Merge pull request #1721 from vmware-tanzu/pinny/bump-deps

Bump go.mod direct dependencies
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Ryan Richard 2023-10-18 14:45:12 -07:00 committed by GitHub
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12 changed files with 442 additions and 275 deletions

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@ -4,7 +4,7 @@
# SPDX-License-Identifier: Apache-2.0 # SPDX-License-Identifier: Apache-2.0
# Prepare to cross-compile by always running the build stage in the build platform, not the target platform. # Prepare to cross-compile by always running the build stage in the build platform, not the target platform.
FROM --platform=$BUILDPLATFORM golang:1.21.2 as build-env FROM --platform=$BUILDPLATFORM golang:1.21.3 as build-env
WORKDIR /work WORKDIR /work

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@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-21-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-22-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-23-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-24-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-25-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-26-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-27-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

View File

@ -480,7 +480,8 @@ ImpersonationProxyServiceSpec describes how the Concierge should provision a Ser
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. | *`type`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxyservicetype[$$ImpersonationProxyServiceType$$]__ | Type specifies the type of Service to provision for the impersonation proxy. +
If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status. If the type is "None", then the "spec.impersonationProxy.externalEndpoint" field must be set to a non-empty value so that the Concierge can properly advertise the endpoint in the CredentialIssuer's status.
| *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers. | *`loadBalancerIP`* __string__ | LoadBalancerIP specifies the IP address to set in the spec.loadBalancerIP field of the provisioned Service. This is not supported on all cloud providers.
| *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service. | *`annotations`* __object (keys:string, values:string)__ | Annotations specifies zero or more key/value pairs to set as annotations on the provisioned Service.
@ -514,9 +515,11 @@ ImpersonationProxySpec describes the intended configuration of the Concierge imp
| Field | Description | Field | Description
| *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running. | *`mode`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxymode[$$ImpersonationProxyMode$$]__ | Mode configures whether the impersonation proxy should be started: - "disabled" explicitly disables the impersonation proxy. This is the default. - "enabled" explicitly enables the impersonation proxy. - "auto" enables or disables the impersonation proxy based upon the cluster in which it is running.
| *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients. | *`service`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxyservicespec[$$ImpersonationProxyServiceSpec$$]__ | Service describes the configuration of the Service provisioned to expose the impersonation proxy to clients.
| *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. | *`externalEndpoint`* __string__ | ExternalEndpoint describes the HTTPS endpoint where the proxy will be exposed. If not set, the proxy will be served using the external name of the LoadBalancer service or the cluster service DNS name. +
This field must be non-empty when spec.impersonationProxy.service.type is "None". This field must be non-empty when spec.impersonationProxy.service.type is "None".
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-concierge-config-v1alpha1-impersonationproxytlsspec[$$ImpersonationProxyTLSSpec$$]__ | TLS contains information about how the Concierge impersonation proxy should serve TLS. +
If this field is empty, the impersonation proxy will generate its own TLS certificate. If this field is empty, the impersonation proxy will generate its own TLS certificate.
|=== |===
@ -683,11 +686,14 @@ FederationDomainSpec is a struct that describes an OIDC Provider.
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). | *`issuer`* __string__ | Issuer is the OIDC Provider's issuer, per the OIDC Discovery Metadata document, as well as the identifier that it will use for the iss claim in issued JWTs. This field will also be used as the base URL for any endpoints used by the OIDC Provider (e.g., if your issuer is https://example.com/foo, then your authorization endpoint will look like https://example.com/foo/some/path/to/auth/endpoint). +
See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information. See https://openid.net/specs/openid-connect-discovery-1_0.html#rfc.section.3 for more information.
| *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain. | *`tls`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintlsspec[$$FederationDomainTLSSpec$$]__ | TLS specifies a secret which will contain Transport Layer Security (TLS) configuration for the FederationDomain.
| *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. | *`identityProviders`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomainidentityprovider[$$FederationDomainIdentityProvider$$] array__ | IdentityProviders is the list of identity providers available for use by this FederationDomain. +
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider.
An identity provider CR (e.g. OIDCIdentityProvider or LDAPIdentityProvider) describes how to connect to a server, how to talk in a specific protocol for authentication, and how to use the schema of that server/protocol to extract a normalized user identity. Normalized user identities include a username and a list of group names. In contrast, IdentityProviders describes how to use that normalized identity in those Kubernetes clusters which belong to this FederationDomain. Each entry in IdentityProviders can be configured with arbitrary transformations on that normalized identity. For example, a transformation can add a prefix to all usernames to help avoid accidental conflicts when multiple identity providers have different users with the same username (e.g. "idp1:ryan" versus "idp2:ryan"). Each entry in IdentityProviders can also implement arbitrary authentication rejection policies. Even though a user was able to authenticate with the identity provider, a policy can disallow the authentication to the Kubernetes clusters that belong to this FederationDomain. For example, a policy could disallow the authentication unless the user belongs to a specific group in the identity provider. +
For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field. For backwards compatibility with versions of Pinniped which predate support for multiple identity providers, an empty IdentityProviders list will cause the FederationDomain to use all available identity providers which exist in the same namespace, but also to reject all authentication requests when there is more than one identity provider currently defined. In this backwards compatibility mode, the name of the identity provider resource (e.g. the Name of an OIDCIdentityProvider resource) will be used as the name of the identity provider in this FederationDomain. This mode is provided to make upgrading from older versions easier. However, instead of relying on this backwards compatibility mode, please consider this mode to be deprecated and please instead explicitly list the identity provider using this IdentityProviders field.
|=== |===
@ -724,10 +730,14 @@ FederationDomainTLSSpec is a struct that describes the TLS configuration for an
[cols="25a,75a", options="header"] [cols="25a,75a", options="header"]
|=== |===
| Field | Description | Field | Description
| *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. | *`secretName`* __string__ | SecretName is an optional name of a Secret in the same namespace, of type `kubernetes.io/tls`, which contains the TLS serving certificate for the HTTPS endpoints served by this FederationDomain. When provided, the TLS Secret named here must contain keys named `tls.crt` and `tls.key` that contain the certificate and private key to use for TLS. +
Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. Server Name Indication (SNI) is an extension to the Transport Layer Security (TLS) supported by all major browsers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere.
SecretName is required if you would like to use different TLS certificates for issuers of different hostnames. SNI requests do not include port numbers, so all issuers with the same DNS hostname must use the same SecretName value even if they have different port numbers. +
SecretName is not required when you would like to use only the HTTP endpoints (e.g. when the HTTP listener is configured to listen on loopback interfaces or UNIX domain sockets for traffic from a service mesh sidecar). It is also not required when you would like all requests to this OIDC Provider's HTTPS endpoints to use the default TLS certificate, which is configured elsewhere. +
When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses. When your Issuer URL's host is an IP address, then this field is ignored. SNI does not work for IP addresses.
|=== |===
@ -746,9 +756,12 @@ FederationDomainTransforms defines identity transformations for an identity prov
|=== |===
| Field | Description | Field | Description
| *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions. | *`constants`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintransformsconstant[$$FederationDomainTransformsConstant$$] array__ | Constants defines constant variables and their values which will be made available to the transform expressions.
| *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. | *`expressions`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintransformsexpression[$$FederationDomainTransformsExpression$$] array__ | Expressions are an optional list of transforms and policies to be executed in the order given during every authentication attempt, including during every session refresh. Each is a CEL expression. It may use the basic CEL language as defined in https://github.com/google/cel-spec/blob/master/doc/langdef.md plus the CEL string extensions defined in https://github.com/google/cel-go/tree/master/ext#strings. +
The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants.
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. The username and groups extracted from the identity provider, and the constants defined in this CR, are available as variables in all expressions. The username is provided via a variable called `username` and the list of group names is provided via a variable called `groups` (which may be an empty list). Each user-provided constants is provided via a variable named `strConst.varName` for string constants and `strListConst.varName` for string list constants. +
The only allowed types for expressions are currently policy/v1, username/v1, and groups/v1. Each policy/v1 must return a boolean, and when it returns false, no more expressions from the list are evaluated and the authentication attempt is rejected. Transformations of type policy/v1 do not return usernames or group names, and therefore cannot change the username or group names. Each username/v1 transform must return the new username (a string), which can be the same as the old username. Transformations of type username/v1 do not return group names, and therefore cannot change the group names. Each groups/v1 transform must return the new groups list (list of strings), which can be the same as the old groups list. Transformations of type groups/v1 do not return usernames, and therefore cannot change the usernames. After each expression, the new (potentially changed) username or groups get passed to the following expression. +
Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt. Any compilation or static type-checking failure of any expression will cause an error status on the FederationDomain. During an authentication attempt, any unexpected runtime evaluation errors (e.g. division by zero) cause the authentication attempt to fail. When all expressions evaluate successfully, then the (potentially changed) username and group names have been decided for that authentication attempt.
| *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions. | *`examples`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-federationdomaintransformsexample[$$FederationDomainTransformsExample$$] array__ | Examples can optionally be used to ensure that the sequence of transformation expressions are working as expected. Examples define sample input identities which are then run through the expression list, and the results are compared to the expected results. If any example in this list fails, then this identity provider will not be available for use within this FederationDomain, and the error(s) will be added to the FederationDomain status. This can be used to help guard against programming mistakes in the expressions, and also act as living documentation for other administrators to better understand the expressions.
|=== |===
@ -892,9 +905,11 @@ OIDCClientSpec is a struct that describes an OIDCClient.
|=== |===
| Field | Description | Field | Description
| *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri. | *`allowedRedirectURIs`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-redirecturi[$$RedirectURI$$] array__ | allowedRedirectURIs is a list of the allowed redirect_uri param values that should be accepted during OIDC flows with this client. Any other uris will be rejected. Must be a URI with the https scheme, unless the hostname is 127.0.0.1 or ::1 which may use the http scheme. Port numbers are not required for 127.0.0.1 or ::1 and are ignored when checking for a matching redirect_uri.
| *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. | *`allowedGrantTypes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-granttype[$$GrantType$$] array__ | allowedGrantTypes is a list of the allowed grant_type param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience. Must only contain the following values: - authorization_code: allows the client to perform the authorization code grant flow, i.e. allows the webapp to authenticate users. This grant must always be listed. - refresh_token: allows the client to perform refresh grants for the user to extend the user's session. This grant must be listed if allowedScopes lists offline_access. - urn:ietf:params:oauth:grant-type:token-exchange: allows the client to perform RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. This grant must be listed if allowedScopes lists pinniped:request-audience.
| *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. | *`allowedScopes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-config-v1alpha1-scope[$$Scope$$] array__ | allowedScopes is a list of the allowed scopes param values that should be accepted during OIDC flows with this client. +
Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups. Must only contain the following values: - openid: The client is allowed to request ID tokens. ID tokens only include the required claims by default (iss, sub, aud, exp, iat). This scope must always be listed. - offline_access: The client is allowed to request an initial refresh token during the authorization code grant flow. This scope must be listed if allowedGrantTypes lists refresh_token. - pinniped:request-audience: The client is allowed to request a new audience value during a RFC8693 token exchange, which is a step in the process to be able to get a cluster credential for the user. openid, username and groups scopes must be listed when this scope is present. This scope must be listed if allowedGrantTypes lists urn:ietf:params:oauth:grant-type:token-exchange. - username: The client is allowed to request that ID tokens contain the user's username. Without the username scope being requested and allowed, the ID token will not contain the user's username. - groups: The client is allowed to request that ID tokens contain the user's group membership, if their group membership is discoverable by the Supervisor. Without the groups scope being requested and allowed, the ID token will not contain groups.
|=== |===
@ -1221,9 +1236,12 @@ ActiveDirectoryIdentityProvider describes the configuration of an upstream Micro
| *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})" | *`filter`* __string__ | Filter is the ActiveDirectory search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. E.g. "member={}" or "&(objectClass=groupOfNames)(member={})". For more information about ActiveDirectory filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the filter were specified as "(&(objectClass=group)(member:1.2.840.113556.1.4.1941:={})". This searches nested groups by default. Note that nested group search can be slow for some Active Directory servers. To disable it, you can set the filter to "(&(objectClass=group)(member={})"
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-idp-v1alpha1-activedirectoryidentityprovidergroupsearchattributes[$$ActiveDirectoryIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each ActiveDirectory entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===
@ -1389,9 +1407,12 @@ LDAPIdentityProvider describes the configuration of an upstream Lightweight Dire
| *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}". | *`filter`* __string__ | Filter is the LDAP search filter which should be applied when searching for groups for a user. The pattern "{}" must occur in the filter at least once and will be dynamically replaced by the value of an attribute of the user entry found as a result of the user search. Which attribute's value is used to replace the placeholder(s) depends on the value of UserAttributeForFilter. For more information about LDAP filters, see https://ldap.com/ldap-filters. Note that the dn (distinguished name) is not an attribute of an entry, so "dn={}" cannot be used. Optional. When not specified, the default will act as if the Filter were specified as "member={}".
| *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user. | *`userAttributeForFilter`* __string__ | UserAttributeForFilter specifies which attribute's value from the user entry found as a result of the user search will be used to replace the "{}" placeholder(s) in the group search Filter. For example, specifying "uid" as the UserAttributeForFilter while specifying "&(objectClass=posixGroup)(memberUid={})" as the Filter would search for groups by replacing the "{}" placeholder in the Filter with the value of the user's "uid" attribute. Optional. When not specified, the default will act as if "dn" were specified. For example, leaving UserAttributeForFilter unspecified while specifying "&(objectClass=groupOfNames)(member={})" as the Filter would search for groups by replacing the "{}" placeholder(s) with the dn (distinguished name) of the user.
| *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search. | *`attributes`* __xref:{anchor_prefix}-go-pinniped-dev-generated-1-28-apis-supervisor-idp-v1alpha1-ldapidentityprovidergroupsearchattributes[$$LDAPIdentityProviderGroupSearchAttributes$$]__ | Attributes specifies how the group's information should be read from each LDAP entry which was found as the result of the group search.
| *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. | *`skipGroupRefresh`* __boolean__ | The user's group membership is refreshed as they interact with the supervisor to obtain new credentials (as their old credentials expire). This allows group membership changes to be quickly reflected into Kubernetes clusters. Since group membership is often used to bind authorization policies, it is important to keep the groups observed in Kubernetes clusters in-sync with the identity provider. +
In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base.
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. In some environments, frequent group membership queries may result in a significant performance impact on the identity provider and/or the supervisor. The best approach to handle performance impacts is to tweak the group query to be more performant, for example by disabling nested group search or by using a more targeted group search base. +
If the group search query cannot be made performant and you are willing to have group memberships remain static for approximately a day, then set skipGroupRefresh to true. This is an insecure configuration as authorization policies that are bound to group membership will not notice if a user has been removed from a particular group until their next login. +
This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed. This is an experimental feature that may be removed or significantly altered in the future. Consumers of this configuration should carefully read all release notes before upgrading to ensure that the meaning of this field has not changed.
|=== |===

12
go.mod
View File

@ -10,8 +10,8 @@ replace k8s.io/kube-openapi => k8s.io/kube-openapi v0.0.0-20230717233707-2695361
require ( require (
github.com/MakeNowJust/heredoc/v2 v2.0.1 github.com/MakeNowJust/heredoc/v2 v2.0.1
github.com/chromedp/cdproto v0.0.0-20231007061347-18b01cd81617 github.com/chromedp/cdproto v0.0.0-20231011050154-1d073bb38998
github.com/chromedp/chromedp v0.9.2 github.com/chromedp/chromedp v0.9.3
github.com/coreos/go-oidc/v3 v3.6.0 github.com/coreos/go-oidc/v3 v3.6.0
github.com/coreos/go-semver v0.3.1 github.com/coreos/go-semver v0.3.1
github.com/creack/pty v1.1.18 github.com/creack/pty v1.1.18
@ -24,7 +24,7 @@ require (
github.com/gofrs/flock v0.8.1 github.com/gofrs/flock v0.8.1
github.com/golang/mock v1.6.0 github.com/golang/mock v1.6.0
github.com/google/cel-go v0.18.1 github.com/google/cel-go v0.18.1
github.com/google/go-cmp v0.5.9 github.com/google/go-cmp v0.6.0
github.com/google/gofuzz v1.2.0 github.com/google/gofuzz v1.2.0
github.com/google/uuid v1.3.1 github.com/google/uuid v1.3.1
github.com/gorilla/securecookie v1.1.1 github.com/gorilla/securecookie v1.1.1
@ -41,7 +41,7 @@ require (
github.com/tdewolff/minify/v2 v2.12.9 github.com/tdewolff/minify/v2 v2.12.9
go.uber.org/zap v1.26.0 go.uber.org/zap v1.26.0
golang.org/x/crypto v0.14.0 golang.org/x/crypto v0.14.0
golang.org/x/net v0.16.0 golang.org/x/net v0.17.0
golang.org/x/oauth2 v0.13.0 golang.org/x/oauth2 v0.13.0
golang.org/x/sync v0.4.0 golang.org/x/sync v0.4.0
golang.org/x/term v0.13.0 golang.org/x/term v0.13.0
@ -56,7 +56,7 @@ require (
k8s.io/gengo v0.0.0-20230829151522-9cce18d56c01 k8s.io/gengo v0.0.0-20230829151522-9cce18d56c01
k8s.io/klog/v2 v2.100.1 k8s.io/klog/v2 v2.100.1
k8s.io/kube-aggregator v0.28.2 k8s.io/kube-aggregator v0.28.2
k8s.io/kube-openapi v0.0.0-20231009201959-f62364c3c354 k8s.io/kube-openapi v0.0.0-20231010175941-2dd684a91f00
k8s.io/utils v0.0.0-20230726121419-3b25d923346b k8s.io/utils v0.0.0-20230726121419-3b25d923346b
sigs.k8s.io/yaml v1.3.0 sigs.k8s.io/yaml v1.3.0
) )
@ -89,7 +89,7 @@ require (
github.com/go-openapi/swag v0.22.3 // indirect github.com/go-openapi/swag v0.22.3 // indirect
github.com/gobwas/httphead v0.1.0 // indirect github.com/gobwas/httphead v0.1.0 // indirect
github.com/gobwas/pool v0.2.1 // indirect github.com/gobwas/pool v0.2.1 // indirect
github.com/gobwas/ws v1.2.1 // indirect github.com/gobwas/ws v1.3.0 // indirect
github.com/gogo/protobuf v1.3.2 // indirect github.com/gogo/protobuf v1.3.2 // indirect
github.com/golang/glog v1.1.0 // indirect github.com/golang/glog v1.1.0 // indirect
github.com/golang/groupcache v0.0.0-20210331224755-41bb18bfe9da // indirect github.com/golang/groupcache v0.0.0-20210331224755-41bb18bfe9da // indirect

21
go.sum
View File

@ -73,11 +73,10 @@ github.com/cespare/xxhash v1.1.0/go.mod h1:XrSqR1VqqWfGrhpAt58auRo0WTKS1nRRg3ghf
github.com/cespare/xxhash/v2 v2.1.1/go.mod h1:VGX0DQ3Q6kWi7AoAeZDth3/j3BFtOZR5XLFGgcrjCOs= github.com/cespare/xxhash/v2 v2.1.1/go.mod h1:VGX0DQ3Q6kWi7AoAeZDth3/j3BFtOZR5XLFGgcrjCOs=
github.com/cespare/xxhash/v2 v2.2.0 h1:DC2CZ1Ep5Y4k3ZQ899DldepgrayRUGE6BBZ/cd9Cj44= github.com/cespare/xxhash/v2 v2.2.0 h1:DC2CZ1Ep5Y4k3ZQ899DldepgrayRUGE6BBZ/cd9Cj44=
github.com/cespare/xxhash/v2 v2.2.0/go.mod h1:VGX0DQ3Q6kWi7AoAeZDth3/j3BFtOZR5XLFGgcrjCOs= github.com/cespare/xxhash/v2 v2.2.0/go.mod h1:VGX0DQ3Q6kWi7AoAeZDth3/j3BFtOZR5XLFGgcrjCOs=
github.com/chromedp/cdproto v0.0.0-20230802225258-3cf4e6d46a89/go.mod h1:GKljq0VrfU4D5yc+2qA6OVr8pmO/MBbPEWqWQ/oqGEs= github.com/chromedp/cdproto v0.0.0-20231011050154-1d073bb38998 h1:2zipcnjfFdqAjOQa8otCCh0Lk1M7RBzciy3s80YAKHk=
github.com/chromedp/cdproto v0.0.0-20231007061347-18b01cd81617 h1:/5dwcyi5WOawM1Iz6MjrYqB90TRIdZv3O0fVHEJb86w= github.com/chromedp/cdproto v0.0.0-20231011050154-1d073bb38998/go.mod h1:GKljq0VrfU4D5yc+2qA6OVr8pmO/MBbPEWqWQ/oqGEs=
github.com/chromedp/cdproto v0.0.0-20231007061347-18b01cd81617/go.mod h1:GKljq0VrfU4D5yc+2qA6OVr8pmO/MBbPEWqWQ/oqGEs= github.com/chromedp/chromedp v0.9.3 h1:Wq58e0dZOdHsxaj9Owmfcf+ibtpYN1N0FWVbaxa/esg=
github.com/chromedp/chromedp v0.9.2 h1:dKtNz4kApb06KuSXoTQIyUC2TrA0fhGDwNZf3bcgfKw= github.com/chromedp/chromedp v0.9.3/go.mod h1:NipeUkUcuzIdFbBP8eNNvl9upcceOfWzoJn6cRe4ksA=
github.com/chromedp/chromedp v0.9.2/go.mod h1:LkSXJKONWTCHAfQasKFUZI+mxqS4tZqhmtGzzhLsnLs=
github.com/chromedp/sysutil v1.0.0 h1:+ZxhTpfpZlmchB58ih/LBHX52ky7w2VhQVKQMucy3Ic= github.com/chromedp/sysutil v1.0.0 h1:+ZxhTpfpZlmchB58ih/LBHX52ky7w2VhQVKQMucy3Ic=
github.com/chromedp/sysutil v1.0.0/go.mod h1:kgWmDdq8fTzXYcKIBqIYvRRTnYb9aNS9moAV0xufSww= github.com/chromedp/sysutil v1.0.0/go.mod h1:kgWmDdq8fTzXYcKIBqIYvRRTnYb9aNS9moAV0xufSww=
github.com/chzyer/logex v1.1.10/go.mod h1:+Ywpsq7O8HXn0nuIou7OrIPyXbp3wmkHB+jjWRnGsAI= github.com/chzyer/logex v1.1.10/go.mod h1:+Ywpsq7O8HXn0nuIou7OrIPyXbp3wmkHB+jjWRnGsAI=
@ -186,8 +185,8 @@ github.com/gobwas/httphead v0.1.0 h1:exrUm0f4YX0L7EBwZHuCF4GDp8aJfVeBrlLQrs6NqWU
github.com/gobwas/httphead v0.1.0/go.mod h1:O/RXo79gxV8G+RqlR/otEwx4Q36zl9rqC5u12GKvMCM= github.com/gobwas/httphead v0.1.0/go.mod h1:O/RXo79gxV8G+RqlR/otEwx4Q36zl9rqC5u12GKvMCM=
github.com/gobwas/pool v0.2.1 h1:xfeeEhW7pwmX8nuLVlqbzVc7udMDrwetjEv+TZIz1og= github.com/gobwas/pool v0.2.1 h1:xfeeEhW7pwmX8nuLVlqbzVc7udMDrwetjEv+TZIz1og=
github.com/gobwas/pool v0.2.1/go.mod h1:q8bcK0KcYlCgd9e7WYLm9LpyS+YeLd8JVDW6WezmKEw= github.com/gobwas/pool v0.2.1/go.mod h1:q8bcK0KcYlCgd9e7WYLm9LpyS+YeLd8JVDW6WezmKEw=
github.com/gobwas/ws v1.2.1 h1:F2aeBZrm2NDsc7vbovKrWSogd4wvfAxg0FQ89/iqOTk= github.com/gobwas/ws v1.3.0 h1:sbeU3Y4Qzlb+MOzIe6mQGf7QR4Hkv6ZD0qhGkBFL2O0=
github.com/gobwas/ws v1.2.1/go.mod h1:hRKAFb8wOxFROYNsT1bqfWnhX+b5MFeJM9r2ZSwg/KY= github.com/gobwas/ws v1.3.0/go.mod h1:hRKAFb8wOxFROYNsT1bqfWnhX+b5MFeJM9r2ZSwg/KY=
github.com/godbus/dbus/v5 v5.0.4/go.mod h1:xhWf0FNVPg57R7Z0UbKHbJfkEywrmjJnf7w5xrFpKfA= github.com/godbus/dbus/v5 v5.0.4/go.mod h1:xhWf0FNVPg57R7Z0UbKHbJfkEywrmjJnf7w5xrFpKfA=
github.com/gofrs/flock v0.8.1 h1:+gYjHKf32LDeiEEFhQaotPbLuUXjY5ZqxKgXy7n59aw= github.com/gofrs/flock v0.8.1 h1:+gYjHKf32LDeiEEFhQaotPbLuUXjY5ZqxKgXy7n59aw=
github.com/gofrs/flock v0.8.1/go.mod h1:F1TvTiK9OcQqauNUHlbJvyl9Qa1QvF/gOUDKA14jxHU= github.com/gofrs/flock v0.8.1/go.mod h1:F1TvTiK9OcQqauNUHlbJvyl9Qa1QvF/gOUDKA14jxHU=
@ -251,8 +250,8 @@ github.com/google/go-cmp v0.5.2/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/
github.com/google/go-cmp v0.5.4/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE= github.com/google/go-cmp v0.5.4/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.5/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE= github.com/google/go-cmp v0.5.5/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.6/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE= github.com/google/go-cmp v0.5.6/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.9 h1:O2Tfq5qg4qc4AmwVlvv0oLiVAGB7enBSJ2x2DqQFi38= github.com/google/go-cmp v0.6.0 h1:ofyhxvXcZhMsU5ulbFiLKl/XBFqE1GSq7atu8tAmTRI=
github.com/google/go-cmp v0.5.9/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY= github.com/google/go-cmp v0.6.0/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY=
github.com/google/gofuzz v1.0.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg= github.com/google/gofuzz v1.0.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg=
github.com/google/gofuzz v1.1.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg= github.com/google/gofuzz v1.1.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg=
github.com/google/gofuzz v1.2.0 h1:xRy4A+RhZaiKjJ1bPfwQ8sedCA+YS2YcCHW6ec7JMi0= github.com/google/gofuzz v1.2.0 h1:xRy4A+RhZaiKjJ1bPfwQ8sedCA+YS2YcCHW6ec7JMi0=
@ -640,8 +639,8 @@ golang.org/x/net v0.0.0-20210405180319-a5a99cb37ef4/go.mod h1:p54w0d4576C0XHj96b
golang.org/x/net v0.0.0-20220722155237-a158d28d115b/go.mod h1:XRhObCWvk6IyKnWLug+ECip1KBveYUHfp+8e9klMJ9c= golang.org/x/net v0.0.0-20220722155237-a158d28d115b/go.mod h1:XRhObCWvk6IyKnWLug+ECip1KBveYUHfp+8e9klMJ9c=
golang.org/x/net v0.6.0/go.mod h1:2Tu9+aMcznHK/AK1HMvgo6xiTLG5rD5rZLDS+rp2Bjs= golang.org/x/net v0.6.0/go.mod h1:2Tu9+aMcznHK/AK1HMvgo6xiTLG5rD5rZLDS+rp2Bjs=
golang.org/x/net v0.10.0/go.mod h1:0qNGK6F8kojg2nk9dLZ2mShWaEBan6FAoqfSigmmuDg= golang.org/x/net v0.10.0/go.mod h1:0qNGK6F8kojg2nk9dLZ2mShWaEBan6FAoqfSigmmuDg=
golang.org/x/net v0.16.0 h1:7eBu7KsSvFDtSXUIDbh3aqlK4DPsZ1rByC8PFfBThos= golang.org/x/net v0.17.0 h1:pVaXccu2ozPjCXewfr1S7xza/zcXTity9cCdXQYSjIM=
golang.org/x/net v0.16.0/go.mod h1:NxSsAGuq816PNPmqtQdLE42eU2Fs7NoRIZrHJAlaCOE= golang.org/x/net v0.17.0/go.mod h1:NxSsAGuq816PNPmqtQdLE42eU2Fs7NoRIZrHJAlaCOE=
golang.org/x/oauth2 v0.0.0-20180821212333-d2e6202438be/go.mod h1:N/0e6XlmueqKjAGxoOufVs8QHGRruUQn6yWY3a++T0U= golang.org/x/oauth2 v0.0.0-20180821212333-d2e6202438be/go.mod h1:N/0e6XlmueqKjAGxoOufVs8QHGRruUQn6yWY3a++T0U=
golang.org/x/oauth2 v0.0.0-20190226205417-e64efc72b421/go.mod h1:gOpvHmFTYa4IltrdGE7lF6nIHvwfUNPOp7c8zoXwtLw= golang.org/x/oauth2 v0.0.0-20190226205417-e64efc72b421/go.mod h1:gOpvHmFTYa4IltrdGE7lF6nIHvwfUNPOp7c8zoXwtLw=
golang.org/x/oauth2 v0.0.0-20190604053449-0f29369cfe45/go.mod h1:gOpvHmFTYa4IltrdGE7lF6nIHvwfUNPOp7c8zoXwtLw= golang.org/x/oauth2 v0.0.0-20190604053449-0f29369cfe45/go.mod h1:gOpvHmFTYa4IltrdGE7lF6nIHvwfUNPOp7c8zoXwtLw=

View File

@ -18,7 +18,7 @@
# This is not currently using --platform to prepare to cross-compile because we use gcc below to build # This is not currently using --platform to prepare to cross-compile because we use gcc below to build
# platform-specific GCO code. This makes multi-arch builds slow due to target platform emulation. # platform-specific GCO code. This makes multi-arch builds slow due to target platform emulation.
FROM golang:1.21.2 as build-env FROM golang:1.21.3 as build-env
WORKDIR /work WORKDIR /work