// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #include #include #include #include #include "azure_macro_utils/macro_utils.h" #include "azure_c_shared_utility/gballoc.h" #include "azure_c_shared_utility/xlogging.h" #include "azure_c_shared_utility/tickcounter.h" #include "azure_uamqp_c/link.h" #include "azure_uamqp_c/message.h" #include "azure_uamqp_c/message_sender.h" #include "azure_uamqp_c/amqpvalue_to_string.h" #include "azure_uamqp_c/async_operation.h" #include "azure_uamqp_c/amqp_definitions.h" #include "azure_c_shared_utility/safe_math.h" typedef enum MESSAGE_SEND_STATE_TAG { MESSAGE_SEND_STATE_NOT_SENT, MESSAGE_SEND_STATE_PENDING } MESSAGE_SEND_STATE; typedef enum SEND_ONE_MESSAGE_RESULT_TAG { SEND_ONE_MESSAGE_OK, SEND_ONE_MESSAGE_ERROR, SEND_ONE_MESSAGE_BUSY } SEND_ONE_MESSAGE_RESULT; typedef struct MESSAGE_WITH_CALLBACK_TAG { MESSAGE_HANDLE message; ON_MESSAGE_SEND_COMPLETE on_message_send_complete; void* context; MESSAGE_SENDER_HANDLE message_sender; MESSAGE_SEND_STATE message_send_state; tickcounter_ms_t timeout; ASYNC_OPERATION_HANDLE transfer_async_operation; } MESSAGE_WITH_CALLBACK; DEFINE_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK); typedef struct MESSAGE_SENDER_INSTANCE_TAG { LINK_HANDLE link; size_t message_count; ASYNC_OPERATION_HANDLE* messages; MESSAGE_SENDER_STATE message_sender_state; ON_MESSAGE_SENDER_STATE_CHANGED on_message_sender_state_changed; void* on_message_sender_state_changed_context; unsigned int is_trace_on : 1; } MESSAGE_SENDER_INSTANCE; static void remove_pending_message_by_index(MESSAGE_SENDER_HANDLE message_sender, size_t index) { ASYNC_OPERATION_HANDLE* new_messages; MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, message_sender->messages[index]); if (message_with_callback->message != NULL) { message_destroy(message_with_callback->message); message_with_callback->message = NULL; } async_operation_destroy(message_sender->messages[index]); if (message_sender->message_count - index > 1) { (void)memmove(&message_sender->messages[index], &message_sender->messages[index + 1], sizeof(ASYNC_OPERATION_HANDLE) * (message_sender->message_count - index - 1)); } message_sender->message_count--; if (message_sender->message_count > 0) { size_t realloc_size = safe_multiply_size_t(sizeof(ASYNC_OPERATION_HANDLE), (message_sender->message_count)); if (realloc_size != SIZE_MAX && (new_messages = (ASYNC_OPERATION_HANDLE*)realloc(message_sender->messages, realloc_size)) != NULL) { message_sender->messages = new_messages; } } else { free(message_sender->messages); message_sender->messages = NULL; } } static void remove_pending_message(MESSAGE_SENDER_INSTANCE* message_sender, ASYNC_OPERATION_HANDLE pending_send) { size_t i; for (i = 0; i < message_sender->message_count; i++) { if (message_sender->messages[i] == pending_send) { remove_pending_message_by_index(message_sender, i); break; } } } static void on_delivery_settled(void* context, delivery_number delivery_no, LINK_DELIVERY_SETTLE_REASON reason, AMQP_VALUE delivery_state) { ASYNC_OPERATION_HANDLE pending_send = (ASYNC_OPERATION_HANDLE)context; MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, pending_send); (void)delivery_no; if (message_with_callback != NULL && message_with_callback->on_message_send_complete != NULL) { MESSAGE_SENDER_INSTANCE *message_sender = (MESSAGE_SENDER_INSTANCE *)message_with_callback->message_sender; switch (reason) { case LINK_DELIVERY_SETTLE_REASON_DISPOSITION_RECEIVED: if (delivery_state == NULL) { LogError("delivery state not provided"); } else { AMQP_VALUE descriptor = amqpvalue_get_inplace_descriptor(delivery_state); AMQP_VALUE described = amqpvalue_get_inplace_described_value(delivery_state); if (descriptor == NULL) { LogError("Error getting descriptor for delivery state"); message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_ERROR, described); } else { if (is_accepted_type_by_descriptor(descriptor)) { message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_OK, described); } else { message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_ERROR, described); } } remove_pending_message(message_sender, pending_send); } break; case LINK_DELIVERY_SETTLE_REASON_SETTLED: message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_OK, NULL); remove_pending_message(message_sender, pending_send); break; case LINK_DELIVERY_SETTLE_REASON_TIMEOUT: message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_TIMEOUT, NULL); remove_pending_message(message_sender, pending_send); break; case LINK_DELIVERY_SETTLE_REASON_CANCELLED: message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_CANCELLED, NULL); remove_pending_message(message_sender, pending_send); break; case LINK_DELIVERY_SETTLE_REASON_NOT_DELIVERED: default: message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_ERROR, NULL); remove_pending_message(message_sender, pending_send); break; } } } static int encode_bytes(void* context, const unsigned char* bytes, size_t length) { PAYLOAD* payload = (PAYLOAD*)context; (void)memcpy((unsigned char*)payload->bytes + payload->length, bytes, length); payload->length += length; return 0; } static void log_message_chunk(MESSAGE_SENDER_INSTANCE* message_sender, const char* name, AMQP_VALUE value) { #ifdef NO_LOGGING (void)message_sender; (void)name; (void)value; #else if (xlogging_get_log_function() != NULL && message_sender->is_trace_on == 1) { char* value_as_string = NULL; LOG(AZ_LOG_TRACE, 0, "%s", MU_P_OR_NULL(name)); LOG(AZ_LOG_TRACE, 0, "%s", ((value_as_string = amqpvalue_to_string(value)), MU_P_OR_NULL(value_as_string))); if (value_as_string != NULL) { free(value_as_string); } } #endif } // Auxiliary function to verify if a given message is still in the pending messages queue. static bool is_message_in_queue(MESSAGE_SENDER_HANDLE message_sender, ASYNC_OPERATION_HANDLE message) { bool result = false; for (size_t i = 0; i < message_sender->message_count; i++) { if (message_sender->messages[i] == message) { result = true; break; } } return result; } static SEND_ONE_MESSAGE_RESULT send_one_message(MESSAGE_SENDER_INSTANCE* message_sender, ASYNC_OPERATION_HANDLE pending_send, MESSAGE_HANDLE message) { SEND_ONE_MESSAGE_RESULT result; size_t encoded_size; size_t total_encoded_size = 0; MESSAGE_BODY_TYPE message_body_type; message_format message_format; if ((message_get_body_type(message, &message_body_type) != 0) || (message_get_message_format(message, &message_format) != 0)) { LogError("Failure getting message body type and/or message format"); result = SEND_ONE_MESSAGE_ERROR; } else { // header HEADER_HANDLE header = NULL; AMQP_VALUE header_amqp_value = NULL; PROPERTIES_HANDLE properties = NULL; AMQP_VALUE properties_amqp_value = NULL; AMQP_VALUE application_properties = NULL; AMQP_VALUE application_properties_value = NULL; AMQP_VALUE body_amqp_value = NULL; size_t body_data_count = 0; AMQP_VALUE msg_annotations = NULL; bool is_error = false; // message header if ((message_get_header(message, &header) == 0) && (header != NULL)) { header_amqp_value = amqpvalue_create_header(header); if (header_amqp_value == NULL) { LogError("Cannot create header AMQP value"); is_error = true; } else { if (amqpvalue_get_encoded_size(header_amqp_value, &encoded_size) != 0) { LogError("Cannot obtain header encoded size"); is_error = true; } else { total_encoded_size += encoded_size; } } } // message annotations if ((!is_error) && (message_get_message_annotations(message, &msg_annotations) == 0) && (msg_annotations != NULL)) { if (amqpvalue_get_encoded_size(msg_annotations, &encoded_size) != 0) { LogError("Cannot obtain message annotations encoded size"); is_error = true; } else { total_encoded_size += encoded_size; } } // properties if ((!is_error) && (message_get_properties(message, &properties) == 0) && (properties != NULL)) { properties_amqp_value = amqpvalue_create_properties(properties); if (properties_amqp_value == NULL) { LogError("Cannot create message properties AMQP value"); is_error = true; } else { if (amqpvalue_get_encoded_size(properties_amqp_value, &encoded_size) != 0) { LogError("Cannot obtain message properties encoded size"); is_error = true; } else { total_encoded_size += encoded_size; } } } // application properties if ((!is_error) && (message_get_application_properties(message, &application_properties) == 0) && (application_properties != NULL)) { application_properties_value = amqpvalue_create_application_properties(application_properties); if (application_properties_value == NULL) { LogError("Cannot create application properties AMQP value"); is_error = true; } else { if (amqpvalue_get_encoded_size(application_properties_value, &encoded_size) != 0) { LogError("Cannot obtain application properties encoded size"); is_error = true; } else { total_encoded_size += encoded_size; } } } if (is_error) { result = SEND_ONE_MESSAGE_ERROR; } else { result = SEND_ONE_MESSAGE_OK; // body - amqp data switch (message_body_type) { default: LogError("Unknown body type"); result = SEND_ONE_MESSAGE_ERROR; break; case MESSAGE_BODY_TYPE_VALUE: { AMQP_VALUE message_body_amqp_value; if (message_get_body_amqp_value_in_place(message, &message_body_amqp_value) != 0) { LogError("Cannot obtain AMQP value from body"); result = SEND_ONE_MESSAGE_ERROR; } else { body_amqp_value = amqpvalue_create_amqp_value(message_body_amqp_value); if (body_amqp_value == NULL) { LogError("Cannot create body AMQP value"); result = SEND_ONE_MESSAGE_ERROR; } else { if (amqpvalue_get_encoded_size(body_amqp_value, &encoded_size) != 0) { LogError("Cannot get body AMQP value encoded size"); result = SEND_ONE_MESSAGE_ERROR; } else { total_encoded_size += encoded_size; } } } break; } case MESSAGE_BODY_TYPE_DATA: { BINARY_DATA binary_data; size_t i; if (message_get_body_amqp_data_count(message, &body_data_count) != 0) { LogError("Cannot get body AMQP data count"); result = SEND_ONE_MESSAGE_ERROR; } else { if (body_data_count == 0) { LogError("Body data count is zero"); result = SEND_ONE_MESSAGE_ERROR; } else { for (i = 0; i < body_data_count; i++) { if (message_get_body_amqp_data_in_place(message, i, &binary_data) != 0) { LogError("Cannot get body AMQP data %u", (unsigned int)i); result = SEND_ONE_MESSAGE_ERROR; } else { AMQP_VALUE body_amqp_data; amqp_binary binary_value; binary_value.bytes = binary_data.bytes; binary_value.length = (uint32_t)binary_data.length; body_amqp_data = amqpvalue_create_data(binary_value); if (body_amqp_data == NULL) { LogError("Cannot create body AMQP data"); result = SEND_ONE_MESSAGE_ERROR; } else { if (amqpvalue_get_encoded_size(body_amqp_data, &encoded_size) != 0) { LogError("Cannot get body AMQP data encoded size"); result = SEND_ONE_MESSAGE_ERROR; } else { total_encoded_size += encoded_size; } amqpvalue_destroy(body_amqp_data); } } } } } break; } } if (result == 0) { void* data_bytes = malloc(total_encoded_size); PAYLOAD payload; payload.bytes = (const unsigned char*)data_bytes; payload.length = 0; result = SEND_ONE_MESSAGE_OK; if (header != NULL) { if (amqpvalue_encode(header_amqp_value, encode_bytes, &payload) != 0) { LogError("Cannot encode header value"); result = SEND_ONE_MESSAGE_ERROR; } log_message_chunk(message_sender, "Header:", header_amqp_value); } if ((result == SEND_ONE_MESSAGE_OK) && (msg_annotations != NULL)) { if (amqpvalue_encode(msg_annotations, encode_bytes, &payload) != 0) { LogError("Cannot encode message annotations value"); result = SEND_ONE_MESSAGE_ERROR; } log_message_chunk(message_sender, "Message Annotations:", msg_annotations); } if ((result == SEND_ONE_MESSAGE_OK) && (properties != NULL)) { if (amqpvalue_encode(properties_amqp_value, encode_bytes, &payload) != 0) { LogError("Cannot encode message properties value"); result = SEND_ONE_MESSAGE_ERROR; } log_message_chunk(message_sender, "Properties:", properties_amqp_value); } if ((result == SEND_ONE_MESSAGE_OK) && (application_properties != NULL)) { if (amqpvalue_encode(application_properties_value, encode_bytes, &payload) != 0) { LogError("Cannot encode application properties value"); result = SEND_ONE_MESSAGE_ERROR; } log_message_chunk(message_sender, "Application properties:", application_properties_value); } if (result == SEND_ONE_MESSAGE_OK) { switch (message_body_type) { default: LogError("Unknown message type"); result = SEND_ONE_MESSAGE_ERROR; break; case MESSAGE_BODY_TYPE_VALUE: { if (amqpvalue_encode(body_amqp_value, encode_bytes, &payload) != 0) { LogError("Cannot encode body AMQP value"); result = SEND_ONE_MESSAGE_ERROR; } log_message_chunk(message_sender, "Body - amqp value:", body_amqp_value); break; } case MESSAGE_BODY_TYPE_DATA: { BINARY_DATA binary_data; size_t i; for (i = 0; i < body_data_count; i++) { if (message_get_body_amqp_data_in_place(message, i, &binary_data) != 0) { LogError("Cannot get AMQP data %u", (unsigned int)i); result = SEND_ONE_MESSAGE_ERROR; } else { AMQP_VALUE body_amqp_data; amqp_binary binary_value; binary_value.bytes = binary_data.bytes; binary_value.length = (uint32_t)binary_data.length; body_amqp_data = amqpvalue_create_data(binary_value); if (body_amqp_data == NULL) { LogError("Cannot create body AMQP data %u", (unsigned int)i); result = SEND_ONE_MESSAGE_ERROR; } else { if (amqpvalue_encode(body_amqp_data, encode_bytes, &payload) != 0) { LogError("Cannot encode body AMQP data %u", (unsigned int)i); result = SEND_ONE_MESSAGE_ERROR; break; } amqpvalue_destroy(body_amqp_data); } } } break; } } } if (result == SEND_ONE_MESSAGE_OK) { ASYNC_OPERATION_HANDLE transfer_async_operation; LINK_TRANSFER_RESULT link_transfer_error; MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, pending_send); message_with_callback->message_send_state = MESSAGE_SEND_STATE_PENDING; transfer_async_operation = link_transfer_async(message_sender->link, message_format, &payload, 1, on_delivery_settled, pending_send, &link_transfer_error, message_with_callback->timeout); if (transfer_async_operation == NULL) { if (link_transfer_error == LINK_TRANSFER_BUSY) { message_with_callback->message_send_state = MESSAGE_SEND_STATE_NOT_SENT; result = SEND_ONE_MESSAGE_BUSY; } else { LogError("Error in link transfer"); result = SEND_ONE_MESSAGE_ERROR; } } else { // For messages that get atomically sent and settled by link_transfer_async, // on_delivery_settled is invoked and the message destroyed. // So at this point we shall verify if the message still exists and is in the queue. if (is_message_in_queue(message_sender, pending_send)) { message_with_callback->transfer_async_operation = transfer_async_operation; } result = SEND_ONE_MESSAGE_OK; } } free(data_bytes); if (body_amqp_value != NULL) { amqpvalue_destroy(body_amqp_value); } } } if (header != NULL) { header_destroy(header); } if (header_amqp_value != NULL) { amqpvalue_destroy(header_amqp_value); } if (msg_annotations != NULL) { annotations_destroy(msg_annotations); } if (application_properties != NULL) { amqpvalue_destroy(application_properties); } if (application_properties_value != NULL) { amqpvalue_destroy(application_properties_value); } if (properties_amqp_value != NULL) { amqpvalue_destroy(properties_amqp_value); } if (properties != NULL) { properties_destroy(properties); } } return result; } static void send_all_pending_messages(MESSAGE_SENDER_HANDLE message_sender) { size_t i; for (i = 0; i < message_sender->message_count; i++) { MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, message_sender->messages[i]); if (message_with_callback->message_send_state == MESSAGE_SEND_STATE_NOT_SENT) { switch (send_one_message(message_sender, message_sender->messages[i], message_with_callback->message)) { default: LogError("Invalid send one message result"); break; case SEND_ONE_MESSAGE_ERROR: { ON_MESSAGE_SEND_COMPLETE on_message_send_complete = message_with_callback->on_message_send_complete; void* context = message_with_callback->context; remove_pending_message_by_index(message_sender, i); if (on_message_send_complete != NULL) { on_message_send_complete(context, MESSAGE_SEND_ERROR, NULL); } i = message_sender->message_count; break; } case SEND_ONE_MESSAGE_BUSY: i = message_sender->message_count + 1; break; case SEND_ONE_MESSAGE_OK: break; } i--; } } } static void set_message_sender_state(MESSAGE_SENDER_INSTANCE* message_sender, MESSAGE_SENDER_STATE new_state) { MESSAGE_SENDER_STATE previous_state = message_sender->message_sender_state; message_sender->message_sender_state = new_state; if (message_sender->on_message_sender_state_changed != NULL) { message_sender->on_message_sender_state_changed(message_sender->on_message_sender_state_changed_context, new_state, previous_state); } } static void indicate_all_messages_as_error(MESSAGE_SENDER_INSTANCE* message_sender) { size_t i; for (i = 0; i < message_sender->message_count; i++) { MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, message_sender->messages[i]); if (message_with_callback->on_message_send_complete != NULL) { message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_ERROR, NULL); } if (message_with_callback->message != NULL) { message_destroy(message_with_callback->message); } async_operation_destroy(message_sender->messages[i]); } if (message_sender->messages != NULL) { message_sender->message_count = 0; free(message_sender->messages); message_sender->messages = NULL; } } static void on_link_state_changed(void* context, LINK_STATE new_link_state, LINK_STATE previous_link_state) { MESSAGE_SENDER_INSTANCE* message_sender = (MESSAGE_SENDER_INSTANCE*)context; (void)previous_link_state; switch (new_link_state) { default: break; case LINK_STATE_ATTACHED: if (message_sender->message_sender_state == MESSAGE_SENDER_STATE_OPENING) { set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_OPEN); } break; case LINK_STATE_DETACHED: if ((message_sender->message_sender_state == MESSAGE_SENDER_STATE_OPEN) || (message_sender->message_sender_state == MESSAGE_SENDER_STATE_CLOSING)) { /* switch to closing so that no more requests should be accepted */ indicate_all_messages_as_error(message_sender); set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_IDLE); } else if (message_sender->message_sender_state != MESSAGE_SENDER_STATE_IDLE) { /* Any other transition must be an error */ set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_ERROR); } break; case LINK_STATE_ERROR: if (message_sender->message_sender_state != MESSAGE_SENDER_STATE_ERROR) { indicate_all_messages_as_error(message_sender); set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_ERROR); } break; } } static void on_link_flow_on(void* context) { MESSAGE_SENDER_HANDLE message_sender = (MESSAGE_SENDER_INSTANCE*)context; send_all_pending_messages(message_sender); } MESSAGE_SENDER_HANDLE messagesender_create(LINK_HANDLE link, ON_MESSAGE_SENDER_STATE_CHANGED on_message_sender_state_changed, void* context) { MESSAGE_SENDER_INSTANCE* message_sender = (MESSAGE_SENDER_INSTANCE*)calloc(1, sizeof(MESSAGE_SENDER_INSTANCE)); if (message_sender == NULL) { LogError("Failed allocating message sender"); } else { message_sender->messages = NULL; message_sender->message_count = 0; message_sender->link = link; message_sender->on_message_sender_state_changed = on_message_sender_state_changed; message_sender->on_message_sender_state_changed_context = context; message_sender->message_sender_state = MESSAGE_SENDER_STATE_IDLE; message_sender->is_trace_on = 0; } return message_sender; } void messagesender_destroy(MESSAGE_SENDER_HANDLE message_sender) { if (message_sender == NULL) { LogError("NULL message_sender"); } else { (void)messagesender_close(message_sender); free(message_sender); } } int messagesender_open(MESSAGE_SENDER_HANDLE message_sender) { int result; if (message_sender == NULL) { LogError("NULL message_sender"); result = MU_FAILURE; } else { if (message_sender->message_sender_state == MESSAGE_SENDER_STATE_IDLE) { set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_OPENING); if (link_attach(message_sender->link, NULL, on_link_state_changed, on_link_flow_on, message_sender) != 0) { LogError("attach link failed"); result = MU_FAILURE; set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_ERROR); } else { result = 0; } } else { result = 0; } } return result; } int messagesender_close(MESSAGE_SENDER_HANDLE message_sender) { int result; if (message_sender == NULL) { LogError("NULL message_sender"); result = MU_FAILURE; } else { indicate_all_messages_as_error(message_sender); if ((message_sender->message_sender_state == MESSAGE_SENDER_STATE_OPENING) || (message_sender->message_sender_state == MESSAGE_SENDER_STATE_OPEN)) { set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_CLOSING); if (link_detach(message_sender->link, true, NULL, NULL, NULL) != 0) { LogError("Detaching link failed"); result = MU_FAILURE; set_message_sender_state(message_sender, MESSAGE_SENDER_STATE_ERROR); } else { result = 0; } } else { result = 0; } } return result; } static void messagesender_send_cancel_handler(ASYNC_OPERATION_HANDLE send_operation) { MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, send_operation); MESSAGE_SENDER_HANDLE messager_sender = message_with_callback->message_sender; if (message_with_callback->on_message_send_complete != NULL) { message_with_callback->on_message_send_complete(message_with_callback->context, MESSAGE_SEND_CANCELLED, NULL); } if (message_with_callback->transfer_async_operation != NULL) { async_operation_cancel(message_with_callback->transfer_async_operation); } remove_pending_message(messager_sender, send_operation); } ASYNC_OPERATION_HANDLE messagesender_send_async(MESSAGE_SENDER_HANDLE message_sender, MESSAGE_HANDLE message, ON_MESSAGE_SEND_COMPLETE on_message_send_complete, void* callback_context, tickcounter_ms_t timeout) { ASYNC_OPERATION_HANDLE result; if ((message_sender == NULL) || (message == NULL)) { LogError("Bad parameters: message_sender=%p, message=%p, on_message_send_complete=%p, callback_context=%p, timeout=%" PRIu64, message_sender, message, on_message_send_complete, callback_context, (uint64_t)timeout); result = NULL; } else { if (message_sender->message_sender_state == MESSAGE_SENDER_STATE_ERROR) { LogError("Message sender in ERROR state"); result = NULL; } else { result = CREATE_ASYNC_OPERATION(MESSAGE_WITH_CALLBACK, messagesender_send_cancel_handler); if (result == NULL) { LogError("Failed allocating context for send"); } else { ASYNC_OPERATION_HANDLE* new_messages; MESSAGE_WITH_CALLBACK* message_with_callback = GET_ASYNC_OPERATION_CONTEXT(MESSAGE_WITH_CALLBACK, result); size_t realloc_size = safe_add_size_t(message_sender->message_count, 1); realloc_size = safe_multiply_size_t(realloc_size, sizeof(ASYNC_OPERATION_HANDLE)); if (realloc_size == SIZE_MAX || (new_messages = (ASYNC_OPERATION_HANDLE*)realloc(message_sender->messages, realloc_size)) == NULL) { LogError("Failed allocating memory for pending sends, size:%zu", realloc_size); async_operation_destroy(result); result = NULL; } else { message_with_callback->timeout = timeout; message_sender->messages = new_messages; if (message_sender->message_sender_state != MESSAGE_SENDER_STATE_OPEN) { message_with_callback->message = message_clone(message); if (message_with_callback->message == NULL) { LogError("Cannot clone message for placing it in the pending sends list"); async_operation_destroy(result); result = NULL; } message_with_callback->message_send_state = MESSAGE_SEND_STATE_NOT_SENT; } else { message_with_callback->message = NULL; message_with_callback->message_send_state = MESSAGE_SEND_STATE_PENDING; } if (result != NULL) { message_with_callback->on_message_send_complete = on_message_send_complete; message_with_callback->context = callback_context; message_with_callback->message_sender = message_sender; message_sender->messages[message_sender->message_count] = result; message_sender->message_count++; if (message_sender->message_sender_state == MESSAGE_SENDER_STATE_OPEN) { switch (send_one_message(message_sender, result, message)) { default: case SEND_ONE_MESSAGE_ERROR: LogError("Error sending message"); remove_pending_message_by_index(message_sender, message_sender->message_count - 1); result = NULL; break; case SEND_ONE_MESSAGE_BUSY: message_with_callback->message = message_clone(message); if (message_with_callback->message == NULL) { LogError("Error cloning message for placing it in the pending sends list"); async_operation_destroy(result); result = NULL; } else { message_with_callback->message_send_state = MESSAGE_SEND_STATE_NOT_SENT; } break; case SEND_ONE_MESSAGE_OK: break; } } } } } } } return result; } void messagesender_set_trace(MESSAGE_SENDER_HANDLE message_sender, bool traceOn) { if (message_sender == NULL) { LogError("NULL message_sender"); } else { message_sender->is_trace_on = traceOn ? 1 : 0; } }