/* benchmark alloc-build-free of ops */ static inline int pmd_cyclecount_bench_ops(struct pmd_cyclecount_state *state, uint32_t cur_op, uint16_t test_burst_size) { uint32_t iter_ops_left = state->opts->total_ops - cur_op; uint32_t iter_ops_needed = RTE_MIN(state->opts->nb_descriptors, iter_ops_left); uint32_t cur_iter_op; uint32_t imix_idx = 0; for (cur_iter_op = 0; cur_iter_op < iter_ops_needed; cur_iter_op += test_burst_size) { uint32_t burst_size = RTE_MIN(state->opts->total_ops - cur_op, test_burst_size); struct rte_crypto_op **ops = &state->ctx->ops[cur_iter_op]; /* Allocate objects containing crypto operations and mbufs */ if (rte_mempool_get_bulk(state->ctx->pool, (void **)ops, burst_size) != 0) { RTE_LOG(ERR, USER1, "Failed to allocate more crypto operations " "from the crypto operation pool.\n" "Consider increasing the pool size " "with --pool-sz\n"); return -1; } /* Setup crypto op, attach mbuf etc */ (state->ctx->populate_ops)(ops, state->ctx->src_buf_offset, state->ctx->dst_buf_offset, burst_size, state->ctx->sess, state->opts, state->ctx->test_vector, iv_offset, &imix_idx); #ifdef CPERF_LINEARIZATION_ENABLE /* Check if source mbufs require coalescing */ if (state->linearize) { uint8_t i; for (i = 0; i < burst_size; i++) { struct rte_mbuf *src = ops[i]->sym->m_src; rte_pktmbuf_linearize(src); } } #endif /* CPERF_LINEARIZATION_ENABLE */ rte_mempool_put_bulk(state->ctx->pool, (void **)ops, burst_size); } return 0; }
int cperf_verify_test_runner(void *test_ctx) { struct cperf_verify_ctx *ctx = test_ctx; uint64_t ops_enqd = 0, ops_enqd_total = 0, ops_enqd_failed = 0; uint64_t ops_deqd = 0, ops_deqd_total = 0, ops_deqd_failed = 0; uint64_t ops_failed = 0; static int only_once; uint64_t i; uint16_t ops_unused = 0; struct rte_crypto_op *ops[ctx->options->max_burst_size]; struct rte_crypto_op *ops_processed[ctx->options->max_burst_size]; uint32_t lcore = rte_lcore_id(); #ifdef CPERF_LINEARIZATION_ENABLE struct rte_cryptodev_info dev_info; int linearize = 0; /* Check if source mbufs require coalescing */ if (ctx->options->segment_sz < ctx->options->max_buffer_size) { rte_cryptodev_info_get(ctx->dev_id, &dev_info); if ((dev_info.feature_flags & RTE_CRYPTODEV_FF_MBUF_SCATTER_GATHER) == 0) linearize = 1; } #endif /* CPERF_LINEARIZATION_ENABLE */ ctx->lcore_id = lcore; if (!ctx->options->csv) printf("\n# Running verify test on device: %u, lcore: %u\n", ctx->dev_id, lcore); uint16_t iv_offset = sizeof(struct rte_crypto_op) + sizeof(struct rte_crypto_sym_op); while (ops_enqd_total < ctx->options->total_ops) { uint16_t burst_size = ((ops_enqd_total + ctx->options->max_burst_size) <= ctx->options->total_ops) ? ctx->options->max_burst_size : ctx->options->total_ops - ops_enqd_total; uint16_t ops_needed = burst_size - ops_unused; /* Allocate objects containing crypto operations and mbufs */ if (rte_mempool_get_bulk(ctx->pool, (void **)ops, ops_needed) != 0) { RTE_LOG(ERR, USER1, "Failed to allocate more crypto operations " "from the the crypto operation pool.\n" "Consider increasing the pool size " "with --pool-sz\n"); return -1; } /* Setup crypto op, attach mbuf etc */ (ctx->populate_ops)(ops, ctx->src_buf_offset, ctx->dst_buf_offset, ops_needed, ctx->sess, ctx->options, ctx->test_vector, iv_offset); /* Populate the mbuf with the test vector, for verification */ for (i = 0; i < ops_needed; i++) cperf_mbuf_set(ops[i]->sym->m_src, ctx->options, ctx->test_vector); #ifdef CPERF_LINEARIZATION_ENABLE if (linearize) { /* PMD doesn't support scatter-gather and source buffer * is segmented. * We need to linearize it before enqueuing. */ for (i = 0; i < burst_size; i++) rte_pktmbuf_linearize(ops[i]->sym->m_src); } #endif /* CPERF_LINEARIZATION_ENABLE */ /* Enqueue burst of ops on crypto device */ ops_enqd = rte_cryptodev_enqueue_burst(ctx->dev_id, ctx->qp_id, ops, burst_size); if (ops_enqd < burst_size) ops_enqd_failed++; /** * Calculate number of ops not enqueued (mainly for hw * accelerators whose ingress queue can fill up). */ ops_unused = burst_size - ops_enqd; ops_enqd_total += ops_enqd; /* Dequeue processed burst of ops from crypto device */ ops_deqd = rte_cryptodev_dequeue_burst(ctx->dev_id, ctx->qp_id, ops_processed, ctx->options->max_burst_size); if (ops_deqd == 0) { /** * Count dequeue polls which didn't return any * processed operations. This statistic is mainly * relevant to hw accelerators. */ ops_deqd_failed++; continue; } for (i = 0; i < ops_deqd; i++) { if (cperf_verify_op(ops_processed[i], ctx->options, ctx->test_vector)) ops_failed++; } /* Free crypto ops so they can be reused. */ rte_mempool_put_bulk(ctx->pool, (void **)ops_processed, ops_deqd); ops_deqd_total += ops_deqd; } /* Dequeue any operations still in the crypto device */ while (ops_deqd_total < ctx->options->total_ops) { /* Sending 0 length burst to flush sw crypto device */ rte_cryptodev_enqueue_burst(ctx->dev_id, ctx->qp_id, NULL, 0); /* dequeue burst */ ops_deqd = rte_cryptodev_dequeue_burst(ctx->dev_id, ctx->qp_id, ops_processed, ctx->options->max_burst_size); if (ops_deqd == 0) { ops_deqd_failed++; continue; } for (i = 0; i < ops_deqd; i++) { if (cperf_verify_op(ops_processed[i], ctx->options, ctx->test_vector)) ops_failed++; } /* Free crypto ops so they can be reused. */ rte_mempool_put_bulk(ctx->pool, (void **)ops_processed, ops_deqd); ops_deqd_total += ops_deqd; } if (!ctx->options->csv) { if (!only_once) printf("%12s%12s%12s%12s%12s%12s%12s%12s\n\n", "lcore id", "Buf Size", "Burst size", "Enqueued", "Dequeued", "Failed Enq", "Failed Deq", "Failed Ops"); only_once = 1; printf("%12u%12u%12u%12"PRIu64"%12"PRIu64"%12"PRIu64 "%12"PRIu64"%12"PRIu64"\n", ctx->lcore_id, ctx->options->max_buffer_size, ctx->options->max_burst_size, ops_enqd_total, ops_deqd_total, ops_enqd_failed, ops_deqd_failed, ops_failed); } else { if (!only_once) printf("\n# lcore id, Buffer Size(B), " "Burst Size,Enqueued,Dequeued,Failed Enq," "Failed Deq,Failed Ops\n"); only_once = 1; printf("%10u;%10u;%u;%"PRIu64";%"PRIu64";%"PRIu64";%"PRIu64";" "%"PRIu64"\n", ctx->lcore_id, ctx->options->max_buffer_size, ctx->options->max_burst_size, ops_enqd_total, ops_deqd_total, ops_enqd_failed, ops_deqd_failed, ops_failed); } return 0; }