// hkexsh client // // Copyright (c) 2017-2018 Russell Magee // Licensed under the terms of the MIT license (see LICENSE.mit in this // distribution) // // golang implementation by Russ Magee (rmagee_at_gmail.com) package main import ( "bytes" "encoding/binary" "errors" "flag" "fmt" "io" "io/ioutil" "log" "net" "os" "os/exec" "os/user" "path" "path/filepath" "runtime" "strings" "sync" "syscall" "time" hkexsh "blitter.com/go/hkexsh" "blitter.com/go/hkexsh/hkexnet" "blitter.com/go/hkexsh/logger" "blitter.com/go/hkexsh/spinsult" isatty "github.com/mattn/go-isatty" ) var ( wg sync.WaitGroup // Log defaults to regular syslog output (no -d) Log *logger.Writer ) //////////////////////////////////////////////////// const Bob = string("\r\n\r\n" + "@@@@@@@^^~~~~~~~~~~~~~~~~~~~~^@@@@@@@@@\r\n" + "@@@@@@^ ~^ @ @@ @ @ @ I ~^@@@@@@\r\n" + "@@@@@ ~ ~~ ~I @@@@@\r\n" + "@@@@' ' _,w@< @@@@\r\n" + "@@@@ @@@@@@@@w___,w@@@@@@@@ @ @@@\r\n" + "@@@@ @@@@@@@@@@@@@@@@@@@@@@ I @@@\r\n" + "@@@@ @@@@@@@@@@@@@@@@@@@@*@[ i @@@\r\n" + "@@@@ @@@@@@@@@@@@@@@@@@@@[][ | ]@@@\r\n" + "@@@@ ~_,,_ ~@@@@@@@~ ____~ @ @@@\r\n" + "@@@@ _~ , , `@@@~ _ _`@ ]L J@@@\r\n" + "@@@@ , @@w@ww+ @@@ww``,,@w@ ][ @@@@\r\n" + "@@@@, @@@@www@@@ @@@@@@@ww@@@@@[ @@@@\r\n" + "@@@@@_|| @@@@@@P' @@P@@@@@@@@@@@[|c@@@@\r\n" + "@@@@@@w| '@@P~ P]@@@-~, ~Y@@^'],@@@@@@\r\n" + "@@@@@@@[ _ _J@@Tk ]]@@@@@@\r\n" + "@@@@@@@@,@ @@, c,,,,,,,y ,w@@[ ,@@@@@@@\r\n" + "@@@@@@@@@ i @w ====--_@@@@@ @@@@@@@@\r\n" + "@@@@@@@@@@`,P~ _ ~^^^^Y@@@@@ @@@@@@@@@\r\n" + "@@@@^^=^@@^ ^' ,ww,w@@@@@ _@@@@@@@@@@\r\n" + "@@@_xJ~ ~ , @@@@@@@P~_@@@@@@@@@@@@\r\n" + "@@ @, ,@@@,_____ _,J@@@@@@@@@@@@@\r\n" + "@@L `' ,@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@\r\n" + "@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@\r\n" + "\r\n") type ( EscHandler func(io.Writer) EscSeqs map[byte]EscHandler ) // Copy copies from src to dst until either EOF is reached // on src or an error occurs. It returns the number of bytes // copied and the first error encountered while copying, if any. // // A successful Copy returns err == nil, not err == EOF. // Because Copy is defined to read from src until EOF, it does // not treat an EOF from Read as an error to be reported. // // If src implements the WriterTo interface, // the copy is implemented by calling src.WriteTo(dst). // Otherwise, if dst implements the ReaderFrom interface, // the copy is implemented by calling dst.ReadFrom(src). func Copy(dst io.Writer, src io.Reader) (written int64, err error) { written, err = copyBuffer(dst, src, nil) return } // copyBuffer is the actual implementation of Copy and CopyBuffer. // if buf is nil, one is allocated. func copyBuffer(dst io.Writer, src io.Reader, buf []byte) (written int64, err error) { // NOTE: using dst.Write() in these esc funcs will cause the output // to function as a 'macro', outputting as if user typed the sequence. // // Using os.Stdout outputs to the client's term w/o it or the server // 'seeing' the output. // // TODO: Devise a way to signal to main client thread that // a goroutine should be spawned to do long-lived tasks for // some esc sequences (eg., a time ticker in the corner of terminal, // or tunnel traffic indicator - note we cannot just spawn a goroutine // here, as copyBuffer() returns after each burst of data. Scope must // outlive individual copyBuffer calls). // (Note that since this custom copyBuffer func is used only by // the hkexsh client, it should eventually be moved to client.) escs := EscSeqs{ 'i': func(io.Writer) { os.Stdout.Write([]byte("\x1b[s\x1b[2;1H\x1b[1;31m[HKEXSH]\x1b[39;49m\x1b[u")) }, 't': func(io.Writer) { os.Stdout.Write([]byte("\x1b[1;32m[HKEXSH]\x1b[39;49m")) }, 'B': func(io.Writer) { os.Stdout.Write([]byte("\x1b[1;32m" + Bob + "\x1b[39;49m")) }, } /* // If the reader has a WriteTo method, use it to do the copy. // Avoids an allocation and a copy. if wt, ok := src.(io.WriterTo); ok { return wt.WriteTo(dst) } // Similarly, if the writer has a ReadFrom method, use it to do the copy. if rt, ok := dst.(io.ReaderFrom); ok { return rt.ReadFrom(src) } */ if buf == nil { size := 32 * 1024 if l, ok := src.(*io.LimitedReader); ok && int64(size) > l.N { if l.N < 1 { size = 1 } else { size = int(l.N) } } buf = make([]byte, size) } var seqPos int for { nr, er := src.Read(buf) if nr > 0 { // Look for sequences to trigger client-side diags // A repeat of 4 keys (conveniently 'dead' chars for most // interactive shells; here CTRL-]) shall introduce // some special responses or actions on the client side. if seqPos < 4 { if buf[0] == 0x1d { seqPos++ } } else /* seqPos > 0 */ { if v, ok := escs[buf[0]]; ok { v(dst) nr-- buf = buf[1:] } seqPos = 0 } nw, ew := dst.Write(buf[0:nr]) if nw > 0 { written += int64(nw) } if ew != nil { err = ew break } if nr != nw { err = io.ErrShortWrite break } } if er != nil { if er != io.EOF { err = er } break } } //_,_ = dst.Write([]byte{0x2f}) return written, err } //////////////////////////////////////////////////// // GetSize gets the terminal size using 'stty' command func GetSize() (cols, rows int, err error) { cmd := exec.Command("stty", "size") // #nosec cmd.Stdin = os.Stdin out, err := cmd.Output() if err != nil { log.Println(err) cols, rows = 80, 24 //failsafe } else { n, err := fmt.Sscanf(string(out), "%d %d\n", &rows, &cols) if n < 2 || rows < 0 || cols < 0 || rows > 9000 || cols > 9000 || err != nil { log.Printf("GetSize error: rows:%d cols:%d; %v\n", rows, cols, err) } } return } // doCopyMode begins a secure hkexsh local<->remote file copy operation. // TODO: reduce gocyclo func doCopyMode(conn *hkexnet.Conn, remoteDest bool, files string, rec *hkexsh.Session) (exitStatus uint32, err error) { if remoteDest { log.Println("local files:", files, "remote filepath:", string(rec.Cmd())) var c *exec.Cmd //os.Clearenv() //os.Setenv("HOME", u.HomeDir) //os.Setenv("TERM", "vt102") // TODO: server or client option? cmdName := "/bin/tar" cmdArgs := []string{"-cz", "-f", "/dev/stdout"} files = strings.TrimSpace(files) // Awesome fact: tar actually can take multiple -C args, and // changes to the dest dir *as it sees each one*. This enables // its use below, where clients can send scattered sets of source // files and dirs to be extracted to a single dest dir server-side, // whilst preserving the subtrees of dirs on the other side. // Eg., tar -c -f /dev/stdout -C /dirA fileInA -C /some/where/dirB fileInB /foo/dirC // packages fileInA, fileInB, and dirC at a single toplevel in the tar. // The tar authors are/were real smarties :) // // This is the 'scatter/gather' logic to allow specification of // files and dirs in different trees to be deposited in a single // remote destDir. for _, v := range strings.Split(files, " ") { v, _ = filepath.Abs(v) // #nosec dirTmp, fileTmp := path.Split(v) if dirTmp == "" { cmdArgs = append(cmdArgs, fileTmp) } else { cmdArgs = append(cmdArgs, "-C", dirTmp, fileTmp) } } log.Printf("[%v %v]\n", cmdName, cmdArgs) // NOTE the lack of quotes around --xform option's sed expression. // When args are passed in exec() format, no quoting is required // (as this isn't input from a shell) (right? -rlm 20180823) //cmdArgs := []string{"-xvz", "-C", files, `--xform=s#.*/\(.*\)#\1#`} c = exec.Command(cmdName, cmdArgs...) // #nosec c.Dir, _ = os.Getwd() // #nosec log.Println("[wd:", c.Dir, "]") c.Stdout = conn stdErrBuffer := new(bytes.Buffer) c.Stderr = stdErrBuffer // Start the command (no pty) err = c.Start() // returns immediately ///////////// // NOTE: There is, apparently, a bug in Go stdlib here. Start() // can actually return immediately, on a command which *does* // start but exits quickly, with c.Wait() error // "c.Wait status: exec: not started". // As in this example, attempting a client->server copy to // a nonexistent remote dir (it's tar exiting right away, exitStatus // 2, stderr // /bin/tar -xz -C /home/someuser/nosuchdir // stderr: fork/exec /bin/tar: no such file or directory // // In this case, c.Wait() won't give us the real // exit status (is it lost?). ///////////// if err != nil { fmt.Println("cmd exited immediately. Cannot get cmd.Wait().ExitStatus()") err = errors.New("cmd exited prematurely") exitStatus = uint32(2) } else { if err = c.Wait(); err != nil { if exiterr, ok := err.(*exec.ExitError); ok { // The program has exited with an exit code != 0 // This works on both Unix and Windows. Although package // syscall is generally platform dependent, WaitStatus is // defined for both Unix and Windows and in both cases has // an ExitStatus() method with the same signature. if status, ok := exiterr.Sys().(syscall.WaitStatus); ok { exitStatus = uint32(status.ExitStatus()) fmt.Print(stdErrBuffer) fmt.Printf("Exit Status: %d\n", exitStatus) //# } } } // send CSOExitStatus to inform remote (server) end cp is done log.Println("Sending local exitStatus:", exitStatus) r := make([]byte, 4) binary.BigEndian.PutUint32(r, exitStatus) _, we := conn.WritePacket(r, hkexnet.CSOExitStatus) if we != nil { fmt.Println("Error:", we) } // Do a final read for remote's exit status s := make([]byte, 4) _, remErr := conn.Read(s) if remErr != io.EOF && !strings.Contains(remErr.Error(), "use of closed network") && !strings.Contains(remErr.Error(), "connection reset by peer") { fmt.Printf("*** remote status Read() failed: %v\n", remErr) } else { conn.SetStatus(0) // cp finished OK } // If local side status was OK, use remote side's status if exitStatus == 0 { exitStatus = uint32(conn.GetStatus()) log.Println("Received remote exitStatus:", exitStatus) } log.Printf("*** client->server cp finished , status %d ***\n", conn.GetStatus()) } } else { log.Println("remote filepath:", string(rec.Cmd()), "local files:", files) var c *exec.Cmd //os.Clearenv() //os.Setenv("HOME", u.HomeDir) //os.Setenv("TERM", "vt102") // TODO: server or client option? cmdName := "/bin/tar" destPath := files cmdArgs := []string{"-xz", "-C", destPath} log.Printf("[%v %v]\n", cmdName, cmdArgs) // NOTE the lack of quotes around --xform option's sed expression. // When args are passed in exec() format, no quoting is required // (as this isn't input from a shell) (right? -rlm 20180823) //cmdArgs := []string{"-xvz", "-C", destPath, `--xform=s#.*/\(.*\)#\1#`} c = exec.Command(cmdName, cmdArgs...) // #nosec c.Stdin = conn c.Stdout = os.Stdout c.Stderr = os.Stderr // Start the command (no pty) err = c.Start() // returns immediately if err != nil { fmt.Println(err) //log.Fatal(err) } else { if err = c.Wait(); err != nil { if exiterr, ok := err.(*exec.ExitError); ok { // The program has exited with an exit code != 0 // This works on both Unix and Windows. Although package // syscall is generally platform dependent, WaitStatus is // defined for both Unix and Windows and in both cases has // an ExitStatus() method with the same signature. if status, ok := exiterr.Sys().(syscall.WaitStatus); ok { exitStatus = uint32(status.ExitStatus()) log.Printf("Exit Status: %d", exitStatus) } } } // return local status, if nonzero; // otherwise, return remote status if nonzero if exitStatus == 0 { exitStatus = uint32(conn.GetStatus()) } log.Printf("*** server->client cp finished, status %d ***\n", conn.GetStatus()) } } return } // doShellMode begins an hkexsh shell session (one-shot command or interactive). func doShellMode(isInteractive bool, conn *hkexnet.Conn, oldState *hkexsh.State, rec *hkexsh.Session) { //client reader (from server) goroutine //Read remote end's stdout wg.Add(1) // #gv:s/label=\"doShellMode\$1\"/label=\"shellRemoteToStdin\"/ // TODO:.gv:doShellMode:1:shellRemoteToStdin shellRemoteToStdin := func() { defer func() { wg.Done() }() // By deferring a call to wg.Done(), // each goroutine guarantees that it marks // its direction's stream as finished. // pkg io/Copy expects EOF so normally this will // exit with inerr == nil _, inerr := io.Copy(os.Stdout, conn) if inerr != nil { _ = hkexsh.Restore(int(os.Stdin.Fd()), oldState) // #nosec // Copy operations and user logging off will cause // a "use of closed network connection" so handle that // gracefully here if !strings.HasSuffix(inerr.Error(), "use of closed network connection") { log.Println(inerr) os.Exit(1) } } rec.SetStatus(uint32(conn.GetStatus())) log.Println("rec.status:", rec.Status()) if isInteractive { log.Println("[* Got EOF *]") _ = hkexsh.Restore(int(os.Stdin.Fd()), oldState) // #nosec os.Exit(int(rec.Status())) } } go shellRemoteToStdin() // Only look for data from stdin to send to remote end // for interactive sessions. if isInteractive { handleTermResizes(conn) // client writer (to server) goroutine // Write local stdin to remote end wg.Add(1) // #gv:s/label=\"doShellMode\$2\"/label=\"shellStdinToRemote\"/ // TODO:.gv:doShellMode:2:shellStdinToRemote shellStdinToRemote := func() { defer wg.Done() //!defer wg.Done() _, outerr := func(conn *hkexnet.Conn, r io.Reader) (w int64, e error) { // Copy() expects EOF so this will // exit with outerr == nil w, e = Copy(conn, r) return w, e }(conn, os.Stdin) if outerr != nil { log.Println(outerr) fmt.Println(outerr) _ = hkexsh.Restore(int(os.Stdin.Fd()), oldState) // #nosec log.Println("[Hanging up]") os.Exit(0) } } go shellStdinToRemote() } // Wait until both stdin and stdout goroutines finish before returning // (ensure client gets all data from server before closing) wg.Wait() } func usageShell() { fmt.Fprintf(os.Stderr, "Usage of %s:\n", os.Args[0]) // nolint: errcheck fmt.Fprintf(os.Stderr, "%s [opts] [user]@server\n", os.Args[0]) // nolint: errcheck flag.PrintDefaults() } func usageCp() { fmt.Fprintf(os.Stderr, "Usage of %s:\n", os.Args[0]) // nolint: errcheck fmt.Fprintf(os.Stderr, "%s [opts] srcFileOrDir [...] [user]@server[:dstpath]\n", os.Args[0]) // nolint: errcheck fmt.Fprintf(os.Stderr, "%s [opts] [user]@server[:srcFileOrDir] dstPath\n", os.Args[0]) // nolint: errcheck flag.PrintDefaults() } func rejectUserMsg() string { return "Begone, " + spinsult.GetSentence() + "\r\n" } // Transmit request to server for it to set up the remote end of a tunnel // // Server responds with [CSOTunAck:rport] or [CSOTunRefused:rport] // (handled in hkexnet.Read()) func reqTunnel(hc *hkexnet.Conn, lp uint16, p string /*net.Addr*/, rp uint16) { // Write request to server so it can attempt to set up its end var bTmp bytes.Buffer if e := binary.Write(&bTmp, binary.BigEndian, lp); e != nil { fmt.Fprintln(os.Stderr, "reqTunnel:", e) // nolint: errcheck } if e := binary.Write(&bTmp, binary.BigEndian, rp); e != nil { fmt.Fprintln(os.Stderr, "reqTunnel:", e) // nolint: errcheck } _ = logger.LogDebug(fmt.Sprintln("[Client sending CSOTunSetup]")) // nolint: gosec if n, e := hc.WritePacket(bTmp.Bytes(), hkexnet.CSOTunSetup); e != nil || n != len(bTmp.Bytes()) { fmt.Fprintln(os.Stderr, "reqTunnel:", e) // nolint: errcheck } } func parseNonSwitchArgs(a []string) (user, host, path string, isDest bool, otherArgs []string) { // Whether fancyArg is src or dst file depends on flag.Args() index; // fancyArg as last flag.Args() element denotes dstFile // fancyArg as not-last flag.Args() element denotes srcFile var fancyUser, fancyHost, fancyPath string for i, arg := range a { if strings.Contains(arg, ":") || strings.Contains(arg, "@") { fancyArg := strings.Split(flag.Arg(i), "@") var fancyHostPath []string if len(fancyArg) < 2 { //TODO: no user specified, use current fancyUser = "[default:getUser]" fancyHostPath = strings.Split(fancyArg[0], ":") } else { // user@.... fancyUser = fancyArg[0] fancyHostPath = strings.Split(fancyArg[1], ":") } // [...@]host[:path] if len(fancyHostPath) > 1 { fancyPath = fancyHostPath[1] } fancyHost = fancyHostPath[0] //if fancyPath == "" { // fancyPath = "." //} if i == len(a)-1 { isDest = true //fmt.Println("remote path isDest") } //fmt.Println("fancyArgs: user:", fancyUser, "host:", fancyHost, "path:", fancyPath) } else { otherArgs = append(otherArgs, a[i]) } } return fancyUser, fancyHost, fancyPath, isDest, otherArgs } func launchTuns(conn *hkexnet.Conn, remoteHost string, tuns string) { remAddrs, _ := net.LookupHost(remoteHost) // nolint: gosec if tuns == "" { return } tunSpecs := strings.Split(tuns, ",") for _, tunItem := range tunSpecs { var lPort, rPort uint16 _, _ = fmt.Sscanf(tunItem, "%d:%d", &lPort, &rPort) // nolint: gosec reqTunnel(conn, lPort, remAddrs[0], rPort) } } func sendSessionParams(conn io.Writer /* *hkexnet.Conn*/, rec *hkexsh.Session) (e error) { _, e = fmt.Fprintf(conn, "%d %d %d %d %d %d\n", len(rec.Op()), len(rec.Who()), len(rec.ConnHost()), len(rec.TermType()), len(rec.Cmd()), len(rec.AuthCookie(true))) if e != nil { return } _, e = conn.Write(rec.Op()) if e != nil { return } _, e = conn.Write(rec.Who()) if e != nil { return } _, e = conn.Write(rec.ConnHost()) if e != nil { return } _, e = conn.Write(rec.TermType()) if e != nil { return } _, e = conn.Write(rec.Cmd()) if e != nil { return } _, e = conn.Write(rec.AuthCookie(true)) return e } // hkexsh - a client for secure shell and file copy operations. // // While conforming to the basic net.Conn interface HKex.Conn has extra // capabilities designed to allow apps to define connection options, // encryption/hmac settings and operations across the encrypted channel. // // Initial setup is the same as using plain net.Dial(), but one may // specify extra extension tags (strings) to set the cipher and hmac // setting desired; as well as the intended operation mode for the // connection (app-specific, passed through to the server to use or // ignore at its discretion). // TODO: reduce gocyclo func main() { version := hkexsh.Version var vopt bool var gopt bool //login via password, asking server to generate authToken var dbg bool var shellMode bool // if true act as shell, else file copier var cipherAlg string //cipher alg var hmacAlg string //hmac alg var kexAlg string //KEX/KEM alg var server string var port uint var cmdStr string var tunSpecStr string // lport1:rport1[,lport2:rport2,...] var copySrc []byte var copyDst string var authCookie string var chaffEnabled bool var chaffFreqMin uint var chaffFreqMax uint var chaffBytesMax uint var op []byte isInteractive := false flag.BoolVar(&vopt, "v", false, "show version") flag.BoolVar(&dbg, "d", false, "debug logging") flag.StringVar(&cipherAlg, "c", "C_AES_256", "`cipher` [\"C_AES_256\" | \"C_TWOFISH_128\" | \"C_BLOWFISH_64\" | \"C_CRYPTMT1\"]") flag.StringVar(&hmacAlg, "m", "H_SHA256", "`hmac` [\"H_SHA256\"]") flag.StringVar(&kexAlg, "k", "KEX_HERRADURA256", "`kex` [\"KEX_HERRADURA{256/512/1024/2048}\" | \"KEX_KYBER{512/768/1024}\"]") flag.UintVar(&port, "p", 2000, "`port`") //flag.StringVar(&authCookie, "a", "", "auth cookie") flag.BoolVar(&chaffEnabled, "e", true, "enabled chaff pkts (default true)") flag.UintVar(&chaffFreqMin, "f", 100, "`msecs-min` chaff pkt freq min (msecs)") flag.UintVar(&chaffFreqMax, "F", 5000, "`msecs-max` chaff pkt freq max (msecs)") flag.UintVar(&chaffBytesMax, "B", 64, "chaff pkt size max (bytes)") // Find out what program we are (shell or copier) myPath := strings.Split(os.Args[0], string(os.PathSeparator)) if myPath[len(myPath)-1] != "hkexcp" && myPath[len(myPath)-1] != "hkexcp.exe" { // hkexsh accepts a command (-x) but not // a srcpath (-r) or dstpath (-t) flag.StringVar(&cmdStr, "x", "", "`command` to run (if not specified run interactive shell)") flag.StringVar(&tunSpecStr, "T", "", "`tunnelspec` localPort:remotePort[,localPort:remotePort,...]") flag.BoolVar(&gopt, "g", false, "ask server to generate authtoken") shellMode = true flag.Usage = usageShell } else { flag.Usage = usageCp } flag.Parse() remoteUser, remoteHost, tmpPath, pathIsDest, otherArgs := parseNonSwitchArgs(flag.Args()) //fmt.Println("otherArgs:", otherArgs) // Set defaults if user doesn't specify user, path or port var uname string if remoteUser == "" { u, _ := user.Current() // nolint: gosec uname = u.Username } else { uname = remoteUser } if remoteHost != "" { server = remoteHost + ":" + fmt.Sprintf("%d", port) } if tmpPath == "" { tmpPath = "." } var fileArgs string if !shellMode /*&& tmpPath != ""*/ { // -if pathIsSrc && len(otherArgs) > 1 ERROR // -else flatten otherArgs into space-delim list => copySrc if pathIsDest { if len(otherArgs) == 0 { log.Fatal("ERROR: Must specify at least one dest path for copy") } else { for _, v := range otherArgs { copySrc = append(copySrc, ' ') copySrc = append(copySrc, v...) } copyDst = tmpPath fileArgs = string(copySrc) } } else { if len(otherArgs) == 0 { log.Fatal("ERROR: Must specify src path for copy") } else if len(otherArgs) == 1 { copyDst = otherArgs[0] if strings.Contains(copyDst, "*") || strings.Contains(copyDst, "?") { log.Fatal("ERROR: wildcards not allowed in dest path for copy") } } else { log.Fatal("ERROR: cannot specify more than one dest path for copy") } copySrc = []byte(tmpPath) fileArgs = copyDst } } // Do some more option consistency checks //fmt.Println("server finally is:", server) if flag.NFlag() == 0 && server == "" { flag.Usage() os.Exit(0) } if vopt { fmt.Printf("version v%s\n", version) os.Exit(0) } if len(cmdStr) != 0 && (len(copySrc) != 0 || len(copyDst) != 0) { log.Fatal("incompatible options -- either cmd (-x) or copy ops but not both") } //------------------------------------------------------------------- // Here we have parsed all options and can now carry out // either the shell session or copy operation. _ = shellMode Log, _ = logger.New(logger.LOG_USER|logger.LOG_DEBUG|logger.LOG_NOTICE|logger.LOG_ERR, "hkexsh") // nolint: errcheck,gosec hkexnet.Init(dbg, "hkexsh", logger.LOG_USER|logger.LOG_DEBUG|logger.LOG_NOTICE|logger.LOG_ERR) if dbg { log.SetOutput(Log) } else { log.SetOutput(ioutil.Discard) } if !gopt { // See if we can log in via an auth token u, _ := user.Current() // nolint: gosec ab, aerr := ioutil.ReadFile(fmt.Sprintf("%s/.hkexsh_id", u.HomeDir)) if aerr == nil { idx := strings.Index(string(ab), remoteHost) if idx >= 0 { ab = ab[idx:] entries := strings.SplitN(string(ab), "\n", -1) authCookie = strings.TrimSpace(entries[0]) // Security scrub ab = nil runtime.GC() } else { _, _ = fmt.Fprintln(os.Stderr, "[no authtoken, use -g to request one from server]") } } else { log.Printf("[cannot read %s/.hkexsh_id]\n", u.HomeDir) } } if shellMode { // We must make the decision about interactivity before Dial() // as it affects chaffing behaviour. 20180805 if gopt { fmt.Fprintln(os.Stderr, "[requesting authtoken from server]") // nolint: errcheck op = []byte{'A'} chaffFreqMin = 2 chaffFreqMax = 10 } else if len(cmdStr) == 0 { op = []byte{'s'} isInteractive = true } else { op = []byte{'c'} // non-interactive cmds may complete quickly, so chaff earlier/faster // to help ensure there's some cover to the brief traffic. // (ignoring cmdline values) chaffFreqMin = 2 chaffFreqMax = 10 } } else { // as copy mode is also non-interactive, set up chaffing // just like the 'c' mode above chaffFreqMin = 2 chaffFreqMax = 10 if pathIsDest { // client->server file copy // src file list is in copySrc op = []byte{'D'} //fmt.Println("client->server copy:", string(copySrc), "->", copyDst) cmdStr = copyDst } else { // server->client file copy // remote src file(s) in copyDsr op = []byte{'S'} //fmt.Println("server->client copy:", string(copySrc), "->", copyDst) cmdStr = string(copySrc) } } conn, err := hkexnet.Dial("tcp", server, cipherAlg, hmacAlg, kexAlg) if err != nil { fmt.Println(err) panic(err) } defer conn.Close() // nolint: errcheck // From this point on, conn is a secure encrypted channel // Set stdin in raw mode if it's an interactive session // TODO: send flag to server side indicating this // affects shell command used var oldState *hkexsh.State if shellMode { if isatty.IsTerminal(os.Stdin.Fd()) { oldState, err = hkexsh.MakeRaw(int(os.Stdin.Fd())) if err != nil { panic(err) } // #gv:s/label=\"main\$1\"/label=\"deferRestore\"/ // TODO:.gv:main:1:deferRestore defer func() { _ = hkexsh.Restore(int(os.Stdin.Fd()), oldState) }() // nolint: errcheck,gosec } else { log.Println("NOT A TTY") } } if len(authCookie) == 0 { //No auth token, prompt for password fmt.Printf("Gimme cookie:") ab, e := hkexsh.ReadPassword(int(os.Stdin.Fd())) fmt.Printf("\r\n") if e != nil { panic(e) } authCookie = string(ab) } // Security scrub runtime.GC() // Set up session params and send over to server rec := hkexsh.NewSession(op, []byte(uname), []byte(remoteHost), []byte(os.Getenv("TERM")), []byte(cmdStr), []byte(authCookie), 0) sendErr := sendSessionParams(&conn, rec) if sendErr != nil { log.Fatal(sendErr) } //Security scrub authCookie = "" // nolint: ineffassign runtime.GC() // Read auth reply from server authReply := make([]byte, 1) // bool: 0 = fail, 1 = pass _, err = conn.Read(authReply) if err != nil { fmt.Fprintln(os.Stderr, "Error reading auth reply") // nolint: errcheck rec.SetStatus(255) } else if authReply[0] == 0 { fmt.Fprintln(os.Stderr, rejectUserMsg()) // nolint: errcheck rec.SetStatus(255) } else { // Set up chaffing to server conn.SetupChaff(chaffFreqMin, chaffFreqMax, chaffBytesMax) // enable client->server chaffing if chaffEnabled { // #gv:s/label=\"main\$2\"/label=\"deferCloseChaff\"/ // TODO:.gv:main:2:deferCloseChaff conn.EnableChaff() // goroutine, returns immediately defer conn.DisableChaff() defer conn.ShutdownChaff() } // Keepalive for any tunnels that may exist // #gv:s/label=\"main\$1\"/label=\"tunKeepAlive\"/ // TODO:.gv:main:1:tunKeepAlive keepAliveWorker := func() { for { time.Sleep(time.Duration(2) * time.Second) conn.WritePacket([]byte{0, 0}, hkexnet.CSOTunKeepAlive) // nolint: errcheck,gosec } } go keepAliveWorker() if shellMode { launchTuns(&conn, remoteHost, tunSpecStr) doShellMode(isInteractive, &conn, oldState, rec) } else { // copyMode s, _ := doCopyMode(&conn, pathIsDest, fileArgs, rec) // nolint: errcheck,gosec rec.SetStatus(s) } if rec.Status() != 0 { _ = hkexsh.Restore(int(os.Stdin.Fd()), oldState) // nolint: errcheck,gosec fmt.Fprintln(os.Stderr, "Session exited with status:", rec.Status()) // nolint: errcheck } } if oldState != nil { _ = hkexsh.Restore(int(os.Stdin.Fd()), oldState) // nolint: gosec } os.Exit(int(rec.Status())) }