w mx
/
finalcar
小车 走
esp8266.cpp
- Committer:
- xmwmx
- Date:
- 2018-07-18
- Revision:
- 0:5d8b03e224fd
- Child:
- 2:4a9ba34cd90a
File content as of revision 0:5d8b03e224fd:
/*************************************************************** 功能 : ESP8266物联车接口函数 作者 : 马晓健 邮箱 : jeasinema[at]gmail[dot]com 声明 : 本程序仅供学习与交流使用,如需他用,须联系作者 本程序可以随意更改,但须保留本信息页 All rights reserved 2017.6.16 ***************************************************************/ #include "esp8266.h" #include <cstdarg> #include <cstring> #include <stdint.h> #include "mbed.h" extern Serial ser2usb; static int ser_baud = 9600; //定义了一个调试的宏,C语言语法 #define ESP_CMD(format, ...) do{\ char cmdbuf[128], *p;\ ser2esp8266.printf("\r"); \ sprintf(cmdbuf, format "\r", ##__VA_ARGS__);\ for(p=cmdbuf;*p;p++){\ ser2esp8266.putc(*p);\ wait(0.02);\ }\ wait(0.3);\ }while(0) void Esp8266::gotResponse(char *token, char *param) { if(*token<'a' || *token>'z') return; ser2usb.printf("gotResponse %s %s\r\n", token, param); if(strcmp(token, "connected") == 0) mqtt_start = true; else if(strcmp(token, "control") == 0){ if(!control_cmd){ strncpy(control_buf, param, sizeof(control_buf)); control_cmd = true; } } else if(strcmp(token, "wifi") == 0){ if(*param == '5') network_start = true; } } bool Esp8266::get_control_cmd(char* actuator, char* value) { if(!control_cmd) return false; char* plus = strchr(control_buf, '+'); if(!plus){ control_cmd = false; return false; } *plus = '\0'; strcpy(actuator, control_buf); strcpy(value, plus+1); control_cmd = false; return true; } // 接收 esp8266 侧数据的回调函数, 每次仅接收一个8位字符 // 数据格式约定: #token+data void Esp8266::esp8266_rxCallback() { char in = ser2esp8266.getc(); // ser2usb.putc(in); enum{STATE_WAIT, STATE_TOKEN, STATE_PARAM}; static uint8_t state = STATE_WAIT; static int tokenLen, paramLen; switch(state){ case STATE_WAIT: if(in == '#'){ tokenLen = 0; state = STATE_TOKEN; } break; case STATE_TOKEN: if(in == '+' || in == '\r' || in == '\n'){ esp_tokenBuf[tokenLen] = '\0'; if(in == '+'){ paramLen = 0; state = STATE_PARAM; }else{ gotResponse(esp_tokenBuf, NULL); //memcpy(esp_token, esp_tokenBuf, tokenLen); //esp_token[tokenLen] = '\0'; esp_buf_ready = true; state = STATE_WAIT; } }else if(tokenLen+1 < sizeof(esp_tokenBuf)){ esp_tokenBuf[tokenLen++] = in; } break; case STATE_PARAM: if(in == '\r' || in == '\n'){ esp_paramBuf[paramLen] = '\0'; gotResponse(esp_tokenBuf, esp_paramBuf); //memcpy(esp_token, esp_tokenBuf, tokenLen); //memcpy(esp_param, esp_paramBuf, paramLen); //esp_token[tokenLen] = '\0'; //esp_param[paramLen] = '\0'; //ser2usb.putc('?'); esp_buf_ready = true; state = STATE_WAIT; }else if(paramLen+1 < sizeof(esp_paramBuf)){ esp_paramBuf[paramLen++] = in; } break; } } Esp8266::Esp8266(PinName TX, PinName RX, const char *wifi_ssid, const char *wifi_passwd) //定义类的函数 : network_start(false), mqtt_start(false), control_cmd(false), esp_buf_ready(false), ser2esp8266(TX, RX) { // serial to esp8266 init ser2esp8266.baud(ser_baud); ser2esp8266.attach(callback(this,&Esp8266::esp8266_rxCallback), Serial::RxIrq); //if (mode == 0) { // client mode this->reset(); this->connect_wifi(wifi_ssid, wifi_passwd); while(!is_connected()){ wait(0.5); } this->weblogin(); //} else { // //} } bool Esp8266::reset() { //定义类的函数 ESP_CMD("node.restart()"); wait(2); // 延迟2s return true; } bool Esp8266::connect_wifi(const char *wifi_ssid, const char *wifi_passwd) { //定义类的函数 ESP_CMD("wifi.setmode(wifi.STATION)"); ESP_CMD("wifi.sta.config([[%s]],[[%s]])", wifi_ssid, wifi_passwd); wait(2); // set auto autoconnect ESP_CMD("wifi.sta.autoconnect(1)"); return true; } bool Esp8266::is_connected() { ESP_CMD("print('\\035wifi+'..wifi.sta.status())"); wait(0.4); return network_start; } bool Esp8266::weblogin() { //定义类的函数 // not implemented yet return true; } void Esp8266::buildCapability(char *out, const char* infoList[][2]) { out[0] = '\0'; for (int i = 0; infoList[i][0]; ++i) { strcat(out, infoList[i][0]); strcat(out, ","); strcat(out, infoList[i][1]); strcat(out, "\\n"); } } bool Esp8266::connect_mqtt_broker(char *ip, const char *node_name, const char* sensors[][2], const char* actuator[][2]) { //定义类的函数 ESP_CMD("node_name = '%s'", node_name); ESP_CMD("m = mqtt.Client('i_' .. node.chipid(), 120)"); ESP_CMD("m:connect(\"%s\",1883,0,function(conn)print (\"\\035connected\"); end)", ip); do{ wait(0.5); }while(!mqtt_start); ESP_CMD("m:on(\"message\", function(conn, topic, data)"); ESP_CMD("if topic:find(\"^/control/\") then"); ESP_CMD("local tok = topic:match(\"^/control/.+/(.+)\")"); ESP_CMD("if tok then print(\"\\035control+\"..tok..\"+\"..data) end"); ESP_CMD("end"); ESP_CMD("end)"); ESP_CMD("m:publish('/events/'..node_name..'/online','',1,0)"); wait(0.1); char * capabilities = new char[512]; if(sensors){ buildCapability(capabilities, sensors); ESP_CMD("m:publish('/capability/'..node_name..'/values','%s',1,1)", capabilities); wait(0.1); } if(actuator){ buildCapability(capabilities, actuator); ESP_CMD("m:publish('/capability/'..node_name..'/control','%s',1,1)", capabilities); wait(0.1); for (int i = 0; actuator[i][0]; ++i) subscribe_control(actuator[i][0]); } delete[ ] capabilities; return true; } bool Esp8266::publish_value(const char *topic, const char *data) { //定义类的函数 //if (mqtt_start) { ESP_CMD("m:publish('/values/'..node_name..'/%s',\"%s\",0,1)", topic, data); wait(0.1); //} return true; } bool Esp8266::subscribe_control(const char *topic, const char *data) { //定义类的函数 //if (mqtt_start) { ESP_CMD("m:subscribe('/control/'..node_name..'/%s', 0)", topic); wait(0.1); //} // ESP_CMD("m:unsubscribe(\"%s\")", topic); return true; }