/* SPDX-License-Identifier: BSD-3-Clause * Copyright 2016 6WIND S.A. * Copyright 2016 Mellanox Technologies, Ltd */ #ifndef RTE_PMD_MLX5_PRM_H_ #define RTE_PMD_MLX5_PRM_H_ #include /* Verbs header. */ /* ISO C doesn't support unnamed structs/unions, disabling -pedantic. */ #ifdef PEDANTIC #pragma GCC diagnostic ignored "-Wpedantic" #endif #include #ifdef PEDANTIC #pragma GCC diagnostic error "-Wpedantic" #endif #include #include "mlx5_autoconf.h" /* RSS hash key size. */ #define MLX5_RSS_HASH_KEY_LEN 40 /* Get CQE owner bit. */ #define MLX5_CQE_OWNER(op_own) ((op_own) & MLX5_CQE_OWNER_MASK) /* Get CQE format. */ #define MLX5_CQE_FORMAT(op_own) (((op_own) & MLX5E_CQE_FORMAT_MASK) >> 2) /* Get CQE opcode. */ #define MLX5_CQE_OPCODE(op_own) (((op_own) & 0xf0) >> 4) /* Get CQE solicited event. */ #define MLX5_CQE_SE(op_own) (((op_own) >> 1) & 1) /* Invalidate a CQE. */ #define MLX5_CQE_INVALIDATE (MLX5_CQE_INVALID << 4) /* Maximum number of packets a multi-packet WQE can handle. */ #define MLX5_MPW_DSEG_MAX 5 /* WQE DWORD size */ #define MLX5_WQE_DWORD_SIZE 16 /* WQE size */ #define MLX5_WQE_SIZE (4 * MLX5_WQE_DWORD_SIZE) /* Max size of a WQE session. */ #define MLX5_WQE_SIZE_MAX 960U /* Compute the number of DS. */ #define MLX5_WQE_DS(n) \ (((n) + MLX5_WQE_DWORD_SIZE - 1) / MLX5_WQE_DWORD_SIZE) /* Room for inline data in multi-packet WQE. */ #define MLX5_MWQE64_INL_DATA 28 /* Default minimum number of Tx queues for inlining packets. */ #define MLX5_EMPW_MIN_TXQS 8 /* Default max packet length to be inlined. */ #define MLX5_EMPW_MAX_INLINE_LEN (4U * MLX5_WQE_SIZE) #define MLX5_OPC_MOD_ENHANCED_MPSW 0 #define MLX5_OPCODE_ENHANCED_MPSW 0x29 /* CQE value to inform that VLAN is stripped. */ #define MLX5_CQE_VLAN_STRIPPED (1u << 0) /* IPv4 options. */ #define MLX5_CQE_RX_IP_EXT_OPTS_PACKET (1u << 1) /* IPv6 packet. */ #define MLX5_CQE_RX_IPV6_PACKET (1u << 2) /* IPv4 packet. */ #define MLX5_CQE_RX_IPV4_PACKET (1u << 3) /* TCP packet. */ #define MLX5_CQE_RX_TCP_PACKET (1u << 4) /* UDP packet. */ #define MLX5_CQE_RX_UDP_PACKET (1u << 5) /* IP is fragmented. */ #define MLX5_CQE_RX_IP_FRAG_PACKET (1u << 7) /* L2 header is valid. */ #define MLX5_CQE_RX_L2_HDR_VALID (1u << 8) /* L3 header is valid. */ #define MLX5_CQE_RX_L3_HDR_VALID (1u << 9) /* L4 header is valid. */ #define MLX5_CQE_RX_L4_HDR_VALID (1u << 10) /* Outer packet, 0 IPv4, 1 IPv6. */ #define MLX5_CQE_RX_OUTER_PACKET (1u << 1) /* Tunnel packet bit in the CQE. */ #define MLX5_CQE_RX_TUNNEL_PACKET (1u << 0) /* Inner L3 checksum offload (Tunneled packets only). */ #define MLX5_ETH_WQE_L3_INNER_CSUM (1u << 4) /* Inner L4 checksum offload (Tunneled packets only). */ #define MLX5_ETH_WQE_L4_INNER_CSUM (1u << 5) /* Outer L4 type is TCP. */ #define MLX5_ETH_WQE_L4_OUTER_TCP (0u << 5) /* Outer L4 type is UDP. */ #define MLX5_ETH_WQE_L4_OUTER_UDP (1u << 5) /* Outer L3 type is IPV4. */ #define MLX5_ETH_WQE_L3_OUTER_IPV4 (0u << 4) /* Outer L3 type is IPV6. */ #define MLX5_ETH_WQE_L3_OUTER_IPV6 (1u << 4) /* Inner L4 type is TCP. */ #define MLX5_ETH_WQE_L4_INNER_TCP (0u << 1) /* Inner L4 type is UDP. */ #define MLX5_ETH_WQE_L4_INNER_UDP (1u << 1) /* Inner L3 type is IPV4. */ #define MLX5_ETH_WQE_L3_INNER_IPV4 (0u << 0) /* Inner L3 type is IPV6. */ #define MLX5_ETH_WQE_L3_INNER_IPV6 (1u << 0) /* Is flow mark valid. */ #if RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN #define MLX5_FLOW_MARK_IS_VALID(val) ((val) & 0xffffff00) #else #define MLX5_FLOW_MARK_IS_VALID(val) ((val) & 0xffffff) #endif /* INVALID is used by packets matching no flow rules. */ #define MLX5_FLOW_MARK_INVALID 0 /* Maximum allowed value to mark a packet. */ #define MLX5_FLOW_MARK_MAX 0xfffff0 /* Default mark value used when none is provided. */ #define MLX5_FLOW_MARK_DEFAULT 0xffffff /* Maximum number of DS in WQE. */ #define MLX5_DSEG_MAX 63 /* Subset of struct mlx5_wqe_eth_seg. */ struct mlx5_wqe_eth_seg_small { uint32_t rsvd0; uint8_t cs_flags; uint8_t rsvd1; uint16_t mss; uint32_t flow_table_metadata; uint16_t inline_hdr_sz; uint8_t inline_hdr[2]; } __rte_aligned(MLX5_WQE_DWORD_SIZE); struct mlx5_wqe_inl_small { uint32_t byte_cnt; uint8_t raw; } __rte_aligned(MLX5_WQE_DWORD_SIZE); struct mlx5_wqe_ctrl { uint32_t ctrl0; uint32_t ctrl1; uint32_t ctrl2; uint32_t ctrl3; } __rte_aligned(MLX5_WQE_DWORD_SIZE); /* Small common part of the WQE. */ struct mlx5_wqe { uint32_t ctrl[4]; struct mlx5_wqe_eth_seg_small eseg; }; /* Vectorize WQE header. */ struct mlx5_wqe_v { rte_v128u32_t ctrl; rte_v128u32_t eseg; }; /* WQE. */ struct mlx5_wqe64 { struct mlx5_wqe hdr; uint8_t raw[32]; } __rte_aligned(MLX5_WQE_SIZE); /* MPW mode. */ enum mlx5_mpw_mode { MLX5_MPW_DISABLED, MLX5_MPW, MLX5_MPW_ENHANCED, /* Enhanced Multi-Packet Send WQE, a.k.a MPWv2. */ }; /* MPW session status. */ enum mlx5_mpw_state { MLX5_MPW_STATE_OPENED, MLX5_MPW_INL_STATE_OPENED, MLX5_MPW_ENHANCED_STATE_OPENED, MLX5_MPW_STATE_CLOSED, }; /* MPW session descriptor. */ struct mlx5_mpw { enum mlx5_mpw_state state; unsigned int pkts_n; unsigned int len; unsigned int total_len; volatile struct mlx5_wqe *wqe; union { volatile struct mlx5_wqe_data_seg *dseg[MLX5_MPW_DSEG_MAX]; volatile uint8_t *raw; } data; }; /* WQE for Multi-Packet RQ. */ struct mlx5_wqe_mprq { struct mlx5_wqe_srq_next_seg next_seg; struct mlx5_wqe_data_seg dseg; }; #define MLX5_MPRQ_LEN_MASK 0x000ffff #define MLX5_MPRQ_LEN_SHIFT 0 #define MLX5_MPRQ_STRIDE_NUM_MASK 0x3fff0000 #define MLX5_MPRQ_STRIDE_NUM_SHIFT 16 #define MLX5_MPRQ_FILLER_MASK 0x80000000 #define MLX5_MPRQ_FILLER_SHIFT 31 #define MLX5_MPRQ_STRIDE_SHIFT_BYTE 2 /* CQ element structure - should be equal to the cache line size */ struct mlx5_cqe { #if (RTE_CACHE_LINE_SIZE == 128) uint8_t padding[64]; #endif uint8_t pkt_info; uint8_t rsvd0; uint16_t wqe_id; uint8_t rsvd3[8]; uint32_t rx_hash_res; uint8_t rx_hash_type; uint8_t rsvd1[11]; uint16_t hdr_type_etc; uint16_t vlan_info; uint8_t rsvd2[12]; uint32_t byte_cnt; uint64_t timestamp; uint32_t sop_drop_qpn; uint16_t wqe_counter; uint8_t rsvd4; uint8_t op_own; }; /* Adding direct verbs to data-path. */ /* CQ sequence number mask. */ #define MLX5_CQ_SQN_MASK 0x3 /* CQ sequence number index. */ #define MLX5_CQ_SQN_OFFSET 28 /* CQ doorbell index mask. */ #define MLX5_CI_MASK 0xffffff /* CQ doorbell offset. */ #define MLX5_CQ_ARM_DB 1 /* CQ doorbell offset*/ #define MLX5_CQ_DOORBELL 0x20 /* CQE format value. */ #define MLX5_COMPRESSED 0x3 /* The field of packet to be modified. */ enum mlx5_modificaiton_field { MLX5_MODI_OUT_SMAC_47_16 = 1, MLX5_MODI_OUT_SMAC_15_0, MLX5_MODI_OUT_ETHERTYPE, MLX5_MODI_OUT_DMAC_47_16, MLX5_MODI_OUT_DMAC_15_0, MLX5_MODI_OUT_IP_DSCP, MLX5_MODI_OUT_TCP_FLAGS, MLX5_MODI_OUT_TCP_SPORT, MLX5_MODI_OUT_TCP_DPORT, MLX5_MODI_OUT_IPV4_TTL, MLX5_MODI_OUT_UDP_SPORT, MLX5_MODI_OUT_UDP_DPORT, MLX5_MODI_OUT_SIPV6_127_96, MLX5_MODI_OUT_SIPV6_95_64, MLX5_MODI_OUT_SIPV6_63_32, MLX5_MODI_OUT_SIPV6_31_0, MLX5_MODI_OUT_DIPV6_127_96, MLX5_MODI_OUT_DIPV6_95_64, MLX5_MODI_OUT_DIPV6_63_32, MLX5_MODI_OUT_DIPV6_31_0, MLX5_MODI_OUT_SIPV4, MLX5_MODI_OUT_DIPV4, MLX5_MODI_IN_SMAC_47_16 = 0x31, MLX5_MODI_IN_SMAC_15_0, MLX5_MODI_IN_ETHERTYPE, MLX5_MODI_IN_DMAC_47_16, MLX5_MODI_IN_DMAC_15_0, MLX5_MODI_IN_IP_DSCP, MLX5_MODI_IN_TCP_FLAGS, MLX5_MODI_IN_TCP_SPORT, MLX5_MODI_IN_TCP_DPORT, MLX5_MODI_IN_IPV4_TTL, MLX5_MODI_IN_UDP_SPORT, MLX5_MODI_IN_UDP_DPORT, MLX5_MODI_IN_SIPV6_127_96, MLX5_MODI_IN_SIPV6_95_64, MLX5_MODI_IN_SIPV6_63_32, MLX5_MODI_IN_SIPV6_31_0, MLX5_MODI_IN_DIPV6_127_96, MLX5_MODI_IN_DIPV6_95_64, MLX5_MODI_IN_DIPV6_63_32, MLX5_MODI_IN_DIPV6_31_0, MLX5_MODI_IN_SIPV4, MLX5_MODI_IN_DIPV4, MLX5_MODI_OUT_IPV6_HOPLIMIT, MLX5_MODI_IN_IPV6_HOPLIMIT, MLX5_MODI_META_DATA_REG_A, MLX5_MODI_META_DATA_REG_B = 0x50, }; /* Modification sub command. */ struct mlx5_modification_cmd { union { uint32_t data0; struct { unsigned int bits:5; unsigned int rsvd0:3; unsigned int src_offset:5; /* Start bit offset. */ unsigned int rsvd1:3; unsigned int src_field:12; unsigned int type:4; }; }; union { uint32_t data1; uint8_t data[4]; struct { unsigned int rsvd2:8; unsigned int dst_offset:8; unsigned int dst_field:12; unsigned int rsvd3:4; }; }; }; typedef uint32_t u32; typedef uint16_t u16; typedef uint8_t u8; #define __mlx5_nullp(typ) ((struct mlx5_ifc_##typ##_bits *)0) #define __mlx5_bit_sz(typ, fld) sizeof(__mlx5_nullp(typ)->fld) #define __mlx5_bit_off(typ, fld) ((unsigned int)(unsigned long) \ (&(__mlx5_nullp(typ)->fld))) #define __mlx5_dw_bit_off(typ, fld) (32 - __mlx5_bit_sz(typ, fld) - \ (__mlx5_bit_off(typ, fld) & 0x1f)) #define __mlx5_dw_off(typ, fld) (__mlx5_bit_off(typ, fld) / 32) #define __mlx5_dw_mask(typ, fld) (__mlx5_mask(typ, fld) << \ __mlx5_dw_bit_off(typ, fld)) #define __mlx5_mask(typ, fld) ((u32)((1ull << __mlx5_bit_sz(typ, fld)) - 1)) #define __mlx5_16_off(typ, fld) (__mlx5_bit_off(typ, fld) / 16) #define __mlx5_16_bit_off(typ, fld) (16 - __mlx5_bit_sz(typ, fld) - \ (__mlx5_bit_off(typ, fld) & 0xf)) #define __mlx5_mask16(typ, fld) ((u16)((1ull << __mlx5_bit_sz(typ, fld)) - 1)) #define MLX5_ST_SZ_DW(typ) (sizeof(struct mlx5_ifc_##typ##_bits) / 32) #define MLX5_ST_SZ_DB(typ) (sizeof(struct mlx5_ifc_##typ##_bits) / 8) #define MLX5_BYTE_OFF(typ, fld) (__mlx5_bit_off(typ, fld) / 8) #define MLX5_ADDR_OF(typ, p, fld) ((char *)(p) + MLX5_BYTE_OFF(typ, fld)) /* insert a value to a struct */ #define MLX5_SET(typ, p, fld, v) \ do { \ u32 _v = v; \ *((__be32 *)(p) + __mlx5_dw_off(typ, fld)) = \ rte_cpu_to_be_32((rte_be_to_cpu_32(*((u32 *)(p) + \ __mlx5_dw_off(typ, fld))) & \ (~__mlx5_dw_mask(typ, fld))) | \ (((_v) & __mlx5_mask(typ, fld)) << \ __mlx5_dw_bit_off(typ, fld))); \ } while (0) #define MLX5_GET16(typ, p, fld) \ ((rte_be_to_cpu_16(*((__be16 *)(p) + \ __mlx5_16_off(typ, fld))) >> __mlx5_16_bit_off(typ, fld)) & \ __mlx5_mask16(typ, fld)) #define MLX5_FLD_SZ_BYTES(typ, fld) (__mlx5_bit_sz(typ, fld) / 8) struct mlx5_ifc_fte_match_set_misc_bits { u8 reserved_at_0[0x8]; u8 source_sqn[0x18]; u8 reserved_at_20[0x10]; u8 source_port[0x10]; u8 outer_second_prio[0x3]; u8 outer_second_cfi[0x1]; u8 outer_second_vid[0xc]; u8 inner_second_prio[0x3]; u8 inner_second_cfi[0x1]; u8 inner_second_vid[0xc]; u8 outer_second_cvlan_tag[0x1]; u8 inner_second_cvlan_tag[0x1]; u8 outer_second_svlan_tag[0x1]; u8 inner_second_svlan_tag[0x1]; u8 reserved_at_64[0xc]; u8 gre_protocol[0x10]; u8 gre_key_h[0x18]; u8 gre_key_l[0x8]; u8 vxlan_vni[0x18]; u8 reserved_at_b8[0x8]; u8 reserved_at_c0[0x20]; u8 reserved_at_e0[0xc]; u8 outer_ipv6_flow_label[0x14]; u8 reserved_at_100[0xc]; u8 inner_ipv6_flow_label[0x14]; u8 reserved_at_120[0xe0]; }; struct mlx5_ifc_ipv4_layout_bits { u8 reserved_at_0[0x60]; u8 ipv4[0x20]; }; struct mlx5_ifc_ipv6_layout_bits { u8 ipv6[16][0x8]; }; union mlx5_ifc_ipv6_layout_ipv4_layout_auto_bits { struct mlx5_ifc_ipv6_layout_bits ipv6_layout; struct mlx5_ifc_ipv4_layout_bits ipv4_layout; u8 reserved_at_0[0x80]; }; struct mlx5_ifc_fte_match_set_lyr_2_4_bits { u8 smac_47_16[0x20]; u8 smac_15_0[0x10]; u8 ethertype[0x10]; u8 dmac_47_16[0x20]; u8 dmac_15_0[0x10]; u8 first_prio[0x3]; u8 first_cfi[0x1]; u8 first_vid[0xc]; u8 ip_protocol[0x8]; u8 ip_dscp[0x6]; u8 ip_ecn[0x2]; u8 cvlan_tag[0x1]; u8 svlan_tag[0x1]; u8 frag[0x1]; u8 ip_version[0x4]; u8 tcp_flags[0x9]; u8 tcp_sport[0x10]; u8 tcp_dport[0x10]; u8 reserved_at_c0[0x20]; u8 udp_sport[0x10]; u8 udp_dport[0x10]; union mlx5_ifc_ipv6_layout_ipv4_layout_auto_bits src_ipv4_src_ipv6; union mlx5_ifc_ipv6_layout_ipv4_layout_auto_bits dst_ipv4_dst_ipv6; }; struct mlx5_ifc_fte_match_mpls_bits { u8 mpls_label[0x14]; u8 mpls_exp[0x3]; u8 mpls_s_bos[0x1]; u8 mpls_ttl[0x8]; }; struct mlx5_ifc_fte_match_set_misc2_bits { struct mlx5_ifc_fte_match_mpls_bits outer_first_mpls; struct mlx5_ifc_fte_match_mpls_bits inner_first_mpls; struct mlx5_ifc_fte_match_mpls_bits outer_first_mpls_over_gre; struct mlx5_ifc_fte_match_mpls_bits outer_first_mpls_over_udp; u8 reserved_at_80[0x100]; u8 metadata_reg_a[0x20]; u8 reserved_at_1a0[0x60]; }; /* Flow matcher. */ struct mlx5_ifc_fte_match_param_bits { struct mlx5_ifc_fte_match_set_lyr_2_4_bits outer_headers; struct mlx5_ifc_fte_match_set_misc_bits misc_parameters; struct mlx5_ifc_fte_match_set_lyr_2_4_bits inner_headers; struct mlx5_ifc_fte_match_set_misc2_bits misc_parameters_2; u8 reserved_at_800[0x800]; }; enum { MLX5_MATCH_CRITERIA_ENABLE_OUTER_BIT, MLX5_MATCH_CRITERIA_ENABLE_MISC_BIT, MLX5_MATCH_CRITERIA_ENABLE_INNER_BIT, MLX5_MATCH_CRITERIA_ENABLE_MISC2_BIT }; /* CQE format mask. */ #define MLX5E_CQE_FORMAT_MASK 0xc /* MPW opcode. */ #define MLX5_OPC_MOD_MPW 0x01 /* Compressed Rx CQE structure. */ struct mlx5_mini_cqe8 { union { uint32_t rx_hash_result; struct { uint16_t checksum; uint16_t stride_idx; }; struct { uint16_t wqe_counter; uint8_t s_wqe_opcode; uint8_t reserved; } s_wqe_info; }; uint32_t byte_cnt; }; /** * Convert a user mark to flow mark. * * @param val * Mark value to convert. * * @return * Converted mark value. */ static inline uint32_t mlx5_flow_mark_set(uint32_t val) { uint32_t ret; /* * Add one to the user value to differentiate un-marked flows from * marked flows, if the ID is equal to MLX5_FLOW_MARK_DEFAULT it * remains untouched. */ if (val != MLX5_FLOW_MARK_DEFAULT) ++val; #if RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN /* * Mark is 24 bits (minus reserved values) but is stored on a 32 bit * word, byte-swapped by the kernel on little-endian systems. In this * case, left-shifting the resulting big-endian value ensures the * least significant 24 bits are retained when converting it back. */ ret = rte_cpu_to_be_32(val) >> 8; #else ret = val; #endif return ret; } /** * Convert a mark to user mark. * * @param val * Mark value to convert. * * @return * Converted mark value. */ static inline uint32_t mlx5_flow_mark_get(uint32_t val) { /* * Subtract one from the retrieved value. It was added by * mlx5_flow_mark_set() to distinguish unmarked flows. */ #if RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN return (val >> 8) - 1; #else return val - 1; #endif } #endif /* RTE_PMD_MLX5_PRM_H_ */