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authorLuca Boccassi <luca.boccassi@gmail.com>2018-08-14 18:52:30 +0100
committerLuca Boccassi <luca.boccassi@gmail.com>2018-08-14 18:53:17 +0100
commitb63264c8342e6a1b6971c79550d2af2024b6a4de (patch)
tree83114aac64286fe616506c0b3dfaec2ab86ef835 /app/test-bbdev/test_bbdev_perf.c
parentca33590b6af032bff57d9cc70455660466a654b2 (diff)
New upstream version 18.08upstream/18.08
Change-Id: I32fdf5e5016556d9c0a6d88ddaf1fc468961790a Signed-off-by: Luca Boccassi <luca.boccassi@gmail.com>
Diffstat (limited to 'app/test-bbdev/test_bbdev_perf.c')
-rw-r--r--app/test-bbdev/test_bbdev_perf.c407
1 files changed, 330 insertions, 77 deletions
diff --git a/app/test-bbdev/test_bbdev_perf.c b/app/test-bbdev/test_bbdev_perf.c
index 00f3b085..6861edc4 100644
--- a/app/test-bbdev/test_bbdev_perf.c
+++ b/app/test-bbdev/test_bbdev_perf.c
@@ -4,6 +4,7 @@
#include <stdio.h>
#include <inttypes.h>
+#include <math.h>
#include <rte_eal.h>
#include <rte_common.h>
@@ -83,6 +84,30 @@ struct thread_params {
struct test_op_params *op_params;
};
+#ifdef RTE_BBDEV_OFFLOAD_COST
+/* Stores time statistics */
+struct test_time_stats {
+ /* Stores software enqueue total working time */
+ uint64_t enq_sw_tot_time;
+ /* Stores minimum value of software enqueue working time */
+ uint64_t enq_sw_min_time;
+ /* Stores maximum value of software enqueue working time */
+ uint64_t enq_sw_max_time;
+ /* Stores turbo enqueue total working time */
+ uint64_t enq_tur_tot_time;
+ /* Stores minimum value of turbo enqueue working time */
+ uint64_t enq_tur_min_time;
+ /* Stores maximum value of turbo enqueue working time */
+ uint64_t enq_tur_max_time;
+ /* Stores dequeue total working time */
+ uint64_t deq_tot_time;
+ /* Stores minimum value of dequeue working time */
+ uint64_t deq_min_time;
+ /* Stores maximum value of dequeue working time */
+ uint64_t deq_max_time;
+};
+#endif
+
typedef int (test_case_function)(struct active_device *ad,
struct test_op_params *op_params);
@@ -609,10 +634,32 @@ allocate_buffers_on_socket(struct rte_bbdev_op_data **buffers, const int len,
return (*buffers == NULL) ? TEST_FAILED : TEST_SUCCESS;
}
+static void
+limit_input_llr_val_range(struct rte_bbdev_op_data *input_ops,
+ uint16_t n, int8_t max_llr_modulus)
+{
+ uint16_t i, byte_idx;
+
+ for (i = 0; i < n; ++i) {
+ struct rte_mbuf *m = input_ops[i].data;
+ while (m != NULL) {
+ int8_t *llr = rte_pktmbuf_mtod_offset(m, int8_t *,
+ input_ops[i].offset);
+ for (byte_idx = 0; byte_idx < input_ops[i].length;
+ ++byte_idx)
+ llr[byte_idx] = round((double)max_llr_modulus *
+ llr[byte_idx] / INT8_MAX);
+
+ m = m->next;
+ }
+ }
+}
+
static int
fill_queue_buffers(struct test_op_params *op_params,
struct rte_mempool *in_mp, struct rte_mempool *hard_out_mp,
struct rte_mempool *soft_out_mp, uint16_t queue_id,
+ const struct rte_bbdev_op_cap *capabilities,
uint16_t min_alignment, const int socket_id)
{
int ret;
@@ -649,6 +696,10 @@ fill_queue_buffers(struct test_op_params *op_params,
"Couldn't init rte_bbdev_op_data structs");
}
+ if (test_vector.op_type == RTE_BBDEV_OP_TURBO_DEC)
+ limit_input_llr_val_range(*queue_ops[DATA_INPUT], n,
+ capabilities->cap.turbo_dec.max_llr_modulus);
+
return 0;
}
@@ -995,6 +1046,7 @@ run_test_case_on_device(test_case_function *test_case_func, uint8_t dev_id,
struct active_device *ad;
unsigned int burst_sz = get_burst_sz();
enum rte_bbdev_op_type op_type = test_vector.op_type;
+ const struct rte_bbdev_op_cap *capabilities = NULL;
ad = &active_devs[dev_id];
@@ -1027,9 +1079,20 @@ run_test_case_on_device(test_case_function *test_case_func, uint8_t dev_id,
goto fail;
}
- if (test_vector.op_type == RTE_BBDEV_OP_TURBO_DEC)
+ if (test_vector.op_type == RTE_BBDEV_OP_TURBO_DEC) {
+ /* Find Decoder capabilities */
+ const struct rte_bbdev_op_cap *cap = info.drv.capabilities;
+ while (cap->type != RTE_BBDEV_OP_NONE) {
+ if (cap->type == RTE_BBDEV_OP_TURBO_DEC) {
+ capabilities = cap;
+ break;
+ }
+ }
+ TEST_ASSERT_NOT_NULL(capabilities,
+ "Couldn't find Decoder capabilities");
+
create_reference_dec_op(op_params->ref_dec_op);
- else if (test_vector.op_type == RTE_BBDEV_OP_TURBO_ENC)
+ } else if (test_vector.op_type == RTE_BBDEV_OP_TURBO_ENC)
create_reference_enc_op(op_params->ref_enc_op);
for (i = 0; i < ad->nb_queues; ++i) {
@@ -1038,6 +1101,7 @@ run_test_case_on_device(test_case_function *test_case_func, uint8_t dev_id,
ad->hard_out_mbuf_pool,
ad->soft_out_mbuf_pool,
ad->queue_ids[i],
+ capabilities,
info.drv.min_alignment,
socket_id);
if (f_ret != TEST_SUCCESS) {
@@ -1104,7 +1168,6 @@ dequeue_event_callback(uint16_t dev_id,
double in_len;
struct thread_params *tp = cb_arg;
-
RTE_SET_USED(ret_param);
queue_id = tp->queue_id;
@@ -1649,25 +1712,28 @@ throughput_test(struct active_device *ad,
}
static int
-operation_latency_test_dec(struct rte_mempool *mempool,
+latency_test_dec(struct rte_mempool *mempool,
struct test_buffers *bufs, struct rte_bbdev_dec_op *ref_op,
int vector_mask, uint16_t dev_id, uint16_t queue_id,
const uint16_t num_to_process, uint16_t burst_sz,
- uint64_t *total_time)
+ uint64_t *total_time, uint64_t *min_time, uint64_t *max_time)
{
int ret = TEST_SUCCESS;
uint16_t i, j, dequeued;
struct rte_bbdev_dec_op *ops_enq[MAX_BURST], *ops_deq[MAX_BURST];
- uint64_t start_time = 0;
+ uint64_t start_time = 0, last_time = 0;
for (i = 0, dequeued = 0; dequeued < num_to_process; ++i) {
uint16_t enq = 0, deq = 0;
bool first_time = true;
+ last_time = 0;
if (unlikely(num_to_process - dequeued < burst_sz))
burst_sz = num_to_process - dequeued;
- rte_bbdev_dec_op_alloc_bulk(mempool, ops_enq, burst_sz);
+ ret = rte_bbdev_dec_op_alloc_bulk(mempool, ops_enq, burst_sz);
+ TEST_ASSERT_SUCCESS(ret,
+ "rte_bbdev_dec_op_alloc_bulk() failed");
if (test_vector.op_type != RTE_BBDEV_OP_NONE)
copy_reference_dec_op(ops_enq, burst_sz, dequeued,
bufs->inputs,
@@ -1692,11 +1758,15 @@ operation_latency_test_dec(struct rte_mempool *mempool,
deq += rte_bbdev_dequeue_dec_ops(dev_id, queue_id,
&ops_deq[deq], burst_sz - deq);
if (likely(first_time && (deq > 0))) {
- *total_time += rte_rdtsc_precise() - start_time;
+ last_time = rte_rdtsc_precise() - start_time;
first_time = false;
}
} while (unlikely(burst_sz != deq));
+ *max_time = RTE_MAX(*max_time, last_time);
+ *min_time = RTE_MIN(*min_time, last_time);
+ *total_time += last_time;
+
if (test_vector.op_type != RTE_BBDEV_OP_NONE) {
ret = validate_dec_op(ops_deq, burst_sz, ref_op,
vector_mask);
@@ -1711,25 +1781,28 @@ operation_latency_test_dec(struct rte_mempool *mempool,
}
static int
-operation_latency_test_enc(struct rte_mempool *mempool,
+latency_test_enc(struct rte_mempool *mempool,
struct test_buffers *bufs, struct rte_bbdev_enc_op *ref_op,
uint16_t dev_id, uint16_t queue_id,
const uint16_t num_to_process, uint16_t burst_sz,
- uint64_t *total_time)
+ uint64_t *total_time, uint64_t *min_time, uint64_t *max_time)
{
int ret = TEST_SUCCESS;
uint16_t i, j, dequeued;
struct rte_bbdev_enc_op *ops_enq[MAX_BURST], *ops_deq[MAX_BURST];
- uint64_t start_time = 0;
+ uint64_t start_time = 0, last_time = 0;
for (i = 0, dequeued = 0; dequeued < num_to_process; ++i) {
uint16_t enq = 0, deq = 0;
bool first_time = true;
+ last_time = 0;
if (unlikely(num_to_process - dequeued < burst_sz))
burst_sz = num_to_process - dequeued;
- rte_bbdev_enc_op_alloc_bulk(mempool, ops_enq, burst_sz);
+ 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)
copy_reference_enc_op(ops_enq, burst_sz, dequeued,
bufs->inputs,
@@ -1753,11 +1826,15 @@ operation_latency_test_enc(struct rte_mempool *mempool,
deq += rte_bbdev_dequeue_enc_ops(dev_id, queue_id,
&ops_deq[deq], burst_sz - deq);
if (likely(first_time && (deq > 0))) {
- *total_time += rte_rdtsc_precise() - start_time;
+ last_time += rte_rdtsc_precise() - start_time;
first_time = false;
}
} while (unlikely(burst_sz != deq));
+ *max_time = RTE_MAX(*max_time, last_time);
+ *min_time = RTE_MIN(*min_time, last_time);
+ *total_time += last_time;
+
if (test_vector.op_type != RTE_BBDEV_OP_NONE) {
ret = validate_enc_op(ops_deq, burst_sz, ref_op);
TEST_ASSERT_SUCCESS(ret, "Validation failed!");
@@ -1771,7 +1848,7 @@ operation_latency_test_enc(struct rte_mempool *mempool,
}
static int
-operation_latency_test(struct active_device *ad,
+latency_test(struct active_device *ad,
struct test_op_params *op_params)
{
int iter;
@@ -1781,9 +1858,12 @@ operation_latency_test(struct active_device *ad,
const uint16_t queue_id = ad->queue_ids[0];
struct test_buffers *bufs = NULL;
struct rte_bbdev_info info;
- uint64_t total_time = 0;
+ uint64_t total_time, min_time, max_time;
const char *op_type_str;
+ total_time = max_time = 0;
+ min_time = UINT64_MAX;
+
TEST_ASSERT_SUCCESS((burst_sz > MAX_BURST),
"BURST_SIZE should be <= %u", MAX_BURST);
@@ -1798,36 +1878,66 @@ operation_latency_test(struct active_device *ad,
info.dev_name, burst_sz, num_to_process, op_type_str);
if (op_type == RTE_BBDEV_OP_TURBO_DEC)
- iter = operation_latency_test_dec(op_params->mp, bufs,
+ iter = latency_test_dec(op_params->mp, bufs,
op_params->ref_dec_op, op_params->vector_mask,
ad->dev_id, queue_id, num_to_process,
- burst_sz, &total_time);
+ burst_sz, &total_time, &min_time, &max_time);
else
- iter = operation_latency_test_enc(op_params->mp, bufs,
+ iter = latency_test_enc(op_params->mp, bufs,
op_params->ref_enc_op, ad->dev_id, queue_id,
- num_to_process, burst_sz, &total_time);
+ num_to_process, burst_sz, &total_time,
+ &min_time, &max_time);
if (iter <= 0)
return TEST_FAILED;
- printf("\toperation avg. latency: %lg cycles, %lg us\n",
+ printf("\toperation latency:\n"
+ "\t\tavg latency: %lg cycles, %lg us\n"
+ "\t\tmin latency: %lg cycles, %lg us\n"
+ "\t\tmax latency: %lg cycles, %lg us\n",
(double)total_time / (double)iter,
(double)(total_time * 1000000) / (double)iter /
+ (double)rte_get_tsc_hz(), (double)min_time,
+ (double)(min_time * 1000000) / (double)rte_get_tsc_hz(),
+ (double)max_time, (double)(max_time * 1000000) /
(double)rte_get_tsc_hz());
return TEST_SUCCESS;
}
+#ifdef RTE_BBDEV_OFFLOAD_COST
+static int
+get_bbdev_queue_stats(uint16_t dev_id, uint16_t queue_id,
+ struct rte_bbdev_stats *stats)
+{
+ struct rte_bbdev *dev = &rte_bbdev_devices[dev_id];
+ struct rte_bbdev_stats *q_stats;
+
+ if (queue_id >= dev->data->num_queues)
+ return -1;
+
+ q_stats = &dev->data->queues[queue_id].queue_stats;
+
+ stats->enqueued_count = q_stats->enqueued_count;
+ stats->dequeued_count = q_stats->dequeued_count;
+ stats->enqueue_err_count = q_stats->enqueue_err_count;
+ stats->dequeue_err_count = q_stats->dequeue_err_count;
+ stats->offload_time = q_stats->offload_time;
+
+ return 0;
+}
+
static int
offload_latency_test_dec(struct rte_mempool *mempool, struct test_buffers *bufs,
struct rte_bbdev_dec_op *ref_op, uint16_t dev_id,
uint16_t queue_id, const uint16_t num_to_process,
- uint16_t burst_sz, uint64_t *enq_total_time,
- uint64_t *deq_total_time)
+ uint16_t burst_sz, struct test_time_stats *time_st)
{
- int i, dequeued;
+ int i, dequeued, ret;
struct rte_bbdev_dec_op *ops_enq[MAX_BURST], *ops_deq[MAX_BURST];
uint64_t enq_start_time, deq_start_time;
+ uint64_t enq_sw_last_time, deq_last_time;
+ struct rte_bbdev_stats stats;
for (i = 0, dequeued = 0; dequeued < num_to_process; ++i) {
uint16_t enq = 0, deq = 0;
@@ -1843,24 +1953,54 @@ offload_latency_test_dec(struct rte_mempool *mempool, struct test_buffers *bufs,
bufs->soft_outputs,
ref_op);
- /* Start time measurment for enqueue function offload latency */
- enq_start_time = rte_rdtsc();
+ /* Start time meas for enqueue function offload latency */
+ enq_start_time = rte_rdtsc_precise();
do {
enq += rte_bbdev_enqueue_dec_ops(dev_id, queue_id,
&ops_enq[enq], burst_sz - enq);
} while (unlikely(burst_sz != enq));
- *enq_total_time += rte_rdtsc() - 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.offload_time;
+ 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,
+ enq_sw_last_time);
+ time_st->enq_sw_tot_time += enq_sw_last_time;
+
+ time_st->enq_tur_max_time = RTE_MAX(time_st->enq_tur_max_time,
+ stats.offload_time);
+ time_st->enq_tur_min_time = RTE_MIN(time_st->enq_tur_min_time,
+ stats.offload_time);
+ time_st->enq_tur_tot_time += stats.offload_time;
/* ensure enqueue has been completed */
rte_delay_ms(10);
- /* Start time measurment for dequeue function offload latency */
- deq_start_time = rte_rdtsc();
+ /* Start time meas for dequeue function offload latency */
+ deq_start_time = rte_rdtsc_precise();
+ /* Dequeue one operation */
do {
deq += rte_bbdev_dequeue_dec_ops(dev_id, queue_id,
+ &ops_deq[deq], 1);
+ } while (unlikely(deq != 1));
+
+ deq_last_time = rte_rdtsc_precise() - deq_start_time;
+ time_st->deq_max_time = RTE_MAX(time_st->deq_max_time,
+ deq_last_time);
+ time_st->deq_min_time = RTE_MIN(time_st->deq_min_time,
+ deq_last_time);
+ time_st->deq_tot_time += deq_last_time;
+
+ /* Dequeue remaining operations if needed*/
+ while (burst_sz != deq)
+ deq += rte_bbdev_dequeue_dec_ops(dev_id, queue_id,
&ops_deq[deq], burst_sz - deq);
- } while (unlikely(burst_sz != deq));
- *deq_total_time += rte_rdtsc() - deq_start_time;
rte_bbdev_dec_op_free_bulk(ops_enq, deq);
dequeued += deq;
@@ -1873,12 +2013,13 @@ static int
offload_latency_test_enc(struct rte_mempool *mempool, struct test_buffers *bufs,
struct rte_bbdev_enc_op *ref_op, uint16_t dev_id,
uint16_t queue_id, const uint16_t num_to_process,
- uint16_t burst_sz, uint64_t *enq_total_time,
- uint64_t *deq_total_time)
+ uint16_t burst_sz, struct test_time_stats *time_st)
{
- int i, dequeued;
+ int i, dequeued, ret;
struct rte_bbdev_enc_op *ops_enq[MAX_BURST], *ops_deq[MAX_BURST];
uint64_t enq_start_time, deq_start_time;
+ uint64_t enq_sw_last_time, deq_last_time;
+ struct rte_bbdev_stats stats;
for (i = 0, dequeued = 0; dequeued < num_to_process; ++i) {
uint16_t enq = 0, deq = 0;
@@ -1893,24 +2034,53 @@ offload_latency_test_enc(struct rte_mempool *mempool, struct test_buffers *bufs,
bufs->hard_outputs,
ref_op);
- /* Start time measurment for enqueue function offload latency */
- enq_start_time = rte_rdtsc();
+ /* Start time meas for enqueue function offload latency */
+ enq_start_time = rte_rdtsc_precise();
do {
enq += rte_bbdev_enqueue_enc_ops(dev_id, queue_id,
&ops_enq[enq], burst_sz - enq);
} while (unlikely(burst_sz != enq));
- *enq_total_time += rte_rdtsc() - 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.offload_time;
+ 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,
+ enq_sw_last_time);
+ time_st->enq_sw_tot_time += enq_sw_last_time;
+
+ time_st->enq_tur_max_time = RTE_MAX(time_st->enq_tur_max_time,
+ stats.offload_time);
+ time_st->enq_tur_min_time = RTE_MIN(time_st->enq_tur_min_time,
+ stats.offload_time);
+ time_st->enq_tur_tot_time += stats.offload_time;
/* ensure enqueue has been completed */
rte_delay_ms(10);
- /* Start time measurment for dequeue function offload latency */
- deq_start_time = rte_rdtsc();
+ /* Start time meas for dequeue function offload latency */
+ deq_start_time = rte_rdtsc_precise();
+ /* Dequeue one operation */
do {
deq += rte_bbdev_dequeue_enc_ops(dev_id, queue_id,
+ &ops_deq[deq], 1);
+ } while (unlikely(deq != 1));
+
+ deq_last_time = rte_rdtsc_precise() - deq_start_time;
+ time_st->deq_max_time = RTE_MAX(time_st->deq_max_time,
+ deq_last_time);
+ time_st->deq_min_time = RTE_MIN(time_st->deq_min_time,
+ deq_last_time);
+ time_st->deq_tot_time += deq_last_time;
+
+ while (burst_sz != deq)
+ deq += rte_bbdev_dequeue_enc_ops(dev_id, queue_id,
&ops_deq[deq], burst_sz - deq);
- } while (unlikely(burst_sz != deq));
- *deq_total_time += rte_rdtsc() - deq_start_time;
rte_bbdev_enc_op_free_bulk(ops_enq, deq);
dequeued += deq;
@@ -1918,13 +2088,20 @@ offload_latency_test_enc(struct rte_mempool *mempool, struct test_buffers *bufs,
return i;
}
+#endif
static int
-offload_latency_test(struct active_device *ad,
+offload_cost_test(struct active_device *ad,
struct test_op_params *op_params)
{
+#ifndef RTE_BBDEV_OFFLOAD_COST
+ RTE_SET_USED(ad);
+ RTE_SET_USED(op_params);
+ printf("Offload latency test is disabled.\n");
+ printf("Set RTE_BBDEV_OFFLOAD_COST to 'y' to turn the test on.\n");
+ return TEST_SKIPPED;
+#else
int iter;
- uint64_t enq_total_time = 0, deq_total_time = 0;
uint16_t burst_sz = op_params->burst_sz;
const uint16_t num_to_process = op_params->num_to_process;
const enum rte_bbdev_op_type op_type = test_vector.op_type;
@@ -1932,6 +2109,12 @@ offload_latency_test(struct active_device *ad,
struct test_buffers *bufs = NULL;
struct rte_bbdev_info info;
const char *op_type_str;
+ struct test_time_stats time_st;
+
+ memset(&time_st, 0, sizeof(struct test_time_stats));
+ time_st.enq_sw_min_time = UINT64_MAX;
+ time_st.enq_tur_min_time = UINT64_MAX;
+ time_st.deq_min_time = UINT64_MAX;
TEST_ASSERT_SUCCESS((burst_sz > MAX_BURST),
"BURST_SIZE should be <= %u", MAX_BURST);
@@ -1949,48 +2132,82 @@ offload_latency_test(struct active_device *ad,
if (op_type == RTE_BBDEV_OP_TURBO_DEC)
iter = offload_latency_test_dec(op_params->mp, bufs,
op_params->ref_dec_op, ad->dev_id, queue_id,
- num_to_process, burst_sz, &enq_total_time,
- &deq_total_time);
+ num_to_process, burst_sz, &time_st);
else
iter = offload_latency_test_enc(op_params->mp, bufs,
op_params->ref_enc_op, ad->dev_id, queue_id,
- num_to_process, burst_sz, &enq_total_time,
- &deq_total_time);
+ num_to_process, burst_sz, &time_st);
if (iter <= 0)
return TEST_FAILED;
- printf("\tenq offload avg. latency: %lg cycles, %lg us\n",
- (double)enq_total_time / (double)iter,
- (double)(enq_total_time * 1000000) / (double)iter /
- (double)rte_get_tsc_hz());
-
- printf("\tdeq offload avg. latency: %lg cycles, %lg us\n",
- (double)deq_total_time / (double)iter,
- (double)(deq_total_time * 1000000) / (double)iter /
- (double)rte_get_tsc_hz());
+ printf("\tenq offload cost latency:\n"
+ "\t\tsoftware avg %lg cycles, %lg us\n"
+ "\t\tsoftware min %lg cycles, %lg us\n"
+ "\t\tsoftware max %lg cycles, %lg us\n"
+ "\t\tturbo avg %lg cycles, %lg us\n"
+ "\t\tturbo min %lg cycles, %lg us\n"
+ "\t\tturbo max %lg cycles, %lg us\n",
+ (double)time_st.enq_sw_tot_time / (double)iter,
+ (double)(time_st.enq_sw_tot_time * 1000000) /
+ (double)iter / (double)rte_get_tsc_hz(),
+ (double)time_st.enq_sw_min_time,
+ (double)(time_st.enq_sw_min_time * 1000000) /
+ rte_get_tsc_hz(), (double)time_st.enq_sw_max_time,
+ (double)(time_st.enq_sw_max_time * 1000000) /
+ rte_get_tsc_hz(), (double)time_st.enq_tur_tot_time /
+ (double)iter,
+ (double)(time_st.enq_tur_tot_time * 1000000) /
+ (double)iter / (double)rte_get_tsc_hz(),
+ (double)time_st.enq_tur_min_time,
+ (double)(time_st.enq_tur_min_time * 1000000) /
+ rte_get_tsc_hz(), (double)time_st.enq_tur_max_time,
+ (double)(time_st.enq_tur_max_time * 1000000) /
+ rte_get_tsc_hz());
+
+ printf("\tdeq offload cost latency - one op:\n"
+ "\t\tavg %lg cycles, %lg us\n"
+ "\t\tmin %lg cycles, %lg us\n"
+ "\t\tmax %lg cycles, %lg us\n",
+ (double)time_st.deq_tot_time / (double)iter,
+ (double)(time_st.deq_tot_time * 1000000) /
+ (double)iter / (double)rte_get_tsc_hz(),
+ (double)time_st.deq_min_time,
+ (double)(time_st.deq_min_time * 1000000) /
+ rte_get_tsc_hz(), (double)time_st.deq_max_time,
+ (double)(time_st.deq_max_time * 1000000) /
+ rte_get_tsc_hz());
return TEST_SUCCESS;
+#endif
}
+#ifdef RTE_BBDEV_OFFLOAD_COST
static int
offload_latency_empty_q_test_dec(uint16_t dev_id, uint16_t queue_id,
const uint16_t num_to_process, uint16_t burst_sz,
- uint64_t *deq_total_time)
+ uint64_t *deq_tot_time, uint64_t *deq_min_time,
+ uint64_t *deq_max_time)
{
int i, deq_total;
struct rte_bbdev_dec_op *ops[MAX_BURST];
- uint64_t deq_start_time;
+ uint64_t deq_start_time, deq_last_time;
/* Test deq offload latency from an empty queue */
- deq_start_time = rte_rdtsc_precise();
+
for (i = 0, deq_total = 0; deq_total < num_to_process;
++i, deq_total += burst_sz) {
+ deq_start_time = rte_rdtsc_precise();
+
if (unlikely(num_to_process - deq_total < burst_sz))
burst_sz = num_to_process - deq_total;
rte_bbdev_dequeue_dec_ops(dev_id, queue_id, ops, burst_sz);
+
+ deq_last_time = rte_rdtsc_precise() - deq_start_time;
+ *deq_max_time = RTE_MAX(*deq_max_time, deq_last_time);
+ *deq_min_time = RTE_MIN(*deq_min_time, deq_last_time);
+ *deq_tot_time += deq_last_time;
}
- *deq_total_time = rte_rdtsc_precise() - deq_start_time;
return i;
}
@@ -1998,31 +2215,45 @@ offload_latency_empty_q_test_dec(uint16_t dev_id, uint16_t queue_id,
static int
offload_latency_empty_q_test_enc(uint16_t dev_id, uint16_t queue_id,
const uint16_t num_to_process, uint16_t burst_sz,
- uint64_t *deq_total_time)
+ uint64_t *deq_tot_time, uint64_t *deq_min_time,
+ uint64_t *deq_max_time)
{
int i, deq_total;
struct rte_bbdev_enc_op *ops[MAX_BURST];
- uint64_t deq_start_time;
+ uint64_t deq_start_time, deq_last_time;
/* Test deq offload latency from an empty queue */
- deq_start_time = rte_rdtsc_precise();
for (i = 0, deq_total = 0; deq_total < num_to_process;
++i, deq_total += burst_sz) {
+ deq_start_time = rte_rdtsc_precise();
+
if (unlikely(num_to_process - deq_total < burst_sz))
burst_sz = num_to_process - deq_total;
rte_bbdev_dequeue_enc_ops(dev_id, queue_id, ops, burst_sz);
+
+ deq_last_time = rte_rdtsc_precise() - deq_start_time;
+ *deq_max_time = RTE_MAX(*deq_max_time, deq_last_time);
+ *deq_min_time = RTE_MIN(*deq_min_time, deq_last_time);
+ *deq_tot_time += deq_last_time;
}
- *deq_total_time = rte_rdtsc_precise() - deq_start_time;
return i;
}
+#endif
static int
offload_latency_empty_q_test(struct active_device *ad,
struct test_op_params *op_params)
{
+#ifndef RTE_BBDEV_OFFLOAD_COST
+ RTE_SET_USED(ad);
+ RTE_SET_USED(op_params);
+ printf("Offload latency empty dequeue test is disabled.\n");
+ printf("Set RTE_BBDEV_OFFLOAD_COST to 'y' to turn the test on.\n");
+ return TEST_SKIPPED;
+#else
int iter;
- uint64_t deq_total_time = 0;
+ uint64_t deq_tot_time, deq_min_time, deq_max_time;
uint16_t burst_sz = op_params->burst_sz;
const uint16_t num_to_process = op_params->num_to_process;
const enum rte_bbdev_op_type op_type = test_vector.op_type;
@@ -2030,6 +2261,9 @@ offload_latency_empty_q_test(struct active_device *ad,
struct rte_bbdev_info info;
const char *op_type_str;
+ deq_tot_time = deq_max_time = 0;
+ deq_min_time = UINT64_MAX;
+
TEST_ASSERT_SUCCESS((burst_sz > MAX_BURST),
"BURST_SIZE should be <= %u", MAX_BURST);
@@ -2044,20 +2278,29 @@ offload_latency_empty_q_test(struct active_device *ad,
if (op_type == RTE_BBDEV_OP_TURBO_DEC)
iter = offload_latency_empty_q_test_dec(ad->dev_id, queue_id,
- num_to_process, burst_sz, &deq_total_time);
+ num_to_process, burst_sz, &deq_tot_time,
+ &deq_min_time, &deq_max_time);
else
iter = offload_latency_empty_q_test_enc(ad->dev_id, queue_id,
- num_to_process, burst_sz, &deq_total_time);
+ num_to_process, burst_sz, &deq_tot_time,
+ &deq_min_time, &deq_max_time);
if (iter <= 0)
return TEST_FAILED;
- printf("\tempty deq offload avg. latency: %lg cycles, %lg us\n",
- (double)deq_total_time / (double)iter,
- (double)(deq_total_time * 1000000) / (double)iter /
- (double)rte_get_tsc_hz());
+ printf("\tempty deq offload\n"
+ "\t\tavg. latency: %lg cycles, %lg us\n"
+ "\t\tmin. latency: %lg cycles, %lg us\n"
+ "\t\tmax. latency: %lg cycles, %lg us\n",
+ (double)deq_tot_time / (double)iter,
+ (double)(deq_tot_time * 1000000) / (double)iter /
+ (double)rte_get_tsc_hz(), (double)deq_min_time,
+ (double)(deq_min_time * 1000000) / rte_get_tsc_hz(),
+ (double)deq_max_time, (double)(deq_max_time * 1000000) /
+ rte_get_tsc_hz());
return TEST_SUCCESS;
+#endif
}
static int
@@ -2067,9 +2310,9 @@ throughput_tc(void)
}
static int
-offload_latency_tc(void)
+offload_cost_tc(void)
{
- return run_test_case(offload_latency_test);
+ return run_test_case(offload_cost_test);
}
static int
@@ -2079,9 +2322,9 @@ offload_latency_empty_q_tc(void)
}
static int
-operation_latency_tc(void)
+latency_tc(void)
{
- return run_test_case(operation_latency_test);
+ return run_test_case(latency_test);
}
static int
@@ -2105,7 +2348,7 @@ static struct unit_test_suite bbdev_validation_testsuite = {
.setup = testsuite_setup,
.teardown = testsuite_teardown,
.unit_test_cases = {
- TEST_CASE_ST(ut_setup, ut_teardown, operation_latency_tc),
+ TEST_CASE_ST(ut_setup, ut_teardown, latency_tc),
TEST_CASES_END() /**< NULL terminate unit test array */
}
};
@@ -2115,9 +2358,18 @@ static struct unit_test_suite bbdev_latency_testsuite = {
.setup = testsuite_setup,
.teardown = testsuite_teardown,
.unit_test_cases = {
- TEST_CASE_ST(ut_setup, ut_teardown, offload_latency_tc),
+ TEST_CASE_ST(ut_setup, ut_teardown, latency_tc),
+ TEST_CASES_END() /**< NULL terminate unit test array */
+ }
+};
+
+static struct unit_test_suite bbdev_offload_cost_testsuite = {
+ .suite_name = "BBdev Offload Cost Tests",
+ .setup = testsuite_setup,
+ .teardown = testsuite_teardown,
+ .unit_test_cases = {
+ TEST_CASE_ST(ut_setup, ut_teardown, offload_cost_tc),
TEST_CASE_ST(ut_setup, ut_teardown, offload_latency_empty_q_tc),
- TEST_CASE_ST(ut_setup, ut_teardown, operation_latency_tc),
TEST_CASES_END() /**< NULL terminate unit test array */
}
};
@@ -2135,4 +2387,5 @@ static struct unit_test_suite bbdev_interrupt_testsuite = {
REGISTER_TEST_COMMAND(throughput, bbdev_throughput_testsuite);
REGISTER_TEST_COMMAND(validation, bbdev_validation_testsuite);
REGISTER_TEST_COMMAND(latency, bbdev_latency_testsuite);
+REGISTER_TEST_COMMAND(offload, bbdev_offload_cost_testsuite);
REGISTER_TEST_COMMAND(interrupt, bbdev_interrupt_testsuite);