Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Netanel Belgazal | 439 | 46.75% | 2 | 28.57% |
Arthur Kiyanovski | 252 | 26.84% | 3 | 42.86% |
Sameeh Jubran | 248 | 26.41% | 2 | 28.57% |
Total | 939 | 7 |
/* * Copyright 2015 Amazon.com, Inc. or its affiliates. * * 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 * 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 ENA_ETH_COM_H_ #define ENA_ETH_COM_H_ #include "ena_com.h" /* head update threshold in units of (queue size / ENA_COMP_HEAD_THRESH) */ #define ENA_COMP_HEAD_THRESH 4 struct ena_com_tx_ctx { struct ena_com_tx_meta ena_meta; struct ena_com_buf *ena_bufs; /* For LLQ, header buffer - pushed to the device mem space */ void *push_header; enum ena_eth_io_l3_proto_index l3_proto; enum ena_eth_io_l4_proto_index l4_proto; u16 num_bufs; u16 req_id; /* For regular queue, indicate the size of the header * For LLQ, indicate the size of the pushed buffer */ u16 header_len; u8 meta_valid; u8 tso_enable; u8 l3_csum_enable; u8 l4_csum_enable; u8 l4_csum_partial; u8 df; /* Don't fragment */ }; struct ena_com_rx_ctx { struct ena_com_rx_buf_info *ena_bufs; enum ena_eth_io_l3_proto_index l3_proto; enum ena_eth_io_l4_proto_index l4_proto; bool l3_csum_err; bool l4_csum_err; u8 l4_csum_checked; /* fragmented packet */ bool frag; u32 hash; u16 descs; int max_bufs; }; int ena_com_prepare_tx(struct ena_com_io_sq *io_sq, struct ena_com_tx_ctx *ena_tx_ctx, int *nb_hw_desc); int ena_com_rx_pkt(struct ena_com_io_cq *io_cq, struct ena_com_io_sq *io_sq, struct ena_com_rx_ctx *ena_rx_ctx); int ena_com_add_single_rx_desc(struct ena_com_io_sq *io_sq, struct ena_com_buf *ena_buf, u16 req_id); bool ena_com_cq_empty(struct ena_com_io_cq *io_cq); static inline void ena_com_unmask_intr(struct ena_com_io_cq *io_cq, struct ena_eth_io_intr_reg *intr_reg) { writel(intr_reg->intr_control, io_cq->unmask_reg); } static inline int ena_com_free_desc(struct ena_com_io_sq *io_sq) { u16 tail, next_to_comp, cnt; next_to_comp = io_sq->next_to_comp; tail = io_sq->tail; cnt = tail - next_to_comp; return io_sq->q_depth - 1 - cnt; } /* Check if the submission queue has enough space to hold required_buffers */ static inline bool ena_com_sq_have_enough_space(struct ena_com_io_sq *io_sq, u16 required_buffers) { int temp; if (io_sq->mem_queue_type == ENA_ADMIN_PLACEMENT_POLICY_HOST) return ena_com_free_desc(io_sq) >= required_buffers; /* This calculation doesn't need to be 100% accurate. So to reduce * the calculation overhead just Subtract 2 lines from the free descs * (one for the header line and one to compensate the devision * down calculation. */ temp = required_buffers / io_sq->llq_info.descs_per_entry + 2; return ena_com_free_desc(io_sq) > temp; } static inline bool ena_com_meta_desc_changed(struct ena_com_io_sq *io_sq, struct ena_com_tx_ctx *ena_tx_ctx) { if (!ena_tx_ctx->meta_valid) return false; return !!memcmp(&io_sq->cached_tx_meta, &ena_tx_ctx->ena_meta, sizeof(struct ena_com_tx_meta)); } static inline bool is_llq_max_tx_burst_exists(struct ena_com_io_sq *io_sq) { return (io_sq->mem_queue_type == ENA_ADMIN_PLACEMENT_POLICY_DEV) && io_sq->llq_info.max_entries_in_tx_burst > 0; } static inline bool ena_com_is_doorbell_needed(struct ena_com_io_sq *io_sq, struct ena_com_tx_ctx *ena_tx_ctx) { struct ena_com_llq_info *llq_info; int descs_after_first_entry; int num_entries_needed = 1; u16 num_descs; if (!is_llq_max_tx_burst_exists(io_sq)) return false; llq_info = &io_sq->llq_info; num_descs = ena_tx_ctx->num_bufs; if (unlikely(ena_com_meta_desc_changed(io_sq, ena_tx_ctx))) ++num_descs; if (num_descs > llq_info->descs_num_before_header) { descs_after_first_entry = num_descs - llq_info->descs_num_before_header; num_entries_needed += DIV_ROUND_UP(descs_after_first_entry, llq_info->descs_per_entry); } pr_debug("queue: %d num_descs: %d num_entries_needed: %d\n", io_sq->qid, num_descs, num_entries_needed); return num_entries_needed > io_sq->entries_in_tx_burst_left; } static inline int ena_com_write_sq_doorbell(struct ena_com_io_sq *io_sq) { u16 max_entries_in_tx_burst = io_sq->llq_info.max_entries_in_tx_burst; u16 tail = io_sq->tail; pr_debug("write submission queue doorbell for queue: %d tail: %d\n", io_sq->qid, tail); writel(tail, io_sq->db_addr); if (is_llq_max_tx_burst_exists(io_sq)) { pr_debug("reset available entries in tx burst for queue %d to %d\n", io_sq->qid, max_entries_in_tx_burst); io_sq->entries_in_tx_burst_left = max_entries_in_tx_burst; } return 0; } static inline int ena_com_update_dev_comp_head(struct ena_com_io_cq *io_cq) { u16 unreported_comp, head; bool need_update; if (unlikely(io_cq->cq_head_db_reg)) { head = io_cq->head; unreported_comp = head - io_cq->last_head_update; need_update = unreported_comp > (io_cq->q_depth / ENA_COMP_HEAD_THRESH); if (unlikely(need_update)) { pr_debug("Write completion queue doorbell for queue %d: head: %d\n", io_cq->qid, head); writel(head, io_cq->cq_head_db_reg); io_cq->last_head_update = head; } } return 0; } static inline void ena_com_update_numa_node(struct ena_com_io_cq *io_cq, u8 numa_node) { struct ena_eth_io_numa_node_cfg_reg numa_cfg; if (!io_cq->numa_node_cfg_reg) return; numa_cfg.numa_cfg = (numa_node & ENA_ETH_IO_NUMA_NODE_CFG_REG_NUMA_MASK) | ENA_ETH_IO_NUMA_NODE_CFG_REG_ENABLED_MASK; writel(numa_cfg.numa_cfg, io_cq->numa_node_cfg_reg); } static inline void ena_com_comp_ack(struct ena_com_io_sq *io_sq, u16 elem) { io_sq->next_to_comp += elem; } static inline void ena_com_cq_inc_head(struct ena_com_io_cq *io_cq) { io_cq->head++; /* Switch phase bit in case of wrap around */ if (unlikely((io_cq->head & (io_cq->q_depth - 1)) == 0)) io_cq->phase ^= 1; } static inline int ena_com_tx_comp_req_id_get(struct ena_com_io_cq *io_cq, u16 *req_id) { u8 expected_phase, cdesc_phase; struct ena_eth_io_tx_cdesc *cdesc; u16 masked_head; masked_head = io_cq->head & (io_cq->q_depth - 1); expected_phase = io_cq->phase; cdesc = (struct ena_eth_io_tx_cdesc *) ((uintptr_t)io_cq->cdesc_addr.virt_addr + (masked_head * io_cq->cdesc_entry_size_in_bytes)); /* When the current completion descriptor phase isn't the same as the * expected, it mean that the device still didn't update * this completion. */ cdesc_phase = READ_ONCE(cdesc->flags) & ENA_ETH_IO_TX_CDESC_PHASE_MASK; if (cdesc_phase != expected_phase) return -EAGAIN; dma_rmb(); *req_id = READ_ONCE(cdesc->req_id); if (unlikely(*req_id >= io_cq->q_depth)) { pr_err("Invalid req id %d\n", cdesc->req_id); return -EINVAL; } ena_com_cq_inc_head(io_cq); return 0; } #endif /* ENA_ETH_COM_H_ */
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