struct cperf_op_result *result;
};
-#define max(a, b) (a > b ? (uint64_t)a : (uint64_t)b)
-#define min(a, b) (a < b ? (uint64_t)a : (uint64_t)b)
-
static void
cperf_latency_test_free(struct cperf_latency_ctx *ctx)
{
uint8_t burst_size_idx = 0;
uint32_t imix_idx = 0;
- static int only_once;
+ static rte_atomic16_t display_once = RTE_ATOMIC16_INIT(0);
if (ctx == NULL)
return 0;
(void **)ops_processed, ops_deqd);
deqd_tot += ops_deqd;
- deqd_max = max(ops_deqd, deqd_max);
- deqd_min = min(ops_deqd, deqd_min);
+ deqd_max = RTE_MAX(ops_deqd, deqd_max);
+ deqd_min = RTE_MIN(ops_deqd, deqd_min);
}
enqd_tot += ops_enqd;
- enqd_max = max(ops_enqd, enqd_max);
- enqd_min = min(ops_enqd, enqd_min);
+ enqd_max = RTE_MAX(ops_enqd, enqd_max);
+ enqd_min = RTE_MIN(ops_enqd, enqd_min);
b_idx++;
}
(void **)ops_processed, ops_deqd);
deqd_tot += ops_deqd;
- deqd_max = max(ops_deqd, deqd_max);
- deqd_min = min(ops_deqd, deqd_min);
+ deqd_max = RTE_MAX(ops_deqd, deqd_max);
+ deqd_min = RTE_MIN(ops_deqd, deqd_min);
}
}
for (i = 0; i < tsc_idx; i++) {
tsc_val = ctx->res[i].tsc_end - ctx->res[i].tsc_start;
- tsc_max = max(tsc_val, tsc_max);
- tsc_min = min(tsc_val, tsc_min);
+ tsc_max = RTE_MAX(tsc_val, tsc_max);
+ tsc_min = RTE_MIN(tsc_val, tsc_min);
tsc_tot += tsc_val;
}
time_min = tunit*(double)(tsc_min) / tsc_hz;
if (ctx->options->csv) {
- if (!only_once)
+ if (rte_atomic16_test_and_set(&display_once))
printf("\n# lcore, Buffer Size, Burst Size, Pakt Seq #, "
"Packet Size, cycles, time (us)");
/ tsc_hz);
}
- only_once = 1;
} else {
printf("\n# Device %d on lcore %u\n", ctx->dev_id,
ctx->lcore_id);