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ESP8266/ESP8266.cpp
- Committer:
- michaeljkoster
- Date:
- 2014-12-11
- Revision:
- 24:03585a13ff3b
- Parent:
- 23:de9221771e96
- Child:
- 25:8e2b04473830
File content as of revision 24:03585a13ff3b:
/* Copyright (C) 2012 mbed.org, MIT License * * Permission is hereby granted, free of charge, to any person obtaining a copy of this software * and associated documentation files (the "Software"), to deal in the Software without restriction, * including without limitation the rights to use, copy, modify, merge, publish, distribute, * sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all copies or * substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "mbed.h" #include "ESP8266.h" #include "Endpoint.h" #include <string> #include <algorithm> //Debug is disabled by default #if (defined(DEBUG)) #define DBG(x, ...) std::printf("[ESP8266 : DBG]"x"\r\n", ##__VA_ARGS__); #define WARN(x, ...) std::printf("[ESP8266 : WARN]"x"\r\n", ##__VA_ARGS__); #define ERR(x, ...) std::printf("[ESP8266 : ERR]"x"\r\n", ##__VA_ARGS__); #else #define DBG(x, ...) #define WARN(x, ...) #define ERR(x, ...) #endif #if defined(DEBUG) #define INFO(x, ...) printf("[ESP8266 : INFO]"x"\r\n", ##__VA_ARGS__); #else #define INFO(x, ...) #endif #define MAX_TRY_JOIN 3 extern Serial pc; ESP8266 * ESP8266::inst; ESP8266::ESP8266( PinName tx, PinName rx, PinName _reset, const char * ssid, const char * phrase ): wifi(tx, rx), reset_pin(_reset), buf_ESP8266(256) { memset(&state, 0, sizeof(state)); // change all ' ' in '$' in the ssid and the passphrase strcpy(this->ssid, ssid); for (int i = 0; i < strlen(ssid); i++) { if (this->ssid[i] == ' ') this->ssid[i] = '$'; } strcpy(this->phrase, phrase); for (int i = 0; i < strlen(phrase); i++) { if (this->phrase[i] == ' ') this->phrase[i] = '$'; } inst = this; attach_rx(false); wifi.baud(9600); // initial baud rate of the ESP8266 state.associated = false; state.cmdMode = false; } bool ESP8266::join() { sendCommand( "AT+CWMODE=1", "change", NULL, 1000); string cmd="AT+CWJAP=\""+(string)this->ssid+"\",\""+(string)this->phrase+"\""; if( sendCommand( cmd.c_str(), "OK", NULL, 10000) ){ // successfully joined the network state.associated = true; INFO("\r\nssid: %s\r\nphrase: %s\r\nsecurity: %s\r\n\r\n", this->ssid, this->phrase); return true; } return false; } bool ESP8266::connect() { return true; } bool ESP8266::is_connected() { return true; } bool ESP8266::startUDP(char* ip, int port){ char portstr[5]; sprintf(portstr, "%d", port); sendCommand(( "AT+CIPSTART=\"UDP\",\"" + (string) ip + "\"," + (string) portstr ).c_str(), "OK", NULL, 10000); sendCommand("AT+CIPMODE=1", "OK", NULL, 1000);// go into transparent mode sendCommand("AT+CIPSEND", ">", NULL, 1000);// go into transparent mode pc.printf("Data Mode\r\n"); state.cmdMode = false; return true; } bool ESP8266::close() { send("+++",3); wait(1); state.cmdMode = true; sendCommand("AT+CIPCLOSE","OK", NULL, 10000); return true; } bool ESP8266::disconnect() { // if already disconnected, return if (!state.associated) return true; // send command to quit AP sendCommand("AT+CWQAP", "OK", NULL, 10000); state.associated = false; return true; } char* ESP8266::getIPAddress() { sendCommand("AT+CWLIF", "OK", NULL, 10000); return ipString; } bool ESP8266::gethostbyname(const char * host, char * ip) { string h = host; int nb_digits = 0; // no dns needed int pos = h.find("."); if (pos != string::npos) { string sub = h.substr(0, h.find(".")); nb_digits = atoi(sub.c_str()); } //printf("substrL %s\r\n", sub.c_str()); if (count(h.begin(), h.end(), '.') == 3 && nb_digits > 0) { strcpy(ip, host); return true; } else { // dns needed, not currently available return false; } } void ESP8266::reset() { reset_pin = 0; wait(0.2); reset_pin = 1; wait(1); //send("+++",3); //wait(1); state.cmdMode = true; sendCommand("AT", "OK", NULL, 1000); //sendCommand("AT+RST", "ready", NULL, 10000); state.associated = false; //pc.printf("setting baud rate\r\n"); //sendCommand("AT+CIOBAUD=9600", "OK", NULL, 2000); //wifi.baud(9600); //sendCommand("AT", "OK", NULL, 1000); } bool ESP8266::reboot() { reset(); return true; } void ESP8266::handler_rx(void) { //read characters char c; while (wifi.readable()){ c=wifi.getc(); buf_ESP8266.queue(c); if (state.cmdMode) pc.printf("%c",c); //debug echo //pc.printf("%c",c); //debug echo } } void ESP8266::attach_rx(bool callback) { if (!callback) wifi.attach(NULL); else wifi.attach(this, &ESP8266::handler_rx); } int ESP8266::readable() { return buf_ESP8266.available(); } int ESP8266::writeable() { return wifi.writeable(); } char ESP8266::getc() { char c=0; while (!buf_ESP8266.available()); buf_ESP8266.dequeue(&c); return c; } int ESP8266::putc(char c) { while (!wifi.writeable() || wifi.readable()); //wait for echoed command characters to be read first return wifi.putc(c); } void ESP8266::flush() { buf_ESP8266.flush(); } int ESP8266::send(const char * buf, int len) { const char* bufptr=buf; for(int i=0; i<len; i++){ putc((int)*bufptr++); } return len; } bool ESP8266::sendCommand(const char * cmd, const char * ACK, char * res, int timeout) { char read; size_t found = string::npos; string checking; Timer tmr; int result = 0; //pc.printf("will send: %s\r\n",cmd); attach_rx(true); //We flush the buffer while (readable()) getc(); if (!ACK || !strcmp(ACK, "NO")) { for (int i = 0; i < strlen(cmd); i++){ result = (putc(cmd[i]) == cmd[i]) ? result + 1 : result; wait(.005); // prevents stuck recieve ready (?) need to let echoed character get read first } putc(13); //CR wait(.005); // wait for echo putc(10); //LF } else { //We flush the buffer while (readable()) getc(); tmr.start(); for (int i = 0; i < strlen(cmd); i++){ result = (putc(cmd[i]) == cmd[i]) ? result + 1 : result; wait(.005); // wait for echo } putc(13); //CR wait(.005); // wait for echo putc(10); //LF while (1) { if (tmr.read_ms() > timeout) { //We flush the buffer while (readable()) getc(); DBG("check: %s\r\n", checking.c_str()); attach_rx(true); return -1; } else if (readable()) { read = getc(); if ( read != '\r' && read != '\n') { checking += read; found = checking.find(ACK); if (found != string::npos) { wait(0.01); //We flush the buffer while (readable()) getc(); break; } } } } DBG("check: %s\r\n", checking.c_str()); attach_rx(true); return result; } //the user wants the result from the command (ACK == NULL, res != NULL) if ( res != NULL) { int i = 0; Timer timeout; timeout.start(); tmr.reset(); while (1) { if (timeout.read() > 2) { if (i == 0) { res = NULL; break; } res[i] = '\0'; DBG("user str 1: %s\r\n", res); break; } else { if (tmr.read_ms() > 300) { res[i] = '\0'; DBG("user str: %s\r\n", res); break; } if (readable()) { tmr.start(); read = getc(); // we drop \r and \n if ( read != '\r' && read != '\n') { res[i++] = read; } } } } DBG("user str: %s\r\n", res); } //We flush the buffer while (readable()) getc(); attach_rx(true); DBG("result: %d\r\n", result) return result; }