syncthing/lib/db/structs.go
Jakob Borg 6cac308bcd
all: Support syncing extended attributes (fixes #2698) (#8513)
This adds support for syncing extended attributes on supported
filesystem on Linux, macOS, FreeBSD and NetBSD. Windows is currently
excluded because the APIs seem onerous and annoying and frankly the uses
cases seem few and far between. On Unixes this also covers ACLs as those
are stored as extended attributes.

Similar to ownership syncing this will optional & opt-in, which two
settings controlling the main behavior: one to "sync" xattrs (read &
write) and another one to "scan" xattrs (only read them so other devices
can "sync" them, but not apply any locally).

Co-authored-by: Tomasz Wilczyński <twilczynski@naver.com>
2022-09-14 09:50:55 +02:00

521 lines
15 KiB
Go

// Copyright (C) 2014 The Syncthing Authors.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at https://mozilla.org/MPL/2.0/.
package db
import (
"bytes"
"fmt"
"strings"
"time"
"github.com/syncthing/syncthing/lib/protocol"
)
func (f FileInfoTruncated) String() string {
switch f.Type {
case protocol.FileInfoTypeDirectory:
return fmt.Sprintf("Directory{Name:%q, Sequence:%d, Permissions:0%o, ModTime:%v, Version:%v, Deleted:%v, Invalid:%v, LocalFlags:0x%x, NoPermissions:%v}",
f.Name, f.Sequence, f.Permissions, f.ModTime(), f.Version, f.Deleted, f.RawInvalid, f.LocalFlags, f.NoPermissions)
case protocol.FileInfoTypeFile:
return fmt.Sprintf("File{Name:%q, Sequence:%d, Permissions:0%o, ModTime:%v, Version:%v, Length:%d, Deleted:%v, Invalid:%v, LocalFlags:0x%x, NoPermissions:%v, BlockSize:%d}",
f.Name, f.Sequence, f.Permissions, f.ModTime(), f.Version, f.Size, f.Deleted, f.RawInvalid, f.LocalFlags, f.NoPermissions, f.RawBlockSize)
case protocol.FileInfoTypeSymlink, protocol.FileInfoTypeSymlinkDirectory, protocol.FileInfoTypeSymlinkFile:
return fmt.Sprintf("Symlink{Name:%q, Type:%v, Sequence:%d, Version:%v, Deleted:%v, Invalid:%v, LocalFlags:0x%x, NoPermissions:%v, SymlinkTarget:%q}",
f.Name, f.Type, f.Sequence, f.Version, f.Deleted, f.RawInvalid, f.LocalFlags, f.NoPermissions, f.SymlinkTarget)
default:
panic("mystery file type detected")
}
}
func (f FileInfoTruncated) IsDeleted() bool {
return f.Deleted
}
func (f FileInfoTruncated) IsInvalid() bool {
return f.RawInvalid || f.LocalFlags&protocol.LocalInvalidFlags != 0
}
func (f FileInfoTruncated) IsUnsupported() bool {
return f.LocalFlags&protocol.FlagLocalUnsupported != 0
}
func (f FileInfoTruncated) IsIgnored() bool {
return f.LocalFlags&protocol.FlagLocalIgnored != 0
}
func (f FileInfoTruncated) MustRescan() bool {
return f.LocalFlags&protocol.FlagLocalMustRescan != 0
}
func (f FileInfoTruncated) IsReceiveOnlyChanged() bool {
return f.LocalFlags&protocol.FlagLocalReceiveOnly != 0
}
func (f FileInfoTruncated) IsDirectory() bool {
return f.Type == protocol.FileInfoTypeDirectory
}
func (f FileInfoTruncated) IsSymlink() bool {
switch f.Type {
case protocol.FileInfoTypeSymlink, protocol.FileInfoTypeSymlinkDirectory, protocol.FileInfoTypeSymlinkFile:
return true
default:
return false
}
}
func (f FileInfoTruncated) ShouldConflict() bool {
return f.LocalFlags&protocol.LocalConflictFlags != 0
}
func (f FileInfoTruncated) HasPermissionBits() bool {
return !f.NoPermissions
}
func (f FileInfoTruncated) FileSize() int64 {
if f.Deleted {
return 0
}
if f.IsDirectory() || f.IsSymlink() {
return protocol.SyntheticDirectorySize
}
return f.Size
}
func (f FileInfoTruncated) BlockSize() int {
if f.RawBlockSize == 0 {
return protocol.MinBlockSize
}
return int(f.RawBlockSize)
}
func (f FileInfoTruncated) FileName() string {
return f.Name
}
func (f FileInfoTruncated) FileLocalFlags() uint32 {
return f.LocalFlags
}
func (f FileInfoTruncated) ModTime() time.Time {
return time.Unix(f.ModifiedS, int64(f.ModifiedNs))
}
func (f FileInfoTruncated) SequenceNo() int64 {
return f.Sequence
}
func (f FileInfoTruncated) FileVersion() protocol.Vector {
return f.Version
}
func (f FileInfoTruncated) FileType() protocol.FileInfoType {
return f.Type
}
func (f FileInfoTruncated) FilePermissions() uint32 {
return f.Permissions
}
func (f FileInfoTruncated) FileModifiedBy() protocol.ShortID {
return f.ModifiedBy
}
func (f FileInfoTruncated) PlatformData() protocol.PlatformData {
return f.Platform
}
func (f FileInfoTruncated) InodeChangeTime() time.Time {
return time.Unix(0, f.InodeChangeNs)
}
func (f FileInfoTruncated) ConvertToIgnoredFileInfo() protocol.FileInfo {
file := f.copyToFileInfo()
file.SetIgnored()
return file
}
func (f FileInfoTruncated) ConvertToDeletedFileInfo(by protocol.ShortID) protocol.FileInfo {
file := f.copyToFileInfo()
file.SetDeleted(by)
return file
}
// ConvertDeletedToFileInfo converts a deleted truncated file info to a regular file info
func (f FileInfoTruncated) ConvertDeletedToFileInfo() protocol.FileInfo {
if !f.Deleted {
panic("ConvertDeletedToFileInfo must only be called on deleted items")
}
return f.copyToFileInfo()
}
// copyToFileInfo just copies all members of FileInfoTruncated to protocol.FileInfo
func (f FileInfoTruncated) copyToFileInfo() protocol.FileInfo {
return protocol.FileInfo{
Name: f.Name,
Size: f.Size,
ModifiedS: f.ModifiedS,
ModifiedBy: f.ModifiedBy,
Version: f.Version,
Sequence: f.Sequence,
SymlinkTarget: f.SymlinkTarget,
BlocksHash: f.BlocksHash,
Type: f.Type,
Permissions: f.Permissions,
ModifiedNs: f.ModifiedNs,
RawBlockSize: f.RawBlockSize,
LocalFlags: f.LocalFlags,
Deleted: f.Deleted,
RawInvalid: f.RawInvalid,
NoPermissions: f.NoPermissions,
}
}
func (c Counts) Add(other Counts) Counts {
return Counts{
Files: c.Files + other.Files,
Directories: c.Directories + other.Directories,
Symlinks: c.Symlinks + other.Symlinks,
Deleted: c.Deleted + other.Deleted,
Bytes: c.Bytes + other.Bytes,
Sequence: c.Sequence + other.Sequence,
DeviceID: protocol.EmptyDeviceID[:],
LocalFlags: c.LocalFlags | other.LocalFlags,
}
}
func (c Counts) TotalItems() int {
return c.Files + c.Directories + c.Symlinks + c.Deleted
}
func (c Counts) String() string {
dev, _ := protocol.DeviceIDFromBytes(c.DeviceID)
var flags strings.Builder
if c.LocalFlags&needFlag != 0 {
flags.WriteString("Need")
}
if c.LocalFlags&protocol.FlagLocalIgnored != 0 {
flags.WriteString("Ignored")
}
if c.LocalFlags&protocol.FlagLocalMustRescan != 0 {
flags.WriteString("Rescan")
}
if c.LocalFlags&protocol.FlagLocalReceiveOnly != 0 {
flags.WriteString("Recvonly")
}
if c.LocalFlags&protocol.FlagLocalUnsupported != 0 {
flags.WriteString("Unsupported")
}
if c.LocalFlags != 0 {
flags.WriteString(fmt.Sprintf("(%x)", c.LocalFlags))
}
if flags.Len() == 0 {
flags.WriteString("---")
}
return fmt.Sprintf("{Device:%v, Files:%d, Dirs:%d, Symlinks:%d, Del:%d, Bytes:%d, Seq:%d, Flags:%s}", dev, c.Files, c.Directories, c.Symlinks, c.Deleted, c.Bytes, c.Sequence, flags.String())
}
// Equal compares the numbers only, not sequence/dev/flags.
func (c Counts) Equal(o Counts) bool {
return c.Files == o.Files && c.Directories == o.Directories && c.Symlinks == o.Symlinks && c.Deleted == o.Deleted && c.Bytes == o.Bytes
}
func (vl VersionList) String() string {
var b bytes.Buffer
var id protocol.DeviceID
b.WriteString("{")
for i, v := range vl.RawVersions {
if i > 0 {
b.WriteString(", ")
}
fmt.Fprintf(&b, "{Version:%v, Deleted:%v, Devices:{", v.Version, v.Deleted)
for j, dev := range v.Devices {
if j > 0 {
b.WriteString(", ")
}
copy(id[:], dev)
fmt.Fprint(&b, id.Short())
}
b.WriteString("}, Invalid:{")
for j, dev := range v.InvalidDevices {
if j > 0 {
b.WriteString(", ")
}
copy(id[:], dev)
fmt.Fprint(&b, id.Short())
}
fmt.Fprint(&b, "}}")
}
b.WriteString("}")
return b.String()
}
// update brings the VersionList up to date with file. It returns the updated
// VersionList, a device that has the global/newest version, a device that previously
// had the global/newest version, a boolean indicating if the global version has
// changed and if any error occurred (only possible in db interaction).
func (vl *VersionList) update(folder, device []byte, file protocol.FileIntf, t readOnlyTransaction) (FileVersion, FileVersion, FileVersion, bool, bool, bool, error) {
if len(vl.RawVersions) == 0 {
nv := newFileVersion(device, file.FileVersion(), file.IsInvalid(), file.IsDeleted())
vl.RawVersions = append(vl.RawVersions, nv)
return nv, FileVersion{}, FileVersion{}, false, false, true, nil
}
// Get the current global (before updating)
oldFV, haveOldGlobal := vl.GetGlobal()
oldFV = oldFV.copy()
// Remove ourselves first
removedFV, haveRemoved, _ := vl.pop(device)
// Find position and insert the file
err := vl.insert(folder, device, file, t)
if err != nil {
return FileVersion{}, FileVersion{}, FileVersion{}, false, false, false, err
}
newFV, _ := vl.GetGlobal() // We just inserted something above, can't be empty
if !haveOldGlobal {
return newFV, FileVersion{}, removedFV, false, haveRemoved, true, nil
}
globalChanged := true
if oldFV.IsInvalid() == newFV.IsInvalid() && oldFV.Version.Equal(newFV.Version) {
globalChanged = false
}
return newFV, oldFV, removedFV, true, haveRemoved, globalChanged, nil
}
func (vl *VersionList) insert(folder, device []byte, file protocol.FileIntf, t readOnlyTransaction) error {
var added bool
var err error
i := 0
for ; i < len(vl.RawVersions); i++ {
// Insert our new version
added, err = vl.checkInsertAt(i, folder, device, file, t)
if err != nil {
return err
}
if added {
break
}
}
if i == len(vl.RawVersions) {
// Append to the end
vl.RawVersions = append(vl.RawVersions, newFileVersion(device, file.FileVersion(), file.IsInvalid(), file.IsDeleted()))
}
return nil
}
func (vl *VersionList) insertAt(i int, v FileVersion) {
vl.RawVersions = append(vl.RawVersions, FileVersion{})
copy(vl.RawVersions[i+1:], vl.RawVersions[i:])
vl.RawVersions[i] = v
}
// pop removes the given device from the VersionList and returns the FileVersion
// before removing the device, whether it was found/removed at all and whether
// the global changed in the process.
func (vl *VersionList) pop(device []byte) (FileVersion, bool, bool) {
invDevice, i, j, ok := vl.findDevice(device)
if !ok {
return FileVersion{}, false, false
}
globalPos := vl.findGlobal()
if vl.RawVersions[i].deviceCount() == 1 {
fv := vl.RawVersions[i]
vl.popVersionAt(i)
return fv, true, globalPos == i
}
oldFV := vl.RawVersions[i].copy()
if invDevice {
vl.RawVersions[i].InvalidDevices = popDeviceAt(vl.RawVersions[i].InvalidDevices, j)
return oldFV, true, false
}
vl.RawVersions[i].Devices = popDeviceAt(vl.RawVersions[i].Devices, j)
// If the last valid device of the previous global was removed above,
// the global changed.
return oldFV, true, len(vl.RawVersions[i].Devices) == 0 && globalPos == i
}
// Get returns a FileVersion that contains the given device and whether it has
// been found at all.
func (vl *VersionList) Get(device []byte) (FileVersion, bool) {
_, i, _, ok := vl.findDevice(device)
if !ok {
return FileVersion{}, false
}
return vl.RawVersions[i], true
}
// GetGlobal returns the current global FileVersion. The returned FileVersion
// may be invalid, if all FileVersions are invalid. Returns false only if
// VersionList is empty.
func (vl *VersionList) GetGlobal() (FileVersion, bool) {
i := vl.findGlobal()
if i == -1 {
return FileVersion{}, false
}
return vl.RawVersions[i], true
}
func (vl *VersionList) Empty() bool {
return len(vl.RawVersions) == 0
}
// findGlobal returns the first version that isn't invalid, or if all versions are
// invalid just the first version (i.e. 0) or -1, if there's no versions at all.
func (vl *VersionList) findGlobal() int {
for i, fv := range vl.RawVersions {
if !fv.IsInvalid() {
return i
}
}
if len(vl.RawVersions) == 0 {
return -1
}
return 0
}
// findDevices returns whether the device is in InvalidVersions or Versions and
// in InvalidDevices or Devices (true for invalid), the positions in the version
// and device slices and whether it has been found at all.
func (vl *VersionList) findDevice(device []byte) (bool, int, int, bool) {
for i, v := range vl.RawVersions {
if j := deviceIndex(v.Devices, device); j != -1 {
return false, i, j, true
}
if j := deviceIndex(v.InvalidDevices, device); j != -1 {
return true, i, j, true
}
}
return false, -1, -1, false
}
func (vl *VersionList) popVersionAt(i int) {
vl.RawVersions = append(vl.RawVersions[:i], vl.RawVersions[i+1:]...)
}
// checkInsertAt determines if the given device and associated file should be
// inserted into the FileVersion at position i or into a new FileVersion at
// position i.
func (vl *VersionList) checkInsertAt(i int, folder, device []byte, file protocol.FileIntf, t readOnlyTransaction) (bool, error) {
ordering := vl.RawVersions[i].Version.Compare(file.FileVersion())
if ordering == protocol.Equal {
if !file.IsInvalid() {
vl.RawVersions[i].Devices = append(vl.RawVersions[i].Devices, device)
} else {
vl.RawVersions[i].InvalidDevices = append(vl.RawVersions[i].InvalidDevices, device)
}
return true, nil
}
existingDevice, _ := vl.RawVersions[i].FirstDevice()
insert, err := shouldInsertBefore(ordering, folder, existingDevice, vl.RawVersions[i].IsInvalid(), file, t)
if err != nil {
return false, err
}
if insert {
vl.insertAt(i, newFileVersion(device, file.FileVersion(), file.IsInvalid(), file.IsDeleted()))
return true, nil
}
return false, nil
}
// shouldInsertBefore determines whether the file comes before an existing
// entry, given the version ordering (existing compared to new one), existing
// device and if the existing version is invalid.
func shouldInsertBefore(ordering protocol.Ordering, folder, existingDevice []byte, existingInvalid bool, file protocol.FileIntf, t readOnlyTransaction) (bool, error) {
switch ordering {
case protocol.Lesser:
// The version at this point in the list is lesser
// ("older") than us. We insert ourselves in front of it.
return true, nil
case protocol.ConcurrentLesser, protocol.ConcurrentGreater:
// The version in conflict with us.
// Check if we can shortcut due to one being invalid.
if existingInvalid != file.IsInvalid() {
return existingInvalid, nil
}
// We must pull the actual file metadata to determine who wins.
// If we win, we insert ourselves in front of the loser here.
// (The "Lesser" and "Greater" in the condition above is just
// based on the device IDs in the version vector, which is not
// the only thing we use to determine the winner.)
of, ok, err := t.getFile(folder, existingDevice, []byte(file.FileName()))
if err != nil {
return false, err
}
// A surprise missing file entry here is counted as a win for us.
if !ok {
return true, nil
}
if err != nil {
return false, err
}
if protocol.WinsConflict(file, of) {
return true, nil
}
}
return false, nil
}
func deviceIndex(devices [][]byte, device []byte) int {
for i, dev := range devices {
if bytes.Equal(device, dev) {
return i
}
}
return -1
}
func popDeviceAt(devices [][]byte, i int) [][]byte {
return append(devices[:i], devices[i+1:]...)
}
func newFileVersion(device []byte, version protocol.Vector, invalid, deleted bool) FileVersion {
fv := FileVersion{
Version: version,
Deleted: deleted,
}
if invalid {
fv.InvalidDevices = [][]byte{device}
} else {
fv.Devices = [][]byte{device}
}
return fv
}
func (fv FileVersion) FirstDevice() ([]byte, bool) {
if len(fv.Devices) != 0 {
return fv.Devices[0], true
}
if len(fv.InvalidDevices) != 0 {
return fv.InvalidDevices[0], true
}
return nil, false
}
func (fv FileVersion) IsInvalid() bool {
return len(fv.Devices) == 0
}
func (fv FileVersion) deviceCount() int {
return len(fv.Devices) + len(fv.InvalidDevices)
}
func (fv FileVersion) copy() FileVersion {
n := fv
n.Version = fv.Version.Copy()
n.Devices = append([][]byte{}, fv.Devices...)
n.InvalidDevices = append([][]byte{}, fv.InvalidDevices...)
return n
}