Developing TypeScript functions - Functions | Serverless

Prerequisites
TypeScript function template structure
About invoking TypeScript functions
- TypeScript context objects
TypeScript function return values
- Returning headers
- Returning status codes
Testing TypeScript functions
Next steps

OpenShift Serverless Functions is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process.

For more information about the support scope of Red Hat Technology Preview features, see https://access.redhat.com/support/offerings/techpreview/.

After you have created a TypeScript function project, you can modify the template files provided to add business logic to your function. This includes configuring function invocation and the returned headers and status codes.

Prerequisites

Before you can develop functions, you must complete the steps in Setting up OpenShift Serverless Functions.

TypeScript function template structure

When you create a TypeScript function using the Knative (kn) CLI, the project directory looks like a typical TypeScript project. The only exception is the additional func.yaml file, which is used for configuring the function.

Both http and event trigger functions have the same template structure:

Template structure

.
├── func.yaml (1)
├── package.json (2)
├── package-lock.json
├── README.md
├── src
│   └── index.ts (3)
├── test (4)
│   ├── integration.ts
│   └── unit.ts
└── tsconfig.json

1	The `func.yaml` configuration file is used to determine the image name and registry.
2	You are not restricted to the dependencies provided in the template `package.json` file. You can add additional dependencies as you would in any other TypeScript project. Example of adding npm dependencies `npm install --save opossum` When the project is built for deployment, these dependencies are included in the created runtime container image.
3	Your project must contain an `src/index.js` file which exports a function named `handle`.
4	Integration and unit test scripts are provided as part of the function template.

About invoking TypeScript functions

When using the Knative (kn) CLI to create a function project, you can generate a project that responds to CloudEvents or one that responds to simple HTTP requests. CloudEvents in Knative are transported over HTTP as a POST request, so both function types listen for and respond to incoming HTTP events.

TypeScript functions can be invoked with a simple HTTP request. When an incoming request is received, functions are invoked with a context object as the first parameter.

TypeScript context objects

To invoke a function, you provide a context object as the first parameter. Accessing properties of the context object can provide information about the incoming HTTP request.

Example context object

function handle(context:Context): string

This information includes the HTTP request method, any query strings or headers sent with the request, the HTTP version, and the request body. Incoming requests that contain a CloudEvent attach the incoming instance of the CloudEvent to the context object so that it can be accessed by using context.cloudevent.

Context object methods

The context object has a single method, cloudEventResponse(), that accepts a data value and returns a CloudEvent.

In a Knative system, if a function deployed as a service is invoked by an event broker sending a CloudEvent, the broker examines the response. If the response is a CloudEvent, this event is handled by the broker.

Example context object method

// Expects to receive a CloudEvent with customer data
export function handle(context: Context, cloudevent?: CloudEvent): CloudEvent {
  // process the customer
  const customer = cloudevent.data;
  const processed = processCustomer(customer);
  return context.cloudEventResponse(customer)
    .source('/customer/process')
    .type('customer.processed')
    .response();
}

Context types

The TypeScript type definition files export the following types for use in your functions.

Exported type definitions

// Invokable is the expeted Function signature for user functions
export interface Invokable {
    (context: Context, cloudevent?: CloudEvent): any
}

// Logger can be used for structural logging to the console
export interface Logger {
  debug: (msg: any) => void,
  info:  (msg: any) => void,
  warn:  (msg: any) => void,
  error: (msg: any) => void,
  fatal: (msg: any) => void,
  trace: (msg: any) => void,
}

// Context represents the function invocation context, and provides
// access to the event itself as well as raw HTTP objects.
export interface Context {
    log: Logger;
    req: IncomingMessage;
    query?: Record<string, any>;
    body?: Record<string, any>|string;
    method: string;
    headers: IncomingHttpHeaders;
    httpVersion: string;
    httpVersionMajor: number;
    httpVersionMinor: number;
    cloudevent: CloudEvent;
    cloudEventResponse(data: string|object): CloudEventResponse;
}

// CloudEventResponse is a convenience class used to create
// CloudEvents on function returns
export interface CloudEventResponse {
    id(id: string): CloudEventResponse;
    source(source: string): CloudEventResponse;
    type(type: string): CloudEventResponse;
    version(version: string): CloudEventResponse;
    response(): CloudEvent;
}

CloudEvent data

If the incoming request is a CloudEvent, any data associated with the CloudEvent is extracted from the event and provided as a second parameter. For example, if a CloudEvent is received that contains a JSON string in its data property that is similar to the following:

{
  "customerId": "0123456",
  "productId": "6543210"
}

When invoked, the second parameter to the function, after the context object, will be a JavaScript object that has customerId and productId properties.

Example signature

function handle(context: Context, cloudevent?: CloudEvent): CloudEvent

The cloudevent parameter in this example is a JavaScript object that contains the customerId and productId properties.

TypeScript function return values

Functions can return any valid JavaScript type or can have no return value. When a function has no return value specified, and no failure is indicated, the caller receives a 204 No Content response.

Functions can 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

export const handle: Invokable = function (
  context: Context,
  cloudevent?: CloudEvent
): Message {
  // process customer and return a new CloudEvent
  const customer = cloudevent.data;
  return HTTP.binary(
    new CloudEvent({
      source: 'customer.processor',
      type: 'customer.processed'
    })
  );
};

Returning headers

You can set a response header by adding a headers property to the return object. These headers are extracted and sent with the response to the caller.

Example response header

export function handle(context: Context, cloudevent?: CloudEvent): Record<string, any> {
  // process customer and return custom headers
  const customer = cloudevent.data as Record<string, any>;
  return { headers: { 'customer-id': customer.id } };
}

Returning status codes

You can set a status code that is returned to the caller by adding a statusCode property to the return object:

Example status code

export function handle(context: Context, cloudevent?: CloudEvent): Record<string, any> {
  // process customer
  const customer = cloudevent.data as Record<string, any>;
  if (customer.restricted) {
    return {
      statusCode: 451
    }
  }
  // business logic, then
  return {
    statusCode: 240
  }
}

Status codes can also be set for errors that are created and thrown by the function:

Example error status code

export function handle(context: Context, cloudevent?: CloudEvent): Record<string, string> {
  // process customer
  const customer = cloudevent.data as Record<string, any>;
  if (customer.restricted) {
    const err = new Error(‘Unavailable for legal reasons’);
    err.statusCode = 451;
    throw err;
  }
}

Testing TypeScript functions

TypeScript functions can be tested locally on your computer. In the default project that is created when you create a function using kn func create, there is a test folder that contains some simple unit and integration tests.

Prerequisites

The OpenShift Serverless Operator and Knative Serving are installed on the cluster.
You have installed the Knative (kn) CLI.
You have created a function by using kn func create.

Procedure

If you have not previously run tests, install the dependencies first:
```
$ npm install
```
Navigate to the test folder for your function.
Run the tests:
```
$ npm test
```

Next steps

See the TypeScript context object reference documentation.
Build and deploy a function.
See the Pino API documentation for more information on logging with functions.