This package aims to provide a simple, reliable, and generic interface to consume Django Channels REST Framework powered WebSocket APIs.
NOTE: This library is a TypeScript port of channels-api-client to support Django Channels v2, and @hishnash's port of linuxlewis's channels-api: djangochannelsrestframework and channelsmultiplexer.
- Promises encapsulating the request/response cycle
- Subscribe to updates with a callback
- Automatically reconnect when connection is broken (with backoff — thanks to reconnecting-websocket)
- Automatically restart subscriptions on reconnection
- Requests are queued until a connection is made (no need to wait for connection before sending requests)
npm install dcrf-client
const dcrf = require('dcrf-client');
const client = dcrf.connect('wss://example.com');
client.create('people', {name: 'Alex'}).then(person => {
console.info('Created:', person);
});
client.retrieve('people', 4).then(person => {
console.info('Retrieved person 4:', person);
});
client.update('people', 4, {name: 'Johannes', address: '123 Easy St'}).then(person => {
console.info('Overwrote person 4. Properties after change:', person);
});
client.patch('people', 4, {name: 'Jefe'}).then(person => {
console.info('Changed name of person 4. Properties after change:', person);
});
client.delete('people', 4).then(() => {
console.info('Deleted person 4. No one liked them, anyway :)');
});
// Subscribe to updates to person 1
const personalSubscription = client.subscribe('people', 1, (person, action) => {
if (action === 'update') {
console.info('Person 1 was updated:', person);
}
else if (action === 'delete') {
console.info('Person 1 was deleted!');
}
});
// Stop listening for updates
personalSubscription.cancel();
// Make a generic request to a multiplexer stream
client.request('mystream', {key: 'value'}).then(response => {
console.info('Got mystream response, yo:', response);
});
// Subscribe using a custom action
const customSubscription = client.subscribe(
'people',
{}, // Additional arguments may be passed to action
(person, action) => {
if (action === 'create') {
console.info(`Person ${person.pk} was created:`, person);
}
else if (action === 'update') {
console.info(`Person ${person.pk} was updated:`, person);
}
else if (action === 'delete') {
console.info(`Person ${person.pk} was deleted!`);
}
},
{
includeCreateEvents: true,
subscribeAction: 'subscribe_all',
unsubscribeAction: 'unsubscribe_all',
},
);
The client can be customized by passing an object as the second argument to connect()
or createClient()
. The available options are described below.
const dcrf = require('dcrf-client');
const client = dcrf.connect('wss://example.com', {
/**
* Options to pass along to ReconnectingWebsocket
*
* See https://github.com/pladaria/reconnecting-websocket#available-options for more info
*/
websocket: {
WebSocket?: any; // WebSocket constructor, if none provided, defaults to global WebSocket
maxReconnectionDelay?: number; // max delay in ms between reconnections
minReconnectionDelay?: number; // min delay in ms between reconnections
reconnectionDelayGrowFactor?: number; // how fast the reconnection delay grows
minUptime?: number; // min time in ms to consider connection as stable
connectionTimeout?: number; // retry connect if not connected after this time, in ms
maxRetries?: number; // maximum number of retries
maxEnqueuedMessages?: number; // maximum number of messages to buffer until reconnection
startClosed?: boolean; // start websocket in CLOSED state, call `.reconnect()` to connect
debug?: boolean; // enables debug output
},
/**
* Name of serializer field is used to identify objects in subscription event payloads.
*
* Default: 'pk'
*/
pkField: 'id',
/**
* Whether to ensure subscription delete event payloads store the primary key of the object
* in the configured `pkField`, instead of the default 'pk'.
*
* Because subscription delete payloads aren't run through the configured serializer (as the
* objects do not exist), the DCRF backend must pick a field to store the primary key of the
* object in the payload. DCRF chooses 'pk' for this field. If `pkField` is *not* 'pk' (and is
* instead, say, 'id'), then subscription update payloads will return `{id: 123}`, but delete
* payloads will return `{pk: 123}`.
*
* To address the potential inconsistencies between subscription update and delete payloads,
* setting this option to true (default) will cause dcrf-client to replace the 'pk' field with
* the configured `pkField` setting.
*
* Default: true
*/
ensurePkFieldInDeleteEvents: true,
/**
* Customizes the format of a multiplexed message to be sent to the server.
*
* In almost all circumstances, the default behaviour is usually desired.
*
* The default behaviour is reproduced here.
*/
buildMultiplexedMessage(stream: string, payload: object): object {
return {stream, payload};
},
/**
* Customizes the selector (a pattern matching an object) for the response to an API request
*
* In almost all circumstances, the default behaviour is usually desired.
*
* The default behaviour is reproduced here.
*/
buildRequestResponseSelector(stream: string, requestId: string): object {
return {
stream,
payload: {request_id: requestId},
};
},
/**
* Customizes the selector (a pattern matching an object) matching a subscription update event for
* an object.
*
* In almost all circumstances, the default behaviour is usually desired.
*
* The default behaviour is reproduced here.
*/
buildSubscribeUpdateSelector(stream: string, pk: number, requestId: string): object {
return {
stream,
payload: {
action: 'update',
data: {[this.pkField]: pk},
request_id: requestId,
},
};
},
/**
* Customizes the selector (a pattern matching an object) matching a subscription delete event for
* an object.
*
* In almost all circumstances, the default behaviour is usually desired.
*
* The default behaviour is reproduced here.
*/
buildSubscribeDeleteSelector(stream: string, pk: number, requestId: string): object {
return {
stream,
payload: {
action: 'delete',
data: {pk},
request_id: requestId,
},
};
},
/**
* Customizes the payload sent to begin subscriptions
*
* In almost all circumstances, the default behaviour is usually desired.
*
* The default behaviour is reproduced here.
*/
buildSubscribePayload(pk: number, requestId: string): object {
return {
action: 'subscribe_instance',
request_id: requestId,
pk, // NOTE: the subscribe_instance action REQUIRES the literal argument `pk`.
// this argument is NOT the same as the ID field of the model.
};
},
preprocessPayload: (stream, payload, requestId) => {
// Modify payload any way you see fit, before it's sent over the wire
// For instance, add a custom authentication token:
payload.token = '123';
// Be sure not to return anything if you modify payload
// Or, you can overwrite the payload by returning a new object:
return {'this': 'is my new payload'};
},
preprocessMessage: (message) => {
// The "message" is the final value which will be serialized and sent over the wire.
// It includes the stream and the payload.
// Modify the message any way you see fit, before its sent over the wire.
message.token = 'abc';
// Don't return anything if you modify message
// Or, you can overwrite the the message by returning a new object:
return {stream: 'creek', payload: 'craycrayload'};
},
});
There are two main test suites: unit tests (in test/test.ts
) to verify intended behaviour of the client, and integration tests (in test/integration/tests/test.ts
) to verify the client interacts with the server properly.
Both suites utilize Mocha as the test runner, though the integration tests are executed through py.test, to provide a live server to make requests against.
The integration tests require separate dependencies. To install them, first install pipenv, then run pipenv install --dev
.
To run both test suites: npm run test
To run unit tests: npm run test:unit
or mocha
To run integration tests: npm run test:integration
or pipenv run py.test
pytest provides a number of hooks to modify how tests are collected, executed, and reported. These are utilized to discover tests from a Mocha suite, and execute them on pytest's command.
Our pytest-mocha plugin first spawns a subprocess to a custom Mocha runner, which collects its own TypeScript-based tests and emits that test info in JSON format to stdout. pytest-mocha reads this info and reports it to pytest, allowing pytest to print out the true names from the Mocha suite. Using deasync, the Mocha process waits for pytest-mocha to send an acknowledgment (a newline) to stdin before continuing.
pytest-mocha then spins up a live Daphne server for the tests to utilize. Before each test, the Mocha suite emits another JSON message informing pytest-mocha which test is about to run. pytest-mocha replies with the connection info in JSON format to the Mocha runner's stdin. The Mocha suite uses this to initialize a DCRFClient for each test.
At the end of each test, Mocha emits a "test ended" message. pytest-mocha then wipes the database (with the help of pytest-django) for the next test run.
NOTE: this is sorta complicated and brittle. it would be nice to refactor this into something more robust. at least for now it provides some assurance the client interacts with the server properly, and also serves as an example for properly setting up a Django Channels project.