A framework for building distributed applications and the coolest of Jupiter's moons.
If coming from @cel/io, please see the migration guide.
npm install @cisl/io
NodeJS
const io = require('@cisl/io')();
// or through instantation of a new class
const Io = require('@cisl/io/io').Io;
const io = new Io();
TypeScript:
import io from '@cisl/io';
// or through instantation of a new class
import { Io } from '@cisl/io/io';
const otherIo = new Io();
The configuration for applications using @cisl/io should be stored in the cog.json file. This is then internally stored
as a JSON object at io.config.
The core of Io, which is always available consists of the following methods:
This function when calls, returns a v4 uuid string with dashes.
RabbitMQ requires the rabbit value to be set, where true will use the defaults below. Any field not set will use these defaults:
{
"rabbit": {
"url": "localhost",
"username": "guest",
"password": "guest",
"exchange": "amq.topic",
"ca": null
}
}
This configuration object has username and password in it, so please don't share it with others and don't commit it to your repository. Your applications can only communicate with each other if they use the same configuration.
You can access the RabbitMQ CelIO object by using io.rabbit.
// where Message is an interface from https://www.squaremobius.net/amqp.node/
interface RabbitMessage extends Omit<Message, 'content'> {
content: Buffer | string | number | object;
fields: MessageFields;
properties: MessageProperties;
}
type ReplyCallback = (content: Error | Buffer | string | number | object) => void;
type RpcReplyCallback = (message: RabbitMessage, reply: ReplyCallback, awkFunc?: () => void) => void;
type PublishCallback = (message: RabbitMessage) => void;
// Publish to a RabbitMQ topic on the configured exchange
io.rabbit.publishTopic(topic: string, content: Buffer | string | number | object, options: amqplib.Options.Publish = {}): Promise<boolean>
// Listen to a topic for any new content
io.rabbit.onTopic(topic: string, handler: PublishCallback, exchange?: string): Promise<Replies.Consume>
// Publish to a RPC queue, expecting a callback through the promise
io.rabbit.publishRpc(queue_name: string, content: Buffer | string | number | object, options: amqplib.Options.Publish = {}): Promise<Response>
// Listen on a RPC queue, sending content back through handler
io.rabbit.onRpc(queue_name: string, handler: RpcReplyCallback, exclusive = true): Promise<void>
// Get a list of all queues
io.rabbit.getQueues(): Promise<unknown>
// Listen for any queue creations
io.rabbit.onQueueCreated(handler: (properties: amqplib.MessageProperties) => void): void
// Listen for any queue deletions
io.rabbit.onQueueDeleted(handler: (properties: amqplib.MessageProperties) => void): void
See
amqplib for acceptable
values for the options argument.
For publishTopic and publishRpc allows taking in a variety of types, and internally parses it to
a Buffer and setting the appropriate content-type before sending it along RabbitMQ. For example,
calling:
io.rabbit.publishTopic('test', {'test': true});
Will encode the JSON array into a Buffer and set the content-type appropriately to application/json.
Conversely, for onTopic and onRpc will attempt to parse the content off RabbitMQ using the content-type.
If no content-type is available or unrecognized, then it will return a Buffer for the content, whereas if
the content-type is application/json, then content will be a JSON object. See the table below for correspondence
between content-type and the expected type of Response.content.
Finally, if you wish to override the automatic content-type selection on the publish functions, you can pass in one in
the options value. Io will still handle automatic conversion
of the value into a Buffer.
| content-type | value |
|---|---|
| text/string | string |
| text/number | number |
| application/json | JSON |
| application/octet-stream | Buffer |
| other | Buffer |
For publishing content, if a content-type is not specified and the content is not a Buffer, then
Io will assume that it can be run through JSON.stringify and will set the content-type to
application/json automatically. On receving content, if the content-type is set to application/json,
then Io will automatically run JSON.parse and return that content, else it will return the Buffer
object for the user to manually deal with.
When subscribing to events, you can include in topic name wildcards * and #.
* substitues one word, and # substitues multiple words. For example, transcript.result.*
subscribes to transcript.result.final and transcript.result.interim, whereas transcript.# subscribes
to transcript.result.final, transcript.result.interim, and transcript.command.
@cisl/io provides a shallow wrapper around the ioredis library,
such that io.redis returns an instantiated and connected to ioredis.Client instance. See its
documentation for additional details on using it.
{
"redis": {
"host": "localhost",
"port": 6379,
"db": 0
}
}
The above are the defaults that will be used if any are missing. See (ioredis#options)[https://github.com/luin/ioredis/blob/HEAD/API.md#new-redisport-host-options] for the full list of options you can use when connecting the client.
io.redis;
console.log(io.redis.getBuiltinCommands());
@cisl/io provides a shallow wrapper around the mongoose library, along
with several useful utility functions for interacting with it.
To configure to the default setup, use mongo: true, or you can configure it for your needs using the following settings:
{
"mongo": {
"host": "localhost",
"port": 27017,
"dbname": "cais"
}
}
io.mongo.mongoose: mongoose.Mongoose;
io.mongo.model<T>(name: string, schema: mongoose.Schema): Model<T>;
io.mongo.disconnect();
To extend the behavior of @cisl/io, you can register plugins. To register a
plugin, you need to only import the file. As part of loading it, it will
register itself with @cisl/io and any existing Io instances you may have
created.
For example:
const io = require('@cisl/io')();
require('@cisl/io-speaker');
require('@cisl/io-transcript');
io.speaker.speak(/* ... */);
io.transcript.tagChannel(/* ... */);
Moon by MarkieAnn Packer from the Noun Project
v1.2.0
FAQs
A framework for building distributed applications
The npm package @cisl/io receives a total of 6 weekly downloads. As such, @cisl/io popularity was classified as not popular.
We found that @cisl/io demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 2 open source maintainers collaborating on the project.
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