Jeon byungchul
/
aws-iot-example
this is fork and i will modify for STM32
Fork of AWS-test by
aws-iot/src/aws_iot_mqtt_client_subscribe.cpp
- Committer:
- bcjun@aname.co.kr
- Date:
- 2017-08-04
- Revision:
- 2:db59f45ad3d3
- Parent:
- 0:cd5404401c2f
File content as of revision 2:db59f45ad3d3:
/* * Copyright 2015-2016 Amazon.com, Inc. or its affiliates. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the "License"). * You may not use this file except in compliance with the License. * A copy of the License is located at * * http://aws.amazon.com/apache2.0 * * or in the "license" file accompanying this file. This file is distributed * on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either * express or implied. See the License for the specific language governing * permissions and limitations under the License. */ // Based on Eclipse Paho. /******************************************************************************* * Copyright (c) 2014 IBM Corp. * * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * and Eclipse Distribution License v1.0 which accompany this distribution. * * The Eclipse Public License is available at * http://www.eclipse.org/legal/epl-v10.html * and the Eclipse Distribution License is available at * http://www.eclipse.org/org/documents/edl-v10.php. * * Contributors: * Ian Craggs - initial API and implementation and/or initial documentation *******************************************************************************/ /** * @file aws_iot_mqtt_client_subscribe.c * @brief MQTT client subscribe API definitions */ #ifdef __cplusplus extern "C" { #endif #include "aws_iot_mqtt_client_common_internal.h" /** * Serializes the supplied subscribe data into the supplied buffer, ready for sending * @param pTxBuf the buffer into which the packet will be serialized * @param txBufLen the length in bytes of the supplied buffer * @param dup unsigned char - the MQTT dup flag * @param packetId uint16_t - the MQTT packet identifier * @param topicCount - number of members in the topicFilters and reqQos arrays * @param pTopicNameList - array of topic filter names * @param pTopicNameLenList - array of length of topic filter names * @param pRequestedQoSs - array of requested QoS * @param pSerializedLen - the length of the serialized data * * @return An IoT Error Type defining successful/failed operation */ static IoT_Error_t _aws_iot_mqtt_serialize_subscribe(unsigned char *pTxBuf, size_t txBufLen, unsigned char dup, uint16_t packetId, uint32_t topicCount, const char **pTopicNameList, uint16_t *pTopicNameLenList, QoS *pRequestedQoSs, uint32_t *pSerializedLen) { unsigned char *ptr; uint32_t itr, rem_len; IoT_Error_t rc; MQTTHeader header = {0}; FUNC_ENTRY; if(NULL == pTxBuf || NULL == pSerializedLen) { FUNC_EXIT_RC(NULL_VALUE_ERROR); } ptr = pTxBuf; rem_len = 2; /* packetId */ for(itr = 0; itr < topicCount; ++itr) { rem_len += (uint32_t) (pTopicNameLenList[itr] + 2 + 1); /* topic + length + req_qos */ } if(aws_iot_mqtt_internal_get_final_packet_length_from_remaining_length(rem_len) > txBufLen) { FUNC_EXIT_RC(MQTT_TX_BUFFER_TOO_SHORT_ERROR); } rc = aws_iot_mqtt_internal_init_header(&header, SUBSCRIBE, QOS1, dup, 0); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* write header */ aws_iot_mqtt_internal_write_char(&ptr, header.byte); /* write remaining length */ ptr += aws_iot_mqtt_internal_write_len_to_buffer(ptr, rem_len); aws_iot_mqtt_internal_write_uint_16(&ptr, packetId); for(itr = 0; itr < topicCount; ++itr) { aws_iot_mqtt_internal_write_utf8_string(&ptr, pTopicNameList[itr], pTopicNameLenList[itr]); aws_iot_mqtt_internal_write_char(&ptr, (unsigned char) pRequestedQoSs[itr]); } *pSerializedLen = (uint32_t) (ptr - pTxBuf); FUNC_EXIT_RC(IOT_SUCCESS); } /** * Deserializes the supplied (wire) buffer into suback data * @param pPacketId returned integer - the MQTT packet identifier * @param maxExpectedQoSCount - the maximum number of members allowed in the grantedQoSs array * @param pGrantedQoSCount returned uint32_t - number of members in the grantedQoSs array * @param pGrantedQoSs returned array of QoS type - the granted qualities of service * @param pRxBuf the raw buffer data, of the correct length determined by the remaining length field * @param rxBufLen the length in bytes of the data in the supplied buffer * * @return An IoT Error Type defining successful/failed operation */ static IoT_Error_t _aws_iot_mqtt_deserialize_suback(uint16_t *pPacketId, uint32_t maxExpectedQoSCount, uint32_t *pGrantedQoSCount, QoS *pGrantedQoSs, unsigned char *pRxBuf, size_t rxBufLen) { unsigned char *curData, *endData; uint32_t decodedLen, readBytesLen; IoT_Error_t decodeRc; MQTTHeader header = {0}; FUNC_ENTRY; if(NULL == pPacketId || NULL == pGrantedQoSCount || NULL == pGrantedQoSs) { FUNC_EXIT_RC(NULL_VALUE_ERROR); } curData = pRxBuf; endData = NULL; decodeRc = IOT_FAILURE; decodedLen = 0; readBytesLen = 0; /* SUBACK header size is 4 bytes for header and at least one byte for QoS payload * Need at least a 5 bytes buffer. MQTT3.1.1 specification 3.9 */ if(5 > rxBufLen) { FUNC_EXIT_RC(MQTT_RX_BUFFER_TOO_SHORT_ERROR); } header.byte = aws_iot_mqtt_internal_read_char(&curData); if(SUBACK != header.bits.type) { FUNC_EXIT_RC(IOT_FAILURE); } /* read remaining length */ decodeRc = aws_iot_mqtt_internal_decode_remaining_length_from_buffer(curData, &decodedLen, &readBytesLen); if(IOT_SUCCESS != decodeRc) { FUNC_EXIT_RC(decodeRc); } curData += (readBytesLen); endData = curData + decodedLen; if(endData - curData < 2) { FUNC_EXIT_RC(IOT_FAILURE); } *pPacketId = aws_iot_mqtt_internal_read_uint16_t(&curData); *pGrantedQoSCount = 0; while(curData < endData) { if(*pGrantedQoSCount > maxExpectedQoSCount) { FUNC_EXIT_RC(IOT_FAILURE); } pGrantedQoSs[(*pGrantedQoSCount)++] = (QoS) aws_iot_mqtt_internal_read_char(&curData); } FUNC_EXIT_RC(IOT_SUCCESS); } /* Returns MAX_MESSAGE_HANDLERS value if no free index is available */ static uint32_t _aws_iot_mqtt_get_free_message_handler_index(AWS_IoT_Client *pClient) { uint32_t itr; FUNC_ENTRY; for(itr = 0; itr < AWS_IOT_MQTT_NUM_SUBSCRIBE_HANDLERS; itr++) { if(pClient->clientData.messageHandlers[itr].topicName == NULL) { break; } } FUNC_EXIT_RC(itr); } /** * @brief Subscribe to an MQTT topic. * * Called to send a subscribe message to the broker requesting a subscription * to an MQTT topic. This is the internal function which is called by the * subscribe API to perform the operation. Not meant to be called directly as * it doesn't do validations or client state changes * @note Call is blocking. The call returns after the receipt of the SUBACK control packet. * * @param pClient Reference to the IoT Client * @param pTopicName Topic Name to publish to * @param topicNameLen Length of the topic name * @param pApplicationHandler_t Reference to the handler function for this subscription * * @return An IoT Error Type defining successful/failed subscription */ static IoT_Error_t _aws_iot_mqtt_internal_subscribe(AWS_IoT_Client *pClient, const char *pTopicName, uint16_t topicNameLen, QoS qos, pApplicationHandler_t pApplicationHandler, void *pApplicationHandlerData) { uint16_t txPacketId, rxPacketId; uint32_t serializedLen, indexOfFreeMessageHandler, count; IoT_Error_t rc; TimerAWS timer; QoS grantedQoS[3] = {QOS0, QOS0, QOS0}; FUNC_ENTRY; init_timer(&timer); countdown_ms(&timer, pClient->clientData.commandTimeoutMs); serializedLen = 0; count = 0; txPacketId = aws_iot_mqtt_get_next_packet_id(pClient); rxPacketId = 0; rc = _aws_iot_mqtt_serialize_subscribe(pClient->clientData.writeBuf, pClient->clientData.writeBufSize, 0, txPacketId, 1, &pTopicName, &topicNameLen, &qos, &serializedLen); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } indexOfFreeMessageHandler = _aws_iot_mqtt_get_free_message_handler_index(pClient); if(AWS_IOT_MQTT_NUM_SUBSCRIBE_HANDLERS <= indexOfFreeMessageHandler) { FUNC_EXIT_RC(MQTT_MAX_SUBSCRIPTIONS_REACHED_ERROR); } /* send the subscribe packet */ rc = aws_iot_mqtt_internal_send_packet(pClient, serializedLen, &timer); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* wait for suback */ rc = aws_iot_mqtt_internal_wait_for_read(pClient, SUBACK, &timer); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* Granted QoS can be 0, 1 or 2 */ rc = _aws_iot_mqtt_deserialize_suback(&rxPacketId, 1, &count, grantedQoS, pClient->clientData.readBuf, pClient->clientData.readBufSize); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* TODO : Figure out how to test this before activating this check */ //if(txPacketId != rxPacketId) { /* Different SUBACK received than expected. Return error * This can cause issues if the request timeout value is too small */ // return RX_MESSAGE_INVALID_ERROR; //} pClient->clientData.messageHandlers[indexOfFreeMessageHandler].topicName = pTopicName; pClient->clientData.messageHandlers[indexOfFreeMessageHandler].topicNameLen = topicNameLen; pClient->clientData.messageHandlers[indexOfFreeMessageHandler].pApplicationHandler = pApplicationHandler; pClient->clientData.messageHandlers[indexOfFreeMessageHandler].pApplicationHandlerData = pApplicationHandlerData; pClient->clientData.messageHandlers[indexOfFreeMessageHandler].qos = qos; FUNC_EXIT_RC(IOT_SUCCESS); } /** * @brief Subscribe to an MQTT topic. * * Called to send a subscribe message to the broker requesting a subscription * to an MQTT topic. This is the outer function which does the validations and * calls the internal subscribe above to perform the actual operation. * It is also responsible for client state changes * @note Call is blocking. The call returns after the receipt of the SUBACK control packet. * * @param pClient Reference to the IoT Client * @param pTopicName Topic Name to publish to * @param topicNameLen Length of the topic name * @param pApplicationHandler_t Reference to the handler function for this subscription * * @return An IoT Error Type defining successful/failed subscription */ IoT_Error_t aws_iot_mqtt_subscribe(AWS_IoT_Client *pClient, const char *pTopicName, uint16_t topicNameLen, QoS qos, pApplicationHandler_t pApplicationHandler, void *pApplicationHandlerData) { ClientState clientState; IoT_Error_t rc, subRc; FUNC_ENTRY; if(NULL == pClient || NULL == pTopicName || NULL == pApplicationHandler) { FUNC_EXIT_RC(NULL_VALUE_ERROR); } if(!aws_iot_mqtt_is_client_connected(pClient)) { FUNC_EXIT_RC(NETWORK_DISCONNECTED_ERROR); } clientState = aws_iot_mqtt_get_client_state(pClient); if(CLIENT_STATE_CONNECTED_IDLE != clientState && CLIENT_STATE_CONNECTED_WAIT_FOR_CB_RETURN != clientState) { FUNC_EXIT_RC(MQTT_CLIENT_NOT_IDLE_ERROR); } rc = aws_iot_mqtt_set_client_state(pClient, clientState, CLIENT_STATE_CONNECTED_SUBSCRIBE_IN_PROGRESS); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } subRc = _aws_iot_mqtt_internal_subscribe(pClient, pTopicName, topicNameLen, qos, pApplicationHandler, pApplicationHandlerData); rc = aws_iot_mqtt_set_client_state(pClient, CLIENT_STATE_CONNECTED_SUBSCRIBE_IN_PROGRESS, clientState); if(IOT_SUCCESS == subRc && IOT_SUCCESS != rc) { subRc = rc; } FUNC_EXIT_RC(subRc); } /** * @brief Subscribe to an MQTT topic. * * Called to send a subscribe message to the broker requesting a subscription * to an MQTT topic. * This is the internal function which is called by the resubscribe API to perform the operation. * Not meant to be called directly as it doesn't do validations or client state changes * @note Call is blocking. The call returns after the receipt of the SUBACK control packet. * * @param pClient Reference to the IoT Client * * @return An IoT Error Type defining successful/failed subscription */ static IoT_Error_t _aws_iot_mqtt_internal_resubscribe(AWS_IoT_Client *pClient) { uint16_t packetId; uint32_t len, count, existingSubCount, itr; IoT_Error_t rc; TimerAWS timer; QoS grantedQoS[3] = {QOS0, QOS0, QOS0}; FUNC_ENTRY; packetId = 0; len = 0; count = 0; existingSubCount = _aws_iot_mqtt_get_free_message_handler_index(pClient); for(itr = 0; itr < existingSubCount; itr++) { init_timer(&timer); countdown_ms(&timer, pClient->clientData.commandTimeoutMs); rc = _aws_iot_mqtt_serialize_subscribe(pClient->clientData.writeBuf, pClient->clientData.writeBufSize, 0, aws_iot_mqtt_get_next_packet_id(pClient), 1, &(pClient->clientData.messageHandlers[itr].topicName), &(pClient->clientData.messageHandlers[itr].topicNameLen), &(pClient->clientData.messageHandlers[itr].qos), &len); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* send the subscribe packet */ rc = aws_iot_mqtt_internal_send_packet(pClient, len, &timer); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* wait for suback */ rc = aws_iot_mqtt_internal_wait_for_read(pClient, SUBACK, &timer); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } /* Granted QoS can be 0, 1 or 2 */ rc = _aws_iot_mqtt_deserialize_suback(&packetId, 1, &count, grantedQoS, pClient->clientData.readBuf, pClient->clientData.readBufSize); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } } FUNC_EXIT_RC(IOT_SUCCESS); } /** * @brief Subscribe to an MQTT topic. * * Called to send a subscribe message to the broker requesting a subscription * to an MQTT topic. * This is the outer function which does the validations and calls the internal resubscribe above * to perform the actual operation. It is also responsible for client state changes * @note Call is blocking. The call returns after the receipt of the SUBACK control packet. * * @param pClient Reference to the IoT Client * * @return An IoT Error Type defining successful/failed subscription */ IoT_Error_t aws_iot_mqtt_resubscribe(AWS_IoT_Client *pClient) { IoT_Error_t rc, resubRc; FUNC_ENTRY; if(NULL == pClient) { FUNC_EXIT_RC(NULL_VALUE_ERROR); } if(false == aws_iot_mqtt_is_client_connected(pClient)) { FUNC_EXIT_RC(NETWORK_DISCONNECTED_ERROR); } if(CLIENT_STATE_CONNECTED_IDLE != aws_iot_mqtt_get_client_state(pClient)) { FUNC_EXIT_RC(MQTT_CLIENT_NOT_IDLE_ERROR); } rc = aws_iot_mqtt_set_client_state(pClient, CLIENT_STATE_CONNECTED_IDLE, CLIENT_STATE_CONNECTED_RESUBSCRIBE_IN_PROGRESS); if(IOT_SUCCESS != rc) { FUNC_EXIT_RC(rc); } resubRc = _aws_iot_mqtt_internal_resubscribe(pClient); rc = aws_iot_mqtt_set_client_state(pClient, CLIENT_STATE_CONNECTED_RESUBSCRIBE_IN_PROGRESS, CLIENT_STATE_CONNECTED_IDLE); if(IOT_SUCCESS == resubRc && IOT_SUCCESS != rc) { resubRc = rc; } FUNC_EXIT_RC(resubRc); } #ifdef __cplusplus } #endif