// Copyright 2018 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package gofer import ( "fmt" "sync" "gvisor.googlesource.com/gvisor/pkg/p9" "gvisor.googlesource.com/gvisor/pkg/refs" "gvisor.googlesource.com/gvisor/pkg/sentry/context" "gvisor.googlesource.com/gvisor/pkg/sentry/device" "gvisor.googlesource.com/gvisor/pkg/sentry/fs" "gvisor.googlesource.com/gvisor/pkg/sentry/fs/fsutil" "gvisor.googlesource.com/gvisor/pkg/tcpip/transport/unix" "gvisor.googlesource.com/gvisor/pkg/unet" ) // +stateify savable type endpointMaps struct { // mu protexts the direntMap, the keyMap, and the pathMap below. mu sync.RWMutex `state:"nosave"` // direntMap links sockets to their dirents. // It is filled concurrently with the keyMap and is stored upon save. // Before saving, this map is used to populate the pathMap. direntMap map[unix.BoundEndpoint]*fs.Dirent // keyMap links MultiDeviceKeys (containing inode IDs) to their sockets. // It is not stored during save because the inode ID may change upon restore. keyMap map[device.MultiDeviceKey]unix.BoundEndpoint `state:"nosave"` // pathMap links the sockets to their paths. // It is filled before saving from the direntMap and is stored upon save. // Upon restore, this map is used to re-populate the keyMap. pathMap map[unix.BoundEndpoint]string } // add adds the endpoint to the maps. // A reference is taken on the dirent argument. // // Precondition: maps must have been locked with 'lock'. func (e *endpointMaps) add(key device.MultiDeviceKey, d *fs.Dirent, ep unix.BoundEndpoint) { e.keyMap[key] = ep d.IncRef() e.direntMap[ep] = d } // remove deletes the key from the maps. // // Precondition: maps must have been locked with 'lock'. func (e *endpointMaps) remove(key device.MultiDeviceKey) { endpoint := e.get(key) delete(e.keyMap, key) d := e.direntMap[endpoint] d.DecRef() delete(e.direntMap, endpoint) } // lock blocks other addition and removal operations from happening while // the backing file is being created or deleted. Returns a function that unlocks // the endpoint map. func (e *endpointMaps) lock() func() { e.mu.Lock() return func() { e.mu.Unlock() } } // get returns the endpoint mapped to the given key. // // Precondition: maps must have been locked for reading. func (e *endpointMaps) get(key device.MultiDeviceKey) unix.BoundEndpoint { return e.keyMap[key] } // session holds state for each 9p session established during sys_mount. // // +stateify savable type session struct { refs.AtomicRefCount // conn is a unet.Socket that wraps the readFD/writeFD mount option, // see fs/gofer/fs.go. conn *unet.Socket `state:"nosave"` // msize is the value of the msize mount option, see fs/gofer/fs.go. msize uint32 `state:"wait"` // version is the value of the version mount option, see fs/gofer/fs.go. version string `state:"wait"` // cachePolicy is the cache policy. It may be either cacheAll or cacheNone. cachePolicy cachePolicy `state:"wait"` // aname is the value of the aname mount option, see fs/gofer/fs.go. aname string `state:"wait"` // The client associated with this session. This will be initialized lazily. client *p9.Client `state:"nosave"` // The p9.File pointing to attachName via the client. This will be initialized // lazily. attach contextFile `state:"nosave"` // Flags provided to the mount. superBlockFlags fs.MountSourceFlags `state:"wait"` // connID is a unique identifier for the session connection. connID string `state:"wait"` // inodeMappings contains mappings of fs.Inodes associated with this session // to paths relative to the attach point, where inodeMappings is keyed by // Inode.StableAttr.InodeID. inodeMappings map[uint64]string `state:"wait"` // mounter is the EUID/EGID that mounted this file system. mounter fs.FileOwner `state:"wait"` // endpoints is used to map inodes that represent socket files to their // corresponding endpoint. Socket files are created as regular files in the // gofer and their presence in this map indicate that they should indeed be // socket files. This allows unix domain sockets to be used with paths that // belong to a gofer. // // TODO: there are few possible races with someone stat'ing the // file and another deleting it concurrently, where the file will not be // reported as socket file. endpoints *endpointMaps `state:"wait"` } // Destroy tears down the session. func (s *session) Destroy() { s.conn.Close() } // Revalidate implements MountSource.Revalidate. func (s *session) Revalidate(ctx context.Context, name string, parent, child *fs.Inode) bool { return s.cachePolicy.revalidate(ctx, name, parent, child) } // Keep implements MountSource.Keep. func (s *session) Keep(d *fs.Dirent) bool { return s.cachePolicy.keep(d) } // ResetInodeMappings implements fs.MountSourceOperations.ResetInodeMappings. func (s *session) ResetInodeMappings() { s.inodeMappings = make(map[uint64]string) } // SaveInodeMapping implements fs.MountSourceOperations.SaveInodeMapping. func (s *session) SaveInodeMapping(inode *fs.Inode, path string) { // This is very unintuitive. We *CANNOT* trust the inode's StableAttrs, // because overlay copyUp may have changed them out from under us. // So much for "immutable". sattr := inode.InodeOperations.(*inodeOperations).fileState.sattr s.inodeMappings[sattr.InodeID] = path } // newInodeOperations creates a new 9p fs.InodeOperations backed by a p9.File and attributes // (p9.QID, p9.AttrMask, p9.Attr). // // Endpoints lock must not be held if socket == false. func newInodeOperations(ctx context.Context, s *session, file contextFile, qid p9.QID, valid p9.AttrMask, attr p9.Attr, socket bool) (fs.StableAttr, *inodeOperations) { deviceKey := device.MultiDeviceKey{ Device: attr.RDev, SecondaryDevice: s.connID, Inode: qid.Path, } sattr := fs.StableAttr{ Type: ntype(attr), DeviceID: goferDevice.DeviceID(), InodeID: goferDevice.Map(deviceKey), BlockSize: bsize(attr), } if s.endpoints != nil { if socket { sattr.Type = fs.Socket } else { // If unix sockets are allowed on this filesystem, check if this file is // supposed to be a socket file. unlock := s.endpoints.lock() if s.endpoints.get(deviceKey) != nil { sattr.Type = fs.Socket } unlock() } } fileState := &inodeFileState{ s: s, file: file, sattr: sattr, key: deviceKey, } uattr := unstable(ctx, valid, attr, s.mounter, s.client) return sattr, &inodeOperations{ fileState: fileState, cachingInodeOps: fsutil.NewCachingInodeOperations(ctx, fileState, uattr, s.superBlockFlags.ForcePageCache), } } // Root returns the root of a 9p mount. This mount is bound to a 9p server // based on conn. Otherwise configuration parameters are: // // * dev: connection id // * filesystem: the filesystem backing the mount // * superBlockFlags: the mount flags describing general mount options // * opts: parsed 9p mount options func Root(ctx context.Context, dev string, filesystem fs.Filesystem, superBlockFlags fs.MountSourceFlags, o opts) (*fs.Inode, error) { // The mounting EUID/EGID will be cached by this file system. This will // be used to assign ownership to files that the Gofer owns. mounter := fs.FileOwnerFromContext(ctx) conn, err := unet.NewSocket(o.fd) if err != nil { return nil, err } // Construct the session. s := &session{ connID: dev, conn: conn, msize: o.msize, version: o.version, cachePolicy: o.policy, aname: o.aname, superBlockFlags: superBlockFlags, mounter: mounter, } if o.privateunixsocket { s.endpoints = newEndpointMaps() } // Construct the MountSource with the session and superBlockFlags. m := fs.NewMountSource(s, filesystem, superBlockFlags) // Send the Tversion request. s.client, err = p9.NewClient(s.conn, s.msize, s.version) if err != nil { // Drop our reference on the session, it needs to be torn down. s.DecRef() return nil, err } // Notify that we're about to call the Gofer and block. ctx.UninterruptibleSleepStart(false) // Send the Tattach request. s.attach.file, err = s.client.Attach(s.aname) ctx.UninterruptibleSleepFinish(false) if err != nil { // Same as above. s.DecRef() return nil, err } qid, valid, attr, err := s.attach.getAttr(ctx, p9.AttrMaskAll()) if err != nil { s.attach.close(ctx) // Same as above, but after we execute the Close request. s.DecRef() return nil, err } sattr, iops := newInodeOperations(ctx, s, s.attach, qid, valid, attr, false) return fs.NewInode(iops, m, sattr), nil } // newEndpointMaps creates a new endpointMaps. func newEndpointMaps() *endpointMaps { return &endpointMaps{ direntMap: make(map[unix.BoundEndpoint]*fs.Dirent), keyMap: make(map[device.MultiDeviceKey]unix.BoundEndpoint), pathMap: make(map[unix.BoundEndpoint]string), } } // fillKeyMap populates key and dirent maps upon restore from saved // pathmap. func (s *session) fillKeyMap(ctx context.Context) error { unlock := s.endpoints.lock() defer unlock() for ep, dirPath := range s.endpoints.pathMap { _, file, err := s.attach.walk(ctx, splitAbsolutePath(dirPath)) if err != nil { return fmt.Errorf("error filling endpointmaps, failed to walk to %q: %v", dirPath, err) } qid, _, attr, err := file.getAttr(ctx, p9.AttrMaskAll()) if err != nil { return fmt.Errorf("failed to get file attributes of %s: %v", dirPath, err) } key := device.MultiDeviceKey{ Device: attr.RDev, SecondaryDevice: s.connID, Inode: qid.Path, } s.endpoints.keyMap[key] = ep } return nil } // fillPathMap populates paths for endpoints from dirents in direntMap // before save. func (s *session) fillPathMap() error { unlock := s.endpoints.lock() defer unlock() for ep, dir := range s.endpoints.direntMap { mountRoot := dir.MountRoot() defer mountRoot.DecRef() dirPath, _ := dir.FullName(mountRoot) if dirPath == "" { return fmt.Errorf("error getting path from dirent") } s.endpoints.pathMap[ep] = dirPath } return nil } // restoreEndpointMaps recreates and fills the key and dirent maps. func (s *session) restoreEndpointMaps(ctx context.Context) error { // When restoring, only need to create the keyMap because the dirent and path // maps got stored through the save. s.endpoints.keyMap = make(map[device.MultiDeviceKey]unix.BoundEndpoint) if err := s.fillKeyMap(ctx); err != nil { return fmt.Errorf("failed to insert sockets into endpoint map: %v", err) } // Re-create pathMap because it can no longer be trusted as socket paths can // change while process continues to run. Empty pathMap will be re-filled upon // next save. s.endpoints.pathMap = make(map[unix.BoundEndpoint]string) return nil }