// Package leveldb is a wrapper for c++ leveldb package leveldb /* #cgo LDFLAGS: -lleveldb #include #include "leveldb_ext.h" */ import "C" import ( "encoding/json" "os" "unsafe" ) const defaultFilterBits int = 10 type Config struct { Path string `json:"path"` Compression bool `json:"compression"` BlockSize int `json:"block_size"` WriteBufferSize int `json:"write_buffer_size"` CacheSize int `json:"cache_size"` MaxOpenFiles int `json:"max_open_files"` } type DB struct { cfg *Config db *C.leveldb_t opts *Options //for default read and write options readOpts *ReadOptions writeOpts *WriteOptions iteratorOpts *ReadOptions syncWriteOpts *WriteOptions cache *Cache filter *FilterPolicy } func OpenWithJsonConfig(configJson json.RawMessage) (*DB, error) { cfg := new(Config) err := json.Unmarshal(configJson, cfg) if err != nil { return nil, err } return Open(cfg) } func Open(cfg *Config) (*DB, error) { if err := os.MkdirAll(cfg.Path, os.ModePerm); err != nil { return nil, err } db := new(DB) db.cfg = cfg if err := db.open(); err != nil { return nil, err } return db, nil } func (db *DB) open() error { db.initOptions(db.cfg) var errStr *C.char ldbname := C.CString(db.cfg.Path) defer C.leveldb_free(unsafe.Pointer(ldbname)) db.db = C.leveldb_open(db.opts.Opt, ldbname, &errStr) if errStr != nil { db.db = nil return saveError(errStr) } return nil } func Repair(cfg *Config) error { db := new(DB) db.cfg = cfg err := db.open() defer db.Close() //open ok, do not need repair if err == nil { return nil } var errStr *C.char ldbname := C.CString(db.cfg.Path) defer C.leveldb_free(unsafe.Pointer(ldbname)) C.leveldb_repair_db(db.opts.Opt, ldbname, &errStr) if errStr != nil { return saveError(errStr) } return nil } func (db *DB) initOptions(cfg *Config) { opts := NewOptions() opts.SetCreateIfMissing(true) if cfg.CacheSize <= 0 { cfg.CacheSize = 4 * 1024 * 1024 } db.cache = NewLRUCache(cfg.CacheSize) opts.SetCache(db.cache) //we must use bloomfilter db.filter = NewBloomFilter(defaultFilterBits) opts.SetFilterPolicy(db.filter) if !cfg.Compression { opts.SetCompression(NoCompression) } if cfg.BlockSize <= 0 { cfg.BlockSize = 4 * 1024 } opts.SetBlockSize(cfg.BlockSize) if cfg.WriteBufferSize <= 0 { cfg.WriteBufferSize = 4 * 1024 * 1024 } opts.SetWriteBufferSize(cfg.WriteBufferSize) if cfg.MaxOpenFiles < 1024 { cfg.MaxOpenFiles = 1024 } opts.SetMaxOpenFiles(cfg.MaxOpenFiles) db.opts = opts db.readOpts = NewReadOptions() db.writeOpts = NewWriteOptions() db.iteratorOpts = NewReadOptions() db.iteratorOpts.SetFillCache(false) db.syncWriteOpts = NewWriteOptions() db.syncWriteOpts.SetSync(true) } func (db *DB) Close() error { if db.db != nil { C.leveldb_close(db.db) db.db = nil } db.opts.Close() if db.cache != nil { db.cache.Close() } if db.filter != nil { db.filter.Close() } db.readOpts.Close() db.writeOpts.Close() db.iteratorOpts.Close() db.syncWriteOpts.Close() return nil } func (db *DB) Destroy() error { path := db.cfg.Path db.Close() opts := NewOptions() defer opts.Close() var errStr *C.char ldbname := C.CString(path) defer C.leveldb_free(unsafe.Pointer(ldbname)) C.leveldb_destroy_db(opts.Opt, ldbname, &errStr) if errStr != nil { return saveError(errStr) } return nil } func (db *DB) Clear() error { bc := db.NewWriteBatch() defer bc.Close() var err error it := db.NewIterator() it.SeekToFirst() num := 0 for ; it.Valid(); it.Next() { bc.Delete(it.RawKey()) num++ if num == 1000 { num = 0 if err = bc.Commit(); err != nil { return err } } } err = bc.Commit() return err } func (db *DB) Put(key, value []byte) error { return db.put(db.writeOpts, key, value) } func (db *DB) SyncPut(key, value []byte) error { return db.put(db.syncWriteOpts, key, value) } func (db *DB) Get(key []byte) ([]byte, error) { return db.get(nil, db.readOpts, key) } func (db *DB) BufGet(r []byte, key []byte) ([]byte, error) { return db.get(r, db.readOpts, key) } func (db *DB) Delete(key []byte) error { return db.delete(db.writeOpts, key) } func (db *DB) SyncDelete(key []byte) error { return db.delete(db.syncWriteOpts, key) } func (db *DB) NewWriteBatch() *WriteBatch { wb := &WriteBatch{ db: db, wbatch: C.leveldb_writebatch_create(), } return wb } func (db *DB) NewSnapshot() *Snapshot { s := &Snapshot{ db: db, snap: C.leveldb_create_snapshot(db.db), readOpts: NewReadOptions(), iteratorOpts: NewReadOptions(), } s.readOpts.SetSnapshot(s) s.iteratorOpts.SetSnapshot(s) s.iteratorOpts.SetFillCache(false) return s } func (db *DB) NewIterator() *Iterator { it := new(Iterator) it.it = C.leveldb_create_iterator(db.db, db.iteratorOpts.Opt) return it } func (db *DB) RangeIterator(min []byte, max []byte, rangeType uint8) *RangeLimitIterator { return NewRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{0, -1}) } func (db *DB) RevRangeIterator(min []byte, max []byte, rangeType uint8) *RangeLimitIterator { return NewRevRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{0, -1}) } //count < 0, unlimit. // //offset must >= 0, if < 0, will get nothing. func (db *DB) RangeLimitIterator(min []byte, max []byte, rangeType uint8, offset int, count int) *RangeLimitIterator { return NewRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{offset, count}) } //count < 0, unlimit. // //offset must >= 0, if < 0, will get nothing. func (db *DB) RevRangeLimitIterator(min []byte, max []byte, rangeType uint8, offset int, count int) *RangeLimitIterator { return NewRevRangeLimitIterator(db.NewIterator(), &Range{min, max, rangeType}, &Limit{offset, count}) } func (db *DB) put(wo *WriteOptions, key, value []byte) error { var errStr *C.char var k, v *C.char if len(key) != 0 { k = (*C.char)(unsafe.Pointer(&key[0])) } if len(value) != 0 { v = (*C.char)(unsafe.Pointer(&value[0])) } lenk := len(key) lenv := len(value) C.leveldb_put( db.db, wo.Opt, k, C.size_t(lenk), v, C.size_t(lenv), &errStr) if errStr != nil { return saveError(errStr) } return nil } func (db *DB) get(r []byte, ro *ReadOptions, key []byte) ([]byte, error) { var errStr *C.char var vallen C.size_t var k *C.char if len(key) != 0 { k = (*C.char)(unsafe.Pointer(&key[0])) } var value *C.char c := C.leveldb_get_ext( db.db, ro.Opt, k, C.size_t(len(key)), &value, &vallen, &errStr) if errStr != nil { return nil, saveError(errStr) } if value == nil { return nil, nil } defer C.leveldb_get_free_ext(unsafe.Pointer(c)) if r == nil { r = []byte{} } r = r[0:0] b := slice(unsafe.Pointer(value), int(C.int(vallen))) return append(r, b...), nil } func (db *DB) delete(wo *WriteOptions, key []byte) error { var errStr *C.char var k *C.char if len(key) != 0 { k = (*C.char)(unsafe.Pointer(&key[0])) } C.leveldb_delete( db.db, wo.Opt, k, C.size_t(len(key)), &errStr) if errStr != nil { return saveError(errStr) } return nil }