/*
-// Copyright (c) 2010-2017 Intel Corporation
+// Copyright (c) 2010-2020 Intel Corporation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
}
else {
return 0;
}
-static int parse_cmd_set_probability(const char *str, struct input *input)
+static int parse_cmd_set_proba_no_drop(const char *str, struct input *input)
+{
+ unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
+ float proba_no_drop;
+
+ if (parse_cores_task(str, lcores, &task_id, &nb_cores))
+ return -1;
+ if (!(str = strchr_skip_twice(str, ' ')))
+ return -1;
+ if (sscanf(str, "%f", &proba_no_drop) != 1)
+ return -1;
+
+ if (cores_task_are_valid(lcores, task_id, nb_cores)) {
+ for (unsigned int i = 0; i < nb_cores; i++) {
+ lcore_id = lcores[i];
+ if (!task_is_mode(lcore_id, task_id, "impair")) {
+ plog_err("Core %u task %u is not impairing packets\n", lcore_id, task_id);
+ } else {
+ struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
+ task_impair_set_proba_no_drop(tbase, proba_no_drop);
+ }
+ }
+ }
+ return 0;
+}
+
+static int parse_cmd_set_proba_delay(const char *str, struct input *input)
+{
+ unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
+ float proba_delay;
+
+ if (parse_cores_task(str, lcores, &task_id, &nb_cores))
+ return -1;
+ if (!(str = strchr_skip_twice(str, ' ')))
+ return -1;
+ if (sscanf(str, "%f", &proba_delay) != 1)
+ return -1;
+
+ if (cores_task_are_valid(lcores, task_id, nb_cores)) {
+ for (unsigned int i = 0; i < nb_cores; i++) {
+ lcore_id = lcores[i];
+ if (!task_is_mode(lcore_id, task_id, "impair")) {
+ plog_err("Core %u task %u is not impairing packets\n", lcore_id, task_id);
+ } else {
+ struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
+ task_impair_set_proba_delay(tbase, proba_delay);
+ }
+ }
+ }
+ return 0;
+}
+
+static int parse_cmd_set_proba_duplicate(const char *str, struct input *input)
{
unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
- float probability;
+ float proba_duplicate;
if (parse_cores_task(str, lcores, &task_id, &nb_cores))
return -1;
if (!(str = strchr_skip_twice(str, ' ')))
return -1;
- if (sscanf(str, "%f", &probability) != 1)
+ if (sscanf(str, "%f", &proba_duplicate) != 1)
return -1;
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "impair", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "impair", "l3"))){
+ if (!task_is_mode(lcore_id, task_id, "impair")) {
plog_err("Core %u task %u is not impairing packets\n", lcore_id, task_id);
} else {
struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
- task_impair_set_proba(tbase, probability);
+ task_impair_set_proba_duplicate(tbase, proba_duplicate);
}
}
}
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "impair", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "impair", "l3"))){
+ if (!task_is_mode(lcore_id, task_id, "impair")) {
plog_err("Core %u task %u is not impairing packets\n", lcore_id, task_id);
} else {
struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "impair", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "impair", "l3"))){
+ if (!task_is_mode(lcore_id, task_id, "impair")) {
plog_err("Core %u task %u is not impairing packets\n", lcore_id, task_id);
} else {
struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
} else {
struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
return 0;
}
+static int parse_cmd_imix(const char *str, struct input *input)
+{
+ unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
+ uint32_t pkt_sizes[MAX_IMIX_PKTS], tmp;
+ uint32_t pkt_index = 0;
+
+ if (parse_cores_task(str, lcores, &task_id, &nb_cores))
+ return -1;
+ if (!(str = strchr_skip_twice(str, ' ')))
+ return -1;
+ while (pkt_index < MAX_IMIX_PKTS) {
+ if (sscanf(str, "%d", &pkt_sizes[pkt_index]) != 1)
+ break;
+ pkt_index++;
+ if ((str = strchr(str, ',')) == NULL)
+ break;
+ str = str + 1;
+ }
+ if (pkt_index == 0) {
+ plog_err("No pkt size found\n");
+ return -1;
+ }
+ if ((pkt_index == MAX_IMIX_PKTS) && (str) && (sscanf(str, "%d", &tmp) == 1)) {
+ plog_err("Too many inputs - unexpected inputs starting at %s\n", str);
+ return -1;
+ }
+
+ if (cores_task_are_valid(lcores, task_id, nb_cores)) {
+ for (unsigned int i = 0; i < nb_cores; i++) {
+ lcore_id = lcores[i];
+ if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
+ } else {
+ struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
+ task_gen_set_imix(tbase, pkt_index, pkt_sizes); /* error printed within function */
+ }
+ }
+ }
+ return 0;
+}
+
static int parse_cmd_speed(const char *str, struct input *input)
{
unsigned lcores[RTE_MAX_LCORE], task_id, lcore_id, nb_cores;
for (i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
}
else if (speed > 1000.0f || speed < 0.0f) { // Up to 100 Gbps
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
}
else if (bps > 12500000000) { // Up to 100Gbps
unsigned task_id, lcore_id = -1;
while (prox_core_next(&lcore_id, 0) == 0) {
for (task_id = 0; task_id < lcore_cfg[lcore_id].n_tasks_all; task_id++) {
- if ((task_is_mode_and_submode(lcore_id, task_id, "gen", "")) || (task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
uint32_t n_rands = task_gen_get_n_randoms(tbase);
unsigned task_id, lcore_id = -1;
while (prox_core_next(&lcore_id, 0) == 0) {
for (task_id = 0; task_id < lcore_cfg[lcore_id].n_tasks_all; task_id++) {
- if ((task_is_mode_and_submode(lcore_id, task_id, "gen", "")) || (task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
plog_info("Resetting values on core %d task %d\n", lcore_id, task_id);
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
}
else {
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
}
// do not check offset here - gen knows better than us the maximum frame size
if (cores_task_are_valid(lcores, task_id, nb_cores)) {
for (unsigned int i = 0; i < nb_cores; i++) {
lcore_id = lcores[i];
- if ((!task_is_mode_and_submode(lcore_id, task_id, "gen", "")) && (!task_is_mode_and_submode(lcore_id, task_id, "gen", "l3"))) {
+ if (!task_is_mode(lcore_id, task_id, "gen")) {
plog_err("Core %u task %u is not generating packets\n", lcore_id, task_id);
}
- else if (offset > ETHER_MAX_LEN) {
- plog_err("Offset out of range (must be less then %u)\n", ETHER_MAX_LEN);
+ else if (offset > PROX_RTE_ETHER_MAX_LEN) {
+ plog_err("Offset out of range (must be less then %u)\n", PROX_RTE_ETHER_MAX_LEN);
}
else if (value_len > 4) {
plog_err("Length out of range (must be less then 4)\n");
static int parse_cmd_enable_multicast(const char *str, struct input *input)
{
uint8_t port_id;
- struct ether_addr mac;
+ prox_rte_ether_addr mac;
if (sscanf(str, "%hhu %hhx:%hhx:%hhx:%hhx:%hhx:%hhx", &port_id, mac.addr_bytes, mac.addr_bytes + 1, mac.addr_bytes + 2, mac.addr_bytes + 3, mac.addr_bytes + 4, mac.addr_bytes + 5 ) != 7) {
return -1;
static int parse_cmd_disable_multicast(const char *str, struct input *input)
{
uint8_t port_id;
- struct ether_addr mac;
+ prox_rte_ether_addr mac;
if (sscanf(str, "%hhu %hhx:%hhx:%hhx:%hhx:%hhx:%hhx", &port_id, mac.addr_bytes, mac.addr_bytes + 1, mac.addr_bytes + 2, mac.addr_bytes + 3, mac.addr_bytes + 4, mac.addr_bytes + 5 ) != 7) {
return -1;
return 0;
}
-static int parse_cmd_dp_core_stats(const char *str, struct input *input)
+typedef void (*parser_handler)(unsigned, unsigned, struct input *);
+static int handle_cores_tasks(const char *str, struct input *input, const char *mode_str, const char *mode_name, parser_handler f)
{
- unsigned lcores[RTE_MAX_LCORE], tasks[MAX_TASKS_PER_CORE], lcore_id, task_id, nb_cores, nb_tasks;
-
// This function either outputs a single line, in case of syntax error on the lists of cores and/or tasks
+ // or outputs (nb_cores * nb_tasks) lines, one line for each core/task pair:
+ // - if the core/task pair is invalid, the output line reports an error
+ // - otherwise, the output line provides the latency statistics for the core/task pair
+
+ unsigned lcores[RTE_MAX_LCORE], tasks[MAX_TASKS_PER_CORE], lcore_id, task_id, nb_cores, nb_tasks;
if (parse_cores_tasks(str, lcores, tasks, &nb_cores, &nb_tasks)) {
if (input->reply) {
char buf[128];
return -1;
}
- // or outputs (nb_cores * nb_tasks) lines, one line for each core/task pair:
- // - if the core/task pair is invalid, the output line reports an error
- // - otherwise, the output line provides the dataplane statistics for the core/task pair
for (unsigned int i = 0; i < nb_cores; i++) {
for (unsigned int j = 0; j < nb_tasks; j++) {
lcore_id = lcores[i];
}
continue;
}
- uint64_t tot_rx = stats_core_task_tot_rx(lcore_id, task_id);
- uint64_t tot_tx = stats_core_task_tot_tx(lcore_id, task_id);
- uint64_t tot_tx_fail = stats_core_task_tot_tx_fail(lcore_id, task_id);
- uint64_t tot_rx_non_dp = stats_core_task_tot_rx_non_dp(lcore_id, task_id);
- uint64_t tot_tx_non_dp = stats_core_task_tot_tx_non_dp(lcore_id, task_id);
- uint64_t tot_drop = stats_core_task_tot_drop(lcore_id, task_id);
- uint64_t last_tsc = stats_core_task_last_tsc(lcore_id, task_id);
-
- if (input->reply) {
- char buf[128];
- snprintf(buf, sizeof(buf),
- "%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%u,%u\n",
- tot_rx, tot_tx, tot_rx_non_dp, tot_tx_non_dp, tot_drop, tot_tx_fail, last_tsc, rte_get_tsc_hz(), lcore_id, task_id);
- input->reply(input, buf, strlen(buf));
- }
- else {
- plog_info("core: %u, task: %u, RX: %"PRIu64", TX: %"PRIu64", RX_NON_DP: %"PRIu64", TX_NON_DP: %"PRIu64", DROP: %"PRIu64", TX_FAIL: %"PRIu64"\n",
- lcore_id, task_id, tot_rx, tot_tx, tot_rx_non_dp, tot_tx_non_dp, tot_drop, tot_tx_fail);
+ if ((mode_str) && (!task_is_mode(lcore_id, task_id, mode_str))) {
+ if (input->reply) {
+ char buf[128];
+ snprintf(buf, sizeof(buf), "error: core %u task %u is not measuring %s\n", lcore_id, task_id, mode_name);
+ input->reply(input, buf, strlen(buf));
+ } else {
+ plog_info("error: core %u task %u is not measuring %s\n", lcore_id, task_id, mode_name);
+ }
+ continue;
}
+ f(lcore_id, task_id, input);
}
}
return 0;
}
-static int parse_cmd_lat_stats(const char *str, struct input *input)
+static void handle_dp_core_stats(unsigned lcore_id, unsigned task_id, struct input *input)
{
- unsigned lcores[RTE_MAX_LCORE], tasks[MAX_TASKS_PER_CORE], lcore_id, task_id, nb_cores, nb_tasks;
+ uint64_t tot_rx = stats_core_task_tot_rx(lcore_id, task_id);
+ uint64_t tot_tx = stats_core_task_tot_tx(lcore_id, task_id);
+ uint64_t tot_tx_fail = stats_core_task_tot_tx_fail(lcore_id, task_id);
+ uint64_t tot_rx_non_dp = stats_core_task_tot_rx_non_dp(lcore_id, task_id);
+ uint64_t tot_tx_non_dp = stats_core_task_tot_tx_non_dp(lcore_id, task_id);
+ uint64_t tot_drop = stats_core_task_tot_drop(lcore_id, task_id);
+ uint64_t last_tsc = stats_core_task_last_tsc(lcore_id, task_id);
- // This function either outputs a single line, in case of syntax error on the lists of cores and/or tasks
- if (parse_cores_tasks(str, lcores, tasks, &nb_cores, &nb_tasks)) {
+ if (input->reply) {
+ char buf[128];
+ snprintf(buf, sizeof(buf),
+ "%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%u,%u\n",
+ tot_rx, tot_tx, tot_rx_non_dp, tot_tx_non_dp, tot_drop, tot_tx_fail, last_tsc, rte_get_tsc_hz(), lcore_id, task_id);
+ input->reply(input, buf, strlen(buf));
+ }
+ else {
+ plog_info("core: %u, task: %u, RX: %"PRIu64", TX: %"PRIu64", RX_NON_DP: %"PRIu64", TX_NON_DP: %"PRIu64", DROP: %"PRIu64", TX_FAIL: %"PRIu64"\n",
+ lcore_id, task_id, tot_rx, tot_tx, tot_rx_non_dp, tot_tx_non_dp, tot_drop, tot_tx_fail);
+ }
+}
+
+static void handle_lat_stats(unsigned lcore_id, unsigned task_id, struct input *input)
+{
+ struct stats_latency *stats = stats_latency_find(lcore_id, task_id);
+ struct stats_latency *tot = stats_latency_tot_find(lcore_id, task_id);
+ if (!stats || !tot) {
if (input->reply) {
char buf[128];
- snprintf(buf, sizeof(buf), "error: invalid syntax\n");
+ snprintf(buf, sizeof(buf),
+ "error: core %u task %u stats = %p tot = %p\n",
+ lcore_id, task_id, stats, tot);
input->reply(input, buf, strlen(buf));
+ } else {
+ plog_info("error: core %u task %u stats = %p tot = %p\n",
+ lcore_id, task_id, stats, tot);
}
- return -1;
+ return;
}
- // or outputs (nb_cores * nb_tasks) lines, one line for each core/task pair:
- // - if the core/task pair is invalid, the output line reports an error
- // - otherwise, the output line provides the latency statistics for the core/task pair
- for (unsigned int i = 0; i < nb_cores; i++) {
- for (unsigned int j = 0; j < nb_tasks; j++) {
- lcore_id = lcores[i];
- task_id = tasks[j];
- if (core_task_is_valid(lcore_id, task_id) == 0) {
- if (input->reply) {
- char buf[128];
- snprintf(buf, sizeof(buf), "error: invalid core %u, task %u\n", lcore_id, task_id);
- input->reply(input, buf, strlen(buf));
- } else {
- plog_info("error: invalid core %u, task %u\n", lcore_id, task_id);
- }
- continue;
- }
- if (!task_is_mode(lcore_id, task_id, "lat")) {
- if (input->reply) {
- char buf[128];
- snprintf(buf, sizeof(buf), "error: core %u task %u is not measuring latency\n", lcore_id, task_id);
- input->reply(input, buf, strlen(buf));
- } else {
- plog_info("error: core %u task %u is not measuring latency\n", lcore_id, task_id);
- }
- continue;
- }
+ uint64_t last_tsc = stats_core_task_last_tsc(lcore_id, task_id);
+ uint64_t lat_min_usec = time_unit_to_usec(&stats->min.time);
+ uint64_t lat_max_usec = time_unit_to_usec(&stats->max.time);
+ uint64_t tot_lat_min_usec = time_unit_to_usec(&tot->min.time);
+ uint64_t tot_lat_max_usec = time_unit_to_usec(&tot->max.time);
+ uint64_t lat_avg_usec = time_unit_to_usec(&stats->avg.time);
- struct stats_latency *stats = stats_latency_find(lcore_id, task_id);
- struct stats_latency *tot = stats_latency_tot_find(lcore_id, task_id);
- if (!stats || !tot) {
- if (input->reply) {
- char buf[128];
- snprintf(buf, sizeof(buf),
- "error: core %u task %u stats = %p tot = %p\n",
- lcore_id, task_id, stats, tot);
- input->reply(input, buf, strlen(buf));
- } else {
- plog_info("error: core %u task %u stats = %p tot = %p\n",
- lcore_id, task_id, stats, tot);
- }
- continue;
- }
+ if (input->reply) {
+ char buf[128];
+ snprintf(buf, sizeof(buf),
+ "%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%u,%u\n",
+ lat_min_usec,
+ lat_max_usec,
+ lat_avg_usec,
+ tot_lat_min_usec,
+ tot_lat_max_usec,
+ last_tsc,
+ rte_get_tsc_hz(),
+ lcore_id,
+ task_id);
+ input->reply(input, buf, strlen(buf));
+ }
+ else {
+ plog_info("core: %u, task: %u, min: %"PRIu64", max: %"PRIu64", avg: %"PRIu64", min since reset: %"PRIu64", max since reset: %"PRIu64"\n",
+ lcore_id,
+ task_id,
+ lat_min_usec,
+ lat_max_usec,
+ lat_avg_usec,
+ tot_lat_min_usec,
+ tot_lat_max_usec);
+ }
+}
- uint64_t last_tsc = stats_core_task_last_tsc(lcore_id, task_id);
- uint64_t lat_min_usec = time_unit_to_usec(&stats->min.time);
- uint64_t lat_max_usec = time_unit_to_usec(&stats->max.time);
- uint64_t tot_lat_min_usec = time_unit_to_usec(&tot->min.time);
- uint64_t tot_lat_max_usec = time_unit_to_usec(&tot->max.time);
- uint64_t lat_avg_usec = time_unit_to_usec(&stats->avg.time);
+#ifdef LATENCY_HISTOGRAM
+static void handle_latency_histogram(unsigned lcore_id, unsigned task_id, struct input *input)
+{
+ uint64_t *buckets;
- if (input->reply) {
- char buf[128];
- snprintf(buf, sizeof(buf),
- "%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%"PRIu64",%u,%u\n",
- lat_min_usec,
- lat_max_usec,
- lat_avg_usec,
- tot_lat_min_usec,
- tot_lat_max_usec,
- last_tsc,
- rte_get_tsc_hz(),
- lcore_id,
- task_id);
- input->reply(input, buf, strlen(buf));
- }
- else {
- plog_info("core: %u, task: %u, min: %"PRIu64", max: %"PRIu64", avg: %"PRIu64", min since reset: %"PRIu64", max since reset: %"PRIu64"\n",
- lcore_id,
- task_id,
- lat_min_usec,
- lat_max_usec,
- lat_avg_usec,
- tot_lat_min_usec,
- tot_lat_max_usec);
- }
+ stats_core_lat_histogram(lcore_id, task_id, &buckets);
+
+ if (buckets == NULL) {
+ if (input->reply) {
+ char buf[128];
+ snprintf(buf, sizeof(buf), "error: unexpected NULL bucket\n");
+ input->reply(input, buf, strlen(buf));
}
+ return;
+ }
+
+ if (input->reply) {
+ char buf[4096] = {0};
+ for (size_t i = 0; i < LAT_BUCKET_COUNT; i++)
+ sprintf(buf+strlen(buf), "Bucket [%zu]: %"PRIu64"\n", i, buckets[i]);
+ input->reply(input, buf, strlen(buf));
+ }
+ else {
+ for (size_t i = 0; i < LAT_BUCKET_COUNT; i++)
+ if (buckets[i])
+ plog_info("Bucket [%zu]: %"PRIu64"\n", i, buckets[i]);
+ }
+}
+
+static void handle_stats_and_packets(unsigned lcore_id, unsigned task_id, struct input *input)
+{
+ handle_lat_stats(lcore_id, task_id, input);
+ handle_latency_histogram(lcore_id, task_id, input);
+}
+#endif
+
+static int parse_cmd_dp_core_stats(const char *str, struct input *input)
+{
+ handle_cores_tasks(str, input, NULL, NULL, handle_dp_core_stats);
+ return 0;
+}
+
+static int parse_cmd_lat_stats(const char *str, struct input *input)
+{
+ handle_cores_tasks(str, input, "lat", "latency", handle_lat_stats);
+ return 0;
+}
+
+static int parse_cmd_lat_packets(const char *str, struct input *input)
+{
+#ifdef LATENCY_HISTOGRAM
+ handle_cores_tasks(str, input, "lat", "latency", handle_latency_histogram);
+#else
+ if (input->reply) {
+ char buf[128];
+ snprintf(buf, sizeof(buf), "error: invalid syntax (LATENCY_HISTOGRAM disabled)\n");
+ input->reply(input, buf, strlen(buf));
+ } else {
+ plog_info("LATENCY_HISTOGRAMS disabled\n");
+ }
+#endif
+ return 0;
+}
+
+static int parse_cmd_lat_stats_and_packets(const char *str, struct input *input)
+{
+#ifdef LATENCY_HISTOGRAM
+ handle_cores_tasks(str, input, "lat", "latency", handle_stats_and_packets);
+#else
+ if (input->reply) {
+ char buf[128];
+ snprintf(buf, sizeof(buf), "error: invalid syntax (LATENCY_HISTOGRAMS disabled)\n");
+ input->reply(input, buf, strlen(buf));
+ } else {
+ plog_info("LATENCY_HISTOGRAMS disabled\n");
}
+#endif
return 0;
}
return 0;
}
-static void task_lat_show_latency_histogram(uint8_t lcore_id, uint8_t task_id, struct input *input)
-{
-#ifdef LATENCY_HISTOGRAM
- uint64_t *buckets;
-
- stats_core_lat_histogram(lcore_id, task_id, &buckets);
-
- if (buckets == NULL)
- return;
-
- if (input->reply) {
- char buf[4096] = {0};
- for (size_t i = 0; i < 128; i++)
- sprintf(buf+strlen(buf), "Bucket [%zu]: %"PRIu64"\n", i, buckets[i]);
- input->reply(input, buf, strlen(buf));
- }
- else {
- for (size_t i = 0; i < 128; i++)
- if (buckets[i])
- plog_info("Bucket [%zu]: %"PRIu64"\n", i, buckets[i]);
- }
-#else
- plog_info("LATENCY_DETAILS disabled\n");
-#endif
-}
-
-static int parse_cmd_lat_packets(const char *str, struct input *input)
-{
- unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
-
- if (parse_cores_task(str, lcores, &task_id, &nb_cores))
- return -1;
-
- if (cores_task_are_valid(lcores, task_id, nb_cores)) {
- for (unsigned int i = 0; i < nb_cores; i++) {
- lcore_id = lcores[i];
- if (!task_is_mode(lcore_id, task_id, "lat")) {
- plog_err("Core %u task %u is not measuring latency\n", lcore_id, task_id);
- }
- else {
- task_lat_show_latency_histogram(lcore_id, task_id, input);
- }
- }
- }
- return 0;
-}
-
static int parse_cmd_cgnat_public_hash(const char *str, struct input *input)
{
unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
return 0;
}
+static int parse_cmd_send_unsollicited_na(const char *str, struct input *input)
+{
+ unsigned lcores[RTE_MAX_LCORE], lcore_id, task_id, nb_cores;
+
+ if (parse_cores_task(str, lcores, &task_id, &nb_cores))
+ return -1;
+
+ if (cores_task_are_valid(lcores, task_id, nb_cores)) {
+ for (unsigned int i = 0; i < nb_cores; i++) {
+ lcore_id = lcores[i];
+
+ if (!task_is_sub_mode(lcore_id, task_id, "ndp")) {
+ plog_err("Core %u task %u is not running ndp\n", lcore_id, task_id);
+ }
+ else {
+ struct task_base *tbase = lcore_cfg[lcore_id].tasks_all[task_id];
+ send_unsollicited_neighbour_advertisement(tbase);
+ }
+ }
+ }
+ return 0;
+}
+
static int parse_cmd_rx_tx_info(const char *str, struct input *input)
{
if (strcmp(str, "") != 0) {
{"bypass", "<core_id> <task_id>", "Bypass task", parse_cmd_bypass},
{"reconnect", "<core_id> <task_id>", "Reconnect task", parse_cmd_reconnect},
{"pkt_size", "<core_id> <task_id> <pkt_size>", "Set the packet size to <pkt_size>", parse_cmd_pkt_size},
+ {"imix", "<core_id> <task_id> <pkt_size,pkt_size ... >", "Set the packet sizes to <pkt_size>", parse_cmd_imix},
{"speed", "<core_id> <task_id> <speed percentage>", "Change the speed to <speed percentage> at which packets are being generated on core <core_id> in task <task_id>.", parse_cmd_speed},
{"speed_byte", "<core_id> <task_id> <speed>", "Change speed to <speed>. The speed is specified in units of bytes per second.", parse_cmd_speed_byte},
{"set value", "<core_id> <task_id> <offset> <value> <value_len>", "Set <value_len> bytes to <value> at offset <offset> in packets generated on <core_id> <task_id>", parse_cmd_set_value},
{"irq stats", "<core id> <task id>", "Print irq related infos", parse_cmd_irq},
{"show irq buckets", "<core id> <task id>", "Print irq buckets", parse_cmd_show_irq_buckets},
{"lat packets", "<core id> <task id>", "Print the latency for each of the last set of packets", parse_cmd_lat_packets},
+ {"lat all stats", "<core id> <task id>", "Print the latency for each of the last set of packets as well as latency distribution", parse_cmd_lat_stats_and_packets},
{"accuracy limit", "<core id> <task id> <nsec>", "Only consider latency of packets that were measured with an error no more than <nsec>", parse_cmd_accuracy},
{"core stats", "<core id> <task id>", "Print rx/tx/drop for task <task id> running on core <core id>", parse_cmd_core_stats},
{"dp core stats", "<core id> <task id>", "Print rx/tx/non_dp_rx/non_dp_tx/drop for task <task id> running on core <core id>", parse_cmd_dp_core_stats},
{"cgnat dump private hash", "<core id> <task id>", "Dump cgnat private hash table", parse_cmd_cgnat_private_hash},
{"delay_us", "<core_id> <task_id> <delay_us>", "Set the delay in usec for the impair mode to <delay_us>", parse_cmd_delay_us},
{"random delay_us", "<core_id> <task_id> <random delay_us>", "Set the delay in usec for the impair mode to <random delay_us>", parse_cmd_random_delay_us},
- {"probability", "<core_id> <task_id> <probability>", "Set the percent of forwarded packets for the impair mode", parse_cmd_set_probability},
+ {"probability", "<core_id> <task_id> <probability>", "Old - Use <proba no drop> instead. Set the percent of forwarded packets for the impair mode", parse_cmd_set_proba_no_drop}, // old - backward compatibility
+ {"proba no drop", "<core_id> <task_id> <probability>", "Set the percent of forwarded packets for the impair mode", parse_cmd_set_proba_no_drop},
+ {"proba delay", "<core_id> <task_id> <probability>", "Set the percent of delayed packets for the impair mode", parse_cmd_set_proba_delay},
+#if RTE_VERSION >= RTE_VERSION_NUM(19,11,0,0)
+ {"proba duplicate", "<core_id> <task_id> <probability>", "Set the percent of duplicate packets for the impair mode", parse_cmd_set_proba_duplicate},
+#endif
{"version", "", "Show version", parse_cmd_version},
{"join igmp", "<core_id> <task_id> <ip>", "Send igmp membership report for group <ip>", parse_cmd_join_igmp},
{"leave igmp", "<core_id> <task_id>", "Send igmp leave group", parse_cmd_leave_igmp},
+ {"send unsollicited na", "<core_id> <task_id>", "Send Unsollicited Neighbor Advertisement", parse_cmd_send_unsollicited_na},
{0,0,0,0},
};