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// Copyright 2018 Google LLC
//
// 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 (
"sync"
"gvisor.googlesource.com/gvisor/pkg/log"
"gvisor.googlesource.com/gvisor/pkg/refs"
"gvisor.googlesource.com/gvisor/pkg/sentry/arch"
"gvisor.googlesource.com/gvisor/pkg/sentry/context"
"gvisor.googlesource.com/gvisor/pkg/sentry/memmap"
"gvisor.googlesource.com/gvisor/pkg/sentry/usermem"
"gvisor.googlesource.com/gvisor/pkg/syserror"
"gvisor.googlesource.com/gvisor/pkg/waiter"
)
// overlayFile gets a handle to a file from the upper or lower filesystem
// in an overlay. The caller is responsible for calling File.DecRef on
// the returned file.
func overlayFile(ctx context.Context, inode *Inode, flags FileFlags) (*File, error) {
// Do a song and dance to eventually get to:
//
// File -> single reference
// Dirent -> single reference
// Inode -> multiple references
//
// So that File.DecRef() -> File.destroy -> Dirent.DecRef -> Dirent.destroy,
// and both the transitory File and Dirent can be GC'ed but the Inode
// remains.
// Take another reference on the Inode.
inode.IncRef()
// Start with a single reference on the Dirent. It inherits the reference
// we just took on the Inode above.
dirent := NewTransientDirent(inode)
// Get a File. This will take another reference on the Dirent.
f, err := inode.GetFile(ctx, dirent, flags)
// Drop the extra reference on the Dirent. Now there's only one reference
// on the dirent, either owned by f (if non-nil), or the Dirent is about
// to be destroyed (if GetFile failed).
dirent.DecRef()
return f, err
}
// overlayFileOperations implements FileOperations for a file in an overlay.
//
// +stateify savable
type overlayFileOperations struct {
// upperMu protects upper below. In contrast lower is stable.
upperMu sync.Mutex `state:"nosave"`
// We can't share Files in upper and lower filesystems between all Files
// in an overlay because some file systems expect to get distinct handles
// that are not consistent with each other on open(2).
//
// So we lazily acquire an upper File when the overlayEntry acquires an
// upper Inode (it might have one from the start). This synchronizes with
// copy up.
//
// If upper is non-nil and this is not a directory, then lower is ignored.
//
// For directories, upper and lower are ignored because it is always
// necessary to acquire new directory handles so that the directory cursors
// of the upper and lower Files are not exhausted.
upper *File
lower *File
// dirCursor is a directory cursor for a directory in an overlay. It is
// protected by File.mu of the owning file, which is held during
// Readdir and Seek calls.
dirCursor string
// dirCacheMu protects dirCache.
dirCacheMu sync.RWMutex `state:"nosave"`
// dirCache is cache of DentAttrs from upper and lower Inodes.
dirCache *SortedDentryMap
}
// Release implements FileOperations.Release.
func (f *overlayFileOperations) Release() {
if f.upper != nil {
f.upper.DecRef()
}
if f.lower != nil {
f.lower.DecRef()
}
}
// EventRegister implements FileOperations.EventRegister.
func (f *overlayFileOperations) EventRegister(we *waiter.Entry, mask waiter.EventMask) {
f.upperMu.Lock()
defer f.upperMu.Unlock()
if f.upper != nil {
f.upper.EventRegister(we, mask)
return
}
f.lower.EventRegister(we, mask)
}
// EventUnregister implements FileOperations.Unregister.
func (f *overlayFileOperations) EventUnregister(we *waiter.Entry) {
f.upperMu.Lock()
defer f.upperMu.Unlock()
if f.upper != nil {
f.upper.EventUnregister(we)
return
}
f.lower.EventUnregister(we)
}
// Readiness implements FileOperations.Readiness.
func (f *overlayFileOperations) Readiness(mask waiter.EventMask) waiter.EventMask {
f.upperMu.Lock()
defer f.upperMu.Unlock()
if f.upper != nil {
return f.upper.Readiness(mask)
}
return f.lower.Readiness(mask)
}
// Seek implements FileOperations.Seek.
func (f *overlayFileOperations) Seek(ctx context.Context, file *File, whence SeekWhence, offset int64) (int64, error) {
f.upperMu.Lock()
defer f.upperMu.Unlock()
var seekDir bool
var n int64
if f.upper != nil {
var err error
if n, err = f.upper.FileOperations.Seek(ctx, file, whence, offset); err != nil {
return n, err
}
seekDir = IsDir(f.upper.Dirent.Inode.StableAttr)
} else {
var err error
if n, err = f.lower.FileOperations.Seek(ctx, file, whence, offset); err != nil {
return n, err
}
seekDir = IsDir(f.lower.Dirent.Inode.StableAttr)
}
// If this was a seek on a directory, we must update the cursor.
if seekDir && whence == SeekSet && offset == 0 {
// Currently only seeking to 0 on a directory is supported.
// FIXME: Lift directory seeking limitations.
f.dirCursor = ""
}
return n, nil
}
// Readdir implements FileOperations.Readdir.
func (f *overlayFileOperations) Readdir(ctx context.Context, file *File, serializer DentrySerializer) (int64, error) {
root := RootFromContext(ctx)
if root != nil {
defer root.DecRef()
}
dirCtx := &DirCtx{
Serializer: serializer,
DirCursor: &f.dirCursor,
}
// If the directory dirent is frozen, then DirentReaddir will calculate
// the children based off the frozen dirent tree. There is no need to
// call readdir on the upper/lower layers.
if file.Dirent.frozen {
return DirentReaddir(ctx, file.Dirent, f, root, dirCtx, file.Offset())
}
// Otherwise proceed with usual overlay readdir.
o := file.Dirent.Inode.overlay
// readdirEntries holds o.copyUpMu to ensure that copy-up does not
// occur while calculating the readir results.
//
// However, it is possible for a copy-up to occur after the call to
// readdirEntries, but before setting f.dirCache. This is OK, since
// copy-up only does not change the children in a way that would affect
// the children returned in dirCache. Copy-up only moves
// files/directories between layers in the overlay.
//
// It is also possible for Readdir to race with a Create operation
// (which may trigger a copy-up during it's execution). Depending on
// whether the Create happens before or after the readdirEntries call,
// the newly created file may or may not appear in the readdir results.
// But this can only be caused by a real race between readdir and
// create syscalls, so it's also OK.
dirCache, err := readdirEntries(ctx, o)
if err != nil {
return file.Offset(), err
}
f.dirCacheMu.Lock()
f.dirCache = dirCache
f.dirCacheMu.Unlock()
return DirentReaddir(ctx, file.Dirent, f, root, dirCtx, file.Offset())
}
// IterateDir implements DirIterator.IterateDir.
func (f *overlayFileOperations) IterateDir(ctx context.Context, dirCtx *DirCtx, offset int) (int, error) {
f.dirCacheMu.RLock()
n, err := GenericReaddir(dirCtx, f.dirCache)
f.dirCacheMu.RUnlock()
return offset + n, err
}
// Read implements FileOperations.Read.
func (f *overlayFileOperations) Read(ctx context.Context, file *File, dst usermem.IOSequence, offset int64) (int64, error) {
o := file.Dirent.Inode.overlay
o.copyMu.RLock()
defer o.copyMu.RUnlock()
if o.upper != nil {
// We may need to acquire an open file handle to read from if
// copy up has occurred. Otherwise we risk reading from the
// wrong source.
f.upperMu.Lock()
if f.upper == nil {
var err error
f.upper, err = overlayFile(ctx, o.upper, file.Flags())
if err != nil {
f.upperMu.Unlock()
log.Warningf("failed to acquire handle with flags %v: %v", file.Flags(), err)
return 0, syserror.EIO
}
}
f.upperMu.Unlock()
return f.upper.FileOperations.Read(ctx, f.upper, dst, offset)
}
return f.lower.FileOperations.Read(ctx, f.lower, dst, offset)
}
// Write implements FileOperations.Write.
func (f *overlayFileOperations) Write(ctx context.Context, file *File, src usermem.IOSequence, offset int64) (int64, error) {
// f.upper must be non-nil. See inode_overlay.go:overlayGetFile, where the
// file is copied up and opened in the upper filesystem if FileFlags.Write.
// Write cannot be called if !FileFlags.Write, see FileOperations.Write.
return f.upper.FileOperations.Write(ctx, f.upper, src, offset)
}
// Fsync implements FileOperations.Fsync.
func (f *overlayFileOperations) Fsync(ctx context.Context, file *File, start, end int64, syncType SyncType) error {
var err error
f.upperMu.Lock()
if f.upper != nil {
err = f.upper.FileOperations.Fsync(ctx, f.upper, start, end, syncType)
}
f.upperMu.Unlock()
if f.lower != nil {
// N.B. Fsync on the lower filesystem can cause writes of file
// attributes (i.e. access time) despite the fact that we must
// treat the lower filesystem as read-only.
//
// This matches the semantics of fsync(2) in Linux overlayfs.
err = f.lower.FileOperations.Fsync(ctx, f.lower, start, end, syncType)
}
return err
}
// Flush implements FileOperations.Flush.
func (f *overlayFileOperations) Flush(ctx context.Context, file *File) error {
// Flush whatever handles we have.
var err error
f.upperMu.Lock()
if f.upper != nil {
err = f.upper.FileOperations.Flush(ctx, f.upper)
}
f.upperMu.Unlock()
if f.lower != nil {
err = f.lower.FileOperations.Flush(ctx, f.lower)
}
return err
}
// ConfigureMMap implements FileOperations.ConfigureMMap.
func (*overlayFileOperations) ConfigureMMap(ctx context.Context, file *File, opts *memmap.MMapOpts) error {
o := file.Dirent.Inode.overlay
o.copyMu.RLock()
defer o.copyMu.RUnlock()
// If there is no lower inode, the overlay will never need to do a
// copy-up, and thus will never need to invalidate any mappings. We can
// call ConfigureMMap directly on the upper file.
if o.lower == nil {
f := file.FileOperations.(*overlayFileOperations)
if err := f.upper.ConfigureMMap(ctx, opts); err != nil {
return err
}
// ConfigureMMap will set the MappableIdentity to the upper
// file and take a reference on it, but we must also hold a
// reference to the overlay file during the lifetime of the
// Mappable. If we do not do this, the overlay file can be
// Released before the upper file is Released, and we will be
// unable to traverse to the upper file during Save, thus
// preventing us from saving a proper inode mapping for the
// file.
file.IncRef()
id := &overlayMappingIdentity{
id: opts.MappingIdentity,
overlayFile: file,
}
// Swap out the old MappingIdentity for the wrapped one.
opts.MappingIdentity = id
return nil
}
if !o.isMappableLocked() {
return syserror.ENODEV
}
// FIXME: This is a copy/paste of fsutil.GenericConfigureMMap,
// which we can't use because the overlay implementation is in package fs,
// so depending on fs/fsutil would create a circular dependency. Move
// overlay to fs/overlay.
opts.Mappable = o
opts.MappingIdentity = file
file.IncRef()
return nil
}
// UnstableAttr implements fs.FileOperations.UnstableAttr.
func (f *overlayFileOperations) UnstableAttr(ctx context.Context, file *File) (UnstableAttr, error) {
// Hot path. Avoid defers.
f.upperMu.Lock()
if f.upper != nil {
attr, err := f.upper.UnstableAttr(ctx)
f.upperMu.Unlock()
return attr, err
}
f.upperMu.Unlock()
// It's possible that copy-up has occurred, but we haven't opened a upper
// file yet. If this is the case, just use the upper inode's UnstableAttr
// rather than opening a file.
o := file.Dirent.Inode.overlay
o.copyMu.RLock()
if o.upper != nil {
attr, err := o.upper.UnstableAttr(ctx)
o.copyMu.RUnlock()
return attr, err
}
o.copyMu.RUnlock()
return f.lower.UnstableAttr(ctx)
}
// Ioctl implements fs.FileOperations.Ioctl and always returns ENOTTY.
func (*overlayFileOperations) Ioctl(ctx context.Context, io usermem.IO, args arch.SyscallArguments) (uintptr, error) {
return 0, syserror.ENOTTY
}
// readdirEntries returns a sorted map of directory entries from the
// upper and/or lower filesystem.
func readdirEntries(ctx context.Context, o *overlayEntry) (*SortedDentryMap, error) {
o.copyMu.RLock()
defer o.copyMu.RUnlock()
// Assert that there is at least one upper or lower entry.
if o.upper == nil && o.lower == nil {
panic("invalid overlayEntry, needs at least one Inode")
}
entries := make(map[string]DentAttr)
// Try the upper filesystem first.
if o.upper != nil {
var err error
entries, err = readdirOne(ctx, NewTransientDirent(o.upper))
if err != nil {
return nil, err
}
}
// Try the lower filesystem next.
if o.lower != nil {
lowerEntries, err := readdirOne(ctx, NewTransientDirent(o.lower))
if err != nil {
return nil, err
}
for name, entry := range lowerEntries {
// Skip this name if it is a negative entry in the
// upper or there exists a whiteout for it.
if o.upper != nil {
if overlayHasWhiteout(o.upper, name) {
continue
}
}
// Prefer the entries from the upper filesystem
// when names overlap.
if _, ok := entries[name]; !ok {
entries[name] = entry
}
}
}
// Sort and return the entries.
return NewSortedDentryMap(entries), nil
}
// readdirOne reads all of the directory entries from d.
func readdirOne(ctx context.Context, d *Dirent) (map[string]DentAttr, error) {
dir, err := d.Inode.GetFile(ctx, d, FileFlags{Read: true})
if err != nil {
return nil, err
}
defer dir.DecRef()
// Use a stub serializer to read the entries into memory.
stubSerializer := &CollectEntriesSerializer{}
if err := dir.Readdir(ctx, stubSerializer); err != nil {
return nil, err
}
// The "." and ".." entries are from the overlay Inode's Dirent, not the stub.
delete(stubSerializer.Entries, ".")
delete(stubSerializer.Entries, "..")
return stubSerializer.Entries, nil
}
// overlayMappingIdentity wraps a MappingIdentity, and also holds a reference
// on a file during its lifetime.
//
// +stateify savable
type overlayMappingIdentity struct {
refs.AtomicRefCount
id memmap.MappingIdentity
overlayFile *File
}
// DecRef implements AtomicRefCount.DecRef.
func (omi *overlayMappingIdentity) DecRef() {
omi.AtomicRefCount.DecRefWithDestructor(func() {
omi.overlayFile.DecRef()
omi.id.DecRef()
})
}
// DeviceID implements MappingIdentity.DeviceID using the device id from the
// overlayFile.
func (omi *overlayMappingIdentity) DeviceID() uint64 {
return omi.overlayFile.Dirent.Inode.StableAttr.DeviceID
}
// DeviceID implements MappingIdentity.InodeID using the inode id from the
// overlayFile.
func (omi *overlayMappingIdentity) InodeID() uint64 {
return omi.overlayFile.Dirent.Inode.StableAttr.InodeID
}
// MappedName implements MappingIdentity.MappedName.
func (omi *overlayMappingIdentity) MappedName(ctx context.Context) string {
root := RootFromContext(ctx)
if root != nil {
defer root.DecRef()
}
name, _ := omi.overlayFile.Dirent.FullName(root)
return name
}
// Msync implements MappingIdentity.Msync.
func (omi *overlayMappingIdentity) Msync(ctx context.Context, mr memmap.MappableRange) error {
return omi.id.Msync(ctx, mr)
}
|