Miguel Maldonado
Example to connect to wifi automatically or start smartconfig if it is not connected
ESP8266.cpp
- Committer:
- Thrillex13
- Date:
- 2019-05-12
- Revision:
- 3:d52701d66b62
- Parent:
- 2:77388e8f0697
File content as of revision 3:d52701d66b62:
#include "ESP8266.h"
// Constructor
ESP8266::ESP8266(PinName tx, PinName rx, int br) : comm(tx, rx) {
comm.baud(br);
}
// Destructor
ESP8266::~ESP8266() { }
// Add <CR> + <LF> at the end of the string
void ESP8266::AddEOL(char * s) {
char k;
k = strlen(s); // Finds position of NULL character
s[k] = 0x0D; // switch NULL for <CR>
s[k + 1] = 0x0A; // Add <LF>
s[k + 2] = 0; // Add NULL at the end
}
// Add one ASCII character at the end of the string
void ESP8266::AddChar(char * s, char c) {
char k;
k = strlen(s);
s[k] = c;
s[k + 1] = 0;
}
// Converts integer number to null-terminated string
void ESP8266::itoa(int n, char * s) {
char k = 0;
char r[11];
if(n == 0) {
s[0] = '0';
s[1] = 0;
} else {
while(n != 0) {
r[k]= (n % 10) + '0';
n = n / 10;
k++;
}
while(k > 0) {
s[n] = r[k - 1] + '0';
n++;
k--;
}
s[n] = 0;
}
}
// Sends command to ESP8266. Receives the command string
void ESP8266::SendCMD(char * s) {
AddEOL(s);
comm.printf("%s", s);
}
// Resets the ESP8266
void ESP8266::Reset(void) {
char rs[10];
strcpy(rs, "AT+RST");
SendCMD(rs);
}
// Receive reply until no character is received after a given timeout in miliseconds
void ESP8266::RcvReply(char * r, int to) {
Timer t;
bool ended = 0;
char c;
strcpy(r, "");
t.start();
while(!ended) {
if(comm.readable()) {
c = comm.getc();
AddChar(r, c);
t.start();
}
if(t.read_ms() > to) {
ended = 1;
}
}
AddChar(r, 0x00);
}
// Receive reply until no character is received after a given timeout in miliseconds
void ESP8266::RcvSingleReply(char * r) {
bool ended = 0;
char c;
strcpy(r, "");
while(!ended) {
if(comm.readable()) {
c = comm.getc();
AddChar(r, c);
}
if(c == 0x0D) {
ended = 1;
}
}
//AddChar(r, 0x00);
}
// Gets the AP list. Parameter: the string to receive the list
void ESP8266::GetList(char * l) {
char rs[15];
strcpy(rs, "AT+CWLAP");
SendCMD(rs);
RcvReply(l, 5000); // Needs big timeout because it takes long to start replying
}
// Joins a Wifi AP. Parameters: SSID and Password (strings)
void ESP8266::Join(char * id, char * pwd) {
char cmd[255];
strcpy(cmd, "AT+CWJAP=");
AddChar(cmd, 0x22);
strcat(cmd, id);
AddChar(cmd, 0x22);
AddChar(cmd, 0x2C);
AddChar(cmd, 0x22);
strcat(cmd, pwd);
AddChar(cmd, 0x22);
SendCMD(cmd);
}
// Gets ESP IP. Parameter: string to contain IP
void ESP8266::GetIP(char * ip) {
char cmd[15];
strcpy(cmd, "AT+CIFSR");
SendCMD(cmd);
RcvReply(ip, 2000);
}
//Defines wifi mode; Parameter: mode; 1= STA, 2= AP, 3=both
void ESP8266::SetMode(char mode) {
char cmd[15];
strcpy(cmd, "AT+CWMODE=");
mode = mode + 0x30; // Converts number into corresponding ASCII character
AddChar(cmd, mode); // Completes command string
SendCMD(cmd);
}
// Quits the AP
void ESP8266::Quit(void) {
char cmd[15];
strcpy(cmd, "AT+CWQAP");
SendCMD(cmd);
}
// Sets single connection
void ESP8266::SetSingle(void) {
char cmd[15];
strcpy(cmd, "AT+CIPMUX=0");
SendCMD(cmd);
}
// Sets multiple connection
void ESP8266::SetMultiple(void) {
char rs[15];
strcpy(rs, "AT+CIPMUX=1");
SendCMD(rs);
}
// Gets connection status. Parameter: string to contain status
void ESP8266::GetConnStatus(char * st) {
char cmd[15];
strcpy(cmd, "AT+CIPSTATUS");
SendCMD(cmd);
RcvSingleReply(st);
//RcvReply(st, 2000);
}
// Starts server mode. Parameter: port to be used
void ESP8266::StartServerMode(int port) {
char rs[25];
char t[4];
strcpy(rs, "AT+CIPSERVER=1,");
itoa(port, t);
strcat(rs, t);
SendCMD(rs);
}
// Close server mode.
void ESP8266::CloseServerMode(void) {
char rs[20];
strcpy(rs, "AT+CIPSERVER=0");
SendCMD(rs);
}
// Starts SmartConfig
void ESP8266::StartSmartConfig(void){
char rs[20];
strcpy(rs, "AT+CWSTARTSMART=1");
SendCMD(rs);
}
//Disable Echo
void ESP8266::DisableEcho(void) {
char cmd[15];
strcpy(cmd, "ATE0");
SendCMD(cmd);
}