Lessonly by Seismic is not actively monitoring this project for contributions. There are talks to consider resources for this project in winter 2022/2023
NOTE: This Gem is not yet fully SCIM complaint. It was developed with the main function of interfacing with Okta. There are features of SCIM that this Gem does not implement as described in the SCIM documentation or that have been left out completely.
SCIM stands for System for Cross-domain Identity Management. At its core, it is a set of rules defining how apps should interact for the purpose of creating, updating, and deprovisioning users. SCIM requests and responses can be sent in XML or JSON and this Gem uses JSON for ease of readability.
To learn more about SCIM 2.0 you can read the documentation at RFC 7643 and RFC 7644.
The goal of the Gem is to offer a relatively painless way of adding SCIM 2.0 to your app. This Gem should be fully compatible with Okta's SCIM implementation. This project is ongoing and will hopefully be fully SCIM compliant in time. Pull requests that assist in meeting that goal are welcome!
Add this line to your application's Gemfile:
gem 'scim_rails'
And then execute:
$ bundle
Or install it yourself as:
$ gem install scim_rails
Generate the config file with:
$ rails generate scim_rails config
The config file will be located at:
config/initializers/scim_rails_config.rb
Please update the config file with the models and attributes of your app.
Mount the gem in your routes file:
Application.routes.draw do
mount ScimRails::Engine => "/"
end
This will enable the following routes for the Gem to use:
Request | Route |
---|---|
get | 'scim/v2/Users' |
post | 'scim/v2/Users' |
get | 'scim/v2/Users/:id' |
put | 'scim/v2/Users/:id' |
patch | 'scim/v2/Users/:id' |
Note: This Gem can be mounted to any path. For example:
https://scim.example.com/scim/v2/Users
https://www.example.com/scim/v2/Users
https://example.com/example/scim/v2/Users
When sending requests to the server the Content-Type
should be set to application/scim+json
but will also respond to application/json
.
All responses will be sent with a Content-Type
of application/scim+json
.
This gem supports both basic and OAuth bearer authentication.
The config setting basic_auth_model_searchable_attribute
is the model attribute used to authenticate as the username
. It defaults to :subdomain
.
Ensure it is unique to the model records.
The config setting basic_auth_model_authenticatable_attribute
is the model attribute used to authenticate as password
. Defaults to :api_token
.
Assuming the attribute is :api_token
, generate the password using:
token = ScimRails::Encoder.encode(company)
# use the token as password for requests
company.api_token = token # required
company.save! # don't forget to persist the company record
This is necessary irrespective of your authentication choice(s) - basic auth, oauth bearer or both.
$ curl -X GET 'http://username:password@localhost:3000/scim/v2/Users'
In the config settings, ensure you set signing_algorithm
to a valid JWT signing algorithm, e.g "HS256". Defaults to "none"
when not set.
In the config settings, ensure you set signing_secret
to a secret key that will be used to encode and decode tokens. Defaults to nil
when not set.
If you have already generated the api_token
in the "Basic Auth" section, then use that as your bearer token and ignore the steps below:
token = ScimRails::Encoder.encode(company)
# use the token as bearer token for requests
company.api_token = token #required
company.save! # don't forget to persist the company record
$ curl -H 'Authorization: Bearer xxxxxxx.xxxxxx' -X GET 'http://localhost:3000/scim/v2/Users'
Sample request:
$ curl -X GET 'http://username:password@localhost:3000/scim/v2/Users'
This Gem provides two pagination filters; startIndex
and count
.
startIndex
is the positional number you would like to start at. This parameter can accept any integer but anything less than 1 will be interpreted as 1. If you visualize an array with all your user records in the array, startIndex
is basically what element you would like to start at. If you are familiar with SQL this parameter is directly correlated to the query offset. The default value for this filter is 1.
count
is the number of records you would like present in the response. The default value for this filter is 100.
Sample request:
$ curl -X GET 'http://username:password@localhost:3000/scim/v2/Users?startIndex=38&count=44'
Pagination only really works with a determinate order. What that means is, every time you call the database you need to get the results in the exact same order. So the 4th record is always the 4th record and never appears in a different position. If there is no order then records might show up on multiple pages. The default order is by id but this can be configured with scim_users_list_order
.
The pagination filters may be used on their own or in addition to the query filters listed in the next section.
Currently the only filter supported is a single level eq
. More operators can be added fairly easily in future releases. The SCIM RFC documents nested querying which is something we would like to implement in the future.
Queryable attributes can be mapped in the configuration file.
Supported filters:
filter=email eq test@example.com
fitler=userName eq test@example.com
filter=formattedName eq Test User
filter=id eq 1
Unsupported filter:
filter=(email eq test@example.com) or (userName eq test@example.com)
Sample request:
$ curl -X GET 'http://username:password@localhost:3000/scim/v2/Users?filter=formattedName%20eq%20%22Test%20User%22'
This response can be modified in the configuration file. The user_schema
configuration supports any JSON structure and will transform any values by calling symbols against the user model. A sample SCIM compliant response looks like:
{
schemas: ["urn:ietf:params:scim:schemas:core:2.0:User"],
id: "1",
userName: "test@example.com",
name: {
givenName: "Test",
familyName: "User"
},
emails: [
{
value: "test@example.com"
},
],
active: "true"
}
Sample request:
$ curl -X GET 'http://username:password@localhost:3000/scim/v2/Users/1'
The create request can receive any SCIM compliant JSON but can only be parsed with the configuration schema provided. What that means is that if your app receives a request to modify an attribute that is not listed in your mutable_user_attributes
configuration it will ignore the parameter. In addition to needing to be included in the mutable attributes it also requires mutable_user_attributes_schema
which defines where the Gem should look for a given attribute.
Do not include attributes that you do not want modified such as id
. Any attributes can be provided in the user_schema
configuration to be returned as part of the response but if they are not part of the mutable_user_attributes_schema
then they cannot be modified.
Sample request:
$ curl -X POST 'http://username:password@localhost:3000/scim/v2/Users/' -d '{"schemas":["urn:ietf:params:scim:schemas:core:2.0:User"],"userName":"test@example.com","name":{"givenName":"Test","familyName":"User"},"emails":[{"primary":true,"value":"test@example.com","type":"work"}],"displayName":"Test User","active":true}' -H 'Content-Type: application/scim+json'
Update requests follow the same guidelines as create requests. The request is parsed for the mutable attributes provided in the configuration file and sent to the user model to update those attributes. This request expects a full representation of the object and any missing mutable attributes will send nil
to the user model. If the attribute cannot be blank and sends a validation error, that error will be rescued and the response will be an appropriate SCIM error.
Sample request:
$ curl -X PUT 'http://username:password@localhost:3000/scim/v2/Users/1' -d '{"schemas":["urn:ietf:params:scim:schemas:core:2.0:User"],"userName":"test@example.com","name":{"givenName":"Test","familyName":"User"},"emails":[{"primary":true,"value":"test@example.com","type":"work"}],"displayName":"Test User","active":true}' -H 'Content-Type: application/scim+json'
The PATCH request was implemented to work with Okta. Okta updates profiles with PUT and deprovisions / reprovisions with PATCH. This implementation of PATCH is not SCIM compliant as it does not update a single attribute on the user profile but instead only sends a status update request to the record.
We would like to implement PATCH to be fully SCIM compliant in future releases.
Sample request:
$ curl -X PATCH 'http://username:password@localhost:3000/scim/v2/Users/1' -d '{"schemas": ["urn:ietf:params:scim:api:messages:2.0:PatchOp"], "Operations": [{"op": "replace", "value": { "active": false }}]}' -H 'Content-Type: application/scim+json'
By default, scim_rails will output any unhandled exceptions to your configured rails logs.
If you would like, you can supply a custom handler for exceptions in the initializer. The only requirement is that the value you supply responds to #call
.
For example, you might want to notify Honeybadger:
ScimRails.configure do |config|
config.on_error = ->(e) { Honeybadger.notify(e) }
end
Clone (or fork) the project.
Navigate to the top level of the project directory in your console and run bundle install
.
Proceed to setting up the dummy app.
This Gem contains a fully functional Rails application that lives in /spec/dummy
.
In the console, navigate to the dummy app at /spec/dummy
.
Next run bin/setup
to setup the app. This will set up the gems and build the databases. The databases are local to the project.
Last run bundle exec rails server
.
If you wish you may send CURL requests to the dummy server or send requests to it via Postman.
Specs can be run with rspec
at the top level of the project (if you run rspec
and it shows zero specs try running rspec
from a different directory).
All specs should be passing. (The dummy app will need to be setup first.)
The gem is available as open source under the terms of the MIT License.