restic/cmd/restic/cmd_prune.go

282 lines
9.7 KiB
Go

package main
import (
"context"
"math"
"runtime"
"strconv"
"strings"
"github.com/restic/restic/internal/debug"
"github.com/restic/restic/internal/errors"
"github.com/restic/restic/internal/repository"
"github.com/restic/restic/internal/restic"
"github.com/restic/restic/internal/ui"
"github.com/restic/restic/internal/ui/progress"
"github.com/restic/restic/internal/ui/termstatus"
"github.com/spf13/cobra"
)
var cmdPrune = &cobra.Command{
Use: "prune [flags]",
Short: "Remove unneeded data from the repository",
Long: `
The "prune" command checks the repository and removes data that is not
referenced and therefore not needed any more.
EXIT STATUS
===========
Exit status is 0 if the command was successful, and non-zero if there was any error.
`,
DisableAutoGenTag: true,
RunE: func(cmd *cobra.Command, _ []string) error {
term, cancel := setupTermstatus()
defer cancel()
return runPrune(cmd.Context(), pruneOptions, globalOptions, term)
},
}
// PruneOptions collects all options for the cleanup command.
type PruneOptions struct {
DryRun bool
UnsafeNoSpaceRecovery string
unsafeRecovery bool
MaxUnused string
maxUnusedBytes func(used uint64) (unused uint64) // calculates the number of unused bytes after repacking, according to MaxUnused
MaxRepackSize string
MaxRepackBytes uint64
RepackCachableOnly bool
RepackSmall bool
RepackUncompressed bool
}
var pruneOptions PruneOptions
func init() {
cmdRoot.AddCommand(cmdPrune)
f := cmdPrune.Flags()
f.BoolVarP(&pruneOptions.DryRun, "dry-run", "n", false, "do not modify the repository, just print what would be done")
f.StringVarP(&pruneOptions.UnsafeNoSpaceRecovery, "unsafe-recover-no-free-space", "", "", "UNSAFE, READ THE DOCUMENTATION BEFORE USING! Try to recover a repository stuck with no free space. Do not use without trying out 'prune --max-repack-size 0' first.")
addPruneOptions(cmdPrune, &pruneOptions)
}
func addPruneOptions(c *cobra.Command, pruneOptions *PruneOptions) {
f := c.Flags()
f.StringVar(&pruneOptions.MaxUnused, "max-unused", "5%", "tolerate given `limit` of unused data (absolute value in bytes with suffixes k/K, m/M, g/G, t/T, a value in % or the word 'unlimited')")
f.StringVar(&pruneOptions.MaxRepackSize, "max-repack-size", "", "maximum `size` to repack (allowed suffixes: k/K, m/M, g/G, t/T)")
f.BoolVar(&pruneOptions.RepackCachableOnly, "repack-cacheable-only", false, "only repack packs which are cacheable")
f.BoolVar(&pruneOptions.RepackSmall, "repack-small", false, "repack pack files below 80% of target pack size")
f.BoolVar(&pruneOptions.RepackUncompressed, "repack-uncompressed", false, "repack all uncompressed data")
}
func verifyPruneOptions(opts *PruneOptions) error {
opts.MaxRepackBytes = math.MaxUint64
if len(opts.MaxRepackSize) > 0 {
size, err := ui.ParseBytes(opts.MaxRepackSize)
if err != nil {
return err
}
opts.MaxRepackBytes = uint64(size)
}
if opts.UnsafeNoSpaceRecovery != "" {
// prevent repacking data to make sure users cannot get stuck.
opts.MaxRepackBytes = 0
}
maxUnused := strings.TrimSpace(opts.MaxUnused)
if maxUnused == "" {
return errors.Fatalf("invalid value for --max-unused: %q", opts.MaxUnused)
}
// parse MaxUnused either as unlimited, a percentage, or an absolute number of bytes
switch {
case maxUnused == "unlimited":
opts.maxUnusedBytes = func(_ uint64) uint64 {
return math.MaxUint64
}
case strings.HasSuffix(maxUnused, "%"):
maxUnused = strings.TrimSuffix(maxUnused, "%")
p, err := strconv.ParseFloat(maxUnused, 64)
if err != nil {
return errors.Fatalf("invalid percentage %q passed for --max-unused: %v", opts.MaxUnused, err)
}
if p < 0 {
return errors.Fatal("percentage for --max-unused must be positive")
}
if p >= 100 {
return errors.Fatal("percentage for --max-unused must be below 100%")
}
opts.maxUnusedBytes = func(used uint64) uint64 {
return uint64(p / (100 - p) * float64(used))
}
default:
size, err := ui.ParseBytes(maxUnused)
if err != nil {
return errors.Fatalf("invalid number of bytes %q for --max-unused: %v", opts.MaxUnused, err)
}
opts.maxUnusedBytes = func(_ uint64) uint64 {
return uint64(size)
}
}
return nil
}
func runPrune(ctx context.Context, opts PruneOptions, gopts GlobalOptions, term *termstatus.Terminal) error {
err := verifyPruneOptions(&opts)
if err != nil {
return err
}
if opts.RepackUncompressed && gopts.Compression == repository.CompressionOff {
return errors.Fatal("disabled compression and `--repack-uncompressed` are mutually exclusive")
}
ctx, repo, unlock, err := openWithExclusiveLock(ctx, gopts, false)
if err != nil {
return err
}
defer unlock()
if opts.UnsafeNoSpaceRecovery != "" {
repoID := repo.Config().ID
if opts.UnsafeNoSpaceRecovery != repoID {
return errors.Fatalf("must pass id '%s' to --unsafe-recover-no-free-space", repoID)
}
opts.unsafeRecovery = true
}
return runPruneWithRepo(ctx, opts, gopts, repo, restic.NewIDSet(), term)
}
func runPruneWithRepo(ctx context.Context, opts PruneOptions, gopts GlobalOptions, repo *repository.Repository, ignoreSnapshots restic.IDSet, term *termstatus.Terminal) error {
if repo.Cache == nil {
Print("warning: running prune without a cache, this may be very slow!\n")
}
printer := newTerminalProgressPrinter(gopts.verbosity, term)
printer.P("loading indexes...\n")
// loading the index before the snapshots is ok, as we use an exclusive lock here
bar := newIndexTerminalProgress(gopts.Quiet, gopts.JSON, term)
err := repo.LoadIndex(ctx, bar)
if err != nil {
return err
}
popts := repository.PruneOptions{
DryRun: opts.DryRun,
UnsafeRecovery: opts.unsafeRecovery,
MaxUnusedBytes: opts.maxUnusedBytes,
MaxRepackBytes: opts.MaxRepackBytes,
RepackCachableOnly: opts.RepackCachableOnly,
RepackSmall: opts.RepackSmall,
RepackUncompressed: opts.RepackUncompressed,
}
plan, err := repository.PlanPrune(ctx, popts, repo, func(ctx context.Context, repo restic.Repository, usedBlobs restic.FindBlobSet) error {
return getUsedBlobs(ctx, repo, usedBlobs, ignoreSnapshots, printer)
}, printer)
if err != nil {
return err
}
if ctx.Err() != nil {
return ctx.Err()
}
if popts.DryRun {
printer.P("\nWould have made the following changes:")
}
err = printPruneStats(printer, plan.Stats())
if err != nil {
return err
}
// Trigger GC to reset garbage collection threshold
runtime.GC()
return plan.Execute(ctx, printer)
}
// printPruneStats prints out the statistics
func printPruneStats(printer progress.Printer, stats repository.PruneStats) error {
printer.V("\nused: %10d blobs / %s\n", stats.Blobs.Used, ui.FormatBytes(stats.Size.Used))
if stats.Blobs.Duplicate > 0 {
printer.V("duplicates: %10d blobs / %s\n", stats.Blobs.Duplicate, ui.FormatBytes(stats.Size.Duplicate))
}
printer.V("unused: %10d blobs / %s\n", stats.Blobs.Unused, ui.FormatBytes(stats.Size.Unused))
if stats.Size.Unref > 0 {
printer.V("unreferenced: %s\n", ui.FormatBytes(stats.Size.Unref))
}
totalBlobs := stats.Blobs.Used + stats.Blobs.Unused + stats.Blobs.Duplicate
totalSize := stats.Size.Used + stats.Size.Duplicate + stats.Size.Unused + stats.Size.Unref
unusedSize := stats.Size.Duplicate + stats.Size.Unused
printer.V("total: %10d blobs / %s\n", totalBlobs, ui.FormatBytes(totalSize))
printer.V("unused size: %s of total size\n", ui.FormatPercent(unusedSize, totalSize))
printer.P("\nto repack: %10d blobs / %s\n", stats.Blobs.Repack, ui.FormatBytes(stats.Size.Repack))
printer.P("this removes: %10d blobs / %s\n", stats.Blobs.Repackrm, ui.FormatBytes(stats.Size.Repackrm))
printer.P("to delete: %10d blobs / %s\n", stats.Blobs.Remove, ui.FormatBytes(stats.Size.Remove+stats.Size.Unref))
totalPruneSize := stats.Size.Remove + stats.Size.Repackrm + stats.Size.Unref
printer.P("total prune: %10d blobs / %s\n", stats.Blobs.Remove+stats.Blobs.Repackrm, ui.FormatBytes(totalPruneSize))
if stats.Size.Uncompressed > 0 {
printer.P("not yet compressed: %s\n", ui.FormatBytes(stats.Size.Uncompressed))
}
printer.P("remaining: %10d blobs / %s\n", totalBlobs-(stats.Blobs.Remove+stats.Blobs.Repackrm), ui.FormatBytes(totalSize-totalPruneSize))
unusedAfter := unusedSize - stats.Size.Remove - stats.Size.Repackrm
printer.P("unused size after prune: %s (%s of remaining size)\n",
ui.FormatBytes(unusedAfter), ui.FormatPercent(unusedAfter, totalSize-totalPruneSize))
printer.P("\n")
printer.V("totally used packs: %10d\n", stats.Packs.Used)
printer.V("partly used packs: %10d\n", stats.Packs.PartlyUsed)
printer.V("unused packs: %10d\n\n", stats.Packs.Unused)
printer.V("to keep: %10d packs\n", stats.Packs.Keep)
printer.V("to repack: %10d packs\n", stats.Packs.Repack)
printer.V("to delete: %10d packs\n", stats.Packs.Remove)
if stats.Packs.Unref > 0 {
printer.V("to delete: %10d unreferenced packs\n\n", stats.Packs.Unref)
}
return nil
}
func getUsedBlobs(ctx context.Context, repo restic.Repository, usedBlobs restic.FindBlobSet, ignoreSnapshots restic.IDSet, printer progress.Printer) error {
var snapshotTrees restic.IDs
printer.P("loading all snapshots...\n")
err := restic.ForAllSnapshots(ctx, repo, repo, ignoreSnapshots,
func(id restic.ID, sn *restic.Snapshot, err error) error {
if err != nil {
debug.Log("failed to load snapshot %v (error %v)", id, err)
return err
}
debug.Log("add snapshot %v (tree %v)", id, *sn.Tree)
snapshotTrees = append(snapshotTrees, *sn.Tree)
return nil
})
if err != nil {
return errors.Fatalf("failed loading snapshot: %v", err)
}
printer.P("finding data that is still in use for %d snapshots\n", len(snapshotTrees))
bar := printer.NewCounter("snapshots")
bar.SetMax(uint64(len(snapshotTrees)))
defer bar.Done()
return restic.FindUsedBlobs(ctx, repo, snapshotTrees, usedBlobs, bar)
}