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restic/archiver_test.go

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package restic_test
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import (
"bytes"
"crypto/sha256"
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"io"
"testing"
"time"
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"github.com/restic/chunker"
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"github.com/restic/restic"
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"github.com/restic/restic/backend"
"github.com/restic/restic/checker"
"github.com/restic/restic/crypto"
"github.com/restic/restic/pack"
"github.com/restic/restic/repository"
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. "github.com/restic/restic/test"
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)
var testPol = chunker.Pol(0x3DA3358B4DC173)
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type Rdr interface {
io.ReadSeeker
io.ReaderAt
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}
type chunkedData struct {
buf []byte
chunks []*chunker.Chunk
}
func benchmarkChunkEncrypt(b testing.TB, buf, buf2 []byte, rd Rdr, key *crypto.Key) {
rd.Seek(0, 0)
ch := chunker.New(rd, testPol, sha256.New())
for {
chunk, err := ch.Next()
if err == io.EOF {
break
}
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OK(b, err)
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// reduce length of buf
buf = buf[:chunk.Length]
n, err := io.ReadFull(chunk.Reader(rd), buf)
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OK(b, err)
Assert(b, uint(n) == chunk.Length, "invalid length: got %d, expected %d", n, chunk.Length)
_, err = crypto.Encrypt(key, buf2, buf)
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OK(b, err)
}
}
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func BenchmarkChunkEncrypt(b *testing.B) {
repo := SetupRepo()
defer TeardownRepo(repo)
data := Random(23, 10<<20) // 10MiB
rd := bytes.NewReader(data)
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buf := make([]byte, chunker.MaxSize)
buf2 := make([]byte, chunker.MaxSize)
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b.ResetTimer()
b.SetBytes(int64(len(data)))
for i := 0; i < b.N; i++ {
benchmarkChunkEncrypt(b, buf, buf2, rd, repo.Key())
}
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}
func benchmarkChunkEncryptP(b *testing.PB, buf []byte, rd Rdr, key *crypto.Key) {
ch := chunker.New(rd, testPol, sha256.New())
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for {
chunk, err := ch.Next()
if err == io.EOF {
break
}
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// reduce length of chunkBuf
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buf = buf[:chunk.Length]
io.ReadFull(chunk.Reader(rd), buf)
crypto.Encrypt(key, buf, buf)
}
}
func BenchmarkChunkEncryptParallel(b *testing.B) {
repo := SetupRepo()
defer TeardownRepo(repo)
data := Random(23, 10<<20) // 10MiB
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buf := make([]byte, chunker.MaxSize)
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b.ResetTimer()
b.SetBytes(int64(len(data)))
b.RunParallel(func(pb *testing.PB) {
for pb.Next() {
rd := bytes.NewReader(data)
benchmarkChunkEncryptP(pb, buf, rd, repo.Key())
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}
})
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}
func archiveDirectory(b testing.TB) {
repo := SetupRepo()
defer TeardownRepo(repo)
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arch := restic.NewArchiver(repo)
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_, id, err := arch.Snapshot(nil, []string{BenchArchiveDirectory}, nil)
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OK(b, err)
b.Logf("snapshot archived as %v", id)
}
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func TestArchiveDirectory(t *testing.T) {
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if BenchArchiveDirectory == "" {
t.Skip("benchdir not set, skipping TestArchiveDirectory")
}
archiveDirectory(t)
}
func BenchmarkArchiveDirectory(b *testing.B) {
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if BenchArchiveDirectory == "" {
b.Skip("benchdir not set, skipping BenchmarkArchiveDirectory")
}
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for i := 0; i < b.N; i++ {
archiveDirectory(b)
}
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}
func archiveWithDedup(t testing.TB) {
repo := SetupRepo()
defer TeardownRepo(repo)
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if BenchArchiveDirectory == "" {
t.Skip("benchdir not set, skipping TestArchiverDedup")
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}
var cnt struct {
before, after, after2 struct {
packs, dataBlobs, treeBlobs uint
}
}
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// archive a few files
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sn := SnapshotDir(t, repo, BenchArchiveDirectory, nil)
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t.Logf("archived snapshot %v", sn.ID().Str())
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// get archive stats
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cnt.before.packs = repo.Count(backend.Data)
cnt.before.dataBlobs = repo.Index().Count(pack.Data)
cnt.before.treeBlobs = repo.Index().Count(pack.Tree)
t.Logf("packs %v, data blobs %v, tree blobs %v",
cnt.before.packs, cnt.before.dataBlobs, cnt.before.treeBlobs)
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// archive the same files again, without parent snapshot
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sn2 := SnapshotDir(t, repo, BenchArchiveDirectory, nil)
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t.Logf("archived snapshot %v", sn2.ID().Str())
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// get archive stats again
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cnt.after.packs = repo.Count(backend.Data)
cnt.after.dataBlobs = repo.Index().Count(pack.Data)
cnt.after.treeBlobs = repo.Index().Count(pack.Tree)
t.Logf("packs %v, data blobs %v, tree blobs %v",
cnt.after.packs, cnt.after.dataBlobs, cnt.after.treeBlobs)
// if there are more data blobs, something is wrong
if cnt.after.dataBlobs > cnt.before.dataBlobs {
t.Fatalf("TestArchiverDedup: too many data blobs in repository: before %d, after %d",
cnt.before.dataBlobs, cnt.after.dataBlobs)
}
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// archive the same files again, with a parent snapshot
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sn3 := SnapshotDir(t, repo, BenchArchiveDirectory, sn2.ID())
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t.Logf("archived snapshot %v, parent %v", sn3.ID().Str(), sn2.ID().Str())
// get archive stats again
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cnt.after2.packs = repo.Count(backend.Data)
cnt.after2.dataBlobs = repo.Index().Count(pack.Data)
cnt.after2.treeBlobs = repo.Index().Count(pack.Tree)
t.Logf("packs %v, data blobs %v, tree blobs %v",
cnt.after2.packs, cnt.after2.dataBlobs, cnt.after2.treeBlobs)
// if there are more data blobs, something is wrong
if cnt.after2.dataBlobs > cnt.before.dataBlobs {
t.Fatalf("TestArchiverDedup: too many data blobs in repository: before %d, after %d",
cnt.before.dataBlobs, cnt.after2.dataBlobs)
}
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}
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func TestArchiveDedup(t *testing.T) {
archiveWithDedup(t)
}
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func BenchmarkLoadTree(t *testing.B) {
repo := SetupRepo()
defer TeardownRepo(repo)
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if BenchArchiveDirectory == "" {
t.Skip("benchdir not set, skipping TestArchiverDedup")
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}
// archive a few files
arch := restic.NewArchiver(repo)
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sn, _, err := arch.Snapshot(nil, []string{BenchArchiveDirectory}, nil)
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OK(t, err)
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t.Logf("archived snapshot %v", sn.ID())
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list := make([]backend.ID, 0, 10)
done := make(chan struct{})
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for _, idx := range repo.Index().All() {
for blob := range idx.Each(done) {
if blob.Type != pack.Tree {
continue
}
list = append(list, blob.ID)
if len(list) == cap(list) {
close(done)
break
}
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}
}
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// start benchmark
t.ResetTimer()
for i := 0; i < t.N; i++ {
for _, id := range list {
_, err := restic.LoadTree(repo, id)
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OK(t, err)
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}
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}
}
// Saves several identical chunks concurrently and later checks that there are no
// unreferenced packs in the repository. See also #292 and #358.
func TestParallelSaveWithDuplication(t *testing.T) {
for seed := 0; seed < 10; seed++ {
testParallelSaveWithDuplication(t, seed)
}
}
func testParallelSaveWithDuplication(t *testing.T, seed int) {
repo := SetupRepo()
defer TeardownRepo(repo)
dataSizeMb := 128
duplication := 7
arch := restic.NewArchiver(repo)
data, chunks := getRandomData(seed, dataSizeMb*1024*1024)
reader := bytes.NewReader(data)
errChannels := [](<-chan error){}
// interweaved processing of subsequent chunks
maxParallel := 2*duplication - 1
barrier := make(chan struct{}, maxParallel)
for _, c := range chunks {
for dupIdx := 0; dupIdx < duplication; dupIdx++ {
errChan := make(chan error)
errChannels = append(errChannels, errChan)
go func(reader *bytes.Reader, c *chunker.Chunk, errChan chan<- error) {
barrier <- struct{}{}
hash := c.Digest
id := backend.ID{}
copy(id[:], hash)
time.Sleep(time.Duration(hash[0]))
err := arch.Save(pack.Data, id, c.Length, c.Reader(reader))
<-barrier
errChan <- err
}(reader, c, errChan)
}
}
for _, errChan := range errChannels {
OK(t, <-errChan)
}
OK(t, repo.Flush())
OK(t, repo.SaveIndex())
chkr := createAndInitChecker(t, repo)
assertNoUnreferencedPacks(t, chkr)
}
func getRandomData(seed int, size int) ([]byte, []*chunker.Chunk) {
buf := Random(seed, size)
chunks := []*chunker.Chunk{}
chunker := chunker.New(bytes.NewReader(buf), testPol, sha256.New())
for {
c, err := chunker.Next()
if err == io.EOF {
break
}
chunks = append(chunks, c)
}
return buf, chunks
}
func createAndInitChecker(t *testing.T, repo *repository.Repository) *checker.Checker {
chkr := checker.New(repo)
hints, errs := chkr.LoadIndex()
if len(errs) > 0 {
t.Fatalf("expected no errors, got %v: %v", len(errs), errs)
}
if len(hints) > 0 {
t.Errorf("expected no hints, got %v: %v", len(hints), hints)
}
return chkr
}
func assertNoUnreferencedPacks(t *testing.T, chkr *checker.Checker) {
done := make(chan struct{})
defer close(done)
errChan := make(chan error)
go chkr.Packs(errChan, done)
for err := range errChan {
OK(t, err)
}
}