// mautrix-telegram - A Matrix-Telegram puppeting bridge. // Copyright (C) 2025 Sumner Evans // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package connector import ( "context" "errors" "fmt" "regexp" "slices" "strconv" "strings" "sync" "sync/atomic" "syscall" "time" "github.com/rs/zerolog" "go.mau.fi/util/exsync" "go.mau.fi/zerozap" "go.uber.org/zap" "go.uber.org/zap/zapcore" "maunium.net/go/mautrix/bridgev2" "maunium.net/go/mautrix/bridgev2/database" "maunium.net/go/mautrix/bridgev2/networkid" "maunium.net/go/mautrix/bridgev2/simplevent" "maunium.net/go/mautrix/bridgev2/status" "maunium.net/go/mautrix/id" "go.mau.fi/mautrix-telegram/pkg/gotd/telegram" "go.mau.fi/mautrix-telegram/pkg/gotd/telegram/auth" "go.mau.fi/mautrix-telegram/pkg/gotd/telegram/updates" "go.mau.fi/mautrix-telegram/pkg/gotd/tg" "go.mau.fi/mautrix-telegram/pkg/connector/humanise" "go.mau.fi/mautrix-telegram/pkg/connector/ids" "go.mau.fi/mautrix-telegram/pkg/connector/matrixfmt" "go.mau.fi/mautrix-telegram/pkg/connector/store" "go.mau.fi/mautrix-telegram/pkg/connector/telegramfmt" "go.mau.fi/mautrix-telegram/pkg/connector/util" ) var ( ErrNoAuthKey = errors.New("user does not have auth key") ErrFailToQueueEvent = errors.New("failed to queue event") ) func resultToError(res bridgev2.EventHandlingResult) error { if !res.Success { if res.Error != nil { return fmt.Errorf("%w: %w", ErrFailToQueueEvent, res.Error) } return ErrFailToQueueEvent } return nil } type TelegramClient struct { main *TelegramConnector ScopedStore *store.ScopedStore telegramUserID int64 loginID networkid.UserLoginID userID networkid.UserID userLogin *bridgev2.UserLogin client *telegram.Client updatesManager *updates.Manager clientCtx context.Context clientCancel context.CancelFunc clientDone *Future[error] clientInitialized *exsync.Event mu sync.Mutex appConfigLock sync.Mutex appConfig map[string]any appConfigHash int availableReactionsLock sync.Mutex availableReactions map[string]struct{} availableReactionsHash int availableReactionsFetched time.Time availableReactionsList []string isPremiumCache atomic.Bool telegramFmtParams *telegramfmt.FormatParams matrixParser *matrixfmt.HTMLParser cachedContacts *tg.ContactsContacts cachedContactsHash int64 takeoutLock sync.Mutex takeoutAccepted *exsync.Event stopTakeoutTimer *time.Timer takeoutDialogsOnce sync.Once prevReactionPoll map[networkid.PortalKey]time.Time } var ( _ bridgev2.NetworkAPI = (*TelegramClient)(nil) _ bridgev2.EditHandlingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.ReactionHandlingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.RedactionHandlingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.ReadReceiptHandlingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.TypingHandlingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.BackfillingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.BackfillingNetworkAPIWithLimits = (*TelegramClient)(nil) _ bridgev2.IdentifierResolvingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.ContactListingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.UserSearchingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.GroupCreatingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.MuteHandlingNetworkAPI = (*TelegramClient)(nil) _ bridgev2.TagHandlingNetworkAPI = (*TelegramClient)(nil) ) type UpdateDispatcher struct { tg.UpdateDispatcher EntityHandler func(context.Context, tg.Entities) error } func (u UpdateDispatcher) Handle(ctx context.Context, updates tg.UpdatesClass) error { var e tg.Entities switch u := updates.(type) { case *tg.Updates: e.Users = u.MapUsers().NotEmptyToMap() chats := u.MapChats() e.Chats = chats.ChatToMap() e.Channels = chats.ChannelToMap() case *tg.UpdatesCombined: e.Users = u.MapUsers().NotEmptyToMap() chats := u.MapChats() e.Chats = chats.ChatToMap() e.Channels = chats.ChannelToMap() } if u.EntityHandler != nil { u.EntityHandler(ctx, e) } return u.UpdateDispatcher.Handle(ctx, updates) } var messageLinkRegex = regexp.MustCompile(`^https?://t(?:elegram)?\.(?:me|dog)/([A-Za-z][A-Za-z0-9_]{3,31}[A-Za-z0-9]|[Cc]/[0-9]{1,20})/([0-9]{1,20})$`) func NewTelegramClient(ctx context.Context, tc *TelegramConnector, login *bridgev2.UserLogin) (*TelegramClient, error) { telegramUserID, err := ids.ParseUserLoginID(login.ID) if err != nil { return nil, err } log := zerolog.Ctx(ctx).With(). Str("component", "telegram_client"). Str("user_login_id", string(login.ID)). Logger() zaplog := zap.New(zerozap.NewWithLevels(log, map[zapcore.Level]zerolog.Level{ // shifted zapcore.DebugLevel: zerolog.TraceLevel, zapcore.InfoLevel: zerolog.DebugLevel, // direct mapping zapcore.WarnLevel: zerolog.WarnLevel, zapcore.ErrorLevel: zerolog.ErrorLevel, zapcore.DPanicLevel: zerolog.PanicLevel, zapcore.PanicLevel: zerolog.PanicLevel, zapcore.FatalLevel: zerolog.FatalLevel, })) client := TelegramClient{ ScopedStore: tc.Store.GetScopedStore(telegramUserID), main: tc, telegramUserID: telegramUserID, loginID: login.ID, userID: networkid.UserID(login.ID), userLogin: login, takeoutAccepted: exsync.NewEvent(), prevReactionPoll: map[networkid.PortalKey]time.Time{}, clientInitialized: exsync.NewEvent(), } if !login.Metadata.(*UserLoginMetadata).Session.HasAuthKey() { return &client, nil } dispatcher := UpdateDispatcher{ UpdateDispatcher: tg.NewUpdateDispatcher(), EntityHandler: client.onEntityUpdate, } dispatcher.OnNewMessage(func(ctx context.Context, e tg.Entities, update *tg.UpdateNewMessage) error { return client.onUpdateNewMessage(ctx, e, update) }) dispatcher.OnNewChannelMessage(func(ctx context.Context, e tg.Entities, update *tg.UpdateNewChannelMessage) error { return client.onUpdateNewMessage(ctx, e, update) }) dispatcher.OnChannel(client.onUpdateChannel) dispatcher.OnUserName(client.onUserName) dispatcher.OnDeleteMessages(func(ctx context.Context, e tg.Entities, update *tg.UpdateDeleteMessages) error { return client.onDeleteMessages(ctx, 0, update) }) dispatcher.OnDeleteChannelMessages(func(ctx context.Context, e tg.Entities, update *tg.UpdateDeleteChannelMessages) error { return client.onDeleteMessages(ctx, update.ChannelID, update) }) dispatcher.OnEditMessage(func(ctx context.Context, e tg.Entities, update *tg.UpdateEditMessage) error { return client.onMessageEdit(ctx, update) }) dispatcher.OnEditChannelMessage(func(ctx context.Context, e tg.Entities, update *tg.UpdateEditChannelMessage) error { return client.onMessageEdit(ctx, update) }) dispatcher.OnUserTyping(func(ctx context.Context, e tg.Entities, update *tg.UpdateUserTyping) error { return client.handleTyping(client.makePortalKeyFromID(ids.PeerTypeUser, update.UserID), client.senderForUserID(update.UserID), update.Action) }) dispatcher.OnChatUserTyping(func(ctx context.Context, e tg.Entities, update *tg.UpdateChatUserTyping) error { if update.FromID.TypeID() != tg.PeerUserTypeID { log.Warn().Str("from_id_type", update.FromID.TypeName()).Msg("unsupported from_id type") return nil } return client.handleTyping(client.makePortalKeyFromID(ids.PeerTypeChat, update.ChatID), client.getPeerSender(update.FromID), update.Action) }) dispatcher.OnChannelUserTyping(func(ctx context.Context, e tg.Entities, update *tg.UpdateChannelUserTyping) error { return client.handleTyping(client.makePortalKeyFromID(ids.PeerTypeChannel, update.ChannelID), client.getPeerSender(update.FromID), update.Action) }) dispatcher.OnReadHistoryOutbox(client.updateReadReceipt) dispatcher.OnReadHistoryInbox(func(ctx context.Context, e tg.Entities, update *tg.UpdateReadHistoryInbox) error { return client.onOwnReadReceipt(client.makePortalKeyFromPeer(update.Peer), update.MaxID) }) dispatcher.OnReadChannelInbox(func(ctx context.Context, e tg.Entities, update *tg.UpdateReadChannelInbox) error { return client.onOwnReadReceipt(client.makePortalKeyFromID(ids.PeerTypeChannel, update.ChannelID), update.MaxID) }) dispatcher.OnNotifySettings(client.onNotifySettings) dispatcher.OnPinnedDialogs(client.onPinnedDialogs) dispatcher.OnChatDefaultBannedRights(client.onChatDefaultBannedRights) dispatcher.OnPeerBlocked(client.onPeerBlocked) dispatcher.OnChat(client.onChat) dispatcher.OnPhoneCall(client.onPhoneCall) client.updatesManager = updates.New(updates.Config{ OnChannelTooLong: func(channelID int64) error { res := tc.Bridge.QueueRemoteEvent(login, &simplevent.ChatResync{ EventMeta: simplevent.EventMeta{ Type: bridgev2.RemoteEventChatResync, LogContext: func(c zerolog.Context) zerolog.Context { return c.Str("update", "channel_too_long").Int64("channel_id", channelID) }, PortalKey: client.makePortalKeyFromID(ids.PeerTypeChannel, channelID), }, CheckNeedsBackfillFunc: func(ctx context.Context, latestMessage *database.Message) (bool, error) { return true, nil }, }) return resultToError(res) }, Handler: dispatcher, Logger: zaplog.Named("gaps"), Storage: client.ScopedStore, AccessHasher: client.ScopedStore, }) client.client = telegram.NewClient(tc.Config.APIID, tc.Config.APIHash, telegram.Options{ CustomSessionStorage: &login.Metadata.(*UserLoginMetadata).Session, Logger: zaplog, UpdateHandler: client.updatesManager, OnDead: client.onDead, OnSession: client.onConnectionStateChange("session"), OnConnected: client.onConnectionStateChange("connected"), PingCallback: client.onPing, OnAuthError: client.onAuthError, PingTimeout: time.Duration(tc.Config.Ping.TimeoutSeconds) * time.Second, PingInterval: time.Duration(tc.Config.Ping.IntervalSeconds) * time.Second, Device: telegram.DeviceConfig{ DeviceModel: tc.Config.DeviceInfo.DeviceModel, SystemVersion: tc.Config.DeviceInfo.SystemVersion, AppVersion: tc.Config.DeviceInfo.AppVersion, SystemLangCode: tc.Config.DeviceInfo.SystemLangCode, LangCode: tc.Config.DeviceInfo.LangCode, }, }) client.telegramFmtParams = &telegramfmt.FormatParams{ GetUserInfoByID: func(ctx context.Context, id int64) (telegramfmt.UserInfo, error) { ghost, err := tc.Bridge.GetGhostByID(ctx, ids.MakeUserID(id)) if err != nil { return telegramfmt.UserInfo{}, err } userInfo := telegramfmt.UserInfo{MXID: ghost.Intent.GetMXID(), Name: ghost.Name} // FIXME this should look for user logins by ID, not hardcode the current user if id == client.telegramUserID { userInfo.MXID = client.userLogin.UserMXID } return userInfo, nil }, GetUserInfoByUsername: func(ctx context.Context, username string) (telegramfmt.UserInfo, error) { if peerType, userID, err := client.ScopedStore.GetEntityIDByUsername(ctx, username); err != nil { return telegramfmt.UserInfo{}, err } else if peerType != ids.PeerTypeUser { return telegramfmt.UserInfo{}, fmt.Errorf("unexpected peer type: %s", peerType) } else if ghost, err := tc.Bridge.GetGhostByID(ctx, ids.MakeUserID(userID)); err != nil { return telegramfmt.UserInfo{}, err } else { userInfo := telegramfmt.UserInfo{MXID: ghost.Intent.GetMXID(), Name: ghost.Name} if ghost.ID == client.userID { userInfo.MXID = client.userLogin.UserMXID } return userInfo, nil } }, NormalizeURL: func(ctx context.Context, url string) string { log := zerolog.Ctx(ctx).With(). Str("conversion_direction", "to_matrix"). Str("entity_type", "url"). Logger() if !strings.HasPrefix(url, "https://") && !strings.HasPrefix(url, "http://") && !strings.HasPrefix(url, "ftp://") && !strings.HasPrefix(url, "magnet://") { url = "http://" + url } submatches := messageLinkRegex.FindStringSubmatch(url) if len(submatches) == 0 { return url } group := submatches[1] msgID, err := strconv.Atoi(submatches[2]) if err != nil { log.Err(err).Msg("error parsing message ID") return url } log = log.With().Str("group", group).Int("msg_id", msgID).Logger() var portalKey networkid.PortalKey if strings.HasPrefix(group, "C/") || strings.HasPrefix(group, "c/") { chatID, err := strconv.ParseInt(submatches[1][2:], 10, 64) if err != nil { log.Err(err).Msg("error parsing channel ID") return url } portalKey = client.makePortalKeyFromID(ids.PeerTypeChannel, chatID) } else if submatches[1] == "premium" { portalKey = client.makePortalKeyFromID(ids.PeerTypeUser, 777000) } else { // FIXME why does this not handle usernames?? userID, err := strconv.ParseInt(submatches[1], 10, 64) if err != nil { log.Warn().Err(err).Msg("error parsing user ID") return url } portalKey = client.makePortalKeyFromID(ids.PeerTypeUser, userID) } portal, err := tc.Bridge.DB.Portal.GetByKey(ctx, portalKey) if err != nil { log.Err(err).Msg("error getting portal") return url } else if portal == nil { log.Warn().Msg("portal not found") return url } message, err := tc.Bridge.DB.Message.GetFirstPartByID(ctx, client.loginID, ids.MakeMessageID(portalKey, msgID)) if err != nil { log.Err(err).Msg("error getting referenced message") return url } else if message == nil { log.Warn().Err(err).Msg("message not found") return url } return portal.MXID.EventURI(message.MXID, tc.Bridge.Matrix.ServerName()).MatrixToURL() }, } client.matrixParser = &matrixfmt.HTMLParser{ GetGhostDetails: func(ctx context.Context, ui id.UserID) (networkid.UserID, string, int64, bool) { if userID, ok := tc.Bridge.Matrix.ParseGhostMXID(ui); !ok { return "", "", 0, false } else if peerType, telegramUserID, err := ids.ParseUserID(userID); err != nil { return "", "", 0, false } else if accessHash, err := client.ScopedStore.GetAccessHash(ctx, peerType, telegramUserID); err != nil || accessHash == 0 { return "", "", 0, false } else if username, err := client.ScopedStore.GetUsername(ctx, peerType, telegramUserID); err != nil { return "", "", 0, false } else { return userID, username, accessHash, true } }, } return &client, err } func (t *TelegramClient) onDead() { prevState := t.userLogin.BridgeState.GetPrev().StateEvent if slices.Contains([]status.BridgeStateEvent{ status.StateTransientDisconnect, status.StateBadCredentials, status.StateLoggedOut, status.StateUnknownError, }, prevState) { t.userLogin.Log.Warn(). Str("prev_state", string(prevState)). Msg("client is dead, not sending transient disconnect, because already in an error state") return } t.userLogin.BridgeState.Send(status.BridgeState{ StateEvent: status.StateTransientDisconnect, Message: "Telegram client disconnected", }) } func (t *TelegramClient) sendBadCredentialsOrUnknownError(err error) { if auth.IsUnauthorized(err) || errors.Is(err, ErrNoAuthKey) { t.userLogin.BridgeState.Send(status.BridgeState{ StateEvent: status.StateBadCredentials, Error: "tg-no-auth", Message: humanise.Error(err), }) } else { t.userLogin.BridgeState.Send(status.BridgeState{ StateEvent: status.StateUnknownError, Error: "tg-unknown-error", Message: humanise.Error(err), }) } } func (t *TelegramClient) onPing() { if t.userLogin.BridgeState.GetPrev().StateEvent == status.StateConnected { t.main.Bridge.Log.Trace().Msg("Got ping, not checking connectivity because we are already connected") } else { t.onConnectionStateChange("ping while not connected") } } func (t *TelegramClient) onConnectionStateChange(reason string) func() { return func() { log := t.main.Bridge.Log.With(). Str("component", "telegram_client"). Str("user_login_id", string(t.userLogin.ID)). Str("reason", reason). Logger() log.Info().Msg("Connection state changed") ctx := log.WithContext(context.Background()) authStatus, err := t.client.Auth().Status(ctx) if err != nil { if errors.Is(err, syscall.EPIPE) { // This is a pipe error, try disconnecting which will force the // updatesManager to fail and cause the client to reconnect. t.userLogin.BridgeState.Send(status.BridgeState{ StateEvent: status.StateTransientDisconnect, Error: "pipe-error", Message: humanise.Error(err), }) } else { t.sendBadCredentialsOrUnknownError(err) } } else if authStatus.Authorized { t.userLogin.BridgeState.Send(status.BridgeState{StateEvent: status.StateConnected}) } else { t.onAuthError(fmt.Errorf("not logged in")) } } } func (t *TelegramClient) onAuthError(err error) { t.sendBadCredentialsOrUnknownError(err) t.userLogin.Metadata.(*UserLoginMetadata).ResetOnLogout() go func() { if err := t.userLogin.Save(context.Background()); err != nil { t.main.Bridge.Log.Err(err).Msg("failed to save user login") } }() } func (t *TelegramClient) Connect(_ context.Context) { t.mu.Lock() defer t.mu.Unlock() ctx := context.Background() log := zerolog.Ctx(context.Background()).With().Int64("user_id", t.telegramUserID).Logger() ctx = log.WithContext(ctx) if !t.userLogin.Metadata.(*UserLoginMetadata).Session.HasAuthKey() { log.Warn().Msg("user does not have an auth key, sending bad credentials state") t.sendBadCredentialsOrUnknownError(ErrNoAuthKey) return } log.Info().Msg("Connecting client") // Add a cancellation layer we can use for explicit Disconnect ctx, cancel := context.WithCancel(ctx) t.clientCtx = ctx t.clientCancel = cancel t.clientDone = NewFuture[error]() t.clientInitialized.Clear() runTelegramClient(ctx, t.client, t.clientInitialized, t.clientDone, func(ctx context.Context) error { log.Info().Msg("Client running starting updates") return t.updatesManager.Run(ctx, t.client.API(), t.telegramUserID, updates.AuthOptions{}) }) } func runTelegramClient(ctx context.Context, client *telegram.Client, initialized *exsync.Event, done *Future[error], callback func(ctx context.Context) error) { go func() { err := client.Run(ctx, func(ctx context.Context) error { initialized.Set() return callback(ctx) }) initialized.Set() done.Set(err) }() } func (t *TelegramClient) Disconnect() { t.mu.Lock() defer t.mu.Unlock() t.userLogin.Log.Info().Msg("Disconnecting client") if t.clientCancel != nil { t.clientCancel() t.userLogin.Log.Info().Msg("Waiting for client") err, _ := t.clientDone.Get(context.Background()) t.userLogin.Log.Info().Err(err).Msg("Client done") } t.userLogin.Log.Info().Msg("Disconnect complete") } func (t *TelegramClient) getInputUser(ctx context.Context, id int64) (*tg.InputUser, error) { accessHash, err := t.ScopedStore.GetAccessHash(ctx, ids.PeerTypeUser, id) if err != nil { return nil, fmt.Errorf("failed to get access hash for user %d: %w", id, err) } return &tg.InputUser{UserID: id, AccessHash: accessHash}, nil } func (t *TelegramClient) getSingleUser(ctx context.Context, id int64) (tg.UserClass, error) { if inputUser, err := t.getInputUser(ctx, id); err != nil { return nil, err } else if users, err := t.client.API().UsersGetUsers(ctx, []tg.InputUserClass{inputUser}); err != nil { return nil, err } else if len(users) == 0 { // TODO does this mean the user is deleted? Need to handle this a bit better return nil, fmt.Errorf("failed to get user info for user %d", id) } else { return users[0], nil } } func (t *TelegramClient) getSingleChannel(ctx context.Context, id int64) (*tg.Channel, error) { accessHash, err := t.ScopedStore.GetAccessHash(ctx, ids.PeerTypeChannel, id) if err != nil { return nil, err } chats, err := APICallWithOnlyChatUpdates(ctx, t, func() (tg.MessagesChatsClass, error) { return t.client.API().ChannelsGetChannels(ctx, []tg.InputChannelClass{ &tg.InputChannel{ChannelID: id, AccessHash: accessHash}, }) }) if err != nil { return nil, err } else if len(chats.GetChats()) == 0 { return nil, fmt.Errorf("failed to get channel info for channel %d", id) } else if channel, ok := chats.GetChats()[0].(*tg.Channel); !ok { return nil, fmt.Errorf("unexpected channel type %T", chats.GetChats()[id]) } else { return channel, nil } } func (t *TelegramClient) GetUserInfo(ctx context.Context, ghost *bridgev2.Ghost) (*bridgev2.UserInfo, error) { peerType, id, err := ids.ParseUserID(ghost.ID) if err != nil { return nil, err } switch peerType { case ids.PeerTypeUser: if user, err := t.getSingleUser(ctx, id); err != nil { return nil, fmt.Errorf("failed to get user %d: %w", id, err) } else if user.TypeID() != tg.UserTypeID { return nil, err } else { return t.updateGhost(ctx, id, user.(*tg.User)) } case ids.PeerTypeChannel: if channel, err := t.getSingleChannel(ctx, id); err != nil { return nil, fmt.Errorf("failed to get channel %d: %w", id, err) } else if channel.TypeID() != tg.ChannelTypeID { return nil, err } else { return t.updateChannel(ctx, channel) } default: return nil, fmt.Errorf("unexpected peer type: %s", peerType) } } func (t *TelegramClient) getUserInfoFromTelegramUser(ctx context.Context, u tg.UserClass) (*bridgev2.UserInfo, error) { user, ok := u.(*tg.User) if !ok { return nil, fmt.Errorf("user is %T not *tg.User", user) } var identifiers []string if !user.Min { if accessHash, ok := user.GetAccessHash(); ok { if err := t.ScopedStore.SetAccessHash(ctx, ids.PeerTypeUser, user.ID, accessHash); err != nil { return nil, err } } if err := t.ScopedStore.SetUsername(ctx, ids.PeerTypeUser, user.ID, user.Username); err != nil { return nil, err } if user.Username != "" { identifiers = append(identifiers, fmt.Sprintf("telegram:%s", user.Username)) } for _, username := range user.Usernames { identifiers = append(identifiers, fmt.Sprintf("telegram:%s", username.Username)) } if phone, ok := user.GetPhone(); ok { normalized := strings.TrimPrefix(phone, "+") identifiers = append(identifiers, fmt.Sprintf("tel:+%s", normalized)) if err := t.ScopedStore.SetPhoneNumber(ctx, user.ID, normalized); err != nil { return nil, err } } } slices.Sort(identifiers) identifiers = slices.Compact(identifiers) var avatar *bridgev2.Avatar if p, ok := user.GetPhoto(); ok && p.TypeID() == tg.UserProfilePhotoTypeID { photo := p.(*tg.UserProfilePhoto) var err error avatar, err = t.convertUserProfilePhoto(ctx, user.ID, photo) if err != nil { return nil, err } } name := util.FormatFullName(user.FirstName, user.LastName, user.Deleted, user.ID) return &bridgev2.UserInfo{ IsBot: &user.Bot, Name: &name, Avatar: avatar, Identifiers: identifiers, ExtraUpdates: func(ctx context.Context, ghost *bridgev2.Ghost) (changed bool) { meta := ghost.Metadata.(*GhostMetadata) if !user.Min { changed = changed || meta.IsPremium != user.Premium || meta.IsBot != user.Bot || meta.IsContact != user.Contact meta.IsPremium = user.Premium meta.IsBot = user.Bot meta.IsContact = user.Contact meta.Deleted = user.Deleted } return changed }, }, nil } func (t *TelegramClient) IsLoggedIn() bool { if t == nil || t.clientCtx == nil { return false } select { case <-t.clientCtx.Done(): t.main.Bridge.Log.Debug(). Bool("client_context_done", true). Msg("Checking if user is logged in") return false default: t.main.Bridge.Log.Debug(). Bool("has_client", t.client != nil). Bool("has_auth_key", t.userLogin.Metadata.(*UserLoginMetadata).Session.HasAuthKey()). Msg("Checking if user is logged in") return t.client != nil && t.userLogin.Metadata.(*UserLoginMetadata).Session.HasAuthKey() } } func (t *TelegramClient) LogoutRemote(ctx context.Context) { log := zerolog.Ctx(ctx).With(). Str("action", "logout_remote"). Int64("user_id", t.telegramUserID). Logger() log.Info().Msg("Logging out and disconnecting") if t.userLogin.Metadata.(*UserLoginMetadata).Session.HasAuthKey() { log.Info().Msg("User has an auth key, logging out") // logging out is best effort, we want to logout even if we can't call the endpoint ctx, cancel := context.WithTimeout(ctx, 5*time.Second) defer cancel() _, err := t.client.API().AuthLogOut(ctx) if err != nil { log.Err(err).Msg("failed to logout on Telegram") } } t.Disconnect() log.Info().Msg("Deleting user state") err := t.ScopedStore.DeleteUserState(ctx) if err != nil { log.Err(err).Msg("failed to delete user state") } err = t.ScopedStore.DeleteChannelStateForUser(ctx) if err != nil { log.Err(err).Msg("failed to delete channel state for user") } err = t.ScopedStore.DeleteAccessHashesForUser(ctx) if err != nil { log.Err(err).Msg("failed to delete access hashes for user") } log.Info().Msg("Logged out and deleted user state") } func (t *TelegramClient) IsThisUser(ctx context.Context, userID networkid.UserID) bool { return userID == networkid.UserID(t.userLogin.ID) } func (t *TelegramClient) mySender() bridgev2.EventSender { return bridgev2.EventSender{ IsFromMe: true, SenderLogin: t.loginID, Sender: t.userID, } } func (t *TelegramClient) senderForUserID(userID int64) bridgev2.EventSender { return bridgev2.EventSender{ IsFromMe: userID == t.telegramUserID, SenderLogin: ids.MakeUserLoginID(userID), Sender: ids.MakeUserID(userID), } }