V.062 11/3
Dependencies: FT6206 SDFileSystem ILI9341_t3
Fork of ATT_AWS_IoT_demo_v06 by
main.cpp
- Committer:
- ampembeng
- Date:
- 2016-12-06
- Revision:
- 18:6370da1de572
- Parent:
- 16:02008a2a2569
- Child:
- 20:ee34856ae510
File content as of revision 18:6370da1de572:
/* * AT&T IoT Starter Kit example using Amazon Web Service */ #include "mbed.h" // SD File System #include "SDFileSystem.h" // Serial extension #include "MODSERIAL.h" // Network includes #include "WNCInterface.h" #include "network_interface.h" // AWS includes #include "aws_iot_log.h" #include "aws_iot_version.h" #include "aws_iot_shadow_interface.h" #include "aws_iot_shadow_json_data.h" #include "aws_iot_config.h" #include "aws_iot_mqtt_interface.h" #if DEBUG_LEVEL > 0 #include "mbedtls/debug.h" #endif //===================================================================================================================== // // Defines // //===================================================================================================================== // LED Colors #define COLOR_OFF 0x00 #define COLOR_RED 0x01 #define COLOR_GREEN 0x02 #define COLOR_BLUE 0x04 #define COLOR_WHITE 0x07 #define NUM_COLORS 5 // AWS defines #define PATH_MAX 1024 #define MAX_LENGTH_OF_UPDATE_JSON_BUFFER 200 // NOTE: Be wary of this if your JSON doc grows #define SHADOW_SYNC_INTERVAL 3.0 // How often we sync with AWS Shadow (in seconds) // Comment out the following line if color is not supported on the terminal //#define USE_COLOR #ifdef USE_COLOR #define BLK "\033[30m" #define RED "\033[31m" #define GRN "\033[32m" #define YEL "\033[33m" #define BLU "\033[34m" #define MAG "\033[35m" #define CYN "\033[36m" #define WHT "\033[37m" #define DEF "\033[39m" #else #define BLK #define RED #define GRN #define YEL #define BLU #define MAG #define CYN #define WHT #define DEF #endif //===================================================================================================================== // // Globals // //===================================================================================================================== // Controls LED color unsigned char ledColor = COLOR_OFF; // Color cycle array (used with SW3 button presses) unsigned char colorCycle[NUM_COLORS] = {COLOR_OFF, COLOR_RED, COLOR_GREEN, COLOR_BLUE, COLOR_WHITE}; // Button interrupts bool buttonOverride = false; InterruptIn Interrupt(SW3); // These defines are pulled from aws_iot_config.h char HostAddress[255] = AWS_IOT_MQTT_HOST; char MqttClientID[32] = AWS_IOT_MQTT_CLIENT_ID; char ThingName[32] = AWS_IOT_MY_THING_NAME; char PortString[5] = "8883"; uint32_t port = AWS_IOT_MQTT_PORT; //===================================================================================================================== // // Devices // //===================================================================================================================== // GPIOs for RGB LED DigitalOut led_green(LED_GREEN); DigitalOut led_red(LED_RED); DigitalOut led_blue(LED_BLUE); // USB Serial port (to PC) MODSERIAL pc(USBTX,USBRX,256,256); // SD card access (MOSI, MISO, SCK, CS) SDFileSystem sd(PTE3, PTE1, PTE2, PTE4, "sd"); //===================================================================================================================== // // Functions // //===================================================================================================================== //********************************************************************************************************************* //* Prints the given format to the PC serial port. Exposed to all files via aws_iot_log.h //********************************************************************************************************************* void pc_print(const char * format, ...) { va_list vl; va_start(vl, format); pc.vprintf(format, vl); va_end(vl); } //********************************************************************************************************************* //* Set the RGB LED's Color //* LED Color 0=Off to 7=White. 3 bits represent BGR (bit0=Red, bit1=Green, bit2=Blue) //********************************************************************************************************************* void SetLedColor(unsigned char ucColor) { //Note that when an LED is on, you write a 0 to it: led_red = !(ucColor & 0x1); //bit 0 led_green = !(ucColor & 0x2); //bit 1 led_blue = !(ucColor & 0x4); //bit 2 } //********************************************************************************************************************* //* SW3 Button handler. Finds the current LED color and sets the button to the next color in colorCycle[] //********************************************************************************************************************* void sw3ButtonHandler() { int i; for(i=0; i < NUM_COLORS; i++) { if (ledColor == colorCycle[i]) break; } // (circular-queue) if (++i == NUM_COLORS) i = 0; ledColor = colorCycle[i]; SetLedColor(ledColor); buttonOverride = true; } //===================================================================================================================== // // AWS Shadow Callbacks // //===================================================================================================================== //********************************************************************************************************************* //* This is the callback function that fires when an update is sent. It will print the update response status. //********************************************************************************************************************* void ShadowUpdateStatusCallback(const char *pThingName, ShadowActions_t action, Shadow_Ack_Status_t status, const char *pReceivedJsonDocument, void *pContextData) { INFO("Shadow Update Status Callback"); if (status == SHADOW_ACK_TIMEOUT) { INFO("Update Timeout--"); } else if (status == SHADOW_ACK_REJECTED) { INFO("Update RejectedXX"); } else if (status == SHADOW_ACK_ACCEPTED) { INFO("Update Accepted!!"); // Good } } //********************************************************************************************************************* //* This is the callback function that fires when AWS has sends out a shadow update. //********************************************************************************************************************* void ledControl_Callback(const char *pJsonString, uint32_t JsonStringDataLen, jsonStruct_t *pContext) { INFO("LED Callback Detected."); if (pContext != NULL) { switch (*(unsigned char *)(pContext->pData)){ case COLOR_OFF: INFO("LED -> OFF (%d)", *(unsigned char *)(pContext->pData)); break; case COLOR_RED: INFO("LED -> RED (%d)", *(unsigned char *)(pContext->pData)); break; case COLOR_GREEN: INFO("LED -> GREEN (%d)", *(unsigned char *)(pContext->pData)); break; case COLOR_BLUE: INFO("LED -> BLUE (%d)", *(unsigned char *)(pContext->pData)); break; case COLOR_WHITE: INFO("LED -> WHITE (%d)", *(unsigned char *)(pContext->pData)); break; } } else { INFO("pContext was detected as NULL"); } } //===================================================================================================================== // // Main // //===================================================================================================================== int main() { // Set baud rate for PC Serial pc.baud(115200); INFO("Hello World from AT&T IoT Start Kit demo!"); IoT_Error_t rc = NONE_ERROR; char JsonDocumentBuffer[MAX_LENGTH_OF_UPDATE_JSON_BUFFER]; size_t sizeOfJsonDocumentBuffer = sizeof(JsonDocumentBuffer) / sizeof(JsonDocumentBuffer[0]); // JSON struct for LED control jsonStruct_t ledController; ledController.cb = ledControl_Callback; ledController.pData = &ledColor; ledController.pKey = "ledColor"; ledController.type = SHADOW_JSON_UINT8; // TODO Add FRDM temperature reading /* float temperature = 0.0; jsonStruct_t temperatureHandler; temperatureHandler.cb = NULL; temperatureHandler.pKey = "temperature"; temperatureHandler.pData = &temperature; temperatureHandler.type = SHADOW_JSON_FLOAT; */ INFO("AWS IoT SDK Version(dev) %d.%d.%d-%s", VERSION_MAJOR, VERSION_MINOR, VERSION_PATCH, VERSION_TAG); #ifdef USING_SD_CARD // Paths for certs from SD card INFO("Using SD card files for AWS config."); DEBUG("- mqtt config path: %s", AWS_MQTT_CONFIG_FILENAME); DEBUG("- rootCA path: %s", AWS_IOT_ROOT_CA_FILENAME); DEBUG("- clientCRT path: %s", AWS_IOT_CERTIFICATE_FILENAME); DEBUG("- clientKey path: %s", AWS_IOT_PRIVATE_KEY_FILENAME); #else INFO("Using #defines in aws_iot_config.h and certs from certs.cpp for AWS config."); #endif // Startup signal - blinks through RGBW then turns off SetLedColor(COLOR_RED); wait(.5); SetLedColor(COLOR_GREEN); wait(.5); SetLedColor(COLOR_BLUE); wait(.5); SetLedColor(COLOR_WHITE); wait(.5); SetLedColor(COLOR_OFF); // Setup SW3 button to falling edge interrupt Interrupt.fall(&sw3ButtonHandler); // Boot the Avnet Shield before any other operations net_modem_boot(); // Intialize MQTT/Cert parameters ShadowParameters_t sp = ShadowParametersDefault; #ifdef USING_SD_CARD rc = (IoT_Error_t)mbedtls_mqtt_config_parse_file(&sp, AWS_MQTT_CONFIG_FILENAME); if (NONE_ERROR != rc) { ERROR("Failed to initialize mqtt parameters %d", rc); return rc; } sp.pClientCRT = AWS_IOT_CERTIFICATE_FILENAME; sp.pClientKey = AWS_IOT_PRIVATE_KEY_FILENAME; sp.pRootCA = AWS_IOT_ROOT_CA_FILENAME; #else sp.pMyThingName = AWS_IOT_MY_THING_NAME; sp.pMqttClientId = AWS_IOT_MQTT_CLIENT_ID; sp.pHost = HostAddress; sp.port = port; #endif INFO("Initialize the MQTT client..."); MQTTClient_t mqttClient; aws_iot_mqtt_init(&mqttClient); INFO("Shadow Init..."); rc = aws_iot_shadow_init(&mqttClient); if (NONE_ERROR != rc) { ERROR("Shadow Init Error %d", rc); return rc; } INFO("Shadow Connect..."); rc = aws_iot_shadow_connect(&mqttClient, &sp); if (NONE_ERROR != rc) { ERROR("Shadow Connection Error %d", rc); return rc; } // Enable Auto Reconnect functionality. Minimum and Maximum time of Exponential backoff are set in aws_iot_config.h // #AWS_IOT_MQTT_MIN_RECONNECT_WAIT_INTERVAL // #AWS_IOT_MQTT_MAX_RECONNECT_WAIT_INTERVAL rc = mqttClient.setAutoReconnectStatus(true); if (NONE_ERROR != rc) { ERROR("Unable to set Auto Reconnect to true - %d", rc); return rc; } // Example line of how to delete a shadow (not used in this demo) //aws_iot_shadow_delete(&mqttClient, AWS_IOT_MY_THING_NAME, ShadowUpdateStatusCallback, NULL, 8, true); INFO("Shadow Register Delta..."); rc = aws_iot_shadow_register_delta(&mqttClient, &ledController); if (NONE_ERROR != rc) { ERROR("Shadow Register Delta Error"); return rc; } INFO("Will attempt to sync with device shadow every %f seconds.", SHADOW_SYNC_INTERVAL); // Loop and publish changes from the FRDM board while (NETWORK_ATTEMPTING_RECONNECT == rc || RECONNECT_SUCCESSFUL == rc || NONE_ERROR == rc) { // Looks for incoming socket messages rc = aws_iot_shadow_yield(&mqttClient, 200); if (NETWORK_ATTEMPTING_RECONNECT == rc) { // If the client is attempting to reconnect we will skip the rest of the loop. INFO("Attempting to reconnect..."); wait(1); continue; } INFO("\n=======================================================================================\n"); // Initialize JSON shadow document rc = aws_iot_shadow_init_json_document(JsonDocumentBuffer, sizeOfJsonDocumentBuffer); if (rc == NONE_ERROR) { // If there has been a SW3 button press update the 'desired' color if (buttonOverride) { rc = aws_iot_shadow_add_desired(JsonDocumentBuffer, sizeOfJsonDocumentBuffer, 1, &ledController); buttonOverride = false; } // Updates the 'reported' color rc = aws_iot_shadow_add_reported(JsonDocumentBuffer, sizeOfJsonDocumentBuffer, 1, &ledController); // TODO: format for adding temperature //rc = aws_iot_shadow_add_reported(JsonDocumentBuffer, sizeOfJsonDocumentBuffer, 2, &ledController, &temperatureHandler); if (rc == NONE_ERROR) { rc = aws_iot_finalize_json_document(JsonDocumentBuffer, sizeOfJsonDocumentBuffer); if (rc == NONE_ERROR) { INFO("Update Shadow: %s", JsonDocumentBuffer); rc = aws_iot_shadow_update(&mqttClient, sp.pMyThingName, JsonDocumentBuffer, ShadowUpdateStatusCallback, NULL, 8, true); } } } // Set LED color then wait an loop again switch (ledColor) { case COLOR_OFF: INFO("LED: OFF"); break; case COLOR_RED: INFO("LED: RED"); break; case COLOR_GREEN: INFO("LED: GREEN"); break; case COLOR_BLUE: INFO("LED: BLUE"); break; case COLOR_WHITE: INFO("LED: WHITE"); break; } INFO("*****************************************************************************************"); SetLedColor(ledColor); wait(SHADOW_SYNC_INTERVAL); } if (NONE_ERROR != rc) { ERROR("An error occurred in the loop %d", rc); } INFO("Disconnecting"); rc = aws_iot_shadow_disconnect(&mqttClient); if (NONE_ERROR != rc) { ERROR("Disconnect error %d", rc); } return rc; }