Filter Data
This guide shows you how to use Data Filtering in the Oso Library. Data filtering lets you select certain data from your data store, based on the logic in your policy. In the Oso Library, data filtering works by telling Oso how to turn Polar constraints into queries against your data store, such as SQL queries or ORM query objects.
If you’re using Oso Cloud as an authorization service, data filtering is built in. Read about how to list authorized resources using the Oso Cloud API.
Why do you need Data Filtering?
When you call authorize(actor, action, resource)
, Oso evaluates the allow
rule(s) you have defined in your policy to determine if actor
is allowed
to perform action
on resource
. For example, if jane
wants to "edit"
a document
, Oso may check that jane = document.owner
. But what if you
need the set of all documents that Jane is allowed to edit? For example, you
may want to render them as a list in your application.
One way to answer this question is to take every document in the system and
call is_allowed
on it. This isn’t efficient and many times is just
impossible. There could be thousands of documents in a database but only three
that have the owner "steve"
. Instead of fetching every document and passing
it into Oso, it’s better to ask the database for only the documents that
have the owner "steve"
. Oso provides a “data filtering” API to do this.
You can use data filtering to enforce authorization on queries made to your data store. Oso will take the logic in the policy and turn it into a query for the authorized data. Examples could include an ORM filter object, an HTTP request or an elastic-search query. The query object and the way the logic maps to a query are both user defined.
Data filtering is initiated through two methods on Oso
.
authorizedResources
returns a list of all the
resources a user is allowed to do an action on. The results of a built and
executed query.
authorizedQuery
returns the query object itself.
This lets you add additional filters or sorts or any other data to it before
executing it.
The mapping from Polar to a query is defined by an Adapter
. If an adapter exists
for your ORM or database you can use it, otherwise you may have to implement your own.
Implementing an Adapter
Adapters
An adapter is an interface that defines two methods. Once you’ve defined an adapter, you
can configure your Oso instance to use it with the
setDataFilteringAdapter
method.
Build a Query
buildQuery
takes some type information and a Filter
object and returns a Query
.
A Filter
is a representation of a query. It is very similar to a SQL query.
It has four fields:
model
Is the name of the type we are filtering.- relations Are named relations to other types, typically turned into joins.
conditions
Are the individual pieces of logic that must be true with respect to objects matching the filter. These typically get turned into where clauses.types
Is a map from type names to user type information, including registered relations. We use this to generate the join SQL.
Relations
A relation has three properties: fromTypeName
, FilterRelation
, and toTypeName
.
The adapter uses these properties to look up the tables and fields to join together for
the query.
Conditions
A condition has three properties lhs
, cmp
, and rhs
.
The left and right fields will be either Immediate
objects with a value
field that can
be inserted directly into a query, or Projection
objects with string properties
typeName
and optionally fieldName
. A
missing fieldName
property indicates the adapter should substitute
an appropriate unique identifier, usually a primary key.
Execute a Query
executeQuery
takes a query and returns a list of the results.
Fields
The other thing you have to provide to use data filtering is type information for registered classes. This lets Oso know what the types of an object’s fields are. Oso needs this information to handle specializers and other things in the policy when we don’t have a concrete resource. The fields are a object from field name to type.
Relations
Often you need data that is not contained on the object to make
authorization decisions. This comes up when the role required to
do something is implied by a role on it’s parent object. For instance,
you want to check the organization for a repository but that data isn’t
embedded on the repository object. You can add a Relation
type to the type
definition that states how the other resource is related to this one. Then
you can access this field in the policy like any other field and it will
fetch the data when it needs it (via the query functions).
Relation
s are a special type that tells Oso how one Class is related to
another. They specify what the related type is and how it’s related.
kind
is either “one” or “many”. “one” means there is one related object and “many” means there is a list of related objects.other_type
is the class of the related objects.my_field
Is the field on this object that matchesother_field
.other_field
Is the field on the other object that matchesthis_field
.
The my_field
/ other_field
relationship is similar to a foreign key. It lets Oso
know what fields to match up with building a query for the other type.
Example
import { Relation, Oso, ForbiddenError, NotFoundError } from "oso";
import { createConnection, In, Not, Entity, PrimaryGeneratedColumn, Column, PrimaryColumn, JoinColumn, ManyToOne } from "typeorm";
import { readFileSync } from "fs";
import * as assert from 'assert';
import { typeOrmAdapter } from 'oso/dist/src/typeOrmAdapter';
@Entity()
class Repository {
@PrimaryColumn()
id: string;
@Column()
org_id: string;
}
@Entity()
class User {
@PrimaryColumn()
id: string;
}
@Entity()
class RepoRole {
@PrimaryGeneratedColumn()
id: number;
@Column()
name: string;
@Column()
repo_id: string;
@Column()
user_id: string;
}
@Entity()
class Organization {
@PrimaryColumn()
id: string;
}
@Entity()
class OrgRole {
@PrimaryGeneratedColumn()
id: number;
@Column()
name: string;
@Column()
user_id: string;
@Column()
org_id: string;
}
async function test() {
const connection = await createConnection({
type: 'sqlite',
database: ':memory:',
entities: [User, Repository, RepoRole, Organization, OrgRole],
synchronize: true,
logging: false,
});
const oso = new Oso();
oso.setDataFilteringAdapter(typeOrmAdapter(connection));
oso.registerClass(Repository, {
fields: {
id: String,
organization: new Relation("one", "Organization", "org_id", "id"),
}
});
oso.registerClass(Organization, {
fields: {
id: String,
repos: new Relation("many", "Repository", "id", "org_id"),
}
});
oso.registerClass(User, {
fields: {
id: String,
repo_roles: new Relation("many", "RepoRole", "id", "user_id"),
org_roles: new Relation("many", "OrgRole", "id", "user_id")
}
});
oso.registerClass(RepoRole, {
fields: {
id: Number,
user: new Relation("one", "User", "user_id", "id"),
repo: new Relation("one", "Repository", "repo_id", "id")
}
});
oso.registerClass(OrgRole, {
fields: {
id: Number,
user: new Relation("one", "User", "user_id", "id"),
organization: new Relation("one", "Organization", "org_id", "id")
}
});
actor User {}
resource Organization {
permissions = ["add_member", "read", "delete"];
roles = ["member", "owner"];
"add_member" if "owner";
"delete" if "owner";
"member" if "owner";
}
# Anyone can read.
allow(_, "read", _org: Organization);
resource Repository {
permissions = ["read", "push", "delete"];
roles = ["contributor", "maintainer", "admin"];
relations = { parent: Organization };
"read" if "contributor";
"push" if "maintainer";
"delete" if "admin";
"maintainer" if "admin";
"contributor" if "maintainer";
"contributor" if "member" on "parent";
"admin" if "owner" on "parent";
}
has_relation(organization: Organization, "parent", repository: Repository) if
repository.organization = organization;
has_role(user: User, role_name: String, repository: Repository) if
role in user.repo_roles and
role.name = role_name and
role.repo_id = repository.id;
has_role(user: User, role_name: String, organization: Organization) if
role in user.org_roles and
role.name = role_name and
role.org_id = organization.id;
allow(actor, action, resource) if has_permission(actor, action, resource);
oso.loadFiles(["policy_b.polar"]);
const orgs = connection.getRepository(Organization),
users = connection.getRepository(User),
repos = connection.getRepository(Repository),
roles = connection.getRepository(OrgRole);
await orgs.save({ id: 'osohq' });
await orgs.save({ id: 'apple' });
await repos.save({ id: 'ios', org_id: 'apple' });
await repos.save({ id: 'oso', org_id: 'osohq' });
await repos.save({ id: 'demo', org_id: 'osohq' });
await users.save({ id: 'leina' });
await users.save({ id: 'steve' });
await roles.save({
user_id: 'leina',
org_id: 'osohq',
name: 'owner'
});
// for sorting results
const compare = (a, b) => a.id < b.id ? -1 : a.id > b.id ? 1 : 0;
repos.findByIds(['oso', 'demo']).then(repos =>
users.findOne({ id: 'leina' }).then(leina =>
oso.authorizedResources(leina, 'read', Repository).then(result =>
assert.deepEqual(result.sort(compare), repos.sort(compare)))));
}
test()
Evaluation
When Oso is evaluating data filtering methods it uses the adapter to build queries and execute them.
Relation fields also work when you are not using data filtering methods are also use the adapter to query for the related resources when you access them.
Limitations
Some Polar operators including cut
and arithmetic operators aren’t supported in
data filtering queries.
You can’t call any methods on the resource argument or pass the resource as an
argument to other methods. Many cases where you would want to do this are better
handled by Relation
fields.
The new data filtering backend doesn’t support queries where a given resource type occurs more than once, so direct or indirect relations from a type to itself are currently unsupported. This limitation will be removed in an upcoming release.
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If you have any questions, or just want to talk something through, jump into Slack. An Oso engineer or one of the thousands of developers in the growing community will be happy to help.