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Code Issues Releases Wiki Activity

Implement four counting modes

This commit is contained in:
Matthew Holt 2018-04-22 15:27:33 -06:00 committed by Alexander Neumann
parent 925b542eb0
commit a7b95d716a
1 changed files with 215 additions and 36 deletions
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251
cmd/restic/cmd_stats.go
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@ -6,6 +6,7 @@ import (
"encoding/json"
"fmt"
"os"
"path/filepath"
"github.com/restic/restic/internal/restic"
"github.com/spf13/cobra"
@ -15,9 +16,10 @@ var cmdStats = &cobra.Command{
Use: "stats",
Short: "Scan the repository and show basic statistics",
Long: `
The "stats" command walks all snapshots in a repository and accumulates
statistics about the data stored therein. It reports on the number of
unique files and their sizes.
The "stats" command walks one or all snapshots in a repository and
accumulates statistics about the data stored therein. It reports on
the number of unique files and their sizes, according to one of
the counting modes as given by a flag.
`,
DisableAutoGenTag: true,
RunE: func(cmd *cobra.Command, args []string) error {
@ -25,11 +27,25 @@ unique files and their sizes.
},
}
var countModeFlag []string
func init() {
cmdRoot.AddCommand(cmdStats)
f := cmdStats.Flags()
f.BoolVar(&countModeRestoreSize, "count-restore-size", false, "count the size of files that would be restored (default)")
f.BoolVar(&countModeUniqueFilesByContent, "count-files-by-contents", false, "count files as unique by their contents")
f.BoolVar(&countModeBlobsPerFile, "count-blobs-per-file", false, "count sizes of blobs by filename")
f.BoolVar(&countModeRawData, "count-raw-data", false, "count unique blob sizes irrespective of files referencing them")
f.StringVar(&snapshotByHost, "host", "", "filter latest snapshot by this hostname")
}
func runStats(gopts GlobalOptions, args []string) error {
err := verifyStatsInput(gopts, args)
if err != nil {
return err
}
ctx, cancel := context.WithCancel(gopts.ctx)
defer cancel()
@ -50,27 +66,62 @@ func runStats(gopts GlobalOptions, args []string) error {
}
}
// create a container for the stats, and other state
// needed while walking the trees
stats := &statsContainer{uniqueFiles: make(map[fileID]struct{}), idSet: make(restic.IDSet)}
// create a container for the stats (and other needed state)
stats := &statsContainer{
uniqueFiles: make(map[fileID]struct{}),
idSet: make(restic.IDSet),
fileBlobs: make(map[string]restic.IDSet),
blobs: restic.NewBlobSet(),
blobsSeen: restic.NewBlobSet(),
}
// iterate every snapshot in the repo
err = repo.List(ctx, restic.SnapshotFile, func(snapshotID restic.ID, size int64) error {
snapshot, err := restic.LoadSnapshot(ctx, repo, snapshotID)
if snapshotIDString != "" {
// scan just a single snapshot
var sID restic.ID
if snapshotIDString == "latest" {
sID, err = restic.FindLatestSnapshot(ctx, repo, []string{}, []restic.TagList{}, snapshotByHost)
if err != nil {
Exitf(1, "latest snapshot for criteria not found: %v", err)
}
} else {
sID, err = restic.FindSnapshot(repo, snapshotIDString)
if err != nil {
return err
}
}
snapshot, err := restic.LoadSnapshot(ctx, repo, sID)
if err != nil {
return fmt.Errorf("Error loading snapshot %s: %v", snapshotID.Str(), err)
}
if snapshot.Tree == nil {
return fmt.Errorf("snapshot %s has nil tree", snapshot.ID().Str())
return err
}
err = walkTree(ctx, repo, *snapshot.Tree, stats)
if err != nil {
return fmt.Errorf("walking tree %s: %v", *snapshot.Tree, err)
}
err = statsWalkSnapshot(ctx, snapshot, repo, stats)
} else {
// iterate every snapshot in the repo
err = repo.List(ctx, restic.SnapshotFile, func(snapshotID restic.ID, size int64) error {
snapshot, err := restic.LoadSnapshot(ctx, repo, snapshotID)
if err != nil {
return fmt.Errorf("Error loading snapshot %s: %v", snapshotID.Str(), err)
}
return statsWalkSnapshot(ctx, snapshot, repo, stats)
})
}
if err != nil {
return err
}
return nil
})
if countModeRawData {
// the blob handles have been collected, but not yet counted
for blobHandle := range stats.blobs {
blobSize, found := repo.LookupBlobSize(blobHandle.ID, blobHandle.Type)
if !found {
return fmt.Errorf("blob %v not found", blobHandle)
}
stats.TotalSize += uint64(blobSize)
stats.TotalBlobCount++
}
}
if gopts.JSON {
err = json.NewEncoder(os.Stdout).Encode(stats)
@ -80,12 +131,37 @@ func runStats(gopts GlobalOptions, args []string) error {
return nil
}
Printf(" Cumulative Original Size: %-5s\n", formatBytes(stats.TotalOriginalSize))
Printf(" Total Original File Count: %d\n", stats.TotalCount)
if stats.TotalBlobCount > 0 {
Printf(" Total Blob Count: %d\n", stats.TotalBlobCount)
}
if stats.TotalFileCount > 0 {
Printf(" Total File Count: %d\n", stats.TotalFileCount)
}
Printf(" Total Size: %-5s\n", formatBytes(stats.TotalSize))
return nil
}
func walkTree(ctx context.Context, repo restic.Repository, treeID restic.ID, stats *statsContainer) error {
func statsWalkSnapshot(ctx context.Context, snapshot *restic.Snapshot, repo restic.Repository, stats *statsContainer) error {
if snapshot.Tree == nil {
return fmt.Errorf("snapshot %s has nil tree", snapshot.ID().Str())
}
if countModeRawData {
// count just the sizes of unique blobs; we don't need to walk the tree
// ourselves in this case, since a nifty function does it for us
return restic.FindUsedBlobs(ctx, repo, *snapshot.Tree, stats.blobs, stats.blobsSeen)
}
err := statsWalkTree(ctx, repo, *snapshot.Tree, stats, string(filepath.Separator))
if err != nil {
return fmt.Errorf("walking tree %s: %v", *snapshot.Tree, err)
}
return nil
}
func statsWalkTree(ctx context.Context, repo restic.Repository, treeID restic.ID, stats *statsContainer, fpath string) error {
// don't visit a tree we've already walked
if stats.idSet.Has(treeID) {
return nil
}
@ -97,20 +173,59 @@ func walkTree(ctx context.Context, repo restic.Repository, treeID restic.ID, sta
}
for _, node := range tree.Nodes {
// only count this file if we haven't visited it before
fid := makeFileID(node)
if _, ok := stats.uniqueFiles[fid]; !ok {
// mark the file as visited
stats.uniqueFiles[fid] = struct{}{}
if countModeUniqueFilesByContent || countModeBlobsPerFile {
// only count this file if we haven't visited it before
fid := makeFileIDByContents(node)
if _, ok := stats.uniqueFiles[fid]; !ok {
// mark the file as visited
stats.uniqueFiles[fid] = struct{}{}
// update our stats to account for this node
stats.TotalOriginalSize += node.Size
stats.TotalCount++
if countModeUniqueFilesByContent {
// simply count the size of each unique file (unique by contents only)
stats.TotalSize += node.Size
stats.TotalFileCount++
}
if countModeBlobsPerFile {
// count the size of each unique blob reference, which is
// by unique file (unique by contents and file path)
for _, blobID := range node.Content {
// ensure we have this file (by path) in our map; in this
// mode, a file is unique by both contents and path
if _, ok := stats.fileBlobs[fpath]; !ok {
stats.fileBlobs[fpath] = restic.NewIDSet()
stats.TotalFileCount++
}
if _, ok := stats.fileBlobs[fpath][blobID]; !ok {
// TODO: Is the blob type always 'data' in this case?
blobSize, found := repo.LookupBlobSize(blobID, restic.DataBlob)
if !found {
return fmt.Errorf("blob %s not found for tree %s", blobID, treeID)
}
// count the blob's size, then add this blob by this
// file (path) so we don't double-count it
stats.TotalSize += uint64(blobSize)
stats.fileBlobs[fpath].Insert(blobID)
// this mode also counts total unique blob _references_ per file
stats.TotalBlobCount++
}
}
}
}
}
if countModeRestoreSize {
// as this is a file in the snapshot, we can simply count its
// size without worrying about uniqueness, since duplicate files
// will still be restored
stats.TotalSize += node.Size
stats.TotalFileCount++
}
// visit subtrees (i.e. directory contents)
if node.Subtree != nil {
err = walkTree(ctx, repo, *node.Subtree, stats)
err = statsWalkTree(ctx, repo, *node.Subtree, stats, filepath.Join(fpath, node.Name))
if err != nil {
return err
}
@ -120,7 +235,9 @@ func walkTree(ctx context.Context, repo restic.Repository, treeID restic.ID, sta
return nil
}
func makeFileID(node *restic.Node) fileID {
// makeFileIDByContents returns a hash of the blob IDs of the
// node's Content in sequence.
func makeFileIDByContents(node *restic.Node) fileID {
var bb []byte
for _, c := range node.Content {
bb = append(bb, []byte(c[:])...)
@ -128,14 +245,76 @@ func makeFileID(node *restic.Node) fileID {
return sha256.Sum256(bb)
}
func verifyStatsInput(gopts GlobalOptions, args []string) error {
// ensure only one counting mode was specified, for clarity
var countModes int
if countModeRestoreSize {
countModes++
}
if countModeUniqueFilesByContent {
countModes++
}
if countModeBlobsPerFile {
countModes++
}
if countModeRawData {
countModes++
}
if countModes > 1 {
return fmt.Errorf("only one counting mode may be used")
}
// set a default count mode if none were specified
if countModes == 0 {
countModeRestoreSize = true
}
// ensure one or none snapshots were specified
if len(args) > 1 {
return fmt.Errorf("only one snapshot may be specified")
}
// set the snapshot to scan, if one was specified
if len(args) == 1 {
snapshotIDString = args[0]
}
return nil
}
// statsContainer holds information during a walk of a repository
// to collect information about it, as well as state needed
// for a successful and efficient walk.
type statsContainer struct {
TotalCount uint64 `json:"total_count"`
TotalOriginalSize uint64 `json:"total_original_size"`
idSet restic.IDSet
uniqueFiles map[fileID]struct{}
TotalSize uint64 `json:"total_size"`
TotalFileCount uint64 `json:"total_file_count"`
TotalBlobCount uint64 `json:"total_blob_count,omitempty"`
// idSet marks visited trees, to avoid repeated walks
idSet restic.IDSet
// uniqueFiles marks visited files according to their
// contents (hashed sequence of content blob IDs)
uniqueFiles map[fileID]struct{}
// fileBlobs maps a file name (path) to the set of
// blobs that have been seen as a part of the file
fileBlobs map[string]restic.IDSet
// blobs and blobsSeen are used to count indiviudal
// unique blobs, independent of references to files
blobs, blobsSeen restic.BlobSet
}
// fileID is a 256-bit hash that distinguishes unique files.
type fileID [32]byte
var (
countModeRestoreSize bool
countModeUniqueFilesByContent bool
countModeBlobsPerFile bool
countModeRawData bool
// the snapshot to scan, as given by the user
snapshotIDString string
// snapshotByHost is the host to filter latest
// snapshot by, if given by user
snapshotByHost string
)