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f065b42a97
# Which Problems Are Solved After deployment of 2.53.x, customers noted that the roles claims where always present in the tokens even if the corresponding option on the client (accessTokenRoleAssertion, idTokenRoleAsseriton) was disabled. Only the project flag (assertRolesOnAuthentication) would be considered. Further it was noted, that the action on the preAccessTokenCreation trigger would not be executed. Additionally, while testing those issues we found out, that the user information (name, givenname, family name, ...) where always present in the id_token even if the option (idTokenUserInfo) was not enabled. # How the Problems Are Solved - The `getUserinfoOnce` which was used for access and id_tokens is refactored to `getUserInfo` and no longer only queries the info once from the database, but still provides a mechanism to be reused for access and id_token where the corresponding `roleAssertion` and action `triggerType` can be passed. - `userInfo` on the other hand now directly makes sure the information is only queried once from the database. Role claims are asserted every time and action triggers are executed on every call. - `userInfo` now also checks if the profile information need to be returned. # Additional Changes None. # Additional Context - relates to #7822 - reported by customers
190 lines
6.4 KiB
Go
190 lines
6.4 KiB
Go
package oidc
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import (
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"context"
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"encoding/base64"
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"slices"
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"sync"
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"time"
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"github.com/go-jose/go-jose/v4"
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"github.com/zitadel/oidc/v3/pkg/crypto"
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"github.com/zitadel/oidc/v3/pkg/oidc"
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"github.com/zitadel/oidc/v3/pkg/op"
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"github.com/zitadel/zitadel/internal/command"
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"github.com/zitadel/zitadel/internal/domain"
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"github.com/zitadel/zitadel/internal/telemetry/tracing"
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)
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/*
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For each grant-type, tokens creation follows the same rough logical steps:
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1. Information gathering: who is requesting the token, what do we put in the claims?
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2. Decision making: is the request authorized? (valid exchange code, auth request completed, valid token etc...)
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3. Build an OIDC session in storage: inform the eventstore we are creating tokens.
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4. Use the OIDC session to encrypt and / or sign the requested tokens
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In some cases step 1 till 3 are completely implemented in the command package,
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for example the v2 code exchange and refresh token.
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*/
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func (s *Server) accessTokenResponseFromSession(ctx context.Context, client op.Client, session *command.OIDCSession, state, projectID string, projectRoleAssertion, accessTokenRoleAssertion, idTokenRoleAssertion, userInfoAssertion bool) (_ *oidc.AccessTokenResponse, err error) {
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getUserInfo := s.getUserInfo(session.UserID, projectID, projectRoleAssertion, userInfoAssertion, session.Scope)
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getSigner := s.getSignerOnce()
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resp := &oidc.AccessTokenResponse{
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TokenType: oidc.BearerToken,
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RefreshToken: session.RefreshToken,
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ExpiresIn: timeToOIDCExpiresIn(session.Expiration),
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State: state,
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}
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// If the session does not have a token ID, it is an implicit ID-Token only response.
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if session.TokenID != "" {
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if client.AccessTokenType() == op.AccessTokenTypeJWT {
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resp.AccessToken, err = s.createJWT(ctx, client, session, getUserInfo, accessTokenRoleAssertion, getSigner)
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} else {
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resp.AccessToken, err = op.CreateBearerToken(session.TokenID, session.UserID, s.opCrypto)
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}
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if err != nil {
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return nil, err
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}
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}
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if slices.Contains(session.Scope, oidc.ScopeOpenID) {
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resp.IDToken, _, err = s.createIDToken(ctx, client, getUserInfo, idTokenRoleAssertion, getSigner, session.SessionID, resp.AccessToken, session.Audience, session.AuthMethods, session.AuthTime, session.Nonce, session.Actor)
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}
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return resp, err
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}
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// signerFunc is a getter function that allows add-hoc retrieval of the instance's signer.
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type signerFunc func(ctx context.Context) (jose.Signer, jose.SignatureAlgorithm, error)
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// getSignerOnce returns a function which retrieves the instance's signer from the database once.
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// Repeated calls of the returned function return the same results.
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func (s *Server) getSignerOnce() signerFunc {
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var (
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once sync.Once
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signer jose.Signer
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signAlg jose.SignatureAlgorithm
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err error
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)
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return func(ctx context.Context) (jose.Signer, jose.SignatureAlgorithm, error) {
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once.Do(func() {
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ctx, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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var signingKey op.SigningKey
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signingKey, err = s.Provider().Storage().SigningKey(ctx)
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if err != nil {
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return
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}
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signAlg = signingKey.SignatureAlgorithm()
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signer, err = op.SignerFromKey(signingKey)
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if err != nil {
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return
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}
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})
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return signer, signAlg, err
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}
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}
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// userInfoFunc is a getter function that allows add-hoc retrieval of a user.
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type userInfoFunc func(ctx context.Context, roleAssertion bool, triggerType domain.TriggerType) (*oidc.UserInfo, error)
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// getUserInfo returns a function which retrieves userinfo from the database once.
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// However, each time, role claims are asserted and also action flows will trigger.
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func (s *Server) getUserInfo(userID, projectID string, projectRoleAssertion, userInfoAssertion bool, scope []string) userInfoFunc {
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userInfo := s.userInfo(userID, scope, projectID, projectRoleAssertion, userInfoAssertion, false)
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return func(ctx context.Context, roleAssertion bool, triggerType domain.TriggerType) (*oidc.UserInfo, error) {
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return userInfo(ctx, roleAssertion, triggerType)
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}
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}
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func (*Server) createIDToken(ctx context.Context, client op.Client, getUserInfo userInfoFunc, roleAssertion bool, getSigningKey signerFunc, sessionID, accessToken string, audience []string, authMethods []domain.UserAuthMethodType, authTime time.Time, nonce string, actor *domain.TokenActor) (idToken string, exp uint64, err error) {
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ctx, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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userInfo, err := getUserInfo(ctx, roleAssertion, domain.TriggerTypePreUserinfoCreation)
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if err != nil {
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return "", 0, err
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}
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signer, signAlg, err := getSigningKey(ctx)
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if err != nil {
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return "", 0, err
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}
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expTime := time.Now().Add(client.IDTokenLifetime()).Add(client.ClockSkew())
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claims := oidc.NewIDTokenClaims(
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op.IssuerFromContext(ctx),
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"",
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audience,
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expTime,
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authTime,
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nonce,
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"",
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AuthMethodTypesToAMR(authMethods),
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client.GetID(),
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client.ClockSkew(),
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)
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claims.SessionID = sessionID
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claims.Actor = actorDomainToClaims(actor)
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claims.SetUserInfo(userInfo)
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if accessToken != "" {
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claims.AccessTokenHash, err = oidc.ClaimHash(accessToken, signAlg)
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if err != nil {
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return "", 0, err
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}
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}
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idToken, err = crypto.Sign(claims, signer)
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return idToken, timeToOIDCExpiresIn(expTime), err
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}
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func timeToOIDCExpiresIn(exp time.Time) uint64 {
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return uint64(time.Until(exp) / time.Second)
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}
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func (s *Server) createJWT(ctx context.Context, client op.Client, session *command.OIDCSession, getUserInfo userInfoFunc, assertRoles bool, getSigner signerFunc) (_ string, err error) {
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ctx, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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userInfo, err := getUserInfo(ctx, assertRoles, domain.TriggerTypePreAccessTokenCreation)
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if err != nil {
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return "", err
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}
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signer, _, err := getSigner(ctx)
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if err != nil {
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return "", err
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}
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expTime := session.Expiration.Add(client.ClockSkew())
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claims := oidc.NewAccessTokenClaims(
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op.IssuerFromContext(ctx),
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userInfo.Subject,
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session.Audience,
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expTime,
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session.TokenID,
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client.GetID(),
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client.ClockSkew(),
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)
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claims.Actor = actorDomainToClaims(session.Actor)
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claims.Claims = userInfo.Claims
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return crypto.Sign(claims, signer)
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}
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// decryptCode decrypts a code or refresh_token
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func (s *Server) decryptCode(ctx context.Context, code string) (_ string, err error) {
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_, span := tracing.NewSpan(ctx)
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defer func() { span.EndWithError(err) }()
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decoded, err := base64.RawURLEncoding.DecodeString(code)
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if err != nil {
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return "", err
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}
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return s.encAlg.DecryptString(decoded, s.encAlg.EncryptionKeyID())
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}
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