/* *------------------------------------------------------------------ * Copyright (c) 2018 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------ */ #include #include #include #include #include #include #include #define foreach_rdma_input_error \ _(BUFFER_ALLOC, "buffer alloc error") typedef enum { #define _(f,s) RDMA_INPUT_ERROR_##f, foreach_rdma_input_error #undef _ RDMA_INPUT_N_ERROR, } rdma_input_error_t; static __clib_unused char *rdma_input_error_strings[] = { #define _(n,s) s, foreach_rdma_input_error #undef _ }; static_always_inline void ibv_set_recv_wr_and_sge (struct ibv_recv_wr *w, struct ibv_sge *s, u64 va, u32 data_size, u32 lkey) { s[0].addr = va; s[0].length = data_size; s[0].lkey = lkey; w[0].next = w + 1; w[0].sg_list = s; w[0].num_sge = 1; } static_always_inline u32 rdma_device_legacy_input_refill_additional (vlib_main_t * vm, rdma_device_t * rd, rdma_rxq_t * rxq, rdma_per_thread_data_t * ptd, vlib_buffer_t * bt, u32 first_slot, u32 n_alloc) { int i; u8 log_wqe_sz = rxq->log_wqe_sz; u32 *bi = ptd->tmp_bi; vlib_buffer_t **bufs = ptd->tmp_bufs; for (i = 0; i < n_alloc; i++) { u8 chain_sz = rxq->n_used_per_chain[first_slot + i]; u8 chain_sz_alloc; mlx5dv_wqe_ds_t *current_wqe = rxq->wqes + ((first_slot + i) << log_wqe_sz); if (chain_sz == 0) continue; if (PREDICT_FALSE ((chain_sz_alloc = vlib_buffer_alloc_from_pool (vm, bi, chain_sz, rd->pool)) != chain_sz)) { vlib_buffer_free (vm, bi, chain_sz_alloc); break; } /*Build the chain */ vlib_get_buffers (vm, bi, bufs, chain_sz); for (int j = 0; j < chain_sz - 1; j++) { vlib_buffer_copy_template (bufs[j], bt); bufs[j]->next_buffer = bi[j + 1]; bufs[j]->flags |= VLIB_BUFFER_NEXT_PRESENT; } /* The chain starting at the second buffer is pre-initialised */ vlib_buffer_copy_template (bufs[chain_sz - 1], bt); /* Stick with the already existing chain */ if (chain_sz < rxq->n_ds_per_wqe - 1) { bufs[chain_sz - 1]->next_buffer = rxq->second_bufs[first_slot + i]; bufs[chain_sz - 1]->flags |= VLIB_BUFFER_NEXT_PRESENT; } else { bufs[chain_sz - 1]->flags &= ~VLIB_BUFFER_NEXT_PRESENT; } /* Update the wqes */ for (int j = 0; j < chain_sz; j++) { u64 addr; vlib_get_buffers_with_offset (vm, bi + j, (void *) &addr, 1, sizeof (vlib_buffer_t)); current_wqe[j + 1].addr = clib_host_to_net_u64 (addr); } rxq->n_used_per_chain[first_slot + i] = 0; rxq->n_total_additional_segs -= chain_sz; rxq->second_bufs[first_slot + i] = bi[0]; } return i; } static_always_inline void rdma_device_input_refill (vlib_main_t * vm, rdma_device_t * rd, rdma_rxq_t * rxq, vlib_buffer_t * bt, const int is_mlx5dv, const int is_striding) { u32 n_alloc, n; u16 ring_space; struct ibv_recv_wr wr[VLIB_FRAME_SIZE], *w = wr; struct ibv_sge sge[VLIB_FRAME_SIZE], *s = sge; rdma_per_thread_data_t *ptd = &rdma_main.per_thread_data[vlib_get_thread_index ()]; u32 mask = rxq->size - 1; u32 slot = rxq->tail & mask; u32 *bufs = rxq->bufs + slot; u32 data_size = rxq->buf_sz; u32 lkey = rd->lkey; const int log_stride_per_wqe = is_striding ? rxq->log_stride_per_wqe : 0; const int log_wqe_sz = rxq->log_wqe_sz; /*In legacy mode, maybe some buffers chains are incomplete? */ if (PREDICT_FALSE (is_mlx5dv && !is_striding && (rxq->incomplete_tail != rxq->tail))) { int n_incomplete = rxq->incomplete_tail - rxq->tail; int n_completed = rdma_device_legacy_input_refill_additional (vm, rd, rxq, ptd, bt, slot, n_incomplete); rxq->tail += n_completed; slot = rxq->tail & mask; /* Don't start recycling head buffers if there are incomplete chains */ if (n_completed != n_incomplete) return; } /* refilled buffers must be a multiple of 8 and of strides per WQE */ u32 alloc_multiple = 1 << (clib_max (3, log_stride_per_wqe)); ring_space = rxq->size - (rxq->tail - rxq->head); n_alloc = clib_min (VLIB_FRAME_SIZE, ring_space); /* do not bother to allocate if too small */ if (n_alloc < 2 * alloc_multiple) return; /* avoid wrap-around logic in core loop */ n_alloc = clib_min (n_alloc, rxq->size - slot); n_alloc &= ~(alloc_multiple - 1); /* round to alloc_multiple */ n = vlib_buffer_alloc_to_ring_from_pool (vm, rxq->bufs, slot, rxq->size, n_alloc, rd->pool); if (PREDICT_FALSE (n != n_alloc)) { u32 n_free; if (n < alloc_multiple) { if (n) vlib_buffer_free_from_ring (vm, rxq->bufs, slot, rxq->size, n); return; } /* partial allocation, round and return rest */ n_free = n & (alloc_multiple - 1); n -= n_free; if (n_free) vlib_buffer_free_from_ring (vm, rxq->bufs, (slot + n) & mask, rxq->size, n_free); } n_alloc = n; if (is_mlx5dv) { u64 __clib_aligned (32) va[8]; /* slot does not necessarily correspond to the slot in the wqes ring (in 16B words) */ u32 wqes_slot = slot << (log_wqe_sz - log_stride_per_wqe); const u32 wqe_cnt = rxq->wqe_cnt; mlx5dv_wqe_ds_t *wqe = rxq->wqes + wqes_slot; const int wqe_sz = 1 << log_wqe_sz; const int stride_per_wqe = 1 << log_stride_per_wqe; int current_data_seg = 0; /* In legacy mode, this function only refills head descriptors for each WQE, so RDMA_RXQ_MAX_CHAIN_SZ-1 data segments are skipped per WQE */ const int log_skip_wqe = is_striding ? 0 : log_wqe_sz; while (n >= 1) { vlib_get_buffers_with_offset (vm, rxq->bufs + slot, (void **) va, 8, sizeof (vlib_buffer_t)); #ifdef CLIB_HAVE_VEC256 *(u64x4 *) va = u64x4_byte_swap (*(u64x4 *) va); *(u64x4 *) (va + 4) = u64x4_byte_swap (*(u64x4 *) (va + 4)); #else for (int i = 0; i < 8; i++) va[i] = clib_host_to_net_u64 (va[i]); #endif /*In striding RQ mode, the first 16B-word of the WQE is the SRQ header. It is initialised as if it were a LINKED_LIST, as we have no guarantee about what RDMA core does (CYCLIC_RQ or LINKED_LIST_RQ). In cyclic mode, the SRQ header is ignored anyways... */ /* *INDENT-OFF* */ if (is_striding && !(current_data_seg & (wqe_sz - 1))) *(mlx5dv_wqe_srq_next_t *) wqe = (mlx5dv_wqe_srq_next_t) { .rsvd0 = {0}, .next_wqe_index = clib_host_to_net_u16 (((wqes_slot >> log_wqe_sz) + 1) & (wqe_cnt - 1)), .signature = 0, .rsvd1 = {0} }; /* *INDENT-ON* */ /* TODO: when log_skip_wqe > 2, hw_prefetcher doesn't work, lots of LLC store misses occur for wqes, to be fixed... */ if (!is_striding || !(current_data_seg & ~(stride_per_wqe - 1))) { wqe[(0 << log_skip_wqe) + is_striding].addr = va[0]; wqe[(1 << log_skip_wqe) + is_striding].addr = va[1]; wqe[(2 << log_skip_wqe) + is_striding].addr = va[2]; wqe[(3 << log_skip_wqe) + is_striding].addr = va[3]; wqe[(4 << log_skip_wqe) + is_striding].addr = va[4]; wqe[(5 << log_skip_wqe) + is_striding].addr = va[5]; wqe[(6 << log_skip_wqe) + is_striding].addr = va[6]; wqe[(7 << log_skip_wqe) + is_striding].addr = va[7]; slot += 8; n -= 8; } wqe += 8 << log_skip_wqe; wqes_slot += 8 << log_skip_wqe; current_data_seg += 8; current_data_seg &= wqe_sz - 1; } /* In legacy mode, there is some work required to finish building the SG lists */ if (!is_striding) { int first_slot = slot - n_alloc; rxq->incomplete_tail += n_alloc; if (PREDICT_FALSE (rxq->n_total_additional_segs)) n_alloc = rdma_device_legacy_input_refill_additional (vm, rd, rxq, ptd, bt, first_slot, n_alloc); } CLIB_MEMORY_STORE_BARRIER (); rxq->tail += n_alloc; if (is_striding) { rxq->striding_wqe_tail += n_alloc >> log_stride_per_wqe; rxq->wq_db[MLX5_RCV_DBR] = clib_host_to_net_u32 (rxq->striding_wqe_tail); } else rxq->wq_db[MLX5_RCV_DBR] = clib_host_to_net_u32 (rxq->tail); return; } while (n >= 8) { u64 va[8]; if (PREDICT_TRUE (n >= 16)) { clib_prefetch_store (s + 16); clib_prefetch_store (w + 16); } vlib_get_buffers_with_offset (vm, bufs, (void **) va, 8, sizeof (vlib_buffer_t)); ibv_set_recv_wr_and_sge (w++, s++, va[0], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[1], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[2], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[3], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[4], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[5], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[6], data_size, lkey); ibv_set_recv_wr_and_sge (w++, s++, va[7], data_size, lkey); bufs += 8; n -= 8; } w[-1].next = 0; /* fix next pointer in WR linked-list last item */ n = n_alloc; if (ibv_post_wq_recv (rxq->wq, wr, &w) != 0) { n = w - wr; vlib_buffer_free_from_ring (vm, rxq->bufs, slot + n, rxq->size, n_alloc - n); } rxq->tail += n; } static_always_inline void rdma_device_input_trace (vlib_main_t * vm, vlib_node_runtime_t * node, const rdma_device_t * rd, u32 n_left, const u32 * bi, u32 next_index, u16 * cqe_flags, int is_mlx5dv) { u32 n_trace = vlib_get_trace_count (vm, node); if (PREDICT_TRUE (0 == n_trace)) return; while (n_trace && n_left) { vlib_buffer_t *b = vlib_get_buffer (vm, bi[0]); if (PREDICT_TRUE (vlib_trace_buffer (vm, node, next_index, b, /* follow_chain */ 0))) { rdma_input_trace_t *tr = vlib_add_trace (vm, node, b, sizeof (*tr)); tr->next_index = next_index; tr->hw_if_index = rd->hw_if_index; tr->cqe_flags = is_mlx5dv ? clib_net_to_host_u16 (cqe_flags[0]) : 0; n_trace--; } /* next */ n_left--; cqe_flags++; bi++; } vlib_set_trace_count (vm, node, n_trace); } static_always_inline void rdma_device_input_ethernet (vlib_main_t * vm, vlib_node_runtime_t * node, const rdma_device_t * rd, u32 next_index, int skip_ip4_cksum) { vlib_next_frame_t *nf; vlib_frame_t *f; ethernet_input_frame_t *ef; if (PREDICT_FALSE (VNET_DEVICE_INPUT_NEXT_ETHERNET_INPUT != next_index)) return; nf = vlib_node_runtime_get_next_frame (vm, node, VNET_DEVICE_INPUT_NEXT_ETHERNET_INPUT); f = vlib_get_frame (vm, nf->frame); f->flags = ETH_INPUT_FRAME_F_SINGLE_SW_IF_IDX; if (skip_ip4_cksum) f->flags |= ETH_INPUT_FRAME_F_IP4_CKSUM_OK; ef = vlib_frame_scalar_args (f); ef->sw_if_index = rd->sw_if_index; ef->hw_if_index = rd->hw_if_index; } static_always_inline u32 rdma_device_input_bufs (vlib_main_t * vm, const rdma_device_t * rd, vlib_buffer_t ** b, struct ibv_wc *wc, u32 n_left_from, vlib_buffer_t * bt) { u32 n_rx_bytes = 0; while (n_left_from >= 4) { if (PREDICT_TRUE (n_left_from >= 8)) { clib_prefetch_load (&wc[4 + 0]); clib_prefetch_load (&wc[4 + 1]); clib_prefetch_load (&wc[4 + 2]); clib_prefetch_load (&wc[4 + 3]); vlib_prefetch_buffer_header (b[4 + 0], STORE); vlib_prefetch_buffer_header (b[4 + 1], STORE); vlib_prefetch_buffer_header (b[4 + 2], STORE); vlib_prefetch_buffer_header (b[4 + 3], STORE); } vlib_buffer_copy_template (b[0], bt); vlib_buffer_copy_template (b[1], bt); vlib_buffer_copy_template (b[2], bt); vlib_buffer_copy_template (b[3], bt); n_rx_bytes += b[0]->current_length = wc[0].byte_len; n_rx_bytes += b[1]->current_length = wc[1].byte_len; n_rx_bytes += b[2]->current_length = wc[2].byte_len; n_rx_bytes += b[3]->current_length = wc[3].byte_len; b += 4; wc += 4; n_left_from -= 4; } while (n_left_from >= 1) { vlib_buffer_copy_template (b[0], bt); n_rx_bytes += b[0]->current_length = wc[0].byte_len; b += 1; wc += 1; n_left_from -= 1; } return n_rx_bytes; } static_always_inline void process_mini_cqes (rdma_rxq_t * rxq, u32 skip, u32 n_left, u32 cq_ci, u32 mask, u32 * byte_cnt) { mlx5dv_mini_cqe_t *mcqe; u32 mcqe_array_index = (cq_ci + 1) & mask; mcqe = (mlx5dv_mini_cqe_t *) (rxq->cqes + mcqe_array_index); mcqe_array_index = cq_ci; if (skip) { u32 n = skip & ~7; if (n) { mcqe_array_index = (mcqe_array_index + n) & mask; mcqe = (mlx5dv_mini_cqe_t *) (rxq->cqes + mcqe_array_index); skip -= n; } if (skip) { n = clib_min (8 - skip, n_left); for (int i = 0; i < n; i++) byte_cnt[i] = mcqe[skip + i].byte_count; mcqe_array_index = (mcqe_array_index + 8) & mask; mcqe = (mlx5dv_mini_cqe_t *) (rxq->cqes + mcqe_array_index); n_left -= n; byte_cnt += n; } } while (n_left >= 8) { for (int i = 0; i < 8; i++) byte_cnt[i] = mcqe[i].byte_count; n_left -= 8; byte_cnt += 8; mcqe_array_index = (mcqe_array_index + 8) & mask; mcqe = (mlx5dv_mini_cqe_t *) (rxq->cqes + mcqe_array_index); } if (n_left) { for (int i = 0; i < n_left; i++) byte_cnt[i] = mcqe[i].byte_count; } } static_always_inline void cqe_set_owner (mlx5dv_cqe_t * cqe, u32 n_left, u8 owner) { while (n_left >= 8) { cqe[0].opcode_cqefmt_se_owner = owner; cqe[1].opcode_cqefmt_se_owner = owner; cqe[2].opcode_cqefmt_se_owner = owner; cqe[3].opcode_cqefmt_se_owner = owner; cqe[4].opcode_cqefmt_se_owner = owner; cqe[5].opcode_cqefmt_se_owner = owner; cqe[6].opcode_cqefmt_se_owner = owner; cqe[7].opcode_cqefmt_se_owner = owner; n_left -= 8; cqe += 8; } while (n_left) { cqe[0].opcode_cqefmt_se_owner = owner; n_left--; cqe++; } } static_always_inline void compressed_cqe_reset_owner (rdma_rxq_t * rxq, u32 n_mini_cqes, u32 cq_ci, u32 mask, u32 log2_cq_size) { u8 owner; u32 offset, cq_size = 1 << log2_cq_size; /* first CQE is reset by hardware */ cq_ci++; n_mini_cqes--; offset = cq_ci & mask; owner = 0xf0 | ((cq_ci >> log2_cq_size) & 1); if (offset + n_mini_cqes < cq_size) { cqe_set_owner (rxq->cqes + offset, n_mini_cqes, owner); } else { u32 n = cq_size - offset; cqe_set_owner (rxq->cqes + offset, n, owner); cqe_set_owner (rxq->cqes, n_mini_cqes - n, owner ^ 1); } } static_always_inline uword rdma_device_poll_cq_mlx5dv (rdma_device_t * rd, rdma_rxq_t * rxq, u32 * byte_cnt, u16 * cqe_flags) { u32 n_rx_packets = 0; u32 log2_cq_size = rxq->log2_cq_size; u32 mask = pow2_mask (log2_cq_size); u32 cq_ci = rxq->cq_ci; if (rxq->n_mini_cqes_left) { /* partially processed mini-cqe array */ u32 n_mini_cqes = rxq->n_mini_cqes; u32 n_mini_cqes_left = rxq->n_mini_cqes_left; process_mini_cqes (rxq, n_mini_cqes - n_mini_cqes_left, n_mini_cqes_left, cq_ci, mask, byte_cnt); compressed_cqe_reset_owner (rxq, n_mini_cqes, cq_ci, mask, log2_cq_size); clib_memset_u16 (cqe_flags, rxq->last_cqe_flags, n_mini_cqes_left); n_rx_packets = n_mini_cqes_left; byte_cnt += n_mini_cqes_left; cqe_flags += n_mini_cqes_left; rxq->n_mini_cqes_left = 0; rxq->cq_ci = cq_ci = cq_ci + n_mini_cqes; } while (n_rx_packets < VLIB_FRAME_SIZE) { u8 cqe_last_byte, owner; mlx5dv_cqe_t *cqe = rxq->cqes + (cq_ci & mask); clib_prefetch_load (rxq->cqes + ((cq_ci + 8) & mask)); owner = (cq_ci >> log2_cq_size) & 1; cqe_last_byte = cqe->opcode_cqefmt_se_owner; if ((cqe_last_byte & 0x1) != owner) break; cqe_last_byte &= 0xfc; /* remove owner and solicited bits */ if (cqe_last_byte == 0x2c) /* OPCODE = 0x2 (Responder Send), Format = 0x3 (Compressed CQE) */ { u32 n_mini_cqes = clib_net_to_host_u32 (cqe->mini_cqe_num); u32 n_left = VLIB_FRAME_SIZE - n_rx_packets; u16 flags = cqe->flags; if (n_left >= n_mini_cqes) { process_mini_cqes (rxq, 0, n_mini_cqes, cq_ci, mask, byte_cnt); clib_memset_u16 (cqe_flags, flags, n_mini_cqes); compressed_cqe_reset_owner (rxq, n_mini_cqes, cq_ci, mask, log2_cq_size); n_rx_packets += n_mini_cqes; byte_cnt += n_mini_cqes; cqe_flags += n_mini_cqes; cq_ci += n_mini_cqes; } else { process_mini_cqes (rxq, 0, n_left, cq_ci, mask, byte_cnt); clib_memset_u16 (cqe_flags, flags, n_left); n_rx_packets = VLIB_FRAME_SIZE; rxq->n_mini_cqes = n_mini_cqes; rxq->n_mini_cqes_left = n_mini_cqes - n_left; rxq->last_cqe_flags = flags; goto done; } continue; } if (cqe_last_byte == 0x20) /* OPCODE = 0x2 (Responder Send), Format = 0x0 (no inline data) */ { byte_cnt[0] = cqe->byte_cnt; cqe_flags[0] = cqe->flags; n_rx_packets++; cq_ci++; byte_cnt++; continue; } rd->flags |= RDMA_DEVICE_F_ERROR; break; } done: if (n_rx_packets) rxq->cq_db[0] = rxq->cq_ci = cq_ci; return n_rx_packets; } static_always_inline int rdma_device_mlx5dv_striding_rq_parse_bc (int n_rx_packets, int *n_rx_segs, u32 * bc) { /* Determine if slow path is needed */ int filler = 0; for (int i = 0; i < n_rx_packets; i++) { *n_rx_segs += (bc[i] & CQE_BC_CONSUMED_STRIDES_MASK) >> CQE_BC_CONSUMED_STRIDES_SHIFT; filler |= ! !(bc[i] & CQE_BC_FILLER_MASK); } return n_rx_packets != *n_rx_segs || filler; } static_always_inline int rdma_device_mlx5dv_legacy_rq_slow_path_needed (u32 buf_sz, int n_rx_packets, u32 * bc) { #if defined CLIB_HAVE_VEC256 u32x8 thresh8 = u32x8_splat (buf_sz); for (int i = 0; i < n_rx_packets; i += 8) if (!u32x8_is_all_zero (*(u32x8 *) (bc + i) > thresh8)) return 1; #elif defined CLIB_HAVE_VEC128 u32x4 thresh4 = u32x4_splat (buf_sz); for (int i = 0; i < n_rx_packets; i += 4) if (!u32x4_is_all_zero (*(u32x4 *) (bc + i) > thresh4)) return 1; #else while (n_rx_packets) { if (*bc > buf_sz) return 1; bc++; n_rx_packets--; } #endif return 0; } static_always_inline int rdma_device_mlx5dv_l3_validate_and_swap_bc (rdma_per_thread_data_t * ptd, int n_rx_packets, u32 * bc) { u16 mask = CQE_FLAG_L3_HDR_TYPE_MASK | CQE_FLAG_L3_OK; u16 match = CQE_FLAG_L3_HDR_TYPE_IP4 << CQE_FLAG_L3_HDR_TYPE_SHIFT; /* verify that all ip4 packets have l3_ok flag set and convert packet length from network to host byte order */ int skip_ip4_cksum = 1; #if defined CLIB_HAVE_VEC256 u16x16 mask16 = u16x16_splat (mask); u16x16 match16 = u16x16_splat (match); u16x16 r = { }; for (int i = 0; i * 16 < n_rx_packets; i++) r |= (ptd->cqe_flags16[i] & mask16) != match16; if (!u16x16_is_all_zero (r)) skip_ip4_cksum = 0; for (int i = 0; i < n_rx_packets; i += 8) *(u32x8 *) (bc + i) = u32x8_byte_swap (*(u32x8 *) (bc + i)); #elif defined CLIB_HAVE_VEC128 u16x8 mask8 = u16x8_splat (mask); u16x8 match8 = u16x8_splat (match); u16x8 r = { }; for (int i = 0; i * 8 < n_rx_packets; i++) r |= (ptd->cqe_flags8[i] & mask8) != match8; if (!u16x8_is_all_zero (r)) skip_ip4_cksum = 0; for (int i = 0; i < n_rx_packets; i += 4) *(u32x4 *) (bc + i) = u32x4_byte_swap (*(u32x4 *) (bc + i)); #else for (int i = 0; i < n_rx_packets; i++) if ((ptd->cqe_flags[i] & mask) != match) skip_ip4_cksum = 0; for (int i = 0; i < n_rx_packets; i++) bc[i] = clib_net_to_host_u32 (bc[i]); #endif return skip_ip4_cksum; } static_always_inline u32 rdma_device_mlx5dv_fast_input (vlib_main_t * vm, rdma_rxq_t * rxq, vlib_buffer_t ** bufs, u32 qs_mask, vlib_buffer_t * bt, u32 * to_next, u32 n_rx_segs, u32 * bc, u32 bc_mask) { vlib_buffer_t **b = bufs; u32 n_left = n_rx_segs; u32 n_rx_bytes = 0; vlib_buffer_copy_indices_from_ring (to_next, rxq->bufs, rxq->head & qs_mask, rxq->size, n_rx_segs); rxq->head += n_rx_segs; vlib_get_buffers (vm, to_next, bufs, n_rx_segs); while (n_left >= 8) { clib_prefetch_store (b[4]); vlib_buffer_copy_template (b[0], bt); n_rx_bytes += b[0]->current_length = bc[0] & bc_mask; clib_prefetch_store (b[5]); vlib_buffer_copy_template (b[1], bt); n_rx_bytes += b[1]->current_length = bc[1] & bc_mask; clib_prefetch_store (b[6]); vlib_buffer_copy_template (b[2], bt); n_rx_bytes += b[2]->current_length = bc[2] & bc_mask; clib_prefetch_store (b[7]); vlib_buffer_copy_template (b[3], bt); n_rx_bytes += b[3]->current_length = bc[3] & bc_mask; /* next */ bc += 4; b += 4; n_left -= 4; } while (n_left) { vlib_buffer_copy_template (b[0], bt); n_rx_bytes += b[0]->current_length = bc[0] & bc_mask; /* next */ bc++; b++; n_left--; } return n_rx_bytes; } static_always_inline void rdma_device_mlx5dv_legacy_rq_fix_chains (vlib_main_t * vm, rdma_rxq_t * rxq, vlib_buffer_t ** bufs, u32 qs_mask, u32 n) { u32 buf_sz = rxq->buf_sz; uword slot = (rxq->head - n) & qs_mask; u32 *second = &rxq->second_bufs[slot]; u32 n_wrap_around = (slot + n) & (qs_mask + 1) ? (slot + n) & qs_mask : 0; u8 *n_used_per_chain = &rxq->n_used_per_chain[slot]; n -= n_wrap_around; wrap_around: while (n > 0) { u16 total_length = bufs[0]->current_length; if (total_length > buf_sz) { vlib_buffer_t *current_buf = bufs[0]; u8 current_chain_sz = 0; current_buf->current_length = buf_sz; total_length -= buf_sz; current_buf->total_length_not_including_first_buffer = total_length; current_buf->flags |= VLIB_BUFFER_NEXT_PRESENT; current_buf->next_buffer = second[0]; do { current_buf = vlib_get_buffer (vm, current_buf->next_buffer); current_buf->current_length = clib_min (buf_sz, total_length); total_length -= current_buf->current_length; current_chain_sz++; } while (total_length > 0); current_buf->flags &= ~VLIB_BUFFER_NEXT_PRESENT; second[0] = current_buf->next_buffer; current_buf->next_buffer = 0; rxq->n_total_additional_segs += current_chain_sz; n_used_per_chain[0] = current_chain_sz; } bufs++; second++; n_used_per_chain++; n--; } if (PREDICT_FALSE (n_wrap_around)) { n = n_wrap_around; n_wrap_around = 0; second = rxq->second_bufs; n_used_per_chain = rxq->n_used_per_chain; goto wrap_around; } } static_always_inline u32 rdma_device_mlx5dv_striding_rq_input (vlib_main_t * vm, rdma_per_thread_data_t * ptd, rdma_rxq_t * rxq, vlib_buffer_t * bt, u32 * to_next, int n_rx_segs, int *n_rx_packets, u32 * bc, int slow_path_needed) { u32 mask = rxq->size - 1; u32 n_rx_bytes = 0; if (PREDICT_TRUE (!slow_path_needed)) { vlib_buffer_t *bufs[VLIB_FRAME_SIZE]; n_rx_bytes += rdma_device_mlx5dv_fast_input (vm, rxq, bufs, mask, bt, to_next, n_rx_segs, bc, CQE_BC_BYTE_COUNT_MASK); } else /* Slow path with multiseg */ { vlib_buffer_t *pkt_head; /*Current head buffer */ vlib_buffer_t *pkt_prev; /* Buffer processed at the previous iteration */ u32 pkt_head_idx; vlib_buffer_t **pkt; uword n_segs_remaining = 0; /*Remaining strides in current buffer */ u32 n_bytes_remaining = 0; /*Remaining bytes in current buffer */ u32 *next_in_frame = to_next; u32 *next_to_free = ptd->to_free_buffers; bt->current_length = vlib_buffer_get_default_data_size (vm); do { vlib_buffer_t *bufs[VLIB_FRAME_SIZE]; u32 n_left = clib_min (n_rx_segs, VLIB_FRAME_SIZE); n_rx_segs -= n_left; vlib_buffer_copy_indices_from_ring (ptd->current_segs, rxq->bufs, rxq->head & mask, rxq->size, n_left); rxq->head += n_left; vlib_get_buffers (vm, ptd->current_segs, bufs, n_left); pkt = bufs; while (n_left > 0) { /* Initialize the current buffer as full size */ vlib_buffer_copy_template (pkt[0], bt); if (!n_segs_remaining) /* No pending chain */ { n_segs_remaining = (bc[0] & CQE_BC_CONSUMED_STRIDES_MASK) >> CQE_BC_CONSUMED_STRIDES_SHIFT; pkt_head = pkt[0]; pkt_head_idx = ptd->current_segs[pkt - bufs]; n_bytes_remaining = bc[0] & CQE_BC_BYTE_COUNT_MASK; pkt_head->total_length_not_including_first_buffer = n_segs_remaining > 1 ? n_bytes_remaining - pkt[0]->current_length : 0; } else /* Perform chaining if it's a continuation buffer */ { pkt_prev->next_buffer = ptd->current_segs[pkt - bufs]; pkt_prev->flags |= VLIB_BUFFER_NEXT_PRESENT; pkt[0]->flags &= ~VLIB_BUFFER_TOTAL_LENGTH_VALID; } if (n_segs_remaining == 1) /* Last buffer of the chain */ { pkt[0]->current_length = n_bytes_remaining; if (bc[0] & CQE_BC_FILLER_MASK) { (next_to_free++)[0] = pkt_head_idx; (*n_rx_packets)--; } else { (next_in_frame++)[0] = pkt_head_idx; n_rx_bytes += pkt_head->current_length + pkt_head->total_length_not_including_first_buffer; } /*Go to next CQE */ bc++; } else { n_bytes_remaining -= pkt[0]->current_length; pkt_prev = pkt[0]; } n_segs_remaining--; n_left--; pkt++; } } while (n_rx_segs > 0); vlib_buffer_free (vm, ptd->to_free_buffers, next_to_free - ptd->to_free_buffers); } return n_rx_bytes; } static_always_inline uword rdma_device_input_inline (vlib_main_t * vm, vlib_node_runtime_t * node, vlib_frame_t * frame, rdma_device_t * rd, u16 qid, const int use_mlx5dv) { rdma_main_t *rm = &rdma_main; vnet_main_t *vnm = vnet_get_main (); rdma_per_thread_data_t *ptd = vec_elt_at_index (rm->per_thread_data, vm->thread_index); rdma_rxq_t *rxq = vec_elt_at_index (rd->rxqs, qid); struct ibv_wc wc[VLIB_FRAME_SIZE]; u32 __clib_aligned (32) byte_cnts[VLIB_FRAME_SIZE]; vlib_buffer_t bt; u32 next_index, *to_next, n_left_to_next, n_rx_bytes = 0; int n_rx_packets, skip_ip4_cksum = 0; u32 mask = rxq->size - 1; const int is_striding = ! !(rd->flags & RDMA_DEVICE_F_STRIDING_RQ); if (use_mlx5dv) n_rx_packets = rdma_device_poll_cq_mlx5dv (rd, rxq, byte_cnts, ptd->cqe_flags); else n_rx_packets = ibv_poll_cq (rxq->cq, VLIB_FRAME_SIZE, wc); /* init buffer template */ vlib_buffer_copy_template (&bt, &ptd->buffer_template); vnet_buffer (&bt)->sw_if_index[VLIB_RX] = rd->sw_if_index; bt.buffer_pool_index = rd->pool; if (PREDICT_FALSE (n_rx_packets <= 0)) goto refill; /* update buffer template for input feature arcs if any */ next_index = rd->per_interface_next_index; if (PREDICT_FALSE (vnet_device_input_have_features (rd->sw_if_index))) vnet_feature_start_device_input_x1 (rd->sw_if_index, &next_index, &bt); vlib_get_new_next_frame (vm, node, next_index, to_next, n_left_to_next); if (use_mlx5dv) { u32 *bc = byte_cnts; int slow_path_needed; skip_ip4_cksum = rdma_device_mlx5dv_l3_validate_and_swap_bc (ptd, n_rx_packets, bc); if (is_striding) { int n_rx_segs = 0; slow_path_needed = rdma_device_mlx5dv_striding_rq_parse_bc (n_rx_packets, &n_rx_segs, bc); n_rx_bytes = rdma_device_mlx5dv_striding_rq_input (vm, ptd, rxq, &bt, to_next, n_rx_segs, &n_rx_packets, bc, slow_path_needed); } else { vlib_buffer_t *bufs[VLIB_FRAME_SIZE]; slow_path_needed = rdma_device_mlx5dv_legacy_rq_slow_path_needed (rxq->buf_sz, n_rx_packets, bc); n_rx_bytes = rdma_device_mlx5dv_fast_input ( vm, rxq, bufs, mask, &bt, to_next, n_rx_packets, bc, ~0); /* If there are chained buffers, some of the head buffers have a current length higher than buf_sz: it needs to be fixed */ if (PREDICT_FALSE (slow_path_needed)) rdma_device_mlx5dv_legacy_rq_fix_chains (vm, rxq, bufs, mask, n_rx_packets); } } else { vlib_buffer_t *bufs[VLIB_FRAME_SIZE]; vlib_buffer_copy_indices_from_ring (to_next, rxq->bufs, rxq->head & mask, rxq->size, n_rx_packets); vlib_get_buffers (vm, to_next, bufs, n_rx_packets); rxq->head += n_rx_packets; n_rx_bytes = rdma_device_input_bufs (vm, rd, bufs, wc, n_rx_packets, &bt); } rdma_device_input_ethernet (vm, node, rd, next_index, skip_ip4_cksum); vlib_put_next_frame (vm, node, next_index, n_left_to_next - n_rx_packets); rdma_device_input_trace (vm, node, rd, n_rx_packets, to_next, next_index, ptd->cqe_flags, use_mlx5dv); /* reset flags to zero for the next run */ if (use_mlx5dv) clib_memset_u16 (ptd->cqe_flags, 0, VLIB_FRAME_SIZE); vlib_increment_combined_counter (vnm->interface_main. combined_sw_if_counters + VNET_INTERFACE_COUNTER_RX, vm->thread_index, rd->hw_if_index, n_rx_packets, n_rx_bytes); refill: rdma_device_input_refill (vm, rd, rxq, &bt, use_mlx5dv, is_striding); return n_rx_packets; } VLIB_NODE_FN (rdma_input_node) (vlib_main_t * vm, vlib_node_runtime_t * node, vlib_frame_t * frame) { u32 n_rx = 0; rdma_main_t *rm = &rdma_main; vnet_hw_if_rxq_poll_vector_t *pv; pv = vnet_hw_if_get_rxq_poll_vector (vm, node); for (int i = 0; i < vec_len (pv); i++) { rdma_device_t *rd; rd = vec_elt_at_index (rm->devices, pv[i].dev_instance); if (PREDICT_TRUE (rd->flags & RDMA_DEVICE_F_ADMIN_UP) == 0) continue; if (PREDICT_TRUE (rd->flags & RDMA_DEVICE_F_ERROR)) continue; if (PREDICT_TRUE (rd->flags & RDMA_DEVICE_F_MLX5DV)) n_rx += rdma_device_input_inline (vm, node, frame, rd, pv[i].queue_id, 1); else n_rx += rdma_device_input_inline (vm, node, frame, rd, pv[i].queue_id, 0); } return n_rx; } /* *INDENT-OFF* */ VLIB_REGISTER_NODE (rdma_input_node) = { .name = "rdma-input", .flags = VLIB_NODE_FLAG_TRACE_SUPPORTED, .sibling_of = "device-input", .format_trace = format_rdma_input_trace, .type = VLIB_NODE_TYPE_INPUT, .state = VLIB_NODE_STATE_DISABLED, .n_errors = RDMA_INPUT_N_ERROR, .error_strings = rdma_input_error_strings, }; /* *INDENT-ON* */ /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */