// Copyright 2019 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 gofer import ( "fmt" "sync" "sync/atomic" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/p9" "gvisor.dev/gvisor/pkg/sentry/kernel/auth" "gvisor.dev/gvisor/pkg/sentry/kernel/pipe" "gvisor.dev/gvisor/pkg/sentry/socket/unix/transport" "gvisor.dev/gvisor/pkg/sentry/vfs" "gvisor.dev/gvisor/pkg/syserror" "gvisor.dev/gvisor/pkg/usermem" ) func (d *dentry) isDir() bool { return d.fileType() == linux.S_IFDIR } // Preconditions: filesystem.renameMu must be locked. d.dirMu must be locked. // d.isDir(). child must be a newly-created dentry that has never had a parent. func (d *dentry) cacheNewChildLocked(child *dentry, name string) { d.IncRef() // reference held by child on its parent child.parent = d child.name = name if d.children == nil { d.children = make(map[string]*dentry) } d.children[name] = child } // Preconditions: d.dirMu must be locked. d.isDir(). func (d *dentry) cacheNegativeLookupLocked(name string) { // Don't cache negative lookups if InteropModeShared is in effect (since // this makes remote lookup unavoidable), or if d.isSynthetic() (in which // case the only files in the directory are those for which a dentry exists // in d.children). Instead, just delete any previously-cached dentry. if d.fs.opts.interop == InteropModeShared || d.isSynthetic() { delete(d.children, name) return } if d.children == nil { d.children = make(map[string]*dentry) } d.children[name] = nil } type createSyntheticOpts struct { name string mode linux.FileMode kuid auth.KUID kgid auth.KGID // The endpoint for a synthetic socket. endpoint should be nil if the file // being created is not a socket. endpoint transport.BoundEndpoint // pipe should be nil if the file being created is not a pipe. pipe *pipe.VFSPipe } // createSyntheticChildLocked creates a synthetic file with the given name // in d. // // Preconditions: d.dirMu must be locked. d.isDir(). d does not already contain // a child with the given name. func (d *dentry) createSyntheticChildLocked(opts *createSyntheticOpts) { d2 := &dentry{ refs: 1, // held by d fs: d.fs, mode: uint32(opts.mode), uid: uint32(opts.kuid), gid: uint32(opts.kgid), blockSize: usermem.PageSize, // arbitrary handle: handle{ fd: -1, }, nlink: uint32(2), } switch opts.mode.FileType() { case linux.S_IFDIR: // Nothing else needs to be done. case linux.S_IFSOCK: d2.endpoint = opts.endpoint case linux.S_IFIFO: d2.pipe = opts.pipe default: panic(fmt.Sprintf("failed to create synthetic file of unrecognized type: %v", opts.mode.FileType())) } d2.pf.dentry = d2 d2.vfsd.Init(d2) d.cacheNewChildLocked(d2, opts.name) d.syntheticChildren++ } type directoryFD struct { fileDescription vfs.DirectoryFileDescriptionDefaultImpl mu sync.Mutex off int64 dirents []vfs.Dirent } // Release implements vfs.FileDescriptionImpl.Release. func (fd *directoryFD) Release() { } // IterDirents implements vfs.FileDescriptionImpl.IterDirents. func (fd *directoryFD) IterDirents(ctx context.Context, cb vfs.IterDirentsCallback) error { fd.mu.Lock() defer fd.mu.Unlock() d := fd.dentry() if fd.dirents == nil { ds, err := d.getDirents(ctx) if err != nil { return err } fd.dirents = ds } d.InotifyWithParent(linux.IN_ACCESS, 0, vfs.PathEvent) if d.cachedMetadataAuthoritative() { d.touchAtime(fd.vfsfd.Mount()) } for fd.off < int64(len(fd.dirents)) { if err := cb.Handle(fd.dirents[fd.off]); err != nil { return err } fd.off++ } return nil } // Preconditions: d.isDir(). There exists at least one directoryFD representing d. func (d *dentry) getDirents(ctx context.Context) ([]vfs.Dirent, error) { // NOTE(b/135560623): 9P2000.L's readdir does not specify behavior in the // presence of concurrent mutation of an iterated directory, so // implementations may duplicate or omit entries in this case, which // violates POSIX semantics. Thus we read all directory entries while // holding d.dirMu to exclude directory mutations. (Note that it is // impossible for the client to exclude concurrent mutation from other // remote filesystem users. Since there is no way to detect if the server // has incorrectly omitted directory entries, we simply assume that the // server is well-behaved under InteropModeShared.) This is inconsistent // with Linux (which appears to assume that directory fids have the correct // semantics, and translates struct file_operations::readdir calls directly // to readdir RPCs), but is consistent with VFS1. // filesystem.renameMu is needed for d.parent, and must be locked before // dentry.dirMu. d.fs.renameMu.RLock() defer d.fs.renameMu.RUnlock() d.dirMu.Lock() defer d.dirMu.Unlock() if d.dirents != nil { return d.dirents, nil } // It's not clear if 9P2000.L's readdir is expected to return "." and "..", // so we generate them here. parent := genericParentOrSelf(d) dirents := []vfs.Dirent{ { Name: ".", Type: linux.DT_DIR, Ino: d.ino, NextOff: 1, }, { Name: "..", Type: uint8(atomic.LoadUint32(&parent.mode) >> 12), Ino: parent.ino, NextOff: 2, }, } var realChildren map[string]struct{} if !d.isSynthetic() { if d.syntheticChildren != 0 && d.fs.opts.interop == InteropModeShared { // Record the set of children d actually has so that we don't emit // duplicate entries for synthetic children. realChildren = make(map[string]struct{}) } off := uint64(0) const count = 64 * 1024 // for consistency with the vfs1 client d.handleMu.RLock() if !d.handleReadable { // This should not be possible because a readable handle should // have been opened when the calling directoryFD was opened. d.handleMu.RUnlock() panic("gofer.dentry.getDirents called without a readable handle") } for { p9ds, err := d.handle.file.readdir(ctx, off, count) if err != nil { d.handleMu.RUnlock() return nil, err } if len(p9ds) == 0 { d.handleMu.RUnlock() break } for _, p9d := range p9ds { if p9d.Name == "." || p9d.Name == ".." { continue } dirent := vfs.Dirent{ Name: p9d.Name, Ino: p9d.QID.Path, NextOff: int64(len(dirents) + 1), } // p9 does not expose 9P2000.U's DMDEVICE, DMNAMEDPIPE, or // DMSOCKET. switch p9d.Type { case p9.TypeSymlink: dirent.Type = linux.DT_LNK case p9.TypeDir: dirent.Type = linux.DT_DIR default: dirent.Type = linux.DT_REG } dirents = append(dirents, dirent) if realChildren != nil { realChildren[p9d.Name] = struct{}{} } } off = p9ds[len(p9ds)-1].Offset } } // Emit entries for synthetic children. if d.syntheticChildren != 0 { for _, child := range d.children { if child == nil || !child.isSynthetic() { continue } if _, ok := realChildren[child.name]; ok { continue } dirents = append(dirents, vfs.Dirent{ Name: child.name, Type: uint8(atomic.LoadUint32(&child.mode) >> 12), Ino: child.ino, NextOff: int64(len(dirents) + 1), }) } } // Cache dirents for future directoryFDs if permitted. if d.cachedMetadataAuthoritative() { d.dirents = dirents } return dirents, nil } // Seek implements vfs.FileDescriptionImpl.Seek. func (fd *directoryFD) Seek(ctx context.Context, offset int64, whence int32) (int64, error) { fd.mu.Lock() defer fd.mu.Unlock() switch whence { case linux.SEEK_SET: if offset < 0 { return 0, syserror.EINVAL } if offset == 0 { // Ensure that the next call to fd.IterDirents() calls // fd.dentry().getDirents(). fd.dirents = nil } fd.off = offset return fd.off, nil case linux.SEEK_CUR: offset += fd.off if offset < 0 { return 0, syserror.EINVAL } // Don't clear fd.dirents in this case, even if offset == 0. fd.off = offset return fd.off, nil default: return 0, syserror.EINVAL } } // Sync implements vfs.FileDescriptionImpl.Sync. func (fd *directoryFD) Sync(ctx context.Context) error { return fd.dentry().handle.sync(ctx) }