tailscale/ssh/tailssh/tailssh.go
Percy Wegmann 51f7cb0903
ssh/tailssh: remove unused public key authentication logic
In preparation for unforking golang.org/x/crypto/ssh.

Updates #8593

Signed-off-by: Percy Wegmann <percy@tailscale.com>
2024-06-06 06:28:30 -05:00

1733 lines
50 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
//go:build linux || (darwin && !ios) || freebsd || openbsd
// Package tailssh is an SSH server integrated into Tailscale.
package tailssh
import (
"bytes"
"context"
"crypto/rand"
"encoding/json"
"errors"
"fmt"
"io"
"net"
"net/http"
"net/http/httptrace"
"net/netip"
"net/url"
"os"
"os/exec"
"path/filepath"
"runtime"
"strconv"
"strings"
"sync"
"sync/atomic"
"syscall"
"time"
gossh "github.com/tailscale/golang-x-crypto/ssh"
"tailscale.com/envknob"
"tailscale.com/ipn/ipnlocal"
"tailscale.com/logtail/backoff"
"tailscale.com/net/tsaddr"
"tailscale.com/net/tsdial"
"tailscale.com/tailcfg"
"tailscale.com/tempfork/gliderlabs/ssh"
"tailscale.com/types/key"
"tailscale.com/types/logger"
"tailscale.com/types/netmap"
"tailscale.com/util/clientmetric"
"tailscale.com/util/httpm"
"tailscale.com/util/mak"
"tailscale.com/util/multierr"
)
var (
sshVerboseLogging = envknob.RegisterBool("TS_DEBUG_SSH_VLOG")
sshDisableSFTP = envknob.RegisterBool("TS_SSH_DISABLE_SFTP")
sshDisableForwarding = envknob.RegisterBool("TS_SSH_DISABLE_FORWARDING")
sshDisablePTY = envknob.RegisterBool("TS_SSH_DISABLE_PTY")
)
const (
// forcePasswordSuffix is the suffix at the end of a username that forces
// Tailscale SSH into password authentication mode to work around buggy SSH
// clients that get confused by successful replies to auth type "none".
forcePasswordSuffix = "+password"
)
// ipnLocalBackend is the subset of ipnlocal.LocalBackend that we use.
// It is used for testing.
type ipnLocalBackend interface {
GetSSH_HostKeys() ([]gossh.Signer, error)
ShouldRunSSH() bool
NetMap() *netmap.NetworkMap
WhoIs(ipp netip.AddrPort) (n tailcfg.NodeView, u tailcfg.UserProfile, ok bool)
DoNoiseRequest(req *http.Request) (*http.Response, error)
Dialer() *tsdial.Dialer
TailscaleVarRoot() string
NodeKey() key.NodePublic
}
type server struct {
lb ipnLocalBackend
logf logger.Logf
tailscaledPath string
timeNow func() time.Time // or nil for time.Now
sessionWaitGroup sync.WaitGroup
// mu protects the following
mu sync.Mutex
activeConns map[*conn]bool // set; value is always true
shutdownCalled bool
}
func (srv *server) now() time.Time {
if srv != nil && srv.timeNow != nil {
return srv.timeNow()
}
return time.Now()
}
func init() {
ipnlocal.RegisterNewSSHServer(func(logf logger.Logf, lb *ipnlocal.LocalBackend) (ipnlocal.SSHServer, error) {
tsd, err := os.Executable()
if err != nil {
return nil, err
}
srv := &server{
lb: lb,
logf: logf,
tailscaledPath: tsd,
timeNow: func() time.Time {
return lb.ControlNow(time.Now())
},
}
return srv, nil
})
}
// attachSessionToConnIfNotShutdown ensures that srv is not shutdown before
// attaching the session to the conn. This ensures that once Shutdown is called,
// new sessions are not allowed and existing ones are cleaned up.
// It reports whether ss was attached to the conn.
func (srv *server) attachSessionToConnIfNotShutdown(ss *sshSession) bool {
srv.mu.Lock()
defer srv.mu.Unlock()
if srv.shutdownCalled {
// Do not start any new sessions.
return false
}
ss.conn.attachSession(ss)
return true
}
func (srv *server) trackActiveConn(c *conn, add bool) {
srv.mu.Lock()
defer srv.mu.Unlock()
if add {
mak.Set(&srv.activeConns, c, true)
return
}
delete(srv.activeConns, c)
}
// NumActiveConns returns the number of active SSH connections.
func (srv *server) NumActiveConns() int {
srv.mu.Lock()
defer srv.mu.Unlock()
return len(srv.activeConns)
}
// HandleSSHConn handles a Tailscale SSH connection from c.
// This is the entry point for all SSH connections.
// When this returns, the connection is closed.
func (srv *server) HandleSSHConn(nc net.Conn) error {
metricIncomingConnections.Add(1)
c, err := srv.newConn()
if err != nil {
return err
}
srv.trackActiveConn(c, true) // add
defer srv.trackActiveConn(c, false) // remove
c.HandleConn(nc)
// Return nil to signal to netstack's interception that it doesn't need to
// log. If ss.HandleConn had problems, it can log itself (ideally on an
// sshSession.logf).
return nil
}
// Shutdown terminates all active sessions.
func (srv *server) Shutdown() {
srv.mu.Lock()
srv.shutdownCalled = true
for c := range srv.activeConns {
c.Close()
}
srv.mu.Unlock()
srv.sessionWaitGroup.Wait()
}
// OnPolicyChange terminates any active sessions that no longer match
// the SSH access policy.
func (srv *server) OnPolicyChange() {
srv.mu.Lock()
defer srv.mu.Unlock()
for c := range srv.activeConns {
if c.info == nil {
// c.info is nil when the connection hasn't been authenticated yet.
// In that case, the connection will be terminated when it is.
continue
}
go c.checkStillValid()
}
}
// conn represents a single SSH connection and its associated
// ssh.Server.
//
// During the lifecycle of a connection, the following are called in order:
// Setup and discover server info
// - ServerConfigCallback
//
// Do the user auth
// - NoClientAuthHandler
//
// Once auth is done, the conn can be multiplexed with multiple sessions and
// channels concurrently. At which point any of the following can be called
// in any order.
// - c.handleSessionPostSSHAuth
// - c.mayForwardLocalPortTo followed by ssh.DirectTCPIPHandler
type conn struct {
*ssh.Server
srv *server
insecureSkipTailscaleAuth bool // used by tests.
// idH is the RFC4253 sec8 hash H. It is used to identify the connection,
// and is shared among all sessions. It should not be shared outside
// process. It is confusingly referred to as SessionID by the gliderlabs/ssh
// library.
idH string
connID string // ID that's shared with control
// anyPasswordIsOkay is whether the client is authorized but has requested
// password-based auth to work around their buggy SSH client. When set, we
// accept any password in the PasswordHandler.
anyPasswordIsOkay bool // set by NoClientAuthCallback
action0 *tailcfg.SSHAction // set by doPolicyAuth; first matching action
currentAction *tailcfg.SSHAction // set by doPolicyAuth, updated by resolveNextAction
finalAction *tailcfg.SSHAction // set by doPolicyAuth or resolveNextAction
finalActionErr error // set by doPolicyAuth or resolveNextAction
info *sshConnInfo // set by setInfo
localUser *userMeta // set by doPolicyAuth
userGroupIDs []string // set by doPolicyAuth
// mu protects the following fields.
//
// srv.mu should be acquired prior to mu.
// It is safe to just acquire mu, but unsafe to
// acquire mu and then srv.mu.
mu sync.Mutex // protects the following
sessions []*sshSession
}
func (c *conn) logf(format string, args ...any) {
format = fmt.Sprintf("%v: %v", c.connID, format)
c.srv.logf(format, args...)
}
func (c *conn) vlogf(format string, args ...any) {
if sshVerboseLogging() {
c.logf(format, args...)
}
}
// isAuthorized walks through the action chain and returns nil if the connection
// is authorized. If the connection is not authorized, it returns
// errDenied. If the action chain resolution fails, it returns the
// resolution error.
func (c *conn) isAuthorized(ctx ssh.Context) error {
action := c.currentAction
for {
if action.Accept {
return nil
}
if action.Reject || action.HoldAndDelegate == "" {
return errDenied
}
var err error
action, err = c.resolveNextAction(ctx)
if err != nil {
return err
}
if action.Message != "" {
if err := ctx.SendAuthBanner(action.Message); err != nil {
return err
}
}
}
}
// errDenied is returned by auth callbacks when a connection is denied by the
// policy.
var errDenied = errors.New("ssh: access denied")
// NoClientAuthCallback implements gossh.NoClientAuthCallback and is called by
// the ssh.Server when the client first connects with the "none"
// authentication method.
//
// It is responsible for continuing policy evaluation from BannerCallback (or
// starting it afresh). It returns an error if the policy evaluation fails, or
// if the decision is "reject"
//
// It either returns nil (accept) or errDenied (reject). The errors may be
// wrapped.
func (c *conn) NoClientAuthCallback(ctx ssh.Context) error {
if c.insecureSkipTailscaleAuth {
return nil
}
if err := c.doPolicyAuth(ctx); err != nil {
return err
}
if err := c.isAuthorized(ctx); err != nil {
return err
}
// Let users specify a username ending in +password to force password auth.
// This exists for buggy SSH clients that get confused by success from
// "none" auth.
if strings.HasSuffix(ctx.User(), forcePasswordSuffix) {
c.anyPasswordIsOkay = true
return errors.New("any password please") // not shown to users
}
return nil
}
func (c *conn) nextAuthMethodCallback(cm gossh.ConnMetadata, prevErrors []error) (nextMethod []string) {
if c.anyPasswordIsOkay {
nextMethod = append(nextMethod, "password")
}
// The fake "tailscale" method is always appended to next so OpenSSH renders
// that in parens as the final failure. (It also shows up in "ssh -v", etc)
nextMethod = append(nextMethod, "tailscale")
return
}
// fakePasswordHandler is our implementation of the PasswordHandler hook that
// checks whether the user's password is correct. But we don't actually use
// passwords. This exists only for when the user's username ends in "+password"
// to signal that their SSH client is buggy and gets confused by auth type
// "none" succeeding and they want our SSH server to require a dummy password
// prompt instead. We then accept any password since we've already authenticated
// & authorized them.
func (c *conn) fakePasswordHandler(ctx ssh.Context, password string) bool {
return c.anyPasswordIsOkay
}
// doPolicyAuth verifies that conn can proceed. It returns nil if the matching
// policy action is Accept or HoldAndDelegate. Otherwise, it returns errDenied.
func (c *conn) doPolicyAuth(ctx ssh.Context) error {
if err := c.setInfo(ctx); err != nil {
c.logf("failed to get conninfo: %v", err)
return errDenied
}
a, localUser, err := c.evaluatePolicy()
if err != nil {
return fmt.Errorf("%w: %v", errDenied, err)
}
c.action0 = a
c.currentAction = a
if a.Message != "" {
if err := ctx.SendAuthBanner(a.Message); err != nil {
return fmt.Errorf("SendBanner: %w", err)
}
}
if a.Accept || a.HoldAndDelegate != "" {
if a.Accept {
c.finalAction = a
}
lu, err := userLookup(localUser)
if err != nil {
c.logf("failed to look up %v: %v", localUser, err)
ctx.SendAuthBanner(fmt.Sprintf("failed to look up %v\r\n", localUser))
return err
}
gids, err := lu.GroupIds()
if err != nil {
c.logf("failed to look up local user's group IDs: %v", err)
return err
}
c.userGroupIDs = gids
c.localUser = lu
return nil
}
if a.Reject {
c.finalAction = a
return errDenied
}
// Shouldn't get here, but:
return errDenied
}
// ServerConfig implements ssh.ServerConfigCallback.
func (c *conn) ServerConfig(ctx ssh.Context) *gossh.ServerConfig {
return &gossh.ServerConfig{
NoClientAuth: true, // required for the NoClientAuthCallback to run
NextAuthMethodCallback: c.nextAuthMethodCallback,
}
}
func (srv *server) newConn() (*conn, error) {
srv.mu.Lock()
if srv.shutdownCalled {
srv.mu.Unlock()
// Stop accepting new connections.
// Connections in the auth phase are handled in handleConnPostSSHAuth.
// Existing sessions are terminated by Shutdown.
return nil, errDenied
}
srv.mu.Unlock()
c := &conn{srv: srv}
now := srv.now()
c.connID = fmt.Sprintf("ssh-conn-%s-%02x", now.UTC().Format("20060102T150405"), randBytes(5))
fwdHandler := &ssh.ForwardedTCPHandler{}
c.Server = &ssh.Server{
Version: "Tailscale",
ServerConfigCallback: c.ServerConfig,
NoClientAuthHandler: c.NoClientAuthCallback,
PasswordHandler: c.fakePasswordHandler,
Handler: c.handleSessionPostSSHAuth,
LocalPortForwardingCallback: c.mayForwardLocalPortTo,
ReversePortForwardingCallback: c.mayReversePortForwardTo,
SubsystemHandlers: map[string]ssh.SubsystemHandler{
"sftp": c.handleSessionPostSSHAuth,
},
// Note: the direct-tcpip channel handler and LocalPortForwardingCallback
// only adds support for forwarding ports from the local machine.
// TODO(maisem/bradfitz): add remote port forwarding support.
ChannelHandlers: map[string]ssh.ChannelHandler{
"direct-tcpip": ssh.DirectTCPIPHandler,
},
RequestHandlers: map[string]ssh.RequestHandler{
"tcpip-forward": fwdHandler.HandleSSHRequest,
"cancel-tcpip-forward": fwdHandler.HandleSSHRequest,
},
}
ss := c.Server
for k, v := range ssh.DefaultRequestHandlers {
ss.RequestHandlers[k] = v
}
for k, v := range ssh.DefaultChannelHandlers {
ss.ChannelHandlers[k] = v
}
for k, v := range ssh.DefaultSubsystemHandlers {
ss.SubsystemHandlers[k] = v
}
keys, err := srv.lb.GetSSH_HostKeys()
if err != nil {
return nil, err
}
for _, signer := range keys {
ss.AddHostKey(signer)
}
return c, nil
}
// mayReversePortPortForwardTo reports whether the ctx should be allowed to port forward
// to the specified host and port.
// TODO(bradfitz/maisem): should we have more checks on host/port?
func (c *conn) mayReversePortForwardTo(ctx ssh.Context, destinationHost string, destinationPort uint32) bool {
if sshDisableForwarding() {
return false
}
if c.finalAction != nil && c.finalAction.AllowRemotePortForwarding {
metricRemotePortForward.Add(1)
return true
}
return false
}
// mayForwardLocalPortTo reports whether the ctx should be allowed to port forward
// to the specified host and port.
// TODO(bradfitz/maisem): should we have more checks on host/port?
func (c *conn) mayForwardLocalPortTo(ctx ssh.Context, destinationHost string, destinationPort uint32) bool {
if sshDisableForwarding() {
return false
}
if c.finalAction != nil && c.finalAction.AllowLocalPortForwarding {
metricLocalPortForward.Add(1)
return true
}
return false
}
// sshPolicy returns the SSHPolicy for current node.
// If there is no SSHPolicy in the netmap, it returns a debugPolicy
// if one is defined.
func (c *conn) sshPolicy() (_ *tailcfg.SSHPolicy, ok bool) {
lb := c.srv.lb
if !lb.ShouldRunSSH() {
return nil, false
}
nm := lb.NetMap()
if nm == nil {
return nil, false
}
if pol := nm.SSHPolicy; pol != nil && !envknob.SSHIgnoreTailnetPolicy() {
return pol, true
}
debugPolicyFile := envknob.SSHPolicyFile()
if debugPolicyFile != "" {
c.logf("reading debug SSH policy file: %v", debugPolicyFile)
f, err := os.ReadFile(debugPolicyFile)
if err != nil {
c.logf("error reading debug SSH policy file: %v", err)
return nil, false
}
p := new(tailcfg.SSHPolicy)
if err := json.Unmarshal(f, p); err != nil {
c.logf("invalid JSON in %v: %v", debugPolicyFile, err)
return nil, false
}
return p, true
}
return nil, false
}
func toIPPort(a net.Addr) (ipp netip.AddrPort) {
ta, ok := a.(*net.TCPAddr)
if !ok {
return
}
tanetaddr, ok := netip.AddrFromSlice(ta.IP)
if !ok {
return
}
return netip.AddrPortFrom(tanetaddr.Unmap(), uint16(ta.Port))
}
// connInfo returns a populated sshConnInfo from the provided arguments,
// validating only that they represent a known Tailscale identity.
func (c *conn) setInfo(ctx ssh.Context) error {
if c.info != nil {
return nil
}
ci := &sshConnInfo{
sshUser: strings.TrimSuffix(ctx.User(), forcePasswordSuffix),
src: toIPPort(ctx.RemoteAddr()),
dst: toIPPort(ctx.LocalAddr()),
}
if !tsaddr.IsTailscaleIP(ci.dst.Addr()) {
return fmt.Errorf("tailssh: rejecting non-Tailscale local address %v", ci.dst)
}
if !tsaddr.IsTailscaleIP(ci.src.Addr()) {
return fmt.Errorf("tailssh: rejecting non-Tailscale remote address %v", ci.src)
}
node, uprof, ok := c.srv.lb.WhoIs(ci.src)
if !ok {
return fmt.Errorf("unknown Tailscale identity from src %v", ci.src)
}
ci.node = node
ci.uprof = uprof
c.idH = ctx.SessionID()
c.info = ci
c.logf("handling conn: %v", ci.String())
return nil
}
// evaluatePolicy returns the SSHAction and localUser after evaluating
// the SSHPolicy for this conn.
func (c *conn) evaluatePolicy() (_ *tailcfg.SSHAction, localUser string, _ error) {
pol, ok := c.sshPolicy()
if !ok {
return nil, "", fmt.Errorf("tailssh: rejecting connection; no SSH policy")
}
a, localUser, ok := c.evalSSHPolicy(pol)
if !ok {
return nil, "", fmt.Errorf("tailssh: rejecting connection; no matching policy")
}
return a, localUser, nil
}
// handleSessionPostSSHAuth runs an SSH session after the SSH-level authentication,
// but not necessarily before all the Tailscale-level extra verification has
// completed. It also handles SFTP requests.
func (c *conn) handleSessionPostSSHAuth(s ssh.Session) {
// Do this check after auth, but before starting the session.
switch s.Subsystem() {
case "sftp":
if sshDisableSFTP() {
fmt.Fprintf(s.Stderr(), "sftp disabled\r\n")
s.Exit(1)
return
}
metricSFTP.Add(1)
case "":
// Regular SSH session.
default:
fmt.Fprintf(s.Stderr(), "Unsupported subsystem %q\r\n", s.Subsystem())
s.Exit(1)
return
}
ss := c.newSSHSession(s)
ss.logf("handling new SSH connection from %v (%v) to ssh-user %q", c.info.uprof.LoginName, c.info.src.Addr(), c.localUser.Username)
ss.logf("access granted to %v as ssh-user %q", c.info.uprof.LoginName, c.localUser.Username)
ss.run()
}
// resolveNextAction starts at c.currentAction and makes it way through the
// action chain one step at a time. An action without a HoldAndDelegate is
// considered the final action. Once a final action is reached, this function
// will keep returning that action. It updates c.currentAction to the next
// action in the chain. When the final action is reached, it also sets
// c.finalAction to the final action.
func (c *conn) resolveNextAction(sctx ssh.Context) (action *tailcfg.SSHAction, err error) {
if c.finalAction != nil || c.finalActionErr != nil {
return c.finalAction, c.finalActionErr
}
defer func() {
if action != nil {
c.currentAction = action
if action.Accept || action.Reject {
c.finalAction = action
}
}
if err != nil {
c.finalActionErr = err
}
}()
ctx, cancel := context.WithCancel(sctx)
defer cancel()
// Loop processing/fetching Actions until one reaches a
// terminal state (Accept, Reject, or invalid Action), or
// until fetchSSHAction times out due to the context being
// done (client disconnect) or its 30 minute timeout passes.
// (Which is a long time for somebody to see login
// instructions and go to a URL to do something.)
action = c.currentAction
if action.Accept || action.Reject {
if action.Reject {
metricTerminalReject.Add(1)
} else {
metricTerminalAccept.Add(1)
}
return action, nil
}
url := action.HoldAndDelegate
if url == "" {
metricTerminalMalformed.Add(1)
return nil, errors.New("reached Action that lacked Accept, Reject, and HoldAndDelegate")
}
metricHolds.Add(1)
url = c.expandDelegateURLLocked(url)
nextAction, err := c.fetchSSHAction(ctx, url)
if err != nil {
metricTerminalFetchError.Add(1)
return nil, fmt.Errorf("fetching SSHAction from %s: %w", url, err)
}
return nextAction, nil
}
func (c *conn) expandDelegateURLLocked(actionURL string) string {
nm := c.srv.lb.NetMap()
ci := c.info
lu := c.localUser
var dstNodeID string
if nm != nil {
dstNodeID = fmt.Sprint(int64(nm.SelfNode.ID()))
}
return strings.NewReplacer(
"$SRC_NODE_IP", url.QueryEscape(ci.src.Addr().String()),
"$SRC_NODE_ID", fmt.Sprint(int64(ci.node.ID())),
"$DST_NODE_IP", url.QueryEscape(ci.dst.Addr().String()),
"$DST_NODE_ID", dstNodeID,
"$SSH_USER", url.QueryEscape(ci.sshUser),
"$LOCAL_USER", url.QueryEscape(lu.Username),
).Replace(actionURL)
}
// sshSession is an accepted Tailscale SSH session.
type sshSession struct {
ssh.Session
sharedID string // ID that's shared with control
logf logger.Logf
ctx context.Context
cancelCtx context.CancelCauseFunc
conn *conn
agentListener net.Listener // non-nil if agent-forwarding requested+allowed
// initialized by launchProcess:
cmd *exec.Cmd
wrStdin io.WriteCloser
rdStdout io.ReadCloser
rdStderr io.ReadCloser // rdStderr is nil for pty sessions
ptyReq *ssh.Pty // non-nil for pty sessions
// childPipes is a list of pipes that need to be closed when the process exits.
// For pty sessions, this is the tty fd.
// For non-pty sessions, this is the stdin, stdout, stderr fds.
childPipes []io.Closer
// We use this sync.Once to ensure that we only terminate the process once,
// either it exits itself or is terminated
exitOnce sync.Once
}
func (ss *sshSession) vlogf(format string, args ...any) {
if sshVerboseLogging() {
ss.logf(format, args...)
}
}
func (c *conn) newSSHSession(s ssh.Session) *sshSession {
sharedID := fmt.Sprintf("sess-%s-%02x", c.srv.now().UTC().Format("20060102T150405"), randBytes(5))
c.logf("starting session: %v", sharedID)
ctx, cancel := context.WithCancelCause(s.Context())
return &sshSession{
Session: s,
sharedID: sharedID,
ctx: ctx,
cancelCtx: cancel,
conn: c,
logf: logger.WithPrefix(c.srv.logf, "ssh-session("+sharedID+"): "),
}
}
// isStillValid reports whether the conn is still valid.
func (c *conn) isStillValid() bool {
a, localUser, err := c.evaluatePolicy()
c.vlogf("stillValid: %+v %v %v", a, localUser, err)
if err != nil {
return false
}
if !a.Accept && a.HoldAndDelegate == "" {
return false
}
return c.localUser.Username == localUser
}
// checkStillValid checks that the conn is still valid per the latest SSHPolicy.
// If not, it terminates all sessions associated with the conn.
func (c *conn) checkStillValid() {
if c.isStillValid() {
return
}
metricPolicyChangeKick.Add(1)
c.logf("session no longer valid per new SSH policy; closing")
c.mu.Lock()
defer c.mu.Unlock()
for _, s := range c.sessions {
s.cancelCtx(userVisibleError{
fmt.Sprintf("Access revoked.\r\n"),
context.Canceled,
})
}
}
func (c *conn) fetchSSHAction(ctx context.Context, url string) (*tailcfg.SSHAction, error) {
ctx, cancel := context.WithTimeout(ctx, 30*time.Minute)
defer cancel()
bo := backoff.NewBackoff("fetch-ssh-action", c.logf, 10*time.Second)
for {
if err := ctx.Err(); err != nil {
return nil, err
}
req, err := http.NewRequestWithContext(ctx, "GET", url, nil)
if err != nil {
return nil, err
}
res, err := c.srv.lb.DoNoiseRequest(req)
if err != nil {
bo.BackOff(ctx, err)
continue
}
if res.StatusCode != 200 {
body, _ := io.ReadAll(res.Body)
res.Body.Close()
if len(body) > 1<<10 {
body = body[:1<<10]
}
c.logf("fetch of %v: %s, %s", url, res.Status, body)
bo.BackOff(ctx, fmt.Errorf("unexpected status: %v", res.Status))
continue
}
a := new(tailcfg.SSHAction)
err = json.NewDecoder(res.Body).Decode(a)
res.Body.Close()
if err != nil {
c.logf("invalid next SSHAction JSON from %v: %v", url, err)
bo.BackOff(ctx, err)
continue
}
return a, nil
}
}
// killProcessOnContextDone waits for ss.ctx to be done and kills the process,
// unless the process has already exited.
func (ss *sshSession) killProcessOnContextDone() {
<-ss.ctx.Done()
// Either the process has already exited, in which case this does nothing.
// Or, the process is still running in which case this will kill it.
ss.exitOnce.Do(func() {
err := context.Cause(ss.ctx)
if serr, ok := err.(SSHTerminationError); ok {
msg := serr.SSHTerminationMessage()
if msg != "" {
io.WriteString(ss.Stderr(), "\r\n\r\n"+msg+"\r\n\r\n")
}
}
ss.logf("terminating SSH session from %v: %v", ss.conn.info.src.Addr(), err)
// We don't need to Process.Wait here, sshSession.run() does
// the waiting regardless of termination reason.
// TODO(maisem): should this be a SIGTERM followed by a SIGKILL?
ss.cmd.Process.Kill()
})
}
// attachSession registers ss as an active session.
func (c *conn) attachSession(ss *sshSession) {
c.srv.sessionWaitGroup.Add(1)
if ss.sharedID == "" {
panic("empty sharedID")
}
c.mu.Lock()
defer c.mu.Unlock()
c.sessions = append(c.sessions, ss)
}
// detachSession unregisters s from the list of active sessions.
func (c *conn) detachSession(ss *sshSession) {
defer c.srv.sessionWaitGroup.Done()
c.mu.Lock()
defer c.mu.Unlock()
for i, s := range c.sessions {
if s == ss {
c.sessions = append(c.sessions[:i], c.sessions[i+1:]...)
break
}
}
}
var errSessionDone = errors.New("session is done")
// handleSSHAgentForwarding starts a Unix socket listener and in the background
// forwards agent connections between the listener and the ssh.Session.
// On success, it assigns ss.agentListener.
func (ss *sshSession) handleSSHAgentForwarding(s ssh.Session, lu *userMeta) error {
if !ssh.AgentRequested(ss) || !ss.conn.finalAction.AllowAgentForwarding {
return nil
}
if sshDisableForwarding() {
// TODO(bradfitz): or do we want to return an error here instead so the user
// gets an error if they ran with ssh -A? But for now we just silently
// don't work, like the condition above.
return nil
}
ss.logf("ssh: agent forwarding requested")
ln, err := ssh.NewAgentListener()
if err != nil {
return err
}
defer func() {
if err != nil && ln != nil {
ln.Close()
}
}()
uid, err := strconv.ParseUint(lu.Uid, 10, 32)
if err != nil {
return err
}
gid, err := strconv.ParseUint(lu.Gid, 10, 32)
if err != nil {
return err
}
socket := ln.Addr().String()
dir := filepath.Dir(socket)
// Make sure the socket is accessible only by the user.
if err := os.Chmod(socket, 0600); err != nil {
return err
}
if err := os.Chown(socket, int(uid), int(gid)); err != nil {
return err
}
// Make sure the dir is also accessible.
if err := os.Chmod(dir, 0755); err != nil {
return err
}
go ssh.ForwardAgentConnections(ln, s)
ss.agentListener = ln
return nil
}
// run is the entrypoint for a newly accepted SSH session.
//
// It handles ss once it's been accepted and determined
// that it should run.
func (ss *sshSession) run() {
metricActiveSessions.Add(1)
defer metricActiveSessions.Add(-1)
defer ss.cancelCtx(errSessionDone)
if attached := ss.conn.srv.attachSessionToConnIfNotShutdown(ss); !attached {
fmt.Fprintf(ss, "Tailscale SSH is shutting down\r\n")
ss.Exit(1)
return
}
defer ss.conn.detachSession(ss)
lu := ss.conn.localUser
logf := ss.logf
if ss.conn.finalAction.SessionDuration != 0 {
t := time.AfterFunc(ss.conn.finalAction.SessionDuration, func() {
ss.cancelCtx(userVisibleError{
fmt.Sprintf("Session timeout of %v elapsed.", ss.conn.finalAction.SessionDuration),
context.DeadlineExceeded,
})
})
defer t.Stop()
}
if euid := os.Geteuid(); euid != 0 {
if lu.Uid != fmt.Sprint(euid) {
ss.logf("can't switch to user %q from process euid %v", lu.Username, euid)
fmt.Fprintf(ss, "can't switch user\r\n")
ss.Exit(1)
return
}
}
// Take control of the PTY so that we can configure it below.
// See https://github.com/tailscale/tailscale/issues/4146
ss.DisablePTYEmulation()
var rec *recording // or nil if disabled
if ss.Subsystem() != "sftp" {
if err := ss.handleSSHAgentForwarding(ss, lu); err != nil {
ss.logf("agent forwarding failed: %v", err)
} else if ss.agentListener != nil {
// TODO(maisem/bradfitz): add a way to close all session resources
defer ss.agentListener.Close()
}
if ss.shouldRecord() {
var err error
rec, err = ss.startNewRecording()
if err != nil {
var uve userVisibleError
if errors.As(err, &uve) {
fmt.Fprintf(ss, "%s\r\n", uve.SSHTerminationMessage())
} else {
fmt.Fprintf(ss, "can't start new recording\r\n")
}
ss.logf("startNewRecording: %v", err)
ss.Exit(1)
return
}
ss.logf("startNewRecording: <nil>")
if rec != nil {
defer rec.Close()
}
}
}
err := ss.launchProcess()
if err != nil {
logf("start failed: %v", err.Error())
if errors.Is(err, context.Canceled) {
err := context.Cause(ss.ctx)
var uve userVisibleError
if errors.As(err, &uve) {
fmt.Fprintf(ss, "%s\r\n", uve)
}
}
ss.Exit(1)
return
}
go ss.killProcessOnContextDone()
var processDone atomic.Bool
go func() {
defer ss.wrStdin.Close()
if _, err := io.Copy(rec.writer("i", ss.wrStdin), ss); err != nil {
logf("stdin copy: %v", err)
ss.cancelCtx(err)
}
}()
outputDone := make(chan struct{})
var openOutputStreams atomic.Int32
if ss.rdStderr != nil {
openOutputStreams.Store(2)
} else {
openOutputStreams.Store(1)
}
go func() {
defer ss.rdStdout.Close()
_, err := io.Copy(rec.writer("o", ss), ss.rdStdout)
if err != nil && !errors.Is(err, io.EOF) {
isErrBecauseProcessExited := processDone.Load() && errors.Is(err, syscall.EIO)
if !isErrBecauseProcessExited {
logf("stdout copy: %v, %T", err)
ss.cancelCtx(err)
}
}
if openOutputStreams.Add(-1) == 0 {
ss.CloseWrite()
close(outputDone)
}
}()
// rdStderr is nil for ptys.
if ss.rdStderr != nil {
go func() {
defer ss.rdStderr.Close()
_, err := io.Copy(ss.Stderr(), ss.rdStderr)
if err != nil {
logf("stderr copy: %v", err)
}
if openOutputStreams.Add(-1) == 0 {
ss.CloseWrite()
close(outputDone)
}
}()
}
err = ss.cmd.Wait()
processDone.Store(true)
// This will either make the SSH Termination goroutine be a no-op,
// or itself will be a no-op because the process was killed by the
// aforementioned goroutine.
ss.exitOnce.Do(func() {})
// Close the process-side of all pipes to signal the asynchronous
// io.Copy routines reading/writing from the pipes to terminate.
// Block for the io.Copy to finish before calling ss.Exit below.
closeAll(ss.childPipes...)
select {
case <-outputDone:
case <-ss.ctx.Done():
}
if err == nil {
ss.logf("Session complete")
ss.Exit(0)
return
}
if ee, ok := err.(*exec.ExitError); ok {
code := ee.ProcessState.ExitCode()
ss.logf("Wait: code=%v", code)
ss.Exit(code)
return
}
ss.logf("Wait: %v", err)
ss.Exit(1)
return
}
// recordSSHToLocalDisk is a deprecated dev knob to allow recording SSH sessions
// to local storage. It is only used if there is no recording configured by the
// coordination server. This will be removed in the future.
var recordSSHToLocalDisk = envknob.RegisterBool("TS_DEBUG_LOG_SSH")
// recorders returns the list of recorders to use for this session.
// If the final action has a non-empty list of recorders, that list is
// returned. Otherwise, the list of recorders from the initial action
// is returned.
func (ss *sshSession) recorders() ([]netip.AddrPort, *tailcfg.SSHRecorderFailureAction) {
if len(ss.conn.finalAction.Recorders) > 0 {
return ss.conn.finalAction.Recorders, ss.conn.finalAction.OnRecordingFailure
}
return ss.conn.action0.Recorders, ss.conn.action0.OnRecordingFailure
}
func (ss *sshSession) shouldRecord() bool {
recs, _ := ss.recorders()
return len(recs) > 0 || recordSSHToLocalDisk()
}
type sshConnInfo struct {
// sshUser is the requested local SSH username ("root", "alice", etc).
sshUser string
// src is the Tailscale IP and port that the connection came from.
src netip.AddrPort
// dst is the Tailscale IP and port that the connection came for.
dst netip.AddrPort
// node is srcIP's node.
node tailcfg.NodeView
// uprof is node's UserProfile.
uprof tailcfg.UserProfile
}
func (ci *sshConnInfo) String() string {
return fmt.Sprintf("%v->%v@%v", ci.src, ci.sshUser, ci.dst)
}
func (c *conn) ruleExpired(r *tailcfg.SSHRule) bool {
if r.RuleExpires == nil {
return false
}
return r.RuleExpires.Before(c.srv.now())
}
func (c *conn) evalSSHPolicy(pol *tailcfg.SSHPolicy) (a *tailcfg.SSHAction, localUser string, ok bool) {
for _, r := range pol.Rules {
if a, localUser, err := c.matchRule(r); err == nil {
return a, localUser, true
}
}
return nil, "", false
}
// internal errors for testing; they don't escape to callers or logs.
var (
errNilRule = errors.New("nil rule")
errNilAction = errors.New("nil action")
errRuleExpired = errors.New("rule expired")
errPrincipalMatch = errors.New("principal didn't match")
errUserMatch = errors.New("user didn't match")
errInvalidConn = errors.New("invalid connection state")
)
func (c *conn) matchRule(r *tailcfg.SSHRule) (a *tailcfg.SSHAction, localUser string, err error) {
defer func() {
c.vlogf("matchRule(%+v): %v", r, err)
}()
if c == nil {
return nil, "", errInvalidConn
}
if c.info == nil {
c.logf("invalid connection state")
return nil, "", errInvalidConn
}
if r == nil {
return nil, "", errNilRule
}
if r.Action == nil {
return nil, "", errNilAction
}
if c.ruleExpired(r) {
return nil, "", errRuleExpired
}
if !r.Action.Reject {
// For all but Reject rules, SSHUsers is required.
// If SSHUsers is nil or empty, mapLocalUser will return an
// empty string anyway.
localUser = mapLocalUser(r.SSHUsers, c.info.sshUser)
if localUser == "" {
return nil, "", errUserMatch
}
}
if ok, err := c.anyPrincipalMatches(r.Principals); err != nil {
return nil, "", err
} else if !ok {
return nil, "", errPrincipalMatch
}
return r.Action, localUser, nil
}
func mapLocalUser(ruleSSHUsers map[string]string, reqSSHUser string) (localUser string) {
v, ok := ruleSSHUsers[reqSSHUser]
if !ok {
v = ruleSSHUsers["*"]
}
if v == "=" {
return reqSSHUser
}
return v
}
func (c *conn) anyPrincipalMatches(ps []*tailcfg.SSHPrincipal) (bool, error) {
for _, p := range ps {
if p == nil {
continue
}
if c.principalMatchesTailscaleIdentity(p) {
return true, nil
}
}
return false, nil
}
// principalMatchesTailscaleIdentity reports whether one of p's four fields
// that match the Tailscale identity match (Node, NodeIP, UserLogin, Any).
func (c *conn) principalMatchesTailscaleIdentity(p *tailcfg.SSHPrincipal) bool {
ci := c.info
if p.Any {
return true
}
if !p.Node.IsZero() && ci.node.Valid() && p.Node == ci.node.StableID() {
return true
}
if p.NodeIP != "" {
if ip, _ := netip.ParseAddr(p.NodeIP); ip == ci.src.Addr() {
return true
}
}
if p.UserLogin != "" && ci.uprof.LoginName == p.UserLogin {
return true
}
return false
}
func randBytes(n int) []byte {
b := make([]byte, n)
if _, err := rand.Read(b); err != nil {
panic(err)
}
return b
}
// CastHeader is the header of an asciinema file.
type CastHeader struct {
// Version is the asciinema file format version.
Version int `json:"version"`
// Width is the terminal width in characters.
// It is non-zero for Pty sessions.
Width int `json:"width"`
// Height is the terminal height in characters.
// It is non-zero for Pty sessions.
Height int `json:"height"`
// Timestamp is the unix timestamp of when the recording started.
Timestamp int64 `json:"timestamp"`
// Env is the environment variables of the session.
// Only "TERM" is set (2023-03-22).
Env map[string]string `json:"env"`
// Command is the command that was executed.
// Typically empty for shell sessions.
Command string `json:"command,omitempty"`
// Tailscale-specific fields:
// SrcNode is the FQDN of the node originating the connection.
// It is also the MagicDNS name for the node.
// It does not have a trailing dot.
// e.g. "host.tail-scale.ts.net"
SrcNode string `json:"srcNode"`
// SrcNodeID is the node ID of the node originating the connection.
SrcNodeID tailcfg.StableNodeID `json:"srcNodeID"`
// SrcNodeTags is the list of tags on the node originating the connection (if any).
SrcNodeTags []string `json:"srcNodeTags,omitempty"`
// SrcNodeUserID is the user ID of the node originating the connection (if not tagged).
SrcNodeUserID tailcfg.UserID `json:"srcNodeUserID,omitempty"` // if not tagged
// SrcNodeUser is the LoginName of the node originating the connection (if not tagged).
SrcNodeUser string `json:"srcNodeUser,omitempty"`
// SSHUser is the username as presented by the client.
SSHUser string `json:"sshUser"` // as presented by the client
// LocalUser is the effective username on the server.
LocalUser string `json:"localUser"`
// ConnectionID uniquely identifies a connection made to the SSH server.
// It may be shared across multiple sessions over the same connection in
// case of SSH multiplexing.
ConnectionID string `json:"connectionID"`
}
// sessionRecordingClient returns an http.Client that uses srv.lb.Dialer() to
// dial connections. This is used to make requests to the session recording
// server to upload session recordings.
// It uses the provided dialCtx to dial connections, and limits a single dial
// to 5 seconds.
func (ss *sshSession) sessionRecordingClient(dialCtx context.Context) (*http.Client, error) {
dialer := ss.conn.srv.lb.Dialer()
if dialer == nil {
return nil, errors.New("no peer API transport")
}
tr := dialer.PeerAPITransport().Clone()
dialContextFn := tr.DialContext
tr.DialContext = func(ctx context.Context, network, addr string) (net.Conn, error) {
perAttemptCtx, cancel := context.WithTimeout(ctx, 5*time.Second)
defer cancel()
go func() {
select {
case <-perAttemptCtx.Done():
case <-dialCtx.Done():
cancel()
}
}()
return dialContextFn(perAttemptCtx, network, addr)
}
return &http.Client{
Transport: tr,
}, nil
}
// connectToRecorder connects to the recorder at any of the provided addresses.
// It returns the first successful response, or a multierr if all attempts fail.
//
// On success, it returns a WriteCloser that can be used to upload the
// recording, and a channel that will be sent an error (or nil) when the upload
// fails or completes.
//
// In both cases, a slice of SSHRecordingAttempts is returned which detail the
// attempted recorder IP and the error message, if the attempt failed. The
// attempts are in order the recorder(s) was attempted. If successful a
// successful connection is made, the last attempt in the slice is the
// attempt for connected recorder.
func (ss *sshSession) connectToRecorder(ctx context.Context, recs []netip.AddrPort) (io.WriteCloser, []*tailcfg.SSHRecordingAttempt, <-chan error, error) {
if len(recs) == 0 {
return nil, nil, nil, errors.New("no recorders configured")
}
// We use a special context for dialing the recorder, so that we can
// limit the time we spend dialing to 30 seconds and still have an
// unbounded context for the upload.
dialCtx, dialCancel := context.WithTimeout(ctx, 30*time.Second)
defer dialCancel()
hc, err := ss.sessionRecordingClient(dialCtx)
if err != nil {
return nil, nil, nil, err
}
var errs []error
var attempts []*tailcfg.SSHRecordingAttempt
for _, ap := range recs {
attempt := &tailcfg.SSHRecordingAttempt{
Recorder: ap,
}
attempts = append(attempts, attempt)
// We dial the recorder and wait for it to send a 100-continue
// response before returning from this function. This ensures that
// the recorder is ready to accept the recording.
// got100 is closed when we receive the 100-continue response.
got100 := make(chan struct{})
ctx = httptrace.WithClientTrace(ctx, &httptrace.ClientTrace{
Got100Continue: func() {
close(got100)
},
})
pr, pw := io.Pipe()
req, err := http.NewRequestWithContext(ctx, "POST", fmt.Sprintf("http://%s:%d/record", ap.Addr(), ap.Port()), pr)
if err != nil {
err = fmt.Errorf("recording: error starting recording: %w", err)
attempt.FailureMessage = err.Error()
errs = append(errs, err)
continue
}
// We set the Expect header to 100-continue, so that the recorder
// will send a 100-continue response before it starts reading the
// request body.
req.Header.Set("Expect", "100-continue")
// errChan is used to indicate the result of the request.
errChan := make(chan error, 1)
go func() {
resp, err := hc.Do(req)
if err != nil {
errChan <- fmt.Errorf("recording: error starting recording: %w", err)
return
}
if resp.StatusCode != 200 {
errChan <- fmt.Errorf("recording: unexpected status: %v", resp.Status)
return
}
errChan <- nil
}()
select {
case <-got100:
case err := <-errChan:
// If we get an error before we get the 100-continue response,
// we need to try another recorder.
if err == nil {
// If the error is nil, we got a 200 response, which
// is unexpected as we haven't sent any data yet.
err = errors.New("recording: unexpected EOF")
}
attempt.FailureMessage = err.Error()
errs = append(errs, err)
continue
}
return pw, attempts, errChan, nil
}
return nil, attempts, nil, multierr.New(errs...)
}
func (ss *sshSession) openFileForRecording(now time.Time) (_ io.WriteCloser, err error) {
varRoot := ss.conn.srv.lb.TailscaleVarRoot()
if varRoot == "" {
return nil, errors.New("no var root for recording storage")
}
dir := filepath.Join(varRoot, "ssh-sessions")
if err := os.MkdirAll(dir, 0700); err != nil {
return nil, err
}
f, err := os.CreateTemp(dir, fmt.Sprintf("ssh-session-%v-*.cast", now.UnixNano()))
if err != nil {
return nil, err
}
return f, nil
}
// startNewRecording starts a new SSH session recording.
// It may return a nil recording if recording is not available.
func (ss *sshSession) startNewRecording() (_ *recording, err error) {
// We store the node key as soon as possible when creating
// a new recording incase of FUS.
nodeKey := ss.conn.srv.lb.NodeKey()
if nodeKey.IsZero() {
return nil, errors.New("ssh server is unavailable: no node key")
}
recorders, onFailure := ss.recorders()
var localRecording bool
if len(recorders) == 0 {
if recordSSHToLocalDisk() {
localRecording = true
} else {
return nil, errors.New("no recorders configured")
}
}
var w ssh.Window
if ptyReq, _, isPtyReq := ss.Pty(); isPtyReq {
w = ptyReq.Window
}
term := envValFromList(ss.Environ(), "TERM")
if term == "" {
term = "xterm-256color" // something non-empty
}
now := time.Now()
rec := &recording{
ss: ss,
start: now,
failOpen: onFailure == nil || onFailure.TerminateSessionWithMessage == "",
}
// We want to use a background context for uploading and not ss.ctx.
// ss.ctx is closed when the session closes, but we don't want to break the upload at that time.
// Instead we want to wait for the session to close the writer when it finishes.
ctx := context.Background()
if localRecording {
rec.out, err = ss.openFileForRecording(now)
if err != nil {
return nil, err
}
} else {
var errChan <-chan error
var attempts []*tailcfg.SSHRecordingAttempt
rec.out, attempts, errChan, err = ss.connectToRecorder(ctx, recorders)
if err != nil {
if onFailure != nil && onFailure.NotifyURL != "" && len(attempts) > 0 {
eventType := tailcfg.SSHSessionRecordingFailed
if onFailure.RejectSessionWithMessage != "" {
eventType = tailcfg.SSHSessionRecordingRejected
}
ss.notifyControl(ctx, nodeKey, eventType, attempts, onFailure.NotifyURL)
}
if onFailure != nil && onFailure.RejectSessionWithMessage != "" {
ss.logf("recording: error starting recording (rejecting session): %v", err)
return nil, userVisibleError{
error: err,
msg: onFailure.RejectSessionWithMessage,
}
}
ss.logf("recording: error starting recording (failing open): %v", err)
return nil, nil
}
go func() {
err := <-errChan
if err == nil {
// Success.
ss.logf("recording: finished uploading recording")
return
}
if onFailure != nil && onFailure.NotifyURL != "" && len(attempts) > 0 {
lastAttempt := attempts[len(attempts)-1]
lastAttempt.FailureMessage = err.Error()
eventType := tailcfg.SSHSessionRecordingFailed
if onFailure.TerminateSessionWithMessage != "" {
eventType = tailcfg.SSHSessionRecordingTerminated
}
ss.notifyControl(ctx, nodeKey, eventType, attempts, onFailure.NotifyURL)
}
if onFailure != nil && onFailure.TerminateSessionWithMessage != "" {
ss.logf("recording: error uploading recording (closing session): %v", err)
ss.cancelCtx(userVisibleError{
error: err,
msg: onFailure.TerminateSessionWithMessage,
})
return
}
ss.logf("recording: error uploading recording (failing open): %v", err)
}()
}
ch := CastHeader{
Version: 2,
Width: w.Width,
Height: w.Height,
Timestamp: now.Unix(),
Command: strings.Join(ss.Command(), " "),
Env: map[string]string{
"TERM": term,
// TODO(bradfitz): anything else important?
// including all seems noisey, but maybe we should
// for auditing. But first need to break
// launchProcess's startWithStdPipes and
// startWithPTY up so that they first return the cmd
// without starting it, and then a step that starts
// it. Then we can (1) make the cmd, (2) start the
// recording, (3) start the process.
},
SSHUser: ss.conn.info.sshUser,
LocalUser: ss.conn.localUser.Username,
SrcNode: strings.TrimSuffix(ss.conn.info.node.Name(), "."),
SrcNodeID: ss.conn.info.node.StableID(),
ConnectionID: ss.conn.connID,
}
if !ss.conn.info.node.IsTagged() {
ch.SrcNodeUser = ss.conn.info.uprof.LoginName
ch.SrcNodeUserID = ss.conn.info.node.User()
} else {
ch.SrcNodeTags = ss.conn.info.node.Tags().AsSlice()
}
j, err := json.Marshal(ch)
if err != nil {
return nil, err
}
j = append(j, '\n')
if _, err := rec.out.Write(j); err != nil {
if errors.Is(err, io.ErrClosedPipe) && ss.ctx.Err() != nil {
// If we got an io.ErrClosedPipe, it's likely because
// the recording server closed the connection on us. Return
// the original context error instead.
return nil, context.Cause(ss.ctx)
}
return nil, err
}
return rec, nil
}
// notifyControl sends a SSHEventNotifyRequest to control over noise.
// A SSHEventNotifyRequest is sent when an action or state reached during
// an SSH session is a defined EventType.
func (ss *sshSession) notifyControl(ctx context.Context, nodeKey key.NodePublic, notifyType tailcfg.SSHEventType, attempts []*tailcfg.SSHRecordingAttempt, url string) {
re := tailcfg.SSHEventNotifyRequest{
EventType: notifyType,
ConnectionID: ss.conn.connID,
CapVersion: tailcfg.CurrentCapabilityVersion,
NodeKey: nodeKey,
SrcNode: ss.conn.info.node.ID(),
SSHUser: ss.conn.info.sshUser,
LocalUser: ss.conn.localUser.Username,
RecordingAttempts: attempts,
}
body, err := json.Marshal(re)
if err != nil {
ss.logf("notifyControl: unable to marshal SSHNotifyRequest:", err)
return
}
req, err := http.NewRequestWithContext(ctx, httpm.POST, url, bytes.NewReader(body))
if err != nil {
ss.logf("notifyControl: unable to create request:", err)
return
}
resp, err := ss.conn.srv.lb.DoNoiseRequest(req)
if err != nil {
ss.logf("notifyControl: unable to send noise request:", err)
return
}
if resp.StatusCode != http.StatusCreated {
ss.logf("notifyControl: noise request returned status code %v", resp.StatusCode)
return
}
}
// recording is the state for an SSH session recording.
type recording struct {
ss *sshSession
start time.Time
// failOpen specifies whether the session should be allowed to
// continue if writing to the recording fails.
failOpen bool
mu sync.Mutex // guards writes to, close of out
out io.WriteCloser
}
func (r *recording) Close() error {
r.mu.Lock()
defer r.mu.Unlock()
if r.out == nil {
return nil
}
err := r.out.Close()
r.out = nil
return err
}
// writer returns an io.Writer around w that first records the write.
//
// The dir should be "i" for input or "o" for output.
//
// If r is nil, it returns w unchanged.
//
// Currently (2023-03-21) we only record output, not input.
func (r *recording) writer(dir string, w io.Writer) io.Writer {
if r == nil {
return w
}
if dir == "i" {
// TODO: record input? Maybe not, since it might contain
// passwords.
return w
}
return &loggingWriter{r: r, dir: dir, w: w}
}
// loggingWriter is an io.Writer wrapper that writes first an
// asciinema JSON cast format recording line, and then writes to w.
type loggingWriter struct {
r *recording
dir string // "i" or "o" (input or output)
w io.Writer // underlying Writer, after writing to r.out
// recordingFailedOpen specifies whether we've failed to write to
// r.out and should stop trying. It is set to true if we fail to write
// to r.out and r.failOpen is set.
recordingFailedOpen bool
}
func (w *loggingWriter) Write(p []byte) (n int, err error) {
if !w.recordingFailedOpen {
j, err := json.Marshal([]any{
time.Since(w.r.start).Seconds(),
w.dir,
string(p),
})
if err != nil {
return 0, err
}
j = append(j, '\n')
if err := w.writeCastLine(j); err != nil {
if !w.r.failOpen {
return 0, err
}
w.recordingFailedOpen = true
}
}
return w.w.Write(p)
}
func (w loggingWriter) writeCastLine(j []byte) error {
w.r.mu.Lock()
defer w.r.mu.Unlock()
if w.r.out == nil {
return errors.New("logger closed")
}
_, err := w.r.out.Write(j)
if err != nil {
return fmt.Errorf("logger Write: %w", err)
}
return nil
}
func envValFromList(env []string, wantKey string) (v string) {
for _, kv := range env {
if thisKey, v, ok := strings.Cut(kv, "="); ok && envEq(thisKey, wantKey) {
return v
}
}
return ""
}
// envEq reports whether environment variable a == b for the current
// operating system.
func envEq(a, b string) bool {
if runtime.GOOS == "windows" {
return strings.EqualFold(a, b)
}
return a == b
}
var (
metricActiveSessions = clientmetric.NewGauge("ssh_active_sessions")
metricIncomingConnections = clientmetric.NewCounter("ssh_incoming_connections")
metricTerminalAccept = clientmetric.NewCounter("ssh_terminalaction_accept")
metricTerminalReject = clientmetric.NewCounter("ssh_terminalaction_reject")
metricTerminalMalformed = clientmetric.NewCounter("ssh_terminalaction_malformed")
metricTerminalFetchError = clientmetric.NewCounter("ssh_terminalaction_fetch_error")
metricHolds = clientmetric.NewCounter("ssh_holds")
metricPolicyChangeKick = clientmetric.NewCounter("ssh_policy_change_kick")
metricSFTP = clientmetric.NewCounter("ssh_sftp_sessions")
metricLocalPortForward = clientmetric.NewCounter("ssh_local_port_forward_requests")
metricRemotePortForward = clientmetric.NewCounter("ssh_remote_port_forward_requests")
)
// userVisibleError is a wrapper around an error that implements
// SSHTerminationError, so msg is written to their session.
type userVisibleError struct {
msg string
error
}
func (ue userVisibleError) SSHTerminationMessage() string { return ue.msg }
// SSHTerminationError is implemented by errors that terminate an SSH
// session and should be written to user's sessions.
type SSHTerminationError interface {
error
SSHTerminationMessage() string
}
func closeAll(cs ...io.Closer) {
for _, c := range cs {
if c != nil {
c.Close()
}
}
}