---
layout: default
title: OpenID Connect
parent: Identity Providers
grand_parent: Configuration
nav_order: 2
---
# OpenID Connect
**Authelia** currently supports the [OpenID Connect] OP role as a [**beta**](../../roadmap/oidc.md) feature. The OP role
is the [OpenID Connect] Provider role, not the Relying Party or RP role. This means other applications that implement the
[OpenID Connect] RP role can use Authelia as an authentication and authorization backend similar to how you may use
social media or development platforms for login.
The Relying Party role is the role which allows an application to use GitHub, Google, or other [OpenID Connect]
providers for authentication and authorization. We do not intend to support this functionality at this moment in time.
More information about the beta can be found in the [roadmap](../../roadmap/oidc.md).
## Configuration
The following snippet provides a sample-configuration for the OIDC identity provider explaining each field in detail.
```yaml
identity_providers:
oidc:
hmac_secret: this_is_a_secret_abc123abc123abc
issuer_private_key: |
--- KEY START
--- KEY END
access_token_lifespan: 1h
authorize_code_lifespan: 1m
id_token_lifespan: 1h
refresh_token_lifespan: 90m
enable_client_debug_messages: false
enforce_pkce: public_clients_only
cors:
endpoints:
- authorization
- token
- revocation
- introspection
allowed_origins:
- https://example.com
allowed_origins_from_client_redirect_uris: false
clients:
- id: myapp
description: My Application
secret: this_is_a_secret
public: false
authorization_policy: two_factor
audience: []
scopes:
- openid
- groups
- email
- profile
redirect_uris:
- https://oidc.example.com:8080/oauth2/callback
grant_types:
- refresh_token
- authorization_code
response_types:
- code
response_modes:
- form_post
- query
- fragment
userinfo_signing_algorithm: none
```
## Options
### hmac_secret
type: string
{: .label .label-config .label-purple }
required: yes
{: .label .label-config .label-red }
The HMAC secret used to sign the [OpenID Connect] JWT's. The provided string is hashed to a SHA256
byte string for the purpose of meeting the required format. You must [generate this option yourself](#generating-a-random-secret).
Should be defined using a [secret](../secrets.md) which is the recommended for containerized deployments.
### issuer_private_key
type: string
{: .label .label-config .label-purple }
required: yes
{: .label .label-config .label-red }
The private key in DER base64 encoded PEM format used to encrypt the [OpenID Connect] JWT's.[¹](../../faq.md#why-only-use-a-private-issuer-key-and-no-public-key-with-oidc)
You must [generate this option yourself](#generating-a-random-secret). To create this option, use
`docker run -u "$(id -u):$(id -g)" -v "$(pwd)":/keys authelia/authelia:latest authelia rsa generate --dir /keys`
to generate both the private and public key in the current directory. You can then paste the
private key into your configuration.
Should be defined using a [secret](../secrets.md) which is the recommended for containerized deployments.
### access_token_lifespan
type: duration
{: .label .label-config .label-purple }
default: 1h
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
The maximum lifetime of an access token. It's generally recommended keeping this short similar to the default.
For more information read these docs about [token lifespan].
### authorize_code_lifespan
type: duration
{: .label .label-config .label-purple }
default: 1m
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
The maximum lifetime of an authorize code. This can be rather short, as the authorize code should only be needed to
obtain the other token types. For more information read these docs about [token lifespan].
### id_token_lifespan
type: duration
{: .label .label-config .label-purple }
default: 1h
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
The maximum lifetime of an ID token. For more information read these docs about [token lifespan].
### refresh_token_lifespan
type: string
{: .label .label-config .label-purple }
default: 90m
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
The maximum lifetime of a refresh token. The
refresh token can be used to obtain new refresh tokens as well as access tokens or id tokens with an
up-to-date expiration. For more information read these docs about [token lifespan].
A good starting point is 50% more or 30 minutes more (which ever is less) time than the highest lifespan out of the
[access token lifespan](#access_token_lifespan), the [authorize code lifespan](#authorize_code_lifespan), and the
[id token lifespan](#id_token_lifespan). For instance the default for all of these is 60 minutes, so the default refresh
token lifespan is 90 minutes.
### enable_client_debug_messages
type: boolean
{: .label .label-config .label-purple }
default: false
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
Allows additional debug messages to be sent to the clients.
### minimum_parameter_entropy
type: integer
{: .label .label-config .label-purple }
default: 8
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
This controls the minimum length of the `nonce` and `state` parameters.
***Security Notice:*** Changing this value is generally discouraged, reducing it from the default can theoretically
make certain scenarios less secure. It is highly encouraged that if your OpenID Connect RP does not send these parameters
or sends parameters with a lower length than the default that they implement a change rather than changing this value.
### enforce_pkce
type: string
{: .label .label-config .label-purple }
default: public_clients_only
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
[Proof Key for Code Exchange](https://datatracker.ietf.org/doc/html/rfc7636) enforcement policy: if specified, must be either `never`, `public_clients_only` or `always`.
If set to `public_clients_only` (default), PKCE will be required for public clients using the Authorization Code flow.
When set to `always`, PKCE will be required for all clients using the Authorization Code flow.
***Security Notice:*** Changing this value to `never` is generally discouraged, reducing it from the default can theoretically
make certain client-side applications (mobile applications, SPA) vulnerable to CSRF and authorization code interception attacks.
### enable_pkce_plain_challenge
type: boolean
{: .label .label-config .label-purple }
default: false
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
Allows PKCE `plain` challenges when set to `true`.
***Security Notice:*** Changing this value is generally discouraged. Applications should use the `S256` PKCE challenge method instead.
### cors
Some OpenID Connect Endpoints need to allow cross-origin resource sharing, however some are optional. This section allows
you to configure the optional parts. We reply with CORS headers when the request includes the Origin header.
#### endpoints
type: list(string)
{: .label .label-config .label-purple }
default: empty
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A list of endpoints to configure with cross-origin resource sharing headers. It is recommended that the `userinfo`
option is at least in this list. The potential endpoints which this can be enabled on are as follows:
* authorization
* token
* revocation
* introspection
* userinfo
#### allowed_origins
type: list(string)
{: .label .label-config .label-purple }
default: empty
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A list of permitted origins.
Any origin with https is permitted unless this option is configured or the allowed_origins_from_client_redirect_uris
option is enabled. This means you must configure this option manually if you want http endpoints to be permitted to
make cross-origin requests to the OpenID Connect endpoints, however this is not recommended.
Origins must only have the scheme, hostname and port, they may not have a trailing slash or path.
In addition to an Origin URI, you may specify the wildcard origin in the allowed_origins. It MUST be specified by itself
and the allowed_origins_from_client_redirect_uris MUST NOT be enabled. The wildcard origin is denoted as `*`. Examples:
```yaml
identity_providers:
oidc:
cors:
allowed_origins: "*"
```
```yaml
identity_providers:
oidc:
cors:
allowed_origins:
- "*"
```
#### allowed_origins_from_client_redirect_uris
type: boolean
{: .label .label-config .label-purple }
default: false
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
Automatically adds the origin portion of all redirect URI's on all clients to the list of allowed_origins, provided they
have the scheme http or https and do not have the hostname of localhost.
### clients
A list of clients to configure. The options for each client are described below.
#### id
type: string
{: .label .label-config .label-purple }
required: yes
{: .label .label-config .label-red }
The Client ID for this client. It must exactly match the Client ID configured in the application
consuming this client.
#### description
type: string
{: .label .label-config .label-purple }
default: *same as id*
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A friendly description for this client shown in the UI. This defaults to the same as the ID.
#### secret
type: string
{: .label .label-config .label-purple }
required: situational
{: .label .label-config .label-yellow }
The shared secret between Authelia and the application consuming this client. This secret must
match the secret configured in the application. Currently this is stored in plain text.
You must [generate this option yourself](#generating-a-random-secret).
This must be provided when the client is a confidential client type, and must be blank when using the public client
type. To set the client type to public see the [public](#public) configuration option.
#### public
type: bool
{: .label .label-config .label-purple }
default: false
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
This enables the public client type for this client. This is for clients that are not capable of maintaining
confidentiality of credentials, you can read more about client types in [RFC6749](https://datatracker.ietf.org/doc/html/rfc6749#section-2.1).
This is particularly useful for SPA's and CLI tools. This option requires setting the [client secret](#secret) to a
blank string.
In addition to the standard rules for redirect URIs, public clients can use the `urn:ietf:wg:oauth:2.0:oob` redirect URI.
#### authorization_policy
type: string
{: .label .label-config .label-purple }
default: two_factor
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
The authorization policy for this client: either `one_factor` or `two_factor`.
#### audience
type: list(string)
{: .label .label-config .label-purple }
required: no
{: .label .label-config .label-green }
A list of audiences this client is allowed to request.
#### scopes
type: list(string)
{: .label .label-config .label-purple }
default: openid, groups, profile, email
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A list of scopes to allow this client to consume. See [scope definitions](#scope-definitions) for more
information. The documentation for the application you want to use with Authelia will most-likely provide
you with the scopes to allow.
#### redirect_uris
type: list(string)
{: .label .label-config .label-purple }
required: yes
{: .label .label-config .label-red }
A list of valid callback URIs this client will redirect to. All other callbacks will be considered
unsafe. The URIs are case-sensitive and they differ from application to application - the community has
provided [a list of URL´s for common applications](../../community/oidc-integrations.md).
Some restrictions that have been placed on clients and
their redirect URIs are as follows:
1. If a client attempts to authorize with Authelia and its redirect URI is not listed in the client configuration the
attempt to authorize wil fail and an error will be generated.
2. The redirect URIs are case-sensitive.
3. The URI must include a scheme and that scheme must be one of `http` or `https`.
4. The client can ignore rule 3 and use `urn:ietf:wg:oauth:2.0:oob` if it is a [public](#public) client type.
#### grant_types
type: list(string)
{: .label .label-config .label-purple }
default: refresh_token, authorization_code
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A list of grant types this client can return. _It is recommended that this isn't configured at this time unless you
know what you're doing_. Valid options are: `implicit`, `refresh_token`, `authorization_code`, `password`,
`client_credentials`.
#### response_types
type: list(string)
{: .label .label-config .label-purple }
default: code
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A list of response types this client can return. _It is recommended that this isn't configured at this time unless you
know what you're doing_. Valid options are: `code`, `code id_token`, `id_token`, `token id_token`, `token`,
`token id_token code`.
#### response_modes
type: list(string)
{: .label .label-config .label-purple }
default: form_post, query, fragment
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
A list of response modes this client can return. It is recommended that this isn't configured at this time unless you
know what you're doing. Potential values are `form_post`, `query`, and `fragment`.
#### userinfo_signing_algorithm
type: string
{: .label .label-config .label-purple }
default: none
{: .label .label-config .label-blue }
required: no
{: .label .label-config .label-green }
The algorithm used to sign the userinfo endpoint responses. This can either be `none` or `RS256`.
## Generating a random secret
If you must provide a random secret in configuration, you can generate a random string of sufficient length. The command
```sh
LENGTH=64
tr -cd '[:alnum:]' < /dev/urandom | fold -w "${LENGTH}" | head -n 1 | tr -d '\n' ; echo
```
prints such a string with a length in characters of `${LENGTH}` on `stdout`. The string will only contain alphanumeric
characters. For Kubernetes, see [this section too](../secrets.md#Kubernetes).
## Scope Definitions
### openid
This is the default scope for openid. This field is forced on every client by the configuration validation that Authelia
does.
_**Important Note:** The claim `sub` is planned to be changed in the future to a randomly unique value to identify the
individual user. Please use the claim `preferred_username` instead._
| Claim | JWT Type | Authelia Attribute | Description |
|:---------:|:-------------:|:------------------:|:-----------------------------------------------------------:|
| sub | string | username | A unique value linked to the user who logged in |
| scope | string | scopes | Granted scopes (space delimited) |
| scp | array[string] | scopes | Granted scopes |
| iss | string | hostname | The issuer name, determined by URL |
| at_hash | string | _N/A_ | Access Token Hash |
| aud | array[string] | _N/A_ | Audience |
| exp | number | _N/A_ | Expires |
| auth_time | number | _N/A_ | The time the user authenticated with Authelia |
| rat | number | _N/A_ | The time when the token was requested |
| iat | number | _N/A_ | The time when the token was issued |
| jti | string(uuid) | _N/A_ | JWT Identifier |
| amr | array[string] | _N/A_ | An [RFC8176] list of authentication method reference values |
### groups
This scope includes the groups the authentication backend reports the user is a member of in the token.
| Claim | JWT Type | Authelia Attribute | Description |
|:------:|:-------------:|:------------------:|:------------------------------------------------------------------------------------------------------------------:|
| groups | array[string] | groups | List of user's groups discovered via [authentication](https://www.authelia.com/docs/configuration/authentication/) |
### email
This scope includes the email information the authentication backend reports about the user in the token.
| Claim | JWT Type | Authelia Attribute | Description |
|:--------------:|:-------------:|:------------------:|:---------------------------------------------------------:|
| email | string | email[0] | The first email address in the list of emails |
| email_verified | bool | _N/A_ | If the email is verified, assumed true for the time being |
| alt_emails | array[string] | email[1:] | All email addresses that are not in the email JWT field |
### profile
This scope includes the profile information the authentication backend reports about the user in the token.
| Claim | JWT Type | Authelia Attribute | Description |
|:------------------:|:--------:|:------------------:|:----------------------------------------:|
| preferred_username | string | username | The username the user used to login with |
| name | string | display_name | The users display name |
## Authentication Method References
Authelia currently supports adding the `amr` claim to the [ID Token](https://openid.net/specs/openid-connect-core-1_0.html#IDToken)
utilizing the [RFC8176] Authentication Method Reference values.
The values this claim has are not strictly defined by the [OpenID Connect] specification. As such, some backends may
expect a specification other than [RFC8176] for this purpose. If you have such an application and wish for us to support
it then you're encouraged to create an issue.
Below is a list of the potential values we place in the claim and their meaning:
| Value | Description | Factor | Channel |
|:-----:|:----------------------------------------------------------------:|:------:|:--------:|
| mfa | User used multiple factors to login (see factor column) | N/A | N/A |
| mca | User used multiple channels to login (see channel column) | N/A | N/A |
| user | User confirmed they were present when using their hardware key | N/A | N/A |
| pin | User confirmed they are the owner of the hardware key with a pin | N/A | N/A |
| pwd | User used a username and password to login | Know | Browser |
| otp | User used TOTP to login | Have | Browser |
| hwk | User used a hardware key to login | Have | Browser |
| sms | User used Duo to login | Have | External |
## Endpoint Implementations
The following section documents the endpoints we implement and their respective paths. This information can traditionally
be discovered by relying parties that utilize [discovery](https://openid.net/specs/openid-connect-discovery-1_0.html),
however this information may be useful for clients which do not implement this.
The endpoints can be discovered easily by visiting the Discovery and Metadata endpoints. It is recommended regardless
of your version of Authelia that you utilize this version as it will always produce the correct endpoint URLs. The paths
for the Discovery/Metadata endpoints are part of IANA's well known registration but are also documented in a table below.
These tables document the endpoints we currently support and their paths in the most recent version of Authelia. The paths
are appended to the end of the primary URL used to access Authelia. The tables use the url https://auth.example.com as
an example of the Authelia root URL which is also the OpenID Connect issuer.
### Well Known Discovery Endpoints
These endpoints can be utilized to discover other endpoints and metadata about the Authelia OP.
| Endpoint | Path |
|:-----------------------------------------:|:---------------------------------------------------------------:|
| [OpenID Connect Discovery] | https://auth.example.com/.well-known/openid-configuration |
| [OAuth 2.0 Authorization Server Metadata] | https://auth.example.com/.well-known/oauth-authorization-server |
### Discoverable Endpoints
These endpoints implement OpenID Connect elements.
| Endpoint | Path | Discovery Attribute |
|:-------------------:|:-----------------------------------------------:|:----------------------:|
| [JSON Web Key Sets] | https://auth.example.com/jwks.json | jwks_uri |
| [Authorization] | https://auth.example.com/api/oidc/authorization | authorization_endpoint |
| [Token] | https://auth.example.com/api/oidc/token | token_endpoint |
| [Userinfo] | https://auth.example.com/api/oidc/userinfo | userinfo_endpoint |
| [Introspection] | https://auth.example.com/api/oidc/introspection | introspection_endpoint |
| [Revocation] | https://auth.example.com/api/oidc/revocation | revocation_endpoint |
[JSON Web Key Sets]: https://datatracker.ietf.org/doc/html/rfc7517#section-5
[OpenID Connect]: https://openid.net/connect/
[OpenID Connect Discovery]: https://openid.net/specs/openid-connect-discovery-1_0.html
[OAuth 2.0 Authorization Server Metadata]: https://datatracker.ietf.org/doc/html/rfc8414
[Authorization]: https://openid.net/specs/openid-connect-core-1_0.html#AuthorizationEndpoint
[Token]: https://openid.net/specs/openid-connect-core-1_0.html#TokenEndpoint
[Userinfo]: https://openid.net/specs/openid-connect-core-1_0.html#UserInfo
[Introspection]: https://datatracker.ietf.org/doc/html/rfc7662
[Revocation]: https://datatracker.ietf.org/doc/html/rfc7009
[RFC8176]: https://datatracker.ietf.org/doc/html/rfc8176
[token lifespan]: https://docs.apigee.com/api-platform/antipatterns/oauth-long-expiration