mirror of
https://github.com/octoleo/restic.git
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638 lines
19 KiB
Go
638 lines
19 KiB
Go
package repository
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import (
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"context"
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"fmt"
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"math"
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"sort"
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"github.com/restic/restic/internal/errors"
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"github.com/restic/restic/internal/pack"
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"github.com/restic/restic/internal/restic"
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"github.com/restic/restic/internal/ui/progress"
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)
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var ErrIndexIncomplete = errors.Fatal("index is not complete")
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var ErrPacksMissing = errors.Fatal("packs from index missing in repo")
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var ErrSizeNotMatching = errors.Fatal("pack size does not match calculated size from index")
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// PruneOptions collects all options for the cleanup command.
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type PruneOptions struct {
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DryRun bool
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UnsafeRecovery bool
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MaxUnusedBytes func(used uint64) (unused uint64) // calculates the number of unused bytes after repacking, according to MaxUnused
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MaxRepackBytes uint64
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RepackCachableOnly bool
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RepackSmall bool
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RepackUncompressed bool
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}
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type PruneStats struct {
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Blobs struct {
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Used uint
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Duplicate uint
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Unused uint
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Remove uint
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Repack uint
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Repackrm uint
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}
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Size struct {
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Used uint64
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Duplicate uint64
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Unused uint64
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Remove uint64
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Repack uint64
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Repackrm uint64
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Unref uint64
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Uncompressed uint64
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}
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Packs struct {
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Used uint
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Unused uint
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PartlyUsed uint
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Unref uint
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Keep uint
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Repack uint
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Remove uint
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}
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}
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type PrunePlan struct {
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removePacksFirst restic.IDSet // packs to remove first (unreferenced packs)
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repackPacks restic.IDSet // packs to repack
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keepBlobs restic.CountedBlobSet // blobs to keep during repacking
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removePacks restic.IDSet // packs to remove
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ignorePacks restic.IDSet // packs to ignore when rebuilding the index
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repo *Repository
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stats PruneStats
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opts PruneOptions
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}
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type packInfo struct {
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usedBlobs uint
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unusedBlobs uint
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usedSize uint64
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unusedSize uint64
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tpe restic.BlobType
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uncompressed bool
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}
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type packInfoWithID struct {
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ID restic.ID
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packInfo
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mustCompress bool
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}
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// PlanPrune selects which files to rewrite and which to delete and which blobs to keep.
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// Also some summary statistics are returned.
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func PlanPrune(ctx context.Context, opts PruneOptions, repo *Repository, getUsedBlobs func(ctx context.Context, repo restic.Repository) (usedBlobs restic.CountedBlobSet, err error), printer progress.Printer) (*PrunePlan, error) {
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var stats PruneStats
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if opts.UnsafeRecovery {
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// prevent repacking data to make sure users cannot get stuck.
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opts.MaxRepackBytes = 0
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}
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if repo.Connections() < 2 {
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return nil, fmt.Errorf("prune requires a backend connection limit of at least two")
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}
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if repo.Config().Version < 2 && opts.RepackUncompressed {
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return nil, fmt.Errorf("compression requires at least repository format version 2")
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}
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usedBlobs, err := getUsedBlobs(ctx, repo)
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if err != nil {
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return nil, err
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}
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printer.P("searching used packs...\n")
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keepBlobs, indexPack, err := packInfoFromIndex(ctx, repo, usedBlobs, &stats, printer)
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if err != nil {
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return nil, err
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}
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printer.P("collecting packs for deletion and repacking\n")
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plan, err := decidePackAction(ctx, opts, repo, indexPack, &stats, printer)
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if err != nil {
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return nil, err
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}
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if len(plan.repackPacks) != 0 {
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blobCount := keepBlobs.Len()
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// when repacking, we do not want to keep blobs which are
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// already contained in kept packs, so delete them from keepBlobs
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err := repo.ListBlobs(ctx, func(blob restic.PackedBlob) {
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if plan.removePacks.Has(blob.PackID) || plan.repackPacks.Has(blob.PackID) {
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return
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}
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keepBlobs.Delete(blob.BlobHandle)
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})
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if err != nil {
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return nil, err
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}
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if keepBlobs.Len() < blobCount/2 {
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// replace with copy to shrink map to necessary size if there's a chance to benefit
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keepBlobs = keepBlobs.Copy()
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}
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} else {
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// keepBlobs is only needed if packs are repacked
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keepBlobs = nil
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}
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plan.keepBlobs = keepBlobs
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plan.repo = repo
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plan.stats = stats
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plan.opts = opts
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return &plan, nil
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}
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func packInfoFromIndex(ctx context.Context, idx restic.ListBlobser, usedBlobs restic.CountedBlobSet, stats *PruneStats, printer progress.Printer) (restic.CountedBlobSet, map[restic.ID]packInfo, error) {
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// iterate over all blobs in index to find out which blobs are duplicates
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// The counter in usedBlobs describes how many instances of the blob exist in the repository index
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// Thus 0 == blob is missing, 1 == blob exists once, >= 2 == duplicates exist
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err := idx.ListBlobs(ctx, func(blob restic.PackedBlob) {
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bh := blob.BlobHandle
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count, ok := usedBlobs[bh]
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if ok {
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if count < math.MaxUint8 {
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// don't overflow, but saturate count at 255
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// this can lead to a non-optimal pack selection, but won't cause
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// problems otherwise
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count++
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}
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usedBlobs[bh] = count
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}
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})
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if err != nil {
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return nil, nil, err
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}
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// Check if all used blobs have been found in index
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missingBlobs := restic.NewBlobSet()
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for bh, count := range usedBlobs {
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if count == 0 {
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// blob does not exist in any pack files
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missingBlobs.Insert(bh)
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}
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}
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if len(missingBlobs) != 0 {
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printer.E("%v not found in the index\n\n"+
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"Integrity check failed: Data seems to be missing.\n"+
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"Will not start prune to prevent (additional) data loss!\n"+
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"Please report this error (along with the output of the 'prune' run) at\n"+
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"https://github.com/restic/restic/issues/new/choose\n", missingBlobs)
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return nil, nil, ErrIndexIncomplete
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}
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indexPack := make(map[restic.ID]packInfo)
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// save computed pack header size
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sz, err := pack.Size(ctx, idx, true)
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if err != nil {
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return nil, nil, err
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}
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for pid, hdrSize := range sz {
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// initialize tpe with NumBlobTypes to indicate it's not set
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indexPack[pid] = packInfo{tpe: restic.NumBlobTypes, usedSize: uint64(hdrSize)}
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}
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hasDuplicates := false
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// iterate over all blobs in index to generate packInfo
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err = idx.ListBlobs(ctx, func(blob restic.PackedBlob) {
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ip := indexPack[blob.PackID]
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// Set blob type if not yet set
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if ip.tpe == restic.NumBlobTypes {
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ip.tpe = blob.Type
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}
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// mark mixed packs with "Invalid blob type"
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if ip.tpe != blob.Type {
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ip.tpe = restic.InvalidBlob
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}
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bh := blob.BlobHandle
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size := uint64(blob.Length)
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dupCount := usedBlobs[bh]
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switch {
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case dupCount >= 2:
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hasDuplicates = true
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// mark as unused for now, we will later on select one copy
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ip.unusedSize += size
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ip.unusedBlobs++
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// count as duplicate, will later on change one copy to be counted as used
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stats.Size.Duplicate += size
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stats.Blobs.Duplicate++
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case dupCount == 1: // used blob, not duplicate
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ip.usedSize += size
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ip.usedBlobs++
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stats.Size.Used += size
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stats.Blobs.Used++
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default: // unused blob
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ip.unusedSize += size
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ip.unusedBlobs++
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stats.Size.Unused += size
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stats.Blobs.Unused++
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}
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if !blob.IsCompressed() {
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ip.uncompressed = true
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}
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// update indexPack
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indexPack[blob.PackID] = ip
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})
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if err != nil {
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return nil, nil, err
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}
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// if duplicate blobs exist, those will be set to either "used" or "unused":
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// - mark only one occurrence of duplicate blobs as used
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// - if there are already some used blobs in a pack, possibly mark duplicates in this pack as "used"
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// - if there are no used blobs in a pack, possibly mark duplicates as "unused"
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if hasDuplicates {
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// iterate again over all blobs in index (this is pretty cheap, all in-mem)
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err = idx.ListBlobs(ctx, func(blob restic.PackedBlob) {
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bh := blob.BlobHandle
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count, ok := usedBlobs[bh]
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// skip non-duplicate, aka. normal blobs
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// count == 0 is used to mark that this was a duplicate blob with only a single occurrence remaining
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if !ok || count == 1 {
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return
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}
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ip := indexPack[blob.PackID]
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size := uint64(blob.Length)
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switch {
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case ip.usedBlobs > 0, count == 0:
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// other used blobs in pack or "last" occurrence -> transition to used
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ip.usedSize += size
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ip.usedBlobs++
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ip.unusedSize -= size
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ip.unusedBlobs--
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// same for the global statistics
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stats.Size.Used += size
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stats.Blobs.Used++
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stats.Size.Duplicate -= size
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stats.Blobs.Duplicate--
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// let other occurrences remain marked as unused
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usedBlobs[bh] = 1
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default:
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// remain unused and decrease counter
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count--
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if count == 1 {
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// setting count to 1 would lead to forgetting that this blob had duplicates
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// thus use the special value zero. This will select the last instance of the blob for keeping.
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count = 0
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}
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usedBlobs[bh] = count
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}
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// update indexPack
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indexPack[blob.PackID] = ip
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})
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if err != nil {
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return nil, nil, err
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}
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}
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// Sanity check. If no duplicates exist, all blobs have value 1. After handling
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// duplicates, this also applies to duplicates.
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for _, count := range usedBlobs {
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if count != 1 {
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panic("internal error during blob selection")
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}
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}
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return usedBlobs, indexPack, nil
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}
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func decidePackAction(ctx context.Context, opts PruneOptions, repo *Repository, indexPack map[restic.ID]packInfo, stats *PruneStats, printer progress.Printer) (PrunePlan, error) {
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removePacksFirst := restic.NewIDSet()
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removePacks := restic.NewIDSet()
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repackPacks := restic.NewIDSet()
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var repackCandidates []packInfoWithID
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var repackSmallCandidates []packInfoWithID
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repoVersion := repo.Config().Version
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// only repack very small files by default
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targetPackSize := repo.packSize() / 25
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if opts.RepackSmall {
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// consider files with at least 80% of the target size as large enough
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targetPackSize = repo.packSize() / 5 * 4
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}
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// loop over all packs and decide what to do
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bar := printer.NewCounter("packs processed")
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bar.SetMax(uint64(len(indexPack)))
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err := repo.List(ctx, restic.PackFile, func(id restic.ID, packSize int64) error {
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p, ok := indexPack[id]
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if !ok {
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// Pack was not referenced in index and is not used => immediately remove!
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printer.V("will remove pack %v as it is unused and not indexed\n", id.Str())
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removePacksFirst.Insert(id)
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stats.Size.Unref += uint64(packSize)
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return nil
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}
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if p.unusedSize+p.usedSize != uint64(packSize) && p.usedBlobs != 0 {
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// Pack size does not fit and pack is needed => error
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// If the pack is not needed, this is no error, the pack can
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// and will be simply removed, see below.
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printer.E("pack %s: calculated size %d does not match real size %d\nRun 'restic repair index'.\n",
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id.Str(), p.unusedSize+p.usedSize, packSize)
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return ErrSizeNotMatching
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}
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// statistics
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switch {
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case p.usedBlobs == 0:
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stats.Packs.Unused++
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case p.unusedBlobs == 0:
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stats.Packs.Used++
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default:
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stats.Packs.PartlyUsed++
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}
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if p.uncompressed {
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stats.Size.Uncompressed += p.unusedSize + p.usedSize
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}
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mustCompress := false
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if repoVersion >= 2 {
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// repo v2: always repack tree blobs if uncompressed
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// compress data blobs if requested
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mustCompress = (p.tpe == restic.TreeBlob || opts.RepackUncompressed) && p.uncompressed
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}
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// decide what to do
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switch {
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case p.usedBlobs == 0:
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// All blobs in pack are no longer used => remove pack!
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removePacks.Insert(id)
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stats.Blobs.Remove += p.unusedBlobs
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stats.Size.Remove += p.unusedSize
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case opts.RepackCachableOnly && p.tpe == restic.DataBlob:
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// if this is a data pack and --repack-cacheable-only is set => keep pack!
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stats.Packs.Keep++
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case p.unusedBlobs == 0 && p.tpe != restic.InvalidBlob && !mustCompress:
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if packSize >= int64(targetPackSize) {
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// All blobs in pack are used and not mixed => keep pack!
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stats.Packs.Keep++
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} else {
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repackSmallCandidates = append(repackSmallCandidates, packInfoWithID{ID: id, packInfo: p, mustCompress: mustCompress})
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}
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default:
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// all other packs are candidates for repacking
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repackCandidates = append(repackCandidates, packInfoWithID{ID: id, packInfo: p, mustCompress: mustCompress})
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}
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delete(indexPack, id)
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bar.Add(1)
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return nil
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})
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bar.Done()
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if err != nil {
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return PrunePlan{}, err
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}
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// At this point indexPacks contains only missing packs!
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// missing packs that are not needed can be ignored
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ignorePacks := restic.NewIDSet()
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for id, p := range indexPack {
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if p.usedBlobs == 0 {
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ignorePacks.Insert(id)
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stats.Blobs.Remove += p.unusedBlobs
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stats.Size.Remove += p.unusedSize
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delete(indexPack, id)
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}
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}
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if len(indexPack) != 0 {
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printer.E("The index references %d needed pack files which are missing from the repository:\n", len(indexPack))
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for id := range indexPack {
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printer.E(" %v\n", id)
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}
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return PrunePlan{}, ErrPacksMissing
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}
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if len(ignorePacks) != 0 {
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printer.E("Missing but unneeded pack files are referenced in the index, will be repaired\n")
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for id := range ignorePacks {
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printer.E("will forget missing pack file %v\n", id)
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}
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}
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if len(repackSmallCandidates) < 10 {
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// too few small files to be worth the trouble, this also prevents endlessly repacking
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// if there is just a single pack file below the target size
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stats.Packs.Keep += uint(len(repackSmallCandidates))
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} else {
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repackCandidates = append(repackCandidates, repackSmallCandidates...)
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}
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// Sort repackCandidates such that packs with highest ratio unused/used space are picked first.
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// This is equivalent to sorting by unused / total space.
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// Instead of unused[i] / used[i] > unused[j] / used[j] we use
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// unused[i] * used[j] > unused[j] * used[i] as uint32*uint32 < uint64
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// Moreover packs containing trees and too short packs are sorted to the beginning
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sort.Slice(repackCandidates, func(i, j int) bool {
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pi := repackCandidates[i].packInfo
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pj := repackCandidates[j].packInfo
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switch {
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case pi.tpe != restic.DataBlob && pj.tpe == restic.DataBlob:
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return true
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case pj.tpe != restic.DataBlob && pi.tpe == restic.DataBlob:
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return false
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case pi.unusedSize+pi.usedSize < uint64(targetPackSize) && pj.unusedSize+pj.usedSize >= uint64(targetPackSize):
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return true
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case pj.unusedSize+pj.usedSize < uint64(targetPackSize) && pi.unusedSize+pi.usedSize >= uint64(targetPackSize):
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return false
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}
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return pi.unusedSize*pj.usedSize > pj.unusedSize*pi.usedSize
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})
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repack := func(id restic.ID, p packInfo) {
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repackPacks.Insert(id)
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stats.Blobs.Repack += p.unusedBlobs + p.usedBlobs
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stats.Size.Repack += p.unusedSize + p.usedSize
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stats.Blobs.Repackrm += p.unusedBlobs
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stats.Size.Repackrm += p.unusedSize
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if p.uncompressed {
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stats.Size.Uncompressed -= p.unusedSize + p.usedSize
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}
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}
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// calculate limit for number of unused bytes in the repo after repacking
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maxUnusedSizeAfter := opts.MaxUnusedBytes(stats.Size.Used)
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for _, p := range repackCandidates {
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reachedUnusedSizeAfter := (stats.Size.Unused-stats.Size.Remove-stats.Size.Repackrm < maxUnusedSizeAfter)
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reachedRepackSize := stats.Size.Repack+p.unusedSize+p.usedSize >= opts.MaxRepackBytes
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packIsLargeEnough := p.unusedSize+p.usedSize >= uint64(targetPackSize)
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switch {
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case reachedRepackSize:
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stats.Packs.Keep++
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case p.tpe != restic.DataBlob, p.mustCompress:
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// repacking non-data packs / uncompressed-trees is only limited by repackSize
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repack(p.ID, p.packInfo)
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case reachedUnusedSizeAfter && packIsLargeEnough:
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// for all other packs stop repacking if tolerated unused size is reached.
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stats.Packs.Keep++
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default:
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repack(p.ID, p.packInfo)
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}
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}
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stats.Packs.Unref = uint(len(removePacksFirst))
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stats.Packs.Repack = uint(len(repackPacks))
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stats.Packs.Remove = uint(len(removePacks))
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if repo.Config().Version < 2 {
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// compression not supported for repository format version 1
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stats.Size.Uncompressed = 0
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}
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return PrunePlan{removePacksFirst: removePacksFirst,
|
|
removePacks: removePacks,
|
|
repackPacks: repackPacks,
|
|
ignorePacks: ignorePacks,
|
|
}, nil
|
|
}
|
|
|
|
func (plan *PrunePlan) Stats() PruneStats {
|
|
return plan.stats
|
|
}
|
|
|
|
// Execute does the actual pruning:
|
|
// - remove unreferenced packs first
|
|
// - repack given pack files while keeping the given blobs
|
|
// - rebuild the index while ignoring all files that will be deleted
|
|
// - delete the files
|
|
// plan.removePacks and plan.ignorePacks are modified in this function.
|
|
func (plan *PrunePlan) Execute(ctx context.Context, printer progress.Printer) (err error) {
|
|
if plan.opts.DryRun {
|
|
printer.V("Repeated prune dry-runs can report slightly different amounts of data to keep or repack. This is expected behavior.\n\n")
|
|
if len(plan.removePacksFirst) > 0 {
|
|
printer.V("Would have removed the following unreferenced packs:\n%v\n\n", plan.removePacksFirst)
|
|
}
|
|
printer.V("Would have repacked and removed the following packs:\n%v\n\n", plan.repackPacks)
|
|
printer.V("Would have removed the following no longer used packs:\n%v\n\n", plan.removePacks)
|
|
// Always quit here if DryRun was set!
|
|
return nil
|
|
}
|
|
|
|
repo := plan.repo
|
|
// make sure the plan can only be used once
|
|
plan.repo = nil
|
|
|
|
// unreferenced packs can be safely deleted first
|
|
if len(plan.removePacksFirst) != 0 {
|
|
printer.P("deleting unreferenced packs\n")
|
|
_ = deleteFiles(ctx, true, repo, plan.removePacksFirst, restic.PackFile, printer)
|
|
}
|
|
if ctx.Err() != nil {
|
|
return ctx.Err()
|
|
}
|
|
|
|
if len(plan.repackPacks) != 0 {
|
|
printer.P("repacking packs\n")
|
|
bar := printer.NewCounter("packs repacked")
|
|
bar.SetMax(uint64(len(plan.repackPacks)))
|
|
_, err := Repack(ctx, repo, repo, plan.repackPacks, plan.keepBlobs, bar)
|
|
bar.Done()
|
|
if err != nil {
|
|
return errors.Fatal(err.Error())
|
|
}
|
|
|
|
// Also remove repacked packs
|
|
plan.removePacks.Merge(plan.repackPacks)
|
|
|
|
if len(plan.keepBlobs) != 0 {
|
|
printer.E("%v was not repacked\n\n"+
|
|
"Integrity check failed.\n"+
|
|
"Please report this error (along with the output of the 'prune' run) at\n"+
|
|
"https://github.com/restic/restic/issues/new/choose\n", plan.keepBlobs)
|
|
return errors.Fatal("internal error: blobs were not repacked")
|
|
}
|
|
|
|
// allow GC of the blob set
|
|
plan.keepBlobs = nil
|
|
}
|
|
|
|
if len(plan.ignorePacks) == 0 {
|
|
plan.ignorePacks = plan.removePacks
|
|
} else {
|
|
plan.ignorePacks.Merge(plan.removePacks)
|
|
}
|
|
|
|
if plan.opts.UnsafeRecovery {
|
|
printer.P("deleting index files\n")
|
|
indexFiles := repo.idx.IDs()
|
|
err = deleteFiles(ctx, false, repo, indexFiles, restic.IndexFile, printer)
|
|
if err != nil {
|
|
return errors.Fatalf("%s", err)
|
|
}
|
|
} else if len(plan.ignorePacks) != 0 {
|
|
err = rebuildIndexFiles(ctx, repo, plan.ignorePacks, nil, false, printer)
|
|
if err != nil {
|
|
return errors.Fatalf("%s", err)
|
|
}
|
|
}
|
|
|
|
if len(plan.removePacks) != 0 {
|
|
printer.P("removing %d old packs\n", len(plan.removePacks))
|
|
_ = deleteFiles(ctx, true, repo, plan.removePacks, restic.PackFile, printer)
|
|
}
|
|
if ctx.Err() != nil {
|
|
return ctx.Err()
|
|
}
|
|
|
|
if plan.opts.UnsafeRecovery {
|
|
err = rebuildIndexFiles(ctx, repo, plan.ignorePacks, nil, true, printer)
|
|
if err != nil {
|
|
return errors.Fatalf("%s", err)
|
|
}
|
|
}
|
|
|
|
if err != nil {
|
|
return err
|
|
}
|
|
|
|
// drop outdated in-memory index
|
|
repo.clearIndex()
|
|
|
|
printer.P("done\n")
|
|
return nil
|
|
}
|
|
|
|
// deleteFiles deletes the given fileList of fileType in parallel
|
|
// if ignoreError=true, it will print a warning if there was an error, else it will abort.
|
|
func deleteFiles(ctx context.Context, ignoreError bool, repo restic.RemoverUnpacked, fileList restic.IDSet, fileType restic.FileType, printer progress.Printer) error {
|
|
bar := printer.NewCounter("files deleted")
|
|
defer bar.Done()
|
|
|
|
return restic.ParallelRemove(ctx, repo, fileList, fileType, func(id restic.ID, err error) error {
|
|
if err != nil {
|
|
printer.E("unable to remove %v/%v from the repository\n", fileType, id)
|
|
if !ignoreError {
|
|
return err
|
|
}
|
|
}
|
|
printer.VV("removed %v/%v\n", fileType, id)
|
|
return nil
|
|
}, bar)
|
|
}
|