package gterm import ( "bytes" _ "embed" "encoding/json" "fmt" "net/http" "os" "os/exec" "strings" "time" "github.com/creack/pty" "github.com/gorilla/websocket" "kumoly.io/lib/klog" "kumoly.io/lib/ksrv" "kumoly.io/lib/ksrv/engine" "kumoly.io/tools/gterm/public" ) //go:embed public/index.html var index string var tmpl *engine.Engine var servePublic = http.FileServer(http.FS(public.FS)) var pool map[string]chan struct{} func init() { tmpl = engine.Must(engine.New("").Parse(index)) pool = map[string]chan struct{}{} } type GTerm struct { AppName string // Arguments is a list of strings to pass as arguments to the specified Command Args []string // Command is the path to the binary we should create a TTY for Cmd string // Envs env pairs to pass to the command Envs []string // ErrorLimit defines the number of consecutive errors that can happen // before a connection is considered unusable ErrorLimit int // Timeout defines the maximum duration between which a ping and pong // cycle should be tolerated, beyond this the connection should be deemed dead Timeout time.Duration BufferSize int } func New() *GTerm { // if g.Cmd == "" { // g.Cmd = "bash" // } // if len(g.Envs) == 0 { // g.Envs = os.Environ() // } // if g.Timeout < time.Second { // g.Timeout = 20 * time.Second // } // if g.ErrorLimit == 0 { // g.ErrorLimit = 10 // } // if g.BufferSize == 0 { // g.BufferSize = 512 // } go func() { //print pool log := klog.Sub("gterm") for { cons := []string{} for k := range pool { cons = append(cons, k) } log.Info("current connections: ", cons) time.Sleep(5 * time.Minute) } }() return >erm{ AppName: "GTERM", Cmd: "bash", Envs: append(os.Environ(), "TERM=xterm-256color"), Timeout: 20 * time.Second, ErrorLimit: 10, BufferSize: 512, } } func (g *GTerm) ServeHTTP(w http.ResponseWriter, r *http.Request) { if strings.HasPrefix(r.URL.String(), "/ws") { g.WS(w, r) } else { g.App(w, r) } } type App struct { AppName string } func (g *GTerm) App(w http.ResponseWriter, r *http.Request) { if r.URL.Path == "/" { tmpl.Execute(w, App{g.AppName}) return } file, err := public.FS.Open(strings.TrimPrefix(r.URL.String(), "/")) if err != nil { // tmpl.Execute(w, App{g.AppName}) http.NotFound(w, r) return } stat, err := file.Stat() if err != nil || stat.IsDir() { // tmpl.Execute(w, App{g.AppName}) http.NotFound(w, r) return } servePublic.ServeHTTP(w, r) } func (g *GTerm) WS(w http.ResponseWriter, r *http.Request) { id := fmt.Sprintf("[%02d] %s", ctr(), ksrv.GetIP(r)) pool[id] = make(chan struct{}, 1) defer func() { close(pool[id]) delete(pool, id) }() l := klog.Sub(id) l.Info("connection established.") upgrader := websocket.Upgrader{ HandshakeTimeout: 0, ReadBufferSize: g.BufferSize, WriteBufferSize: g.BufferSize, } conn, err := upgrader.Upgrade(w, r, nil) if err != nil { l.Error(err) return } cmd := exec.Command(g.Cmd, g.Args...) cmd.Env = g.Envs tty, err := pty.Start(cmd) if err != nil { l.Error(err) conn.WriteMessage(websocket.TextMessage, []byte(err.Error())) } defer func() { if err := cmd.Process.Kill(); err != nil { l.Error(err) } if _, err := cmd.Process.Wait(); err != nil { l.Error(err) } if err := tty.Close(); err != nil { l.Error(err) } if err := conn.Close(); err != nil { l.Error(err) } }() var connectionClosed bool waiter := make(chan struct{}, 1) // this is a keep-alive loop that ensures connection does not hang-up itself lastPongTime := time.Now() conn.SetPongHandler(func(msg string) error { lastPongTime = time.Now() return nil }) go func() { for { if err := conn.WriteMessage(websocket.PingMessage, []byte("keepalive")); err != nil { l.Warn("failed to write ping message") return } time.Sleep(g.Timeout / 2) if time.Since(lastPongTime) > g.Timeout { l.Warn("failed to get response from ping, triggering disconnect now...") waiter <- struct{}{} return } l.Debug("received response from ping successfully") } }() // tty >> xterm.js go func() { errorCounter := 0 for { // consider the connection closed/errored out so that the socket handler // can be terminated - this frees up memory so the service doesn't get // overloaded if errorCounter > g.ErrorLimit { waiter <- struct{}{} break } buffer := make([]byte, g.BufferSize) readLength, err := tty.Read(buffer) if err != nil { l.Warn("failed to read from tty: ", err) if err := conn.WriteMessage(websocket.TextMessage, []byte("bye!")); err != nil { l.Warn("failed to send termination message from tty to xterm.js: ", err) } waiter <- struct{}{} return } if err := conn.WriteMessage(websocket.BinaryMessage, buffer[:readLength]); err != nil { l.Warn("failed to send ", readLength, " bytes from tty to xterm.js") errorCounter++ continue } l.Debug("sent message of size ", readLength, " bytes from tty to xterm.js") errorCounter = 0 } }() // tty << xterm.js go func() { for { // data processing messageType, data, err := conn.ReadMessage() if err != nil { if !connectionClosed { l.Warn("failed to get next reader: ", err) } return } dataLength := len(data) dataBuffer := bytes.Trim(data, "\x00") dataType, ok := WebsocketMessageType[messageType] if !ok { dataType = "uunknown" } l.Debug(fmt.Sprintf("received %s (type: %v) message of size %v byte(s) from xterm.js with key sequence: %v", dataType, messageType, dataLength, dataBuffer)) // process if dataLength == -1 { // invalid l.Warn("failed to get the correct number of bytes read, ignoring message") continue } // handle resizing if messageType == websocket.BinaryMessage { if dataBuffer[0] == 1 { ttySize := &TTYSize{} resizeMessage := bytes.Trim(dataBuffer[1:], " \n\r\t\x00\x01") if err := json.Unmarshal(resizeMessage, ttySize); err != nil { l.Warn(fmt.Sprintf("failed to unmarshal received resize message '%s': %s", string(resizeMessage), err)) continue } l.DebugF(klog.H{"rows": ttySize.Rows, "columns": ttySize.Cols}, "resizing tty...") if err := pty.Setsize(tty, &pty.Winsize{ Rows: ttySize.Rows, Cols: ttySize.Cols, }); err != nil { l.Warn("failed to resize tty, error: ", err) } continue } } // write to tty bytesWritten, err := tty.Write(dataBuffer) if err != nil { l.Warn(fmt.Sprintf("failed to write %v bytes to tty: %s", len(dataBuffer), err)) continue } l.Debug(bytesWritten, " bytes written to tty...") } }() <-waiter close(waiter) l.Info("closing connection...") connectionClosed = true } var WebsocketMessageType = map[int]string{ websocket.BinaryMessage: "binary", websocket.TextMessage: "text", websocket.CloseMessage: "close", websocket.PingMessage: "ping", websocket.PongMessage: "pong", } // TTYSize represents a JSON structure to be sent by the frontend // xterm.js implementation to the xterm.js websocket handler type TTYSize struct { Cols uint16 `json:"cols"` Rows uint16 `json:"rows"` X uint16 `json:"x"` Y uint16 `json:"y"` }