int main(int argc, char** argv) { int result; (void)argc, argv; amqpalloc_set_memory_tracing_enabled(true); if (platform_init() != 0) { result = -1; } else { XIO_HANDLE sasl_io; CONNECTION_HANDLE connection; SESSION_HANDLE session; LINK_HANDLE link; MESSAGE_SENDER_HANDLE message_sender; MESSAGE_HANDLE message; size_t last_memory_used = 0; /* create SASL PLAIN handler */ SASL_PLAIN_CONFIG sasl_plain_config = { EH_KEY_NAME, EH_KEY, NULL }; SASL_MECHANISM_HANDLE sasl_mechanism_handle = saslmechanism_create(saslplain_get_interface(), &sasl_plain_config); XIO_HANDLE tls_io; /* create the TLS IO */ TLSIO_CONFIG tls_io_config = { EH_HOST, 5671 }; const IO_INTERFACE_DESCRIPTION* tlsio_interface = platform_get_default_tlsio(); tls_io = xio_create(tlsio_interface, &tls_io_config); /* create the SASL client IO using the TLS IO */ SASLCLIENTIO_CONFIG sasl_io_config; sasl_io_config.underlying_io = tls_io; sasl_io_config.sasl_mechanism = sasl_mechanism_handle; sasl_io = xio_create(saslclientio_get_interface_description(), &sasl_io_config); /* create the connection, session and link */ connection = connection_create(sasl_io, EH_HOST, "some", NULL, NULL); session = session_create(connection, NULL, NULL); session_set_incoming_window(session, 2147483647); session_set_outgoing_window(session, 65536); AMQP_VALUE source = messaging_create_source("ingress"); AMQP_VALUE target = messaging_create_target("amqps://" EH_HOST "/" EH_NAME); link = link_create(session, "sender-link", role_sender, source, target); link_set_snd_settle_mode(link, sender_settle_mode_unsettled); (void)link_set_max_message_size(link, 65536); amqpvalue_destroy(source); amqpvalue_destroy(target); message = message_create(); unsigned char hello[] = { 'H', 'e', 'l', 'l', 'o' }; BINARY_DATA binary_data; binary_data.bytes = hello; binary_data.length = sizeof(hello); message_add_body_amqp_data(message, binary_data); /* create a message sender */ message_sender = messagesender_create(link, NULL, NULL); if (messagesender_open(message_sender) == 0) { uint32_t i; #if _WIN32 unsigned long startTime = (unsigned long)GetTickCount64(); #endif for (i = 0; i < msg_count; i++) { (void)messagesender_send(message_sender, message, on_message_send_complete, message); } message_destroy(message); while (true) { size_t current_memory_used; size_t maximum_memory_used; connection_dowork(connection); current_memory_used = amqpalloc_get_current_memory_used(); maximum_memory_used = amqpalloc_get_maximum_memory_used(); if (current_memory_used != last_memory_used) { (void)printf("Current memory usage:%lu (max:%lu)\r\n", (unsigned long)current_memory_used, (unsigned long)maximum_memory_used); last_memory_used = current_memory_used; } if (sent_messages == msg_count) { break; } } #if _WIN32 unsigned long endTime = (unsigned long)GetTickCount64(); (void)printf("Send %zu messages in %lu ms: %.02f msgs/sec\r\n", msg_count, (endTime - startTime), (float)msg_count / ((float)(endTime - startTime) / 1000)); #endif } messagesender_destroy(message_sender); link_destroy(link); session_destroy(session); connection_destroy(connection); xio_destroy(sasl_io); xio_destroy(tls_io); saslmechanism_destroy(sasl_mechanism_handle); platform_deinit(); (void)printf("Max memory usage:%lu\r\n", (unsigned long)amqpalloc_get_maximum_memory_used()); (void)printf("Current memory usage:%lu\r\n", (unsigned long)amqpalloc_get_current_memory_used()); result = 0; } #ifdef _CRTDBG_MAP_ALLOC _CrtDumpMemoryLeaks(); #endif return result; }
int main(int argc, char** argv) { int result; XIO_HANDLE sasl_io = NULL; CONNECTION_HANDLE connection = NULL; SESSION_HANDLE session = NULL; LINK_HANDLE link = NULL; MESSAGE_RECEIVER_HANDLE message_receiver = NULL; amqpalloc_set_memory_tracing_enabled(true); if (platform_init() != 0) { result = -1; } else { size_t last_memory_used = 0; /* create SASL plain handler */ SASL_PLAIN_CONFIG sasl_plain_config = { EH_KEY_NAME, EH_KEY, NULL }; SASL_MECHANISM_HANDLE sasl_mechanism_handle = saslmechanism_create(saslplain_get_interface(), &sasl_plain_config); XIO_HANDLE tls_io; /* create the TLS IO */ TLSIO_CONFIG tls_io_config = { EH_HOST, 5671 }; const IO_INTERFACE_DESCRIPTION* tlsio_interface = platform_get_default_tlsio(); tls_io = xio_create(tlsio_interface, &tls_io_config, NULL); /* create the SASL client IO using the TLS IO */ SASLCLIENTIO_CONFIG sasl_io_config = { tls_io, sasl_mechanism_handle }; sasl_io = xio_create(saslclientio_get_interface_description(), &sasl_io_config, NULL); /* create the connection, session and link */ connection = connection_create(sasl_io, EH_HOST, "whatever", NULL, NULL); session = session_create(connection, NULL, NULL); /* set incoming window to 100 for the session */ session_set_incoming_window(session, 100); AMQP_VALUE source = messaging_create_source("amqps://" EH_HOST "/ingress/ConsumerGroups/$Default/Partitions/0"); AMQP_VALUE target = messaging_create_target("ingress-rx"); link = link_create(session, "receiver-link", role_receiver, source, target); link_set_rcv_settle_mode(link, receiver_settle_mode_first); amqpvalue_destroy(source); amqpvalue_destroy(target); /* create a message receiver */ message_receiver = messagereceiver_create(link, NULL, NULL); if ((message_receiver == NULL) || (messagereceiver_open(message_receiver, on_message_received, message_receiver) != 0)) { result = -1; } else { while (true) { size_t current_memory_used; size_t maximum_memory_used; connection_dowork(connection); current_memory_used = amqpalloc_get_current_memory_used(); maximum_memory_used = amqpalloc_get_maximum_memory_used(); if (current_memory_used != last_memory_used) { printf("Current memory usage:%lu (max:%lu)\r\n", (unsigned long)current_memory_used, (unsigned long)maximum_memory_used); last_memory_used = current_memory_used; } } result = 0; } messagereceiver_destroy(message_receiver); link_destroy(link); session_destroy(session); connection_destroy(connection); platform_deinit(); printf("Max memory usage:%lu\r\n", (unsigned long)amqpalloc_get_maximum_memory_used()); printf("Current memory usage:%lu\r\n", (unsigned long)amqpalloc_get_current_memory_used()); #ifdef _CRTDBG_MAP_ALLOC _CrtDumpMemoryLeaks(); #endif } return result; }
int main(int argc, char** argv) { int result; (void)argc, argv; amqpalloc_set_memory_tracing_enabled(true); if (platform_init() != 0) { result = -1; } else { CONNECTION_HANDLE connection; SESSION_HANDLE session; LINK_HANDLE link; MESSAGE_SENDER_HANDLE message_sender; MESSAGE_HANDLE message; size_t last_memory_used = 0; /* create socket IO */ XIO_HANDLE socket_io; SOCKETIO_CONFIG socketio_config = { "localhost", 5672, NULL }; socket_io = xio_create(socketio_get_interface_description(), &socketio_config); /* create the connection, session and link */ connection = connection_create(socket_io, "localhost", "some", NULL, NULL); session = session_create(connection, NULL, NULL); session_set_incoming_window(session, 2147483647); session_set_outgoing_window(session, 65536); AMQP_VALUE source = messaging_create_source("ingress"); AMQP_VALUE target = messaging_create_target("localhost/ingress"); link = link_create(session, "sender-link", role_sender, source, target); link_set_snd_settle_mode(link, sender_settle_mode_settled); (void)link_set_max_message_size(link, 65536); amqpvalue_destroy(source); amqpvalue_destroy(target); message = message_create(); unsigned char hello[] = { 'H', 'e', 'l', 'l', 'o' }; BINARY_DATA binary_data; binary_data.bytes = hello; binary_data.length = sizeof(hello); message_add_body_amqp_data(message, binary_data); /* create a message sender */ message_sender = messagesender_create(link, NULL, NULL); if (messagesender_open(message_sender) == 0) { uint32_t i; #if _WIN32 unsigned long startTime = (unsigned long)GetTickCount64(); #endif for (i = 0; i < msg_count; i++) { (void)messagesender_send(message_sender, message, on_message_send_complete, message); } message_destroy(message); while (true) { size_t current_memory_used; size_t maximum_memory_used; connection_dowork(connection); current_memory_used = amqpalloc_get_current_memory_used(); maximum_memory_used = amqpalloc_get_maximum_memory_used(); if (current_memory_used != last_memory_used) { (void)printf("Current memory usage:%lu (max:%lu)\r\n", (unsigned long)current_memory_used, (unsigned long)maximum_memory_used); last_memory_used = current_memory_used; } if (sent_messages == msg_count) { break; } } #if _WIN32 unsigned long endTime = (unsigned long)GetTickCount64(); (void)printf("Send %zu messages in %lu ms: %.02f msgs/sec\r\n", msg_count, (endTime - startTime), (float)msg_count / ((float)(endTime - startTime) / 1000)); #endif } messagesender_destroy(message_sender); link_destroy(link); session_destroy(session); connection_destroy(connection); xio_destroy(socket_io); platform_deinit(); (void)printf("Max memory usage:%lu\r\n", (unsigned long)amqpalloc_get_maximum_memory_used()); (void)printf("Current memory usage:%lu\r\n", (unsigned long)amqpalloc_get_current_memory_used()); result = 0; } #ifdef _CRTDBG_MAP_ALLOC _CrtDumpMemoryLeaks(); #endif return result; }
AMQP_MANAGEMENT_HANDLE amqpmanagement_create(SESSION_HANDLE session, const char* management_node, ON_AMQP_MANAGEMENT_STATE_CHANGED on_amqp_management_state_changed, void* callback_context) { AMQP_MANAGEMENT_INSTANCE* result; if (session == NULL) { result = NULL; } else { result = (AMQP_MANAGEMENT_INSTANCE*)amqpalloc_malloc(sizeof(AMQP_MANAGEMENT_INSTANCE)); if (result != NULL) { result->session = session; result->sender_connected = 0; result->receiver_connected = 0; result->operation_message_count = 0; result->operation_messages = NULL; result->on_amqp_management_state_changed = on_amqp_management_state_changed; result->callback_context = callback_context; AMQP_VALUE source = messaging_create_source(management_node); if (source == NULL) { amqpalloc_free(result); result = NULL; } else { AMQP_VALUE target = messaging_create_target(management_node); if (target == NULL) { amqpalloc_free(result); result = NULL; } else { static const char* sender_suffix = "-sender"; char* sender_link_name = (char*)amqpalloc_malloc(strlen(management_node) + strlen(sender_suffix) + 1); if (sender_link_name == NULL) { result = NULL; } else { static const char* receiver_suffix = "-receiver"; (void)strcpy(sender_link_name, management_node); (void)strcat(sender_link_name, sender_suffix); char* receiver_link_name = (char*)amqpalloc_malloc(strlen(management_node) + strlen(receiver_suffix) + 1); if (receiver_link_name == NULL) { result = NULL; } else { (void)strcpy(receiver_link_name, management_node); (void)strcat(receiver_link_name, receiver_suffix); result->sender_link = link_create(session, "cbs-sender", role_sender, source, target); if (result->sender_link == NULL) { amqpalloc_free(result); result = NULL; } else { result->receiver_link = link_create(session, "cbs-receiver", role_receiver, source, target); if (result->receiver_link == NULL) { link_destroy(result->sender_link); amqpalloc_free(result); result = NULL; } else { if ((link_set_max_message_size(result->sender_link, 65535) != 0) || (link_set_max_message_size(result->receiver_link, 65535) != 0)) { link_destroy(result->sender_link); link_destroy(result->receiver_link); amqpalloc_free(result); result = NULL; } else { result->message_sender = messagesender_create(result->sender_link, on_message_sender_state_changed, result, NULL); if (result->message_sender == NULL) { link_destroy(result->sender_link); link_destroy(result->receiver_link); amqpalloc_free(result); result = NULL; } else { result->message_receiver = messagereceiver_create(result->receiver_link, on_message_receiver_state_changed, result); if (result->message_receiver == NULL) { messagesender_destroy(result->message_sender); link_destroy(result->sender_link); link_destroy(result->receiver_link); amqpalloc_free(result); result = NULL; } else { result->next_message_id = 0; } } } } } amqpalloc_free(receiver_link_name); } amqpalloc_free(sender_link_name); } amqpvalue_destroy(target); } amqpvalue_destroy(source); } } } return result; }
int main(int argc, char** argv) { int result; (void)argc; (void)argv; if (platform_init() != 0) { result = -1; } else { XIO_HANDLE sasl_io; CONNECTION_HANDLE connection; SESSION_HANDLE session; LINK_HANDLE link; MESSAGE_SENDER_HANDLE message_sender; MESSAGE_HANDLE message; size_t last_memory_used = 0; /* create SASL PLAIN handler */ SASL_MECHANISM_HANDLE sasl_mechanism_handle = saslmechanism_create(saslmssbcbs_get_interface(), NULL); XIO_HANDLE tls_io; STRING_HANDLE sas_key_name; STRING_HANDLE sas_key_value; STRING_HANDLE resource_uri; STRING_HANDLE encoded_resource_uri; STRING_HANDLE sas_token; BUFFER_HANDLE buffer; TLSIO_CONFIG tls_io_config = { EH_HOST, 5671 }; const IO_INTERFACE_DESCRIPTION* tlsio_interface; SASLCLIENTIO_CONFIG sasl_io_config; time_t currentTime; size_t expiry_time; CBS_HANDLE cbs; AMQP_VALUE source; AMQP_VALUE target; unsigned char hello[] = { 'H', 'e', 'l', 'l', 'o' }; BINARY_DATA binary_data; gballoc_init(); /* create the TLS IO */ tlsio_interface = platform_get_default_tlsio(); tls_io = xio_create(tlsio_interface, &tls_io_config); /* create the SASL client IO using the TLS IO */ sasl_io_config.underlying_io = tls_io; sasl_io_config.sasl_mechanism = sasl_mechanism_handle; sasl_io = xio_create(saslclientio_get_interface_description(), &sasl_io_config); /* create the connection, session and link */ connection = connection_create(sasl_io, EH_HOST, "some", NULL, NULL); session = session_create(connection, NULL, NULL); session_set_incoming_window(session, 2147483647); session_set_outgoing_window(session, 65536); /* Construct a SAS token */ sas_key_name = STRING_construct(EH_KEY_NAME); /* unfortunately SASToken wants an encoded key - this should be fixed at a later time */ buffer = BUFFER_create((unsigned char*)EH_KEY, strlen(EH_KEY)); sas_key_value = Base64_Encoder(buffer); BUFFER_delete(buffer); resource_uri = STRING_construct("sb://" EH_HOST "/" EH_NAME "/publishers/" EH_PUBLISHER); encoded_resource_uri = URL_EncodeString(STRING_c_str(resource_uri)); /* Make a token that expires in one hour */ currentTime = time(NULL); expiry_time = (size_t)(difftime(currentTime, 0) + 3600); sas_token = SASToken_Create(sas_key_value, encoded_resource_uri, sas_key_name, expiry_time); cbs = cbs_create(session); if (cbs_open_async(cbs, on_cbs_open_complete, cbs, on_cbs_error, cbs) == 0) { (void)cbs_put_token_async(cbs, "servicebus.windows.net:sastoken", "sb://" EH_HOST "/" EH_NAME "/publishers/" EH_PUBLISHER, STRING_c_str(sas_token), on_cbs_put_token_complete, cbs); while (!auth) { size_t current_memory_used; size_t maximum_memory_used; connection_dowork(connection); current_memory_used = gballoc_getCurrentMemoryUsed(); maximum_memory_used = gballoc_getMaximumMemoryUsed(); if (current_memory_used != last_memory_used) { (void)printf("Current memory usage:%lu (max:%lu)\r\n", (unsigned long)current_memory_used, (unsigned long)maximum_memory_used); last_memory_used = current_memory_used; } } } STRING_delete(sas_token); STRING_delete(sas_key_name); STRING_delete(sas_key_value); STRING_delete(resource_uri); STRING_delete(encoded_resource_uri); source = messaging_create_source("ingress"); target = messaging_create_target("amqps://" EH_HOST "/" EH_NAME); link = link_create(session, "sender-link", role_sender, source, target); link_set_snd_settle_mode(link, sender_settle_mode_settled); (void)link_set_max_message_size(link, 65536); amqpvalue_destroy(source); amqpvalue_destroy(target); message = message_create(); binary_data.bytes = hello; binary_data.length = sizeof(hello); message_add_body_amqp_data(message, binary_data); /* create a message sender */ message_sender = messagesender_create(link, NULL, NULL); if (messagesender_open(message_sender) == 0) { uint32_t i; bool keep_running = true; tickcounter_ms_t start_time; TICK_COUNTER_HANDLE tick_counter = tickcounter_create(); if (tickcounter_get_current_ms(tick_counter, &start_time) != 0) { (void)printf("Error getting start time\r\n"); } else { for (i = 0; i < msg_count; i++) { (void)messagesender_send(message_sender, message, on_message_send_complete, message); } message_destroy(message); while (keep_running) { size_t current_memory_used; size_t maximum_memory_used; connection_dowork(connection); current_memory_used = gballoc_getCurrentMemoryUsed(); maximum_memory_used = gballoc_getMaximumMemoryUsed(); if (current_memory_used != last_memory_used) { (void)printf("Current memory usage:%lu (max:%lu)\r\n", (unsigned long)current_memory_used, (unsigned long)maximum_memory_used); last_memory_used = current_memory_used; } if (sent_messages == msg_count) { break; } } { tickcounter_ms_t end_time; if (tickcounter_get_current_ms(tick_counter, &end_time) != 0) { (void)printf("Error getting end time\r\n"); } else { (void)printf("Send %u messages in %lu ms: %.02f msgs/sec\r\n", (unsigned int)msg_count, (unsigned long)(end_time - start_time), (float)msg_count / ((float)(end_time - start_time) / 1000)); } } } } messagesender_destroy(message_sender); link_destroy(link); session_destroy(session); connection_destroy(connection); xio_destroy(sasl_io); xio_destroy(tls_io); saslmechanism_destroy(sasl_mechanism_handle); platform_deinit(); (void)printf("Max memory usage:%lu\r\n", (unsigned long)gballoc_getCurrentMemoryUsed()); (void)printf("Current memory usage:%lu\r\n", (unsigned long)gballoc_getMaximumMemoryUsed()); gballoc_deinit(); result = 0; } return result; }