package index_test import ( "bytes" "context" "fmt" "math/rand" "sync" "testing" "github.com/restic/restic/internal/feature" "github.com/restic/restic/internal/index" "github.com/restic/restic/internal/restic" rtest "github.com/restic/restic/internal/test" ) func TestIndexSerialize(t *testing.T) { tests := []restic.PackedBlob{} idx := index.NewIndex() // create 50 packs with 20 blobs each for i := 0; i < 50; i++ { packID := restic.NewRandomID() var blobs []restic.Blob pos := uint(0) for j := 0; j < 20; j++ { length := uint(i*100 + j) uncompressedLength := uint(0) if i >= 25 { // test a mix of compressed and uncompressed packs uncompressedLength = 2 * length } pb := restic.PackedBlob{ Blob: restic.Blob{ BlobHandle: restic.NewRandomBlobHandle(), Offset: pos, Length: length, UncompressedLength: uncompressedLength, }, PackID: packID, } blobs = append(blobs, pb.Blob) tests = append(tests, pb) pos += length } idx.StorePack(packID, blobs) } wr := bytes.NewBuffer(nil) err := idx.Encode(wr) rtest.OK(t, err) idx2ID := restic.NewRandomID() idx2, oldFormat, err := index.DecodeIndex(wr.Bytes(), idx2ID) rtest.OK(t, err) rtest.Assert(t, idx2 != nil, "nil returned for decoded index") rtest.Assert(t, !oldFormat, "new index format recognized as old format") indexID, err := idx2.IDs() rtest.OK(t, err) rtest.Equals(t, indexID, restic.IDs{idx2ID}) wr2 := bytes.NewBuffer(nil) err = idx2.Encode(wr2) rtest.OK(t, err) for _, testBlob := range tests { list := idx.Lookup(testBlob.BlobHandle, nil) if len(list) != 1 { t.Errorf("expected one result for blob %v, got %v: %v", testBlob.ID.Str(), len(list), list) } result := list[0] rtest.Equals(t, testBlob, result) list2 := idx2.Lookup(testBlob.BlobHandle, nil) if len(list2) != 1 { t.Errorf("expected one result for blob %v, got %v: %v", testBlob.ID.Str(), len(list2), list2) } result2 := list2[0] rtest.Equals(t, testBlob, result2) } // add more blobs to idx newtests := []restic.PackedBlob{} for i := 0; i < 10; i++ { packID := restic.NewRandomID() var blobs []restic.Blob pos := uint(0) for j := 0; j < 10; j++ { length := uint(i*100 + j) pb := restic.PackedBlob{ Blob: restic.Blob{ BlobHandle: restic.NewRandomBlobHandle(), Offset: pos, Length: length, }, PackID: packID, } blobs = append(blobs, pb.Blob) newtests = append(newtests, pb) pos += length } idx.StorePack(packID, blobs) } // finalize; serialize idx, unserialize to idx3 idx.Finalize() wr3 := bytes.NewBuffer(nil) err = idx.Encode(wr3) rtest.OK(t, err) rtest.Assert(t, idx.Final(), "index not final after encoding") id := restic.NewRandomID() rtest.OK(t, idx.SetID(id)) ids, err := idx.IDs() rtest.OK(t, err) rtest.Equals(t, restic.IDs{id}, ids) idx3, oldFormat, err := index.DecodeIndex(wr3.Bytes(), id) rtest.OK(t, err) rtest.Assert(t, idx3 != nil, "nil returned for decoded index") rtest.Assert(t, idx3.Final(), "decoded index is not final") rtest.Assert(t, !oldFormat, "new index format recognized as old format") // all new blobs must be in the index for _, testBlob := range newtests { list := idx3.Lookup(testBlob.BlobHandle, nil) if len(list) != 1 { t.Errorf("expected one result for blob %v, got %v: %v", testBlob.ID.Str(), len(list), list) } blob := list[0] rtest.Equals(t, testBlob, blob) } } func TestIndexSize(t *testing.T) { idx := index.NewIndex() packs := 200 blobCount := 100 for i := 0; i < packs; i++ { packID := restic.NewRandomID() var blobs []restic.Blob pos := uint(0) for j := 0; j < blobCount; j++ { length := uint(i*100 + j) blobs = append(blobs, restic.Blob{ BlobHandle: restic.NewRandomBlobHandle(), Offset: pos, Length: length, }) pos += length } idx.StorePack(packID, blobs) } wr := bytes.NewBuffer(nil) err := idx.Encode(wr) rtest.OK(t, err) t.Logf("Index file size for %d blobs in %d packs is %d", blobCount*packs, packs, wr.Len()) } // example index serialization from doc/Design.rst var docExampleV1 = []byte(` { "supersedes": [ "ed54ae36197f4745ebc4b54d10e0f623eaaaedd03013eb7ae90df881b7781452" ], "packs": [ { "id": "73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c", "blobs": [ { "id": "3ec79977ef0cf5de7b08cd12b874cd0f62bbaf7f07f3497a5b1bbcc8cb39b1ce", "type": "data", "offset": 0, "length": 38 },{ "id": "9ccb846e60d90d4eb915848add7aa7ea1e4bbabfc60e573db9f7bfb2789afbae", "type": "tree", "offset": 38, "length": 112 }, { "id": "d3dc577b4ffd38cc4b32122cabf8655a0223ed22edfd93b353dc0c3f2b0fdf66", "type": "data", "offset": 150, "length": 123 } ] } ] } `) var docExampleV2 = []byte(` { "supersedes": [ "ed54ae36197f4745ebc4b54d10e0f623eaaaedd03013eb7ae90df881b7781452" ], "packs": [ { "id": "73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c", "blobs": [ { "id": "3ec79977ef0cf5de7b08cd12b874cd0f62bbaf7f07f3497a5b1bbcc8cb39b1ce", "type": "data", "offset": 0, "length": 38 }, { "id": "9ccb846e60d90d4eb915848add7aa7ea1e4bbabfc60e573db9f7bfb2789afbae", "type": "tree", "offset": 38, "length": 112, "uncompressed_length": 511 }, { "id": "d3dc577b4ffd38cc4b32122cabf8655a0223ed22edfd93b353dc0c3f2b0fdf66", "type": "data", "offset": 150, "length": 123, "uncompressed_length": 234 } ] } ] } `) var docOldExample = []byte(` [ { "id": "73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c", "blobs": [ { "id": "3ec79977ef0cf5de7b08cd12b874cd0f62bbaf7f07f3497a5b1bbcc8cb39b1ce", "type": "data", "offset": 0, "length": 38 },{ "id": "9ccb846e60d90d4eb915848add7aa7ea1e4bbabfc60e573db9f7bfb2789afbae", "type": "tree", "offset": 38, "length": 112 }, { "id": "d3dc577b4ffd38cc4b32122cabf8655a0223ed22edfd93b353dc0c3f2b0fdf66", "type": "data", "offset": 150, "length": 123 } ] } ] `) var exampleTests = []struct { id, packID restic.ID tpe restic.BlobType offset, length uint uncompressedLength uint }{ { restic.TestParseID("3ec79977ef0cf5de7b08cd12b874cd0f62bbaf7f07f3497a5b1bbcc8cb39b1ce"), restic.TestParseID("73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c"), restic.DataBlob, 0, 38, 0, }, { restic.TestParseID("9ccb846e60d90d4eb915848add7aa7ea1e4bbabfc60e573db9f7bfb2789afbae"), restic.TestParseID("73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c"), restic.TreeBlob, 38, 112, 511, }, { restic.TestParseID("d3dc577b4ffd38cc4b32122cabf8655a0223ed22edfd93b353dc0c3f2b0fdf66"), restic.TestParseID("73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c"), restic.DataBlob, 150, 123, 234, }, } var exampleLookupTest = struct { packID restic.ID blobs map[restic.ID]restic.BlobType }{ restic.TestParseID("73d04e6125cf3c28a299cc2f3cca3b78ceac396e4fcf9575e34536b26782413c"), map[restic.ID]restic.BlobType{ restic.TestParseID("3ec79977ef0cf5de7b08cd12b874cd0f62bbaf7f07f3497a5b1bbcc8cb39b1ce"): restic.DataBlob, restic.TestParseID("9ccb846e60d90d4eb915848add7aa7ea1e4bbabfc60e573db9f7bfb2789afbae"): restic.TreeBlob, restic.TestParseID("d3dc577b4ffd38cc4b32122cabf8655a0223ed22edfd93b353dc0c3f2b0fdf66"): restic.DataBlob, }, } func TestIndexUnserialize(t *testing.T) { for _, task := range []struct { idxBytes []byte version int }{ {docExampleV1, 1}, {docExampleV2, 2}, } { idx, oldFormat, err := index.DecodeIndex(task.idxBytes, restic.NewRandomID()) rtest.OK(t, err) rtest.Assert(t, !oldFormat, "new index format recognized as old format") for _, test := range exampleTests { list := idx.Lookup(restic.BlobHandle{ID: test.id, Type: test.tpe}, nil) if len(list) != 1 { t.Errorf("expected one result for blob %v, got %v: %v", test.id.Str(), len(list), list) } blob := list[0] t.Logf("looking for blob %v/%v, got %v", test.tpe, test.id.Str(), blob) rtest.Equals(t, test.packID, blob.PackID) rtest.Equals(t, test.tpe, blob.Type) rtest.Equals(t, test.offset, blob.Offset) rtest.Equals(t, test.length, blob.Length) if task.version == 1 { rtest.Equals(t, uint(0), blob.UncompressedLength) } else if task.version == 2 { rtest.Equals(t, test.uncompressedLength, blob.UncompressedLength) } else { t.Fatal("Invalid index version") } } blobs := listPack(t, idx, exampleLookupTest.packID) if len(blobs) != len(exampleLookupTest.blobs) { t.Fatalf("expected %d blobs in pack, got %d", len(exampleLookupTest.blobs), len(blobs)) } for _, blob := range blobs { b, ok := exampleLookupTest.blobs[blob.ID] if !ok { t.Errorf("unexpected blob %v found", blob.ID.Str()) } if blob.Type != b { t.Errorf("unexpected type for blob %v: want %v, got %v", blob.ID.Str(), b, blob.Type) } } } } func listPack(t testing.TB, idx *index.Index, id restic.ID) (pbs []restic.PackedBlob) { rtest.OK(t, idx.Each(context.TODO(), func(pb restic.PackedBlob) { if pb.PackID.Equal(id) { pbs = append(pbs, pb) } })) return pbs } var ( benchmarkIndexJSON []byte benchmarkIndexJSONOnce sync.Once ) func initBenchmarkIndexJSON() { idx, _ := createRandomIndex(rand.New(rand.NewSource(0)), 200000) var buf bytes.Buffer err := idx.Encode(&buf) if err != nil { panic(err) } benchmarkIndexJSON = buf.Bytes() } func BenchmarkDecodeIndex(b *testing.B) { benchmarkIndexJSONOnce.Do(initBenchmarkIndexJSON) id := restic.NewRandomID() b.ResetTimer() for i := 0; i < b.N; i++ { _, _, err := index.DecodeIndex(benchmarkIndexJSON, id) rtest.OK(b, err) } } func BenchmarkDecodeIndexParallel(b *testing.B) { benchmarkIndexJSONOnce.Do(initBenchmarkIndexJSON) id := restic.NewRandomID() b.ResetTimer() b.RunParallel(func(pb *testing.PB) { for pb.Next() { _, _, err := index.DecodeIndex(benchmarkIndexJSON, id) rtest.OK(b, err) } }) } func BenchmarkEncodeIndex(b *testing.B) { for _, n := range []int{100, 1000, 10000} { idx, _ := createRandomIndex(rand.New(rand.NewSource(0)), n) b.Run(fmt.Sprint(n), func(b *testing.B) { buf := new(bytes.Buffer) err := idx.Encode(buf) rtest.OK(b, err) b.ResetTimer() b.ReportAllocs() for i := 0; i < b.N; i++ { buf.Reset() _ = idx.Encode(buf) } }) } } func TestIndexUnserializeOld(t *testing.T) { defer feature.TestSetFlag(t, feature.Flag, feature.DeprecateLegacyIndex, false)() idx, oldFormat, err := index.DecodeIndex(docOldExample, restic.NewRandomID()) rtest.OK(t, err) rtest.Assert(t, oldFormat, "old index format recognized as new format") for _, test := range exampleTests { list := idx.Lookup(restic.BlobHandle{ID: test.id, Type: test.tpe}, nil) if len(list) != 1 { t.Errorf("expected one result for blob %v, got %v: %v", test.id.Str(), len(list), list) } blob := list[0] rtest.Equals(t, test.packID, blob.PackID) rtest.Equals(t, test.tpe, blob.Type) rtest.Equals(t, test.offset, blob.Offset) rtest.Equals(t, test.length, blob.Length) } } func TestIndexPacks(t *testing.T) { idx := index.NewIndex() packs := restic.NewIDSet() for i := 0; i < 20; i++ { packID := restic.NewRandomID() idx.StorePack(packID, []restic.Blob{ { BlobHandle: restic.NewRandomBlobHandle(), Offset: 0, Length: 23, }, }) packs.Insert(packID) } idxPacks := idx.Packs() rtest.Assert(t, packs.Equals(idxPacks), "packs in index do not match packs added to index") } const maxPackSize = 16 * 1024 * 1024 // This function generates a (insecure) random ID, similar to NewRandomID func NewRandomTestID(rng *rand.Rand) restic.ID { id := restic.ID{} rng.Read(id[:]) return id } func createRandomIndex(rng *rand.Rand, packfiles int) (idx *index.Index, lookupBh restic.BlobHandle) { idx = index.NewIndex() // create index with given number of pack files for i := 0; i < packfiles; i++ { packID := NewRandomTestID(rng) var blobs []restic.Blob offset := 0 for offset < maxPackSize { size := 2000 + rng.Intn(4*1024*1024) id := NewRandomTestID(rng) blobs = append(blobs, restic.Blob{ BlobHandle: restic.BlobHandle{ Type: restic.DataBlob, ID: id, }, Length: uint(size), UncompressedLength: uint(2 * size), Offset: uint(offset), }) offset += size } idx.StorePack(packID, blobs) if i == 0 { lookupBh = restic.BlobHandle{ Type: restic.DataBlob, ID: blobs[rng.Intn(len(blobs))].ID, } } } return idx, lookupBh } func BenchmarkIndexHasUnknown(b *testing.B) { idx, _ := createRandomIndex(rand.New(rand.NewSource(0)), 200000) lookupBh := restic.NewRandomBlobHandle() b.ResetTimer() for i := 0; i < b.N; i++ { idx.Has(lookupBh) } } func BenchmarkIndexHasKnown(b *testing.B) { idx, lookupBh := createRandomIndex(rand.New(rand.NewSource(0)), 200000) b.ResetTimer() for i := 0; i < b.N; i++ { idx.Has(lookupBh) } } func BenchmarkIndexAlloc(b *testing.B) { rng := rand.New(rand.NewSource(0)) b.ReportAllocs() for i := 0; i < b.N; i++ { createRandomIndex(rng, 200000) } } func BenchmarkIndexAllocParallel(b *testing.B) { b.ReportAllocs() b.RunParallel(func(pb *testing.PB) { rng := rand.New(rand.NewSource(0)) for pb.Next() { createRandomIndex(rng, 200000) } }) } func TestIndexHas(t *testing.T) { tests := []restic.PackedBlob{} idx := index.NewIndex() // create 50 packs with 20 blobs each for i := 0; i < 50; i++ { packID := restic.NewRandomID() var blobs []restic.Blob pos := uint(0) for j := 0; j < 20; j++ { length := uint(i*100 + j) uncompressedLength := uint(0) if i >= 25 { // test a mix of compressed and uncompressed packs uncompressedLength = 2 * length } pb := restic.PackedBlob{ Blob: restic.Blob{ BlobHandle: restic.NewRandomBlobHandle(), Offset: pos, Length: length, UncompressedLength: uncompressedLength, }, PackID: packID, } blobs = append(blobs, pb.Blob) tests = append(tests, pb) pos += length } idx.StorePack(packID, blobs) } for _, testBlob := range tests { rtest.Assert(t, idx.Has(testBlob.BlobHandle), "Index reports not having data blob added to it") } rtest.Assert(t, !idx.Has(restic.NewRandomBlobHandle()), "Index reports having a data blob not added to it") rtest.Assert(t, !idx.Has(restic.BlobHandle{ID: tests[0].ID, Type: restic.TreeBlob}), "Index reports having a tree blob added to it with the same id as a data blob") } func TestMixedEachByPack(t *testing.T) { idx := index.NewIndex() expected := make(map[restic.ID]int) // create 50 packs with 2 blobs each for i := 0; i < 50; i++ { packID := restic.NewRandomID() expected[packID] = 1 blobs := []restic.Blob{ { BlobHandle: restic.BlobHandle{Type: restic.DataBlob, ID: restic.NewRandomID()}, Offset: 0, Length: 42, }, { BlobHandle: restic.BlobHandle{Type: restic.TreeBlob, ID: restic.NewRandomID()}, Offset: 42, Length: 43, }, } idx.StorePack(packID, blobs) } reported := make(map[restic.ID]int) for bp := range idx.EachByPack(context.TODO(), restic.NewIDSet()) { reported[bp.PackID]++ rtest.Equals(t, 2, len(bp.Blobs)) // correct blob count if bp.Blobs[0].Offset > bp.Blobs[1].Offset { bp.Blobs[1], bp.Blobs[0] = bp.Blobs[0], bp.Blobs[1] } b0 := bp.Blobs[0] rtest.Assert(t, b0.Type == restic.DataBlob && b0.Offset == 0 && b0.Length == 42, "wrong blob", b0) b1 := bp.Blobs[1] rtest.Assert(t, b1.Type == restic.TreeBlob && b1.Offset == 42 && b1.Length == 43, "wrong blob", b1) } rtest.Equals(t, expected, reported) } func TestEachByPackIgnoes(t *testing.T) { idx := index.NewIndex() ignores := restic.NewIDSet() expected := make(map[restic.ID]int) // create 50 packs with one blob each for i := 0; i < 50; i++ { packID := restic.NewRandomID() if i < 3 { ignores.Insert(packID) } else { expected[packID] = 1 } blobs := []restic.Blob{ { BlobHandle: restic.BlobHandle{Type: restic.DataBlob, ID: restic.NewRandomID()}, Offset: 0, Length: 42, }, } idx.StorePack(packID, blobs) } idx.Finalize() reported := make(map[restic.ID]int) for bp := range idx.EachByPack(context.TODO(), ignores) { reported[bp.PackID]++ rtest.Equals(t, 1, len(bp.Blobs)) // correct blob count b0 := bp.Blobs[0] rtest.Assert(t, b0.Type == restic.DataBlob && b0.Offset == 0 && b0.Length == 42, "wrong blob", b0) } rtest.Equals(t, expected, reported) }