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c147422ba5
Sparse files contain large regions containing only zero bytes. Checking that a blob only contains zeros is possible with over 100GB/s for modern x86 CPUs. Calculating sha256 hashes is only possible with 500MB/s (or 2GB/s using hardware acceleration). Thus we can speed up the hash calculation for all zero blobs (which always have length chunker.MinSize) by checking for zero bytes and then using the precomputed hash. The all zeros check is only performed for blobs with the minimal chunk size, and thus should add no overhead most of the time. For chunks which are not all zero but have the minimal chunks size, the overhead will be below 2% based on the above performance numbers. This allows reading sparse sections of files as fast as the kernel can return data to us. On my system using BTRFS this resulted in about 4GB/s.
292 lines
7.7 KiB
Go
292 lines
7.7 KiB
Go
package restorer
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import (
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"context"
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"path/filepath"
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"sync"
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"golang.org/x/sync/errgroup"
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"github.com/restic/restic/internal/crypto"
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"github.com/restic/restic/internal/debug"
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"github.com/restic/restic/internal/errors"
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"github.com/restic/restic/internal/repository"
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"github.com/restic/restic/internal/restic"
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)
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// TODO if a blob is corrupt, there may be good blob copies in other packs
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// TODO evaluate if it makes sense to split download and processing workers
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// pro: can (slowly) read network and decrypt/write files concurrently
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// con: each worker needs to keep one pack in memory
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const (
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largeFileBlobCount = 25
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)
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// information about regular file being restored
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type fileInfo struct {
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lock sync.Mutex
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inProgress bool
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sparse bool
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size int64
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location string // file on local filesystem relative to restorer basedir
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blobs interface{} // blobs of the file
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}
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type fileBlobInfo struct {
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id restic.ID // the blob id
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offset int64 // blob offset in the file
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}
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// information about a data pack required to restore one or more files
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type packInfo struct {
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id restic.ID // the pack id
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files map[*fileInfo]struct{} // set of files that use blobs from this pack
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}
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// fileRestorer restores set of files
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type fileRestorer struct {
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key *crypto.Key
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idx func(restic.BlobHandle) []restic.PackedBlob
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packLoader repository.BackendLoadFn
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workerCount int
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filesWriter *filesWriter
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zeroChunk restic.ID
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sparse bool
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dst string
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files []*fileInfo
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Error func(string, error) error
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}
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func newFileRestorer(dst string,
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packLoader repository.BackendLoadFn,
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key *crypto.Key,
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idx func(restic.BlobHandle) []restic.PackedBlob,
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connections uint,
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sparse bool) *fileRestorer {
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// as packs are streamed the concurrency is limited by IO
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workerCount := int(connections)
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return &fileRestorer{
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key: key,
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idx: idx,
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packLoader: packLoader,
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filesWriter: newFilesWriter(workerCount),
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zeroChunk: repository.ZeroChunk(),
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sparse: sparse,
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workerCount: workerCount,
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dst: dst,
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Error: restorerAbortOnAllErrors,
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}
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}
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func (r *fileRestorer) addFile(location string, content restic.IDs, size int64) {
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r.files = append(r.files, &fileInfo{location: location, blobs: content, size: size})
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}
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func (r *fileRestorer) targetPath(location string) string {
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return filepath.Join(r.dst, location)
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}
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func (r *fileRestorer) forEachBlob(blobIDs []restic.ID, fn func(packID restic.ID, packBlob restic.Blob)) error {
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if len(blobIDs) == 0 {
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return nil
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}
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for _, blobID := range blobIDs {
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packs := r.idx(restic.BlobHandle{ID: blobID, Type: restic.DataBlob})
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if len(packs) == 0 {
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return errors.Errorf("Unknown blob %s", blobID.String())
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}
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fn(packs[0].PackID, packs[0].Blob)
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}
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return nil
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}
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func (r *fileRestorer) restoreFiles(ctx context.Context) error {
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packs := make(map[restic.ID]*packInfo) // all packs
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// Process packs in order of first access. While this cannot guarantee
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// that file chunks are restored sequentially, it offers a good enough
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// approximation to shorten restore times by up to 19% in some test.
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var packOrder restic.IDs
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// create packInfo from fileInfo
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for _, file := range r.files {
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fileBlobs := file.blobs.(restic.IDs)
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largeFile := len(fileBlobs) > largeFileBlobCount
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var packsMap map[restic.ID][]fileBlobInfo
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if largeFile {
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packsMap = make(map[restic.ID][]fileBlobInfo)
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}
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fileOffset := int64(0)
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err := r.forEachBlob(fileBlobs, func(packID restic.ID, blob restic.Blob) {
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if largeFile {
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packsMap[packID] = append(packsMap[packID], fileBlobInfo{id: blob.ID, offset: fileOffset})
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fileOffset += int64(blob.DataLength())
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}
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pack, ok := packs[packID]
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if !ok {
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pack = &packInfo{
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id: packID,
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files: make(map[*fileInfo]struct{}),
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}
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packs[packID] = pack
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packOrder = append(packOrder, packID)
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}
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pack.files[file] = struct{}{}
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if blob.ID.Equal(r.zeroChunk) {
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file.sparse = r.sparse
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}
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})
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if len(fileBlobs) == 1 {
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// no need to preallocate files with a single block, thus we can always consider them to be sparse
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// in addition, a short chunk will never match r.zeroChunk which would prevent sparseness for short files
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file.sparse = r.sparse
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}
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if err != nil {
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// repository index is messed up, can't do anything
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return err
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}
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if largeFile {
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file.blobs = packsMap
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}
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}
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wg, ctx := errgroup.WithContext(ctx)
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downloadCh := make(chan *packInfo)
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worker := func() error {
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for pack := range downloadCh {
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if err := r.downloadPack(ctx, pack); err != nil {
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return err
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}
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}
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return nil
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}
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for i := 0; i < r.workerCount; i++ {
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wg.Go(worker)
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}
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// the main restore loop
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wg.Go(func() error {
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for _, id := range packOrder {
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pack := packs[id]
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select {
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case <-ctx.Done():
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return ctx.Err()
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case downloadCh <- pack:
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debug.Log("Scheduled download pack %s", pack.id.Str())
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}
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}
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close(downloadCh)
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return nil
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})
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return wg.Wait()
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}
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func (r *fileRestorer) downloadPack(ctx context.Context, pack *packInfo) error {
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// calculate blob->[]files->[]offsets mappings
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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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})
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var blobList []restic.Blob
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for file := range pack.files {
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addBlob := func(blob restic.Blob, fileOffset int64) {
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blobInfo, ok := blobs[blob.ID]
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if !ok {
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blobInfo.files = make(map[*fileInfo][]int64)
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blobList = append(blobList, blob)
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blobs[blob.ID] = blobInfo
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}
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blobInfo.files[file] = append(blobInfo.files[file], fileOffset)
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}
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if fileBlobs, ok := file.blobs.(restic.IDs); ok {
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fileOffset := int64(0)
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err := r.forEachBlob(fileBlobs, func(packID restic.ID, blob restic.Blob) {
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if packID.Equal(pack.id) {
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addBlob(blob, fileOffset)
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}
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fileOffset += int64(blob.DataLength())
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})
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if err != nil {
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// restoreFiles should have caught this error before
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panic(err)
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}
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} else if packsMap, ok := file.blobs.(map[restic.ID][]fileBlobInfo); ok {
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for _, blob := range packsMap[pack.id] {
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idxPacks := r.idx(restic.BlobHandle{ID: blob.id, Type: restic.DataBlob})
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for _, idxPack := range idxPacks {
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if idxPack.PackID.Equal(pack.id) {
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addBlob(idxPack.Blob, blob.offset)
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break
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}
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}
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}
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}
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}
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sanitizeError := func(file *fileInfo, err error) error {
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if err != nil {
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err = r.Error(file.location, err)
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}
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return err
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}
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err := repository.StreamPack(ctx, r.packLoader, r.key, pack.id, blobList, func(h restic.BlobHandle, blobData []byte, err error) error {
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blob := blobs[h.ID]
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if err != nil {
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for file := range blob.files {
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if errFile := sanitizeError(file, err); errFile != nil {
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return errFile
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}
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}
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return nil
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}
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for file, offsets := range blob.files {
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for _, offset := range offsets {
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writeToFile := func() error {
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// this looks overly complicated and needs explanation
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// two competing requirements:
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// - must create the file once and only once
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// - should allow concurrent writes to the file
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// so write the first blob while holding file lock
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// write other blobs after releasing the lock
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createSize := int64(-1)
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file.lock.Lock()
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if file.inProgress {
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file.lock.Unlock()
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} else {
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defer file.lock.Unlock()
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file.inProgress = true
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createSize = file.size
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}
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return r.filesWriter.writeToFile(r.targetPath(file.location), blobData, offset, createSize, file.sparse)
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}
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err := sanitizeError(file, writeToFile())
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if err != nil {
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return err
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}
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}
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}
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return nil
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})
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if err != nil {
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for file := range pack.files {
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if errFile := sanitizeError(file, err); errFile != nil {
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return errFile
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}
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}
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}
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return nil
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}
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