// Copyright 2018 The gVisor Authors. // // 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 ramfs provides the fundamentals for a simple in-memory filesystem. package ramfs import ( "fmt" "syscall" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/sentry/fs" "gvisor.dev/gvisor/pkg/sentry/fs/fsutil" "gvisor.dev/gvisor/pkg/sentry/socket/unix/transport" "gvisor.dev/gvisor/pkg/sync" "gvisor.dev/gvisor/pkg/syserror" ) // CreateOps represents operations to create different file types. type CreateOps struct { // NewDir creates a new directory. NewDir func(ctx context.Context, dir *fs.Inode, perms fs.FilePermissions) (*fs.Inode, error) // NewFile creates a new file. NewFile func(ctx context.Context, dir *fs.Inode, perms fs.FilePermissions) (*fs.Inode, error) // NewSymlink creates a new symlink with permissions 0777. NewSymlink func(ctx context.Context, dir *fs.Inode, target string) (*fs.Inode, error) // NewBoundEndpoint creates a new socket. NewBoundEndpoint func(ctx context.Context, dir *fs.Inode, ep transport.BoundEndpoint, perms fs.FilePermissions) (*fs.Inode, error) // NewFifo creates a new fifo. NewFifo func(ctx context.Context, dir *fs.Inode, perm fs.FilePermissions) (*fs.Inode, error) } // Dir represents a single directory in the filesystem. // // +stateify savable type Dir struct { fsutil.InodeGenericChecker `state:"nosave"` fsutil.InodeIsDirAllocate `state:"nosave"` fsutil.InodeIsDirTruncate `state:"nosave"` fsutil.InodeNoopWriteOut `state:"nosave"` fsutil.InodeNotMappable `state:"nosave"` fsutil.InodeNotSocket `state:"nosave"` fsutil.InodeNotSymlink `state:"nosave"` fsutil.InodeVirtual `state:"nosave"` fsutil.InodeSimpleAttributes fsutil.InodeSimpleExtendedAttributes // CreateOps may be provided. // // These may only be modified during initialization (while the application // is not running). No sychronization is performed when accessing these // operations during syscalls. *CreateOps `state:"nosave"` // mu protects the fields below. mu sync.Mutex `state:"nosave"` // children are inodes that are in this directory. A reference is held // on each inode while it is in the map. children map[string]*fs.Inode // dentryMap is a sortedDentryMap containing entries for all children. // Its entries are kept up-to-date with d.children. dentryMap *fs.SortedDentryMap } var _ fs.InodeOperations = (*Dir)(nil) // NewDir returns a new Dir with the given contents and attributes. A reference // on each fs.Inode in the `contents` map will be donated to this Dir. func NewDir(ctx context.Context, contents map[string]*fs.Inode, owner fs.FileOwner, perms fs.FilePermissions) *Dir { d := &Dir{ InodeSimpleAttributes: fsutil.NewInodeSimpleAttributes(ctx, owner, perms, linux.RAMFS_MAGIC), } if contents == nil { contents = make(map[string]*fs.Inode) } d.children = contents // Build the entries map ourselves, rather than calling addChildLocked, // because it will be faster. entries := make(map[string]fs.DentAttr, len(contents)) for name, inode := range contents { entries[name] = fs.DentAttr{ Type: inode.StableAttr.Type, InodeID: inode.StableAttr.InodeID, } } d.dentryMap = fs.NewSortedDentryMap(entries) // Directories have an extra link, corresponding to '.'. d.AddLink() return d } // addChildLocked add the child inode, inheriting its reference. func (d *Dir) addChildLocked(ctx context.Context, name string, inode *fs.Inode) { d.children[name] = inode d.dentryMap.Add(name, fs.DentAttr{ Type: inode.StableAttr.Type, InodeID: inode.StableAttr.InodeID, }) // If the child is a directory, increment this dir's link count, // corresponding to '..' from the subdirectory. if fs.IsDir(inode.StableAttr) { d.AddLink() // ctime updated below. } // Given we're now adding this inode to the directory we must also // increase its link count. Similarly we decrement it in removeChildLocked. // // Changing link count updates ctime. inode.AddLink() inode.InodeOperations.NotifyStatusChange(ctx) // We've change the directory. This always updates our mtime and ctime. d.NotifyModificationAndStatusChange(ctx) } // AddChild adds a child to this dir, inheriting its reference. func (d *Dir) AddChild(ctx context.Context, name string, inode *fs.Inode) { d.mu.Lock() defer d.mu.Unlock() d.addChildLocked(ctx, name, inode) } // FindChild returns (child, true) if the directory contains name. func (d *Dir) FindChild(name string) (*fs.Inode, bool) { d.mu.Lock() defer d.mu.Unlock() child, ok := d.children[name] return child, ok } // Children returns the names and DentAttrs of all children. It can be used to // implement Readdir for types that embed ramfs.Dir. func (d *Dir) Children() ([]string, map[string]fs.DentAttr) { d.mu.Lock() defer d.mu.Unlock() // Return a copy to prevent callers from modifying our children. names, entries := d.dentryMap.GetAll() namesCopy := make([]string, len(names)) copy(namesCopy, names) entriesCopy := make(map[string]fs.DentAttr) for k, v := range entries { entriesCopy[k] = v } return namesCopy, entriesCopy } // removeChildLocked attempts to remove an entry from this directory. It // returns the removed fs.Inode along with its reference, which callers are // responsible for decrementing. func (d *Dir) removeChildLocked(ctx context.Context, name string) (*fs.Inode, error) { inode, ok := d.children[name] if !ok { return nil, syserror.EACCES } delete(d.children, name) d.dentryMap.Remove(name) d.NotifyModification(ctx) // If the child was a subdirectory, then we must decrement this dir's // link count which was the child's ".." directory entry. if fs.IsDir(inode.StableAttr) { d.DropLink() // ctime changed below. } // Given we're now removing this inode to the directory we must also // decrease its link count. Similarly it is increased in addChildLocked. // // Changing link count updates ctime. inode.DropLink() inode.InodeOperations.NotifyStatusChange(ctx) // We've change the directory. This always updates our mtime and ctime. d.NotifyModificationAndStatusChange(ctx) return inode, nil } // Remove removes the named non-directory. func (d *Dir) Remove(ctx context.Context, _ *fs.Inode, name string) error { if len(name) > linux.NAME_MAX { return syserror.ENAMETOOLONG } d.mu.Lock() defer d.mu.Unlock() inode, err := d.removeChildLocked(ctx, name) if err != nil { return err } // Remove our reference on the inode. inode.DecRef(ctx) return nil } // RemoveDirectory removes the named directory. func (d *Dir) RemoveDirectory(ctx context.Context, _ *fs.Inode, name string) error { if len(name) > linux.NAME_MAX { return syserror.ENAMETOOLONG } d.mu.Lock() defer d.mu.Unlock() // Get the child and make sure it is not empty. childInode, err := d.walkLocked(ctx, name) if err != nil { return err } if ok, err := hasChildren(ctx, childInode); err != nil { return err } else if ok { return syserror.ENOTEMPTY } // Child was empty. Proceed with removal. inode, err := d.removeChildLocked(ctx, name) if err != nil { return err } // Remove our reference on the inode. inode.DecRef(ctx) return nil } // Lookup loads an inode at p into a Dirent. It returns the fs.Dirent along // with a reference. func (d *Dir) Lookup(ctx context.Context, _ *fs.Inode, p string) (*fs.Dirent, error) { if len(p) > linux.NAME_MAX { return nil, syserror.ENAMETOOLONG } d.mu.Lock() defer d.mu.Unlock() inode, err := d.walkLocked(ctx, p) if err != nil { return nil, err } // Take a reference on the inode before returning it. This reference // is owned by the dirent we are about to create. inode.IncRef() return fs.NewDirent(ctx, inode, p), nil } // walkLocked must be called with d.mu held. func (d *Dir) walkLocked(ctx context.Context, p string) (*fs.Inode, error) { // Lookup a child node. if inode, ok := d.children[p]; ok { return inode, nil } // fs.InodeOperations.Lookup returns syserror.ENOENT if p // does not exist. return nil, syserror.ENOENT } // createInodeOperationsCommon creates a new child node at this dir by calling // makeInodeOperations. It is the common logic for creating a new child. func (d *Dir) createInodeOperationsCommon(ctx context.Context, name string, makeInodeOperations func() (*fs.Inode, error)) (*fs.Inode, error) { if len(name) > linux.NAME_MAX { return nil, syserror.ENAMETOOLONG } d.mu.Lock() defer d.mu.Unlock() inode, err := makeInodeOperations() if err != nil { return nil, err } d.addChildLocked(ctx, name, inode) return inode, nil } // Create creates a new Inode with the given name and returns its File. func (d *Dir) Create(ctx context.Context, dir *fs.Inode, name string, flags fs.FileFlags, perms fs.FilePermissions) (*fs.File, error) { if d.CreateOps == nil || d.CreateOps.NewFile == nil { return nil, syserror.EACCES } inode, err := d.createInodeOperationsCommon(ctx, name, func() (*fs.Inode, error) { return d.NewFile(ctx, dir, perms) }) if err != nil { return nil, err } // Take an extra ref on inode, which will be owned by the dirent. inode.IncRef() // Create the Dirent and corresponding file. created := fs.NewDirent(ctx, inode, name) defer created.DecRef(ctx) return created.Inode.GetFile(ctx, created, flags) } // CreateLink returns a new link. func (d *Dir) CreateLink(ctx context.Context, dir *fs.Inode, oldname, newname string) error { if d.CreateOps == nil || d.CreateOps.NewSymlink == nil { return syserror.EACCES } _, err := d.createInodeOperationsCommon(ctx, newname, func() (*fs.Inode, error) { return d.NewSymlink(ctx, dir, oldname) }) return err } // CreateHardLink creates a new hard link. func (d *Dir) CreateHardLink(ctx context.Context, dir *fs.Inode, target *fs.Inode, name string) error { if len(name) > linux.NAME_MAX { return syserror.ENAMETOOLONG } d.mu.Lock() defer d.mu.Unlock() // Take an extra reference on the inode and add it to our children. target.IncRef() // The link count will be incremented in addChildLocked. d.addChildLocked(ctx, name, target) return nil } // CreateDirectory returns a new subdirectory. func (d *Dir) CreateDirectory(ctx context.Context, dir *fs.Inode, name string, perms fs.FilePermissions) error { if d.CreateOps == nil || d.CreateOps.NewDir == nil { return syserror.EACCES } _, err := d.createInodeOperationsCommon(ctx, name, func() (*fs.Inode, error) { return d.NewDir(ctx, dir, perms) }) return err } // Bind implements fs.InodeOperations.Bind. func (d *Dir) Bind(ctx context.Context, dir *fs.Inode, name string, ep transport.BoundEndpoint, perms fs.FilePermissions) (*fs.Dirent, error) { if d.CreateOps == nil || d.CreateOps.NewBoundEndpoint == nil { return nil, syserror.EACCES } inode, err := d.createInodeOperationsCommon(ctx, name, func() (*fs.Inode, error) { return d.NewBoundEndpoint(ctx, dir, ep, perms) }) if err == syscall.EEXIST { return nil, syscall.EADDRINUSE } if err != nil { return nil, err } // Take another ref on inode which will be donated to the new dirent. inode.IncRef() return fs.NewDirent(ctx, inode, name), nil } // CreateFifo implements fs.InodeOperations.CreateFifo. func (d *Dir) CreateFifo(ctx context.Context, dir *fs.Inode, name string, perms fs.FilePermissions) error { if d.CreateOps == nil || d.CreateOps.NewFifo == nil { return syserror.EACCES } _, err := d.createInodeOperationsCommon(ctx, name, func() (*fs.Inode, error) { return d.NewFifo(ctx, dir, perms) }) return err } // GetFile implements fs.InodeOperations.GetFile. func (d *Dir) GetFile(ctx context.Context, dirent *fs.Dirent, flags fs.FileFlags) (*fs.File, error) { flags.Pread = true return fs.NewFile(ctx, dirent, flags, &dirFileOperations{dir: d}), nil } // Rename implements fs.InodeOperations.Rename. func (*Dir) Rename(ctx context.Context, inode *fs.Inode, oldParent *fs.Inode, oldName string, newParent *fs.Inode, newName string, replacement bool) error { return Rename(ctx, oldParent.InodeOperations, oldName, newParent.InodeOperations, newName, replacement) } // Release implements fs.InodeOperation.Release. func (d *Dir) Release(ctx context.Context) { // Drop references on all children. d.mu.Lock() for _, i := range d.children { i.DecRef(ctx) } d.mu.Unlock() } // dirFileOperations implements fs.FileOperations for a ramfs directory. // // +stateify savable type dirFileOperations struct { fsutil.DirFileOperations `state:"nosave"` fsutil.FileUseInodeUnstableAttr `state:"nosave"` // dirCursor contains the name of the last directory entry that was // serialized. dirCursor string // dir is the ramfs dir that this file corresponds to. dir *Dir } var _ fs.FileOperations = (*dirFileOperations)(nil) // Seek implements fs.FileOperations.Seek. func (dfo *dirFileOperations) Seek(ctx context.Context, file *fs.File, whence fs.SeekWhence, offset int64) (int64, error) { return fsutil.SeekWithDirCursor(ctx, file, whence, offset, &dfo.dirCursor) } // IterateDir implements DirIterator.IterateDir. func (dfo *dirFileOperations) IterateDir(ctx context.Context, d *fs.Dirent, dirCtx *fs.DirCtx, offset int) (int, error) { dfo.dir.mu.Lock() defer dfo.dir.mu.Unlock() n, err := fs.GenericReaddir(dirCtx, dfo.dir.dentryMap) return offset + n, err } // Readdir implements FileOperations.Readdir. func (dfo *dirFileOperations) Readdir(ctx context.Context, file *fs.File, serializer fs.DentrySerializer) (int64, error) { root := fs.RootFromContext(ctx) if root != nil { defer root.DecRef(ctx) } dirCtx := &fs.DirCtx{ Serializer: serializer, DirCursor: &dfo.dirCursor, } dfo.dir.InodeSimpleAttributes.NotifyAccess(ctx) return fs.DirentReaddir(ctx, file.Dirent, dfo, root, dirCtx, file.Offset()) } // hasChildren is a helper method that determines whether an arbitrary inode // (not necessarily ramfs) has any children. func hasChildren(ctx context.Context, inode *fs.Inode) (bool, error) { // Take an extra ref on inode which will be given to the dirent and // dropped when that dirent is destroyed. inode.IncRef() d := fs.NewTransientDirent(inode) defer d.DecRef(ctx) file, err := inode.GetFile(ctx, d, fs.FileFlags{Read: true}) if err != nil { return false, err } defer file.DecRef(ctx) ser := &fs.CollectEntriesSerializer{} if err := file.Readdir(ctx, ser); err != nil { return false, err } // We will always write "." and "..", so ignore those two. if ser.Written() > 2 { return true, nil } return false, nil } // Rename renames from a *ramfs.Dir to another *ramfs.Dir. func Rename(ctx context.Context, oldParent fs.InodeOperations, oldName string, newParent fs.InodeOperations, newName string, replacement bool) error { op, ok := oldParent.(*Dir) if !ok { return syserror.EXDEV } np, ok := newParent.(*Dir) if !ok { return syserror.EXDEV } if len(newName) > linux.NAME_MAX { return syserror.ENAMETOOLONG } np.mu.Lock() defer np.mu.Unlock() // Is this is an overwriting rename? if replacement { replaced, ok := np.children[newName] if !ok { panic(fmt.Sprintf("Dirent claims rename is replacement, but %q is missing from %+v", newName, np)) } // Non-empty directories cannot be replaced. if fs.IsDir(replaced.StableAttr) { if ok, err := hasChildren(ctx, replaced); err != nil { return err } else if ok { return syserror.ENOTEMPTY } } // Remove the replaced child and drop our reference on it. inode, err := np.removeChildLocked(ctx, newName) if err != nil { return err } inode.DecRef(ctx) } // Be careful, we may have already grabbed this mutex above. if op != np { op.mu.Lock() defer op.mu.Unlock() } // Do the swap. n := op.children[oldName] op.removeChildLocked(ctx, oldName) np.addChildLocked(ctx, newName, n) return nil }