#include "dds/dds.h"
#include "RoundTrip.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <signal.h>
#include <inttypes.h>
#define TIME_STATS_SIZE_INCREMENT 50000
#define MAX_SAMPLES 100
#define US_IN_ONE_SEC 1000000LL
static dds_entity_t prepare_dds(dds_entity_t *writer, dds_entity_t *reader, dds_entity_t *readCond, dds_listener_t *listener);
static void finalize_dds(dds_entity_t participant);
typedef struct ExampleTimeStats
{
dds_time_t * values;
unsigned long valuesSize;
unsigned long valuesMax;
double average;
dds_time_t min;
dds_time_t max;
unsigned long count;
} ExampleTimeStats;
static void exampleInitTimeStats (ExampleTimeStats *stats)
{
stats->values = (dds_time_t*) malloc (TIME_STATS_SIZE_INCREMENT * sizeof (dds_time_t));
stats->valuesSize = 0;
stats->valuesMax = TIME_STATS_SIZE_INCREMENT;
stats->average = 0;
stats->min = 0;
stats->max = 0;
stats->count = 0;
}
static void exampleResetTimeStats (ExampleTimeStats *stats)
{
memset (stats->values, 0, stats->valuesMax * sizeof (dds_time_t));
stats->valuesSize = 0;
stats->average = 0;
stats->min = 0;
stats->max = 0;
stats->count = 0;
}
static void exampleDeleteTimeStats (ExampleTimeStats *stats)
{
free (stats->values);
}
static ExampleTimeStats *exampleAddTimingToTimeStats
(ExampleTimeStats *stats, dds_time_t timing)
{
if (stats->valuesSize > stats->valuesMax)
{
dds_time_t * temp = (dds_time_t*) realloc (stats->values, (stats->valuesMax + TIME_STATS_SIZE_INCREMENT) * sizeof (dds_time_t));
stats->values = temp;
stats->valuesMax += TIME_STATS_SIZE_INCREMENT;
}
if (stats->values != NULL && stats->valuesSize < stats->valuesMax)
{
stats->values[stats->valuesSize++] = timing;
}
stats->average = ((double)stats->count * stats->average + (double)timing) / (double)(stats->count + 1);
stats->min = (stats->count == 0 || timing < stats->min) ? timing : stats->min;
stats->max = (stats->count == 0 || timing > stats->max) ? timing : stats->max;
stats->count++;
return stats;
}
static int exampleCompareul (const void* a, const void* b)
{
dds_time_t ul_a = *((dds_time_t*)a);
dds_time_t ul_b = *((dds_time_t*)b);
if (ul_a < ul_b) return -1;
if (ul_a > ul_b) return 1;
return 0;
}
static double exampleGetMedianFromTimeStats (ExampleTimeStats *stats)
{
double median = 0.0;
qsort (stats->values, stats->valuesSize, sizeof (dds_time_t), exampleCompareul);
if (stats->valuesSize % 2 == 0)
{
median = (double)(stats->values[stats->valuesSize / 2 - 1] + stats->values[stats->valuesSize / 2]) / 2;
}
else
{
median = (double)stats->values[stats->valuesSize / 2];
}
return median;
}
static dds_time_t exampleGet99PercentileFromTimeStats (ExampleTimeStats *stats)
{
qsort (stats->values, stats->valuesSize, sizeof (dds_time_t), exampleCompareul);
return stats->values[stats->valuesSize - stats->valuesSize / 100];
}
static dds_entity_t waitSet;
#ifdef _WIN32
#include <Windows.h>
static bool CtrlHandler (DWORD fdwCtrlType)
{
dds_waitset_set_trigger (waitSet, true);
return true; }
#elif !DDSRT_WITH_FREERTOS
static void CtrlHandler (int sig)
{
(void)sig;
dds_waitset_set_trigger (waitSet, true);
}
#endif
static dds_entity_t writer;
static dds_entity_t reader;
static dds_entity_t participant;
static dds_entity_t readCond;
static ExampleTimeStats roundTrip;
static ExampleTimeStats writeAccess;
static ExampleTimeStats readAccess;
static ExampleTimeStats roundTripOverall;
static ExampleTimeStats writeAccessOverall;
static ExampleTimeStats readAccessOverall;
static RoundTripModule_DataType pub_data;
static RoundTripModule_DataType sub_data[MAX_SAMPLES];
static void *samples[MAX_SAMPLES];
static dds_sample_info_t info[MAX_SAMPLES];
static dds_time_t startTime;
static dds_time_t preWriteTime;
static dds_time_t postWriteTime;
static dds_time_t preTakeTime;
static dds_time_t postTakeTime;
static dds_time_t elapsed = 0;
static bool warmUp = true;
static void data_available(dds_entity_t rd, void *arg)
{
dds_time_t difference = 0;
int status;
(void)arg;
preTakeTime = dds_time ();
status = dds_take (rd, samples, info, MAX_SAMPLES, MAX_SAMPLES);
if (status < 0)
DDS_FATAL("dds_take: %s\n", dds_strretcode(-status));
postTakeTime = dds_time ();
difference = (postWriteTime - preWriteTime)/DDS_NSECS_IN_USEC;
writeAccess = *exampleAddTimingToTimeStats (&writeAccess, difference);
writeAccessOverall = *exampleAddTimingToTimeStats (&writeAccessOverall, difference);
difference = (postTakeTime - preTakeTime)/DDS_NSECS_IN_USEC;
readAccess = *exampleAddTimingToTimeStats (&readAccess, difference);
readAccessOverall = *exampleAddTimingToTimeStats (&readAccessOverall, difference);
difference = (postTakeTime - info[0].source_timestamp)/DDS_NSECS_IN_USEC;
roundTrip = *exampleAddTimingToTimeStats (&roundTrip, difference);
roundTripOverall = *exampleAddTimingToTimeStats (&roundTripOverall, difference);
if (!warmUp) {
difference = (postTakeTime - startTime)/DDS_NSECS_IN_USEC;
if (difference > US_IN_ONE_SEC)
{
printf("%9" PRIi64 " %9lu %8.0f %8" PRIi64 " %8" PRIi64 " %8" PRIi64 " %10lu %8.0f %8" PRIi64 " %10lu %8.0f %8" PRIi64 "\n",
elapsed + 1,
roundTrip.count,
exampleGetMedianFromTimeStats (&roundTrip) / 2,
roundTrip.min / 2,
exampleGet99PercentileFromTimeStats (&roundTrip) / 2,
roundTrip.max / 2,
writeAccess.count,
exampleGetMedianFromTimeStats (&writeAccess),
writeAccess.min,
readAccess.count,
exampleGetMedianFromTimeStats (&readAccess),
readAccess.min);
fflush (stdout);
exampleResetTimeStats (&roundTrip);
exampleResetTimeStats (&writeAccess);
exampleResetTimeStats (&readAccess);
startTime = dds_time ();
elapsed++;
}
}
preWriteTime = dds_time();
status = dds_write_ts (writer, &pub_data, preWriteTime);
if (status < 0)
DDS_FATAL("dds_write_ts: %s\n", dds_strretcode(-status));
postWriteTime = dds_time();
}
static void usage(void)
{
printf ("Usage (parameters must be supplied in order):\n"
"./ping [-l] [payloadSize (bytes, 0 - 100M)] [numSamples (0 = infinite)] [timeOut (seconds, 0 = infinite)]\n"
"./ping quit - ping sends a quit signal to pong.\n"
"Defaults:\n"
"./ping 0 0 0\n");
exit(EXIT_FAILURE);
}
int main (int argc, char *argv[])
{
uint32_t payloadSize = 0;
uint64_t numSamples = 0;
bool invalidargs = false;
dds_time_t timeOut = 0;
dds_time_t time;
dds_time_t difference = 0;
dds_attach_t wsresults[1];
size_t wsresultsize = 1U;
dds_time_t waitTimeout = DDS_SECS (1);
unsigned long i;
int status;
dds_listener_t *listener = NULL;
bool use_listener = false;
int argidx = 1;
if (argc > argidx && strcmp(argv[argidx], "-l") == 0)
{
argidx++;
use_listener = true;
}
#ifdef _WIN32
SetConsoleCtrlHandler ((PHANDLER_ROUTINE)CtrlHandler, TRUE);
#elif !DDSRT_WITH_FREERTOS
struct sigaction sat, oldAction;
sat.sa_handler = CtrlHandler;
sigemptyset (&sat.sa_mask);
sat.sa_flags = 0;
sigaction (SIGINT, &sat, &oldAction);
#endif
exampleInitTimeStats (&roundTrip);
exampleInitTimeStats (&writeAccess);
exampleInitTimeStats (&readAccess);
exampleInitTimeStats (&roundTripOverall);
exampleInitTimeStats (&writeAccessOverall);
exampleInitTimeStats (&readAccessOverall);
memset (&sub_data, 0, sizeof (sub_data));
memset (&pub_data, 0, sizeof (pub_data));
for (i = 0; i < MAX_SAMPLES; i++)
{
samples[i] = &sub_data[i];
}
participant = dds_create_participant (DDS_DOMAIN_DEFAULT, NULL, NULL);
if (participant < 0)
DDS_FATAL("dds_create_participant: %s\n", dds_strretcode(-participant));
if (use_listener)
{
listener = dds_create_listener(NULL);
dds_lset_data_available(listener, data_available);
}
prepare_dds(&writer, &reader, &readCond, listener);
if (argc - argidx == 1 && strcmp (argv[argidx], "quit") == 0)
{
printf ("Sending termination request.\n");
fflush (stdout);
dds_sleepfor (DDS_SECS (1));
pub_data.payload._length = 0;
pub_data.payload._buffer = NULL;
pub_data.payload._release = true;
pub_data.payload._maximum = 0;
status = dds_writedispose (writer, &pub_data);
if (status < 0)
DDS_FATAL("dds_writedispose: %s\n", dds_strretcode(-status));
dds_sleepfor (DDS_SECS (1));
goto done;
}
if (argc - argidx == 0)
{
invalidargs = true;
}
if (argc - argidx >= 1)
{
payloadSize = (uint32_t) atol (argv[argidx]);
if (payloadSize > 100 * 1048576)
{
invalidargs = true;
}
}
if (argc - argidx >= 2)
{
numSamples = (uint64_t) atol (argv[argidx+1]);
}
if (argc - argidx >= 3)
{
timeOut = atol (argv[argidx+2]);
}
if (invalidargs || (argc - argidx == 1 && (strcmp (argv[argidx], "-h") == 0 || strcmp (argv[argidx], "--help") == 0)))
usage();
printf ("# payloadSize: %" PRIu32 " | numSamples: %" PRIu64 " | timeOut: %" PRIi64 "\n\n", payloadSize, numSamples, timeOut);
fflush (stdout);
pub_data.payload._length = payloadSize;
pub_data.payload._buffer = payloadSize ? dds_alloc (payloadSize) : NULL;
pub_data.payload._release = true;
pub_data.payload._maximum = 0;
for (i = 0; i < payloadSize; i++)
{
pub_data.payload._buffer[i] = 'a';
}
startTime = dds_time ();
printf ("# Waiting for startup jitter to stabilise\n");
fflush (stdout);
while (!dds_triggered (waitSet) && difference < DDS_SECS(5))
{
status = dds_waitset_wait (waitSet, wsresults, wsresultsize, waitTimeout);
if (status < 0)
DDS_FATAL("dds_waitset_wait: %s\n", dds_strretcode(-status));
if (status > 0 && listener == NULL)
{
status = dds_take (reader, samples, info, MAX_SAMPLES, MAX_SAMPLES);
if (status < 0)
DDS_FATAL("dds_take: %s\n", dds_strretcode(-status));
}
time = dds_time ();
difference = time - startTime;
}
if (!dds_triggered (waitSet))
{
warmUp = false;
printf("# Warm up complete.\n\n");
printf("# Latency measurements (in us)\n");
printf("# Latency [us] Write-access time [us] Read-access time [us]\n");
printf("# Seconds Count median min 99%% max Count median min Count median min\n");
fflush (stdout);
}
exampleResetTimeStats (&roundTrip);
exampleResetTimeStats (&writeAccess);
exampleResetTimeStats (&readAccess);
startTime = dds_time ();
preWriteTime = dds_time ();
status = dds_write_ts (writer, &pub_data, preWriteTime);
if (status < 0)
DDS_FATAL("dds_write_ts: %s\n", dds_strretcode(-status));
postWriteTime = dds_time ();
for (i = 0; !dds_triggered (waitSet) && (!numSamples || i < numSamples) && !(timeOut && elapsed >= timeOut); i++)
{
status = dds_waitset_wait (waitSet, wsresults, wsresultsize, waitTimeout);
if (status < 0)
DDS_FATAL("dds_waitset_wait: %s\n", dds_strretcode(-status));
if (status != 0 && listener == NULL) {
data_available(reader, NULL);
}
}
if (!warmUp)
{
printf
(
"\n%9s %9lu %8.0f %8" PRIi64 " %8" PRIi64 " %8" PRIi64 " %10lu %8.0f %8" PRIi64 " %10lu %8.0f %8" PRIi64 "\n",
"# Overall",
roundTripOverall.count,
exampleGetMedianFromTimeStats (&roundTripOverall) / 2,
roundTripOverall.min / 2,
exampleGet99PercentileFromTimeStats (&roundTripOverall) / 2,
roundTripOverall.max / 2,
writeAccessOverall.count,
exampleGetMedianFromTimeStats (&writeAccessOverall),
writeAccessOverall.min,
readAccessOverall.count,
exampleGetMedianFromTimeStats (&readAccessOverall),
readAccessOverall.min
);
fflush (stdout);
}
done:
#ifdef _WIN32
SetConsoleCtrlHandler (0, FALSE);
#elif !DDSRT_WITH_FREERTOS
sigaction (SIGINT, &oldAction, 0);
#endif
finalize_dds(participant);
exampleDeleteTimeStats (&roundTrip);
exampleDeleteTimeStats (&writeAccess);
exampleDeleteTimeStats (&readAccess);
exampleDeleteTimeStats (&roundTripOverall);
exampleDeleteTimeStats (&writeAccessOverall);
exampleDeleteTimeStats (&readAccessOverall);
for (i = 0; i < MAX_SAMPLES; i++)
{
RoundTripModule_DataType_free (&sub_data[i], DDS_FREE_CONTENTS);
}
RoundTripModule_DataType_free (&pub_data, DDS_FREE_CONTENTS);
return EXIT_SUCCESS;
}
static dds_entity_t prepare_dds(dds_entity_t *wr, dds_entity_t *rd, dds_entity_t *rdcond, dds_listener_t *listener)
{
dds_return_t status;
dds_entity_t topic;
dds_entity_t publisher;
dds_entity_t subscriber;
const char *pubPartitions[] = { "ping" };
const char *subPartitions[] = { "pong" };
dds_qos_t *pubQos;
dds_qos_t *dwQos;
dds_qos_t *drQos;
dds_qos_t *subQos;
topic = dds_create_topic (participant, &RoundTripModule_DataType_desc, "RoundTrip", NULL, NULL);
if (topic < 0)
DDS_FATAL("dds_create_topic: %s\n", dds_strretcode(-topic));
pubQos = dds_create_qos ();
dds_qset_partition (pubQos, 1, pubPartitions);
publisher = dds_create_publisher (participant, pubQos, NULL);
if (publisher < 0)
DDS_FATAL("dds_create_publisher: %s\n", dds_strretcode(-publisher));
dds_delete_qos (pubQos);
dwQos = dds_create_qos ();
dds_qset_reliability (dwQos, DDS_RELIABILITY_RELIABLE, DDS_SECS (10));
dds_qset_writer_data_lifecycle (dwQos, false);
*wr = dds_create_writer (publisher, topic, dwQos, NULL);
if (*wr < 0)
DDS_FATAL("dds_create_writer: %s\n", dds_strretcode(-*wr));
dds_delete_qos (dwQos);
subQos = dds_create_qos ();
dds_qset_partition (subQos, 1, subPartitions);
subscriber = dds_create_subscriber (participant, subQos, NULL);
if (subscriber < 0)
DDS_FATAL("dds_create_subscriber: %s\n", dds_strretcode(-subscriber));
dds_delete_qos (subQos);
drQos = dds_create_qos ();
dds_qset_reliability (drQos, DDS_RELIABILITY_RELIABLE, DDS_SECS(10));
*rd = dds_create_reader (subscriber, topic, drQos, listener);
if (*rd < 0)
DDS_FATAL("dds_create_reader: %s\n", dds_strretcode(-*rd));
dds_delete_qos (drQos);
waitSet = dds_create_waitset (participant);
if (listener == NULL) {
*rdcond = dds_create_readcondition (*rd, DDS_ANY_STATE);
status = dds_waitset_attach (waitSet, *rdcond, *rd);
if (status < 0)
DDS_FATAL("dds_waitset_attach: %s\n", dds_strretcode(-status));
} else {
*rdcond = 0;
}
status = dds_waitset_attach (waitSet, waitSet, waitSet);
if (status < 0)
DDS_FATAL("dds_waitset_attach: %s\n", dds_strretcode(-status));
return participant;
}
static void finalize_dds(dds_entity_t ppant)
{
dds_return_t status;
status = dds_delete (ppant);
if (status < 0)
DDS_FATAL("dds_delete: %s\n", dds_strretcode(-status));
}