package handlers import ( "bytes" "encoding/base64" "fmt" "net" "net/url" "strings" "time" "github.com/valyala/fasthttp" "github.com/authelia/authelia/v4/internal/authentication" "github.com/authelia/authelia/v4/internal/authorization" "github.com/authelia/authelia/v4/internal/configuration/schema" "github.com/authelia/authelia/v4/internal/middlewares" "github.com/authelia/authelia/v4/internal/session" "github.com/authelia/authelia/v4/internal/utils" ) func isURLUnderProtectedDomain(url *url.URL, domain string) bool { return strings.HasSuffix(url.Hostname(), domain) } func isSchemeHTTPS(url *url.URL) bool { return url.Scheme == "https" } func isSchemeWSS(url *url.URL) bool { return url.Scheme == "wss" } // parseBasicAuth parses an HTTP Basic Authentication string. // "Basic QWxhZGRpbjpvcGVuIHNlc2FtZQ==" returns ("Aladdin", "open sesame", true). func parseBasicAuth(header []byte, auth string) (username, password string, err error) { if !strings.HasPrefix(auth, authPrefix) { return "", "", fmt.Errorf("%s prefix not found in %s header", strings.Trim(authPrefix, " "), header) } c, err := base64.StdEncoding.DecodeString(auth[len(authPrefix):]) if err != nil { return "", "", err } cs := string(c) s := strings.IndexByte(cs, ':') if s < 0 { return "", "", fmt.Errorf("format of %s header must be user:password", header) } return cs[:s], cs[s+1:], nil } // isTargetURLAuthorized check whether the given user is authorized to access the resource. func isTargetURLAuthorized(authorizer *authorization.Authorizer, targetURL url.URL, username string, userGroups []string, clientIP net.IP, method []byte, authLevel authentication.Level) authorizationMatching { hasSubject, level := authorizer.GetRequiredLevel( authorization.Subject{ Username: username, Groups: userGroups, IP: clientIP, }, authorization.NewObjectRaw(&targetURL, method)) switch { case level == authorization.Bypass: return Authorized case level == authorization.Denied && (username != "" || !hasSubject): // If the user is not anonymous, it means that we went through // all the rules related to that user and knowing who he is we can // deduce the access is forbidden // For anonymous users though, we check that the matched rule has no subject // if matched rule has not subject then this rule applies to all users including anonymous. return Forbidden case level == authorization.OneFactor && authLevel >= authentication.OneFactor, level == authorization.TwoFactor && authLevel >= authentication.TwoFactor: return Authorized } return NotAuthorized } // verifyBasicAuth verify that the provided username and password are correct and // that the user is authorized to target the resource. func verifyBasicAuth(ctx *middlewares.AutheliaCtx, header, auth []byte) (username, name string, groups, emails []string, authLevel authentication.Level, err error) { username, password, err := parseBasicAuth(header, string(auth)) if err != nil { return "", "", nil, nil, authentication.NotAuthenticated, fmt.Errorf("unable to parse content of %s header: %s", header, err) } authenticated, err := ctx.Providers.UserProvider.CheckUserPassword(username, password) if err != nil { return "", "", nil, nil, authentication.NotAuthenticated, fmt.Errorf("unable to check credentials extracted from %s header: %w", header, err) } // If the user is not correctly authenticated, send a 401. if !authenticated { // Request Basic Authentication otherwise. return "", "", nil, nil, authentication.NotAuthenticated, fmt.Errorf("user %s is not authenticated", username) } details, err := ctx.Providers.UserProvider.GetDetails(username) if err != nil { return "", "", nil, nil, authentication.NotAuthenticated, fmt.Errorf("unable to retrieve details of user %s: %s", username, err) } return username, details.DisplayName, details.Groups, details.Emails, authentication.OneFactor, nil } // setForwardedHeaders set the forwarded User, Groups, Name and Email headers. func setForwardedHeaders(headers *fasthttp.ResponseHeader, username, name string, groups, emails []string) { if username != "" { headers.SetBytesK(headerRemoteUser, username) headers.SetBytesK(headerRemoteGroups, strings.Join(groups, ",")) headers.SetBytesK(headerRemoteName, name) if emails != nil { headers.SetBytesK(headerRemoteEmail, emails[0]) } else { headers.SetBytesK(headerRemoteEmail, "") } } } func isSessionInactiveTooLong(ctx *middlewares.AutheliaCtx, userSession *session.UserSession, isUserAnonymous bool) (isInactiveTooLong bool) { if userSession.KeepMeLoggedIn || isUserAnonymous || int64(ctx.Providers.SessionProvider.Inactivity.Seconds()) == 0 { return false } isInactiveTooLong = time.Unix(userSession.LastActivity, 0).Add(ctx.Providers.SessionProvider.Inactivity).Before(ctx.Clock.Now()) ctx.Logger.Tracef("Inactivity report for user '%s'. Current Time: %d, Last Activity: %d, Maximum Inactivity: %d.", userSession.Username, ctx.Clock.Now().Unix(), userSession.LastActivity, int(ctx.Providers.SessionProvider.Inactivity.Seconds())) return isInactiveTooLong } // verifySessionCookie verifies if a user is identified by a cookie. func verifySessionCookie(ctx *middlewares.AutheliaCtx, targetURL *url.URL, userSession *session.UserSession, refreshProfile bool, refreshProfileInterval time.Duration) (username, name string, groups, emails []string, authLevel authentication.Level, err error) { // No username in the session means the user is anonymous. isUserAnonymous := userSession.Username == "" if isUserAnonymous && userSession.AuthenticationLevel != authentication.NotAuthenticated { return "", "", nil, nil, authentication.NotAuthenticated, fmt.Errorf("an anonymous user cannot be authenticated (this might be the sign of a security compromise)") } if isSessionInactiveTooLong(ctx, userSession, isUserAnonymous) { // Destroy the session a new one will be regenerated on next request. if err = ctx.Providers.SessionProvider.DestroySession(ctx.RequestCtx); err != nil { return "", "", nil, nil, authentication.NotAuthenticated, fmt.Errorf("unable to destroy session for user '%s' after the session has been inactive too long: %w", userSession.Username, err) } ctx.Logger.Warnf("Session destroyed for user '%s' after exceeding configured session inactivity and not being marked as remembered", userSession.Username) return "", "", nil, nil, authentication.NotAuthenticated, nil } if err = verifySessionHasUpToDateProfile(ctx, targetURL, userSession, refreshProfile, refreshProfileInterval); err != nil { if err == authentication.ErrUserNotFound { if err = ctx.Providers.SessionProvider.DestroySession(ctx.RequestCtx); err != nil { ctx.Logger.Errorf("Unable to destroy user session after provider refresh didn't find the user: %v", err) } return userSession.Username, userSession.DisplayName, userSession.Groups, userSession.Emails, authentication.NotAuthenticated, err } ctx.Logger.Errorf("Error occurred while attempting to update user details from LDAP: %v", err) return "", "", nil, nil, authentication.NotAuthenticated, err } return userSession.Username, userSession.DisplayName, userSession.Groups, userSession.Emails, userSession.AuthenticationLevel, nil } func handleUnauthorized(ctx *middlewares.AutheliaCtx, targetURL fmt.Stringer, isBasicAuth bool, username string, method []byte) { var ( statusCode int friendlyUsername string friendlyRequestMethod string ) switch username { case "": friendlyUsername = "" default: friendlyUsername = username } if isBasicAuth { ctx.Logger.Infof("Access to %s is not authorized to user %s, sending 401 response with basic auth header", targetURL.String(), friendlyUsername) ctx.ReplyUnauthorized() ctx.Response.Header.Add("WWW-Authenticate", "Basic realm=\"Authentication required\"") return } rm := string(method) switch rm { case "": friendlyRequestMethod = "unknown" default: friendlyRequestMethod = rm } redirectionURL := ctxGetPortalURL(ctx) if redirectionURL != nil { if !utils.IsURISafeRedirection(redirectionURL, ctx.Configuration.Session.Domain) { ctx.Logger.Errorf("Configured Portal URL '%s' does not appear to be able to write cookies for the '%s' domain", redirectionURL, ctx.Configuration.Session.Domain) ctx.ReplyUnauthorized() return } qry := redirectionURL.Query() qry.Set("rd", targetURL.String()) if rm != "" { qry.Set("rm", rm) } redirectionURL.RawQuery = qry.Encode() } switch { case ctx.IsXHR() || !ctx.AcceptsMIME("text/html") || redirectionURL == nil: statusCode = fasthttp.StatusUnauthorized default: switch rm { case fasthttp.MethodGet, fasthttp.MethodOptions, "": statusCode = fasthttp.StatusFound default: statusCode = fasthttp.StatusSeeOther } } if redirectionURL != nil { ctx.Logger.Infof("Access to %s (method %s) is not authorized to user %s, responding with status code %d with location redirect to %s", targetURL.String(), friendlyRequestMethod, friendlyUsername, statusCode, redirectionURL) ctx.SpecialRedirect(redirectionURL.String(), statusCode) } else { ctx.Logger.Infof("Access to %s (method %s) is not authorized to user %s, responding with status code %d", targetURL.String(), friendlyRequestMethod, friendlyUsername, statusCode) ctx.ReplyUnauthorized() } } func updateActivityTimestamp(ctx *middlewares.AutheliaCtx, isBasicAuth bool) error { if isBasicAuth { return nil } userSession := ctx.GetSession() // We don't need to update the activity timestamp when user checked keep me logged in. if userSession.KeepMeLoggedIn { return nil } // Mark current activity. userSession.LastActivity = ctx.Clock.Now().Unix() return ctx.SaveSession(userSession) } // generateVerifySessionHasUpToDateProfileTraceLogs is used to generate trace logs only when trace logging is enabled. // The information calculated in this function is completely useless other than trace for now. func generateVerifySessionHasUpToDateProfileTraceLogs(ctx *middlewares.AutheliaCtx, userSession *session.UserSession, details *authentication.UserDetails) { groupsAdded, groupsRemoved := utils.StringSlicesDelta(userSession.Groups, details.Groups) emailsAdded, emailsRemoved := utils.StringSlicesDelta(userSession.Emails, details.Emails) nameDelta := userSession.DisplayName != details.DisplayName // Check Groups. var groupsDelta []string if len(groupsAdded) != 0 { groupsDelta = append(groupsDelta, fmt.Sprintf("added: %s.", strings.Join(groupsAdded, ", "))) } if len(groupsRemoved) != 0 { groupsDelta = append(groupsDelta, fmt.Sprintf("removed: %s.", strings.Join(groupsRemoved, ", "))) } if len(groupsDelta) != 0 { ctx.Logger.Tracef("Updated groups detected for %s. %s", userSession.Username, strings.Join(groupsDelta, " ")) } else { ctx.Logger.Tracef("No updated groups detected for %s", userSession.Username) } // Check Emails. var emailsDelta []string if len(emailsAdded) != 0 { emailsDelta = append(emailsDelta, fmt.Sprintf("added: %s.", strings.Join(emailsAdded, ", "))) } if len(emailsRemoved) != 0 { emailsDelta = append(emailsDelta, fmt.Sprintf("removed: %s.", strings.Join(emailsRemoved, ", "))) } if len(emailsDelta) != 0 { ctx.Logger.Tracef("Updated emails detected for %s. %s", userSession.Username, strings.Join(emailsDelta, " ")) } else { ctx.Logger.Tracef("No updated emails detected for %s", userSession.Username) } // Check Name. if nameDelta { ctx.Logger.Tracef("Updated display name detected for %s. Added: %s. Removed: %s.", userSession.Username, details.DisplayName, userSession.DisplayName) } else { ctx.Logger.Tracef("No updated display name detected for %s", userSession.Username) } } func verifySessionHasUpToDateProfile(ctx *middlewares.AutheliaCtx, targetURL *url.URL, userSession *session.UserSession, refreshProfile bool, refreshProfileInterval time.Duration) error { // TODO: Add a check for LDAP password changes based on a time format attribute. // See https://www.authelia.com/o/threatmodel#potential-future-guarantees ctx.Logger.Tracef("Checking if we need check the authentication backend for an updated profile for %s.", userSession.Username) if !refreshProfile || userSession.Username == "" || targetURL == nil { return nil } if refreshProfileInterval != schema.RefreshIntervalAlways && userSession.RefreshTTL.After(ctx.Clock.Now()) { return nil } ctx.Logger.Debugf("Checking the authentication backend for an updated profile for user %s", userSession.Username) details, err := ctx.Providers.UserProvider.GetDetails(userSession.Username) // Only update the session if we could get the new details. if err != nil { return err } emailsDiff := utils.IsStringSlicesDifferent(userSession.Emails, details.Emails) groupsDiff := utils.IsStringSlicesDifferent(userSession.Groups, details.Groups) nameDiff := userSession.DisplayName != details.DisplayName if !groupsDiff && !emailsDiff && !nameDiff { ctx.Logger.Tracef("Updated profile not detected for %s.", userSession.Username) // Only update TTL if the user has an interval set. // We get to this check when there were no changes. // Also make sure to update the session even if no difference was found. // This is so that we don't check every subsequent request after this one. if refreshProfileInterval != schema.RefreshIntervalAlways { // Update RefreshTTL and save session if refresh is not set to always. userSession.RefreshTTL = ctx.Clock.Now().Add(refreshProfileInterval) return ctx.SaveSession(*userSession) } } else { ctx.Logger.Debugf("Updated profile detected for %s.", userSession.Username) if ctx.Configuration.Log.Level == "trace" { generateVerifySessionHasUpToDateProfileTraceLogs(ctx, userSession, details) } userSession.Emails = details.Emails userSession.Groups = details.Groups userSession.DisplayName = details.DisplayName // Only update TTL if the user has a interval set. if refreshProfileInterval != schema.RefreshIntervalAlways { userSession.RefreshTTL = ctx.Clock.Now().Add(refreshProfileInterval) } // Return the result of save session if there were changes. return ctx.SaveSession(*userSession) } // Return nil if disabled or if no changes and refresh interval set to always. return nil } func getProfileRefreshSettings(cfg schema.AuthenticationBackendConfiguration) (refresh bool, refreshInterval time.Duration) { if cfg.LDAP != nil { if cfg.RefreshInterval == schema.ProfileRefreshDisabled { refresh = false refreshInterval = 0 } else { refresh = true if cfg.RefreshInterval != schema.ProfileRefreshAlways { // Skip Error Check since validator checks it. refreshInterval, _ = utils.ParseDurationString(cfg.RefreshInterval) } else { refreshInterval = schema.RefreshIntervalAlways } } } return refresh, refreshInterval } func verifyAuth(ctx *middlewares.AutheliaCtx, targetURL *url.URL, refreshProfile bool, refreshProfileInterval time.Duration) (isBasicAuth bool, username, name string, groups, emails []string, authLevel authentication.Level, err error) { authHeader := headerProxyAuthorization if bytes.Equal(ctx.QueryArgs().Peek("auth"), []byte("basic")) { authHeader = headerAuthorization isBasicAuth = true } authValue := ctx.Request.Header.PeekBytes(authHeader) if authValue != nil { isBasicAuth = true } else if isBasicAuth { return isBasicAuth, username, name, groups, emails, authLevel, fmt.Errorf("basic auth requested via query arg, but no value provided via %s header", authHeader) } if isBasicAuth { username, name, groups, emails, authLevel, err = verifyBasicAuth(ctx, authHeader, authValue) return isBasicAuth, username, name, groups, emails, authLevel, err } userSession := ctx.GetSession() if username, name, groups, emails, authLevel, err = verifySessionCookie(ctx, targetURL, &userSession, refreshProfile, refreshProfileInterval); err != nil { return isBasicAuth, username, name, groups, emails, authLevel, err } sessionUsername := ctx.Request.Header.PeekBytes(headerSessionUsername) if sessionUsername != nil && !strings.EqualFold(string(sessionUsername), username) { ctx.Logger.Warnf("Possible cookie hijack or attempt to bypass security detected destroying the session and sending 401 response") if err = ctx.Providers.SessionProvider.DestroySession(ctx.RequestCtx); err != nil { ctx.Logger.Errorf("Unable to destroy user session after handler could not match them to their %s header: %s", headerSessionUsername, err) } return isBasicAuth, username, name, groups, emails, authLevel, fmt.Errorf("could not match user %s to their %s header with a value of %s when visiting %s", username, headerSessionUsername, sessionUsername, targetURL.String()) } return isBasicAuth, username, name, groups, emails, authLevel, err } // VerifyGET returns the handler verifying if a request is allowed to go through. func VerifyGET(cfg schema.AuthenticationBackendConfiguration) middlewares.RequestHandler { refreshProfile, refreshProfileInterval := getProfileRefreshSettings(cfg) return func(ctx *middlewares.AutheliaCtx) { ctx.Logger.Tracef("Headers=%s", ctx.Request.Header.String()) targetURL, err := ctx.GetOriginalURL() if err != nil { ctx.Logger.Errorf("Unable to parse target URL: %s", err) ctx.ReplyUnauthorized() return } if !isSchemeHTTPS(targetURL) && !isSchemeWSS(targetURL) { ctx.Logger.Errorf("Scheme of target URL %s must be secure since cookies are "+ "only transported over a secure connection for security reasons", targetURL.String()) ctx.ReplyUnauthorized() return } if !isURLUnderProtectedDomain(targetURL, ctx.Configuration.Session.Domain) { ctx.Logger.Errorf("Target URL %s is not under the protected domain %s", targetURL.String(), ctx.Configuration.Session.Domain) ctx.ReplyUnauthorized() return } method := ctx.XForwardedMethod() isBasicAuth, username, name, groups, emails, authLevel, err := verifyAuth(ctx, targetURL, refreshProfile, refreshProfileInterval) if err != nil { ctx.Logger.Errorf("Error caught when verifying user authorization: %s", err) if err = updateActivityTimestamp(ctx, isBasicAuth); err != nil { ctx.Error(fmt.Errorf("unable to update last activity: %s", err), messageOperationFailed) return } handleUnauthorized(ctx, targetURL, isBasicAuth, username, method) return } authorized := isTargetURLAuthorized(ctx.Providers.Authorizer, *targetURL, username, groups, ctx.RemoteIP(), method, authLevel) switch authorized { case Forbidden: ctx.Logger.Infof("Access to %s is forbidden to user %s", targetURL.String(), username) ctx.ReplyForbidden() case NotAuthorized: handleUnauthorized(ctx, targetURL, isBasicAuth, username, method) case Authorized: setForwardedHeaders(&ctx.Response.Header, username, name, groups, emails) } if err = updateActivityTimestamp(ctx, isBasicAuth); err != nil { ctx.Error(fmt.Errorf("unable to update last activity: %s", err), messageOperationFailed) } } }