Prisma client extension that utilizes CASL to enforce authorization logic on most queries.
Caution
WIP - some abstractions might change in the future and lead to different interpretation of CASL rules.
Please be very careful using this library in production! Test your endpoints on your own and raise an issue if some case is not supported by this library!
- Supports only CRUD actions
create
,read
,update
anddelete
. - The permissions on fields of the query result are filtered by
read
ability. - Rule conditions are automatically applied via
accessibleBy
and ifinclude
orselect
are used, this will even be applied to the nested relations. - Mutating queries will throw errors in a similar format as CASL.
It's not allowed to "update" "email" on "User"
. - On nested
connect
,disconnect
,upsert
orconnectOrCreate
mutation queries the client assumes anupdate
action for insertion or connection. update
andcreate
are wrapped into a transaction, sincecreate
abilities will be checked on result of mutation and if it was not allowed the transaction will revert the creation. This limits client transactions to interactive transactions only. Sequential transactions are not supported.- optionally add options to
useCaslAbilities
. AddpermissionField
to it to get an array of crud rights of the queried model:['create', 'read', 'update', 'delete']
and add additional Actions viaaddPermissionActions
, which can be used to check abilities client-side conveniently without all the necessary relation queries
Now how does it work?
function builderFactory() {
const builder = abilityBuilder();
const { can } = builder;
can("read", "Post", {
thread: {
creatorId: 0,
},
});
can("read", "Thread", "id");
return builder;
}
const caslClient = prismaClient.$extends(
useCaslAbilities(builderFactory, "casl")
);
const result = await caslClient.post.findMany({
include: {
thread: true,
},
});
/**
* creates a query under the hood with assistance of @casl/prisma
*
*{
* where: {
* AND: [{
* OR: [{
* thread: {
* creatorId: 0
* }
* }]
* }]
* }
* include: {
* thread: true
* }
*
* and result will be filtered and should look like
* { id: 0, threadId: 0, thread: { id: 0 }, casl: ['read'] }
*/
Why do we create this builder factory function? It allows us to alter the rules on the client. Let's try with our above client:
const result = await caslClient
.$casl((extend) => {
extend.cannot("read", "Post");
return extend;
})
.post.findMany({
include: {
thread: true,
},
}); // will throw an error, since we added an additional cannot rule to post!
Mutations will only run, if abilities allow it.
function builderFactory() {
const builder = abilityBuilder();
const { can, build } = builder;
can("update", "Post");
cannot("update", "Post", "text");
return builder;
}
const caslClient = prismaClient.$extends(useCaslAbilities(builderFactory));
const result = await caslClient.post.update({
data: { text: "-" },
where: { id: 0 },
});
/**
* will throw an error
* because update on text is not allowed
*/
Check out tests for some other examples.
To debug queries add debugCasl: true
to the query like this caslClient.post.findUnique({ debugCasl: true })
Since Prisma does not allow properly transfering a transaction from one extension to another, this extension needs to be the last. To allow adding functionality like RLS to a transaction use the following options:
const caslClient = prismaClient.$extends(
useCaslAbilities(builderFactory, {
beforeQuery: (tx) => {
tx.$executeRaw`SELECT set_config('app.current_user', ${userId}, TRUE)`;
return;
},
afterQuery: (tx) => {
// some other logic
return;
},
})
);
When using prisma probably no one will use columns named data
, create
, update
, select
or where
. However, if this should be the case, then this library most probably won't work.
A prisma query should result in the queried data with only permitted fields.
Since conditional filtering of fields cannot be done within a database query by prisma, the extension does this after querying the data. However, to get permitted fields per queried data, all the fields mentioned in rule conditions need to be available to, within the extension. Therefore the extension gathers all the necessary fields even if no read
rights exist for them. The query itself and the data might be large and performance slower than a simple query, but now we can apply the CASL abilities to remove all restricted fields. Within this process we also remove all the additional queried data, so that the final result represents permittedd data of the actual prisma query.
can("read", "User", "email", {
posts: {
some: {
authorId: 0,
}
},
});
cannot('read', 'Post') // !!! we cannot read post
const result = client.user.findMany();
console.log(result) // [{ email: "-" }]
/**
* internally this query is used:
*
* {
* where: {
* AND: [{
* OR: [{
* posts: { some: { authorId: 0 } }
* }]
* }]
* },
* include: { posts: { select: { authorId: true } } }
* }
* /
Here are some performance metrics for the above query for the small test sqlite db:
- plain prisma query: 0.56225
- casl prisma query: 3.33416
- create abilities: 0.18987
- enrich query with casl: 0.09284
- prisma query: 2.97764
- filtering query results: 0.07380
can('read', 'User', ['nested.field', 'field.*'])
probably won't work.
entry Relation @relation(fields: [entryIdA, entryIdB], references: [refA, refB])
does not work.
entry Relation @relation(fields: [entryId], references: [ref])
does work.
Since internally a relation like entryId: someId
might be replaced by entry: { connect: { ref: someId, ...caslConditions } }