Jeon byungchul
/
aws-iot-example
this is fork and i will modify for STM32
Fork of AWS-test by
main.cpp
- Committer:
- bcjun@aname.co.kr
- Date:
- 2017-08-04
- Revision:
- 3:1ef624d94403
- Parent:
- 2:db59f45ad3d3
File content as of revision 3:1ef624d94403:
/* * Copyright (c) 2017, CATIE, All Rights Reserved * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License 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. */ #include "mbed.h" //#include "EthernetInterface.h" #include "aws_iot_config.h" #include "aws_iot_mqtt_client_interface.h" namespace { #define READ_DURATION 500 #define DEMO_PAYLOAD "Hello, world!" #define PUBLISH_TOPIC "sdkTest/sub" #define PUBLISH_TOPIC_LEN 11 } void subscribe_callback(AWS_IoT_Client *client, char *topic_name, uint16_t topic_name_length, IoT_Publish_Message_Params *params, void *data) { printf("Subscribe callback"); printf("%.*s\t%.*s", topic_name_length, topic_name, (int)params->payloadLen, (char *)params->payload); } void disconnect_handler(AWS_IoT_Client *client, void *data) { printf("MQTT Disconnect"); IoT_Error_t rc = IOT_FAILURE; if (!client) { return; } if (aws_iot_is_autoreconnect_enabled(client)) { printf("Auto Reconnect is enabled, Reconnecting attempt will start now"); } else { printf("Auto Reconnect not enabled. Starting manual reconnect..."); rc = aws_iot_mqtt_attempt_reconnect(client); if (NETWORK_RECONNECTED == rc) { printf("Manual Reconnect Successful"); } else { printf("Manual Reconnect Failed - %d", rc); } } } //EthernetInterface net; int main() { //net.connect(); AWS_IoT_Client client; /* * MQTT Init */ IoT_Client_Init_Params mqtt_init_params = iotClientInitParamsDefault; mqtt_init_params.enableAutoReconnect = false; // We enable this later below char mqtt_host[] = AWS_IOT_MQTT_HOST; mqtt_init_params.pHostURL = mqtt_host; mqtt_init_params.port = AWS_IOT_MQTT_PORT; mqtt_init_params.disconnectHandler = disconnect_handler; mqtt_init_params.disconnectHandlerData = NULL; IoT_Error_t mqtt_init_status = aws_iot_mqtt_init(&client, &mqtt_init_params); if (mqtt_init_status != IOT_SUCCESS) { printf("aws_iot_mqtt_init returned error : %d ", mqtt_init_status); while (true) { Thread::wait(1000); } } /* * MQTT Connect */ IoT_Client_Connect_Params connect_params = iotClientConnectParamsDefault; connect_params.keepAliveIntervalInSec = 10; connect_params.isCleanSession = true; connect_params.MQTTVersion = MQTT_3_1_1; char client_id[] = AWS_IOT_MQTT_CLIENT_ID; connect_params.pClientID = client_id; connect_params.clientIDLen = (uint16_t)strlen(AWS_IOT_MQTT_CLIENT_ID); connect_params.isWillMsgPresent = false; IoT_Error_t mqtt_connect_status = aws_iot_mqtt_connect(&client, &connect_params); if (mqtt_connect_status != IOT_SUCCESS) { printf("Error(%d) connecting to %s:%d", mqtt_connect_status, mqtt_init_params.pHostURL, mqtt_init_params.port); while (true) { Thread::wait(1000); } } /* * Set MQTT autoreconnect */ IoT_Error_t mqtt_autoreconnect_status = aws_iot_mqtt_autoreconnect_set_status(&client, true); if (mqtt_autoreconnect_status != IOT_SUCCESS) { printf("Unable to set Auto Reconnect to true - %d", mqtt_autoreconnect_status); while (true) { Thread::wait(1000); } } /* * MQTT Subscribe */ IoT_Error_t mqtt_subscribe_status = aws_iot_mqtt_subscribe( &client, "sdkTest/sub", 11, QOS0, subscribe_callback, NULL); if (mqtt_subscribe_status != IOT_SUCCESS) { printf("Error subscribing: %d ", mqtt_subscribe_status); while (true) { Thread::wait(1000); } } /* * MQTT Publish */ IoT_Publish_Message_Params mqtt_publish_params; mqtt_publish_params.qos = QOS0; char payload[] = DEMO_PAYLOAD; mqtt_publish_params.payload = payload; mqtt_publish_params.payloadLen = strlen(payload); mqtt_publish_params.isRetained = 0; // Main loop IoT_Error_t mqtt_status; while (true) { //Max time the yield function will wait for read messages mqtt_status = aws_iot_mqtt_yield(&client, READ_DURATION); if (mqtt_status == NETWORK_ATTEMPTING_RECONNECT) { // If the client is attempting to reconnect we will skip the rest of the loop. continue; } mqtt_status = aws_iot_mqtt_publish( &client, PUBLISH_TOPIC, PUBLISH_TOPIC_LEN, &mqtt_publish_params); if (mqtt_status != IOT_SUCCESS) { printf("Error publishing: %d", mqtt_status); } } }