// Copyright (c) 2021 Tailscale Inc & AUTHORS All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package ipnlocal import ( "context" "errors" "fmt" "hash/crc32" "html" "io" "io/fs" "net" "net/http" "net/url" "os" "path" "path/filepath" "runtime" "sort" "strconv" "strings" "sync" "time" "unicode" "unicode/utf8" "inet.af/netaddr" "tailscale.com/client/tailscale/apitype" "tailscale.com/ipn" "tailscale.com/logtail/backoff" "tailscale.com/net/interfaces" "tailscale.com/syncs" "tailscale.com/tailcfg" "tailscale.com/wgengine" ) var initListenConfig func(*net.ListenConfig, netaddr.IP, *interfaces.State, string) error type peerAPIServer struct { b *LocalBackend rootDir string tunName string selfNode *tailcfg.Node knownEmpty syncs.AtomicBool // directFileMode is whether we're writing files directly to a // download directory (as *.partial files), rather than making // the frontend retrieve it over localapi HTTP and write it // somewhere itself. This is used on GUI macOS version. directFileMode bool } const ( partialSuffix = ".partial" // deletedSuffix is the suffix for a deleted marker file // that's placed next to a file (without the suffix) that we // tried to delete, but Windows wouldn't let us. These are // only written on Windows (and in tests), but they're not // permitted to be uploaded directly on any platform, like // partial files. deletedSuffix = ".deleted" ) func validFilenameRune(r rune) bool { switch r { case '/': return false case '\\', ':', '*', '"', '<', '>', '|': // Invalid stuff on Windows, but we reject them everywhere // for now. // TODO(bradfitz): figure out a better plan. We initially just // wrote things to disk URL path-escaped, but that's gross // when debugging, and just moves the problem to callers. // So now we put the UTF-8 filenames on disk directly as // sent. return false } return unicode.IsPrint(r) } func (s *peerAPIServer) diskPath(baseName string) (fullPath string, ok bool) { if !utf8.ValidString(baseName) { return "", false } if strings.TrimSpace(baseName) != baseName { return "", false } if len(baseName) > 255 { return "", false } // TODO: validate unicode normalization form too? Varies by platform. clean := path.Clean(baseName) if clean != baseName || clean == "." || clean == ".." || strings.HasSuffix(clean, deletedSuffix) || strings.HasSuffix(clean, partialSuffix) { return "", false } for _, r := range baseName { if !validFilenameRune(r) { return "", false } } return filepath.Join(s.rootDir, baseName), true } // hasFilesWaiting reports whether any files are buffered in the // tailscaled daemon storage. func (s *peerAPIServer) hasFilesWaiting() bool { if s.rootDir == "" || s.directFileMode { return false } if s.knownEmpty.Get() { // Optimization: this is usually empty, so avoid opening // the directory and checking. We can't cache the actual // has-files-or-not values as the macOS/iOS client might // in the future use+delete the files directly. So only // keep this negative cache. return false } f, err := os.Open(s.rootDir) if err != nil { return false } defer f.Close() for { des, err := f.ReadDir(10) for _, de := range des { name := de.Name() if strings.HasSuffix(name, partialSuffix) { continue } if strings.HasSuffix(name, deletedSuffix) { // for Windows + tests // After we're done looping over files, then try // to delete this file. Don't do it proactively, // as the OS may return "foo.jpg.deleted" before "foo.jpg" // and we don't want to delete the ".deleted" file before // enumerating to the "foo.jpg" file. defer tryDeleteAgain(filepath.Join(s.rootDir, strings.TrimSuffix(name, deletedSuffix))) continue } if de.Type().IsRegular() { _, err := os.Stat(filepath.Join(s.rootDir, name+deletedSuffix)) if os.IsNotExist(err) { return true } if err == nil { tryDeleteAgain(filepath.Join(s.rootDir, name)) continue } } } if err == io.EOF { s.knownEmpty.Set(true) } if err != nil { break } } return false } // WaitingFiles returns the list of files that have been sent by a // peer that are waiting in the buffered "pick up" directory owned by // the Tailscale daemon. // // As a side effect, it also does any lazy deletion of files as // required by Windows. func (s *peerAPIServer) WaitingFiles() (ret []apitype.WaitingFile, err error) { if s.rootDir == "" { return nil, errors.New("peerapi disabled; no storage configured") } if s.directFileMode { return nil, nil } f, err := os.Open(s.rootDir) if err != nil { return nil, err } defer f.Close() var deleted map[string]bool // "foo.jpg" => true (if "foo.jpg.deleted" exists) for { des, err := f.ReadDir(10) for _, de := range des { name := de.Name() if strings.HasSuffix(name, partialSuffix) { continue } if strings.HasSuffix(name, deletedSuffix) { // for Windows + tests if deleted == nil { deleted = map[string]bool{} } deleted[strings.TrimSuffix(name, deletedSuffix)] = true continue } if de.Type().IsRegular() { fi, err := de.Info() if err != nil { continue } ret = append(ret, apitype.WaitingFile{ Name: filepath.Base(name), Size: fi.Size(), }) } } if err == io.EOF { break } if err != nil { return nil, err } } if len(deleted) > 0 { // Filter out any return values "foo.jpg" where a // "foo.jpg.deleted" marker file exists on disk. all := ret ret = ret[:0] for _, wf := range all { if !deleted[wf.Name] { ret = append(ret, wf) } } // And do some opportunistic deleting while we're here. // Maybe Windows is done virus scanning the file we tried // to delete a long time ago and will let us delete it now. for name := range deleted { tryDeleteAgain(filepath.Join(s.rootDir, name)) } } sort.Slice(ret, func(i, j int) bool { return ret[i].Name < ret[j].Name }) return ret, nil } // tryDeleteAgain tries to delete path (and path+deletedSuffix) after // it failed earlier. This happens on Windows when various anti-virus // tools hook into filesystem operations and have the file open still // while we're trying to delete it. In that case we instead mark it as // deleted (writing a "foo.jpg.deleted" marker file), but then we // later try to clean them up. // // fullPath is the full path to the file without the deleted suffix. func tryDeleteAgain(fullPath string) { if err := os.Remove(fullPath); err == nil || os.IsNotExist(err) { os.Remove(fullPath + deletedSuffix) } } func (s *peerAPIServer) DeleteFile(baseName string) error { if s.rootDir == "" { return errors.New("peerapi disabled; no storage configured") } if s.directFileMode { return errors.New("deletes not allowed in direct mode") } path, ok := s.diskPath(baseName) if !ok { return errors.New("bad filename") } var bo *backoff.Backoff logf := s.b.logf t0 := time.Now() for { err := os.Remove(path) if err != nil && !os.IsNotExist(err) { err = redactErr(err) // Put a retry loop around deletes on Windows. Windows // file descriptor closes are effectively asynchronous, // as a bunch of hooks run on/after close, and we can't // necessarily delete the file for a while after close, // as we need to wait for everybody to be done with // it. (on Windows, unlike Unix, a file can't be deleted // if it's open anywhere) // So try a few times but ultimately just leave a // "foo.jpg.deleted" marker file to note that it's // deleted and we clean it up later. if runtime.GOOS == "windows" { if bo == nil { bo = backoff.NewBackoff("delete-retry", logf, 1*time.Second) } if time.Since(t0) < 5*time.Second { bo.BackOff(context.Background(), err) continue } if err := redactErr(touchFile(path + deletedSuffix)); err != nil { logf("peerapi: failed to leave deleted marker: %v", err) } } logf("peerapi: failed to DeleteFile: %v", err) return err } return nil } } func redactErr(err error) error { if pe, ok := err.(*os.PathError); ok { pe.Path = "redacted" } return err } func touchFile(path string) error { f, err := os.OpenFile(path, os.O_RDWR|os.O_CREATE, 0666) if err != nil { return err } return f.Close() } func (s *peerAPIServer) OpenFile(baseName string) (rc io.ReadCloser, size int64, err error) { if s.rootDir == "" { return nil, 0, errors.New("peerapi disabled; no storage configured") } if s.directFileMode { return nil, 0, errors.New("opens not allowed in direct mode") } path, ok := s.diskPath(baseName) if !ok { return nil, 0, errors.New("bad filename") } if fi, err := os.Stat(path + deletedSuffix); err == nil && fi.Mode().IsRegular() { tryDeleteAgain(path) return nil, 0, &fs.PathError{Op: "open", Path: path, Err: fs.ErrNotExist} } f, err := os.Open(path) if err != nil { return nil, 0, err } fi, err := f.Stat() if err != nil { f.Close() return nil, 0, err } return f, fi.Size(), nil } func (s *peerAPIServer) listen(ip netaddr.IP, ifState *interfaces.State) (ln net.Listener, err error) { ipStr := ip.String() var lc net.ListenConfig if initListenConfig != nil { // On iOS/macOS, this sets the lc.Control hook to // setsockopt the interface index to bind to, to get // out of the network sandbox. if err := initListenConfig(&lc, ip, ifState, s.tunName); err != nil { return nil, err } if runtime.GOOS == "darwin" || runtime.GOOS == "ios" { ipStr = "" } } if wgengine.IsNetstack(s.b.e) { ipStr = "" } tcp4or6 := "tcp4" if ip.Is6() { tcp4or6 = "tcp6" } // Make a best effort to pick a deterministic port number for // the ip The lower three bytes are the same for IPv4 and IPv6 // Tailscale addresses (at least currently), so we'll usually // get the same port number on both address families for // dev/debugging purposes, which is nice. But it's not so // deterministic that people will bake this into clients. // We try a few times just in case something's already // listening on that port (on all interfaces, probably). for try := uint8(0); try < 5; try++ { a16 := ip.As16() hashData := a16[len(a16)-3:] hashData[0] += try tryPort := (32 << 10) | uint16(crc32.ChecksumIEEE(hashData)) ln, err = lc.Listen(context.Background(), tcp4or6, net.JoinHostPort(ipStr, strconv.Itoa(int(tryPort)))) if err == nil { return ln, nil } } // Fall back to random ephemeral port. return lc.Listen(context.Background(), tcp4or6, net.JoinHostPort(ipStr, "0")) } type peerAPIListener struct { ps *peerAPIServer ip netaddr.IP lb *LocalBackend // ln is the Listener. It can be nil in netstack mode if there are more than // 1 local addresses (e.g. both an IPv4 and IPv6). When it's nil, port // and urlStr are still populated. ln net.Listener // urlStr is the base URL to access the peer API (http://ip:port/). urlStr string // port is just the port of urlStr. port int } func (pln *peerAPIListener) Close() error { if pln.ln != nil { return pln.ln.Close() } return nil } func (pln *peerAPIListener) serve() { if pln.ln == nil { return } defer pln.ln.Close() logf := pln.lb.logf for { c, err := pln.ln.Accept() if errors.Is(err, net.ErrClosed) { return } if err != nil { logf("peerapi.Accept: %v", err) return } ta, ok := c.RemoteAddr().(*net.TCPAddr) if !ok { c.Close() logf("peerapi: unexpected RemoteAddr %#v", c.RemoteAddr()) continue } ipp, ok := netaddr.FromStdAddr(ta.IP, ta.Port, "") if !ok { logf("peerapi: bogus TCPAddr %#v", ta) c.Close() continue } peerNode, peerUser, ok := pln.lb.WhoIs(ipp) if !ok { logf("peerapi: unknown peer %v", ipp) c.Close() continue } h := &peerAPIHandler{ ps: pln.ps, isSelf: pln.ps.selfNode.User == peerNode.User, remoteAddr: ipp, peerNode: peerNode, peerUser: peerUser, } httpServer := &http.Server{ Handler: h, } go httpServer.Serve(&oneConnListener{Listener: pln.ln, conn: c}) } } type oneConnListener struct { net.Listener conn net.Conn } func (l *oneConnListener) Accept() (c net.Conn, err error) { c = l.conn if c == nil { err = io.EOF return } err = nil l.conn = nil return } func (l *oneConnListener) Close() error { return nil } // peerAPIHandler serves the Peer API for a source specific client. type peerAPIHandler struct { ps *peerAPIServer remoteAddr netaddr.IPPort isSelf bool // whether peerNode is owned by same user as this node peerNode *tailcfg.Node // peerNode is who's making the request peerUser tailcfg.UserProfile // profile of peerNode } func (h *peerAPIHandler) logf(format string, a ...interface{}) { h.ps.b.logf("peerapi: "+format, a...) } func (h *peerAPIHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { if strings.HasPrefix(r.URL.Path, "/v0/put/") { h.handlePeerPut(w, r) return } if r.URL.Path == "/v0/goroutines" { h.handleServeGoroutines(w, r) return } who := h.peerUser.DisplayName fmt.Fprintf(w, `
You are the owner of this node.\n") } } type incomingFile struct { name string // "foo.jpg" started time.Time size int64 // or -1 if unknown; never 0 w io.Writer // underlying writer ph *peerAPIHandler partialPath string // non-empty in direct mode mu sync.Mutex copied int64 done bool lastNotify time.Time } func (f *incomingFile) markAndNotifyDone() { f.mu.Lock() f.done = true f.mu.Unlock() b := f.ph.ps.b b.sendFileNotify() } func (f *incomingFile) Write(p []byte) (n int, err error) { n, err = f.w.Write(p) b := f.ph.ps.b var needNotify bool defer func() { if needNotify { b.sendFileNotify() } }() if n > 0 { f.mu.Lock() defer f.mu.Unlock() f.copied += int64(n) now := time.Now() if f.lastNotify.IsZero() || now.Sub(f.lastNotify) > time.Second { f.lastNotify = now needNotify = true } } return n, err } func (f *incomingFile) PartialFile() ipn.PartialFile { f.mu.Lock() defer f.mu.Unlock() return ipn.PartialFile{ Name: f.name, Started: f.started, DeclaredSize: f.size, Received: f.copied, PartialPath: f.partialPath, Done: f.done, } } func (h *peerAPIHandler) handlePeerPut(w http.ResponseWriter, r *http.Request) { if !h.isSelf { http.Error(w, "not owner", http.StatusForbidden) return } if !h.ps.b.hasCapFileSharing() { http.Error(w, "file sharing not enabled by Tailscale admin", http.StatusForbidden) return } if r.Method != "PUT" { http.Error(w, "expected method PUT", http.StatusMethodNotAllowed) return } if h.ps.rootDir == "" { http.Error(w, "no rootdir", http.StatusInternalServerError) return } rawPath := r.URL.EscapedPath() suffix := strings.TrimPrefix(rawPath, "/v0/put/") if suffix == rawPath { http.Error(w, "misconfigured internals", 500) return } if suffix == "" { http.Error(w, "empty filename", 400) return } if strings.Contains(suffix, "/") { http.Error(w, "directories not supported", 400) return } baseName, err := url.PathUnescape(suffix) if err != nil { http.Error(w, "bad path encoding", 400) return } dstFile, ok := h.ps.diskPath(baseName) if !ok { http.Error(w, "bad filename", 400) return } if h.ps.directFileMode { dstFile += partialSuffix } f, err := os.Create(dstFile) if err != nil { h.logf("put Create error: %v", err) http.Error(w, err.Error(), http.StatusInternalServerError) return } var success bool defer func() { if !success { os.Remove(dstFile) } }() var finalSize int64 var inFile *incomingFile if r.ContentLength != 0 { inFile = &incomingFile{ name: baseName, started: time.Now(), size: r.ContentLength, w: f, ph: h, } if h.ps.directFileMode { inFile.partialPath = dstFile } h.ps.b.registerIncomingFile(inFile, true) defer h.ps.b.registerIncomingFile(inFile, false) n, err := io.Copy(inFile, r.Body) if err != nil { f.Close() h.logf("put Copy error: %v", err) http.Error(w, err.Error(), http.StatusInternalServerError) return } finalSize = n } if err := f.Close(); err != nil { h.logf("put Close error: %v", err) http.Error(w, err.Error(), http.StatusInternalServerError) return } if h.ps.directFileMode { if inFile != nil { // non-zero length; TODO: notify even for zero length inFile.markAndNotifyDone() } } h.logf("put of %s from %v/%v", approxSize(finalSize), h.remoteAddr.IP, h.peerNode.ComputedName) // TODO: set modtime // TODO: some real response success = true io.WriteString(w, "{}\n") h.ps.knownEmpty.Set(false) h.ps.b.sendFileNotify() } func approxSize(n int64) string { if n <= 1<<10 { return "<=1KB" } if n <= 1<<20 { return "<=1MB" } return fmt.Sprintf("~%dMB", n>>20) } func (h *peerAPIHandler) handleServeGoroutines(w http.ResponseWriter, r *http.Request) { if !h.isSelf { http.Error(w, "not owner", http.StatusForbidden) return } var buf []byte for size := 4 << 10; size <= 2<<20; size *= 2 { buf = make([]byte, size) buf = buf[:runtime.Stack(buf, true)] if len(buf) < size { break } } w.Write(buf) }