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@fluidframework/aqueduct

v2.12.0

Published

A set of implementations for Fluid Framework interfaces.

Downloads

23,931

Readme

@fluidframework/aqueduct

Using Fluid Framework libraries

When taking a dependency on a Fluid Framework library's public APIs, we recommend using a ^ (caret) version range, such as ^1.3.4. While Fluid Framework libraries may use different ranges with interdependencies between other Fluid Framework libraries, library consumers should always prefer ^.

If using any of Fluid Framework's unstable APIs (for example, its beta APIs), we recommend using a more constrained version range, such as ~.

Installation

To get started, install the package by running the following command:

npm i @fluidframework/aqueduct

Importing from this package

This package leverages package.json exports to separate its APIs by support level. For more information on the related support guarantees, see API Support Levels.

To access the public (SemVer) APIs, import via @fluidframework/aqueduct like normal.

To access the legacy APIs, import via @fluidframework/aqueduct/legacy.

API Documentation

API documentation for @fluidframework/aqueduct is available at https://fluidframework.com/docs/apis/aqueduct.

Aqueduct

The Aqueduct is a library for building Fluid objects and Fluid containers within the Fluid Framework. Its goal is to provide a thin base layer over the existing Fluid Framework interfaces that allows developers to get started quickly.

Fluid object development

Fluid object development consists of developing the data object and the corresponding data object factory. The data object defines the logic of your Fluid object, whereas the data object factory defines how to initialize your object.

Data object development

DataObject and PureDataObject are the two base classes provided by the library.

DataObject

The DataObject class extends PureDataObject and provides the following additional functionality:

  • A root SharedDirectory that makes creating and storing distributed data structures and objects easy.
  • Blob storage implementation that makes it easier to store and retrieve blobs.

Note: Most developers will want to use the DataObject as their base class to extend.

PureDataObject

PureDataObject provides the following functionality:

  • Basic set of interface implementations to be loadable in a Fluid container.
  • Functions for managing the Fluid object lifecycle.
    • initializingFirstTime(props: S) - called only the first time a Fluid object is initialized and only on the first client on which it loads.
    • initializingFromExisting() - called every time except the first time a Fluid object is initialized; that is, every time an instance is loaded from a previously created instance.
    • hasInitialized() - called every time after initializingFirstTime or initializingFromExisting executes
  • Helper functions for creating and getting other data objects in the same container.

Note: You probably don't want to inherit from this data object directly unless you are creating another base data object class. If you have a data object that doesn't use distributed data structures you should use Container Services to manage your object.

DataObject example

In the below example we have a simple data object, Clicker, that will render a value alongside a button the the page. Every time the button is pressed the value will increment. Because this data object renders to the DOM it also extends IFluidHTMLView.

export class Clicker extends DataObject implements IFluidHTMLView {
    public static get Name() { return "clicker"; }

    public get IFluidHTMLView() { return this; }

    private _counter: SharedCounter | undefined;

    protected async initializingFirstTime() {
        const counter = SharedCounter.create(this.runtime);
        this.root.set("clicks", counter.handle);
    }

    protected async hasInitialized() {
        const counterHandle = this.root.get<IFluidHandle<SharedCounter>>("clicks");
        this._counter = await counterHandle.get();
    }

    public render(div: HTMLElement) {
        ReactDOM.render(
            <CounterReactView counter={this.counter} />,
            div,
        );
        return div;
    }

    private get counter() {
        if (this._counter === undefined) {
            throw new Error("SharedCounter not initialized");
        }
        return this._counter;
    }
}

DataObjectFactory development

The DataObjectFactory is used to create a Fluid object and to initialize a data object within the context of a Container. The factory can live alongside a data object or within a different package. The DataObjectFactory defines the distributed data structures used within the data object as well as any Fluid objects it depends on.

The Aqueduct offers a factory for each of the data objects provided.

More details

DataObjectFactory example

In the below example we build a DataObjectFactory for the Clicker example above. To build a DataObjectFactory, we need to provide factories for the distributed data structures we are using inside of our DataObject. In the above example we store a handle to a SharedCounter in this.root to track our "clicks". The DataObject comes with the SharedDirectory (this.root) already initialized, so we just need to add the factory for SharedCounter.

export const ClickerInstantiationFactory = new DataObjectFactory(
	Clicker.Name,
	Clicker,
	[SharedCounter.getFactory()], // distributed data structures
	{}, // Provider Symbols see below
);

This factory can then create Clickers when provided a creating instance context.

const myClicker = ClickerInstantiationFactory.createInstance(this.context) as Clicker;

Providers in data objects

The this.providers object on PureDataObject is initialized in the constructor and is generated based on Providers provided by the Container. To access a specific provider you need to:

  1. Define the type in the generic on PureDataObject/DataObject
  2. Add the symbol to your factory (see DataObjectFactory Example below)

In the below example we have an IFluidUserInfo interface that looks like this:

interface IFluidUserInfo {
	readonly userCount: number;
}

On our example we want to declare that we want the IFluidUserInfo Provider and get the userCount if the Container provides the IFluidUserInfo provider.

export class MyExample extends DataObject<IFluidUserInfo> {
    protected async initializingFirstTime() {
        const userInfo = await this.providers.IFluidUserInfo;
        if(userInfo) {
            console.log(userInfo.userCount);
        }
    }
}

// Note: we have to define the symbol to the IFluidUserInfo that we declared above. This is compile time checked.
export const ClickerInstantiationFactory = new DataObjectFactory(
    Clicker.Name
    Clicker,
    [], // distributed data structures
    {IFluidUserInfo}, // Provider Symbols see below
);

Container development

A Container is a collection of data objects and functionality that produce an experience. Containers hold the instances of data objects as well as defining the data objects that can be created within the Container. Because of this data objects cannot be consumed except for when they are within a Container.

The Aqueduct library provides the ContainerRuntimeFactoryWithDefaultDataStore that enables you as a container developer to:

  • Define the registry of data objects that can be created
  • Declare the default data object
  • Use provider entries
  • Declare Container level Request Handlers

Container object example

In the below example we will write a Container that exposes the above Clicker using the Clicker Factory. You will notice below that the Container developer defines the registry name (data object type) of the Fluid object. We also pass in the type of data object we want to be the default. The default data object is created the first time the Container is created.

export fluidExport = new ContainerRuntimeFactoryWithDefaultDataStore(
  ClickerInstantiationFactory.type, // Default data object type
  ClickerInstantiationFactory.registryEntry, // Fluid object registry
  [], // Provider Entries
  [], // Request Handler Routes
);

Container-level request handlers

You can provide custom request handlers to the container. These request handlers are injected after system handlers but before the DataObject get function. Request handlers allow you to intercept requests made to the container and return custom responses.

Consider a scenario where you want to create a random color generator. I could create a RequestHandler that when someone makes a request to the Container for {url:"color"} will intercept and return a custom IResponse of { status:200, type:"text/plain", value:"blue"}.

We use custom handlers to build the Container Services pattern.

Minimum Client Requirements

These are the platform requirements for the current version of Fluid Framework Client Packages. These requirements err on the side of being too strict since within a major version they can be relaxed over time, but not made stricter. For Long Term Support (LTS) versions this can require supporting these platforms for several years.

It is likely that other configurations will work, but they are not supported: if they stop working, we do not consider that a bug. If you would benefit from support for something not listed here, file an issue and the product team will evaluate your request. When making such a request please include if the configuration already works (and thus the request is just that it becomes officially supported), or if changes are required to get it working.

Supported Runtimes

  • NodeJs ^20.10.0 except that we will drop support for it when NodeJs 20 loses its upstream support on 2026-04-30, and will support a newer LTS version of NodeJS (22) at least 1 year before 20 is end-of-life. This same policy applies to NodeJS 22 when it is end of life (2027-04-30).
  • Modern browsers supporting the es2022 standard library: in response to asks we can add explicit support for using babel to polyfill to target specific standards or runtimes (meaning we can avoid/remove use of things that don't polyfill robustly, but otherwise target modern standards).

Supported Tools

  • TypeScript 5.4:
    • All strict options are supported.
    • strictNullChecks is required.
    • Configuration options deprecated in 5.0 are not supported.
    • exactOptionalPropertyTypes is currently not fully supported. If used, narrowing members of Fluid Framework types types using in, Reflect.has, Object.hasOwn or Object.prototype.hasOwnProperty should be avoided as they may incorrectly exclude undefined from the possible values in some cases.
  • webpack 5
    • We are not intending to be prescriptive about what bundler to use. Other bundlers which can handle ES Modules should work, but webpack is the only one we actively test.

Module Resolution

Node16, NodeNext, or Bundler resolution should be used with TypeScript compilerOptions to follow the Node.js v12+ ESM Resolution and Loading algorithm. Node10 resolution is not supported as it does not support Fluid Framework's API structuring pattern that is used to distinguish stable APIs from those that are in development.

Module Formats

  • ES Modules: ES Modules are the preferred way to consume our client packages (including in NodeJs) and consuming our client packages from ES Modules is fully supported.

  • CommonJs: Consuming our client packages as CommonJs is supported only in NodeJS and only for the cases listed below. This is done to accommodate some workflows without good ES Module support. If you have a workflow you would like included in this list, file an issue. Once this list of workflows motivating CommonJS support is empty, we may drop support for CommonJS one year after notice of the change is posted here.

Contribution Guidelines

There are many ways to contribute to Fluid.

Detailed instructions for working in the repo can be found in the Wiki.

This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact [email protected] with any additional questions or comments.

This project may contain Microsoft trademarks or logos for Microsoft projects, products, or services. Use of these trademarks or logos must follow Microsoft’s Trademark & Brand Guidelines. Use of Microsoft trademarks or logos in modified versions of this project must not cause confusion or imply Microsoft sponsorship.

Help

Not finding what you're looking for in this README? Check out fluidframework.com.

Still not finding what you're looking for? Please file an issue.

Thank you!

Trademark

This project may contain Microsoft trademarks or logos for Microsoft projects, products, or services.

Use of these trademarks or logos must follow Microsoft's Trademark & Brand Guidelines.

Use of Microsoft trademarks or logos in modified versions of this project must not cause confusion or imply Microsoft sponsorship.