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Trusted Header SSO | Trusted Header SSO Integration | An introduction into integrating Authelia with an application which implements authentication via trusted headers. | 2022-05-15T13:52:27+10:00 | false |
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Authelia will respond to requests via the forward authentication flow with specific headers that can be utilized by some applications to perform authentication. This section of the documentation discusses how to integrate these products with this model.
Please see the proxy integration for more information on how to return these headers to the application.
Terminology
This authentication method is referred to by many names; notably trusted header authentication
,
header authentication
, header sso
, and probably many more.
Specifics
The headers are not intended to be returned to a browser, instead these headers are meant for internal communications only. These headers are returned to the reverse proxy and then injected into the request which the reverse proxy makes to the application's http endpoints.
This allows these applications to decide if they wish to trust these headers, and if they do trust them, perform some form of authentication flow. This flow usually takes the form of automatically logging users into the application, however it can vary depending on how the application decides to do this.
Response Headers
The following table represents the response headers that Authelia's /api/verify
endpoint returns which can be
forwarded over a trusted network via the reverse proxy when using the forward authentication flow.
Header | Description / Notes | Example |
---|---|---|
Remote-User | The users username | john |
Remote-Groups | The groups the user belongs to | admin,dev |
Remote-Name | The users display name | John Smith |
Remote-Email | The users email address | jsmith@example.com |
Forwarding the Response Headers
It's essential if you wish to utilize the trusted header single sign-on flow that you forward the response headers via the reverse proxy to the backend application, not the browser. Please refer to the relevant proxy documentation for more information.
Trusted Remote Networks
Several applications which implement this authentication method allow or require you to configure a list of IP addresses which are trusted to deliver these headers. It is our recommendation that you configure this even if it is optional.
The application itself will have a way to detect this IP address and most implementations utilize the TCP source address as this is the most appropriate. This is the TCP source address of your proxy, it is not the TCP source address of Authelia. This is because headers may be returned by Authelia to the proxy, however the backend application is not able to determine this reliably, instead the TCP source address of the request to the application is used, which is made by the reverse proxy. This also means your proxy must ensure only Authelia is setting these headers, and any other headers are never forwarded to the backend and are instead replaced by the Authelia headers.
In some environments the TCP source address of the proxy may be difficult to determine. For example in a docker environment a container may be a member of multiple networks. This means the TCP source address that you must use is the IP address of the proxy on the network that both the proxy and the application are members of. In this environment it is also imperative that you utilize a static IP for the proxy container as configuring an entire docker network is not considered secure as any compromised container may be able to be used to bypass authentication for any container configured to use this authentication flow.
Docker
In a Docker environment a container may be a member of multiple networks. This means the TCP source address that you must use is the IP address of the proxy on the Docker Network that both the proxy and the application are members of. In this environment it is also imperative that you utilize a static IP for the proxy container as configuring an entire Docker Network is not considered secure as any compromised container may be able to be used to bypass authentication for any container configured to use this authentication flow.
The following command will print out the IP for a container named traefik
on the authelia
network:
docker inspect -f '{{.NetworkSettings.Networks.authelia.IPAddress}}' traefik
The following command will print out all network names and the associated IP address for a container named traefik
:
docker inspect -f '{{range $network, $config := .NetworkSettings.Networks}}{{ $network }}: {{ $config.IPAddress }} {{end}}' traefik
Kubernetes
In a Kubernetes the TCP source address is likely the Pod IP. Generally these cannot be static and you should instead ensure a Pod that is configured to utilize this method is secured via one of the various means available such as a service mesh. Configuring any of these security methods is well beyond the scope of this document.