Example sketches for the new Arduino IDE for ESP8266

Moderator: igrr

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By fryguy128
#63152 I'm working on creating and ambient thermometer that I can access anywhere on the web and in conky on my linux machine. I could not find a working FTP client for the ESP8266 though so I wrote one by modifying SurferTim's FTP code from the arduino playground. My client will only handle uploads for the time being, but additional functionality could be added by modifying the code starting at line 148. The most updated version of my code is located at: https://github.com/fryguy128/esp8266FTP.

Here's v1 of it so you don't have to leave:
Code: Select all/**
 * This file modifies SurferTim's FTP code (http://playground.arduino.cc/Code/FTP)
 * to work with the esp8266 chip.This only contains the functionality to upload
 * a file to your server but additional functionality could easily be added by
 * modifying the code starting at line 148. Functionality would be implemented using
 * raw FTP commands. A list of such commands can be found at: http://www.nsftools.com/tips/RawFTP.htm
 *
 * Posted 28 February 2017 by Patrick Duensing(fryguy128)
 */
#include <ESP8266WiFi.h>
#include <FS.h>
#define FTPWRITE

//Change these variables to meet your needs
//#############################################
//Wifi
//I'm on a school network so I don't have a password,
//you'll have to modify the wifi connection if you have one.
const char* ssid = "SSID";

//FTP stuff
const char* host = "FTP_SERVER_URL";
const char* userName = "USERNAME";
const char* password = "PASSWORD";

//File Operation
char fileName[13] = "data.txt";

//############################################
//DO NOT CHANGE THESE
char outBuf[128];
char outCount;
WiFiClient client;
WiFiClient dclient;

//###########################################
//Move into setup()
void setup() {
// Serial setup
  Serial.begin(115200);
  delay(100);

//Wifi Setup
  Serial.println();
  Serial.println();
  Serial.print("Connecting to ");
  Serial.println(ssid);
  WiFi.begin(ssid);
  while (WiFi.status() != WL_CONNECTED) {
    delay(500);
    Serial.print(".");
  }
  Serial.println("");
  Serial.println("WiFi connected"); 
  Serial.println("IP address: ");
  Serial.println(WiFi.localIP());

  //SPIFF setup
  SPIFFS.begin();
}

//#########################################
//Move into loop()
/*
 *In the current state, this loop will append
 *'Success!!' to the end of a filename then
 *upload it to your FTP server
 */
void loop() {
  File f = SPIFFS.open(fileName, "a");
    if (!f) {
      Serial.println("file open failed");
    }
  f.println("Success!!");
  f.close();

  if(doFTP()) Serial.println(F("FTP OK"));
  else Serial.println(F("FTP FAIL"));

  delay(10000);
}

//#######################################
/*
 * This is the function where the magic happens.
 * all credit goes to SurferTim. This will open
 * and write the file to your FTP server
 */
byte doFTP()
{
    File fh = SPIFFS.open(fileName, "r");
    if (!fh) {
      Serial.println("file open failed");
    }
  if (client.connect(host,21)) {
    Serial.println(F("Command connected"));
  }
  else {
    fh.close();
    Serial.println(F("Command connection failed"));
    return 0;
  }

  if(!eRcv()) return 0;

  client.print("USER ");
  client.println(userName);
 
  if(!eRcv()) return 0;
 
  client.print("PASS ");
  client.println(password);
 
  if(!eRcv()) return 0;
 
  client.println("SYST");

  if(!eRcv()) return 0;

  client.println("Type I");

  if(!eRcv()) return 0;

  client.println("PASV");

  if(!eRcv()) return 0;

  char *tStr = strtok(outBuf,"(,");
  int array_pasv[6];
  for ( int i = 0; i < 6; i++) {
    tStr = strtok(NULL,"(,");
    array_pasv[i] = atoi(tStr);
    if(tStr == NULL)
    {
      Serial.println(F("Bad PASV Answer"));   

    }
  }

  unsigned int hiPort,loPort;
  hiPort=array_pasv[4]<<8;
  loPort=array_pasv[5]&255;
  Serial.print(F("Data port: "));
  hiPort = hiPort|loPort;
  Serial.println(hiPort);
  if(dclient.connect(host, hiPort)){
    Serial.println("Data connected");
  }
  else{
    Serial.println("Data connection failed");
    client.stop();
    fh.close();
  }
 
  client.print("STOR ");
  client.println(fileName);
  if(!eRcv())
  {
    dclient.stop();
    return 0;
  }
  Serial.println(F("Writing"));
 
  byte clientBuf[64];
  int clientCount = 0;
 
  while(fh.available())
  {
    clientBuf[clientCount] = fh.read();
    clientCount++;
 
    if(clientCount > 63)
    {
      dclient.write((const uint8_t *)clientBuf, 64);
      clientCount = 0;
    }
  }
  if(clientCount > 0) dclient.write((const uint8_t *)clientBuf, clientCount);

  dclient.stop();
  Serial.println(F("Data disconnected"));
  client.println();
  if(!eRcv()) return 0;

  client.println("QUIT");

  if(!eRcv()) return 0;

  client.stop();
  Serial.println(F("Command disconnected"));

  fh.close();
  Serial.println(F("File closed"));
  return 1;
}

byte eRcv()
{
  byte respCode;
  byte thisByte;

  while(!client.available()) delay(1);

  respCode = client.peek();

  outCount = 0;

  while(client.available())
  { 
    thisByte = client.read();   
    Serial.write(thisByte);

    if(outCount < 127)
    {
      outBuf[outCount] = thisByte;
      outCount++;     
      outBuf[outCount] = 0;
    }
  }

  if(respCode >= '4')
  {
    efail();
    return 0; 
  }

  return 1;
}


void efail()
{
  byte thisByte = 0;

  client.println(F("QUIT"));

  while(!client.available()) delay(1);

  while(client.available())
  { 
    thisByte = client.read();   
    Serial.write(thisByte);
  }

  client.stop();
  Serial.println(F("Command disconnected"));
}