// 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 fs import ( "math" "sync/atomic" "gvisor.dev/gvisor/pkg/amutex" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/refs" "gvisor.dev/gvisor/pkg/sentry/fs/lock" "gvisor.dev/gvisor/pkg/sentry/fsmetric" "gvisor.dev/gvisor/pkg/sentry/limits" "gvisor.dev/gvisor/pkg/sentry/memmap" "gvisor.dev/gvisor/pkg/sentry/uniqueid" "gvisor.dev/gvisor/pkg/sync" "gvisor.dev/gvisor/pkg/syserror" "gvisor.dev/gvisor/pkg/usermem" "gvisor.dev/gvisor/pkg/waiter" ) // FileMaxOffset is the maximum possible file offset. const FileMaxOffset = math.MaxInt64 // File is an open file handle. It is thread-safe. // // File provides stronger synchronization guarantees than Linux. Linux // synchronizes lseek(2), read(2), and write(2) with respect to the file // offset for regular files and only for those interfaces. See // fs/read_write.c:fdget_pos, fs.read_write.c:fdput_pos and FMODE_ATOMIC_POS. // // In contrast, File synchronizes any operation that could take a long time // under a single abortable mutex which also synchronizes lseek(2), read(2), // and write(2). // // FIXME(b/38451980): Split synchronization from cancellation. // // +stateify savable type File struct { refs.AtomicRefCount // UniqueID is the globally unique identifier of the File. UniqueID uint64 // Dirent is the Dirent backing this File. This encodes the name // of the File via Dirent.FullName() as well as its identity via the // Dirent's Inode. The Dirent is non-nil. // // A File holds a reference to this Dirent. Using the returned Dirent is // only safe as long as a reference on the File is held. The association // between a File and a Dirent is immutable. // // Files that are not parented in a filesystem return a root Dirent // that holds a reference to their Inode. // // The name of the Dirent may reflect parentage if the Dirent is not a // root Dirent or the identity of the File on a pseudo filesystem (pipefs, // sockfs, etc). // // Multiple Files may hold a reference to the same Dirent. This is the // common case for Files that are parented and maintain consistency with // other files via the Dirent cache. Dirent *Dirent // flagsMu protects flags and async below. flagsMu sync.Mutex `state:"nosave"` // flags are the File's flags. Setting or getting flags is fully atomic // and is not protected by mu (below). flags FileFlags // async handles O_ASYNC notifications. async FileAsync // saving indicates that this file is in the process of being saved. saving bool `state:"nosave"` // mu is dual-purpose: first, to make read(2) and write(2) thread-safe // in conformity with POSIX, and second, to cancel operations before they // begin in response to interruptions (i.e. signals). mu amutex.AbortableMutex `state:"nosave"` // FileOperations implements file system specific behavior for this File. FileOperations FileOperations `state:"wait"` // offset is the File's offset. Updating offset is protected by mu but // can be read atomically via File.Offset() outside of mu. offset int64 } // NewFile returns a File. It takes a reference on the Dirent and owns the // lifetime of the FileOperations. Files that do not support reading and // writing at an arbitrary offset should set flags.Pread and flags.Pwrite // to false respectively. func NewFile(ctx context.Context, dirent *Dirent, flags FileFlags, fops FileOperations) *File { dirent.IncRef() f := File{ UniqueID: uniqueid.GlobalFromContext(ctx), Dirent: dirent, FileOperations: fops, flags: flags, } f.mu.Init() f.EnableLeakCheck("fs.File") return &f } // DecRef destroys the File when it is no longer referenced. func (f *File) DecRef(ctx context.Context) { f.DecRefWithDestructor(ctx, func(context.Context) { // Drop BSD style locks. lockRng := lock.LockRange{Start: 0, End: lock.LockEOF} f.Dirent.Inode.LockCtx.BSD.UnlockRegion(f, lockRng) // Release resources held by the FileOperations. f.FileOperations.Release(ctx) // Release a reference on the Dirent. f.Dirent.DecRef(ctx) // Only unregister if we are currently registered. There is nothing // to register if f.async is nil (this happens when async mode is // enabled without setting an owner). Also, we unregister during // save. f.flagsMu.Lock() if !f.saving && f.flags.Async && f.async != nil { f.async.Unregister(f) } f.async = nil f.flagsMu.Unlock() }) } // Flags atomically loads the File's flags. func (f *File) Flags() FileFlags { f.flagsMu.Lock() flags := f.flags f.flagsMu.Unlock() return flags } // SetFlags atomically changes the File's flags to the values contained // in newFlags. See SettableFileFlags for values that can be set. func (f *File) SetFlags(newFlags SettableFileFlags) { f.flagsMu.Lock() f.flags.Direct = newFlags.Direct f.flags.NonBlocking = newFlags.NonBlocking f.flags.Append = newFlags.Append if f.async != nil { if newFlags.Async && !f.flags.Async { f.async.Register(f) } if !newFlags.Async && f.flags.Async { f.async.Unregister(f) } } f.flags.Async = newFlags.Async f.flagsMu.Unlock() } // Offset atomically loads the File's offset. func (f *File) Offset() int64 { return atomic.LoadInt64(&f.offset) } // Readiness implements waiter.Waitable.Readiness. func (f *File) Readiness(mask waiter.EventMask) waiter.EventMask { return f.FileOperations.Readiness(mask) } // EventRegister implements waiter.Waitable.EventRegister. func (f *File) EventRegister(e *waiter.Entry, mask waiter.EventMask) { f.FileOperations.EventRegister(e, mask) } // EventUnregister implements waiter.Waitable.EventUnregister. func (f *File) EventUnregister(e *waiter.Entry) { f.FileOperations.EventUnregister(e) } // Seek calls f.FileOperations.Seek with f as the File, updating the file // offset to the value returned by f.FileOperations.Seek if the operation // is successful. // // Returns syserror.ErrInterrupted if seeking was interrupted. func (f *File) Seek(ctx context.Context, whence SeekWhence, offset int64) (int64, error) { if !f.mu.Lock(ctx) { return 0, syserror.ErrInterrupted } defer f.mu.Unlock() newOffset, err := f.FileOperations.Seek(ctx, f, whence, offset) if err == nil { atomic.StoreInt64(&f.offset, newOffset) } return newOffset, err } // Readdir reads the directory entries of this File and writes them out // to the DentrySerializer until entries can no longer be written. If even // a single directory entry is written then Readdir returns a nil error // and the directory offset is advanced. // // Readdir unconditionally updates the access time on the File's Inode, // see fs/readdir.c:iterate_dir. // // Returns syserror.ErrInterrupted if reading was interrupted. func (f *File) Readdir(ctx context.Context, serializer DentrySerializer) error { if !f.mu.Lock(ctx) { return syserror.ErrInterrupted } defer f.mu.Unlock() offset, err := f.FileOperations.Readdir(ctx, f, serializer) atomic.StoreInt64(&f.offset, offset) return err } // Readv calls f.FileOperations.Read with f as the File, advancing the file // offset if f.FileOperations.Read returns bytes read > 0. // // Returns syserror.ErrInterrupted if reading was interrupted. func (f *File) Readv(ctx context.Context, dst usermem.IOSequence) (int64, error) { start := fsmetric.StartReadWait() defer fsmetric.FinishReadWait(fsmetric.ReadWait, start) if !f.mu.Lock(ctx) { return 0, syserror.ErrInterrupted } fsmetric.Reads.Increment() n, err := f.FileOperations.Read(ctx, f, dst, f.offset) if n > 0 && !f.flags.NonSeekable { atomic.AddInt64(&f.offset, n) } f.mu.Unlock() return n, err } // Preadv calls f.FileOperations.Read with f as the File. It does not // advance the file offset. If !f.Flags().Pread, Preadv should not be // called. // // Otherwise same as Readv. func (f *File) Preadv(ctx context.Context, dst usermem.IOSequence, offset int64) (int64, error) { start := fsmetric.StartReadWait() defer fsmetric.FinishReadWait(fsmetric.ReadWait, start) if !f.mu.Lock(ctx) { return 0, syserror.ErrInterrupted } fsmetric.Reads.Increment() n, err := f.FileOperations.Read(ctx, f, dst, offset) f.mu.Unlock() return n, err } // Writev calls f.FileOperations.Write with f as the File, advancing the // file offset if f.FileOperations.Write returns bytes written > 0. // // Writev positions the write offset at EOF if f.Flags().Append. This is // unavoidably racy for network file systems. Writev also truncates src // to avoid overrunning the current file size limit if necessary. // // Returns syserror.ErrInterrupted if writing was interrupted. func (f *File) Writev(ctx context.Context, src usermem.IOSequence) (int64, error) { if !f.mu.Lock(ctx) { return 0, syserror.ErrInterrupted } unlockAppendMu := f.Dirent.Inode.lockAppendMu(f.Flags().Append) // Handle append mode. if f.Flags().Append { if err := f.offsetForAppend(ctx, &f.offset); err != nil { unlockAppendMu() f.mu.Unlock() return 0, err } } // Enforce file limits. limit, ok := f.checkLimit(ctx, f.offset) switch { case ok && limit == 0: unlockAppendMu() f.mu.Unlock() return 0, syserror.ErrExceedsFileSizeLimit case ok: src = src.TakeFirst64(limit) } // We must hold the lock during the write. n, err := f.FileOperations.Write(ctx, f, src, f.offset) if n >= 0 && !f.flags.NonSeekable { atomic.StoreInt64(&f.offset, f.offset+n) } unlockAppendMu() f.mu.Unlock() return n, err } // Pwritev calls f.FileOperations.Write with f as the File. It does not // advance the file offset. If !f.Flags().Pwritev, Pwritev should not be // called. // // Otherwise same as Writev. func (f *File) Pwritev(ctx context.Context, src usermem.IOSequence, offset int64) (int64, error) { // "POSIX requires that opening a file with the O_APPEND flag should // have no effect on the location at which pwrite() writes data. // However, on Linux, if a file is opened with O_APPEND, pwrite() // appends data to the end of the file, regardless of the value of // offset." unlockAppendMu := f.Dirent.Inode.lockAppendMu(f.Flags().Append) defer unlockAppendMu() if f.Flags().Append { if err := f.offsetForAppend(ctx, &offset); err != nil { return 0, err } } // Enforce file limits. limit, ok := f.checkLimit(ctx, offset) switch { case ok && limit == 0: return 0, syserror.ErrExceedsFileSizeLimit case ok: src = src.TakeFirst64(limit) } return f.FileOperations.Write(ctx, f, src, offset) } // offsetForAppend atomically sets the given offset to the end of the file. // // Precondition: the file.Dirent.Inode.appendMu mutex should be held for // writing. func (f *File) offsetForAppend(ctx context.Context, offset *int64) error { uattr, err := f.Dirent.Inode.UnstableAttr(ctx) if err != nil { // This is an odd error, we treat it as evidence that // something is terribly wrong with the filesystem. return syserror.EIO } // Update the offset. atomic.StoreInt64(offset, uattr.Size) return nil } // checkLimit checks the offset that the write will be performed at. The // returned boolean indicates that the write must be limited. The returned // integer indicates the new maximum write length. func (f *File) checkLimit(ctx context.Context, offset int64) (int64, bool) { if IsRegular(f.Dirent.Inode.StableAttr) { // Enforce size limits. fileSizeLimit := limits.FromContext(ctx).Get(limits.FileSize).Cur if fileSizeLimit <= math.MaxInt64 { if offset >= int64(fileSizeLimit) { return 0, true } return int64(fileSizeLimit) - offset, true } } return 0, false } // Fsync calls f.FileOperations.Fsync with f as the File. // // Returns syserror.ErrInterrupted if syncing was interrupted. func (f *File) Fsync(ctx context.Context, start int64, end int64, syncType SyncType) error { if !f.mu.Lock(ctx) { return syserror.ErrInterrupted } defer f.mu.Unlock() return f.FileOperations.Fsync(ctx, f, start, end, syncType) } // Flush calls f.FileOperations.Flush with f as the File. // // Returns syserror.ErrInterrupted if syncing was interrupted. func (f *File) Flush(ctx context.Context) error { if !f.mu.Lock(ctx) { return syserror.ErrInterrupted } defer f.mu.Unlock() return f.FileOperations.Flush(ctx, f) } // ConfigureMMap calls f.FileOperations.ConfigureMMap with f as the File. // // Returns syserror.ErrInterrupted if interrupted. func (f *File) ConfigureMMap(ctx context.Context, opts *memmap.MMapOpts) error { if !f.mu.Lock(ctx) { return syserror.ErrInterrupted } defer f.mu.Unlock() return f.FileOperations.ConfigureMMap(ctx, f, opts) } // UnstableAttr calls f.FileOperations.UnstableAttr with f as the File. // // Returns syserror.ErrInterrupted if interrupted. func (f *File) UnstableAttr(ctx context.Context) (UnstableAttr, error) { if !f.mu.Lock(ctx) { return UnstableAttr{}, syserror.ErrInterrupted } defer f.mu.Unlock() return f.FileOperations.UnstableAttr(ctx, f) } // MappedName implements memmap.MappingIdentity.MappedName. func (f *File) MappedName(ctx context.Context) string { root := RootFromContext(ctx) if root != nil { defer root.DecRef(ctx) } name, _ := f.Dirent.FullName(root) return name } // DeviceID implements memmap.MappingIdentity.DeviceID. func (f *File) DeviceID() uint64 { return f.Dirent.Inode.StableAttr.DeviceID } // InodeID implements memmap.MappingIdentity.InodeID. func (f *File) InodeID() uint64 { return f.Dirent.Inode.StableAttr.InodeID } // Msync implements memmap.MappingIdentity.Msync. func (f *File) Msync(ctx context.Context, mr memmap.MappableRange) error { return f.Fsync(ctx, int64(mr.Start), int64(mr.End-1), SyncData) } // A FileAsync sends signals to its owner when w is ready for IO. type FileAsync interface { Register(w waiter.Waitable) Unregister(w waiter.Waitable) } // Async gets the stored FileAsync or creates a new one with the supplied // function. If the supplied function is nil, no FileAsync is created and the // current value is returned. func (f *File) Async(newAsync func() FileAsync) FileAsync { f.flagsMu.Lock() defer f.flagsMu.Unlock() if f.async == nil && newAsync != nil { f.async = newAsync() if f.flags.Async { f.async.Register(f) } } return f.async } // lockedReader implements io.Reader and io.ReaderAt. // // Note this reads the underlying file using the file operations directly. It // is the responsibility of the caller to ensure that locks are appropriately // held and offsets updated if required. This should be used only by internal // functions that perform these operations and checks at other times. type lockedReader struct { // Ctx is the context for the file reader. Ctx context.Context // File is the file to read from. File *File // Offset is the offset to start at. // // This applies only to Read, not ReadAt. Offset int64 } // Read implements io.Reader.Read. func (r *lockedReader) Read(buf []byte) (int, error) { if r.Ctx.Interrupted() { return 0, syserror.ErrInterrupted } n, err := r.File.FileOperations.Read(r.Ctx, r.File, usermem.BytesIOSequence(buf), r.Offset) r.Offset += n return int(n), err } // ReadAt implements io.Reader.ReadAt. func (r *lockedReader) ReadAt(buf []byte, offset int64) (int, error) { if r.Ctx.Interrupted() { return 0, syserror.ErrInterrupted } n, err := r.File.FileOperations.Read(r.Ctx, r.File, usermem.BytesIOSequence(buf), offset) return int(n), err } // lockedWriter implements io.Writer and io.WriterAt. // // The same constraints as lockedReader apply; see above. type lockedWriter struct { // Ctx is the context for the file writer. Ctx context.Context // File is the file to write to. File *File // Offset is the offset to start at. // // This applies only to Write, not WriteAt. Offset int64 } // Write implements io.Writer.Write. func (w *lockedWriter) Write(buf []byte) (int, error) { if w.Ctx.Interrupted() { return 0, syserror.ErrInterrupted } n, err := w.WriteAt(buf, w.Offset) w.Offset += int64(n) return int(n), err } // WriteAt implements io.Writer.WriteAt. func (w *lockedWriter) WriteAt(buf []byte, offset int64) (int, error) { var ( written int err error ) // The io.Writer contract requires that Write writes all available // bytes and does not return short writes. This causes errors with // io.Copy, since our own Write interface does not have this same // contract. Enforce that here. for written < len(buf) { if w.Ctx.Interrupted() { return written, syserror.ErrInterrupted } var n int64 n, err = w.File.FileOperations.Write(w.Ctx, w.File, usermem.BytesIOSequence(buf[written:]), offset+int64(written)) if n > 0 { written += int(n) } if err != nil { break } } return written, err }