xs/hkexshd/hkexshd.go

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// hkexshd server
//
// 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)
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package main
import (
"flag"
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"fmt"
"io"
"io/ioutil"
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"log"
"os"
"os/exec"
"os/user"
"path"
"runtime"
"strings"
"sync"
"syscall"
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"blitter.com/go/goutmp"
hkexsh "blitter.com/go/hkexsh"
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"blitter.com/go/hkexsh/hkexnet"
"blitter.com/go/hkexsh/spinsult"
"github.com/kr/pty"
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)
type cmdSpec struct {
op []byte
who []byte
cmd []byte
authCookie []byte
status int
}
/* -------------------------------------------------------------- */
// Perform a client->server copy
func runClientToServerCopyAs(who string, conn hkexnet.Conn, fpath string, chaffing bool) (err error, exitStatus int) {
u, _ := user.Lookup(who)
var uid, gid uint32
fmt.Sscanf(u.Uid, "%d", &uid)
fmt.Sscanf(u.Gid, "%d", &gid)
log.Println("uid:", uid, "gid:", gid)
// Need to clear server's env and set key vars of the
// target user. This isn't perfect (TERM doesn't seem to
// work 100%; ANSI/xterm colour isn't working even
// if we set "xterm" or "ansi" here; and line count
// reported by 'stty -a' defaults to 24 regardless
// of client shell window used to run client.
// Investigate -- rlm 2018-01-26)
os.Clearenv()
os.Setenv("HOME", u.HomeDir)
os.Setenv("TERM", "vt102") // TODO: server or client option?
var c *exec.Cmd
cmdName := "/bin/tar"
var destDir string
if path.IsAbs(fpath) {
destDir = fpath
} else {
destDir = path.Join(u.HomeDir, fpath)
}
cmdArgs := []string{"-x", "-C", destDir}
// 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{"-x", "-C", destDir, `--xform=s#.*/\(.*\)#\1#`}
c = exec.Command(cmdName, cmdArgs...)
c.Dir = destDir
//If os.Clearenv() isn't called by server above these will be seen in the
//client's session env.
//c.Env = []string{"HOME=" + u.HomeDir, "SUDO_GID=", "SUDO_UID=", "SUDO_USER=", "SUDO_COMMAND=", "MAIL=", "LOGNAME="+who}
//c.Dir = u.HomeDir
c.SysProcAttr = &syscall.SysProcAttr{}
c.SysProcAttr.Credential = &syscall.Credential{Uid: uid, Gid: gid}
c.Stdin = conn
c.Stdout = os.Stdout
c.Stderr = os.Stderr
if chaffing {
conn.EnableChaff()
}
defer conn.DisableChaff()
defer conn.ShutdownChaff()
// Start the command (no pty)
log.Printf("[%v %v]\n", cmdName, cmdArgs)
err = c.Start() // returns immediately
if err != nil {
log.Printf("Command finished with error: %v", err)
return err, 253 // !?
} else {
if err := c.Wait(); err != nil {
fmt.Println("*** c.Wait() done ***")
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 = status.ExitStatus()
log.Printf("Exit Status: %d", exitStatus)
}
}
}
fmt.Println("*** client->server cp finished ***")
return
}
}
// Perform a server->client copy
func runServerToClientCopyAs(who string, conn hkexnet.Conn, srcPath string, chaffing bool) (err error, exitStatus int) {
u, _ := user.Lookup(who)
var uid, gid uint32
fmt.Sscanf(u.Uid, "%d", &uid)
fmt.Sscanf(u.Gid, "%d", &gid)
log.Println("uid:", uid, "gid:", gid)
// Need to clear server's env and set key vars of the
// target user. This isn't perfect (TERM doesn't seem to
// work 100%; ANSI/xterm colour isn't working even
// if we set "xterm" or "ansi" here; and line count
// reported by 'stty -a' defaults to 24 regardless
// of client shell window used to run client.
// Investigate -- rlm 2018-01-26)
os.Clearenv()
os.Setenv("HOME", u.HomeDir)
os.Setenv("TERM", "vt102") // TODO: server or client option?
var c *exec.Cmd
cmdName := "/bin/tar"
if !path.IsAbs(srcPath) {
srcPath = fmt.Sprintf("%s%c%s", u.HomeDir, os.PathSeparator, srcPath)
}
srcDir, srcBase := path.Split(srcPath)
cmdArgs := []string{"-c", "-C", srcDir, "-f", "-", srcBase}
c = exec.Command(cmdName, cmdArgs...)
//If os.Clearenv() isn't called by server above these will be seen in the
//client's session env.
//c.Env = []string{"HOME=" + u.HomeDir, "SUDO_GID=", "SUDO_UID=", "SUDO_USER=", "SUDO_COMMAND=", "MAIL=", "LOGNAME="+who}
c.Dir = u.HomeDir
c.SysProcAttr = &syscall.SysProcAttr{}
c.SysProcAttr.Credential = &syscall.Credential{Uid: uid, Gid: gid}
c.Stdout = conn
// Stderr sinkholing is important. Any extraneous output to tarpipe
// messes up remote side as it's expecting pure tar data.
// (For example, if user specifies abs paths, tar outputs
// "Removing leading '/' from path names")
c.Stderr = nil
if chaffing {
conn.EnableChaff()
}
//defer conn.Close()
defer conn.DisableChaff()
defer conn.ShutdownChaff()
// Start the command (no pty)
log.Printf("[%v %v]\n", cmdName, cmdArgs)
err = c.Start() // returns immediately
if err != nil {
log.Printf("Command finished with error: %v", err)
return err, 253 // !?
} else {
if err := c.Wait(); err != nil {
fmt.Println("*** c.Wait() done ***")
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 = status.ExitStatus()
log.Printf("Exit Status: %d", exitStatus)
}
}
}
fmt.Println("*** server->client cp finished ***")
return
}
}
// Run a command (via default shell) as a specific user
//
// Uses ptys to support commands which expect a terminal.
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func runShellAs(who string, cmd string, interactive bool, conn hkexnet.Conn, chaffing bool) (err error, exitStatus int) {
var wg sync.WaitGroup
u, _ := user.Lookup(who)
var uid, gid uint32
fmt.Sscanf(u.Uid, "%d", &uid)
fmt.Sscanf(u.Gid, "%d", &gid)
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log.Println("uid:", uid, "gid:", gid)
// Need to clear server's env and set key vars of the
// target user. This isn't perfect (TERM doesn't seem to
// work 100%; ANSI/xterm colour isn't working even
// if we set "xterm" or "ansi" here; and line count
// reported by 'stty -a' defaults to 24 regardless
// of client shell window used to run client.
// Investigate -- rlm 2018-01-26)
os.Clearenv()
os.Setenv("HOME", u.HomeDir)
os.Setenv("TERM", "vt102") // TODO: server or client option?
var c *exec.Cmd
if interactive {
c = exec.Command("/bin/bash", "-i", "-l")
} else {
c = exec.Command("/bin/bash", "-c", cmd)
}
//If os.Clearenv() isn't called by server above these will be seen in the
//client's session env.
//c.Env = []string{"HOME=" + u.HomeDir, "SUDO_GID=", "SUDO_UID=", "SUDO_USER=", "SUDO_COMMAND=", "MAIL=", "LOGNAME="+who}
c.Dir = u.HomeDir
c.SysProcAttr = &syscall.SysProcAttr{}
c.SysProcAttr.Credential = &syscall.Credential{Uid: uid, Gid: gid}
c.Stdin = conn
c.Stdout = conn
c.Stderr = conn
// Start the command with a pty.
ptmx, err := pty.Start(c) // returns immediately with ptmx file
if err != nil {
return err, 0
}
// Make sure to close the pty at the end.
defer func() { _ = ptmx.Close() }() // Best effort.
log.Printf("[%s]\n", cmd)
if err != nil {
log.Printf("Command finished with error: %v", err)
} else {
// Watch for term resizes
go func() {
for sz := range conn.WinCh {
log.Printf("[Setting term size to: %v %v]\n", sz.Rows, sz.Cols)
pty.Setsize(ptmx, &pty.Winsize{Rows: sz.Rows, Cols: sz.Cols})
}
fmt.Println("*** WinCh goroutine done ***")
}()
// Copy stdin to the pty.. (bgnd goroutine)
go func() {
_, e := io.Copy(ptmx, conn)
if e != nil {
log.Println("** stdin->pty ended **:", e.Error())
}
fmt.Println("*** stdin->pty goroutine done ***")
}()
if chaffing {
conn.EnableChaff()
}
defer conn.DisableChaff()
defer conn.ShutdownChaff()
// ..and the pty to stdout.
// This may take some time exceeding that of the
// actual command's lifetime, so the c.Wait() below
// must synchronize with the completion of this goroutine
// to ensure all stdout data gets to the client before
// connection is closed.
wg.Add(1)
go func() {
defer wg.Done()
_, e := io.Copy(conn, ptmx)
if e != nil {
log.Println("** pty->stdout ended **:", e.Error())
}
// The above io.Copy() will exit when the command attached
// to the pty exits
fmt.Println("*** pty->stdout goroutine done ***")
}()
if err := c.Wait(); err != nil {
fmt.Println("*** c.Wait() done ***")
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 = status.ExitStatus()
log.Printf("Exit Status: %d", exitStatus)
}
}
}
wg.Wait() // Wait on pty->stdout completion to client
}
return
}
func rejectUserMsg() string {
return "Begone, " + spinsult.GetSentence() + "\r\n"
}
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// Demo of a simple server that listens and spawns goroutines for each
// connecting client. Note this code is identical to standard tcp
// server code, save for declaring 'hkex' rather than 'net'
// Listener and Conns. The KEx and encrypt/decrypt is done within the type.
// Compare to 'serverp.go' in this directory to see the equivalence.
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func main() {
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version := "0.1pre (NO WARRANTY)"
var vopt bool
var chaffEnabled bool
var chaffFreqMin uint
var chaffFreqMax uint
var chaffBytesMax uint
var dbg bool
var laddr string
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flag.BoolVar(&vopt, "v", false, "show version")
flag.StringVar(&laddr, "l", ":2000", "interface[:port] to listen")
flag.BoolVar(&chaffEnabled, "e", true, "enabled chaff pkts")
flag.UintVar(&chaffFreqMin, "f", 100, "chaff pkt freq min (msecs)")
flag.UintVar(&chaffFreqMax, "F", 5000, "chaff pkt freq max (msecs)")
flag.UintVar(&chaffBytesMax, "B", 64, "chaff pkt size max (bytes)")
flag.BoolVar(&dbg, "d", false, "debug logging")
flag.Parse()
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if vopt {
fmt.Printf("version v%s\n", version)
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os.Exit(0)
}
{
me, e := user.Current()
if e != nil || me.Uid != "0" {
log.Fatal("Must run as root.")
}
}
if dbg {
log.SetOutput(os.Stdout)
} else {
log.SetOutput(ioutil.Discard)
}
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// Listen on TCP port 2000 on all available unicast and
// anycast IP addresses of the local system.
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l, err := hkexnet.Listen("tcp", laddr)
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if err != nil {
log.Fatal(err)
}
defer l.Close()
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log.Println("Serving on", laddr)
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for {
// Wait for a connection.
conn, err := l.Accept()
if err != nil {
log.Printf("Accept() got error(%v), hanging up.\n", err)
conn.Close()
//log.Fatal(err)
} else {
log.Println("Accepted client")
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// Set up chaffing to client
// Will only start when runShellAs() is called
// after stdin/stdout are hooked up
conn.SetupChaff(chaffFreqMin, chaffFreqMax, chaffBytesMax) // configure server->client chaffing
// Handle the connection in a new goroutine.
// The loop then returns to accepting, so that
// multiple connections may be served concurrently.
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go func(hc hkexnet.Conn) (e error) {
defer hc.Close()
//We use io.ReadFull() here to guarantee we consume
//just the data we want for the cmdSpec, and no more.
//Otherwise data will be sitting in the channel that isn't
//passed down to the command handlers.
var rec cmdSpec
var len1, len2, len3, len4 uint32
n, err := fmt.Fscanf(hc, "%d %d %d %d\n", &len1, &len2, &len3, &len4)
log.Printf("cmdSpec read:%d %d %d %d\n", len1, len2, len3, len4)
if err != nil || n < 4 {
log.Println("[Bad cmdSpec fmt]")
return err
}
//fmt.Printf(" lens:%d %d %d %d\n", len1, len2, len3, len4)
rec.op = make([]byte, len1, len1)
_, err = io.ReadFull(hc, rec.op)
if err != nil {
log.Println("[Bad cmdSpec.op]")
return err
}
rec.who = make([]byte, len2, len2)
_, err = io.ReadFull(hc, rec.who)
if err != nil {
log.Println("[Bad cmdSpec.who]")
return err
}
rec.cmd = make([]byte, len3, len3)
_, err = io.ReadFull(hc, rec.cmd)
if err != nil {
log.Println("[Bad cmdSpec.cmd]")
return err
}
rec.authCookie = make([]byte, len4, len4)
_, err = io.ReadFull(hc, rec.authCookie)
if err != nil {
log.Println("[Bad cmdSpec.authCookie]")
return err
}
log.Printf("[cmdSpec: op:%c who:%s cmd:%s auth:****]\n",
rec.op[0], string(rec.who), string(rec.cmd))
valid, allowedCmds := hkexsh.AuthUser(string(rec.who), string(rec.authCookie), "/etc/hkexsh.passwd")
// Security scrub
for i := range rec.authCookie {
rec.authCookie[i] = 0
}
runtime.GC()
if !valid {
log.Println("Invalid user", string(rec.who))
hc.Write([]byte(rejectUserMsg()))
return
}
log.Printf("[allowedCmds:%s]\n", allowedCmds)
if rec.op[0] == 'c' {
// Non-interactive command
addr := hc.RemoteAddr()
//hname := goutmp.GetHost(addr.String())
hname := strings.Split(addr.String(), ":")[0]
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log.Printf("[Running command for [%s@%s]]\n", rec.who, hname)
runErr, cmdStatus := runShellAs(string(rec.who), string(rec.cmd), false, hc, chaffEnabled)
// Returned hopefully via an EOF or exit/logout;
// Clear current op so user can enter next, or EOF
rec.op[0] = 0
if runErr != nil {
log.Printf("[Error spawning cmd for %s@%s]\n", rec.who, hname)
} else {
log.Printf("[Command completed for %s@%s, status %d]\n", rec.who, hname, cmdStatus)
hc.SetStatus(uint8(cmdStatus))
}
} else if rec.op[0] == 's' {
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// Interactive session
addr := hc.RemoteAddr()
//hname := goutmp.GetHost(addr.String())
hname := strings.Split(addr.String(), ":")[0]
log.Printf("[Running shell for [%s@%s]]\n", rec.who, hname)
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utmpx := goutmp.Put_utmp(string(rec.who), hname)
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defer func() { goutmp.Unput_utmp(utmpx) }()
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goutmp.Put_lastlog_entry("hkexsh", string(rec.who), hname)
runErr, cmdStatus := runShellAs(string(rec.who), string(rec.cmd), true, hc, chaffEnabled)
// Returned hopefully via an EOF or exit/logout;
// Clear current op so user can enter next, or EOF
rec.op[0] = 0
if runErr != nil {
log.Printf("[Error spawning shell for %s@%s]\n", rec.who, hname)
} else {
log.Printf("[Shell completed for %s@%s, status %d]\n", rec.who, hname, cmdStatus)
hc.SetStatus(uint8(cmdStatus))
}
} else if rec.op[0] == 'D' {
// File copy (destination) operation - client copy to server
log.Printf("[Client->Server copy]\n")
// TODO: call function with hc, rec.cmd, chaffEnabled etc.
// func hooks tar cmd right-half of pipe to hc Reader
addr := hc.RemoteAddr()
hname := strings.Split(addr.String(), ":")[0]
log.Printf("[Running copy for [%s@%s]]\n", rec.who, hname)
runErr, cmdStatus := runClientToServerCopyAs(string(rec.who), hc, string(rec.cmd), chaffEnabled)
// Returned hopefully via an EOF or exit/logout;
// Clear current op so user can enter next, or EOF
rec.op[0] = 0
if runErr != nil {
log.Printf("[Error spawning cp for %s@%s]\n", rec.who, hname)
} else {
log.Printf("[Command completed for %s@%s, status %d]\n", rec.who, hname, cmdStatus)
hc.SetStatus(uint8(cmdStatus))
}
} else if rec.op[0] == 'S' {
// File copy (src) operation - server copy to client
log.Printf("[Server->Client copy]\n")
// TODO: call function to copy rec.cmd (file list) to
// tar cmd left-half of pipeline to hc.Writer ?
addr := hc.RemoteAddr()
hname := strings.Split(addr.String(), ":")[0]
log.Printf("[Running copy for [%s@%s]]\n", rec.who, hname)
runErr, cmdStatus := runServerToClientCopyAs(string(rec.who), hc, string(rec.cmd), chaffEnabled)
// Returned hopefully via an EOF or exit/logout;
// Clear current op so user can enter next, or EOF
rec.op[0] = 0
if runErr != nil {
log.Printf("[Error spawning cp for %s@%s]\n", rec.who, hname)
} else {
log.Printf("[Command completed for %s@%s, status %d]\n", rec.who, hname, cmdStatus)
hc.SetStatus(uint8(cmdStatus))
}
} else {
log.Println("[Bad cmdSpec]")
}
return
}(conn)
} // Accept() success
} //endfor
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log.Println("[Exiting]")
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}