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/*
* Copyright (c) 2017 Mellanox Technologies, Inc. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#ifndef _MLX5DV_H_
#define _MLX5DV_H_
#include <stdio.h>
#include <stdbool.h>
#include <linux/types.h> /* For the __be64 type */
#include <sys/types.h>
#include <endian.h>
#if defined(__SSE3__)
#include <limits.h>
#include <emmintrin.h>
#include <tmmintrin.h>
#endif /* defined(__SSE3__) */
#include <infiniband/verbs.h>
#include <infiniband/tm_types.h>
#include <infiniband/mlx5_api.h>
#ifdef __cplusplus
extern "C" {
#endif
/* Always inline the functions */
#ifdef __GNUC__
#define MLX5DV_ALWAYS_INLINE inline __attribute__((always_inline))
#else
#define MLX5DV_ALWAYS_INLINE inline
#endif
#define MLX5DV_RES_TYPE_QP ((uint64_t)RDMA_DRIVER_MLX5 << 32 | 1)
#define MLX5DV_RES_TYPE_RWQ ((uint64_t)RDMA_DRIVER_MLX5 << 32 | 2)
#define MLX5DV_RES_TYPE_DBR ((uint64_t)RDMA_DRIVER_MLX5 << 32 | 3)
#define MLX5DV_RES_TYPE_SRQ ((uint64_t)RDMA_DRIVER_MLX5 << 32 | 4)
#define MLX5DV_RES_TYPE_CQ ((uint64_t)RDMA_DRIVER_MLX5 << 32 | 5)
enum {
MLX5_RCV_DBR = 0,
MLX5_SND_DBR = 1,
};
enum mlx5dv_context_comp_mask {
MLX5DV_CONTEXT_MASK_CQE_COMPRESION = 1 << 0,
MLX5DV_CONTEXT_MASK_SWP = 1 << 1,
MLX5DV_CONTEXT_MASK_STRIDING_RQ = 1 << 2,
MLX5DV_CONTEXT_MASK_TUNNEL_OFFLOADS = 1 << 3,
MLX5DV_CONTEXT_MASK_DYN_BFREGS = 1 << 4,
MLX5DV_CONTEXT_MASK_CLOCK_INFO_UPDATE = 1 << 5,
MLX5DV_CONTEXT_MASK_FLOW_ACTION_FLAGS = 1 << 6,
MLX5DV_CONTEXT_MASK_DC_ODP_CAPS = 1 << 7,
MLX5DV_CONTEXT_MASK_HCA_CORE_CLOCK = 1 << 8,
MLX5DV_CONTEXT_MASK_NUM_LAG_PORTS = 1 << 9,
};
struct mlx5dv_cqe_comp_caps {
uint32_t max_num;
uint32_t supported_format; /* enum mlx5dv_cqe_comp_res_format */
};
struct mlx5dv_sw_parsing_caps {
uint32_t sw_parsing_offloads; /* Use enum mlx5dv_sw_parsing_offloads */
uint32_t supported_qpts;
};
struct mlx5dv_striding_rq_caps {
uint32_t min_single_stride_log_num_of_bytes;
uint32_t max_single_stride_log_num_of_bytes;
uint32_t min_single_wqe_log_num_of_strides;
uint32_t max_single_wqe_log_num_of_strides;
uint32_t supported_qpts;
};
enum mlx5dv_tunnel_offloads {
MLX5DV_RAW_PACKET_CAP_TUNNELED_OFFLOAD_VXLAN = 1 << 0,
MLX5DV_RAW_PACKET_CAP_TUNNELED_OFFLOAD_GRE = 1 << 1,
MLX5DV_RAW_PACKET_CAP_TUNNELED_OFFLOAD_GENEVE = 1 << 2,
MLX5DV_RAW_PACKET_CAP_TUNNELED_OFFLOAD_CW_MPLS_OVER_GRE = 1 << 3,
MLX5DV_RAW_PACKET_CAP_TUNNELED_OFFLOAD_CW_MPLS_OVER_UDP = 1 << 4,
};
enum mlx5dv_flow_action_cap_flags {
MLX5DV_FLOW_ACTION_FLAGS_ESP_AES_GCM = 1 << 0,
MLX5DV_FLOW_ACTION_FLAGS_ESP_AES_GCM_REQ_METADATA = 1 << 1,
MLX5DV_FLOW_ACTION_FLAGS_ESP_AES_GCM_SPI_STEERING = 1 << 2,
MLX5DV_FLOW_ACTION_FLAGS_ESP_AES_GCM_FULL_OFFLOAD = 1 << 3,
MLX5DV_FLOW_ACTION_FLAGS_ESP_AES_GCM_TX_IV_IS_ESN = 1 << 4,
};
struct mlx5dv_devx_port {
uint64_t comp_mask;
uint16_t vport_num;
uint16_t vport_vhca_id;
uint16_t esw_owner_vhca_id;
uint64_t icm_addr_rx;
uint64_t icm_addr_tx;
struct mlx5dv_devx_reg_32 reg_c_0;
};
/*
* Direct verbs device-specific attributes
*/
struct mlx5dv_context {
uint8_t version;
uint64_t flags;
uint64_t comp_mask;
struct mlx5dv_cqe_comp_caps cqe_comp_caps;
struct mlx5dv_sw_parsing_caps sw_parsing_caps;
struct mlx5dv_striding_rq_caps striding_rq_caps;
uint32_t tunnel_offloads_caps;
uint32_t max_dynamic_bfregs;
uint64_t max_clock_info_update_nsec;
uint32_t flow_action_flags; /* use enum mlx5dv_flow_action_cap_flags */
uint32_t dc_odp_caps; /* use enum ibv_odp_transport_cap_bits */
void *hca_core_clock;
uint8_t num_lag_ports;
};
enum mlx5dv_context_flags {
/*
* This flag indicates if CQE version 0 or 1 is needed.
*/
MLX5DV_CONTEXT_FLAGS_CQE_V1 = (1 << 0),
MLX5DV_CONTEXT_FLAGS_OBSOLETE = (1 << 1), /* Obsoleted, don't use */
MLX5DV_CONTEXT_FLAGS_MPW_ALLOWED = (1 << 2),
MLX5DV_CONTEXT_FLAGS_ENHANCED_MPW = (1 << 3),
MLX5DV_CONTEXT_FLAGS_CQE_128B_COMP = (1 << 4), /* Support CQE 128B compression */
MLX5DV_CONTEXT_FLAGS_CQE_128B_PAD = (1 << 5), /* Support CQE 128B padding */
MLX5DV_CONTEXT_FLAGS_PACKET_BASED_CREDIT_MODE = (1 << 6),
};
enum mlx5dv_cq_init_attr_mask {
MLX5DV_CQ_INIT_ATTR_MASK_COMPRESSED_CQE = 1 << 0,
MLX5DV_CQ_INIT_ATTR_MASK_FLAGS = 1 << 1,
MLX5DV_CQ_INIT_ATTR_MASK_CQE_SIZE = 1 << 2,
};
enum mlx5dv_cq_init_attr_flags {
MLX5DV_CQ_INIT_ATTR_FLAGS_CQE_PAD = 1 << 0,
MLX5DV_CQ_INIT_ATTR_FLAGS_RESERVED = 1 << 1,
};
struct mlx5dv_cq_init_attr {
uint64_t comp_mask; /* Use enum mlx5dv_cq_init_attr_mask */
uint8_t cqe_comp_res_format; /* Use enum mlx5dv_cqe_comp_res_format */
uint32_t flags; /* Use enum mlx5dv_cq_init_attr_flags */
uint16_t cqe_size; /* when MLX5DV_CQ_INIT_ATTR_MASK_CQE_SIZE set */
};
struct ibv_cq_ex *mlx5dv_create_cq(struct ibv_context *context,
struct ibv_cq_init_attr_ex *cq_attr,
struct mlx5dv_cq_init_attr *mlx5_cq_attr);
enum mlx5dv_qp_create_flags {
MLX5DV_QP_CREATE_TUNNEL_OFFLOADS = 1 << 0,
MLX5DV_QP_CREATE_TIR_ALLOW_SELF_LOOPBACK_UC = 1 << 1,
MLX5DV_QP_CREATE_TIR_ALLOW_SELF_LOOPBACK_MC = 1 << 2,
MLX5DV_QP_CREATE_DISABLE_SCATTER_TO_CQE = 1 << 3,
MLX5DV_QP_CREATE_ALLOW_SCATTER_TO_CQE = 1 << 4,
MLX5DV_QP_CREATE_PACKET_BASED_CREDIT_MODE = 1 << 5,
};
enum mlx5dv_mkey_init_attr_flags {
MLX5DV_MKEY_INIT_ATTR_FLAGS_INDIRECT = 1 << 0,
};
struct mlx5dv_mkey_init_attr {
struct ibv_pd *pd;
uint32_t create_flags; /* Use enum mlx5dv_mkey_init_attr_flags */
uint16_t max_entries; /* Requested max number of pointed entries by this indirect mkey */
};
struct mlx5dv_mkey {
uint32_t lkey;
uint32_t rkey;
};
struct mlx5dv_mkey *mlx5dv_create_mkey(struct mlx5dv_mkey_init_attr *mkey_init_attr);
int mlx5dv_destroy_mkey(struct mlx5dv_mkey *mkey);
enum mlx5dv_qp_init_attr_mask {
MLX5DV_QP_INIT_ATTR_MASK_QP_CREATE_FLAGS = 1 << 0,
MLX5DV_QP_INIT_ATTR_MASK_DC = 1 << 1,
MLX5DV_QP_INIT_ATTR_MASK_SEND_OPS_FLAGS = 1 << 2,
};
enum mlx5dv_dc_type {
MLX5DV_DCTYPE_DCT = 1,
MLX5DV_DCTYPE_DCI,
};
struct mlx5dv_dc_init_attr {
enum mlx5dv_dc_type dc_type;
uint64_t dct_access_key;
};
enum mlx5dv_qp_create_send_ops_flags {
MLX5DV_QP_EX_WITH_MR_INTERLEAVED = 1 << 0,
MLX5DV_QP_EX_WITH_MR_LIST = 1 << 1,
};
struct mlx5dv_qp_init_attr {
uint64_t comp_mask; /* Use enum mlx5dv_qp_init_attr_mask */
uint32_t create_flags; /* Use enum mlx5dv_qp_create_flags */
struct mlx5dv_dc_init_attr dc_init_attr;
uint64_t send_ops_flags; /* Use enum mlx5dv_qp_create_send_ops_flags */
};
struct ibv_qp *mlx5dv_create_qp(struct ibv_context *context,
struct ibv_qp_init_attr_ex *qp_attr,
struct mlx5dv_qp_init_attr *mlx5_qp_attr);
struct mlx5dv_mr_interleaved {
uint64_t addr;
uint32_t bytes_count;
uint32_t bytes_skip;
uint32_t lkey;
};
enum mlx5dv_wc_opcode {
MLX5DV_WC_UMR = IBV_WC_DRIVER1,
};
struct mlx5dv_qp_ex {
uint64_t comp_mask;
/*
* Available just for the MLX5 DC QP type with send opcodes of type:
* rdma, atomic and send.
*/
void (*wr_set_dc_addr)(struct mlx5dv_qp_ex *mqp, struct ibv_ah *ah,
uint32_t remote_dctn, uint64_t remote_dc_key);
void (*wr_mr_interleaved)(struct mlx5dv_qp_ex *mqp,
struct mlx5dv_mkey *mkey,
uint32_t access_flags, /* use enum ibv_access_flags */
uint32_t repeat_count,
uint16_t num_interleaved,
struct mlx5dv_mr_interleaved *data);
void (*wr_mr_list)(struct mlx5dv_qp_ex *mqp,
struct mlx5dv_mkey *mkey,
uint32_t access_flags, /* use enum ibv_access_flags */
uint16_t num_sges,
struct ibv_sge *sge);
};
struct mlx5dv_qp_ex *mlx5dv_qp_ex_from_ibv_qp_ex(struct ibv_qp_ex *qp);
int mlx5dv_query_devx_port(struct ibv_context *ctx,
uint32_t port_num,
struct mlx5dv_devx_port *mlx5_devx_port);
static inline void mlx5dv_wr_set_dc_addr(struct mlx5dv_qp_ex *mqp,
struct ibv_ah *ah,
uint32_t remote_dctn,
uint64_t remote_dc_key)
{
mqp->wr_set_dc_addr(mqp, ah, remote_dctn, remote_dc_key);
}
static inline void mlx5dv_wr_mr_interleaved(struct mlx5dv_qp_ex *mqp,
struct mlx5dv_mkey *mkey,
uint32_t access_flags,
uint32_t repeat_count,
uint16_t num_interleaved,
struct mlx5dv_mr_interleaved *data)
{
mqp->wr_mr_interleaved(mqp, mkey, access_flags, repeat_count,
num_interleaved, data);
}
static inline void mlx5dv_wr_mr_list(struct mlx5dv_qp_ex *mqp,
struct mlx5dv_mkey *mkey,
uint32_t access_flags,
uint16_t num_sges,
struct ibv_sge *sge)
{
mqp->wr_mr_list(mqp, mkey, access_flags, num_sges, sge);
}
enum mlx5dv_flow_action_esp_mask {
MLX5DV_FLOW_ACTION_ESP_MASK_FLAGS = 1 << 0,
};
struct mlx5dv_flow_action_esp {
uint64_t comp_mask; /* Use enum mlx5dv_flow_action_esp_mask */
uint32_t action_flags; /* Use enum mlx5dv_flow_action_flags */
};
struct mlx5dv_flow_match_parameters {
size_t match_sz;
uint64_t match_buf[]; /* Device spec format */
};
enum mlx5dv_flow_matcher_attr_mask {
MLX5DV_FLOW_MATCHER_MASK_FT_TYPE = 1 << 0,
};
struct mlx5dv_flow_matcher_attr {
enum ibv_flow_attr_type type;
uint32_t flags; /* From enum ibv_flow_flags */
uint16_t priority;
uint8_t match_criteria_enable; /* Device spec format */
struct mlx5dv_flow_match_parameters *match_mask;
uint64_t comp_mask; /* use mlx5dv_flow_matcher_attr_mask */
enum mlx5dv_flow_table_type ft_type;
};
struct mlx5dv_flow_matcher;
struct mlx5dv_flow_matcher *
mlx5dv_create_flow_matcher(struct ibv_context *context,
struct mlx5dv_flow_matcher_attr *matcher_attr);
int mlx5dv_destroy_flow_matcher(struct mlx5dv_flow_matcher *matcher);
enum mlx5dv_flow_action_type {
MLX5DV_FLOW_ACTION_DEST_IBV_QP,
MLX5DV_FLOW_ACTION_DROP,
MLX5DV_FLOW_ACTION_IBV_COUNTER,
MLX5DV_FLOW_ACTION_IBV_FLOW_ACTION,
MLX5DV_FLOW_ACTION_TAG,
MLX5DV_FLOW_ACTION_DEST_DEVX,
MLX5DV_FLOW_ACTION_COUNTERS_DEVX,
MLX5DV_FLOW_ACTION_DEFAULT_MISS,
};
struct mlx5dv_flow_action_attr {
enum mlx5dv_flow_action_type type;
union {
struct ibv_qp *qp;
struct ibv_counters *counter;
struct ibv_flow_action *action;
uint32_t tag_value;
struct mlx5dv_devx_obj *obj;
};
};
struct ibv_flow *
mlx5dv_create_flow(struct mlx5dv_flow_matcher *matcher,
struct mlx5dv_flow_match_parameters *match_value,
size_t num_actions,
struct mlx5dv_flow_action_attr actions_attr[]);
struct ibv_flow_action *mlx5dv_create_flow_action_esp(struct ibv_context *ctx,
struct ibv_flow_action_esp_attr *esp,
struct mlx5dv_flow_action_esp *mlx5_attr);
/*
* mlx5dv_create_flow_action_modify_header - Create a flow action which mutates
* a packet. The flow action can be attached to steering rules via
* ibv_create_flow().
*
* @ctx: RDMA device context to create the action on.
* @actions_sz: The size of *actions* buffer in bytes.
* @actions: A buffer which contains modify actions provided in device spec
* format.
* @ft_type: Defines the flow table type to which the modify
* header action will be attached.
*
* Return a valid ibv_flow_action if successful, NULL otherwise.
*/
struct ibv_flow_action *
mlx5dv_create_flow_action_modify_header(struct ibv_context *ctx,
size_t actions_sz,
uint64_t actions[],
enum mlx5dv_flow_table_type ft_type);
/*
* mlx5dv_create_flow_action_packet_reformat - Create flow action which can
* encap/decap packets.
*/
struct ibv_flow_action *
mlx5dv_create_flow_action_packet_reformat(struct ibv_context *ctx,
size_t data_sz,
void *data,
enum mlx5dv_flow_action_packet_reformat_type reformat_type,
enum mlx5dv_flow_table_type ft_type);
/*
* Most device capabilities are exported by ibv_query_device(...),
* but there is HW device-specific information which is important
* for data-path, but isn't provided.
*
* Return 0 on success.
*/
int mlx5dv_query_device(struct ibv_context *ctx_in,
struct mlx5dv_context *attrs_out);
enum mlx5dv_qp_comp_mask {
MLX5DV_QP_MASK_UAR_MMAP_OFFSET = 1 << 0,
MLX5DV_QP_MASK_RAW_QP_HANDLES = 1 << 1,
MLX5DV_QP_MASK_RAW_QP_TIR_ADDR = 1 << 2,
};
struct mlx5dv_qp {
__be32 *dbrec;
struct {
void *buf;
uint32_t wqe_cnt;
uint32_t stride;
} sq;
struct {
void *buf;
uint32_t wqe_cnt;
uint32_t stride;
} rq;
struct {
void *reg;
uint32_t size;
} bf;
uint64_t comp_mask;
off_t uar_mmap_offset;
uint32_t tirn;
uint32_t tisn;
uint32_t rqn;
uint32_t sqn;
uint64_t tir_icm_addr;
};
struct mlx5dv_cq {
void *buf;
__be32 *dbrec;
uint32_t cqe_cnt;
uint32_t cqe_size;
void *cq_uar;
uint32_t cqn;
uint64_t comp_mask;
};
enum mlx5dv_srq_comp_mask {
MLX5DV_SRQ_MASK_SRQN = 1 << 0,
};
struct mlx5dv_srq {
void *buf;
__be32 *dbrec;
uint32_t stride;
uint32_t head;
uint32_t tail;
uint64_t comp_mask;
uint32_t srqn;
};
struct mlx5dv_rwq {
void *buf;
__be32 *dbrec;
uint32_t wqe_cnt;
uint32_t stride;
uint64_t comp_mask;
};
struct mlx5dv_alloc_dm_attr {
enum mlx5dv_alloc_dm_type type;
uint64_t comp_mask;
};
enum mlx5dv_dm_comp_mask {
MLX5DV_DM_MASK_REMOTE_VA = 1 << 0,
};
struct mlx5dv_dm {
void *buf;
uint64_t length;
uint64_t comp_mask;
uint64_t remote_va;
};
struct ibv_dm *mlx5dv_alloc_dm(struct ibv_context *context,
struct ibv_alloc_dm_attr *dm_attr,
struct mlx5dv_alloc_dm_attr *mlx5_dm_attr);
struct mlx5_wqe_av;
struct mlx5dv_ah {
struct mlx5_wqe_av *av;
uint64_t comp_mask;
};
struct mlx5dv_pd {
uint32_t pdn;
uint64_t comp_mask;
};
struct mlx5dv_obj {
struct {
struct ibv_qp *in;
struct mlx5dv_qp *out;
} qp;
struct {
struct ibv_cq *in;
struct mlx5dv_cq *out;
} cq;
struct {
struct ibv_srq *in;
struct mlx5dv_srq *out;
} srq;
struct {
struct ibv_wq *in;
struct mlx5dv_rwq *out;
} rwq;
struct {
struct ibv_dm *in;
struct mlx5dv_dm *out;
} dm;
struct {
struct ibv_ah *in;
struct mlx5dv_ah *out;
} ah;
struct {
struct ibv_pd *in;
struct mlx5dv_pd *out;
} pd;
};
enum mlx5dv_obj_type {
MLX5DV_OBJ_QP = 1 << 0,
MLX5DV_OBJ_CQ = 1 << 1,
MLX5DV_OBJ_SRQ = 1 << 2,
MLX5DV_OBJ_RWQ = 1 << 3,
MLX5DV_OBJ_DM = 1 << 4,
MLX5DV_OBJ_AH = 1 << 5,
MLX5DV_OBJ_PD = 1 << 6,
};
enum mlx5dv_wq_init_attr_mask {
MLX5DV_WQ_INIT_ATTR_MASK_STRIDING_RQ = 1 << 0,
};
struct mlx5dv_striding_rq_init_attr {
uint32_t single_stride_log_num_of_bytes;
uint32_t single_wqe_log_num_of_strides;
uint8_t two_byte_shift_en;
};
struct mlx5dv_wq_init_attr {
uint64_t comp_mask; /* Use enum mlx5dv_wq_init_attr_mask */
struct mlx5dv_striding_rq_init_attr striding_rq_attrs;
};
/*
* This function creates a work queue object with extra properties
* defined by mlx5dv_wq_init_attr struct.
*
* For each bit in the comp_mask, a field in mlx5dv_wq_init_attr
* should follow.
*
* MLX5DV_WQ_INIT_ATTR_MASK_STRIDING_RQ: Create a work queue with
* striding RQ capabilities.
* - single_stride_log_num_of_bytes represents the size of each stride in the
* WQE and its value should be between min_single_stride_log_num_of_bytes
* and max_single_stride_log_num_of_bytes that are reported in
* mlx5dv_query_device.
* - single_wqe_log_num_of_strides represents the number of strides in each WQE.
* Its value should be between min_single_wqe_log_num_of_strides and
* max_single_wqe_log_num_of_strides that are reported in mlx5dv_query_device.
* - two_byte_shift_en: When enabled, hardware pads 2 bytes of zeroes
* before writing the message to memory (e.g. for IP alignment)
*/
struct ibv_wq *mlx5dv_create_wq(struct ibv_context *context,
struct ibv_wq_init_attr *wq_init_attr,
struct mlx5dv_wq_init_attr *mlx5_wq_attr);
/*
* This function will initialize mlx5dv_xxx structs based on supplied type.
* The information for initialization is taken from ibv_xx structs supplied
* as part of input.
*
* Request information of CQ marks its owned by DV for all consumer index
* related actions.
*
* The initialization type can be combination of several types together.
*
* Return: 0 in case of success.
*/
int mlx5dv_init_obj(struct mlx5dv_obj *obj, uint64_t obj_type);
enum {
MLX5_OPCODE_NOP = 0x00,
MLX5_OPCODE_SEND_INVAL = 0x01,
MLX5_OPCODE_RDMA_WRITE = 0x08,
MLX5_OPCODE_RDMA_WRITE_IMM = 0x09,
MLX5_OPCODE_SEND = 0x0a,
MLX5_OPCODE_SEND_IMM = 0x0b,
MLX5_OPCODE_TSO = 0x0e,
MLX5_OPCODE_RDMA_READ = 0x10,
MLX5_OPCODE_ATOMIC_CS = 0x11,
MLX5_OPCODE_ATOMIC_FA = 0x12,
MLX5_OPCODE_ATOMIC_MASKED_CS = 0x14,
MLX5_OPCODE_ATOMIC_MASKED_FA = 0x15,
MLX5_OPCODE_FMR = 0x19,
MLX5_OPCODE_LOCAL_INVAL = 0x1b,
MLX5_OPCODE_CONFIG_CMD = 0x1f,
MLX5_OPCODE_UMR = 0x25,
MLX5_OPCODE_TAG_MATCHING = 0x28,
MLX5_OPCODE_FLOW_TBL_ACCESS = 0x2c,
};
/*
* CQE related part
*/
enum {
MLX5_INLINE_SCATTER_32 = 0x4,
MLX5_INLINE_SCATTER_64 = 0x8,
};
enum {
MLX5_CQE_SYNDROME_LOCAL_LENGTH_ERR = 0x01,
MLX5_CQE_SYNDROME_LOCAL_QP_OP_ERR = 0x02,
MLX5_CQE_SYNDROME_LOCAL_PROT_ERR = 0x04,
MLX5_CQE_SYNDROME_WR_FLUSH_ERR = 0x05,
MLX5_CQE_SYNDROME_MW_BIND_ERR = 0x06,
MLX5_CQE_SYNDROME_BAD_RESP_ERR = 0x10,
MLX5_CQE_SYNDROME_LOCAL_ACCESS_ERR = 0x11,
MLX5_CQE_SYNDROME_REMOTE_INVAL_REQ_ERR = 0x12,
MLX5_CQE_SYNDROME_REMOTE_ACCESS_ERR = 0x13,
MLX5_CQE_SYNDROME_REMOTE_OP_ERR = 0x14,
MLX5_CQE_SYNDROME_TRANSPORT_RETRY_EXC_ERR = 0x15,
MLX5_CQE_SYNDROME_RNR_RETRY_EXC_ERR = 0x16,
MLX5_CQE_SYNDROME_REMOTE_ABORTED_ERR = 0x22,
};
enum {
MLX5_CQE_VENDOR_SYNDROME_ODP_PFAULT = 0x93,
};
enum {
MLX5_CQE_L2_OK = 1 << 0,
MLX5_CQE_L3_OK = 1 << 1,
MLX5_CQE_L4_OK = 1 << 2,
};
enum {
MLX5_CQE_L3_HDR_TYPE_NONE = 0x0,
MLX5_CQE_L3_HDR_TYPE_IPV6 = 0x1,
MLX5_CQE_L3_HDR_TYPE_IPV4 = 0x2,
};
enum {
MLX5_CQE_OWNER_MASK = 1,
MLX5_CQE_REQ = 0,
MLX5_CQE_RESP_WR_IMM = 1,
MLX5_CQE_RESP_SEND = 2,
MLX5_CQE_RESP_SEND_IMM = 3,
MLX5_CQE_RESP_SEND_INV = 4,
MLX5_CQE_RESIZE_CQ = 5,
MLX5_CQE_NO_PACKET = 6,
MLX5_CQE_REQ_ERR = 13,
MLX5_CQE_RESP_ERR = 14,
MLX5_CQE_INVALID = 15,
};
enum {
MLX5_CQ_DOORBELL = 0x20
};
enum {
MLX5_CQ_DB_REQ_NOT_SOL = 1 << 24,
MLX5_CQ_DB_REQ_NOT = 0 << 24,
};
struct mlx5_err_cqe {
uint8_t rsvd0[32];
uint32_t srqn;
uint8_t rsvd1[18];
uint8_t vendor_err_synd;
uint8_t syndrome;
uint32_t s_wqe_opcode_qpn;
uint16_t wqe_counter;
uint8_t signature;
uint8_t op_own;
};
struct mlx5_tm_cqe {
__be32 success;
__be16 hw_phase_cnt;
uint8_t rsvd0[12];
};
struct mlx5_cqe64 {
union {
struct {
uint8_t rsvd0[2];
__be16 wqe_id;
uint8_t rsvd4[13];
uint8_t ml_path;
uint8_t rsvd20[4];
__be16 slid;
__be32 flags_rqpn;
uint8_t hds_ip_ext;
uint8_t l4_hdr_type_etc;
__be16 vlan_info;
};
struct mlx5_tm_cqe tm_cqe;
/* TMH is scattered to CQE upon match */
struct ibv_tmh tmh;
};
__be32 srqn_uidx;
__be32 imm_inval_pkey;
uint8_t app;
uint8_t app_op;
__be16 app_info;
__be32 byte_cnt;
__be64 timestamp;
__be32 sop_drop_qpn;
__be16 wqe_counter;
uint8_t signature;
uint8_t op_own;
};
enum {
MLX5_TMC_SUCCESS = 0x80000000U,
};
enum mlx5dv_cqe_comp_res_format {
MLX5DV_CQE_RES_FORMAT_HASH = 1 << 0,
MLX5DV_CQE_RES_FORMAT_CSUM = 1 << 1,
MLX5DV_CQE_RES_FORMAT_CSUM_STRIDX = 1 << 2,
};
enum mlx5dv_sw_parsing_offloads {
MLX5DV_SW_PARSING = 1 << 0,
MLX5DV_SW_PARSING_CSUM = 1 << 1,
MLX5DV_SW_PARSING_LSO = 1 << 2,
};
static MLX5DV_ALWAYS_INLINE
uint8_t mlx5dv_get_cqe_owner(struct mlx5_cqe64 *cqe)
{
return cqe->op_own & 0x1;
}
static MLX5DV_ALWAYS_INLINE
void mlx5dv_set_cqe_owner(struct mlx5_cqe64 *cqe, uint8_t val)
{
cqe->op_own = (val & 0x1) | (cqe->op_own & ~0x1);
}
/* Solicited event */
static MLX5DV_ALWAYS_INLINE
uint8_t mlx5dv_get_cqe_se(struct mlx5_cqe64 *cqe)
{
return (cqe->op_own >> 1) & 0x1;
}
static MLX5DV_ALWAYS_INLINE
uint8_t mlx5dv_get_cqe_format(struct mlx5_cqe64 *cqe)
{
return (cqe->op_own >> 2) & 0x3;
}
static MLX5DV_ALWAYS_INLINE
uint8_t mlx5dv_get_cqe_opcode(struct mlx5_cqe64 *cqe)
{
return cqe->op_own >> 4;
}
/*
* WQE related part
*/
enum {
MLX5_INVALID_LKEY = 0x100,
};
enum {
MLX5_EXTENDED_UD_AV = 0x80000000,
};
enum {
MLX5_WQE_CTRL_CQ_UPDATE = 2 << 2,
MLX5_WQE_CTRL_SOLICITED = 1 << 1,
MLX5_WQE_CTRL_FENCE = 4 << 5,
MLX5_WQE_CTRL_INITIATOR_SMALL_FENCE = 1 << 5,
};
enum {
MLX5_SEND_WQE_BB = 64,
MLX5_SEND_WQE_SHIFT = 6,
};
enum {
MLX5_INLINE_SEG = 0x80000000,
};
enum {
MLX5_ETH_WQE_L3_CSUM = (1 << 6),
MLX5_ETH_WQE_L4_CSUM = (1 << 7),
};
struct mlx5_wqe_srq_next_seg {
uint8_t rsvd0[2];
__be16 next_wqe_index;
uint8_t signature;
uint8_t rsvd1[11];
};
struct mlx5_wqe_data_seg {
__be32 byte_count;
__be32 lkey;
__be64 addr;
};
struct mlx5_wqe_ctrl_seg {
__be32 opmod_idx_opcode;
__be32 qpn_ds;
uint8_t signature;
uint8_t rsvd[2];
uint8_t fm_ce_se;
__be32 imm;
};
struct mlx5_wqe_flow_update_ctrl_seg {
__be32 flow_idx_update;
__be32 dest_handle;
uint8_t reserved0[40];
};
struct mlx5_wqe_header_modify_argument_update_seg {
uint8_t argument_list[64];
};
struct mlx5_mprq_wqe {
struct mlx5_wqe_srq_next_seg nseg;
struct mlx5_wqe_data_seg dseg;
};
struct mlx5_wqe_av {
union {
struct {
__be32 qkey;
__be32 reserved;
} qkey;
__be64 dc_key;
} key;
__be32 dqp_dct;
uint8_t stat_rate_sl;
uint8_t fl_mlid;
__be16 rlid;
uint8_t reserved0[4];
uint8_t rmac[6];
uint8_t tclass;
uint8_t hop_limit;
__be32 grh_gid_fl;
uint8_t rgid[16];
};
struct mlx5_wqe_datagram_seg {
struct mlx5_wqe_av av;
};
struct mlx5_wqe_raddr_seg {
__be64 raddr;
__be32 rkey;
__be32 reserved;
};
struct mlx5_wqe_atomic_seg {
__be64 swap_add;
__be64 compare;
};
struct mlx5_wqe_inl_data_seg {
uint32_t byte_count;
};
struct mlx5_wqe_eth_seg {
__be32 rsvd0;
uint8_t cs_flags;
uint8_t rsvd1;
__be16 mss;
__be32 rsvd2;
__be16 inline_hdr_sz;
uint8_t inline_hdr_start[2];
uint8_t inline_hdr[16];
};
struct mlx5_wqe_tm_seg {
uint8_t opcode;
uint8_t flags;
__be16 index;
uint8_t rsvd0[2];
__be16 sw_cnt;
uint8_t rsvd1[8];
__be64 append_tag;
__be64 append_mask;
};
enum {
MLX5_WQE_UMR_CTRL_FLAG_INLINE = 1 << 7,
MLX5_WQE_UMR_CTRL_FLAG_CHECK_FREE = 1 << 5,
MLX5_WQE_UMR_CTRL_FLAG_TRNSLATION_OFFSET = 1 << 4,
MLX5_WQE_UMR_CTRL_FLAG_CHECK_QPN = 1 << 3,
};
enum {
MLX5_WQE_UMR_CTRL_MKEY_MASK_LEN = 1 << 0,
MLX5_WQE_UMR_CTRL_MKEY_MASK_START_ADDR = 1 << 6,
MLX5_WQE_UMR_CTRL_MKEY_MASK_MKEY = 1 << 13,
MLX5_WQE_UMR_CTRL_MKEY_MASK_QPN = 1 << 14,
MLX5_WQE_UMR_CTRL_MKEY_MASK_ACCESS_LOCAL_WRITE = 1 << 18,
MLX5_WQE_UMR_CTRL_MKEY_MASK_ACCESS_REMOTE_READ = 1 << 19,
MLX5_WQE_UMR_CTRL_MKEY_MASK_ACCESS_REMOTE_WRITE = 1 << 20,
MLX5_WQE_UMR_CTRL_MKEY_MASK_ACCESS_ATOMIC = 1 << 21,
MLX5_WQE_UMR_CTRL_MKEY_MASK_FREE = 1 << 29,
};
struct mlx5_wqe_umr_ctrl_seg {
uint8_t flags;
uint8_t rsvd0[3];
__be16 klm_octowords;
__be16 translation_offset;
__be64 mkey_mask;
uint8_t rsvd1[32];
};
struct mlx5_wqe_umr_klm_seg {
/* up to 2GB */
__be32 byte_count;
__be32 mkey;
__be64 address;
};
union mlx5_wqe_umr_inline_seg {
struct mlx5_wqe_umr_klm_seg klm;
};
struct mlx5_wqe_umr_repeat_ent_seg {
__be16 stride;
__be16 byte_count;
__be32 memkey;
__be64 va;
};
struct mlx5_wqe_umr_repeat_block_seg {
__be32 byte_count;
__be32 op;
__be32 repeat_count;
__be16 reserved;
__be16 num_ent;
struct mlx5_wqe_umr_repeat_ent_seg entries[0];
};
enum {
MLX5_WQE_MKEY_CONTEXT_FREE = 1 << 6
};
enum {
MLX5_WQE_MKEY_CONTEXT_ACCESS_FLAGS_ATOMIC = 1 << 6,
MLX5_WQE_MKEY_CONTEXT_ACCESS_FLAGS_REMOTE_WRITE = 1 << 5,
MLX5_WQE_MKEY_CONTEXT_ACCESS_FLAGS_REMOTE_READ = 1 << 4,
MLX5_WQE_MKEY_CONTEXT_ACCESS_FLAGS_LOCAL_WRITE = 1 << 3,
MLX5_WQE_MKEY_CONTEXT_ACCESS_FLAGS_LOCAL_READ = 1 << 2
};
struct mlx5_wqe_mkey_context_seg {
uint8_t free;
uint8_t reserved1;
uint8_t access_flags;
uint8_t sf;
__be32 qpn_mkey;
__be32 reserved2;
__be32 flags_pd;
__be64 start_addr;
__be64 len;
__be32 bsf_octword_size;
__be32 reserved3[4];
__be32 translations_octword_size;
uint8_t reserved4[3];
uint8_t log_page_size;
__be32 reserved;
union mlx5_wqe_umr_inline_seg inseg[0];
};
/*
* Control segment - contains some control information for the current WQE.
*
* Output:
* seg - control segment to be filled
* Input:
* pi - WQEBB number of the first block of this WQE.
* This number should wrap at 0xffff, regardless of
* size of the WQ.
* opcode - Opcode of this WQE. Encodes the type of operation
* to be executed on the QP.
* opmod - Opcode modifier.
* qp_num - QP/SQ number this WQE is posted to.
* fm_ce_se - FM (fence mode), CE (completion and event mode)
* and SE (solicited event).
* ds - WQE size in octowords (16-byte units). DS accounts for all
* the segments in the WQE as summarized in WQE construction.
* signature - WQE signature.
* imm - Immediate data/Invalidation key/UMR mkey.
*/
static MLX5DV_ALWAYS_INLINE
void mlx5dv_set_ctrl_seg(struct mlx5_wqe_ctrl_seg *seg, uint16_t pi,
uint8_t opcode, uint8_t opmod, uint32_t qp_num,
uint8_t fm_ce_se, uint8_t ds,
uint8_t signature, uint32_t imm)
{
seg->opmod_idx_opcode = htobe32(((uint32_t)opmod << 24) | ((uint32_t)pi << 8) | opcode);
seg->qpn_ds = htobe32((qp_num << 8) | ds);
seg->fm_ce_se = fm_ce_se;
seg->signature = signature;
/*
* The caller should prepare "imm" in advance based on WR opcode.
* For IBV_WR_SEND_WITH_IMM and IBV_WR_RDMA_WRITE_WITH_IMM,
* the "imm" should be assigned as is.
* For the IBV_WR_SEND_WITH_INV, it should be htobe32(imm).
*/
seg->imm = imm;
}
/* x86 optimized version of mlx5dv_set_ctrl_seg()
*
* This is useful when doing calculations on large data sets
* for parallel calculations.
*
* It doesn't suit for serialized algorithms.
*/
#if defined(__SSE3__)
static MLX5DV_ALWAYS_INLINE
void mlx5dv_x86_set_ctrl_seg(struct mlx5_wqe_ctrl_seg *seg, uint16_t pi,
uint8_t opcode, uint8_t opmod, uint32_t qp_num,
uint8_t fm_ce_se, uint8_t ds,
uint8_t signature, uint32_t imm)
{
__m128i val = _mm_set_epi32(imm, qp_num, (ds << 16) | pi,
(signature << 24) | (opcode << 16) | (opmod << 8) | fm_ce_se);
__m128i mask = _mm_set_epi8(15, 14, 13, 12, /* immediate */
0, /* signal/fence_mode */
#if CHAR_MIN
-128, -128, /* reserved */
#else
0x80, 0x80, /* reserved */
#endif
3, /* signature */
6, /* data size */
8, 9, 10, /* QP num */
2, /* opcode */
4, 5, /* sw_pi in BE */
1 /* opmod */
);
*(__m128i *) seg = _mm_shuffle_epi8(val, mask);
}
#endif /* defined(__SSE3__) */
/*
* Datagram Segment - contains address information required in order
* to form a datagram message.
*
* Output:
* seg - datagram segment to be filled.
* Input:
* key - Q_key/access key.
* dqp_dct - Destination QP number for UD and DCT for DC.
* ext - Address vector extension.
* stat_rate_sl - Maximum static rate control, SL/ethernet priority.
* fl_mlid - Force loopback and source LID for IB.
* rlid - Remote LID
* rmac - Remote MAC
* tclass - GRH tclass/IPv6 tclass/IPv4 ToS
* hop_limit - GRH hop limit/IPv6 hop limit/IPv4 TTL
* grh_gid_fi - GRH, source GID address and IPv6 flow label.
* rgid - Remote GID/IP address.
*/
static MLX5DV_ALWAYS_INLINE
void mlx5dv_set_dgram_seg(struct mlx5_wqe_datagram_seg *seg,
uint64_t key, uint32_t dqp_dct,
uint8_t ext, uint8_t stat_rate_sl,
uint8_t fl_mlid, uint16_t rlid,
uint8_t *rmac, uint8_t tclass,
uint8_t hop_limit, uint32_t grh_gid_fi,
uint8_t *rgid)
{
/* Always put 64 bits, in q_key, the reserved part will be 0 */
seg->av.key.dc_key = htobe64(key);
seg->av.dqp_dct = htobe32(((uint32_t)ext << 31) | dqp_dct);
seg->av.stat_rate_sl = stat_rate_sl;
seg->av.fl_mlid = fl_mlid;
seg->av.rlid = htobe16(rlid);
memcpy(seg->av.rmac, rmac, 6);
seg->av.tclass = tclass;
seg->av.hop_limit = hop_limit;
seg->av.grh_gid_fl = htobe32(grh_gid_fi);
memcpy(seg->av.rgid, rgid, 16);
}
/*
* Data Segments - contain pointers and a byte count for the scatter/gather list.
* They can optionally contain data, which will save a memory read access for
* gather Work Requests.
*/
static MLX5DV_ALWAYS_INLINE
void mlx5dv_set_data_seg(struct mlx5_wqe_data_seg *seg,
uint32_t length, uint32_t lkey,
uintptr_t address)
{
seg->byte_count = htobe32(length);
seg->lkey = htobe32(lkey);
seg->addr = htobe64(address);
}
/*
* x86 optimized version of mlx5dv_set_data_seg()
*
* This is useful when doing calculations on large data sets
* for parallel calculations.
*
* It doesn't suit for serialized algorithms.
*/
#if defined(__SSE3__)
static MLX5DV_ALWAYS_INLINE
void mlx5dv_x86_set_data_seg(struct mlx5_wqe_data_seg *seg,
uint32_t length, uint32_t lkey,
uintptr_t address)
{
uint64_t address64 = address;
__m128i val = _mm_set_epi32((uint32_t)address64, (uint32_t)(address64 >> 32), lkey, length);
__m128i mask = _mm_set_epi8(12, 13, 14, 15, /* local address low */
8, 9, 10, 11, /* local address high */
4, 5, 6, 7, /* l_key */
0, 1, 2, 3 /* byte count */
);
*(__m128i *) seg = _mm_shuffle_epi8(val, mask);
}
#endif /* defined(__SSE3__) */
/*
* Eth Segment - contains packet headers and information for stateless L2, L3, L4 offloading.
*
* Output:
* seg - Eth segment to be filled.
* Input:
* cs_flags - l3cs/l3cs_inner/l4cs/l4cs_inner.
* mss - Maximum segment size. For TSO WQEs, the number of bytes
* in the TCP payload to be transmitted in each packet. Must
* be 0 on non TSO WQEs.
* inline_hdr_sz - Length of the inlined packet headers.
* inline_hdr_start - Inlined packet header.
*/
static MLX5DV_ALWAYS_INLINE
void mlx5dv_set_eth_seg(struct mlx5_wqe_eth_seg *seg, uint8_t cs_flags,
uint16_t mss, uint16_t inline_hdr_sz,
uint8_t *inline_hdr_start)
{
seg->cs_flags = cs_flags;
seg->mss = htobe16(mss);
seg->inline_hdr_sz = htobe16(inline_hdr_sz);
memcpy(seg->inline_hdr_start, inline_hdr_start, inline_hdr_sz);
}
enum mlx5dv_set_ctx_attr_type {
MLX5DV_CTX_ATTR_BUF_ALLOCATORS = 1,
};
enum {
MLX5_MMAP_GET_REGULAR_PAGES_CMD = 0,
MLX5_MMAP_GET_NC_PAGES_CMD = 3,
};
struct mlx5dv_ctx_allocators {
void *(*alloc)(size_t size, void *priv_data);
void (*free)(void *ptr, void *priv_data);
void *data;
};
/*
* Generic context attributes set API
*
* Returns 0 on success, or the value of errno on failure
* (which indicates the failure reason).
*/
int mlx5dv_set_context_attr(struct ibv_context *context,
enum mlx5dv_set_ctx_attr_type type, void *attr);
struct mlx5dv_clock_info {
uint64_t nsec;
uint64_t last_cycles;
uint64_t frac;
uint32_t mult;
uint32_t shift;
uint64_t mask;
};
/*
* Get mlx5 core clock info
*
* Output:
* clock_info - clock info to be filled
* Input:
* context - device context
*
* Return: 0 on success, or the value of errno on failure
*/
int mlx5dv_get_clock_info(struct ibv_context *context,
struct mlx5dv_clock_info *clock_info);
/*
* Translate device timestamp to nano-sec
*
* Input:
* clock_info - clock info to be filled
* device_timestamp - timestamp to translate
*
* Return: nano-sec
*/
static inline uint64_t mlx5dv_ts_to_ns(struct mlx5dv_clock_info *clock_info,
uint64_t device_timestamp)
{
uint64_t delta, nsec;
/*
* device_timestamp & cycles are the free running 'mask' bit counters
* from the hardware hca_core_clock clock.
*/
delta = (device_timestamp - clock_info->last_cycles) & clock_info->mask;
nsec = clock_info->nsec;
/*
* Guess if the device_timestamp is more recent than
* clock_info->last_cycles, if not (too far in the future) treat
* it as old time stamp. This will break every max_clock_info_update_nsec.
*/
if (delta > clock_info->mask / 2) {
delta = (clock_info->last_cycles - device_timestamp) &
clock_info->mask;
nsec -= ((delta * clock_info->mult) - clock_info->frac) >>
clock_info->shift;
} else {
nsec += ((delta * clock_info->mult) + clock_info->frac) >>
clock_info->shift;
}
return nsec;
}
enum mlx5dv_context_attr_flags {
MLX5DV_CONTEXT_FLAGS_DEVX = 1 << 0,
};
struct mlx5dv_context_attr {
uint32_t flags; /* Use enum mlx5dv_context_attr_flags */
uint64_t comp_mask;
};
bool mlx5dv_is_supported(struct ibv_device *device);
struct ibv_context *
mlx5dv_open_device(struct ibv_device *device, struct mlx5dv_context_attr *attr);
struct mlx5dv_devx_obj;
struct mlx5dv_devx_obj *
mlx5dv_devx_obj_create(struct ibv_context *context, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_obj_query(struct mlx5dv_devx_obj *obj, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_obj_modify(struct mlx5dv_devx_obj *obj, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_obj_destroy(struct mlx5dv_devx_obj *obj);
int mlx5dv_devx_general_cmd(struct ibv_context *context, const void *in, size_t inlen,
void *out, size_t outlen);
struct mlx5dv_devx_umem {
uint32_t umem_id;
};
struct mlx5dv_devx_umem *
mlx5dv_devx_umem_reg(struct ibv_context *ctx, void *addr, size_t size, uint32_t access);
int mlx5dv_devx_umem_dereg(struct mlx5dv_devx_umem *umem);
struct mlx5dv_devx_uar {
void *reg_addr;
void *base_addr;
uint32_t page_id;
off_t mmap_off;
uint64_t comp_mask;
};
struct mlx5dv_devx_uar *mlx5dv_devx_alloc_uar(struct ibv_context *context,
uint32_t flags);
void mlx5dv_devx_free_uar(struct mlx5dv_devx_uar *devx_uar);
struct mlx5dv_var {
uint32_t page_id;
uint32_t length;
off_t mmap_off;
uint64_t comp_mask;
};
struct mlx5dv_var *
mlx5dv_alloc_var(struct ibv_context *context, uint32_t flags);
void mlx5dv_free_var(struct mlx5dv_var *dv_var);
int mlx5dv_devx_query_eqn(struct ibv_context *context, uint32_t vector,
uint32_t *eqn);
int mlx5dv_devx_cq_query(struct ibv_cq *cq, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_cq_modify(struct ibv_cq *cq, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_qp_query(struct ibv_qp *qp, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_qp_modify(struct ibv_qp *qp, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_srq_query(struct ibv_srq *srq, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_srq_modify(struct ibv_srq *srq, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_wq_query(struct ibv_wq *wq, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_wq_modify(struct ibv_wq *wq, const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_ind_tbl_query(struct ibv_rwq_ind_table *ind_tbl,
const void *in, size_t inlen,
void *out, size_t outlen);
int mlx5dv_devx_ind_tbl_modify(struct ibv_rwq_ind_table *ind_tbl,
const void *in, size_t inlen,
void *out, size_t outlen);
struct mlx5dv_devx_cmd_comp {
int fd;
};
struct mlx5dv_devx_cmd_comp *
mlx5dv_devx_create_cmd_comp(struct ibv_context *context);
void mlx5dv_devx_destroy_cmd_comp(struct mlx5dv_devx_cmd_comp *cmd_comp);
int mlx5dv_devx_obj_query_async(struct mlx5dv_devx_obj *obj, const void *in,
size_t inlen, size_t outlen,
uint64_t wr_id,
struct mlx5dv_devx_cmd_comp *cmd_comp);
int mlx5dv_devx_get_async_cmd_comp(struct mlx5dv_devx_cmd_comp *cmd_comp,
struct mlx5dv_devx_async_cmd_hdr *cmd_resp,
size_t cmd_resp_len);
struct mlx5dv_devx_event_channel {
int fd;
};
struct mlx5dv_devx_event_channel *
mlx5dv_devx_create_event_channel(struct ibv_context *context,
enum mlx5dv_devx_create_event_channel_flags flags);
void mlx5dv_devx_destroy_event_channel(struct mlx5dv_devx_event_channel *event_channel);
int mlx5dv_devx_subscribe_devx_event(struct mlx5dv_devx_event_channel *event_channel,
struct mlx5dv_devx_obj *obj, /* can be NULL for unaffiliated events */
uint16_t events_sz,
uint16_t events_num[],
uint64_t cookie);
int mlx5dv_devx_subscribe_devx_event_fd(struct mlx5dv_devx_event_channel *event_channel,
int fd,
struct mlx5dv_devx_obj *obj, /* can be NULL for unaffiliated events */
uint16_t event_num);
/* return code: upon success number of bytes read, otherwise -1 and errno was set */
ssize_t mlx5dv_devx_get_event(struct mlx5dv_devx_event_channel *event_channel,
struct mlx5dv_devx_async_event_hdr *event_data,
size_t event_resp_len);
#define __devx_nullp(typ) ((struct mlx5_ifc_##typ##_bits *)NULL)
#define __devx_st_sz_bits(typ) sizeof(struct mlx5_ifc_##typ##_bits)
#define __devx_bit_sz(typ, fld) sizeof(__devx_nullp(typ)->fld)
#define __devx_bit_off(typ, fld) offsetof(struct mlx5_ifc_##typ##_bits, fld)
#define __devx_dw_off(bit_off) ((bit_off) / 32)
#define __devx_64_off(bit_off) ((bit_off) / 64)
#define __devx_dw_bit_off(bit_sz, bit_off) (32 - (bit_sz) - ((bit_off) & 0x1f))
#define __devx_mask(bit_sz) ((uint32_t)((1ull << (bit_sz)) - 1))
#define __devx_dw_mask(bit_sz, bit_off) \
(__devx_mask(bit_sz) << __devx_dw_bit_off(bit_sz, bit_off))
#define DEVX_FLD_SZ_BYTES(typ, fld) (__devx_bit_sz(typ, fld) / 8)
#define DEVX_ST_SZ_BYTES(typ) (sizeof(struct mlx5_ifc_##typ##_bits) / 8)
#define DEVX_ST_SZ_DW(typ) (sizeof(struct mlx5_ifc_##typ##_bits) / 32)
#define DEVX_ST_SZ_QW(typ) (sizeof(struct mlx5_ifc_##typ##_bits) / 64)
#define DEVX_UN_SZ_BYTES(typ) (sizeof(union mlx5_ifc_##typ##_bits) / 8)
#define DEVX_UN_SZ_DW(typ) (sizeof(union mlx5_ifc_##typ##_bits) / 32)
#define DEVX_BYTE_OFF(typ, fld) (__devx_bit_off(typ, fld) / 8)
#define DEVX_ADDR_OF(typ, p, fld) \
((unsigned char *)(p) + DEVX_BYTE_OFF(typ, fld))
static inline void _devx_set(void *p, uint32_t value, size_t bit_off,
size_t bit_sz)
{
__be32 *fld = (__be32 *)(p) + __devx_dw_off(bit_off);
uint32_t dw_mask = __devx_dw_mask(bit_sz, bit_off);
uint32_t mask = __devx_mask(bit_sz);
*fld = htobe32((be32toh(*fld) & (~dw_mask)) |
((value & mask) << __devx_dw_bit_off(bit_sz, bit_off)));
}
#define DEVX_SET(typ, p, fld, v) \
_devx_set(p, v, __devx_bit_off(typ, fld), __devx_bit_sz(typ, fld))
static inline uint32_t _devx_get(const void *p, size_t bit_off, size_t bit_sz)
{
return ((be32toh(*((const __be32 *)(p) + __devx_dw_off(bit_off))) >>
__devx_dw_bit_off(bit_sz, bit_off)) &
__devx_mask(bit_sz));
}
#define DEVX_GET(typ, p, fld) \
_devx_get(p, __devx_bit_off(typ, fld), __devx_bit_sz(typ, fld))
static inline void _devx_set64(void *p, uint64_t v, size_t bit_off)
{
*((__be64 *)(p) + __devx_64_off(bit_off)) = htobe64(v);
}
#define DEVX_SET64(typ, p, fld, v) _devx_set64(p, v, __devx_bit_off(typ, fld))
static inline uint64_t _devx_get64(const void *p, size_t bit_off)
{
return be64toh(*((const __be64 *)(p) + __devx_64_off(bit_off)));
}
#define DEVX_GET64(typ, p, fld) _devx_get64(p, __devx_bit_off(typ, fld))
struct mlx5dv_dr_domain;
struct mlx5dv_dr_table;
struct mlx5dv_dr_matcher;
struct mlx5dv_dr_rule;
struct mlx5dv_dr_action;
enum mlx5dv_dr_domain_type {
MLX5DV_DR_DOMAIN_TYPE_NIC_RX,
MLX5DV_DR_DOMAIN_TYPE_NIC_TX,
MLX5DV_DR_DOMAIN_TYPE_FDB,
};
enum mlx5dv_dr_domain_sync_flags {
MLX5DV_DR_DOMAIN_SYNC_FLAGS_SW = 1 << 0,
MLX5DV_DR_DOMAIN_SYNC_FLAGS_HW = 1 << 1,
MLX5DV_DR_DOMAIN_SYNC_FLAGS_MEM = 1 << 2,
};
struct mlx5dv_dr_flow_meter_attr {
struct mlx5dv_dr_table *next_table;
uint8_t active;
uint8_t reg_c_index;
size_t flow_meter_parameter_sz;
void *flow_meter_parameter;
};
struct mlx5dv_dr_flow_sampler_attr {
uint32_t sample_ratio;
struct mlx5dv_dr_table *default_next_table;
uint32_t num_sample_actions;
struct mlx5dv_dr_action **sample_actions;
__be64 action;
};
struct mlx5dv_dr_domain *
mlx5dv_dr_domain_create(struct ibv_context *ctx,
enum mlx5dv_dr_domain_type type);
int mlx5dv_dr_domain_destroy(struct mlx5dv_dr_domain *domain);
int mlx5dv_dr_domain_sync(struct mlx5dv_dr_domain *domain, uint32_t flags);
void mlx5dv_dr_domain_set_reclaim_device_memory(struct mlx5dv_dr_domain *dmn,
bool enable);
struct mlx5dv_dr_table *
mlx5dv_dr_table_create(struct mlx5dv_dr_domain *domain, uint32_t level);
int mlx5dv_dr_table_destroy(struct mlx5dv_dr_table *table);
struct mlx5dv_dr_matcher *
mlx5dv_dr_matcher_create(struct mlx5dv_dr_table *table,
uint16_t priority,
uint8_t match_criteria_enable,
struct mlx5dv_flow_match_parameters *mask);
int mlx5dv_dr_matcher_destroy(struct mlx5dv_dr_matcher *matcher);
struct mlx5dv_dr_rule *
mlx5dv_dr_rule_create(struct mlx5dv_dr_matcher *matcher,
struct mlx5dv_flow_match_parameters *value,
size_t num_actions,
struct mlx5dv_dr_action *actions[]);
int mlx5dv_dr_rule_destroy(struct mlx5dv_dr_rule *rule);
enum mlx5dv_dr_action_flags {
MLX5DV_DR_ACTION_FLAGS_ROOT_LEVEL = 1 << 0,
};
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_dest_ibv_qp(struct ibv_qp *ibqp);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_dest_table(struct mlx5dv_dr_table *table);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_dest_vport(struct mlx5dv_dr_domain *domain,
uint32_t vport);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_dest_devx_tir(struct mlx5dv_devx_obj *devx_obj);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_dest_ib_port(struct mlx5dv_dr_domain *domain,
uint32_t ib_port);
enum mlx5dv_dr_action_dest_type {
MLX5DV_DR_ACTION_DEST,
MLX5DV_DR_ACTION_DEST_REFORMAT,
};
struct mlx5dv_dr_action_dest_reformat {
struct mlx5dv_dr_action *reformat;
struct mlx5dv_dr_action *dest;
};
struct mlx5dv_dr_action_dest_attr {
enum mlx5dv_dr_action_dest_type type;
union {
struct mlx5dv_dr_action *dest;
struct mlx5dv_dr_action_dest_reformat *dest_reformat;
};
};
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_dest_array(struct mlx5dv_dr_domain *domain,
size_t num_dest,
struct mlx5dv_dr_action_dest_attr *dests[]);
struct mlx5dv_dr_action *mlx5dv_dr_action_create_drop(void);
struct mlx5dv_dr_action *mlx5dv_dr_action_create_default_miss(void);
struct mlx5dv_dr_action *mlx5dv_dr_action_create_tag(uint32_t tag_value);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_flow_counter(struct mlx5dv_devx_obj *devx_obj,
uint32_t offset);
enum mlx5dv_dr_action_aso_first_hit_flags {
MLX5DV_DR_ACTION_FLAGS_ASO_FIRST_HIT_SET = 1 << 0,
};
enum mlx5dv_dr_action_aso_flow_meter_flags {
MLX5DV_DR_ACTION_FLAGS_ASO_FLOW_METER_RED = 1 << 0,
MLX5DV_DR_ACTION_FLAGS_ASO_FLOW_METER_YELLOW = 1 << 1,
MLX5DV_DR_ACTION_FLAGS_ASO_FLOW_METER_GREEN = 1 << 2,
MLX5DV_DR_ACTION_FLAGS_ASO_FLOW_METER_UNDEFINED = 1 << 3,
};
enum mlx5dv_dr_action_aso_ct_flags {
MLX5DV_DR_ACTION_FLAGS_ASO_CT_DIRECTION_INITIATOR = 1 << 0,
MLX5DV_DR_ACTION_FLAGS_ASO_CT_DIRECTION_RESPONDER = 1 << 1,
};
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_aso(struct mlx5dv_dr_domain *domain,
struct mlx5dv_devx_obj *devx_obj,
uint32_t offset,
uint32_t flags,
uint8_t return_reg_c);
int mlx5dv_dr_action_modify_aso(struct mlx5dv_dr_action *action,
uint32_t offset,
uint32_t flags,
uint8_t return_reg_c);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_packet_reformat(struct mlx5dv_dr_domain *domain,
uint32_t flags,
enum mlx5dv_flow_action_packet_reformat_type reformat_type,
size_t data_sz, void *data);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_modify_header(struct mlx5dv_dr_domain *domain,
uint32_t flags,
size_t actions_sz,
__be64 actions[]);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_flow_meter(struct mlx5dv_dr_flow_meter_attr *attr);
int mlx5dv_dr_action_modify_flow_meter(struct mlx5dv_dr_action *action,
struct mlx5dv_dr_flow_meter_attr *attr,
__be64 modify_field_select);
struct mlx5dv_dr_action *
mlx5dv_dr_action_create_flow_sampler(struct mlx5dv_dr_flow_sampler_attr *attr);
struct mlx5dv_dr_action *mlx5dv_dr_action_create_pop_vlan(void);
struct mlx5dv_dr_action
*mlx5dv_dr_action_create_push_vlan(struct mlx5dv_dr_domain *domain,
__be32 vlan_hdr);
int mlx5dv_dr_action_destroy(struct mlx5dv_dr_action *action);
int mlx5dv_dump_dr_domain(FILE *fout, struct mlx5dv_dr_domain *domain);
int mlx5dv_dump_dr_table(FILE *fout, struct mlx5dv_dr_table *table);
int mlx5dv_dump_dr_matcher(FILE *fout, struct mlx5dv_dr_matcher *matcher);
int mlx5dv_dump_dr_rule(FILE *fout, struct mlx5dv_dr_rule *rule);
struct mlx5dv_pp {
uint16_t index;
};
struct mlx5dv_pp *mlx5dv_pp_alloc(struct ibv_context *context,
size_t pp_context_sz,
const void *pp_context,
uint32_t flags);
void mlx5dv_pp_free(struct mlx5dv_pp *pp);
int mlx5dv_query_qp_lag_port(struct ibv_qp *qp,
uint8_t *port_num,
uint8_t *active_port_num);
int mlx5dv_modify_qp_lag_port(struct ibv_qp *qp, uint8_t port_num);
int mlx5dv_modify_qp_udp_sport(struct ibv_qp *qp, uint16_t udp_sport);
enum mlx5dv_sched_elem_attr_flags {
MLX5DV_SCHED_ELEM_ATTR_FLAGS_BW_SHARE = 1 << 0,
MLX5DV_SCHED_ELEM_ATTR_FLAGS_MAX_AVG_BW = 1 << 1,
};
struct mlx5dv_sched_attr {
struct mlx5dv_sched_node *parent;
uint32_t flags; /* Use mlx5dv_sched_elem_attr_flags */
uint32_t bw_share;
uint32_t max_avg_bw;
uint64_t comp_mask;
};
struct mlx5dv_sched_node;
struct mlx5dv_sched_leaf;
struct mlx5dv_sched_node *
mlx5dv_sched_node_create(struct ibv_context *context,
const struct mlx5dv_sched_attr *sched_attr);
struct mlx5dv_sched_leaf *
mlx5dv_sched_leaf_create(struct ibv_context *context,
const struct mlx5dv_sched_attr *sched_attr);
int mlx5dv_sched_node_modify(struct mlx5dv_sched_node *node,
const struct mlx5dv_sched_attr *sched_attr);
int mlx5dv_sched_leaf_modify(struct mlx5dv_sched_leaf *leaf,
const struct mlx5dv_sched_attr *sched_attr);
int mlx5dv_sched_node_destroy(struct mlx5dv_sched_node *node);
int mlx5dv_sched_leaf_destroy(struct mlx5dv_sched_leaf *leaf);
int mlx5dv_modify_qp_sched_elem(struct ibv_qp *qp,
const struct mlx5dv_sched_leaf *requestor,
const struct mlx5dv_sched_leaf *responder);
int mlx5dv_reserved_qpn_alloc(struct ibv_context *ctx, uint32_t *qpn);
int mlx5dv_reserved_qpn_dealloc(struct ibv_context *ctx, uint32_t qpn);
#ifdef __cplusplus
}
#endif
#endif /* _MLX5DV_H_ */
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