// 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 main import ( "bytes" "encoding/binary" "encoding/hex" "encoding/json" "errors" "fmt" "io" "log" "os" "path/filepath" "sort" "strings" "time" "github.com/google/uuid" "github.com/klauspost/compress/zip" "github.com/klauspost/filepathx" "github.com/klauspost/reedsolomon" "github.com/minio/cli" "github.com/tinylib/msgp/msgp" ) func main() { app := cli.NewApp() app.Copyright = "MinIO, Inc." app.Usage = "xl.meta to JSON" app.HideVersion = true app.CustomAppHelpTemplate = `NAME: {{.Name}} - {{.Usage}} USAGE: {{.Name}} {{if .VisibleFlags}}[FLAGS]{{end}} METAFILES... Multiple files can be added. Files ending in '.zip' will be searched for 'xl.meta' files. Wildcards are accepted: 'testdir/*.txt' will compress all files in testdir ending with '.txt', directories can be wildcards as well. 'testdir/*/*.txt' will match 'testdir/subdir/b.txt', double stars means full recursive. 'testdir/**/xl.meta' will search for all xl.meta recursively. FLAGS: {{range .VisibleFlags}}{{.}} {{end}} ` app.HideHelpCommand = true app.Flags = []cli.Flag{ cli.BoolFlag{ Usage: "print each file as a separate line without formatting", Name: "ndjson", Hidden: true, }, cli.BoolFlag{ Usage: "display inline data keys and sizes", Name: "data", }, cli.BoolFlag{ Usage: "export inline data", Name: "export", }, cli.BoolFlag{ Usage: "combine inline data", Name: "combine", }, } app.Action = func(c *cli.Context) error { ndjson := c.Bool("ndjson") if c.Bool("data") && c.Bool("combine") { return errors.New("cannot combine --data and --combine") } // file / version / file filemap := make(map[string]map[string]string) // versionID -> combineFiles := make(map[string][]string) decode := func(r io.Reader, file string) ([]byte, error) { b, err := io.ReadAll(r) if err != nil { return nil, err } b, _, minor, err := checkXL2V1(b) if err != nil { return nil, err } filemap[file] = make(map[string]string) buf := bytes.NewBuffer(nil) var data xlMetaInlineData switch minor { case 0: _, err = msgp.CopyToJSON(buf, bytes.NewReader(b)) if err != nil { return nil, err } case 1, 2: v, b, err := msgp.ReadBytesZC(b) if err != nil { return nil, err } if _, nbuf, err := msgp.ReadUint32Bytes(b); err == nil { // Read metadata CRC (added in v2, ignore if not found) b = nbuf } _, err = msgp.CopyToJSON(buf, bytes.NewReader(v)) if err != nil { return nil, err } data = b case 3: v, b, err := msgp.ReadBytesZC(b) if err != nil { return nil, err } if _, nbuf, err := msgp.ReadUint32Bytes(b); err == nil { // Read metadata CRC (added in v2, ignore if not found) b = nbuf } nVers, v, err := decodeXLHeaders(v) if err != nil { return nil, err } type version struct { Idx int Header json.RawMessage Metadata json.RawMessage } versions := make([]version, nVers) err = decodeVersions(v, nVers, func(idx int, hdr, meta []byte) error { var header xlMetaV2VersionHeaderV2 if _, err := header.UnmarshalMsg(hdr); err != nil { return err } b, err := header.MarshalJSON() if err != nil { return err } var buf bytes.Buffer if _, err := msgp.UnmarshalAsJSON(&buf, meta); err != nil { return err } versions[idx] = version{ Idx: idx, Header: b, Metadata: buf.Bytes(), } type erasureInfo struct { V2Obj *struct { EcDist []int EcIndex int EcM int EcN int } } var ei erasureInfo if err := json.Unmarshal(buf.Bytes(), &ei); err == nil && ei.V2Obj != nil { verID := uuid.UUID(header.VersionID).String() idx := ei.V2Obj.EcIndex filemap[file][verID] = fmt.Sprintf("%s/shard-%02d-of-%02d", verID, idx, ei.V2Obj.EcN+ei.V2Obj.EcM) filemap[file][verID+".json"] = buf.String() } return nil }) if err != nil { return nil, err } enc := json.NewEncoder(buf) if err := enc.Encode(struct { Versions []version }{Versions: versions}); err != nil { return nil, err } data = b default: return nil, fmt.Errorf("unknown metadata version %d", minor) } if c.Bool("data") { b, err := data.json() if err != nil { return nil, err } buf = bytes.NewBuffer(b) } if c.Bool("export") { file := file if !c.Bool("combine") { file = strings.Map(func(r rune) rune { switch { case r >= 'a' && r <= 'z': return r case r >= 'A' && r <= 'Z': return r case r >= '0' && r <= '9': return r case strings.ContainsAny(string(r), "+=-_()!@."): return r default: return '_' } }, file) } err := data.files(func(name string, data []byte) { fn := fmt.Sprintf("%s-%s.data", file, name) if c.Bool("combine") { f := filemap[file][name] if f != "" { fn = f + ".data" os.MkdirAll(filepath.Dir(fn), os.ModePerm) err = os.WriteFile(fn+".json", []byte(filemap[file][name+".json"]), os.ModePerm) combineFiles[name] = append(combineFiles[name], fn) if err != nil { fmt.Println("ERR:", err) } _ = os.WriteFile(filepath.Dir(fn)+"/filename.txt", []byte(file), os.ModePerm) } } err = os.WriteFile(fn, data, os.ModePerm) if err != nil { fmt.Println(err) } }) if err != nil { return nil, err } } if ndjson { return buf.Bytes(), nil } var msi map[string]interface{} dec := json.NewDecoder(buf) // Use number to preserve integers. dec.UseNumber() err = dec.Decode(&msi) if err != nil { return nil, err } b, err = json.MarshalIndent(msi, "", " ") if err != nil { return nil, err } return b, nil } args := c.Args() if len(args) == 0 { // If no args, assume xl.meta args = []string{"xl.meta"} } var files []string for _, pattern := range args { if pattern == "-" { files = append(files, pattern) continue } found, err := filepathx.Glob(pattern) if err != nil { return err } if len(found) == 0 { return fmt.Errorf("unable to find file %v", pattern) } files = append(files, found...) } if len(files) == 0 { return fmt.Errorf("no files found") } if len(files) > 1 || strings.HasSuffix(files[0], ".zip") { ndjson = true } toPrint := make([]string, 0, 16) for _, file := range files { var r io.Reader var sz int64 switch file { case "-": r = os.Stdin default: f, err := os.Open(file) if err != nil { return err } if st, err := f.Stat(); err == nil { sz = st.Size() } defer f.Close() r = f } if strings.HasSuffix(file, ".zip") { zr, err := zip.NewReader(r.(io.ReaderAt), sz) if err != nil { return err } for _, file := range zr.File { if !file.FileInfo().IsDir() && strings.HasSuffix(file.Name, "xl.meta") { r, err := file.Open() if err != nil { return err } // Quote string... b, _ := json.Marshal(file.Name) b2, err := decode(r, file.Name) if err != nil { return err } var tmp map[string]interface{} if err := json.Unmarshal(b2, &tmp); err == nil { if b3, err := json.Marshal(tmp); err == nil { b2 = b3 } } toPrint = append(toPrint, fmt.Sprintf("\t%s: %s", string(b), string(b2))) } } } else { b0 := "" if ndjson { b, _ := json.Marshal(file) b0 = fmt.Sprintf("%s: ", string(b)) } b, err := decode(r, file) if err != nil { return err } b = bytes.TrimSpace(b) if !ndjson { b = bytes.TrimFunc(b, func(r rune) bool { return r == '{' || r == '}' || r == '\n' || r == '\r' }) } toPrint = append(toPrint, fmt.Sprintf("%s%s", b0, string(b))) } } sort.Strings(toPrint) fmt.Printf("{\n%s\n}\n", strings.Join(toPrint, ",\n")) if len(combineFiles) > 0 { for k, v := range combineFiles { if err := combine(v, k); err != nil { fmt.Println("ERROR:", err) } } } return nil } err := app.Run(os.Args) if err != nil { log.Fatal(err) } } var ( // XL header specifies the format xlHeader = [4]byte{'X', 'L', '2', ' '} // Current version being written. xlVersionCurrent [4]byte ) const ( // Breaking changes. // Newer versions cannot be read by older software. // This will prevent downgrades to incompatible versions. xlVersionMajor = 1 // Non breaking changes. // Bumping this is informational, but should be done // if any change is made to the data stored, bumping this // will allow to detect the exact version later. xlVersionMinor = 1 ) func init() { binary.LittleEndian.PutUint16(xlVersionCurrent[0:2], xlVersionMajor) binary.LittleEndian.PutUint16(xlVersionCurrent[2:4], xlVersionMinor) } // checkXL2V1 will check if the metadata has correct header and is a known major version. // The remaining payload and versions are returned. func checkXL2V1(buf []byte) (payload []byte, major, minor uint16, err error) { if len(buf) <= 8 { return payload, 0, 0, fmt.Errorf("xlMeta: no data") } if !bytes.Equal(buf[:4], xlHeader[:]) { return payload, 0, 0, fmt.Errorf("xlMeta: unknown XLv2 header, expected %v, got %v", xlHeader[:4], buf[:4]) } if bytes.Equal(buf[4:8], []byte("1 ")) { // Set as 1,0. major, minor = 1, 0 } else { major, minor = binary.LittleEndian.Uint16(buf[4:6]), binary.LittleEndian.Uint16(buf[6:8]) } if major > xlVersionMajor { return buf[8:], major, minor, fmt.Errorf("xlMeta: unknown major version %d found", major) } return buf[8:], major, minor, nil } const xlMetaInlineDataVer = 1 type xlMetaInlineData []byte // afterVersion returns the payload after the version, if any. func (x xlMetaInlineData) afterVersion() []byte { if len(x) == 0 { return x } return x[1:] } // versionOK returns whether the version is ok. func (x xlMetaInlineData) versionOK() bool { if len(x) == 0 { return true } return x[0] > 0 && x[0] <= xlMetaInlineDataVer } func (x xlMetaInlineData) json() ([]byte, error) { if len(x) == 0 { return []byte("{}"), nil } if !x.versionOK() { return nil, errors.New("xlMetaInlineData: unknown version") } sz, buf, err := msgp.ReadMapHeaderBytes(x.afterVersion()) if err != nil { return nil, err } res := []byte("{") for i := uint32(0); i < sz; i++ { var key, val []byte key, buf, err = msgp.ReadMapKeyZC(buf) if err != nil { return nil, err } if len(key) == 0 { return nil, fmt.Errorf("xlMetaInlineData: key %d is length 0", i) } // Skip data... val, buf, err = msgp.ReadBytesZC(buf) if err != nil { return nil, err } if i > 0 { res = append(res, ',') } s := fmt.Sprintf(`"%s":%d`, string(key), len(val)) res = append(res, []byte(s)...) } res = append(res, '}') return res, nil } // files returns files as callback. func (x xlMetaInlineData) files(fn func(name string, data []byte)) error { if len(x) == 0 { return nil } if !x.versionOK() { return errors.New("xlMetaInlineData: unknown version") } sz, buf, err := msgp.ReadMapHeaderBytes(x.afterVersion()) if err != nil { return err } for i := uint32(0); i < sz; i++ { var key, val []byte key, buf, err = msgp.ReadMapKeyZC(buf) if err != nil { return err } if len(key) == 0 { return fmt.Errorf("xlMetaInlineData: key %d is length 0", i) } // Read data... val, buf, err = msgp.ReadBytesZC(buf) if err != nil { return err } // Call back. fn(string(key), val) } return nil } const ( xlHeaderVersion = 2 xlMetaVersion = 2 ) func decodeXLHeaders(buf []byte) (versions int, b []byte, err error) { hdrVer, buf, err := msgp.ReadUintBytes(buf) if err != nil { return 0, buf, err } metaVer, buf, err := msgp.ReadUintBytes(buf) if err != nil { return 0, buf, err } if hdrVer > xlHeaderVersion { return 0, buf, fmt.Errorf("decodeXLHeaders: Unknown xl header version %d", metaVer) } if metaVer > xlMetaVersion { return 0, buf, fmt.Errorf("decodeXLHeaders: Unknown xl meta version %d", metaVer) } versions, buf, err = msgp.ReadIntBytes(buf) if err != nil { return 0, buf, err } if versions < 0 { return 0, buf, fmt.Errorf("decodeXLHeaders: Negative version count %d", versions) } return versions, buf, nil } // decodeVersions will decode a number of versions from a buffer // and perform a callback for each version in order, newest first. // Any non-nil error is returned. func decodeVersions(buf []byte, versions int, fn func(idx int, hdr, meta []byte) error) (err error) { var tHdr, tMeta []byte // Zero copy bytes for i := 0; i < versions; i++ { tHdr, buf, err = msgp.ReadBytesZC(buf) if err != nil { return err } tMeta, buf, err = msgp.ReadBytesZC(buf) if err != nil { return err } if err = fn(i, tHdr, tMeta); err != nil { return err } } return nil } type xlMetaV2VersionHeaderV2 struct { VersionID [16]byte ModTime int64 Signature [4]byte Type uint8 Flags uint8 } // UnmarshalMsg implements msgp.Unmarshaler func (z *xlMetaV2VersionHeaderV2) UnmarshalMsg(bts []byte) (o []byte, err error) { var zb0001 uint32 zb0001, bts, err = msgp.ReadArrayHeaderBytes(bts) if err != nil { err = msgp.WrapError(err) return } if zb0001 != 5 { err = msgp.ArrayError{Wanted: 5, Got: zb0001} return } bts, err = msgp.ReadExactBytes(bts, (z.VersionID)[:]) if err != nil { err = msgp.WrapError(err, "VersionID") return } z.ModTime, bts, err = msgp.ReadInt64Bytes(bts) if err != nil { err = msgp.WrapError(err, "ModTime") return } bts, err = msgp.ReadExactBytes(bts, (z.Signature)[:]) if err != nil { err = msgp.WrapError(err, "Signature") return } { var zb0002 uint8 zb0002, bts, err = msgp.ReadUint8Bytes(bts) if err != nil { err = msgp.WrapError(err, "Type") return } z.Type = zb0002 } { var zb0003 uint8 zb0003, bts, err = msgp.ReadUint8Bytes(bts) if err != nil { err = msgp.WrapError(err, "Flags") return } z.Flags = zb0003 } o = bts return } func (z xlMetaV2VersionHeaderV2) MarshalJSON() (o []byte, err error) { tmp := struct { VersionID string ModTime time.Time Signature string Type uint8 Flags uint8 }{ VersionID: hex.EncodeToString(z.VersionID[:]), ModTime: time.Unix(0, z.ModTime), Signature: hex.EncodeToString(z.Signature[:]), Type: z.Type, Flags: z.Flags, } return json.Marshal(tmp) } func combine(files []string, out string) error { sort.Strings(files) var size, shards, data, parity int mapped := make([]byte, size) filled := make([]byte, size) parityData := make(map[int]map[int][]byte) fmt.Printf("Attempting to combine version %q.\n", out) for _, file := range files { b, err := os.ReadFile(file) if err != nil { return err } meta, err := os.ReadFile(file + ".json") if err != nil { return err } type erasureInfo struct { V2Obj *struct { EcDist []int EcIndex int EcM int EcN int Size int } } var ei erasureInfo var idx int if err := json.Unmarshal(meta, &ei); err == nil && ei.V2Obj != nil { if size == 0 { size = ei.V2Obj.Size mapped = make([]byte, size) filled = make([]byte, size) } data = ei.V2Obj.EcM parity = ei.V2Obj.EcN if shards == 0 { shards = data + parity } idx = ei.V2Obj.EcIndex - 1 fmt.Println("Read shard", ei.V2Obj.EcIndex, "Data shards", data, "Parity", parity, fmt.Sprintf("(%s)", file)) if ei.V2Obj.Size != size { return fmt.Errorf("size mismatch. Meta size: %d", ei.V2Obj.Size) } } else { return err } if len(b) < 32 { return fmt.Errorf("file %s too short", file) } // Trim hash. Fine for inline data, since only one block. b = b[32:] set := parityData[data] if set == nil { set = make(map[int][]byte) } set[idx] = b parityData[data] = set // Combine start := len(b) * idx if start >= len(mapped) { continue } copy(mapped[start:], b) for j := range b { if j+start >= len(filled) { break } filled[j+start] = 1 } } lastValid := 0 missing := 0 for i := range filled { if filled[i] == 1 { lastValid = i } else { missing++ } } if missing > 0 && len(parityData) > 0 { fmt.Println("Attempting to reconstruct using parity sets:") for k, v := range parityData { if missing == 0 { break } fmt.Println("* Setup: Data shards:", k, "- Parity blocks:", len(v)) rs, err := reedsolomon.New(k, shards-k) if err != nil { return err } split, err := rs.Split(mapped) if err != nil { return err } splitFilled, err := rs.Split(filled) if err != nil { return err } ok := len(splitFilled) for i, sh := range splitFilled { for _, v := range sh { if v == 0 { split[i] = nil ok-- break } } } hasParity := 0 for idx, sh := range v { split[idx] = sh if idx >= k && len(v) > 0 { hasParity++ } } fmt.Printf("Have %d complete remapped data shards and %d complete parity shards. ", ok, hasParity) if err := rs.ReconstructData(split); err == nil { fmt.Println("Could reconstruct completely") for i, data := range split[:k] { start := i * len(data) copy(mapped[start:], data) } lastValid = size - 1 missing = 0 } else { fmt.Println("Could NOT reconstruct:", err) } } } if lastValid == 0 { return errors.New("no valid data found") } if missing > 0 { out += ".truncated" } else { out += ".complete" } fmt.Println(missing, "bytes missing. Truncating", len(filled)-lastValid-1, "from end.") mapped = mapped[:lastValid+1] err := os.WriteFile(out, mapped, os.ModePerm) if err != nil { return err } fmt.Println("Wrote output to", out) return nil }