Connect to Azure IoT/Event hub from browser side - azure

Is there any javascript sdk or library available to connect to Azure IoT or Event hub from Browser side?
I would like to avoid the latency involved in the redirection of the messages from Web application to browser in connecting to the Event hub and instead achieve it directly from browser.
This question discusses an approach using AMQP over Websockets to connect to the IoT/Event hub but the links are broken. In general, What are the options or approaches available for reliable real-time monitoring of data on the browser?

npm install mqtt crypto-js --save
index.js
import mqtt from 'mqtt';
import CryptoJS from 'crypto-js';
var host='{iothubname}.azure-devices.net';
var deviceId = '{DeviceId}';
var sharedKey = '{DeviceKey}';
var topic ='devices/'+deviceId+'/messages/devicebound/#';
function encodeUriComponentStrict (str) {
return encodeURIComponent(str).replace(/[!'()*]/g, function (c) {
return '%' + c.charCodeAt(0).toString(16);
});
}
function getSaSToken (hostName,deviceId,sharedKey){
var sr = encodeUriComponentStrict(hostName + '/devices/' + deviceId);
var se = Math.round(new Date().getTime() / 1000) + 24 * 3600;
var StringToSign = sr + '\n' + se;
var sig = encodeUriComponentStrict(CryptoJS.HmacSHA256(StringToSign, CryptoJS.enc.Base64.parse(sharedKey)).toString(CryptoJS.enc.Base64));
return 'SharedAccessSignature sr=' + sr + '&sig=' + sig + '&se=' + se;
}
var client = mqtt.connect({
host:host,
port:443,
path:'/$iothub/websocket?iothub-no-client-cert=true',
protocol: 'mqtts',
protocolId: 'MQTT',
protocolVersion: 4,
clientId:deviceId,
username: host+'/'+deviceId+'/api-version=2016-11-14',
password: getSaSToken(host,deviceId,sharedKey),
keepalive: 30000
})
client.on('connect',function(packet){
console.log('mqtt connected!',packet);
client.subscribe(topic);
})
client.on('reconnect',function(){
console.log('mqtt reconnected!');
})
client.on('close',function(c){
console.log('mqtt closed!',c);
})
client.on('message',function(topic, message, packet){
var string = new TextDecoder("utf-8").decode(message);
console.log('receive!',string);
})
How to get device id and device key:
Login azure
All resources and find your iot hub
Device Explorer
Click the device which you want to connect or create one
Send a test message:
Click "Send Message"
Type something and send
You will see "receive! this is a test!" on your browser console

Related

How can we set Proxy setting for Provisioning of Azure IOT device

We are using this repo : https://github.com/Azure/azure-iot-sdk-node
We are trying to setup a DPS service for Azure Iot hub, we want to setup proxy for Provisioning through X509, In the Sample code : "register_x509.js"
We are using "var Transport = require('azure-iot-provisioning-device-mqtt').MqttWs;" library. In that, there is function call "setTransportOptions" and we sending our proxy agent as a permeant there :
var transport = new Transport();
transport.setTransportOptions({webSocketAgent:new HttpsProxyAgent(process.env.HTTP_PROXY)})
var securityClient = new X509Security(registrationId, deviceCert);
var deviceClient = ProvisioningDeviceClient.create(
provisioningHost,
idScope,
transport,
securityClient
);
// Register the device. Do not force a re-registration.
deviceClient.register(function (err, result) {
if (err) {
console.log("error registering device: " + err);
} else {
console.log("registration succeeded");
console.log("assigned hub=" + result.assignedHub);
console.log("deviceId=" + result.deviceId);
}
the initial tunneling is not happening due to which the connection is fialing. We also saw in documentation, that Azure SDK has a proxy filter which automatically take Proxy variable from environment, we tried that as well but still same issue. Can anyone please suggest a way for this use case.
Error we received : UnhandledPromiseRejectionWarning: Error: socket hang up

Azure function to send telemetry data to iotDevice

I am trying to develop a azure function that receives messages from one the built-in eventhub process it and send the result to another IoT Device configured in the Azure IoT Hub.
Below is the code:
module.exports = function (context, IoTHubMessages) {
var Mqtt = require('azure-iot-device-mqtt').Mqtt;
var DeviceClient = require('azure-iot-device').Client
var Message = require('azure-iot-device').Message
var connectionString = '{connectionstring of the target device}';
var acRoom1 = DeviceClient.fromConnectionString(connectionString, Mqtt);
var totalPerson = 0;
var events = IoTHubMessages.length;
context.log(JSON.stringify(IoTHubMessages));
context.log(Array.isArray(IoTHubMessages));
context.log(`Number of entries: ${IoTHubMessages.length}`);
IoTHubMessages.forEach(message => {
context.log(`Processed message: ${JSON.stringify(message)}`);
totalPerson = totalPerson + message.personCount;
context.log(`Total count: ${totalPerson}`);
});
var avgPersonCount = Math.round( totalPerson / events );
context.log(`Average person count: ${avgPersonCount}`);
var temp = 24;
if ( avgPersonCount > 5){
temp = 20;
}
else if ((avgPersonCount>2) && (avgPersonCount <= 5)){
temp = 22;
}
else {
temp = 24;
}
var msg = new Message(`Setting temperature to ${temp} C`);
context.log('Sending message: ' + msg.getData());
context.log(`Temeperature set to ${temp} C`);
acRoom1.sendEvent(msg);
context.done();
};
The issue I have is that the event that I am sending to device is coming back to this azure functions again. I believe, i need to do something in the Message Routing, but not sure what needs to be done.
The flow of the entire solution ( that I want to achieve ) is as below
Camera -- > Azure IOT Hub --> Azure Function --> AC
So please follow as below example shows on Message routing.
Routing on Message Body If you are routing on $body.property
You have to add the property in the body payload which is being sent by the device (device code is not shown here, only portal query is shown here).
and you can test it out by...
Routing on system property
The Iot Hub will assign this property on every message , so simply do setting on Portal side.(just give device name in the query, for quick you can test by using it on portal side)
App Property as said by Matthijs in his response, below snap shows on device C# sample code. And then you have to write the query which matches the app property.
Verify on Destination side In my example the destination is Blob container.
You could filter events by device ID, but a more scalable way would be to add an appProperty. If you want to send all the AC events to a different endpoint, you can add an appProperty to the message the AC is sending. Example:
var msg = new Message(`Setting temperature to ${temp} C`);
msg .properties.add('eventType', 'AC');
context.log('Sending message: ' + msg.getData());
context.log(`Temeperature set to ${temp} C`);
acRoom1.sendEvent(msg);
After that, you can go to your IoT Hub and add a new route. You can route these events to a different endpoint like so:
Because your camera doesn't send this appProperty, it will rely on the fallback route and your Azure Function will still handle those events. Another, perhaps more reliant option is to send only the camera messages to a specific route. But either will work!
I figured out the answer. Thanks to #Matthijs van der Veer for the hint.
1. Firstly disable the fall back rule. Now I have a 2 route
Instead of azure-iot-device package, i shifted to azure-iothub package.
module.exports = function (context, IoTHubMessages) {
var Client = require('azure-iothub').Client;
var Message = require('azure-iot-common').Message;
var connectionString = '{connection-string-policy-service}';
var targetDevice = '{destination-deviceid}';
var serviceClient = Client.fromConnectionString(connectionString);
serviceClient.open(function (err) {
if (err) {
context.log('Could not connect: ' + err.message);
}
});
var totalPerson = 0;
var events = IoTHubMessages.length;
context.log(JSON.stringify(IoTHubMessages));
context.log(`Number of entries: ${IoTHubMessages.length}`);
IoTHubMessages.forEach(message => {
context.log(`Processed message: ${JSON.stringify(message)}`);
totalPerson = totalPerson + message.personCount;
context.log(`Total count: ${totalPerson}`);
});
var avgPersonCount = Math.round( totalPerson / events );
context.log(`Average person count: ${avgPersonCount}`);
var temp = 24;
if ( avgPersonCount > 5){
temp = 20;
}
else if ((avgPersonCount>2) && (avgPersonCount <= 5)){
temp = 22;
}
else {
temp = 24;
}
var msg = new Message(`Setting temperature to ${temp} C`);
msg .properties.add('eventType', 'AC');
context.log('Sending message: ' + msg.getData());
context.log(`Temeperature set to ${temp} C`);
serviceClient.send(targetDevice, msg);
context.done();
};

Connect React Native App to Azure IoT Service

I am fairly new to React Native, but I created a simple app that has a button and a text that changes when the button is clicked. However, I want to connect to the IoT hub and receive information from the hub.
I am having issues currently with the connection. Here is my code:
import React from 'react';
import {StyleSheet, Dimensions, Alert, Text, View, Image, Button} from 'react-native';
const { width, height } = Dimensions.get("window");
'use strict';
var iothub = require('azure-iothub');
var connectionString = 'connection string';
var Mqtt = require('azure-iot-device-mqtt').Mqtt;
var DeviceClient = require('azure-iot-device').Client
var Message = require('azure-iot-device').Message;
var client = DeviceClient.fromConnectionString(connectionString, Mqtt);
// Create a message and send it to the IoT hub every second
setInterval(function(){
// Simulate telemetry.
var temperature = 20 + (Math.random() * 15);
var message = new Message(JSON.stringify({
temperature: temperature,
humidity: 60 + (Math.random() * 20)
}));
// Add a custom application property to the message.
// An IoT hub can filter on these properties without access to the message body.
message.properties.add('temperatureAlert', (temperature > 30) ? 'true' : 'false');
console.log('Sending message: ' + message.getData());
// Send the message.
client.sendEvent(message, function (err) {
if (err) {
console.error('send error: ' + err.toString());
} else {
console.log('message sent');
}
});
}, 1000);
The above part is a Node.js code, but I want to use it in a React application. How do I use Node packages in React?
I am getting the following error: Could not connect to development server.
Thanks.
As in your other question, I would suggest you take a look at Azure IoT Starter Kit Companion, which is a sample React Native application that helps you get your IoT device connected to an IoT Hub on iOS, Android and Windows.
Hope it helps!
Small point, you should NOT publish your connection strings. This is a rather large security issue.
As mentioned in your other question, the Azure IoT Hub Device SDK needs a Node.js runtime, which does not exists within the React Native app.
There is a plugin called nodejs-mobile-react-native for React Native that brings in the Node.js runtime and enables you to run Node.js apps alongside your React Native application.
I have written a detailed blog post about this topic outlining the steps necessary to achieve this.

Sending Messages from Leaf Device Downstream device not being handled by IoT Edge running at Transparent Gateway

I have followed all the instruction for setting up a "Downstream Device" to send messages through IoT Edge running in Transparent Gateway. I believe my routing rules are correct, but my Function module is not receiving any of the Messages through the message flow.
These are the instruction I've followed:
https://learn.microsoft.com/en-us/azure/iot-edge/how-to-create-transparent-gateway-linux
I am using 2 Linxu VMs (ubuntu 16.04.5).
IoT Edge Transparent Gateway VM is configured with all the certs properly setup, configured and verified. I've been able to using the openssl tool from the
openssl s_client -connect {my-gateway-machine-name-dns-name}.centralus.cloudapp.azure.com:8883 -CAfile /certs/certs/azure-iot-test-only.root.ca.cert.pem -showcerts
Downstream device running on Linux VM with Certs installed and verified. My connection string is as follows:
HostName={IoTHubName}.azure-devices.net;DeviceId=TC51_EdgeDownStreamDevice01;SharedAccessKey={My-Shared-Access-Key}=GatewayHostName={my-gateway-machine-name-dns-name}.centralus.cloudapp.azure.com
a. I have verified I get a successful verification of the SSL cert using the openssl tool.
b. I'm using the the following in my downstream device for my connection using the NodeJS SDK
var client = DeviceClient.fromConnectionString(connectionString, Mqtt);
c. I can see the messages showing up at the Azure IoT Hub in the Cloud, but I can't get my module running on the IoT Edge Transparent Gateway to be hit.
Here are my routing rules configured for the edgeHub as specified in "Routing messages from downstream devices" in the sample doc page.
This is what the example docs show:
{ "routes":{ "sensorToAIInsightsInput1":"FROM /messages/* WHERE NOT IS_DEFINED($connectionModuleId) INTO BrokeredEndpoint(\"/modules/ai_insights/inputs/input1\")", "AIInsightsToIoTHub":"FROM /messages/modules/ai_insights/outputs/output1 INTO $upstream" } }
This is what my routing configuration is set to:
"routes": {
"downstreamBatterySensorToBatteryDataFunctionInput1": "FROM /* WHERE NOT IS_DEFINED($connectionModuleId) INTO BrokeredEndpoint(\"/modules/BatteryDataFunctionModule/inputs/input1\")",
"BatteryDataFunctionModuleToIoTHub": "FROM /messages/modules/BatteryDataFunctionModule/outputs/* INTO $upstream"
}
** Note that I've used by "FROM /* WHERE NOT IS_DEFINED" and "FROM /messages/* WHERE NOT IS_DEFINED"
My module on the IoT Edge is setup as a Function. When I use the out of the box example where the simulator device is another module running on the IoT Edge, then my function is hit correctly. Its only when I'm trying to use a "Downstream Device" that the module is not being triggered.
I have enabled "Debug Logging for the IoT Edge Service" running on my Transparent Gateway.
This is the basic Run method for the Function module:
#r "Microsoft.Azure.Devices.Client"
#r "Newtonsoft.Json"
using System.IO;
using Microsoft.Azure.Devices.Client;
using Newtonsoft.Json;
using Newtonsoft.Json.Linq;
// Filter messages based on the temperature value in the body of the message and the temperature threshold value.
public static async Task Run(Message messageReceived, IAsyncCollector<Message> output, TraceWriter log)
{
How can I figure out how to get my Module running in IoT Edge to be hit/triggered from a Downstream device?
So, you say you are seeing messages show up in IoT Hub, but not in Edge... A couple of things:
you posted this as your connection string in your node app:
HostName={IoTHubName}.azure-devices.net;DeviceId=TC51_EdgeDownStreamDevice01;SharedAccessKey={My-Shared-Access-Key}=GatewayHostName={my-gateway-machine-name-dns-name}.centralus.cloudapp.azure.com
Did you copy/paste this exactly? the reason I ask is that, between the shared access key and the word "GatewayHostName", you have an equals sign and not a semi-colon..
it should be:
HostName={IoTHubName}.azure-devices.net;DeviceId=TC51_EdgeDownStreamDevice01;SharedAccessKey={My-Shared-Access-Key};GatewayHostName={my-gateway-machine-name-dns-name}.centralus.cloudapp.azure.com
(note the ';' before GatewayHostName… if you really did have an equals sign there instead of a semicolon, there's no telling what kind of chaos that would cause :-)
Secondly, in your route, you call your module BatteryDataFunctionModule.. just want to make sure that module name is exact, including being case-sensitive. You probably know that, but don't want to assume..
Finally, if the two things above check out, can you add an addition debugging route that sends the 'incoming data' to IoTHub as well..
"FROM /* WHERE NOT IS_DEFINED($connectionModuleId) INTO $upstream"
so we can make sure the messages are actually making it through iot edge.
There are 2 problems that needed to be addressed to get the Downstream Device to communication
Thanks to #Steve-Busby-Msft I needed to have a semi-colon (;) at the end of the SharedAccessKey and before the GatewayHostName
you posted this as your connection string in your node app: HostName={IoTHubName}.azure-devices.net;DeviceId=TC51_EdgeDownStreamDevice01;SharedAccessKey={My-Shared-Access-Key}=GatewayHostName={my-gateway-machine-name-dns-name}.centralus.cloudapp.azure.com
The NodeJS application Downstream Device also has to load up the cert correctly at the 'Application level'.
Notice the section of code for
var edge_ca_cert_path = '[Path to Edge CA certificate]';
Node JS Downstream Application
'use strict';
var fs = require('fs');
var Protocol = require('azure-iot-device-mqtt').Mqtt;
// Uncomment one of these transports and then change it in fromConnectionString to test other transports
// var Protocol = require('azure-iot-device-http').Http;
// var Protocol = require('azure-iot-device-amqp').Amqp;
var Client = require('azure-iot-device').Client;
var Message = require('azure-iot-device').Message;
// 1) Obtain the connection string for your downstream device and to it
// append this string GatewayHostName=<edge device hostname>;
// 2) The edge device hostname is the hostname set in the config.yaml of the Edge device
// to which this sample will connect to.
//
// The resulting string should look like the following
// "HostName=<iothub_host_name>;DeviceId=<device_id>;SharedAccessKey=<device_key>;GatewayHostName=<edge device hostname>"
var connectionString = '[Downstream device IoT Edge connection string]';
// Path to the Edge "owner" root CA certificate
var edge_ca_cert_path = '[Path to Edge CA certificate]';
// fromConnectionString must specify a transport constructor, coming from any transport package.
var client = Client.fromConnectionString(connectionString, Protocol);
var connectCallback = function (err) {
if (err) {
console.error('Could not connect: ' + err.message);
} else {
console.log('Client connected');
client.on('message', function (msg) {
console.log('Id: ' + msg.messageId + ' Body: ' + msg.data);
// When using MQTT the following line is a no-op.
client.complete(msg, printResultFor('completed'));
// The AMQP and HTTP transports also have the notion of completing, rejecting or abandoning the message.
// When completing a message, the service that sent the C2D message is notified that the message has been processed.
// When rejecting a message, the service that sent the C2D message is notified that the message won't be processed by the device. the method to use is client.reject(msg, callback).
// When abandoning the message, IoT Hub will immediately try to resend it. The method to use is client.abandon(msg, callback).
// MQTT is simpler: it accepts the message by default, and doesn't support rejecting or abandoning a message.
});
// Create a message and send it to the IoT Hub every second
var sendInterval = setInterval(function () {
var windSpeed = 10 + (Math.random() * 4); // range: [10, 14]
var temperature = 20 + (Math.random() * 10); // range: [20, 30]
var humidity = 60 + (Math.random() * 20); // range: [60, 80]
var data = JSON.stringify({ deviceId: 'myFirstDownstreamDevice', windSpeed: windSpeed, temperature: temperature, humidity: humidity });
var message = new Message(data);
message.properties.add('temperatureAlert', (temperature > 28) ? 'true' : 'false');
console.log('Sending message: ' + message.getData());
client.sendEvent(message, printResultFor('send'));
}, 2000);
client.on('error', function (err) {
console.error(err.message);
});
client.on('disconnect', function () {
clearInterval(sendInterval);
client.removeAllListeners();
client.open(connectCallback);
});
}
};
// Provide the Azure IoT device client via setOptions with the X509
// Edge root CA certificate that was used to setup the Edge runtime
var options = {
ca : fs.readFileSync(edge_ca_cert_path, 'utf-8'),
};
client.setOptions(options, function(err) {
if (err) {
console.log('SetOptions Error: ' + err);
} else {
client.open(connectCallback);
}
});

Solace nodejs api to retrieve message from message spool Queue

While doing connect through the Nodejs api to the Solace message persistence queue, we encounter error:
{"message":"Consumer is not supported by router for this client","name":"OperationError","subcode":3,"reason":null}
on using the Solace Node.js API sample to connected to the Persistence Message Queue with the Web Message URI using soladmin.
consumer.connect = function (argv) {
if (consumer.session !== null) {
consumer.log('Already connected and ready to consume messages.');
return;
}
// extract params
//if (argv.length < (2 + 3)) { // expecting 3 real arguments
if (argv.length < 4) {
consumer.log('Cannot connect: expecting all arguments' +
'[<protocol://host[:port]>, <client-username>, <message-vpn>, <client-password>].\n' +
'Available protocols are ws://, wss://, http://, https://');
process.exit();
}
var hosturl = argv[0] //argv.slice(2)[0];
consumer.log('Connecting to Solace message router using url: ' + hosturl);
//var usernamevpn = argv.slice(3)[0];
var username = argv[1]//usernamevpn.split('#')[0];
consumer.log('Client username: ' + username);
var vpn = argv[2]//usernamevpn.split('#')[1];
consumer.log('Solace message router VPN name: ' + vpn);
var pass = argv[3]//argv.slice(4)[0];
// create session
try {
consumer.session = solace.SolclientFactory.createSession({
// solace.SessionProperties
url: hosturl,
vpnName: vpn,
userName: username,
password: pass,
});
} catch (error) {
consumer.log(error.toString());
}
The message "Consumer is not supported by router for this client" indicates that the issue is on the remote end.
Check if the client-profile allows the client to receive guaranteed messages. Otherwise, there may be a problem with the message spool that prevents the message broker from providing guaranteed messaging service.
The code snippet in the question is for initiating a connection only, and has nothing to do with connecting to the queue. The operation that failed should be
consumer.messageConsumer.connect();

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