restic/internal/repository/index.go
Michael Eischer cc4728d287 repository: Do not report ignored packs in EachByPack
Ignored packs were reported as an empty pack by EachByPack. The most
immediate effect of this is that the progress bar for rebuilding the
index reports processing more packs than actually exist.
2022-08-21 10:38:40 +02:00

631 lines
15 KiB
Go

package repository
import (
"context"
"encoding/json"
"io"
"sync"
"time"
"github.com/restic/restic/internal/crypto"
"github.com/restic/restic/internal/errors"
"github.com/restic/restic/internal/restic"
"github.com/restic/restic/internal/debug"
)
// In large repositories, millions of blobs are stored in the repository
// and restic needs to store an index entry for each blob in memory for
// most operations.
// Hence the index data structure defined here is one of the main contributions
// to the total memory requirements of restic.
//
// We store the index entries in indexMaps. In these maps, entries take 56
// bytes each, plus 8/4 = 2 bytes of unused pointers on average, not counting
// malloc and header struct overhead and ignoring duplicates (those are only
// present in edge cases and are also removed by prune runs).
//
// In the index entries, we need to reference the packID. As one pack may
// contain many blobs the packIDs are saved in a separate array and only the index
// within this array is saved in the indexEntry
//
// We assume on average a minimum of 8 blobs per pack; BP=8.
// (Note that for large files there should be 3 blobs per pack as the average chunk
// size is 1.5 MB and the minimum pack size is 4 MB)
//
// We have the following sizes:
// indexEntry: 56 bytes (on amd64)
// each packID: 32 bytes
//
// To save N index entries, we therefore need:
// N * (56 + 2) bytes + N * 32 bytes / BP = N * 62 bytes,
// i.e., fewer than 64 bytes per blob in an index.
// Index holds lookup tables for id -> pack.
type Index struct {
m sync.Mutex
byType [restic.NumBlobTypes]indexMap
packs restic.IDs
mixedPacks restic.IDSet
final bool // set to true for all indexes read from the backend ("finalized")
ids restic.IDs // set to the IDs of the contained finalized indexes
supersedes restic.IDs
created time.Time
}
// NewIndex returns a new index.
func NewIndex() *Index {
return &Index{
mixedPacks: restic.NewIDSet(),
created: time.Now(),
}
}
// addToPacks saves the given pack ID and return the index.
// This procedere allows to use pack IDs which can be easily garbage collected after.
func (idx *Index) addToPacks(id restic.ID) int {
idx.packs = append(idx.packs, id)
return len(idx.packs) - 1
}
const maxuint32 = 1<<32 - 1
func (idx *Index) store(packIndex int, blob restic.Blob) {
// assert that offset and length fit into uint32!
if blob.Offset > maxuint32 || blob.Length > maxuint32 || blob.UncompressedLength > maxuint32 {
panic("offset or length does not fit in uint32. You have packs > 4GB!")
}
m := &idx.byType[blob.Type]
m.add(blob.ID, packIndex, uint32(blob.Offset), uint32(blob.Length), uint32(blob.UncompressedLength))
}
// Final returns true iff the index is already written to the repository, it is
// finalized.
func (idx *Index) Final() bool {
idx.m.Lock()
defer idx.m.Unlock()
return idx.final
}
const (
indexMaxBlobs = 50000
indexMaxBlobsCompressed = 3 * indexMaxBlobs
indexMaxAge = 10 * time.Minute
)
// IndexFull returns true iff the index is "full enough" to be saved as a preliminary index.
var IndexFull = func(idx *Index, compress bool) bool {
idx.m.Lock()
defer idx.m.Unlock()
debug.Log("checking whether index %p is full", idx)
var blobs uint
for typ := range idx.byType {
blobs += idx.byType[typ].len()
}
age := time.Since(idx.created)
var maxBlobs uint
if compress {
maxBlobs = indexMaxBlobsCompressed
} else {
maxBlobs = indexMaxBlobs
}
switch {
case age >= indexMaxAge:
debug.Log("index %p is old enough", idx, age)
return true
case blobs >= maxBlobs:
debug.Log("index %p has %d blobs", idx, blobs)
return true
}
debug.Log("index %p only has %d blobs and is too young (%v)", idx, blobs, age)
return false
}
// StorePack remembers the ids of all blobs of a given pack
// in the index
func (idx *Index) StorePack(id restic.ID, blobs []restic.Blob) {
idx.m.Lock()
defer idx.m.Unlock()
if idx.final {
panic("store new item in finalized index")
}
debug.Log("%v", blobs)
packIndex := idx.addToPacks(id)
for _, blob := range blobs {
idx.store(packIndex, blob)
}
}
func (idx *Index) toPackedBlob(e *indexEntry, t restic.BlobType) restic.PackedBlob {
return restic.PackedBlob{
Blob: restic.Blob{
BlobHandle: restic.BlobHandle{
ID: e.id,
Type: t},
Length: uint(e.length),
Offset: uint(e.offset),
UncompressedLength: uint(e.uncompressedLength),
},
PackID: idx.packs[e.packIndex],
}
}
// Lookup queries the index for the blob ID and returns all entries including
// duplicates. Adds found entries to blobs and returns the result.
func (idx *Index) Lookup(bh restic.BlobHandle, pbs []restic.PackedBlob) []restic.PackedBlob {
idx.m.Lock()
defer idx.m.Unlock()
idx.byType[bh.Type].foreachWithID(bh.ID, func(e *indexEntry) {
pbs = append(pbs, idx.toPackedBlob(e, bh.Type))
})
return pbs
}
// Has returns true iff the id is listed in the index.
func (idx *Index) Has(bh restic.BlobHandle) bool {
idx.m.Lock()
defer idx.m.Unlock()
return idx.byType[bh.Type].get(bh.ID) != nil
}
// LookupSize returns the length of the plaintext content of the blob with the
// given id.
func (idx *Index) LookupSize(bh restic.BlobHandle) (plaintextLength uint, found bool) {
idx.m.Lock()
defer idx.m.Unlock()
e := idx.byType[bh.Type].get(bh.ID)
if e == nil {
return 0, false
}
if e.uncompressedLength != 0 {
return uint(e.uncompressedLength), true
}
return uint(crypto.PlaintextLength(int(e.length))), true
}
// Supersedes returns the list of indexes this index supersedes, if any.
func (idx *Index) Supersedes() restic.IDs {
return idx.supersedes
}
// AddToSupersedes adds the ids to the list of indexes superseded by this
// index. If the index has already been finalized, an error is returned.
func (idx *Index) AddToSupersedes(ids ...restic.ID) error {
idx.m.Lock()
defer idx.m.Unlock()
if idx.final {
return errors.New("index already finalized")
}
idx.supersedes = append(idx.supersedes, ids...)
return nil
}
// Each returns a channel that yields all blobs known to the index. When the
// context is cancelled, the background goroutine terminates. This blocks any
// modification of the index.
func (idx *Index) Each(ctx context.Context) <-chan restic.PackedBlob {
idx.m.Lock()
ch := make(chan restic.PackedBlob)
go func() {
defer idx.m.Unlock()
defer func() {
close(ch)
}()
for typ := range idx.byType {
m := &idx.byType[typ]
m.foreach(func(e *indexEntry) bool {
select {
case <-ctx.Done():
return false
case ch <- idx.toPackedBlob(e, restic.BlobType(typ)):
return true
}
})
}
}()
return ch
}
type EachByPackResult struct {
PackID restic.ID
Blobs []restic.Blob
}
// EachByPack returns a channel that yields all blobs known to the index
// grouped by packID but ignoring blobs with a packID in packPlacklist for
// finalized indexes.
// This filtering is used when rebuilding the index where we need to ignore packs
// from the finalized index which have been re-read into a non-finalized index.
// When the context is cancelled, the background goroutine
// terminates. This blocks any modification of the index.
func (idx *Index) EachByPack(ctx context.Context, packBlacklist restic.IDSet) <-chan EachByPackResult {
idx.m.Lock()
ch := make(chan EachByPackResult)
go func() {
defer idx.m.Unlock()
defer func() {
close(ch)
}()
byPack := make(map[restic.ID][][]*indexEntry)
for typ := range idx.byType {
m := &idx.byType[typ]
m.foreach(func(e *indexEntry) bool {
packID := idx.packs[e.packIndex]
if !idx.final || !packBlacklist.Has(packID) {
if _, ok := byPack[packID]; !ok {
byPack[packID] = make([][]*indexEntry, restic.NumBlobTypes)
}
byPack[packID][typ] = append(byPack[packID][typ], e)
}
return true
})
}
for packID, packByType := range byPack {
var result EachByPackResult
result.PackID = packID
for typ, pack := range packByType {
for _, e := range pack {
result.Blobs = append(result.Blobs, idx.toPackedBlob(e, restic.BlobType(typ)).Blob)
}
}
select {
case <-ctx.Done():
return
case ch <- result:
}
}
}()
return ch
}
// Packs returns all packs in this index
func (idx *Index) Packs() restic.IDSet {
idx.m.Lock()
defer idx.m.Unlock()
packs := restic.NewIDSet()
for _, packID := range idx.packs {
packs.Insert(packID)
}
return packs
}
type packJSON struct {
ID restic.ID `json:"id"`
Blobs []blobJSON `json:"blobs"`
}
type blobJSON struct {
ID restic.ID `json:"id"`
Type restic.BlobType `json:"type"`
Offset uint `json:"offset"`
Length uint `json:"length"`
UncompressedLength uint `json:"uncompressed_length,omitempty"`
}
// generatePackList returns a list of packs.
func (idx *Index) generatePackList() ([]*packJSON, error) {
list := []*packJSON{}
packs := make(map[restic.ID]*packJSON)
for typ := range idx.byType {
m := &idx.byType[typ]
m.foreach(func(e *indexEntry) bool {
packID := idx.packs[e.packIndex]
if packID.IsNull() {
panic("null pack id")
}
debug.Log("handle blob %v", e.id)
// see if pack is already in map
p, ok := packs[packID]
if !ok {
// else create new pack
p = &packJSON{ID: packID}
// and append it to the list and map
list = append(list, p)
packs[p.ID] = p
}
// add blob
p.Blobs = append(p.Blobs, blobJSON{
ID: e.id,
Type: restic.BlobType(typ),
Offset: uint(e.offset),
Length: uint(e.length),
UncompressedLength: uint(e.uncompressedLength),
})
return true
})
}
debug.Log("done")
return list, nil
}
type jsonIndex struct {
Supersedes restic.IDs `json:"supersedes,omitempty"`
Packs []*packJSON `json:"packs"`
}
// Encode writes the JSON serialization of the index to the writer w.
func (idx *Index) Encode(w io.Writer) error {
debug.Log("encoding index")
idx.m.Lock()
defer idx.m.Unlock()
list, err := idx.generatePackList()
if err != nil {
return err
}
enc := json.NewEncoder(w)
idxJSON := jsonIndex{
Supersedes: idx.supersedes,
Packs: list,
}
return enc.Encode(idxJSON)
}
// Finalize sets the index to final.
func (idx *Index) Finalize() {
debug.Log("finalizing index")
idx.m.Lock()
defer idx.m.Unlock()
idx.final = true
}
// IDs returns the IDs of the index, if available. If the index is not yet
// finalized, an error is returned.
func (idx *Index) IDs() (restic.IDs, error) {
idx.m.Lock()
defer idx.m.Unlock()
if !idx.final {
return nil, errors.New("index not finalized")
}
return idx.ids, nil
}
// SetID sets the ID the index has been written to. This requires that
// Finalize() has been called before, otherwise an error is returned.
func (idx *Index) SetID(id restic.ID) error {
idx.m.Lock()
defer idx.m.Unlock()
if !idx.final {
return errors.New("index is not final")
}
if len(idx.ids) > 0 {
return errors.New("ID already set")
}
debug.Log("ID set to %v", id)
idx.ids = append(idx.ids, id)
return nil
}
// Dump writes the pretty-printed JSON representation of the index to w.
func (idx *Index) Dump(w io.Writer) error {
debug.Log("dumping index")
idx.m.Lock()
defer idx.m.Unlock()
list, err := idx.generatePackList()
if err != nil {
return err
}
outer := jsonIndex{
Supersedes: idx.Supersedes(),
Packs: list,
}
buf, err := json.MarshalIndent(outer, "", " ")
if err != nil {
return err
}
_, err = w.Write(append(buf, '\n'))
if err != nil {
return errors.Wrap(err, "Write")
}
debug.Log("done")
return nil
}
// MixedPacks returns an IDSet that contain packs which have mixed blobs.
func (idx *Index) MixedPacks() restic.IDSet {
return idx.mixedPacks
}
// merge() merges indexes, i.e. idx.merge(idx2) merges the contents of idx2 into idx.
// During merging exact duplicates are removed; idx2 is not changed by this method.
func (idx *Index) merge(idx2 *Index) error {
idx.m.Lock()
defer idx.m.Unlock()
idx2.m.Lock()
defer idx2.m.Unlock()
if !idx2.final {
return errors.New("index to merge is not final")
}
packlen := len(idx.packs)
// first append packs as they might be accessed when looking for duplicates below
idx.packs = append(idx.packs, idx2.packs...)
// copy all index entries of idx2 to idx
for typ := range idx2.byType {
m2 := &idx2.byType[typ]
m := &idx.byType[typ]
// helper func to test if identical entry is contained in idx
hasIdenticalEntry := func(e2 *indexEntry) (found bool) {
m.foreachWithID(e2.id, func(e *indexEntry) {
b := idx.toPackedBlob(e, restic.BlobType(typ))
b2 := idx2.toPackedBlob(e2, restic.BlobType(typ))
if b == b2 {
found = true
}
})
return found
}
m2.foreach(func(e2 *indexEntry) bool {
if !hasIdenticalEntry(e2) {
// packIndex needs to be changed as idx2.pack was appended to idx.pack, see above
m.add(e2.id, e2.packIndex+packlen, e2.offset, e2.length, e2.uncompressedLength)
}
return true
})
}
idx.mixedPacks.Merge(idx2.mixedPacks)
idx.ids = append(idx.ids, idx2.ids...)
idx.supersedes = append(idx.supersedes, idx2.supersedes...)
return nil
}
// isErrOldIndex returns true if the error may be caused by an old index
// format.
func isErrOldIndex(err error) bool {
e, ok := err.(*json.UnmarshalTypeError)
return ok && e.Value == "array"
}
// DecodeIndex unserializes an index from buf.
func DecodeIndex(buf []byte, id restic.ID) (idx *Index, oldFormat bool, err error) {
debug.Log("Start decoding index")
idxJSON := &jsonIndex{}
err = json.Unmarshal(buf, idxJSON)
if err != nil {
debug.Log("Error %v", err)
if isErrOldIndex(err) {
debug.Log("index is probably old format, trying that")
idx, err = decodeOldIndex(buf)
return idx, err == nil, err
}
return nil, false, errors.Wrap(err, "DecodeIndex")
}
idx = NewIndex()
for _, pack := range idxJSON.Packs {
var data, tree bool
packID := idx.addToPacks(pack.ID)
for _, blob := range pack.Blobs {
idx.store(packID, restic.Blob{
BlobHandle: restic.BlobHandle{
Type: blob.Type,
ID: blob.ID},
Offset: blob.Offset,
Length: blob.Length,
UncompressedLength: blob.UncompressedLength,
})
switch blob.Type {
case restic.DataBlob:
data = true
case restic.TreeBlob:
tree = true
}
}
if data && tree {
idx.mixedPacks.Insert(pack.ID)
}
}
idx.supersedes = idxJSON.Supersedes
idx.ids = append(idx.ids, id)
idx.final = true
debug.Log("done")
return idx, false, nil
}
// DecodeOldIndex loads and unserializes an index in the old format from rd.
func decodeOldIndex(buf []byte) (idx *Index, err error) {
debug.Log("Start decoding old index")
list := []*packJSON{}
err = json.Unmarshal(buf, &list)
if err != nil {
debug.Log("Error %#v", err)
return nil, errors.Wrap(err, "Decode")
}
idx = NewIndex()
for _, pack := range list {
var data, tree bool
packID := idx.addToPacks(pack.ID)
for _, blob := range pack.Blobs {
idx.store(packID, restic.Blob{
BlobHandle: restic.BlobHandle{
Type: blob.Type,
ID: blob.ID},
Offset: blob.Offset,
Length: blob.Length,
// no compressed length in the old index format
})
switch blob.Type {
case restic.DataBlob:
data = true
case restic.TreeBlob:
tree = true
}
}
if data && tree {
idx.mixedPacks.Insert(pack.ID)
}
}
idx.final = true
debug.Log("done")
return idx, nil
}