacheslav Ovsiienko		 * address of data buffer to cacheline.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienkodo_align:
18a1c200SViacheslav Ovsiienko		start = (~start + 1) & (RTE_CACHE_LINE_SIZE - 1);
18a1c200SViacheslav Ovsiienko		if (unlikely(start)) {
18a1c200SViacheslav Ovsiienko			start += inlen;
18a1c200SViacheslav Ovsiienko			if (start <= txq->inlen_send)
18a1c200SViacheslav Ovsiienko				inlen = start;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Check whether there are enough free WQEBBs:
18a1c200SViacheslav Ovsiienko	 * - Control Segment
18a1c200SViacheslav Ovsiienko	 * - Ethernet Segment
18a1c200SViacheslav Ovsiienko	 * - First Segment of inlined Ethernet data
18a1c200SViacheslav Ovsiienko	 * - ... data continued ...
18a1c200SViacheslav Ovsiienko	 * - Data Segments of pointer/min inline type
18a1c200SViacheslav Ovsiienko	 *
18a1c200SViacheslav Ovsiienko	 * Estimate the number of Data Segments conservatively,
18a1c200SViacheslav Ovsiienko	 * supposing no any mbufs is being freed during inlining.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(inlen <= txq->inlen_send);
18a1c200SViacheslav Ovsiienko	ds = NB_SEGS(loc->mbuf) + 2 + (inlen -
18a1c200SViacheslav Ovsiienko				       MLX5_ESEG_MIN_INLINE_SIZE +
18a1c200SViacheslav Ovsiienko				       MLX5_WSEG_SIZE +
18a1c200SViacheslav Ovsiienko				       MLX5_WSEG_SIZE - 1) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko	if (unlikely(loc->wqe_free < ((ds + 3) / 4)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko	/* Check for maximal WQE size. */
18a1c200SViacheslav Ovsiienko	if (unlikely((MLX5_WQE_SIZE_MAX / MLX5_WSEG_SIZE) < ((ds + 3) / 4)))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko	/* Update sent data bytes/packets counters. */
18a1c200SViacheslav Ovsiienko	txq->stats.obytes += dlen + vlan;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko	wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko	loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko	mlx5_tx_cseg_init(txq, loc, wqe, 0, MLX5_OPCODE_SEND, olx);
18a1c200SViacheslav Ovsiienko	ds = mlx5_tx_mseg_build(txq, loc, wqe, vlan, inlen, 0, olx);
18a1c200SViacheslav Ovsiienko	wqe->cseg.sq_ds = rte_cpu_to_be_32(txq->qp_num_8s | ds);
18a1c200SViacheslav Ovsiienko	txq->wqe_ci += (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko	loc->wqe_free -= (ds + 3) / 4;
5a93e173SViacheslav Ovsiienko	/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko	mlx5_tx_request_completion(txq, loc, true, olx);
18a1c200SViacheslav Ovsiienko	return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Tx burst function for multi-segment packets. Supports all
18a1c200SViacheslav Ovsiienko * types of Tx offloads, uses MLX5_OPCODE_SEND/TSO to build WQEs,
18a1c200SViacheslav Ovsiienko * sends one packet per WQE. Function stops sending if it
18a1c200SViacheslav Ovsiienko * encounters the single-segment packet.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * This routine is responsible for storing processed mbuf
18a1c200SViacheslav Ovsiienko * into elts ring buffer and update elts_head.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param[in] pkts
18a1c200SViacheslav Ovsiienko *   Packets to transmit.
18a1c200SViacheslav Ovsiienko * @param pkts_n
18a1c200SViacheslav Ovsiienko *   Number of packets in array.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EXIT - sending is done or impossible.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_ERROR - some unrecoverable error occurred.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_SINGLE - single-segment packet encountered.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_TSO - TSO single-segment packet encountered.
18a1c200SViacheslav Ovsiienko * Local context variables updated.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_burst_mseg(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		   struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko		   unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko		   struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		   unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienko	assert(pkts_n > loc->pkts_sent);
18a1c200SViacheslav Ovsiienko	pkts += loc->pkts_sent + 1;
18a1c200SViacheslav Ovsiienko	pkts_n -= loc->pkts_sent;
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		enum mlx5_txcmp_code ret;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		assert(NB_SEGS(loc->mbuf) > 1);
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Estimate the number of free elts quickly but
18a1c200SViacheslav Ovsiienko		 * conservatively. Some segment may be fully inlined
18a1c200SViacheslav Ovsiienko		 * and freed, ignore this here - precise estimation
18a1c200SViacheslav Ovsiienko		 * is costly.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		if (loc->elts_free < NB_SEGS(loc->mbuf))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(TSO) &&
18a1c200SViacheslav Ovsiienko		    unlikely(loc->mbuf->ol_flags & PKT_TX_TCP_SEG)) {
18a1c200SViacheslav Ovsiienko			/* Proceed with multi-segment TSO. */
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_packet_multi_tso(txq, loc, olx);
18a1c200SViacheslav Ovsiienko		} else if (MLX5_TXOFF_CONFIG(INLINE)) {
18a1c200SViacheslav Ovsiienko			/* Proceed with multi-segment SEND with inlining. */
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_packet_multi_inline(txq, loc, olx);
18a1c200SViacheslav Ovsiienko		} else {
18a1c200SViacheslav Ovsiienko			/* Proceed with multi-segment SEND w/o inlining. */
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_packet_multi_send(txq, loc, olx);
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		if (ret == MLX5_TXCMP_CODE_EXIT)
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		if (ret == MLX5_TXCMP_CODE_ERROR)
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko		/* WQE is built, go to the next packet. */
18a1c200SViacheslav Ovsiienko		++loc->pkts_sent;
18a1c200SViacheslav Ovsiienko		--pkts_n;
18a1c200SViacheslav Ovsiienko		if (unlikely(!pkts_n || !loc->elts_free || !loc->wqe_free))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		loc->mbuf = *pkts++;
18a1c200SViacheslav Ovsiienko		if (pkts_n > 1)
18a1c200SViacheslav Ovsiienko			rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko		if (likely(NB_SEGS(loc->mbuf) > 1))
18a1c200SViacheslav Ovsiienko			continue;
18a1c200SViacheslav Ovsiienko		/* Here ends the series of multi-segment packets. */
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(TSO) &&
18a1c200SViacheslav Ovsiienko		    unlikely(!(loc->mbuf->ol_flags & PKT_TX_TCP_SEG)))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_TSO;
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_SINGLE;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	assert(false);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Tx burst function for single-segment packets with TSO.
18a1c200SViacheslav Ovsiienko * Supports all types of Tx offloads, except multi-packets.
18a1c200SViacheslav Ovsiienko * Uses MLX5_OPCODE_TSO to build WQEs, sends one packet per WQE.
18a1c200SViacheslav Ovsiienko * Function stops sending if it encounters the multi-segment
18a1c200SViacheslav Ovsiienko * packet or packet without TSO requested.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * The routine is responsible for storing processed mbuf
18a1c200SViacheslav Ovsiienko * into elts ring buffer and update elts_head if inline
18a1c200SViacheslav Ovsiienko * offloads is requested due to possible early freeing
18a1c200SViacheslav Ovsiienko * of the inlined mbufs (can not store pkts array in elts
18a1c200SViacheslav Ovsiienko * as a batch).
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param[in] pkts
18a1c200SViacheslav Ovsiienko *   Packets to transmit.
18a1c200SViacheslav Ovsiienko * @param pkts_n
18a1c200SViacheslav Ovsiienko *   Number of packets in array.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EXIT - sending is done or impossible.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_ERROR - some unrecoverable error occurred.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_SINGLE - single-segment packet encountered.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_MULTI - multi-segment packet encountered.
18a1c200SViacheslav Ovsiienko * Local context variables updated.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_burst_tso(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		  struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko		  unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko		  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienko	assert(pkts_n > loc->pkts_sent);
18a1c200SViacheslav Ovsiienko	pkts += loc->pkts_sent + 1;
18a1c200SViacheslav Ovsiienko	pkts_n -= loc->pkts_sent;
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe_dseg *restrict dseg;
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe *restrict wqe;
18a1c200SViacheslav Ovsiienko		unsigned int ds, dlen, hlen, ntcp, vlan = 0;
18a1c200SViacheslav Ovsiienko		uint8_t *dptr;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		assert(NB_SEGS(loc->mbuf) == 1);
18a1c200SViacheslav Ovsiienko		dlen = rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko		    loc->mbuf->ol_flags & PKT_TX_VLAN_PKT) {
18a1c200SViacheslav Ovsiienko			vlan = sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * First calculate the WQE size to check
18a1c200SViacheslav Ovsiienko		 * whether we have enough space in ring buffer.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		hlen = loc->mbuf->l2_len + vlan +
18a1c200SViacheslav Ovsiienko		       loc->mbuf->l3_len + loc->mbuf->l4_len;
18a1c200SViacheslav Ovsiienko		if (unlikely((!hlen || !loc->mbuf->tso_segsz)))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko		if (loc->mbuf->ol_flags & PKT_TX_TUNNEL_MASK)
18a1c200SViacheslav Ovsiienko			hlen += loc->mbuf->outer_l2_len +
18a1c200SViacheslav Ovsiienko				loc->mbuf->outer_l3_len;
18a1c200SViacheslav Ovsiienko		/* Segment must contain all TSO headers. */
18a1c200SViacheslav Ovsiienko		if (unlikely(hlen > MLX5_MAX_TSO_HEADER ||
18a1c200SViacheslav Ovsiienko			     hlen <= MLX5_ESEG_MIN_INLINE_SIZE ||
18a1c200SViacheslav Ovsiienko			     hlen > (dlen + vlan)))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Check whether there are enough free WQEBBs:
18a1c200SViacheslav Ovsiienko		 * - Control Segment
18a1c200SViacheslav Ovsiienko		 * - Ethernet Segment
18a1c200SViacheslav Ovsiienko		 * - First Segment of inlined Ethernet data
18a1c200SViacheslav Ovsiienko		 * - ... data continued ...
18a1c200SViacheslav Ovsiienko		 * - Finishing Data Segment of pointer type
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		ds = 4 + (hlen - MLX5_ESEG_MIN_INLINE_SIZE +
18a1c200SViacheslav Ovsiienko			  MLX5_WSEG_SIZE - 1) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko		if (loc->wqe_free < ((ds + 3) / 4))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko		/* Update sent data bytes/packets counters. */
18a1c200SViacheslav Ovsiienko		ntcp = (dlen + vlan - hlen +
18a1c200SViacheslav Ovsiienko			loc->mbuf->tso_segsz - 1) /
18a1c200SViacheslav Ovsiienko			loc->mbuf->tso_segsz;
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * One will be added for mbuf itself at the end
18a1c200SViacheslav Ovsiienko		 * of the mlx5_tx_burst from loc->pkts_sent field.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		--ntcp;
18a1c200SViacheslav Ovsiienko		txq->stats.opackets += ntcp;
18a1c200SViacheslav Ovsiienko		txq->stats.obytes += dlen + vlan + ntcp * hlen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Build the TSO WQE:
18a1c200SViacheslav Ovsiienko		 * - Control Segment
18a1c200SViacheslav Ovsiienko		 * - Ethernet Segment with hlen bytes inlined
18a1c200SViacheslav Ovsiienko		 * - Data Segment of pointer type
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko		loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko		mlx5_tx_cseg_init(txq, loc, wqe, ds,
18a1c200SViacheslav Ovsiienko				  MLX5_OPCODE_TSO, olx);
18a1c200SViacheslav Ovsiienko		dseg = mlx5_tx_eseg_data(txq, loc, wqe, vlan, hlen, 1, olx);
18a1c200SViacheslav Ovsiienko		dptr = rte_pktmbuf_mtod(loc->mbuf, uint8_t *) + hlen - vlan;
18a1c200SViacheslav Ovsiienko		dlen -= hlen - vlan;
18a1c200SViacheslav Ovsiienko		mlx5_tx_dseg_ptr(txq, loc, dseg, dptr, dlen, olx);
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * WQE is built, update the loop parameters
18a1c200SViacheslav Ovsiienko		 * and go to the next packet.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		txq->wqe_ci += (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko		loc->wqe_free -= (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(INLINE))
18a1c200SViacheslav Ovsiienko			txq->elts[txq->elts_head++ & txq->elts_m] = loc->mbuf;
18a1c200SViacheslav Ovsiienko		--loc->elts_free;
18a1c200SViacheslav Ovsiienko		++loc->pkts_sent;
18a1c200SViacheslav Ovsiienko		--pkts_n;
5a93e173SViacheslav Ovsiienko		/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko		mlx5_tx_request_completion(txq, loc, false, olx);
18a1c200SViacheslav Ovsiienko		if (unlikely(!pkts_n || !loc->elts_free || !loc->wqe_free))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		loc->mbuf = *pkts++;
18a1c200SViacheslav Ovsiienko		if (pkts_n > 1)
18a1c200SViacheslav Ovsiienko			rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(MULTI) &&
18a1c200SViacheslav Ovsiienko		    unlikely(NB_SEGS(loc->mbuf) > 1))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko		if (unlikely(!(loc->mbuf->ol_flags & PKT_TX_TCP_SEG)))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_SINGLE;
18a1c200SViacheslav Ovsiienko		/* Continue with the next TSO packet. */
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	assert(false);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Analyze the packet and select the best method to send.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko * @param newp
18a1c200SViacheslav Ovsiienko *   The predefined flag whether do complete check for
18a1c200SViacheslav Ovsiienko *   multi-segment packets and TSO.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *  MLX5_TXCMP_CODE_MULTI - multi-segment packet encountered.
18a1c200SViacheslav Ovsiienko *  MLX5_TXCMP_CODE_TSO - TSO required, use TSO/LSO.
18a1c200SViacheslav Ovsiienko *  MLX5_TXCMP_CODE_SINGLE - single-segment packet, use SEND.
18a1c200SViacheslav Ovsiienko *  MLX5_TXCMP_CODE_EMPW - single-segment packet, use MPW.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_able_to_empw(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		     struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		     unsigned int olx,
18a1c200SViacheslav Ovsiienko		     bool newp)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	/* Check for multi-segment packet. */
18a1c200SViacheslav Ovsiienko	if (newp &&
18a1c200SViacheslav Ovsiienko	    MLX5_TXOFF_CONFIG(MULTI) &&
18a1c200SViacheslav Ovsiienko	    unlikely(NB_SEGS(loc->mbuf) > 1))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko	/* Check for TSO packet. */
18a1c200SViacheslav Ovsiienko	if (newp &&
18a1c200SViacheslav Ovsiienko	    MLX5_TXOFF_CONFIG(TSO) &&
18a1c200SViacheslav Ovsiienko	    unlikely(loc->mbuf->ol_flags & PKT_TX_TCP_SEG))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_TSO;
18a1c200SViacheslav Ovsiienko	/* Check if eMPW is enabled at all. */
18a1c200SViacheslav Ovsiienko	if (!MLX5_TXOFF_CONFIG(EMPW))
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_SINGLE;
18a1c200SViacheslav Ovsiienko	/* Check if eMPW can be engaged. */
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko	    unlikely(loc->mbuf->ol_flags & PKT_TX_VLAN_PKT) &&
18a1c200SViacheslav Ovsiienko		(!MLX5_TXOFF_CONFIG(INLINE) ||
18a1c200SViacheslav Ovsiienko		 unlikely((rte_pktmbuf_data_len(loc->mbuf) +
18a1c200SViacheslav Ovsiienko			   sizeof(struct rte_vlan_hdr)) > txq->inlen_empw))) {
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * eMPW does not support VLAN insertion offload,
18a1c200SViacheslav Ovsiienko		 * we have to inline the entire packet but
18a1c200SViacheslav Ovsiienko		 * packet is too long for inlining.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		return MLX5_TXCMP_CODE_SINGLE;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	return MLX5_TXCMP_CODE_EMPW;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * Check the next packet attributes to match with the eMPW batch ones.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param es
18a1c200SViacheslav Ovsiienko *   Pointer to Ethernet Segment of eMPW batch.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *  true - packet match with eMPW batch attributes.
18a1c200SViacheslav Ovsiienko *  false - no match, eMPW should be restarted.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline bool
18a1c200SViacheslav Ovsiienkomlx5_tx_match_empw(struct mlx5_txq_data *restrict txq __rte_unused,
18a1c200SViacheslav Ovsiienko		   struct mlx5_wqe_eseg *restrict es,
18a1c200SViacheslav Ovsiienko		   struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		   unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	uint8_t swp_flags = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	/* Compare the checksum flags, if any. */
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(CSUM) &&
18a1c200SViacheslav Ovsiienko	    txq_ol_cksum_to_cs(loc->mbuf) != es->cs_flags)
18a1c200SViacheslav Ovsiienko		return false;
18a1c200SViacheslav Ovsiienko	/* Compare the Software Parser offsets and flags. */
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(SWP) &&
18a1c200SViacheslav Ovsiienko	    (es->swp_offs != txq_mbuf_to_swp(loc, &swp_flags, olx) ||
18a1c200SViacheslav Ovsiienko	     es->swp_flags != swp_flags))
18a1c200SViacheslav Ovsiienko		return false;
18a1c200SViacheslav Ovsiienko	/* Fill metadata field if needed. */
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(METADATA) &&
18a1c200SViacheslav Ovsiienko		es->metadata != (loc->mbuf->ol_flags & PKT_TX_METADATA ?
18a1c200SViacheslav Ovsiienko				 loc->mbuf->tx_metadata : 0))
18a1c200SViacheslav Ovsiienko		return false;
18a1c200SViacheslav Ovsiienko	/* There must be no VLAN packets in eMPW loop. */
18a1c200SViacheslav Ovsiienko	if (MLX5_TXOFF_CONFIG(VLAN))
18a1c200SViacheslav Ovsiienko		assert(!(loc->mbuf->ol_flags & PKT_TX_VLAN_PKT));
18a1c200SViacheslav Ovsiienko	return true;
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/*
18a1c200SViacheslav Ovsiienko * Update send loop variables and WQE for eMPW loop
18a1c200SViacheslav Ovsiienko * without data inlining. Number of Data Segments is
18a1c200SViacheslav Ovsiienko * equal to the number of sent packets.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param ds
18a1c200SViacheslav Ovsiienko *   Number of packets/Data Segments/Packets.
18a1c200SViacheslav Ovsiienko * @param slen
18a1c200SViacheslav Ovsiienko *   Accumulated statistics, bytes sent
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *  true - packet match with eMPW batch attributes.
18a1c200SViacheslav Ovsiienko *  false - no match, eMPW should be restarted.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_sdone_empw(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		   struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		   unsigned int ds,
18a1c200SViacheslav Ovsiienko		   unsigned int slen,
5a93e173SViacheslav Ovsiienko		   unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	assert(!MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko	/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko	 txq->stats.obytes += slen;
18a1c200SViacheslav Ovsiienko#else
18a1c200SViacheslav Ovsiienko	(void)slen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko	loc->elts_free -= ds;
18a1c200SViacheslav Ovsiienko	loc->pkts_sent += ds;
18a1c200SViacheslav Ovsiienko	ds += 2;
18a1c200SViacheslav Ovsiienko	loc->wqe_last->cseg.sq_ds = rte_cpu_to_be_32(txq->qp_num_8s | ds);
18a1c200SViacheslav Ovsiienko	txq->wqe_ci += (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko	loc->wqe_free -= (ds + 3) / 4;
5a93e173SViacheslav Ovsiienko	/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko	mlx5_tx_request_completion(txq, loc, false, olx);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/*
18a1c200SViacheslav Ovsiienko * Update send loop variables and WQE for eMPW loop
18a1c200SViacheslav Ovsiienko * with data inlining. Gets the size of pushed descriptors
18a1c200SViacheslav Ovsiienko * and data to the WQE.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param len
18a1c200SViacheslav Ovsiienko *   Total size of descriptor/data in bytes.
18a1c200SViacheslav Ovsiienko * @param slen
18a1c200SViacheslav Ovsiienko *   Accumulated statistics, data bytes sent.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *  true - packet match with eMPW batch attributes.
18a1c200SViacheslav Ovsiienko *  false - no match, eMPW should be restarted.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline void
18a1c200SViacheslav Ovsiienkomlx5_tx_idone_empw(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		   struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		   unsigned int len,
18a1c200SViacheslav Ovsiienko		   unsigned int slen,
18a1c200SViacheslav Ovsiienko		   unsigned int olx __rte_unused)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	assert(MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko	assert((len % MLX5_WSEG_SIZE) == 0);
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko	/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko	 txq->stats.obytes += slen;
18a1c200SViacheslav Ovsiienko#else
18a1c200SViacheslav Ovsiienko	(void)slen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko	len = len / MLX5_WSEG_SIZE + 2;
18a1c200SViacheslav Ovsiienko	loc->wqe_last->cseg.sq_ds = rte_cpu_to_be_32(txq->qp_num_8s | len);
18a1c200SViacheslav Ovsiienko	txq->wqe_ci += (len + 3) / 4;
18a1c200SViacheslav Ovsiienko	loc->wqe_free -= (len + 3) / 4;
5a93e173SViacheslav Ovsiienko	/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko	mlx5_tx_request_completion(txq, loc, false, olx);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * The set of Tx burst functions for single-segment packets
18a1c200SViacheslav Ovsiienko * without TSO and with Multi-Packet Writing feature support.
18a1c200SViacheslav Ovsiienko * Supports all types of Tx offloads, except multi-packets
18a1c200SViacheslav Ovsiienko * and TSO.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * Uses MLX5_OPCODE_EMPW to build WQEs if possible and sends
18a1c200SViacheslav Ovsiienko * as many packet per WQE as it can. If eMPW is not configured
18a1c200SViacheslav Ovsiienko * or packet can not be sent with eMPW (VLAN insertion) the
18a1c200SViacheslav Ovsiienko * ordinary SEND opcode is used and only one packet placed
18a1c200SViacheslav Ovsiienko * in WQE.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * Functions stop sending if it encounters the multi-segment
18a1c200SViacheslav Ovsiienko * packet or packet with TSO requested.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * The routines are responsible for storing processed mbuf
18a1c200SViacheslav Ovsiienko * into elts ring buffer and update elts_head if inlining
18a1c200SViacheslav Ovsiienko * offload is requested. Otherwise the copying mbufs to elts
18a1c200SViacheslav Ovsiienko * can be postponed and completed at the end of burst routine.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @param txq
18a1c200SViacheslav Ovsiienko *   Pointer to TX queue structure.
18a1c200SViacheslav Ovsiienko * @param[in] pkts
18a1c200SViacheslav Ovsiienko *   Packets to transmit.
18a1c200SViacheslav Ovsiienko * @param pkts_n
18a1c200SViacheslav Ovsiienko *   Number of packets in array.
18a1c200SViacheslav Ovsiienko * @param loc
18a1c200SViacheslav Ovsiienko *   Pointer to burst routine local context.
18a1c200SViacheslav Ovsiienko * @param olx
18a1c200SViacheslav Ovsiienko *   Configured Tx offloads mask. It is fully defined at
18a1c200SViacheslav Ovsiienko *   compile time and may be used for optimization.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * @return
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EXIT - sending is done or impossible.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_ERROR - some unrecoverable error occurred.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_MULTI - multi-segment packet encountered.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_TSO - TSO packet encountered.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_SINGLE - used inside functions set.
18a1c200SViacheslav Ovsiienko *   MLX5_TXCMP_CODE_EMPW - used inside functions set.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * Local context variables updated.
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko *
18a1c200SViacheslav Ovsiienko * The routine sends packets with MLX5_OPCODE_EMPW
18a1c200SViacheslav Ovsiienko * without inlining, this is dedicated optimized branch.
18a1c200SViacheslav Ovsiienko * No VLAN insertion is supported.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_burst_empw_simple(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			  struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko			  unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko			  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko			  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Subroutine is the part of mlx5_tx_burst_single()
18a1c200SViacheslav Ovsiienko	 * and sends single-segment packet with eMPW opcode
18a1c200SViacheslav Ovsiienko	 * without data inlining.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(!MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko	assert(MLX5_TXOFF_CONFIG(EMPW));
18a1c200SViacheslav Ovsiienko	assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienko	assert(pkts_n > loc->pkts_sent);
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_EMPW_MIN_PACKETS >= 2, "invalid min size");
18a1c200SViacheslav Ovsiienko	pkts += loc->pkts_sent + 1;
18a1c200SViacheslav Ovsiienko	pkts_n -= loc->pkts_sent;
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe_dseg *restrict dseg;
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe_eseg *restrict eseg;
18a1c200SViacheslav Ovsiienko		enum mlx5_txcmp_code ret;
18a1c200SViacheslav Ovsiienko		unsigned int part, loop;
18a1c200SViacheslav Ovsiienko		unsigned int slen = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienkonext_empw:
18a1c200SViacheslav Ovsiienko		part = RTE_MIN(pkts_n, MLX5_EMPW_MAX_PACKETS);
18a1c200SViacheslav Ovsiienko		if (unlikely(loc->elts_free < part)) {
18a1c200SViacheslav Ovsiienko			/* We have no enough elts to save all mbufs. */
18a1c200SViacheslav Ovsiienko			if (unlikely(loc->elts_free < MLX5_EMPW_MIN_PACKETS))
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko			/* But we still able to send at least minimal eMPW. */
18a1c200SViacheslav Ovsiienko			part = loc->elts_free;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/* Check whether we have enough WQEs */
18a1c200SViacheslav Ovsiienko		if (unlikely(loc->wqe_free < ((2 + part + 3) / 4))) {
18a1c200SViacheslav Ovsiienko			if (unlikely(loc->wqe_free <
18a1c200SViacheslav Ovsiienko				((2 + MLX5_EMPW_MIN_PACKETS + 3) / 4)))
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko			part = (loc->wqe_free * 4) - 2;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		if (likely(part > 1))
18a1c200SViacheslav Ovsiienko			rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko		loc->wqe_last = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Build eMPW title WQEBB:
18a1c200SViacheslav Ovsiienko		 * - Control Segment, eMPW opcode
18a1c200SViacheslav Ovsiienko		 * - Ethernet Segment, no inline
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		mlx5_tx_cseg_init(txq, loc, loc->wqe_last, part + 2,
18a1c200SViacheslav Ovsiienko				  MLX5_OPCODE_ENHANCED_MPSW, olx);
18a1c200SViacheslav Ovsiienko		mlx5_tx_eseg_none(txq, loc, loc->wqe_last,
18a1c200SViacheslav Ovsiienko				  olx & ~MLX5_TXOFF_CONFIG_VLAN);
18a1c200SViacheslav Ovsiienko		eseg = &loc->wqe_last->eseg;
18a1c200SViacheslav Ovsiienko		dseg = &loc->wqe_last->dseg[0];
18a1c200SViacheslav Ovsiienko		loop = part;
18a1c200SViacheslav Ovsiienko		for (;;) {
18a1c200SViacheslav Ovsiienko			uint32_t dlen = rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko			/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko			slen += dlen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko			mlx5_tx_dseg_ptr
18a1c200SViacheslav Ovsiienko				(txq, loc, dseg,
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_mtod(loc->mbuf, uint8_t *),
18a1c200SViacheslav Ovsiienko				 dlen, olx);
18a1c200SViacheslav Ovsiienko			if (unlikely(--loop == 0))
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			loc->mbuf = *pkts++;
18a1c200SViacheslav Ovsiienko			if (likely(loop > 1))
18a1c200SViacheslav Ovsiienko				rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_able_to_empw(txq, loc, olx, true);
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Unroll the completion code to avoid
18a1c200SViacheslav Ovsiienko			 * returning variable value - it results in
18a1c200SViacheslav Ovsiienko			 * unoptimized sequent checking in caller.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_MULTI) {
18a1c200SViacheslav Ovsiienko				part -= loop;
18a1c200SViacheslav Ovsiienko				mlx5_tx_sdone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_TSO) {
18a1c200SViacheslav Ovsiienko				part -= loop;
18a1c200SViacheslav Ovsiienko				mlx5_tx_sdone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_TSO;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_SINGLE) {
18a1c200SViacheslav Ovsiienko				part -= loop;
18a1c200SViacheslav Ovsiienko				mlx5_tx_sdone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_SINGLE;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret != MLX5_TXCMP_CODE_EMPW) {
18a1c200SViacheslav Ovsiienko				assert(false);
18a1c200SViacheslav Ovsiienko				part -= loop;
18a1c200SViacheslav Ovsiienko				mlx5_tx_sdone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Check whether packet parameters coincide
18a1c200SViacheslav Ovsiienko			 * within assumed eMPW batch:
18a1c200SViacheslav Ovsiienko			 * - check sum settings
18a1c200SViacheslav Ovsiienko			 * - metadata value
18a1c200SViacheslav Ovsiienko			 * - software parser settings
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (!mlx5_tx_match_empw(txq, eseg, loc, olx)) {
18a1c200SViacheslav Ovsiienko				assert(loop);
18a1c200SViacheslav Ovsiienko				part -= loop;
18a1c200SViacheslav Ovsiienko				mlx5_tx_sdone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
5a93e173SViacheslav Ovsiienko				pkts_n -= part;
18a1c200SViacheslav Ovsiienko				goto next_empw;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			/* Packet attributes match, continue the same eMPW. */
18a1c200SViacheslav Ovsiienko			++dseg;
18a1c200SViacheslav Ovsiienko			if ((uintptr_t)dseg >= (uintptr_t)txq->wqes_end)
18a1c200SViacheslav Ovsiienko				dseg = (struct mlx5_wqe_dseg *)txq->wqes;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/* eMPW is built successfully, update loop parameters. */
18a1c200SViacheslav Ovsiienko		assert(!loop);
18a1c200SViacheslav Ovsiienko		assert(pkts_n >= part);
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko		/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko		txq->stats.obytes += slen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko		loc->elts_free -= part;
18a1c200SViacheslav Ovsiienko		loc->pkts_sent += part;
18a1c200SViacheslav Ovsiienko		txq->wqe_ci += (2 + part + 3) / 4;
18a1c200SViacheslav Ovsiienko		loc->wqe_free -= (2 + part + 3) / 4;
18a1c200SViacheslav Ovsiienko		pkts_n -= part;
5a93e173SViacheslav Ovsiienko		/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko		mlx5_tx_request_completion(txq, loc, false, olx);
18a1c200SViacheslav Ovsiienko		if (unlikely(!pkts_n || !loc->elts_free || !loc->wqe_free))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		loc->mbuf = *pkts++;
18a1c200SViacheslav Ovsiienko		ret = mlx5_tx_able_to_empw(txq, loc, olx, true);
18a1c200SViacheslav Ovsiienko		if (unlikely(ret != MLX5_TXCMP_CODE_EMPW))
18a1c200SViacheslav Ovsiienko			return ret;
18a1c200SViacheslav Ovsiienko		/* Continue sending eMPW batches. */
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	assert(false);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * The routine sends packets with MLX5_OPCODE_EMPW
18a1c200SViacheslav Ovsiienko * with inlining, optionally supports VLAN insertion.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_burst_empw_inline(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			  struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko			  unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko			  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko			  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Subroutine is the part of mlx5_tx_burst_single()
18a1c200SViacheslav Ovsiienko	 * and sends single-segment packet with eMPW opcode
18a1c200SViacheslav Ovsiienko	 * with data inlining.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko	assert(MLX5_TXOFF_CONFIG(EMPW));
18a1c200SViacheslav Ovsiienko	assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienko	assert(pkts_n > loc->pkts_sent);
18a1c200SViacheslav Ovsiienko	static_assert(MLX5_EMPW_MIN_PACKETS >= 2, "invalid min size");
18a1c200SViacheslav Ovsiienko	pkts += loc->pkts_sent + 1;
18a1c200SViacheslav Ovsiienko	pkts_n -= loc->pkts_sent;
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe_dseg *restrict dseg;
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe_eseg *restrict eseg;
18a1c200SViacheslav Ovsiienko		enum mlx5_txcmp_code ret;
5a93e173SViacheslav Ovsiienko		unsigned int room, part, nlim;
18a1c200SViacheslav Ovsiienko		unsigned int slen = 0;
18a1c200SViacheslav Ovsiienko
5a93e173SViacheslav Ovsiienko		/*
5a93e173SViacheslav Ovsiienko		 * Limits the amount of packets in one WQE
5a93e173SViacheslav Ovsiienko		 * to improve CQE latency generation.
5a93e173SViacheslav Ovsiienko		 */
5a93e173SViacheslav Ovsiienko		nlim = RTE_MIN(pkts_n, MLX5_EMPW_MAX_PACKETS);
18a1c200SViacheslav Ovsiienko		/* Check whether we have minimal amount WQEs */
18a1c200SViacheslav Ovsiienko		if (unlikely(loc->wqe_free <
18a1c200SViacheslav Ovsiienko			    ((2 + MLX5_EMPW_MIN_PACKETS + 3) / 4)))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		if (likely(pkts_n > 1))
18a1c200SViacheslav Ovsiienko			rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko		loc->wqe_last = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Build eMPW title WQEBB:
18a1c200SViacheslav Ovsiienko		 * - Control Segment, eMPW opcode, zero DS
18a1c200SViacheslav Ovsiienko		 * - Ethernet Segment, no inline
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		mlx5_tx_cseg_init(txq, loc, loc->wqe_last, 0,
18a1c200SViacheslav Ovsiienko				  MLX5_OPCODE_ENHANCED_MPSW, olx);
18a1c200SViacheslav Ovsiienko		mlx5_tx_eseg_none(txq, loc, loc->wqe_last,
18a1c200SViacheslav Ovsiienko				  olx & ~MLX5_TXOFF_CONFIG_VLAN);
18a1c200SViacheslav Ovsiienko		eseg = &loc->wqe_last->eseg;
18a1c200SViacheslav Ovsiienko		dseg = &loc->wqe_last->dseg[0];
18a1c200SViacheslav Ovsiienko		room = RTE_MIN(MLX5_WQE_SIZE_MAX / MLX5_WQE_SIZE,
18a1c200SViacheslav Ovsiienko			       loc->wqe_free) * MLX5_WQE_SIZE -
18a1c200SViacheslav Ovsiienko					MLX5_WQE_CSEG_SIZE -
18a1c200SViacheslav Ovsiienko					MLX5_WQE_ESEG_SIZE;
18a1c200SViacheslav Ovsiienko		/* Build WQE till we have space, packets and resources. */
18a1c200SViacheslav Ovsiienko		part = room;
18a1c200SViacheslav Ovsiienko		for (;;) {
18a1c200SViacheslav Ovsiienko			uint32_t dlen = rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko			uint8_t *dptr = rte_pktmbuf_mtod(loc->mbuf, uint8_t *);
18a1c200SViacheslav Ovsiienko			unsigned int tlen;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko			assert(room >= MLX5_WQE_DSEG_SIZE);
18a1c200SViacheslav Ovsiienko			assert((room % MLX5_WQE_DSEG_SIZE) == 0);
18a1c200SViacheslav Ovsiienko			assert((uintptr_t)dseg < (uintptr_t)txq->wqes_end);
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Some Tx offloads may cause an error if
18a1c200SViacheslav Ovsiienko			 * packet is not long enough, check against
18a1c200SViacheslav Ovsiienko			 * assumed minimal length.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (unlikely(dlen <= MLX5_ESEG_MIN_INLINE_SIZE)) {
18a1c200SViacheslav Ovsiienko				part -= room;
18a1c200SViacheslav Ovsiienko				if (unlikely(!part))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * We have some successfully built
18a1c200SViacheslav Ovsiienko				 * packet Data Segments to send.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			/* Inline or not inline - that's the Question. */
18a1c200SViacheslav Ovsiienko			if (dlen > txq->inlen_empw)
18a1c200SViacheslav Ovsiienko				goto pointer_empw;
18a1c200SViacheslav Ovsiienko			/* Inline entire packet, optional VLAN insertion. */
18a1c200SViacheslav Ovsiienko			tlen = sizeof(dseg->bcount) + dlen;
18a1c200SViacheslav Ovsiienko			if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko			    loc->mbuf->ol_flags & PKT_TX_VLAN_PKT) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The packet length must be checked in
18a1c200SViacheslav Ovsiienko				 * mlx5_tx_able_to_empw() and packet
18a1c200SViacheslav Ovsiienko				 * fits into inline length guaranteed.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				assert((dlen + sizeof(struct rte_vlan_hdr)) <=
18a1c200SViacheslav Ovsiienko					txq->inlen_empw);
18a1c200SViacheslav Ovsiienko				tlen += sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko				if (room < tlen)
18a1c200SViacheslav Ovsiienko					break;
18a1c200SViacheslav Ovsiienko				dseg = mlx5_tx_dseg_vlan(txq, loc, dseg,
18a1c200SViacheslav Ovsiienko							 dptr, dlen, olx);
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko				/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko				slen +=	sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko			} else {
18a1c200SViacheslav Ovsiienko				if (room < tlen)
18a1c200SViacheslav Ovsiienko					break;
18a1c200SViacheslav Ovsiienko				dseg = mlx5_tx_dseg_empw(txq, loc, dseg,
18a1c200SViacheslav Ovsiienko							 dptr, dlen, olx);
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			tlen = RTE_ALIGN(tlen, MLX5_WSEG_SIZE);
18a1c200SViacheslav Ovsiienko			assert(room >= tlen);
18a1c200SViacheslav Ovsiienko			room -= tlen;
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Packet data are completely inlined,
18a1c200SViacheslav Ovsiienko			 * free the packet immediately.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			rte_pktmbuf_free_seg(loc->mbuf);
18a1c200SViacheslav Ovsiienko			goto next_mbuf;
18a1c200SViacheslav Ovsiienkopointer_empw:
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Not inlinable VLAN packets are
18a1c200SViacheslav Ovsiienko			 * proceeded outside of this routine.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			assert(room >= MLX5_WQE_DSEG_SIZE);
18a1c200SViacheslav Ovsiienko			if (MLX5_TXOFF_CONFIG(VLAN))
18a1c200SViacheslav Ovsiienko				assert(!(loc->mbuf->ol_flags &
18a1c200SViacheslav Ovsiienko					 PKT_TX_VLAN_PKT));
18a1c200SViacheslav Ovsiienko			mlx5_tx_dseg_ptr(txq, loc, dseg, dptr, dlen, olx);
18a1c200SViacheslav Ovsiienko			/* We have to store mbuf in elts.*/
18a1c200SViacheslav Ovsiienko			txq->elts[txq->elts_head++ & txq->elts_m] = loc->mbuf;
18a1c200SViacheslav Ovsiienko			room -= MLX5_WQE_DSEG_SIZE;
18a1c200SViacheslav Ovsiienko			/* Ring buffer wraparound is checked at the loop end.*/
18a1c200SViacheslav Ovsiienko			++dseg;
18a1c200SViacheslav Ovsiienkonext_mbuf:
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko			/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko			slen += dlen;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko			loc->pkts_sent++;
18a1c200SViacheslav Ovsiienko			loc->elts_free--;
18a1c200SViacheslav Ovsiienko			pkts_n--;
18a1c200SViacheslav Ovsiienko			if (unlikely(!pkts_n || !loc->elts_free)) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * We have no resources/packets to
18a1c200SViacheslav Ovsiienko				 * continue build descriptors.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				part -= room;
18a1c200SViacheslav Ovsiienko				mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			loc->mbuf = *pkts++;
18a1c200SViacheslav Ovsiienko			if (likely(pkts_n > 1))
18a1c200SViacheslav Ovsiienko				rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_able_to_empw(txq, loc, olx, true);
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Unroll the completion code to avoid
18a1c200SViacheslav Ovsiienko			 * returning variable value - it results in
18a1c200SViacheslav Ovsiienko			 * unoptimized sequent checking in caller.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_MULTI) {
18a1c200SViacheslav Ovsiienko				part -= room;
18a1c200SViacheslav Ovsiienko				mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_MULTI;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_TSO) {
18a1c200SViacheslav Ovsiienko				part -= room;
18a1c200SViacheslav Ovsiienko				mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_TSO;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_SINGLE) {
18a1c200SViacheslav Ovsiienko				part -= room;
18a1c200SViacheslav Ovsiienko				mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko					     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_SINGLE;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret != MLX5_TXCMP_CODE_EMPW) {
18a1c200SViacheslav Ovsiienko				assert(false);
18a1c200SViacheslav Ovsiienko				part -= room;
18a1c200SViacheslav Ovsiienko				mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko				return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko			}
5a93e173SViacheslav Ovsiienko			/* Check if we have minimal room left. */
5a93e173SViacheslav Ovsiienko			nlim--;
5a93e173SViacheslav Ovsiienko			if (unlikely(!nlim || room < MLX5_WQE_DSEG_SIZE))
5a93e173SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Check whether packet parameters coincide
18a1c200SViacheslav Ovsiienko			 * within assumed eMPW batch:
18a1c200SViacheslav Ovsiienko			 * - check sum settings
18a1c200SViacheslav Ovsiienko			 * - metadata value
18a1c200SViacheslav Ovsiienko			 * - software parser settings
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (!mlx5_tx_match_empw(txq, eseg, loc, olx))
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			/* Packet attributes match, continue the same eMPW. */
18a1c200SViacheslav Ovsiienko			if ((uintptr_t)dseg >= (uintptr_t)txq->wqes_end)
18a1c200SViacheslav Ovsiienko				dseg = (struct mlx5_wqe_dseg *)txq->wqes;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * We get here to close an existing eMPW
18a1c200SViacheslav Ovsiienko		 * session and start the new one.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		assert(pkts_n);
18a1c200SViacheslav Ovsiienko		part -= room;
18a1c200SViacheslav Ovsiienko		if (unlikely(!part))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		mlx5_tx_idone_empw(txq, loc, part, slen, olx);
18a1c200SViacheslav Ovsiienko		if (unlikely(!loc->elts_free ||
18a1c200SViacheslav Ovsiienko			     !loc->wqe_free))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
5a93e173SViacheslav Ovsiienko		/* Continue the loop with new eMPW session. */
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	assert(false);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko/**
18a1c200SViacheslav Ovsiienko * The routine sends packets with ordinary MLX5_OPCODE_SEND.
18a1c200SViacheslav Ovsiienko * Data inlining and VLAN insertion are supported.
18a1c200SViacheslav Ovsiienko */
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_burst_single_send(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko			  struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko			  unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko			  struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko			  unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Subroutine is the part of mlx5_tx_burst_single()
18a1c200SViacheslav Ovsiienko	 * and sends single-segment packet with SEND opcode.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienko	assert(pkts_n > loc->pkts_sent);
18a1c200SViacheslav Ovsiienko	pkts += loc->pkts_sent + 1;
18a1c200SViacheslav Ovsiienko	pkts_n -= loc->pkts_sent;
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		struct mlx5_wqe *restrict wqe;
18a1c200SViacheslav Ovsiienko		enum mlx5_txcmp_code ret;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko		assert(NB_SEGS(loc->mbuf) == 1);
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(INLINE)) {
18a1c200SViacheslav Ovsiienko			unsigned int inlen, vlan = 0;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko			inlen = rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko			if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko			    loc->mbuf->ol_flags & PKT_TX_VLAN_PKT) {
18a1c200SViacheslav Ovsiienko				vlan = sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko				inlen += vlan;
18a1c200SViacheslav Ovsiienko				static_assert((sizeof(struct rte_vlan_hdr) +
18a1c200SViacheslav Ovsiienko					       sizeof(struct rte_ether_hdr)) ==
18a1c200SViacheslav Ovsiienko					       MLX5_ESEG_MIN_INLINE_SIZE,
18a1c200SViacheslav Ovsiienko					       "invalid min inline data size");
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * If inlining is enabled at configuration time
18a1c200SViacheslav Ovsiienko			 * the limit must be not less than minimal size.
18a1c200SViacheslav Ovsiienko			 * Otherwise we would do extra check for data
18a1c200SViacheslav Ovsiienko			 * size to avoid crashes due to length overflow.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			assert(txq->inlen_send >= MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko			if (inlen <= txq->inlen_send) {
18a1c200SViacheslav Ovsiienko				unsigned int seg_n, wqe_n;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko				rte_prefetch0(rte_pktmbuf_mtod
18a1c200SViacheslav Ovsiienko						(loc->mbuf, uint8_t *));
18a1c200SViacheslav Ovsiienko				/* Check against minimal length. */
18a1c200SViacheslav Ovsiienko				if (inlen <= MLX5_ESEG_MIN_INLINE_SIZE)
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_ERROR;
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * Completely inlined packet data WQE:
18a1c200SViacheslav Ovsiienko				 * - Control Segment, SEND opcode
18a1c200SViacheslav Ovsiienko				 * - Ethernet Segment, no VLAN insertion
18a1c200SViacheslav Ovsiienko				 * - Data inlined, VLAN optionally inserted
18a1c200SViacheslav Ovsiienko				 * - Alignment to MLX5_WSEG_SIZE
18a1c200SViacheslav Ovsiienko				 * Have to estimate amount of WQEBBs
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				seg_n = (inlen + 3 * MLX5_WSEG_SIZE -
18a1c200SViacheslav Ovsiienko					 MLX5_ESEG_MIN_INLINE_SIZE +
18a1c200SViacheslav Ovsiienko					 MLX5_WSEG_SIZE - 1) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko				/* Check if there are enough WQEBBs. */
18a1c200SViacheslav Ovsiienko				wqe_n = (seg_n + 3) / 4;
18a1c200SViacheslav Ovsiienko				if (wqe_n > loc->wqe_free)
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko				loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko				mlx5_tx_cseg_init(txq, loc, wqe, seg_n,
18a1c200SViacheslav Ovsiienko						  MLX5_OPCODE_SEND, olx);
18a1c200SViacheslav Ovsiienko				mlx5_tx_eseg_data(txq, loc, wqe,
18a1c200SViacheslav Ovsiienko						  vlan, inlen, 0, olx);
18a1c200SViacheslav Ovsiienko				txq->wqe_ci += wqe_n;
18a1c200SViacheslav Ovsiienko				loc->wqe_free -= wqe_n;
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * Packet data are completely inlined,
18a1c200SViacheslav Ovsiienko				 * free the packet immediately.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				rte_pktmbuf_free_seg(loc->mbuf);
18a1c200SViacheslav Ovsiienko			} else if (!MLX5_TXOFF_CONFIG(EMPW) &&
18a1c200SViacheslav Ovsiienko				   txq->inlen_mode) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * If minimal inlining is requested the eMPW
18a1c200SViacheslav Ovsiienko				 * feature should be disabled due to data is
18a1c200SViacheslav Ovsiienko				 * inlined into Ethernet Segment, which can
18a1c200SViacheslav Ovsiienko				 * not contain inlined data for eMPW due to
18a1c200SViacheslav Ovsiienko				 * segment shared for all packets.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				struct mlx5_wqe_dseg *restrict dseg;
18a1c200SViacheslav Ovsiienko				unsigned int ds;
18a1c200SViacheslav Ovsiienko				uint8_t *dptr;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The inline-mode settings require
18a1c200SViacheslav Ovsiienko				 * to inline the specified amount of
18a1c200SViacheslav Ovsiienko				 * data bytes to the Ethernet Segment.
18a1c200SViacheslav Ovsiienko				 * We should check the free space in
18a1c200SViacheslav Ovsiienko				 * WQE ring buffer to inline partially.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				assert(txq->inlen_send >= txq->inlen_mode);
18a1c200SViacheslav Ovsiienko				assert(inlen > txq->inlen_mode);
18a1c200SViacheslav Ovsiienko				assert(txq->inlen_mode >=
18a1c200SViacheslav Ovsiienko						MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * Check whether there are enough free WQEBBs:
18a1c200SViacheslav Ovsiienko				 * - Control Segment
18a1c200SViacheslav Ovsiienko				 * - Ethernet Segment
18a1c200SViacheslav Ovsiienko				 * - First Segment of inlined Ethernet data
18a1c200SViacheslav Ovsiienko				 * - ... data continued ...
18a1c200SViacheslav Ovsiienko				 * - Finishing Data Segment of pointer type
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				ds = (MLX5_WQE_CSEG_SIZE +
18a1c200SViacheslav Ovsiienko				      MLX5_WQE_ESEG_SIZE +
18a1c200SViacheslav Ovsiienko				      MLX5_WQE_DSEG_SIZE +
18a1c200SViacheslav Ovsiienko				      txq->inlen_mode -
18a1c200SViacheslav Ovsiienko				      MLX5_ESEG_MIN_INLINE_SIZE +
18a1c200SViacheslav Ovsiienko				      MLX5_WQE_DSEG_SIZE +
18a1c200SViacheslav Ovsiienko				      MLX5_WSEG_SIZE - 1) / MLX5_WSEG_SIZE;
18a1c200SViacheslav Ovsiienko				if (loc->wqe_free < ((ds + 3) / 4))
18a1c200SViacheslav Ovsiienko					return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * Build the ordinary SEND WQE:
18a1c200SViacheslav Ovsiienko				 * - Control Segment
18a1c200SViacheslav Ovsiienko				 * - Ethernet Segment, inline inlen_mode bytes
18a1c200SViacheslav Ovsiienko				 * - Data Segment of pointer type
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko				loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko				mlx5_tx_cseg_init(txq, loc, wqe, ds,
18a1c200SViacheslav Ovsiienko						  MLX5_OPCODE_SEND, olx);
18a1c200SViacheslav Ovsiienko				dseg = mlx5_tx_eseg_data(txq, loc, wqe, vlan,
18a1c200SViacheslav Ovsiienko							 txq->inlen_mode,
18a1c200SViacheslav Ovsiienko							 0, olx);
18a1c200SViacheslav Ovsiienko				dptr = rte_pktmbuf_mtod(loc->mbuf, uint8_t *) +
18a1c200SViacheslav Ovsiienko				       txq->inlen_mode - vlan;
18a1c200SViacheslav Ovsiienko				inlen -= txq->inlen_mode;
18a1c200SViacheslav Ovsiienko				mlx5_tx_dseg_ptr(txq, loc, dseg,
18a1c200SViacheslav Ovsiienko						 dptr, inlen, olx);
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * WQE is built, update the loop parameters
18a1c200SViacheslav Ovsiienko				 * and got to the next packet.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				txq->wqe_ci += (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko				loc->wqe_free -= (ds + 3) / 4;
18a1c200SViacheslav Ovsiienko				/* We have to store mbuf in elts.*/
18a1c200SViacheslav Ovsiienko				assert(MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko				txq->elts[txq->elts_head++ & txq->elts_m] =
18a1c200SViacheslav Ovsiienko						loc->mbuf;
18a1c200SViacheslav Ovsiienko				--loc->elts_free;
18a1c200SViacheslav Ovsiienko			} else {
18a1c200SViacheslav Ovsiienko				uint8_t *dptr;
18a1c200SViacheslav Ovsiienko				unsigned int dlen;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * Partially inlined packet data WQE, we have
18a1c200SViacheslav Ovsiienko				 * some space in title WQEBB, we can fill it
18a1c200SViacheslav Ovsiienko				 * with some packet data. It takes one WQEBB,
18a1c200SViacheslav Ovsiienko				 * it is available, no extra space check:
18a1c200SViacheslav Ovsiienko				 * - Control Segment, SEND opcode
18a1c200SViacheslav Ovsiienko				 * - Ethernet Segment, no VLAN insertion
18a1c200SViacheslav Ovsiienko				 * - MLX5_ESEG_MIN_INLINE_SIZE bytes of Data
18a1c200SViacheslav Ovsiienko				 * - Data Segment, pointer type
18a1c200SViacheslav Ovsiienko				 *
18a1c200SViacheslav Ovsiienko				 * We also get here if VLAN insertion is not
18a1c200SViacheslav Ovsiienko				 * supported by HW, the inline is enabled.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko				loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko				mlx5_tx_cseg_init(txq, loc, wqe, 4,
18a1c200SViacheslav Ovsiienko						  MLX5_OPCODE_SEND, olx);
18a1c200SViacheslav Ovsiienko				mlx5_tx_eseg_dmin(txq, loc, wqe, vlan, olx);
18a1c200SViacheslav Ovsiienko				dptr = rte_pktmbuf_mtod(loc->mbuf, uint8_t *) +
18a1c200SViacheslav Ovsiienko				       MLX5_ESEG_MIN_INLINE_SIZE - vlan;
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The length check is performed above, by
18a1c200SViacheslav Ovsiienko				 * comparing with txq->inlen_send. We should
18a1c200SViacheslav Ovsiienko				 * not get overflow here.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				assert(inlen > MLX5_ESEG_MIN_INLINE_SIZE);
18a1c200SViacheslav Ovsiienko				dlen = inlen - MLX5_ESEG_MIN_INLINE_SIZE;
18a1c200SViacheslav Ovsiienko				mlx5_tx_dseg_ptr(txq, loc, &wqe->dseg[1],
18a1c200SViacheslav Ovsiienko						 dptr, dlen, olx);
18a1c200SViacheslav Ovsiienko				++txq->wqe_ci;
18a1c200SViacheslav Ovsiienko				--loc->wqe_free;
18a1c200SViacheslav Ovsiienko				/* We have to store mbuf in elts.*/
18a1c200SViacheslav Ovsiienko				assert(MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko				txq->elts[txq->elts_head++ & txq->elts_m] =
18a1c200SViacheslav Ovsiienko						loc->mbuf;
18a1c200SViacheslav Ovsiienko				--loc->elts_free;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko			/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko			txq->stats.obytes += vlan +
18a1c200SViacheslav Ovsiienko					rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko		} else {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * No inline at all, it means the CPU cycles saving
18a1c200SViacheslav Ovsiienko			 * is prioritized at configuration, we should not
18a1c200SViacheslav Ovsiienko			 * copy any packet data to WQE.
18a1c200SViacheslav Ovsiienko			 *
18a1c200SViacheslav Ovsiienko			 * SEND WQE, one WQEBB:
18a1c200SViacheslav Ovsiienko			 * - Control Segment, SEND opcode
18a1c200SViacheslav Ovsiienko			 * - Ethernet Segment, optional VLAN, no inline
18a1c200SViacheslav Ovsiienko			 * - Data Segment, pointer type
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			wqe = txq->wqes + (txq->wqe_ci & txq->wqe_m);
18a1c200SViacheslav Ovsiienko			loc->wqe_last = wqe;
18a1c200SViacheslav Ovsiienko			mlx5_tx_cseg_init(txq, loc, wqe, 3,
18a1c200SViacheslav Ovsiienko					  MLX5_OPCODE_SEND, olx);
18a1c200SViacheslav Ovsiienko			mlx5_tx_eseg_none(txq, loc, wqe, olx);
18a1c200SViacheslav Ovsiienko			mlx5_tx_dseg_ptr
18a1c200SViacheslav Ovsiienko				(txq, loc, &wqe->dseg[0],
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_mtod(loc->mbuf, uint8_t *),
18a1c200SViacheslav Ovsiienko				 rte_pktmbuf_data_len(loc->mbuf), olx);
18a1c200SViacheslav Ovsiienko			++txq->wqe_ci;
18a1c200SViacheslav Ovsiienko			--loc->wqe_free;
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * We should not store mbuf pointer in elts
18a1c200SViacheslav Ovsiienko			 * if no inlining is configured, this is done
18a1c200SViacheslav Ovsiienko			 * by calling routine in a batch copy.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			assert(!MLX5_TXOFF_CONFIG(INLINE));
18a1c200SViacheslav Ovsiienko			--loc->elts_free;
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko			/* Update sent data bytes counter. */
18a1c200SViacheslav Ovsiienko			txq->stats.obytes += rte_pktmbuf_data_len(loc->mbuf);
18a1c200SViacheslav Ovsiienko			if (MLX5_TXOFF_CONFIG(VLAN) &&
18a1c200SViacheslav Ovsiienko			    loc->mbuf->ol_flags & PKT_TX_VLAN_PKT)
18a1c200SViacheslav Ovsiienko				txq->stats.obytes +=
18a1c200SViacheslav Ovsiienko					sizeof(struct rte_vlan_hdr);
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		++loc->pkts_sent;
18a1c200SViacheslav Ovsiienko		--pkts_n;
5a93e173SViacheslav Ovsiienko		/* Request CQE generation if limits are reached. */
*4dec9c79SViacheslav Ovsiienko		mlx5_tx_request_completion(txq, loc, false, olx);
18a1c200SViacheslav Ovsiienko		if (unlikely(!pkts_n || !loc->elts_free || !loc->wqe_free))
18a1c200SViacheslav Ovsiienko			return MLX5_TXCMP_CODE_EXIT;
18a1c200SViacheslav Ovsiienko		loc->mbuf = *pkts++;
18a1c200SViacheslav Ovsiienko		if (pkts_n > 1)
18a1c200SViacheslav Ovsiienko			rte_prefetch0(*pkts);
18a1c200SViacheslav Ovsiienko		ret = mlx5_tx_able_to_empw(txq, loc, olx, true);
18a1c200SViacheslav Ovsiienko		if (unlikely(ret != MLX5_TXCMP_CODE_SINGLE))
18a1c200SViacheslav Ovsiienko			return ret;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	assert(false);
18a1c200SViacheslav Ovsiienko}
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienkostatic __rte_always_inline enum mlx5_txcmp_code
18a1c200SViacheslav Ovsiienkomlx5_tx_burst_single(struct mlx5_txq_data *restrict txq,
18a1c200SViacheslav Ovsiienko		     struct rte_mbuf **restrict pkts,
18a1c200SViacheslav Ovsiienko		     unsigned int pkts_n,
18a1c200SViacheslav Ovsiienko		     struct mlx5_txq_local *restrict loc,
18a1c200SViacheslav Ovsiienko		     unsigned int olx)
18a1c200SViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	enum mlx5_txcmp_code ret;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	ret = mlx5_tx_able_to_empw(txq, loc, olx, false);
18a1c200SViacheslav Ovsiienko	if (ret == MLX5_TXCMP_CODE_SINGLE)
18a1c200SViacheslav Ovsiienko		goto ordinary_send;
18a1c200SViacheslav Ovsiienko	assert(ret == MLX5_TXCMP_CODE_EMPW);
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		/* Optimize for inline/no inline eMPW send. */
18a1c200SViacheslav Ovsiienko		ret = (MLX5_TXOFF_CONFIG(INLINE)) ?
18a1c200SViacheslav Ovsiienko			mlx5_tx_burst_empw_inline
18a1c200SViacheslav Ovsiienko				(txq, pkts, pkts_n, loc, olx) :
18a1c200SViacheslav Ovsiienko			mlx5_tx_burst_empw_simple
18a1c200SViacheslav Ovsiienko				(txq, pkts, pkts_n, loc, olx);
18a1c200SViacheslav Ovsiienko		if (ret != MLX5_TXCMP_CODE_SINGLE)
18a1c200SViacheslav Ovsiienko			return ret;
18a1c200SViacheslav Ovsiienko		/* The resources to send one packet should remain. */
18a1c200SViacheslav Ovsiienko		assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienkoordinary_send:
18a1c200SViacheslav Ovsiienko		ret = mlx5_tx_burst_single_send(txq, pkts, pkts_n, loc, olx);
18a1c200SViacheslav Ovsiienko		assert(ret != MLX5_TXCMP_CODE_SINGLE);
18a1c200SViacheslav Ovsiienko		if (ret != MLX5_TXCMP_CODE_EMPW)
18a1c200SViacheslav Ovsiienko			return ret;
18a1c200SViacheslav Ovsiienko		/* The resources to send one packet should remain. */
18a1c200SViacheslav Ovsiienko		assert(loc->elts_free && loc->wqe_free);
18a1c200SViacheslav Ovsiienko	}
a6bd4911SViacheslav Ovsiienko}
a6bd4911SViacheslav Ovsiienko
a6bd4911SViacheslav Ovsiienko/**
eb8121abSViacheslav Ovsiienko * DPDK Tx callback template. This is configured template
eb8121abSViacheslav Ovsiienko * used to generate routines optimized for specified offload setup.
eb8121abSViacheslav Ovsiienko * One of this generated functions is chosen at SQ configuration
eb8121abSViacheslav Ovsiienko * time.
eb8121abSViacheslav Ovsiienko *
eb8121abSViacheslav Ovsiienko * @param txq
eb8121abSViacheslav Ovsiienko *   Generic pointer to TX queue structure.
eb8121abSViacheslav Ovsiienko * @param[in] pkts
eb8121abSViacheslav Ovsiienko *   Packets to transmit.
eb8121abSViacheslav Ovsiienko * @param pkts_n
eb8121abSViacheslav Ovsiienko *   Number of packets in array.
eb8121abSViacheslav Ovsiienko * @param olx
eb8121abSViacheslav Ovsiienko *   Configured offloads mask, presents the bits of MLX5_TXOFF_CONFIG_xxx
eb8121abSViacheslav Ovsiienko *   values. Should be static to take compile time static configuration
eb8121abSViacheslav Ovsiienko *   advantages.
eb8121abSViacheslav Ovsiienko *
eb8121abSViacheslav Ovsiienko * @return
eb8121abSViacheslav Ovsiienko *   Number of packets successfully transmitted (<= pkts_n).
eb8121abSViacheslav Ovsiienko */
eb8121abSViacheslav Ovsiienkostatic __rte_always_inline uint16_t
eb8121abSViacheslav Ovsiienkomlx5_tx_burst_tmpl(struct mlx5_txq_data *restrict txq,
eb8121abSViacheslav Ovsiienko		   struct rte_mbuf **restrict pkts,
eb8121abSViacheslav Ovsiienko		   uint16_t pkts_n,
eb8121abSViacheslav Ovsiienko		   unsigned int olx)
eb8121abSViacheslav Ovsiienko{
18a1c200SViacheslav Ovsiienko	struct mlx5_txq_local loc;
18a1c200SViacheslav Ovsiienko	enum mlx5_txcmp_code ret;
18a1c200SViacheslav Ovsiienko	unsigned int part;
18a1c200SViacheslav Ovsiienko
18a1c200SViacheslav Ovsiienko	assert(txq->elts_s >= (uint16_t)(txq->elts_head - txq->elts_tail));
18a1c200SViacheslav Ovsiienko	assert(txq->wqe_s >= (uint16_t)(txq->wqe_ci - txq->wqe_pi));
f32a3f52SViacheslav Ovsiienko	if (unlikely(!pkts_n))
f32a3f52SViacheslav Ovsiienko		return 0;
f32a3f52SViacheslav Ovsiienko	loc.pkts_sent = 0;
f32a3f52SViacheslav Ovsiienko	loc.pkts_copy = 0;
f32a3f52SViacheslav Ovsiienko	loc.wqe_last = NULL;
f32a3f52SViacheslav Ovsiienko
f32a3f52SViacheslav Ovsiienkosend_loop:
f32a3f52SViacheslav Ovsiienko	loc.pkts_loop = loc.pkts_sent;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Check if there are some CQEs, if any:
18a1c200SViacheslav Ovsiienko	 * - process an encountered errors
18a1c200SViacheslav Ovsiienko	 * - process the completed WQEs
18a1c200SViacheslav Ovsiienko	 * - free related mbufs
18a1c200SViacheslav Ovsiienko	 * - doorbell the NIC about processed CQEs
18a1c200SViacheslav Ovsiienko	 */
f32a3f52SViacheslav Ovsiienko	rte_prefetch0(*(pkts + loc.pkts_sent));
18a1c200SViacheslav Ovsiienko	mlx5_tx_handle_completion(txq, olx);
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Calculate the number of available resources - elts and WQEs.
18a1c200SViacheslav Ovsiienko	 * There are two possible different scenarios:
18a1c200SViacheslav Ovsiienko	 * - no data inlining into WQEs, one WQEBB may contains upto
18a1c200SViacheslav Ovsiienko	 *   four packets, in this case elts become scarce resource
18a1c200SViacheslav Ovsiienko	 * - data inlining into WQEs, one packet may require multiple
18a1c200SViacheslav Ovsiienko	 *   WQEBBs, the WQEs become the limiting factor.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(txq->elts_s >= (uint16_t)(txq->elts_head - txq->elts_tail));
18a1c200SViacheslav Ovsiienko	loc.elts_free = txq->elts_s -
18a1c200SViacheslav Ovsiienko				(uint16_t)(txq->elts_head - txq->elts_tail);
18a1c200SViacheslav Ovsiienko	assert(txq->wqe_s >= (uint16_t)(txq->wqe_ci - txq->wqe_pi));
18a1c200SViacheslav Ovsiienko	loc.wqe_free = txq->wqe_s -
18a1c200SViacheslav Ovsiienko				(uint16_t)(txq->wqe_ci - txq->wqe_pi);
18a1c200SViacheslav Ovsiienko	if (unlikely(!loc.elts_free || !loc.wqe_free))
f32a3f52SViacheslav Ovsiienko		return loc.pkts_sent;
18a1c200SViacheslav Ovsiienko	for (;;) {
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * Fetch the packet from array. Usually this is
18a1c200SViacheslav Ovsiienko		 * the first packet in series of multi/single
18a1c200SViacheslav Ovsiienko		 * segment packets.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		loc.mbuf = *(pkts + loc.pkts_sent);
18a1c200SViacheslav Ovsiienko		/* Dedicated branch for multi-segment packets. */
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(MULTI) &&
18a1c200SViacheslav Ovsiienko		    unlikely(NB_SEGS(loc.mbuf) > 1)) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * Multi-segment packet encountered.
18a1c200SViacheslav Ovsiienko			 * Hardware is able to process it only
18a1c200SViacheslav Ovsiienko			 * with SEND/TSO opcodes, one packet
18a1c200SViacheslav Ovsiienko			 * per WQE, do it in dedicated routine.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienkoenter_send_multi:
18a1c200SViacheslav Ovsiienko			assert(loc.pkts_sent >= loc.pkts_copy);
18a1c200SViacheslav Ovsiienko			part = loc.pkts_sent - loc.pkts_copy;
18a1c200SViacheslav Ovsiienko			if (!MLX5_TXOFF_CONFIG(INLINE) && part) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * There are some single-segment mbufs not
18a1c200SViacheslav Ovsiienko				 * stored in elts. The mbufs must be in the
18a1c200SViacheslav Ovsiienko				 * same order as WQEs, so we must copy the
18a1c200SViacheslav Ovsiienko				 * mbufs to elts here, before the coming
18a1c200SViacheslav Ovsiienko				 * multi-segment packet mbufs is appended.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				mlx5_tx_copy_elts(txq, pkts + loc.pkts_copy,
18a1c200SViacheslav Ovsiienko						  part, olx);
18a1c200SViacheslav Ovsiienko				loc.pkts_copy = loc.pkts_sent;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			assert(pkts_n > loc.pkts_sent);
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_burst_mseg(txq, pkts, pkts_n, &loc, olx);
18a1c200SViacheslav Ovsiienko			if (!MLX5_TXOFF_CONFIG(INLINE))
18a1c200SViacheslav Ovsiienko				loc.pkts_copy = loc.pkts_sent;
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * These returned code checks are supposed
18a1c200SViacheslav Ovsiienko			 * to be optimized out due to routine inlining.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_EXIT) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The routine returns this code when
18a1c200SViacheslav Ovsiienko				 * all packets are sent or there is no
18a1c200SViacheslav Ovsiienko				 * enough resources to complete request.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_ERROR) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The routine returns this code when
18a1c200SViacheslav Ovsiienko				 * some error in the incoming packets
18a1c200SViacheslav Ovsiienko				 * format occurred.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				txq->stats.oerrors++;
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_SINGLE) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The single-segment packet was encountered
18a1c200SViacheslav Ovsiienko				 * in the array, try to send it with the
18a1c200SViacheslav Ovsiienko				 * best optimized way, possible engaging eMPW.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				goto enter_send_single;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (MLX5_TXOFF_CONFIG(TSO) &&
18a1c200SViacheslav Ovsiienko			    ret == MLX5_TXCMP_CODE_TSO) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The single-segment TSO packet was
18a1c200SViacheslav Ovsiienko				 * encountered in the array.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				goto enter_send_tso;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			/* We must not get here. Something is going wrong. */
18a1c200SViacheslav Ovsiienko			assert(false);
18a1c200SViacheslav Ovsiienko			txq->stats.oerrors++;
18a1c200SViacheslav Ovsiienko			break;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/* Dedicated branch for single-segment TSO packets. */
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(TSO) &&
18a1c200SViacheslav Ovsiienko		    unlikely(loc.mbuf->ol_flags & PKT_TX_TCP_SEG)) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * TSO might require special way for inlining
18a1c200SViacheslav Ovsiienko			 * (dedicated parameters) and is sent with
18a1c200SViacheslav Ovsiienko			 * MLX5_OPCODE_TSO opcode only, provide this
18a1c200SViacheslav Ovsiienko			 * in dedicated branch.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienkoenter_send_tso:
18a1c200SViacheslav Ovsiienko			assert(NB_SEGS(loc.mbuf) == 1);
18a1c200SViacheslav Ovsiienko			assert(pkts_n > loc.pkts_sent);
18a1c200SViacheslav Ovsiienko			ret = mlx5_tx_burst_tso(txq, pkts, pkts_n, &loc, olx);
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * These returned code checks are supposed
18a1c200SViacheslav Ovsiienko			 * to be optimized out due to routine inlining.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_EXIT)
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_ERROR) {
18a1c200SViacheslav Ovsiienko				txq->stats.oerrors++;
18a1c200SViacheslav Ovsiienko				break;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			if (ret == MLX5_TXCMP_CODE_SINGLE)
18a1c200SViacheslav Ovsiienko				goto enter_send_single;
18a1c200SViacheslav Ovsiienko			if (MLX5_TXOFF_CONFIG(MULTI) &&
18a1c200SViacheslav Ovsiienko			    ret == MLX5_TXCMP_CODE_MULTI) {
18a1c200SViacheslav Ovsiienko				/*
18a1c200SViacheslav Ovsiienko				 * The multi-segment packet was
18a1c200SViacheslav Ovsiienko				 * encountered in the array.
18a1c200SViacheslav Ovsiienko				 */
18a1c200SViacheslav Ovsiienko				goto enter_send_multi;
18a1c200SViacheslav Ovsiienko			}
18a1c200SViacheslav Ovsiienko			/* We must not get here. Something is going wrong. */
18a1c200SViacheslav Ovsiienko			assert(false);
18a1c200SViacheslav Ovsiienko			txq->stats.oerrors++;
18a1c200SViacheslav Ovsiienko			break;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * The dedicated branch for the single-segment packets
18a1c200SViacheslav Ovsiienko		 * without TSO. Often these ones can be sent using
18a1c200SViacheslav Ovsiienko		 * MLX5_OPCODE_EMPW with multiple packets in one WQE.
18a1c200SViacheslav Ovsiienko		 * The routine builds the WQEs till it encounters
18a1c200SViacheslav Ovsiienko		 * the TSO or multi-segment packet (in case if these
18a1c200SViacheslav Ovsiienko		 * offloads are requested at SQ configuration time).
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienkoenter_send_single:
18a1c200SViacheslav Ovsiienko		assert(pkts_n > loc.pkts_sent);
18a1c200SViacheslav Ovsiienko		ret = mlx5_tx_burst_single(txq, pkts, pkts_n, &loc, olx);
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * These returned code checks are supposed
18a1c200SViacheslav Ovsiienko		 * to be optimized out due to routine inlining.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		if (ret == MLX5_TXCMP_CODE_EXIT)
18a1c200SViacheslav Ovsiienko			break;
18a1c200SViacheslav Ovsiienko		if (ret == MLX5_TXCMP_CODE_ERROR) {
18a1c200SViacheslav Ovsiienko			txq->stats.oerrors++;
18a1c200SViacheslav Ovsiienko			break;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(MULTI) &&
18a1c200SViacheslav Ovsiienko		    ret == MLX5_TXCMP_CODE_MULTI) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * The multi-segment packet was
18a1c200SViacheslav Ovsiienko			 * encountered in the array.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			goto enter_send_multi;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		if (MLX5_TXOFF_CONFIG(TSO) &&
18a1c200SViacheslav Ovsiienko		    ret == MLX5_TXCMP_CODE_TSO) {
18a1c200SViacheslav Ovsiienko			/*
18a1c200SViacheslav Ovsiienko			 * The single-segment TSO packet was
18a1c200SViacheslav Ovsiienko			 * encountered in the array.
18a1c200SViacheslav Ovsiienko			 */
18a1c200SViacheslav Ovsiienko			goto enter_send_tso;
18a1c200SViacheslav Ovsiienko		}
18a1c200SViacheslav Ovsiienko		/* We must not get here. Something is going wrong. */
18a1c200SViacheslav Ovsiienko		assert(false);
18a1c200SViacheslav Ovsiienko		txq->stats.oerrors++;
18a1c200SViacheslav Ovsiienko		break;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Main Tx loop is completed, do the rest:
18a1c200SViacheslav Ovsiienko	 * - set completion request if thresholds are reached
18a1c200SViacheslav Ovsiienko	 * - doorbell the hardware
18a1c200SViacheslav Ovsiienko	 * - copy the rest of mbufs to elts (if any)
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	assert(MLX5_TXOFF_CONFIG(INLINE) || loc.pkts_sent >= loc.pkts_copy);
18a1c200SViacheslav Ovsiienko	/* Take a shortcut if nothing is sent. */
f32a3f52SViacheslav Ovsiienko	if (unlikely(loc.pkts_sent == loc.pkts_loop))
f32a3f52SViacheslav Ovsiienko		return loc.pkts_sent;
18a1c200SViacheslav Ovsiienko	/*
18a1c200SViacheslav Ovsiienko	 * Ring QP doorbell immediately after WQE building completion
18a1c200SViacheslav Ovsiienko	 * to improve latencies. The pure software related data treatment
18a1c200SViacheslav Ovsiienko	 * can be completed after doorbell. Tx CQEs for this SQ are
18a1c200SViacheslav Ovsiienko	 * processed in this thread only by the polling.
18a1c200SViacheslav Ovsiienko	 */
18a1c200SViacheslav Ovsiienko	mlx5_tx_dbrec_cond_wmb(txq, loc.wqe_last, 0);
5a93e173SViacheslav Ovsiienko	/* Not all of the mbufs may be stored into elts yet. */
f32a3f52SViacheslav Ovsiienko	part = MLX5_TXOFF_CONFIG(INLINE) ? 0 : loc.pkts_sent - loc.pkts_copy;
18a1c200SViacheslav Ovsiienko	if (!MLX5_TXOFF_CONFIG(INLINE) && part) {
18a1c200SViacheslav Ovsiienko		/*
18a1c200SViacheslav Ovsiienko		 * There are some single-segment mbufs not stored in elts.
5a93e173SViacheslav Ovsiienko		 * It can be only if the last packet was single-segment.
18a1c200SViacheslav Ovsiienko		 * The copying is gathered into one place due to it is
18a1c200SViacheslav Ovsiienko		 * a good opportunity to optimize that with SIMD.
18a1c200SViacheslav Ovsiienko		 * Unfortunately if inlining is enabled the gaps in
18a1c200SViacheslav Ovsiienko		 * pointer array may happen due to early freeing of the
18a1c200SViacheslav Ovsiienko		 * inlined mbufs.
18a1c200SViacheslav Ovsiienko		 */
18a1c200SViacheslav Ovsiienko		mlx5_tx_copy_elts(txq, pkts + loc.pkts_copy, part, olx);
f32a3f52SViacheslav Ovsiienko		loc.pkts_copy = loc.pkts_sent;
18a1c200SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko#ifdef MLX5_PMD_SOFT_COUNTERS
18a1c200SViacheslav Ovsiienko	/* Increment sent packets counter. */
18a1c200SViacheslav Ovsiienko	txq->stats.opackets += loc.pkts_sent;
18a1c200SViacheslav Ovsiienko#endif
18a1c200SViacheslav Ovsiienko	assert(txq->elts_s >= (uint16_t)(txq->elts_head - txq->elts_tail));
18a1c200SViacheslav Ovsiienko	assert(txq->wqe_s >= (uint16_t)(txq->wqe_ci - txq->wqe_pi));
f32a3f52SViacheslav Ovsiienko	if (pkts_n > loc.pkts_sent) {
f32a3f52SViacheslav Ovsiienko		/*
f32a3f52SViacheslav Ovsiienko		 * If burst size is large there might be no enough CQE
f32a3f52SViacheslav Ovsiienko		 * fetched from completion queue and no enough resources
f32a3f52SViacheslav Ovsiienko		 * freed to send all the packets.
f32a3f52SViacheslav Ovsiienko		 */
f32a3f52SViacheslav Ovsiienko		goto send_loop;
f32a3f52SViacheslav Ovsiienko	}
18a1c200SViacheslav Ovsiienko	return loc.pkts_sent;
eb8121abSViacheslav Ovsiienko}
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko/* Generate routines with Enhanced Multi-Packet Write support. */
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(full_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_FULL | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(none_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_NONE | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(md_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mt_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mtsc_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mti_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mtv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mtiv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(sc_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(sci_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(scv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(sciv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(i_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(v_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(iv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko/* Generate routines without Enhanced Multi-Packet Write support. */
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(full,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_FULL)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(none,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_NONE)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(md,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mt,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mtsc,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mti,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mtv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(mtiv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(sc,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(sci,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(scv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(sciv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(i,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(v,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_DECL(iv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko/*
eb8121abSViacheslav Ovsiienko * Array of declared and compiled Tx burst function and corresponding
eb8121abSViacheslav Ovsiienko * supported offloads set. The array is used to select the Tx burst
eb8121abSViacheslav Ovsiienko * function for specified offloads set at Tx queue configuration time.
eb8121abSViacheslav Ovsiienko */
eb8121abSViacheslav Ovsiienkoconst struct {
eb8121abSViacheslav Ovsiienko	eth_tx_burst_t func;
eb8121abSViacheslav Ovsiienko	unsigned int olx;
eb8121abSViacheslav Ovsiienko} txoff_func[] = {
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(full_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(none_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_NONE | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(md_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mt_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mtsc_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mti_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mtv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mtiv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(sc_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(sci_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(scv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(sciv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(i_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(v_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(iv_empw,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA | MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(full,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(none,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_NONE)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(md,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mt,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mtsc,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mti,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mtv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(mtiv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_MULTI | MLX5_TXOFF_CONFIG_TSO |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(sc,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(sci,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(scv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(sciv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_SWP |	MLX5_TXOFF_CONFIG_CSUM |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(i,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(v,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav OvsiienkoMLX5_TXOFF_INFO(iv,
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_INLINE | MLX5_TXOFF_CONFIG_VLAN |
eb8121abSViacheslav Ovsiienko		MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko};
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko/**
eb8121abSViacheslav Ovsiienko * Configure the Tx function to use. The routine checks configured
eb8121abSViacheslav Ovsiienko * Tx offloads for the device and selects appropriate Tx burst
eb8121abSViacheslav Ovsiienko * routine. There are multiple Tx burst routines compiled from
eb8121abSViacheslav Ovsiienko * the same template in the most optimal way for the dedicated
eb8121abSViacheslav Ovsiienko * Tx offloads set.
a6bd4911SViacheslav Ovsiienko *
a6bd4911SViacheslav Ovsiienko * @param dev
a6bd4911SViacheslav Ovsiienko *   Pointer to private data structure.
a6bd4911SViacheslav Ovsiienko *
a6bd4911SViacheslav Ovsiienko * @return
a6bd4911SViacheslav Ovsiienko *   Pointer to selected Tx burst function.
a6bd4911SViacheslav Ovsiienko */
a6bd4911SViacheslav Ovsiienkoeth_tx_burst_t
a6bd4911SViacheslav Ovsiienkomlx5_select_tx_function(struct rte_eth_dev *dev)
a6bd4911SViacheslav Ovsiienko{
eb8121abSViacheslav Ovsiienko	struct mlx5_priv *priv = dev->data->dev_private;
eb8121abSViacheslav Ovsiienko	struct mlx5_dev_config *config = &priv->config;
eb8121abSViacheslav Ovsiienko	uint64_t tx_offloads = dev->data->dev_conf.txmode.offloads;
eb8121abSViacheslav Ovsiienko	unsigned int diff = 0, olx = 0, i, m;
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko	static_assert(MLX5_WQE_SIZE_MAX / MLX5_WSEG_SIZE <=
eb8121abSViacheslav Ovsiienko		      MLX5_DSEG_MAX, "invalid WQE max size");
eb8121abSViacheslav Ovsiienko	static_assert(MLX5_WQE_CSEG_SIZE == MLX5_WSEG_SIZE,
eb8121abSViacheslav Ovsiienko		      "invalid WQE Control Segment size");
eb8121abSViacheslav Ovsiienko	static_assert(MLX5_WQE_ESEG_SIZE == MLX5_WSEG_SIZE,
eb8121abSViacheslav Ovsiienko		      "invalid WQE Ethernet Segment size");
eb8121abSViacheslav Ovsiienko	static_assert(MLX5_WQE_DSEG_SIZE == MLX5_WSEG_SIZE,
eb8121abSViacheslav Ovsiienko		      "invalid WQE Data Segment size");
eb8121abSViacheslav Ovsiienko	static_assert(MLX5_WQE_SIZE == 4 * MLX5_WSEG_SIZE,
eb8121abSViacheslav Ovsiienko		      "invalid WQE size");
eb8121abSViacheslav Ovsiienko	assert(priv);
eb8121abSViacheslav Ovsiienko	if (tx_offloads & DEV_TX_OFFLOAD_MULTI_SEGS) {
eb8121abSViacheslav Ovsiienko		/* We should support Multi-Segment Packets. */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_MULTI;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (tx_offloads & (DEV_TX_OFFLOAD_TCP_TSO |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_VXLAN_TNL_TSO |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_GRE_TNL_TSO |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_IP_TNL_TSO |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_UDP_TNL_TSO)) {
eb8121abSViacheslav Ovsiienko		/* We should support TCP Send Offload. */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_TSO;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (tx_offloads & (DEV_TX_OFFLOAD_IP_TNL_TSO |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_UDP_TNL_TSO |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_OUTER_IPV4_CKSUM)) {
eb8121abSViacheslav Ovsiienko		/* We should support Software Parser for Tunnels. */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_SWP;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (tx_offloads & (DEV_TX_OFFLOAD_IPV4_CKSUM |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_UDP_CKSUM |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_TCP_CKSUM |
eb8121abSViacheslav Ovsiienko			   DEV_TX_OFFLOAD_OUTER_IPV4_CKSUM)) {
eb8121abSViacheslav Ovsiienko		/* We should support IP/TCP/UDP Checksums. */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_CSUM;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (tx_offloads & DEV_TX_OFFLOAD_VLAN_INSERT) {
eb8121abSViacheslav Ovsiienko		/* We should support VLAN insertion. */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_VLAN;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (priv->txqs_n && (*priv->txqs)[0]) {
eb8121abSViacheslav Ovsiienko		struct mlx5_txq_data *txd = (*priv->txqs)[0];
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko		if (txd->inlen_send) {
eb8121abSViacheslav Ovsiienko			/*
eb8121abSViacheslav Ovsiienko			 * Check the data inline requirements. Data inline
eb8121abSViacheslav Ovsiienko			 * is enabled on per device basis, we can check
eb8121abSViacheslav Ovsiienko			 * the first Tx queue only.
eb8121abSViacheslav Ovsiienko			 *
eb8121abSViacheslav Ovsiienko			 * If device does not support VLAN insertion in WQE
eb8121abSViacheslav Ovsiienko			 * and some queues are requested to perform VLAN
eb8121abSViacheslav Ovsiienko			 * insertion offload than inline must be enabled.
eb8121abSViacheslav Ovsiienko			 */
eb8121abSViacheslav Ovsiienko			olx |= MLX5_TXOFF_CONFIG_INLINE;
eb8121abSViacheslav Ovsiienko		}
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (config->mps == MLX5_MPW_ENHANCED &&
eb8121abSViacheslav Ovsiienko	    config->txq_inline_min <= 0) {
eb8121abSViacheslav Ovsiienko		/*
eb8121abSViacheslav Ovsiienko		 * The NIC supports Enhanced Multi-Packet Write.
eb8121abSViacheslav Ovsiienko		 * We do not support legacy MPW due to its
eb8121abSViacheslav Ovsiienko		 * hardware related problems, so we just ignore
eb8121abSViacheslav Ovsiienko		 * legacy MLX5_MPW settings. There should be no
eb8121abSViacheslav Ovsiienko		 * minimal required inline data.
eb8121abSViacheslav Ovsiienko		 */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_EMPW;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (tx_offloads & DEV_TX_OFFLOAD_MATCH_METADATA) {
eb8121abSViacheslav Ovsiienko		/* We should support Flow metadata. */
eb8121abSViacheslav Ovsiienko		olx |= MLX5_TXOFF_CONFIG_METADATA;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	/*
eb8121abSViacheslav Ovsiienko	 * Scan the routines table to find the minimal
eb8121abSViacheslav Ovsiienko	 * satisfying routine with requested offloads.
eb8121abSViacheslav Ovsiienko	 */
eb8121abSViacheslav Ovsiienko	m = RTE_DIM(txoff_func);
eb8121abSViacheslav Ovsiienko	for (i = 0; i < RTE_DIM(txoff_func); i++) {
eb8121abSViacheslav Ovsiienko		unsigned int tmp;
eb8121abSViacheslav Ovsiienko
eb8121abSViacheslav Ovsiienko		tmp = txoff_func[i].olx;
eb8121abSViacheslav Ovsiienko		if (tmp == olx) {
eb8121abSViacheslav Ovsiienko			/* Meets requested offloads exactly.*/
eb8121abSViacheslav Ovsiienko			m = i;
eb8121abSViacheslav Ovsiienko			break;
eb8121abSViacheslav Ovsiienko		}
eb8121abSViacheslav Ovsiienko		if ((tmp & olx) != olx) {
eb8121abSViacheslav Ovsiienko			/* Does not meet requested offloads at all. */
eb8121abSViacheslav Ovsiienko			continue;
eb8121abSViacheslav Ovsiienko		}
eb8121abSViacheslav Ovsiienko		if ((olx ^ tmp) & MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko			/* Do not enable eMPW if not configured. */
eb8121abSViacheslav Ovsiienko			continue;
eb8121abSViacheslav Ovsiienko		if ((olx ^ tmp) & MLX5_TXOFF_CONFIG_INLINE)
eb8121abSViacheslav Ovsiienko			/* Do not enable inlining if not configured. */
eb8121abSViacheslav Ovsiienko			continue;
eb8121abSViacheslav Ovsiienko		/*
eb8121abSViacheslav Ovsiienko		 * Some routine meets the requirements.
eb8121abSViacheslav Ovsiienko		 * Check whether it has minimal amount
eb8121abSViacheslav Ovsiienko		 * of not requested offloads.
eb8121abSViacheslav Ovsiienko		 */
eb8121abSViacheslav Ovsiienko		tmp = __builtin_popcountl(tmp & ~olx);
eb8121abSViacheslav Ovsiienko		if (m >= RTE_DIM(txoff_func) || tmp < diff) {
eb8121abSViacheslav Ovsiienko			/* First or better match, save and continue. */
eb8121abSViacheslav Ovsiienko			m = i;
eb8121abSViacheslav Ovsiienko			diff = tmp;
eb8121abSViacheslav Ovsiienko			continue;
eb8121abSViacheslav Ovsiienko		}
eb8121abSViacheslav Ovsiienko		if (tmp == diff) {
eb8121abSViacheslav Ovsiienko			tmp = txoff_func[i].olx ^ txoff_func[m].olx;
eb8121abSViacheslav Ovsiienko			if (__builtin_ffsl(txoff_func[i].olx & ~tmp) <
eb8121abSViacheslav Ovsiienko			    __builtin_ffsl(txoff_func[m].olx & ~tmp)) {
eb8121abSViacheslav Ovsiienko				/* Lighter not requested offload. */
eb8121abSViacheslav Ovsiienko				m = i;
eb8121abSViacheslav Ovsiienko			}
eb8121abSViacheslav Ovsiienko		}
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	if (m >= RTE_DIM(txoff_func)) {
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "port %u has no selected Tx function"
eb8121abSViacheslav Ovsiienko			       " for requested offloads %04X",
eb8121abSViacheslav Ovsiienko				dev->data->port_id, olx);
eb8121abSViacheslav Ovsiienko		return NULL;
eb8121abSViacheslav Ovsiienko	}
eb8121abSViacheslav Ovsiienko	DRV_LOG(DEBUG, "port %u has selected Tx function"
eb8121abSViacheslav Ovsiienko		       " supporting offloads %04X/%04X",
eb8121abSViacheslav Ovsiienko			dev->data->port_id, olx, txoff_func[m].olx);
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_MULTI)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tMULTI (multi segment)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_TSO)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tTSO   (TCP send offload)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_SWP)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tSWP   (software parser)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_CSUM)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tCSUM  (checksum offload)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_INLINE)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tINLIN (inline data)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_VLAN)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tVLANI (VLAN insertion)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_METADATA)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tMETAD (tx Flow metadata)");
eb8121abSViacheslav Ovsiienko	if (txoff_func[m].olx & MLX5_TXOFF_CONFIG_EMPW)
eb8121abSViacheslav Ovsiienko		DRV_LOG(DEBUG, "\tEMPW  (Enhanced MPW)");
eb8121abSViacheslav Ovsiienko	return txoff_func[m].func;
a6bd4911SViacheslav Ovsiienko}