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layout | title | permalink | nav_order |
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default | Auth Configuration | /auth-configuration | 2 |
OAuth Provider Configuration
You will need to register an OAuth application with a Provider (Google, GitHub or another provider), and configure it with Redirect URI(s) for the domain you intend to run oauth2_proxy
on.
Valid providers are :
The provider can be selected using the provider
configuration value.
Google Auth Provider
For Google, the registration steps are:
- Create a new project: https://console.developers.google.com/project
- Choose the new project from the top right project dropdown (only if another project is selected)
- In the project Dashboard center pane, choose "API Manager"
- In the left Nav pane, choose "Credentials"
- In the center pane, choose "OAuth consent screen" tab. Fill in "Product name shown to users" and hit save.
- In the center pane, choose "Credentials" tab.
- Open the "New credentials" drop down
- Choose "OAuth client ID"
- Choose "Web application"
- Application name is freeform, choose something appropriate
- Authorized JavaScript origins is your domain ex:
https://internal.yourcompany.com
- Authorized redirect URIs is the location of oauth2/callback ex:
https://internal.yourcompany.com/oauth2/callback
- Choose "Create"
- Take note of the Client ID and Client Secret
It's recommended to refresh sessions on a short interval (1h) with cookie-refresh
setting which validates that the account is still authorized.
Restrict auth to specific Google groups on your domain. (optional)
- Create a service account: https://developers.google.com/identity/protocols/OAuth2ServiceAccount and make sure to download the json file.
- Make note of the Client ID for a future step.
- Under "APIs & Auth", choose APIs.
- Click on Admin SDK and then Enable API.
- Follow the steps on https://developers.google.com/admin-sdk/directory/v1/guides/delegation#delegate_domain-wide_authority_to_your_service_account and give the client id from step 2 the following oauth scopes:
https://www.googleapis.com/auth/admin.directory.group.readonly
https://www.googleapis.com/auth/admin.directory.user.readonly
- Follow the steps on https://support.google.com/a/answer/60757 to enable Admin API access.
- Create or choose an existing administrative email address on the Gmail domain to assign to the
google-admin-email
flag. This email will be impersonated by this client to make calls to the Admin SDK. See the note on the link from step 5 for the reason why. - Create or choose an existing email group and set that email to the
google-group
flag. You can pass multiple instances of this flag with different groups and the user will be checked against all the provided groups. - Lock down the permissions on the json file downloaded from step 1 so only oauth2_proxy is able to read the file and set the path to the file in the
google-service-account-json
flag. - Restart oauth2_proxy.
Note: The user is checked against the group members list on initial authentication and every time the token is refreshed ( about once an hour ).
Azure Auth Provider
- Add an application: go to https://portal.azure.com, choose "Azure Active Directory" in the left menu, select "App registrations" and then click on "New app registration".
- Pick a name and choose "Webapp / API" as application type. Use
https://internal.yourcompany.com
as Sign-on URL. Click "Create". - On the "Settings" / "Properties" page of the app, pick a logo and select "Multi-tenanted" if you want to allow users from multiple organizations to access your app. Note down the application ID. Click "Save".
- On the "Settings" / "Required Permissions" page of the app, click on "Windows Azure Active Directory" and then on "Access the directory as the signed in user". Hit "Save" and then then on "Grant permissions" (you might need another admin to do this).
- On the "Settings" / "Reply URLs" page of the app, add
https://internal.yourcompanycom/oauth2/callback
for each host that you want to protect by the oauth2 proxy. Click "Save". - On the "Settings" / "Keys" page of the app, add a new key and note down the value after hitting "Save".
- Configure the proxy with
--provider=azure
--client-id=<application ID from step 3>
--client-secret=<value from step 6>
Note: When using the Azure Auth provider with nginx and the cookie session store you may find the cookie is too large and doesn't get passed through correctly.. Increasing the proxy_buffer_size in nginx or implementing the redis session storage (see https://pusher.github.io/oauth2_proxy/configuration#redis-storage) should resolve this.
Facebook Auth Provider
- Create a new FB App from https://developers.facebook.com/
- Under FB Login, set your Valid OAuth redirect URIs to
https://internal.yourcompany.com/oauth2/callback
GitHub Auth Provider
- Create a new project: https://github.com/settings/developers
- Under
Authorization callback URL
enter the correct url iehttps://internal.yourcompany.com/oauth2/callback
The GitHub auth provider supports two additional parameters to restrict authentication to Organization or Team level access. Restricting by org and team is normally accompanied with --email-domain=*
-github-org="": restrict logins to members of this organisation
-github-team="": restrict logins to members of any of these teams (slug), separated by a comma
If you are using GitHub enterprise, make sure you set the following to the appropriate url:
-login-url="http(s)://<enterprise github host>/login/oauth/authorize"
-redeem-url="http(s)://<enterprise github host>/login/oauth/access_token"
-validate-url="http(s)://<enterprise github host>/api/v3"
GitLab Auth Provider
Whether you are using GitLab.com or self-hosting GitLab, follow these steps to add an application. Make sure to enable at least the openid
, profile
and email
scopes.
Restricting by group membership is possible with the following option:
-gitlab-group="": restrict logins to members of any of these groups (slug), separated by a comma
If you are using self-hosted GitLab, make sure you set the following to the appropriate URL:
-oidc-issuer-url="<your gitlab url>"
LinkedIn Auth Provider
For LinkedIn, the registration steps are:
- Create a new project: https://www.linkedin.com/secure/developer
- In the OAuth User Agreement section:
- In default scope, select r_basicprofile and r_emailaddress.
- In "OAuth 2.0 Redirect URLs", enter
https://internal.yourcompany.com/oauth2/callback
- Fill in the remaining required fields and Save.
- Take note of the Consumer Key / API Key and Consumer Secret / Secret Key
Microsoft Azure AD Provider
For adding an application to the Microsoft Azure AD follow these steps to add an application.
Take note of your TenantId
if applicable for your situation. The TenantId
can be used to override the default common
authorization server with a tenant specific server.
OpenID Connect Provider
OpenID Connect is a spec for OAUTH 2.0 + identity that is implemented by many major providers and several open source projects. This provider was originally built against CoreOS Dex and we will use it as an example.
-
Launch a Dex instance using the getting started guide.
-
Setup oauth2_proxy with the correct provider and using the default ports and callbacks.
-
Login with the fixture use in the dex guide and run the oauth2_proxy with the following args:
-provider oidc -client-id oauth2_proxy -client-secret proxy -redirect-url http://127.0.0.1:4180/oauth2/callback -oidc-issuer-url http://127.0.0.1:5556 -cookie-secure=false -email-domain example.com
The OpenID Connect Provider (OIDC) can also be used to connect to other Identity Providers such as Okta. To configure the OIDC provider for Okta, perform the following steps:
Configuring the OIDC Provider with Okta
- Log in to Okta using an administrative account. It is suggested you try this in preview first,
example.oktapreview.com
- (OPTIONAL) If you want to configure authorization scopes and claims to be passed on to multiple applications,
you may wish to configure an authorization server for each application. Otherwise, the provided
default
will work.
- Navigate to Security then select API
- Click Add Authorization Server, if this option is not available you may require an additional license for a custom authorization server.
- Fill out the Name with something to describe the application you are protecting. e.g. 'Example App'.
- For Audience, pick the URL of the application you wish to protect: https://example.corp.com
- Fill out a Description
- Add any Access Policies you wish to configure to limit application access.
- The default settings will work for other options. See Okta documentation for more information on Authorization Servers
- Navigate to Applications then select Add Application.
- Select Web for the Platform setting.
- Select OpenID Connect and click Create
- Pick an Application Name such as
Example App
. - Set the Login redirect URI to
https://example.corp.com
. - Under General set the Allowed grant types to
Authorization Code
andRefresh Token
. - Leave the rest as default, taking note of the
Client ID
andClient Secret
. - Under Assignments select the users or groups you wish to access your application.
- Create a configuration file like the following:
provider = "oidc"
redirect_url = "https://example.corp.com"
oidc_issuer_url = "https://corp.okta.com/oauth2/abCd1234"
upstreams = [
"https://example.corp.com"
]
email_domains = [
"corp.com"
]
client_id = "XXXXX"
client_secret = "YYYYY"
pass_access_token = true
cookie_secret = "ZZZZZ"
skip_provider_button = true
The oidc_issuer_url
is based on URL from your Authorization Server's Issuer field in step 2, or simply https://corp.okta.com
The client_id
and client_secret
are configured in the application settings.
Generate a unique client_secret
to encrypt the cookie.
Then you can start the oauth2_proxy with ./oauth2_proxy -config /etc/example.cfg
login.gov Provider
login.gov is an OIDC provider for the US Government. If you are a US Government agency, you can contact the login.gov team through the contact information that you can find on https://login.gov/developers/ and work with them to understand how to get login.gov accounts for integration/test and production access.
A developer guide is available here: https://developers.login.gov/, though this proxy handles everything but the data you need to create to register your application in the login.gov dashboard.
As a demo, we will assume that you are running your application that you want to secure locally on http://localhost:3000/, that you will be starting your proxy up on http://localhost:4180/, and that you have an agency integration account for testing.
First, register your application in the dashboard. The important bits are:
- Identity protocol: make this
Openid connect
- Issuer: do what they say for OpenID Connect. We will refer to this string as
${LOGINGOV_ISSUER}
. - Public key: This is a self-signed certificate in .pem format generated from a 2048 bit RSA private key.
A quick way to do this is
openssl req -x509 -newkey rsa:2048 -keyout key.pem -out cert.pem -days 3650 -nodes -subj '/C=US/ST=Washington/L=DC/O=GSA/OU=18F/CN=localhost'
, The contents of thekey.pem
shall be referred to as${OAUTH2_PROXY_JWT_KEY}
. - Return to App URL: Make this be
http://localhost:4180/
- Redirect URIs: Make this be
http://localhost:4180/oauth2/callback
. - Attribute Bundle: Make sure that email is selected.
Now start the proxy up with the following options:
./oauth2_proxy -provider login.gov \
-client-id=${LOGINGOV_ISSUER} \
-redirect-url=http://localhost:4180/oauth2/callback \
-oidc-issuer-url=https://idp.int.identitysandbox.gov/ \
-cookie-secure=false \
-email-domain=gsa.gov \
-upstream=http://localhost:3000/ \
-cookie-secret=somerandomstring12341234567890AB \
-cookie-domain=localhost \
-skip-provider-button=true \
-pubjwk-url=https://idp.int.identitysandbox.gov/api/openid_connect/certs \
-profile-url=https://idp.int.identitysandbox.gov/api/openid_connect/userinfo \
-jwt-key="${OAUTH2_PROXY_JWT_KEY}"
You can also set all these options with environment variables, for use in cloud/docker environments.
One tricky thing that you may encounter is that some cloud environments will pass in environment
variables in a docker env-file, which does not allow multiline variables like a PEM file.
If you encounter this, then you can create a jwt_signing_key.pem
file in the top level
directory of the repo which contains the key in PEM format and then do your docker build.
The docker build process will copy that file into your image which you can then access by
setting the OAUTH2_PROXY_JWT_KEY_FILE=/etc/ssl/private/jwt_signing_key.pem
environment variable, or by setting -jwt-key-file=/etc/ssl/private/jwt_signing_key.pem
on the commandline.
Once it is running, you should be able to go to http://localhost:4180/
in your browser,
get authenticated by the login.gov integration server, and then get proxied on to your
application running on http://localhost:3000/
. In a real deployment, you would secure
your application with a firewall or something so that it was only accessible from the
proxy, and you would use real hostnames everywhere.
Skip OIDC discovery
Some providers do not support OIDC discovery via their issuer URL, so oauth2_proxy cannot simply grab the authorization, token and jwks URI endpoints from the provider's metadata.
In this case, you can set the -skip-oidc-discovery
option, and supply those required endpoints manually:
-provider oidc
-client-id oauth2_proxy
-client-secret proxy
-redirect-url http://127.0.0.1:4180/oauth2/callback
-oidc-issuer-url http://127.0.0.1:5556
-skip-oidc-discovery
-login-url http://127.0.0.1:5556/authorize
-redeem-url http://127.0.0.1:5556/token
-oidc-jwks-url http://127.0.0.1:5556/keys
-cookie-secure=false
-email-domain example.com
Email Authentication
To authorize by email domain use --email-domain=yourcompany.com
. To authorize individual email addresses use --authenticated-emails-file=/path/to/file
with one email per line. To authorize all email addresses use --email-domain=*
.
Adding a new Provider
Follow the examples in the [providers
package]({{ site.gitweb }}/providers/) to define a new
Provider
instance. Add a new case
to
[providers.New()
]({{ site.gitweb }}/providers/providers.go) to allow oauth2_proxy
to use the
new Provider
.