#include #include #include // #define BENCHMARK 1 FST_MINCORE_BEGIN("./conf") FST_SUITE_BEGIN(switch_event) FST_SETUP_BEGIN() { } FST_SETUP_END() FST_TEARDOWN_BEGIN() { } FST_TEARDOWN_END() FST_TEST_BEGIN(benchmark) { switch_event_t *event = NULL; switch_bool_t verbose = SWITCH_TRUE; const char *err = NULL; switch_time_t start_ts, end_ts; int rc = 0, loops = 10, x = 0; switch_status_t status = SWITCH_STATUS_SUCCESS; char **index = NULL; uint64_t micro_total = 0; double micro_per = 0; double rate_per_sec = 0; #ifdef BENCHMARK switch_time_t small_start_ts, small_end_ts; #endif index = calloc(loops, sizeof(char *)); for ( x = 0; x < loops; x++) { index[x] = switch_mprintf("%d", x); } /* START LOOPS */ start_ts = switch_time_now(); status = switch_event_create(&event, SWITCH_EVENT_MESSAGE); fst_xcheck(status == SWITCH_STATUS_SUCCESS, "Failed to create event"); #ifndef BENCHMARK for ( x = 0; x < loops; x++) { status = switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, index[x], index[x]); fst_xcheck(status == SWITCH_STATUS_SUCCESS, "Failed to add header to event"); } #else small_start_ts = switch_time_now(); for ( x = 0; x < loops; x++) { if ( switch_event_add_header_string(event, SWITCH_STACK_BOTTOM, index[x], index[x]) != SWITCH_STATUS_SUCCESS) { fst_fail("Failed to add header to event"); } } small_end_ts = switch_time_now(); micro_total = small_end_ts - small_start_ts; micro_per = micro_total / (double) loops; rate_per_sec = 1000000 / micro_per; printf("switch_event add_header: Total %" SWITCH_UINT64_T_FMT "us / %d loops, %.2f us per loop, %.0f loops per second\n", micro_total, loops, micro_per, rate_per_sec); #endif #ifndef BENCHMARK for ( x = 0; x < loops; x++) { fst_check_string_equals(switch_event_get_header(event, index[x]), index[x]); } #else small_start_ts = switch_time_now(); for ( x = 0; x < loops; x++) { if ( !switch_event_get_header(event, index[x])) { fst_fail("Failed to lookup event header value"); } } small_end_ts = switch_time_now(); micro_total = small_end_ts - small_start_ts; micro_per = micro_total / (double) loops; rate_per_sec = 1000000 / micro_per; printf("switch_event get_header: Total %" SWITCH_UINT64_T_FMT "us / %d loops, %.2f us per loop, %.0f loops per second\n", micro_total, loops, micro_per, rate_per_sec); #endif switch_event_destroy(&event); /* END LOOPS */ end_ts = switch_time_now(); for ( x = 0; x < loops; x++) { free(index[x]); } free(index); micro_total = end_ts - start_ts; micro_per = micro_total / (double) loops; rate_per_sec = 1000000 / micro_per; printf("switch_event Total %" SWITCH_UINT64_T_FMT "us / %d loops, %.2f us per loop, %.0f loops per second\n", micro_total, loops, micro_per, rate_per_sec); } FST_TEST_END() FST_SUITE_END() FST_MINCORE_END()