Example #1
0
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;
}
Example #2
0
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;
}
Example #3
0
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;
}
Example #5
0
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;
}