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restic/internal/restorer/filerestorer.go

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package restorer
import (
"context"
"path/filepath"
"sync"
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"golang.org/x/sync/errgroup"
"github.com/restic/restic/internal/crypto"
"github.com/restic/restic/internal/debug"
"github.com/restic/restic/internal/errors"
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"github.com/restic/restic/internal/repository"
"github.com/restic/restic/internal/restic"
"github.com/restic/restic/internal/ui/restore"
)
// TODO if a blob is corrupt, there may be good blob copies in other packs
// TODO evaluate if it makes sense to split download and processing workers
// pro: can (slowly) read network and decrypt/write files concurrently
// con: each worker needs to keep one pack in memory
const (
largeFileBlobCount = 25
)
// information about regular file being restored
type fileInfo struct {
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lock sync.Mutex
inProgress bool
sparse bool
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size int64
location string // file on local filesystem relative to restorer basedir
blobs interface{} // blobs of the file
}
type fileBlobInfo struct {
id restic.ID // the blob id
offset int64 // blob offset in the file
}
// information about a data pack required to restore one or more files
type packInfo struct {
id restic.ID // the pack id
files map[*fileInfo]struct{} // set of files that use blobs from this pack
}
// fileRestorer restores set of files
type fileRestorer struct {
key *crypto.Key
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idx func(restic.BlobHandle) []restic.PackedBlob
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packLoader repository.BackendLoadFn
workerCount int
filesWriter *filesWriter
zeroChunk restic.ID
sparse bool
progress *restore.Progress
dst string
files []*fileInfo
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Error func(string, error) error
}
func newFileRestorer(dst string,
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packLoader repository.BackendLoadFn,
key *crypto.Key,
idx func(restic.BlobHandle) []restic.PackedBlob,
connections uint,
sparse bool,
progress *restore.Progress) *fileRestorer {
// as packs are streamed the concurrency is limited by IO
workerCount := int(connections)
return &fileRestorer{
key: key,
idx: idx,
packLoader: packLoader,
filesWriter: newFilesWriter(workerCount),
zeroChunk: repository.ZeroChunk(),
sparse: sparse,
progress: progress,
workerCount: workerCount,
dst: dst,
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Error: restorerAbortOnAllErrors,
}
}
func (r *fileRestorer) addFile(location string, content restic.IDs, size int64) {
r.files = append(r.files, &fileInfo{location: location, blobs: content, size: size})
}
func (r *fileRestorer) targetPath(location string) string {
return filepath.Join(r.dst, location)
}
func (r *fileRestorer) forEachBlob(blobIDs []restic.ID, fn func(packID restic.ID, packBlob restic.Blob)) error {
if len(blobIDs) == 0 {
return nil
}
for _, blobID := range blobIDs {
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packs := r.idx(restic.BlobHandle{ID: blobID, Type: restic.DataBlob})
if len(packs) == 0 {
return errors.Errorf("Unknown blob %s", blobID.String())
}
fn(packs[0].PackID, packs[0].Blob)
}
return nil
}
func (r *fileRestorer) restoreFiles(ctx context.Context) error {
packs := make(map[restic.ID]*packInfo) // all packs
// Process packs in order of first access. While this cannot guarantee
// that file chunks are restored sequentially, it offers a good enough
// approximation to shorten restore times by up to 19% in some test.
var packOrder restic.IDs
// create packInfo from fileInfo
for _, file := range r.files {
fileBlobs := file.blobs.(restic.IDs)
largeFile := len(fileBlobs) > largeFileBlobCount
var packsMap map[restic.ID][]fileBlobInfo
if largeFile {
packsMap = make(map[restic.ID][]fileBlobInfo)
}
fileOffset := int64(0)
err := r.forEachBlob(fileBlobs, func(packID restic.ID, blob restic.Blob) {
if largeFile {
packsMap[packID] = append(packsMap[packID], fileBlobInfo{id: blob.ID, offset: fileOffset})
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fileOffset += int64(blob.DataLength())
}
pack, ok := packs[packID]
if !ok {
pack = &packInfo{
id: packID,
files: make(map[*fileInfo]struct{}),
}
packs[packID] = pack
packOrder = append(packOrder, packID)
}
pack.files[file] = struct{}{}
if blob.ID.Equal(r.zeroChunk) {
file.sparse = r.sparse
}
})
if len(fileBlobs) == 1 {
// no need to preallocate files with a single block, thus we can always consider them to be sparse
// in addition, a short chunk will never match r.zeroChunk which would prevent sparseness for short files
file.sparse = r.sparse
}
if err != nil {
// repository index is messed up, can't do anything
return err
}
if largeFile {
file.blobs = packsMap
}
}
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wg, ctx := errgroup.WithContext(ctx)
downloadCh := make(chan *packInfo)
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worker := func() error {
for pack := range downloadCh {
if err := r.downloadPack(ctx, pack); err != nil {
return err
}
}
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return nil
}
for i := 0; i < r.workerCount; i++ {
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wg.Go(worker)
}
// the main restore loop
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wg.Go(func() error {
for _, id := range packOrder {
pack := packs[id]
// allow garbage collection of packInfo
delete(packs, id)
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select {
case <-ctx.Done():
return ctx.Err()
case downloadCh <- pack:
debug.Log("Scheduled download pack %s", pack.id.Str())
}
}
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close(downloadCh)
return nil
})
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return wg.Wait()
}
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func (r *fileRestorer) downloadPack(ctx context.Context, pack *packInfo) error {
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// calculate blob->[]files->[]offsets mappings
blobs := make(map[restic.ID]struct {
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files map[*fileInfo][]int64 // file -> offsets (plural!) of the blob in the file
})
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var blobList []restic.Blob
for file := range pack.files {
addBlob := func(blob restic.Blob, fileOffset int64) {
blobInfo, ok := blobs[blob.ID]
if !ok {
blobInfo.files = make(map[*fileInfo][]int64)
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blobList = append(blobList, blob)
blobs[blob.ID] = blobInfo
}
blobInfo.files[file] = append(blobInfo.files[file], fileOffset)
}
if fileBlobs, ok := file.blobs.(restic.IDs); ok {
fileOffset := int64(0)
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err := r.forEachBlob(fileBlobs, func(packID restic.ID, blob restic.Blob) {
if packID.Equal(pack.id) {
addBlob(blob, fileOffset)
}
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fileOffset += int64(blob.DataLength())
})
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if err != nil {
// restoreFiles should have caught this error before
panic(err)
}
} else if packsMap, ok := file.blobs.(map[restic.ID][]fileBlobInfo); ok {
for _, blob := range packsMap[pack.id] {
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idxPacks := r.idx(restic.BlobHandle{ID: blob.id, Type: restic.DataBlob})
for _, idxPack := range idxPacks {
if idxPack.PackID.Equal(pack.id) {
addBlob(idxPack.Blob, blob.offset)
break
}
}
}
}
}
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sanitizeError := func(file *fileInfo, err error) error {
if err != nil {
err = r.Error(file.location, err)
}
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return err
}
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err := repository.StreamPack(ctx, r.packLoader, r.key, pack.id, blobList, func(h restic.BlobHandle, blobData []byte, err error) error {
blob := blobs[h.ID]
if err != nil {
for file := range blob.files {
if errFile := sanitizeError(file, err); errFile != nil {
return errFile
}
}
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return nil
}
for file, offsets := range blob.files {
for _, offset := range offsets {
writeToFile := func() error {
// this looks overly complicated and needs explanation
// two competing requirements:
// - must create the file once and only once
// - should allow concurrent writes to the file
// so write the first blob while holding file lock
// write other blobs after releasing the lock
createSize := int64(-1)
file.lock.Lock()
if file.inProgress {
file.lock.Unlock()
} else {
defer file.lock.Unlock()
file.inProgress = true
createSize = file.size
}
writeErr := r.filesWriter.writeToFile(r.targetPath(file.location), blobData, offset, createSize, file.sparse)
if r.progress != nil {
r.progress.AddProgress(file.location, uint64(len(blobData)), uint64(file.size))
}
return writeErr
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}
err := sanitizeError(file, writeToFile())
if err != nil {
return err
}
}
}
return nil
})
if err != nil {
for file := range pack.files {
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if errFile := sanitizeError(file, err); errFile != nil {
return errFile
}
}
}
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return nil
}