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syncthing/lib/protocol/bep_fileinfo.go
Jakob Borg 77970d5113
refactor: use modern Protobuf encoder (#9817) 
At a high level, this is what I've done and why:

- I'm moving the protobuf generation for the `protocol`, `discovery` and
`db` packages to the modern alternatives, and using `buf` to generate
because it's nice and simple.
- After trying various approaches on how to integrate the new types with
the existing code, I opted for splitting off our own data model types
from the on-the-wire generated types. This means we can have a
`FileInfo` type with nicer ergonomics and lots of methods, while the
protobuf generated type stays clean and close to the wire protocol. It
does mean copying between the two when required, which certainly adds a
small amount of inefficiency. If we want to walk this back in the future
and use the raw generated type throughout, that's possible, this however
makes the refactor smaller (!) as it doesn't change everything about the
type for everyone at the same time.
- I have simply removed in cold blood a significant number of old
database migrations. These depended on previous generations of generated
messages of various kinds and were annoying to support in the new
fashion. The oldest supported database version now is the one from
Syncthing 1.9.0 from Sep 7, 2020.
- I changed config structs to be regular manually defined structs.

For the sake of discussion, some things I tried that turned out not to
work...

### Embedding / wrapping

Embedding the protobuf generated structs in our existing types as a data
container and keeping our methods and stuff:

```
package protocol

type FileInfo struct {
  *generated.FileInfo
}
```

This generates a lot of problems because the internal shape of the
generated struct is quite different (different names, different types,
more pointers), because initializing it doesn't work like you'd expect
(i.e., you end up with an embedded nil pointer and a panic), and because
the types of child types don't get wrapped. That is, even if we also
have a similar wrapper around a `Vector`, that's not the type you get
when accessing `someFileInfo.Version`, you get the `*generated.Vector`
that doesn't have methods, etc.

### Aliasing

```
package protocol

type FileInfo = generated.FileInfo
```

Doesn't help because you can't attach methods to it, plus all the above.

### Generating the types into the target package like we do now and
attaching methods

This fails because of the different shape of the generated type (as in
the embedding case above) plus the generated struct already has a bunch
of methods that we can't necessarily override properly (like `String()`
and a bunch of getters).

### Methods to functions

I considered just moving all the methods we attach to functions in a
specific package, so that for example

```
package protocol

func (f FileInfo) Equal(other FileInfo) bool
```

would become

```
package fileinfos

func Equal(a, b *generated.FileInfo) bool
```

and this would mostly work, but becomes quite verbose and cumbersome,
and somewhat limits discoverability (you can't see what methods are
available on the type in auto completions, etc). In the end I did this
in some cases, like in the database layer where a lot of things like
`func (fv *FileVersion) IsEmpty() bool` becomes `func fvIsEmpty(fv
*generated.FileVersion)` because they were anyway just internal methods.

Fixes #8247
2024-12-01 16:50:17 +01:00

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// 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 protocol
import (
"bytes"
"crypto/sha256"
"encoding/binary"
"fmt"
"time"
"github.com/syncthing/syncthing/internal/gen/bep"
"github.com/syncthing/syncthing/lib/build"
)
// FileInfo.LocalFlags flags
const (
FlagLocalUnsupported = 1 << 0 // The kind is unsupported, e.g. symlinks on Windows
FlagLocalIgnored = 1 << 1 // Matches local ignore patterns
FlagLocalMustRescan = 1 << 2 // Doesn't match content on disk, must be rechecked fully
FlagLocalReceiveOnly = 1 << 3 // Change detected on receive only folder
// Flags that should result in the Invalid bit on outgoing updates
LocalInvalidFlags = FlagLocalUnsupported | FlagLocalIgnored | FlagLocalMustRescan | FlagLocalReceiveOnly
// Flags that should result in a file being in conflict with its
// successor, due to us not having an up to date picture of its state on
// disk.
LocalConflictFlags = FlagLocalUnsupported | FlagLocalIgnored | FlagLocalReceiveOnly
LocalAllFlags = FlagLocalUnsupported | FlagLocalIgnored | FlagLocalMustRescan | FlagLocalReceiveOnly
)
// BlockSizes is the list of valid block sizes, from min to max
var BlockSizes []int
func init() {
for blockSize := MinBlockSize; blockSize <= MaxBlockSize; blockSize *= 2 {
BlockSizes = append(BlockSizes, blockSize)
if _, ok := sha256OfEmptyBlock[blockSize]; !ok {
panic("missing hard coded value for sha256 of empty block")
}
}
BufferPool = newBufferPool() // must happen after BlockSizes is initialized
}
type FileInfoType = bep.FileInfoType
const (
FileInfoTypeFile = bep.FileInfoType_FILE_INFO_TYPE_FILE
FileInfoTypeDirectory = bep.FileInfoType_FILE_INFO_TYPE_DIRECTORY
FileInfoTypeSymlinkFile = bep.FileInfoType_FILE_INFO_TYPE_SYMLINK_FILE
FileInfoTypeSymlinkDirectory = bep.FileInfoType_FILE_INFO_TYPE_SYMLINK_DIRECTORY
FileInfoTypeSymlink = bep.FileInfoType_FILE_INFO_TYPE_SYMLINK
)
type FileInfo struct {
Name string
Size int64
ModifiedS int64
ModifiedBy ShortID
Version Vector
Sequence int64
Blocks []BlockInfo
SymlinkTarget string
BlocksHash []byte
Encrypted []byte
Platform PlatformData
Type FileInfoType
Permissions uint32
ModifiedNs int32
RawBlockSize int32
// The local_flags fields stores flags that are relevant to the local
// host only. It is not part of the protocol, doesn't get sent or
// received (we make sure to zero it), nonetheless we need it on our
// struct and to be able to serialize it to/from the database.
LocalFlags uint32
// The version_hash is an implementation detail and not part of the wire
// format.
VersionHash []byte
// The time when the inode was last changed (i.e., permissions, xattrs
// etc changed). This is host-local, not sent over the wire.
InodeChangeNs int64
// The size of the data appended to the encrypted file on disk. This is
// host-local, not sent over the wire.
EncryptionTrailerSize int
Deleted bool
RawInvalid bool
NoPermissions bool
truncated bool // was created from a truncated file info without blocks
}
func (f *FileInfo) ToWire(withInternalFields bool) *bep.FileInfo {
if f.truncated && !(f.IsDeleted() || f.IsInvalid() || f.IsIgnored()) {
panic("bug: must not serialize truncated file info")
}
blocks := make([]*bep.BlockInfo, len(f.Blocks))
for j, b := range f.Blocks {
blocks[j] = b.ToWire()
}
w := &bep.FileInfo{
Name: f.Name,
Size: f.Size,
ModifiedS: f.ModifiedS,
ModifiedBy: uint64(f.ModifiedBy),
Version: f.Version.ToWire(),
Sequence: f.Sequence,
Blocks: blocks,
SymlinkTarget: f.SymlinkTarget,
BlocksHash: f.BlocksHash,
Encrypted: f.Encrypted,
Type: f.Type,
Permissions: f.Permissions,
ModifiedNs: f.ModifiedNs,
BlockSize: f.RawBlockSize,
Platform: f.Platform.toWire(),
Deleted: f.Deleted,
Invalid: f.RawInvalid,
NoPermissions: f.NoPermissions,
}
if withInternalFields {
w.LocalFlags = f.LocalFlags
w.VersionHash = f.VersionHash
w.InodeChangeNs = f.InodeChangeNs
w.EncryptionTrailerSize = int32(f.EncryptionTrailerSize)
}
return w
}
// WinsConflict returns true if "f" is the one to choose when it is in
// conflict with "other".
func (f *FileInfo) WinsConflict(other FileInfo) bool {
// If only one of the files is invalid, that one loses.
if f.IsInvalid() != other.IsInvalid() {
return !f.IsInvalid()
}
// If a modification is in conflict with a delete, we pick the
// modification.
if !f.IsDeleted() && other.IsDeleted() {
return true
}
if f.IsDeleted() && !other.IsDeleted() {
return false
}
// The one with the newer modification time wins.
if f.ModTime().After(other.ModTime()) {
return true
}
if f.ModTime().Before(other.ModTime()) {
return false
}
// The modification times were equal. Use the device ID in the version
// vector as tie breaker.
return f.FileVersion().Compare(other.FileVersion()) == ConcurrentGreater
}
func FileInfoFromWire(w *bep.FileInfo) FileInfo {
var blocks []BlockInfo
if len(w.Blocks) > 0 {
blocks = make([]BlockInfo, len(w.Blocks))
for j, b := range w.Blocks {
blocks[j] = BlockInfoFromWire(b)
}
}
return fileInfoFromWireWithBlocks(w, blocks)
}
type FileInfoWithoutBlocks interface {
GetName() string
GetSize() int64
GetModifiedS() int64
GetModifiedBy() uint64
GetVersion() *bep.Vector
GetSequence() int64
// GetBlocks() []*bep.BlockInfo // not included
GetSymlinkTarget() string
GetBlocksHash() []byte
GetEncrypted() []byte
GetType() FileInfoType
GetPermissions() uint32
GetModifiedNs() int32
GetBlockSize() int32
GetPlatform() *bep.PlatformData
GetLocalFlags() uint32
GetVersionHash() []byte
GetInodeChangeNs() int64
GetEncryptionTrailerSize() int32
GetDeleted() bool
GetInvalid() bool
GetNoPermissions() bool
}
func fileInfoFromWireWithBlocks(w FileInfoWithoutBlocks, blocks []BlockInfo) FileInfo {
return FileInfo{
Name: w.GetName(),
Size: w.GetSize(),
ModifiedS: w.GetModifiedS(),
ModifiedBy: ShortID(w.GetModifiedBy()),
Version: VectorFromWire(w.GetVersion()),
Sequence: w.GetSequence(),
Blocks: blocks,
SymlinkTarget: w.GetSymlinkTarget(),
BlocksHash: w.GetBlocksHash(),
Encrypted: w.GetEncrypted(),
Type: w.GetType(),
Permissions: w.GetPermissions(),
ModifiedNs: w.GetModifiedNs(),
RawBlockSize: w.GetBlockSize(),
Platform: platformDataFromWire(w.GetPlatform()),
Deleted: w.GetDeleted(),
RawInvalid: w.GetInvalid(),
NoPermissions: w.GetNoPermissions(),
}
}
func FileInfoFromDB(w *bep.FileInfo) FileInfo {
f := FileInfoFromWire(w)
f.LocalFlags = w.LocalFlags
f.VersionHash = w.VersionHash
f.InodeChangeNs = w.InodeChangeNs
f.EncryptionTrailerSize = int(w.EncryptionTrailerSize)
return f
}
func FileInfoFromDBTruncated(w FileInfoWithoutBlocks) FileInfo {
f := fileInfoFromWireWithBlocks(w, nil)
f.LocalFlags = w.GetLocalFlags()
f.VersionHash = w.GetVersionHash()
f.InodeChangeNs = w.GetInodeChangeNs()
f.EncryptionTrailerSize = int(w.GetEncryptionTrailerSize())
f.truncated = true
return f
}
func (f FileInfo) String() string {
switch f.Type {
case FileInfoTypeDirectory:
return fmt.Sprintf("Directory{Name:%q, Sequence:%d, Permissions:0%o, ModTime:%v, Version:%v, VersionHash:%x, Deleted:%v, Invalid:%v, LocalFlags:0x%x, NoPermissions:%v, Platform:%v, InodeChangeTime:%v}",
f.Name, f.Sequence, f.Permissions, f.ModTime(), f.Version, f.VersionHash, f.Deleted, f.RawInvalid, f.LocalFlags, f.NoPermissions, f.Platform, f.InodeChangeTime())
case FileInfoTypeFile:
return fmt.Sprintf("File{Name:%q, Sequence:%d, Permissions:0%o, ModTime:%v, Version:%v, VersionHash:%x, Length:%d, Deleted:%v, Invalid:%v, LocalFlags:0x%x, NoPermissions:%v, BlockSize:%d, NumBlocks:%d, BlocksHash:%x, Platform:%v, InodeChangeTime:%v}",
f.Name, f.Sequence, f.Permissions, f.ModTime(), f.Version, f.VersionHash, f.Size, f.Deleted, f.RawInvalid, f.LocalFlags, f.NoPermissions, f.RawBlockSize, len(f.Blocks), f.BlocksHash, f.Platform, f.InodeChangeTime())
case FileInfoTypeSymlink, FileInfoTypeSymlinkDirectory, FileInfoTypeSymlinkFile:
return fmt.Sprintf("Symlink{Name:%q, Type:%v, Sequence:%d, Version:%v, VersionHash:%x, Deleted:%v, Invalid:%v, LocalFlags:0x%x, NoPermissions:%v, SymlinkTarget:%q, Platform:%v, InodeChangeTime:%v}",
f.Name, f.Type, f.Sequence, f.Version, f.VersionHash, f.Deleted, f.RawInvalid, f.LocalFlags, f.NoPermissions, f.SymlinkTarget, f.Platform, f.InodeChangeTime())
default:
panic("mystery file type detected")
}
}
func (f FileInfo) IsDeleted() bool {
return f.Deleted
}
func (f FileInfo) IsInvalid() bool {
return f.RawInvalid || f.LocalFlags&LocalInvalidFlags != 0
}
func (f FileInfo) IsUnsupported() bool {
return f.LocalFlags&FlagLocalUnsupported != 0
}
func (f FileInfo) IsIgnored() bool {
return f.LocalFlags&FlagLocalIgnored != 0
}
func (f FileInfo) MustRescan() bool {
return f.LocalFlags&FlagLocalMustRescan != 0
}
func (f FileInfo) IsReceiveOnlyChanged() bool {
return f.LocalFlags&FlagLocalReceiveOnly != 0
}
func (f FileInfo) IsDirectory() bool {
return f.Type == FileInfoTypeDirectory
}
func (f FileInfo) ShouldConflict() bool {
return f.LocalFlags&LocalConflictFlags != 0
}
func (f FileInfo) IsSymlink() bool {
switch f.Type {
case FileInfoTypeSymlink, FileInfoTypeSymlinkDirectory, FileInfoTypeSymlinkFile:
return true
default:
return false
}
}
func (f FileInfo) HasPermissionBits() bool {
return !f.NoPermissions
}
func (f FileInfo) FileSize() int64 {
if f.Deleted {
return 0
}
if f.IsDirectory() || f.IsSymlink() {
return SyntheticDirectorySize
}
return f.Size
}
func (f FileInfo) BlockSize() int {
if f.RawBlockSize < MinBlockSize {
return MinBlockSize
}
return int(f.RawBlockSize)
}
// BlockSize returns the block size to use for the given file size
func BlockSize(fileSize int64) int {
var blockSize int
for _, blockSize = range BlockSizes {
if fileSize < DesiredPerFileBlocks*int64(blockSize) {
break
}
}
return blockSize
}
func (f FileInfo) FileName() string {
return f.Name
}
func (f FileInfo) FileLocalFlags() uint32 {
return f.LocalFlags
}
func (f FileInfo) ModTime() time.Time {
return time.Unix(f.ModifiedS, int64(f.ModifiedNs))
}
func (f FileInfo) SequenceNo() int64 {
return f.Sequence
}
func (f FileInfo) FileVersion() Vector {
return f.Version
}
func (f FileInfo) FileType() FileInfoType {
return f.Type
}
func (f FileInfo) FilePermissions() uint32 {
return f.Permissions
}
func (f FileInfo) FileModifiedBy() ShortID {
return f.ModifiedBy
}
func (f FileInfo) PlatformData() PlatformData {
return f.Platform
}
func (f FileInfo) InodeChangeTime() time.Time {
return time.Unix(0, f.InodeChangeNs)
}
func (f FileInfo) FileBlocksHash() []byte {
return f.BlocksHash
}
type FileInfoComparison struct {
ModTimeWindow time.Duration
IgnorePerms bool
IgnoreBlocks bool
IgnoreFlags uint32
IgnoreOwnership bool
IgnoreXattrs bool
}
func (f FileInfo) IsEquivalent(other FileInfo, modTimeWindow time.Duration) bool {
return f.isEquivalent(other, FileInfoComparison{ModTimeWindow: modTimeWindow})
}
func (f FileInfo) IsEquivalentOptional(other FileInfo, comp FileInfoComparison) bool {
return f.isEquivalent(other, comp)
}
// isEquivalent checks that the two file infos represent the same actual file content,
// i.e. it does purposely not check only selected (see below) struct members.
// Permissions (config) and blocks (scanning) can be excluded from the comparison.
// Any file info is not "equivalent", if it has different
// - type
// - deleted flag
// - invalid flag
// - permissions, unless they are ignored
//
// A file is not "equivalent", if it has different
// - modification time (difference bigger than modTimeWindow)
// - size
// - blocks, unless there are no blocks to compare (scanning)
// - os data
//
// A symlink is not "equivalent", if it has different
// - target
//
// A directory does not have anything specific to check.
func (f FileInfo) isEquivalent(other FileInfo, comp FileInfoComparison) bool {
if f.MustRescan() || other.MustRescan() {
// These are per definition not equivalent because they don't
// represent a valid state, even if both happen to have the
// MustRescan bit set.
return false
}
// If we care about either ownership or xattrs, are recording inode change
// times and it changed, they are not equal.
if !(comp.IgnoreOwnership && comp.IgnoreXattrs) && f.InodeChangeNs != 0 && other.InodeChangeNs != 0 && f.InodeChangeNs != other.InodeChangeNs {
return false
}
// Mask out the ignored local flags before checking IsInvalid() below
f.LocalFlags &^= comp.IgnoreFlags
other.LocalFlags &^= comp.IgnoreFlags
if f.Name != other.Name || f.Type != other.Type || f.Deleted != other.Deleted || f.IsInvalid() != other.IsInvalid() {
return false
}
if !comp.IgnoreOwnership && f.Platform != other.Platform {
if !unixOwnershipEqual(f.Platform.Unix, other.Platform.Unix) {
return false
}
if !windowsOwnershipEqual(f.Platform.Windows, other.Platform.Windows) {
return false
}
}
if !comp.IgnoreXattrs && f.Platform != other.Platform {
if !xattrsEqual(f.Platform.Linux, other.Platform.Linux) {
return false
}
if !xattrsEqual(f.Platform.Darwin, other.Platform.Darwin) {
return false
}
if !xattrsEqual(f.Platform.FreeBSD, other.Platform.FreeBSD) {
return false
}
if !xattrsEqual(f.Platform.NetBSD, other.Platform.NetBSD) {
return false
}
}
if !comp.IgnorePerms && !f.NoPermissions && !other.NoPermissions && !PermsEqual(f.Permissions, other.Permissions) {
return false
}
switch f.Type {
case FileInfoTypeFile:
return f.Size == other.Size && ModTimeEqual(f.ModTime(), other.ModTime(), comp.ModTimeWindow) && (comp.IgnoreBlocks || f.BlocksEqual(other))
case FileInfoTypeSymlink:
return f.SymlinkTarget == other.SymlinkTarget
case FileInfoTypeDirectory:
return true
}
return false
}
func ModTimeEqual(a, b time.Time, modTimeWindow time.Duration) bool {
if a.Equal(b) {
return true
}
diff := a.Sub(b)
if diff < 0 {
diff *= -1
}
return diff < modTimeWindow
}
func PermsEqual(a, b uint32) bool {
if build.IsWindows {
// There is only writeable and read only, represented for user, group
// and other equally. We only compare against user.
return a&0o600 == b&0o600
}
// All bits count
return a&0o777 == b&0o777
}
// BlocksEqual returns true when the two files have identical block lists.
func (f FileInfo) BlocksEqual(other FileInfo) bool {
// If both sides have blocks hashes and they match, we are good. If they
// don't match still check individual block hashes to catch differences
// in weak hashes only (e.g. after switching weak hash algo).
if len(f.BlocksHash) > 0 && len(other.BlocksHash) > 0 && bytes.Equal(f.BlocksHash, other.BlocksHash) {
return true
}
// Actually compare the block lists in full.
return blocksEqual(f.Blocks, other.Blocks)
}
func (f *FileInfo) SetMustRescan() {
f.setLocalFlags(FlagLocalMustRescan)
}
func (f *FileInfo) SetIgnored() {
f.setLocalFlags(FlagLocalIgnored)
}
func (f *FileInfo) SetUnsupported() {
f.setLocalFlags(FlagLocalUnsupported)
}
func (f *FileInfo) SetDeleted(by ShortID) {
f.ModifiedBy = by
f.Deleted = true
f.Version = f.Version.Update(by)
f.ModifiedS = time.Now().Unix()
f.setNoContent()
}
func (f *FileInfo) setLocalFlags(flags uint32) {
f.RawInvalid = false
f.LocalFlags = flags
f.setNoContent()
}
func (f *FileInfo) setNoContent() {
f.Blocks = nil
f.BlocksHash = nil
f.Size = 0
}
type BlockInfo struct {
Hash []byte
Offset int64
Size int
WeakHash uint32
}
func (b BlockInfo) ToWire() *bep.BlockInfo {
return &bep.BlockInfo{
Hash: b.Hash,
Offset: b.Offset,
Size: int32(b.Size),
WeakHash: b.WeakHash,
}
}
func BlockInfoFromWire(w *bep.BlockInfo) BlockInfo {
return BlockInfo{
Hash: w.Hash,
Offset: w.Offset,
Size: int(w.Size),
WeakHash: w.WeakHash,
}
}
func (b BlockInfo) String() string {
return fmt.Sprintf("Block{%d/%d/%d/%x}", b.Offset, b.Size, b.WeakHash, b.Hash)
}
// For each block size, the hash of a block of all zeroes
var sha256OfEmptyBlock = map[int][sha256.Size]byte{
128 << KiB: {0xfa, 0x43, 0x23, 0x9b, 0xce, 0xe7, 0xb9, 0x7c, 0xa6, 0x2f, 0x0, 0x7c, 0xc6, 0x84, 0x87, 0x56, 0xa, 0x39, 0xe1, 0x9f, 0x74, 0xf3, 0xdd, 0xe7, 0x48, 0x6d, 0xb3, 0xf9, 0x8d, 0xf8, 0xe4, 0x71},
256 << KiB: {0x8a, 0x39, 0xd2, 0xab, 0xd3, 0x99, 0x9a, 0xb7, 0x3c, 0x34, 0xdb, 0x24, 0x76, 0x84, 0x9c, 0xdd, 0xf3, 0x3, 0xce, 0x38, 0x9b, 0x35, 0x82, 0x68, 0x50, 0xf9, 0xa7, 0x0, 0x58, 0x9b, 0x4a, 0x90},
512 << KiB: {0x7, 0x85, 0x4d, 0x2f, 0xef, 0x29, 0x7a, 0x6, 0xba, 0x81, 0x68, 0x5e, 0x66, 0xc, 0x33, 0x2d, 0xe3, 0x6d, 0x5d, 0x18, 0xd5, 0x46, 0x92, 0x7d, 0x30, 0xda, 0xad, 0x6d, 0x7f, 0xda, 0x15, 0x41},
1 << MiB: {0x30, 0xe1, 0x49, 0x55, 0xeb, 0xf1, 0x35, 0x22, 0x66, 0xdc, 0x2f, 0xf8, 0x6, 0x7e, 0x68, 0x10, 0x46, 0x7, 0xe7, 0x50, 0xab, 0xb9, 0xd3, 0xb3, 0x65, 0x82, 0xb8, 0xaf, 0x90, 0x9f, 0xcb, 0x58},
2 << MiB: {0x56, 0x47, 0xf0, 0x5e, 0xc1, 0x89, 0x58, 0x94, 0x7d, 0x32, 0x87, 0x4e, 0xeb, 0x78, 0x8f, 0xa3, 0x96, 0xa0, 0x5d, 0xb, 0xab, 0x7c, 0x1b, 0x71, 0xf1, 0x12, 0xce, 0xb7, 0xe9, 0xb3, 0x1e, 0xee},
4 << MiB: {0xbb, 0x9f, 0x8d, 0xf6, 0x14, 0x74, 0xd2, 0x5e, 0x71, 0xfa, 0x0, 0x72, 0x23, 0x18, 0xcd, 0x38, 0x73, 0x96, 0xca, 0x17, 0x36, 0x60, 0x5e, 0x12, 0x48, 0x82, 0x1c, 0xc0, 0xde, 0x3d, 0x3a, 0xf8},
8 << MiB: {0x2d, 0xae, 0xb1, 0xf3, 0x60, 0x95, 0xb4, 0x4b, 0x31, 0x84, 0x10, 0xb3, 0xf4, 0xe8, 0xb5, 0xd9, 0x89, 0xdc, 0xc7, 0xbb, 0x2, 0x3d, 0x14, 0x26, 0xc4, 0x92, 0xda, 0xb0, 0xa3, 0x5, 0x3e, 0x74},
16 << MiB: {0x8, 0xa, 0xcf, 0x35, 0xa5, 0x7, 0xac, 0x98, 0x49, 0xcf, 0xcb, 0xa4, 0x7d, 0xc2, 0xad, 0x83, 0xe0, 0x1b, 0x75, 0x66, 0x3a, 0x51, 0x62, 0x79, 0xc8, 0xb9, 0xd2, 0x43, 0xb7, 0x19, 0x64, 0x3e},
}
// IsEmpty returns true if the block is a full block of zeroes.
func (b BlockInfo) IsEmpty() bool {
if v, ok := sha256OfEmptyBlock[b.Size]; ok {
return bytes.Equal(b.Hash, v[:])
}
return false
}
func BlocksHash(bs []BlockInfo) []byte {
h := sha256.New()
for _, b := range bs {
_, _ = h.Write(b.Hash)
_ = binary.Write(h, binary.BigEndian, b.WeakHash)
}
return h.Sum(nil)
}
func VectorHash(v Vector) []byte {
h := sha256.New()
for _, c := range v.Counters {
if err := binary.Write(h, binary.BigEndian, c.ID); err != nil {
panic("impossible: failed to write c.ID to hash function: " + err.Error())
}
if err := binary.Write(h, binary.BigEndian, c.Value); err != nil {
panic("impossible: failed to write c.Value to hash function: " + err.Error())
}
}
return h.Sum(nil)
}
// Xattrs is a convenience method to return the extended attributes of the
// file for the current platform.
func (p *PlatformData) Xattrs() []Xattr {
switch {
case build.IsLinux && p.Linux != nil:
return p.Linux.Xattrs
case build.IsDarwin && p.Darwin != nil:
return p.Darwin.Xattrs
case build.IsFreeBSD && p.FreeBSD != nil:
return p.FreeBSD.Xattrs
case build.IsNetBSD && p.NetBSD != nil:
return p.NetBSD.Xattrs
default:
return nil
}
}
// SetXattrs is a convenience method to set the extended attributes of the
// file for the current platform.
func (p *PlatformData) SetXattrs(xattrs []Xattr) {
switch {
case build.IsLinux:
if p.Linux == nil {
p.Linux = &XattrData{}
}
p.Linux.Xattrs = xattrs
case build.IsDarwin:
if p.Darwin == nil {
p.Darwin = &XattrData{}
}
p.Darwin.Xattrs = xattrs
case build.IsFreeBSD:
if p.FreeBSD == nil {
p.FreeBSD = &XattrData{}
}
p.FreeBSD.Xattrs = xattrs
case build.IsNetBSD:
if p.NetBSD == nil {
p.NetBSD = &XattrData{}
}
p.NetBSD.Xattrs = xattrs
}
}
// MergeWith copies platform data from other, for platforms where it's not
// already set on p.
func (p *PlatformData) MergeWith(other *PlatformData) {
if p.Unix == nil {
p.Unix = other.Unix
}
if p.Windows == nil {
p.Windows = other.Windows
}
if p.Linux == nil {
p.Linux = other.Linux
}
if p.Darwin == nil {
p.Darwin = other.Darwin
}
if p.FreeBSD == nil {
p.FreeBSD = other.FreeBSD
}
if p.NetBSD == nil {
p.NetBSD = other.NetBSD
}
}
// blocksEqual returns whether two slices of blocks are exactly the same hash
// and index pair wise.
func blocksEqual(a, b []BlockInfo) bool {
if len(b) != len(a) {
return false
}
for i, sblk := range a {
if !bytes.Equal(sblk.Hash, b[i].Hash) {
return false
}
}
return true
}
type PlatformData struct {
Unix *UnixData
Windows *WindowsData
Linux *XattrData
Darwin *XattrData
FreeBSD *XattrData
NetBSD *XattrData
}
func (p *PlatformData) toWire() *bep.PlatformData {
return &bep.PlatformData{
Unix: p.Unix.toWire(),
Windows: p.Windows,
Linux: p.Linux.toWire(),
Darwin: p.Darwin.toWire(),
Freebsd: p.FreeBSD.toWire(),
Netbsd: p.NetBSD.toWire(),
}
}
func platformDataFromWire(w *bep.PlatformData) PlatformData {
if w == nil {
return PlatformData{}
}
return PlatformData{
Unix: unixDataFromWire(w.Unix),
Windows: w.Windows,
Linux: xattrDataFromWire(w.Linux),
Darwin: xattrDataFromWire(w.Darwin),
FreeBSD: xattrDataFromWire(w.Freebsd),
NetBSD: xattrDataFromWire(w.Netbsd),
}
}
type UnixData struct {
// The owner name and group name are set when known (i.e., could be
// resolved on the source device), while the UID and GID are always set
// as they come directly from the stat() call.
OwnerName string
GroupName string
UID int
GID int
}
func (u *UnixData) toWire() *bep.UnixData {
if u == nil {
return nil
}
return &bep.UnixData{
OwnerName: u.OwnerName,
GroupName: u.GroupName,
Uid: int32(u.UID),
Gid: int32(u.GID),
}
}
func unixDataFromWire(w *bep.UnixData) *UnixData {
if w == nil {
return nil
}
return &UnixData{
OwnerName: w.OwnerName,
GroupName: w.GroupName,
UID: int(w.Uid),
GID: int(w.Gid),
}
}
type WindowsData = bep.WindowsData
type XattrData struct {
Xattrs []Xattr
}
func (x *XattrData) toWire() *bep.XattrData {
if x == nil {
return nil
}
xattrs := make([]*bep.Xattr, len(x.Xattrs))
for i, a := range x.Xattrs {
xattrs[i] = a.toWire()
}
return &bep.XattrData{
Xattrs: xattrs,
}
}
func xattrDataFromWire(w *bep.XattrData) *XattrData {
if w == nil {
return nil
}
x := &XattrData{}
x.Xattrs = make([]Xattr, len(w.Xattrs))
for i, a := range w.Xattrs {
x.Xattrs[i] = xattrFromWire(a)
}
return x
}
type Xattr struct {
Name string
Value []byte
}
func (a Xattr) toWire() *bep.Xattr {
return &bep.Xattr{
Name: a.Name,
Value: a.Value,
}
}
func xattrFromWire(w *bep.Xattr) Xattr {
return Xattr{
Name: w.Name,
Value: w.Value,
}
}
func xattrsEqual(a, b *XattrData) bool {
aEmpty := a == nil || len(a.Xattrs) == 0
bEmpty := b == nil || len(b.Xattrs) == 0
if aEmpty && bEmpty {
return true
}
if aEmpty || bEmpty {
// Only one side is empty, so they can't be equal.
return false
}
if len(a.Xattrs) != len(b.Xattrs) {
return false
}
for i := range a.Xattrs {
if a.Xattrs[i].Name != b.Xattrs[i].Name {
return false
}
if !bytes.Equal(a.Xattrs[i].Value, b.Xattrs[i].Value) {
return false
}
}
return true
}
func unixOwnershipEqual(a, b *UnixData) bool {
if a == nil && b == nil {
return true
}
if a == nil || b == nil {
return false
}
ownerEqual := a.OwnerName == "" || b.OwnerName == "" || a.OwnerName == b.OwnerName
groupEqual := a.GroupName == "" || b.GroupName == "" || a.GroupName == b.GroupName
return a.UID == b.UID && a.GID == b.GID && ownerEqual && groupEqual
}
func windowsOwnershipEqual(a, b *WindowsData) bool {
if a == nil && b == nil {
return true
}
if a == nil || b == nil {
return false
}
return a.OwnerName == b.OwnerName && a.OwnerIsGroup == b.OwnerIsGroup
}
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