Jeon byungchul
/
aws-iot-example
this is fork and i will modify for STM32
Fork of AWS-test by
Diff: aws-iot/src/aws_iot_mqtt_client_connect.cpp
- Revision:
- 0:cd5404401c2f
- Child:
- 2:db59f45ad3d3
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/aws-iot/src/aws_iot_mqtt_client_connect.cpp Wed Apr 12 14:07:09 2017 +0200 @@ -0,0 +1,621 @@ +/* +* 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_connect.c + * @brief MQTT client connect API definition and related functions + */ + +#ifdef __cplusplus +extern "C" { +#endif + +#include <aws_iot_mqtt_client.h> +#include "aws_iot_mqtt_client_interface.h" +#include "aws_iot_mqtt_client_common_internal.h" + +typedef union { + uint8_t all; /**< all connect flags */ +#if defined(REVERSED) + struct + { + unsigned int username : 1; /**< 3.1 user name */ + unsigned int password : 1; /**< 3.1 password */ + unsigned int willRetain : 1; /**< will retain setting */ + unsigned int willQoS : 2; /**< will QoS value */ + unsigned int will : 1; /**< will flag */ + unsigned int cleansession : 1; /**< clean session flag */ + unsigned int : 1; /**< unused */ + } bits; +#else + struct { + unsigned int : 1; + /**< unused */ + unsigned int cleansession : 1; + /**< cleansession flag */ + unsigned int will : 1; + /**< will flag */ + unsigned int willQoS : 2; + /**< will QoS value */ + unsigned int willRetain : 1; + /**< will retain setting */ + unsigned int password : 1; + /**< 3.1 password */ + unsigned int username : 1; /**< 3.1 user name */ + } bits; +#endif +} MQTT_Connect_Header_Flags; +/**< connect flags byte */ + +typedef union { + uint8_t all; /**< all connack flags */ +#if defined(REVERSED) + struct + { + unsigned int sessionpresent : 1; /**< session present flag */ + unsigned int : 7; /**< unused */ + } bits; +#else + struct { + unsigned int : 7; + /**< unused */ + unsigned int sessionpresent : 1; /**< session present flag */ + } bits; +#endif +} MQTT_Connack_Header_Flags; +/**< connack flags byte */ + +typedef enum { + CONNACK_CONNECTION_ACCEPTED = 0, + CONNACK_UNACCEPTABLE_PROTOCOL_VERSION_ERROR = 1, + CONNACK_IDENTIFIER_REJECTED_ERROR = 2, + CONNACK_SERVER_UNAVAILABLE_ERROR = 3, + CONNACK_BAD_USERDATA_ERROR = 4, + CONNACK_NOT_AUTHORIZED_ERROR = 5 +} MQTT_Connack_Return_Codes; /**< Connect request response codes from server */ + + +/** + * Determines the length of the MQTT connect packet that would be produced using the supplied connect options. + * @param options the options to be used to build the connect packet + * @param the length of buffer needed to contain the serialized version of the packet + * @return IoT_Error_t indicating function execution status + */ +static uint32_t _aws_iot_get_connect_packet_length(IoT_Client_Connect_Params *pConnectParams) { + uint32_t len; + /* Enable when adding further MQTT versions */ + /*size_t len = 0; + switch(pConnectParams->MQTTVersion) { + case MQTT_3_1_1: + len = 10; + break; + }*/ + FUNC_ENTRY; + + len = 10; // Len = 10 for MQTT_3_1_1 + len = len + pConnectParams->clientIDLen + 2; + + if(pConnectParams->isWillMsgPresent) { + len = len + pConnectParams->will.topicNameLen + 2 + pConnectParams->will.msgLen + 2; + } + + if(NULL != pConnectParams->pUsername) { + len = len + pConnectParams->usernameLen + 2; + } + + if(NULL != pConnectParams->pPassword) { + len = len + pConnectParams->passwordLen + 2; + } + + FUNC_EXIT_RC(len); +} + +/** + * Serializes the connect options into the buffer. + * @param buf the buffer into which the packet will be serialized + * @param len the length in bytes of the supplied buffer + * @param options the options to be used to build the connect packet + * @param serialized length + * @return IoT_Error_t indicating function execution status + */ +static IoT_Error_t _aws_iot_mqtt_serialize_connect(unsigned char *pTxBuf, size_t txBufLen, + IoT_Client_Connect_Params *pConnectParams, + size_t *pSerializedLen) { + unsigned char *ptr; + uint32_t len; + IoT_Error_t rc; + MQTTHeader header = {0}; + MQTT_Connect_Header_Flags flags = {0}; + + FUNC_ENTRY; + + if(NULL == pTxBuf || NULL == pConnectParams || NULL == pSerializedLen || + (NULL == pConnectParams->pClientID && 0 != pConnectParams->clientIDLen) || + (NULL != pConnectParams->pClientID && 0 == pConnectParams->clientIDLen)) { + FUNC_EXIT_RC(NULL_VALUE_ERROR); + } + + /* Check needed here before we start writing to the Tx buffer */ + switch(pConnectParams->MQTTVersion) { + case MQTT_3_1_1: + break; + default: + return MQTT_CONNACK_UNACCEPTABLE_PROTOCOL_VERSION_ERROR; + } + + ptr = pTxBuf; + len = _aws_iot_get_connect_packet_length(pConnectParams); + if(aws_iot_mqtt_internal_get_final_packet_length_from_remaining_length(len) > txBufLen) { + FUNC_EXIT_RC(MQTT_TX_BUFFER_TOO_SHORT_ERROR); + } + + rc = aws_iot_mqtt_internal_init_header(&header, CONNECT, QOS0, 0, 0); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + aws_iot_mqtt_internal_write_char(&ptr, header.byte); /* write header */ + + ptr += aws_iot_mqtt_internal_write_len_to_buffer(ptr, len); /* write remaining length */ + + // Enable if adding support for more versions + //if(MQTT_3_1_1 == pConnectParams->MQTTVersion) { + aws_iot_mqtt_internal_write_utf8_string(&ptr, "MQTT", 4); + aws_iot_mqtt_internal_write_char(&ptr, (unsigned char) pConnectParams->MQTTVersion); + //} + + flags.all = 0; + flags.bits.cleansession = (pConnectParams->isCleanSession) ? 1 : 0; + flags.bits.will = (pConnectParams->isWillMsgPresent) ? 1 : 0; + if(flags.bits.will) { + flags.bits.willQoS = pConnectParams->will.qos; + flags.bits.willRetain = (pConnectParams->will.isRetained) ? 1 : 0; + } + + if(pConnectParams->pUsername) { + flags.bits.username = 1; + } + + if(pConnectParams->pPassword) { + flags.bits.password = 1; + } + + aws_iot_mqtt_internal_write_char(&ptr, flags.all); + aws_iot_mqtt_internal_write_uint_16(&ptr, pConnectParams->keepAliveIntervalInSec); + + /* If the code have passed the check for incorrect values above, no client id was passed as argument */ + if(NULL == pConnectParams->pClientID) { + aws_iot_mqtt_internal_write_uint_16(&ptr, 0); + } else { + aws_iot_mqtt_internal_write_utf8_string(&ptr, pConnectParams->pClientID, pConnectParams->clientIDLen); + } + + if(pConnectParams->isWillMsgPresent) { + aws_iot_mqtt_internal_write_utf8_string(&ptr, pConnectParams->will.pTopicName, + pConnectParams->will.topicNameLen); + aws_iot_mqtt_internal_write_utf8_string(&ptr, pConnectParams->will.pMessage, pConnectParams->will.msgLen); + } + + if(flags.bits.username) { + aws_iot_mqtt_internal_write_utf8_string(&ptr, pConnectParams->pUsername, pConnectParams->usernameLen); + } + + if(flags.bits.password) { + aws_iot_mqtt_internal_write_utf8_string(&ptr, pConnectParams->pPassword, pConnectParams->passwordLen); + } + + *pSerializedLen = (size_t) (ptr - pTxBuf); + + FUNC_EXIT_RC(SUCCESS); +} + +/** + * Deserializes the supplied (wire) buffer into connack data - return code + * @param sessionPresent the session present flag returned (only for MQTT 3.1.1) + * @param connack_rc returned integer value of the connack return code + * @param buf the raw buffer data, of the correct length determined by the remaining length field + * @param buflen the length in bytes of the data in the supplied buffer + * @return IoT_Error_t indicating function execution status + */ +static IoT_Error_t _aws_iot_mqtt_deserialize_connack(unsigned char *pSessionPresent, IoT_Error_t *pConnackRc, + unsigned char *pRxBuf, size_t rxBufLen) { + unsigned char *curdata, *enddata; + unsigned char connack_rc_char; + uint32_t decodedLen, readBytesLen; + IoT_Error_t rc; + MQTT_Connack_Header_Flags flags = {0}; + MQTTHeader header = {0}; + + FUNC_ENTRY; + + if(NULL == pSessionPresent || NULL == pConnackRc || NULL == pRxBuf) { + FUNC_EXIT_RC(NULL_VALUE_ERROR); + } + + /* CONNACK header size is fixed at two bytes for fixed and 2 bytes for variable, + * using that as minimum size + * MQTT v3.1.1 Specification 3.2.1 */ + if(4 > rxBufLen) { + FUNC_EXIT_RC(MQTT_RX_BUFFER_TOO_SHORT_ERROR); + } + + curdata = pRxBuf; + enddata = NULL; + decodedLen = 0; + readBytesLen = 0; + + header.byte = aws_iot_mqtt_internal_read_char(&curdata); + if(CONNACK != header.bits.type) { + FUNC_EXIT_RC(FAILURE); + } + + /* read remaining length */ + rc = aws_iot_mqtt_internal_decode_remaining_length_from_buffer(curdata, &decodedLen, &readBytesLen); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + /* CONNACK remaining length should always be 2 as per MQTT 3.1.1 spec */ + curdata += (readBytesLen); + enddata = curdata + decodedLen; + if(2 != (enddata - curdata)) { + FUNC_EXIT_RC(MQTT_DECODE_REMAINING_LENGTH_ERROR); + } + + flags.all = aws_iot_mqtt_internal_read_char(&curdata); + *pSessionPresent = flags.bits.sessionpresent; + connack_rc_char = aws_iot_mqtt_internal_read_char(&curdata); + switch(connack_rc_char) { + case CONNACK_CONNECTION_ACCEPTED: + *pConnackRc = MQTT_CONNACK_CONNECTION_ACCEPTED; + break; + case CONNACK_UNACCEPTABLE_PROTOCOL_VERSION_ERROR: + *pConnackRc = MQTT_CONNACK_UNACCEPTABLE_PROTOCOL_VERSION_ERROR; + break; + case CONNACK_IDENTIFIER_REJECTED_ERROR: + *pConnackRc = MQTT_CONNACK_IDENTIFIER_REJECTED_ERROR; + break; + case CONNACK_SERVER_UNAVAILABLE_ERROR: + *pConnackRc = MQTT_CONNACK_SERVER_UNAVAILABLE_ERROR; + break; + case CONNACK_BAD_USERDATA_ERROR: + *pConnackRc = MQTT_CONNACK_BAD_USERDATA_ERROR; + break; + case CONNACK_NOT_AUTHORIZED_ERROR: + *pConnackRc = MQTT_CONNACK_NOT_AUTHORIZED_ERROR; + break; + default: + *pConnackRc = MQTT_CONNACK_UNKNOWN_ERROR; + break; + } + + FUNC_EXIT_RC(SUCCESS); +} + +/** + * @brief Check if client state is valid for a connect request + * + * Called to check if client state is valid for a connect request + * @param pClient Reference to the IoT Client + * + * @return bool true = state is valid, false = not valid + */ +static bool _aws_iot_mqtt_is_client_state_valid_for_connect(ClientState clientState) { + bool isValid = false; + + switch(clientState) { + case CLIENT_STATE_INVALID: + isValid = false; + break; + case CLIENT_STATE_INITIALIZED: + isValid = true; + break; + case CLIENT_STATE_CONNECTING: + case CLIENT_STATE_CONNECTED_IDLE: + case CLIENT_STATE_CONNECTED_YIELD_IN_PROGRESS: + case CLIENT_STATE_CONNECTED_PUBLISH_IN_PROGRESS: + case CLIENT_STATE_CONNECTED_SUBSCRIBE_IN_PROGRESS: + case CLIENT_STATE_CONNECTED_UNSUBSCRIBE_IN_PROGRESS: + case CLIENT_STATE_CONNECTED_RESUBSCRIBE_IN_PROGRESS: + case CLIENT_STATE_CONNECTED_WAIT_FOR_CB_RETURN: + case CLIENT_STATE_DISCONNECTING: + isValid = false; + break; + case CLIENT_STATE_DISCONNECTED_ERROR: + case CLIENT_STATE_DISCONNECTED_MANUALLY: + case CLIENT_STATE_PENDING_RECONNECT: + isValid = true; + break; + default: + break; + } + + return isValid; +} + +/** + * @brief MQTT Connection Function + * + * Called to establish an MQTT connection with the AWS IoT Service + * This is the internal function which is called by the connect API to perform the operation. + * Not meant to be called directly as it doesn't do validations or client state changes + * + * @param pClient Reference to the IoT Client + * @param pConnectParams Pointer to MQTT connection parameters + * + * @return An IoT Error Type defining successful/failed connection + */ +static IoT_Error_t _aws_iot_mqtt_internal_connect(AWS_IoT_Client *pClient, IoT_Client_Connect_Params *pConnectParams) { + TimerAWS connect_timer; + IoT_Error_t connack_rc = FAILURE; + char sessionPresent = 0; + size_t len = 0; + IoT_Error_t rc = FAILURE; + + FUNC_ENTRY; + + if(NULL != pConnectParams) { + /* override default options if new options were supplied */ + rc = aws_iot_mqtt_set_connect_params(pClient, pConnectParams); + if(SUCCESS != rc) { + FUNC_EXIT_RC(MQTT_CONNECTION_ERROR); + } + } + + rc = pClient->networkStack.connect(&(pClient->networkStack), NULL); + if(SUCCESS != rc) { + /* TLS Connect failed, return error */ + FUNC_EXIT_RC(rc); + } + + init_timer(&connect_timer); + countdown_ms(&connect_timer, pClient->clientData.commandTimeoutMs); + + pClient->clientData.keepAliveInterval = pClient->clientData.options.keepAliveIntervalInSec; + rc = _aws_iot_mqtt_serialize_connect(pClient->clientData.writeBuf, pClient->clientData.writeBufSize, + &(pClient->clientData.options), &len); + if(SUCCESS != rc || 0 >= len) { + FUNC_EXIT_RC(rc); + } + + /* send the connect packet */ + rc = aws_iot_mqtt_internal_send_packet(pClient, len, &connect_timer); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + /* this will be a blocking call, wait for the CONNACK */ + rc = aws_iot_mqtt_internal_wait_for_read(pClient, CONNACK, &connect_timer); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + /* Received CONNACK, check the return code */ + rc = _aws_iot_mqtt_deserialize_connack((unsigned char *) &sessionPresent, &connack_rc, pClient->clientData.readBuf, + pClient->clientData.readBufSize); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + if(MQTT_CONNACK_CONNECTION_ACCEPTED != connack_rc) { + FUNC_EXIT_RC(connack_rc); + } + + pClient->clientStatus.isPingOutstanding = false; + countdown_sec(&pClient->pingTimer, pClient->clientData.keepAliveInterval); + + FUNC_EXIT_RC(SUCCESS); +} + +/** + * @brief MQTT Connection Function + * + * Called to establish an MQTT connection with the AWS IoT Service + * This is the outer function which does the validations and calls the internal connect above + * to perform the actual operation. It is also responsible for client state changes + * + * @param pClient Reference to the IoT Client + * @param pConnectParams Pointer to MQTT connection parameters + * + * @return An IoT Error Type defining successful/failed connection + */ +IoT_Error_t aws_iot_mqtt_connect(AWS_IoT_Client *pClient, IoT_Client_Connect_Params *pConnectParams) { + IoT_Error_t rc, disconRc; + ClientState clientState; + + FUNC_ENTRY; + + if(NULL == pClient) { + FUNC_EXIT_RC(NULL_VALUE_ERROR); + } + + clientState = aws_iot_mqtt_get_client_state(pClient); + + if(false == _aws_iot_mqtt_is_client_state_valid_for_connect(clientState)) { + /* Don't send connect packet again if we are already connected + * or in the process of connecting/disconnecting */ + FUNC_EXIT_RC(NETWORK_ALREADY_CONNECTED_ERROR); + } + + aws_iot_mqtt_set_client_state(pClient, clientState, CLIENT_STATE_CONNECTING); + + rc = _aws_iot_mqtt_internal_connect(pClient, pConnectParams); + + if(SUCCESS != rc) { + pClient->networkStack.disconnect(&(pClient->networkStack)); + disconRc = pClient->networkStack.destroy(&(pClient->networkStack)); + aws_iot_mqtt_set_client_state(pClient, CLIENT_STATE_CONNECTING, CLIENT_STATE_DISCONNECTED_ERROR); + } else { + aws_iot_mqtt_set_client_state(pClient, CLIENT_STATE_CONNECTING, CLIENT_STATE_CONNECTED_IDLE); + } + + FUNC_EXIT_RC(rc); +} + +/** + * @brief Disconnect an MQTT Connection + * + * Called to send a disconnect message to the broker. + * This is the internal function which is called by the disconnect API to perform the operation. + * Not meant to be called directly as it doesn't do validations or client state changes + * + * @param pClient Reference to the IoT Client + * + * @return An IoT Error Type defining successful/failed send of the disconnect control packet. + */ +IoT_Error_t _aws_iot_mqtt_internal_disconnect(AWS_IoT_Client *pClient) { + /* We might wait for incomplete incoming publishes to complete */ + TimerAWS timer; + size_t serialized_len = 0; + IoT_Error_t rc; + + FUNC_ENTRY; + + rc = aws_iot_mqtt_internal_serialize_zero(pClient->clientData.writeBuf, pClient->clientData.writeBufSize, + DISCONNECT, + &serialized_len); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + init_timer(&timer); + countdown_ms(&timer, pClient->clientData.commandTimeoutMs); + + /* send the disconnect packet */ + if(serialized_len > 0) { + rc = aws_iot_mqtt_internal_send_packet(pClient, serialized_len, &timer); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + } + + /* Clean network stack */ + pClient->networkStack.disconnect(&(pClient->networkStack)); + rc = pClient->networkStack.destroy(&(pClient->networkStack)); + if(0 != rc) { + /* TLS Destroy failed, return error */ + FUNC_EXIT_RC(FAILURE); + } + + FUNC_EXIT_RC(SUCCESS); +} + +/** + * @brief Disconnect an MQTT Connection + * + * Called to send a disconnect message to the broker. + * This is the outer function which does the validations and calls the internal disconnect above + * to perform the actual operation. It is also responsible for client state changes + * + * @param pClient Reference to the IoT Client + * + * @return An IoT Error Type defining successful/failed send of the disconnect control packet. + */ +IoT_Error_t aws_iot_mqtt_disconnect(AWS_IoT_Client *pClient) { + ClientState clientState; + IoT_Error_t rc; + + FUNC_ENTRY; + + if(NULL == pClient) { + FUNC_EXIT_RC(NULL_VALUE_ERROR); + } + + clientState = aws_iot_mqtt_get_client_state(pClient); + if(!aws_iot_mqtt_is_client_connected(pClient)) { + /* Network is already disconnected. Do nothing */ + FUNC_EXIT_RC(NETWORK_DISCONNECTED_ERROR); + } + + rc = aws_iot_mqtt_set_client_state(pClient, clientState, CLIENT_STATE_DISCONNECTING); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + rc = _aws_iot_mqtt_internal_disconnect(pClient); + + if(SUCCESS != rc) { + pClient->clientStatus.clientState = clientState; + } else { + /* If called from Keepalive, this gets set to CLIENT_STATE_DISCONNECTED_ERROR */ + pClient->clientStatus.clientState = CLIENT_STATE_DISCONNECTED_MANUALLY; + } + + FUNC_EXIT_RC(rc); +} + +/** + * @brief MQTT Manual Re-Connection Function + * + * Called to establish an MQTT connection with the AWS IoT Service + * using parameters from the last time a connection was attempted + * Use after disconnect to start the reconnect process manually + * Makes only one reconnect attempt. Sets the client state to + * pending reconnect in case of failure + * + * @param pClient Reference to the IoT Client + * + * @return An IoT Error Type defining successful/failed connection + */ +IoT_Error_t aws_iot_mqtt_attempt_reconnect(AWS_IoT_Client *pClient) { + IoT_Error_t rc; + + FUNC_ENTRY; + + if(NULL == pClient) { + FUNC_EXIT_RC(NULL_VALUE_ERROR); + } + + if(aws_iot_mqtt_is_client_connected(pClient)) { + FUNC_EXIT_RC(NETWORK_ALREADY_CONNECTED_ERROR); + } + + /* Ignoring return code. failures expected if network is disconnected */ + rc = aws_iot_mqtt_connect(pClient, NULL); + + /* If still disconnected handle disconnect */ + if(CLIENT_STATE_CONNECTED_IDLE != aws_iot_mqtt_get_client_state(pClient)) { + aws_iot_mqtt_set_client_state(pClient, CLIENT_STATE_DISCONNECTED_ERROR, CLIENT_STATE_PENDING_RECONNECT); + FUNC_EXIT_RC(NETWORK_ATTEMPTING_RECONNECT); + } + + rc = aws_iot_mqtt_resubscribe(pClient); + if(SUCCESS != rc) { + FUNC_EXIT_RC(rc); + } + + FUNC_EXIT_RC(NETWORK_RECONNECTED); +} + +#ifdef __cplusplus +} +#endif