GSM Web Server

This sketch turns the Arduino MKR GSM 1400 into a web server. When the board receives a request from a connected client, it sends back the value of analog inputs 0-5.

Not all network operators allow incoming data requests from outside their network. This means you can create a web server with the GSM shield, but you may not be able to connect to it from the public internet; only from another data enabled device from the same provider on the same network. You should check with your provider to see what specific policies they have in place regarding incoming data connections.

Hardware Required

  • Arduino MKR GSM 1400

  • antenna

  • SIM card enable for Data

  • (optional) 6 potentiometers or other analog inputs attached to A0-A5

Circuit

MKRGSM1400 bb

Optional analog sensors like photoresistors, potentiometers and such may be connected, as explained elsewhere in our tutorials, to pins A0 - A5

Code

First, import the MKRGSM library

#include <MKRGSM.h>

SIM cards may have a PIN number that enables their functionality. Define the PIN for your SIM. If your SIM has no PIN, you can leave it blank :

#define PINNUMBER ""

Define a number of constants that contain information about the GPRS network you're going to connect to. You'll need the Access Point Name (APN), login, and password. To obtain this information, contact your network provider for the most up to date information.

#define GPRS_APN       "GPRS_APN"
#define GPRS_LOGIN     "login"
#define GPRS_PASSWORD  "password"

Initialize instances of the classes you're going to use. You're going to need the GSM, GPRS, and GSMServer classes. When you instantiate the GSMServer class, you'll need to tell it which port to listen for incoming connections. Port 80 is the default port for HTTP requests.

GPRS gprs;

GSM gsmAccess;

GSMServer server(80);

In setup, open a serial connection to the computer. After opening the connection, send a message indicating the sketch has started.

void setup(){

  Serial.begin(9600);

  Serial.println("Starting Arduino web client.");

Create a local variable to track the connection status. You'll use this to keep the sketch from starting until the SIM is connected to the network :

boolean notConnected = true;

Connect to the network by calling gsmAccess.begin(). It takes the SIM card's PIN as an argument. You'll also connect to the GPRS network using gprs.attachGPRS(). This requires the APN, login, and password you declared earlier. By placing this inside a while() loop, you can continually check the status of the connection and wait for them to both become true before proceeding.

When the modem does connect and has attached itself to the GPRS network, gsmAccess() will return GSM_READY. Use this as a flag to set the notConnected variable to true or false. Once connected, the remainder of setup will run.

while(notConnected)

  {

    if(gsmAccess.begin(PINNUMBER)==GSM_READY)

        (gprs.attachGPRS(GPRS_APN, GPRS_LOGIN, GPRS_PASSWORD)==GPRS_READY))

      notConnected = false;

    else

    {

      Serial.println("Not connected");

      delay(1000);

    }

  }

Start the server using server.begin(). You can request the server's IP address with grps.getIPAddress() and end the setup.

server.begin();

  IPAddress LocalIP = gprs.getIPAddress();

  Serial.println("Server IP address=");

  Serial.println(LocalIP);
}

In loop, create an instance of GSMClient and check if there are any active connections

void loop() {

  GSMClient client = server.available();

  if (client)

  {

While the client is connected, and there is data waiting to be read, begin to read the request. Read through the available bytes until a newline character has been received.

In this instance, you won't actually do anything with the request, it's assumed that it is a HTTP request, and you'll serve up a web page.

while (client.connected())

    {

      if (client.available())

      {

        Serial.println("Receiving request!");

        bool sendResponse = false;

        while(char c=client.read()) {

          if (c == '\n') sendResponse = true;

        }

Once the request has been read, start to send a standard HTTP response header with client.print() and client.println().

if (sendResponse)

       {

          client.println("HTTP/1.1 200 OK");

          client.println("Content-Type: text/html");

          client.println();

          client.println("<html>");

Read through the analog inputs and send the values to the client.

for (int analogChannel = 0; analogChannel < 6; analogChannel++) {

            client.print("analog input ");

            client.print(analogChannel);

            client.print(" is ");

            client.print(analogRead(analogChannel));

            client.println("<br />");

          }

Send a closing tag for the webpage, and stop the client connection before closing the loop.

client.println("</html>");

          //necessary delay

          delay(1000);

          client.stop();

        }

      }

    }

  }
}

Once your code is uploaded, open the serial monitor. Once the IP address is printed to the serial monitor, enter it into a web browser. You should see a webpage that reports the analog input values on each the Arduino's six inputs.

if you cannot connect to the IP address, make sure your network operator enables incoming traffic.

The complete sketch is below.


/*

 GSM Web Server

 A simple web server that shows the value of the analog input pins.

 using a MKR GSM 1400 board.

 Circuit:

 * MKR GSM 1400 board

 * Antenna

 * Analog inputs attached to pins A0 through A5 (optional)

 created 8 Mar 2012

 by Tom Igoe

*/

// libraries
#include <MKRGSM.h>

#include "arduino_secrets.h"
// Please enter your sensitive data in the Secret tab or arduino_secrets.h
// PIN Number

const char PINNUMBER[]     = SECRET_PINNUMBER;
// APN data

const char GPRS_APN[]      = SECRET_GPRS_APN;

const char GPRS_LOGIN[]    = SECRET_GPRS_LOGIN;

const char GPRS_PASSWORD[] = SECRET_GPRS_PASSWORD;

// initialize the library instance

GPRS gprs;

GSM gsmAccess;     // include a 'true' parameter for debug enabled

GSMServer server(80); // port 80 (http default)

// timeout

const unsigned long __TIMEOUT__ = 10 * 1000;

void setup() {

  // initialize serial communications and wait for port to open:

  Serial.begin(9600);

  while (!Serial) {

    ; // wait for serial port to connect. Needed for native USB port only

  }

  // connection state

  bool connected = false;

  // Start GSM shield

  // If your SIM has PIN, pass it as a parameter of begin() in quotes

  while (!connected) {

    if ((gsmAccess.begin(PINNUMBER) == GSM_READY) &&

        (gprs.attachGPRS(GPRS_APN, GPRS_LOGIN, GPRS_PASSWORD) == GPRS_READY)) {

      connected = true;

    } else {

      Serial.println("Not connected");

      delay(1000);

    }

  }

  Serial.println("Connected to GPRS network");

  // start server

  server.begin();

  //Get IP.

  IPAddress LocalIP = gprs.getIPAddress();

  Serial.println("Server IP address=");

  Serial.println(LocalIP);
}

void loop() {

  // listen for incoming clients

  GSMClient client = server.available();

  if (client) {

    while (client.connected()) {

      if (client.available()) {

        Serial.println("Receiving request!");

        bool sendResponse = false;

        while (int c = client.read()) {

          if (c == -1) {

            break;

          } else if (c == '\n') {

            sendResponse = true;

          }

        }

        // if you've gotten to the end of the line (received a newline

        // character)

        if (sendResponse) {

          // send a standard http response header

          client.println("HTTP/1.1 200 OK");

          client.println("Content-Type: text/html");

          client.println();

          client.println("<html>");

          // output the value of each analog input pin

          for (int analogChannel = 0; analogChannel < 6; analogChannel++) {

            client.print("analog input ");

            client.print(analogChannel);

            client.print(" is ");

            client.print(analogRead(analogChannel));

            client.println("<br />");

          }

          client.println("</html>");

          //necessary delay

          delay(1000);

          client.stop();

        }

      }

    }

  }
}

See Also

Last revision 2017/11/29 by AG