IOTON boards API using mbed SDK - http://ioton.cc/plataforma-ton
Dependents: ton-bot_teste ton-bot_seguidor_linha ton-bot_seguidor_parede
Fork of IOTON-API by
ESP8266.h
- Committer:
- krebyy
- Date:
- 2016-11-08
- Revision:
- 0:cbba28a205fa
- Child:
- 1:3a73d77c2cef
File content as of revision 0:cbba28a205fa:
#ifndef ESP8266_H #define ESP8266_H #include "mbed.h" /** * An interface to the ESP8266 */ class ESP8266 { public: /** * Create an interface to the ESP8266 * * @param tx UART TX line pin * @param rx UART RX line pin */ ESP8266(PinName tx, PinName rx) : _serial(tx, rx) { _serial.baud(115200); _connected = false; } bool connect(const char* ssid, const char* pass, uint8_t mode = 0) { sprintf(cmdbuff,"AT+CWJAP=\"%s\",\"%s\"\r\n", ssid, pass); sendCMD(); getReply(8000, 50); if (strstr(replybuff, "OK") == NULL) return false; sprintf(cmdbuff,"AT+CIPMUX=%d\r\n", mode); sendCMD(); getReply(500, 20); _connected = true; return true; } char* httpGet(const char* host, const char* url, int port = 80) { connectToServer(host, port); sprintf(webbuff, "GET %s HTTP/1.1\r\nHost: %s\r\nAccept: */*\r\nConnection: close\r\n\r\n", url, host); sendWebBuff(); return replybuff; } // Send data to the ThingSpeak bool sendThingSpeak(char* data, const char* apikey) { connectToServer("184.106.153.149", 80); sprintf(webbuff, "GET /update?key=%s&%s\r\n", apikey, data); sprintf(cmdbuff,"AT+CIPSEND=%d\r\n", strlen(webbuff)); // send buffer character length. sendCMD(); getReply(200, 50); SendWEB(); // send data memset(webbuff, '\0', sizeof(webbuff)); volatile int weberror = 1; t2.reset(); t2.start(); while(weberror == 1 && t2.read() < 5) { getReply(500, 24); if (strstr(replybuff, "OK") != NULL) { weberror=0; // wait for valid SEND OK } } t2.stop(); if(weberror == 1) { // error return false; } else { // success return true; } } bool isConnected(void) { return _connected; } private: Serial _serial; volatile bool _connected; Timer t1; Timer t2; char cmdbuff[64]; char webbuff[1024]; char replybuff[1024]; // Connect to host via TCP void connectToServer(const char* host, int port) { sprintf(cmdbuff,"AT+CIPSTART=\"TCP\",\"%s\",%d\r\n", host, port); sendCMD(); getReply(2000, 50); } bool sendWebBuff(void) { sprintf(cmdbuff,"AT+CIPSEND=%d\r\n", strlen(webbuff)); // send buffer character length. sendCMD(); getReply(200, 50); SendWEB(); // send data memset(webbuff, '\0', sizeof(webbuff)); return sendCheck(); } // Wait for ESP "SEND OK" reply bool sendCheck() { volatile int weberror = 1; t2.reset(); t2.start(); while(weberror == 1 && t2.read() < 5) { getReply(500, 24); if (strstr(replybuff, "SEND OK") != NULL) { weberror=0; // wait for valid SEND OK } } t2.stop(); if(weberror == 1) { // error strcpy(cmdbuff, "AT+CIPMUX=0\r\n"); sendCMD(); getReply(500, 10); return false; } else { // close current connection sprintf(cmdbuff, "AT+CIPCLOSE\r\n"); sendCMD(); getReply(500, 600); return true; } } // ESP Command data send void sendCMD() { _serial.printf("%s", cmdbuff); } // Large WEB buffer data send int SendWEB() { volatile int i = 0; if(_serial.writeable()) { while(webbuff[i] != '\0') { _serial.putc(webbuff[i]); i++; } } return i; } // Get Command and ESP status replies void getReply(int timeout, int getcount) { volatile int replycount = 0; memset(replybuff, '\0', sizeof(replybuff)); t1.reset(); t1.start(); while(t1.read_ms() < timeout && replycount < getcount) { if(_serial.readable()) { replybuff[replycount] = _serial.getc(); replycount++; } } t1.stop(); } }; #endif