package kbchat import ( "bufio" "encoding/json" "errors" "fmt" "io" "io/ioutil" "os" "os/exec" "runtime" "sync" "time" "github.com/keybase/go-keybase-chat-bot/kbchat/types/chat1" "github.com/keybase/go-keybase-chat-bot/kbchat/types/keybase1" "github.com/keybase/go-keybase-chat-bot/kbchat/types/stellar1" ) // SubscriptionMessage contains a message and conversation object type SubscriptionMessage struct { Message chat1.MsgSummary Conversation chat1.ConvSummary } type SubscriptionConversation struct { Conversation chat1.ConvSummary } type SubscriptionWalletEvent struct { Payment stellar1.PaymentDetailsLocal } // Subscription has methods to control the background message fetcher loop type Subscription struct { *DebugOutput sync.Mutex newMsgsCh chan SubscriptionMessage newConvsCh chan SubscriptionConversation newWalletCh chan SubscriptionWalletEvent errorCh chan error running bool shutdownCh chan struct{} } func NewSubscription() *Subscription { newMsgsCh := make(chan SubscriptionMessage, 100) newConvsCh := make(chan SubscriptionConversation, 100) newWalletCh := make(chan SubscriptionWalletEvent, 100) errorCh := make(chan error, 100) shutdownCh := make(chan struct{}) return &Subscription{ DebugOutput: NewDebugOutput("Subscription"), newMsgsCh: newMsgsCh, newConvsCh: newConvsCh, newWalletCh: newWalletCh, shutdownCh: shutdownCh, errorCh: errorCh, running: true, } } // Read blocks until a new message arrives func (m *Subscription) Read() (msg SubscriptionMessage, err error) { defer m.Trace(&err, "Read")() select { case msg = <-m.newMsgsCh: return msg, nil case err = <-m.errorCh: return SubscriptionMessage{}, err case <-m.shutdownCh: return SubscriptionMessage{}, errors.New("Subscription shutdown") } } func (m *Subscription) ReadNewConvs() (conv SubscriptionConversation, err error) { defer m.Trace(&err, "ReadNewConvs")() select { case conv = <-m.newConvsCh: return conv, nil case err = <-m.errorCh: return SubscriptionConversation{}, err case <-m.shutdownCh: return SubscriptionConversation{}, errors.New("Subscription shutdown") } } // Read blocks until a new message arrives func (m *Subscription) ReadWallet() (msg SubscriptionWalletEvent, err error) { defer m.Trace(&err, "ReadWallet")() select { case msg = <-m.newWalletCh: return msg, nil case err = <-m.errorCh: return SubscriptionWalletEvent{}, err case <-m.shutdownCh: return SubscriptionWalletEvent{}, errors.New("Subscription shutdown") } } // Shutdown terminates the background process func (m *Subscription) Shutdown() { defer m.Trace(nil, "Shutdown")() m.Lock() defer m.Unlock() if m.running { close(m.shutdownCh) m.running = false } } type ListenOptions struct { Wallet bool Convs bool } type PaymentHolder struct { Payment stellar1.PaymentDetailsLocal `json:"notification"` } type TypeHolder struct { Type string `json:"type"` } type OneshotOptions struct { Username string PaperKey string } type RunOptions struct { KeybaseLocation string HomeDir string Oneshot *OneshotOptions StartService bool // Have the bot send/receive typing notifications EnableTyping bool // Disable bot lite mode DisableBotLiteMode bool } func (r RunOptions) Location() string { if r.KeybaseLocation == "" { return "keybase" } return r.KeybaseLocation } func (r RunOptions) Command(args ...string) *exec.Cmd { var cmd []string if r.HomeDir != "" { cmd = append(cmd, "--home", r.HomeDir) } cmd = append(cmd, args...) return exec.Command(r.Location(), cmd...) } // Start fires up the Keybase JSON API in stdin/stdout mode func Start(runOpts RunOptions, opts ...func(*API)) (*API, error) { api := NewAPI(runOpts, opts...) if err := api.startPipes(); err != nil { return nil, err } return api, nil } // API is the main object used for communicating with the Keybase JSON API type API struct { sync.Mutex *DebugOutput apiInput io.Writer apiOutput *bufio.Reader apiCmd *exec.Cmd username string runOpts RunOptions subscriptions []*Subscription Timeout time.Duration LogSendBytes int } func CustomTimeout(timeout time.Duration) func(*API) { return func(a *API) { a.Timeout = timeout } } func NewAPI(runOpts RunOptions, opts ...func(*API)) *API { api := &API{ DebugOutput: NewDebugOutput("API"), runOpts: runOpts, Timeout: 5 * time.Second, LogSendBytes: 1024 * 1024 * 5, // request 5MB so we don't get killed } for _, opt := range opts { opt(api) } return api } func (a *API) Command(args ...string) *exec.Cmd { return a.runOpts.Command(args...) } func (a *API) getUsername(runOpts RunOptions) (username string, err error) { p := runOpts.Command("whoami", "-json") output, err := p.StdoutPipe() if err != nil { return "", err } if runtime.GOOS != "windows" { p.ExtraFiles = []*os.File{output.(*os.File)} } if err = p.Start(); err != nil { return "", err } doneCh := make(chan error) go func() { defer func() { close(doneCh) }() statusJSON, err := ioutil.ReadAll(output) if err != nil { doneCh <- fmt.Errorf("error reading whoami output: %v", err) return } var status keybase1.CurrentStatus if err := json.Unmarshal(statusJSON, &status); err != nil { doneCh <- fmt.Errorf("invalid whoami JSON %q: %v", statusJSON, err) return } if status.LoggedIn && status.User != nil { username = status.User.Username doneCh <- nil } else { doneCh <- fmt.Errorf("unable to authenticate to keybase service: logged in: %v user: %+v", status.LoggedIn, status.User) } // Cleanup the command if err := p.Wait(); err != nil { a.Debug("unable to wait for cmd: %v", err) } }() select { case err = <-doneCh: if err != nil { return "", err } case <-time.After(a.Timeout): return "", errors.New("unable to run Keybase command") } return username, nil } func (a *API) auth() (string, error) { username, err := a.getUsername(a.runOpts) if err == nil { return username, nil } if a.runOpts.Oneshot == nil { return "", err } username = "" // If a paper key is specified, then login with oneshot mode (logout first) if a.runOpts.Oneshot != nil { if username == a.runOpts.Oneshot.Username { // just get out if we are on the desired user already return username, nil } if err := a.runOpts.Command("logout", "-f").Run(); err != nil { return "", err } if err := a.runOpts.Command("oneshot", "--username", a.runOpts.Oneshot.Username, "--paperkey", a.runOpts.Oneshot.PaperKey).Run(); err != nil { return "", err } username = a.runOpts.Oneshot.Username return username, nil } return "", errors.New("unable to auth") } func (a *API) startPipes() (err error) { a.Lock() defer a.Unlock() if a.apiCmd != nil { if err := a.apiCmd.Process.Kill(); err != nil { return fmt.Errorf("unable to kill previous API command %v", err) } } a.apiCmd = nil if a.runOpts.StartService { args := []string{fmt.Sprintf("-enable-bot-lite-mode=%v", a.runOpts.DisableBotLiteMode), "service"} if err := a.runOpts.Command(args...).Start(); err != nil { return fmt.Errorf("unable to start service %v", err) } } if a.username, err = a.auth(); err != nil { return fmt.Errorf("unable to auth: %v", err) } cmd := a.runOpts.Command("chat", "notification-settings", fmt.Sprintf("-disable-typing=%v", !a.runOpts.EnableTyping)) if err = cmd.Run(); err != nil { // This is a performance optimization but isn't a fatal error. a.Debug("unable to set notifiation settings %v", err) } a.apiCmd = a.runOpts.Command("chat", "api") if a.apiInput, err = a.apiCmd.StdinPipe(); err != nil { return fmt.Errorf("unable to get api stdin: %v", err) } output, err := a.apiCmd.StdoutPipe() if err != nil { return fmt.Errorf("unable to get api stdout: %v", err) } if runtime.GOOS != "windows" { a.apiCmd.ExtraFiles = []*os.File{output.(*os.File)} } if err := a.apiCmd.Start(); err != nil { return fmt.Errorf("unable to run chat api cmd: %v", err) } a.apiOutput = bufio.NewReader(output) return nil } func (a *API) getAPIPipesLocked() (io.Writer, *bufio.Reader, error) { // this should only be called inside a lock if a.apiCmd == nil { return nil, nil, errAPIDisconnected } return a.apiInput, a.apiOutput, nil } func (a *API) GetUsername() string { return a.username } func (a *API) doSend(arg interface{}) (resp SendResponse, err error) { a.Lock() defer a.Unlock() bArg, err := json.Marshal(arg) if err != nil { return SendResponse{}, fmt.Errorf("unable to send arg: %+v: %v", arg, err) } input, output, err := a.getAPIPipesLocked() if err != nil { return SendResponse{}, err } if _, err := io.WriteString(input, string(bArg)); err != nil { return SendResponse{}, err } responseRaw, err := output.ReadBytes('\n') if err != nil { return SendResponse{}, err } if err := json.Unmarshal(responseRaw, &resp); err != nil { return resp, fmt.Errorf("failed to decode API response: %v %v", responseRaw, err) } else if resp.Error != nil { return resp, errors.New(resp.Error.Message) } return resp, nil } func (a *API) doFetch(apiInput string) ([]byte, error) { a.Lock() defer a.Unlock() input, output, err := a.getAPIPipesLocked() if err != nil { return nil, err } if _, err := io.WriteString(input, apiInput); err != nil { return nil, err } byteOutput, err := output.ReadBytes('\n') if err != nil { return nil, err } return byteOutput, nil } // ListenForNewTextMessages proxies to Listen without wallet events func (a *API) ListenForNewTextMessages() (*Subscription, error) { opts := ListenOptions{Wallet: false} return a.Listen(opts) } func (a *API) registerSubscription(sub *Subscription) { a.Lock() defer a.Unlock() a.subscriptions = append(a.subscriptions, sub) } // Listen fires of a background loop and puts chat messages and wallet // events into channels func (a *API) Listen(opts ListenOptions) (*Subscription, error) { done := make(chan struct{}) sub := NewSubscription() a.registerSubscription(sub) pause := 2 * time.Second readScanner := func(boutput *bufio.Scanner) { defer func() { done <- struct{}{} }() for { select { case <-sub.shutdownCh: a.Debug("readScanner: received shutdown") return default: } boutput.Scan() t := boutput.Text() var typeHolder TypeHolder if err := json.Unmarshal([]byte(t), &typeHolder); err != nil { sub.errorCh <- fmt.Errorf("err: %v, data: %v", err, t) break } switch typeHolder.Type { case "chat": var notification chat1.MsgNotification if err := json.Unmarshal([]byte(t), ¬ification); err != nil { sub.errorCh <- fmt.Errorf("err: %v, data: %v", err, t) break } if notification.Error != nil { a.Debug("error message received: %s", *notification.Error) } else if notification.Msg != nil { subscriptionMessage := SubscriptionMessage{ Message: *notification.Msg, Conversation: chat1.ConvSummary{ Id: notification.Msg.ConvID, Channel: notification.Msg.Channel, }, } sub.newMsgsCh <- subscriptionMessage } case "chat_conv": var notification chat1.ConvNotification if err := json.Unmarshal([]byte(t), ¬ification); err != nil { sub.errorCh <- fmt.Errorf("err: %v, data: %v", err, t) break } if notification.Error != nil { a.Debug("error message received: %s", *notification.Error) } else if notification.Conv != nil { subscriptionConv := SubscriptionConversation{ Conversation: *notification.Conv, } sub.newConvsCh <- subscriptionConv } case "wallet": var holder PaymentHolder if err := json.Unmarshal([]byte(t), &holder); err != nil { sub.errorCh <- fmt.Errorf("err: %v, data: %v", err, t) break } subscriptionPayment := SubscriptionWalletEvent(holder) sub.newWalletCh <- subscriptionPayment default: continue } } } attempts := 0 maxAttempts := 30 go func() { defer func() { close(sub.newMsgsCh) close(sub.newConvsCh) close(sub.newWalletCh) close(sub.errorCh) }() for { select { case <-sub.shutdownCh: a.Debug("Listen: received shutdown") return default: } if attempts >= maxAttempts { if err := a.LogSend("Listen: failed to auth, giving up"); err != nil { a.Debug("Listen: logsend failed to send: %v", err) } panic("Listen: failed to auth, giving up") } attempts++ if _, err := a.auth(); err != nil { a.Debug("Listen: failed to auth: %s", err) time.Sleep(pause) continue } cmdElements := []string{"chat", "api-listen"} if opts.Wallet { cmdElements = append(cmdElements, "--wallet") } if opts.Convs { cmdElements = append(cmdElements, "--convs") } p := a.runOpts.Command(cmdElements...) output, err := p.StdoutPipe() if err != nil { a.Debug("Listen: failed to listen: %s", err) time.Sleep(pause) continue } stderr, err := p.StderrPipe() if err != nil { a.Debug("Listen: failed to listen to stderr: %s", err) time.Sleep(pause) continue } if runtime.GOOS != "windows" { p.ExtraFiles = []*os.File{stderr.(*os.File), output.(*os.File)} } boutput := bufio.NewScanner(output) if err := p.Start(); err != nil { a.Debug("Listen: failed to make listen scanner: %s", err) time.Sleep(pause) continue } attempts = 0 go readScanner(boutput) select { case <-sub.shutdownCh: a.Debug("Listen: received shutdown") return case <-done: } if err := p.Wait(); err != nil { stderrBytes, rerr := ioutil.ReadAll(stderr) if rerr != nil { stderrBytes = []byte(fmt.Sprintf("failed to get stderr: %v", rerr)) } a.Debug("Listen: failed to Wait for command, restarting pipes: %s (```%s```)", err, stderrBytes) if err := a.startPipes(); err != nil { a.Debug("Listen: failed to restart pipes: %v", err) } } time.Sleep(pause) } }() return sub, nil } func (a *API) LogSend(feedback string) error { feedback = "go-keybase-chat-bot log send\n" + "username: " + a.GetUsername() + "\n" + feedback args := []string{ "log", "send", "--no-confirm", "--feedback", feedback, "-n", fmt.Sprintf("%d", a.LogSendBytes), } return a.runOpts.Command(args...).Run() } func (a *API) Shutdown() (err error) { defer a.Trace(&err, "Shutdown")() a.Lock() defer a.Unlock() for _, sub := range a.subscriptions { sub.Shutdown() } if a.apiCmd != nil { a.Debug("waiting for API command") if err := a.apiCmd.Wait(); err != nil { return err } } if a.runOpts.Oneshot != nil { a.Debug("logging out") err := a.runOpts.Command("logout", "--force").Run() if err != nil { return err } } if a.runOpts.StartService { a.Debug("stopping service") err := a.runOpts.Command("ctl", "stop", "--shutdown").Run() if err != nil { return err } } return nil }