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Websocket and Mbed
Websockets and Mbed¶
As explained in this webpage, the Websocket protocol allows full-duplex, bi-directional communications between a server and clients.
-> In this tutorial, the websocket server already exists (at ARM).
-> So you just have to program your mbed
If you want more information regarding the server side code, go to this webpage
This tutorial is divided into two parts:
- Sending accelerometer data over a websocket, from an mbed:
- first, over wifi
- then using an ethernet connection
1 - Send accelerometer data from the mbed¶
1.1 - Protocol used by the server¶
The url format to establish a connection with the server is: ws://sockets.mbed.org:444/mbed-demo/<mode>/<channel>
The websockets are divided into channels.
When the server receives a message from a client in a certain channel:
- it will broadcast the message to all clients connected to this channel who are not in 'w' mode
- A client in 'w' mode connected to this channel can only 'write' (send) messages to this channel. It cannot receive messages
- A client in a mode other than 'w' can send and receive messages over the channel
1.2 - Javascript part¶
This code is very similar to the one presented in second part of this tutorial.
Take note!
We present this code for you to modify as you wish, but if you want to just go to our website to see the webpage, you can skip this section, and visit this.
<!doctype html>
<html>
<head>
<style type="text/css">
body {
text-align: center;
min-width: 500px;
}
</style>
<script src="http://code.jquery.com/jquery.min.js"></script>
<script>
function log(m) {
d = document.getElementById("log");
d.innerHTML = m + "<br/>" + d.innerHTML;
}
$(document).ready(function () {
$("#open").click(function(evt) {
evt.preventDefault();
var channel = $("#channel").val();
var ws = new WebSocket("ws://sockets.mbed.org:444/mbed_demo/rw/" + $("#channel").val());
ws.onopen = function(evt) {
$("#channel").css("background", "#00ff00");
document.getElementById("title").innerHTML = "Websockets streaming on channel: " + $("#channel").val();
};
ws.onmessage = function(evt) { log("message: " + evt.data); };
ws.onclose = function(evt) { log("socket closed"); };
});
});
</script>
</head>
<body>
<h1 id="title">Websockets Streaming</h1>
<label for="channel">channel:</label>
<input type="text" id="channel" style="background:#ff0000;"/><br />
<input type="submit" id="open" value="open" />
<div id="log"></div>
</body>
</html>
On this webpage, you must associate your connection with a 'channel'. In this example, I will use the channel samux, but I could use anything. So I fill in the channel field and press open
If the connection is established:
- we change the background of the channel field from red to green
- we change the title according to the channel
When a message is received: - we print the message received below
So the websocket is opened, now the Mbed part!
1.3 - Sending data from the Mbed: Wifi¶
Materials required
For this part you need:
- an mbed ;)
- a Wifly module like this
- a router
- sensor(s) (for this tutorial, I will use this accelerometer)
1.3.1 - Schematics:
1.3.2 - Code:
Libraries required
For this part you need to import these libraries:
- Websocket
- Wifly
- EthernetIf. You must import the program as a library
- DNSResolver
- For the sensor: ADXL345
You may wish to skim the page on the WiFly module.
The main code:
#include "mbed.h"
#include "Wifly.h"
#include "Websocket.h"
#include "ADXL345.h"
Serial pc(USBTX, USBRX);
ADXL345 accelerometer(p5, p6, p7, p8);
//Here, we create an instance, with pins 9 and 10 connecting to the
//WiFly's TX and RX pins, and pin 21 to RESET. We are connecting to the
//NETGEAR network, password bananna2, and we are using WPA.
Wifly wifly(p9, p10, p21, "NETGEAR", "bananna2", true);
//Here, we create a Websocket instance in 'w' (write) mode
//on the 'samux' channel
Websocket ws("ws://sockets.mbed.org:444/mbed_demo/w/samux", &wifly);
int main() {
char json_str[100];
int readings[3] = {0, 0, 0};
pc.printf("Starting ADXL345 test...\r\n");
pc.printf("Device ID is: 0x%02x\r\n", accelerometer.getDevId());
//Go into standby mode to configure the device.
accelerometer.setPowerControl(0x00);
//Full resolution, +/-16g, 4mg/LSB.
accelerometer.setDataFormatControl(0x0B);
//3.2kHz data rate.
accelerometer.setDataRate(ADXL345_3200HZ);
//Measurement mode.
accelerometer.setPowerControl(0x08);
while (1) {
while (1) {
while (!wifly.Join()) //we connect to the network
wifly.reset();
if (!ws.connect()) //we connect to the server
wifly.reset();
else
break;
}
while (1) {
wait(0.1);
//we read accelerometers values
accelerometer.getOutput(readings);
//Here, we format the string we will be sending to the server
//the format we are sending in is JSON
sprintf(json_str, "{\"id\":\"wifly_acc\",\"ax\":\"%d\",\"ay\":\"%d\",\"az\":\"%d\"}", (int16_t)readings[0], (int16_t)readings[1], (int16_t)readings[2]);
ws.Send(json_str); //And we send the string
}
}
}
This code is very simple:
- accelerometer initialization
- connect to the router
- connect to the websocket server
- send data from the accelerometer in a JSON string each 0.01s
ssid, key, mode, channel
Don't forget to adapt:
- the ssid and the key of your network in the Wifly constructor
- the mode and the channel of your choice in the Websocket constructor
Transfer into the Mbed
You can now tranfer this program into your mbed and visit this webpage to see if the mbed is sending data to the server. On this webpage, you see all messages received by the server. So you can find yours if all is working well ;)
1.3.3 - Demo:
If the previous step was working, you can now see only messages on your channel: enter your channel in this webpage and click open
Et Voilà! We are able to see on our webpage the data from our accelerometer!
1.4 - Sending data from the Mbed: Ethernet¶
Materials required
For this part you need:
- an Mbed ;)
- an Ethernet RJ45 jack
- a router
- a sensor (for this tutorial, I will use this accelerometer)
1.4.1 - Schematics:
1.3.2 - Code:
Library required
For this part you need to import these libraries:
- Websocket
- EthernetIf. You must import the program as a library
- Wifly - the websocket library uses this
- DNSResolver
- For the sensor: ADXL345
The main code:
#include "mbed.h"
#include "Websocket.h"
#include "ADXL345.h"
Serial pc(USBTX, USBRX);
ADXL345 accelerometer(p5, p6, p7, p8);
//Here, we create a Websocket instance in 'w' (write) mode
//on the 'samux' channel
Websocket ws("ws://sockets.mbed.org:444/mbed_demo/w/samux");
int main() {
char json_str[100];
int readings[3] = {0, 0, 0};
pc.printf("Starting ADXL345 test...\r\n");
pc.printf("Device ID is: 0x%02x\r\n", accelerometer.getDevId());
//Go into standby mode to configure the device.
accelerometer.setPowerControl(0x00);
//Full resolution, +/-16g, 4mg/LSB.
accelerometer.setDataFormatControl(0x0B);
//3.2kHz data rate.
accelerometer.setDataRate(ADXL345_3200HZ);
//Measurement mode.
accelerometer.setPowerControl(0x08);
while (1) {
while(!ws.connect())
pc.printf("cannot connect websocket, retrying\r\n");
while (1) {
wait(0.1);
//we read accelerometers values
accelerometer.getOutput(readings);
//Here, we format the string we will be sending to the server
//the format we are sending in is JSON
sprintf(json_str, "{\"id\":\"wifly_acc\",\"ax\":\"%d\",\"ay\":\"%d\",\"az\":\"%d\"}", (int16_t)readings[0], (int16_t)readings[1], (int16_t)readings[2]);
ws.Send(json_str);
}
}
}
This code is very simple:
- accelerometer initialization
- connection to the websocket server, open a websocket
- send data from accelerometer in a JSON string each 0.01s
Note that the websocket API is the same for using a wifi module or an ethernet connection
mode, channel
Don't forget to adapt:
- the mode and the channel of your choice in the Websocket constructor
Transfer into the Mbed
You can now tranfer this program into your mbed and visit this webpage to see if the mbed is sending data to the server. On this webpage, you see all messages received by the server. So you can find yours if all is working well ;)
1.4.3 - Demo:
If the previous step was working, you can now see only messages on your channel: enter your channel in this webpage and click open
Et Voila! We are able to see on our webpage the data from our accelerometer over an ethernet network!
Now, if you wish, you can write your own webpage to process and display the data coming in on your channel whichever way you wish!