int
main (
int argc,
char *argv[])
{
DDS_DomainId_t myDomain = DDS_OBJECT_NIL;
DDS_DomainParticipantFactory dpf = DDS_OBJECT_NIL;
DDS_DomainParticipant dp = DDS_OBJECT_NIL;
DDS_Publisher p = DDS_OBJECT_NIL;
DDS_Subscriber s = DDS_OBJECT_NIL;
pingpong_PP_min_msgDataWriter PP_min_writer = DDS_OBJECT_NIL;
pingpong_PP_seq_msgDataWriter PP_seq_writer = DDS_OBJECT_NIL;
pingpong_PP_string_msgDataWriter PP_string_writer = DDS_OBJECT_NIL;
pingpong_PP_fixed_msgDataWriter PP_fixed_writer = DDS_OBJECT_NIL;
pingpong_PP_array_msgDataWriter PP_array_writer = DDS_OBJECT_NIL;
pingpong_PP_bseq_msgDataWriter PP_bseq_writer = DDS_OBJECT_NIL;
pingpong_PP_min_msgDataReader PP_min_reader = DDS_OBJECT_NIL;
pingpong_PP_seq_msgDataReader PP_seq_reader = DDS_OBJECT_NIL;
pingpong_PP_string_msgDataReader PP_string_reader = DDS_OBJECT_NIL;
pingpong_PP_fixed_msgDataReader PP_fixed_reader = DDS_OBJECT_NIL;
pingpong_PP_array_msgDataReader PP_array_reader = DDS_OBJECT_NIL;
pingpong_PP_bseq_msgDataReader PP_bseq_reader = DDS_OBJECT_NIL;
pingpong_PP_quit_msgDataReader PP_quit_reader = DDS_OBJECT_NIL;
pingpong_PP_min_msgTypeSupport PP_min_dt;
pingpong_PP_seq_msgTypeSupport PP_seq_dt;
pingpong_PP_string_msgTypeSupport PP_string_dt;
pingpong_PP_fixed_msgTypeSupport PP_fixed_dt;
pingpong_PP_array_msgTypeSupport PP_array_dt;
pingpong_PP_bseq_msgTypeSupport PP_bseq_dt;
pingpong_PP_quit_msgTypeSupport PP_quit_dt;
DDS_sequence_pingpong_PP_min_msg PP_min_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_pingpong_PP_seq_msg PP_seq_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_pingpong_PP_string_msg PP_string_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_pingpong_PP_fixed_msg PP_fixed_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_pingpong_PP_array_msg PP_array_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_pingpong_PP_bseq_msg PP_bseq_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_pingpong_PP_quit_msg PP_quit_dataList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_StatusCondition PP_min_sc;
DDS_StatusCondition PP_seq_sc;
DDS_StatusCondition PP_string_sc;
DDS_StatusCondition PP_fixed_sc;
DDS_StatusCondition PP_array_sc;
DDS_StatusCondition PP_bseq_sc;
DDS_StatusCondition PP_quit_sc;
DDS_Topic PP_min_topic = DDS_OBJECT_NIL;
DDS_Topic PP_seq_topic = DDS_OBJECT_NIL;
DDS_Topic PP_string_topic = DDS_OBJECT_NIL;
DDS_Topic PP_fixed_topic = DDS_OBJECT_NIL;
DDS_Topic PP_array_topic = DDS_OBJECT_NIL;
DDS_Topic PP_bseq_topic = DDS_OBJECT_NIL;
DDS_Topic PP_quit_topic = DDS_OBJECT_NIL;
DDS_ConditionSeq *conditionList;
DDS_SampleInfoSeq infoList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_WaitSet w;
DDS_DomainParticipantQos *dpQos;
DDS_TopicQos *tQos;
DDS_PublisherQos *pQos;
DDS_DataWriterQos *dwQos;
DDS_SubscriberQos *sQos;
DDS_DataReaderQos *drQos;
DDS_boolean terminate = FALSE;
DDS_ReturnCode_t result;
int i;
int imax;
int j;
int jmax;
printf ("Starting pong example\n");
fflush(stdout);
/*
* Evaluate cmdline arguments
*/
#ifdef INTEGRITY
read_partition = "PongRead";
write_partition = "PongWrite";
#else
if (argc != 1) {
if (argc != 3) {
printf ("Invalid.....\n Usage: %s [READ_PARTITION WRITE_PARTITION]\n", argv[0]);
exit (1);
}
read_partition = argv[1];
write_partition = argv[2];
}
#endif
/*
* Create WaitSet
*/
w = DDS_WaitSet__alloc ();
/*
* Initialize Qos variables
*/
dpQos = DDS_DomainParticipantQos__alloc();
tQos = DDS_TopicQos__alloc();
pQos = DDS_PublisherQos__alloc();
dwQos = DDS_DataWriterQos__alloc();
sQos = DDS_SubscriberQos__alloc();
drQos = DDS_DataReaderQos__alloc();
/*
* Initialize condition list
*/
conditionList = NULL;
/*
* Create participant
*/
dpf = DDS_DomainParticipantFactory_get_instance ();
dp = DDS_DomainParticipantFactory_create_participant (dpf, myDomain, DDS_PARTICIPANT_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
if (dp == DDS_OBJECT_NIL) {
printf ("%s PONG: ERROR - Splice Daemon not running\n", argv[0]);
exit(1);
}
/*
* Create PONG publisher
*/
DDS_DomainParticipant_get_default_publisher_qos (dp, pQos);
pQos->partition.name._length = 1;
pQos->partition.name._maximum = 1;
pQos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
pQos->partition.name._buffer[0] = DDS_string_alloc (strlen (write_partition) + 1);
strcpy (pQos->partition.name._buffer[0], write_partition);
p = DDS_DomainParticipant_create_publisher (dp, pQos, NULL, DDS_STATUS_MASK_NONE);
DDS_free (pQos);
/*
* Create PING subscriber
*/
DDS_DomainParticipant_get_default_subscriber_qos (dp, sQos);
sQos->partition.name._length = 1;
sQos->partition.name._maximum = 1;
sQos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
sQos->partition.name._buffer[0] = DDS_string_alloc (strlen (read_partition) + 1);
strcpy (sQos->partition.name._buffer[0], read_partition);
s = DDS_DomainParticipant_create_subscriber (dp, sQos, NULL, DDS_STATUS_MASK_NONE);
DDS_free (sQos);
/*
* PP_min_msg
*/
/* Create Topic */
PP_min_dt = pingpong_PP_min_msgTypeSupport__alloc ();
pingpong_PP_min_msgTypeSupport_register_type (PP_min_dt, dp, "pingpong::PP_min_msg");
PP_min_topic = DDS_DomainParticipant_create_topic (dp, "PP_min_topic", "pingpong::PP_min_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_min_writer = DDS_Publisher_create_datawriter (p, PP_min_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_min_reader = DDS_Subscriber_create_datareader (s, PP_min_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_min_sc = DDS_DataReader_get_statuscondition (PP_min_reader);
DDS_StatusCondition_set_enabled_statuses (PP_min_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_min_sc);
/*
* PP_seq_msg
*/
/* Create Topic */
PP_seq_dt = pingpong_PP_seq_msgTypeSupport__alloc ();
pingpong_PP_seq_msgTypeSupport_register_type (PP_seq_dt, dp, "pingpong::PP_seq_msg");
PP_seq_topic = DDS_DomainParticipant_create_topic (dp, "PP_seq_topic", "pingpong::PP_seq_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_seq_writer = DDS_Publisher_create_datawriter (p, PP_seq_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_seq_reader = DDS_Subscriber_create_datareader (s, PP_seq_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_seq_sc = DDS_DataReader_get_statuscondition (PP_seq_reader);
DDS_StatusCondition_set_enabled_statuses (PP_seq_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_seq_sc);
/*
* PP_string_msg
*/
/* Create Topic */
PP_string_dt = pingpong_PP_string_msgTypeSupport__alloc ();
pingpong_PP_string_msgTypeSupport_register_type (PP_string_dt, dp, "pingpong::PP_string_msg");
PP_string_topic = DDS_DomainParticipant_create_topic (dp, "PP_string_topic", "pingpong::PP_string_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_string_writer = DDS_Publisher_create_datawriter (p, PP_string_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_string_reader = DDS_Subscriber_create_datareader (s, PP_string_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_string_sc = DDS_DataReader_get_statuscondition (PP_string_reader);
DDS_StatusCondition_set_enabled_statuses (PP_string_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_string_sc);
/*
* PP_fixed_msg
*/
/* Create Topic */
PP_fixed_dt = pingpong_PP_fixed_msgTypeSupport__alloc ();
pingpong_PP_fixed_msgTypeSupport_register_type (PP_fixed_dt, dp, "pingpong::PP_fixed_msg");
PP_fixed_topic = DDS_DomainParticipant_create_topic (dp, "PP_fixed_topic", "pingpong::PP_fixed_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_fixed_writer = DDS_Publisher_create_datawriter (p, PP_fixed_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_fixed_reader = DDS_Subscriber_create_datareader (s, PP_fixed_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_fixed_sc = DDS_DataReader_get_statuscondition (PP_fixed_reader);
DDS_StatusCondition_set_enabled_statuses (PP_fixed_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_fixed_sc);
/*
* PP_array_msg
*/
/* Create Topic */
PP_array_dt = pingpong_PP_array_msgTypeSupport__alloc ();
pingpong_PP_array_msgTypeSupport_register_type (PP_array_dt, dp, "pingpong::PP_array_msg");
PP_array_topic = DDS_DomainParticipant_create_topic (dp, "PP_array_topic", "pingpong::PP_array_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_array_writer = DDS_Publisher_create_datawriter (p, PP_array_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_array_reader = DDS_Subscriber_create_datareader (s, PP_array_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_array_sc = DDS_DataReader_get_statuscondition (PP_array_reader);
DDS_StatusCondition_set_enabled_statuses (PP_array_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_array_sc);
/*
* PP_bseq_msg
*/
/* Create Topic */
PP_bseq_dt = pingpong_PP_bseq_msgTypeSupport__alloc ();
pingpong_PP_bseq_msgTypeSupport_register_type (PP_bseq_dt, dp, "pingpong::PP_bseq_msg");
PP_bseq_topic = DDS_DomainParticipant_create_topic (dp, "PP_bseq_topic", "pingpong::PP_bseq_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_bseq_writer = DDS_Publisher_create_datawriter (p, PP_bseq_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_bseq_reader = DDS_Subscriber_create_datareader (s, PP_bseq_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_bseq_sc = DDS_DataReader_get_statuscondition (PP_bseq_reader);
DDS_StatusCondition_set_enabled_statuses (PP_bseq_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_bseq_sc);
/*
* PP_quit_msg
*/
/* Create Topic */
PP_quit_dt = pingpong_PP_quit_msgTypeSupport__alloc ();
pingpong_PP_quit_msgTypeSupport_register_type (PP_quit_dt, dp, "pingpong::PP_quit_msg");
PP_quit_topic = DDS_DomainParticipant_create_topic (dp, "PP_quit_topic", "pingpong::PP_quit_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_quit_reader = DDS_Subscriber_create_datareader (s, PP_quit_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_quit_sc = DDS_DataReader_get_statuscondition (PP_quit_reader);
DDS_StatusCondition_set_enabled_statuses (PP_quit_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_quit_sc);
while (!terminate) {
DDS_Duration_t wait_timeout = DDS_DURATION_INFINITE;
/* printf ("PONG: waiting for PING\n"); */
conditionList = DDS_ConditionSeq__alloc();
result = DDS_WaitSet_wait (w, conditionList, &wait_timeout);
if (result == DDS_RETCODE_OK) {
imax = conditionList->_length;
for (i = 0; i < imax; i++) {
if (conditionList->_buffer[i] == PP_min_sc) {
/* printf ("PONG: PING_min arrived\n"); */
result = pingpong_PP_min_msgDataReader_take (PP_min_reader, &PP_min_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_min_dataList._length;
if (jmax != 0) {
for (j = 0; j < jmax; j++) {
if (infoList._buffer[j].valid_data) {
result = pingpong_PP_min_msgDataWriter_write (PP_min_writer, &PP_min_dataList._buffer[j], DDS_HANDLE_NIL);
}
}
result = pingpong_PP_min_msgDataReader_return_loan (PP_min_reader, &PP_min_dataList, &infoList);
} else {
printf ("PONG: PING_min triggered, but no data available\n");
}
} else if (conditionList->_buffer[i] == PP_seq_sc) {
/* printf ("PONG: PING_seq arrived\n"); */
result = pingpong_PP_seq_msgDataReader_take (PP_seq_reader, &PP_seq_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_seq_dataList._length;
if (jmax != 0) {
for (j = 0; j < jmax; j++) {
if (infoList._buffer[j].valid_data) {
result = pingpong_PP_seq_msgDataWriter_write (PP_seq_writer, &PP_seq_dataList._buffer[j], DDS_HANDLE_NIL);
}
}
result = pingpong_PP_seq_msgDataReader_return_loan (PP_seq_reader, &PP_seq_dataList, &infoList);
} else {
printf ("PONG: PING_seq triggered, but no data available\n");
}
} else if (conditionList->_buffer[i] == PP_string_sc) {
/* printf ("PONG: PING_string arrived\n"); */
result = pingpong_PP_string_msgDataReader_take (PP_string_reader, &PP_string_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_string_dataList._length;
if (jmax != 0) {
for (j = 0; j < jmax; j++) {
if (infoList._buffer[j].valid_data) {
result = pingpong_PP_string_msgDataWriter_write (PP_string_writer, &PP_string_dataList._buffer[j], DDS_HANDLE_NIL);
}
}
result = pingpong_PP_string_msgDataReader_return_loan (PP_string_reader, &PP_string_dataList, &infoList);
} else {
printf ("PONG: PING_string triggered, but no data available\n");
exit(1);
}
} else if (conditionList->_buffer[i] == PP_fixed_sc) {
/* printf ("PONG: PING_fixed arrived\n"); */
result = pingpong_PP_fixed_msgDataReader_take (PP_fixed_reader, &PP_fixed_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_fixed_dataList._length;
if (jmax != 0) {
for (j = 0; j < jmax; j++) {
if (infoList._buffer[j].valid_data) {
result = pingpong_PP_fixed_msgDataWriter_write (PP_fixed_writer, &PP_fixed_dataList._buffer[j], DDS_HANDLE_NIL);
}
}
result = pingpong_PP_fixed_msgDataReader_return_loan (PP_fixed_reader, &PP_fixed_dataList, &infoList);
} else {
printf ("PONG: PING_fixed triggered, but no data available\n");
}
} else if (conditionList->_buffer[i] == PP_array_sc) {
/* printf ("PONG: PING_array arrived\n"); */
result = pingpong_PP_array_msgDataReader_take (PP_array_reader, &PP_array_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_array_dataList._length;
if (jmax != 0) {
for (j = 0; j < jmax; j++) {
if (infoList._buffer[j].valid_data) {
result = pingpong_PP_array_msgDataWriter_write (PP_array_writer, &PP_array_dataList._buffer[j], DDS_HANDLE_NIL);
}
}
result = pingpong_PP_array_msgDataReader_return_loan (PP_array_reader, &PP_array_dataList, &infoList);
} else {
printf ("PONG: PING_array triggered, but no data available\n");
}
} else if (conditionList->_buffer[i] == PP_bseq_sc) {
/* printf ("PONG: PING_bseq arrived\n"); */
result = pingpong_PP_bseq_msgDataReader_take (PP_bseq_reader, &PP_bseq_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_bseq_dataList._length;
if (jmax != 0) {
for (j = 0; j < jmax; j++) {
if (infoList._buffer[j].valid_data) {
result = pingpong_PP_bseq_msgDataWriter_write (PP_bseq_writer, &PP_bseq_dataList._buffer[j], DDS_HANDLE_NIL);
}
}
result = pingpong_PP_bseq_msgDataReader_return_loan (PP_bseq_reader, &PP_bseq_dataList, &infoList);
} else {
printf ("PONG: PING_bseq triggered, but no data available\n");
}
} else if (conditionList->_buffer[i] == PP_quit_sc) {
/* printf ("PONG: PING_quit arrived\n"); */
result = pingpong_PP_quit_msgDataReader_take (PP_quit_reader, &PP_quit_dataList, &infoList, DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE);
jmax = PP_quit_dataList._length;
if (jmax != 0) {
if (PP_quit_dataList._buffer[0].quit) {
terminate = TRUE;
}
result = pingpong_PP_quit_msgDataReader_return_loan (PP_quit_reader, &PP_quit_dataList, &infoList);
} else {
printf ("PONG: PING_quit triggered, but no data available\n");
}
} else {
printf ("PONG: unknown condition triggered: %lx\n", (unsigned long)conditionList->_buffer[i]);
}
}
} else {
if (result == DDS_RETCODE_ALREADY_DELETED) {
terminate = TRUE;
}
printf ("PONG: wait returned not ok: %d\n", result);
}
DDS_free(conditionList);
}
result = DDS_Subscriber_delete_datareader (s, PP_min_reader);
result = DDS_Publisher_delete_datawriter (p, PP_min_writer);
result = DDS_Subscriber_delete_datareader (s, PP_seq_reader);
result = DDS_Publisher_delete_datawriter (p, PP_seq_writer);
result = DDS_Subscriber_delete_datareader (s, PP_string_reader);
result = DDS_Publisher_delete_datawriter (p, PP_string_writer);
result = DDS_Subscriber_delete_datareader (s, PP_fixed_reader);
result = DDS_Publisher_delete_datawriter (p, PP_fixed_writer);
result = DDS_Subscriber_delete_datareader (s, PP_array_reader);
result = DDS_Publisher_delete_datawriter (p, PP_array_writer);
result = DDS_Subscriber_delete_datareader (s, PP_bseq_reader);
result = DDS_Publisher_delete_datawriter (p, PP_bseq_writer);
result = DDS_Subscriber_delete_datareader (s, PP_quit_reader);
result = DDS_DomainParticipant_delete_subscriber (dp, s);
result = DDS_DomainParticipant_delete_publisher (dp, p);
result = DDS_DomainParticipant_delete_topic (dp, PP_min_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_seq_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_string_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_fixed_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_array_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_bseq_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_quit_topic);
result = DDS_DomainParticipantFactory_delete_participant (dpf, dp);
DDS_free (w);
DDS_free (PP_min_dt);
DDS_free (PP_seq_dt);
DDS_free (PP_string_dt);
DDS_free (PP_fixed_dt);
DDS_free (PP_array_dt);
DDS_free (PP_bseq_dt);
DDS_free (PP_quit_dt);
DDS_free (dpQos);
DDS_free (tQos);
DDS_free (dwQos);
DDS_free (drQos);
printf ("Completed pong example\n");
fflush(stdout);
return 0;
}
int
main (
int argc,
char *argv[]
)
{
DDS_ConditionSeq *conditionList;
DDS_WaitSet w;
DDS_Condition exp_condition;
pong_handler *active_handler;
DDS_DomainParticipantQos *dpQos;
DDS_TopicQos *tQos;
DDS_PublisherQos *pQos;
DDS_DataWriterQos *dwQos;
DDS_SubscriberQos *sQos;
DDS_DataReaderQos *drQos;
time_t clock = time (NULL);
DDS_Duration_t wait_timeout = {3,0};
DDS_ReturnCode_t result;
DDS_boolean finish_flag = FALSE;
DDS_boolean timeout_flag = FALSE;
DDS_boolean terminate = FALSE;
int imax = 1;
int i;
unsigned int block;
init_clock();
/*
* init timing statistics
*/
init_stats (&roundtrip, "round_trip");
init_stats (&write_access, "write_access");
init_stats (&read_access, "read_access");
/*
* Evaluate cmdline arguments
*/
if (argc != 1) {
if (argc != 6) {
printf ("Invalid.....\n Usage: %s [blocks blocksize topic_id WRITE_PARTITION READ_PARTITION]\n", argv[0]);
exit (1);
}
nof_blocks = atoi (argv[1]);
nof_cycles = atoi (argv[2]);
topic_id = argv[3][0];
write_partition = argv[4];
read_partition = argv[5];
}
/*
* Create WaitSet
*/
w = DDS_WaitSet__alloc ();
/*
* Initialize Qos variables
*/
dpQos = DDS_DomainParticipantQos__alloc();
tQos = DDS_TopicQos__alloc();
pQos = DDS_PublisherQos__alloc();
dwQos = DDS_DataWriterQos__alloc();
sQos = DDS_SubscriberQos__alloc();
drQos = DDS_DataReaderQos__alloc();
/*
* Initialize condition list
*/
conditionList = NULL;
/*
* Create participant
*/
dpf = DDS_DomainParticipantFactory_get_instance ();
dp = DDS_DomainParticipantFactory_create_participant (dpf, myDomain, DDS_PARTICIPANT_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
if (dp == DDS_HANDLE_NIL) {
printf ("%s PING: ERROR - Splice Daemon not running", argv[0]);
exit (1);
}
/*
* Create PING publisher
*/
DDS_DomainParticipant_get_default_publisher_qos (dp, pQos);
pQos->partition.name._length = 1;
pQos->partition.name._maximum = 1;
pQos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
pQos->partition.name._buffer[0] = DDS_string_alloc (strlen(write_partition) + 1);
strcpy (pQos->partition.name._buffer[0], write_partition);
p = DDS_DomainParticipant_create_publisher (dp, pQos, NULL, DDS_STATUS_MASK_NONE);
DDS_free (pQos);
/*
* Create PONG subscriber
*/
DDS_DomainParticipant_get_default_subscriber_qos (dp, sQos);
sQos->partition.name._length = 1;
sQos->partition.name._maximum = 1;
sQos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
sQos->partition.name._buffer[0] = DDS_string_alloc (strlen(read_partition) + 1);
strcpy (sQos->partition.name._buffer[0], read_partition);
s = DDS_DomainParticipant_create_subscriber (dp, sQos, NULL, DDS_STATUS_MASK_NONE);
DDS_free (sQos);
/*
* PP_min_msg
*/
/* Create Topic */
PP_min_dt = pingpong_PP_min_msgTypeSupport__alloc ();
pingpong_PP_min_msgTypeSupport_register_type (PP_min_dt, dp, "pingpong::PP_min_msg");
PP_min_topic = DDS_DomainParticipant_create_topic (dp, "PP_min_topic", "pingpong::PP_min_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_min_writer = DDS_Publisher_create_datawriter (p, PP_min_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_min_reader = DDS_Subscriber_create_datareader (s, PP_min_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_min_sc = DDS_DataReader_get_statuscondition (PP_min_reader);
DDS_StatusCondition_set_enabled_statuses (PP_min_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_min_sc);
/*
* PP_seq_msg
*/
/* Create Topic */
PP_seq_dt = pingpong_PP_seq_msgTypeSupport__alloc ();
pingpong_PP_seq_msgTypeSupport_register_type (PP_seq_dt, dp, "pingpong::PP_seq_msg");
PP_seq_topic = DDS_DomainParticipant_create_topic (dp, "PP_seq_topic", "pingpong::PP_seq_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_seq_writer = DDS_Publisher_create_datawriter (p, PP_seq_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_seq_reader = DDS_Subscriber_create_datareader (s, PP_seq_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_seq_sc = DDS_DataReader_get_statuscondition (PP_seq_reader);
DDS_StatusCondition_set_enabled_statuses (PP_seq_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_seq_sc);
/*
* PP_string_msg
*/
/* Create Topic */
PP_string_dt = pingpong_PP_string_msgTypeSupport__alloc ();
pingpong_PP_string_msgTypeSupport_register_type (PP_string_dt, dp, "pingpong::PP_string_msg");
PP_string_topic = DDS_DomainParticipant_create_topic (dp, "PP_string_topic", "pingpong::PP_string_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_string_writer = DDS_Publisher_create_datawriter (p, PP_string_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_string_reader = DDS_Subscriber_create_datareader (s, PP_string_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_string_sc = DDS_DataReader_get_statuscondition (PP_string_reader);
DDS_StatusCondition_set_enabled_statuses (PP_string_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_string_sc);
/*
* PP_fixed_msg
*/
/* Create Topic */
PP_fixed_dt = pingpong_PP_fixed_msgTypeSupport__alloc ();
pingpong_PP_fixed_msgTypeSupport_register_type (PP_fixed_dt, dp, "pingpong::PP_fixed_msg");
PP_fixed_topic = DDS_DomainParticipant_create_topic (dp, "PP_fixed_topic", "pingpong::PP_fixed_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_fixed_writer = DDS_Publisher_create_datawriter (p, PP_fixed_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_fixed_reader = DDS_Subscriber_create_datareader (s, PP_fixed_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_fixed_sc = DDS_DataReader_get_statuscondition (PP_fixed_reader);
DDS_StatusCondition_set_enabled_statuses (PP_fixed_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_fixed_sc);
/*
* PP_array_msg
*/
/* Create Topic */
PP_array_dt = pingpong_PP_array_msgTypeSupport__alloc ();
pingpong_PP_array_msgTypeSupport_register_type (PP_array_dt, dp, "pingpong::PP_array_msg");
PP_array_topic = DDS_DomainParticipant_create_topic (dp, "PP_array_topic", "pingpong::PP_array_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_array_writer = DDS_Publisher_create_datawriter (p, PP_array_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_array_reader = DDS_Subscriber_create_datareader (s, PP_array_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_array_sc = DDS_DataReader_get_statuscondition (PP_array_reader);
DDS_StatusCondition_set_enabled_statuses (PP_array_sc, DDS_DATA_AVAILABLE_STATUS);
result = DDS_WaitSet_attach_condition (w, PP_array_sc);
/*
* PP_quit_msg
*/
/* Create Topic */
PP_quit_dt = pingpong_PP_quit_msgTypeSupport__alloc ();
pingpong_PP_quit_msgTypeSupport_register_type (PP_quit_dt, dp, "pingpong::PP_quit_msg");
PP_quit_topic = DDS_DomainParticipant_create_topic (dp, "PP_quit_topic", "pingpong::PP_quit_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_quit_writer = DDS_Publisher_create_datawriter (p, PP_quit_topic, DDS_DATAWRITER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
for (block = 0; block < nof_blocks ; block++) {
while (!finish_flag) {
/*
* Send Initial message
*/
timeout_flag = FALSE;
switch(topic_id) {
case 'm':
{
/* printf ("PING: sending initial ping_min\n"); */
pingpong_PP_min_msg *PPdata = pingpong_PP_min_msg__alloc ();
exp_condition = PP_min_sc;
active_handler = &PP_min_handler;
PPdata->count = 0;
PPdata->block = block;
preWriteTime = timeGet ();
result = pingpong_PP_min_msgDataWriter_write (PP_min_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'q':
{
/* printf ("PING: sending initial ping_seq\n"); */
pingpong_PP_seq_msg *PPdata = pingpong_PP_seq_msg__alloc ();
exp_condition = PP_seq_sc;
active_handler = &PP_seq_handler;
PPdata->count = 0;
PPdata->block = block;
preWriteTime = timeGet ();
result = pingpong_PP_seq_msgDataWriter_write (PP_seq_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 's':
{
/* printf ("PING: sending initial ping_string\n"); */
pingpong_PP_string_msg *PPdata = pingpong_PP_string_msg__alloc ();
exp_condition = PP_string_sc;
active_handler = &PP_string_handler;
PPdata->count = 0;
PPdata->block = block;
PPdata->a_string = DDS_string_alloc (8);
strcpy (PPdata->a_string, "a_string");
preWriteTime = timeGet ();
result = pingpong_PP_string_msgDataWriter_write (PP_string_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'f':
{
/* printf ("PING: sending initial ping_fixed\n"); */
pingpong_PP_fixed_msg *PPdata = pingpong_PP_fixed_msg__alloc ();
exp_condition = PP_fixed_sc;
active_handler = &PP_fixed_handler;
PPdata->count = 0;
PPdata->block = block;
PPdata->a_bstring = DDS_string_alloc (9);
strcpy (PPdata->a_bstring, "a_bstring");
preWriteTime = timeGet ();
result = pingpong_PP_fixed_msgDataWriter_write (PP_fixed_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'a':
{
/* printf ("PING: sending initial ping_array\n"); */
pingpong_PP_array_msg *PPdata = pingpong_PP_array_msg__alloc ();
exp_condition = PP_array_sc;
active_handler = &PP_array_handler;
PPdata->count = 0;
PPdata->block = block;
preWriteTime = timeGet ();
result = pingpong_PP_array_msgDataWriter_write (PP_array_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 't':
{
/* printf ("PING: sending initial ping_quit\n"); */
pingpong_PP_quit_msg *PPdata = pingpong_PP_quit_msg__alloc();
PPdata->quit = TRUE;
terminate = TRUE;
finish_flag = TRUE;
preWriteTime = timeGet ();
result = pingpong_PP_quit_msgDataWriter_write (PP_quit_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
default:
printf("Invalid topic-id\n");
exit(1);
}
if (!terminate) {
roundTripTime = preWriteTime;
add_stats (&write_access, 1E6 * timeToReal (timeSub (postWriteTime, preWriteTime)));
/*
* Wait for response, calculate timing, and send another data if not ready
*/
while (!(timeout_flag || finish_flag)) {
conditionList = DDS_ConditionSeq__alloc();
result = DDS_WaitSet_wait (w, conditionList, &wait_timeout);
if (conditionList) {
imax = conditionList->_length;
if (imax != 0) {
for (i = 0; i < imax; i++) {
if (conditionList->_buffer[i] == exp_condition) {
finish_flag = active_handler (nof_cycles);
} else {
printf ("PING: unexpected condition triggered: %x\n",
(unsigned int)conditionList->_buffer[i]);
}
}
} else {
printf ("PING: TIMEOUT - message lost\n");
timeout_flag = TRUE;
}
DDS_free(conditionList);
} else {
printf ("PING: TIMEOUT - message lost\n");
timeout_flag = TRUE;
}
}
}
}
if (!terminate) {
finish_flag = FALSE;
if (block == 0) {
printf ("# PING PONG measurements (in us) \n");
printf ("# Executed at: %s", ctime(&clock));
printf ("# Roundtrip time [us] Write-access time [us] Read-access time [us]\n");
printf ("# Block Count mean min max Count mean min max Count mean min max\n");
}
printf ("%6d %10d %6.0f %6.0f %6.0f %10d %6.0f %6.0f %6.0f %10d %6.0f %6.0f %6.0f\n",
block,
roundtrip.count,
roundtrip.average,
roundtrip.min,
roundtrip.max,
write_access.count,
write_access.average,
write_access.min,
write_access.max,
read_access.count,
read_access.average,
read_access.min,
read_access.max);
fflush (NULL);
init_stats (&write_access, "write_access");
init_stats (&read_access, "read_access");
init_stats (&roundtrip, "round_trip");
}
}
result = DDS_Subscriber_delete_datareader (s, PP_min_reader);
result = DDS_Publisher_delete_datawriter (p, PP_min_writer);
result = DDS_Subscriber_delete_datareader (s, PP_seq_reader);
result = DDS_Publisher_delete_datawriter (p, PP_seq_writer);
result = DDS_Subscriber_delete_datareader (s, PP_string_reader);
result = DDS_Publisher_delete_datawriter (p, PP_string_writer);
result = DDS_Subscriber_delete_datareader (s, PP_fixed_reader);
result = DDS_Publisher_delete_datawriter (p, PP_fixed_writer);
result = DDS_Subscriber_delete_datareader (s, PP_array_reader);
result = DDS_Publisher_delete_datawriter (p, PP_array_writer);
result = DDS_Publisher_delete_datawriter (p, PP_quit_writer);
result = DDS_DomainParticipant_delete_subscriber (dp, s);
result = DDS_DomainParticipant_delete_publisher (dp, p);
result = DDS_DomainParticipant_delete_topic (dp, PP_min_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_seq_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_string_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_fixed_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_array_topic);
result = DDS_DomainParticipant_delete_topic (dp, PP_quit_topic);
result = DDS_DomainParticipantFactory_delete_participant (dpf, dp);
DDS_free (w);
DDS_free (PP_min_dt);
DDS_free (PP_seq_dt);
DDS_free (PP_string_dt);
DDS_free (PP_fixed_dt);
DDS_free (PP_array_dt);
DDS_free (PP_quit_dt);
DDS_free (dpQos);
DDS_free (tQos);
DDS_free (dwQos);
DDS_free (drQos);
return 0;
}
int main (int argc, char ** argv)
#endif
{
/* Generic DDS entities */
DDS_DomainParticipant participant;
DDS_Topic chatMessageTopic;
DDS_Topic nameServiceTopic;
DDS_Subscriber chatSubscriber;
DDS_QueryCondition singleUser;
DDS_ReadCondition newUser;
DDS_StatusCondition leftUser;
DDS_GuardCondition guard;
DDS_WaitSet userLoadWS;
DDS_LivelinessChangedStatus livChangStatus;
/* QosPolicy holders */
DDS_TopicQos *setting_topic_qos;
DDS_TopicQos *reliable_topic_qos;
DDS_SubscriberQos *sub_qos;
DDS_DataReaderQos *message_qos;
/* DDS Identifiers */
DDS_DomainId_t domain = NULL;
DDS_ReturnCode_t status;
DDS_ConditionSeq *guardList = NULL;
DDS_Duration_t timeout = DDS_DURATION_INFINITE;
/* Type-specific DDS entities */
Chat_ChatMessageTypeSupport chatMessageTS;
Chat_NameServiceTypeSupport nameServiceTS;
Chat_NameServiceDataReader nameServer;
Chat_ChatMessageDataReader loadAdmin;
DDS_sequence_Chat_ChatMessage msgList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_sequence_Chat_NameService nsList = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_SampleInfoSeq infoSeq = { 0, 0, DDS_OBJECT_NIL, FALSE };
DDS_SampleInfoSeq infoSeq2 = { 0, 0, DDS_OBJECT_NIL, FALSE };
/* Others */
DDS_StringSeq args;
int closed = 0;
DDS_unsigned_long i, j;
DDS_long prevCount = 0;
char *partitionName;
char *chatMessageTypeName = NULL;
char *nameServiceTypeName = NULL;
pthread_t tid;
pthread_attr_t tattr;
printf("Starting UserLoad example.\n");
fflush(stdout);
/* Create a DomainParticipant (using the 'TheParticipantFactory' convenience macro). */
participant = DDS_DomainParticipantFactory_create_participant (
DDS_TheParticipantFactory,
domain,
DDS_PARTICIPANT_QOS_DEFAULT,
NULL,
DDS_STATUS_MASK_NONE);
checkHandle(participant, "DDS_DomainParticipantFactory_create_participant");
/* Register the required datatype for ChatMessage. */
chatMessageTS = Chat_ChatMessageTypeSupport__alloc();
checkHandle(chatMessageTS, "Chat_ChatMessageTypeSupport__alloc");
chatMessageTypeName = Chat_ChatMessageTypeSupport_get_type_name(chatMessageTS);
status = Chat_ChatMessageTypeSupport_register_type(
chatMessageTS,
participant,
chatMessageTypeName);
checkStatus(status, "Chat_ChatMessageTypeSupport_register_type");
/* Register the required datatype for NameService. */
nameServiceTS = Chat_NameServiceTypeSupport__alloc();
checkHandle(nameServiceTS, "Chat_NameServiceTypeSupport__alloc");
nameServiceTypeName = Chat_NameServiceTypeSupport_get_type_name(nameServiceTS);
status = Chat_NameServiceTypeSupport_register_type(
nameServiceTS,
participant,
nameServiceTypeName);
checkStatus(status, "Chat_NameServiceTypeSupport_register_type");
/* Set the ReliabilityQosPolicy to RELIABLE. */
reliable_topic_qos = DDS_TopicQos__alloc();
checkHandle(reliable_topic_qos, "DDS_TopicQos__alloc");
status = DDS_DomainParticipant_get_default_topic_qos(participant, reliable_topic_qos);
checkStatus(status, "DDS_DomainParticipant_get_default_topic_qos");
reliable_topic_qos->reliability.kind = DDS_RELIABLE_RELIABILITY_QOS;
/* Make the tailored QoS the new default. */
status = DDS_DomainParticipant_set_default_topic_qos(participant, reliable_topic_qos);
checkStatus(status, "DDS_DomainParticipant_set_default_topic_qos");
/* Use the changed policy when defining the ChatMessage topic */
chatMessageTopic = DDS_DomainParticipant_create_topic(
participant,
"Chat_ChatMessage",
chatMessageTypeName,
reliable_topic_qos,
NULL,
DDS_STATUS_MASK_NONE);
checkHandle(chatMessageTopic, "DDS_DomainParticipant_create_topic (ChatMessage)");
/* Set the DurabilityQosPolicy to TRANSIENT. */
setting_topic_qos = DDS_TopicQos__alloc();
checkHandle(setting_topic_qos, "DDS_TopicQos__alloc");
status = DDS_DomainParticipant_get_default_topic_qos(participant, setting_topic_qos);
checkStatus(status, "DDS_DomainParticipant_get_default_topic_qos");
setting_topic_qos->durability.kind = DDS_TRANSIENT_DURABILITY_QOS;
/* Create the NameService Topic. */
nameServiceTopic = DDS_DomainParticipant_create_topic(
participant,
"Chat_NameService",
nameServiceTypeName,
setting_topic_qos,
NULL,
DDS_STATUS_MASK_NONE);
checkHandle(nameServiceTopic, "DDS_DomainParticipant_create_topic");
/* Adapt the default SubscriberQos to read from the "ChatRoom" Partition. */
partitionName = "ChatRoom";
sub_qos = DDS_SubscriberQos__alloc();
checkHandle(sub_qos, "DDS_SubscriberQos__alloc");
status = DDS_DomainParticipant_get_default_subscriber_qos (participant, sub_qos);
checkStatus(status, "DDS_DomainParticipant_get_default_subscriber_qos");
sub_qos->partition.name._length = 1;
sub_qos->partition.name._maximum = 1;
sub_qos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
checkHandle(sub_qos->partition.name._buffer, "DDS_StringSeq_allocbuf");
sub_qos->partition.name._buffer[0] = DDS_string_alloc (strlen(partitionName) + 1);
checkHandle(sub_qos->partition.name._buffer[0], "DDS_string_alloc");
strcpy (sub_qos->partition.name._buffer[0], partitionName);
/* Create a Subscriber for the UserLoad application. */
chatSubscriber = DDS_DomainParticipant_create_subscriber(participant, sub_qos, NULL, DDS_STATUS_MASK_NONE);
checkHandle(chatSubscriber, "DDS_DomainParticipant_create_subscriber");
/* Create a DataReader for the NameService Topic (using the appropriate QoS). */
nameServer = DDS_Subscriber_create_datareader(
chatSubscriber,
nameServiceTopic,
DDS_DATAREADER_QOS_USE_TOPIC_QOS,
NULL,
DDS_STATUS_MASK_NONE);
checkHandle(nameServer, "DDS_Subscriber_create_datareader (NameService)");
/* Adapt the DataReaderQos for the ChatMessageDataReader to keep track of all messages. */
message_qos = DDS_DataReaderQos__alloc();
checkHandle(message_qos, "DDS_DataReaderQos__alloc");
status = DDS_Subscriber_get_default_datareader_qos(chatSubscriber, message_qos);
checkStatus(status, "DDS_Subscriber_get_default_datareader_qos");
status = DDS_Subscriber_copy_from_topic_qos(chatSubscriber, message_qos, reliable_topic_qos);
checkStatus(status, "DDS_Subscriber_copy_from_topic_qos");
message_qos->history.kind = DDS_KEEP_ALL_HISTORY_QOS;
/* Create a DataReader for the ChatMessage Topic (using the appropriate QoS). */
loadAdmin = DDS_Subscriber_create_datareader(
chatSubscriber,
chatMessageTopic,
message_qos,
NULL,
DDS_STATUS_MASK_NONE);
checkHandle(loadAdmin, "DDS_Subscriber_create_datareader (ChatMessage)");
/* Initialize the Query Arguments. */
args._length = 1;
args._maximum = 1;
args._buffer = DDS_StringSeq_allocbuf(1);
checkHandle(args._buffer, "DDS_StringSeq_allocbuf");
args._buffer[0] = DDS_string_alloc (12); /* Enough for maximum size numbers. */
checkHandle(args._buffer[0], "DDS_string_alloc");
sprintf(args._buffer[0], "%d", 0);
/* Create a QueryCondition that will contain all messages with userID=ownID */
singleUser = DDS_DataReader_create_querycondition(
loadAdmin,
DDS_ANY_SAMPLE_STATE,
DDS_ANY_VIEW_STATE,
DDS_ANY_INSTANCE_STATE,
"userID=%0",
&args);
checkHandle(singleUser, "DDS_DataReader_create_querycondition (singleUser Query)");
/* Create a ReadCondition that will contain new users only */
newUser = DDS_DataReader_create_readcondition(
nameServer,
DDS_NOT_READ_SAMPLE_STATE,
DDS_NEW_VIEW_STATE,
DDS_ALIVE_INSTANCE_STATE);
checkHandle(newUser, "DDS_DataReader_create_readcondition (newUser)");
/* Obtain a StatusCondition that triggers only when a Writer changes Liveliness */
leftUser = DDS_DataReader_get_statuscondition(loadAdmin);
checkHandle(leftUser, "DDS_DataReader_get_statuscondition");
status = DDS_StatusCondition_set_enabled_statuses(leftUser, DDS_LIVELINESS_CHANGED_STATUS);
checkStatus(status, "DDS_StatusCondition_set_enabled_statuses");
/* Create a bare guard which will be used to close the room */
escape = DDS_GuardCondition__alloc();
checkHandle(escape, "DDS_GuardCondition__alloc");
/* Create a waitset and add the ReadConditions */
userLoadWS = DDS_WaitSet__alloc();
checkHandle(userLoadWS, "DDS_WaitSet__alloc");
status = DDS_WaitSet_attach_condition(userLoadWS, newUser);
checkStatus(status, "DDS_WaitSet_attach_condition (newUser)");
status = DDS_WaitSet_attach_condition(userLoadWS, leftUser);
checkStatus(status, "DDS_WaitSet_attach_condition (leftUser)");
status = DDS_WaitSet_attach_condition(userLoadWS, escape);
checkStatus(status, "DDS_WaitSet_attach_condition (escape)");
/* Initialize and pre-allocate the GuardList used to obtain the triggered Conditions. */
guardList = DDS_ConditionSeq__alloc();
checkHandle(guardList, "DDS_ConditionSeq__alloc");
guardList->_maximum = 3;
guardList->_length = 0;
guardList->_buffer = DDS_ConditionSeq_allocbuf(3);
checkHandle(guardList->_buffer, "DDS_ConditionSeq_allocbuf");
/* Remove all known Users that are not currently active. */
status = Chat_NameServiceDataReader_take(
nameServer,
&nsList,
&infoSeq,
DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE,
DDS_ANY_VIEW_STATE,
DDS_NOT_ALIVE_INSTANCE_STATE);
checkStatus(status, "Chat_NameServiceDataReader_take");
status = Chat_NameServiceDataReader_return_loan(nameServer, &nsList, &infoSeq);
checkStatus(status, "Chat_NameServiceDataReader_return_loan");
/* Start the sleeper thread. */
pthread_attr_init(&tattr);
pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED);
pthread_create (&tid, &tattr, delayedEscape, NULL);
pthread_attr_destroy(&tattr);
while (!closed) {
/* Wait until at least one of the Conditions in the waitset triggers. */
status = DDS_WaitSet_wait(userLoadWS, guardList, &timeout);
checkStatus(status, "DDS_WaitSet_wait");
/* Walk over all guards to display information */
for (i = 0; i < guardList->_length; i++) {
guard = guardList->_buffer[i];
if (guard == newUser) {
/* The newUser ReadCondition contains data */
status = Chat_NameServiceDataReader_read_w_condition(
nameServer,
&nsList,
&infoSeq,
DDS_LENGTH_UNLIMITED,
newUser);
checkStatus(status, "Chat_NameServiceDataReader_read_w_condition");
for (j = 0; j < nsList._length; j++) {
printf ("New user: %s\n", nsList._buffer[j].name);
}
status = Chat_NameServiceDataReader_return_loan(nameServer, &nsList, &infoSeq);
checkStatus(status, "Chat_NameServiceDataReader_return_loan");
} else if (guard == leftUser) {
/* Some liveliness has changed (either a DataWriter joined or a DataWriter left) */
status = DDS_DataReader_get_liveliness_changed_status(loadAdmin, &livChangStatus);
checkStatus(status, "DDS_DataReader_get_liveliness_changed_status");
if (livChangStatus.alive_count < prevCount) {
/* A user has left the ChatRoom, since a DataWriter lost its liveliness */
/* Take the effected users so tey will not appear in the list later on. */
status = Chat_NameServiceDataReader_take(
nameServer,
&nsList,
&infoSeq,
DDS_LENGTH_UNLIMITED,
DDS_ANY_SAMPLE_STATE,
DDS_ANY_VIEW_STATE,
DDS_NOT_ALIVE_NO_WRITERS_INSTANCE_STATE);
checkStatus(status, "Chat_NameServiceDataReader_take");
for (j = 0; j < nsList._length; j++) {
/* re-apply query arguments */
sprintf(args._buffer[0], "%d", nsList._buffer[j].userID);
status = DDS_QueryCondition_set_query_parameters(singleUser, &args);
checkStatus(status, "DDS_QueryCondition_set_query_parameters");
/* Read this users history */
status = Chat_ChatMessageDataReader_take_w_condition(
loadAdmin,
&msgList,
&infoSeq2,
DDS_LENGTH_UNLIMITED,
singleUser);
checkStatus(status, "Chat_ChatMessageDataReader_take_w_condition");
/* Display the user and his history */
printf (
"Departed user %s has sent %d messages\n",
nsList._buffer[j].name,
msgList._length);
status = Chat_ChatMessageDataReader_return_loan(loadAdmin, &msgList, &infoSeq2);
checkStatus(status, "Chat_ChatMessageDataReader_return_loan");
}
status = Chat_NameServiceDataReader_return_loan(nameServer, &nsList, &infoSeq);
checkStatus(status, "Chat_NameServiceDataReader_return_loan");
}
prevCount = livChangStatus.alive_count;
} else if (guard == escape) {
printf ("UserLoad has terminated.\n");
closed = 1;
}
else
{
assert(0);
};
} /* for */
} /* while (!closed) */
/* Remove all Conditions from the WaitSet. */
status = DDS_WaitSet_detach_condition(userLoadWS, escape);
checkStatus(status, "DDS_WaitSet_detach_condition (escape)");
status = DDS_WaitSet_detach_condition(userLoadWS, leftUser);
checkStatus(status, "DDS_WaitSet_detach_condition (leftUser)");
status = DDS_WaitSet_detach_condition(userLoadWS, newUser);
checkStatus(status, "DDS_WaitSet_detach_condition (newUser)");
/* Free all resources */
DDS_free(guardList);
DDS_free(args._buffer);
DDS_free(userLoadWS);
DDS_free(escape);
DDS_free(setting_topic_qos);
DDS_free(reliable_topic_qos);
DDS_free(nameServiceTypeName);
DDS_free(chatMessageTypeName);
DDS_free(nameServiceTS);
DDS_free(chatMessageTS);
status = DDS_DomainParticipant_delete_contained_entities(participant);
checkStatus(status, "DDS_DomainParticipant_delete_contained_entities");
status = DDS_DomainParticipantFactory_delete_participant(
DDS_TheParticipantFactory,
participant);
checkStatus(status, "DDS_DomainParticipantFactory_delete_participant");
return 0;
}
int OSPL_MAIN (int argc, char *argv[])
{
DDS_sequence_ListenerData_Msg* message_seq = DDS_sequence_ListenerData_Msg__alloc();
DDS_SampleInfoSeq* message_infoSeq = DDS_SampleInfoSeq__alloc();
DDS_Subscriber message_Subscriber;
DDS_DataReader message_DataReader;
DDS_WaitSet waitSet;
DDS_ConditionSeq* guardList = NULL;
struct DDS_DataReaderListener *message_Listener;
DDS_Duration_t timeout = { 0, 200000000 };
struct Listener_data* Listener_data;
DDS_GuardCondition guardCondition = DDS_GuardCondition__alloc();
int count = 0;
DDS_StatusMask mask;
// Create DDS DomainParticipant
createParticipant("Listener example");
// Register the Topic's type in the DDS Domain.
g_MessageTypeSupport = ListenerData_MsgTypeSupport__alloc();
checkHandle(g_MessageTypeSupport, "ListenerData_MsgTypeSupport__alloc");
registerMessageType(g_MessageTypeSupport);
// Create the Topic's in the DDS Domain.
g_MessageTypeName = ListenerData_MsgTypeSupport_get_type_name(g_MessageTypeSupport);
g_MessageTopic = createTopic("ListenerData_Msg", g_MessageTypeName);
DDS_free(g_MessageTypeName);
DDS_free(g_MessageTypeSupport);
// Create the Subscriber's in the DDS Domain.
message_Subscriber = createSubscriber();
// Request a Reader from the the Subscriber.
message_DataReader = createDataReader(message_Subscriber, g_MessageTopic);
/* Allocate the DataReaderListener interface. */
message_Listener = DDS_DataReaderListener__alloc();
checkHandle(message_Listener, "DDS_DataReaderListener__alloc");
Listener_data = malloc(sizeof(struct Listener_data));
checkHandle(Listener_data, "malloc");
Listener_data->guardCondition = &guardCondition;
Listener_data->message_DataReader = &message_DataReader;
Listener_data->isClosed = &isClosed;
message_Listener->listener_data = Listener_data;
message_Listener->on_data_available = on_data_available;
message_Listener->on_requested_deadline_missed = on_requested_deadline_missed;
mask =
DDS_DATA_AVAILABLE_STATUS | DDS_REQUESTED_DEADLINE_MISSED_STATUS;
g_status = DDS_DataReader_set_listener(message_DataReader, message_Listener, mask);
checkStatus(g_status, "DDS_DataReader_set_listener");
// WaitSet is used to avoid spinning in the loop below.
waitSet = DDS_WaitSet__alloc();
checkHandle(waitSet, "DDS_WaitSet__alloc");
g_status = DDS_WaitSet_attach_condition(waitSet, guardCondition);
checkStatus(g_status, "DDS_WaitSet_attach_condition (readCondition)");
// Initialize and pre-allocate the GuardList used to obtain the triggered Conditions.
guardList = DDS_ConditionSeq__alloc();
checkHandle(guardList, "DDS_ConditionSeq__alloc");
guardList->_maximum = 1;
guardList->_length = 0;
guardList->_buffer = DDS_ConditionSeq_allocbuf(1);
checkHandle(guardList->_buffer, "DDS_ConditionSeq_allocbuf");
printf("\n=== [ListenerDataSubscriber] Ready...");
isClosed = FALSE;
do
{
g_status = DDS_WaitSet_wait(waitSet, guardList, &timeout);
if(g_status != DDS_RETCODE_TIMEOUT)
{
checkStatus(g_status, "DDS_WaitSet_wait");
}
else
{
printf("\n=== [ListenerDataSubscriber] (timeout)");
}
g_status = DDS_GuardCondition_set_trigger_value(guardCondition, FALSE);
checkStatus(g_status, "DDS_GuardCondition_set_trigger_value");
++ count;
}
while( isClosed == FALSE && count < 1500 );
printf("\n\n=== [ListenerDataSubscriber] isClosed");
// Cleanup DDS from the created Entities.
deleteDataReader(message_Subscriber, message_DataReader);
deleteSubscriber(message_Subscriber);
deleteTopic(g_MessageTopic);
deleteParticipant();
// Cleanup C allocations
// Recursively free the instances sequence using the OpenSplice API.
DDS_free(message_seq);
DDS_free(message_infoSeq);
free(Listener_data);
// Print out an empty line, just to avoid the shell writing on the same line as our last output.
printf("\n");
return 0;
}
int OSPL_MAIN (int argc, char ** argv)
#endif
{
DDS_ConditionSeq *conditionList;
DDS_WaitSet w;
DDS_DomainParticipantQos *dpQos;
DDS_TopicQos *tQos;
DDS_PublisherQos *pQos;
DDS_DataWriterQos *dwQos;
DDS_SubscriberQos *sQos;
DDS_DataReaderQos *drQos;
DDS_Condition exp_condition = NULL;
pong_handler *active_handler = NULL;
DDS_Duration_t wait_timeout = {3,0};
DDS_boolean finish_flag = FALSE;
DDS_boolean timeout_flag = FALSE;
DDS_boolean terminate = FALSE;
DDS_ReturnCode_t result;
int imax = 1;
int i;
unsigned int block;
printf ("Starting ping example\n");
fflush(stdout);
/*
* init timing statistics
*/
init_stats (&roundtrip, "round_trip");
init_stats (&write_access, "write_access");
init_stats (&read_access, "read_access");
/*
* Evaluate cmdline arguments
*/
#ifdef INTEGRITY
nof_blocks = 100;
nof_cycles = 100;
#if defined (PING1)
topic_id = 'm';
#elif defined (PING2)
topic_id = 'q';
#elif defined (PING3)
topic_id = 's';
#elif defined (PING4)
topic_id = 'f';
#elif defined (PING5)
topic_id = 'b';
#elif defined (PING6)
nof_blocks = 1;
nof_cycles = 10;
topic_id = 't';
#endif
write_partition = "PongRead";
read_partition = "PongWrite";
#else
if (argc != 1) {
if (argc != 6) {
printf ("Invalid.....\n Usage: %s [blocks blocksize topic_id WRITE_PARTITION READ_PARTITION]\n", argv[0]);
exit (1);
}
nof_blocks = atoi (argv[1]);
nof_cycles = atoi (argv[2]);
topic_id = argv[3][0];
write_partition = argv[4];
read_partition = argv[5];
}
#endif
#ifdef _WIN32
init_clock();
#endif
/*
* Create WaitSet
*/
w = DDS_WaitSet__alloc ();
/*
* Initialize Qos variables
*/
dpQos = DDS_DomainParticipantQos__alloc();
tQos = DDS_TopicQos__alloc();
pQos = DDS_PublisherQos__alloc();
dwQos = DDS_DataWriterQos__alloc();
sQos = DDS_SubscriberQos__alloc();
drQos = DDS_DataReaderQos__alloc();
/*
* Initialize condition list
*/
conditionList = NULL;
/*
* Create participant
*/
dpf = DDS_DomainParticipantFactory_get_instance ();
dp = DDS_DomainParticipantFactory_create_participant (dpf, myDomain, DDS_PARTICIPANT_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
if (dp == DDS_HANDLE_NIL) {
printf ("%s PING: ERROR - Splice Daemon not running", argv[0]);
exit (1);
}
/*
* Create PING publisher
*/
DDS_DomainParticipant_get_default_publisher_qos (dp, pQos);
pQos->partition.name._length = 1;
pQos->partition.name._maximum = 1;
pQos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
pQos->partition.name._buffer[0] = DDS_string_dup (write_partition);
p = DDS_DomainParticipant_create_publisher (dp, pQos, NULL, DDS_STATUS_MASK_NONE);
DDS_free (pQos);
/*
* Create PONG subscriber
*/
DDS_DomainParticipant_get_default_subscriber_qos (dp, sQos);
sQos->partition.name._length = 1;
sQos->partition.name._maximum = 1;
sQos->partition.name._buffer = DDS_StringSeq_allocbuf (1);
sQos->partition.name._buffer[0] = DDS_string_dup (read_partition);
s = DDS_DomainParticipant_create_subscriber (dp, sQos, NULL, DDS_STATUS_MASK_NONE);
DDS_free (sQos);
/*
* PP_min_msg
*/
/* Create Topic */
PP_min_dt = pingpong_PP_min_msgTypeSupport__alloc ();
pingpong_PP_min_msgTypeSupport_register_type (PP_min_dt, dp, "pingpong::PP_min_msg");
PP_min_topic = DDS_DomainParticipant_create_topic (dp, "PP_min_topic", "pingpong::PP_min_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
DDS_Publisher_get_default_datawriter_qos(p, dwQos);
dwQos->reliability.kind = DDS_BEST_EFFORT_RELIABILITY_QOS;
dwQos->history.kind = DDS_KEEP_ALL_HISTORY_QOS;
/* Create datawriter */
PP_min_writer = DDS_Publisher_create_datawriter (p, PP_min_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_min_reader = DDS_Subscriber_create_datareader (s, PP_min_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_min_sc = DDS_DataReader_get_statuscondition (PP_min_reader);
DDS_StatusCondition_set_enabled_statuses (PP_min_sc, DDS_DATA_AVAILABLE_STATUS);
DDS_WaitSet_attach_condition (w, PP_min_sc);
/*
* PP_seq_msg
*/
/* Create Topic */
PP_seq_dt = pingpong_PP_seq_msgTypeSupport__alloc ();
pingpong_PP_seq_msgTypeSupport_register_type (PP_seq_dt, dp, "pingpong::PP_seq_msg");
PP_seq_topic = DDS_DomainParticipant_create_topic (dp, "PP_seq_topic", "pingpong::PP_seq_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_seq_writer = DDS_Publisher_create_datawriter (p, PP_seq_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_seq_reader = DDS_Subscriber_create_datareader (s, PP_seq_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_seq_sc = DDS_DataReader_get_statuscondition (PP_seq_reader);
DDS_StatusCondition_set_enabled_statuses (PP_seq_sc, DDS_DATA_AVAILABLE_STATUS);
DDS_WaitSet_attach_condition (w, PP_seq_sc);
/*
* PP_string_msg
*/
/* Create Topic */
PP_string_dt = pingpong_PP_string_msgTypeSupport__alloc ();
pingpong_PP_string_msgTypeSupport_register_type (PP_string_dt, dp, "pingpong::PP_string_msg");
PP_string_topic = DDS_DomainParticipant_create_topic (dp, "PP_string_topic", "pingpong::PP_string_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_string_writer = DDS_Publisher_create_datawriter (p, PP_string_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_string_reader = DDS_Subscriber_create_datareader (s, PP_string_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_string_sc = DDS_DataReader_get_statuscondition (PP_string_reader);
DDS_StatusCondition_set_enabled_statuses (PP_string_sc, DDS_DATA_AVAILABLE_STATUS);
DDS_WaitSet_attach_condition (w, PP_string_sc);
/*
* PP_fixed_msg
*/
/* Create Topic */
PP_fixed_dt = pingpong_PP_fixed_msgTypeSupport__alloc ();
pingpong_PP_fixed_msgTypeSupport_register_type (PP_fixed_dt, dp, "pingpong::PP_fixed_msg");
PP_fixed_topic = DDS_DomainParticipant_create_topic (dp, "PP_fixed_topic", "pingpong::PP_fixed_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_fixed_writer = DDS_Publisher_create_datawriter (p, PP_fixed_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_fixed_reader = DDS_Subscriber_create_datareader (s, PP_fixed_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_fixed_sc = DDS_DataReader_get_statuscondition (PP_fixed_reader);
DDS_StatusCondition_set_enabled_statuses (PP_fixed_sc, DDS_DATA_AVAILABLE_STATUS);
DDS_WaitSet_attach_condition (w, PP_fixed_sc);
/*
* PP_array_msg
*/
/* Create Topic */
PP_array_dt = pingpong_PP_array_msgTypeSupport__alloc ();
pingpong_PP_array_msgTypeSupport_register_type (PP_array_dt, dp, "pingpong::PP_array_msg");
PP_array_topic = DDS_DomainParticipant_create_topic (dp, "PP_array_topic", "pingpong::PP_array_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_array_writer = DDS_Publisher_create_datawriter (p, PP_array_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_array_reader = DDS_Subscriber_create_datareader (s, PP_array_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_array_sc = DDS_DataReader_get_statuscondition (PP_array_reader);
DDS_StatusCondition_set_enabled_statuses (PP_array_sc, DDS_DATA_AVAILABLE_STATUS);
DDS_WaitSet_attach_condition (w, PP_array_sc);
/*
* PP_bseq_msg
*/
/* Create Topic */
PP_bseq_dt = pingpong_PP_bseq_msgTypeSupport__alloc ();
pingpong_PP_bseq_msgTypeSupport_register_type (PP_bseq_dt, dp, "pingpong::PP_bseq_msg");
PP_bseq_topic = DDS_DomainParticipant_create_topic (dp, "PP_bseq_topic", "pingpong::PP_bseq_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_bseq_writer = DDS_Publisher_create_datawriter (p, PP_bseq_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Create datareader */
PP_bseq_reader = DDS_Subscriber_create_datareader (s, PP_bseq_topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Add datareader statuscondition to waitset */
PP_bseq_sc = DDS_DataReader_get_statuscondition (PP_bseq_reader);
DDS_StatusCondition_set_enabled_statuses (PP_bseq_sc, DDS_DATA_AVAILABLE_STATUS);
DDS_WaitSet_attach_condition (w, PP_bseq_sc);
/*
* PP_quit_msg
*/
/* Create Topic */
PP_quit_dt = pingpong_PP_quit_msgTypeSupport__alloc ();
pingpong_PP_quit_msgTypeSupport_register_type (PP_quit_dt, dp, "pingpong::PP_quit_msg");
PP_quit_topic = DDS_DomainParticipant_create_topic (dp, "PP_quit_topic", "pingpong::PP_quit_msg", DDS_TOPIC_QOS_DEFAULT, NULL, DDS_STATUS_MASK_NONE);
/* Create datawriter */
PP_quit_writer = DDS_Publisher_create_datawriter (p, PP_quit_topic, dwQos, NULL, DDS_STATUS_MASK_NONE);
/* Fr: workarround for ticket dds1712 */
conditionList = DDS_ConditionSeq__alloc();
assert(conditionList);
DDS_WaitSet_wait (w, conditionList, &wait_timeout);
DDS_free(conditionList);
for (block = 0; block < nof_blocks && !terminate ; block++) {
while (!finish_flag) {
/*
* Send Initial message
*/
timeout_flag = FALSE;
switch(topic_id) {
case 'm':
{
/* printf ("PING: sending initial ping_min\n"); */
pingpong_PP_min_msg *PPdata = pingpong_PP_min_msg__alloc ();
exp_condition = PP_min_sc;
active_handler = &PP_min_handler;
PPdata->count = 0;
PPdata->block = block;
preWriteTime = timeGet ();
pingpong_PP_min_msgDataWriter_write (PP_min_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'q':
{
/* printf ("PING: sending initial ping_seq\n"); */
pingpong_PP_seq_msg *PPdata = pingpong_PP_seq_msg__alloc ();
exp_condition = PP_seq_sc;
active_handler = &PP_seq_handler;
PPdata->count = 0;
PPdata->block = block;
{
int i = 0;
PPdata->payload._buffer = pingpong_seq_char_allocbuf(SEQ_PAYLOAD_SIZE);
PPdata->payload._length = SEQ_PAYLOAD_SIZE;
PPdata->payload._maximum = SEQ_PAYLOAD_SIZE;
for (i=0; i<SEQ_PAYLOAD_SIZE; i++) {
PPdata->payload._buffer[i] = (char)i;
}
}
preWriteTime = timeGet ();
pingpong_PP_seq_msgDataWriter_write (PP_seq_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 's':
{
/* printf ("PING: sending initial ping_string\n"); */
pingpong_PP_string_msg *PPdata = pingpong_PP_string_msg__alloc ();
exp_condition = PP_string_sc;
active_handler = &PP_string_handler;
PPdata->count = 0;
PPdata->block = block;
PPdata->a_string = DDS_string_dup ("a_string");
preWriteTime = timeGet ();
pingpong_PP_string_msgDataWriter_write (PP_string_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'f':
{
/* printf ("PING: sending initial ping_fixed\n"); */
pingpong_PP_fixed_msg *PPdata = pingpong_PP_fixed_msg__alloc ();
exp_condition = PP_fixed_sc;
active_handler = &PP_fixed_handler;
PPdata->count = 0;
PPdata->block = block;
PPdata->a_bstring = DDS_string_dup ("a_bstring");
preWriteTime = timeGet ();
pingpong_PP_fixed_msgDataWriter_write (PP_fixed_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'a':
{
/* printf ("PING: sending initial ping_array\n"); */
pingpong_PP_array_msg *PPdata = pingpong_PP_array_msg__alloc ();
exp_condition = PP_array_sc;
active_handler = &PP_array_handler;
PPdata->count = 0;
PPdata->block = block;
preWriteTime = timeGet ();
pingpong_PP_array_msgDataWriter_write (PP_array_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 'b':
{
/* printf ("PING: sending initial ping_bseq_msg\n"); */
pingpong_PP_bseq_msg *PPdata = pingpong_PP_bseq_msg__alloc ();
exp_condition = PP_bseq_sc;
active_handler = &PP_bseq_handler;
PPdata->count = 0;
PPdata->block = block;
preWriteTime = timeGet ();
pingpong_PP_bseq_msgDataWriter_write (PP_bseq_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
DDS_free (PPdata);
}
break;
case 't':
{
/* printf ("PING: sending initial ping_quit\n"); */
pingpong_PP_quit_msg *PPdata = pingpong_PP_quit_msg__alloc();
PPdata->quit = TRUE;
terminate = TRUE;
finish_flag = TRUE;
sleep(1);
preWriteTime = timeGet ();
pingpong_PP_quit_msgDataWriter_write (PP_quit_writer, PPdata, DDS_HANDLE_NIL);
postWriteTime = timeGet ();
sleep(1);
DDS_free (PPdata);
}
break;
default:
printf("Invalid topic-id\n");
exit(1);
}
if (!terminate) {
roundTripTime = preWriteTime;
add_stats (&write_access, 1E6 * timeToReal (timeSub (postWriteTime, preWriteTime)));
/*
* Wait for response, calculate timing, and send another data if not ready
*/
while (!(timeout_flag || finish_flag)) {
conditionList = DDS_ConditionSeq__alloc();
result = DDS_WaitSet_wait (w, conditionList, &wait_timeout);
if(result == DDS_RETCODE_OK || result == DDS_RETCODE_NO_DATA || result == DDS_RETCODE_TIMEOUT)
{
if (conditionList) {
imax = conditionList->_length;
if (imax != 0) {
for (i = 0; i < imax; i++) {
if (conditionList->_buffer[i] == exp_condition) {
finish_flag = active_handler (nof_cycles);
} else {
printf ("PING: unexpected condition triggered: %lx\n",
(unsigned long)conditionList->_buffer[i]);
}
}
} else {
printf ("PING: TIMEOUT - message lost\n");
timeout_flag = TRUE;
}
DDS_free(conditionList);
} else {
printf ("PING: TIMEOUT - message lost\n");
timeout_flag = TRUE;
}
} else
{
printf ("PING: Waitset wait failed (code %d), terminating.\n", result);
finish_flag = TRUE;
terminate = TRUE;
}
}
}
}
if (!terminate) {
finish_flag = FALSE;
if (block == 0) {
printf ("# PING PONG measurements (in us) \n");
printf ("# Roundtrip time [us] Write-access time [us] Read-access time [us]\n");
printf ("# Block Count mean min max Count mean min max Count mean min max\n");
}
printf ("%6d %10d %6.0f %6.0f %6.0f %10d %6.0f %6.0f %6.0f %10d %6.0f %6.0f %6.0f\n",
block,
roundtrip.count,
roundtrip.average,
roundtrip.min,
roundtrip.max,
write_access.count,
write_access.average,
write_access.min,
write_access.max,
read_access.count,
read_access.average,
read_access.min,
read_access.max);
fflush (stdout);
init_stats (&write_access, "write_access");
init_stats (&read_access, "read_access");
init_stats (&roundtrip, "round_trip");
}
}
DDS_Subscriber_delete_datareader (s, PP_min_reader);
DDS_Publisher_delete_datawriter (p, PP_min_writer);
DDS_Subscriber_delete_datareader (s, PP_seq_reader);
DDS_Publisher_delete_datawriter (p, PP_seq_writer);
DDS_Subscriber_delete_datareader (s, PP_string_reader);
DDS_Publisher_delete_datawriter (p, PP_string_writer);
DDS_Subscriber_delete_datareader (s, PP_fixed_reader);
DDS_Publisher_delete_datawriter (p, PP_fixed_writer);
DDS_Subscriber_delete_datareader (s, PP_array_reader);
DDS_Publisher_delete_datawriter (p, PP_array_writer);
DDS_Subscriber_delete_datareader (s, PP_bseq_reader);
DDS_Publisher_delete_datawriter (p, PP_bseq_writer);
DDS_Publisher_delete_datawriter (p, PP_quit_writer);
DDS_DomainParticipant_delete_subscriber (dp, s);
DDS_DomainParticipant_delete_publisher (dp, p);
DDS_DomainParticipant_delete_topic (dp, PP_min_topic);
DDS_DomainParticipant_delete_topic (dp, PP_seq_topic);
DDS_DomainParticipant_delete_topic (dp, PP_string_topic);
DDS_DomainParticipant_delete_topic (dp, PP_fixed_topic);
DDS_DomainParticipant_delete_topic (dp, PP_array_topic);
DDS_DomainParticipant_delete_topic (dp, PP_bseq_topic);
DDS_DomainParticipant_delete_topic (dp, PP_quit_topic);
DDS_DomainParticipantFactory_delete_participant (dpf, dp);
DDS_free (w);
DDS_free (PP_min_dt);
DDS_free (PP_seq_dt);
DDS_free (PP_string_dt);
DDS_free (PP_fixed_dt);
DDS_free (PP_array_dt);
DDS_free (PP_bseq_dt);
DDS_free (PP_quit_dt);
DDS_free (dpQos);
DDS_free (tQos);
DDS_free (dwQos);
DDS_free (drQos);
printf ("Completed ping example\n");
fflush(stdout);
return 0;
}
int OSPL_MAIN (int argc, char *argv[])
{
DDS_sequence_WaitSetData_Msg* message_seq = DDS_sequence_WaitSetData_Msg__alloc();
DDS_SampleInfoSeq* message_infoSeq = DDS_SampleInfoSeq__alloc();
DDS_Subscriber message_Subscriber;
DDS_DataReader message_DataReader;
DDS_char* query_parameter = "Hello again";
DDS_char *query_string = "message=%0";
DDS_ReadCondition readCondition;
DDS_QueryCondition queryCondition;
DDS_StatusCondition statusCondition;
DDS_WaitSet waitSet;
DDS_GuardCondition escape;
DDS_LivelinessChangedStatus livelinessChangedStatus;
DDS_ConditionSeq *guardList = NULL;
DDS_Duration_t timeout = { 20, 0 };
int count = 0;
DDS_long previousLivelinessCount;
c_bool isClosed = FALSE;
c_bool isEscaped = FALSE;
c_bool writerLeft = FALSE;
unsigned long i, j;
// Create DDS DomainParticipant
createParticipant("WaitSet example");
// Register the Topic's type in the DDS Domain.
g_MessageTypeSupport = WaitSetData_MsgTypeSupport__alloc();
checkHandle(g_MessageTypeSupport, "WaitSetData_MsgTypeSupport__alloc");
registerMessageType(g_MessageTypeSupport);
// Create the Topic's in the DDS Domain.
g_MessageTypeName = WaitSetData_MsgTypeSupport_get_type_name(g_MessageTypeSupport);
g_MessageTopic = createTopic("WaitSetData_Msg", g_MessageTypeName);
DDS_free(g_MessageTypeName);
DDS_free(g_MessageTypeSupport);
// Create the Subscriber's in the DDS Domain.
message_Subscriber = createSubscriber();
// Request a Reader from the the Subscriber.
message_DataReader = createDataReader(message_Subscriber, g_MessageTopic);
// 1- Create a ReadCondition that will contain new Msg only.
readCondition = DDS_DataReader_create_readcondition(message_DataReader, DDS_NOT_READ_SAMPLE_STATE, DDS_NEW_VIEW_STATE, DDS_ALIVE_INSTANCE_STATE);
checkHandle(readCondition, "DDS_DataReader_create_readcondition (newUser)");
// 2- Create QueryCondition.
queryCondition = createQueryCondition(message_DataReader, query_string, (DDS_char*) query_parameter);
printf("=== [WaitSetDataSubscriber] Query : message = \"%s\"", query_parameter);
// 3- Obtain a StatusCondition associated to a Writer
// and that triggers only when the Writer changes Liveliness.
statusCondition = DDS_DataReader_get_statuscondition(message_DataReader);
checkHandle(statusCondition, "DDS_DataReader_get_statuscondition");
g_status = DDS_StatusCondition_set_enabled_statuses(statusCondition, DDS_LIVELINESS_CHANGED_STATUS);
checkStatus(g_status, "DDS_StatusCondition_set_enabled_statuses");
// 4- Create a GuardCondition which will be used to close the subscriber.
escape = DDS_GuardCondition__alloc();
checkHandle(escape, "DDS_GuardCondition__alloc");
// Create a waitset and add the 4 Conditions created above :
// ReadCondition, QueryCondition, StatusCondition, GuardCondition.
waitSet = DDS_WaitSet__alloc();
checkHandle(waitSet, "DDS_WaitSet__alloc");
g_status = DDS_WaitSet_attach_condition(waitSet, readCondition);
checkStatus(g_status, "DDS_WaitSet_attach_condition (readCondition)");
g_status = DDS_WaitSet_attach_condition(waitSet, queryCondition);
checkStatus(g_status, "DDS_WaitSet_attach_condition (queryCondition)");
g_status = DDS_WaitSet_attach_condition(waitSet, statusCondition);
checkStatus(g_status, "DDS_WaitSet_attach_condition (statusCondition)");
g_status = DDS_WaitSet_attach_condition(waitSet, escape);
checkStatus(g_status, "DDS_WaitSet_attach_condition (escape)");
// Initialize and pre-allocate the GuardList used to obtain the triggered Conditions.
guardList = DDS_ConditionSeq__alloc();
checkHandle(guardList, "DDS_ConditionSeq__alloc");
guardList->_maximum = 4;
guardList->_length = 0;
guardList->_buffer = DDS_ConditionSeq_allocbuf(4);
checkHandle(guardList->_buffer, "DDS_ConditionSeq_allocbuf");
printf("\n=== [WaitSetDataSubscriber] Ready ...");
// Used to store the livelinessChangedStatus.alive_count value (StatusCondition).
previousLivelinessCount = 0;
do
{
// Wait until at least one of the Conditions in the waitset triggers.
g_status = DDS_WaitSet_wait(waitSet, guardList, &timeout);
if (g_status == DDS_RETCODE_OK) {
i = 0;
do
{
if( guardList->_buffer[i] == statusCondition )
{
// StatusCondition triggered.
// Some liveliness has changed (either a DataWriter joined or a DataWriter left).
// Check whether a new Writer appeared.
g_status = DDS_DataReader_get_liveliness_changed_status(message_DataReader, &livelinessChangedStatus);
checkStatus(g_status, "DDS_DataReader_get_liveliness_changed_status");
if( livelinessChangedStatus.alive_count > previousLivelinessCount )
{
// a DataWriter joined.
printf("\n\n!!! a MsgWriter joined");
g_status = DDS_StatusCondition_set_enabled_statuses(statusCondition, DDS_LIVELINESS_CHANGED_STATUS);
checkStatus(g_status, "DDS_StatusCondition_set_enabled_statuses");
}
else if( livelinessChangedStatus.alive_count < previousLivelinessCount )
{
// A MsgWriter lost its liveliness.
printf("\n\n!!! a MsgWriter lost its liveliness");
g_status = DDS_StatusCondition_set_enabled_statuses(statusCondition, DDS_LIVELINESS_CHANGED_STATUS);
checkStatus(g_status, "DDS_StatusCondition_set_enabled_statuses");
writerLeft = TRUE;
printf("\n === Triggering escape condition");
g_status = DDS_GuardCondition_set_trigger_value(escape, TRUE);
checkStatus(g_status, "DDS_GuardCondition_set_trigger_value");
}
else if ( livelinessChangedStatus.alive_count == previousLivelinessCount )
{
// The status has changed, though alive_count is still zero,
// this implies that both events have occurred,
// and that the value is back to zero already.
printf("\n\n!!! a MsgWriter joined\n");
printf("\n\n!!! a MsgWriter lost its liveliness\n");
writerLeft = TRUE;
printf("\n === Triggering escape condition");
g_status = DDS_GuardCondition_set_trigger_value(escape, TRUE);
checkStatus(g_status, "DDS_GuardCondition_set_trigger_value");
// NB: we do not need to activate this Condition anymore;
// both events occurred.
}
// NB: Here we record the count a in order to compare it next time this condition triggers (?).
previousLivelinessCount = livelinessChangedStatus.alive_count;
}
else if( guardList->_buffer[i] == readCondition )
{
/* The newMsg ReadCondition contains data */
g_status = WaitSetData_MsgDataReader_read_w_condition(message_DataReader, message_seq, message_infoSeq, DDS_LENGTH_UNLIMITED, readCondition);
checkStatus(g_status, "WaitSetData_MsgDataReader_read_w_condition");
for( j = 0; j < message_seq->_length ; j++ )
{
printf("\n --- New message received ---");
if( message_infoSeq->_buffer[j].valid_data == TRUE )
{
printf("\n userID : %d", message_seq->_buffer[j].userID);
printf("\n Message : \"%s\"", message_seq->_buffer[j].message);
}
else
{
printf("\n Data is invalid!");
}
}
fflush(stdout);
g_status = WaitSetData_MsgDataReader_return_loan(message_DataReader, message_seq, message_infoSeq);
checkStatus(g_status, "WaitSetData_MsgDataReader_return_loan");
}
else if( guardList->_buffer[i] == queryCondition )
{
/* The queryCond QueryCondition contains data */
g_status = WaitSetData_MsgDataReader_take_w_condition(message_DataReader, message_seq, message_infoSeq, DDS_LENGTH_UNLIMITED, queryCondition);
checkStatus(g_status, "WaitSetData_MsgDataReader_take_w_condition");
for( j = 0; j < message_seq->_length ; j++ )
{
printf("\n\n --- message received (with QueryCOndition on message field) ---");
if( message_infoSeq->_buffer[j].valid_data == TRUE )
{
printf("\n userID : %d", message_seq->_buffer[j].userID);
printf("\n Message : \"%s\"", message_seq->_buffer[j].message);
}
else
{
printf("\n Data is invalid!");
}
}
fflush(stdout);
g_status = WaitSetData_MsgDataReader_return_loan(message_DataReader, message_seq, message_infoSeq);
checkStatus(g_status, "WaitSetData_MsgDataReader_return_loan");
}
// This checks whether the Timeout Thread has resumed waiting.
else if( guardList->_buffer[i] == escape )
{
printf("\n escape condition triggered! - count = %d\n ", count);
isEscaped = TRUE;
g_status = DDS_GuardCondition_set_trigger_value(escape, FALSE);
checkStatus(g_status, "DDS_GuardCondition_set_trigger_value");
}
}
while( ++i < guardList->_length );
}
else if (g_status != DDS_RETCODE_TIMEOUT) {
// DDS_RETCODE_TIMEOUT is considered as an error
// only after it has occurred count times
checkStatus(g_status, "DDS_WaitSet_wait");
} else {
printf("!!! [INFO] WaitSet timedout - count = %d\n ", count);
}
++count;
isClosed = isEscaped && writerLeft;
} while( isClosed == FALSE && count < 20);
if (count >= 20) {
printf( "*** Error : Timed out - count = %d ***\n", count);
}
/* Remove all Conditions from the WaitSet. */
g_status = DDS_WaitSet_detach_condition(waitSet, escape);
checkStatus(g_status, "DDS_WaitSet_detach_condition (escape)");
g_status = DDS_WaitSet_detach_condition(waitSet, statusCondition);
checkStatus(g_status, "DDS_WaitSet_detach_condition (statusCondition)");
g_status = DDS_WaitSet_detach_condition(waitSet, queryCondition);
checkStatus(g_status, "DDS_WaitSet_detach_condition (queryCondition)");
g_status = DDS_WaitSet_detach_condition(waitSet, readCondition);
checkStatus(g_status, "DDS_WaitSet_detach_condition (readCondition)");
// Cleanup DDS from the created Entities.
deleteQueryCondition(message_DataReader, readCondition);
deleteQueryCondition(message_DataReader, queryCondition);
deleteDataReader(message_Subscriber, message_DataReader);
deleteSubscriber(message_Subscriber);
deleteTopic(g_MessageTopic);
deleteParticipant();
// Cleanup C allocations
// Recursively free the instances sequence using the OpenSplice API.
DDS_free(guardList);
DDS_free(message_seq);
DDS_free(message_infoSeq);
DDS_free(waitSet);
DDS_free(escape);
printf("\n");
return 0;
}