package server import ( "context" "crypto/sha256" "encoding/base64" "encoding/json" "fmt" "net/http" "net/url" "path" "sort" "strconv" "strings" "sync" "time" "github.com/coreos/go-oidc/v3/oidc" "github.com/gorilla/mux" jose "gopkg.in/square/go-jose.v2" "github.com/dexidp/dex/connector" "github.com/dexidp/dex/server/internal" "github.com/dexidp/dex/storage" ) const ( CodeChallengeMethodPlain = "plain" CodeChallengeMethodS256 = "S256" ) // newHealthChecker returns the healthz handler. The handler runs until the // provided context is canceled. func (s *Server) newHealthChecker(ctx context.Context) http.Handler { h := &healthChecker{s: s} // Perform one health check synchronously so the returned handler returns // valid data immediately. h.runHealthCheck() go func() { for { select { case <-ctx.Done(): return case <-time.After(time.Second * 15): } h.runHealthCheck() } }() return h } // healthChecker periodically performs health checks on server dependencies. // Currently, it only checks that the storage layer is available. type healthChecker struct { s *Server // Result of the last health check: any error and the amount of time it took // to query the storage. mu sync.RWMutex // Guarded by the mutex err error passed time.Duration } // runHealthCheck performs a single health check and makes the result available // for any clients performing and HTTP request against the healthChecker. func (h *healthChecker) runHealthCheck() { t := h.s.now() err := checkStorageHealth(h.s.storage, h.s.now) passed := h.s.now().Sub(t) if err != nil { h.s.logger.Errorf("Storage health check failed: %v", err) } // Make sure to only hold the mutex to access the fields, and not while // we're querying the storage object. h.mu.Lock() h.err = err h.passed = passed h.mu.Unlock() } func checkStorageHealth(s storage.Storage, now func() time.Time) error { a := storage.AuthRequest{ ID: storage.NewID(), ClientID: storage.NewID(), // Set a short expiry so if the delete fails this will be cleaned up quickly by garbage collection. Expiry: now().Add(time.Minute), } if err := s.CreateAuthRequest(a); err != nil { return fmt.Errorf("create auth request: %v", err) } if err := s.DeleteAuthRequest(a.ID); err != nil { return fmt.Errorf("delete auth request: %v", err) } return nil } func (h *healthChecker) ServeHTTP(w http.ResponseWriter, r *http.Request) { h.mu.RLock() err := h.err t := h.passed h.mu.RUnlock() if err != nil { h.s.renderError(r, w, http.StatusInternalServerError, "Health check failed.") return } fmt.Fprintf(w, "Health check passed in %s", t) } func (s *Server) handlePublicKeys(w http.ResponseWriter, r *http.Request) { // TODO(ericchiang): Cache this. keys, err := s.storage.GetKeys() if err != nil { s.logger.Errorf("failed to get keys: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Internal server error.") return } if keys.SigningKeyPub == nil { s.logger.Errorf("No public keys found.") s.renderError(r, w, http.StatusInternalServerError, "Internal server error.") return } jwks := jose.JSONWebKeySet{ Keys: make([]jose.JSONWebKey, len(keys.VerificationKeys)+1), } jwks.Keys[0] = *keys.SigningKeyPub for i, verificationKey := range keys.VerificationKeys { jwks.Keys[i+1] = *verificationKey.PublicKey } data, err := json.MarshalIndent(jwks, "", " ") if err != nil { s.logger.Errorf("failed to marshal discovery data: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Internal server error.") return } maxAge := keys.NextRotation.Sub(s.now()) if maxAge < (time.Minute * 2) { maxAge = time.Minute * 2 } w.Header().Set("Cache-Control", fmt.Sprintf("max-age=%d, must-revalidate", int(maxAge.Seconds()))) w.Header().Set("Content-Type", "application/json") w.Header().Set("Content-Length", strconv.Itoa(len(data))) w.Write(data) } type discovery struct { Issuer string `json:"issuer"` Auth string `json:"authorization_endpoint"` Token string `json:"token_endpoint"` Keys string `json:"jwks_uri"` UserInfo string `json:"userinfo_endpoint"` DeviceEndpoint string `json:"device_authorization_endpoint"` GrantTypes []string `json:"grant_types_supported"` ResponseTypes []string `json:"response_types_supported"` Subjects []string `json:"subject_types_supported"` IDTokenAlgs []string `json:"id_token_signing_alg_values_supported"` CodeChallengeAlgs []string `json:"code_challenge_methods_supported"` Scopes []string `json:"scopes_supported"` AuthMethods []string `json:"token_endpoint_auth_methods_supported"` Claims []string `json:"claims_supported"` } func (s *Server) discoveryHandler() (http.HandlerFunc, error) { d := discovery{ Issuer: s.issuerURL.String(), Auth: s.absURL("/auth"), Token: s.absURL("/token"), Keys: s.absURL("/keys"), UserInfo: s.absURL("/userinfo"), DeviceEndpoint: s.absURL("/device/code"), Subjects: []string{"public"}, GrantTypes: []string{grantTypeAuthorizationCode, grantTypeRefreshToken, grantTypeDeviceCode}, IDTokenAlgs: []string{string(jose.RS256)}, CodeChallengeAlgs: []string{CodeChallengeMethodS256, CodeChallengeMethodPlain}, Scopes: []string{"openid", "email", "groups", "profile", "offline_access"}, AuthMethods: []string{"client_secret_basic", "client_secret_post"}, Claims: []string{ "iss", "sub", "aud", "iat", "exp", "email", "email_verified", "locale", "name", "preferred_username", "at_hash", }, } for responseType := range s.supportedResponseTypes { d.ResponseTypes = append(d.ResponseTypes, responseType) } sort.Strings(d.ResponseTypes) data, err := json.MarshalIndent(d, "", " ") if err != nil { return nil, fmt.Errorf("failed to marshal discovery data: %v", err) } return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") w.Header().Set("Content-Length", strconv.Itoa(len(data))) w.Write(data) }), nil } // handleAuthorization handles the OAuth2 auth endpoint. func (s *Server) handleAuthorization(w http.ResponseWriter, r *http.Request) { authReq, err := s.parseAuthorizationRequest(r) if err != nil { s.logger.Errorf("Failed to parse authorization request: %v", err) status := http.StatusInternalServerError // If this is an authErr, let's let it handle the error, or update the HTTP // status code if err, ok := err.(*authErr); ok { if handler, ok := err.Handle(); ok { // client_id and redirect_uri checked out and we can redirect back to // the client with the error. handler.ServeHTTP(w, r) return } status = err.Status() } s.renderError(r, w, status, err.Error()) return } // TODO(ericchiang): Create this authorization request later in the login flow // so users don't hit "not found" database errors if they wait at the login // screen too long. // // See: https://github.com/dexidp/dex/issues/646 authReq.Expiry = s.now().Add(s.authRequestsValidFor) if err := s.storage.CreateAuthRequest(*authReq); err != nil { s.logger.Errorf("Failed to create authorization request: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Failed to connect to the database.") return } connectors, err := s.storage.ListConnectors() if err != nil { s.logger.Errorf("Failed to get list of connectors: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Failed to retrieve connector list.") return } // Redirect if a client chooses a specific connector_id if authReq.ConnectorID != "" { for _, c := range connectors { if c.ID == authReq.ConnectorID { http.Redirect(w, r, s.absPath("/auth", c.ID)+"?req="+authReq.ID, http.StatusFound) return } } s.tokenErrHelper(w, errInvalidConnectorID, "Connector ID does not match a valid Connector", http.StatusNotFound) return } if len(connectors) == 1 && !s.alwaysShowLogin { for _, c := range connectors { // TODO(ericchiang): Make this pass on r.URL.RawQuery and let something latter // on create the auth request. http.Redirect(w, r, s.absPath("/auth", c.ID)+"?req="+authReq.ID, http.StatusFound) return } } connectorInfos := make([]connectorInfo, len(connectors)) for index, conn := range connectors { connectorInfos[index] = connectorInfo{ ID: conn.ID, Name: conn.Name, Type: conn.Type, // TODO(ericchiang): Make this pass on r.URL.RawQuery and let something latter // on create the auth request. URL: s.absPath("/auth", conn.ID) + "?req=" + authReq.ID, } } if err := s.templates.login(r, w, connectorInfos); err != nil { s.logger.Errorf("Server template error: %v", err) } } func (s *Server) handleConnectorLogin(w http.ResponseWriter, r *http.Request) { connID := mux.Vars(r)["connector"] conn, err := s.getConnector(connID) if err != nil { s.logger.Errorf("Failed to get connector: %v", err) s.renderError(r, w, http.StatusBadRequest, "Requested resource does not exist") return } authReqID := r.FormValue("req") authReq, err := s.storage.GetAuthRequest(authReqID) if err != nil { s.logger.Errorf("Failed to get auth request: %v", err) if err == storage.ErrNotFound { s.renderError(r, w, http.StatusBadRequest, "Login session expired.") } else { s.renderError(r, w, http.StatusInternalServerError, "Database error.") } return } // Set the connector being used for the login. if authReq.ConnectorID != connID { updater := func(a storage.AuthRequest) (storage.AuthRequest, error) { if a.ConnectorID != "" { return a, fmt.Errorf("connector is already set for this auth request") } a.ConnectorID = connID return a, nil } if err := s.storage.UpdateAuthRequest(authReqID, updater); err != nil { s.logger.Errorf("Failed to set connector ID on auth request: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Database error.") return } } scopes := parseScopes(authReq.Scopes) showBacklink := len(s.connectors) > 1 switch r.Method { case http.MethodGet: switch conn := conn.Connector.(type) { case connector.CallbackConnector: // Use the auth request ID as the "state" token. // // TODO(ericchiang): Is this appropriate or should we also be using a nonce? callbackURL, err := conn.LoginURL(scopes, s.absURL("/callback"), authReqID) if err != nil { s.logger.Errorf("Connector %q returned error when creating callback: %v", connID, err) s.renderError(r, w, http.StatusInternalServerError, "Login error.") return } http.Redirect(w, r, callbackURL, http.StatusFound) case connector.PasswordConnector: if err := s.templates.password(r, w, r.URL.String(), "", usernamePrompt(conn), false, showBacklink); err != nil { s.logger.Errorf("Server template error: %v", err) } case connector.SAMLConnector: action, value, err := conn.POSTData(scopes, authReqID) if err != nil { s.logger.Errorf("Creating SAML data: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Connector Login Error") return } // TODO(ericchiang): Don't inline this. fmt.Fprintf(w, ` SAML login
`, action, value, authReqID) default: s.renderError(r, w, http.StatusBadRequest, "Requested resource does not exist.") } case http.MethodPost: passwordConnector, ok := conn.Connector.(connector.PasswordConnector) if !ok { s.renderError(r, w, http.StatusBadRequest, "Requested resource does not exist.") return } username := r.FormValue("login") password := r.FormValue("password") identity, ok, err := passwordConnector.Login(r.Context(), scopes, username, password) if err != nil { s.logger.Errorf("Failed to login user: %v", err) s.renderError(r, w, http.StatusInternalServerError, fmt.Sprintf("Login error: %v", err)) return } if !ok { if err := s.templates.password(r, w, r.URL.String(), username, usernamePrompt(passwordConnector), true, showBacklink); err != nil { s.logger.Errorf("Server template error: %v", err) } return } redirectURL, err := s.finalizeLogin(identity, authReq, conn.Connector) if err != nil { s.logger.Errorf("Failed to finalize login: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Login error.") return } http.Redirect(w, r, redirectURL, http.StatusSeeOther) default: s.renderError(r, w, http.StatusBadRequest, "Unsupported request method.") } } func (s *Server) handleConnectorCallback(w http.ResponseWriter, r *http.Request) { var authID string switch r.Method { case http.MethodGet: // OAuth2 callback if authID = r.URL.Query().Get("state"); authID == "" { s.renderError(r, w, http.StatusBadRequest, "User session error.") return } case http.MethodPost: // SAML POST binding if authID = r.PostFormValue("RelayState"); authID == "" { s.renderError(r, w, http.StatusBadRequest, "User session error.") return } default: s.renderError(r, w, http.StatusBadRequest, "Method not supported") return } authReq, err := s.storage.GetAuthRequest(authID) if err != nil { if err == storage.ErrNotFound { s.logger.Errorf("Invalid 'state' parameter provided: %v", err) s.renderError(r, w, http.StatusBadRequest, "Requested resource does not exist.") return } s.logger.Errorf("Failed to get auth request: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Database error.") return } if connID := mux.Vars(r)["connector"]; connID != "" && connID != authReq.ConnectorID { s.logger.Errorf("Connector mismatch: authentication started with id %q, but callback for id %q was triggered", authReq.ConnectorID, connID) s.renderError(r, w, http.StatusInternalServerError, "Requested resource does not exist.") return } conn, err := s.getConnector(authReq.ConnectorID) if err != nil { s.logger.Errorf("Failed to get connector with id %q : %v", authReq.ConnectorID, err) s.renderError(r, w, http.StatusInternalServerError, "Requested resource does not exist.") return } var identity connector.Identity switch conn := conn.Connector.(type) { case connector.CallbackConnector: if r.Method != http.MethodGet { s.logger.Errorf("SAML request mapped to OAuth2 connector") s.renderError(r, w, http.StatusBadRequest, "Invalid request") return } identity, err = conn.HandleCallback(parseScopes(authReq.Scopes), r) case connector.SAMLConnector: if r.Method != http.MethodPost { s.logger.Errorf("OAuth2 request mapped to SAML connector") s.renderError(r, w, http.StatusBadRequest, "Invalid request") return } identity, err = conn.HandlePOST(parseScopes(authReq.Scopes), r.PostFormValue("SAMLResponse"), authReq.ID) default: s.renderError(r, w, http.StatusInternalServerError, "Requested resource does not exist.") return } if err != nil { s.logger.Errorf("Failed to authenticate: %v", err) s.renderError(r, w, http.StatusInternalServerError, fmt.Sprintf("Failed to authenticate: %v", err)) return } redirectURL, err := s.finalizeLogin(identity, authReq, conn.Connector) if err != nil { s.logger.Errorf("Failed to finalize login: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Login error.") return } http.Redirect(w, r, redirectURL, http.StatusSeeOther) } // finalizeLogin associates the user's identity with the current AuthRequest, then returns // the approval page's path. func (s *Server) finalizeLogin(identity connector.Identity, authReq storage.AuthRequest, conn connector.Connector) (string, error) { claims := storage.Claims{ UserID: identity.UserID, Username: identity.Username, PreferredUsername: identity.PreferredUsername, Email: identity.Email, EmailVerified: identity.EmailVerified, Groups: identity.Groups, } updater := func(a storage.AuthRequest) (storage.AuthRequest, error) { a.LoggedIn = true a.Claims = claims a.ConnectorData = identity.ConnectorData return a, nil } if err := s.storage.UpdateAuthRequest(authReq.ID, updater); err != nil { return "", fmt.Errorf("failed to update auth request: %v", err) } email := claims.Email if !claims.EmailVerified { email += " (unverified)" } s.logger.Infof("login successful: connector %q, username=%q, preferred_username=%q, email=%q, groups=%q", authReq.ConnectorID, claims.Username, claims.PreferredUsername, email, claims.Groups) returnURL := path.Join(s.issuerURL.Path, "/approval") + "?req=" + authReq.ID _, ok := conn.(connector.RefreshConnector) if !ok { return returnURL, nil } // Try to retrieve an existing OfflineSession object for the corresponding user. session, err := s.storage.GetOfflineSessions(identity.UserID, authReq.ConnectorID) if err != nil { if err != storage.ErrNotFound { s.logger.Errorf("failed to get offline session: %v", err) return "", err } offlineSessions := storage.OfflineSessions{ UserID: identity.UserID, ConnID: authReq.ConnectorID, Refresh: make(map[string]*storage.RefreshTokenRef), ConnectorData: identity.ConnectorData, } // Create a new OfflineSession object for the user and add a reference object for // the newly received refreshtoken. if err := s.storage.CreateOfflineSessions(offlineSessions); err != nil { s.logger.Errorf("failed to create offline session: %v", err) return "", err } return returnURL, nil } // Update existing OfflineSession obj with new RefreshTokenRef. if err := s.storage.UpdateOfflineSessions(session.UserID, session.ConnID, func(old storage.OfflineSessions) (storage.OfflineSessions, error) { if len(identity.ConnectorData) > 0 { old.ConnectorData = identity.ConnectorData } return old, nil }); err != nil { s.logger.Errorf("failed to update offline session: %v", err) return "", err } return returnURL, nil } func (s *Server) handleApproval(w http.ResponseWriter, r *http.Request) { authReq, err := s.storage.GetAuthRequest(r.FormValue("req")) if err != nil { s.logger.Errorf("Failed to get auth request: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Database error.") return } if !authReq.LoggedIn { s.logger.Errorf("Auth request does not have an identity for approval") s.renderError(r, w, http.StatusInternalServerError, "Login process not yet finalized.") return } switch r.Method { case http.MethodGet: if s.skipApproval { s.sendCodeResponse(w, r, authReq) return } client, err := s.storage.GetClient(authReq.ClientID) if err != nil { s.logger.Errorf("Failed to get client %q: %v", authReq.ClientID, err) s.renderError(r, w, http.StatusInternalServerError, "Failed to retrieve client.") return } if err := s.templates.approval(r, w, authReq.ID, authReq.Claims.Username, client.Name, authReq.Scopes); err != nil { s.logger.Errorf("Server template error: %v", err) } case http.MethodPost: if r.FormValue("approval") != "approve" { s.renderError(r, w, http.StatusInternalServerError, "Approval rejected.") return } s.sendCodeResponse(w, r, authReq) } } func (s *Server) sendCodeResponse(w http.ResponseWriter, r *http.Request, authReq storage.AuthRequest) { if s.now().After(authReq.Expiry) { s.renderError(r, w, http.StatusBadRequest, "User session has expired.") return } if err := s.storage.DeleteAuthRequest(authReq.ID); err != nil { if err != storage.ErrNotFound { s.logger.Errorf("Failed to delete authorization request: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Internal server error.") } else { s.renderError(r, w, http.StatusBadRequest, "User session error.") } return } u, err := url.Parse(authReq.RedirectURI) if err != nil { s.renderError(r, w, http.StatusInternalServerError, "Invalid redirect URI.") return } var ( // Was the initial request using the implicit or hybrid flow instead of // the "normal" code flow? implicitOrHybrid = false // Only present in hybrid or code flow. code.ID == "" if this is not set. code storage.AuthCode // ID token returned immediately if the response_type includes "id_token". // Only valid for implicit and hybrid flows. idToken string idTokenExpiry time.Time // Access token accessToken string ) for _, responseType := range authReq.ResponseTypes { switch responseType { case responseTypeCode: code = storage.AuthCode{ ID: storage.NewID(), ClientID: authReq.ClientID, ConnectorID: authReq.ConnectorID, Nonce: authReq.Nonce, Scopes: authReq.Scopes, Claims: authReq.Claims, Expiry: s.now().Add(time.Minute * 30), RedirectURI: authReq.RedirectURI, ConnectorData: authReq.ConnectorData, PKCE: authReq.PKCE, } if err := s.storage.CreateAuthCode(code); err != nil { s.logger.Errorf("Failed to create auth code: %v", err) s.renderError(r, w, http.StatusInternalServerError, "Internal server error.") return } // Implicit and hybrid flows that try to use the OOB redirect URI are // rejected earlier. If we got here we're using the code flow. if authReq.RedirectURI == redirectURIOOB { if err := s.templates.oob(r, w, code.ID); err != nil { s.logger.Errorf("Server template error: %v", err) } return } case responseTypeToken: implicitOrHybrid = true case responseTypeIDToken: implicitOrHybrid = true var err error accessToken, err = s.newAccessToken(authReq.ClientID, authReq.Claims, authReq.Scopes, authReq.Nonce, authReq.ConnectorID) if err != nil { s.logger.Errorf("failed to create new access token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } idToken, idTokenExpiry, err = s.newIDToken(authReq.ClientID, authReq.Claims, authReq.Scopes, authReq.Nonce, accessToken, code.ID, authReq.ConnectorID) if err != nil { s.logger.Errorf("failed to create ID token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } } } if implicitOrHybrid { v := url.Values{} v.Set("access_token", accessToken) v.Set("token_type", "bearer") v.Set("state", authReq.State) if idToken != "" { v.Set("id_token", idToken) // The hybrid flow with only "code token" or "code id_token" doesn't return an // "expires_in" value. If "code" wasn't provided, indicating the implicit flow, // don't add it. // // https://openid.net/specs/openid-connect-core-1_0.html#HybridAuthResponse if code.ID == "" { v.Set("expires_in", strconv.Itoa(int(idTokenExpiry.Sub(s.now()).Seconds()))) } } if code.ID != "" { v.Set("code", code.ID) } // Implicit and hybrid flows return their values as part of the fragment. // // HTTP/1.1 303 See Other // Location: https://client.example.org/cb# // access_token=SlAV32hkKG // &token_type=bearer // &id_token=eyJ0 ... NiJ9.eyJ1c ... I6IjIifX0.DeWt4Qu ... ZXso // &expires_in=3600 // &state=af0ifjsldkj // u.Fragment = v.Encode() } else { // The code flow add values to the URL query. // // HTTP/1.1 303 See Other // Location: https://client.example.org/cb? // code=SplxlOBeZQQYbYS6WxSbIA // &state=af0ifjsldkj // q := u.Query() q.Set("code", code.ID) q.Set("state", authReq.State) u.RawQuery = q.Encode() } http.Redirect(w, r, u.String(), http.StatusSeeOther) } func (s *Server) handleToken(w http.ResponseWriter, r *http.Request) { clientID, clientSecret, ok := r.BasicAuth() if ok { var err error if clientID, err = url.QueryUnescape(clientID); err != nil { s.tokenErrHelper(w, errInvalidRequest, "client_id improperly encoded", http.StatusBadRequest) return } if clientSecret, err = url.QueryUnescape(clientSecret); err != nil { s.tokenErrHelper(w, errInvalidRequest, "client_secret improperly encoded", http.StatusBadRequest) return } } else { clientID = r.PostFormValue("client_id") clientSecret = r.PostFormValue("client_secret") } client, err := s.storage.GetClient(clientID) if err != nil { if err != storage.ErrNotFound { s.logger.Errorf("failed to get client: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) } else { s.tokenErrHelper(w, errInvalidClient, "Invalid client credentials.", http.StatusUnauthorized) } return } if client.Secret != clientSecret { if clientSecret == "" { s.logger.Infof("missing client_secret on token request for client: %s", client.ID) } else { s.logger.Infof("invalid client_secret on token request for client: %s", client.ID) } s.tokenErrHelper(w, errInvalidClient, "Invalid client credentials.", http.StatusUnauthorized) return } grantType := r.PostFormValue("grant_type") switch grantType { case grantTypeAuthorizationCode: s.handleAuthCode(w, r, client) case grantTypeRefreshToken: s.handleRefreshToken(w, r, client) case grantTypePassword: s.handlePasswordGrant(w, r, client) default: s.tokenErrHelper(w, errInvalidGrant, "", http.StatusBadRequest) } } func (s *Server) calculateCodeChallenge(codeVerifier, codeChallengeMethod string) (string, error) { switch codeChallengeMethod { case CodeChallengeMethodPlain: return codeVerifier, nil case CodeChallengeMethodS256: shaSum := sha256.Sum256([]byte(codeVerifier)) return base64.RawURLEncoding.EncodeToString(shaSum[:]), nil default: return "", fmt.Errorf("unknown challenge method (%v)", codeChallengeMethod) } } // handle an access token request https://tools.ietf.org/html/rfc6749#section-4.1.3 func (s *Server) handleAuthCode(w http.ResponseWriter, r *http.Request, client storage.Client) { code := r.PostFormValue("code") redirectURI := r.PostFormValue("redirect_uri") if code == "" { s.tokenErrHelper(w, errInvalidRequest, `Required param: code.`, http.StatusBadRequest) return } authCode, err := s.storage.GetAuthCode(code) if err != nil || s.now().After(authCode.Expiry) || authCode.ClientID != client.ID { if err != storage.ErrNotFound { s.logger.Errorf("failed to get auth code: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) } else { s.tokenErrHelper(w, errInvalidGrant, "Invalid or expired code parameter.", http.StatusBadRequest) } return } // RFC 7636 (PKCE) codeChallengeFromStorage := authCode.PKCE.CodeChallenge providedCodeVerifier := r.PostFormValue("code_verifier") switch { case providedCodeVerifier != "" && codeChallengeFromStorage != "": calculatedCodeChallenge, err := s.calculateCodeChallenge(providedCodeVerifier, authCode.PKCE.CodeChallengeMethod) if err != nil { s.logger.Error(err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } if codeChallengeFromStorage != calculatedCodeChallenge { s.tokenErrHelper(w, errInvalidGrant, "Invalid code_verifier.", http.StatusBadRequest) return } case providedCodeVerifier != "": // Received no code_challenge on /auth, but a code_verifier on /token s.tokenErrHelper(w, errInvalidRequest, "No PKCE flow started. Cannot check code_verifier.", http.StatusBadRequest) return case codeChallengeFromStorage != "": // Received PKCE request on /auth, but no code_verifier on /token s.tokenErrHelper(w, errInvalidGrant, "Expecting parameter code_verifier in PKCE flow.", http.StatusBadRequest) return } if authCode.RedirectURI != redirectURI { s.tokenErrHelper(w, errInvalidRequest, "redirect_uri did not match URI from initial request.", http.StatusBadRequest) return } tokenResponse, err := s.exchangeAuthCode(w, authCode, client) if err != nil { s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } s.writeAccessToken(w, tokenResponse) } func (s *Server) exchangeAuthCode(w http.ResponseWriter, authCode storage.AuthCode, client storage.Client) (*accessTokenResponse, error) { accessToken, err := s.newAccessToken(client.ID, authCode.Claims, authCode.Scopes, authCode.Nonce, authCode.ConnectorID) if err != nil { s.logger.Errorf("failed to create new access token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return nil, err } idToken, expiry, err := s.newIDToken(client.ID, authCode.Claims, authCode.Scopes, authCode.Nonce, accessToken, authCode.ID, authCode.ConnectorID) if err != nil { s.logger.Errorf("failed to create ID token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return nil, err } if err := s.storage.DeleteAuthCode(authCode.ID); err != nil { s.logger.Errorf("failed to delete auth code: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return nil, err } reqRefresh := func() bool { // Ensure the connector supports refresh tokens. // // Connectors like `saml` do not implement RefreshConnector. conn, err := s.getConnector(authCode.ConnectorID) if err != nil { s.logger.Errorf("connector with ID %q not found: %v", authCode.ConnectorID, err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return false } _, ok := conn.Connector.(connector.RefreshConnector) if !ok { return false } for _, scope := range authCode.Scopes { if scope == scopeOfflineAccess { return true } } return false }() var refreshToken string if reqRefresh { refresh := storage.RefreshToken{ ID: storage.NewID(), Token: storage.NewID(), ClientID: authCode.ClientID, ConnectorID: authCode.ConnectorID, Scopes: authCode.Scopes, Claims: authCode.Claims, Nonce: authCode.Nonce, ConnectorData: authCode.ConnectorData, CreatedAt: s.now(), LastUsed: s.now(), } token := &internal.RefreshToken{ RefreshId: refresh.ID, Token: refresh.Token, } if refreshToken, err = internal.Marshal(token); err != nil { s.logger.Errorf("failed to marshal refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return nil, err } if err := s.storage.CreateRefresh(refresh); err != nil { s.logger.Errorf("failed to create refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return nil, err } // deleteToken determines if we need to delete the newly created refresh token // due to a failure in updating/creating the OfflineSession object for the // corresponding user. var deleteToken bool defer func() { if deleteToken { // Delete newly created refresh token from storage. if err := s.storage.DeleteRefresh(refresh.ID); err != nil { s.logger.Errorf("failed to delete refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } } }() tokenRef := storage.RefreshTokenRef{ ID: refresh.ID, ClientID: refresh.ClientID, CreatedAt: refresh.CreatedAt, LastUsed: refresh.LastUsed, } // Try to retrieve an existing OfflineSession object for the corresponding user. if session, err := s.storage.GetOfflineSessions(refresh.Claims.UserID, refresh.ConnectorID); err != nil { if err != storage.ErrNotFound { s.logger.Errorf("failed to get offline session: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return nil, err } offlineSessions := storage.OfflineSessions{ UserID: refresh.Claims.UserID, ConnID: refresh.ConnectorID, Refresh: make(map[string]*storage.RefreshTokenRef), } offlineSessions.Refresh[tokenRef.ClientID] = &tokenRef // Create a new OfflineSession object for the user and add a reference object for // the newly received refreshtoken. if err := s.storage.CreateOfflineSessions(offlineSessions); err != nil { s.logger.Errorf("failed to create offline session: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return nil, err } } else { if oldTokenRef, ok := session.Refresh[tokenRef.ClientID]; ok { // Delete old refresh token from storage. if err := s.storage.DeleteRefresh(oldTokenRef.ID); err != nil && err != storage.ErrNotFound { s.logger.Errorf("failed to delete refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return nil, err } } // Update existing OfflineSession obj with new RefreshTokenRef. if err := s.storage.UpdateOfflineSessions(session.UserID, session.ConnID, func(old storage.OfflineSessions) (storage.OfflineSessions, error) { old.Refresh[tokenRef.ClientID] = &tokenRef return old, nil }); err != nil { s.logger.Errorf("failed to update offline session: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return nil, err } } } return s.toAccessTokenResponse(idToken, accessToken, refreshToken, expiry), nil } func (s *Server) handleUserInfo(w http.ResponseWriter, r *http.Request) { const prefix = "Bearer " auth := r.Header.Get("authorization") if len(auth) < len(prefix) || !strings.EqualFold(prefix, auth[:len(prefix)]) { w.Header().Set("WWW-Authenticate", "Bearer") s.tokenErrHelper(w, errAccessDenied, "Invalid bearer token.", http.StatusUnauthorized) return } rawIDToken := auth[len(prefix):] verifier := oidc.NewVerifier(s.issuerURL.String(), &storageKeySet{s.storage}, &oidc.Config{SkipClientIDCheck: true}) idToken, err := verifier.Verify(r.Context(), rawIDToken) if err != nil { s.tokenErrHelper(w, errAccessDenied, err.Error(), http.StatusForbidden) return } var claims json.RawMessage if err := idToken.Claims(&claims); err != nil { s.tokenErrHelper(w, errServerError, err.Error(), http.StatusInternalServerError) return } w.Header().Set("Content-Type", "application/json") w.Write(claims) } func (s *Server) handlePasswordGrant(w http.ResponseWriter, r *http.Request, client storage.Client) { // Parse the fields if err := r.ParseForm(); err != nil { s.tokenErrHelper(w, errInvalidRequest, "Couldn't parse data", http.StatusBadRequest) return } q := r.Form nonce := q.Get("nonce") // Some clients, like the old go-oidc, provide extra whitespace. Tolerate this. scopes := strings.Fields(q.Get("scope")) // Parse the scopes if they are passed var ( unrecognized []string invalidScopes []string ) hasOpenIDScope := false for _, scope := range scopes { switch scope { case scopeOpenID: hasOpenIDScope = true case scopeOfflineAccess, scopeEmail, scopeProfile, scopeGroups, scopeFederatedID: default: peerID, ok := parseCrossClientScope(scope) if !ok { unrecognized = append(unrecognized, scope) continue } isTrusted, err := s.validateCrossClientTrust(client.ID, peerID) if err != nil { s.tokenErrHelper(w, errInvalidClient, fmt.Sprintf("Error validating cross client trust %v.", err), http.StatusBadRequest) return } if !isTrusted { invalidScopes = append(invalidScopes, scope) } } } if !hasOpenIDScope { s.tokenErrHelper(w, errInvalidRequest, `Missing required scope(s) ["openid"].`, http.StatusBadRequest) return } if len(unrecognized) > 0 { s.tokenErrHelper(w, errInvalidRequest, fmt.Sprintf("Unrecognized scope(s) %q", unrecognized), http.StatusBadRequest) return } if len(invalidScopes) > 0 { s.tokenErrHelper(w, errInvalidRequest, fmt.Sprintf("Client can't request scope(s) %q", invalidScopes), http.StatusBadRequest) return } // Which connector connID := s.passwordConnector conn, err := s.getConnector(connID) if err != nil { s.tokenErrHelper(w, errInvalidRequest, "Requested connector does not exist.", http.StatusBadRequest) return } passwordConnector, ok := conn.Connector.(connector.PasswordConnector) if !ok { s.tokenErrHelper(w, errInvalidRequest, "Requested password connector does not correct type.", http.StatusBadRequest) return } // Login username := q.Get("username") password := q.Get("password") identity, ok, err := passwordConnector.Login(r.Context(), parseScopes(scopes), username, password) if err != nil { s.logger.Errorf("Failed to login user: %v", err) s.tokenErrHelper(w, errInvalidRequest, "Could not login user", http.StatusBadRequest) return } if !ok { s.tokenErrHelper(w, errAccessDenied, "Invalid username or password", http.StatusUnauthorized) return } // Build the claims to send the id token claims := storage.Claims{ UserID: identity.UserID, Username: identity.Username, PreferredUsername: identity.PreferredUsername, Email: identity.Email, EmailVerified: identity.EmailVerified, Groups: identity.Groups, } accessToken := storage.NewID() idToken, expiry, err := s.newIDToken(client.ID, claims, scopes, nonce, accessToken, "", connID) if err != nil { s.tokenErrHelper(w, errServerError, fmt.Sprintf("failed to create ID token: %v", err), http.StatusInternalServerError) return } reqRefresh := func() bool { // Ensure the connector supports refresh tokens. // // Connectors like `saml` do not implement RefreshConnector. _, ok := conn.Connector.(connector.RefreshConnector) if !ok { return false } for _, scope := range scopes { if scope == scopeOfflineAccess { return true } } return false }() var refreshToken string if reqRefresh { refresh := storage.RefreshToken{ ID: storage.NewID(), Token: storage.NewID(), ClientID: client.ID, ConnectorID: connID, Scopes: scopes, Claims: claims, Nonce: nonce, // ConnectorData: authCode.ConnectorData, CreatedAt: s.now(), LastUsed: s.now(), } token := &internal.RefreshToken{ RefreshId: refresh.ID, Token: refresh.Token, } if refreshToken, err = internal.Marshal(token); err != nil { s.logger.Errorf("failed to marshal refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } if err := s.storage.CreateRefresh(refresh); err != nil { s.logger.Errorf("failed to create refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } // deleteToken determines if we need to delete the newly created refresh token // due to a failure in updating/creating the OfflineSession object for the // corresponding user. var deleteToken bool defer func() { if deleteToken { // Delete newly created refresh token from storage. if err := s.storage.DeleteRefresh(refresh.ID); err != nil { s.logger.Errorf("failed to delete refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } } }() tokenRef := storage.RefreshTokenRef{ ID: refresh.ID, ClientID: refresh.ClientID, CreatedAt: refresh.CreatedAt, LastUsed: refresh.LastUsed, } // Try to retrieve an existing OfflineSession object for the corresponding user. if session, err := s.storage.GetOfflineSessions(refresh.Claims.UserID, refresh.ConnectorID); err != nil { if err != storage.ErrNotFound { s.logger.Errorf("failed to get offline session: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return } offlineSessions := storage.OfflineSessions{ UserID: refresh.Claims.UserID, ConnID: refresh.ConnectorID, Refresh: make(map[string]*storage.RefreshTokenRef), } offlineSessions.Refresh[tokenRef.ClientID] = &tokenRef // Create a new OfflineSession object for the user and add a reference object for // the newly received refreshtoken. if err := s.storage.CreateOfflineSessions(offlineSessions); err != nil { s.logger.Errorf("failed to create offline session: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return } } else { if oldTokenRef, ok := session.Refresh[tokenRef.ClientID]; ok { // Delete old refresh token from storage. if err := s.storage.DeleteRefresh(oldTokenRef.ID); err != nil { if err == storage.ErrNotFound { s.logger.Warnf("database inconsistent, refresh token missing: %v", oldTokenRef.ID) } else { s.logger.Errorf("failed to delete refresh token: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return } } } // Update existing OfflineSession obj with new RefreshTokenRef. if err := s.storage.UpdateOfflineSessions(session.UserID, session.ConnID, func(old storage.OfflineSessions) (storage.OfflineSessions, error) { old.Refresh[tokenRef.ClientID] = &tokenRef return old, nil }); err != nil { s.logger.Errorf("failed to update offline session: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) deleteToken = true return } } } resp := s.toAccessTokenResponse(idToken, accessToken, refreshToken, expiry) s.writeAccessToken(w, resp) } type accessTokenResponse struct { AccessToken string `json:"access_token"` TokenType string `json:"token_type"` ExpiresIn int `json:"expires_in"` RefreshToken string `json:"refresh_token,omitempty"` IDToken string `json:"id_token"` } func (s *Server) toAccessTokenResponse(idToken, accessToken, refreshToken string, expiry time.Time) *accessTokenResponse { return &accessTokenResponse{ accessToken, "bearer", int(expiry.Sub(s.now()).Seconds()), refreshToken, idToken, } } func (s *Server) writeAccessToken(w http.ResponseWriter, resp *accessTokenResponse) { data, err := json.Marshal(resp) if err != nil { s.logger.Errorf("failed to marshal access token response: %v", err) s.tokenErrHelper(w, errServerError, "", http.StatusInternalServerError) return } w.Header().Set("Content-Type", "application/json") w.Header().Set("Content-Length", strconv.Itoa(len(data))) // Token response must include cache headers https://tools.ietf.org/html/rfc6749#section-5.1 w.Header().Set("Cache-Control", "no-store") w.Header().Set("Pragma", "no-cache") w.Write(data) } func (s *Server) renderError(r *http.Request, w http.ResponseWriter, status int, description string) { if err := s.templates.err(r, w, status, description); err != nil { s.logger.Errorf("Server template error: %v", err) } } func (s *Server) tokenErrHelper(w http.ResponseWriter, typ string, description string, statusCode int) { if err := tokenErr(w, typ, description, statusCode); err != nil { s.logger.Errorf("token error response: %v", err) } } // Check for username prompt override from connector. Defaults to "Username". func usernamePrompt(conn connector.PasswordConnector) string { if attr := conn.Prompt(); attr != "" { return attr } return "Username" }