Migrate to version 4 of the Node.js programming model for Azure Functions
This article discusses the differences between version 3 and version 4 of the Node.js programming model and how to upgrade an existing v3 app. If you want to create a new v4 app instead of upgrading an existing v3 app, see the tutorial for either Visual Studio Code (VS Code) or Azure Functions Core Tools. This article uses "tip" alerts to highlight the most important concrete actions that you should take to upgrade your app.
Version 4 is designed to provide Node.js developers with the following benefits:
- Provide a familiar and intuitive experience to Node.js developers.
- Make the file structure flexible with support for full customization.
- Switch to a code-centric approach for defining function configuration.
Considerations
Note
Version 4 of the Node.js programming model is currently in public preview.
- During preview, the v4 model requires you to set the app setting
AzureWebJobsFeatureFlags
toEnableWorkerIndexing
. For more information, see Enable v4 programming model. - The Node.js "programming model" shouldn't be confused with the Azure Functions "runtime".
- Programming model: Defines how you author your code and is specific to JavaScript and TypeScript.
- Runtime: Defines underlying behavior of Azure Functions and is shared across all languages.
- The programming model version is strictly tied to the version of the
@azure/functions
npm package, and is versioned independently of the runtime. Both the runtime and the programming model use "4" as their latest major version, but that is purely a coincidence. - Keep in mind that you can't mix the v3 and v4 programming models in the same function app. As soon as you register one v4 function in your app, any v3 functions registered in
function.json
files are ignored.
Requirements
Version 4 of the Node.js programming model requires the following minimum versions:
@azure/functions
npm package v4.0.0- Node.js v18+
- Azure Functions Runtime v4.25+
- Azure Functions Core Tools v4.0.5382+ (if running locally)
@azure/functions
npm package v4.0.0- Node.js v18+
- TypeScript v4+
- Azure Functions Runtime v4.25+
- Azure Functions Core Tools v4.0.5382+ (if running locally)
Include the npm package
In v4, the @azure/functions
npm package contains the primary source code that backs the Node.js programming model. In previous versions, that code shipped directly in Azure and the npm package had only the TypeScript types. You now need to include this package for both TypeScript and JavaScript apps. You can include the package for existing v3 apps, but it isn't required.
Tip
Make sure the @azure/functions
package is listed in the dependencies
section (not devDependencies
) of your package.json file. You can install v4 by using the following command:
npm install @azure/functions
Set your app entry point
In v4 of the programming model, you can structure your code however you want. The only files that you need at the root of your app are host.json and package.json.
Otherwise, you define the file structure by setting the main
field in your package.json file. You can set the main
field to a single file or multiple files by using a glob pattern. The following table shows example values for the main
field:
Example | Description |
---|---|
src/index.js |
Register functions from a single root file. |
src/functions/*.js |
Register each function from its own file. |
src/{index.js,functions/*.js} |
A combination where you register each function from its own file, but you still have a root file for general app-level code. |
Example | Description |
---|---|
dist/src/index.js |
Register functions from a single root file. |
dist/src/functions/*.js |
Register each function from its own file. |
dist/src/{index.js,functions/*.js} |
A combination where you register each function from its own file, but you still have a root file for general app-level code. |
Tip
Make sure you define a main
field in your package.json file.
Switch the order of arguments
The trigger input, instead of the invocation context, is now the first argument to your function handler. The invocation context, now the second argument, is simplified in v4 and isn't as required as the trigger input. You can leave it off if you aren't using it.
Tip
Switch the order of your arguments. For example, if you're using an HTTP trigger, switch (context, request)
to either (request, context)
or just (request)
if you aren't using the context.
Define your function in code
You no longer have to create and maintain those separate function.json configuration files. You can now fully define your functions directly in your TypeScript or JavaScript files. In addition, many properties now have defaults so that you don't have to specify them every time.
const { app } = require('@azure/functions');
app.http('httpTrigger1', {
methods: ['GET', 'POST'],
authLevel: 'anonymous',
handler: async (request, context) => {
context.log(`Http function processed request for url "${request.url}"`);
const name = request.query.get('name') || (await request.text()) || 'world';
return { body: `Hello, ${name}!` };
},
});
import { app, HttpRequest, HttpResponseInit, InvocationContext } from '@azure/functions';
export async function httpTrigger1(request: HttpRequest, context: InvocationContext): Promise<HttpResponseInit> {
context.log(`Http function processed request for url "${request.url}"`);
const name = request.query.get('name') || (await request.text()) || 'world';
return { body: `Hello, ${name}!` };
}
app.http('httpTrigger1', {
methods: ['GET', 'POST'],
authLevel: 'anonymous',
handler: httpTrigger1,
});
Tip
Move the configuration from your function.json file to your code. The type of the trigger corresponds to a method on the app
object in the new model. For example, if you use an httpTrigger
type in function.json, call app.http()
in your code to register the function. If you use timerTrigger
, call app.timer()
.
Review your usage of context
In v4, the context
object is simplified to reduce duplication and to make writing unit tests easier. For example, we streamlined the primary input and output so that they're accessed only as the argument and return value of your function handler.
You can't access the primary input and output on the context
object anymore, but you must still access secondary inputs and outputs on the context
object. For more information about secondary inputs and outputs, see the Node.js developer guide.
Get the primary input as an argument
The primary input is also called the trigger and is the only required input or output. You must have one (and only one) trigger.
Version 4 supports only one way of getting the trigger input, as the first argument:
async function httpTrigger1(request, context) {
const onlyOption = request;
async function httpTrigger1(request: HttpRequest, context: InvocationContext): Promise<HttpResponseInit> {
const onlyOption = request;
Tip
Make sure you aren't using context.req
or context.bindings
to get the input.
Set the primary output as your return value
Version 4 supports only one way of setting the primary output, through the return value:
return {
body: `Hello, ${name}!`
};
async function httpTrigger1(request: HttpRequest, context: InvocationContext): Promise<HttpResponseInit> {
// ...
return {
body: `Hello, ${name}!`
};
}
Tip
Make sure you always return the output in your function handler, instead of setting it with the context
object.
Context logging
In v4, logging methods were moved to the root context
object as shown in the following example. For more information about logging, see the Node.js developer guide.
context.log('This is an info log');
context.error('This is an error');
context.warn('This is an error');
Create a test context
Version 3 doesn't support creating an invocation context outside the Azure Functions runtime, so authoring unit tests can be difficult. Version 4 allows you to create an instance of the invocation context, although the information during tests isn't detailed unless you add it yourself.
const testInvocationContext = new InvocationContext({
functionName: 'testFunctionName',
invocationId: 'testInvocationId'
});
Review your usage of HTTP types
The HTTP request and response types are now a subset of the fetch standard. They're no longer unique to Azure Functions.
The types use the undici
package in Node.js. This package follows the fetch standard and is currently being integrated into Node.js core.
HttpRequest
Body. You can access the body by using a method specific to the type that you want to receive:
const body = await request.text(); const body = await request.json(); const body = await request.formData(); const body = await request.arrayBuffer(); const body = await request.blob();
Header:
const header = request.headers.get('content-type');
Query parameter:
const name = request.query.get('name');
HttpResponse
Status:
return { status: 200 };
Body:
Use the
body
property to return most types like astring
orBuffer
:return { body: "Hello, world!" };
Use the
jsonBody
property for the easiest way to return a JSON response:return { jsonBody: { hello: "world" } };
Header. You can set the header in two ways, depending on whether you're using the
HttpResponse
class or theHttpResponseInit
interface:const response = new HttpResponse(); response.headers.set('content-type', 'application/json'); return response;
return { headers: { 'content-type': 'application/json' } };
Tip
Update any logic by using the HTTP request or response types to match the new methods.
Tip
Update any logic by using the HTTP request or response types to match the new methods. You should get TypeScript build errors to help you identify if you're using old methods.
Troubleshoot
See the Node.js Troubleshoot guide.