package boltdb import ( "bytes" "encoding/binary" "errors" "os" "path/filepath" "sync" "sync/atomic" "time" "github.com/boltdb/bolt" "github.com/docker/libkv" "github.com/docker/libkv/store" ) var ( // ErrMultipleEndpointsUnsupported is thrown when multiple endpoints specified for // BoltDB. Endpoint has to be a local file path ErrMultipleEndpointsUnsupported = errors.New("boltdb supports one endpoint and should be a file path") // ErrBoltBucketOptionMissing is thrown when boltBcuket config option is missing ErrBoltBucketOptionMissing = errors.New("boltBucket config option missing") ) const ( filePerm os.FileMode = 0644 ) //BoltDB type implements the Store interface type BoltDB struct { client *bolt.DB boltBucket []byte dbIndex uint64 path string timeout time.Duration // By default libkv opens and closes the bolt DB connection for every // get/put operation. This allows multiple apps to use a Bolt DB at the // same time. // PersistConnection flag provides an option to override ths behavior. // ie: open the connection in New and use it till Close is called. PersistConnection bool sync.Mutex } const ( libkvmetadatalen = 8 transientTimeout = time.Duration(10) * time.Second ) // Register registers boltdb to libkv func Register() { libkv.AddStore(store.BOLTDB, New) } // New opens a new BoltDB connection to the specified path and bucket func New(endpoints []string, options *store.Config) (store.Store, error) { var ( db *bolt.DB err error boltOptions *bolt.Options timeout = transientTimeout ) if len(endpoints) > 1 { return nil, ErrMultipleEndpointsUnsupported } if (options == nil) || (len(options.Bucket) == 0) { return nil, ErrBoltBucketOptionMissing } dir, _ := filepath.Split(endpoints[0]) if err = os.MkdirAll(dir, 0750); err != nil { return nil, err } if options.PersistConnection { boltOptions = &bolt.Options{Timeout: options.ConnectionTimeout} db, err = bolt.Open(endpoints[0], filePerm, boltOptions) if err != nil { return nil, err } } if options.ConnectionTimeout != 0 { timeout = options.ConnectionTimeout } b := &BoltDB{ client: db, path: endpoints[0], boltBucket: []byte(options.Bucket), timeout: timeout, PersistConnection: options.PersistConnection, } return b, nil } func (b *BoltDB) reset() { b.path = "" b.boltBucket = []byte{} } func (b *BoltDB) getDBhandle() (*bolt.DB, error) { var ( db *bolt.DB err error ) if !b.PersistConnection { boltOptions := &bolt.Options{Timeout: b.timeout} if db, err = bolt.Open(b.path, filePerm, boltOptions); err != nil { return nil, err } b.client = db } return b.client, nil } func (b *BoltDB) releaseDBhandle() { if !b.PersistConnection { b.client.Close() } } // Get the value at "key". BoltDB doesn't provide an inbuilt last modified index with every kv pair. Its implemented by // by a atomic counter maintained by the libkv and appened to the value passed by the client. func (b *BoltDB) Get(key string) (*store.KVPair, error) { var ( val []byte db *bolt.DB err error ) b.Lock() defer b.Unlock() if db, err = b.getDBhandle(); err != nil { return nil, err } defer b.releaseDBhandle() err = db.View(func(tx *bolt.Tx) error { bucket := tx.Bucket(b.boltBucket) if bucket == nil { return store.ErrKeyNotFound } v := bucket.Get([]byte(key)) val = make([]byte, len(v)) copy(val, v) return nil }) if len(val) == 0 { return nil, store.ErrKeyNotFound } if err != nil { return nil, err } dbIndex := binary.LittleEndian.Uint64(val[:libkvmetadatalen]) val = val[libkvmetadatalen:] return &store.KVPair{Key: key, Value: val, LastIndex: (dbIndex)}, nil } //Put the key, value pair. index number metadata is prepended to the value func (b *BoltDB) Put(key string, value []byte, opts *store.WriteOptions) error { var ( dbIndex uint64 db *bolt.DB err error ) b.Lock() defer b.Unlock() dbval := make([]byte, libkvmetadatalen) if db, err = b.getDBhandle(); err != nil { return err } defer b.releaseDBhandle() err = db.Update(func(tx *bolt.Tx) error { bucket, err := tx.CreateBucketIfNotExists(b.boltBucket) if err != nil { return err } dbIndex = atomic.AddUint64(&b.dbIndex, 1) binary.LittleEndian.PutUint64(dbval, dbIndex) dbval = append(dbval, value...) err = bucket.Put([]byte(key), dbval) if err != nil { return err } return nil }) return err } //Delete the value for the given key. func (b *BoltDB) Delete(key string) error { var ( db *bolt.DB err error ) b.Lock() defer b.Unlock() if db, err = b.getDBhandle(); err != nil { return err } defer b.releaseDBhandle() err = db.Update(func(tx *bolt.Tx) error { bucket := tx.Bucket(b.boltBucket) if bucket == nil { return store.ErrKeyNotFound } err := bucket.Delete([]byte(key)) return err }) return err } // Exists checks if the key exists inside the store func (b *BoltDB) Exists(key string) (bool, error) { var ( val []byte db *bolt.DB err error ) b.Lock() defer b.Unlock() if db, err = b.getDBhandle(); err != nil { return false, err } defer b.releaseDBhandle() err = db.View(func(tx *bolt.Tx) error { bucket := tx.Bucket(b.boltBucket) if bucket == nil { return store.ErrKeyNotFound } val = bucket.Get([]byte(key)) return nil }) if len(val) == 0 { return false, err } return true, err } // List returns the range of keys starting with the passed in prefix func (b *BoltDB) List(keyPrefix string) ([]*store.KVPair, error) { var ( db *bolt.DB err error ) b.Lock() defer b.Unlock() kv := []*store.KVPair{} if db, err = b.getDBhandle(); err != nil { return nil, err } defer b.releaseDBhandle() err = db.View(func(tx *bolt.Tx) error { bucket := tx.Bucket(b.boltBucket) if bucket == nil { return store.ErrKeyNotFound } cursor := bucket.Cursor() prefix := []byte(keyPrefix) for key, v := cursor.Seek(prefix); bytes.HasPrefix(key, prefix); key, v = cursor.Next() { dbIndex := binary.LittleEndian.Uint64(v[:libkvmetadatalen]) v = v[libkvmetadatalen:] val := make([]byte, len(v)) copy(val, v) kv = append(kv, &store.KVPair{ Key: string(key), Value: val, LastIndex: dbIndex, }) } return nil }) if len(kv) == 0 { return nil, store.ErrKeyNotFound } return kv, err } // AtomicDelete deletes a value at "key" if the key // has not been modified in the meantime, throws an // error if this is the case func (b *BoltDB) AtomicDelete(key string, previous *store.KVPair) (bool, error) { var ( val []byte db *bolt.DB err error ) b.Lock() defer b.Unlock() if previous == nil { return false, store.ErrPreviousNotSpecified } if db, err = b.getDBhandle(); err != nil { return false, err } defer b.releaseDBhandle() err = db.Update(func(tx *bolt.Tx) error { bucket := tx.Bucket(b.boltBucket) if bucket == nil { return store.ErrKeyNotFound } val = bucket.Get([]byte(key)) if val == nil { return store.ErrKeyNotFound } dbIndex := binary.LittleEndian.Uint64(val[:libkvmetadatalen]) if dbIndex != previous.LastIndex { return store.ErrKeyModified } err := bucket.Delete([]byte(key)) return err }) if err != nil { return false, err } return true, err } // AtomicPut puts a value at "key" if the key has not been // modified since the last Put, throws an error if this is the case func (b *BoltDB) AtomicPut(key string, value []byte, previous *store.KVPair, options *store.WriteOptions) (bool, *store.KVPair, error) { var ( val []byte dbIndex uint64 db *bolt.DB err error ) b.Lock() defer b.Unlock() dbval := make([]byte, libkvmetadatalen) if db, err = b.getDBhandle(); err != nil { return false, nil, err } defer b.releaseDBhandle() err = db.Update(func(tx *bolt.Tx) error { var err error bucket := tx.Bucket(b.boltBucket) if bucket == nil { if previous != nil { return store.ErrKeyNotFound } bucket, err = tx.CreateBucket(b.boltBucket) if err != nil { return err } } // AtomicPut is equivalent to Put if previous is nil and the Ky // doesn't exist in the DB. val = bucket.Get([]byte(key)) if previous == nil && len(val) != 0 { return store.ErrKeyExists } if previous != nil { if len(val) == 0 { return store.ErrKeyNotFound } dbIndex = binary.LittleEndian.Uint64(val[:libkvmetadatalen]) if dbIndex != previous.LastIndex { return store.ErrKeyModified } } dbIndex = atomic.AddUint64(&b.dbIndex, 1) binary.LittleEndian.PutUint64(dbval, b.dbIndex) dbval = append(dbval, value...) return (bucket.Put([]byte(key), dbval)) }) if err != nil { return false, nil, err } updated := &store.KVPair{ Key: key, Value: value, LastIndex: dbIndex, } return true, updated, nil } // Close the db connection to the BoltDB func (b *BoltDB) Close() { b.Lock() defer b.Unlock() if !b.PersistConnection { b.reset() } else { b.client.Close() } return } // DeleteTree deletes a range of keys with a given prefix func (b *BoltDB) DeleteTree(keyPrefix string) error { var ( db *bolt.DB err error ) b.Lock() defer b.Unlock() if db, err = b.getDBhandle(); err != nil { return err } defer b.releaseDBhandle() err = db.Update(func(tx *bolt.Tx) error { bucket := tx.Bucket(b.boltBucket) if bucket == nil { return store.ErrKeyNotFound } cursor := bucket.Cursor() prefix := []byte(keyPrefix) for key, _ := cursor.Seek(prefix); bytes.HasPrefix(key, prefix); key, _ = cursor.Next() { _ = bucket.Delete([]byte(key)) } return nil }) return err } // NewLock has to implemented at the library level since its not supported by BoltDB func (b *BoltDB) NewLock(key string, options *store.LockOptions) (store.Locker, error) { return nil, store.ErrCallNotSupported } // Watch has to implemented at the library level since its not supported by BoltDB func (b *BoltDB) Watch(key string, stopCh <-chan struct{}) (<-chan *store.KVPair, error) { return nil, store.ErrCallNotSupported } // WatchTree has to implemented at the library level since its not supported by BoltDB func (b *BoltDB) WatchTree(directory string, stopCh <-chan struct{}) (<-chan []*store.KVPair, error) { return nil, store.ErrCallNotSupported }