/* Manage a deduplicated versionned backups repository. Sample repository: ``` repo/ ├── 00000/ │ ├── chunks/ │ │ ├── 000000000000000 │ │ ├── 000000000000001 │ │ ├── 000000000000002 │ │ ├── 000000000000003 │ ├── files │ └── recipe └── 00001/ ├── chunks/ │ ├── 000000000000000 │ ├── 000000000000001 ├── files └── recipe ``` */ package main import ( "bufio" "encoding/gob" "fmt" "hash" "io" "io/fs" "log" "os" "path" "path/filepath" "github.com/chmduquesne/rollinghash/rabinkarp64" ) type FingerprintMap map[uint64]*ChunkId type SketchMap map[uint64][]*ChunkId type Repo struct { path string } type File struct { Path string Size int64 } func NewRepo(path string) *Repo { os.MkdirAll(path, 0775) return &Repo{path} } func (r *Repo) Commit(source string) { versions := r.loadVersions() newVersion := len(versions) newPath := path.Join(r.path, fmt.Sprintf(versionFmt, newVersion)) newChunkPath := path.Join(newPath, chunksName) // newFilesPath := path.Join(newPath, filesName) os.Mkdir(newPath, 0775) os.Mkdir(newChunkPath, 0775) reader, writer := io.Pipe() oldChunks := make(chan StoredChunk, 16) files := listFiles(source) go r.loadChunks(versions, oldChunks) go concatFiles(files, writer) fingerprints, _ := hashChunks(oldChunks) chunks := r.matchStream(reader, fingerprints) extractTempChunks(chunks) // storeChunks(newChunkPath, newChunks) // storeFiles(newFilesPath, files) fmt.Println(files) } func (r *Repo) loadVersions() []string { var versions []string files, err := os.ReadDir(r.path) if err != nil { log.Fatalln(err) } for _, f := range files { if !f.IsDir() { continue } versions = append(versions, path.Join(r.path, f.Name())) } return versions } func listFiles(path string) []File { var files []File err := filepath.Walk(path, func(p string, i fs.FileInfo, err error) error { if err != nil { log.Println(err) return err } if i.IsDir() { return nil } files = append(files, File{p, i.Size()}) return nil }) if err != nil { log.Println(err) } return files } func concatFiles(files []File, stream io.WriteCloser) { for _, f := range files { file, err := os.Open(f.Path) if err != nil { log.Printf("Error reading file '%s': %s\n", f.Path, err) continue } io.Copy(stream, file) } stream.Close() } func chunkStream(stream io.Reader, chunks chan<- []byte) { var buff []byte var prev, read = chunkSize, 0 var err error for err != io.EOF { if prev == chunkSize { buff = make([]byte, chunkSize) prev, err = stream.Read(buff) } else { read, err = stream.Read(buff[prev:]) prev += read } if err != nil && err != io.EOF { log.Println(err) } if prev == chunkSize { chunks <- buff } } if prev != chunkSize { chunks <- buff[:prev] } close(chunks) } func storeFileList(dest string, files []File) { err := writeFile(dest, files) if err != nil { log.Println(err) } } func loadFileList(path string) []File { var files []File err := readFile(path, &files) if err != nil { log.Println(err) } return files } func storeChunks(dest string, chunks <-chan []byte) { i := 0 for c := range chunks { path := path.Join(dest, fmt.Sprintf(chunkIdFmt, i)) err := os.WriteFile(path, c, 0664) if err != nil { log.Println(err) } i++ } } func (r *Repo) loadChunks(versions []string, chunks chan<- StoredChunk) { for i, v := range versions { p := path.Join(v, chunksName) entries, err := os.ReadDir(p) if err != nil { log.Printf("Error reading version '%05d' in '%s' chunks: %s", i, v, err) } for j, e := range entries { if e.IsDir() { continue } f := path.Join(p, e.Name()) buff, err := os.ReadFile(f) if err != nil { log.Printf("Error reading chunk '%s': %s", f, err.Error()) } c := NewLoadedChunk( &ChunkId{ Ver: i, Idx: uint64(j), }, buff, ) chunks <- c } } close(chunks) } // hashChunks calculates the hashes for a channel of chunks. // // For each chunk, both a fingerprint (hash over the full content) and a sketch // (resemblance hash based on maximal values of regions) are calculated and // stored in an hashmap which are then returned. func hashChunks(chunks <-chan StoredChunk) (FingerprintMap, SketchMap) { fingerprints := make(FingerprintMap) sketches := make(SketchMap) hasher := hash.Hash64(rabinkarp64.New()) for c := range chunks { hasher.Reset() io.Copy(hasher, c.Reader()) h := hasher.Sum64() fingerprints[h] = c.Id() sketch, _ := SketchChunk(c, sketchWSize, sketchSfCount, sketchFCount) for _, s := range sketch { prev := sketches[s] if contains(prev, c.Id()) { continue } sketches[s] = append(prev, c.Id()) } } return fingerprints, sketches } func contains(s []*ChunkId, id *ChunkId) bool { for _, v := range s { if v == id { return true } } return false } func findSimilarChunk(chunk Chunk, sketches SketchMap) (*ChunkId, bool) { var similarChunks = make(map[ChunkId]int) var max int var similarChunk *ChunkId sketch, _ := SketchChunk(chunk, sketchWSize, sketchSfCount, sketchFCount) for _, s := range sketch { chunkIds, exists := sketches[s] if !exists { continue } for _, id := range chunkIds { count := similarChunks[*id] count += 1 log.Printf("Found %d %d time(s)", id, count) if count > max { similarChunk = id } similarChunks[*id] = count } } return similarChunk, similarChunk != nil } func (r *Repo) matchStream(stream io.Reader, fingerprints FingerprintMap) []Chunk { var b byte var chunks []Chunk bufStream := bufio.NewReaderSize(stream, chunkSize) buff := make([]byte, 0, chunkSize*2) n, err := io.ReadFull(stream, buff[:chunkSize]) if n < chunkSize { chunks = append(chunks, NewTempChunk(buff[:n])) return chunks } hasher := rabinkarp64.New() hasher.Write(buff[:n]) for err != io.EOF { h := hasher.Sum64() chunkId, exists := fingerprints[h] if exists { if len(buff) > chunkSize && len(buff) < chunkSize*2 { size := len(buff) - chunkSize log.Println("Add new partial chunk of size:", size) chunks = append(chunks, NewTempChunk(buff[:size])) } log.Printf("Add existing chunk: %d\n", chunkId) chunks = append(chunks, NewChunkFile(r, chunkId)) buff = make([]byte, 0, chunkSize*2) for i := 0; i < chunkSize && err == nil; i++ { b, err = bufStream.ReadByte() hasher.Roll(b) buff = append(buff, b) } continue } if len(buff) == chunkSize*2 { log.Println("Add new chunk") chunks = append(chunks, NewTempChunk(buff[:chunkSize])) tmp := buff[chunkSize:] buff = make([]byte, 0, chunkSize*2) buff = append(buff, tmp...) } b, err = bufStream.ReadByte() if err != io.EOF { hasher.Roll(b) buff = append(buff, b) } } if len(buff) > chunkSize { log.Println("Add new chunk") chunks = append(chunks, NewTempChunk(buff[:chunkSize])) log.Println("Add new partial chunk of size:", len(buff)-chunkSize) chunks = append(chunks, NewTempChunk(buff[chunkSize:])) } else if len(buff) > 0 { log.Println("Add new partial chunk of size:", len(buff)) chunks = append(chunks, NewTempChunk(buff)) } return chunks } // mergeTempChunks joins temporary partial chunks from an array of chunks if possible. // If a chunk is smaller than the size required to calculate a super-feature, // it is then appended to the previous consecutive temporary chunk if it exists. func mergeTempChunks(chunks []Chunk) (ret []Chunk) { var prev *TempChunk var curr *TempChunk for _, c := range chunks { tmp, isTmp := c.(*TempChunk) if !isTmp { if prev != nil && curr.Len() <= SuperFeatureSize(chunkSize, sketchSfCount, sketchFCount) { prev.AppendFrom(curr.Reader()) } else if curr != nil { ret = append(ret, curr) } ret = append(ret, c) curr = nil prev = nil } else { prev = curr curr = tmp if prev != nil { ret = append(ret, prev) } } } if curr != nil { ret = append(ret, curr) } return } func extractTempChunks(chunks []Chunk) (ret []*TempChunk) { for _, c := range chunks { tmp, isTmp := c.(*TempChunk) if isTmp { ret = append(ret, tmp) } } return } func writeFile(filePath string, object interface{}) error { file, err := os.Create(filePath) if err == nil { encoder := gob.NewEncoder(file) encoder.Encode(object) } file.Close() return err } func readFile(filePath string, object interface{}) error { file, err := os.Open(filePath) if err == nil { decoder := gob.NewDecoder(file) err = decoder.Decode(object) } file.Close() return err }