zitadel/internal/api/oidc/token_exchange.go
Tim Möhlmann e879f90f38
fix(oidc): do not return access token for response type id_token (#8777)
# Which Problems Are Solved

Do not return an access token for implicit flow from v1 login, if the
`response_type` is `id_token`

# How the Problems Are Solved

Do not create the access token event if if the `response_type` is
`id_token`.

# Additional Changes

Token endpoint calls without auth request, such as machine users, token
exchange and refresh token, do not have a `response_type`. For such
calls the `OIDCResponseTypeUnspecified` enum is added at a `-1` offset,
in order not to break existing client configs.

# Additional Context

- https://discord.com/channels/927474939156643850/1294001717725237298
- Fixes https://github.com/zitadel/zitadel/issues/8776

(cherry picked from commit 778b4041ca)
2024-11-15 09:33:18 +01:00

358 lines
13 KiB
Go

package oidc
import (
"context"
"slices"
"time"
"github.com/zitadel/oidc/v3/pkg/oidc"
"github.com/zitadel/oidc/v3/pkg/op"
"golang.org/x/text/language"
"github.com/zitadel/zitadel/internal/api/authz"
"github.com/zitadel/zitadel/internal/domain"
"github.com/zitadel/zitadel/internal/telemetry/tracing"
"github.com/zitadel/zitadel/internal/zerrors"
)
const (
UserIDTokenType oidc.TokenType = "urn:zitadel:params:oauth:token-type:user_id"
// TokenTypeNA is set when the returned Token Exchange access token value can't be used as an access token.
// For example, when it is an ID Token.
// See [RFC 8693, section 2.2.1, token_type](https://www.rfc-editor.org/rfc/rfc8693#section-2.2.1)
TokenTypeNA = "N_A"
)
func init() {
oidc.AllTokenTypes = append(oidc.AllTokenTypes, UserIDTokenType)
}
func (s *Server) TokenExchange(ctx context.Context, r *op.ClientRequest[oidc.TokenExchangeRequest]) (_ *op.Response, err error) {
resp, err := s.tokenExchange(ctx, r)
if err != nil {
return nil, oidcError(err)
}
return resp, nil
}
func (s *Server) tokenExchange(ctx context.Context, r *op.ClientRequest[oidc.TokenExchangeRequest]) (_ *op.Response, err error) {
ctx, span := tracing.NewSpan(ctx)
defer func() { span.EndWithError(err) }()
if !authz.GetFeatures(ctx).TokenExchange {
return nil, zerrors.ThrowPreconditionFailed(nil, "OIDC-oan4I", "Errors.TokenExchange.FeatureDisabled")
}
if len(r.Data.Resource) > 0 {
return nil, oidc.ErrInvalidTarget().WithDescription("resource parameter not supported")
}
client, ok := r.Client.(*Client)
if !ok {
// not supposed to happen, but just preventing a panic if it does.
return nil, zerrors.ThrowInternal(nil, "OIDC-eShi5", "Error.Internal")
}
subjectToken, err := s.verifyExchangeToken(ctx, client, r.Data.SubjectToken, r.Data.SubjectTokenType, oidc.AllTokenTypes...)
if err != nil {
return nil, oidc.ErrInvalidRequest().WithParent(err).WithReturnParentToClient(authz.GetFeatures(ctx).DebugOIDCParentError).WithDescription("subject_token invalid")
}
actorToken := subjectToken // see [createExchangeTokens] comment.
if subjectToken.tokenType == UserIDTokenType || subjectToken.tokenType == oidc.JWTTokenType || r.Data.ActorToken != "" {
if !authz.GetInstance(ctx).EnableImpersonation() {
return nil, zerrors.ThrowPermissionDenied(nil, "OIDC-Fae5w", "Errors.TokenExchange.Impersonation.PolicyDisabled")
}
actorToken, err = s.verifyExchangeToken(ctx, client, r.Data.ActorToken, r.Data.ActorTokenType, oidc.AccessTokenType, oidc.IDTokenType, oidc.RefreshTokenType)
if err != nil {
return nil, oidc.ErrInvalidRequest().WithParent(err).WithReturnParentToClient(authz.GetFeatures(ctx).DebugOIDCParentError).WithDescription("actor_token invalid")
}
ctx = authz.SetCtxData(ctx, authz.CtxData{
UserID: actorToken.userID,
OrgID: actorToken.resourceOwner,
})
}
audience, err := validateTokenExchangeAudience(r.Data.Audience, subjectToken.audience, actorToken.audience)
if err != nil {
return nil, err
}
scopes, err := validateTokenExchangeScopes(client, r.Data.Scopes, subjectToken.scopes, actorToken.scopes)
if err != nil {
return nil, err
}
resp, err := s.createExchangeTokens(ctx, r.Data.RequestedTokenType, client, subjectToken, actorToken, audience, scopes)
if err != nil {
return nil, err
}
return op.NewResponse(resp), nil
}
// verifyExchangeToken verifies the passed token based on the token type. It is safe to pass both from the request as-is.
// A list of allowed token types must be passed to determine which types are trusted at a particular stage of the token exchange.
func (s *Server) verifyExchangeToken(ctx context.Context, client *Client, token string, tokenType oidc.TokenType, allowed ...oidc.TokenType) (*exchangeToken, error) {
if token == "" {
return nil, zerrors.ThrowInvalidArgument(nil, "OIDC-lei0O", "Errors.TokenExchange.Token.Missing")
}
if tokenType == "" {
return nil, zerrors.ThrowInvalidArgument(nil, "OIDC-sei9V", "Errors.TokenExchange.Token.TypeMissing")
}
if !slices.Contains(allowed, tokenType) {
return nil, zerrors.ThrowInvalidArgument(nil, "OIDC-OZ1ie", "Errors.TokenExchange.Token.TypeNotAllowed")
}
switch tokenType {
case oidc.AccessTokenType:
token, err := s.verifyAccessToken(ctx, token)
if err != nil {
return nil, zerrors.ThrowPermissionDenied(err, "OIDC-Osh3t", "Errors.TokenExchange.Token.Invalid")
}
if token.isPAT {
if err = s.assertClientScopesForPAT(ctx, token, client.GetID(), client.client.ProjectID); err != nil {
return nil, err
}
}
return accessToExchangeToken(token, op.IssuerFromContext(ctx)), nil
case oidc.IDTokenType:
verifier := op.NewIDTokenHintVerifier(op.IssuerFromContext(ctx), s.idTokenHintKeySet)
claims, err := op.VerifyIDTokenHint[*oidc.IDTokenClaims](ctx, token, verifier)
if err != nil {
return nil, zerrors.ThrowPermissionDenied(err, "OIDC-Rei0f", "Errors.TokenExchange.Token.Invalid")
}
resourceOwner, ok := claims.Claims[ClaimResourceOwnerID].(string)
if !ok || resourceOwner == "" {
user, err := s.query.GetUserByID(ctx, false, token)
if err != nil {
return nil, zerrors.ThrowPermissionDenied(err, "OIDC-aD0Oo", "Errors.TokenExchange.Token.Invalid")
}
resourceOwner = user.ResourceOwner
}
return idTokenClaimsToExchangeToken(claims, resourceOwner), nil
case oidc.JWTTokenType:
var (
resourceOwner string
preferredLanguage *language.Tag
)
verifier := op.NewJWTProfileVerifierKeySet(keySetMap(client.client.PublicKeys), op.IssuerFromContext(ctx), time.Hour, client.client.ClockSkew, s.jwtProfileUserCheck(ctx, &resourceOwner, &preferredLanguage))
jwt, err := op.VerifyJWTAssertion(ctx, token, verifier)
if err != nil {
return nil, zerrors.ThrowPermissionDenied(err, "OIDC-eiS6o", "Errors.TokenExchange.Token.Invalid")
}
return jwtToExchangeToken(jwt, resourceOwner, preferredLanguage), nil
case UserIDTokenType:
user, err := s.query.GetUserByID(ctx, false, token)
if err != nil {
return nil, zerrors.ThrowPermissionDenied(err, "OIDC-Nee6r", "Errors.TokenExchange.Token.Invalid")
}
return userToExchangeToken(user), nil
case oidc.RefreshTokenType:
fallthrough
default:
return nil, zerrors.ThrowInvalidArgument(nil, "OIDC-oda4R", "Errors.TokenExchange.Token.TypeNotSupported")
}
}
// jwtProfileUserCheck finds the user by subject (user ID) and sets the resourceOwner through the pointer.
// preferred Language is set only if it was defined for a Human user, else the pointed pointer remains nil.
func (s *Server) jwtProfileUserCheck(ctx context.Context, resourceOwner *string, preferredLanguage **language.Tag) op.JWTProfileVerifierOption {
return op.SubjectCheck(func(request *oidc.JWTTokenRequest) error {
user, err := s.query.GetUserByID(ctx, false, request.Subject)
if err != nil {
return zerrors.ThrowPermissionDenied(err, "OIDC-Nee6r", "Errors.TokenExchange.Token.Invalid")
}
*resourceOwner = user.ResourceOwner
if user.Human != nil && !user.Human.PreferredLanguage.IsRoot() {
*preferredLanguage = &user.Human.PreferredLanguage
}
return nil
})
}
func validateTokenExchangeScopes(client *Client, requestedScopes, subjectScopes, actorScopes []string) ([]string, error) {
// Scope always has 1 empty string if the space delimited array was an empty string.
scopes := slices.DeleteFunc(requestedScopes, func(s string) bool {
return s == ""
})
if len(scopes) == 0 {
scopes = subjectScopes
}
if len(scopes) == 0 {
scopes = actorScopes
}
return op.ValidateAuthReqScopes(client, scopes)
}
func validateTokenExchangeAudience(requestedAudience, subjectAudience, actorAudience []string) ([]string, error) {
if len(requestedAudience) == 0 {
if len(subjectAudience) > 0 {
return subjectAudience, nil
}
if len(actorAudience) > 0 {
return actorAudience, nil
}
}
if slices.Equal(requestedAudience, subjectAudience) || slices.Equal(requestedAudience, actorAudience) {
return requestedAudience, nil
}
//nolint:gocritic
allowedAudience := append(subjectAudience, actorAudience...)
for _, a := range requestedAudience {
if !slices.Contains(allowedAudience, a) {
return nil, oidc.ErrInvalidTarget().WithDescription("audience %q not found in subject or actor token", a)
}
}
return requestedAudience, nil
}
// createExchangeTokens prepares the final tokens to be returned to the client.
// The subjectToken is used to set the new token's subject and resource owner.
// The actorToken is used to set the new token's auth time AMR and actor.
// Both tokens may point to the same object (subjectToken) in case of a regular Token Exchange.
// When the subject and actor Tokens point to different objects, the new tokens will be for impersonation / delegation.
func (s *Server) createExchangeTokens(ctx context.Context, tokenType oidc.TokenType, client *Client, subjectToken, actorToken *exchangeToken, audience, scopes []string) (_ *oidc.TokenExchangeResponse, err error) {
getUserInfo := s.getUserInfo(subjectToken.userID, client.client.ProjectID, client.client.ProjectRoleAssertion, client.IDTokenUserinfoClaimsAssertion(), scopes)
getSigner := s.getSignerOnce()
resp := &oidc.TokenExchangeResponse{
Scopes: scopes,
}
reason := domain.TokenReasonExchange
actor := actorToken.actor
if subjectToken != actorToken {
reason = domain.TokenReasonImpersonation
actor = actorToken.nestedActor()
}
var sessionID string
switch tokenType {
case oidc.AccessTokenType, "":
resp.AccessToken, resp.RefreshToken, sessionID, resp.ExpiresIn, err = s.createExchangeAccessToken(ctx, client, subjectToken.userID, subjectToken.resourceOwner, audience, scopes, actorToken.authMethods, actorToken.authTime, subjectToken.preferredLanguage, reason, actor)
resp.TokenType = oidc.BearerToken
resp.IssuedTokenType = oidc.AccessTokenType
case oidc.JWTTokenType:
resp.AccessToken, resp.RefreshToken, resp.ExpiresIn, err = s.createExchangeJWT(ctx, client, getUserInfo, client.client.AccessTokenRoleAssertion, getSigner, subjectToken.userID, subjectToken.resourceOwner, audience, scopes, actorToken.authMethods, actorToken.authTime, subjectToken.preferredLanguage, reason, actor)
resp.TokenType = oidc.BearerToken
resp.IssuedTokenType = oidc.JWTTokenType
case oidc.IDTokenType:
resp.AccessToken, resp.ExpiresIn, err = s.createIDToken(ctx, client, getUserInfo, client.client.IDTokenRoleAssertion, getSigner, "", resp.AccessToken, audience, actorToken.authMethods, actorToken.authTime, "", actor)
resp.TokenType = TokenTypeNA
resp.IssuedTokenType = oidc.IDTokenType
case oidc.RefreshTokenType, UserIDTokenType:
fallthrough
default:
err = zerrors.ThrowInvalidArgument(nil, "OIDC-wai5E", "Errors.TokenExchange.Token.TypeNotSupported")
}
if err != nil {
return nil, err
}
if slices.Contains(scopes, oidc.ScopeOpenID) && tokenType != oidc.IDTokenType {
resp.IDToken, _, err = s.createIDToken(ctx, client, getUserInfo, client.client.IDTokenRoleAssertion, getSigner, sessionID, resp.AccessToken, audience, actorToken.authMethods, actorToken.authTime, "", actor)
if err != nil {
return nil, err
}
}
return resp, nil
}
func (s *Server) createExchangeAccessToken(
ctx context.Context,
client *Client,
userID,
resourceOwner string,
audience,
scope []string,
authMethods []domain.UserAuthMethodType,
authTime time.Time,
preferredLanguage *language.Tag,
reason domain.TokenReason,
actor *domain.TokenActor,
) (accessToken, refreshToken, sessionID string, exp uint64, err error) {
ctx, span := tracing.NewSpan(ctx)
defer func() { span.EndWithError(err) }()
session, err := s.command.CreateOIDCSession(ctx,
userID,
resourceOwner,
client.client.ClientID,
client.client.BackChannelLogoutURI,
scope,
audience,
authMethods,
authTime,
"",
preferredLanguage,
nil,
reason,
actor,
slices.Contains(scope, oidc.ScopeOfflineAccess),
"",
domain.OIDCResponseTypeUnspecified,
)
if err != nil {
return "", "", "", 0, err
}
accessToken, err = op.CreateBearerToken(session.TokenID, userID, s.opCrypto)
if err != nil {
return "", "", "", 0, err
}
return accessToken, session.RefreshToken, session.SessionID, timeToOIDCExpiresIn(session.Expiration), nil
}
func (s *Server) createExchangeJWT(
ctx context.Context,
client *Client,
getUserInfo userInfoFunc,
roleAssertion bool,
getSigner SignerFunc,
userID,
resourceOwner string,
audience,
scope []string,
authMethods []domain.UserAuthMethodType,
authTime time.Time,
preferredLanguage *language.Tag,
reason domain.TokenReason,
actor *domain.TokenActor,
) (accessToken string, refreshToken string, exp uint64, err error) {
ctx, span := tracing.NewSpan(ctx)
defer func() { span.EndWithError(err) }()
session, err := s.command.CreateOIDCSession(ctx,
userID,
resourceOwner,
client.client.ClientID,
client.client.BackChannelLogoutURI,
scope,
audience,
authMethods,
authTime,
"",
preferredLanguage,
nil,
reason,
actor,
slices.Contains(scope, oidc.ScopeOfflineAccess),
"",
domain.OIDCResponseTypeUnspecified,
)
accessToken, err = s.createJWT(ctx, client, session, getUserInfo, roleAssertion, getSigner)
if err != nil {
return "", "", 0, err
}
return accessToken, session.RefreshToken, timeToOIDCExpiresIn(session.Expiration), nil
}