package matterclient import ( "context" "crypto/tls" "errors" "fmt" "net/http" "net/http/cookiejar" "net/url" "strconv" "strings" "sync" "time" "github.com/gorilla/websocket" lru "github.com/hashicorp/golang-lru" "github.com/jpillora/backoff" prefixed "github.com/matterbridge/logrus-prefixed-formatter" "github.com/mattermost/mattermost-server/v6/model" "github.com/sirupsen/logrus" ) type Credentials struct { Login string Team string Pass string Token string CookieToken bool Server string NoTLS bool SkipTLSVerify bool SkipVersionCheck bool MFAToken string } type Team struct { Team *model.Team ID string Channels []*model.Channel MoreChannels []*model.Channel Users map[string]*model.User } type Message struct { Raw *model.WebSocketEvent Post *model.Post Team string Channel string Username string Text string Type string UserID string } type Client struct { sync.RWMutex *Credentials Team *Team OtherTeams []*Team Client *model.Client4 User *model.User Users map[string]*model.User MessageChan chan *Message WsClient *model.WebSocketClient AntiIdle bool AntiIdleChan string AntiIdleIntvl int WsQuit bool WsConnected bool OnWsConnect func() reconnectBusy bool Timeout int logger *logrus.Entry rootLogger *logrus.Logger lruCache *lru.Cache aliveChan chan bool loginCancel context.CancelFunc lastPong time.Time } var Matterircd bool func New(login string, pass string, team string, server string, mfatoken string) *Client { rootLogger := logrus.New() rootLogger.SetFormatter(&prefixed.TextFormatter{ PrefixPadding: 13, DisableColors: true, FullTimestamp: true, }) cred := &Credentials{ Login: login, Pass: pass, Team: team, Server: server, MFAToken: mfatoken, } cache, _ := lru.New(500) return &Client{ Credentials: cred, MessageChan: make(chan *Message, 100), Users: make(map[string]*model.User), rootLogger: rootLogger, lruCache: cache, logger: rootLogger.WithFields(logrus.Fields{"prefix": "matterclient"}), aliveChan: make(chan bool), } } // Login tries to connect the client with the loging details with which it was initialized. func (m *Client) Login() error { // check if this is a first connect or a reconnection firstConnection := true if m.WsConnected { firstConnection = false } m.WsConnected = false if m.WsQuit { return nil } b := &backoff.Backoff{ Min: time.Second, Max: 5 * time.Minute, Jitter: true, } // do initialization setup if err := m.initClient(b); err != nil { return err } if err := m.doLogin(firstConnection, b); err != nil { return err } if err := m.initUser(); err != nil { return err } if m.Team == nil { validTeamNames := make([]string, len(m.OtherTeams)) for i, t := range m.OtherTeams { validTeamNames[i] = t.Team.Name } return fmt.Errorf("Team '%s' not found in %v", m.Credentials.Team, validTeamNames) } // connect websocket m.wsConnect() ctx, loginCancel := context.WithCancel(context.Background()) m.loginCancel = loginCancel m.logger.Debug("starting wsreceiver") go m.WsReceiver(ctx) if m.OnWsConnect != nil { m.logger.Debug("executing OnWsConnect()") go m.OnWsConnect() } go m.checkConnection(ctx) if m.AntiIdle { if m.AntiIdleChan == "" { // do anti idle on town-square, every installation should have this channel m.AntiIdleChan = "town-square" } channels := m.GetChannels() for _, channel := range channels { if channel.Name == m.AntiIdleChan { go m.antiIdle(ctx, channel.Id, m.AntiIdleIntvl) continue } } } return nil } func (m *Client) Reconnect() { if m.reconnectBusy { return } m.reconnectBusy = true m.logger.Info("reconnect: logout") m.reconnectLogout() for { m.logger.Info("reconnect: login") err := m.Login() if err != nil { m.logger.Errorf("reconnect: login failed: %s, retrying in 10 seconds", err) time.Sleep(time.Second * 10) continue } break } m.logger.Info("reconnect successful") m.reconnectBusy = false } func (m *Client) initClient(b *backoff.Backoff) error { uriScheme := "https://" if m.NoTLS { uriScheme = "http://" } // login to mattermost m.Client = model.NewAPIv4Client(uriScheme + m.Credentials.Server) m.Client.HTTPClient.Transport = &http.Transport{ TLSClientConfig: &tls.Config{ InsecureSkipVerify: m.SkipTLSVerify, //nolint:gosec }, Proxy: http.ProxyFromEnvironment, } if m.Timeout == 0 { m.Timeout = 10 } m.Client.HTTPClient.Timeout = time.Second * time.Duration(m.Timeout) // handle MMAUTHTOKEN and personal token if err := m.handleLoginToken(); err != nil { return err } // check if server alive, retry until if err := m.serverAlive(b); err != nil { return err } return nil } func (m *Client) handleLoginToken() error { switch { case strings.Contains(m.Credentials.Pass, model.SessionCookieToken): token := strings.Split(m.Credentials.Pass, model.SessionCookieToken+"=") if len(token) != 2 { return errors.New("incorrect MMAUTHTOKEN. valid input is MMAUTHTOKEN=yourtoken") } m.Credentials.Token = token[1] m.Credentials.CookieToken = true case strings.Contains(m.Credentials.Pass, "token="): token := strings.Split(m.Credentials.Pass, "token=") if len(token) != 2 { return errors.New("incorrect personal token. valid input is token=yourtoken") } m.Credentials.Token = token[1] } return nil } func (m *Client) serverAlive(b *backoff.Backoff) error { defer b.Reset() for { d := b.Duration() // bogus call to get the serverversion resp, err := m.Client.Logout() if err != nil { return err } if resp.ServerVersion == "" { m.logger.Debugf("Server not up yet, reconnecting in %s", d) time.Sleep(d) } else { m.logger.Infof("Found version %s", resp.ServerVersion) return nil } } } // initialize user and teams // nolint:funlen func (m *Client) initUser() error { m.Lock() defer m.Unlock() // we only load all team data on initial login. // all other updates are for channels from our (primary) team only. teams, _, err := m.Client.GetTeamsForUser(m.User.Id, "") if err != nil { return err } for _, team := range teams { idx := 0 max := 200 usermap := make(map[string]*model.User) mmusers, _, err := m.Client.GetUsersInTeam(team.Id, idx, max, "") if err != nil { return err } for len(mmusers) > 0 { for _, user := range mmusers { usermap[user.Id] = user } mmusers, _, err = m.Client.GetUsersInTeam(team.Id, idx, max, "") if err != nil { return err } idx++ time.Sleep(time.Millisecond * 200) } m.logger.Infof("found %d users in team %s", len(usermap), team.Name) t := &Team{ Team: team, Users: usermap, ID: team.Id, } mmchannels, _, err := m.Client.GetChannelsForTeamForUser(team.Id, m.User.Id, false, "") if err != nil { return err } t.Channels = mmchannels mmchannels, _, err = m.Client.GetPublicChannelsForTeam(team.Id, 0, 5000, "") if err != nil { return err } t.MoreChannels = mmchannels m.OtherTeams = append(m.OtherTeams, t) if team.Name == m.Credentials.Team { m.Team = t m.logger.Debugf("initUser(): found our team %s (id: %s)", team.Name, team.Id) } // add all users for k, v := range t.Users { m.Users[k] = v } } return nil } func (m *Client) doLogin(firstConnection bool, b *backoff.Backoff) error { var ( logmsg = "trying login" err error user *model.User ) for { m.logger.Debugf("%s %s %s %s", logmsg, m.Credentials.Team, m.Credentials.Login, m.Credentials.Server) switch { case m.Credentials.Token != "": user, _, err = m.doLoginToken() if err != nil { return err } case m.Credentials.MFAToken != "": user, _, err = m.Client.LoginWithMFA(m.Credentials.Login, m.Credentials.Pass, m.Credentials.MFAToken) default: user, _, err = m.Client.Login(m.Credentials.Login, m.Credentials.Pass) } if err != nil { d := b.Duration() m.logger.Debug(err) if firstConnection { return err } m.logger.Debugf("LOGIN: %s, reconnecting in %s", err, d) time.Sleep(d) logmsg = "retrying login" continue } m.User = user break } // reset timer b.Reset() return nil } func (m *Client) doLoginToken() (*model.User, *model.Response, error) { var ( resp *model.Response logmsg = "trying login" user *model.User err error ) m.Client.AuthType = model.HeaderBearer m.Client.AuthToken = m.Credentials.Token if m.Credentials.CookieToken { m.logger.Debugf(logmsg + " with cookie (MMAUTH) token") m.Client.HTTPClient.Jar = m.createCookieJar(m.Credentials.Token) } else { m.logger.Debugf(logmsg + " with personal token") } user, resp, err = m.Client.GetMe("") if err != nil { return user, resp, err } if user == nil { m.logger.Errorf("LOGIN TOKEN: %s is invalid", m.Credentials.Pass) return user, resp, errors.New("invalid token") } return user, resp, nil } func (m *Client) createCookieJar(token string) *cookiejar.Jar { var cookies []*http.Cookie jar, _ := cookiejar.New(nil) firstCookie := &http.Cookie{ Name: "MMAUTHTOKEN", Value: token, Path: "/", Domain: m.Credentials.Server, } cookies = append(cookies, firstCookie) cookieURL, _ := url.Parse("https://" + m.Credentials.Server) jar.SetCookies(cookieURL, cookies) return jar } func (m *Client) wsConnect() { b := &backoff.Backoff{ Min: time.Second, Max: 5 * time.Minute, Jitter: true, } m.WsConnected = false wsScheme := "wss://" if m.NoTLS { wsScheme = "ws://" } // setup websocket connection wsurl := wsScheme + m.Credentials.Server // + model.API_URL_SUFFIX_V4 // + "/websocket" header := http.Header{} header.Set(model.HeaderAuth, "BEARER "+m.Client.AuthToken) m.logger.Debugf("WsClient: making connection: %s", wsurl) for { wsDialer := &websocket.Dialer{ TLSClientConfig: &tls.Config{ InsecureSkipVerify: m.SkipTLSVerify, //nolint:gosec }, Proxy: http.ProxyFromEnvironment, } var err error m.WsClient, err = model.NewWebSocketClientWithDialer(wsDialer, wsurl, m.Client.AuthToken) if err != nil { d := b.Duration() m.logger.Debugf("WSS: %s, reconnecting in %s", err, d) time.Sleep(d) continue } break } m.WsClient.Listen() m.lastPong = time.Now() m.logger.Debug("WsClient: connected") // only start to parse WS messages when login is completely done m.WsConnected = true } func (m *Client) doCheckAlive() error { if _, _, err := m.Client.GetMe(""); err != nil { return err } if m.reconnectBusy { return nil } if m.WsClient.ListenError == nil { m.WsClient.SendMessage("ping", nil) } else { m.logger.Errorf("got a listen error: %#v", m.WsClient.ListenError) return m.WsClient.ListenError } if time.Since(m.lastPong) > 90*time.Second { return errors.New("no pong received in 90 seconds") } return nil } func (m *Client) checkAlive(ctx context.Context) { ticker := time.NewTicker(time.Second * 45) for { select { case <-ctx.Done(): m.logger.Debugf("checkAlive: ctx.Done() triggered") return case <-ticker.C: // check if session still is valid err := m.doCheckAlive() if err != nil { m.logger.Errorf("connection not alive: %s", err) m.aliveChan <- false } m.aliveChan <- true } } } func (m *Client) checkConnection(ctx context.Context) { go m.checkAlive(ctx) for { select { case alive := <-m.aliveChan: if !alive { time.Sleep(time.Second * 10) if m.doCheckAlive() != nil { m.Reconnect() } } case <-ctx.Done(): m.logger.Debug("checkConnection: ctx.Done() triggered, exiting") return } } } // WsReceiver implements the core loop that manages the connection to the chat server. In // case of a disconnect it will try to reconnect. A call to this method is blocking until // the 'WsQuite' field of the MMClient object is set to 'true'. func (m *Client) WsReceiver(ctx context.Context) { m.logger.Debug("starting WsReceiver") ticker := time.NewTicker(time.Second * 10) for { select { case event := <-m.WsClient.EventChannel: if event == nil { return } if !event.IsValid() { continue } m.logger.Debugf("WsReceiver event: %#v", event) msg := &Message{ Raw: event, Team: m.Credentials.Team, } if !Matterircd { m.parseMessage(msg) } m.MessageChan <- msg case response := <-m.WsClient.ResponseChannel: if response == nil || !response.IsValid() { continue } m.logger.Debugf("WsReceiver response: %#v", response) if text, ok := response.Data["text"].(string); ok { if text == "pong" { m.lastPong = time.Now() } } m.parseResponse(response) case <-m.WsClient.PingTimeoutChannel: m.logger.Error("got a ping timeout") m.Reconnect() return case <-ticker.C: if m.WsClient.ListenError != nil { m.logger.Errorf("%#v", m.WsClient.ListenError) m.Reconnect() return } case <-ctx.Done(): m.logger.Debugf("wsReceiver: ctx.Done() triggered") return } } } // Logout disconnects the client from the chat server. func (m *Client) reconnectLogout() error { err := m.Logout() m.WsQuit = false if err != nil { return err } return nil } // Logout disconnects the client from the chat server. func (m *Client) Logout() error { m.logger.Debug("logout running loginCancel to exit goroutines") m.loginCancel() m.logger.Debugf("logout as %s (team: %s) on %s", m.Credentials.Login, m.Credentials.Team, m.Credentials.Server) m.WsQuit = true // close the websocket m.logger.Debug("closing websocket") m.WsClient.Close() if strings.Contains(m.Credentials.Pass, model.SessionCookieToken) { m.logger.Debug("Not invalidating session in logout, credential is a token") return nil } // actually log out m.logger.Debug("running m.Client.Logout") if _, err := m.Client.Logout(); err != nil { return err } m.logger.Debug("exiting Logout()") return nil } // SetLogLevel tries to parse the specified level and if successful sets // the log level accordingly. Accepted levels are: 'debug', 'info', 'warn', // 'error', 'fatal' and 'panic'. func (m *Client) SetLogLevel(level string) { l, err := logrus.ParseLevel(level) if err != nil { m.logger.Warnf("Failed to parse specified log-level '%s': %#v", level, err) } else { m.rootLogger.SetLevel(l) } } func (m *Client) HandleRatelimit(name string, resp *model.Response) error { if resp.StatusCode != 429 { return fmt.Errorf("StatusCode error: %d", resp.StatusCode) } waitTime, err := strconv.Atoi(resp.Header.Get("X-RateLimit-Reset")) if err != nil { return err } m.logger.Warnf("Ratelimited on %s for %d", name, waitTime) time.Sleep(time.Duration(waitTime) * time.Second) return nil } func (m *Client) antiIdle(ctx context.Context, channelID string, interval int) { if interval == 0 { interval = 60 } m.logger.Debugf("starting antiIdle for %s every %d secs", channelID, interval) ticker := time.NewTicker(time.Second * time.Duration(interval)) for { select { case <-ctx.Done(): m.logger.Debugf("antiIlde: ctx.Done() triggered, exiting for %s", channelID) return case <-ticker.C: m.logger.Tracef("antiIdle %s", channelID) m.UpdateLastViewed(channelID) } } }