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X-IronPort-AV: E=McAfee;i="6500,9779,10497"; a="291949128" X-IronPort-AV: E=Sophos;i="5.95,177,1661842800"; d="scan'208";a="291949128" Received: from fmsmga003.fm.intel.com ([10.253.24.29]) by orsmga101.jf.intel.com with ESMTP/TLS/ECDHE-RSA-AES256-GCM-SHA384; 11 Oct 2022 14:16:07 -0700 X-ExtLoop1: 1 X-IronPort-AV: E=McAfee;i="6500,9779,10497"; a="715670501" X-IronPort-AV: E=Sophos;i="5.95,177,1661842800"; d="scan'208";a="715670501" Received: from unknown (HELO icx-npg-scs1-cp1.localdomain) ([10.233.180.245]) by FMSMGA003.fm.intel.com with ESMTP; 11 Oct 2022 14:16:06 -0700 From: Nicolas Chautru To: dev@dpdk.org, gakhil@marvell.com, maxime.coquelin@redhat.com Cc: trix@redhat.com, mdr@ashroe.eu, bruce.richardson@intel.com, hemant.agrawal@nxp.com, david.marchand@redhat.com, stephen@networkplumber.org, hernan.vargas@intel.com, Nic Chautru Subject: [PATCH v10 09/16] baseband/acc: add LTE processing functions Date: Tue, 11 Oct 2022 14:15:31 -0700 Message-Id: <20221011211538.14106-10-nicolas.chautru@intel.com> X-Mailer: git-send-email 2.37.1 In-Reply-To: <20221011211538.14106-1-nicolas.chautru@intel.com> References: <20221011211538.14106-1-nicolas.chautru@intel.com> MIME-Version: 1.0 Content-Transfer-Encoding: 8bit X-BeenThere: dev@dpdk.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: DPDK patches and discussions List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: dev-bounces@dpdk.org From: Nic Chautru Added functions and capability for 4G FEC Signed-off-by: Nic Chautru Reviewed-by: Maxime Coquelin --- drivers/baseband/acc/rte_acc200_pmd.c | 767 +++++++++++++++++++++++++- 1 file changed, 762 insertions(+), 5 deletions(-) diff --git a/drivers/baseband/acc/rte_acc200_pmd.c b/drivers/baseband/acc/rte_acc200_pmd.c index 049da53ac3..f4720990c2 100644 --- a/drivers/baseband/acc/rte_acc200_pmd.c +++ b/drivers/baseband/acc/rte_acc200_pmd.c @@ -650,6 +650,46 @@ acc200_dev_info_get(struct rte_bbdev *dev, struct acc_device *d = dev->data->dev_private; int i; static const struct rte_bbdev_op_cap bbdev_capabilities[] = { + { + .type = RTE_BBDEV_OP_TURBO_DEC, + .cap.turbo_dec = { + .capability_flags = + RTE_BBDEV_TURBO_SUBBLOCK_DEINTERLEAVE | + RTE_BBDEV_TURBO_CRC_TYPE_24B | + RTE_BBDEV_TURBO_EQUALIZER | + RTE_BBDEV_TURBO_SOFT_OUT_SATURATE | + RTE_BBDEV_TURBO_HALF_ITERATION_EVEN | + RTE_BBDEV_TURBO_CONTINUE_CRC_MATCH | + RTE_BBDEV_TURBO_SOFT_OUTPUT | + RTE_BBDEV_TURBO_EARLY_TERMINATION | + RTE_BBDEV_TURBO_NEG_LLR_1_BIT_IN | + RTE_BBDEV_TURBO_NEG_LLR_1_BIT_SOFT_OUT | + RTE_BBDEV_TURBO_MAP_DEC | + RTE_BBDEV_TURBO_DEC_TB_CRC_24B_KEEP | + RTE_BBDEV_TURBO_DEC_SCATTER_GATHER, + .max_llr_modulus = INT8_MAX, + .num_buffers_src = + RTE_BBDEV_TURBO_MAX_CODE_BLOCKS, + .num_buffers_hard_out = + RTE_BBDEV_TURBO_MAX_CODE_BLOCKS, + .num_buffers_soft_out = + RTE_BBDEV_TURBO_MAX_CODE_BLOCKS, + } + }, + { + .type = RTE_BBDEV_OP_TURBO_ENC, + .cap.turbo_enc = { + .capability_flags = + RTE_BBDEV_TURBO_CRC_24B_ATTACH | + RTE_BBDEV_TURBO_RV_INDEX_BYPASS | + RTE_BBDEV_TURBO_RATE_MATCH | + RTE_BBDEV_TURBO_ENC_SCATTER_GATHER, + .num_buffers_src = + RTE_BBDEV_TURBO_MAX_CODE_BLOCKS, + .num_buffers_dst = + RTE_BBDEV_TURBO_MAX_CODE_BLOCKS, + } + }, { .type = RTE_BBDEV_OP_LDPC_ENC, .cap.ldpc_enc = { @@ -701,15 +741,17 @@ acc200_dev_info_get(struct rte_bbdev *dev, /* Exposed number of queues. */ dev_info->num_queues[RTE_BBDEV_OP_NONE] = 0; - dev_info->num_queues[RTE_BBDEV_OP_TURBO_DEC] = 0; - dev_info->num_queues[RTE_BBDEV_OP_TURBO_ENC] = 0; + dev_info->num_queues[RTE_BBDEV_OP_TURBO_DEC] = d->acc_conf.q_ul_4g.num_aqs_per_groups * + d->acc_conf.q_ul_4g.num_qgroups; + dev_info->num_queues[RTE_BBDEV_OP_TURBO_ENC] = d->acc_conf.q_dl_4g.num_aqs_per_groups * + d->acc_conf.q_dl_4g.num_qgroups; dev_info->num_queues[RTE_BBDEV_OP_LDPC_DEC] = d->acc_conf.q_ul_5g.num_aqs_per_groups * d->acc_conf.q_ul_5g.num_qgroups; dev_info->num_queues[RTE_BBDEV_OP_LDPC_ENC] = d->acc_conf.q_dl_5g.num_aqs_per_groups * d->acc_conf.q_dl_5g.num_qgroups; dev_info->num_queues[RTE_BBDEV_OP_FFT] = 0; - dev_info->queue_priority[RTE_BBDEV_OP_TURBO_DEC] = 0; - dev_info->queue_priority[RTE_BBDEV_OP_TURBO_ENC] = 0; + dev_info->queue_priority[RTE_BBDEV_OP_TURBO_DEC] = d->acc_conf.q_ul_4g.num_qgroups; + dev_info->queue_priority[RTE_BBDEV_OP_TURBO_ENC] = d->acc_conf.q_dl_4g.num_qgroups; dev_info->queue_priority[RTE_BBDEV_OP_LDPC_DEC] = d->acc_conf.q_ul_5g.num_qgroups; dev_info->queue_priority[RTE_BBDEV_OP_LDPC_ENC] = d->acc_conf.q_dl_5g.num_qgroups; dev_info->queue_priority[RTE_BBDEV_OP_FFT] = 0; @@ -754,6 +796,70 @@ static struct rte_pci_id pci_id_acc200_vf_map[] = { {.device_id = 0}, }; +/* Fill in a frame control word for turbo decoding. */ +static inline void +acc200_fcw_td_fill(const struct rte_bbdev_dec_op *op, struct acc_fcw_td *fcw) +{ + fcw->fcw_ver = 1; + fcw->num_maps = ACC_FCW_TD_AUTOMAP; + fcw->bypass_sb_deint = !check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_SUBBLOCK_DEINTERLEAVE); + if (op->turbo_dec.code_block_mode == RTE_BBDEV_TRANSPORT_BLOCK) { + /* FIXME for TB block */ + fcw->k_pos = op->turbo_dec.tb_params.k_pos; + fcw->k_neg = op->turbo_dec.tb_params.k_neg; + } else { + fcw->k_pos = op->turbo_dec.cb_params.k; + fcw->k_neg = op->turbo_dec.cb_params.k; + } + fcw->c = 1; + fcw->c_neg = 1; + if (check_bit(op->turbo_dec.op_flags, RTE_BBDEV_TURBO_SOFT_OUTPUT)) { + fcw->soft_output_en = 1; + fcw->sw_soft_out_dis = 0; + fcw->sw_et_cont = check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_CONTINUE_CRC_MATCH); + fcw->sw_soft_out_saturation = check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_SOFT_OUT_SATURATE); + if (check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_EQUALIZER)) { + fcw->bypass_teq = 0; + fcw->ea = op->turbo_dec.cb_params.e; + fcw->eb = op->turbo_dec.cb_params.e; + if (op->turbo_dec.rv_index == 0) + fcw->k0_start_col = ACC_FCW_TD_RVIDX_0; + else if (op->turbo_dec.rv_index == 1) + fcw->k0_start_col = ACC_FCW_TD_RVIDX_1; + else if (op->turbo_dec.rv_index == 2) + fcw->k0_start_col = ACC_FCW_TD_RVIDX_2; + else + fcw->k0_start_col = ACC_FCW_TD_RVIDX_3; + } else { + fcw->bypass_teq = 1; + fcw->eb = 64; /* avoid undefined value */ + } + } else { + fcw->soft_output_en = 0; + fcw->sw_soft_out_dis = 1; + fcw->bypass_teq = 0; + } + + fcw->code_block_mode = 1; /* FIXME */ + fcw->turbo_crc_type = check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_CRC_TYPE_24B); + + fcw->ext_td_cold_reg_en = 1; + fcw->raw_decoder_input_on = 0; + fcw->max_iter = RTE_MAX((uint8_t) op->turbo_dec.iter_max, 2); + fcw->min_iter = 2; + fcw->half_iter_on = !check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_HALF_ITERATION_EVEN); + + fcw->early_stop_en = check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_EARLY_TERMINATION) & !fcw->soft_output_en; + fcw->ext_scale = 0xF; +} + /* Fill in a frame control word for LDPC decoding. */ static inline void acc200_fcw_ld_fill(struct rte_bbdev_dec_op *op, struct acc_fcw_ld *fcw, @@ -877,7 +983,124 @@ acc200_fcw_ld_fill(struct rte_bbdev_dec_op *op, struct acc_fcw_ld *fcw, } static inline int -acc200_dma_desc_ld_fill(struct rte_bbdev_dec_op *op, struct acc_dma_req_desc *desc, +acc200_dma_desc_td_fill(struct rte_bbdev_dec_op *op, + struct acc_dma_req_desc *desc, struct rte_mbuf **input, + struct rte_mbuf *h_output, struct rte_mbuf *s_output, + uint32_t *in_offset, uint32_t *h_out_offset, + uint32_t *s_out_offset, uint32_t *h_out_length, + uint32_t *s_out_length, uint32_t *mbuf_total_left, + uint32_t *seg_total_left, uint8_t r) +{ + int next_triplet = 1; /* FCW already done. */ + uint16_t k; + uint16_t crc24_overlap = 0; + uint32_t e, kw; + + desc->word0 = ACC_DMA_DESC_TYPE; + desc->word1 = 0; /**< Timestamp could be disabled. */ + desc->word2 = 0; + desc->word3 = 0; + desc->numCBs = 1; + + if (op->turbo_dec.code_block_mode == RTE_BBDEV_TRANSPORT_BLOCK) { + k = (r < op->turbo_dec.tb_params.c_neg) + ? op->turbo_dec.tb_params.k_neg + : op->turbo_dec.tb_params.k_pos; + e = (r < op->turbo_dec.tb_params.cab) + ? op->turbo_dec.tb_params.ea + : op->turbo_dec.tb_params.eb; + } else { + k = op->turbo_dec.cb_params.k; + e = op->turbo_dec.cb_params.e; + } + + if ((op->turbo_dec.code_block_mode == RTE_BBDEV_TRANSPORT_BLOCK) + && !check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_DEC_TB_CRC_24B_KEEP)) + crc24_overlap = 24; + + /* Calculates circular buffer size. + * According to 3gpp 36.212 section 5.1.4.2 + * Kw = 3 * Kpi, + * where: + * Kpi = nCol * nRow + * where nCol is 32 and nRow can be calculated from: + * D =< nCol * nRow + * where D is the size of each output from turbo encoder block (k + 4). + */ + kw = RTE_ALIGN_CEIL(k + 4, 32) * 3; + + if (unlikely((*mbuf_total_left == 0) || (*mbuf_total_left < kw))) { + rte_bbdev_log(ERR, + "Mismatch between mbuf length and included CB sizes: mbuf len %u, cb len %u", + *mbuf_total_left, kw); + return -1; + } + + next_triplet = acc_dma_fill_blk_type_in(desc, input, in_offset, kw, + seg_total_left, next_triplet, + check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_DEC_SCATTER_GATHER)); + if (unlikely(next_triplet < 0)) { + rte_bbdev_log(ERR, + "Mismatch between data to process and mbuf data length in bbdev_op: %p", + op); + return -1; + } + desc->data_ptrs[next_triplet - 1].last = 1; + desc->m2dlen = next_triplet; + *mbuf_total_left -= kw; + *h_out_length = ((k - crc24_overlap) >> 3); + next_triplet = acc_dma_fill_blk_type( + desc, h_output, *h_out_offset, + *h_out_length, next_triplet, ACC_DMA_BLKID_OUT_HARD); + if (unlikely(next_triplet < 0)) { + rte_bbdev_log(ERR, + "Mismatch between data to process and mbuf data length in bbdev_op: %p", + op); + return -1; + } + + op->turbo_dec.hard_output.length += *h_out_length; + *h_out_offset += *h_out_length; + + /* Soft output. */ + if (check_bit(op->turbo_dec.op_flags, RTE_BBDEV_TURBO_SOFT_OUTPUT)) { + if (op->turbo_dec.soft_output.data == 0) { + rte_bbdev_log(ERR, "Soft output is not defined"); + return -1; + } + if (check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_EQUALIZER)) + *s_out_length = e; + else + *s_out_length = (k * 3) + 12; + + next_triplet = acc_dma_fill_blk_type(desc, s_output, + *s_out_offset, *s_out_length, next_triplet, + ACC_DMA_BLKID_OUT_SOFT); + if (unlikely(next_triplet < 0)) { + rte_bbdev_log(ERR, + "Mismatch between data to process and mbuf data length in bbdev_op: %p", + op); + return -1; + } + + op->turbo_dec.soft_output.length += *s_out_length; + *s_out_offset += *s_out_length; + } + + desc->data_ptrs[next_triplet - 1].last = 1; + desc->d2mlen = next_triplet - desc->m2dlen; + + desc->op_addr = op; + + return 0; +} + +static inline int +acc200_dma_desc_ld_fill(struct rte_bbdev_dec_op *op, + struct acc_dma_req_desc *desc, struct rte_mbuf **input, struct rte_mbuf *h_output, uint32_t *in_offset, uint32_t *h_out_offset, uint32_t *h_out_length, uint32_t *mbuf_total_left, @@ -1035,6 +1258,47 @@ acc200_dma_desc_ld_update(struct rte_bbdev_dec_op *op, desc->op_addr = op; } +/* Enqueue one encode operations for ACC200 device in CB mode */ +static inline int +enqueue_enc_one_op_cb(struct acc_queue *q, struct rte_bbdev_enc_op *op, + uint16_t total_enqueued_cbs) +{ + union acc_dma_desc *desc = NULL; + int ret; + uint32_t in_offset, out_offset, out_length, mbuf_total_left, seg_total_left; + struct rte_mbuf *input, *output_head, *output; + + uint16_t desc_idx = ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + desc = q->ring_addr + desc_idx; + acc_fcw_te_fill(op, &desc->req.fcw_te); + + input = op->turbo_enc.input.data; + output_head = output = op->turbo_enc.output.data; + in_offset = op->turbo_enc.input.offset; + out_offset = op->turbo_enc.output.offset; + out_length = 0; + mbuf_total_left = op->turbo_enc.input.length; + seg_total_left = rte_pktmbuf_data_len(op->turbo_enc.input.data) - in_offset; + + ret = acc_dma_desc_te_fill(op, &desc->req, &input, output, + &in_offset, &out_offset, &out_length, &mbuf_total_left, + &seg_total_left, 0); + + if (unlikely(ret < 0)) + return ret; + + mbuf_append(output_head, output, out_length); + +#ifdef RTE_LIBRTE_BBDEV_DEBUG + rte_memdump(stderr, "FCW", &desc->req.fcw_te, + sizeof(desc->req.fcw_te) - 8); + rte_memdump(stderr, "Req Desc.", desc, sizeof(*desc)); +#endif + /* One CB (one op) was successfully prepared to enqueue */ + return 1; +} + /* Enqueue one encode operations for ACC200 device in CB mode * multiplexed on the same descriptor. */ @@ -1147,6 +1411,78 @@ enqueue_ldpc_enc_part_tb(struct acc_queue *q, struct rte_bbdev_enc_op *op, } +/* Enqueue one encode operations for ACC200 device in TB mode. */ +static inline int +enqueue_enc_one_op_tb(struct acc_queue *q, struct rte_bbdev_enc_op *op, + uint16_t total_enqueued_cbs, uint8_t cbs_in_tb) +{ + union acc_dma_desc *desc = NULL; + int ret; + uint8_t r, c; + uint32_t in_offset, out_offset, out_length, mbuf_total_left, + seg_total_left; + struct rte_mbuf *input, *output_head, *output; + uint16_t current_enqueued_cbs = 0; + + uint16_t desc_idx = ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + desc = q->ring_addr + desc_idx; + uint64_t fcw_offset = (desc_idx << 8) + ACC_DESC_FCW_OFFSET; + acc_fcw_te_fill(op, &desc->req.fcw_te); + + input = op->turbo_enc.input.data; + output_head = output = op->turbo_enc.output.data; + in_offset = op->turbo_enc.input.offset; + out_offset = op->turbo_enc.output.offset; + out_length = 0; + mbuf_total_left = op->turbo_enc.input.length; + + c = op->turbo_enc.tb_params.c; + r = op->turbo_enc.tb_params.r; + + while (mbuf_total_left > 0 && r < c) { + seg_total_left = rte_pktmbuf_data_len(input) - in_offset; + /* Set up DMA descriptor */ + desc = q->ring_addr + ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + desc->req.data_ptrs[0].address = q->ring_addr_iova + fcw_offset; + desc->req.data_ptrs[0].blen = ACC_FCW_TE_BLEN; + + ret = acc_dma_desc_te_fill(op, &desc->req, &input, output, + &in_offset, &out_offset, &out_length, + &mbuf_total_left, &seg_total_left, r); + if (unlikely(ret < 0)) + return ret; + mbuf_append(output_head, output, out_length); + + /* Set total number of CBs in TB */ + desc->req.cbs_in_tb = cbs_in_tb; +#ifdef RTE_LIBRTE_BBDEV_DEBUG + rte_memdump(stderr, "FCW", &desc->req.fcw_te, + sizeof(desc->req.fcw_te) - 8); + rte_memdump(stderr, "Req Desc.", desc, sizeof(*desc)); +#endif + + if (seg_total_left == 0) { + /* Go to the next mbuf */ + input = input->next; + in_offset = 0; + output = output->next; + out_offset = 0; + } + + total_enqueued_cbs++; + current_enqueued_cbs++; + r++; + } + + /* Set SDone on last CB descriptor for TB mode. */ + desc->req.sdone_enable = 1; + desc->req.irq_enable = q->irq_enable; + + return current_enqueued_cbs; +} + /* Enqueue one encode operations for ACC200 device in TB mode. * returns the number of descs used. */ @@ -1214,6 +1550,62 @@ enqueue_ldpc_enc_one_op_tb(struct acc_queue *q, struct rte_bbdev_enc_op *op, /** Enqueue one decode operations for ACC200 device in CB mode. */ static inline int +enqueue_dec_one_op_cb(struct acc_queue *q, struct rte_bbdev_dec_op *op, + uint16_t total_enqueued_cbs) +{ + union acc_dma_desc *desc = NULL; + int ret; + uint32_t in_offset, h_out_offset, s_out_offset, s_out_length, + h_out_length, mbuf_total_left, seg_total_left; + struct rte_mbuf *input, *h_output_head, *h_output, + *s_output_head, *s_output; + + uint16_t desc_idx = ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + desc = q->ring_addr + desc_idx; + acc200_fcw_td_fill(op, &desc->req.fcw_td); + + input = op->turbo_dec.input.data; + h_output_head = h_output = op->turbo_dec.hard_output.data; + s_output_head = s_output = op->turbo_dec.soft_output.data; + in_offset = op->turbo_dec.input.offset; + h_out_offset = op->turbo_dec.hard_output.offset; + s_out_offset = op->turbo_dec.soft_output.offset; + h_out_length = s_out_length = 0; + mbuf_total_left = op->turbo_dec.input.length; + seg_total_left = rte_pktmbuf_data_len(input) - in_offset; + + /* Set up DMA descriptor */ + desc = q->ring_addr + ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + + ret = acc200_dma_desc_td_fill(op, &desc->req, &input, h_output, + s_output, &in_offset, &h_out_offset, &s_out_offset, + &h_out_length, &s_out_length, &mbuf_total_left, + &seg_total_left, 0); + + if (unlikely(ret < 0)) + return ret; + + /* Hard output */ + mbuf_append(h_output_head, h_output, h_out_length); + + /* Soft output */ + if (check_bit(op->turbo_dec.op_flags, RTE_BBDEV_TURBO_SOFT_OUTPUT)) + mbuf_append(s_output_head, s_output, s_out_length); + +#ifdef RTE_LIBRTE_BBDEV_DEBUG + rte_memdump(stderr, "FCW", &desc->req.fcw_td, + sizeof(desc->req.fcw_td)); + rte_memdump(stderr, "Req Desc.", desc, sizeof(*desc)); +#endif + + /* One CB (one op) was successfully prepared to enqueue */ + return 1; +} + +/** Enqueue one decode operations for ACC200 device in CB mode */ +static inline int enqueue_ldpc_dec_one_op_cb(struct acc_queue *q, struct rte_bbdev_dec_op *op, uint16_t total_enqueued_cbs, bool same_op) { @@ -1396,6 +1788,139 @@ enqueue_ldpc_dec_one_op_tb(struct acc_queue *q, struct rte_bbdev_dec_op *op, return current_enqueued_cbs; } +/* Enqueue one decode operations for ACC200 device in TB mode */ +static inline int +enqueue_dec_one_op_tb(struct acc_queue *q, struct rte_bbdev_dec_op *op, + uint16_t total_enqueued_cbs, uint8_t cbs_in_tb) +{ + union acc_dma_desc *desc = NULL; + int ret; + uint8_t r, c; + uint32_t in_offset, h_out_offset, s_out_offset, s_out_length, + h_out_length, mbuf_total_left, seg_total_left; + struct rte_mbuf *input, *h_output_head, *h_output, + *s_output_head, *s_output; + uint16_t current_enqueued_cbs = 0; + + uint16_t desc_idx = ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + desc = q->ring_addr + desc_idx; + uint64_t fcw_offset = (desc_idx << 8) + ACC_DESC_FCW_OFFSET; + acc200_fcw_td_fill(op, &desc->req.fcw_td); + + input = op->turbo_dec.input.data; + h_output_head = h_output = op->turbo_dec.hard_output.data; + s_output_head = s_output = op->turbo_dec.soft_output.data; + in_offset = op->turbo_dec.input.offset; + h_out_offset = op->turbo_dec.hard_output.offset; + s_out_offset = op->turbo_dec.soft_output.offset; + h_out_length = s_out_length = 0; + mbuf_total_left = op->turbo_dec.input.length; + c = op->turbo_dec.tb_params.c; + r = op->turbo_dec.tb_params.r; + + while (mbuf_total_left > 0 && r < c) { + + seg_total_left = rte_pktmbuf_data_len(input) - in_offset; + + /* Set up DMA descriptor */ + desc = q->ring_addr + ((q->sw_ring_head + total_enqueued_cbs) + & q->sw_ring_wrap_mask); + desc->req.data_ptrs[0].address = q->ring_addr_iova + fcw_offset; + desc->req.data_ptrs[0].blen = ACC_FCW_TD_BLEN; + ret = acc200_dma_desc_td_fill(op, &desc->req, &input, + h_output, s_output, &in_offset, &h_out_offset, + &s_out_offset, &h_out_length, &s_out_length, + &mbuf_total_left, &seg_total_left, r); + + if (unlikely(ret < 0)) + return ret; + + /* Hard output */ + mbuf_append(h_output_head, h_output, h_out_length); + + /* Soft output */ + if (check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_SOFT_OUTPUT)) + mbuf_append(s_output_head, s_output, s_out_length); + + /* Set total number of CBs in TB */ + desc->req.cbs_in_tb = cbs_in_tb; +#ifdef RTE_LIBRTE_BBDEV_DEBUG + rte_memdump(stderr, "FCW", &desc->req.fcw_td, + sizeof(desc->req.fcw_td) - 8); + rte_memdump(stderr, "Req Desc.", desc, sizeof(*desc)); +#endif + + if (seg_total_left == 0) { + /* Go to the next mbuf */ + input = input->next; + in_offset = 0; + h_output = h_output->next; + h_out_offset = 0; + + if (check_bit(op->turbo_dec.op_flags, + RTE_BBDEV_TURBO_SOFT_OUTPUT)) { + s_output = s_output->next; + s_out_offset = 0; + } + } + + total_enqueued_cbs++; + current_enqueued_cbs++; + r++; + } + + /* Set SDone on last CB descriptor for TB mode */ + desc->req.sdone_enable = 1; + desc->req.irq_enable = q->irq_enable; + + return current_enqueued_cbs; +} + +/* Enqueue encode operations for ACC200 device in CB mode. */ +static uint16_t +acc200_enqueue_enc_cb(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_enc_op **ops, uint16_t num) +{ + struct acc_queue *q = q_data->queue_private; + int32_t avail = acc_ring_avail_enq(q); + uint16_t i; + union acc_dma_desc *desc; + int ret; + + for (i = 0; i < num; ++i) { + /* Check if there are available space for further processing */ + if (unlikely(avail - 1 < 0)) { + acc_enqueue_ring_full(q_data); + break; + } + avail -= 1; + + ret = enqueue_enc_one_op_cb(q, ops[i], i); + if (ret < 0) { + acc_enqueue_invalid(q_data); + break; + } + } + + if (unlikely(i == 0)) + return 0; /* Nothing to enqueue */ + + /* Set SDone in last CB in enqueued ops for CB mode*/ + desc = q->ring_addr + ((q->sw_ring_head + i - 1) + & q->sw_ring_wrap_mask); + desc->req.sdone_enable = 1; + desc->req.irq_enable = q->irq_enable; + + acc_dma_enqueue(q, i, &q_data->queue_stats); + + /* Update stats */ + q_data->queue_stats.enqueued_count += i; + q_data->queue_stats.enqueue_err_count += num - i; + return i; +} + /** Enqueue encode operations for ACC200 device in CB mode. */ static inline uint16_t acc200_enqueue_ldpc_enc_cb(struct rte_bbdev_queue_data *q_data, @@ -1443,6 +1968,45 @@ acc200_enqueue_ldpc_enc_cb(struct rte_bbdev_queue_data *q_data, return i; } +/* Enqueue encode operations for ACC200 device in TB mode. */ +static uint16_t +acc200_enqueue_enc_tb(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_enc_op **ops, uint16_t num) +{ + struct acc_queue *q = q_data->queue_private; + int32_t avail = acc_ring_avail_enq(q); + uint16_t i, enqueued_cbs = 0; + uint8_t cbs_in_tb; + int ret; + + for (i = 0; i < num; ++i) { + cbs_in_tb = get_num_cbs_in_tb_enc(&ops[i]->turbo_enc); + /* Check if there are available space for further processing */ + if (unlikely((avail - cbs_in_tb < 0) || (cbs_in_tb == 0))) { + acc_enqueue_ring_full(q_data); + break; + } + avail -= cbs_in_tb; + + ret = enqueue_enc_one_op_tb(q, ops[i], enqueued_cbs, cbs_in_tb); + if (ret <= 0) { + acc_enqueue_invalid(q_data); + break; + } + enqueued_cbs += ret; + } + if (unlikely(enqueued_cbs == 0)) + return 0; /* Nothing to enqueue */ + + acc_dma_enqueue(q, enqueued_cbs, &q_data->queue_stats); + + /* Update stats */ + q_data->queue_stats.enqueued_count += i; + q_data->queue_stats.enqueue_err_count += num - i; + + return i; +} + /* Enqueue LDPC encode operations for ACC200 device in TB mode. */ static uint16_t acc200_enqueue_ldpc_enc_tb(struct rte_bbdev_queue_data *q_data, @@ -1482,6 +2046,20 @@ acc200_enqueue_ldpc_enc_tb(struct rte_bbdev_queue_data *q_data, return i; } +/* Enqueue encode operations for ACC200 device. */ +static uint16_t +acc200_enqueue_enc(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_enc_op **ops, uint16_t num) +{ + int32_t aq_avail = acc_aq_avail(q_data, num); + if (unlikely((aq_avail <= 0) || (num == 0))) + return 0; + if (ops[0]->turbo_enc.code_block_mode == RTE_BBDEV_TRANSPORT_BLOCK) + return acc200_enqueue_enc_tb(q_data, ops, num); + else + return acc200_enqueue_enc_cb(q_data, ops, num); +} + /* Enqueue encode operations for ACC200 device. */ static uint16_t acc200_enqueue_ldpc_enc(struct rte_bbdev_queue_data *q_data, @@ -1496,6 +2074,47 @@ acc200_enqueue_ldpc_enc(struct rte_bbdev_queue_data *q_data, return acc200_enqueue_ldpc_enc_cb(q_data, ops, num); } + +/* Enqueue decode operations for ACC200 device in CB mode. */ +static uint16_t +acc200_enqueue_dec_cb(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_dec_op **ops, uint16_t num) +{ + struct acc_queue *q = q_data->queue_private; + int32_t avail = acc_ring_avail_enq(q); + uint16_t i; + union acc_dma_desc *desc; + int ret; + + for (i = 0; i < num; ++i) { + /* Check if there are available space for further processing. */ + if (unlikely(avail - 1 < 0)) + break; + avail -= 1; + + ret = enqueue_dec_one_op_cb(q, ops[i], i); + if (ret < 0) + break; + } + + if (unlikely(i == 0)) + return 0; /* Nothing to enqueue. */ + + /* Set SDone in last CB in enqueued ops for CB mode. */ + desc = q->ring_addr + ((q->sw_ring_head + i - 1) + & q->sw_ring_wrap_mask); + desc->req.sdone_enable = 1; + desc->req.irq_enable = q->irq_enable; + + acc_dma_enqueue(q, i, &q_data->queue_stats); + + /* Update stats. */ + q_data->queue_stats.enqueued_count += i; + q_data->queue_stats.enqueue_err_count += num - i; + + return i; +} + /* Enqueue decode operations for ACC200 device in TB mode. */ static uint16_t acc200_enqueue_ldpc_dec_tb(struct rte_bbdev_queue_data *q_data, @@ -1580,6 +2199,58 @@ acc200_enqueue_ldpc_dec_cb(struct rte_bbdev_queue_data *q_data, return i; } + +/* Enqueue decode operations for ACC200 device in TB mode */ +static uint16_t +acc200_enqueue_dec_tb(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_dec_op **ops, uint16_t num) +{ + struct acc_queue *q = q_data->queue_private; + int32_t avail = acc_ring_avail_enq(q); + uint16_t i, enqueued_cbs = 0; + uint8_t cbs_in_tb; + int ret; + + for (i = 0; i < num; ++i) { + cbs_in_tb = get_num_cbs_in_tb_dec(&ops[i]->turbo_dec); + /* Check if there are available space for further processing */ + if (unlikely((avail - cbs_in_tb < 0) || (cbs_in_tb == 0))) { + acc_enqueue_ring_full(q_data); + break; + } + avail -= cbs_in_tb; + + ret = enqueue_dec_one_op_tb(q, ops[i], enqueued_cbs, cbs_in_tb); + if (ret <= 0) { + acc_enqueue_invalid(q_data); + break; + } + enqueued_cbs += ret; + } + + acc_dma_enqueue(q, enqueued_cbs, &q_data->queue_stats); + + /* Update stats */ + q_data->queue_stats.enqueued_count += i; + q_data->queue_stats.enqueue_err_count += num - i; + + return i; +} + +/* Enqueue decode operations for ACC200 device. */ +static uint16_t +acc200_enqueue_dec(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_dec_op **ops, uint16_t num) +{ + int32_t aq_avail = acc_aq_avail(q_data, num); + if (unlikely((aq_avail <= 0) || (num == 0))) + return 0; + if (ops[0]->turbo_dec.code_block_mode == RTE_BBDEV_TRANSPORT_BLOCK) + return acc200_enqueue_dec_tb(q_data, ops, num); + else + return acc200_enqueue_dec_cb(q_data, ops, num); +} + /* Enqueue decode operations for ACC200 device. */ static uint16_t acc200_enqueue_ldpc_dec(struct rte_bbdev_queue_data *q_data, @@ -1904,6 +2575,48 @@ dequeue_dec_one_op_tb(struct acc_queue *q, struct rte_bbdev_dec_op **ref_op, return cb_idx; } +/* Dequeue encode operations from ACC200 device. */ +static uint16_t +acc200_dequeue_enc(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_enc_op **ops, uint16_t num) +{ + struct acc_queue *q = q_data->queue_private; + uint32_t avail = acc_ring_avail_deq(q); + uint32_t aq_dequeued = 0; + uint16_t i, dequeued_ops = 0, dequeued_descs = 0; + int ret, cbm; + struct rte_bbdev_enc_op *op; + if (avail == 0) + return 0; + op = (q->ring_addr + (q->sw_ring_tail & + q->sw_ring_wrap_mask))->req.op_addr; + + cbm = op->turbo_enc.code_block_mode; + + for (i = 0; i < num; i++) { + if (cbm == RTE_BBDEV_TRANSPORT_BLOCK) + ret = dequeue_enc_one_op_tb(q, &ops[dequeued_ops], + &dequeued_ops, &aq_dequeued, + &dequeued_descs); + else + ret = dequeue_enc_one_op_cb(q, &ops[dequeued_ops], + &dequeued_ops, &aq_dequeued, + &dequeued_descs); + if (ret < 0) + break; + if (dequeued_ops >= num) + break; + } + + q->aq_dequeued += aq_dequeued; + q->sw_ring_tail += dequeued_descs; + + /* Update enqueue stats */ + q_data->queue_stats.dequeued_count += dequeued_ops; + + return dequeued_ops; +} + /* Dequeue LDPC encode operations from ACC200 device. */ static uint16_t acc200_dequeue_ldpc_enc(struct rte_bbdev_queue_data *q_data, @@ -1944,6 +2657,46 @@ acc200_dequeue_ldpc_enc(struct rte_bbdev_queue_data *q_data, return dequeued_ops; } +/* Dequeue decode operations from ACC200 device. */ +static uint16_t +acc200_dequeue_dec(struct rte_bbdev_queue_data *q_data, + struct rte_bbdev_dec_op **ops, uint16_t num) +{ + struct acc_queue *q = q_data->queue_private; + uint16_t dequeue_num; + uint32_t avail = acc_ring_avail_deq(q); + uint32_t aq_dequeued = 0; + uint16_t i; + uint16_t dequeued_cbs = 0; + struct rte_bbdev_dec_op *op; + int ret; + + dequeue_num = (avail < num) ? avail : num; + + for (i = 0; i < dequeue_num; ++i) { + op = (q->ring_addr + ((q->sw_ring_tail + dequeued_cbs) + & q->sw_ring_wrap_mask))->req.op_addr; + if (op->turbo_dec.code_block_mode == RTE_BBDEV_TRANSPORT_BLOCK) + ret = dequeue_dec_one_op_tb(q, &ops[i], dequeued_cbs, + &aq_dequeued); + else + ret = dequeue_dec_one_op_cb(q_data, q, &ops[i], + dequeued_cbs, &aq_dequeued); + + if (ret <= 0) + break; + dequeued_cbs += ret; + } + + q->aq_dequeued += aq_dequeued; + q->sw_ring_tail += dequeued_cbs; + + /* Update enqueue stats */ + q_data->queue_stats.dequeued_count += i; + + return i; +} + /* Dequeue decode operations from ACC200 device. */ static uint16_t acc200_dequeue_ldpc_dec(struct rte_bbdev_queue_data *q_data, @@ -1992,6 +2745,10 @@ acc200_bbdev_init(struct rte_bbdev *dev, struct rte_pci_driver *drv) struct rte_pci_device *pci_dev = RTE_DEV_TO_PCI(dev->device); dev->dev_ops = &acc200_bbdev_ops; + dev->enqueue_enc_ops = acc200_enqueue_enc; + dev->enqueue_dec_ops = acc200_enqueue_dec; + dev->dequeue_enc_ops = acc200_dequeue_enc; + dev->dequeue_dec_ops = acc200_dequeue_dec; dev->enqueue_ldpc_enc_ops = acc200_enqueue_ldpc_enc; dev->enqueue_ldpc_dec_ops = acc200_enqueue_ldpc_dec; dev->dequeue_ldpc_enc_ops = acc200_dequeue_ldpc_enc; -- 2.37.1