# Node.js Function Developer's Guide When creating a Node.js function using the `func` CLI, the project directory looks like a typical Node.js project. Both HTTP and Event functions have the same template structure. ``` ❯ func create fn Project path: /home/developer/projects/fn Function name: fn Runtime: node ❯ tree fn fn ├── func.yaml ├── index.js ├── package.json ├── README.md └── test ├── integration.js └── unit.js ``` Aside from the `func.yaml` file, this looks like the beginning of just about any Node.js project. For now, we will ignore the `func.yaml` file, and just say that it is a configuration file that is used when building your project. If you're really interested, check out the [reference doc](../reference/func_yaml.md). To learn more about the CLI and the details for each supported command, see the [CLI Commands document](../reference/func.md). ## Running the function locally To run a function, you'll first need to build it. This step creates an OCI container image that can be run locally on your computer, or on a Kubernetes cluster. ``` ❯ func build ``` After the function has been built, it can be run locally. ``` ❯ func run ``` Functions can be invoked with a simple HTTP request. You can test to see if the function is working by using your browser to visit http://localhost:8080. You can also access liveness and readiness endpoints at http://localhost:8080/health/liveness and http://localhost:8080/health/readiness. These two endpoints are used by Kubernetes to determine the health of your function. If everything is good, both of these will return `OK`. ## Deploying the function to a cluster To deploy your function to a Kubernetes cluster, use the `deploy` command. ``` ❯ func deploy ``` You can get the URL for your deployed function with the `info` command. ``` ❯ func info ``` ## Testing a function locally Node.js functions can be tested locally on your computer. In the project there is a `test` folder which contains some simple unit and integration tests. To run these locally, you'll need to install the required dependencies. You do this as you would with any Node.js project. ``` ❯ npm install ``` Once you have done this, you can run the provided tests with `npm test`. The default test framework for Node.js functions is [`tape`](https://www.npmjs.com/package/tape). If you prefer another, that's no problem. Just remove the `tape` dependency from `package.json` and install a test framework more to your liking. ## Function reference Boson Node.js functions have very few restrictions. You can add any required dependencies in `package.json`, and you may include additional local JavaScript files. The only real requirements are that your project contain an `index.js` file which exports a single function. In this section, we will look in a little more detail at how Boson functions are invoked, and what APIs are available to you as a developer. ### Invocation parameters When using the `func` CLI to create a function project, you may choose to generate a project that responds to a `CloudEvent` or simple HTTP. `CloudEvents` in Knative are transported over HTTP as a `POST` request, so in many ways, the two types of functions are very much the same. They each will listen and respond to incoming HTTP events. When an incoming request is received, your function will be invoked with a `Context` object as the first parameter. If the incoming request is a `CloudEvent`, it will be provided as the second parameter. For example, a `CloudEvent` is received which contains a JSON string such as this in its data property, ```json { "customerId": "0123456", "productId": "6543210" } ``` So to log that string from your function, you might do this: ```js function handle(context, event) { console.log(JSON.stringify(event.data, null, 2)); } ``` ### Return Values Functions may return any valid JavaScript type, or nothing at all. When a function returns nothing, and no failure is indicated, the caller will receive a `204 No Content"` response. Functions may also return a `CloudEvent`, or a `Message` object in order to push events into the Knative eventing system. In this case, the developer is not required to understand or implement the CloudEvent messaging specification. Headers and other relevant information from the returned values are extracted and sent with the response. #### Example ```js function handle(context, event) { return processCustomer(event.data) } function processCustomer(customer) { // process customer and return a new CloudEvent return new CloudEvent({ source: 'customer.processor', type: 'customer.processed' }) } ``` ### Response headers Functions may additionally set headers to be sent with the response by adding a `headers` property to the object being returned. These headers will be extracted and sent with the response to the caller. #### Example ```js function processCustomer(customer) { // process customer and return custom headers // the response will be '204 No content' return { headers: { customerid: customer.id } }; } ``` ### Response codes Developers may set the response code returned to the caller by adding a `statusCode` property to the response. #### Example ```js function processCustomer(customer) { // process customer if (customer.restricted) { return { statusCode: 451 } } } ``` This also works with `Error` objects thrown from the function. #### Example ```js function processCustomer(customer) { // process customer if (customer.restricted) { const err = new Error(‘Unavailable for legal reasons’); err.statusCode = 451; throw err; } } ``` ## The Context Object Functions are invoked with a context object as the first parameter. This object provides access to the incoming request information. Developers can get the HTTP request method, any query strings sent with the request, the headers, the HTTP version, the request body. If the incoming request is a `CloudEvent`, the `CloudEvent` itself will also be found on the context object. The `Context` object has several properties that may be accessed by the function developer. ### `log` Provides a logging object that can be used to write output to the cluster logs. The log adheres to the Pino logging API. For detailed documentation on this logging instance, see the Pino API documentation (https://getpino.io/#/docs/api). #### Example ```js Function handle(context) { context.log.info(“Processing customer”); } ``` Access the function via `curl` to invoke it. ```sh curl http://example.com ``` The function will log ```console {"level":30,"time":1604511655265,"pid":3430203,"hostname":"localhost.localdomain","reqId":1,"msg":"Processing customer"} ``` #### Setting the log level Developers can control the log level by setting the `logLevel` value in `func.yaml` The possible options for this adhere to the options available for [`pino`](https://getpino.io/#/docs/api?id=level-string), and may be one of `'fatal'`, `'error'`, `'warn'`, `'info'`, `'debug'`, `'trace'` or `'silent'`. To temporarily override this value, set the environment variable `FUNC_LOG_LEVEL` to one of the options listed above. To set the environment variable, use the [`config` command](commands#config). ### `query` Returns the query string for the request, if any, as key value pairs. These attributes are also found on the context object itself. #### Example ```js Function handle(context) { // Log the 'name' query parameter context.log.info(context.query.name); // Query parameters also are attached to the context context.log.info(context.name); } ``` Access the function via `curl` to invoke it. ```sh curl http://example.com?name=tiger ``` The function will log ```console {"level":30,"time":1604511655265,"pid":3430203,"hostname":"localhost.localdomain","reqId":1,"msg":"tiger"} {"level":30,"time":1604511655265,"pid":3430203,"hostname":"localhost.localdomain","reqId":1,"msg":"tiger"} ``` ### `body` Returns the request body if any. If the request body contains JSON, this will be parsed so that the attributes are directly available. #### Example ```js Function handle(context) { // log the incoming request body's 'hello' parameter context.log.info(context.body.hello); } ``` Access the function via `curl` to invoke it. ```console curl -X POST -d '{"hello": "world"}' -H'Content-type: application/json' http://example.com ``` The function will log ```console {"level":30,"time":1604511655265,"pid":3430203,"hostname":"localhost.localdomain","reqId":1,"msg":"world"} ``` ### `headers` Returns the HTTP request headers as an object. #### Example ```js Function handle(context) { context.log.info(context.headers[custom-header]); } ``` Access the function via `curl` to invoke it. ```console curl -H'x-custom-header: some-value’' http://example.com ``` The function will log ```console {"level":30,"time":1604511655265,"pid":3430203,"hostname":"localhost.localdomain","reqId":1,"msg":"some-value"} ``` ### `method` Returns the HTTP request method as a string. ### `httpVersion` Returns the HTTP version as a string. ### `httpVersionMajor` Returns the HTTP major version number as a string. ### `httpVersionMinor` Returns the HTTP minor version number as a string. ### `httpVersionMinor` Returns the HTTP minor version number as a string. ## Context Methods There is a single method on the `Context` object which is a convenience function for returning a `CloudEvent` object. In Knative systems, if a function service is invoked by an event broker with a `CloudEvent`, the broker will examine the response. If the response is a `CloudEvent`, this event will then be handled by the broker just as with any other event it receives. ### cloudEventResponse() A function which accepts a data value and returns a CloudEvent. #### Example ```js // Expects to receive a CloudEvent with customer data function handle(context, event) { // process the customer const processed = processCustomer(event.data); return context.cloudEventResponse(processed); } ``` ## Dependencies Developers are not restricted to the dependencies provided in the template `package.json` file. Additional dependencies can be added as they would be in any other Node.js project. ### Example ```console npm install --save opossum ``` When the project is built for deployment, these dependencies will be included in the resulting runtime container image.