// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "bytes" "context" "encoding/json" "fmt" "io/ioutil" "os" "path" "path/filepath" "testing" ) type usageTestFile struct { name string size int } func TestDataUsageUpdate(t *testing.T) { base := t.TempDir() const bucket = "bucket" files := []usageTestFile{ {name: "rootfile", size: 10000}, {name: "rootfile2", size: 10000}, {name: "dir1/d1file", size: 2000}, {name: "dir2/d2file", size: 300}, {name: "dir1/dira/dafile", size: 100000}, {name: "dir1/dira/dbfile", size: 200000}, {name: "dir1/dira/dirasub/dcfile", size: 1000000}, {name: "dir1/dira/dirasub/sublevel3/dccccfile", size: 10}, } createUsageTestFiles(t, base, bucket, files) getSize := func(item scannerItem) (sizeS sizeSummary, err error) { if item.Typ&os.ModeDir == 0 { var s os.FileInfo s, err = os.Stat(item.Path) if err != nil { return } sizeS.totalSize = s.Size() sizeS.versions++ return sizeS, nil } return } got, err := scanDataFolder(context.Background(), 0, 0, base, dataUsageCache{Info: dataUsageCacheInfo{Name: bucket}}, getSize, 0) if err != nil { t.Fatal(err) } // Test dirs want := []struct { path string isNil bool size, objs int flatten bool oSizes sizeHistogram }{ { path: "/", size: 1322310, flatten: true, objs: 8, oSizes: sizeHistogram{0: 2, 1: 6}, }, { path: "/", size: 20000, objs: 2, oSizes: sizeHistogram{1: 2}, }, { path: "/dir1", size: 1302010, objs: 5, oSizes: sizeHistogram{0: 1, 1: 4}, }, { path: "/dir1/dira", isNil: true, }, { path: "/nonexistying", isNil: true, }, } for _, w := range want { p := path.Join(bucket, w.path) t.Run(p, func(t *testing.T) { e := got.find(p) if w.isNil { if e != nil { t.Error("want nil, got", e) } return } if e == nil { t.Fatal("got nil result") } if w.flatten { *e = got.flatten(*e) } if e.Size != int64(w.size) { t.Error("got size", e.Size, "want", w.size) } if e.Objects != uint64(w.objs) { t.Error("got objects", e.Objects, "want", w.objs) } if e.Versions != uint64(w.objs) { t.Error("got versions", e.Versions, "want", w.objs) } if e.ObjSizes != w.oSizes { t.Error("got histogram", e.ObjSizes, "want", w.oSizes) } }) } files = []usageTestFile{ { name: "newfolder/afile", size: 4, }, { name: "newfolder/anotherone", size: 1, }, { name: "newfolder/anemptyone", size: 0, }, { name: "dir1/fileindir1", size: 20000, }, { name: "dir1/dirc/fileindirc", size: 20000, }, { name: "rootfile3", size: 1000, }, { name: "dir1/dira/dirasub/fileindira2", size: 200, }, } createUsageTestFiles(t, base, bucket, files) err = os.RemoveAll(filepath.Join(base, bucket, "dir1/dira/dirasub/dcfile")) if err != nil { t.Fatal(err) } // Changed dir must be picked up in this many cycles. for i := 0; i < dataUsageUpdateDirCycles; i++ { got, err = scanDataFolder(context.Background(), 0, 0, base, got, getSize, 0) got.Info.NextCycle++ if err != nil { t.Fatal(err) } } want = []struct { path string isNil bool size, objs int flatten bool oSizes sizeHistogram }{ { path: "/", size: 363515, flatten: true, objs: 14, oSizes: sizeHistogram{0: 7, 1: 7}, }, { path: "/dir1", size: 342210, objs: 7, flatten: false, oSizes: sizeHistogram{0: 2, 1: 5}, }, { path: "/newfolder", size: 5, objs: 3, oSizes: sizeHistogram{0: 3}, }, { path: "/nonexistying", isNil: true, }, } for _, w := range want { p := path.Join(bucket, w.path) t.Run(p, func(t *testing.T) { e := got.find(p) if w.isNil { if e != nil { t.Error("want nil, got", e) } return } if e == nil { t.Fatal("got nil result") } if w.flatten { *e = got.flatten(*e) } if e.Size != int64(w.size) { t.Error("got size", e.Size, "want", w.size) } if e.Objects != uint64(w.objs) { t.Error("got objects", e.Objects, "want", w.objs) } if e.Versions != uint64(w.objs) { t.Error("got versions", e.Versions, "want", w.objs) } if e.ObjSizes != w.oSizes { t.Error("got histogram", e.ObjSizes, "want", w.oSizes) } }) } } func TestDataUsageUpdatePrefix(t *testing.T) { base := t.TempDir() scannerSleeper.Update(0, 0) files := []usageTestFile{ {name: "bucket/rootfile", size: 10000}, {name: "bucket/rootfile2", size: 10000}, {name: "bucket/dir1/d1file", size: 2000}, {name: "bucket/dir2/d2file", size: 300}, {name: "bucket/dir1/dira/dafile", size: 100000}, {name: "bucket/dir1/dira/dbfile", size: 200000}, {name: "bucket/dir1/dira/dirasub/dcfile", size: 1000000}, {name: "bucket/dir1/dira/dirasub/sublevel3/dccccfile", size: 10}, } createUsageTestFiles(t, base, "", files) const foldersBelow = 3 const filesBelowT = dataScannerCompactLeastObject / 2 const filesAboveT = dataScannerCompactAtFolders + 1 const expectSize = foldersBelow*filesBelowT + filesAboveT generateUsageTestFiles(t, base, "bucket/dirwithalot", foldersBelow, filesBelowT, 1) generateUsageTestFiles(t, base, "bucket/dirwithevenmore", filesAboveT, 1, 1) getSize := func(item scannerItem) (sizeS sizeSummary, err error) { if item.Typ&os.ModeDir == 0 { var s os.FileInfo s, err = os.Stat(item.Path) if err != nil { return } sizeS.totalSize = s.Size() sizeS.versions++ return } return } got, err := scanDataFolder(context.Background(), 0, 0, base, dataUsageCache{Info: dataUsageCacheInfo{Name: "bucket"}}, getSize, 0) if err != nil { t.Fatal(err) } if got.root() == nil { t.Log("cached folders:") for folder := range got.Cache { t.Log("folder:", folder) } t.Fatal("got nil root.") } // Test dirs want := []struct { path string isNil bool size, objs int oSizes sizeHistogram }{ { path: "flat", size: 1322310 + expectSize, objs: 8 + expectSize, oSizes: sizeHistogram{0: 2 + expectSize, 1: 6}, }, { path: "bucket/", size: 20000, objs: 2, oSizes: sizeHistogram{1: 2}, }, { // Gets compacted... path: "bucket/dir1", size: 1302010, objs: 5, oSizes: sizeHistogram{0: 1, 1: 4}, }, { // Gets compacted at this level... path: "bucket/dirwithalot/0", size: filesBelowT, objs: filesBelowT, oSizes: sizeHistogram{0: filesBelowT}, }, { // Gets compacted at this level (below obj threshold)... path: "bucket/dirwithalot/0", size: filesBelowT, objs: filesBelowT, oSizes: sizeHistogram{0: filesBelowT}, }, { // Gets compacted at this level... path: "bucket/dirwithevenmore", size: filesAboveT, objs: filesAboveT, oSizes: sizeHistogram{0: filesAboveT}, }, { path: "bucket/nonexistying", isNil: true, }, } for _, w := range want { t.Run(w.path, func(t *testing.T) { e := got.find(w.path) if w.path == "flat" { f := got.flatten(*got.root()) e = &f } if w.isNil { if e != nil { t.Error("want nil, got", e) } return } if e == nil { t.Fatal("got nil result") } if e.Size != int64(w.size) { t.Error("got size", e.Size, "want", w.size) } if e.Objects != uint64(w.objs) { t.Error("got objects", e.Objects, "want", w.objs) } if e.Versions != uint64(w.objs) { t.Error("got versions", e.Versions, "want", w.objs) } if e.ObjSizes != w.oSizes { t.Error("got histogram", e.ObjSizes, "want", w.oSizes) } }) } files = []usageTestFile{ { name: "bucket/newfolder/afile", size: 4, }, { name: "bucket/newfolder/anotherone", size: 1, }, { name: "bucket/newfolder/anemptyone", size: 0, }, { name: "bucket/dir1/fileindir1", size: 20000, }, { name: "bucket/dir1/dirc/fileindirc", size: 20000, }, { name: "bucket/rootfile3", size: 1000, }, { name: "bucket/dir1/dira/dirasub/fileindira2", size: 200, }, } createUsageTestFiles(t, base, "", files) err = os.RemoveAll(filepath.Join(base, "bucket/dir1/dira/dirasub/dcfile")) if err != nil { t.Fatal(err) } // Changed dir must be picked up in this many cycles. for i := 0; i < dataUsageUpdateDirCycles; i++ { got, err = scanDataFolder(context.Background(), 0, 0, base, got, getSize, 0) got.Info.NextCycle++ if err != nil { t.Fatal(err) } } want = []struct { path string isNil bool size, objs int oSizes sizeHistogram }{ { path: "flat", size: 363515 + expectSize, objs: 14 + expectSize, oSizes: sizeHistogram{0: 7 + expectSize, 1: 7}, }, { path: "bucket/dir1", size: 342210, objs: 7, oSizes: sizeHistogram{0: 2, 1: 5}, }, { path: "bucket/", size: 21000, objs: 3, oSizes: sizeHistogram{0: 1, 1: 2}, }, { path: "bucket/newfolder", size: 5, objs: 3, oSizes: sizeHistogram{0: 3}, }, { // Compacted into bucket/dir1 path: "bucket/dir1/dira", isNil: true, }, { path: "bucket/nonexistying", isNil: true, }, } for _, w := range want { t.Run(w.path, func(t *testing.T) { e := got.find(w.path) if w.path == "flat" { f := got.flatten(*got.root()) e = &f } if w.isNil { if e != nil { t.Error("want nil, got", e) } return } if e == nil { t.Error("got nil result") return } if e.Size != int64(w.size) { t.Error("got size", e.Size, "want", w.size) } if e.Objects != uint64(w.objs) { t.Error("got objects", e.Objects, "want", w.objs) } if e.Versions != uint64(w.objs) { t.Error("got versions", e.Versions, "want", w.objs) } if e.ObjSizes != w.oSizes { t.Error("got histogram", e.ObjSizes, "want", w.oSizes) } }) } } func createUsageTestFiles(t *testing.T, base, bucket string, files []usageTestFile) { for _, f := range files { err := os.MkdirAll(filepath.Dir(filepath.Join(base, bucket, f.name)), os.ModePerm) if err != nil { t.Fatal(err) } err = ioutil.WriteFile(filepath.Join(base, bucket, f.name), make([]byte, f.size), os.ModePerm) if err != nil { t.Fatal(err) } } } // generateUsageTestFiles create nFolders * nFiles files of size bytes each. func generateUsageTestFiles(t *testing.T, base, bucket string, nFolders, nFiles, size int) { pl := make([]byte, size) for i := 0; i < nFolders; i++ { name := filepath.Join(base, bucket, fmt.Sprint(i), "0.txt") err := os.MkdirAll(filepath.Dir(name), os.ModePerm) if err != nil { t.Fatal(err) } for j := 0; j < nFiles; j++ { name := filepath.Join(base, bucket, fmt.Sprint(i), fmt.Sprint(j)+".txt") err = ioutil.WriteFile(name, pl, os.ModePerm) if err != nil { t.Fatal(err) } } } } func TestDataUsageCacheSerialize(t *testing.T) { base := t.TempDir() const bucket = "abucket" files := []usageTestFile{ {name: "rootfile", size: 10000}, {name: "rootfile2", size: 10000}, {name: "dir1/d1file", size: 2000}, {name: "dir2/d2file", size: 300}, {name: "dir2/d2file2", size: 300}, {name: "dir2/d2file3/", size: 300}, {name: "dir2/d2file4/", size: 300}, {name: "dir2/d2file5", size: 300}, {name: "dir1/dira/dafile", size: 100000}, {name: "dir1/dira/dbfile", size: 200000}, {name: "dir1/dira/dirasub/dcfile", size: 1000000}, {name: "dir1/dira/dirasub/sublevel3/dccccfile", size: 10}, {name: "dir1/dira/dirasub/sublevel3/dccccfile20", size: 20}, {name: "dir1/dira/dirasub/sublevel3/dccccfile30", size: 30}, {name: "dir1/dira/dirasub/sublevel3/dccccfile40", size: 40}, } createUsageTestFiles(t, base, bucket, files) getSize := func(item scannerItem) (sizeS sizeSummary, err error) { if item.Typ&os.ModeDir == 0 { var s os.FileInfo s, err = os.Stat(item.Path) if err != nil { return } sizeS.versions++ sizeS.totalSize = s.Size() return } return } want, err := scanDataFolder(context.Background(), 0, 0, base, dataUsageCache{Info: dataUsageCacheInfo{Name: bucket}}, getSize, 0) if err != nil { t.Fatal(err) } e := want.find("abucket/dir2") e.ReplicationStats = &replicationAllStats{ Targets: map[string]replicationStats{ "arn": { PendingSize: 1, ReplicatedSize: 2, FailedSize: 3, FailedCount: 5, PendingCount: 6, }, }, } want.replace("abucket/dir2", "", *e) var buf bytes.Buffer err = want.serializeTo(&buf) if err != nil { t.Fatal(err) } t.Log("serialized size:", buf.Len(), "bytes") var got dataUsageCache err = got.deserialize(&buf) if err != nil { t.Fatal(err) } if got.Info.LastUpdate.IsZero() { t.Error("lastupdate not set") } if !want.Info.LastUpdate.Equal(got.Info.LastUpdate) { t.Fatalf("deserialize LastUpdate mismatch\nwant: %+v\ngot: %+v", want, got) } if len(want.Cache) != len(got.Cache) { t.Errorf("deserialize mismatch length\nwant: %+v\ngot: %+v", len(want.Cache), len(got.Cache)) } for wkey, wval := range want.Cache { gotv := got.Cache[wkey] if !equalAsJSON(gotv, wval) { t.Errorf("deserialize mismatch, key %v\nwant: %#v\ngot: %#v", wkey, wval, gotv) } } } // equalAsJSON returns whether the values are equal when encoded as JSON. func equalAsJSON(a, b interface{}) bool { aj, err := json.Marshal(a) if err != nil { panic(err) } bj, err := json.Marshal(b) if err != nil { panic(err) } return bytes.Equal(aj, bj) }