int main(int argc, const char **argv)
{
qeo_factory_t *factory;
qeocore_type_t *type;
qeocore_reader_t *reader;
qeocore_reader_listener_t listener = { .on_data = on_data_available };
qeocore_writer_t *writer;
pthread_t th = 0;
/* initialize */
sem_init(&_sync, 0, 0);
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
assert(NULL != (type = qeocore_type_register_tsm(factory, _tsm, _tsm[0].name)));
assert(NULL != (reader = qeocore_reader_open(factory, type, NULL, QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE,
&listener, NULL)));
assert(NULL != (writer = qeocore_writer_open(factory, type, NULL, QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE,
NULL, NULL)));
/* start writer thread */
assert(0 == pthread_create(&th, NULL, run, writer));
/* make sure writing has started */
sem_wait(&_sync);
/* shutdown reader */
qeocore_reader_close(reader);
_closed = 1;
/* shutdown writer */
_done = 1;
pthread_join(th, NULL);
qeocore_writer_close(writer);
qeocore_type_free(type);
qeocore_factory_close(factory);
}
static void run_writer(pid_t peer)
{
// writer is a type_nest_i writer
qeo_factory_t *factory;
qeocore_type_t *type_nest_i;
qeocore_writer_t *writer;
qeocore_data_t *outer=NULL;
qeocore_data_t *inner=NULL;
int status;
/* initialize */
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
assert(NULL != (type_nest_i = type_nest_i_register(factory)));
assert(NULL != (writer = qeocore_writer_open(factory, type_nest_i, NULL,
QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE,
NULL, NULL)));
log_pid("=================================== writer initialized");
assert(NULL != (outer = qeocore_writer_data_new(writer)));
/* fill outer struct */
assert(QEO_OK == qeocore_data_set_member(outer, _outer_int32_id, &_outer_int32_value));
assert(QEO_OK == qeocore_data_set_member(outer, _outer_int8_id, &_outer_int8_value));
assert(QEO_OK == qeocore_data_set_member(outer, _outer_string_id, &_outer_string_value));
assert(QEO_OK == qeocore_data_set_member(outer, _outer_int16_id, &_outer_int16_value));
assert(QEO_OK == qeocore_data_set_member(outer, _outer_int64_id, &_outer_int64_value));
/* fill inner struct */
assert(QEO_OK == qeocore_data_get_member(outer, _inner_id, &inner));
assert(QEO_OK == qeocore_data_set_member(inner, _inner_int32_id, &_inner_int32_value));
assert(QEO_OK == qeocore_data_set_member(inner, _inner_int8_id, &_inner_int8_value));
assert(QEO_OK == qeocore_data_set_member(inner, _inner_string_id, &_inner_string_value));
assert(QEO_OK == qeocore_data_set_member(inner, _inner_int16_id, &_inner_int16_value));
assert(QEO_OK == qeocore_data_set_member(inner, _inner_int64_id, &_inner_int64_value));
assert(QEO_OK == qeocore_data_set_member(outer, _inner_id, &inner));
log_verbose(" =================== _outer_int32_value = %u \n", _outer_int32_value );
log_verbose(" =================== _outer_int8_value = %u \n", _outer_int8_value );
log_verbose(" =================== _outer_int16_value = %u \n", _outer_int16_value );
log_verbose(" =================== _outer_int64_value = %"PRIu64" \n", _outer_int64_value );
log_verbose(" =================== _inner_int32_value = %u \n", _inner_int32_value );
log_verbose(" =================== _inner_int8_value = %u \n", _inner_int8_value );
log_verbose(" =================== _inner_int16_value = %u \n", _inner_int16_value );
log_verbose(" =================== _inner_int64_value = %"PRIu64" \n", _inner_int64_value );
/* write */
assert(QEO_OK == qeocore_writer_write(writer, outer));
log_pid("===================================== writer wrote outer data");
assert(peer == waitpid(peer, &status, 0));
assert(0 == status);
log_pid("===================================== writer done");
/* clean up */
qeocore_data_free(inner);
qeocore_data_free(outer);
qeocore_writer_close(writer);
qeocore_type_free(type_nest_i);
qeocore_factory_close(factory);
}
qeo_retcode_t fwd_init_post_auth(qeo_factory_t *factory)
{
qeo_retcode_t rc = QEO_EFAIL;
qeocore_type_t *type = NULL;
/* this will eventually also take the factory lock, so postponing our lock */
type = qeocore_type_register_tsm(factory, org_qeo_system_Forwarder_type, org_qeo_system_Forwarder_type->name);
if (NULL != type) {
lock(&factory->mutex);
if (factory->flags.is_forwarder) {
factory->fwd.listener.on_data = fwd_server_on_data;
factory->fwd.reader = qeocore_reader_open(factory, type, org_qeo_system_Forwarder_type->name,
QEOCORE_EFLAG_STATE_UPDATE, &factory->fwd.listener, NULL);
if (NULL != factory->fwd.reader) {
factory->fwd.u.server.writer = qeocore_writer_open(factory, type, org_qeo_system_Forwarder_type->name,
QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE,
NULL, NULL);
if (NULL != factory->fwd.u.server.writer) {
factory->fwd.u.server.state = FWD_STATE_INIT;
rc = fwd_server_state_machine_eval_ul(factory, -1, false, false);
}
}
} else {
factory->fwd.listener.on_data = fwd_client_on_data;
factory->fwd.listener.userdata = (uintptr_t)factory;
factory->fwd.reader = qeocore_reader_open(factory, type, org_qeo_system_Forwarder_type->name,
QEOCORE_EFLAG_STATE_DATA, &factory->fwd.listener, NULL);
/* note: reader construction failure is not fatal */
if (qeocore_parameter_get_number("FWD_DISABLE_FORWARDING")) {
qeo_log_i("Disable forwarding");
factory->fwd.u.client.state = FWD_CLIENT_STATE_READY;
}
else {
factory->fwd.u.client.state = FWD_CLIENT_STATE_INIT;
client_state_machine_eval_ul(factory, CLIENT_EVENT_START, NULL, -1);
}
rc = QEO_OK;
}
unlock(&factory->mutex);
qeocore_type_free(type);
}
return rc;
}
static void run_writer(pid_t peer)
{
qeo_factory_t *factory;
qeocore_type_t *type;
qeocore_writer_t *writer;
qeocore_data_t *data, *seqdata;
byte_array_t array;
int status, i;
/* initialize */
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
assert(NULL != (type = type_register(factory)));
assert(NULL != (writer = qeocore_writer_open(factory, type, NULL,
QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE,
NULL, NULL)));
log_pid("writer initialized");
assert(NULL != (data = qeocore_writer_data_new(writer)));
assert(QEO_OK == qeocore_data_set_member(data, _size_id, &_test_size));
/* init sequence */
DDS_SEQ_INIT(array);
assert(NULL != (DDS_SEQ_DATA(array) = malloc(_test_size * sizeof(char))));
DDS_SEQ_LENGTH(array) = DDS_SEQ_MAXIMUM(array) = _test_size;
for (i = 0; i < _test_size; i++) {
DDS_SEQ_ITEM(array, i) = i & 0xff;
}
assert(QEO_OK == qeocore_data_get_member(data, _buf_id, &seqdata));
assert(QEO_OK == qeocore_data_sequence_set(seqdata, (const qeo_sequence_t *)&array, 0));
assert(QEO_OK == qeocore_data_set_member(data, _buf_id, &seqdata));
/* write */
assert(QEO_OK == qeocore_writer_write(writer, data));
log_pid("writer wrote data");
assert(peer == waitpid(peer, &status, 0));
assert(0 == status);
log_pid("writer done");
/* clean up */
free(DDS_SEQ_DATA(array));
qeocore_data_free(seqdata);
qeocore_data_free(data);
qeocore_writer_close(writer);
qeocore_type_free(type);
qeocore_factory_close(factory);
}
qeo_state_writer_t *qeo_factory_create_state_writer(const qeo_factory_t *factory,
const DDS_TypeSupport_meta *type,
const qeo_state_writer_listener_t *listener,
uintptr_t userdata)
{
qeo_state_writer_t *writer = NULL;
if ((NULL != factory) && (NULL != type) && ((NULL == listener) || (NULL != listener->on_policy_update))) {
qeocore_writer_listener_t l = { 0 }, *pl = NULL;
writer_dispatcher_cookie *dc = NULL;
qeo_retcode_t rc = QEO_OK;
qeocore_type_t *t = NULL;
if (NULL != listener) {
dc = calloc(1, sizeof(*dc));
if (NULL != dc) {
dc->etype = QEO_ETYPE_STATE_DATA;
dc->listener.state = *listener;
dc->userdata = userdata;
l.on_policy_update = core_writer_policy_update_callback_dispatcher;
l.userdata = (uintptr_t)dc;
pl = &l;
}
else {
rc = QEO_ENOMEM;
}
}
if (QEO_OK == rc) {
t = qeocore_type_register_tsm(factory, type, type->name);
if (NULL != t) {
writer = (qeo_state_writer_t *)qeocore_writer_open(factory, t, NULL,
QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE,
pl, NULL);
qeocore_type_free(t);
}
if (NULL == writer) {
free(dc);
}
}
}
return writer;
}
int main(int argc, const char **argv)
{
qeo_factory_t *factory;
qeocore_reader_t *reader;
qeocore_writer_t *writer;
qeocore_type_t *type;
qeocore_data_t *rdata, *wdata;
int i;
for (i = 0; i < 2; i++) {
/* initialize */
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
assert(NULL != (type = nested_type_get(1, 0, 0)));
assert(QEO_OK == qeocore_type_register(factory, type, "nested"));
assert(NULL != (reader = qeocore_reader_open(factory, type, NULL,
QEOCORE_EFLAG_STATE_UPDATE | QEOCORE_EFLAG_ENABLE, NULL, NULL)));
assert(NULL != (writer = qeocore_writer_open(factory, type, NULL,
QEOCORE_EFLAG_STATE_UPDATE | QEOCORE_EFLAG_ENABLE, NULL, NULL)));
/* write */
assert(NULL != (wdata = qeocore_writer_data_new(writer)));
fill_data(wdata);
assert(QEO_OK == qeocore_writer_write(writer, wdata));
/* check data */
assert(NULL != (rdata = qeocore_reader_data_new(reader)));
assert(QEO_OK == qeocore_reader_read(reader, NULL, rdata));
expected_status = QEOCORE_DATA;
validate_data(rdata);
/* remove */
assert(QEO_OK == qeocore_writer_remove(writer, wdata));
/* clean up */
qeocore_data_free(wdata);
qeocore_data_free(rdata);
qeocore_writer_close(writer);
qeocore_reader_close(reader);
qeocore_type_free(type);
qeocore_factory_close(factory);
}
}
int main(int argc, const char **argv)
{
qeo_factory_t *factory;
qeocore_type_t *type;
qeocore_reader_t *reader;
qeocore_reader_listener_t listener = { .on_data = on_data_available };
qeocore_writer_t *writer;
int i = 0;
/* initialize */
sem_init(&_sync, 0, 0);
sem_init(&_sync_nodata, 0, 0);
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
assert(NULL != (type = qeocore_type_register_tsm(factory, org_qeo_dynamic_qdm_test_TypeWithStructs_type, org_qeo_dynamic_qdm_test_TypeWithStructs_type[0].name)));
assert(NULL != (reader = qeocore_reader_open(factory, type, NULL, QEOCORE_EFLAG_EVENT_DATA, &listener, NULL)));
assert(NULL != (writer = qeocore_writer_open(factory, type, NULL, QEOCORE_EFLAG_EVENT_DATA, NULL, NULL)));
/* test late enabling of readers/writers */
assert(QEO_OK == qeocore_reader_enable(reader));
assert(QEO_OK == qeocore_writer_enable(writer));
/* send structure */
for(i = 0; i < 20; i++){
log_verbose("testing with %d", i);
assert(QEO_OK == write_generated_data(writer, i));
log_verbose("waiting for data");
/* wait for reception */
sem_wait(&_sync);
sem_wait(&_sync_nodata);
}
/* clean up */
qeocore_writer_close(writer);
qeocore_reader_close(reader);
qeocore_type_free(type);
qeocore_factory_close(factory);
sem_destroy(&_sync);
}
DDS_SEQ_INIT(chat_msg.colorlist);
dds_seq_from_array(&chat_msg.colorlist, enum_array, sizeof(enum_array) / sizeof(enum_array[0]));
/* reading */
qeocore_reader_t *event_reader = qeocore_reader_open(_factory,
type,
org_qeo_sample_simplechat_ChatMessage_type[0].name,
QEOCORE_EFLAG_EVENT_DATA | QEOCORE_EFLAG_ENABLE,
&_sc_rlistener,
&ret);
ck_assert_int_ne(event_reader, NULL);
/* writing */
qeocore_writer_t *event_writer = qeocore_writer_open(_factory,
type,
org_qeo_sample_simplechat_ChatMessage_type[0].name,
QEOCORE_EFLAG_EVENT_DATA | QEOCORE_EFLAG_ENABLE,
NULL, /* FIX ME */
&ret);
qeocore_type_free(type);
ck_assert_int_ne(event_writer, NULL);
ck_assert_int_eq(ret, QEO_OK);
qeocore_data_t *sample = qeocore_writer_data_new(event_writer);
ck_assert_int_eq(qeo_walk_tsm_for_marshal(_types, org_qeo_sample_simplechat_ChatMessage_type, (uintptr_t)&chat_msg, sample, QEO_T2D_FLAGS_ALL, &_sc_mcbs), QEO_OK);
ck_assert_int_eq(qeocore_writer_write(event_writer, sample), QEO_OK);
qeocore_data_free(sample);
sleep(1);
org_qeo_wifi_ScanListEntry_t *entry;
int main(int argc, const char **argv)
{
pid_t pid;
pid = fork();
if (pid == -1) {
perror("fork failed");
exit(EXIT_FAILURE);
}
else if (pid == 0) {
log_verbose("=================== WRITER of type 1 \n");
qeo_factory_t *factory;
qeocore_type_t *type1;
qeocore_writer_t *writer;
/* initialize */
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
log_verbose(" =================== c qeocore_type_register_tsm(factory, _tsm_type_qdm_version1, _tsm_type_qdm_version1[0].name) \n");
assert(NULL != (type1 = qeocore_type_register_tsm(factory, _tsm_type_qdm_version1, _tsm_type_qdm_version1[0].name)));
log_verbose(" =================== c qeocore_writer_open(factory, type1, NULL, QEOCORE_EFLAG_EVENT_DATA, NULL, NULL) \n");
assert(NULL != (writer = qeocore_writer_open(factory, type1, NULL, QEOCORE_EFLAG_EVENT_DATA, NULL, NULL)));
/* test late enabling of readers/writers */
log_verbose(" =================== c qeocore_writer_enable(writer) \n");
assert(QEO_OK == qeocore_writer_enable(writer));
/* send structure */
sleep(2);
log_verbose(" =================== c qeocore_writer_write(writer, &_type_qdm_version1) \n");
assert(QEO_OK == qeocore_writer_write(writer, &_type_qdm_version1));
sleep(2);
/* clean up */
qeocore_writer_close(writer);
qeocore_type_free(type1);
qeocore_factory_close(factory);
_exit(EXIT_SUCCESS);
}
else {
log_verbose("=================== READER of type 2 \n");
qeo_factory_t *factory;
qeocore_type_t *type2;
qeocore_reader_t *reader;
qeocore_reader_listener_t listener = { .on_data = on_data_available };
/* initialize */
sem_init(&_sync, 0, 0);
sem_init(&_sync_nodata, 0, 0);
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_DEFAULT)));
init_factory(factory);
log_verbose(" =================== p qeocore_type_register_tsm(factory, _tsm_type_qdm_version2, _tsm_type_qdm_version2[0].name) \n");
assert(NULL != (type2 = qeocore_type_register_tsm(factory, _tsm_type_qdm_version2, _tsm_type_qdm_version2[0].name)));
log_verbose(" =================== p qeocore_reader_open(factory, type2, NULL, QEOCORE_EFLAG_EVENT_DATA, &listener, NULL) \n");
assert(NULL != (reader = qeocore_reader_open(factory, type2, NULL, QEOCORE_EFLAG_EVENT_DATA, &listener, NULL)));
/* test late enabling of readers/writers */
log_verbose(" =================== p qeocore_reader_enable(reader) \n");
assert(QEO_OK == qeocore_reader_enable(reader));
/* wait for reception */
log_verbose(" =================== p sem_wait(&_sync) \n");
sem_wait(&_sync);
log_verbose(" =================== p sem_wait(&_sync_nodata) \n");
sem_wait(&_sync_nodata);
/* clean up */
qeocore_reader_close(reader);
qeocore_type_free(type2);
qeocore_factory_close(factory);
sem_destroy(&_sync);
int status;
(void)waitpid(pid, &status, 0);
}
return EXIT_SUCCESS;
}
qeocore_type_t *type[2];
qeocore_reader_t *reader[2];
qeocore_reader_t *change[2];
qeocore_reader_listener_t listener[2] = { {.on_data = on_regreq_available }, {.on_data = on_regcred_available } };
qeocore_writer_t *writer[2];
/* initialize */
log_verbose("initialization start");
sem_init(&_sync, 0, 0);
sem_init(&_notify_sync, 0, 0);
assert(NULL != (factory = qeocore_factory_new(QEO_IDENTITY_OPEN)));
init_factory(factory);
assert(NULL != (type[0] = qeocore_type_register_tsm(factory, org_qeo_system_RegistrationRequest_type, org_qeo_system_RegistrationRequest_type[0].name)));
assert(NULL != (writer[0] = qeocore_writer_open(factory, type[0], NULL,
QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE, NULL, NULL)));
/* send registration request */
log_verbose("send registration request 1");
_current_regreq = &_regreq[0];
/* Already write before creating the readers. (see DE2772) */
qeocore_writer_write(writer[0], _current_regreq);
assert(NULL != (reader[0] = qeocore_reader_open(factory, type[0], NULL,
QEOCORE_EFLAG_STATE_UPDATE | QEOCORE_EFLAG_ENABLE, &listener[0],
NULL)));
assert(NULL != (change[0] = qeocore_reader_open(factory, type[0], NULL,
QEOCORE_EFLAG_STATE_DATA | QEOCORE_EFLAG_ENABLE, &listener[0],
NULL)));
assert(NULL != (type[1] = qeocore_type_register_tsm(factory, org_qeo_system_RegistrationCredentials_type, org_qeo_system_RegistrationCredentials_type[0].name)));
assert(NULL != (reader[1] = qeocore_reader_open(factory, type[1], NULL,
QEOCORE_EFLAG_STATE_UPDATE | QEOCORE_EFLAG_ENABLE, &listener[1],
static qeojson_writer_t *qeojson_writer_open(const qeo_factory_t *factory,
qeojson_writer_type_t writer_type,
void *listener,
const char *json_type,
uintptr_t userdata)
{
qeo_retcode_t ret = QEO_EFAIL;
qeojson_writer_t *jsonwriter = NULL;
qeocore_type_t *typedesc = NULL;
json_writer_dispatcher_cookie_t *dc = NULL;
json_t *jsonTypeDesc = NULL;
json_t *behavior = NULL;
const char *expected_behaviour = NULL;
int flags = QEOCORE_EFLAG_NONE;
qeocore_writer_listener_t l = { 0 };
if ((NULL == factory) || (NULL == json_type)) {
return NULL;
}
do {
dc = calloc(1, sizeof(json_writer_dispatcher_cookie_t));
if (NULL == dc) {
break;
}
dc->userdata = userdata;
switch (writer_type) {
case QEOJSON_WRITER_TYPE_EVENT_WRITER:
flags = QEOCORE_EFLAG_EVENT_DATA;
expected_behaviour = "event";
qeo_json_event_writer_listener_t *event_listener = (qeo_json_event_writer_listener_t *) listener;
dc->etype = QEO_ETYPE_EVENT_DATA;
dc->listener.event = *event_listener;
if (NULL != event_listener->on_policy_update) {
l.on_policy_update = qeojson_core_writer_policy_update_callback_dispatcher;
}
break;
case QEOJSON_WRITER_TYPE_STATE_WRITER:
flags = QEOCORE_EFLAG_STATE_DATA;
expected_behaviour = "state";
qeo_json_state_writer_listener_t *state_listener = (qeo_json_state_writer_listener_t *)listener;
dc->etype = QEO_ETYPE_STATE_DATA;
dc->listener.state = *state_listener;
if (NULL != state_listener->on_policy_update) {
l.on_policy_update = qeojson_core_writer_policy_update_callback_dispatcher;
}
break;
}
jsonTypeDesc = json_loads(json_type, 0, NULL);
if (NULL == jsonTypeDesc) {
break;
}
if (!json_is_object(jsonTypeDesc)) {
break;
}
behavior = json_object_get(jsonTypeDesc, KEY_BEHAVIOR);
if (!json_is_string(behavior)) {
break;
}
if (0 != strcmp(json_string_value(behavior), expected_behaviour)) {
qeo_log_e("not matching expected behaviour %s", expected_behaviour);
break;
}
jsonwriter = calloc(1, sizeof(qeojson_writer_t));
if (jsonwriter == NULL) {
break;
}
jsonwriter->policy_cache = json_object();
json_object_set_new(jsonwriter->policy_cache, "users", json_array());
jsonwriter->policy = json_object();
json_object_set_new(jsonwriter->policy, "users", json_array());
#ifdef __USE_GNU
/* compile with -D_GNU_SOURCE */
#ifndef NDEBUG
jsonwriter->policy_mutex = (pthread_mutex_t)PTHREAD_ERRORCHECK_MUTEX_INITIALIZER_NP;
#else
jsonwriter->policy_mutex = (pthread_mutex_t)PTHREAD_MUTEX_INITIALIZER;
#endif
#else
jsonwriter->policy_mutex = (pthread_mutex_t)PTHREAD_MUTEX_INITIALIZER;
#endif
typedesc = types_from_json(factory, jsonTypeDesc);
if (NULL == typedesc) {
qeo_log_e("typedesc == NULL");
break;
}
dc->typedesc = jsonTypeDesc;
l.userdata = (uintptr_t)dc;
dc->jsonwriter = jsonwriter;
jsonwriter->writer = qeocore_writer_open(factory, // factory
typedesc, // type
NULL, // callback dispatcher
flags, // flags
&l, // callback cookie
NULL); // return code
qeocore_type_free(typedesc);
if (NULL == jsonwriter->writer) {
break;
}
ret = QEO_OK;
} while (0);
if (QEO_OK != ret) {
json_decref(jsonTypeDesc);
qeojson_writer_close(jsonwriter);
jsonwriter = NULL;
free(dc);
}
return jsonwriter;
}
