ContainerImage.Pinniped/internal/psession/pinniped_session.go

169 lines
7.3 KiB
Go

// Copyright 2021-2023 the Pinniped contributors. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package psession
import (
"time"
"github.com/mohae/deepcopy"
"github.com/ory/fosite"
"github.com/ory/fosite/handler/openid"
"github.com/ory/fosite/token/jwt"
"k8s.io/apimachinery/pkg/types"
)
// PinnipedSession is a session container which includes the fosite standard stuff plus custom Pinniped stuff.
type PinnipedSession struct {
// Delegate most things to the standard fosite OpenID JWT session.
Fosite *openid.DefaultSession `json:"fosite,omitempty"`
// Custom Pinniped extensions to the session data.
Custom *CustomSessionData `json:"custom,omitempty"`
}
var _ openid.Session = &PinnipedSession{}
// CustomSessionData is the custom session data needed by Pinniped. It should be treated as a union type,
// where the value of ProviderType decides which other fields to use.
type CustomSessionData struct {
// Username will contain the downstream username determined during initial authorization. We store this
// so that we can validate that it does not change upon refresh. This should normally never be empty, since
// all users must have a username.
Username string `json:"username"`
// UpstreamUsername is the username from the upstream identity provider during the user's initial login before
// identity transformations were applied. We store this so that we can still reapply identity transformations
// during refresh flows even when an upstream OIDC provider does not return the username again during the upstream
// refresh, and so we can validate that same untransformed username was found during an LDAP refresh.
UpstreamUsername string `json:"upstreamUsername"`
// UpstreamGroups is the groups list from the upstream identity provider during the user's initial login before
// identity transformations were applied. We store this so that we can still reapply identity transformations
// during refresh flows even when an OIDC provider does not return the groups again during the upstream
// refresh, and when the LDAP search was configured to skip group refreshes.
UpstreamGroups []string `json:"upstreamGroups"`
// The Kubernetes resource UID of the identity provider CRD for the upstream IDP used to start this session.
// This should be validated again upon downstream refresh to make sure that we are not refreshing against
// a different identity provider CRD which just happens to have the same name.
// This implies that when a user deletes an identity provider CRD, then the sessions that were started
// using that identity provider will not be able to perform any more downstream refreshes.
ProviderUID types.UID `json:"providerUID"`
// The Kubernetes resource name of the identity provider CRD for the upstream IDP used to start this session.
// Used during a downstream refresh to decide which upstream to refresh.
// Also used by the session storage garbage collector to decide which upstream to use for token revocation.
ProviderName string `json:"providerName"`
// The type of the identity provider for the upstream IDP used to start this session.
// Used during a downstream refresh to decide which upstream to refresh.
// Also used to decide which of the pointer types below should be used.
ProviderType ProviderType `json:"providerType"`
// Warnings that were encountered at some point during login that should be emitted to the client.
// These will be RFC 2616-formatted errors with error code 299.
Warnings []string `json:"warnings"`
// Only used when ProviderType == "oidc".
OIDC *OIDCSessionData `json:"oidc,omitempty"`
// Only used when ProviderType == "ldap".
LDAP *LDAPSessionData `json:"ldap,omitempty"`
// Only used when ProviderType == "activedirectory".
ActiveDirectory *ActiveDirectorySessionData `json:"activedirectory,omitempty"`
}
type ProviderType string
const (
ProviderTypeOIDC ProviderType = "oidc"
ProviderTypeLDAP ProviderType = "ldap"
ProviderTypeActiveDirectory ProviderType = "activedirectory"
)
// OIDCSessionData is the additional data needed by Pinniped when the upstream IDP is an OIDC provider.
type OIDCSessionData struct {
// UpstreamRefreshToken will contain the refresh token from the upstream OIDC provider, if the upstream provider
// returned a refresh token during initial authorization. Otherwise, this field should be empty
// and the UpstreamAccessToken should be non-empty. We may not get a refresh token from the upstream provider,
// but we should always get an access token. However, when we do get a refresh token there is no need to
// also store the access token, since storing unnecessary tokens makes it possible for them to be leaked and
// creates more upstream revocation HTTP requests when it comes time to revoke the stored tokens.
UpstreamRefreshToken string `json:"upstreamRefreshToken"`
// UpstreamAccessToken will contain the access token returned by the upstream OIDC provider during initial
// authorization, but only when the provider did not also return a refresh token. When UpstreamRefreshToken is
// non-empty, then this field should be empty, indicating that we should use the upstream refresh token during
// downstream refresh.
UpstreamAccessToken string `json:"upstreamAccessToken"`
// UpstreamSubject is the "sub" claim from the upstream identity provider from the user's initial login. We store this
// so that we can validate that it does not change upon refresh.
UpstreamSubject string `json:"upstreamSubject"`
// UpstreamIssuer is the "iss" claim from the upstream identity provider from the user's initial login. We store this
// so that we can validate that it does not change upon refresh.
UpstreamIssuer string `json:"upstreamIssuer"`
}
// LDAPSessionData is the additional data needed by Pinniped when the upstream IDP is an LDAP provider.
type LDAPSessionData struct {
UserDN string `json:"userDN"`
ExtraRefreshAttributes map[string]string `json:"extraRefreshAttributes,omitempty"`
}
// ActiveDirectorySessionData is the additional data needed by Pinniped when the upstream IDP is an Active Directory provider.
type ActiveDirectorySessionData struct {
UserDN string `json:"userDN"`
ExtraRefreshAttributes map[string]string `json:"extraRefreshAttributes,omitempty"`
}
// NewPinnipedSession returns a new empty session.
func NewPinnipedSession() *PinnipedSession {
return &PinnipedSession{
Fosite: &openid.DefaultSession{
Claims: &jwt.IDTokenClaims{},
Headers: &jwt.Headers{},
},
Custom: &CustomSessionData{},
}
}
func (s *PinnipedSession) Clone() fosite.Session {
// Implementation copied from openid.DefaultSession's clone method.
if s == nil {
return nil
}
return deepcopy.Copy(s).(fosite.Session)
}
func (s *PinnipedSession) SetExpiresAt(key fosite.TokenType, exp time.Time) {
s.Fosite.SetExpiresAt(key, exp)
}
func (s *PinnipedSession) GetExpiresAt(key fosite.TokenType) time.Time {
return s.Fosite.GetExpiresAt(key)
}
func (s *PinnipedSession) GetUsername() string {
return s.Fosite.GetUsername()
}
func (s *PinnipedSession) SetSubject(subject string) {
s.Fosite.SetSubject(subject)
}
func (s *PinnipedSession) GetSubject() string {
return s.Fosite.GetSubject()
}
func (s *PinnipedSession) IDTokenHeaders() *jwt.Headers {
return s.Fosite.IDTokenHeaders()
}
func (s *PinnipedSession) IDTokenClaims() *jwt.IDTokenClaims {
return s.Fosite.IDTokenClaims()
}