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// 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 gofer
import (
"fmt"
"time"
"golang.org/x/sys/unix"
"gvisor.dev/gvisor/pkg/context"
"gvisor.dev/gvisor/pkg/log"
"gvisor.dev/gvisor/pkg/metric"
"gvisor.dev/gvisor/pkg/p9"
"gvisor.dev/gvisor/pkg/sentry/device"
"gvisor.dev/gvisor/pkg/sentry/fs"
"gvisor.dev/gvisor/pkg/sentry/fs/fsutil"
"gvisor.dev/gvisor/pkg/sentry/fsmetric"
"gvisor.dev/gvisor/pkg/sentry/memmap"
"gvisor.dev/gvisor/pkg/syserror"
"gvisor.dev/gvisor/pkg/usermem"
"gvisor.dev/gvisor/pkg/waiter"
)
// fileOperations implements fs.FileOperations for a remote file system.
//
// +stateify savable
type fileOperations struct {
fsutil.FileNoIoctl `state:"nosave"`
fsutil.FileNoSplice `state:"nosplice"`
waiter.AlwaysReady `state:"nosave"`
// inodeOperations is the inodeOperations backing the file. It is protected
// by a reference held by File.Dirent.Inode which is stable until
// FileOperations.Release is called.
inodeOperations *inodeOperations `state:"wait"`
// dirCursor is the directory cursor.
dirCursor string
// handles are the opened remote file system handles, which may
// be shared with other files.
handles *handles `state:"nosave"`
// flags are the flags used to open handles.
flags fs.FileFlags `state:"wait"`
}
// fileOperations implements fs.FileOperations.
var _ fs.FileOperations = (*fileOperations)(nil)
// NewFile returns a file. NewFile is not appropriate with host pipes and sockets.
//
// The `name` argument is only used to log a warning if we are returning a
// writeable+executable file. (A metric counter is incremented in this case as
// well.) Note that we cannot call d.BaseName() directly in this function,
// because that would lead to a lock order violation, since this is called in
// d.Create which holds d.mu, while d.BaseName() takes d.parent.mu, and the two
// locks must be taken in the opposite order.
func NewFile(ctx context.Context, dirent *fs.Dirent, name string, flags fs.FileFlags, i *inodeOperations, handles *handles) *fs.File {
// Remote file systems enforce readability/writability at an offset,
// see fs/9p/vfs_inode.c:v9fs_vfs_atomic_open -> fs/open.c:finish_open.
flags.Pread = true
flags.Pwrite = true
if fs.IsFile(dirent.Inode.StableAttr) {
// If cache policy is "remote revalidating", then we must
// ensure that we have a host FD. Otherwise, the
// sentry-internal page cache will be used, and we can end up
// in an inconsistent state if the remote file changes.
cp := dirent.Inode.InodeOperations.(*inodeOperations).session().cachePolicy
if cp == cacheRemoteRevalidating && handles.Host == nil {
panic(fmt.Sprintf("remote-revalidating cache policy requires gofer to donate host FD, but file %q did not have host FD", name))
}
}
f := &fileOperations{
inodeOperations: i,
handles: handles,
flags: flags,
}
if flags.Write {
if err := dirent.Inode.CheckPermission(ctx, fs.PermMask{Execute: true}); err == nil {
metric.SuspiciousOperationsMetric.Increment("opened_write_execute_file")
log.Warningf("Opened a writable executable: %q", name)
}
}
if handles.Host != nil {
fsmetric.GoferOpensHost.Increment()
} else {
fsmetric.GoferOpens9P.Increment()
}
return fs.NewFile(ctx, dirent, flags, f)
}
// Release implements fs.FileOpeations.Release.
func (f *fileOperations) Release(context.Context) {
f.handles.DecRef()
}
// Readdir implements fs.FileOperations.Readdir.
func (f *fileOperations) 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: &f.dirCursor,
}
n, err := fs.DirentReaddir(ctx, file.Dirent, f, root, dirCtx, file.Offset())
if f.inodeOperations.session().cachePolicy.cacheUAttrs(file.Dirent.Inode) {
f.inodeOperations.cachingInodeOps.TouchAccessTime(ctx, file.Dirent.Inode)
}
return n, err
}
// IterateDir implements fs.DirIterator.IterateDir.
func (f *fileOperations) IterateDir(ctx context.Context, d *fs.Dirent, dirCtx *fs.DirCtx, offset int) (int, error) {
f.inodeOperations.readdirMu.Lock()
defer f.inodeOperations.readdirMu.Unlock()
// Fetch directory entries if needed.
if !f.inodeOperations.session().cachePolicy.cacheReaddir() || f.inodeOperations.readdirCache == nil {
entries, err := f.readdirAll(ctx)
if err != nil {
return offset, err
}
// Cache the readdir result.
f.inodeOperations.readdirCache = fs.NewSortedDentryMap(entries)
}
// Serialize the entries.
n, err := fs.GenericReaddir(dirCtx, f.inodeOperations.readdirCache)
return offset + n, err
}
// readdirAll fetches fs.DentAttrs for f, using the attributes of g.
func (f *fileOperations) readdirAll(ctx context.Context) (map[string]fs.DentAttr, error) {
entries := make(map[string]fs.DentAttr)
var readOffset uint64
for {
// We choose some arbitrary high number of directory entries (64k) and call
// Readdir until we've exhausted them all.
dirents, err := f.handles.File.readdir(ctx, readOffset, 64*1024)
if err != nil {
return nil, err
}
if len(dirents) == 0 {
// We're done, we reached EOF.
break
}
// The last dirent contains the offset into the next set of dirents. The gofer
// returns the offset as an index into directories, not as a byte offset, because
// converting a byte offset to an index into directories entries is a huge pain.
// But everything is fine if we're consistent.
readOffset = dirents[len(dirents)-1].Offset
for _, dirent := range dirents {
if dirent.Name == "." || dirent.Name == ".." {
// These must not be included in Readdir results.
continue
}
// Find a best approximation of the type.
var nt fs.InodeType
switch dirent.Type {
case p9.TypeDir:
nt = fs.Directory
case p9.TypeSymlink:
nt = fs.Symlink
default:
nt = fs.RegularFile
}
// Install the DentAttr.
entries[dirent.Name] = fs.DentAttr{
Type: nt,
// Construct the key to find the virtual inode.
// Directory entries reside on the same Device
// and SecondaryDevice as their parent.
InodeID: goferDevice.Map(device.MultiDeviceKey{
Device: f.inodeOperations.fileState.key.Device,
SecondaryDevice: f.inodeOperations.fileState.key.SecondaryDevice,
Inode: dirent.QID.Path,
}),
}
}
}
return entries, nil
}
// maybeSync will call FSync on the file if the file flags require it.
func (f *fileOperations) maybeSync(ctx context.Context, file *fs.File, offset, n int64) error {
flags := file.Flags()
var syncType fs.SyncType
switch {
case flags.Direct || flags.Sync:
syncType = fs.SyncAll
case flags.DSync:
syncType = fs.SyncData
default:
// No need to sync.
return nil
}
return f.Fsync(ctx, file, offset, offset+n, syncType)
}
// Write implements fs.FileOperations.Write.
func (f *fileOperations) Write(ctx context.Context, file *fs.File, src usermem.IOSequence, offset int64) (int64, error) {
if fs.IsDir(file.Dirent.Inode.StableAttr) {
// Not all remote file systems enforce this so this client does.
return 0, syserror.EISDIR
}
var (
n int64
err error
)
// The write is handled in different ways depending on the cache policy
// and availability of a host-mappable FD.
if f.inodeOperations.session().cachePolicy.useCachingInodeOps(file.Dirent.Inode) {
n, err = f.inodeOperations.cachingInodeOps.Write(ctx, src, offset)
} else if f.inodeOperations.fileState.hostMappable != nil {
n, err = f.inodeOperations.fileState.hostMappable.Write(ctx, src, offset)
} else {
n, err = src.CopyInTo(ctx, f.handles.readWriterAt(ctx, offset))
}
if n == 0 {
// Nothing written. We are done.
return 0, err
}
// Write the dirty pages and attributes if cache policy tells us to.
if f.inodeOperations.session().cachePolicy.writeThrough(file.Dirent.Inode) {
if werr := f.inodeOperations.cachingInodeOps.WriteDirtyPagesAndAttrs(ctx, file.Dirent.Inode); werr != nil {
// Report no bytes written since the write faild.
return 0, werr
}
}
// We may need to sync the written bytes.
if syncErr := f.maybeSync(ctx, file, offset, n); syncErr != nil {
// Sync failed. Report 0 bytes written, since none of them are
// guaranteed to have been synced.
return 0, syncErr
}
return n, err
}
// incrementReadCounters increments the read counters for the read starting at the given time. We
// use this function rather than using a defer in Read() to avoid the performance hit of defer.
func (f *fileOperations) incrementReadCounters(start time.Time) {
if f.handles.Host != nil {
fsmetric.GoferReadsHost.Increment()
fsmetric.FinishReadWait(fsmetric.GoferReadWaitHost, start)
} else {
fsmetric.GoferReads9P.Increment()
fsmetric.FinishReadWait(fsmetric.GoferReadWait9P, start)
}
}
// Read implements fs.FileOperations.Read.
func (f *fileOperations) Read(ctx context.Context, file *fs.File, dst usermem.IOSequence, offset int64) (int64, error) {
start := fsmetric.StartReadWait()
if fs.IsDir(file.Dirent.Inode.StableAttr) {
// Not all remote file systems enforce this so this client does.
f.incrementReadCounters(start)
return 0, syserror.EISDIR
}
if f.inodeOperations.session().cachePolicy.useCachingInodeOps(file.Dirent.Inode) {
n, err := f.inodeOperations.cachingInodeOps.Read(ctx, file, dst, offset)
f.incrementReadCounters(start)
return n, err
}
n, err := dst.CopyOutFrom(ctx, f.handles.readWriterAt(ctx, offset))
f.incrementReadCounters(start)
return n, err
}
// Fsync implements fs.FileOperations.Fsync.
func (f *fileOperations) Fsync(ctx context.Context, file *fs.File, start, end int64, syncType fs.SyncType) error {
switch syncType {
case fs.SyncAll, fs.SyncData:
if err := file.Dirent.Inode.WriteOut(ctx); err != nil {
return err
}
fallthrough
case fs.SyncBackingStorage:
// Sync remote caches.
if f.handles.Host != nil {
// Sync the host fd directly.
return unix.Fsync(f.handles.Host.FD())
}
// Otherwise sync on the p9.File handle.
return f.handles.File.fsync(ctx)
}
panic("invalid sync type")
}
// Flush implements fs.FileOperations.Flush.
func (f *fileOperations) Flush(ctx context.Context, file *fs.File) error {
// If this file is not opened writable then there is nothing to flush.
// We do this because some p9 server implementations of Flush are
// over-zealous.
//
// FIXME(edahlgren): weaken these implementations and remove this check.
if !file.Flags().Write {
return nil
}
// Execute the flush.
return f.handles.File.flush(ctx)
}
// ConfigureMMap implements fs.FileOperations.ConfigureMMap.
func (f *fileOperations) ConfigureMMap(ctx context.Context, file *fs.File, opts *memmap.MMapOpts) error {
return f.inodeOperations.configureMMap(file, opts)
}
// UnstableAttr implements fs.FileOperations.UnstableAttr.
func (f *fileOperations) UnstableAttr(ctx context.Context, file *fs.File) (fs.UnstableAttr, error) {
s := f.inodeOperations.session()
if s.cachePolicy.cacheUAttrs(file.Dirent.Inode) {
return f.inodeOperations.cachingInodeOps.UnstableAttr(ctx, file.Dirent.Inode)
}
// Use f.handles.File, which represents 9P fids that have been opened,
// instead of inodeFileState.file, which represents 9P fids that have not.
// This may be significantly more efficient in some implementations.
_, valid, pattr, err := getattr(ctx, f.handles.File)
if err != nil {
return fs.UnstableAttr{}, err
}
return unstable(ctx, valid, pattr, s.mounter, s.client), nil
}
// Seek implements fs.FileOperations.Seek.
func (f *fileOperations) Seek(ctx context.Context, file *fs.File, whence fs.SeekWhence, offset int64) (int64, error) {
return fsutil.SeekWithDirCursor(ctx, file, whence, offset, &f.dirCursor)
}
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