// 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 vfs import ( "io" "sync/atomic" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/sentry/arch" "gvisor.dev/gvisor/pkg/sentry/fs/lock" "gvisor.dev/gvisor/pkg/sentry/fsmetric" "gvisor.dev/gvisor/pkg/sentry/kernel/auth" "gvisor.dev/gvisor/pkg/sentry/memmap" "gvisor.dev/gvisor/pkg/sync" "gvisor.dev/gvisor/pkg/syserror" "gvisor.dev/gvisor/pkg/usermem" "gvisor.dev/gvisor/pkg/waiter" ) // A FileDescription represents an open file description, which is the entity // referred to by a file descriptor (POSIX.1-2017 3.258 "Open File // Description"). // // FileDescriptions are reference-counted. Unless otherwise specified, all // FileDescription methods require that a reference is held. // // FileDescription is analogous to Linux's struct file. // // +stateify savable type FileDescription struct { FileDescriptionRefs // flagsMu protects `statusFlags`, `saved`, and `asyncHandler` below. flagsMu sync.Mutex `state:"nosave"` // statusFlags contains status flags, "initialized by open(2) and possibly // modified by fcntl()" - fcntl(2). statusFlags can be read using atomic // memory operations when it does not need to be synchronized with an // access to asyncHandler. statusFlags uint32 // saved is true after beforeSave is called. This is used to prevent // double-unregistration of asyncHandler. This does not work properly for // save-resume, which is not currently supported in gVisor (see b/26588733). saved bool `state:"nosave"` // asyncHandler handles O_ASYNC signal generation. It is set with the // F_SETOWN or F_SETOWN_EX fcntls. For asyncHandler to be used, O_ASYNC must // also be set by fcntl(2). asyncHandler FileAsync // epolls is the set of epollInterests registered for this FileDescription. // epolls is protected by epollMu. epollMu sync.Mutex `state:"nosave"` epolls map[*epollInterest]struct{} // vd is the filesystem location at which this FileDescription was opened. // A reference is held on vd. vd is immutable. vd VirtualDentry // opts contains options passed to FileDescription.Init(). opts is // immutable. opts FileDescriptionOptions // readable is MayReadFileWithOpenFlags(statusFlags). readable is // immutable. // // readable is analogous to Linux's FMODE_READ. readable bool // writable is MayWriteFileWithOpenFlags(statusFlags). If writable is true, // the FileDescription holds a write count on vd.mount. writable is // immutable. // // writable is analogous to Linux's FMODE_WRITE. writable bool usedLockBSD uint32 // impl is the FileDescriptionImpl associated with this Filesystem. impl is // immutable. This should be the last field in FileDescription. impl FileDescriptionImpl } // FileDescriptionOptions contains options to FileDescription.Init(). // // +stateify savable type FileDescriptionOptions struct { // If AllowDirectIO is true, allow O_DIRECT to be set on the file. AllowDirectIO bool // If DenyPRead is true, calls to FileDescription.PRead() return ESPIPE. DenyPRead bool // If DenyPWrite is true, calls to FileDescription.PWrite() return // ESPIPE. DenyPWrite bool // If UseDentryMetadata is true, calls to FileDescription methods that // interact with file and filesystem metadata (Stat, SetStat, StatFS, // ListXattr, GetXattr, SetXattr, RemoveXattr) are implemented by calling // the corresponding FilesystemImpl methods instead of the corresponding // FileDescriptionImpl methods. // // UseDentryMetadata is intended for file descriptions that are implemented // outside of individual filesystems, such as pipes, sockets, and device // special files. FileDescriptions for which UseDentryMetadata is true may // embed DentryMetadataFileDescriptionImpl to obtain appropriate // implementations of FileDescriptionImpl methods that should not be // called. UseDentryMetadata bool } // FileCreationFlags are the set of flags passed to FileDescription.Init() but // omitted from FileDescription.StatusFlags(). const FileCreationFlags = linux.O_CREAT | linux.O_EXCL | linux.O_NOCTTY | linux.O_TRUNC // Init must be called before first use of fd. If it succeeds, it takes // references on mnt and d. flags is the initial file description flags, which // is usually the full set of flags passed to open(2). func (fd *FileDescription) Init(impl FileDescriptionImpl, flags uint32, mnt *Mount, d *Dentry, opts *FileDescriptionOptions) error { writable := MayWriteFileWithOpenFlags(flags) if writable { if err := mnt.CheckBeginWrite(); err != nil { return err } } fd.InitRefs() // Remove "file creation flags" to mirror the behavior from file.f_flags in // fs/open.c:do_dentry_open. fd.statusFlags = flags &^ FileCreationFlags fd.vd = VirtualDentry{ mount: mnt, dentry: d, } mnt.IncRef() d.IncRef() fd.opts = *opts fd.readable = MayReadFileWithOpenFlags(flags) fd.writable = writable fd.impl = impl return nil } // DecRef decrements fd's reference count. func (fd *FileDescription) DecRef(ctx context.Context) { fd.FileDescriptionRefs.DecRef(func() { // Unregister fd from all epoll instances. fd.epollMu.Lock() epolls := fd.epolls fd.epolls = nil fd.epollMu.Unlock() for epi := range epolls { ep := epi.epoll ep.interestMu.Lock() // Check that epi has not been concurrently unregistered by // EpollInstance.DeleteInterest() or EpollInstance.Release(). if _, ok := ep.interest[epi.key]; ok { fd.EventUnregister(&epi.waiter) ep.removeLocked(epi) } ep.interestMu.Unlock() } // If BSD locks were used, release any lock that it may have acquired. if atomic.LoadUint32(&fd.usedLockBSD) != 0 { fd.impl.UnlockBSD(context.Background(), fd) } // Release implementation resources. fd.impl.Release(ctx) if fd.writable { fd.vd.mount.EndWrite() } fd.vd.DecRef(ctx) fd.flagsMu.Lock() if !fd.saved && fd.statusFlags&linux.O_ASYNC != 0 && fd.asyncHandler != nil { fd.asyncHandler.Unregister(fd) } fd.asyncHandler = nil fd.flagsMu.Unlock() }) } // Mount returns the mount on which fd was opened. It does not take a reference // on the returned Mount. func (fd *FileDescription) Mount() *Mount { return fd.vd.mount } // Dentry returns the dentry at which fd was opened. It does not take a // reference on the returned Dentry. func (fd *FileDescription) Dentry() *Dentry { return fd.vd.dentry } // VirtualDentry returns the location at which fd was opened. It does not take // a reference on the returned VirtualDentry. func (fd *FileDescription) VirtualDentry() VirtualDentry { return fd.vd } // Options returns the options passed to fd.Init(). func (fd *FileDescription) Options() FileDescriptionOptions { return fd.opts } // StatusFlags returns file description status flags, as for fcntl(F_GETFL). func (fd *FileDescription) StatusFlags() uint32 { return atomic.LoadUint32(&fd.statusFlags) } // SetStatusFlags sets file description status flags, as for fcntl(F_SETFL). func (fd *FileDescription) SetStatusFlags(ctx context.Context, creds *auth.Credentials, flags uint32) error { // Compare Linux's fs/fcntl.c:setfl(). oldFlags := fd.StatusFlags() // Linux documents this check as "O_APPEND cannot be cleared if the file is // marked as append-only and the file is open for write", which would make // sense. However, the check as actually implemented seems to be "O_APPEND // cannot be changed if the file is marked as append-only". if (flags^oldFlags)&linux.O_APPEND != 0 { stat, err := fd.Stat(ctx, StatOptions{ // There is no mask bit for stx_attributes. Mask: 0, // Linux just reads inode::i_flags directly. Sync: linux.AT_STATX_DONT_SYNC, }) if err != nil { return err } if (stat.AttributesMask&linux.STATX_ATTR_APPEND != 0) && (stat.Attributes&linux.STATX_ATTR_APPEND != 0) { return syserror.EPERM } } if (flags&linux.O_NOATIME != 0) && (oldFlags&linux.O_NOATIME == 0) { stat, err := fd.Stat(ctx, StatOptions{ Mask: linux.STATX_UID, // Linux's inode_owner_or_capable() just reads inode::i_uid // directly. Sync: linux.AT_STATX_DONT_SYNC, }) if err != nil { return err } if stat.Mask&linux.STATX_UID == 0 { return syserror.EPERM } if !CanActAsOwner(creds, auth.KUID(stat.UID)) { return syserror.EPERM } } if flags&linux.O_DIRECT != 0 && !fd.opts.AllowDirectIO { return syserror.EINVAL } // TODO(gvisor.dev/issue/1035): FileDescriptionImpl.SetOAsync()? const settableFlags = linux.O_APPEND | linux.O_ASYNC | linux.O_DIRECT | linux.O_NOATIME | linux.O_NONBLOCK fd.flagsMu.Lock() if fd.asyncHandler != nil { // Use fd.statusFlags instead of oldFlags, which may have become outdated, // to avoid double registering/unregistering. if fd.statusFlags&linux.O_ASYNC == 0 && flags&linux.O_ASYNC != 0 { fd.asyncHandler.Register(fd) } else if fd.statusFlags&linux.O_ASYNC != 0 && flags&linux.O_ASYNC == 0 { fd.asyncHandler.Unregister(fd) } } atomic.StoreUint32(&fd.statusFlags, (oldFlags&^settableFlags)|(flags&settableFlags)) fd.flagsMu.Unlock() return nil } // IsReadable returns true if fd was opened for reading. func (fd *FileDescription) IsReadable() bool { return fd.readable } // IsWritable returns true if fd was opened for writing. func (fd *FileDescription) IsWritable() bool { return fd.writable } // Impl returns the FileDescriptionImpl associated with fd. func (fd *FileDescription) Impl() FileDescriptionImpl { return fd.impl } // FileDescriptionImpl contains implementation details for an FileDescription. // Implementations of FileDescriptionImpl should contain their associated // FileDescription by value as their first field. // // For all functions that return linux.Statx, Statx.Uid and Statx.Gid will // be interpreted as IDs in the root UserNamespace (i.e. as auth.KUID and // auth.KGID respectively). // // All methods may return errors not specified. // // FileDescriptionImpl is analogous to Linux's struct file_operations. type FileDescriptionImpl interface { // Release is called when the associated FileDescription reaches zero // references. Release(ctx context.Context) // OnClose is called when a file descriptor representing the // FileDescription is closed. Note that returning a non-nil error does not // prevent the file descriptor from being closed. OnClose(ctx context.Context) error // Stat returns metadata for the file represented by the FileDescription. Stat(ctx context.Context, opts StatOptions) (linux.Statx, error) // SetStat updates metadata for the file represented by the // FileDescription. Implementations are responsible for checking if the // operation can be performed (see vfs.CheckSetStat() for common checks). SetStat(ctx context.Context, opts SetStatOptions) error // StatFS returns metadata for the filesystem containing the file // represented by the FileDescription. StatFS(ctx context.Context) (linux.Statfs, error) // Allocate grows the file to offset + length bytes. // Only mode == 0 is supported currently. // // Allocate should return EISDIR on directories, ESPIPE on pipes, and ENODEV on // other files where it is not supported. // // Preconditions: The FileDescription was opened for writing. Allocate(ctx context.Context, mode, offset, length uint64) error // waiter.Waitable methods may be used to poll for I/O events. waiter.Waitable // PRead reads from the file into dst, starting at the given offset, and // returns the number of bytes read. PRead is permitted to return partial // reads with a nil error. // // Errors: // // - If opts.Flags specifies unsupported options, PRead returns EOPNOTSUPP. // // Preconditions: // * The FileDescription was opened for reading. // * FileDescriptionOptions.DenyPRead == false. PRead(ctx context.Context, dst usermem.IOSequence, offset int64, opts ReadOptions) (int64, error) // Read is similar to PRead, but does not specify an offset. // // For files with an implicit FileDescription offset (e.g. regular files), // Read begins at the FileDescription offset, and advances the offset by // the number of bytes read; note that POSIX 2.9.7 "Thread Interactions // with Regular File Operations" requires that all operations that may // mutate the FileDescription offset are serialized. // // Errors: // // - If opts.Flags specifies unsupported options, Read returns EOPNOTSUPP. // // Preconditions: The FileDescription was opened for reading. Read(ctx context.Context, dst usermem.IOSequence, opts ReadOptions) (int64, error) // PWrite writes src to the file, starting at the given offset, and returns // the number of bytes written. PWrite is permitted to return partial // writes with a nil error. // // As in Linux (but not POSIX), if O_APPEND is in effect for the // FileDescription, PWrite should ignore the offset and append data to the // end of the file. // // Errors: // // - If opts.Flags specifies unsupported options, PWrite returns // EOPNOTSUPP. // // Preconditions: // * The FileDescription was opened for writing. // * FileDescriptionOptions.DenyPWrite == false. PWrite(ctx context.Context, src usermem.IOSequence, offset int64, opts WriteOptions) (int64, error) // Write is similar to PWrite, but does not specify an offset, which is // implied as for Read. // // Write is a FileDescriptionImpl method, instead of a wrapper around // PWrite that uses a FileDescription offset, to make it possible for // remote filesystems to implement O_APPEND correctly (i.e. atomically with // respect to writers outside the scope of VFS). // // Errors: // // - If opts.Flags specifies unsupported options, Write returns EOPNOTSUPP. // // Preconditions: The FileDescription was opened for writing. Write(ctx context.Context, src usermem.IOSequence, opts WriteOptions) (int64, error) // IterDirents invokes cb on each entry in the directory represented by the // FileDescription. If IterDirents has been called since the last call to // Seek, it continues iteration from the end of the last call. IterDirents(ctx context.Context, cb IterDirentsCallback) error // Seek changes the FileDescription offset (assuming one exists) and // returns its new value. // // For directories, if whence == SEEK_SET and offset == 0, the caller is // rewinddir(), such that Seek "shall also cause the directory stream to // refer to the current state of the corresponding directory" - // POSIX.1-2017. Seek(ctx context.Context, offset int64, whence int32) (int64, error) // Sync requests that cached state associated with the file represented by // the FileDescription is synchronized with persistent storage, and blocks // until this is complete. Sync(ctx context.Context) error // ConfigureMMap mutates opts to implement mmap(2) for the file. Most // implementations that support memory mapping can call // GenericConfigureMMap with the appropriate memmap.Mappable. ConfigureMMap(ctx context.Context, opts *memmap.MMapOpts) error // Ioctl implements the ioctl(2) syscall. Ioctl(ctx context.Context, uio usermem.IO, args arch.SyscallArguments) (uintptr, error) // ListXattr returns all extended attribute names for the file. ListXattr(ctx context.Context, size uint64) ([]string, error) // GetXattr returns the value associated with the given extended attribute // for the file. GetXattr(ctx context.Context, opts GetXattrOptions) (string, error) // SetXattr changes the value associated with the given extended attribute // for the file. SetXattr(ctx context.Context, opts SetXattrOptions) error // RemoveXattr removes the given extended attribute from the file. RemoveXattr(ctx context.Context, name string) error // LockBSD tries to acquire a BSD-style advisory file lock. LockBSD(ctx context.Context, uid lock.UniqueID, t lock.LockType, block lock.Blocker) error // UnlockBSD releases a BSD-style advisory file lock. UnlockBSD(ctx context.Context, uid lock.UniqueID) error // LockPOSIX tries to acquire a POSIX-style advisory file lock. LockPOSIX(ctx context.Context, uid lock.UniqueID, t lock.LockType, r lock.LockRange, block lock.Blocker) error // UnlockPOSIX releases a POSIX-style advisory file lock. UnlockPOSIX(ctx context.Context, uid lock.UniqueID, ComputeLockRange lock.LockRange) error } // Dirent holds the information contained in struct linux_dirent64. // // +stateify savable type Dirent struct { // Name is the filename. Name string // Type is the file type, a linux.DT_* constant. Type uint8 // Ino is the inode number. Ino uint64 // NextOff is the offset of the *next* Dirent in the directory; that is, // FileDescription.Seek(NextOff, SEEK_SET) (as called by seekdir(3)) will // cause the next call to FileDescription.IterDirents() to yield the next // Dirent. (The offset of the first Dirent in a directory is always 0.) NextOff int64 } // IterDirentsCallback receives Dirents from FileDescriptionImpl.IterDirents. type IterDirentsCallback interface { // Handle handles the given iterated Dirent. If Handle returns a non-nil // error, FileDescriptionImpl.IterDirents must stop iteration and return // the error; the next call to FileDescriptionImpl.IterDirents should // restart with the same Dirent. Handle(dirent Dirent) error } // IterDirentsCallbackFunc implements IterDirentsCallback for a function with // the semantics of IterDirentsCallback.Handle. type IterDirentsCallbackFunc func(dirent Dirent) error // Handle implements IterDirentsCallback.Handle. func (f IterDirentsCallbackFunc) Handle(dirent Dirent) error { return f(dirent) } // OnClose is called when a file descriptor representing the FileDescription is // closed. Returning a non-nil error should not prevent the file descriptor // from being closed. func (fd *FileDescription) OnClose(ctx context.Context) error { return fd.impl.OnClose(ctx) } // Stat returns metadata for the file represented by fd. func (fd *FileDescription) Stat(ctx context.Context, opts StatOptions) (linux.Statx, error) { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) stat, err := fd.vd.mount.fs.impl.StatAt(ctx, rp, opts) vfsObj.putResolvingPath(ctx, rp) return stat, err } return fd.impl.Stat(ctx, opts) } // SetStat updates metadata for the file represented by fd. func (fd *FileDescription) SetStat(ctx context.Context, opts SetStatOptions) error { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) err := fd.vd.mount.fs.impl.SetStatAt(ctx, rp, opts) vfsObj.putResolvingPath(ctx, rp) return err } return fd.impl.SetStat(ctx, opts) } // StatFS returns metadata for the filesystem containing the file represented // by fd. func (fd *FileDescription) StatFS(ctx context.Context) (linux.Statfs, error) { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) statfs, err := fd.vd.mount.fs.impl.StatFSAt(ctx, rp) vfsObj.putResolvingPath(ctx, rp) return statfs, err } return fd.impl.StatFS(ctx) } // Allocate grows file represented by FileDescription to offset + length bytes. func (fd *FileDescription) Allocate(ctx context.Context, mode, offset, length uint64) error { if !fd.IsWritable() { return syserror.EBADF } return fd.impl.Allocate(ctx, mode, offset, length) } // Readiness implements waiter.Waitable.Readiness. // // It returns fd's I/O readiness. func (fd *FileDescription) Readiness(mask waiter.EventMask) waiter.EventMask { return fd.impl.Readiness(mask) } // EventRegister implements waiter.Waitable.EventRegister. // // It registers e for I/O readiness events in mask. func (fd *FileDescription) EventRegister(e *waiter.Entry, mask waiter.EventMask) { fd.impl.EventRegister(e, mask) } // EventUnregister implements waiter.Waitable.EventUnregister. // // It unregisters e for I/O readiness events. func (fd *FileDescription) EventUnregister(e *waiter.Entry) { fd.impl.EventUnregister(e) } // PRead reads from the file represented by fd into dst, starting at the given // offset, and returns the number of bytes read. PRead is permitted to return // partial reads with a nil error. func (fd *FileDescription) PRead(ctx context.Context, dst usermem.IOSequence, offset int64, opts ReadOptions) (int64, error) { if fd.opts.DenyPRead { return 0, syserror.ESPIPE } if !fd.readable { return 0, syserror.EBADF } start := fsmetric.StartReadWait() n, err := fd.impl.PRead(ctx, dst, offset, opts) fsmetric.Reads.Increment() fsmetric.FinishReadWait(fsmetric.ReadWait, start) return n, err } // Read is similar to PRead, but does not specify an offset. func (fd *FileDescription) Read(ctx context.Context, dst usermem.IOSequence, opts ReadOptions) (int64, error) { if !fd.readable { return 0, syserror.EBADF } start := fsmetric.StartReadWait() n, err := fd.impl.Read(ctx, dst, opts) fsmetric.Reads.Increment() fsmetric.FinishReadWait(fsmetric.ReadWait, start) return n, err } // PWrite writes src to the file represented by fd, starting at the given // offset, and returns the number of bytes written. PWrite is permitted to // return partial writes with a nil error. func (fd *FileDescription) PWrite(ctx context.Context, src usermem.IOSequence, offset int64, opts WriteOptions) (int64, error) { if fd.opts.DenyPWrite { return 0, syserror.ESPIPE } if !fd.writable { return 0, syserror.EBADF } return fd.impl.PWrite(ctx, src, offset, opts) } // Write is similar to PWrite, but does not specify an offset. func (fd *FileDescription) Write(ctx context.Context, src usermem.IOSequence, opts WriteOptions) (int64, error) { if !fd.writable { return 0, syserror.EBADF } return fd.impl.Write(ctx, src, opts) } // IterDirents invokes cb on each entry in the directory represented by fd. If // IterDirents has been called since the last call to Seek, it continues // iteration from the end of the last call. func (fd *FileDescription) IterDirents(ctx context.Context, cb IterDirentsCallback) error { return fd.impl.IterDirents(ctx, cb) } // Seek changes fd's offset (assuming one exists) and returns its new value. func (fd *FileDescription) Seek(ctx context.Context, offset int64, whence int32) (int64, error) { return fd.impl.Seek(ctx, offset, whence) } // Sync has the semantics of fsync(2). func (fd *FileDescription) Sync(ctx context.Context) error { return fd.impl.Sync(ctx) } // ConfigureMMap mutates opts to implement mmap(2) for the file represented by // fd. func (fd *FileDescription) ConfigureMMap(ctx context.Context, opts *memmap.MMapOpts) error { return fd.impl.ConfigureMMap(ctx, opts) } // Ioctl implements the ioctl(2) syscall. func (fd *FileDescription) Ioctl(ctx context.Context, uio usermem.IO, args arch.SyscallArguments) (uintptr, error) { return fd.impl.Ioctl(ctx, uio, args) } // ListXattr returns all extended attribute names for the file represented by // fd. // // If the size of the list (including a NUL terminating byte after every entry) // would exceed size, ERANGE may be returned. Note that implementations // are free to ignore size entirely and return without error). In all cases, // if size is 0, the list should be returned without error, regardless of size. func (fd *FileDescription) ListXattr(ctx context.Context, size uint64) ([]string, error) { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) names, err := fd.vd.mount.fs.impl.ListXattrAt(ctx, rp, size) vfsObj.putResolvingPath(ctx, rp) return names, err } names, err := fd.impl.ListXattr(ctx, size) if err == syserror.ENOTSUP { // Linux doesn't actually return ENOTSUP in this case; instead, // fs/xattr.c:vfs_listxattr() falls back to allowing the security // subsystem to return security extended attributes, which by default // don't exist. return nil, nil } return names, err } // GetXattr returns the value associated with the given extended attribute for // the file represented by fd. // // If the size of the return value exceeds opts.Size, ERANGE may be returned // (note that implementations are free to ignore opts.Size entirely and return // without error). In all cases, if opts.Size is 0, the value should be // returned without error, regardless of size. func (fd *FileDescription) GetXattr(ctx context.Context, opts *GetXattrOptions) (string, error) { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) val, err := fd.vd.mount.fs.impl.GetXattrAt(ctx, rp, *opts) vfsObj.putResolvingPath(ctx, rp) return val, err } return fd.impl.GetXattr(ctx, *opts) } // SetXattr changes the value associated with the given extended attribute for // the file represented by fd. func (fd *FileDescription) SetXattr(ctx context.Context, opts *SetXattrOptions) error { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) err := fd.vd.mount.fs.impl.SetXattrAt(ctx, rp, *opts) vfsObj.putResolvingPath(ctx, rp) return err } return fd.impl.SetXattr(ctx, *opts) } // RemoveXattr removes the given extended attribute from the file represented // by fd. func (fd *FileDescription) RemoveXattr(ctx context.Context, name string) error { if fd.opts.UseDentryMetadata { vfsObj := fd.vd.mount.vfs rp := vfsObj.getResolvingPath(auth.CredentialsFromContext(ctx), &PathOperation{ Root: fd.vd, Start: fd.vd, }) err := fd.vd.mount.fs.impl.RemoveXattrAt(ctx, rp, name) vfsObj.putResolvingPath(ctx, rp) return err } return fd.impl.RemoveXattr(ctx, name) } // SyncFS instructs the filesystem containing fd to execute the semantics of // syncfs(2). func (fd *FileDescription) SyncFS(ctx context.Context) error { return fd.vd.mount.fs.impl.Sync(ctx) } // MappedName implements memmap.MappingIdentity.MappedName. func (fd *FileDescription) MappedName(ctx context.Context) string { vfsroot := RootFromContext(ctx) s, _ := fd.vd.mount.vfs.PathnameWithDeleted(ctx, vfsroot, fd.vd) if vfsroot.Ok() { vfsroot.DecRef(ctx) } return s } // DeviceID implements memmap.MappingIdentity.DeviceID. func (fd *FileDescription) DeviceID() uint64 { stat, err := fd.Stat(context.Background(), StatOptions{ // There is no STATX_DEV; we assume that Stat will return it if it's // available regardless of mask. Mask: 0, // fs/proc/task_mmu.c:show_map_vma() just reads inode::i_sb->s_dev // directly. Sync: linux.AT_STATX_DONT_SYNC, }) if err != nil { return 0 } return uint64(linux.MakeDeviceID(uint16(stat.DevMajor), stat.DevMinor)) } // InodeID implements memmap.MappingIdentity.InodeID. func (fd *FileDescription) InodeID() uint64 { stat, err := fd.Stat(context.Background(), StatOptions{ Mask: linux.STATX_INO, // fs/proc/task_mmu.c:show_map_vma() just reads inode::i_ino directly. Sync: linux.AT_STATX_DONT_SYNC, }) if err != nil || stat.Mask&linux.STATX_INO == 0 { return 0 } return stat.Ino } // Msync implements memmap.MappingIdentity.Msync. func (fd *FileDescription) Msync(ctx context.Context, mr memmap.MappableRange) error { return fd.Sync(ctx) } // LockBSD tries to acquire a BSD-style advisory file lock. func (fd *FileDescription) LockBSD(ctx context.Context, lockType lock.LockType, blocker lock.Blocker) error { atomic.StoreUint32(&fd.usedLockBSD, 1) return fd.impl.LockBSD(ctx, fd, lockType, blocker) } // UnlockBSD releases a BSD-style advisory file lock. func (fd *FileDescription) UnlockBSD(ctx context.Context) error { return fd.impl.UnlockBSD(ctx, fd) } // LockPOSIX locks a POSIX-style file range lock. func (fd *FileDescription) LockPOSIX(ctx context.Context, uid lock.UniqueID, t lock.LockType, r lock.LockRange, block lock.Blocker) error { return fd.impl.LockPOSIX(ctx, uid, t, r, block) } // UnlockPOSIX unlocks a POSIX-style file range lock. func (fd *FileDescription) UnlockPOSIX(ctx context.Context, uid lock.UniqueID, r lock.LockRange) error { return fd.impl.UnlockPOSIX(ctx, uid, r) } // ComputeLockRange computes the range of a file lock based on the given values. func (fd *FileDescription) ComputeLockRange(ctx context.Context, start uint64, length uint64, whence int16) (lock.LockRange, error) { var off int64 switch whence { case linux.SEEK_SET: off = 0 case linux.SEEK_CUR: // Note that Linux does not hold any mutexes while retrieving the file // offset, see fs/locks.c:flock_to_posix_lock and fs/locks.c:fcntl_setlk. curOff, err := fd.Seek(ctx, 0, linux.SEEK_CUR) if err != nil { return lock.LockRange{}, err } off = curOff case linux.SEEK_END: stat, err := fd.Stat(ctx, StatOptions{Mask: linux.STATX_SIZE}) if err != nil { return lock.LockRange{}, err } off = int64(stat.Size) default: return lock.LockRange{}, syserror.EINVAL } return lock.ComputeRange(int64(start), int64(length), off) } // A FileAsync sends signals to its owner when w is ready for IO. This is only // implemented by pkg/sentry/fasync:FileAsync, but we unfortunately need this // interface to avoid circular dependencies. type FileAsync interface { Register(w waiter.Waitable) Unregister(w waiter.Waitable) } // AsyncHandler returns the FileAsync for fd. func (fd *FileDescription) AsyncHandler() FileAsync { fd.flagsMu.Lock() defer fd.flagsMu.Unlock() return fd.asyncHandler } // SetAsyncHandler sets fd.asyncHandler if it has not been set before and // returns it. func (fd *FileDescription) SetAsyncHandler(newHandler func() FileAsync) FileAsync { fd.flagsMu.Lock() defer fd.flagsMu.Unlock() if fd.asyncHandler == nil { fd.asyncHandler = newHandler() if fd.statusFlags&linux.O_ASYNC != 0 { fd.asyncHandler.Register(fd) } } return fd.asyncHandler } // CopyRegularFileData copies data from srcFD to dstFD until reading from srcFD // returns EOF or an error. It returns the number of bytes copied. func CopyRegularFileData(ctx context.Context, dstFD, srcFD *FileDescription) (int64, error) { done := int64(0) buf := usermem.BytesIOSequence(make([]byte, 32*1024)) // arbitrary buffer size for { readN, readErr := srcFD.Read(ctx, buf, ReadOptions{}) if readErr != nil && readErr != io.EOF { return done, readErr } src := buf.TakeFirst64(readN) for src.NumBytes() != 0 { writeN, writeErr := dstFD.Write(ctx, src, WriteOptions{}) done += writeN src = src.DropFirst64(writeN) if writeErr != nil { return done, writeErr } } if readErr == io.EOF { return done, nil } } }