package services import ( "context" "crypto/tls" "crypto/x509" "errors" "fmt" "github.com/redis/go-redis/v9" "golang.org/x/crypto/ssh" "log" "net" "os" "strconv" "strings" "sync" "sync/atomic" "time" . "tinyrdm/backend/storage" "tinyrdm/backend/types" "tinyrdm/backend/utils/coll" maputil "tinyrdm/backend/utils/map" redis2 "tinyrdm/backend/utils/redis" sliceutil "tinyrdm/backend/utils/slice" strutil "tinyrdm/backend/utils/string" ) type cmdHistoryItem struct { Timestamp int64 `json:"timestamp"` Server string `json:"server"` Cmd string `json:"cmd"` Cost int64 `json:"cost"` } type connectionService struct { ctx context.Context conns *ConnectionsStorage connMap map[string]connectionItem cmdHistory []cmdHistoryItem } type connectionItem struct { client redis.UniversalClient ctx context.Context cancelFunc context.CancelFunc } type keyItem struct { Type string `json:"t"` } var connection *connectionService var onceConnection sync.Once func Connection() *connectionService { if connection == nil { onceConnection.Do(func() { connection = &connectionService{ conns: NewConnections(), connMap: map[string]connectionItem{}, } }) } return connection } func (c *connectionService) Start(ctx context.Context) { c.ctx = ctx } func (c *connectionService) Stop(ctx context.Context) { for _, item := range c.connMap { if item.client != nil { item.cancelFunc() item.client.Close() } } c.connMap = map[string]connectionItem{} } func (c *connectionService) buildOption(config types.ConnectionConfig) (*redis.Options, error) { var sshClient *ssh.Client if config.SSH.Enable { sshConfig := &ssh.ClientConfig{ User: config.SSH.Username, Auth: []ssh.AuthMethod{ssh.Password(config.SSH.Password)}, HostKeyCallback: ssh.InsecureIgnoreHostKey(), Timeout: time.Duration(config.ConnTimeout) * time.Second, } switch config.SSH.LoginType { case "pwd": sshConfig.Auth = []ssh.AuthMethod{ssh.Password(config.SSH.Password)} case "pkfile": key, err := os.ReadFile(config.SSH.PKFile) if err != nil { return nil, err } var signer ssh.Signer if len(config.SSH.Passphrase) > 0 { signer, err = ssh.ParsePrivateKeyWithPassphrase(key, []byte(config.SSH.Passphrase)) } else { signer, err = ssh.ParsePrivateKey(key) } if err != nil { return nil, err } sshConfig.Auth = []ssh.AuthMethod{ssh.PublicKeys(signer)} default: return nil, errors.New("invalid login type") } var err error sshClient, err = ssh.Dial("tcp", fmt.Sprintf("%s:%d", config.SSH.Addr, config.SSH.Port), sshConfig) if err != nil { return nil, err } } var tlsConfig *tls.Config if config.SSL.Enable { // setup tls config var certs []tls.Certificate if len(config.SSL.CertFile) > 0 && len(config.SSL.KeyFile) > 0 { if cert, err := tls.LoadX509KeyPair(config.SSL.CertFile, config.SSL.KeyFile); err != nil { return nil, err } else { certs = []tls.Certificate{cert} } } var caCertPool *x509.CertPool if len(config.SSL.CAFile) > 0 { ca, err := os.ReadFile(config.SSL.CAFile) if err != nil { return nil, err } caCertPool = x509.NewCertPool() caCertPool.AppendCertsFromPEM(ca) } if len(certs) <= 0 { return nil, errors.New("tls config error") } tlsConfig = &tls.Config{ RootCAs: caCertPool, InsecureSkipVerify: false, Certificates: certs, } } option := &redis.Options{ ClientName: config.Name, Addr: fmt.Sprintf("%s:%d", config.Addr, config.Port), Username: config.Username, Password: config.Password, DialTimeout: time.Duration(config.ConnTimeout) * time.Second, ReadTimeout: time.Duration(config.ExecTimeout) * time.Second, WriteTimeout: time.Duration(config.ExecTimeout) * time.Second, TLSConfig: tlsConfig, } if sshClient != nil { option.Dialer = func(ctx context.Context, network, addr string) (net.Conn, error) { return sshClient.Dial(network, addr) } option.ReadTimeout = -2 option.WriteTimeout = -2 } return option, nil } func (c *connectionService) createRedisClient(config types.ConnectionConfig) (redis.UniversalClient, error) { option, err := c.buildOption(config) if err != nil { return nil, err } if config.Sentinel.Enable { // get master address via sentinel node sentinel := redis.NewSentinelClient(option) defer sentinel.Close() var addr []string addr, err = sentinel.GetMasterAddrByName(c.ctx, config.Sentinel.Master).Result() if err != nil { return nil, err } if len(addr) < 2 { return nil, errors.New("cannot get master address") } option.Addr = fmt.Sprintf("%s:%s", addr[0], addr[1]) option.Username = config.Sentinel.Username option.Password = config.Sentinel.Password } rdb := redis.NewClient(option) if config.Cluster.Enable { // connect to cluster var slots []redis.ClusterSlot if slots, err = rdb.ClusterSlots(c.ctx).Result(); err == nil { log.Println(slots) clusterOptions := &redis.ClusterOptions{ //NewClient: nil, //MaxRedirects: 0, //RouteByLatency: false, //RouteRandomly: false, //ClusterSlots: nil, ClientName: option.ClientName, Dialer: option.Dialer, OnConnect: option.OnConnect, Protocol: option.Protocol, Username: option.Username, Password: option.Password, MaxRetries: option.MaxRetries, MinRetryBackoff: option.MinRetryBackoff, MaxRetryBackoff: option.MaxRetryBackoff, DialTimeout: option.DialTimeout, ContextTimeoutEnabled: option.ContextTimeoutEnabled, PoolFIFO: option.PoolFIFO, PoolSize: option.PoolSize, PoolTimeout: option.PoolTimeout, MinIdleConns: option.MinIdleConns, MaxIdleConns: option.MaxIdleConns, ConnMaxIdleTime: option.ConnMaxIdleTime, ConnMaxLifetime: option.ConnMaxLifetime, TLSConfig: option.TLSConfig, DisableIndentity: option.DisableIndentity, } if option.Dialer != nil { clusterOptions.Dialer = option.Dialer clusterOptions.ReadTimeout = -2 clusterOptions.WriteTimeout = -2 } var addrs []string for _, slot := range slots { for _, node := range slot.Nodes { addrs = append(addrs, node.Addr) } } clusterOptions.Addrs = addrs clusterClient := redis.NewClusterClient(clusterOptions) return clusterClient, nil } else { return nil, err } } return rdb, nil } // ListSentinelMasters list all master info by sentinel func (c *connectionService) ListSentinelMasters(config types.ConnectionConfig) (resp types.JSResp) { option, err := c.buildOption(config) if err != nil { resp.Msg = err.Error() return } if option.DialTimeout > 0 { option.DialTimeout = 10 * time.Second } sentinel := redis.NewSentinelClient(option) defer sentinel.Close() var retInfo []map[string]string masterInfos, err := sentinel.Masters(c.ctx).Result() if err != nil { resp.Msg = err.Error() return } for _, info := range masterInfos { if infoMap, ok := info.(map[any]any); ok { retInfo = append(retInfo, map[string]string{ "name": infoMap["name"].(string), "addr": fmt.Sprintf("%s:%s", infoMap["ip"].(string), infoMap["port"].(string)), }) } } resp.Data = retInfo resp.Success = true return } func (c *connectionService) TestConnection(config types.ConnectionConfig) (resp types.JSResp) { client, err := c.createRedisClient(config) if err != nil { resp.Msg = err.Error() return } defer client.Close() if _, err = client.Ping(c.ctx).Result(); err != nil && err != redis.Nil { resp.Msg = err.Error() } else { resp.Success = true } return } // ListConnection list all saved connection in local profile func (c *connectionService) ListConnection() (resp types.JSResp) { resp.Success = true resp.Data = c.conns.GetConnections() return } // GetConnection get connection profile by name func (c *connectionService) GetConnection(name string) (resp types.JSResp) { conn := c.conns.GetConnection(name) resp.Success = conn != nil resp.Data = conn return } // SaveConnection save connection config to local profile func (c *connectionService) SaveConnection(name string, param types.ConnectionConfig) (resp types.JSResp) { var err error if strings.ContainsAny(param.Name, "/") { err = errors.New("connection name contains illegal characters") } else { if len(name) > 0 { // update connection err = c.conns.UpdateConnection(name, param) } else { err = c.conns.CreateConnection(param) } } if err != nil { resp.Msg = err.Error() } else { resp.Success = true } return } // DeleteConnection remove connection by name func (c *connectionService) DeleteConnection(name string) (resp types.JSResp) { err := c.conns.DeleteConnection(name) if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // SaveSortedConnection save sorted connection after drag func (c *connectionService) SaveSortedConnection(sortedConns types.Connections) (resp types.JSResp) { err := c.conns.SaveSortedConnection(sortedConns) if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // CreateGroup create a new group func (c *connectionService) CreateGroup(name string) (resp types.JSResp) { err := c.conns.CreateGroup(name) if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // RenameGroup rename group func (c *connectionService) RenameGroup(name, newName string) (resp types.JSResp) { err := c.conns.RenameGroup(name, newName) if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // DeleteGroup remove a group by name func (c *connectionService) DeleteGroup(name string, includeConn bool) (resp types.JSResp) { err := c.conns.DeleteGroup(name, includeConn) if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // OpenConnection open redis server connection func (c *connectionService) OpenConnection(name string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(name, 0) if err != nil { resp.Msg = err.Error() return } // get connection config selConn := c.conns.GetConnection(name) var totaldb int if selConn.DBFilterType == "" || selConn.DBFilterType == "none" { // get total databases if config, err := client.ConfigGet(ctx, "databases").Result(); err == nil { if total, err := strconv.Atoi(config["databases"]); err == nil { totaldb = total } } } // parse all db, response content like below var dbs []types.ConnectionDB var clusterKeyCount int64 cluster, isCluster := client.(*redis.ClusterClient) if isCluster { var keyCount atomic.Int64 err = cluster.ForEachMaster(ctx, func(ctx context.Context, cli *redis.Client) error { if size, serr := cli.DBSize(ctx).Result(); serr != nil { return serr } else { keyCount.Add(size) } return nil }) if err != nil { resp.Msg = "get db size error:" + err.Error() return } clusterKeyCount = keyCount.Load() // only one database in cluster mode dbs = []types.ConnectionDB{ { Name: "db0", Index: 0, Keys: int(clusterKeyCount), }, } } else { // get database info var res string res, err = client.Info(ctx, "keyspace").Result() if err != nil { resp.Msg = "get server info fail:" + err.Error() return } info := c.parseInfo(res) if totaldb <= 0 { // cannot retrieve the database count by "CONFIG GET databases", try to get max index from keyspace keyspace := info["Keyspace"] var db, maxDB int for dbName := range keyspace { if db, err = strconv.Atoi(strings.TrimLeft(dbName, "db")); err == nil { if maxDB < db { maxDB = db } } } totaldb = maxDB + 1 } queryDB := func(idx int) types.ConnectionDB { dbName := "db" + strconv.Itoa(idx) dbInfoStr := info["Keyspace"][dbName] if len(dbInfoStr) > 0 { dbInfo := c.parseDBItemInfo(dbInfoStr) return types.ConnectionDB{ Name: dbName, Index: idx, Keys: dbInfo["keys"], Expires: dbInfo["expires"], AvgTTL: dbInfo["avg_ttl"], } } else { return types.ConnectionDB{ Name: dbName, Index: idx, } } } switch selConn.DBFilterType { case "show": filterList := sliceutil.Unique(selConn.DBFilterList) for _, idx := range filterList { dbs = append(dbs, queryDB(idx)) } case "hide": hiddenList := coll.NewSet(selConn.DBFilterList...) for idx := 0; idx < totaldb; idx++ { if !hiddenList.Contains(idx) { dbs = append(dbs, queryDB(idx)) } } default: for idx := 0; idx < totaldb; idx++ { dbs = append(dbs, queryDB(idx)) } } } resp.Success = true resp.Data = map[string]any{ "db": dbs, } return } // CloseConnection close redis server connection func (c *connectionService) CloseConnection(name string) (resp types.JSResp) { item, ok := c.connMap[name] if ok { delete(c.connMap, name) if item.client != nil { item.cancelFunc() item.client.Close() } } resp.Success = true return } // get redis client from local cache or create a new open // if db >= 0, will also switch to db index func (c *connectionService) getRedisClient(connName string, db int) (redis.UniversalClient, context.Context, error) { item, ok := c.connMap[connName] var client redis.UniversalClient var ctx context.Context if ok { client, ctx = item.client, item.ctx } else { selConn := c.conns.GetConnection(connName) if selConn == nil { return nil, nil, fmt.Errorf("no match connection \"%s\"", connName) } hook := redis2.NewHook(connName, func(cmd string, cost int64) { now := time.Now() //last := strings.LastIndex(cmd, ":") //if last != -1 { // cmd = cmd[:last] //} c.cmdHistory = append(c.cmdHistory, cmdHistoryItem{ Timestamp: now.UnixMilli(), Server: connName, Cmd: cmd, Cost: cost, }) }) var err error client, err = c.createRedisClient(selConn.ConnectionConfig) if err != nil { return nil, nil, fmt.Errorf("create conenction error: %s", err.Error()) } // add hook to each node in cluster mode var cluster *redis.ClusterClient if cluster, ok = client.(*redis.ClusterClient); ok { err = cluster.ForEachShard(c.ctx, func(ctx context.Context, cli *redis.Client) error { cli.AddHook(hook) return nil }) if err != nil { return nil, nil, fmt.Errorf("get cluster nodes error: %s", err.Error()) } } else { client.AddHook(hook) } if _, err = client.Ping(c.ctx).Result(); err != nil && err != redis.Nil { return nil, nil, errors.New("can not connect to redis server:" + err.Error()) } var cancelFunc context.CancelFunc ctx, cancelFunc = context.WithCancel(c.ctx) c.connMap[connName] = connectionItem{ client: client, ctx: ctx, cancelFunc: cancelFunc, } } if db >= 0 { var rdb *redis.Client if rdb, ok = client.(*redis.Client); ok && rdb != nil { if err := rdb.Do(ctx, "select", strconv.Itoa(db)).Err(); err != nil { return nil, nil, err } } } return client, ctx, nil } // parse command response content which use "redis info" // # Keyspace\r\ndb0:keys=2,expires=1,avg_ttl=1877111749\r\ndb1:keys=33,expires=0,avg_ttl=0\r\ndb3:keys=17,expires=0,avg_ttl=0\r\ndb5:keys=3,expires=0,avg_ttl=0\r\n func (c *connectionService) parseInfo(info string) map[string]map[string]string { parsedInfo := map[string]map[string]string{} lines := strings.Split(info, "\r\n") if len(lines) > 0 { var subInfo map[string]string for _, line := range lines { if strings.HasPrefix(line, "#") { subInfo = map[string]string{} parsedInfo[strings.TrimSpace(strings.TrimLeft(line, "#"))] = subInfo } else { items := strings.SplitN(line, ":", 2) if len(items) < 2 { continue } subInfo[items[0]] = items[1] } } } return parsedInfo } // parse db item value, content format like below // keys=2,expires=1,avg_ttl=1877111749 func (c *connectionService) parseDBItemInfo(info string) map[string]int { ret := map[string]int{} items := strings.Split(info, ",") for _, item := range items { kv := strings.SplitN(item, "=", 2) if len(kv) > 1 { ret[kv[0]], _ = strconv.Atoi(kv[1]) } } return ret } // ServerInfo get server info func (c *connectionService) ServerInfo(name string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(name, 0) if err != nil { resp.Msg = err.Error() return } // get database info res, err := client.Info(ctx).Result() if err != nil { resp.Msg = "get server info fail:" + err.Error() return } resp.Success = true resp.Data = c.parseInfo(res) return } // OpenDatabase open select database, and list all keys // @param path contain connection name and db name func (c *connectionService) OpenDatabase(connName string, db int, match string, keyType string) (resp types.JSResp) { return c.ScanKeys(connName, db, match, keyType) } // ScanKeys scan all keys func (c *connectionService) ScanKeys(connName string, db int, match, keyType string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } filterType := len(keyType) > 0 var countPerScan int64 = 10000 // define sub scan function scan := func(ctx context.Context, cli redis.UniversalClient, appendFunc func(k any)) error { var iter *redis.ScanIterator if filterType { iter = cli.ScanType(ctx, 0, match, countPerScan, keyType).Iterator() } else { iter = cli.Scan(ctx, 0, match, countPerScan).Iterator() } for iter.Next(ctx) { appendFunc(strutil.EncodeRedisKey(iter.Val())) } return iter.Err() } var keys []any if cluster, ok := client.(*redis.ClusterClient); ok { // cluster mode var mutex sync.Mutex err = cluster.ForEachMaster(ctx, func(ctx context.Context, cli *redis.Client) error { return scan(ctx, cli, func(k any) { mutex.Lock() keys = append(keys, k) mutex.Unlock() }) }) } else { err = scan(ctx, client, func(k any) { keys = append(keys, k) }) } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "keys": keys, } return } // GetKeyValue get value by key func (c *connectionService) GetKeyValue(connName string, db int, k any, viewAs string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var keyType string var dur time.Duration keyType, err = client.Type(ctx, key).Result() if err != nil { resp.Msg = err.Error() return } if keyType == "none" { resp.Msg = "key not exists" return } var ttl int64 if dur, err = client.TTL(ctx, key).Result(); err != nil { ttl = -1 } else { if dur < 0 { ttl = -1 } else { ttl = int64(dur.Seconds()) } } var value any var size int64 var cursor uint64 switch strings.ToLower(keyType) { case "string": var str string str, err = client.Get(ctx, key).Result() value, viewAs = strutil.ConvertTo(str, viewAs) size, _ = client.StrLen(ctx, key).Result() case "list": value, err = client.LRange(ctx, key, 0, -1).Result() size, _ = client.LLen(ctx, key).Result() case "hash": //value, err = client.HGetAll(ctx, key).Result() items := map[string]string{} for { var loadedVal []string loadedVal, cursor, err = client.HScan(ctx, key, cursor, "*", 10000).Result() if err != nil { resp.Msg = err.Error() return } for i := 0; i < len(loadedVal); i += 2 { items[loadedVal[i]] = loadedVal[i+1] } if cursor == 0 { break } } value = items size, _ = client.HLen(ctx, key).Result() case "set": //value, err = client.SMembers(ctx, key).Result() items := []string{} for { var loadedKey []string loadedKey, cursor, err = client.SScan(ctx, key, cursor, "*", 10000).Result() if err != nil { resp.Msg = err.Error() return } items = append(items, loadedKey...) if cursor == 0 { break } } value = items size, _ = client.SCard(ctx, key).Result() case "zset": //value, err = client.ZRangeWithScores(ctx, key, 0, -1).Result() var items []types.ZSetItem for { var loadedVal []string loadedVal, cursor, err = client.ZScan(ctx, key, cursor, "*", 10000).Result() if err != nil { resp.Msg = err.Error() return } var score float64 for i := 0; i < len(loadedVal); i += 2 { if score, err = strconv.ParseFloat(loadedVal[i+1], 64); err == nil { items = append(items, types.ZSetItem{ Value: loadedVal[i], Score: score, }) } } if cursor == 0 { break } } value = items size, _ = client.ZCard(ctx, key).Result() case "stream": var msgs []redis.XMessage items := []types.StreamItem{} msgs, err = client.XRevRange(ctx, key, "+", "-").Result() if err != nil { resp.Msg = err.Error() return } for _, msg := range msgs { items = append(items, types.StreamItem{ ID: msg.ID, Value: msg.Values, }) } value = items size, _ = client.XLen(ctx, key).Result() } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "type": keyType, "ttl": ttl, "value": value, "size": size, "viewAs": viewAs, } return } // SetKeyValue set value by key // @param ttl <= 0 means keep current ttl func (c *connectionService) SetKeyValue(connName string, db int, k any, keyType string, value any, ttl int64, viewAs string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var expiration time.Duration if ttl < 0 { if expiration, err = client.PTTL(ctx, key).Result(); err != nil { expiration = redis.KeepTTL } } else { expiration = time.Duration(ttl) * time.Second } switch strings.ToLower(keyType) { case "string": if str, ok := value.(string); !ok { resp.Msg = "invalid string value" return } else { var saveStr string if saveStr, err = strutil.SaveAs(str, viewAs); err != nil { resp.Msg = fmt.Sprintf(`save to "%s" type fail: %s`, viewAs, err.Error()) return } _, err = client.Set(ctx, key, saveStr, 0).Result() // set expiration lonely, not "keepttl" if err == nil && expiration > 0 { client.Expire(ctx, key, expiration) } } case "list": if strs, ok := value.([]any); !ok { resp.Msg = "invalid list value" return } else { err = client.LPush(ctx, key, strs...).Err() if err == nil && expiration > 0 { client.Expire(ctx, key, expiration) } } case "hash": if strs, ok := value.([]any); !ok { resp.Msg = "invalid hash value" return } else { total := len(strs) if total > 1 { _, err = client.Pipelined(ctx, func(pipe redis.Pipeliner) error { for i := 0; i < total; i += 2 { pipe.HSet(ctx, key, strs[i], strs[i+1]) } if expiration > 0 { pipe.Expire(ctx, key, expiration) } return nil }) } } case "set": if strs, ok := value.([]any); !ok || len(strs) <= 0 { resp.Msg = "invalid set value" return } else { if len(strs) > 0 { err = client.SAdd(ctx, key, strs...).Err() if err == nil && expiration > 0 { client.Expire(ctx, key, expiration) } } } case "zset": if strs, ok := value.([]any); !ok || len(strs) <= 0 { resp.Msg = "invalid zset value" return } else { if len(strs) > 1 { var members []redis.Z for i := 0; i < len(strs); i += 2 { score, _ := strconv.ParseFloat(strs[i+1].(string), 64) members = append(members, redis.Z{ Score: score, Member: strs[i], }) } err = client.ZAdd(ctx, key, members...).Err() if err == nil && expiration > 0 { client.Expire(ctx, key, expiration) } } } case "stream": if strs, ok := value.([]any); !ok { resp.Msg = "invalid stream value" return } else { if len(strs) > 2 { err = client.XAdd(ctx, &redis.XAddArgs{ Stream: key, ID: strs[0].(string), Values: strs[1:], }).Err() if err == nil && expiration > 0 { client.Expire(ctx, key, expiration) } } } } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "value": value, } return } // SetHashValue set hash field func (c *connectionService) SetHashValue(connName string, db int, k any, field, newField, value string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var removedField []string updatedField := map[string]string{} if len(field) <= 0 { // old filed is empty, add new field _, err = client.HSet(ctx, key, newField, value).Result() updatedField[newField] = value } else if len(newField) <= 0 { // new field is empty, delete old field _, err = client.HDel(ctx, key, field, value).Result() removedField = append(removedField, field) } else if field == newField { // replace field _, err = client.HSet(ctx, key, newField, value).Result() updatedField[newField] = value } else { // remove old field and add new field if _, err = client.HDel(ctx, key, field).Result(); err != nil { resp.Msg = err.Error() return } _, err = client.HSet(ctx, key, newField, value).Result() removedField = append(removedField, field) updatedField[newField] = value } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "removed": removedField, "updated": updatedField, } return } // AddHashField add or update hash field func (c *connectionService) AddHashField(connName string, db int, k any, action int, fieldItems []any) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) updated := map[string]any{} switch action { case 1: // ignore duplicated fields for i := 0; i < len(fieldItems); i += 2 { _, err = client.HSetNX(ctx, key, fieldItems[i].(string), fieldItems[i+1]).Result() if err == nil { updated[fieldItems[i].(string)] = fieldItems[i+1] } } default: // overwrite duplicated fields total := len(fieldItems) if total > 1 { _, err = client.Pipelined(ctx, func(pipe redis.Pipeliner) error { for i := 0; i < total; i += 2 { client.HSet(ctx, key, fieldItems[i], fieldItems[i+1]) } return nil }) for i := 0; i < total; i += 2 { updated[fieldItems[i].(string)] = fieldItems[i+1] } } } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "updated": updated, } return } // AddListItem add item to list or remove from it func (c *connectionService) AddListItem(connName string, db int, k any, action int, items []any) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var leftPush, rightPush []any switch action { case 0: // push to head _, err = client.LPush(ctx, key, items...).Result() leftPush = append(leftPush, items...) default: // append to tail _, err = client.RPush(ctx, key, items...).Result() rightPush = append(rightPush, items...) } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "left": leftPush, "right": rightPush, } return } // SetListItem update or remove list item by index func (c *connectionService) SetListItem(connName string, db int, k any, index int64, value string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var removed []int64 updated := map[int64]string{} if len(value) <= 0 { // remove from list err = client.LSet(ctx, key, index, "---VALUE_REMOVED_BY_TINY_RDM---").Err() if err != nil { resp.Msg = err.Error() return } err = client.LRem(ctx, key, 1, "---VALUE_REMOVED_BY_TINY_RDM---").Err() if err != nil { resp.Msg = err.Error() return } removed = append(removed, index) } else { // replace index value err = client.LSet(ctx, key, index, value).Err() if err != nil { resp.Msg = err.Error() return } updated[index] = value } resp.Success = true resp.Data = map[string]any{ "removed": removed, "updated": updated, } return } // SetSetItem add members to set or remove from set func (c *connectionService) SetSetItem(connName string, db int, k any, remove bool, members []any) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) if remove { _, err = client.SRem(ctx, key, members...).Result() } else { _, err = client.SAdd(ctx, key, members...).Result() } if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // UpdateSetItem replace member of set func (c *connectionService) UpdateSetItem(connName string, db int, k any, value, newValue string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) _, _ = client.SRem(ctx, key, value).Result() _, err = client.SAdd(ctx, key, newValue).Result() if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // UpdateZSetValue update value of sorted set member func (c *connectionService) UpdateZSetValue(connName string, db int, k any, value, newValue string, score float64) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) updated := map[string]any{} var removed []string if len(newValue) <= 0 { // blank new value, delete value _, err = client.ZRem(ctx, key, value).Result() if err == nil { removed = append(removed, value) } } else if newValue == value { // update score only _, err = client.ZAdd(ctx, key, redis.Z{ Score: score, Member: value, }).Result() } else { // remove old value and add new one _, err = client.ZRem(ctx, key, value).Result() if err == nil { removed = append(removed, value) } _, err = client.ZAdd(ctx, key, redis.Z{ Score: score, Member: newValue, }).Result() if err == nil { updated[newValue] = score } } if err != nil { resp.Msg = err.Error() return } resp.Success = true resp.Data = map[string]any{ "updated": updated, "removed": removed, } return } // AddZSetValue add item to sorted set func (c *connectionService) AddZSetValue(connName string, db int, k any, action int, valueScore map[string]float64) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) members := maputil.ToSlice(valueScore, func(k string) redis.Z { return redis.Z{ Score: valueScore[k], Member: k, } }) switch action { case 1: // ignore duplicated fields _, err = client.ZAddNX(ctx, key, members...).Result() default: // overwrite duplicated fields _, err = client.ZAdd(ctx, key, members...).Result() } if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // AddStreamValue add stream field func (c *connectionService) AddStreamValue(connName string, db int, k any, ID string, fieldItems []any) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) _, err = client.XAdd(ctx, &redis.XAddArgs{ Stream: key, ID: ID, Values: fieldItems, }).Result() if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // RemoveStreamValues remove stream values by id func (c *connectionService) RemoveStreamValues(connName string, db int, k any, IDs []string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) _, err = client.XDel(ctx, key, IDs...).Result() resp.Success = true return } // SetKeyTTL set ttl of key func (c *connectionService) SetKeyTTL(connName string, db int, k any, ttl int64) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var expiration time.Duration if ttl < 0 { if err = client.Persist(ctx, key).Err(); err != nil { resp.Msg = err.Error() return } } else { expiration = time.Duration(ttl) * time.Second if err = client.Expire(ctx, key, expiration).Err(); err != nil { resp.Msg = err.Error() return } } resp.Success = true return } // DeleteKey remove redis key func (c *connectionService) DeleteKey(connName string, db int, k any) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } key := strutil.DecodeRedisKey(k) var deletedKeys []string if strings.HasSuffix(key, "*") { // delete by prefix var mutex sync.Mutex del := func(ctx context.Context, cli redis.UniversalClient) error { iter := cli.Scan(ctx, 0, key, 10000).Iterator() for iter.Next(ctx) { subKey := iter.Val() if err = cli.Unlink(ctx, subKey).Err(); err != nil { log.Println("unlink error", err.Error()) return err } else { mutex.Lock() deletedKeys = append(deletedKeys, subKey) mutex.Unlock() } } return nil } if cluster, ok := client.(*redis.ClusterClient); ok { // cluster mode err = cluster.ForEachMaster(ctx, func(ctx context.Context, cli *redis.Client) error { return del(ctx, cli) }) } else { err = del(ctx, client) } if err != nil { resp.Msg = err.Error() return } } else { // delete key only _, err = client.Del(ctx, key).Result() if err != nil { resp.Msg = err.Error() return } deletedKeys = append(deletedKeys, key) } resp.Success = true resp.Data = map[string]any{ "deleted": deletedKeys, } return } // RenameKey rename key func (c *connectionService) RenameKey(connName string, db int, key, newKey string) (resp types.JSResp) { client, ctx, err := c.getRedisClient(connName, db) if err != nil { resp.Msg = err.Error() return } _, err = client.RenameNX(ctx, key, newKey).Result() if err != nil { resp.Msg = err.Error() return } resp.Success = true return } // GetCmdHistory get redis command history func (c *connectionService) GetCmdHistory(pageNo, pageSize int) (resp types.JSResp) { resp.Success = true if pageSize <= 0 || pageNo <= 0 { // return all history resp.Data = map[string]any{ "list": c.cmdHistory, "pageNo": 1, "pageSize": -1, } } else { total := len(c.cmdHistory) startIndex := total / pageSize * (pageNo - 1) endIndex := min(startIndex+pageSize, total) resp.Data = map[string]any{ "list": c.cmdHistory[startIndex:endIndex], "pageNo": pageNo, "pageSize": pageSize, } } return } // CleanCmdHistory clean redis command history func (c *connectionService) CleanCmdHistory() (resp types.JSResp) { c.cmdHistory = []cmdHistoryItem{} resp.Success = true return } // update or insert key info to database //func (c *connectionService) updateDBKey(connName string, db int, keys []string, separator string) { // dbStruct := map[string]any{} // for _, key := range keys { // keyPart := strings.Split(key, separator) // prefixLen := len(keyPart)-1 // if prefixLen > 0 { // for i := 0; i < prefixLen; i++ { // if dbStruct[keyPart[i]] // keyPart[i] // } // } // log.Println("key", key) // } //}