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|
// Copyright 2020 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 host provides a filesystem implementation for host files imported as
// file descriptors.
package host
import (
"fmt"
"math"
"syscall"
"golang.org/x/sys/unix"
"gvisor.dev/gvisor/pkg/abi/linux"
"gvisor.dev/gvisor/pkg/context"
"gvisor.dev/gvisor/pkg/fdnotifier"
"gvisor.dev/gvisor/pkg/fspath"
"gvisor.dev/gvisor/pkg/log"
"gvisor.dev/gvisor/pkg/refs"
fslock "gvisor.dev/gvisor/pkg/sentry/fs/lock"
"gvisor.dev/gvisor/pkg/sentry/fsimpl/kernfs"
"gvisor.dev/gvisor/pkg/sentry/hostfd"
"gvisor.dev/gvisor/pkg/sentry/kernel/auth"
"gvisor.dev/gvisor/pkg/sentry/memmap"
unixsocket "gvisor.dev/gvisor/pkg/sentry/socket/unix"
"gvisor.dev/gvisor/pkg/sentry/vfs"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/syserror"
"gvisor.dev/gvisor/pkg/usermem"
"gvisor.dev/gvisor/pkg/waiter"
)
// NewFDOptions contains options to NewFD.
type NewFDOptions struct {
// If IsTTY is true, the file descriptor is a TTY.
IsTTY bool
// If HaveFlags is true, use Flags for the new file description. Otherwise,
// the new file description will inherit flags from hostFD.
HaveFlags bool
Flags uint32
}
// NewFD returns a vfs.FileDescription representing the given host file
// descriptor. mnt must be Kernel.HostMount().
func NewFD(ctx context.Context, mnt *vfs.Mount, hostFD int, opts *NewFDOptions) (*vfs.FileDescription, error) {
fs, ok := mnt.Filesystem().Impl().(*filesystem)
if !ok {
return nil, fmt.Errorf("can't import host FDs into filesystems of type %T", mnt.Filesystem().Impl())
}
// Retrieve metadata.
var s unix.Stat_t
if err := unix.Fstat(hostFD, &s); err != nil {
return nil, err
}
flags := opts.Flags
if !opts.HaveFlags {
// Get flags for the imported FD.
flagsInt, err := unix.FcntlInt(uintptr(hostFD), syscall.F_GETFL, 0)
if err != nil {
return nil, err
}
flags = uint32(flagsInt)
}
fileMode := linux.FileMode(s.Mode)
fileType := fileMode.FileType()
// Determine if hostFD is seekable. If not, this syscall will return ESPIPE
// (see fs/read_write.c:llseek), e.g. for pipes, sockets, and some character
// devices.
_, err := unix.Seek(hostFD, 0, linux.SEEK_CUR)
seekable := err != syserror.ESPIPE
i := &inode{
hostFD: hostFD,
ino: fs.NextIno(),
isTTY: opts.IsTTY,
wouldBlock: wouldBlock(uint32(fileType)),
seekable: seekable,
// NOTE(b/38213152): Technically, some obscure char devices can be memory
// mapped, but we only allow regular files.
canMap: fileType == linux.S_IFREG,
}
i.pf.inode = i
// Non-seekable files can't be memory mapped, assert this.
if !i.seekable && i.canMap {
panic("files that can return EWOULDBLOCK (sockets, pipes, etc.) cannot be memory mapped")
}
// If the hostFD would block, we must set it to non-blocking and handle
// blocking behavior in the sentry.
if i.wouldBlock {
if err := syscall.SetNonblock(i.hostFD, true); err != nil {
return nil, err
}
if err := fdnotifier.AddFD(int32(i.hostFD), &i.queue); err != nil {
return nil, err
}
}
d := &kernfs.Dentry{}
d.Init(i)
// i.open will take a reference on d.
defer d.DecRef()
// For simplicity, fileDescription.offset is set to 0. Technically, we
// should only set to 0 on files that are not seekable (sockets, pipes,
// etc.), and use the offset from the host fd otherwise when importing.
return i.open(ctx, d.VFSDentry(), mnt, flags)
}
// ImportFD sets up and returns a vfs.FileDescription from a donated fd.
func ImportFD(ctx context.Context, mnt *vfs.Mount, hostFD int, isTTY bool) (*vfs.FileDescription, error) {
return NewFD(ctx, mnt, hostFD, &NewFDOptions{
IsTTY: isTTY,
})
}
// filesystemType implements vfs.FilesystemType.
type filesystemType struct{}
// GetFilesystem implements FilesystemType.GetFilesystem.
func (filesystemType) GetFilesystem(context.Context, *vfs.VirtualFilesystem, *auth.Credentials, string, vfs.GetFilesystemOptions) (*vfs.Filesystem, *vfs.Dentry, error) {
panic("host.filesystemType.GetFilesystem should never be called")
}
// Name implements FilesystemType.Name.
func (filesystemType) Name() string {
return "none"
}
// NewFilesystem sets up and returns a new hostfs filesystem.
//
// Note that there should only ever be one instance of host.filesystem,
// a global mount for host fds.
func NewFilesystem(vfsObj *vfs.VirtualFilesystem) (*vfs.Filesystem, error) {
devMinor, err := vfsObj.GetAnonBlockDevMinor()
if err != nil {
return nil, err
}
fs := &filesystem{
devMinor: devMinor,
}
fs.VFSFilesystem().Init(vfsObj, filesystemType{}, fs)
return fs.VFSFilesystem(), nil
}
// filesystem implements vfs.FilesystemImpl.
type filesystem struct {
kernfs.Filesystem
devMinor uint32
}
func (fs *filesystem) Release() {
fs.VFSFilesystem().VirtualFilesystem().PutAnonBlockDevMinor(fs.devMinor)
fs.Filesystem.Release()
}
func (fs *filesystem) PrependPath(ctx context.Context, vfsroot, vd vfs.VirtualDentry, b *fspath.Builder) error {
d := vd.Dentry().Impl().(*kernfs.Dentry)
inode := d.Inode().(*inode)
b.PrependComponent(fmt.Sprintf("host:[%d]", inode.ino))
return vfs.PrependPathSyntheticError{}
}
// inode implements kernfs.Inode.
type inode struct {
kernfs.InodeNotDirectory
kernfs.InodeNotSymlink
locks vfs.FileLocks
// When the reference count reaches zero, the host fd is closed.
refs.AtomicRefCount
// hostFD contains the host fd that this file was originally created from,
// which must be available at time of restore.
//
// This field is initialized at creation time and is immutable.
hostFD int
// ino is an inode number unique within this filesystem.
//
// This field is initialized at creation time and is immutable.
ino uint64
// isTTY is true if this file represents a TTY.
//
// This field is initialized at creation time and is immutable.
isTTY bool
// seekable is false if the host fd points to a file representing a stream,
// e.g. a socket or a pipe. Such files are not seekable and can return
// EWOULDBLOCK for I/O operations.
//
// This field is initialized at creation time and is immutable.
seekable bool
// wouldBlock is true if the host FD would return EWOULDBLOCK for
// operations that would block.
//
// This field is initialized at creation time and is immutable.
wouldBlock bool
// Event queue for blocking operations.
queue waiter.Queue
// canMap specifies whether we allow the file to be memory mapped.
//
// This field is initialized at creation time and is immutable.
canMap bool
// mapsMu protects mappings.
mapsMu sync.Mutex
// If canMap is true, mappings tracks mappings of hostFD into
// memmap.MappingSpaces.
mappings memmap.MappingSet
// pf implements platform.File for mappings of hostFD.
pf inodePlatformFile
}
// CheckPermissions implements kernfs.Inode.
func (i *inode) CheckPermissions(ctx context.Context, creds *auth.Credentials, ats vfs.AccessTypes) error {
var s syscall.Stat_t
if err := syscall.Fstat(i.hostFD, &s); err != nil {
return err
}
return vfs.GenericCheckPermissions(creds, ats, linux.FileMode(s.Mode), auth.KUID(s.Uid), auth.KGID(s.Gid))
}
// Mode implements kernfs.Inode.
func (i *inode) Mode() linux.FileMode {
var s syscall.Stat_t
if err := syscall.Fstat(i.hostFD, &s); err != nil {
// Retrieving the mode from the host fd using fstat(2) should not fail.
// If the syscall does not succeed, something is fundamentally wrong.
panic(fmt.Sprintf("failed to retrieve mode from host fd %d: %v", i.hostFD, err))
}
return linux.FileMode(s.Mode)
}
// Stat implements kernfs.Inode.
func (i *inode) Stat(vfsfs *vfs.Filesystem, opts vfs.StatOptions) (linux.Statx, error) {
if opts.Mask&linux.STATX__RESERVED != 0 {
return linux.Statx{}, syserror.EINVAL
}
if opts.Sync&linux.AT_STATX_SYNC_TYPE == linux.AT_STATX_SYNC_TYPE {
return linux.Statx{}, syserror.EINVAL
}
fs := vfsfs.Impl().(*filesystem)
// Limit our host call only to known flags.
mask := opts.Mask & linux.STATX_ALL
var s unix.Statx_t
err := unix.Statx(i.hostFD, "", int(unix.AT_EMPTY_PATH|opts.Sync), int(mask), &s)
if err == syserror.ENOSYS {
// Fallback to fstat(2), if statx(2) is not supported on the host.
//
// TODO(b/151263641): Remove fallback.
return i.fstat(fs)
}
if err != nil {
return linux.Statx{}, err
}
// Unconditionally fill blksize, attributes, and device numbers, as
// indicated by /include/uapi/linux/stat.h. Inode number is always
// available, since we use our own rather than the host's.
ls := linux.Statx{
Mask: linux.STATX_INO,
Blksize: s.Blksize,
Attributes: s.Attributes,
Ino: i.ino,
AttributesMask: s.Attributes_mask,
DevMajor: linux.UNNAMED_MAJOR,
DevMinor: fs.devMinor,
}
// Copy other fields that were returned by the host. RdevMajor/RdevMinor
// are never copied (and therefore left as zero), so as not to expose host
// device numbers.
ls.Mask |= s.Mask & linux.STATX_ALL
if s.Mask&linux.STATX_TYPE != 0 {
ls.Mode |= s.Mode & linux.S_IFMT
}
if s.Mask&linux.STATX_MODE != 0 {
ls.Mode |= s.Mode &^ linux.S_IFMT
}
if s.Mask&linux.STATX_NLINK != 0 {
ls.Nlink = s.Nlink
}
if s.Mask&linux.STATX_UID != 0 {
ls.UID = s.Uid
}
if s.Mask&linux.STATX_GID != 0 {
ls.GID = s.Gid
}
if s.Mask&linux.STATX_ATIME != 0 {
ls.Atime = unixToLinuxStatxTimestamp(s.Atime)
}
if s.Mask&linux.STATX_BTIME != 0 {
ls.Btime = unixToLinuxStatxTimestamp(s.Btime)
}
if s.Mask&linux.STATX_CTIME != 0 {
ls.Ctime = unixToLinuxStatxTimestamp(s.Ctime)
}
if s.Mask&linux.STATX_MTIME != 0 {
ls.Mtime = unixToLinuxStatxTimestamp(s.Mtime)
}
if s.Mask&linux.STATX_SIZE != 0 {
ls.Size = s.Size
}
if s.Mask&linux.STATX_BLOCKS != 0 {
ls.Blocks = s.Blocks
}
return ls, nil
}
// fstat is a best-effort fallback for inode.Stat() if the host does not
// support statx(2).
//
// We ignore the mask and sync flags in opts and simply supply
// STATX_BASIC_STATS, as fstat(2) itself does not allow the specification
// of a mask or sync flags. fstat(2) does not provide any metadata
// equivalent to Statx.Attributes, Statx.AttributesMask, or Statx.Btime, so
// those fields remain empty.
func (i *inode) fstat(fs *filesystem) (linux.Statx, error) {
var s unix.Stat_t
if err := unix.Fstat(i.hostFD, &s); err != nil {
return linux.Statx{}, err
}
// As with inode.Stat(), we always use internal device and inode numbers,
// and never expose the host's represented device numbers.
return linux.Statx{
Mask: linux.STATX_BASIC_STATS,
Blksize: uint32(s.Blksize),
Nlink: uint32(s.Nlink),
UID: s.Uid,
GID: s.Gid,
Mode: uint16(s.Mode),
Ino: i.ino,
Size: uint64(s.Size),
Blocks: uint64(s.Blocks),
Atime: timespecToStatxTimestamp(s.Atim),
Ctime: timespecToStatxTimestamp(s.Ctim),
Mtime: timespecToStatxTimestamp(s.Mtim),
DevMajor: linux.UNNAMED_MAJOR,
DevMinor: fs.devMinor,
}, nil
}
// SetStat implements kernfs.Inode.
func (i *inode) SetStat(ctx context.Context, fs *vfs.Filesystem, creds *auth.Credentials, opts vfs.SetStatOptions) error {
s := opts.Stat
m := s.Mask
if m == 0 {
return nil
}
if m&^(linux.STATX_MODE|linux.STATX_SIZE|linux.STATX_ATIME|linux.STATX_MTIME) != 0 {
return syserror.EPERM
}
var hostStat syscall.Stat_t
if err := syscall.Fstat(i.hostFD, &hostStat); err != nil {
return err
}
if err := vfs.CheckSetStat(ctx, creds, &s, linux.FileMode(hostStat.Mode&linux.PermissionsMask), auth.KUID(hostStat.Uid), auth.KGID(hostStat.Gid)); err != nil {
return err
}
if m&linux.STATX_MODE != 0 {
if err := syscall.Fchmod(i.hostFD, uint32(s.Mode)); err != nil {
return err
}
}
if m&linux.STATX_SIZE != 0 {
if err := syscall.Ftruncate(i.hostFD, int64(s.Size)); err != nil {
return err
}
oldSize := uint64(hostStat.Size)
if s.Size < oldSize {
oldpgend, _ := usermem.PageRoundUp(oldSize)
newpgend, _ := usermem.PageRoundUp(s.Size)
if oldpgend != newpgend {
i.mapsMu.Lock()
i.mappings.Invalidate(memmap.MappableRange{newpgend, oldpgend}, memmap.InvalidateOpts{
// Compare Linux's mm/truncate.c:truncate_setsize() =>
// truncate_pagecache() =>
// mm/memory.c:unmap_mapping_range(evencows=1).
InvalidatePrivate: true,
})
i.mapsMu.Unlock()
}
}
}
if m&(linux.STATX_ATIME|linux.STATX_MTIME) != 0 {
ts := [2]syscall.Timespec{
toTimespec(s.Atime, m&linux.STATX_ATIME == 0),
toTimespec(s.Mtime, m&linux.STATX_MTIME == 0),
}
if err := setTimestamps(i.hostFD, &ts); err != nil {
return err
}
}
return nil
}
// DecRef implements kernfs.Inode.
func (i *inode) DecRef() {
i.AtomicRefCount.DecRefWithDestructor(i.Destroy)
}
// Destroy implements kernfs.Inode.
func (i *inode) Destroy() {
if i.wouldBlock {
fdnotifier.RemoveFD(int32(i.hostFD))
}
if err := unix.Close(i.hostFD); err != nil {
log.Warningf("failed to close host fd %d: %v", i.hostFD, err)
}
}
// Open implements kernfs.Inode.
func (i *inode) Open(ctx context.Context, rp *vfs.ResolvingPath, vfsd *vfs.Dentry, opts vfs.OpenOptions) (*vfs.FileDescription, error) {
// Once created, we cannot re-open a socket fd through /proc/[pid]/fd/.
if i.Mode().FileType() == linux.S_IFSOCK {
return nil, syserror.ENXIO
}
return i.open(ctx, vfsd, rp.Mount(), opts.Flags)
}
func (i *inode) open(ctx context.Context, d *vfs.Dentry, mnt *vfs.Mount, flags uint32) (*vfs.FileDescription, error) {
var s syscall.Stat_t
if err := syscall.Fstat(i.hostFD, &s); err != nil {
return nil, err
}
fileType := s.Mode & linux.FileTypeMask
// Constrain flags to a subset we can handle.
// TODO(gvisor.dev/issue/1672): implement behavior corresponding to these allowed flags.
flags &= syscall.O_ACCMODE | syscall.O_DIRECT | syscall.O_NONBLOCK | syscall.O_DSYNC | syscall.O_SYNC | syscall.O_APPEND
switch fileType {
case syscall.S_IFSOCK:
if i.isTTY {
log.Warningf("cannot use host socket fd %d as TTY", i.hostFD)
return nil, syserror.ENOTTY
}
ep, err := newEndpoint(ctx, i.hostFD, &i.queue)
if err != nil {
return nil, err
}
// Currently, we only allow Unix sockets to be imported.
return unixsocket.NewFileDescription(ep, ep.Type(), flags, mnt, d, &i.locks)
case syscall.S_IFREG, syscall.S_IFIFO, syscall.S_IFCHR:
if i.isTTY {
fd := &TTYFileDescription{
fileDescription: fileDescription{inode: i},
termios: linux.DefaultSlaveTermios,
}
fd.LockFD.Init(&i.locks)
vfsfd := &fd.vfsfd
if err := vfsfd.Init(fd, flags, mnt, d, &vfs.FileDescriptionOptions{}); err != nil {
return nil, err
}
return vfsfd, nil
}
fd := &fileDescription{inode: i}
fd.LockFD.Init(&i.locks)
vfsfd := &fd.vfsfd
if err := vfsfd.Init(fd, flags, mnt, d, &vfs.FileDescriptionOptions{}); err != nil {
return nil, err
}
return vfsfd, nil
default:
log.Warningf("cannot import host fd %d with file type %o", i.hostFD, fileType)
return nil, syserror.EPERM
}
}
// fileDescription is embedded by host fd implementations of FileDescriptionImpl.
type fileDescription struct {
vfsfd vfs.FileDescription
vfs.FileDescriptionDefaultImpl
vfs.LockFD
// inode is vfsfd.Dentry().Impl().(*kernfs.Dentry).Inode().(*inode), but
// cached to reduce indirections and casting. fileDescription does not hold
// a reference on the inode through the inode field (since one is already
// held via the Dentry).
//
// inode is immutable after fileDescription creation.
inode *inode
// offsetMu protects offset.
offsetMu sync.Mutex
// offset specifies the current file offset. It is only meaningful when
// inode.seekable is true.
offset int64
}
// SetStat implements vfs.FileDescriptionImpl.
func (f *fileDescription) SetStat(ctx context.Context, opts vfs.SetStatOptions) error {
creds := auth.CredentialsFromContext(ctx)
return f.inode.SetStat(ctx, f.vfsfd.Mount().Filesystem(), creds, opts)
}
// Stat implements vfs.FileDescriptionImpl.
func (f *fileDescription) Stat(_ context.Context, opts vfs.StatOptions) (linux.Statx, error) {
return f.inode.Stat(f.vfsfd.Mount().Filesystem(), opts)
}
// Release implements vfs.FileDescriptionImpl.
func (f *fileDescription) Release() {
// noop
}
// PRead implements FileDescriptionImpl.
func (f *fileDescription) PRead(ctx context.Context, dst usermem.IOSequence, offset int64, opts vfs.ReadOptions) (int64, error) {
i := f.inode
if !i.seekable {
return 0, syserror.ESPIPE
}
return readFromHostFD(ctx, i.hostFD, dst, offset, opts.Flags)
}
// Read implements FileDescriptionImpl.
func (f *fileDescription) Read(ctx context.Context, dst usermem.IOSequence, opts vfs.ReadOptions) (int64, error) {
i := f.inode
if !i.seekable {
n, err := readFromHostFD(ctx, i.hostFD, dst, -1, opts.Flags)
if isBlockError(err) {
// If we got any data at all, return it as a "completed" partial read
// rather than retrying until complete.
if n != 0 {
err = nil
} else {
err = syserror.ErrWouldBlock
}
}
return n, err
}
// TODO(gvisor.dev/issue/1672): Cache pages, when forced to do so.
f.offsetMu.Lock()
n, err := readFromHostFD(ctx, i.hostFD, dst, f.offset, opts.Flags)
f.offset += n
f.offsetMu.Unlock()
return n, err
}
func readFromHostFD(ctx context.Context, hostFD int, dst usermem.IOSequence, offset int64, flags uint32) (int64, error) {
// TODO(gvisor.dev/issue/1672): Support select preadv2 flags.
if flags != 0 {
return 0, syserror.EOPNOTSUPP
}
reader := hostfd.GetReadWriterAt(int32(hostFD), offset, flags)
n, err := dst.CopyOutFrom(ctx, reader)
hostfd.PutReadWriterAt(reader)
return int64(n), err
}
// PWrite implements FileDescriptionImpl.
func (f *fileDescription) PWrite(ctx context.Context, src usermem.IOSequence, offset int64, opts vfs.WriteOptions) (int64, error) {
i := f.inode
if !i.seekable {
return 0, syserror.ESPIPE
}
return writeToHostFD(ctx, i.hostFD, src, offset, opts.Flags)
}
// Write implements FileDescriptionImpl.
func (f *fileDescription) Write(ctx context.Context, src usermem.IOSequence, opts vfs.WriteOptions) (int64, error) {
i := f.inode
if !i.seekable {
n, err := writeToHostFD(ctx, i.hostFD, src, -1, opts.Flags)
if isBlockError(err) {
err = syserror.ErrWouldBlock
}
return n, err
}
// TODO(gvisor.dev/issue/1672): Cache pages, when forced to do so.
// TODO(gvisor.dev/issue/1672): Write to end of file and update offset if O_APPEND is set on this file.
f.offsetMu.Lock()
n, err := writeToHostFD(ctx, i.hostFD, src, f.offset, opts.Flags)
f.offset += n
f.offsetMu.Unlock()
return n, err
}
func writeToHostFD(ctx context.Context, hostFD int, src usermem.IOSequence, offset int64, flags uint32) (int64, error) {
// TODO(gvisor.dev/issue/1672): Support select pwritev2 flags.
if flags != 0 {
return 0, syserror.EOPNOTSUPP
}
writer := hostfd.GetReadWriterAt(int32(hostFD), offset, flags)
n, err := src.CopyInTo(ctx, writer)
hostfd.PutReadWriterAt(writer)
return int64(n), err
}
// Seek implements FileDescriptionImpl.
//
// Note that we do not support seeking on directories, since we do not even
// allow directory fds to be imported at all.
func (f *fileDescription) Seek(_ context.Context, offset int64, whence int32) (int64, error) {
i := f.inode
if !i.seekable {
return 0, syserror.ESPIPE
}
f.offsetMu.Lock()
defer f.offsetMu.Unlock()
switch whence {
case linux.SEEK_SET:
if offset < 0 {
return f.offset, syserror.EINVAL
}
f.offset = offset
case linux.SEEK_CUR:
// Check for overflow. Note that underflow cannot occur, since f.offset >= 0.
if offset > math.MaxInt64-f.offset {
return f.offset, syserror.EOVERFLOW
}
if f.offset+offset < 0 {
return f.offset, syserror.EINVAL
}
f.offset += offset
case linux.SEEK_END:
var s syscall.Stat_t
if err := syscall.Fstat(i.hostFD, &s); err != nil {
return f.offset, err
}
size := s.Size
// Check for overflow. Note that underflow cannot occur, since size >= 0.
if offset > math.MaxInt64-size {
return f.offset, syserror.EOVERFLOW
}
if size+offset < 0 {
return f.offset, syserror.EINVAL
}
f.offset = size + offset
case linux.SEEK_DATA, linux.SEEK_HOLE:
// Modifying the offset in the host file table should not matter, since
// this is the only place where we use it.
//
// For reading and writing, we always rely on our internal offset.
n, err := unix.Seek(i.hostFD, offset, int(whence))
if err != nil {
return f.offset, err
}
f.offset = n
default:
// Invalid whence.
return f.offset, syserror.EINVAL
}
return f.offset, nil
}
// Sync implements FileDescriptionImpl.
func (f *fileDescription) Sync(context.Context) error {
// TODO(gvisor.dev/issue/1672): Currently we do not support the SyncData
// optimization, so we always sync everything.
return unix.Fsync(f.inode.hostFD)
}
// ConfigureMMap implements FileDescriptionImpl.
func (f *fileDescription) ConfigureMMap(_ context.Context, opts *memmap.MMapOpts) error {
if !f.inode.canMap {
return syserror.ENODEV
}
i := f.inode
i.pf.fileMapperInitOnce.Do(i.pf.fileMapper.Init)
return vfs.GenericConfigureMMap(&f.vfsfd, i, opts)
}
// EventRegister implements waiter.Waitable.EventRegister.
func (f *fileDescription) EventRegister(e *waiter.Entry, mask waiter.EventMask) {
f.inode.queue.EventRegister(e, mask)
fdnotifier.UpdateFD(int32(f.inode.hostFD))
}
// EventUnregister implements waiter.Waitable.EventUnregister.
func (f *fileDescription) EventUnregister(e *waiter.Entry) {
f.inode.queue.EventUnregister(e)
fdnotifier.UpdateFD(int32(f.inode.hostFD))
}
// Readiness uses the poll() syscall to check the status of the underlying FD.
func (f *fileDescription) Readiness(mask waiter.EventMask) waiter.EventMask {
return fdnotifier.NonBlockingPoll(int32(f.inode.hostFD), mask)
}
// LockPOSIX implements vfs.FileDescriptionImpl.LockPOSIX.
func (f *fileDescription) LockPOSIX(ctx context.Context, uid fslock.UniqueID, t fslock.LockType, start, length uint64, whence int16, block fslock.Blocker) error {
return f.Locks().LockPOSIX(ctx, &f.vfsfd, uid, t, start, length, whence, block)
}
// UnlockPOSIX implements vfs.FileDescriptionImpl.UnlockPOSIX.
func (f *fileDescription) UnlockPOSIX(ctx context.Context, uid fslock.UniqueID, start, length uint64, whence int16) error {
return f.Locks().UnlockPOSIX(ctx, &f.vfsfd, uid, start, length, whence)
}
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