package server import ( "errors" "fmt" "strings" "sync" "time" "github.com/siddontang/go/hack" "github.com/siddontang/go/log" goledis "github.com/siddontang/ledisdb/client/goledis" "github.com/siddontang/ledisdb/ledis" ) func dumpCommand(c *client) error { if len(c.args) != 1 { return ErrCmdParams } key := c.args[0] if data, err := c.db.Dump(key); err != nil { return err } else { c.resp.writeBulk(data) } return nil } func ldumpCommand(c *client) error { if len(c.args) != 1 { return ErrCmdParams } key := c.args[0] if data, err := c.db.LDump(key); err != nil { return err } else { c.resp.writeBulk(data) } return nil } func hdumpCommand(c *client) error { if len(c.args) != 1 { return ErrCmdParams } key := c.args[0] if data, err := c.db.HDump(key); err != nil { return err } else { c.resp.writeBulk(data) } return nil } func sdumpCommand(c *client) error { if len(c.args) != 1 { return ErrCmdParams } key := c.args[0] if data, err := c.db.SDump(key); err != nil { return err } else { c.resp.writeBulk(data) } return nil } func zdumpCommand(c *client) error { if len(c.args) != 1 { return ErrCmdParams } key := c.args[0] if data, err := c.db.ZDump(key); err != nil { return err } else { c.resp.writeBulk(data) } return nil } // unlike redis, restore will try to delete old key first func restoreCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } key := args[0] ttl, err := ledis.StrInt64(args[1], nil) if err != nil { return err } data := args[2] if err = c.db.Restore(key, ttl, data); err != nil { return err } else { c.resp.writeStatus(OK) } return nil } // maybe only used in xcodis for redis data port func xrestoreCommand(c *client) error { args := c.args if len(args) != 4 { return ErrCmdParams } // tp := strings.ToUpper(string(args[2])) key := args[1] ttl, err := ledis.StrInt64(args[2], nil) if err != nil { return err } data := args[3] if err = c.db.Restore(key, ttl, data); err != nil { return err } else { c.resp.writeStatus(OK) } return nil } func xdump(db *ledis.DB, tp string, key []byte) ([]byte, error) { var err error var data []byte switch strings.ToUpper(tp) { case KVName: data, err = db.Dump(key) case HashName: data, err = db.HDump(key) case ListName: data, err = db.LDump(key) case SetName: data, err = db.SDump(key) case ZSetName: data, err = db.ZDump(key) default: err = fmt.Errorf("invalid key type %s", tp) } return data, err } func xdel(db *ledis.DB, tp string, key []byte) error { var err error switch strings.ToUpper(tp) { case KVName: _, err = db.Del(key) case HashName: _, err = db.HClear(key) case ListName: _, err = db.LClear(key) case SetName: _, err = db.SClear(key) case ZSetName: _, err = db.ZClear(key) default: err = fmt.Errorf("invalid key type %s", tp) } return err } func xttl(db *ledis.DB, tp string, key []byte) (int64, error) { switch strings.ToUpper(tp) { case KVName: return db.TTL(key) case HashName: return db.HTTL(key) case ListName: return db.LTTL(key) case SetName: return db.STTL(key) case ZSetName: return db.ZTTL(key) default: return 0, fmt.Errorf("invalid key type %s", tp) } } func xscan(db *ledis.DB, tp string, count int) ([][]byte, error) { switch strings.ToUpper(tp) { case KVName: return db.Scan(KV, nil, count, false, "") case HashName: return db.Scan(HASH, nil, count, false, "") case ListName: return db.Scan(LIST, nil, count, false, "") case SetName: return db.Scan(SET, nil, count, false, "") case ZSetName: return db.Scan(ZSET, nil, count, false, "") default: return nil, fmt.Errorf("invalid key type %s", tp) } } func xdumpCommand(c *client) error { args := c.args if len(args) != 2 { return ErrCmdParams } tp := strings.ToUpper(string(args[0])) key := args[1] if data, err := xdump(c.db, tp, key); err != nil { return err } else { c.resp.writeBulk(data) } return nil } func (app *App) getMigrateClient(addr string) *goledis.Client { app.migrateM.Lock() mc, ok := app.migrateClients[addr] if !ok { mc = goledis.NewClient(&goledis.Config{addr, 4, 0, 0}) app.migrateClients[addr] = mc } app.migrateM.Unlock() return mc } type migrateKeyLocker struct { m sync.Mutex locks map[string]struct{} } func (m *migrateKeyLocker) Lock(key []byte) bool { m.m.Lock() defer m.m.Unlock() k := hack.String(key) _, ok := m.locks[k] if ok { return false } m.locks[k] = struct{}{} return true } func (m *migrateKeyLocker) Unlock(key []byte) { m.m.Lock() defer m.m.Unlock() delete(m.locks, hack.String(key)) } func newMigrateKeyLocker() *migrateKeyLocker { m := new(migrateKeyLocker) m.locks = make(map[string]struct{}) return m } func (a *App) newMigrateKeyLockers() { a.migrateKeyLockers = make(map[string]*migrateKeyLocker) a.migrateKeyLockers[KVName] = newMigrateKeyLocker() a.migrateKeyLockers[HashName] = newMigrateKeyLocker() a.migrateKeyLockers[ListName] = newMigrateKeyLocker() a.migrateKeyLockers[SetName] = newMigrateKeyLocker() a.migrateKeyLockers[ZSetName] = newMigrateKeyLocker() } func (a *App) migrateKeyLock(tp string, key []byte) bool { l, ok := a.migrateKeyLockers[strings.ToUpper(tp)] if !ok { return false } return l.Lock(key) } func (a *App) migrateKeyUnlock(tp string, key []byte) { l, ok := a.migrateKeyLockers[strings.ToUpper(tp)] if !ok { return } l.Unlock(key) } //XMIGRATEDB host port tp count db timeout //select count tp type keys and migrate //will block any other write operations //maybe only for xcodis func xmigratedbCommand(c *client) error { args := c.args if len(args) != 6 { return ErrCmdParams } addr := fmt.Sprintf("%s:%s", string(args[0]), string(args[1])) if addr == c.app.cfg.Addr { //same server, can not migrate return fmt.Errorf("migrate in same server is not allowed") } tp := strings.ToUpper(string(args[2])) count, err := ledis.StrInt64(args[3], nil) if err != nil { return err } else if count <= 0 { count = 10 } db, err := parseMigrateDB(c, args[4]) if err != nil { return err } timeout, err := ledis.StrInt64(args[5], nil) if err != nil { return err } else if timeout < 0 { return fmt.Errorf("invalid timeout %d", timeout) } keys, err := xscan(c.db, tp, int(count)) if err != nil { return err } else if len(keys) == 0 { c.resp.writeInteger(0) return nil } conn, err := getMigrateDBConn(c, addr, db) if err != nil { return err } defer conn.Close() migrateNum := int64(0) for _, key := range keys { err = migrateKey(c, conn, tp, key, timeout) if err != nil { if err == errNoKey || err == errKeyInMigrating { continue } else { return err } } migrateNum++ } c.resp.writeInteger(migrateNum) return nil } func parseMigrateDB(c *client, arg []byte) (uint64, error) { db, err := ledis.StrUint64(arg, nil) if err != nil { return 0, err } else if db >= uint64(c.app.cfg.Databases) { return 0, fmt.Errorf("invalid db index %d, must < %d", db, c.app.cfg.Databases) } return db, nil } //XMIGRATE host port type key destination-db timeout //will block any other write operations //maybe only for xcodis func xmigrateCommand(c *client) error { args := c.args if len(args) != 6 { return ErrCmdParams } addr := fmt.Sprintf("%s:%s", string(args[0]), string(args[1])) if addr == c.app.cfg.Addr { //same server, can not migrate return fmt.Errorf("migrate in same server is not allowed") } tp := strings.ToUpper(string(args[2])) key := args[3] db, err := parseMigrateDB(c, args[4]) if err != nil { return err } timeout, err := ledis.StrInt64(args[5], nil) if err != nil { return err } else if timeout < 0 { return fmt.Errorf("invalid timeout %d", timeout) } conn, err := getMigrateDBConn(c, addr, db) if err != nil { return err } defer conn.Close() // if key is in migrating, we will wait 500ms and retry again for i := 0; i < 10; i++ { if tp == "ALL" { // if tp is ALL, we will migrate the key in all types // this feature is useful for xcodis RESTORE or other commands that we don't know the data type exactly err = migrateAllTypeKeys(c, conn, key, timeout) } else { err = migrateKey(c, conn, tp, key, timeout) } if err != errKeyInMigrating { break } else { log.Infof("%s key %s is in migrating, wait 500ms and retry", tp, key) time.Sleep(500 * time.Millisecond) } } if err != nil { if err == errNoKey { c.resp.writeStatus(NOKEY) return nil } else { return err } } c.resp.writeStatus(OK) return nil } func getMigrateDBConn(c *client, addr string, db uint64) (*goledis.Conn, error) { mc := c.app.getMigrateClient(addr) conn, err := mc.Get() if err != nil { return nil, err } if _, err = conn.Do("select", db); err != nil { conn.Close() return nil, err } return conn, nil } var ( errNoKey = errors.New("migrate key is not exists") errKeyInMigrating = errors.New("key is in migrating yet") ) func migrateKey(c *client, conn *goledis.Conn, tp string, key []byte, timeout int64) error { if !c.app.migrateKeyLock(tp, key) { // other may also migrate this key, skip it return errKeyInMigrating } defer c.app.migrateKeyUnlock(tp, key) data, err := xdump(c.db, tp, key) if err != nil { return err } else if data == nil { return errNoKey } ttl, err := xttl(c.db, tp, key) if err != nil { return err } //timeout is milliseconds t := time.Duration(timeout) * time.Millisecond conn.SetReadDeadline(time.Now().Add(t)) //ttl is second, but restore need millisecond if _, err = conn.Do("restore", key, ttl*1e3, data); err != nil { return err } if err = xdel(c.db, tp, key); err != nil { return err } return nil } func migrateAllTypeKeys(c *client, conn *goledis.Conn, key []byte, timeout int64) error { for _, tp := range TypeNames { err := migrateKey(c, conn, tp, key, timeout) if err != nil { if err == errNoKey { continue } else { return err } } } return nil } func init() { register("dump", dumpCommand) register("ldump", ldumpCommand) register("hdump", hdumpCommand) register("sdump", sdumpCommand) register("zdump", zdumpCommand) register("restore", restoreCommand) register("xrestore", xrestoreCommand) register("xdump", xdumpCommand) register("xmigrate", xmigrateCommand) register("xmigratedb", xmigratedbCommand) }