// 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 ( "fmt" "os" "syscall" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/p9" "gvisor.dev/gvisor/pkg/sentry/kernel/auth" ktime "gvisor.dev/gvisor/pkg/sentry/kernel/time" ) // InodeType enumerates types of Inodes. type InodeType int const ( // RegularFile is a regular file. RegularFile InodeType = iota // SpecialFile is a file that doesn't support SeekEnd. It is used for // things like proc files. SpecialFile // Directory is a directory. Directory // SpecialDirectory is a directory that *does* support SeekEnd. It's // the opposite of the SpecialFile scenario above. It similarly // supports proc files. SpecialDirectory // Symlink is a symbolic link. Symlink // Pipe is a pipe (named or regular). Pipe // Socket is a socket. Socket // CharacterDevice is a character device. CharacterDevice // BlockDevice is a block device. BlockDevice // Anonymous is an anonymous type when none of the above apply. // Epoll fds and event-driven fds fit this category. Anonymous ) // String returns a human-readable representation of the InodeType. func (n InodeType) String() string { switch n { case RegularFile, SpecialFile: return "file" case Directory, SpecialDirectory: return "directory" case Symlink: return "symlink" case Pipe: return "pipe" case Socket: return "socket" case CharacterDevice: return "character-device" case BlockDevice: return "block-device" case Anonymous: return "anonymous" default: return "unknown" } } // LinuxType returns the linux file type for this inode type. func (n InodeType) LinuxType() uint32 { switch n { case RegularFile, SpecialFile: return linux.ModeRegular case Directory, SpecialDirectory: return linux.ModeDirectory case Symlink: return linux.ModeSymlink case Pipe: return linux.ModeNamedPipe case CharacterDevice: return linux.ModeCharacterDevice case BlockDevice: return linux.ModeBlockDevice case Socket: return linux.ModeSocket default: return 0 } } // ToDirentType converts an InodeType to a linux dirent type field. func ToDirentType(nodeType InodeType) uint8 { switch nodeType { case RegularFile, SpecialFile: return linux.DT_REG case Symlink: return linux.DT_LNK case Directory, SpecialDirectory: return linux.DT_DIR case Pipe: return linux.DT_FIFO case CharacterDevice: return linux.DT_CHR case BlockDevice: return linux.DT_BLK case Socket: return linux.DT_SOCK default: return linux.DT_UNKNOWN } } // ToInodeType coverts a linux file type to InodeType. func ToInodeType(linuxFileType linux.FileMode) InodeType { switch linuxFileType { case linux.ModeRegular: return RegularFile case linux.ModeDirectory: return Directory case linux.ModeSymlink: return Symlink case linux.ModeNamedPipe: return Pipe case linux.ModeCharacterDevice: return CharacterDevice case linux.ModeBlockDevice: return BlockDevice case linux.ModeSocket: return Socket default: panic(fmt.Sprintf("unknown file mode: %d", linuxFileType)) } } // StableAttr contains Inode attributes that will be stable throughout the // lifetime of the Inode. // // +stateify savable type StableAttr struct { // Type is the InodeType of a InodeOperations. Type InodeType // DeviceID is the device on which a InodeOperations resides. DeviceID uint64 // InodeID uniquely identifies InodeOperations on its device. InodeID uint64 // BlockSize is the block size of data backing this InodeOperations. BlockSize int64 // DeviceFileMajor is the major device number of this Node, if it is a // device file. DeviceFileMajor uint16 // DeviceFileMinor is the minor device number of this Node, if it is a // device file. DeviceFileMinor uint32 } // IsRegular returns true if StableAttr.Type matches a regular file. func IsRegular(s StableAttr) bool { return s.Type == RegularFile } // IsFile returns true if StableAttr.Type matches any type of file. func IsFile(s StableAttr) bool { return s.Type == RegularFile || s.Type == SpecialFile } // IsDir returns true if StableAttr.Type matches any type of directory. func IsDir(s StableAttr) bool { return s.Type == Directory || s.Type == SpecialDirectory } // IsSymlink returns true if StableAttr.Type matches a symlink. func IsSymlink(s StableAttr) bool { return s.Type == Symlink } // IsPipe returns true if StableAttr.Type matches any type of pipe. func IsPipe(s StableAttr) bool { return s.Type == Pipe } // IsSocket returns true if StableAttr.Type matches any type of socket. func IsSocket(s StableAttr) bool { return s.Type == Socket } // IsCharDevice returns true if StableAttr.Type matches a character device. func IsCharDevice(s StableAttr) bool { return s.Type == CharacterDevice } // UnstableAttr contains Inode attributes that may change over the lifetime // of the Inode. // // +stateify savable type UnstableAttr struct { // Size is the file size in bytes. Size int64 // Usage is the actual data usage in bytes. Usage int64 // Perms is the protection (read/write/execute for user/group/other). Perms FilePermissions // Owner describes the ownership of this file. Owner FileOwner // AccessTime is the time of last access AccessTime ktime.Time // ModificationTime is the time of last modification. ModificationTime ktime.Time // StatusChangeTime is the time of last attribute modification. StatusChangeTime ktime.Time // Links is the number of hard links. Links uint64 } // SetOwner sets the owner and group if they are valid. // // This method is NOT thread-safe. Callers must prevent concurrent calls. func (ua *UnstableAttr) SetOwner(ctx context.Context, owner FileOwner) { if owner.UID.Ok() { ua.Owner.UID = owner.UID } if owner.GID.Ok() { ua.Owner.GID = owner.GID } ua.StatusChangeTime = ktime.NowFromContext(ctx) } // SetPermissions sets the permissions. // // This method is NOT thread-safe. Callers must prevent concurrent calls. func (ua *UnstableAttr) SetPermissions(ctx context.Context, p FilePermissions) { ua.Perms = p ua.StatusChangeTime = ktime.NowFromContext(ctx) } // SetTimestamps sets the timestamps according to the TimeSpec. // // This method is NOT thread-safe. Callers must prevent concurrent calls. func (ua *UnstableAttr) SetTimestamps(ctx context.Context, ts TimeSpec) { if ts.ATimeOmit && ts.MTimeOmit { return } now := ktime.NowFromContext(ctx) if !ts.ATimeOmit { if ts.ATimeSetSystemTime { ua.AccessTime = now } else { ua.AccessTime = ts.ATime } } if !ts.MTimeOmit { if ts.MTimeSetSystemTime { ua.ModificationTime = now } else { ua.ModificationTime = ts.MTime } } ua.StatusChangeTime = now } // WithCurrentTime returns u with AccessTime == ModificationTime == current time. func WithCurrentTime(ctx context.Context, u UnstableAttr) UnstableAttr { t := ktime.NowFromContext(ctx) u.AccessTime = t u.ModificationTime = t u.StatusChangeTime = t return u } // AttrMask contains fields to mask StableAttr and UnstableAttr. // // +stateify savable type AttrMask struct { Type bool DeviceID bool InodeID bool BlockSize bool Size bool Usage bool Perms bool UID bool GID bool AccessTime bool ModificationTime bool StatusChangeTime bool Links bool } // Empty returns true if all fields in AttrMask are false. func (a AttrMask) Empty() bool { return a == AttrMask{} } // PermMask are file access permissions. // // +stateify savable type PermMask struct { // Read indicates reading is permitted. Read bool // Write indicates writing is permitted. Write bool // Execute indicates execution is permitted. Execute bool } // OnlyRead returns true when only the read bit is set. func (p PermMask) OnlyRead() bool { return p.Read && !p.Write && !p.Execute } // String implements the fmt.Stringer interface for PermMask. func (p PermMask) String() string { return fmt.Sprintf("PermMask{Read: %v, Write: %v, Execute: %v}", p.Read, p.Write, p.Execute) } // Mode returns the system mode (syscall.S_IXOTH, etc.) for these permissions // in the "other" bits. func (p PermMask) Mode() (mode os.FileMode) { if p.Read { mode |= syscall.S_IROTH } if p.Write { mode |= syscall.S_IWOTH } if p.Execute { mode |= syscall.S_IXOTH } return } // SupersetOf returns true iff the permissions in p are a superset of the // permissions in other. func (p PermMask) SupersetOf(other PermMask) bool { if !p.Read && other.Read { return false } if !p.Write && other.Write { return false } if !p.Execute && other.Execute { return false } return true } // FilePermissions represents the permissions of a file, with // Read/Write/Execute bits for user, group, and other. // // +stateify savable type FilePermissions struct { User PermMask Group PermMask Other PermMask // Sticky, if set on directories, restricts renaming and deletion of // files in those directories to the directory owner, file owner, or // CAP_FOWNER. The sticky bit is ignored when set on other files. Sticky bool // SetUID executables can call UID-setting syscalls without CAP_SETUID. SetUID bool // SetGID executables can call GID-setting syscalls without CAP_SETGID. SetGID bool } // PermsFromMode takes the Other permissions (last 3 bits) of a FileMode and // returns a set of PermMask. func PermsFromMode(mode linux.FileMode) (perms PermMask) { perms.Read = mode&linux.ModeOtherRead != 0 perms.Write = mode&linux.ModeOtherWrite != 0 perms.Execute = mode&linux.ModeOtherExec != 0 return } // FilePermsFromP9 converts a p9.FileMode to a FilePermissions struct. func FilePermsFromP9(mode p9.FileMode) FilePermissions { return FilePermsFromMode(linux.FileMode(mode)) } // FilePermsFromMode converts a system file mode to a FilePermissions struct. func FilePermsFromMode(mode linux.FileMode) (fp FilePermissions) { perm := mode.Permissions() fp.Other = PermsFromMode(perm) fp.Group = PermsFromMode(perm >> 3) fp.User = PermsFromMode(perm >> 6) fp.Sticky = mode&linux.ModeSticky == linux.ModeSticky fp.SetUID = mode&linux.ModeSetUID == linux.ModeSetUID fp.SetGID = mode&linux.ModeSetGID == linux.ModeSetGID return } // LinuxMode returns the linux mode_t representation of these permissions. func (f FilePermissions) LinuxMode() linux.FileMode { m := linux.FileMode(f.User.Mode()<<6 | f.Group.Mode()<<3 | f.Other.Mode()) if f.SetUID { m |= linux.ModeSetUID } if f.SetGID { m |= linux.ModeSetGID } if f.Sticky { m |= linux.ModeSticky } return m } // OSMode returns the Go runtime's OS independent os.FileMode representation of // these permissions. func (f FilePermissions) OSMode() os.FileMode { m := os.FileMode(f.User.Mode()<<6 | f.Group.Mode()<<3 | f.Other.Mode()) if f.SetUID { m |= os.ModeSetuid } if f.SetGID { m |= os.ModeSetgid } if f.Sticky { m |= os.ModeSticky } return m } // AnyExecute returns true if any of U/G/O have the execute bit set. func (f FilePermissions) AnyExecute() bool { return f.User.Execute || f.Group.Execute || f.Other.Execute } // AnyWrite returns true if any of U/G/O have the write bit set. func (f FilePermissions) AnyWrite() bool { return f.User.Write || f.Group.Write || f.Other.Write } // AnyRead returns true if any of U/G/O have the read bit set. func (f FilePermissions) AnyRead() bool { return f.User.Read || f.Group.Read || f.Other.Read } // FileOwner represents ownership of a file. // // +stateify savable type FileOwner struct { UID auth.KUID GID auth.KGID } // RootOwner corresponds to KUID/KGID 0/0. var RootOwner = FileOwner{ UID: auth.RootKUID, GID: auth.RootKGID, }