Demo using MBED TLS
Dependencies: EthernetInterface NTPClient iothub_amqp_transport iothub_client mbed-rtos mbed
Fork of iothub_client_sample_amqp by
iothub_client_sample_amqp.cpp
- Committer:
- markrad
- Date:
- 2017-01-05
- Revision:
- 58:f50b97b08851
File content as of revision 58:f50b97b08851:
// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #include <mbed.h> #include <stdio.h> #include <stdlib.h> #include "azure_c_shared_utility/platform.h" #include "azure_c_shared_utility/threadapi.h" #include "azure_c_shared_utility/crt_abstractions.h" #include "iothub_client.h" #include "iothub_message.h" #include "iothubtransportamqp.h" #ifdef MBED_BUILD_TIMESTAMP #include "certs.h" #endif // MBED_BUILD_TIMESTAMP /*String containing Hostname, Device Id & Device Key in the format: */ /* "HostName=<host_name>;DeviceId=<device_id>;SharedAccessKey=<device_key>" */ /* "HostName=<host_name>;DeviceId=<device_id>;SharedAccessSignature=<device_sas_token>" */ static const char* connectionString = "HostName=MarkRadML.azure-devices.net;DeviceId=MBEDTest;SharedAccessKey=rgxlnR0rIBW4vnnnDkrbAv+mSOc/Mt60mg1CEjLx7pY="; static int callbackCounter; static bool g_continueRunning; static char msgText[1024]; static char propText[1024]; #define MESSAGE_COUNT 5 #define DOWORK_LOOP_NUM 3 typedef struct EVENT_INSTANCE_TAG { IOTHUB_MESSAGE_HANDLE messageHandle; size_t messageTrackingId; // For tracking the messages within the user callback. } EVENT_INSTANCE; static IOTHUBMESSAGE_DISPOSITION_RESULT ReceiveMessageCallback(IOTHUB_MESSAGE_HANDLE message, void* userContextCallback) { int* counter = (int*)userContextCallback; const unsigned char* buffer = NULL; size_t size = 0; const char* messageId; const char* correlationId; // AMQP message properties if ((messageId = IoTHubMessage_GetMessageId(message)) == NULL) { messageId = "<null>"; } if ((correlationId = IoTHubMessage_GetCorrelationId(message)) == NULL) { correlationId = "<null>"; } // AMQP message content. IOTHUBMESSAGE_CONTENT_TYPE contentType = IoTHubMessage_GetContentType(message); if (contentType == IOTHUBMESSAGE_BYTEARRAY) { if (IoTHubMessage_GetByteArray(message, &buffer, &size) == IOTHUB_MESSAGE_OK) { (void)printf("Received Message [%d] (message-id: %s, correlation-id: %s) with BINARY Data: <<<%.*s>>> & Size=%d\r\n", *counter, messageId, correlationId,(int)size, buffer, (int)size); } else { (void)printf("Failed getting the BINARY body of the message received.\r\n"); } } else if (contentType == IOTHUBMESSAGE_STRING) { if ((buffer = (const unsigned char*)IoTHubMessage_GetString(message)) != NULL && (size = strlen((const char*)buffer)) > 0) { (void)printf("Received Message [%d] (message-id: %s, correlation-id: %s) with STRING Data: <<<%.*s>>> & Size=%d\r\n", *counter, messageId, correlationId, (int)size, buffer, (int)size); // If we receive the work 'quit' then we stop running } else { (void)printf("Failed getting the STRING body of the message received.\r\n"); } } else { (void)printf("Failed getting the body of the message received (type %i).\r\n", contentType); } // Retrieve properties from the message MAP_HANDLE mapProperties = IoTHubMessage_Properties(message); if (mapProperties != NULL) { const char*const* keys; const char*const* values; size_t propertyCount = 0; if (Map_GetInternals(mapProperties, &keys, &values, &propertyCount) == MAP_OK) { if (propertyCount > 0) { size_t index; printf("Message Properties:\r\n"); for (index = 0; index < propertyCount; index++) { printf("\tKey: %s Value: %s\r\n", keys[index], values[index]); } printf("\r\n"); } } } if (size == (strlen("quit") * sizeof(char)) && memcmp(buffer, "quit", size) == 0) { g_continueRunning = false; } /* Some device specific action code goes here... */ (*counter)++; return IOTHUBMESSAGE_ACCEPTED; } static void SendConfirmationCallback(IOTHUB_CLIENT_CONFIRMATION_RESULT result, void* userContextCallback) { EVENT_INSTANCE* eventInstance = (EVENT_INSTANCE*)userContextCallback; (void)printf("Confirmation[%d] received for message tracking id = %zu with result = %s\r\n", callbackCounter, eventInstance->messageTrackingId, ENUM_TO_STRING(IOTHUB_CLIENT_CONFIRMATION_RESULT, result)); /* Some device specific action code goes here... */ callbackCounter++; IoTHubMessage_Destroy(eventInstance->messageHandle); } void iothub_client_sample_amqp_run(void) { IOTHUB_CLIENT_LL_HANDLE iotHubClientHandle; EVENT_INSTANCE messages[MESSAGE_COUNT]; g_continueRunning = true; srand((unsigned int)time(NULL)); double avgWindSpeed = 10.0; callbackCounter = 0; int receiveContext = 0; (void)printf("Starting the IoTHub client sample AMQP...\r\n"); if (platform_init() != 0) { printf("Failed to initialize the platform.\r\n"); } else { printf("Platform initialized\r\n"); if ((iotHubClientHandle = IoTHubClient_LL_CreateFromConnectionString(connectionString, AMQP_Protocol)) == NULL) { (void)printf("ERROR: iotHubClientHandle is NULL!\r\n"); } else { printf("Client handle created\r\n"); bool traceOn = true; IoTHubClient_LL_SetOption(iotHubClientHandle, "logtrace", &traceOn); #ifdef MBED_BUILD_TIMESTAMP // For mbed add the certificate information if (IoTHubClient_LL_SetOption(iotHubClientHandle, "TrustedCerts", certificates) != IOTHUB_CLIENT_OK) { printf("failure to set option \"TrustedCerts\"\r\n"); } #endif // MBED_BUILD_TIMESTAMP /* Setting Message call back, so we can receive Commands. */ if (IoTHubClient_LL_SetMessageCallback(iotHubClientHandle, ReceiveMessageCallback, &receiveContext) != IOTHUB_CLIENT_OK) { (void)printf("ERROR: IoTHubClient_SetMessageCallback..........FAILED!\r\n"); } else { (void)printf("IoTHubClient_SetMessageCallback...successful.\r\n"); /* Now that we are ready to receive commands, let's send some messages */ size_t iterator = 0; do { if (iterator < MESSAGE_COUNT) { sprintf_s(msgText, sizeof(msgText), "{\"deviceId\":\"myFirstDevice\",\"windSpeed\":%.2f}", avgWindSpeed + (rand() % 4 + 2)); if ((messages[iterator].messageHandle = IoTHubMessage_CreateFromByteArray((const unsigned char*)msgText, strlen(msgText))) == NULL) { (void)printf("ERROR: iotHubMessageHandle is NULL!\r\n"); } else { messages[iterator].messageTrackingId = iterator; MAP_HANDLE propMap = IoTHubMessage_Properties(messages[iterator].messageHandle); (void)sprintf_s(propText, sizeof(propText), "PropMsg_%zu", iterator); if (Map_AddOrUpdate(propMap, "PropName", propText) != MAP_OK) { (void)printf("ERROR: Map_AddOrUpdate Failed!\r\n"); } if (IoTHubClient_LL_SendEventAsync(iotHubClientHandle, messages[iterator].messageHandle, SendConfirmationCallback, &messages[iterator]) != IOTHUB_CLIENT_OK) { (void)printf("ERROR: IoTHubClient_SendEventAsync..........FAILED!\r\n"); } else { (void)printf("IoTHubClient_SendEventAsync accepted data for transmission to IoT Hub.\r\n"); } } } IoTHubClient_LL_DoWork(iotHubClientHandle); ThreadAPI_Sleep(1); iterator++; } while (g_continueRunning); (void)printf("iothub_client_sample_mqtt has gotten quit message, call DoWork %d more time to complete final sending...\r\n", DOWORK_LOOP_NUM); for (size_t index = 0; index < DOWORK_LOOP_NUM; index++) { IoTHubClient_LL_DoWork(iotHubClientHandle); ThreadAPI_Sleep(1); } } IoTHubClient_LL_Destroy(iotHubClientHandle); } platform_deinit(); } } int main(void) { Serial pc(USBTX, USBRX); // Primary output to demonstrate library pc.baud(115200); // Print quickly! 200Hz x line of output data! printf("Start...\r\n"); iothub_client_sample_amqp_run(); return 0; }