func sendJabberNotification(ctx httputil.Context, u string, test entities.TestResult) (err error) { //exit early if we have no url if u == "" { return } //make sure we have configuration values if Config.Username == "" || Config.Domain == "" || Config.Password == "" { ctx.Errorf("Unable to send notification (%s): configuration not specified", test.ImportPath) return } ctx.Infof("Send jabber notification (%s): %s", test.ImportPath, u) //open a tcp connection to the jabber server netConn, err := net.Dial("tcp", "talk.google.com:5222") if err != nil { return } defer netConn.Close() //use that connection in the xmpp config and dial out config := &xmpp.Config{Conn: netConn} conn, err := xmpp.Dial("", Config.Username, Config.Domain, Config.Password, config) if err != nil { return } //send off the message message := fmt.Sprintf("%s @ %s status is now %s", test.ImportPath, test.Revision, test.Status) err = conn.Send(u, message) return }
func main() { flag.Parse() oldState, err := terminal.MakeRaw(0) if err != nil { panic(err.Error()) } defer terminal.Restore(0, oldState) term := terminal.NewTerminal(os.Stdin, "> ") if width, height, err := terminal.GetSize(0); err == nil { term.SetSize(width, height) } if len(*configFile) == 0 { homeDir := os.Getenv("HOME") if len(homeDir) == 0 { homeDir = "/" } *configFile = homeDir + "/.xmpp-client" } config, err := ParseConfig(*configFile) if err != nil { alert(term, "Failed to parse config file: "+err.Error()) config = new(Config) if !enroll(config, term) { return } config.filename = *configFile config.Save() } password := config.Password if len(password) == 0 { if password, err = term.ReadPassword(fmt.Sprintf("Password for %s (will not be saved to disk): ", config.Account)); err != nil { alert(term, "Failed to read password: "******"@", 2) if len(parts) != 2 { alert(term, "invalid username (want user@domain): "+config.Account) return } user := parts[0] domain := parts[1] var addr string if len(config.Server) > 0 && config.Port > 0 { addr = fmt.Sprintf("%s:%d", config.Server, config.Port) } else { if len(config.Proxies) > 0 { alert(term, "Cannot connect via a proxy without Server and Port being set in the config file as an SRV lookup would leak information.") return } host, port, err := xmpp.Resolve(domain) if err != nil { alert(term, "Failed to resolve XMPP server: "+err.Error()) return } addr = fmt.Sprintf("%s:%d", host, port) } var dialer proxy.Dialer for i := len(config.Proxies) - 1; i >= 0; i-- { u, err := url.Parse(config.Proxies[i]) if err != nil { alert(term, "Failed to parse "+config.Proxies[i]+" as a URL: "+err.Error()) return } if dialer == nil { dialer = proxy.Direct } if dialer, err = proxy.FromURL(u, dialer); err != nil { alert(term, "Failed to parse "+config.Proxies[i]+" as a proxy: "+err.Error()) return } } xmppConfig := &xmpp.Config{ Log: &lineLogger{term, nil}, Create: *createAccount, } if len(config.RawLogFile) > 0 { rawLog, err := os.OpenFile(config.RawLogFile, os.O_CREATE|os.O_WRONLY|os.O_APPEND, 0600) if err != nil { alert(term, "Failed to open raw log file: "+err.Error()) return } lock := new(sync.Mutex) in := rawLogger{ out: rawLog, prefix: []byte("<- "), lock: lock, } out := rawLogger{ out: rawLog, prefix: []byte("-> "), lock: lock, } in.other, out.other = &out, &in xmppConfig.InLog = &in xmppConfig.OutLog = &out defer in.flush() defer out.flush() } if dialer != nil { info(term, "Making connection to "+addr+" via proxy") if xmppConfig.Conn, err = dialer.Dial("tcp", addr); err != nil { alert(term, "Failed to connect via proxy: "+err.Error()) return } } conn, err := xmpp.Dial(addr, user, domain, password, xmppConfig) if err != nil { alert(term, "Failed to connect to XMPP server: "+err.Error()) return } s := Session{ account: config.Account, conn: conn, term: term, conversations: make(map[string]*otr.Conversation), knownStates: make(map[string]string), privateKey: new(otr.PrivateKey), config: config, pendingRosterChan: make(chan *rosterEdit), pendingSubscribes: make(map[string]string), lastActionTime: time.Now(), } info(term, "Fetching roster") //var rosterReply chan xmpp.Stanza rosterReply, _, err := s.conn.RequestRoster() if err != nil { alert(term, "Failed to request roster: "+err.Error()) return } conn.SignalPresence("") s.input = Input{ term: term, uidComplete: new(priorityList), } commandChan := make(chan interface{}) go s.input.ProcessCommands(commandChan) stanzaChan := make(chan xmpp.Stanza) go s.readMessages(stanzaChan) s.privateKey.Parse(config.PrivateKey) s.timeouts = make(map[xmpp.Cookie]time.Time) ticker := time.NewTicker(1 * time.Second) MainLoop: for { select { case now := <-ticker.C: haveExpired := false for _, expiry := range s.timeouts { if now.After(expiry) { haveExpired = true break } } if !haveExpired { continue } newTimeouts := make(map[xmpp.Cookie]time.Time) for cookie, expiry := range s.timeouts { if now.After(expiry) { s.conn.Cancel(cookie) } else { newTimeouts[cookie] = expiry } } s.timeouts = newTimeouts case edit := <-s.pendingRosterChan: if !edit.isComplete { info(s.term, "Please edit "+edit.fileName+" and run /rostereditdone when complete") s.pendingRosterEdit = edit continue } if s.processEditedRoster(edit) { s.pendingRosterEdit = nil } else { alert(s.term, "Please reedit file and run /rostereditdone again") } case rosterStanza, ok := <-rosterReply: if !ok { alert(s.term, "Failed to read roster: "+err.Error()) return } if s.roster, err = xmpp.ParseRoster(rosterStanza); err != nil { alert(s.term, "Failed to parse roster: "+err.Error()) return } for _, entry := range s.roster { s.input.AddUser(entry.Jid) } info(s.term, "Roster received") case cmd, ok := <-commandChan: if !ok { warn(term, "Exiting because command channel closed") break MainLoop } s.lastActionTime = time.Now() switch cmd := cmd.(type) { case quitCommand: break MainLoop case versionCommand: replyChan, cookie, err := s.conn.SendIQ(cmd.User, "get", xmpp.VersionQuery{}) if err != nil { alert(s.term, "Error sending version request: "+err.Error()) continue } s.timeouts[cookie] = time.Now().Add(5 * time.Second) go s.awaitVersionReply(replyChan, cmd.User) case rosterCommand: info(s.term, "Current roster:") maxLen := 0 for _, item := range s.roster { if maxLen < len(item.Jid) { maxLen = len(item.Jid) } } for _, item := range s.roster { line := " " line += item.Jid numSpaces := 1 + (maxLen - len(item.Jid)) for i := 0; i < numSpaces; i++ { line += " " } line += item.Subscription + "\t" + item.Name if state, ok := s.knownStates[item.Jid]; ok { line += "\t" + state } info(s.term, line) } case rosterEditCommand: if s.pendingRosterEdit != nil { warn(s.term, "Aborting previous roster edit") s.pendingRosterEdit = nil } rosterCopy := make([]xmpp.RosterEntry, len(s.roster)) copy(rosterCopy, s.roster) go s.editRoster(rosterCopy) case rosterEditDoneCommand: if s.pendingRosterEdit == nil { warn(s.term, "No roster edit in progress. Use /rosteredit to start one") continue } go s.loadEditedRoster(*s.pendingRosterEdit) case confirmCommand: s.handleConfirmOrDeny(cmd.User, true /* confirm */) case denyCommand: s.handleConfirmOrDeny(cmd.User, false /* deny */) case addCommand: s.conn.SendPresence(cmd.User, "subscribe", "" /* generate id */) case msgCommand: conversation, ok := s.conversations[cmd.to] var msgs [][]byte if ok { var err error msgs, err = conversation.Send([]byte(cmd.msg)) if err != nil { alert(s.term, err.Error()) break } } else { msgs = [][]byte{[]byte(cmd.msg)} } for _, msg := range msgs { s.conn.Send(cmd.to, string(msg)) } case otrCommand: s.conn.Send(string(cmd.User), string(otr.QueryMessage)) case authQACommand: to := string(cmd.User) conversation, ok := s.conversations[to] if !ok { alert(s.term, "Can't authenticate without a secure conversation established") break } msgs, err := conversation.Authenticate(cmd.Question, []byte(cmd.Secret)) if err != nil { alert(s.term, "Error while starting authentication with "+to+": "+err.Error()) } for _, msg := range msgs { s.conn.Send(to, string(msg)) } } case rawStanza, ok := <-stanzaChan: if !ok { warn(term, "Exiting because channel to server closed") break MainLoop } switch stanza := rawStanza.Value.(type) { case *xmpp.ClientMessage: s.processClientMessage(stanza) case *xmpp.ClientPresence: s.processPresence(stanza) case *xmpp.ClientIQ: if stanza.Type != "get" && stanza.Type != "set" { continue } reply := s.processIQ(stanza) if reply == nil { reply = xmpp.ErrorReply{ Type: "cancel", Error: xmpp.ErrorBadRequest{}, } } if err := s.conn.SendIQReply(stanza.From, "result", stanza.Id, reply); err != nil { alert(term, "Failed to send IQ message: "+err.Error()) } default: info(term, fmt.Sprintf("%s %s", rawStanza.Name, rawStanza.Value)) } } } os.Stdout.Write([]byte("\n")) }
func main() { flag.Parse() oldState, err := terminal.MakeRaw(0) if err != nil { panic(err.Error()) } defer terminal.Restore(0, oldState) term := terminal.NewTerminal(os.Stdin, "> ") updateTerminalSize(term) resizeChan := make(chan os.Signal) go func() { for _ = range resizeChan { updateTerminalSize(term) } }() signal.Notify(resizeChan, syscall.SIGWINCH) if len(*configFile) == 0 { homeDir := os.Getenv("HOME") if len(homeDir) == 0 { alert(term, "$HOME not set. Please either export $HOME or use the -config-file option.\n") return } persistentDir := filepath.Join(homeDir, "Persistent") if stat, err := os.Lstat(persistentDir); err == nil && stat.IsDir() { // Looks like Tails. homeDir = persistentDir } *configFile = filepath.Join(homeDir, ".xmpp-client") } config, err := ParseConfig(*configFile) if err != nil { alert(term, "Failed to parse config file: "+err.Error()) config = new(Config) if !enroll(config, term) { return } config.filename = *configFile config.Save() } password := config.Password if len(password) == 0 { if password, err = term.ReadPassword(fmt.Sprintf("Password for %s (will not be saved to disk): ", config.Account)); err != nil { alert(term, "Failed to read password: "******"@", 2) if len(parts) != 2 { alert(term, "invalid username (want user@domain): "+config.Account) return } user := parts[0] domain := parts[1] var addr string addrTrusted := false if len(config.Server) > 0 && config.Port > 0 { addr = fmt.Sprintf("%s:%d", config.Server, config.Port) addrTrusted = true } else { if len(config.Proxies) > 0 { alert(term, "Cannot connect via a proxy without Server and Port being set in the config file as an SRV lookup would leak information.") return } host, port, err := xmpp.Resolve(domain) if err != nil { alert(term, "Failed to resolve XMPP server: "+err.Error()) return } addr = fmt.Sprintf("%s:%d", host, port) } var dialer proxy.Dialer for i := len(config.Proxies) - 1; i >= 0; i-- { u, err := url.Parse(config.Proxies[i]) if err != nil { alert(term, "Failed to parse "+config.Proxies[i]+" as a URL: "+err.Error()) return } if dialer == nil { dialer = proxy.Direct } if dialer, err = proxy.FromURL(u, dialer); err != nil { alert(term, "Failed to parse "+config.Proxies[i]+" as a proxy: "+err.Error()) return } } var certSHA256 []byte if len(config.ServerCertificateSHA256) > 0 { certSHA256, err = hex.DecodeString(config.ServerCertificateSHA256) if err != nil { alert(term, "Failed to parse ServerCertificateSHA256 (should be hex string): "+err.Error()) return } if len(certSHA256) != 32 { alert(term, "ServerCertificateSHA256 is not 32 bytes long") return } } xmppConfig := &xmpp.Config{ Log: &lineLogger{term, nil}, Create: *createAccount, TrustedAddress: addrTrusted, Archive: false, ServerCertificateSHA256: certSHA256, } if len(config.RawLogFile) > 0 { rawLog, err := os.OpenFile(config.RawLogFile, os.O_CREATE|os.O_WRONLY|os.O_APPEND, 0600) if err != nil { alert(term, "Failed to open raw log file: "+err.Error()) return } lock := new(sync.Mutex) in := rawLogger{ out: rawLog, prefix: []byte("<- "), lock: lock, } out := rawLogger{ out: rawLog, prefix: []byte("-> "), lock: lock, } in.other, out.other = &out, &in xmppConfig.InLog = &in xmppConfig.OutLog = &out defer in.flush() defer out.flush() } if dialer != nil { info(term, "Making connection to "+addr+" via proxy") if xmppConfig.Conn, err = dialer.Dial("tcp", addr); err != nil { alert(term, "Failed to connect via proxy: "+err.Error()) return } } conn, err := xmpp.Dial(addr, user, domain, password, xmppConfig) if err != nil { alert(term, "Failed to connect to XMPP server: "+err.Error()) return } s := Session{ account: config.Account, conn: conn, term: term, conversations: make(map[string]*otr.Conversation), knownStates: make(map[string]string), privateKey: new(otr.PrivateKey), config: config, pendingRosterChan: make(chan *rosterEdit), pendingSubscribes: make(map[string]string), lastActionTime: time.Now(), } info(term, "Fetching roster") //var rosterReply chan xmpp.Stanza rosterReply, _, err := s.conn.RequestRoster() if err != nil { alert(term, "Failed to request roster: "+err.Error()) return } conn.SignalPresence("") s.input = Input{ term: term, uidComplete: new(priorityList), } commandChan := make(chan interface{}) go s.input.ProcessCommands(commandChan) stanzaChan := make(chan xmpp.Stanza) go s.readMessages(stanzaChan) s.privateKey.Parse(config.PrivateKey) s.timeouts = make(map[xmpp.Cookie]time.Time) info(term, fmt.Sprintf("Your fingerprint is %x", s.privateKey.Fingerprint())) ticker := time.NewTicker(1 * time.Second) MainLoop: for { select { case now := <-ticker.C: haveExpired := false for _, expiry := range s.timeouts { if now.After(expiry) { haveExpired = true break } } if !haveExpired { continue } newTimeouts := make(map[xmpp.Cookie]time.Time) for cookie, expiry := range s.timeouts { if now.After(expiry) { s.conn.Cancel(cookie) } else { newTimeouts[cookie] = expiry } } s.timeouts = newTimeouts case edit := <-s.pendingRosterChan: if !edit.isComplete { info(s.term, "Please edit "+edit.fileName+" and run /rostereditdone when complete") s.pendingRosterEdit = edit continue } if s.processEditedRoster(edit) { s.pendingRosterEdit = nil } else { alert(s.term, "Please reedit file and run /rostereditdone again") } case rosterStanza, ok := <-rosterReply: if !ok { alert(s.term, "Failed to read roster: "+err.Error()) return } if s.roster, err = xmpp.ParseRoster(rosterStanza); err != nil { alert(s.term, "Failed to parse roster: "+err.Error()) return } for _, entry := range s.roster { s.input.AddUser(entry.Jid) } info(s.term, "Roster received") case cmd, ok := <-commandChan: if !ok { warn(term, "Exiting because command channel closed") break MainLoop } s.lastActionTime = time.Now() switch cmd := cmd.(type) { case quitCommand: for to, conversation := range s.conversations { msgs := conversation.End() for _, msg := range msgs { s.conn.Send(to, string(msg)) } } break MainLoop case versionCommand: replyChan, cookie, err := s.conn.SendIQ(cmd.User, "get", xmpp.VersionQuery{}) if err != nil { alert(s.term, "Error sending version request: "+err.Error()) continue } s.timeouts[cookie] = time.Now().Add(5 * time.Second) go s.awaitVersionReply(replyChan, cmd.User) case rosterCommand: info(s.term, "Current roster:") maxLen := 0 for _, item := range s.roster { if maxLen < len(item.Jid) { maxLen = len(item.Jid) } } for _, item := range s.roster { state, ok := s.knownStates[item.Jid] line := "" if ok { line += "[*] " } else if cmd.OnlineOnly { continue } else { line += "[ ] " } line += item.Jid numSpaces := 1 + (maxLen - len(item.Jid)) for i := 0; i < numSpaces; i++ { line += " " } line += item.Subscription + "\t" + item.Name if ok { line += "\t" + state } info(s.term, line) } case rosterEditCommand: if s.pendingRosterEdit != nil { warn(s.term, "Aborting previous roster edit") s.pendingRosterEdit = nil } rosterCopy := make([]xmpp.RosterEntry, len(s.roster)) copy(rosterCopy, s.roster) go s.editRoster(rosterCopy) case rosterEditDoneCommand: if s.pendingRosterEdit == nil { warn(s.term, "No roster edit in progress. Use /rosteredit to start one") continue } go s.loadEditedRoster(*s.pendingRosterEdit) case toggleStatusUpdatesCommand: s.config.HideStatusUpdates = !s.config.HideStatusUpdates s.config.Save() // Tell the user the current state of the statuses if s.config.HideStatusUpdates { info(s.term, "Status updated disabled") } else { info(s.term, "Status updates enabled") } case confirmCommand: s.handleConfirmOrDeny(cmd.User, true /* confirm */) case denyCommand: s.handleConfirmOrDeny(cmd.User, false /* deny */) case addCommand: s.conn.SendPresence(cmd.User, "subscribe", "" /* generate id */) case msgCommand: conversation, ok := s.conversations[cmd.to] if (!ok || !conversation.IsEncrypted()) && config.ShouldEncryptTo(cmd.to) { warn(s.term, fmt.Sprintf("Did not send: no encryption established with %s", cmd.to)) continue } var msgs [][]byte message := []byte(cmd.msg) // Automatically tag all outgoing plaintext // messages with a whitespace tag that // indicates that we support OTR. if config.OTRAutoAppendTag && !bytes.Contains(message, []byte("?OTR")) && (!ok || !conversation.IsEncrypted()) { message = append(message, OTRWhitespaceTag...) } if ok { var err error msgs, err = conversation.Send(message) if err != nil { alert(s.term, err.Error()) break } } else { msgs = [][]byte{[]byte(message)} } for _, message := range msgs { s.conn.Send(cmd.to, string(message)) } case otrCommand: s.conn.Send(string(cmd.User), otr.QueryMessage) case otrInfoCommand: info(term, fmt.Sprintf("Your OTR fingerprint is %x", s.privateKey.Fingerprint())) for to, conversation := range s.conversations { if conversation.IsEncrypted() { info(s.term, fmt.Sprintf("Secure session with %s underway:", to)) printConversationInfo(s, to, conversation) } } case endOTRCommand: to := string(cmd.User) conversation, ok := s.conversations[to] if !ok { alert(s.term, "No secure session established") break } msgs := conversation.End() for _, msg := range msgs { s.conn.Send(to, string(msg)) } case authQACommand: to := string(cmd.User) conversation, ok := s.conversations[to] if !ok { alert(s.term, "Can't authenticate without a secure conversation established") break } msgs, err := conversation.Authenticate(cmd.Question, []byte(cmd.Secret)) if err != nil { alert(s.term, "Error while starting authentication with "+to+": "+err.Error()) } for _, msg := range msgs { s.conn.Send(to, string(msg)) } case authOobCommand: fpr, err := hex.DecodeString(cmd.Fingerprint) if err != nil { alert(s.term, fmt.Sprintf("Invalid fingerprint %s - not authenticated", cmd.Fingerprint)) break } existing := s.config.UserIdForFingerprint(fpr) if len(existing) != 0 { alert(s.term, fmt.Sprintf("Fingerprint %s already belongs to %s", cmd.Fingerprint, existing)) break } s.config.KnownFingerprints = append(s.config.KnownFingerprints, KnownFingerprint{fingerprint: fpr, UserId: cmd.User}) s.config.Save() info(s.term, fmt.Sprintf("Saved manually verified fingerprint %s for %s", cmd.Fingerprint, cmd.User)) case awayCommand: s.conn.SignalPresence("away") case chatCommand: s.conn.SignalPresence("chat") case dndCommand: s.conn.SignalPresence("dnd") case xaCommand: s.conn.SignalPresence("xa") case onlineCommand: s.conn.SignalPresence("") } case rawStanza, ok := <-stanzaChan: if !ok { warn(term, "Exiting because channel to server closed") break MainLoop } switch stanza := rawStanza.Value.(type) { case *xmpp.ClientMessage: s.processClientMessage(stanza) case *xmpp.ClientPresence: s.processPresence(stanza) case *xmpp.ClientIQ: if stanza.Type != "get" && stanza.Type != "set" { continue } reply := s.processIQ(stanza) if reply == nil { reply = xmpp.ErrorReply{ Type: "cancel", Error: xmpp.ErrorBadRequest{}, } } if err := s.conn.SendIQReply(stanza.From, "result", stanza.Id, reply); err != nil { alert(term, "Failed to send IQ message: "+err.Error()) } default: info(term, fmt.Sprintf("%s %s", rawStanza.Name, rawStanza.Value)) } } } os.Stdout.Write([]byte("\n")) }
func Echo(ws *websocket.Conn) { fmt.Println("socket open") var recMes message err := websocket.JSON.Receive(ws, &recMes) if err != nil { fmt.Println("Can't receive message") } if recMes.Type != "login" { fmt.Println("not login message") return } userName := strings.Split(recMes.Data["UserName"], "@") if len(userName) < 2 { userName = []string{userName[0], ""} } xmppConfig := xmpp.Config{nil, nil, nil, nil, false, false, false, []byte("")} talk, err := xmpp.Dial(recMes.Data["Server"], userName[0], userName[1], recMes.Data["Password"], &xmppConfig) if err != nil { fmt.Println("login error") return } senMes := message{"login", nil} if err := websocket.JSON.Send(ws, senMes); err != nil { fmt.Println("Can't send") return } fmt.Println("Ready") rosterReply, _, err := talk.RequestRoster() if err != nil { fmt.Println("Can't roster") } talk.SignalPresence("") ses := session{ talk: talk, ws: ws, } stanzaChan := make(chan xmpp.Stanza) go ses.receiveMessage(stanzaChan) webSocketChan := make(chan string) go ses.receiveWebSocket(webSocketChan) for { select { case rosterStanza, ok := <-rosterReply: var roster []xmpp.RosterEntry if !ok { fmt.Println("fail to read roaster") return } if roster, err = xmpp.ParseRoster(rosterStanza); err != nil { fmt.Println("fail to parse roaster") return } if err := websocket.JSON.Send(ws, rosterMessage{"roster", roster}); err != nil { fmt.Println("Can't send") return } fmt.Println("Roster information sent to the client") case rawStanza, ok := <-stanzaChan: if !ok { fmt.Println("stanzaChan receive failed") return } switch stanza := rawStanza.Value.(type) { case *xmpp.ClientMessage: fmt.Println("Message comming") if stanza.Body == "" { break } chatMes := message{"chat", map[string]string{"Remote": xmpp.RemoveResourceFromJid(stanza.From), "Text": stanza.Body}} if err := websocket.JSON.Send(ws, chatMes); err != nil { fmt.Println("Can't send") break } case *xmpp.ClientPresence: fmt.Println("ClientPresence comming") fmt.Println(stanza.From, stanza.Type) var status string if len(stanza.Show) > 0 { status = stanza.Show } else { status = "available" } preMes := message{"presence", map[string]string{"Remote": xmpp.RemoveResourceFromJid(stanza.From), "Mode": status}} if err := websocket.JSON.Send(ws, preMes); err != nil { fmt.Println("Can't send") return } } case receivedMessage, ok := <-webSocketChan: if !ok { fmt.Println("webSocketChan receive failed") return } var sendMes message if err = json.Unmarshal([]byte(receivedMessage), &sendMes); err != nil { fmt.Println("Can't receive") } else { if err = talk.Send(sendMes.Data["Remote"], sendMes.Data["Text"]); err != nil { fmt.Println("failed to send") } fmt.Println("Message sent" + sendMes.Data["Remote"] + sendMes.Data["Text"]) } } } fmt.Println("function ends") }