CASL (pronounced /ˈkæsəl/, like castle) is an isomorphic authorization JavaScript library which restricts what resources a given user is allowed to access. It's designed to be incrementally adoptable and can easily scale between a simple claim based and fully featured subject and attribute based authorization. It makes it easy to manage and share permissions across UI components, API services, and database queries.
Heavily inspired by cancan.
Features
- Versatile
An incrementally adoptable and can easily scale between a simple claim based and fully featured subject and attribute based authorization. - Isomorphic
Can be used on frontend and backend and complementary packages make integration with major Frontend Frameworks and Backend ORMs effortless - TypeSafe
Written in TypeScript, what makes your apps safer and developer experience more enjoyable - Tree shakable
The core is only 6KB mingzipped and can be even smaller! - Declarative
Thanks to declarative rules, you can serialize and share permissions between UI and API or microservices
Ecosystem
Project | Status | Description | Supported envinronemnts |
---|---|---|---|
@casl/ability | CASL's core package | nodejs 8+ and ES5 compatible browsers (IE 9+) | |
@casl/mongoose | integration with Mongoose | nodejs 8+ | |
@casl/prisma | integration with Prisma | nodejs 12+ | |
@casl/angular | integration with Angular | IE 9+ | |
@casl/react | integration with React | IE 9+ | |
@casl/vue | integration with Vue | IE 11+ (uses WeakMap ) |
|
@casl/aurelia | integration with Aurelia | IE 11+ (uses WeakMap ) |
Documentation
A lot of detailed information about CASL, integrations and examples can be found in documentation.
Have a question?
Ask it in chat or on stackoverflow. Please don't ask questions in issues, the issue list of this repo is exclusively for bug reports and feature requests. Questions in the issue list may be closed immediately without answers.
CASL crash course
CASL operates on the abilities level, that is what a user can actually do in the application. An ability itself depends on the 4 parameters (last 3 are optional):
- User Action
Describes what user can actually do in the app. User action is a word (usually a verb) which depends on the business logic (e.g.,prolong
,read
). Very often it will be a list of words from CRUD -create
,read
,update
anddelete
. - Subject
The subject or subject type which you want to check user action on. Usually this is a business (or domain) entity name (e.g.,Subscription
,BlogPost
,User
). - Conditions
An object or function which restricts user action only to matched subjects. This is useful when you need to give a permission on resources created by a user (e.g., to allow user to update and delete ownBlogPost
) - Fields
Can be used to restrict user action only to matched subject's fields (e.g., to allow moderator to updatehidden
field ofBlogPost
but not updatedescription
ortitle
)
Using CASL you can describe abilities using regular and inverted rules. Let's see how
Note: all the examples below will be written in TypeScript but CASL can be used in similar way in ES6+ and Nodejs environments.
1. Define Abilities
Lets define Ability
for a blog website where visitors:
- can read blog posts
- can manage (i.e., do anything) own posts
- cannot delete a post if it was created more than a day ago
import { AbilityBuilder, Ability } from '@casl/ability'
import { User } from '../models'; // application specific interfaces
/**
* @param user contains details about logged in user: its id, name, email, etc
*/
function defineAbilitiesFor(user: User) {
const { can, cannot, rules } = new AbilityBuilder(Ability);
// can read blog posts
can('read', 'BlogPost');
// can manage (i.e., do anything) own posts
can('manage', 'BlogPost', { author: user.id });
// cannot delete a post if it was created more than a day ago
cannot('delete', 'BlogPost', {
createdAt: { $lt: Date.now() - 24 * 60 * 60 * 1000 }
});
return new Ability(rules);
});
Do you see how easily business requirements were translated into CASL's rules?
Note: you can use class instead of string as a subject type (e.g., can('read', BlogPost)
)
And yes, Ability
class allow you to use some MongoDB operators to define conditions. Don't worry if you don't know MongoDB, it's not required and explained in details in Defining Abilities
2. Check Abilities
Later on you can check abilities by using can
and cannot
methods of Ability
instance.
// in the same file as above
import { ForbiddenError } from '@casl/ability';
const user = getLoggedInUser(); // app specific function
const ability = defineAbilitiesFor(user);
class BlogPost { // business entity
constructor(props) {
Object.assign(this, props);
}
}
// true if ability allows to read at least one Post
ability.can('read', 'BlogPost');
// the same as
ability.can('read', BlogPost);
// true, if user is the author of the blog post
ability.can('manage', new BlogPost({ author: user.id }));
// true if there is no ability to read this particular blog post
const ONE_DAY = 24 * 60 * 60 * 1000;
const postCreatedNow = new BlogPost({ createdAt: new Date() });
const postCreatedAWeekAgo = new BlogPost({ createdAt: new Date(Date.now() - 7 * ONE_DAY) });
// can delete if it's created less than a day ago
ability.can('delete', postCreatedNow); // true
ability.can('delete', postCreatedAWeekAgo); // false
// you can even throw an error if there is a missed ability
ForbiddenError.from(ability).throwUnlessCan('delete', postCreatedAWeekAgo);
Of course, you are not restricted to use only class instances in order to check permissions on objects. See Introduction for the detailed explanation.
3. Database integration
CASL has a complementary package @casl/mongoose which provides easy integration with MongoDB and mongoose.
import { AbilityBuilder } from '@casl/ability';
import { accessibleRecordsPlugin } from '@casl/mongoose';
import mongoose from 'mongoose';
mongoose.plugin(accessibleRecordsPlugin);
const user = getUserLoggedInUser(); // app specific function
const ability = defineAbilitiesFor(user);
const BlogPost = mongoose.model('BlogPost', mongoose.Schema({
title: String,
author: mongoose.Types.ObjectId,
content: String,
createdAt: Date,
hidden: { type: Boolean, default: false }
}))
// returns mongoose Query, so you can chain it with other conditions
const posts = await BlogPost.accessibleBy(ability).where({ hidden: false });
// you can also call it on existing query to enforce permissions
const hiddenPosts = await BlogPost.find({ hidden: true }).accessibleBy(ability);
// you can even pass the action as a 2nd parameter. By default action is "read"
const updatablePosts = await BlogPost.accessibleBy(ability, 'update');
See Database integration for details.
4. Advanced usage
CASL is incrementally adoptable, that means you can start your project with simple claim (or action) based authorization and evolve it later, when your app functionality evolves.
CASL is composable, that means you can implement alternative conditions matching (e.g., based on joi, ajv or pure functions) and field matching (e.g., to support alternative syntax in fields like addresses.*.street
or addresses[0].street
) logic.
See Advanced usage for details.
5. Examples
Looking for examples? Check CASL examples repository.
Want to help?
Want to file a bug, contribute some code, or improve documentation? Excellent! Read up on guidelines for contributing.
If you'd like to help us sustain our community and project, consider to become a financial contributor on Open Collective
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License
Copyright (c) 2017-present, Sergii Stotskyi