// Package flatfs is a Datastore implementation that stores all // objects in a two-level directory structure in the local file // system, regardless of the hierarchy of the keys. package flatfs import ( "encoding/hex" "errors" "io/ioutil" "os" "path" "path/filepath" "strings" "time" "github.com/jbenet/go-datastore" "github.com/jbenet/go-datastore/Godeps/_workspace/src/github.com/jbenet/go-os-rename" "github.com/jbenet/go-datastore/query" logging "github.com/jbenet/go-datastore/Godeps/_workspace/src/github.com/ipfs/go-log" ) var log = logging.Logger("flatfs") const ( extension = ".data" maxPrefixLen = 16 ) var ( ErrBadPrefixLen = errors.New("bad prefix length") ) type Datastore struct { path string // length of the dir splay prefix, in bytes of hex digits hexPrefixLen int // sychronize all writes and directory changes for added safety sync bool } var _ datastore.Datastore = (*Datastore)(nil) func New(path string, prefixLen int, sync bool) (*Datastore, error) { if prefixLen <= 0 || prefixLen > maxPrefixLen { return nil, ErrBadPrefixLen } fs := &Datastore{ path: path, // convert from binary bytes to bytes of hex encoding hexPrefixLen: prefixLen * hex.EncodedLen(1), sync: sync, } return fs, nil } var padding = strings.Repeat("_", maxPrefixLen*hex.EncodedLen(1)) func (fs *Datastore) encode(key datastore.Key) (dir, file string) { safe := hex.EncodeToString(key.Bytes()[1:]) prefix := (safe + padding)[:fs.hexPrefixLen] dir = path.Join(fs.path, prefix) file = path.Join(dir, safe+extension) return dir, file } func (fs *Datastore) decode(file string) (key datastore.Key, ok bool) { if path.Ext(file) != extension { return datastore.Key{}, false } name := file[:len(file)-len(extension)] k, err := hex.DecodeString(name) if err != nil { return datastore.Key{}, false } return datastore.NewKey(string(k)), true } func (fs *Datastore) makePrefixDir(dir string) error { if err := fs.makePrefixDirNoSync(dir); err != nil { return err } // In theory, if we create a new prefix dir and add a file to // it, the creation of the prefix dir itself might not be // durable yet. Sync the root dir after a successful mkdir of // a prefix dir, just to be paranoid. if fs.sync { if err := syncDir(fs.path); err != nil { return err } } return nil } func (fs *Datastore) makePrefixDirNoSync(dir string) error { if err := os.Mkdir(dir, 0777); err != nil { // EEXIST is safe to ignore here, that just means the prefix // directory already existed. if !os.IsExist(err) { return err } } return nil } var putMaxRetries = 3 func (fs *Datastore) Put(key datastore.Key, value interface{}) error { val, ok := value.([]byte) if !ok { return datastore.ErrInvalidType } var err error for i := 0; i < putMaxRetries; i++ { err = fs.doPut(key, val) if err == nil { return nil } if !strings.Contains(err.Error(), "too many open files") { return err } log.Error("too many open files, retrying in %dms", 100*i) time.Sleep(time.Millisecond * 100 * time.Duration(i)) } return err } func (fs *Datastore) doPut(key datastore.Key, val []byte) error { dir, path := fs.encode(key) if err := fs.makePrefixDir(dir); err != nil { return err } tmp, err := ioutil.TempFile(dir, "put-") if err != nil { return err } closed := false removed := false defer func() { if !closed { // silence errcheck _ = tmp.Close() } if !removed { // silence errcheck _ = os.Remove(tmp.Name()) } }() if _, err := tmp.Write(val); err != nil { return err } if fs.sync { if err := tmp.Sync(); err != nil { return err } } if err := tmp.Close(); err != nil { return err } closed = true err = osrename.Rename(tmp.Name(), path) if err != nil { return err } removed = true if fs.sync { if err := syncDir(dir); err != nil { return err } } return nil } func (fs *Datastore) putMany(data map[datastore.Key]interface{}) error { var dirsToSync []string files := make(map[*os.File]string) for key, value := range data { val, ok := value.([]byte) if !ok { return datastore.ErrInvalidType } dir, path := fs.encode(key) if err := fs.makePrefixDirNoSync(dir); err != nil { return err } dirsToSync = append(dirsToSync, dir) tmp, err := ioutil.TempFile(dir, "put-") if err != nil { return err } if _, err := tmp.Write(val); err != nil { return err } files[tmp] = path } ops := make(map[*os.File]int) defer func() { for fi, _ := range files { val, _ := ops[fi] switch val { case 0: _ = fi.Close() fallthrough case 1: _ = os.Remove(fi.Name()) } } }() // Now we sync everything // sync and close files for fi, _ := range files { if fs.sync { if err := fi.Sync(); err != nil { return err } } if err := fi.Close(); err != nil { return err } // signify closed ops[fi] = 1 } // move files to their proper places for fi, path := range files { if err := osrename.Rename(fi.Name(), path); err != nil { return err } // signify removed ops[fi] = 2 } // now sync the dirs for those files if fs.sync { for _, dir := range dirsToSync { if err := syncDir(dir); err != nil { return err } } // sync top flatfs dir if err := syncDir(fs.path); err != nil { return err } } return nil } func (fs *Datastore) Get(key datastore.Key) (value interface{}, err error) { _, path := fs.encode(key) data, err := ioutil.ReadFile(path) if err != nil { if os.IsNotExist(err) { return nil, datastore.ErrNotFound } // no specific error to return, so just pass it through return nil, err } return data, nil } func (fs *Datastore) Has(key datastore.Key) (exists bool, err error) { _, path := fs.encode(key) switch _, err := os.Stat(path); { case err == nil: return true, nil case os.IsNotExist(err): return false, nil default: return false, err } } func (fs *Datastore) Delete(key datastore.Key) error { _, path := fs.encode(key) switch err := os.Remove(path); { case err == nil: return nil case os.IsNotExist(err): return datastore.ErrNotFound default: return err } } func (fs *Datastore) Query(q query.Query) (query.Results, error) { if (q.Prefix != "" && q.Prefix != "/") || len(q.Filters) > 0 || len(q.Orders) > 0 || q.Limit > 0 || q.Offset > 0 || !q.KeysOnly { // TODO this is overly simplistic, but the only caller is // `ipfs refs local` for now, and this gets us moving. return nil, errors.New("flatfs only supports listing all keys in random order") } reschan := make(chan query.Result) go func() { defer close(reschan) err := filepath.Walk(fs.path, func(path string, info os.FileInfo, err error) error { if !info.Mode().IsRegular() || strings.HasPrefix(info.Name(), ".") { return nil } key, ok := fs.decode(info.Name()) if !ok { log.Warning("failed to decode entry in flatfs") return nil } reschan <- query.Result{ Entry: query.Entry{ Key: key.String(), }, } return nil }) if err != nil { log.Warning("walk failed: ", err) } }() return query.ResultsWithChan(q, reschan), nil } func (fs *Datastore) Close() error { return nil } type flatfsBatch struct { puts map[datastore.Key]interface{} deletes map[datastore.Key]struct{} ds *Datastore } func (fs *Datastore) Batch() (datastore.Batch, error) { return &flatfsBatch{ puts: make(map[datastore.Key]interface{}), deletes: make(map[datastore.Key]struct{}), ds: fs, }, nil } func (bt *flatfsBatch) Put(key datastore.Key, val interface{}) error { bt.puts[key] = val return nil } func (bt *flatfsBatch) Delete(key datastore.Key) error { bt.deletes[key] = struct{}{} return nil } func (bt *flatfsBatch) Commit() error { if err := bt.ds.putMany(bt.puts); err != nil { return err } for k, _ := range bt.deletes { if err := bt.ds.Delete(k); err != nil { return err } } return nil } var _ datastore.ThreadSafeDatastore = (*Datastore)(nil) func (*Datastore) IsThreadSafe() {}