// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause package ipnlocal import ( "errors" "fmt" "regexp" "strings" "tailscale.com/ipn" "tailscale.com/tailcfg" "tailscale.com/tailfs" "tailscale.com/types/netmap" "tailscale.com/types/views" ) const ( // TailFSLocalPort is the port on which the TailFS listens for location // connections on quad 100. TailFSLocalPort = 8080 ) var ( shareNameRegex = regexp.MustCompile(`^[a-z0-9_\(\) ]+$`) errInvalidShareName = errors.New("Share names may only contain the letters a-z, underscore _, parentheses (), or spaces") ) // TailFSSharingEnabled reports whether sharing to remote nodes via tailfs is // enabled. This is currently based on checking for the tailfs:share node // attribute. func (b *LocalBackend) TailFSSharingEnabled() bool { b.mu.Lock() defer b.mu.Unlock() return b.tailFSSharingEnabledLocked() } func (b *LocalBackend) tailFSSharingEnabledLocked() bool { return b.netMap != nil && b.netMap.SelfNode.HasCap(tailcfg.NodeAttrsTailFSShare) } // TailFSAccessEnabled reports whether accessing TailFS shares on remote nodes // is enabled. This is currently based on checking for the tailfs:access node // attribute. func (b *LocalBackend) TailFSAccessEnabled() bool { b.mu.Lock() defer b.mu.Unlock() return b.tailFSAccessEnabledLocked() } func (b *LocalBackend) tailFSAccessEnabledLocked() bool { return b.netMap != nil && b.netMap.SelfNode.HasCap(tailcfg.NodeAttrsTailFSAccess) } // TailFSSetFileServerAddr tells tailfs to use the given address for connecting // to the tailfs.FileServer that's exposing local files as an unprivileged // user. func (b *LocalBackend) TailFSSetFileServerAddr(addr string) error { fs, ok := b.sys.TailFSForRemote.GetOK() if !ok { return errors.New("tailfs not enabled") } fs.SetFileServerAddr(addr) return nil } // TailFSAddShare adds the given share if no share with that name exists, or // replaces the existing share if one with the same name already exists. // To avoid potential incompatibilities across file systems, share names are // limited to alphanumeric characters and the underscore _. func (b *LocalBackend) TailFSAddShare(share *tailfs.Share) error { var err error share.Name, err = normalizeShareName(share.Name) if err != nil { return err } b.mu.Lock() shares, err := b.tailFSAddShareLocked(share) b.mu.Unlock() if err != nil { return err } b.tailFSNotifyShares(shares) return nil } // normalizeShareName normalizes the given share name and returns an error if // it contains any disallowed characters. func normalizeShareName(name string) (string, error) { // Force all share names to lowercase to avoid potential incompatibilities // with clients that don't support case-sensitive filenames. name = strings.ToLower(name) // Trim whitespace name = strings.TrimSpace(name) if !shareNameRegex.MatchString(name) { return "", errInvalidShareName } return name, nil } func (b *LocalBackend) tailFSAddShareLocked(share *tailfs.Share) (views.SliceView[*tailfs.Share, tailfs.ShareView], error) { existingShares := b.pm.prefs.TailFSShares() fs, ok := b.sys.TailFSForRemote.GetOK() if !ok { return existingShares, errors.New("tailfs not enabled") } addedShare := false var shares []*tailfs.Share for i := 0; i < existingShares.Len(); i++ { existing := existingShares.At(i) if existing.Name() != share.Name { if !addedShare && existing.Name() > share.Name { // Add share in order shares = append(shares, share) addedShare = true } shares = append(shares, existing.AsStruct()) } } if !addedShare { shares = append(shares, share) } err := b.tailFSSetSharesLocked(shares) if err != nil { return existingShares, err } fs.SetShares(shares) return b.pm.prefs.TailFSShares(), nil } // TailFSRemoveShare removes the named share. Share names are forced to // lowercase. func (b *LocalBackend) TailFSRemoveShare(name string) error { // Force all share names to lowercase to avoid potential incompatibilities // with clients that don't support case-sensitive filenames. var err error name, err = normalizeShareName(name) if err != nil { return err } b.mu.Lock() shares, err := b.tailFSRemoveShareLocked(name) b.mu.Unlock() if err != nil { return err } b.tailFSNotifyShares(shares) return nil } func (b *LocalBackend) tailFSRemoveShareLocked(name string) (views.SliceView[*tailfs.Share, tailfs.ShareView], error) { existingShares := b.pm.prefs.TailFSShares() fs, ok := b.sys.TailFSForRemote.GetOK() if !ok { return existingShares, errors.New("tailfs not enabled") } var shares []*tailfs.Share for i := 0; i < existingShares.Len(); i++ { existing := existingShares.At(i) if existing.Name() != name { shares = append(shares, existing.AsStruct()) } } err := b.tailFSSetSharesLocked(shares) if err != nil { return existingShares, err } fs.SetShares(shares) return b.pm.prefs.TailFSShares(), nil } func (b *LocalBackend) tailFSSetSharesLocked(shares []*tailfs.Share) error { prefs := b.pm.prefs.AsStruct() prefs.ApplyEdits(&ipn.MaskedPrefs{ Prefs: ipn.Prefs{ TailFSShares: shares, }, TailFSSharesSet: true, }) return b.pm.setPrefsLocked(prefs.View()) } // tailFSNotifyShares notifies IPN bus listeners (e.g. Mac Application process) // about the latest list of shares. func (b *LocalBackend) tailFSNotifyShares(shares views.SliceView[*tailfs.Share, tailfs.ShareView]) { b.send(ipn.Notify{TailFSShares: shares}) } // tailFSNotifyCurrentSharesLocked sends an ipn.Notify if the current set of // shares has changed since the last notification. func (b *LocalBackend) tailFSNotifyCurrentSharesLocked() { var shares views.SliceView[*tailfs.Share, tailfs.ShareView] if b.tailFSSharingEnabledLocked() { // Only populate shares if sharing is enabled. shares = b.pm.prefs.TailFSShares() } lastNotified := b.lastNotifiedTailFSShares.Load() if lastNotified == nil || !tailFSShareViewsEqual(lastNotified, shares) { // Do the below on a goroutine to avoid deadlocking on b.mu in b.send(). if shares.IsNil() { // set to a non-nil value to indicate we have 0 shares shares = views.SliceOfViews(make([]*tailfs.Share, 0)) } go b.tailFSNotifyShares(shares) } } func tailFSShareViewsEqual(a *views.SliceView[*tailfs.Share, tailfs.ShareView], b views.SliceView[*tailfs.Share, tailfs.ShareView]) bool { if a == nil { return false } if a.Len() != b.Len() { return false } for i := 0; i < a.Len(); i++ { if !tailfs.ShareViewsEqual(a.At(i), b.At(i)) { return false } } return true } // TailFSGetShares() gets the current list of TailFS shares, sorted by name. func (b *LocalBackend) TailFSGetShares() views.SliceView[*tailfs.Share, tailfs.ShareView] { b.mu.Lock() defer b.mu.Unlock() return b.pm.prefs.TailFSShares() } // updateTailFSPeersLocked sets all applicable peers from the netmap as tailfs // remotes. func (b *LocalBackend) updateTailFSPeersLocked(nm *netmap.NetworkMap) { fs, ok := b.sys.TailFSForLocal.GetOK() if !ok { return } var tailFSRemotes []*tailfs.Remote if b.tailFSAccessEnabledLocked() { // Only populate peers if access is enabled, otherwise leave blank. tailFSRemotes = b.tailFSRemotesFromPeers(nm) } fs.SetRemotes(b.netMap.Domain, tailFSRemotes, &tailFSTransport{b: b}) } func (b *LocalBackend) tailFSRemotesFromPeers(nm *netmap.NetworkMap) []*tailfs.Remote { tailFSRemotes := make([]*tailfs.Remote, 0, len(nm.Peers)) for _, p := range nm.Peers { // Exclude mullvad exit nodes from list of TailFS peers // TODO(oxtoacart) - once we have a better mechanism for finding only accessible sharers // (see below) we can remove this logic. if strings.HasSuffix(p.Name(), ".mullvad.ts.net.") { continue } peerID := p.ID() url := fmt.Sprintf("%s/%s", peerAPIBase(nm, p), tailFSPrefix[1:]) tailFSRemotes = append(tailFSRemotes, &tailfs.Remote{ Name: p.DisplayName(false), URL: url, Available: func() bool { // TODO(oxtoacart): need to figure out a performant and reliable way to only // show the peers that have shares to which we have access // This will require work on the control server to transmit the inverse // of the "tailscale.com/cap/tailfs" capability. // For now, at least limit it only to nodes that are online. // Note, we have to iterate the latest netmap because the peer we got from the first iteration may not be it b.mu.Lock() latestNetMap := b.netMap b.mu.Unlock() for _, candidate := range latestNetMap.Peers { if candidate.ID() == peerID { online := candidate.Online() // TODO(oxtoacart): for some reason, this correctly // catches when a node goes from offline to online, // but not the other way around... return online != nil && *online } } // peer not found, must not be available return false }, }) } return tailFSRemotes }