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mirror of https://github.com/octoleo/restic.git synced 2024-12-29 13:22:43 +00:00
restic/internal/repository/repository.go
Srigovind Nayak 88174cd0a4
cache: remove redundant index file cleanup
addressing code review comments
2024-08-17 00:21:49 +05:30

1170 lines
32 KiB
Go

package repository
import (
"bytes"
"context"
"fmt"
"io"
"math"
"os"
"runtime"
"sort"
"sync"
"github.com/klauspost/compress/zstd"
"github.com/restic/chunker"
"github.com/restic/restic/internal/backend"
"github.com/restic/restic/internal/backend/cache"
"github.com/restic/restic/internal/backend/dryrun"
"github.com/restic/restic/internal/crypto"
"github.com/restic/restic/internal/debug"
"github.com/restic/restic/internal/errors"
"github.com/restic/restic/internal/repository/index"
"github.com/restic/restic/internal/repository/pack"
"github.com/restic/restic/internal/restic"
"github.com/restic/restic/internal/ui/progress"
"golang.org/x/sync/errgroup"
)
const MinPackSize = 4 * 1024 * 1024
const DefaultPackSize = 16 * 1024 * 1024
const MaxPackSize = 128 * 1024 * 1024
// Repository is used to access a repository in a backend.
type Repository struct {
be backend.Backend
cfg restic.Config
key *crypto.Key
keyID restic.ID
idx *index.MasterIndex
Cache *cache.Cache
opts Options
packerWg *errgroup.Group
uploader *packerUploader
treePM *packerManager
dataPM *packerManager
allocEnc sync.Once
allocDec sync.Once
enc *zstd.Encoder
dec *zstd.Decoder
}
type Options struct {
Compression CompressionMode
PackSize uint
NoExtraVerify bool
}
// CompressionMode configures if data should be compressed.
type CompressionMode uint
// Constants for the different compression levels.
const (
CompressionAuto CompressionMode = 0
CompressionOff CompressionMode = 1
CompressionMax CompressionMode = 2
CompressionInvalid CompressionMode = 3
)
// Set implements the method needed for pflag command flag parsing.
func (c *CompressionMode) Set(s string) error {
switch s {
case "auto":
*c = CompressionAuto
case "off":
*c = CompressionOff
case "max":
*c = CompressionMax
default:
*c = CompressionInvalid
return fmt.Errorf("invalid compression mode %q, must be one of (auto|off|max)", s)
}
return nil
}
func (c *CompressionMode) String() string {
switch *c {
case CompressionAuto:
return "auto"
case CompressionOff:
return "off"
case CompressionMax:
return "max"
default:
return "invalid"
}
}
func (c *CompressionMode) Type() string {
return "mode"
}
// New returns a new repository with backend be.
func New(be backend.Backend, opts Options) (*Repository, error) {
if opts.Compression == CompressionInvalid {
return nil, errors.New("invalid compression mode")
}
if opts.PackSize == 0 {
opts.PackSize = DefaultPackSize
}
if opts.PackSize > MaxPackSize {
return nil, fmt.Errorf("pack size larger than limit of %v MiB", MaxPackSize/1024/1024)
} else if opts.PackSize < MinPackSize {
return nil, fmt.Errorf("pack size smaller than minimum of %v MiB", MinPackSize/1024/1024)
}
repo := &Repository{
be: be,
opts: opts,
idx: index.NewMasterIndex(),
}
return repo, nil
}
// setConfig assigns the given config and updates the repository parameters accordingly
func (r *Repository) setConfig(cfg restic.Config) {
r.cfg = cfg
}
// Config returns the repository configuration.
func (r *Repository) Config() restic.Config {
return r.cfg
}
// packSize return the target size of a pack file when uploading
func (r *Repository) packSize() uint {
return r.opts.PackSize
}
// UseCache replaces the backend with the wrapped cache.
func (r *Repository) UseCache(c *cache.Cache) {
if c == nil {
return
}
debug.Log("using cache")
r.Cache = c
r.be = c.Wrap(r.be)
}
// SetDryRun sets the repo backend into dry-run mode.
func (r *Repository) SetDryRun() {
r.be = dryrun.New(r.be)
}
// LoadUnpacked loads and decrypts the file with the given type and ID.
func (r *Repository) LoadUnpacked(ctx context.Context, t restic.FileType, id restic.ID) ([]byte, error) {
debug.Log("load %v with id %v", t, id)
if t == restic.ConfigFile {
id = restic.ID{}
}
buf, err := r.LoadRaw(ctx, t, id)
if err != nil {
return nil, err
}
nonce, ciphertext := buf[:r.key.NonceSize()], buf[r.key.NonceSize():]
plaintext, err := r.key.Open(ciphertext[:0], nonce, ciphertext, nil)
if err != nil {
return nil, err
}
if t != restic.ConfigFile {
return r.decompressUnpacked(plaintext)
}
return plaintext, nil
}
type haver interface {
Has(backend.Handle) bool
}
// sortCachedPacksFirst moves all cached pack files to the front of blobs.
func sortCachedPacksFirst(cache haver, blobs []restic.PackedBlob) {
if cache == nil {
return
}
// no need to sort a list with one element
if len(blobs) == 1 {
return
}
cached := blobs[:0]
noncached := make([]restic.PackedBlob, 0, len(blobs)/2)
for _, blob := range blobs {
if cache.Has(backend.Handle{Type: restic.PackFile, Name: blob.PackID.String()}) {
cached = append(cached, blob)
continue
}
noncached = append(noncached, blob)
}
copy(blobs[len(cached):], noncached)
}
// LoadBlob loads a blob of type t from the repository.
// It may use all of buf[:cap(buf)] as scratch space.
func (r *Repository) LoadBlob(ctx context.Context, t restic.BlobType, id restic.ID, buf []byte) ([]byte, error) {
debug.Log("load %v with id %v (buf len %v, cap %d)", t, id, len(buf), cap(buf))
// lookup packs
blobs := r.idx.Lookup(restic.BlobHandle{ID: id, Type: t})
if len(blobs) == 0 {
debug.Log("id %v not found in index", id)
return nil, errors.Errorf("id %v not found in repository", id)
}
// try cached pack files first
sortCachedPacksFirst(r.Cache, blobs)
buf, err := r.loadBlob(ctx, blobs, buf)
if err != nil {
if r.Cache != nil {
for _, blob := range blobs {
h := backend.Handle{Type: restic.PackFile, Name: blob.PackID.String(), IsMetadata: blob.Type.IsMetadata()}
// ignore errors as there's not much we can do here
_ = r.Cache.Forget(h)
}
}
buf, err = r.loadBlob(ctx, blobs, buf)
}
return buf, err
}
func (r *Repository) loadBlob(ctx context.Context, blobs []restic.PackedBlob, buf []byte) ([]byte, error) {
var lastError error
for _, blob := range blobs {
debug.Log("blob %v found: %v", blob.BlobHandle, blob)
// load blob from pack
h := backend.Handle{Type: restic.PackFile, Name: blob.PackID.String(), IsMetadata: blob.Type.IsMetadata()}
switch {
case cap(buf) < int(blob.Length):
buf = make([]byte, blob.Length)
case len(buf) != int(blob.Length):
buf = buf[:blob.Length]
}
_, err := backend.ReadAt(ctx, r.be, h, int64(blob.Offset), buf)
if err != nil {
debug.Log("error loading blob %v: %v", blob, err)
lastError = err
continue
}
it := newPackBlobIterator(blob.PackID, newByteReader(buf), uint(blob.Offset), []restic.Blob{blob.Blob}, r.key, r.getZstdDecoder())
pbv, err := it.Next()
if err == nil {
err = pbv.Err
}
if err != nil {
debug.Log("error decoding blob %v: %v", blob, err)
lastError = err
continue
}
plaintext := pbv.Plaintext
if len(plaintext) > cap(buf) {
return plaintext, nil
}
// move decrypted data to the start of the buffer
buf = buf[:len(plaintext)]
copy(buf, plaintext)
return buf, nil
}
if lastError != nil {
return nil, lastError
}
return nil, errors.Errorf("loading %v from %v packs failed", blobs[0].BlobHandle, len(blobs))
}
func (r *Repository) getZstdEncoder() *zstd.Encoder {
r.allocEnc.Do(func() {
level := zstd.SpeedDefault
if r.opts.Compression == CompressionMax {
level = zstd.SpeedBestCompression
}
opts := []zstd.EOption{
// Set the compression level configured.
zstd.WithEncoderLevel(level),
// Disable CRC, we have enough checks in place, makes the
// compressed data four bytes shorter.
zstd.WithEncoderCRC(false),
// Set a window of 512kbyte, so we have good lookbehind for usual
// blob sizes.
zstd.WithWindowSize(512 * 1024),
}
enc, err := zstd.NewWriter(nil, opts...)
if err != nil {
panic(err)
}
r.enc = enc
})
return r.enc
}
func (r *Repository) getZstdDecoder() *zstd.Decoder {
r.allocDec.Do(func() {
opts := []zstd.DOption{
// Use all available cores.
zstd.WithDecoderConcurrency(0),
// Limit the maximum decompressed memory. Set to a very high,
// conservative value.
zstd.WithDecoderMaxMemory(16 * 1024 * 1024 * 1024),
}
dec, err := zstd.NewReader(nil, opts...)
if err != nil {
panic(err)
}
r.dec = dec
})
return r.dec
}
// saveAndEncrypt encrypts data and stores it to the backend as type t. If data
// is small enough, it will be packed together with other small blobs. The
// caller must ensure that the id matches the data. Returned is the size data
// occupies in the repo (compressed or not, including the encryption overhead).
func (r *Repository) saveAndEncrypt(ctx context.Context, t restic.BlobType, data []byte, id restic.ID) (size int, err error) {
debug.Log("save id %v (%v, %d bytes)", id, t, len(data))
uncompressedLength := 0
if r.cfg.Version > 1 {
// we have a repo v2, so compression is available. if the user opts to
// not compress, we won't compress any data, but everything else is
// compressed.
if r.opts.Compression != CompressionOff || t != restic.DataBlob {
uncompressedLength = len(data)
data = r.getZstdEncoder().EncodeAll(data, nil)
}
}
nonce := crypto.NewRandomNonce()
ciphertext := make([]byte, 0, crypto.CiphertextLength(len(data)))
ciphertext = append(ciphertext, nonce...)
// encrypt blob
ciphertext = r.key.Seal(ciphertext, nonce, data, nil)
if err := r.verifyCiphertext(ciphertext, uncompressedLength, id); err != nil {
//nolint:revive // ignore linter warnings about error message spelling
return 0, fmt.Errorf("Detected data corruption while saving blob %v: %w\nCorrupted blobs are either caused by hardware issues or software bugs. Please open an issue at https://github.com/restic/restic/issues/new/choose for further troubleshooting.", id, err)
}
// find suitable packer and add blob
var pm *packerManager
switch t {
case restic.TreeBlob:
pm = r.treePM
case restic.DataBlob:
pm = r.dataPM
default:
panic(fmt.Sprintf("invalid type: %v", t))
}
return pm.SaveBlob(ctx, t, id, ciphertext, uncompressedLength)
}
func (r *Repository) verifyCiphertext(buf []byte, uncompressedLength int, id restic.ID) error {
if r.opts.NoExtraVerify {
return nil
}
nonce, ciphertext := buf[:r.key.NonceSize()], buf[r.key.NonceSize():]
plaintext, err := r.key.Open(nil, nonce, ciphertext, nil)
if err != nil {
return fmt.Errorf("decryption failed: %w", err)
}
if uncompressedLength != 0 {
// DecodeAll will allocate a slice if it is not large enough since it
// knows the decompressed size (because we're using EncodeAll)
plaintext, err = r.getZstdDecoder().DecodeAll(plaintext, nil)
if err != nil {
return fmt.Errorf("decompression failed: %w", err)
}
}
if !restic.Hash(plaintext).Equal(id) {
return errors.New("hash mismatch")
}
return nil
}
func (r *Repository) compressUnpacked(p []byte) ([]byte, error) {
// compression is only available starting from version 2
if r.cfg.Version < 2 {
return p, nil
}
// version byte
out := []byte{2}
out = r.getZstdEncoder().EncodeAll(p, out)
return out, nil
}
func (r *Repository) decompressUnpacked(p []byte) ([]byte, error) {
// compression is only available starting from version 2
if r.cfg.Version < 2 {
return p, nil
}
if len(p) == 0 {
// too short for version header
return p, nil
}
if p[0] == '[' || p[0] == '{' {
// probably raw JSON
return p, nil
}
// version
if p[0] != 2 {
return nil, errors.New("not supported encoding format")
}
return r.getZstdDecoder().DecodeAll(p[1:], nil)
}
// SaveUnpacked encrypts data and stores it in the backend. Returned is the
// storage hash.
func (r *Repository) SaveUnpacked(ctx context.Context, t restic.FileType, buf []byte) (id restic.ID, err error) {
p := buf
if t != restic.ConfigFile {
p, err = r.compressUnpacked(p)
if err != nil {
return restic.ID{}, err
}
}
ciphertext := crypto.NewBlobBuffer(len(p))
ciphertext = ciphertext[:0]
nonce := crypto.NewRandomNonce()
ciphertext = append(ciphertext, nonce...)
ciphertext = r.key.Seal(ciphertext, nonce, p, nil)
if err := r.verifyUnpacked(ciphertext, t, buf); err != nil {
//nolint:revive // ignore linter warnings about error message spelling
return restic.ID{}, fmt.Errorf("Detected data corruption while saving file of type %v: %w\nCorrupted data is either caused by hardware issues or software bugs. Please open an issue at https://github.com/restic/restic/issues/new/choose for further troubleshooting.", t, err)
}
if t == restic.ConfigFile {
id = restic.ID{}
} else {
id = restic.Hash(ciphertext)
}
h := backend.Handle{Type: t, Name: id.String()}
err = r.be.Save(ctx, h, backend.NewByteReader(ciphertext, r.be.Hasher()))
if err != nil {
debug.Log("error saving blob %v: %v", h, err)
return restic.ID{}, err
}
debug.Log("blob %v saved", h)
return id, nil
}
func (r *Repository) verifyUnpacked(buf []byte, t restic.FileType, expected []byte) error {
if r.opts.NoExtraVerify {
return nil
}
nonce, ciphertext := buf[:r.key.NonceSize()], buf[r.key.NonceSize():]
plaintext, err := r.key.Open(nil, nonce, ciphertext, nil)
if err != nil {
return fmt.Errorf("decryption failed: %w", err)
}
if t != restic.ConfigFile {
plaintext, err = r.decompressUnpacked(plaintext)
if err != nil {
return fmt.Errorf("decompression failed: %w", err)
}
}
if !bytes.Equal(plaintext, expected) {
return errors.New("data mismatch")
}
return nil
}
func (r *Repository) RemoveUnpacked(ctx context.Context, t restic.FileType, id restic.ID) error {
// TODO prevent everything except removing snapshots for non-repository code
return r.be.Remove(ctx, backend.Handle{Type: t, Name: id.String()})
}
// Flush saves all remaining packs and the index
func (r *Repository) Flush(ctx context.Context) error {
if err := r.flushPacks(ctx); err != nil {
return err
}
return r.idx.SaveIndex(ctx, r)
}
func (r *Repository) StartPackUploader(ctx context.Context, wg *errgroup.Group) {
if r.packerWg != nil {
panic("uploader already started")
}
innerWg, ctx := errgroup.WithContext(ctx)
r.packerWg = innerWg
r.uploader = newPackerUploader(ctx, innerWg, r, r.be.Connections())
r.treePM = newPackerManager(r.key, restic.TreeBlob, r.packSize(), r.uploader.QueuePacker)
r.dataPM = newPackerManager(r.key, restic.DataBlob, r.packSize(), r.uploader.QueuePacker)
wg.Go(func() error {
return innerWg.Wait()
})
}
// FlushPacks saves all remaining packs.
func (r *Repository) flushPacks(ctx context.Context) error {
if r.packerWg == nil {
return nil
}
err := r.treePM.Flush(ctx)
if err != nil {
return err
}
err = r.dataPM.Flush(ctx)
if err != nil {
return err
}
r.uploader.TriggerShutdown()
err = r.packerWg.Wait()
r.treePM = nil
r.dataPM = nil
r.uploader = nil
r.packerWg = nil
return err
}
func (r *Repository) Connections() uint {
return r.be.Connections()
}
func (r *Repository) LookupBlob(tpe restic.BlobType, id restic.ID) []restic.PackedBlob {
return r.idx.Lookup(restic.BlobHandle{Type: tpe, ID: id})
}
// LookupBlobSize returns the size of blob id.
func (r *Repository) LookupBlobSize(tpe restic.BlobType, id restic.ID) (uint, bool) {
return r.idx.LookupSize(restic.BlobHandle{Type: tpe, ID: id})
}
// ListBlobs runs fn on all blobs known to the index. When the context is cancelled,
// the index iteration returns immediately with ctx.Err(). This blocks any modification of the index.
func (r *Repository) ListBlobs(ctx context.Context, fn func(restic.PackedBlob)) error {
return r.idx.Each(ctx, fn)
}
func (r *Repository) ListPacksFromIndex(ctx context.Context, packs restic.IDSet) <-chan restic.PackBlobs {
return r.idx.ListPacks(ctx, packs)
}
// SetIndex instructs the repository to use the given index.
func (r *Repository) SetIndex(i restic.MasterIndex) error {
r.idx = i.(*index.MasterIndex)
return r.prepareCache()
}
func (r *Repository) clearIndex() {
r.idx = index.NewMasterIndex()
}
// LoadIndex loads all index files from the backend in parallel and stores them
func (r *Repository) LoadIndex(ctx context.Context, p *progress.Counter) error {
debug.Log("Loading index")
// reset in-memory index before loading it from the repository
r.clearIndex()
err := r.idx.Load(ctx, r, p, nil)
if err != nil {
return err
}
// Trigger GC to reset garbage collection threshold
runtime.GC()
if r.cfg.Version < 2 {
// sanity check
ctx, cancel := context.WithCancel(ctx)
defer cancel()
invalidIndex := false
err := r.idx.Each(ctx, func(blob restic.PackedBlob) {
if blob.IsCompressed() {
invalidIndex = true
}
})
if err != nil {
return err
}
if invalidIndex {
return errors.New("index uses feature not supported by repository version 1")
}
}
if ctx.Err() != nil {
return ctx.Err()
}
// remove index files from the cache which have been removed in the repo
return r.prepareCache()
}
// createIndexFromPacks creates a new index by reading all given pack files (with sizes).
// The index is added to the MasterIndex but not marked as finalized.
// Returned is the list of pack files which could not be read.
func (r *Repository) createIndexFromPacks(ctx context.Context, packsize map[restic.ID]int64, p *progress.Counter) (invalid restic.IDs, err error) {
var m sync.Mutex
debug.Log("Loading index from pack files")
// track spawned goroutines using wg, create a new context which is
// cancelled as soon as an error occurs.
wg, ctx := errgroup.WithContext(ctx)
type FileInfo struct {
restic.ID
Size int64
}
ch := make(chan FileInfo)
// send list of pack files through ch, which is closed afterwards
wg.Go(func() error {
defer close(ch)
for id, size := range packsize {
select {
case <-ctx.Done():
return ctx.Err()
case ch <- FileInfo{id, size}:
}
}
return nil
})
// a worker receives an pack ID from ch, reads the pack contents, and adds them to idx
worker := func() error {
for fi := range ch {
entries, _, err := r.ListPack(ctx, fi.ID, fi.Size)
if err != nil {
debug.Log("unable to list pack file %v", fi.ID.Str())
m.Lock()
invalid = append(invalid, fi.ID)
m.Unlock()
}
r.idx.StorePack(fi.ID, entries)
p.Add(1)
}
return nil
}
// decoding the pack header is usually quite fast, thus we are primarily IO-bound
workerCount := int(r.Connections())
// run workers on ch
for i := 0; i < workerCount; i++ {
wg.Go(worker)
}
err = wg.Wait()
if err != nil {
return invalid, err
}
return invalid, nil
}
// prepareCache initializes the local cache. indexIDs is the list of IDs of
// index files still present in the repo.
func (r *Repository) prepareCache() error {
if r.Cache == nil {
return nil
}
packs := r.idx.Packs(restic.NewIDSet())
// clear old packs
err := r.Cache.Clear(restic.PackFile, packs)
if err != nil {
fmt.Fprintf(os.Stderr, "error clearing pack files in cache: %v\n", err)
}
return nil
}
// SearchKey finds a key with the supplied password, afterwards the config is
// read and parsed. It tries at most maxKeys key files in the repo.
func (r *Repository) SearchKey(ctx context.Context, password string, maxKeys int, keyHint string) error {
key, err := SearchKey(ctx, r, password, maxKeys, keyHint)
if err != nil {
return err
}
oldKey := r.key
oldKeyID := r.keyID
r.key = key.master
r.keyID = key.ID()
cfg, err := restic.LoadConfig(ctx, r)
if err != nil {
r.key = oldKey
r.keyID = oldKeyID
if err == crypto.ErrUnauthenticated {
return fmt.Errorf("config or key %v is damaged: %w", key.ID(), err)
}
return fmt.Errorf("config cannot be loaded: %w", err)
}
r.setConfig(cfg)
return nil
}
// Init creates a new master key with the supplied password, initializes and
// saves the repository config.
func (r *Repository) Init(ctx context.Context, version uint, password string, chunkerPolynomial *chunker.Pol) error {
if version > restic.MaxRepoVersion {
return fmt.Errorf("repository version %v too high", version)
}
if version < restic.MinRepoVersion {
return fmt.Errorf("repository version %v too low", version)
}
_, err := r.be.Stat(ctx, backend.Handle{Type: restic.ConfigFile})
if err != nil && !r.be.IsNotExist(err) {
return err
}
if err == nil {
return errors.New("repository master key and config already initialized")
}
// double check to make sure that a repository is not accidentally reinitialized
// if the backend somehow fails to stat the config file. An initialized repository
// must always contain at least one key file.
if err := r.List(ctx, restic.KeyFile, func(_ restic.ID, _ int64) error {
return errors.New("repository already contains keys")
}); err != nil {
return err
}
// Also check for snapshots to detect repositories with a misconfigured retention
// policy that deletes files older than x days. For such repositories usually the
// config and key files are removed first and therefore the check would not detect
// the old repository.
if err := r.List(ctx, restic.SnapshotFile, func(_ restic.ID, _ int64) error {
return errors.New("repository already contains snapshots")
}); err != nil {
return err
}
cfg, err := restic.CreateConfig(version)
if err != nil {
return err
}
if chunkerPolynomial != nil {
cfg.ChunkerPolynomial = *chunkerPolynomial
}
return r.init(ctx, password, cfg)
}
// init creates a new master key with the supplied password and uses it to save
// the config into the repo.
func (r *Repository) init(ctx context.Context, password string, cfg restic.Config) error {
key, err := createMasterKey(ctx, r, password)
if err != nil {
return err
}
r.key = key.master
r.keyID = key.ID()
r.setConfig(cfg)
return restic.SaveConfig(ctx, r, cfg)
}
// Key returns the current master key.
func (r *Repository) Key() *crypto.Key {
return r.key
}
// KeyID returns the id of the current key in the backend.
func (r *Repository) KeyID() restic.ID {
return r.keyID
}
// List runs fn for all files of type t in the repo.
func (r *Repository) List(ctx context.Context, t restic.FileType, fn func(restic.ID, int64) error) error {
return r.be.List(ctx, t, func(fi backend.FileInfo) error {
id, err := restic.ParseID(fi.Name)
if err != nil {
debug.Log("unable to parse %v as an ID", fi.Name)
return nil
}
return fn(id, fi.Size)
})
}
// ListPack returns the list of blobs saved in the pack id and the length of
// the pack header.
func (r *Repository) ListPack(ctx context.Context, id restic.ID, size int64) ([]restic.Blob, uint32, error) {
h := backend.Handle{Type: restic.PackFile, Name: id.String()}
entries, hdrSize, err := pack.List(r.Key(), backend.ReaderAt(ctx, r.be, h), size)
if err != nil {
if r.Cache != nil {
// ignore error as there is not much we can do here
_ = r.Cache.Forget(h)
}
// retry on error
entries, hdrSize, err = pack.List(r.Key(), backend.ReaderAt(ctx, r.be, h), size)
}
return entries, hdrSize, err
}
// Delete calls backend.Delete() if implemented, and returns an error
// otherwise.
func (r *Repository) Delete(ctx context.Context) error {
return r.be.Delete(ctx)
}
// Close closes the repository by closing the backend.
func (r *Repository) Close() error {
return r.be.Close()
}
// SaveBlob saves a blob of type t into the repository.
// It takes care that no duplicates are saved; this can be overwritten
// by setting storeDuplicate to true.
// If id is the null id, it will be computed and returned.
// Also returns if the blob was already known before.
// If the blob was not known before, it returns the number of bytes the blob
// occupies in the repo (compressed or not, including encryption overhead).
func (r *Repository) SaveBlob(ctx context.Context, t restic.BlobType, buf []byte, id restic.ID, storeDuplicate bool) (newID restic.ID, known bool, size int, err error) {
if int64(len(buf)) > math.MaxUint32 {
return restic.ID{}, false, 0, fmt.Errorf("blob is larger than 4GB")
}
// compute plaintext hash if not already set
if id.IsNull() {
// Special case the hash calculation for all zero chunks. This is especially
// useful for sparse files containing large all zero regions. For these we can
// process chunks as fast as we can read the from disk.
if len(buf) == chunker.MinSize && restic.ZeroPrefixLen(buf) == chunker.MinSize {
newID = ZeroChunk()
} else {
newID = restic.Hash(buf)
}
} else {
newID = id
}
// first try to add to pending blobs; if not successful, this blob is already known
known = !r.idx.AddPending(restic.BlobHandle{ID: newID, Type: t})
// only save when needed or explicitly told
if !known || storeDuplicate {
size, err = r.saveAndEncrypt(ctx, t, buf, newID)
}
return newID, known, size, err
}
type backendLoadFn func(ctx context.Context, h backend.Handle, length int, offset int64, fn func(rd io.Reader) error) error
type loadBlobFn func(ctx context.Context, t restic.BlobType, id restic.ID, buf []byte) ([]byte, error)
// Skip sections with more than 1MB unused blobs
const maxUnusedRange = 1 * 1024 * 1024
// LoadBlobsFromPack loads the listed blobs from the specified pack file. The plaintext blob is passed to
// the handleBlobFn callback or an error if decryption failed or the blob hash does not match.
// handleBlobFn is called at most once for each blob. If the callback returns an error,
// then LoadBlobsFromPack will abort and not retry it. The buf passed to the callback is only valid within
// this specific call. The callback must not keep a reference to buf.
func (r *Repository) LoadBlobsFromPack(ctx context.Context, packID restic.ID, blobs []restic.Blob, handleBlobFn func(blob restic.BlobHandle, buf []byte, err error) error) error {
return streamPack(ctx, r.be.Load, r.LoadBlob, r.getZstdDecoder(), r.key, packID, blobs, handleBlobFn)
}
func streamPack(ctx context.Context, beLoad backendLoadFn, loadBlobFn loadBlobFn, dec *zstd.Decoder, key *crypto.Key, packID restic.ID, blobs []restic.Blob, handleBlobFn func(blob restic.BlobHandle, buf []byte, err error) error) error {
if len(blobs) == 0 {
// nothing to do
return nil
}
sort.Slice(blobs, func(i, j int) bool {
return blobs[i].Offset < blobs[j].Offset
})
lowerIdx := 0
lastPos := blobs[0].Offset
const maxChunkSize = 2 * DefaultPackSize
for i := 0; i < len(blobs); i++ {
if blobs[i].Offset < lastPos {
// don't wait for streamPackPart to fail
return errors.Errorf("overlapping blobs in pack %v", packID)
}
chunkSizeAfter := (blobs[i].Offset + blobs[i].Length) - blobs[lowerIdx].Offset
split := false
// split if the chunk would become larger than maxChunkSize. Oversized chunks are
// handled by the requirement that the chunk contains at least one blob (i > lowerIdx)
if i > lowerIdx && chunkSizeAfter >= maxChunkSize {
split = true
}
// skip too large gaps as a new request is typically much cheaper than data transfers
if blobs[i].Offset-lastPos > maxUnusedRange {
split = true
}
if split {
// load everything up to the skipped file section
err := streamPackPart(ctx, beLoad, loadBlobFn, dec, key, packID, blobs[lowerIdx:i], handleBlobFn)
if err != nil {
return err
}
lowerIdx = i
}
lastPos = blobs[i].Offset + blobs[i].Length
}
// load remainder
return streamPackPart(ctx, beLoad, loadBlobFn, dec, key, packID, blobs[lowerIdx:], handleBlobFn)
}
func streamPackPart(ctx context.Context, beLoad backendLoadFn, loadBlobFn loadBlobFn, dec *zstd.Decoder, key *crypto.Key, packID restic.ID, blobs []restic.Blob, handleBlobFn func(blob restic.BlobHandle, buf []byte, err error) error) error {
h := backend.Handle{Type: restic.PackFile, Name: packID.String(), IsMetadata: blobs[0].Type.IsMetadata()}
dataStart := blobs[0].Offset
dataEnd := blobs[len(blobs)-1].Offset + blobs[len(blobs)-1].Length
debug.Log("streaming pack %v (%d to %d bytes), blobs: %v", packID, dataStart, dataEnd, len(blobs))
data := make([]byte, int(dataEnd-dataStart))
err := beLoad(ctx, h, int(dataEnd-dataStart), int64(dataStart), func(rd io.Reader) error {
_, cerr := io.ReadFull(rd, data)
return cerr
})
// prevent callbacks after cancellation
if ctx.Err() != nil {
return ctx.Err()
}
if err != nil {
// the context is only still valid if handleBlobFn never returned an error
if loadBlobFn != nil {
// check whether we can get the remaining blobs somewhere else
for _, entry := range blobs {
buf, ierr := loadBlobFn(ctx, entry.Type, entry.ID, nil)
err = handleBlobFn(entry.BlobHandle, buf, ierr)
if err != nil {
break
}
}
}
return errors.Wrap(err, "StreamPack")
}
it := newPackBlobIterator(packID, newByteReader(data), dataStart, blobs, key, dec)
for {
if ctx.Err() != nil {
return ctx.Err()
}
val, err := it.Next()
if err == errPackEOF {
break
} else if err != nil {
return err
}
if val.Err != nil && loadBlobFn != nil {
var ierr error
// check whether we can get a valid copy somewhere else
buf, ierr := loadBlobFn(ctx, val.Handle.Type, val.Handle.ID, nil)
if ierr == nil {
// success
val.Plaintext = buf
val.Err = nil
}
}
err = handleBlobFn(val.Handle, val.Plaintext, val.Err)
if err != nil {
return err
}
// ensure that each blob is only passed once to handleBlobFn
blobs = blobs[1:]
}
return errors.Wrap(err, "StreamPack")
}
// discardReader allows the PackBlobIterator to perform zero copy
// reads if the underlying data source is a byte slice.
type discardReader interface {
Discard(n int) (discarded int, err error)
// ReadFull reads the next n bytes into a byte slice. The caller must not
// retain a reference to the byte. Modifications are only allowed within
// the boundaries of the returned slice.
ReadFull(n int) (buf []byte, err error)
}
type byteReader struct {
buf []byte
}
func newByteReader(buf []byte) *byteReader {
return &byteReader{
buf: buf,
}
}
func (b *byteReader) Discard(n int) (discarded int, err error) {
if len(b.buf) < n {
return 0, io.ErrUnexpectedEOF
}
b.buf = b.buf[n:]
return n, nil
}
func (b *byteReader) ReadFull(n int) (buf []byte, err error) {
if len(b.buf) < n {
return nil, io.ErrUnexpectedEOF
}
buf = b.buf[:n]
b.buf = b.buf[n:]
return buf, nil
}
type packBlobIterator struct {
packID restic.ID
rd discardReader
currentOffset uint
blobs []restic.Blob
key *crypto.Key
dec *zstd.Decoder
decode []byte
}
type packBlobValue struct {
Handle restic.BlobHandle
Plaintext []byte
Err error
}
var errPackEOF = errors.New("reached EOF of pack file")
func newPackBlobIterator(packID restic.ID, rd discardReader, currentOffset uint,
blobs []restic.Blob, key *crypto.Key, dec *zstd.Decoder) *packBlobIterator {
return &packBlobIterator{
packID: packID,
rd: rd,
currentOffset: currentOffset,
blobs: blobs,
key: key,
dec: dec,
}
}
// Next returns the next blob, an error or ErrPackEOF if all blobs were read
func (b *packBlobIterator) Next() (packBlobValue, error) {
if len(b.blobs) == 0 {
return packBlobValue{}, errPackEOF
}
entry := b.blobs[0]
b.blobs = b.blobs[1:]
skipBytes := int(entry.Offset - b.currentOffset)
if skipBytes < 0 {
return packBlobValue{}, fmt.Errorf("overlapping blobs in pack %v", b.packID)
}
_, err := b.rd.Discard(skipBytes)
if err != nil {
return packBlobValue{}, err
}
b.currentOffset = entry.Offset
h := restic.BlobHandle{ID: entry.ID, Type: entry.Type}
debug.Log(" process blob %v, skipped %d, %v", h, skipBytes, entry)
buf, err := b.rd.ReadFull(int(entry.Length))
if err != nil {
debug.Log(" read error %v", err)
return packBlobValue{}, fmt.Errorf("readFull: %w", err)
}
b.currentOffset = entry.Offset + entry.Length
if int(entry.Length) <= b.key.NonceSize() {
debug.Log("%v", b.blobs)
return packBlobValue{}, fmt.Errorf("invalid blob length %v", entry)
}
// decryption errors are likely permanent, give the caller a chance to skip them
nonce, ciphertext := buf[:b.key.NonceSize()], buf[b.key.NonceSize():]
plaintext, err := b.key.Open(ciphertext[:0], nonce, ciphertext, nil)
if err != nil {
err = fmt.Errorf("decrypting blob %v from %v failed: %w", h, b.packID.Str(), err)
}
if err == nil && entry.IsCompressed() {
// DecodeAll will allocate a slice if it is not large enough since it
// knows the decompressed size (because we're using EncodeAll)
b.decode, err = b.dec.DecodeAll(plaintext, b.decode[:0])
plaintext = b.decode
if err != nil {
err = fmt.Errorf("decompressing blob %v from %v failed: %w", h, b.packID.Str(), err)
}
}
if err == nil {
id := restic.Hash(plaintext)
if !id.Equal(entry.ID) {
debug.Log("read blob %v/%v from %v: wrong data returned, hash is %v",
h.Type, h.ID, b.packID.Str(), id)
err = fmt.Errorf("read blob %v from %v: wrong data returned, hash is %v",
h, b.packID.Str(), id)
}
}
return packBlobValue{entry.BlobHandle, plaintext, err}, nil
}
var zeroChunkOnce sync.Once
var zeroChunkID restic.ID
// ZeroChunk computes and returns (cached) the ID of an all-zero chunk with size chunker.MinSize
func ZeroChunk() restic.ID {
zeroChunkOnce.Do(func() {
zeroChunkID = restic.Hash(make([]byte, chunker.MinSize))
})
return zeroChunkID
}