From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from dpdk.org (dpdk.org [92.243.14.124]) by inbox.dpdk.org (Postfix) with ESMTP id CCD28A058E; Thu, 26 Mar 2020 04:29:08 +0100 (CET) Received: from [92.243.14.124] (localhost [127.0.0.1]) by dpdk.org (Postfix) with ESMTP id 5F57A1C116; Thu, 26 Mar 2020 04:28:22 +0100 (CET) Received: from mga01.intel.com (mga01.intel.com [192.55.52.88]) by dpdk.org (Postfix) with ESMTP id ADB881C065 for ; Thu, 26 Mar 2020 04:28:12 +0100 (CET) IronPort-SDR: YACO6FIgY4wDdf0FCcgTShFlr0qOvPIrb0rexCxkMEZRWdbrKhD/8/NU39ywUj8aeCmNlSCY14 d7ZADra6JCXg== X-Amp-Result: SKIPPED(no attachment in message) X-Amp-File-Uploaded: False Received: from orsmga002.jf.intel.com ([10.7.209.21]) by fmsmga101.fm.intel.com with ESMTP/TLS/ECDHE-RSA-AES256-GCM-SHA384; 25 Mar 2020 20:28:10 -0700 IronPort-SDR: ikRteBqapagdN/q4r5Pmh22OujivSMtqKvLGlfm+zXbLdVMshHLgBWR2qYxvxSaZegVcSmzArQ qLDcFwtQFvHA== X-ExtLoop1: 1 X-IronPort-AV: E=Sophos;i="5.72,306,1580803200"; d="scan'208";a="265733802" Received: from skx-5gnr-sc12-4.sc.intel.com ([172.25.69.210]) by orsmga002.jf.intel.com with ESMTP; 25 Mar 2020 20:28:10 -0700 From: Nicolas Chautru To: thomas@monjalon.net, akhil.goyal@nxp.com, dev@dpdk.org Cc: ferruh.yigit@intel.com, Nic Chautru Date: Wed, 25 Mar 2020 20:27:44 -0700 Message-Id: <1585193268-74468-7-git-send-email-nicolas.chautru@intel.com> X-Mailer: git-send-email 1.8.3.1 In-Reply-To: <1585193268-74468-1-git-send-email-nicolas.chautru@intel.com> References: <1582778348-113547-15-git-send-email-nicolas.chautru@intel.com> <1585193268-74468-1-git-send-email-nicolas.chautru@intel.com> Subject: [dpdk-dev] [PATCH v5 06/10] test-bbdev: support HARQ validation X-BeenThere: dev@dpdk.org X-Mailman-Version: 2.1.15 Precedence: list List-Id: DPDK patches and discussions List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: dev-bounces@dpdk.org Sender: "dev" From: Nic Chautru Adding functionality to validate HARQ for different devices implementation. Adding capacity to fetch HARQ data when required as part of this validation. Signed-off-by: Nic Chautru --- app/test-bbdev/test_bbdev_perf.c | 564 ++++++++++++++++++++++++++++++++----- app/test-bbdev/test_bbdev_vector.c | 9 +- 2 files changed, 504 insertions(+), 69 deletions(-) diff --git a/app/test-bbdev/test_bbdev_perf.c b/app/test-bbdev/test_bbdev_perf.c index b17fc95..4d7dc4e 100644 --- a/app/test-bbdev/test_bbdev_perf.c +++ b/app/test-bbdev/test_bbdev_perf.c @@ -44,14 +44,34 @@ #define SYNC_WAIT 0 #define SYNC_START 1 +#define INVALID_OPAQUE -1 #define INVALID_QUEUE_ID -1 +/* Increment for next code block in external HARQ memory */ +#define HARQ_INCR 32768 +/* Headroom for filler LLRs insertion in HARQ buffer */ +#define FILLER_HEADROOM 1024 +/* Constants from K0 computation from 3GPP 38.212 Table 5.4.2.1-2 */ +#define N_ZC_1 66 /* N = 66 Zc for BG 1 */ +#define N_ZC_2 50 /* N = 50 Zc for BG 2 */ +#define K0_1_1 17 /* K0 fraction numerator for rv 1 and BG 1 */ +#define K0_1_2 13 /* K0 fraction numerator for rv 1 and BG 2 */ +#define K0_2_1 33 /* K0 fraction numerator for rv 2 and BG 1 */ +#define K0_2_2 25 /* K0 fraction numerator for rv 2 and BG 2 */ +#define K0_3_1 56 /* K0 fraction numerator for rv 3 and BG 1 */ +#define K0_3_2 43 /* K0 fraction numerator for rv 3 and BG 2 */ static struct test_bbdev_vector test_vector; /* Switch between PMD and Interrupt for throughput TC */ static bool intr_enabled; +/* LLR arithmetic representation for numerical conversion */ +static int ldpc_llr_decimals; +static int ldpc_llr_size; +/* Keep track of the LDPC decoder device capability flag */ +static uint32_t ldpc_cap_flags; + /* Represents tested active devices */ static struct active_device { const char *driver_name; @@ -293,7 +313,7 @@ typedef int (test_case_function)(struct active_device *ad, return TEST_FAILED; } if (intr_enabled && !(cap->capability_flags & - RTE_BBDEV_TURBO_ENC_INTERRUPTS)) { + RTE_BBDEV_LDPC_ENC_INTERRUPTS)) { printf( "Dequeue interrupts are not supported!\n"); return TEST_FAILED; @@ -336,12 +356,19 @@ typedef int (test_case_function)(struct active_device *ad, return TEST_FAILED; } if (intr_enabled && !(cap->capability_flags & - RTE_BBDEV_TURBO_DEC_INTERRUPTS)) { + RTE_BBDEV_LDPC_DEC_INTERRUPTS)) { printf( "Dequeue interrupts are not supported!\n"); return TEST_FAILED; } - + if (intr_enabled && (test_vector.ldpc_dec.op_flags & + (RTE_BBDEV_LDPC_HQ_COMBINE_IN_ENABLE | + RTE_BBDEV_LDPC_HQ_COMBINE_OUT_ENABLE | + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK + ))) { + printf("Skip loop-back with interrupt\n"); + return TEST_FAILED; + } return TEST_SUCCESS; } } @@ -377,7 +404,8 @@ typedef int (test_case_function)(struct active_device *ad, snprintf(pool_name, sizeof(pool_name), "%s_pool_%u", op_type_str, dev_id); return rte_pktmbuf_pool_create(pool_name, mbuf_pool_size, 0, 0, - RTE_MAX(max_seg_sz + RTE_PKTMBUF_HEADROOM, + RTE_MAX(max_seg_sz + RTE_PKTMBUF_HEADROOM + + FILLER_HEADROOM, (unsigned int)RTE_MBUF_DEFAULT_BUF_SIZE), socket_id); } @@ -432,27 +460,33 @@ typedef int (test_case_function)(struct active_device *ad, return TEST_SUCCESS; /* Inputs */ - mbuf_pool_size = optimal_mempool_size(ops_pool_size * in->nb_segments); - mp = create_mbuf_pool(in, ad->dev_id, socket_id, mbuf_pool_size, "in"); - TEST_ASSERT_NOT_NULL(mp, - "ERROR Failed to create %u items input pktmbuf pool for dev %u on socket %u.", - mbuf_pool_size, - ad->dev_id, - socket_id); - ad->in_mbuf_pool = mp; + if (in->nb_segments > 0) { + mbuf_pool_size = optimal_mempool_size(ops_pool_size * + in->nb_segments); + mp = create_mbuf_pool(in, ad->dev_id, socket_id, + mbuf_pool_size, "in"); + TEST_ASSERT_NOT_NULL(mp, + "ERROR Failed to create %u items input pktmbuf pool for dev %u on socket %u.", + mbuf_pool_size, + ad->dev_id, + socket_id); + ad->in_mbuf_pool = mp; + } /* Hard outputs */ - mbuf_pool_size = optimal_mempool_size(ops_pool_size * - hard_out->nb_segments); - mp = create_mbuf_pool(hard_out, ad->dev_id, socket_id, mbuf_pool_size, - "hard_out"); - TEST_ASSERT_NOT_NULL(mp, - "ERROR Failed to create %u items hard output pktmbuf pool for dev %u on socket %u.", - mbuf_pool_size, - ad->dev_id, - socket_id); - ad->hard_out_mbuf_pool = mp; - + if (hard_out->nb_segments > 0) { + mbuf_pool_size = optimal_mempool_size(ops_pool_size * + hard_out->nb_segments); + mp = create_mbuf_pool(hard_out, ad->dev_id, socket_id, + mbuf_pool_size, + "hard_out"); + TEST_ASSERT_NOT_NULL(mp, + "ERROR Failed to create %u items hard output pktmbuf pool for dev %u on socket %u.", + mbuf_pool_size, + ad->dev_id, + socket_id); + ad->hard_out_mbuf_pool = mp; + } /* Soft outputs */ if (soft_out->nb_segments > 0) { @@ -901,6 +935,45 @@ typedef int (test_case_function)(struct active_device *ad, } } +/* + * We may have to insert filler bits + * when they are required by the HARQ assumption + */ +static void +ldpc_add_filler(struct rte_bbdev_op_data *input_ops, + const uint16_t n, struct test_op_params *op_params) +{ + struct rte_bbdev_op_ldpc_dec dec = op_params->ref_dec_op->ldpc_dec; + + if (input_ops == NULL) + return; + /* No need to add filler if not required by device */ + if (!(ldpc_cap_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_FILLERS)) + return; + /* No need to add filler for loopback operation */ + if (dec.op_flags & RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK) + return; + + uint16_t i, j, parity_offset; + for (i = 0; i < n; ++i) { + struct rte_mbuf *m = input_ops[i].data; + int8_t *llr = rte_pktmbuf_mtod_offset(m, int8_t *, + input_ops[i].offset); + parity_offset = (dec.basegraph == 1 ? 20 : 8) + * dec.z_c - dec.n_filler; + uint16_t new_hin_size = input_ops[i].length + dec.n_filler; + m->data_len = new_hin_size; + input_ops[i].length = new_hin_size; + for (j = new_hin_size - 1; j >= parity_offset + dec.n_filler; + j--) + llr[j] = llr[j - dec.n_filler]; + uint16_t llr_max_pre_scaling = (1 << (ldpc_llr_size - 1)) - 1; + for (j = 0; j < dec.n_filler; j++) + llr[parity_offset + j] = llr_max_pre_scaling; + } +} + static void ldpc_input_llr_scaling(struct rte_bbdev_op_data *input_ops, const uint16_t n, const int8_t llr_size, @@ -923,7 +996,9 @@ typedef int (test_case_function)(struct active_device *ad, ++byte_idx) { llr_tmp = llr[byte_idx]; - if (llr_decimals == 2) + if (llr_decimals == 4) + llr_tmp *= 8; + else if (llr_decimals == 2) llr_tmp *= 2; else if (llr_decimals == 0) llr_tmp /= 2; @@ -991,12 +1066,24 @@ typedef int (test_case_function)(struct active_device *ad, capabilities->cap.turbo_dec.max_llr_modulus); if (test_vector.op_type == RTE_BBDEV_OP_LDPC_DEC) { - ldpc_input_llr_scaling(*queue_ops[DATA_INPUT], n, - capabilities->cap.ldpc_dec.llr_size, - capabilities->cap.ldpc_dec.llr_decimals); - ldpc_input_llr_scaling(*queue_ops[DATA_HARQ_INPUT], n, - capabilities->cap.ldpc_dec.llr_size, - capabilities->cap.ldpc_dec.llr_decimals); + bool loopback = op_params->ref_dec_op->ldpc_dec.op_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK; + bool llr_comp = op_params->ref_dec_op->ldpc_dec.op_flags & + RTE_BBDEV_LDPC_LLR_COMPRESSION; + bool harq_comp = op_params->ref_dec_op->ldpc_dec.op_flags & + RTE_BBDEV_LDPC_HARQ_6BIT_COMPRESSION; + ldpc_llr_decimals = capabilities->cap.ldpc_dec.llr_decimals; + ldpc_llr_size = capabilities->cap.ldpc_dec.llr_size; + ldpc_cap_flags = capabilities->cap.ldpc_dec.capability_flags; + if (!loopback && !llr_comp) + ldpc_input_llr_scaling(*queue_ops[DATA_INPUT], n, + ldpc_llr_size, ldpc_llr_decimals); + if (!loopback && !harq_comp) + ldpc_input_llr_scaling(*queue_ops[DATA_HARQ_INPUT], n, + ldpc_llr_size, ldpc_llr_decimals); + if (!loopback) + ldpc_add_filler(*queue_ops[DATA_HARQ_INPUT], n, + op_params); } return 0; @@ -1159,17 +1246,21 @@ typedef int (test_case_function)(struct active_device *ad, ops[i]->ldpc_dec.op_flags = ldpc_dec->op_flags; ops[i]->ldpc_dec.code_block_mode = ldpc_dec->code_block_mode; - ops[i]->ldpc_dec.hard_output = hard_outputs[start_idx + i]; - ops[i]->ldpc_dec.input = inputs[start_idx + i]; + if (hard_outputs != NULL) + ops[i]->ldpc_dec.hard_output = + hard_outputs[start_idx + i]; + if (inputs != NULL) + ops[i]->ldpc_dec.input = + inputs[start_idx + i]; if (soft_outputs != NULL) ops[i]->ldpc_dec.soft_output = - soft_outputs[start_idx + i]; + soft_outputs[start_idx + i]; if (harq_inputs != NULL) ops[i]->ldpc_dec.harq_combined_input = harq_inputs[start_idx + i]; if (harq_outputs != NULL) ops[i]->ldpc_dec.harq_combined_output = - harq_outputs[start_idx + i]; + harq_outputs[start_idx + i]; } } @@ -1211,7 +1302,22 @@ typedef int (test_case_function)(struct active_device *ad, check_dec_status_and_ordering(struct rte_bbdev_dec_op *op, unsigned int order_idx, const int expected_status) { - TEST_ASSERT(op->status == expected_status, + int status = op->status; + /* ignore parity mismatch false alarms for long iterations */ + if (get_iter_max() >= 10) { + if (!(expected_status & (1 << RTE_BBDEV_SYNDROME_ERROR)) && + (status & (1 << RTE_BBDEV_SYNDROME_ERROR))) { + printf("WARNING: Ignore Syndrome Check mismatch\n"); + status -= (1 << RTE_BBDEV_SYNDROME_ERROR); + } + if ((expected_status & (1 << RTE_BBDEV_SYNDROME_ERROR)) && + !(status & (1 << RTE_BBDEV_SYNDROME_ERROR))) { + printf("WARNING: Ignore Syndrome Check mismatch\n"); + status += (1 << RTE_BBDEV_SYNDROME_ERROR); + } + } + + TEST_ASSERT(status == expected_status, "op_status (%d) != expected_status (%d)", op->status, expected_status); @@ -1230,9 +1336,10 @@ typedef int (test_case_function)(struct active_device *ad, "op_status (%d) != expected_status (%d)", op->status, expected_status); - TEST_ASSERT((void *)(uintptr_t)order_idx == op->opaque_data, - "Ordering error, expected %p, got %p", - (void *)(uintptr_t)order_idx, op->opaque_data); + if (op->opaque_data != (void *)(uintptr_t)INVALID_OPAQUE) + TEST_ASSERT((void *)(uintptr_t)order_idx == op->opaque_data, + "Ordering error, expected %p, got %p", + (void *)(uintptr_t)order_idx, op->opaque_data); return TEST_SUCCESS; } @@ -1276,6 +1383,173 @@ typedef int (test_case_function)(struct active_device *ad, return TEST_SUCCESS; } +/* + * Compute K0 for a given configuration for HARQ output length computation + * As per definition in 3GPP 38.212 Table 5.4.2.1-2 + */ +static inline uint16_t +get_k0(uint16_t n_cb, uint16_t z_c, uint8_t bg, uint8_t rv_index) +{ + if (rv_index == 0) + return 0; + uint16_t n = (bg == 1 ? N_ZC_1 : N_ZC_2) * z_c; + if (n_cb == n) { + if (rv_index == 1) + return (bg == 1 ? K0_1_1 : K0_1_2) * z_c; + else if (rv_index == 2) + return (bg == 1 ? K0_2_1 : K0_2_2) * z_c; + else + return (bg == 1 ? K0_3_1 : K0_3_2) * z_c; + } + /* LBRM case - includes a division by N */ + if (rv_index == 1) + return (((bg == 1 ? K0_1_1 : K0_1_2) * n_cb) + / n) * z_c; + else if (rv_index == 2) + return (((bg == 1 ? K0_2_1 : K0_2_2) * n_cb) + / n) * z_c; + else + return (((bg == 1 ? K0_3_1 : K0_3_2) * n_cb) + / n) * z_c; +} + +/* HARQ output length including the Filler bits */ +static inline uint16_t +compute_harq_len(struct rte_bbdev_op_ldpc_dec *ops_ld) +{ + uint16_t k0 = 0; + uint8_t max_rv = (ops_ld->rv_index == 1) ? 3 : ops_ld->rv_index; + k0 = get_k0(ops_ld->n_cb, ops_ld->z_c, ops_ld->basegraph, max_rv); + /* Compute RM out size and number of rows */ + uint16_t parity_offset = (ops_ld->basegraph == 1 ? 20 : 8) + * ops_ld->z_c - ops_ld->n_filler; + uint16_t deRmOutSize = RTE_MIN( + k0 + ops_ld->cb_params.e + + ((k0 > parity_offset) ? + 0 : ops_ld->n_filler), + ops_ld->n_cb); + uint16_t numRows = ((deRmOutSize + ops_ld->z_c - 1) + / ops_ld->z_c); + uint16_t harq_output_len = numRows * ops_ld->z_c; + return harq_output_len; +} + +static inline int +validate_op_harq_chain(struct rte_bbdev_op_data *op, + struct op_data_entries *orig_op, + struct rte_bbdev_op_ldpc_dec *ops_ld) +{ + uint8_t i; + uint32_t j, jj, k; + struct rte_mbuf *m = op->data; + uint8_t nb_dst_segments = orig_op->nb_segments; + uint32_t total_data_size = 0; + int8_t *harq_orig, *harq_out, abs_harq_origin; + uint32_t byte_error = 0, cum_error = 0, error; + int16_t llr_max = (1 << (ldpc_llr_size - ldpc_llr_decimals)) - 1; + int16_t llr_max_pre_scaling = (1 << (ldpc_llr_size - 1)) - 1; + uint16_t parity_offset; + + TEST_ASSERT(nb_dst_segments == m->nb_segs, + "Number of segments differ in original (%u) and filled (%u) op", + nb_dst_segments, m->nb_segs); + + /* Validate each mbuf segment length */ + for (i = 0; i < nb_dst_segments; ++i) { + /* Apply offset to the first mbuf segment */ + uint16_t offset = (i == 0) ? op->offset : 0; + uint16_t data_len = rte_pktmbuf_data_len(m) - offset; + total_data_size += orig_op->segments[i].length; + + TEST_ASSERT(orig_op->segments[i].length < + (uint32_t)(data_len + 64), + "Length of segment differ in original (%u) and filled (%u) op", + orig_op->segments[i].length, data_len); + harq_orig = (int8_t *) orig_op->segments[i].addr; + harq_out = rte_pktmbuf_mtod_offset(m, int8_t *, offset); + + if (!(ldpc_cap_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_FILLERS + ) || (ops_ld->op_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK)) { + data_len -= ops_ld->z_c; + parity_offset = data_len; + } else { + /* Compute RM out size and number of rows */ + parity_offset = (ops_ld->basegraph == 1 ? 20 : 8) + * ops_ld->z_c - ops_ld->n_filler; + uint16_t deRmOutSize = compute_harq_len(ops_ld) - + ops_ld->n_filler; + if (data_len > deRmOutSize) + data_len = deRmOutSize; + if (data_len > orig_op->segments[i].length) + data_len = orig_op->segments[i].length; + } + /* + * HARQ output can have minor differences + * due to integer representation and related scaling + */ + for (j = 0, jj = 0; j < data_len; j++, jj++) { + if (j == parity_offset) { + /* Special Handling of the filler bits */ + for (k = 0; k < ops_ld->n_filler; k++) { + if (harq_out[jj] != + llr_max_pre_scaling) { + printf("HARQ Filler issue %d: %d %d\n", + jj, harq_out[jj], + llr_max); + byte_error++; + } + jj++; + } + } + if (!(ops_ld->op_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK)) { + if (ldpc_llr_decimals > 1) + harq_out[jj] = (harq_out[jj] + 1) + >> (ldpc_llr_decimals - 1); + /* Saturated to S7 */ + if (harq_orig[j] > llr_max) + harq_orig[j] = llr_max; + if (harq_orig[j] < -llr_max) + harq_orig[j] = -llr_max; + } + if (harq_orig[j] != harq_out[jj]) { + error = (harq_orig[j] > harq_out[jj]) ? + harq_orig[j] - harq_out[jj] : + harq_out[jj] - harq_orig[j]; + abs_harq_origin = harq_orig[j] > 0 ? + harq_orig[j] : + -harq_orig[j]; + /* Residual quantization error */ + if ((error > 8 && (abs_harq_origin < + (llr_max - 16))) || + (error > 16)) { + printf("HARQ mismatch %d: exp %d act %d => %d\n", + j, harq_orig[j], + harq_out[jj], error); + byte_error++; + cum_error += error; + } + } + } + m = m->next; + } + + if (byte_error) + TEST_ASSERT(byte_error <= 1, + "HARQ output mismatch (%d) %d", + byte_error, cum_error); + + /* Validate total mbuf pkt length */ + uint32_t pkt_len = rte_pktmbuf_pkt_len(op->data) - op->offset; + TEST_ASSERT(total_data_size < pkt_len + 64, + "Length of data differ in original (%u) and filled (%u) op", + total_data_size, pkt_len); + + return TEST_SUCCESS; +} + static int validate_dec_op(struct rte_bbdev_dec_op **ops, const uint16_t n, struct rte_bbdev_dec_op *ref_op, const int vector_mask) @@ -1319,7 +1593,6 @@ typedef int (test_case_function)(struct active_device *ad, return TEST_SUCCESS; } - static int validate_ldpc_dec_op(struct rte_bbdev_dec_op **ops, const uint16_t n, struct rte_bbdev_dec_op *ref_op, const int vector_mask) @@ -1351,8 +1624,15 @@ typedef int (test_case_function)(struct active_device *ad, TEST_ASSERT(ops_td->iter_count <= ref_td->iter_count, "Returned iter_count (%d) > expected iter_count (%d)", ops_td->iter_count, ref_td->iter_count); - /* We can ignore data when the decoding failed to converge */ - if ((ops[i]->status & (1 << RTE_BBDEV_SYNDROME_ERROR)) == 0) + /* + * We can ignore output data when the decoding failed to + * converge or for loop-back cases + */ + if (!check_bit(ops[i]->ldpc_dec.op_flags, + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK + ) && ( + ops[i]->status & (1 << RTE_BBDEV_SYNDROME_ERROR + )) == 0) TEST_ASSERT_SUCCESS(validate_op_chain(hard_output, hard_data_orig), "Hard output buffers (CB=%u) are not equal", @@ -1365,12 +1645,18 @@ typedef int (test_case_function)(struct active_device *ad, i); if (ref_op->ldpc_dec.op_flags & RTE_BBDEV_LDPC_HQ_COMBINE_OUT_ENABLE) { - ldpc_input_llr_scaling(harq_output, 1, 8, 0); - TEST_ASSERT_SUCCESS(validate_op_chain(harq_output, - harq_data_orig), + TEST_ASSERT_SUCCESS(validate_op_harq_chain(harq_output, + harq_data_orig, ops_td), "HARQ output buffers (CB=%u) are not equal", i); } + if (ref_op->ldpc_dec.op_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK) + TEST_ASSERT_SUCCESS(validate_op_harq_chain(harq_output, + harq_data_orig, ops_td), + "HARQ output buffers (CB=%u) are not equal", + i); + } return TEST_SUCCESS; @@ -1709,6 +1995,105 @@ typedef int (test_case_function)(struct active_device *ad, return ret; } + +/* Push back the HARQ output from DDR to host */ +static void +retrieve_harq_ddr(uint16_t dev_id, uint16_t queue_id, + struct rte_bbdev_dec_op **ops, + const uint16_t n) +{ + uint16_t j; + int save_status, ret; + uint32_t harq_offset = (uint32_t) queue_id * HARQ_INCR * 1024; + struct rte_bbdev_dec_op *ops_deq[MAX_BURST]; + uint32_t flags = ops[0]->ldpc_dec.op_flags; + bool loopback = flags & RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK; + bool mem_out = flags & RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE; + bool hc_out = flags & RTE_BBDEV_LDPC_HQ_COMBINE_OUT_ENABLE; + bool h_comp = flags & RTE_BBDEV_LDPC_HARQ_6BIT_COMPRESSION; + for (j = 0; j < n; ++j) { + if ((loopback && mem_out) || hc_out) { + save_status = ops[j]->status; + ops[j]->ldpc_dec.op_flags = + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK + + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_IN_ENABLE; + if (h_comp) + ops[j]->ldpc_dec.op_flags += + RTE_BBDEV_LDPC_HARQ_6BIT_COMPRESSION; + ops[j]->ldpc_dec.harq_combined_input.offset = + harq_offset; + ops[j]->ldpc_dec.harq_combined_output.offset = 0; + harq_offset += HARQ_INCR; + if (!loopback) + ops[j]->ldpc_dec.harq_combined_input.length = + ops[j]->ldpc_dec.harq_combined_output.length; + rte_bbdev_enqueue_ldpc_dec_ops(dev_id, queue_id, + &ops[j], 1); + ret = 0; + while (ret == 0) + ret = rte_bbdev_dequeue_ldpc_dec_ops( + dev_id, queue_id, + &ops_deq[j], 1); + ops[j]->ldpc_dec.op_flags = flags; + ops[j]->status = save_status; + } + } +} + +/* + * Push back the HARQ output from HW DDR to Host + * Preload HARQ memory input and adjust HARQ offset + */ +static void +preload_harq_ddr(uint16_t dev_id, uint16_t queue_id, + struct rte_bbdev_dec_op **ops, const uint16_t n, + bool preload) +{ + uint16_t j; + int ret; + uint32_t harq_offset = (uint32_t) queue_id * HARQ_INCR * 1024; + struct rte_bbdev_op_data save_hc_in, save_hc_out; + struct rte_bbdev_dec_op *ops_deq[MAX_BURST]; + uint32_t flags = ops[0]->ldpc_dec.op_flags; + bool mem_in = flags & RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_IN_ENABLE; + bool hc_in = flags & RTE_BBDEV_LDPC_HQ_COMBINE_IN_ENABLE; + bool mem_out = flags & RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE; + bool hc_out = flags & RTE_BBDEV_LDPC_HQ_COMBINE_OUT_ENABLE; + bool h_comp = flags & RTE_BBDEV_LDPC_HARQ_6BIT_COMPRESSION; + for (j = 0; j < n; ++j) { + if ((mem_in || hc_in) && preload) { + save_hc_in = ops[j]->ldpc_dec.harq_combined_input; + save_hc_out = ops[j]->ldpc_dec.harq_combined_output; + ops[j]->ldpc_dec.op_flags = + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK + + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE; + if (h_comp) + ops[j]->ldpc_dec.op_flags += + RTE_BBDEV_LDPC_HARQ_6BIT_COMPRESSION; + ops[j]->ldpc_dec.harq_combined_output.offset = + harq_offset; + ops[j]->ldpc_dec.harq_combined_input.offset = 0; + rte_bbdev_enqueue_ldpc_dec_ops(dev_id, queue_id, + &ops[j], 1); + ret = 0; + while (ret == 0) + ret = rte_bbdev_dequeue_ldpc_dec_ops( + dev_id, queue_id, &ops_deq[j], 1); + ops[j]->ldpc_dec.op_flags = flags; + ops[j]->ldpc_dec.harq_combined_input = save_hc_in; + ops[j]->ldpc_dec.harq_combined_output = save_hc_out; + } + /* Adjust HARQ offset when we reach external DDR */ + if (mem_in || hc_in) + ops[j]->ldpc_dec.harq_combined_input.offset + = harq_offset; + if (mem_out || hc_out) + ops[j]->ldpc_dec.harq_combined_output.offset + = harq_offset; + harq_offset += HARQ_INCR; + } +} + static void dequeue_event_callback(uint16_t dev_id, enum rte_bbdev_event_type event, void *cb_arg, @@ -1744,13 +2129,22 @@ typedef int (test_case_function)(struct active_device *ad, burst_sz = rte_atomic16_read(&tp->burst_sz); num_ops = tp->op_params->num_to_process; - if (test_vector.op_type == RTE_BBDEV_OP_TURBO_DEC || - test_vector.op_type == RTE_BBDEV_OP_LDPC_DEC) + if (test_vector.op_type == RTE_BBDEV_OP_TURBO_DEC) deq = rte_bbdev_dequeue_dec_ops(dev_id, queue_id, &tp->dec_ops[ rte_atomic16_read(&tp->nb_dequeued)], burst_sz); - else + else if (test_vector.op_type == RTE_BBDEV_OP_LDPC_DEC) + deq = rte_bbdev_dequeue_ldpc_dec_ops(dev_id, queue_id, + &tp->dec_ops[ + rte_atomic16_read(&tp->nb_dequeued)], + burst_sz); + else if (test_vector.op_type == RTE_BBDEV_OP_LDPC_ENC) + deq = rte_bbdev_dequeue_ldpc_enc_ops(dev_id, queue_id, + &tp->enc_ops[ + rte_atomic16_read(&tp->nb_dequeued)], + burst_sz); + else /*RTE_BBDEV_OP_TURBO_ENC*/ deq = rte_bbdev_dequeue_enc_ops(dev_id, queue_id, &tp->enc_ops[ rte_atomic16_read(&tp->nb_dequeued)], @@ -2127,6 +2521,12 @@ typedef int (test_case_function)(struct active_device *ad, int i, j, ret; struct rte_bbdev_info info; uint16_t num_to_enq; + bool extDdr = check_bit(ldpc_cap_flags, + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE); + bool loopback = check_bit(ref_op->ldpc_dec.op_flags, + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK); + bool hc_out = check_bit(ref_op->ldpc_dec.op_flags, + RTE_BBDEV_LDPC_HQ_COMBINE_OUT_ENABLE); TEST_ASSERT_SUCCESS((burst_sz > MAX_BURST), "BURST_SIZE should be <= %u", MAX_BURST); @@ -2164,13 +2564,18 @@ typedef int (test_case_function)(struct active_device *ad, for (i = 0; i < TEST_REPETITIONS; ++i) { for (j = 0; j < num_ops; ++j) { - mbuf_reset(ops_enq[j]->ldpc_dec.hard_output.data); - if (check_bit(ref_op->ldpc_dec.op_flags, - RTE_BBDEV_LDPC_HQ_COMBINE_OUT_ENABLE)) + if (!loopback) + mbuf_reset( + ops_enq[j]->ldpc_dec.hard_output.data); + if (hc_out || loopback) mbuf_reset( ops_enq[j]->ldpc_dec.harq_combined_output.data); } - + if (extDdr) { + bool preload = i == (TEST_REPETITIONS - 1); + preload_harq_ddr(tp->dev_id, queue_id, ops_enq, + num_ops, preload); + } start_time = rte_rdtsc_precise(); for (enq = 0, deq = 0; enq < num_ops;) { @@ -2201,6 +2606,10 @@ typedef int (test_case_function)(struct active_device *ad, tp->iter_count = RTE_MAX(ops_enq[i]->ldpc_dec.iter_count, tp->iter_count); } + if (extDdr) { + /* Read loopback is not thread safe */ + retrieve_harq_ddr(tp->dev_id, queue_id, ops_enq, num_ops); + } if (test_vector.op_type != RTE_BBDEV_OP_NONE) { ret = validate_ldpc_dec_op(ops_deq, num_ops, ref_op, @@ -2690,6 +3099,8 @@ typedef int (test_case_function)(struct active_device *ad, uint16_t i, j, dequeued; struct rte_bbdev_dec_op *ops_enq[MAX_BURST], *ops_deq[MAX_BURST]; uint64_t start_time = 0, last_time = 0; + bool extDdr = ldpc_cap_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE; for (i = 0, dequeued = 0; dequeued < num_to_process; ++i) { uint16_t enq = 0, deq = 0; @@ -2702,6 +3113,15 @@ typedef int (test_case_function)(struct active_device *ad, ret = rte_bbdev_dec_op_alloc_bulk(mempool, ops_enq, burst_sz); TEST_ASSERT_SUCCESS(ret, "rte_bbdev_dec_op_alloc_bulk() failed"); + + /* For latency tests we need to disable early termination */ + if (check_bit(ref_op->ldpc_dec.op_flags, + RTE_BBDEV_LDPC_ITERATION_STOP_ENABLE)) + ref_op->ldpc_dec.op_flags -= + RTE_BBDEV_LDPC_ITERATION_STOP_ENABLE; + ref_op->ldpc_dec.iter_max = 6; + ref_op->ldpc_dec.iter_count = ref_op->ldpc_dec.iter_max; + if (test_vector.op_type != RTE_BBDEV_OP_NONE) copy_reference_ldpc_dec_op(ops_enq, burst_sz, dequeued, bufs->inputs, @@ -2711,6 +3131,10 @@ typedef int (test_case_function)(struct active_device *ad, bufs->harq_outputs, ref_op); + if (extDdr) + preload_harq_ddr(dev_id, queue_id, ops_enq, + burst_sz, true); + /* Set counter to validate the ordering */ for (j = 0; j < burst_sz; ++j) ops_enq[j]->opaque_data = (void *)(uintptr_t)j; @@ -2737,6 +3161,9 @@ typedef int (test_case_function)(struct active_device *ad, *min_time = RTE_MIN(*min_time, last_time); *total_time += last_time; + if (extDdr) + retrieve_harq_ddr(dev_id, queue_id, ops_enq, burst_sz); + if (test_vector.op_type != RTE_BBDEV_OP_NONE) { ret = validate_ldpc_dec_op(ops_deq, burst_sz, ref_op, vector_mask); @@ -2746,7 +3173,6 @@ typedef int (test_case_function)(struct active_device *ad, rte_bbdev_dec_op_free_bulk(ops_enq, deq); dequeued += deq; } - return i; } @@ -2838,7 +3264,6 @@ typedef int (test_case_function)(struct active_device *ad, burst_sz = num_to_process - dequeued; ret = rte_bbdev_enc_op_alloc_bulk(mempool, ops_enq, burst_sz); - TEST_ASSERT_SUCCESS(ret, "rte_bbdev_enc_op_alloc_bulk() failed"); if (test_vector.op_type != RTE_BBDEV_OP_NONE) @@ -3075,6 +3500,8 @@ typedef int (test_case_function)(struct active_device *ad, uint64_t enq_start_time, deq_start_time; uint64_t enq_sw_last_time, deq_last_time; struct rte_bbdev_stats stats; + bool extDdr = ldpc_cap_flags & + RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE; for (i = 0, dequeued = 0; dequeued < num_to_process; ++i) { uint16_t enq = 0, deq = 0; @@ -3092,6 +3519,10 @@ typedef int (test_case_function)(struct active_device *ad, bufs->harq_outputs, ref_op); + if (extDdr) + preload_harq_ddr(dev_id, queue_id, ops_enq, + burst_sz, true); + /* Start time meas for enqueue function offload latency */ enq_start_time = rte_rdtsc_precise(); do { @@ -3099,13 +3530,13 @@ typedef int (test_case_function)(struct active_device *ad, &ops_enq[enq], burst_sz - enq); } while (unlikely(burst_sz != enq)); + enq_sw_last_time = rte_rdtsc_precise() - enq_start_time; ret = get_bbdev_queue_stats(dev_id, queue_id, &stats); TEST_ASSERT_SUCCESS(ret, "Failed to get stats for queue (%u) of device (%u)", queue_id, dev_id); - enq_sw_last_time = rte_rdtsc_precise() - enq_start_time - - stats.acc_offload_cycles; + enq_sw_last_time -= stats.acc_offload_cycles; time_st->enq_sw_max_time = RTE_MAX(time_st->enq_sw_max_time, enq_sw_last_time); time_st->enq_sw_min_time = RTE_MIN(time_st->enq_sw_min_time, @@ -3138,9 +3569,14 @@ typedef int (test_case_function)(struct active_device *ad, /* Dequeue remaining operations if needed*/ while (burst_sz != deq) - deq += rte_bbdev_dequeue_dec_ops(dev_id, queue_id, + deq += rte_bbdev_dequeue_ldpc_dec_ops(dev_id, queue_id, &ops_deq[deq], burst_sz - deq); + if (extDdr) { + /* Read loopback is not thread safe */ + retrieve_harq_ddr(dev_id, queue_id, ops_enq, burst_sz); + } + rte_bbdev_dec_op_free_bulk(ops_enq, deq); dequeued += deq; } @@ -3167,7 +3603,8 @@ typedef int (test_case_function)(struct active_device *ad, burst_sz = num_to_process - dequeued; ret = rte_bbdev_enc_op_alloc_bulk(mempool, ops_enq, burst_sz); - TEST_ASSERT_SUCCESS(ret, "rte_bbdev_op_alloc_bulk() failed"); + TEST_ASSERT_SUCCESS(ret, + "rte_bbdev_enc_op_alloc_bulk() failed"); if (test_vector.op_type != RTE_BBDEV_OP_NONE) copy_reference_enc_op(ops_enq, burst_sz, dequeued, bufs->inputs, @@ -3181,13 +3618,13 @@ typedef int (test_case_function)(struct active_device *ad, &ops_enq[enq], burst_sz - enq); } while (unlikely(burst_sz != enq)); + enq_sw_last_time = rte_rdtsc_precise() - enq_start_time; + ret = get_bbdev_queue_stats(dev_id, queue_id, &stats); TEST_ASSERT_SUCCESS(ret, "Failed to get stats for queue (%u) of device (%u)", queue_id, dev_id); - - enq_sw_last_time = rte_rdtsc_precise() - enq_start_time - - stats.acc_offload_cycles; + enq_sw_last_time -= stats.acc_offload_cycles; time_st->enq_sw_max_time = RTE_MAX(time_st->enq_sw_max_time, enq_sw_last_time); time_st->enq_sw_min_time = RTE_MIN(time_st->enq_sw_min_time, @@ -3249,7 +3686,8 @@ typedef int (test_case_function)(struct active_device *ad, burst_sz = num_to_process - dequeued; ret = rte_bbdev_enc_op_alloc_bulk(mempool, ops_enq, burst_sz); - TEST_ASSERT_SUCCESS(ret, "rte_bbdev_op_alloc_bulk() failed"); + TEST_ASSERT_SUCCESS(ret, + "rte_bbdev_enc_op_alloc_bulk() failed"); if (test_vector.op_type != RTE_BBDEV_OP_NONE) copy_reference_ldpc_enc_op(ops_enq, burst_sz, dequeued, bufs->inputs, @@ -3263,13 +3701,13 @@ typedef int (test_case_function)(struct active_device *ad, &ops_enq[enq], burst_sz - enq); } while (unlikely(burst_sz != enq)); + enq_sw_last_time = rte_rdtsc_precise() - enq_start_time; ret = get_bbdev_queue_stats(dev_id, queue_id, &stats); TEST_ASSERT_SUCCESS(ret, "Failed to get stats for queue (%u) of device (%u)", queue_id, dev_id); - enq_sw_last_time = rte_rdtsc_precise() - enq_start_time - - stats.acc_offload_cycles; + enq_sw_last_time -= stats.acc_offload_cycles; time_st->enq_sw_max_time = RTE_MAX(time_st->enq_sw_max_time, enq_sw_last_time); time_st->enq_sw_min_time = RTE_MIN(time_st->enq_sw_min_time, diff --git a/app/test-bbdev/test_bbdev_vector.c b/app/test-bbdev/test_bbdev_vector.c index 77356cb..50d1da0 100644 --- a/app/test-bbdev/test_bbdev_vector.c +++ b/app/test-bbdev/test_bbdev_vector.c @@ -197,6 +197,9 @@ else if (!strcmp(token, "RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE")) *op_flag_value = RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_OUT_ENABLE; + else if (!strcmp(token, + "RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK")) + *op_flag_value = RTE_BBDEV_LDPC_INTERNAL_HARQ_MEMORY_LOOPBACK; else { printf("The given value is not a LDPC decoder flag\n"); return -1; @@ -943,16 +946,10 @@ unsigned char i; struct rte_bbdev_op_ldpc_dec *ldpc_dec = &vector->ldpc_dec; - if (vector->entries[DATA_INPUT].nb_segments == 0) - return -1; - for (i = 0; i < vector->entries[DATA_INPUT].nb_segments; i++) if (vector->entries[DATA_INPUT].segments[i].addr == NULL) return -1; - if (vector->entries[DATA_HARD_OUTPUT].nb_segments == 0) - return -1; - for (i = 0; i < vector->entries[DATA_HARD_OUTPUT].nb_segments; i++) if (vector->entries[DATA_HARD_OUTPUT].segments[i].addr == NULL) return -1; -- 1.8.3.1