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-rw-r--r--VNFs/DPPD-PROX/commands.c7
-rw-r--r--VNFs/DPPD-PROX/handle_gen.c7
-rw-r--r--VNFs/DPPD-PROX/handle_lat.c273
-rw-r--r--VNFs/DPPD-PROX/handle_lat.h1
4 files changed, 194 insertions, 94 deletions
diff --git a/VNFs/DPPD-PROX/commands.c b/VNFs/DPPD-PROX/commands.c
index f4cc1b6e..9f0be145 100644
--- a/VNFs/DPPD-PROX/commands.c
+++ b/VNFs/DPPD-PROX/commands.c
@@ -84,9 +84,14 @@ static void warn_inactive_cores(uint32_t *cores, int count, const char *prefix)
static inline int wait_command_handled(struct lcore_cfg *lconf)
{
uint64_t t1 = rte_rdtsc(), t2;
+ int max_time = 5;
+
+ if (lconf->msg.type == LCONF_MSG_STOP)
+ max_time = 30;
+
while (lconf_is_req(lconf)) {
t2 = rte_rdtsc();
- if (t2 - t1 > 5 * rte_get_tsc_hz()) {
+ if (t2 - t1 > max_time * rte_get_tsc_hz()) {
// Failed to handle command ...
for (uint8_t task_id = 0; task_id < lconf->n_tasks_all; ++task_id) {
struct task_args *targs = &lconf->targs[task_id];
diff --git a/VNFs/DPPD-PROX/handle_gen.c b/VNFs/DPPD-PROX/handle_gen.c
index 0f70ee6b..515c1dac 100644
--- a/VNFs/DPPD-PROX/handle_gen.c
+++ b/VNFs/DPPD-PROX/handle_gen.c
@@ -1174,7 +1174,8 @@ static void init_task_gen_early(struct task_args *targ)
uint8_t *generator_count = prox_sh_find_system("generator_count");
if (generator_count == NULL) {
- generator_count = prox_zmalloc(sizeof(*generator_count), 0);
+ generator_count = prox_zmalloc(sizeof(*generator_count), rte_lcore_to_socket_id(targ->lconf->id));
+ PROX_PANIC(generator_count == NULL, "Failed to allocate generator count\n");
prox_sh_add_system("generator_count", generator_count);
}
targ->generator_id = *generator_count;
@@ -1224,6 +1225,7 @@ static void init_task_gen(struct task_base *tbase, struct task_args *targ)
PROX_PANIC((task->lat_pos || task->accur_pos) && !task->lat_enabled, "lat not enabled by lat pos or accur pos configured\n");
task->generator_id = targ->generator_id;
+ plog_info("\tGenerator id = %d\n", task->generator_id);
task->link_speed = UINT64_MAX;
if (!strcmp(targ->pcap_file, "")) {
@@ -1258,6 +1260,7 @@ static struct task_init task_init_gen = {
.init = init_task_gen,
.handle = handle_gen_bulk,
.start = start,
+ .early_init = init_task_gen_early,
#ifdef SOFT_CRC
// For SOFT_CRC, no offload is needed. If both NOOFFLOADS and NOMULTSEGS flags are set the
// vector mode is used by DPDK, resulting (theoretically) in higher performance.
@@ -1274,6 +1277,7 @@ static struct task_init task_init_gen_l3 = {
.init = init_task_gen,
.handle = handle_gen_bulk,
.start = start,
+ .early_init = init_task_gen_early,
#ifdef SOFT_CRC
// For SOFT_CRC, no offload is needed. If both NOOFFLOADS and NOMULTSEGS flags are set the
// vector mode is used by DPDK, resulting (theoretically) in higher performance.
@@ -1290,6 +1294,7 @@ static struct task_init task_init_gen_pcap = {
.init = init_task_gen_pcap,
.handle = handle_gen_pcap_bulk,
.start = start_pcap,
+ .early_init = init_task_gen_early,
#ifdef SOFT_CRC
.flag_features = TASK_FEATURE_NEVER_DISCARDS | TASK_FEATURE_NO_RX | TASK_FEATURE_TXQ_FLAGS_NOOFFLOADS | TASK_FEATURE_TXQ_FLAGS_NOMULTSEGS,
#else
diff --git a/VNFs/DPPD-PROX/handle_lat.c b/VNFs/DPPD-PROX/handle_lat.c
index b50f9504..3962b21d 100644
--- a/VNFs/DPPD-PROX/handle_lat.c
+++ b/VNFs/DPPD-PROX/handle_lat.c
@@ -35,10 +35,11 @@
#include "prox_port_cfg.h"
#define DEFAULT_BUCKET_SIZE 10
+#define ACCURACY_BUFFER_SIZE 64
struct lat_info {
uint32_t rx_packet_index;
- uint32_t tx_packet_index;
+ uint64_t tx_packet_index;
uint32_t tx_err;
uint32_t rx_err;
uint64_t rx_time;
@@ -54,28 +55,29 @@ struct lat_info {
};
struct delayed_latency_entry {
- uint32_t rx_packet_idx;
+ uint32_t rx_packet_id;
+ uint32_t tx_packet_id;
+ uint32_t packet_id;
+ uint8_t generator_id;
uint64_t pkt_rx_time;
uint64_t pkt_tx_time;
uint64_t rx_time_err;
};
-struct delayed_latency {
- struct delayed_latency_entry entries[64];
-};
-
-static struct delayed_latency_entry *delayed_latency_get(struct delayed_latency *delayed_latency, uint32_t rx_packet_idx)
+static struct delayed_latency_entry *delayed_latency_get(struct delayed_latency_entry **delayed_latency_entries, uint8_t generator_id, uint32_t packet_id)
{
- if (delayed_latency->entries[rx_packet_idx % 64].rx_packet_idx == rx_packet_idx)
- return &delayed_latency->entries[rx_packet_idx % 64];
+ struct delayed_latency_entry *delayed_latency_entry = &delayed_latency_entries[generator_id][packet_id % ACCURACY_BUFFER_SIZE];
+ if (delayed_latency_entry->packet_id == packet_id)
+ return delayed_latency_entry;
else
return NULL;
}
-static struct delayed_latency_entry *delayed_latency_create(struct delayed_latency *delayed_latency, uint32_t rx_packet_idx)
+static struct delayed_latency_entry *delayed_latency_create(struct delayed_latency_entry **delayed_latency_entries, uint8_t generator_id, uint32_t packet_id)
{
- delayed_latency->entries[rx_packet_idx % 64].rx_packet_idx = rx_packet_idx;
- return &delayed_latency->entries[rx_packet_idx % 64];
+ struct delayed_latency_entry *delayed_latency_entry = &delayed_latency_entries[generator_id][packet_id % ACCURACY_BUFFER_SIZE];
+ delayed_latency_entry->packet_id = packet_id;
+ return delayed_latency_entry;
}
struct rx_pkt_meta_data {
@@ -89,7 +91,7 @@ struct task_lat {
uint64_t limit;
uint64_t rx_packet_index;
uint64_t last_pkts_tsc;
- struct delayed_latency delayed_latency;
+ struct delayed_latency_entry **delayed_latency_entries;
struct lat_info *latency_buffer;
uint32_t latency_buffer_idx;
uint32_t latency_buffer_size;
@@ -107,14 +109,16 @@ struct task_lat {
struct early_loss_detect *eld;
struct rx_pkt_meta_data *rx_pkt_meta;
uint64_t link_speed;
+ // Following fields are only used when starting or stopping, not in general runtime
+ uint64_t *prev_tx_packet_index;
FILE *fp_rx;
FILE *fp_tx;
struct prox_port_cfg *port;
};
-static uint32_t abs_diff(uint32_t a, uint32_t b)
+static uint32_t diff_or_zero(uint32_t a, uint32_t b)
{
- return a < b? UINT32_MAX - (b - a - 1) : a - b;
+ return a < b? 0 : a - b;
}
struct lat_test *task_lat_get_latency_meassurement(struct task_lat *task)
@@ -143,34 +147,81 @@ static int compare_tx_time(const void *val1, const void *val2)
const struct lat_info *ptr1 = val1;
const struct lat_info *ptr2 = val2;
- return ptr1->tx_time - ptr2->tx_time;
+ return ptr1->tx_time > ptr2->tx_time ? 1 : -1;
}
-static int compare_queue_id(const void *val1, const void *val2)
+static int compare_tx_packet_index(const void *val1, const void *val2)
{
- return compare_tx_time(val1, val2);
+ const struct lat_info *ptr1 = val1;
+ const struct lat_info *ptr2 = val2;
+
+ return ptr1->tx_packet_index > ptr2->tx_packet_index ? 1 : -1;
}
-static void fix_latency_buffer_tx_time(struct lat_info *lat, uint32_t count)
+static void fix_latency_buffer_tx_packet_index(struct lat_info *lat, uint32_t count)
{
- uint32_t id, time, old_id = 0, old_time = 0, n_overflow = 0;
+ uint32_t tx_packet_index, old_tx_packet_index = lat->tx_packet_index, n_overflow = 0;
+ uint32_t small = UINT32_MAX >> 1;
+
+ lat++;
- for (uint32_t i = 0; i < count; i++) {
- id = lat->port_queue_id;
- time = lat->tx_time;
- if (id == old_id) {
- // Same queue id as previous entry; time should always increase
- if (time < old_time) {
+ /* Buffer is sorted so far by RX time.
+ * We might have packets being reordered by SUT.
+ * => consider small differences as re-order and big ones as overflow of tx_packet_index.
+ * Note that:
+ * - overflow only happens if receiving and storing 4 billions packets...
+ * - a absolute difference of less than 2 billion packets is not considered as an overflow
+ */
+ for (uint32_t i = 1; i < count; i++) {
+ tx_packet_index = lat->tx_packet_index;
+ if (tx_packet_index > old_tx_packet_index) {
+ if (tx_packet_index - old_tx_packet_index < small) {
+ // The diff is small => increasing index count
+ } else {
+ // The diff is big => it is more likely that the previous packet was overflow
+ n_overflow--;
+ }
+ } else {
+ if (old_tx_packet_index - tx_packet_index < small) {
+ // The diff is small => packet reorder
+ } else {
+ // The diff is big => it is more likely that this is an overflow
n_overflow++;
}
- lat->tx_time += UINT32_MAX * n_overflow;
- old_time = time;
+ }
+ lat->tx_packet_index += ((uint64_t)UINT32_MAX + 1) * n_overflow;
+ old_tx_packet_index = tx_packet_index;
+ lat++;
+ }
+}
+
+static void fix_latency_buffer_tx_time(struct lat_info *lat, uint32_t count)
+{
+ uint32_t tx_time, old_tx_time = lat->tx_time, n_overflow = 0;
+ uint32_t small = UINT32_MAX >> 1;
+ lat++;
+
+ /*
+ * Same algorithm as above, but with time.
+ * Note that:
+ * - overflow happens after 4 billions "cycles" (shifted by LATENCY_ACCURACY) = ~4sec
+ * - a absolute difference up to 2 billion (shifted) cycles (~=2sec) is not considered as an overflow
+ * => algorithm does not work if receiving less than 1 packet every 2 seconds
+ */
+ for (uint32_t i = 1; i < count; i++) {
+ tx_time = lat->tx_time;
+ if (tx_time > old_tx_time) {
+ if (tx_time - old_tx_time > small) {
+ n_overflow--;
+ }
} else {
- // Different queue_id, time starts again at 0
- old_id = id;
- old_time = 0;
- n_overflow = 0;
+ if (old_tx_time - tx_time > small) {
+ n_overflow++;
+ }
}
+ lat->tx_time += ((uint64_t)UINT32_MAX + 1) * n_overflow;
+ old_tx_time = tx_time;
+ lat++;
}
}
@@ -206,7 +257,7 @@ static uint64_t lat_latency_buffer_get_min_tsc(struct task_lat *task)
static uint64_t lat_info_get_lat_tsc(struct lat_info *lat_info)
{
- uint64_t lat = abs_diff(lat_info->rx_time, lat_info->tx_time);
+ uint64_t lat = diff_or_zero(lat_info->rx_time, lat_info->tx_time);
return lat << LATENCY_ACCURACY;
}
@@ -223,18 +274,18 @@ static uint64_t lat_info_get_rx_err_tsc(const struct lat_info *lat_info)
static uint64_t lat_info_get_rx_tsc(const struct lat_info *lat_info)
{
- return ((uint64_t)lat_info) << LATENCY_ACCURACY;
+ return ((uint64_t)lat_info->rx_time) << LATENCY_ACCURACY;
}
static uint64_t lat_info_get_tx_tsc(const struct lat_info *lat_info)
{
- return ((uint64_t)lat_info) << LATENCY_ACCURACY;
+ return ((uint64_t)lat_info->tx_time) << LATENCY_ACCURACY;
}
static void lat_write_latency_to_file(struct task_lat *task)
{
uint64_t min_tsc;
- uint32_t n_loss;
+ uint64_t n_loss;
min_tsc = lat_latency_buffer_get_min_tsc(task);
@@ -247,7 +298,7 @@ static void lat_write_latency_to_file(struct task_lat *task)
uint64_t rx_tsc = lat_info_get_rx_tsc(lat_info);
uint64_t tx_tsc = lat_info_get_tx_tsc(lat_info);
- fprintf(task->fp_rx, "%u%d;%d;%ld;%lu;%lu\n",
+ fprintf(task->fp_rx, "%u;%u;%lu;%lu;%lu;%lu\n",
lat_info->rx_packet_index,
lat_info->port_queue_id,
lat_info->tx_packet_index,
@@ -257,19 +308,27 @@ static void lat_write_latency_to_file(struct task_lat *task)
}
// To detect dropped packets, we need to sort them based on TX
- plogx_info("Sorting packets based on queue_id\n");
- qsort (task->latency_buffer, task->latency_buffer_idx, sizeof(struct lat_info), compare_queue_id);
- plogx_info("Adapting tx_time\n");
- fix_latency_buffer_tx_time(task->latency_buffer, task->latency_buffer_idx);
- plogx_info("Sorting packets based on tx_time\n");
- qsort (task->latency_buffer, task->latency_buffer_idx, sizeof(struct lat_info), compare_tx_time);
- plogx_info("Sorted packets based on tx_time\n");
+ if (task->unique_id_pos) {
+ plogx_info("Adapting tx_packet_index\n");
+ fix_latency_buffer_tx_packet_index(task->latency_buffer, task->latency_buffer_idx);
+ plogx_info("Sorting packets based on tx_packet_index\n");
+ qsort (task->latency_buffer, task->latency_buffer_idx, sizeof(struct lat_info), compare_tx_packet_index);
+ plogx_info("Sorted packets based on packet_index\n");
+ } else {
+ plogx_info("Adapting tx_time\n");
+ fix_latency_buffer_tx_time(task->latency_buffer, task->latency_buffer_idx);
+ plogx_info("Sorting packets based on tx_time\n");
+ qsort (task->latency_buffer, task->latency_buffer_idx, sizeof(struct lat_info), compare_tx_time);
+ plogx_info("Sorted packets based on packet_time\n");
+ }
// A packet is marked as dropped if 2 packets received from the same queue are not consecutive
fprintf(task->fp_tx, "Latency stats for %u packets, sorted by tx time\n", task->latency_buffer_idx);
fprintf(task->fp_tx, "queue;tx index; rx index; lat (nsec);tx time; rx time; tx_err;rx_err\n");
- uint32_t prev_tx_packet_index = -1;
+ for (uint32_t i = 0; i < task->generator_count;i++)
+ task->prev_tx_packet_index[i] = -1;
+
for (uint32_t i = 0; i < task->latency_buffer_idx; i++) {
struct lat_info *lat_info = &task->latency_buffer[i];
uint64_t lat_tsc = lat_info_get_lat_tsc(lat_info);
@@ -278,19 +337,25 @@ static void lat_write_latency_to_file(struct task_lat *task)
uint64_t rx_tsc = lat_info_get_rx_tsc(lat_info);
uint64_t tx_tsc = lat_info_get_tx_tsc(lat_info);
- /* Packet n + 64 delivers the TX error for packet n,
- hence the last 64 packets do no have TX error. */
- if (i + 64 >= task->latency_buffer_idx) {
+ /* Packet n + ACCURACY_BUFFER_SIZE delivers the TX error for packet n,
+ hence the last ACCURACY_BUFFER_SIZE packets do no have TX error. */
+ if (i + ACCURACY_BUFFER_SIZE >= task->latency_buffer_idx) {
tx_err_tsc = 0;
}
+
+ if (lat_info->port_queue_id >= task->generator_count) {
+ plog_err("Unexpected generator id %u for packet %lu - skipping packet\n",
+ lat_info->port_queue_id, lat_info->tx_packet_index);
+ continue;
+ }
// Log dropped packet
- n_loss = lat_info->tx_packet_index - prev_tx_packet_index - 1;
+ n_loss = lat_info->tx_packet_index - task->prev_tx_packet_index[lat_info->port_queue_id] - 1;
if (n_loss)
- fprintf(task->fp_tx, "===> %d;%d;0;0;0;0; lost %d packets <===\n",
+ fprintf(task->fp_tx, "===> %u;%lu;0;0;0;0;0;0 lost %lu packets <===\n",
lat_info->port_queue_id,
lat_info->tx_packet_index - n_loss, n_loss);
// Log next packet
- fprintf(task->fp_tx, "%d;%d;%u;%lu;%lu;%lu;%lu;%lu\n",
+ fprintf(task->fp_tx, "%u;%lu;%u;%lu;%lu;%lu;%lu;%lu",
lat_info->port_queue_id,
lat_info->tx_packet_index,
lat_info->rx_packet_index,
@@ -300,7 +365,7 @@ static void lat_write_latency_to_file(struct task_lat *task)
tsc_to_nsec(tx_err_tsc),
tsc_to_nsec(rx_err_tsc));
#ifdef LAT_DEBUG
- fprintf(task->fp_tx, ";%d from %d;%lu;%lu;%lu",
+ fprintf(task->fp_tx, ";%u from %u;%lu;%lu;%lu",
lat_info->id_in_bulk,
lat_info->bulk_size,
tsc_to_nsec(lat_info->begin - min_tsc),
@@ -308,7 +373,7 @@ static void lat_write_latency_to_file(struct task_lat *task)
tsc_to_nsec(lat_info->after - min_tsc));
#endif
fprintf(task->fp_tx, "\n");
- prev_tx_packet_index = lat_info->tx_packet_index;
+ task->prev_tx_packet_index[lat_info->port_queue_id] = lat_info->tx_packet_index;
}
fflush(task->fp_rx);
fflush(task->fp_tx);
@@ -340,21 +405,16 @@ static void task_lat_store_lat_debug(struct task_lat *task, uint32_t rx_packet_i
}
#endif
-static void task_lat_store_lat_buf(struct task_lat *task, uint64_t rx_packet_index, struct unique_id *unique_id, uint64_t rx_time, uint64_t tx_time, uint64_t rx_err, uint64_t tx_err)
+static void task_lat_store_lat_buf(struct task_lat *task, uint64_t rx_packet_index, uint64_t rx_time, uint64_t tx_time, uint64_t rx_err, uint64_t tx_err, uint32_t packet_id, uint8_t generator_id)
{
struct lat_info *lat_info;
- uint8_t generator_id = 0;
- uint32_t packet_index = 0;
-
- if (unique_id)
- unique_id_get(unique_id, &generator_id, &packet_index);
/* If unique_id_pos is specified then latency is stored per
packet being sent. Lost packets are detected runtime, and
latency stored for those packets will be 0 */
lat_info = &task->latency_buffer[task->latency_buffer_idx++];
- lat_info->rx_packet_index = task->latency_buffer_idx - 1;
- lat_info->tx_packet_index = packet_index;
+ lat_info->rx_packet_index = rx_packet_index;
+ lat_info->tx_packet_index = packet_id;
lat_info->port_queue_id = generator_id;
lat_info->rx_time = rx_time;
lat_info->tx_time = tx_time;
@@ -403,8 +463,6 @@ static void lat_test_add_lost(struct lat_test *lat_test, uint64_t lost_packets)
static void lat_test_add_latency(struct lat_test *lat_test, uint64_t lat_tsc, uint64_t error)
{
- lat_test->tot_all_pkts++;
-
if (error > lat_test->accuracy_limit_tsc)
return;
lat_test->tot_pkts++;
@@ -436,16 +494,16 @@ static int task_lat_can_store_latency(struct task_lat *task)
return task->latency_buffer_idx < task->latency_buffer_size;
}
-static void task_lat_store_lat(struct task_lat *task, uint64_t rx_packet_index, uint64_t rx_time, uint64_t tx_time, uint64_t rx_error, uint64_t tx_error, struct unique_id *unique_id)
+static void task_lat_store_lat(struct task_lat *task, uint64_t rx_packet_index, uint64_t rx_time, uint64_t tx_time, uint64_t rx_error, uint64_t tx_error, uint32_t packet_id, uint8_t generator_id)
{
if (tx_time == 0)
return;
- uint32_t lat_tsc = abs_diff(rx_time, tx_time) << LATENCY_ACCURACY;
+ uint32_t lat_tsc = diff_or_zero(rx_time, tx_time) << LATENCY_ACCURACY;
lat_test_add_latency(task->lat_test, lat_tsc, rx_error + tx_error);
if (task_lat_can_store_latency(task)) {
- task_lat_store_lat_buf(task, rx_packet_index, unique_id, rx_time, tx_time, rx_error, tx_error);
+ task_lat_store_lat_buf(task, rx_packet_index, rx_time, tx_time, rx_error, tx_error, packet_id, generator_id);
}
}
@@ -473,8 +531,6 @@ static int handle_lat_bulk(struct task_base *tbase, struct rte_mbuf **mbufs, uin
struct rte_mbuf *mbuf = mbufs[j];
task->rx_pkt_meta[j].hdr = rte_pktmbuf_mtod(mbuf, uint8_t *);
}
- for (uint16_t j = 0; j < n_pkts; ++j) {
- }
if (task->sig) {
for (uint16_t j = 0; j < n_pkts; ++j) {
@@ -508,6 +564,7 @@ static int handle_lat_bulk(struct task_base *tbase, struct rte_mbuf **mbufs, uin
struct unique_id *unique_id = NULL;
struct delayed_latency_entry *delayed_latency_entry;
+ uint32_t packet_id, generator_id;
for (uint16_t j = 0; j < n_pkts; ++j) {
struct rx_pkt_meta_data *rx_pkt_meta = &task->rx_pkt_meta[j];
@@ -520,41 +577,45 @@ static int handle_lat_bulk(struct task_base *tbase, struct rte_mbuf **mbufs, uin
unique_id = (struct unique_id *)(hdr + task->unique_id_pos);
uint32_t n_loss = task_lat_early_loss_detect(task, unique_id);
+ packet_id = unique_id->packet_id;
+ generator_id = unique_id->generator_id;
lat_test_add_lost(task->lat_test, n_loss);
+ } else {
+ packet_id = task->rx_packet_index;
+ generator_id = 0;
}
+ task->lat_test->tot_all_pkts++;
/* If accuracy is enabled, latency is reported with a
- delay of 64 packets since the generator puts the
- accuracy for packet N into packet N + 64. The delay
+ delay of ACCURACY_BUFFER_SIZE packets since the generator puts the
+ accuracy for packet N into packet N + ACCURACY_BUFFER_SIZE. The delay
ensures that all reported latencies have both rx
and tx error. */
if (task->accur_pos) {
tx_time_err = *(uint32_t *)(hdr + task->accur_pos);
- delayed_latency_entry = delayed_latency_get(&task->delayed_latency, task->rx_packet_index - 64);
+ delayed_latency_entry = delayed_latency_get(task->delayed_latency_entries, generator_id, packet_id - ACCURACY_BUFFER_SIZE);
if (delayed_latency_entry) {
task_lat_store_lat(task,
- task->rx_packet_index,
+ delayed_latency_entry->rx_packet_id,
delayed_latency_entry->pkt_rx_time,
delayed_latency_entry->pkt_tx_time,
delayed_latency_entry->rx_time_err,
tx_time_err,
- unique_id);
+ delayed_latency_entry->tx_packet_id,
+ delayed_latency_entry->generator_id);
}
- delayed_latency_entry = delayed_latency_create(&task->delayed_latency, task->rx_packet_index);
+ delayed_latency_entry = delayed_latency_create(task->delayed_latency_entries, generator_id, packet_id);
delayed_latency_entry->pkt_rx_time = pkt_rx_time;
delayed_latency_entry->pkt_tx_time = pkt_tx_time;
delayed_latency_entry->rx_time_err = rx_time_err;
+ delayed_latency_entry->rx_packet_id = task->rx_packet_index;
+ delayed_latency_entry->tx_packet_id = packet_id;
+ delayed_latency_entry->generator_id = generator_id;
} else {
- task_lat_store_lat(task,
- task->rx_packet_index,
- pkt_rx_time,
- pkt_tx_time,
- 0,
- 0,
- unique_id);
+ task_lat_store_lat(task, task->rx_packet_index, pkt_rx_time, pkt_tx_time, 0, 0, packet_id, generator_id);
}
task->rx_packet_index++;
}
@@ -577,29 +638,39 @@ static void init_task_lat_latency_buffer(struct task_lat *task, uint32_t core_id
latency_buffer_mem_size = sizeof(struct lat_info) * task->latency_buffer_size;
task->latency_buffer = prox_zmalloc(latency_buffer_mem_size, socket_id);
- PROX_PANIC(task->latency_buffer == NULL, "Failed to allocate %ld kbytes for %s\n", latency_buffer_mem_size / 1024, name);
+ PROX_PANIC(task->latency_buffer == NULL, "Failed to allocate %zu kbytes for latency_buffer\n", latency_buffer_mem_size / 1024);
- sprintf(name, "latency.rx_%d.txt", core_id);
+ sprintf(name, "latency.rx_%u.txt", core_id);
task->fp_rx = fopen(name, "w+");
PROX_PANIC(task->fp_rx == NULL, "Failed to open %s\n", name);
- sprintf(name, "latency.tx_%d.txt", core_id);
+ sprintf(name, "latency.tx_%u.txt", core_id);
task->fp_tx = fopen(name, "w+");
PROX_PANIC(task->fp_tx == NULL, "Failed to open %s\n", name);
+
+ task->prev_tx_packet_index = prox_zmalloc(sizeof(task->prev_tx_packet_index[0]) * task->generator_count, socket_id);
+ PROX_PANIC(task->prev_tx_packet_index == NULL, "Failed to allocated prev_tx_packet_index\n");
}
-static void task_lat_init_eld(struct task_lat *task, uint8_t socket_id)
+static void task_init_generator_count(struct task_lat *task)
{
uint8_t *generator_count = prox_sh_find_system("generator_count");
- size_t eld_mem_size;
- if (generator_count == NULL)
- task->generator_count = 0;
- else
+ if (generator_count == NULL) {
+ task->generator_count = 1;
+ plog_info("\tNo generators found, hard-coding to %u generators\n", task->generator_count);
+ } else
task->generator_count = *generator_count;
+ plog_info("\tLatency using %u generators\n", task->generator_count);
+}
+
+static void task_lat_init_eld(struct task_lat *task, uint8_t socket_id)
+{
+ size_t eld_mem_size;
eld_mem_size = sizeof(task->eld[0]) * task->generator_count;
task->eld = prox_zmalloc(eld_mem_size, socket_id);
+ PROX_PANIC(task->eld == NULL, "Failed to allocate eld\n");
}
void task_lat_set_accuracy_limit(struct task_lat *task, uint32_t accuracy_limit_nsec)
@@ -615,7 +686,7 @@ static void lat_start(struct task_base *tbase)
// task->port->link->speed reports the link speed in Mbps e.g. 40k for a 40 Gbps NIC
// task->link_speed reported link speed in Bytes per sec.
task->link_speed = task->port->link_speed * 125000L;
- plog_info("\tReceiving at %ld Mbps\n", 8 * task->link_speed / 1000000);
+ plog_info("\tReceiving at %lu Mbps\n", 8 * task->link_speed / 1000000);
}
}
@@ -632,14 +703,34 @@ static void init_task_lat(struct task_base *tbase, struct task_args *targ)
task->unique_id_pos = targ->packet_id_pos;
task->latency_buffer_size = targ->latency_buffer_size;
+ task_init_generator_count(task);
+
if (task->latency_buffer_size) {
init_task_lat_latency_buffer(task, targ->lconf->id);
}
- if (targ->bucket_size < LATENCY_ACCURACY) {
+ if (targ->bucket_size < DEFAULT_BUCKET_SIZE) {
targ->bucket_size = DEFAULT_BUCKET_SIZE;
}
+ if (task->accur_pos) {
+ task->delayed_latency_entries = prox_zmalloc(sizeof(*task->delayed_latency_entries) * task->generator_count , socket_id);
+ PROX_PANIC(task->delayed_latency_entries == NULL, "Failed to allocate array for storing delayed latency entries\n");
+ for (uint i = 0; i < task->generator_count; i++) {
+ task->delayed_latency_entries[i] = prox_zmalloc(sizeof(**task->delayed_latency_entries) * ACCURACY_BUFFER_SIZE, socket_id);
+ PROX_PANIC(task->delayed_latency_entries[i] == NULL, "Failed to allocate array for storing delayed latency entries\n");
+ }
+ if (task->unique_id_pos == 0) {
+ /* When using accuracy feature, the accuracy from TX is written ACCURACY_BUFFER_SIZE packets later
+ * We can only retrieve the good packet if a packet id is written to it.
+ * Otherwise we will use the packet RECEIVED ACCURACY_BUFFER_SIZE packets ago which is OK if
+ * packets are not re-ordered. If packets are re-ordered, then the matching between
+ * the tx accuracy znd the latency is wrong.
+ */
+ plog_warn("\tWhen accuracy feature is used, a unique id should ideally also be used\n");
+ }
+ }
+
task->lt[0].bucket_size = targ->bucket_size - LATENCY_ACCURACY;
task->lt[1].bucket_size = targ->bucket_size - LATENCY_ACCURACY;
if (task->unique_id_pos) {
diff --git a/VNFs/DPPD-PROX/handle_lat.h b/VNFs/DPPD-PROX/handle_lat.h
index a832a641..3cc80461 100644
--- a/VNFs/DPPD-PROX/handle_lat.h
+++ b/VNFs/DPPD-PROX/handle_lat.h
@@ -24,7 +24,6 @@
#include "task_base.h"
#include "clock.h"
-#define MAX_PACKETS_FOR_LATENCY 64
#define LATENCY_ACCURACY 1
struct lat_test {