Code sample to be used with Bluemix for education purpose
Dependencies: C12832 EthernetInterface LM75B MMA7660 MQTT mbed-rtos mbed
Fork of IBMIoTClientEthernetExample by
main.cpp
- Committer:
- jsutton
- Date:
- 2015-07-24
- Revision:
- 14:1f961d19f3cf
- Parent:
- 13:85801e3b83d3
- Child:
- 15:09458079f4bb
File content as of revision 14:1f961d19f3cf:
/******************************************************************************* * 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: * Sam Danbury - initial implementation * Ian Craggs - refactoring to remove STL and other changes * Sam Grove - added check for Ethernet cable. * Chris Styles - Added additional menu screen for software revision * * To do : * Add magnetometer sensor output to IoT data stream * *******************************************************************************/ #include "LM75B.h" #include "MMA7660.h" #include "MQTTClient.h" #include "MQTTEthernet.h" #include "C12832.h" #include "Arial12x12.h" #include "rtos.h" // Update this to the next number *before* a commit #define __APP_SW_REVISION__ "11" // Configuration values needed to connect to IBM IoT Cloud #define ORG "quickstart" // For a registered connection, replace with your org #define ID "" // For a registered connection, replace with your id #define AUTH_TOKEN "" // For a registered connection, replace with your auth-token #define TYPE DEFAULT_TYPE_NAME // For a registered connection, replace with your type #define MQTT_PORT 1883 #define MQTT_TLS_PORT 8883 #define IBM_IOT_PORT MQTT_PORT #define MQTT_MAX_PACKET_SIZE 250 #if defined(TARGET_UBLOX_C027) #warning "Compiling for mbed C027" #include "C027.h" #elif defined(TARGET_LPC1768) #warning "Compiling for mbed LPC1768" #include "LPC1768.h" #elif defined(TARGET_K64F) #warning "Compiling for mbed K64F" #include "K64F.h" #endif bool quickstartMode = true; char org[11] = ORG; char type[30] = TYPE; char id[30] = ID; // mac without colons char auth_token[30] = AUTH_TOKEN; // Auth_token is only used in non-quickstart mode bool connected = false; bool mqttConnecting = false; bool netConnected = false; bool netConnecting = false; bool ethernetInitialising = true; int retryAttempt = 0; int menuItem = 0; char* joystickPos = "CENTRE"; int blink_interval = 0; char* ip_addr = ""; char* gateway_addr = ""; char* host_addr = ""; int connectTimeout = 1000; // If we wanted to manually set the MAC address, // this is how to do it. In this example, we take // the original Mbed Set MAC address and combine it // with a prefix of our choosing. /* extern "C" void $Super$$mbed_mac_address(char *s); extern "C" void $Sub$$mbed_mac_address(char *s) { char otherMac[6] = ""; $Super$$mbed_mac_address(otherMac); char mac[6]; mac[0] = 0x00; mac[1] = 0x08; mac[2] = 0xdc; mac[3] = otherMac[3]; mac[4] = otherMac[4]; mac[5] = otherMac[5]; memcpy(s, mac, 6); } */ void off() { r = g = b = 1.0; // 1 is off, 0 is full brightness } void red() { r = 0.7; g = 1.0; b = 1.0; // 1 is off, 0 is full brightness } void yellow() { r = 0.7; g = 0.7; b = 1.0; // 1 is off, 0 is full brightness } void green() { r = 1.0; g = 0.7; b = 1.0; // 1 is off, 0 is full brightness } void flashing_yellow(void const *args) { bool on = false; while (!connected) // flashing yellow only while connecting { on = !on; if (on) yellow(); else off(); wait(0.5); } } void flashing_red(void const *args) // to be used when the connection is lost { bool on = false; while (!connected) { on = !on; if (on) red(); else off(); wait(2.0); } } void printMenu(int menuItem) { lcd.cls(); lcd.locate(0,0); switch (menuItem) { case 0: lcd.printf("IBM IoT Cloud"); lcd.locate(0,16); lcd.printf("Scroll with joystick"); break; case 1: lcd.printf("Go to:"); lcd.locate(0,16); lcd.printf("http://ibm.biz/iotqstart"); break; case 2: lcd.printf("Device Identity:"); lcd.locate(0,16); lcd.printf("%s", id); break; case 3: lcd.printf("MQTT Status:"); lcd.locate(0,16); if(mqttConnecting){ lcd.printf("Connecting... %d/5", retryAttempt); } else { lcd.printf(connected ? "Connected" : "Disconnected"); } break; case 4: lcd.printf("Ethernet State:"); lcd.locate(0,16); lcd.printf(ethernetInitialising ? "Initialising..." : "Initialised"); break; case 5: lcd.printf("Socket State:"); lcd.locate(0,16); if(netConnecting){ lcd.printf("Connecting... %d/5", retryAttempt); } else { lcd.printf(netConnected ? "Connected" : "Disconnected"); } break; case 6: lcd.printf("IP Address:"); lcd.locate(0,16); lcd.printf("%s", ip_addr); break; case 7: lcd.printf("Gateway:"); lcd.locate(0,16); lcd.printf("%s",gateway_addr); break; case 8: lcd.printf("App version:"); lcd.locate(0,16); lcd.printf("%s",__APP_SW_REVISION__); break; case 9: lcd.printf("Current Timeout:"); lcd.locate(0,16); lcd.printf("%d ms",connectTimeout); break; } } void setMenu() { if (Down) { joystickPos = "DOWN"; if (menuItem >= 0 && menuItem < 9) printMenu(++menuItem); } else if (Left) joystickPos = "LEFT"; else if (Click) joystickPos = "CLICK"; else if (Up) { joystickPos = "UP"; if (menuItem <= 9 && menuItem > 0) printMenu(--menuItem); } else if (Right) joystickPos = "RIGHT"; else joystickPos = "CENTRE"; } void menu_loop(void const *args) { int count = 0; while(true){ setMenu(); if(++count % 10 == 0) { printMenu(menuItem); } Thread::wait(100); } } /** * Display a message on the LCD screen prefixed with IBM IoT Cloud */ void displayMessage(char* message) { lcd.cls(); lcd.locate(0,0); lcd.printf("IBM IoT Cloud"); lcd.locate(0,16); lcd.printf(message); } int connect(MQTT::Client<MQTTEthernet, Countdown, MQTT_MAX_PACKET_SIZE>* client, MQTTEthernet* ipstack) { const char* iot_ibm = ".messaging.internetofthings.ibmcloud.com"; char hostname[strlen(org) + strlen(iot_ibm) + 1]; sprintf(hostname, "%s%s", org, iot_ibm); EthernetInterface& eth = ipstack->getEth(); ip_addr = eth.getIPAddress(); gateway_addr = eth.getGateway(); // Construct clientId - d:org:type:id char clientId[strlen(org) + strlen(type) + strlen(id) + 5]; sprintf(clientId, "d:%s:%s:%s", org, type, id); /* Network debug statements */ LOG("=====================================\n"); LOG("Connecting Ethernet.\n"); LOG("IP ADDRESS: %s\n", eth.getIPAddress()); LOG("MAC ADDRESS: %s\n", eth.getMACAddress()); LOG("Gateway: %s\n", eth.getGateway()); LOG("Network Mask: %s\n", eth.getNetworkMask()); LOG("Server Hostname: %s\n", hostname); LOG("Client ID: %s\n", clientId); LOG("=====================================\n"); netConnecting = true; int rc = ipstack->connect(hostname, IBM_IOT_PORT, connectTimeout); if (rc != 0){ WARN("IP Stack returned: %d\n", rc); return rc; } netConnected = true; netConnecting = false; // MQTT Connect mqttConnecting = true; MQTTPacket_connectData data = MQTTPacket_connectData_initializer; data.MQTTVersion = 3; data.clientID.cstring = clientId; if (!quickstartMode) { data.username.cstring = "use-token-auth"; data.password.cstring = auth_token; } if ((rc = client->connect(data)) == 0) { connected = true; green(); displayMessage("Connected"); wait(1); displayMessage("Scroll with joystick"); } mqttConnecting = false; return rc; } int getConnTimeout(int attemptNumber) { // First 10 attempts try within 3 seconds, next 10 attempts retry after every 1 minute // after 20 attempts, retry every 10 minutes return (attemptNumber < 10) ? 3 : (attemptNumber < 20) ? 60 : 600; } void attemptConnect(MQTT::Client<MQTTEthernet, Countdown, MQTT_MAX_PACKET_SIZE>* client, MQTTEthernet* ipstack) { connected = false; // make sure a cable is connected before starting to connect while (!linkStatus()) { wait(1.0f); WARN("Ethernet link not present. Check cable connection\n"); } while (connect(client, ipstack) != 0) { Thread red_thread(flashing_red); int timeout = getConnTimeout(++retryAttempt); WARN("Retry attempt number %d waiting %d\n", retryAttempt, timeout); // if ipstack and client were on the heap we could deconstruct and goto a label where they are constructed // or maybe just add the proper members to do this disconnect and call attemptConnect(...) // this works - reset the system when the retry count gets to a threshold if (retryAttempt == 5) NVIC_SystemReset(); else wait(timeout); } } int publish(MQTT::Client<MQTTEthernet, Countdown, MQTT_MAX_PACKET_SIZE>* client, MQTTEthernet* ipstack) { MQTT::Message message; char* pubTopic = "iot-2/evt/status/fmt/json"; char buf[250]; sprintf(buf, "{\"d\":{\"myName\":\"IoT mbed\",\"accelX\":%0.4f,\"accelY\":%0.4f,\"accelZ\":%0.4f,\"temp\":%0.4f,\"joystick\":\"%s\",\"potentiometer1\":%0.4f,\"potentiometer2\":%0.4f}}", MMA.x(), MMA.y(), MMA.z(), sensor.temp(), joystickPos, ain1.read(), ain2.read()); message.qos = MQTT::QOS0; message.retained = false; message.dup = false; message.payload = (void*)buf; message.payloadlen = strlen(buf); LOG("Publishing %s\n", buf); return client->publish(pubTopic, message); } char* getMac(EthernetInterface& eth, char* buf, int buflen) // Obtain MAC address { strncpy(buf, eth.getMACAddress(), buflen); char* pos; // Remove colons from mac address while ((pos = strchr(buf, ':')) != NULL) memmove(pos, pos + 1, strlen(pos) + 1); return buf; } void messageArrived(MQTT::MessageData& md) { MQTT::Message &message = md.message; char topic[md.topicName.lenstring.len + 1]; sprintf(topic, "%.*s", md.topicName.lenstring.len, md.topicName.lenstring.data); LOG("Message arrived on topic %s: %.*s\n", topic, message.payloadlen, message.payload); // Command topic: iot-2/cmd/blink/fmt/json - cmd is the string between cmd/ and /fmt/ char* start = strstr(topic, "/cmd/") + 5; int len = strstr(topic, "/fmt/") - start; if (memcmp(start, "blink", len) == 0) { char payload[message.payloadlen + 1]; sprintf(payload, "%.*s", message.payloadlen, (char*)message.payload); char* pos = strchr(payload, '}'); if (pos != NULL) { *pos = '\0'; if ((pos = strchr(payload, ':')) != NULL) { int blink_rate = atoi(pos + 1); blink_interval = (blink_rate <= 0) ? 0 : (blink_rate > 50 ? 1 : 50/blink_rate); } } } else WARN("Unsupported command: %.*s\n", len, start); } int main() { quickstartMode = (strcmp(org, "quickstart") == 0); lcd.set_font((unsigned char*) Arial12x12); // Set a nice font for the LCD screen led2 = LED2_OFF; // K64F: turn off the main board LED displayMessage("Connecting"); Thread yellow_thread(flashing_yellow); Thread menu_thread(menu_loop); LOG("***** IBM IoT Client Ethernet Example *****\n"); MQTTEthernet ipstack; ethernetInitialising = false; MQTT::Client<MQTTEthernet, Countdown, MQTT_MAX_PACKET_SIZE> client(ipstack); LOG("Ethernet Initialised.\n"); if (quickstartMode) { getMac(ipstack.getEth(), id, sizeof(id)); } attemptConnect(&client, &ipstack); if (!quickstartMode) { int rc = 0; if ((rc = client.subscribe("iot-2/cmd/+/fmt/json", MQTT::QOS1, messageArrived)) != 0) WARN("rc from MQTT subscribe is %d\n", rc); } blink_interval = 0; int count = 0; while (true) { if (++count == 100) { // Publish a message every second if (publish(&client, &ipstack) != 0) attemptConnect(&client, &ipstack); // if we have lost the connection count = 0; } if (blink_interval == 0) led2 = LED2_OFF; else if (count % blink_interval == 0) led2 = !led2; client.yield(10); // allow the MQTT client to receive messages } }