syncthing/lib/protocol/bep_extensions.go

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// Copyright (C) 2014 The Protocol Authors.
package protocol
import (
"bytes"
lib/sha256: Remove it (#9643) ### Purpose Remove the `lib/sha256` package, because it's no longer necessary. Go's standard library now has the same performance and is on par with `sha256-simd` since [Since Go 1.21](https://github.com/golang/go/commit/1a64574f42b95594cf9c8a12e9ca13d75585429c). Therefore using `sha256-simd` has no benefits anymore. ARM already has optimized sha256 assembly code since https://github.com/golang/go/commit/7b8a7f8272fd1941a199af1adb334bd9996e8909, `sha256-simd` published their results before that optimized assembly was implemented, https://github.com/minio/sha256-simd/commit/f941fedda826b68a196de2e0a9183e273ec0cb91. The assembly looks very similar and the benchmarks in the Go commit match that of `sha256-simd`. This patch removes all of the related code of `lib/sha256` and makes `crypto/sha256` the 'default'. Benchmark of `sha256-simd` and `crypto/sha256`: <details> ``` cpu: AMD Ryzen 5 3600X 6-Core Processor │ simd.txt │ go.txt │ │ sec/op │ sec/op vs base │ Hash/8Bytes-12 63.25n ± 1% 73.38n ± 1% +16.02% (p=0.002 n=6) Hash/64Bytes-12 98.73n ± 1% 105.30n ± 1% +6.65% (p=0.002 n=6) Hash/1K-12 567.2n ± 1% 572.8n ± 1% +0.99% (p=0.002 n=6) Hash/8K-12 4.062µ ± 1% 4.062µ ± 1% ~ (p=0.396 n=6) Hash/1M-12 512.1µ ± 0% 510.6µ ± 1% ~ (p=0.485 n=6) Hash/5M-12 2.556m ± 1% 2.564m ± 0% ~ (p=0.093 n=6) Hash/10M-12 5.112m ± 0% 5.127m ± 0% ~ (p=0.093 n=6) geomean 13.82µ 14.27µ +3.28% │ simd.txt │ go.txt │ │ B/s │ B/s vs base │ Hash/8Bytes-12 120.6Mi ± 1% 104.0Mi ± 1% -13.81% (p=0.002 n=6) Hash/64Bytes-12 618.2Mi ± 1% 579.8Mi ± 1% -6.22% (p=0.002 n=6) Hash/1K-12 1.682Gi ± 1% 1.665Gi ± 1% -0.98% (p=0.002 n=6) Hash/8K-12 1.878Gi ± 1% 1.878Gi ± 1% ~ (p=0.310 n=6) Hash/1M-12 1.907Gi ± 0% 1.913Gi ± 1% ~ (p=0.485 n=6) Hash/5M-12 1.911Gi ± 1% 1.904Gi ± 0% ~ (p=0.093 n=6) Hash/10M-12 1.910Gi ± 0% 1.905Gi ± 0% ~ (p=0.093 n=6) geomean 1.066Gi 1.032Gi -3.18% ``` </details> ### Testing Compiled and tested on Linux. ### Documentation https://github.com/syncthing/docs/pull/874
2024-08-10 11:58:20 +00:00
"crypto/sha256"
"encoding/binary"
"encoding/json"
"errors"
"fmt"
"time"
"github.com/syncthing/syncthing/lib/build"
"github.com/syncthing/syncthing/lib/rand"
)
const (
SyntheticDirectorySize = 128
HelloMessageMagic uint32 = 0x2EA7D90B
Version13HelloMagic uint32 = 0x9F79BC40 // old
)
// FileIntf is the set of methods implemented by both FileInfo and
// db.FileInfoTruncated.
type FileIntf interface {
FileSize() int64
FileName() string
FileLocalFlags() uint32
IsDeleted() bool
IsInvalid() bool
IsIgnored() bool
IsUnsupported() bool
MustRescan() bool
IsReceiveOnlyChanged() bool
IsDirectory() bool
IsSymlink() bool
ShouldConflict() bool
HasPermissionBits() bool
SequenceNo() int64
BlockSize() int
FileVersion() Vector
FileType() FileInfoType
FilePermissions() uint32
FileModifiedBy() ShortID
ModTime() time.Time
PlatformData() PlatformData
InodeChangeTime() time.Time
FileBlocksHash() []byte
}
func (Hello) Magic() uint32 {
return HelloMessageMagic
}
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 f.RawBlockSize
}
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
}
// WinsConflict returns true if "f" is the one to choose when it is in
// conflict with "other".
func WinsConflict(f, other FileIntf) 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
}
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&0600 == b&0600
}
// All bits count
return a&0777 == b&0777
}
// 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)
}
// Xattrs is a convenience method to return the extended attributes of the
// file for the current platform.
func (f *PlatformData) Xattrs() []Xattr {
switch {
case build.IsLinux && f.Linux != nil:
return f.Linux.Xattrs
case build.IsDarwin && f.Darwin != nil:
return f.Darwin.Xattrs
case build.IsFreeBSD && f.FreeBSD != nil:
return f.FreeBSD.Xattrs
case build.IsNetBSD && f.NetBSD != nil:
return f.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
}
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
}
func (b BlockInfo) String() string {
return fmt.Sprintf("Block{%d/%d/%d/%x}", b.Offset, b.Size, b.WeakHash, b.Hash)
}
// IsEmpty returns true if the block is a full block of zeroes.
func (b BlockInfo) IsEmpty() bool {
if v, ok := sha256OfEmptyBlock[int(b.Size)]; ok {
return bytes.Equal(b.Hash, v[:])
}
return false
}
type IndexID uint64
func (i IndexID) String() string {
return fmt.Sprintf("0x%016X", uint64(i))
}
func (i IndexID) Marshal() ([]byte, error) {
bs := make([]byte, 8)
binary.BigEndian.PutUint64(bs, uint64(i))
return bs, nil
}
func (i *IndexID) Unmarshal(bs []byte) error {
if len(bs) != 8 {
return errors.New("incorrect IndexID length")
}
*i = IndexID(binary.BigEndian.Uint64(bs))
return nil
}
func NewIndexID() IndexID {
return IndexID(rand.Uint64())
}
func (f Folder) Description() string {
// used by logging stuff
if f.Label == "" {
return f.ID
}
return fmt.Sprintf("%q (%s)", f.Label, f.ID)
}
lib/db: Deduplicate block lists in database (fixes #5898) (#6283) * lib/db: Deduplicate block lists in database (fixes #5898) This moves the block list in the database out from being just a field on the FileInfo to being an object of its own. When putting a FileInfo we marshal the block list separately and store it keyed by the sha256 of the marshalled block list. When getting, if we are not doing a "truncated" get, we do an extra read and unmarshal for the block list. Old block lists are cleared out by a periodic GC sweep. The alternative would be to use refcounting, but: - There is a larger risk of getting that wrong and either dropping a block list in error or keeping them around forever. - It's tricky with our current database, as we don't have dirty reads. This means that if we update two FileInfos with identical block lists in the same transaction we can't just do read/modify/write for the ref counters as we wouldn't see our own first update. See above about tracking this and risks about getting it wrong. GC uses a bloom filter for keys to avoid heavy RAM usage. GC can't run concurrently with FileInfo updates so there is a new lock around those operation at the lowlevel. The end result is a much more compact database, especially for setups with many peers where files get duplicated many times. This is per-key-class stats for a large database I'm currently working with, under the current schema: ``` 0x00: 9138161 items, 870876 KB keys + 7397482 KB data, 95 B + 809 B avg, 1637651 B max 0x01: 185656 items, 10388 KB keys + 1790909 KB data, 55 B + 9646 B avg, 924525 B max 0x02: 916890 items, 84795 KB keys + 3667 KB data, 92 B + 4 B avg, 192 B max 0x03: 384 items, 27 KB keys + 5 KB data, 72 B + 15 B avg, 87 B max 0x04: 1109 items, 17 KB keys + 17 KB data, 15 B + 15 B avg, 69 B max 0x06: 383 items, 3 KB keys + 0 KB data, 9 B + 2 B avg, 18 B max 0x07: 510 items, 4 KB keys + 12 KB data, 9 B + 24 B avg, 41 B max 0x08: 1349 items, 12 KB keys + 10 KB data, 9 B + 8 B avg, 17 B max 0x09: 194 items, 0 KB keys + 123 KB data, 5 B + 634 B avg, 11484 B max 0x0a: 3 items, 0 KB keys + 0 KB data, 14 B + 7 B avg, 30 B max 0x0b: 181836 items, 2363 KB keys + 10694 KB data, 13 B + 58 B avg, 173 B max Total 10426475 items, 968490 KB keys + 9202925 KB data. ``` Note 7.4 GB of data in class 00, total size 9.2 GB. After running the migration we get this instead: ``` 0x00: 9138161 items, 870876 KB keys + 2611392 KB data, 95 B + 285 B avg, 4788 B max 0x01: 185656 items, 10388 KB keys + 1790909 KB data, 55 B + 9646 B avg, 924525 B max 0x02: 916890 items, 84795 KB keys + 3667 KB data, 92 B + 4 B avg, 192 B max 0x03: 384 items, 27 KB keys + 5 KB data, 72 B + 15 B avg, 87 B max 0x04: 1109 items, 17 KB keys + 17 KB data, 15 B + 15 B avg, 69 B max 0x06: 383 items, 3 KB keys + 0 KB data, 9 B + 2 B avg, 18 B max 0x07: 510 items, 4 KB keys + 12 KB data, 9 B + 24 B avg, 41 B max 0x09: 194 items, 0 KB keys + 123 KB data, 5 B + 634 B avg, 11484 B max 0x0a: 3 items, 0 KB keys + 0 KB data, 14 B + 17 B avg, 51 B max 0x0b: 181836 items, 2363 KB keys + 10694 KB data, 13 B + 58 B avg, 173 B max 0x0d: 44282 items, 1461 KB keys + 61081 KB data, 33 B + 1379 B avg, 1637399 B max Total 10469408 items, 969939 KB keys + 4477905 KB data. ``` Class 00 is now down to 2.6 GB, with just 61 MB added in class 0d. There will be some additional reads in some cases which theoretically hurts performance, but this will be more than compensated for by smaller writes and better compaction. On my own home setup which just has three devices and a handful of folders the difference is smaller in absolute numbers of course, but still less than half the old size: ``` 0x00: 297122 items, 20894 KB keys + 306860 KB data, 70 B + 1032 B avg, 103237 B max 0x01: 115299 items, 7738 KB keys + 17542 KB data, 67 B + 152 B avg, 419 B max 0x02: 1430537 items, 121223 KB keys + 5722 KB data, 84 B + 4 B avg, 253 B max ... Total 1947412 items, 151268 KB keys + 337485 KB data. ``` to: ``` 0x00: 297122 items, 20894 KB keys + 37038 KB data, 70 B + 124 B avg, 520 B max 0x01: 115299 items, 7738 KB keys + 17542 KB data, 67 B + 152 B avg, 419 B max 0x02: 1430537 items, 121223 KB keys + 5722 KB data, 84 B + 4 B avg, 253 B max ... 0x0d: 18041 items, 595 KB keys + 71964 KB data, 33 B + 3988 B avg, 101109 B max Total 1965447 items, 151863 KB keys + 139628 KB data. ``` * wip * wip * wip * wip
2020-01-24 07:35:44 +00:00
func BlocksHash(bs []BlockInfo) []byte {
h := sha256.New()
for _, b := range bs {
_, _ = h.Write(b.Hash)
_ = binary.Write(h, binary.BigEndian, b.WeakHash)
lib/db: Deduplicate block lists in database (fixes #5898) (#6283) * lib/db: Deduplicate block lists in database (fixes #5898) This moves the block list in the database out from being just a field on the FileInfo to being an object of its own. When putting a FileInfo we marshal the block list separately and store it keyed by the sha256 of the marshalled block list. When getting, if we are not doing a "truncated" get, we do an extra read and unmarshal for the block list. Old block lists are cleared out by a periodic GC sweep. The alternative would be to use refcounting, but: - There is a larger risk of getting that wrong and either dropping a block list in error or keeping them around forever. - It's tricky with our current database, as we don't have dirty reads. This means that if we update two FileInfos with identical block lists in the same transaction we can't just do read/modify/write for the ref counters as we wouldn't see our own first update. See above about tracking this and risks about getting it wrong. GC uses a bloom filter for keys to avoid heavy RAM usage. GC can't run concurrently with FileInfo updates so there is a new lock around those operation at the lowlevel. The end result is a much more compact database, especially for setups with many peers where files get duplicated many times. This is per-key-class stats for a large database I'm currently working with, under the current schema: ``` 0x00: 9138161 items, 870876 KB keys + 7397482 KB data, 95 B + 809 B avg, 1637651 B max 0x01: 185656 items, 10388 KB keys + 1790909 KB data, 55 B + 9646 B avg, 924525 B max 0x02: 916890 items, 84795 KB keys + 3667 KB data, 92 B + 4 B avg, 192 B max 0x03: 384 items, 27 KB keys + 5 KB data, 72 B + 15 B avg, 87 B max 0x04: 1109 items, 17 KB keys + 17 KB data, 15 B + 15 B avg, 69 B max 0x06: 383 items, 3 KB keys + 0 KB data, 9 B + 2 B avg, 18 B max 0x07: 510 items, 4 KB keys + 12 KB data, 9 B + 24 B avg, 41 B max 0x08: 1349 items, 12 KB keys + 10 KB data, 9 B + 8 B avg, 17 B max 0x09: 194 items, 0 KB keys + 123 KB data, 5 B + 634 B avg, 11484 B max 0x0a: 3 items, 0 KB keys + 0 KB data, 14 B + 7 B avg, 30 B max 0x0b: 181836 items, 2363 KB keys + 10694 KB data, 13 B + 58 B avg, 173 B max Total 10426475 items, 968490 KB keys + 9202925 KB data. ``` Note 7.4 GB of data in class 00, total size 9.2 GB. After running the migration we get this instead: ``` 0x00: 9138161 items, 870876 KB keys + 2611392 KB data, 95 B + 285 B avg, 4788 B max 0x01: 185656 items, 10388 KB keys + 1790909 KB data, 55 B + 9646 B avg, 924525 B max 0x02: 916890 items, 84795 KB keys + 3667 KB data, 92 B + 4 B avg, 192 B max 0x03: 384 items, 27 KB keys + 5 KB data, 72 B + 15 B avg, 87 B max 0x04: 1109 items, 17 KB keys + 17 KB data, 15 B + 15 B avg, 69 B max 0x06: 383 items, 3 KB keys + 0 KB data, 9 B + 2 B avg, 18 B max 0x07: 510 items, 4 KB keys + 12 KB data, 9 B + 24 B avg, 41 B max 0x09: 194 items, 0 KB keys + 123 KB data, 5 B + 634 B avg, 11484 B max 0x0a: 3 items, 0 KB keys + 0 KB data, 14 B + 17 B avg, 51 B max 0x0b: 181836 items, 2363 KB keys + 10694 KB data, 13 B + 58 B avg, 173 B max 0x0d: 44282 items, 1461 KB keys + 61081 KB data, 33 B + 1379 B avg, 1637399 B max Total 10469408 items, 969939 KB keys + 4477905 KB data. ``` Class 00 is now down to 2.6 GB, with just 61 MB added in class 0d. There will be some additional reads in some cases which theoretically hurts performance, but this will be more than compensated for by smaller writes and better compaction. On my own home setup which just has three devices and a handful of folders the difference is smaller in absolute numbers of course, but still less than half the old size: ``` 0x00: 297122 items, 20894 KB keys + 306860 KB data, 70 B + 1032 B avg, 103237 B max 0x01: 115299 items, 7738 KB keys + 17542 KB data, 67 B + 152 B avg, 419 B max 0x02: 1430537 items, 121223 KB keys + 5722 KB data, 84 B + 4 B avg, 253 B max ... Total 1947412 items, 151268 KB keys + 337485 KB data. ``` to: ``` 0x00: 297122 items, 20894 KB keys + 37038 KB data, 70 B + 124 B avg, 520 B max 0x01: 115299 items, 7738 KB keys + 17542 KB data, 67 B + 152 B avg, 419 B max 0x02: 1430537 items, 121223 KB keys + 5722 KB data, 84 B + 4 B avg, 253 B max ... 0x0d: 18041 items, 595 KB keys + 71964 KB data, 33 B + 3988 B avg, 101109 B max Total 1965447 items, 151863 KB keys + 139628 KB data. ``` * wip * wip * wip * wip
2020-01-24 07:35:44 +00:00
}
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)
}
func (x *FileInfoType) MarshalJSON() ([]byte, error) {
return json.Marshal(x.String())
}
func (x *FileInfoType) UnmarshalJSON(data []byte) error {
var s string
if err := json.Unmarshal(data, &s); err != nil {
return err
}
n, ok := FileInfoType_value[s]
if !ok {
return errors.New("invalid value: " + s)
}
*x = FileInfoType(n)
return nil
}
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
}