This patch adds extra features to the compress performance
test. Some important parameters (memory allocation,
number of ops, number of segments) are calculated and
printed out on the screen.
Signed-off-by: Artur Trybula <arturx.trybula@intel.com>
---
.../comp_perf_test_common.c | 93 ++++++++++++++++++-
.../comp_perf_test_common.h | 3 +
app/test-compress-perf/main.c | 4 +-
3 files changed, 97 insertions(+), 3 deletions(-)
@@ -15,6 +15,18 @@
#define DIV_CEIL(a, b) ((a) / (b) + ((a) % (b) != 0))
+struct performance_tests_results {
+ uint16_t total_segments;
+ uint16_t segment_sz;
+ uint16_t last_segment_sz;
+ uint32_t total_buffs; /*number of buffers = number of ops*/
+ uint16_t segments_per_buff;
+ uint16_t segments_per_last_buff;
+ size_t input_data_sz;
+};
+
+static struct performance_tests_results tests_res;
+
int
param_range_check(uint16_t size, const struct rte_param_log2_range *range)
{
@@ -169,6 +181,13 @@ comp_perf_allocate_memory(struct comp_test_data *test_data,
" could not be allocated\n");
return -1;
}
+
+ tests_res.total_segments = total_segs;
+ tests_res.segment_sz = test_data->seg_sz;
+ tests_res.total_buffs = mem->total_bufs;
+ tests_res.segments_per_buff = test_data->max_sgl_segs;
+ tests_res.input_data_sz = test_data->input_data_sz;
+
return 0;
}
@@ -177,9 +196,10 @@ prepare_bufs(struct comp_test_data *test_data, struct cperf_mem_resources *mem)
{
uint32_t remaining_data = test_data->input_data_sz;
uint8_t *input_data_ptr = test_data->input_data;
- size_t data_sz;
+ size_t data_sz = 0;
uint8_t *data_addr;
uint32_t i, j;
+ uint16_t segs_per_mbuf = 0;
for (i = 0; i < mem->total_bufs; i++) {
/* Allocate data in input mbuf and copy data from input file */
@@ -203,7 +223,7 @@ prepare_bufs(struct comp_test_data *test_data, struct cperf_mem_resources *mem)
remaining_data -= data_sz;
/* Already one segment in the mbuf */
- uint16_t segs_per_mbuf = 1;
+ segs_per_mbuf = 1;
/* Chain mbufs if needed for input mbufs */
while (segs_per_mbuf < test_data->max_sgl_segs
@@ -280,5 +300,74 @@ prepare_bufs(struct comp_test_data *test_data, struct cperf_mem_resources *mem)
}
}
+ tests_res.segments_per_last_buff = segs_per_mbuf;
+ tests_res.last_segment_sz = data_sz;
+
return 0;
}
+
+void
+print_test_dynamics(void)
+{
+ uint32_t opt_total_segs = DIV_CEIL(tests_res.input_data_sz,
+ MAX_SEG_SIZE);
+
+ if (tests_res.total_buffs > 1) {
+ printf("\nWarning: for the current input parameters number"
+ " of ops is higher than one, which may result"
+ " in sub-optimal performance.\n");
+ printf("To improve the performance (for the current"
+ " input data) following parameters are"
+ " suggested:\n");
+ printf(" • Segment size: %d\n", MAX_SEG_SIZE);
+ printf(" • Number of segments: %u\n", opt_total_segs);
+ } else if (tests_res.total_buffs == 1) {
+ printf("\nWarning: There is only one op with %u segments –"
+ " the compression ratio is the best.\n",
+ tests_res.segments_per_last_buff);
+ if (tests_res.segment_sz < MAX_SEG_SIZE)
+ printf("To reduce compression time, please use"
+ " bigger segment size: %d.\n",
+ MAX_SEG_SIZE);
+ else if (tests_res.segment_sz == MAX_SEG_SIZE)
+ printf("Segment size is optimal for the best"
+ " performance.\n");
+ } else
+ printf("Warning: something wrong happened!!\n");
+
+ printf("\nFor the current input parameters (segment size = %u,"
+ " segments number = %u):\n",
+ tests_res.segment_sz,
+ tests_res.segments_per_buff);
+ printf(" • Total number of segments: %d\n",
+ tests_res.total_segments);
+ printf(" • %u segments %u bytes long, last segment %u"
+ " byte(s) long\n",
+ tests_res.total_segments - 1,
+ tests_res.segment_sz,
+ tests_res.last_segment_sz);
+ printf(" • Number of ops: %u\n", tests_res.total_buffs);
+ printf(" • Total memory allocation: %u\n",
+ (tests_res.total_segments - 1) * tests_res.segment_sz
+ + tests_res.last_segment_sz);
+ if (tests_res.total_buffs > 1)
+ printf(" • %u ops: %u segments in each,"
+ " segment size %u\n",
+ tests_res.total_buffs - 1,
+ tests_res.segments_per_buff,
+ tests_res.segment_sz);
+ if (tests_res.segments_per_last_buff > 1) {
+ printf(" • 1 op %u segments:\n",
+ tests_res.segments_per_last_buff);
+ printf(" o %u segment size %u\n",
+ tests_res.segments_per_last_buff - 1,
+ tests_res.segment_sz);
+ printf(" o last segment size %u\n",
+ tests_res.last_segment_sz);
+ } else if (tests_res.segments_per_last_buff == 1) {
+ printf(" • 1 op (the last one): %u segment %u"
+ " byte(s) long\n\n",
+ tests_res.segments_per_last_buff,
+ tests_res.last_segment_sz);
+ }
+}
@@ -38,4 +38,7 @@ comp_perf_allocate_memory(struct comp_test_data *test_data,
int
prepare_bufs(struct comp_test_data *test_data, struct cperf_mem_resources *mem);
+void
+print_test_dynamics(void);
+
#endif /* _COMP_PERF_TEST_COMMON_H_ */
@@ -363,7 +363,7 @@ main(int argc, char **argv)
printf("App uses socket: %u\n", rte_socket_id());
printf("Burst size = %u\n", test_data->burst_sz);
- printf("File size = %zu\n", test_data->input_data_sz);
+ printf("Input data size = %zu\n", test_data->input_data_sz);
test_data->cleanup = ST_DURING_TEST;
total_nb_qps = nb_compressdevs * test_data->nb_qps;
@@ -390,6 +390,8 @@ main(int argc, char **argv)
i++;
}
+ print_test_dynamics();
+
while (test_data->level <= test_data->level_lst.max) {
i = 0;