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package gterm
import (
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"bytes"
_ "embed"
"encoding/json"
"fmt"
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"net/http"
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"os"
"os/exec"
"strings"
"time"
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"github.com/creack/pty"
"github.com/gorilla/websocket"
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"kumoly.io/lib/klog"
"kumoly.io/lib/ksrv"
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"kumoly.io/lib/ksrv/engine"
"kumoly.io/tools/gterm/public"
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)
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//go:embed public/index.html
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var index string
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//go:embed profile
var BashProfile string
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var tmpl * engine . Engine
var servePublic = http . FileServer ( http . FS ( public . FS ) )
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var pool map [ string ] chan struct { }
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func init ( ) {
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tmpl = engine . Must ( engine . New ( "" ) . Parse ( index ) )
pool = map [ string ] chan struct { } { }
}
type GTerm struct {
AppName string
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// 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
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// Dir working dir
Dir string
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// 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
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}
func New ( ) * GTerm {
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// 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
// }
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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 )
}
} ( )
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return & GTerm {
AppName : "GTERM" ,
Cmd : "bash" ,
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Envs : append ( os . Environ ( ) , "TERM=xterm-256color" ) ,
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Timeout : 20 * time . Second ,
ErrorLimit : 10 ,
BufferSize : 512 ,
}
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}
func ( g * GTerm ) ServeHTTP ( w http . ResponseWriter , r * http . Request ) {
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if strings . HasPrefix ( r . URL . String ( ) , "/ws" ) {
g . WS ( w , r )
} else {
g . App ( w , r )
}
}
type App struct {
AppName string
}
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func ( g * GTerm ) App ( w http . ResponseWriter , r * http . Request ) {
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if r . URL . Path == "/" {
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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 )
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}
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func ( g * GTerm ) WS ( w http . ResponseWriter , r * http . Request ) {
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id := fmt . Sprintf ( "[%02d] %s" , ctr ( ) , ksrv . GetIP ( r ) )
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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
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if g . Dir != "" && g . Dir != "." {
cmd . Dir = g . Dir
}
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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
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waiter := make ( chan struct { } , 1 )
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// 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..." )
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waiter <- struct { } { }
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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 {
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waiter <- struct { } { }
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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 )
}
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waiter <- struct { } { }
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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"
}
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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 ) )
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// 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
}
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l . DebugF ( klog . H { "rows" : ttySize . Rows , "columns" : ttySize . Cols } , "resizing tty..." )
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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..." )
}
} ( )
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<- waiter
close ( waiter )
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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" `
}