package redis import ( "errors" "fmt" "strconv" "time" "git.i2edu.net/i2/go-zero/core/breaker" "git.i2edu.net/i2/go-zero/core/mapping" red "github.com/go-redis/redis" ) const ( // ClusterType means redis cluster. ClusterType = "cluster" // NodeType means redis node. NodeType = "node" // Nil is an alias of redis.Nil. Nil = red.Nil blockingQueryTimeout = 5 * time.Second readWriteTimeout = 2 * time.Second slowThreshold = time.Millisecond * 100 ) // ErrNilNode is an error that indicates a nil redis node. var ErrNilNode = errors.New("nil redis node") type ( // Option defines the method to customize a Redis. Option func(r *Redis) // A Pair is a key/pair set used in redis zset. Pair struct { Key string Score int64 } // Redis defines a redis node/cluster. It is thread-safe. Redis struct { Addr string Type string Pass string tls bool brk breaker.Breaker } // RedisNode interface represents a redis node. RedisNode interface { red.Cmdable } // GeoLocation is used with GeoAdd to add geospatial location. GeoLocation = red.GeoLocation // GeoRadiusQuery is used with GeoRadius to query geospatial index. GeoRadiusQuery = red.GeoRadiusQuery // GeoPos is used to represent a geo position. GeoPos = red.GeoPos // Pipeliner is an alias of redis.Pipeliner. Pipeliner = red.Pipeliner // Z represents sorted set member. Z = red.Z // ZStore is an alias of redis.ZStore. ZStore = red.ZStore // IntCmd is an alias of redis.IntCmd. IntCmd = red.IntCmd // FloatCmd is an alias of redis.FloatCmd. FloatCmd = red.FloatCmd ) // New returns a Redis with given options. func New(addr string, opts ...Option) *Redis { r := &Redis{ Addr: addr, Type: NodeType, brk: breaker.NewBreaker(), } for _, opt := range opts { opt(r) } return r } // NewRedis returns a Redis. func NewRedis(redisAddr, redisType string, redisPass ...string) *Redis { var opts []Option if redisType == ClusterType { opts = append(opts, Cluster()) } for _, v := range redisPass { opts = append(opts, WithPass(v)) } return New(redisAddr, opts...) } // BitCount is redis bitcount command implementation. func (s *Redis) BitCount(key string, start, end int64) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.BitCount(key, &red.BitCount{ Start: start, End: end, }).Result() return err }, acceptable) return } // BitOpAnd is redis bit operation (and) command implementation. func (s *Redis) BitOpAnd(destKey string, keys ...string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.BitOpAnd(destKey, keys...).Result() return err }, acceptable) return } // BitOpNot is redis bit operation (not) command implementation. func (s *Redis) BitOpNot(destKey, key string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.BitOpNot(destKey, key).Result() return err }, acceptable) return } // BitOpOr is redis bit operation (or) command implementation. func (s *Redis) BitOpOr(destKey string, keys ...string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.BitOpOr(destKey, keys...).Result() return err }, acceptable) return } // BitOpXor is redis bit operation (xor) command implementation. func (s *Redis) BitOpXor(destKey string, keys ...string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.BitOpXor(destKey, keys...).Result() return err }, acceptable) return } // BitPos is redis bitpos command implementation. func (s *Redis) BitPos(key string, bit, start, end int64) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.BitPos(key, bit, start, end).Result() return err }, acceptable) return } // Blpop uses passed in redis connection to execute blocking queries. // Doesn't benefit from pooling redis connections of blocking queries func (s *Redis) Blpop(redisNode RedisNode, key string) (string, error) { if redisNode == nil { return "", ErrNilNode } vals, err := redisNode.BLPop(blockingQueryTimeout, key).Result() if err != nil { return "", err } if len(vals) < 2 { return "", fmt.Errorf("no value on key: %s", key) } return vals[1], nil } // BlpopEx uses passed in redis connection to execute blpop command. // The difference against Blpop is that this method returns a bool to indicate success. func (s *Redis) BlpopEx(redisNode RedisNode, key string) (string, bool, error) { if redisNode == nil { return "", false, ErrNilNode } vals, err := redisNode.BLPop(blockingQueryTimeout, key).Result() if err != nil { return "", false, err } if len(vals) < 2 { return "", false, fmt.Errorf("no value on key: %s", key) } return vals[1], true, nil } // Del deletes keys. func (s *Redis) Del(keys ...string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.Del(keys...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Eval is the implementation of redis eval command. func (s *Redis) Eval(script string, keys []string, args ...interface{}) (val interface{}, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.Eval(script, keys, args...).Result() return err }, acceptable) return } // EvalSha is the implementation of redis evalsha command. func (s *Redis) EvalSha(sha string, keys []string, args ...interface{}) (val interface{}, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.EvalSha(sha, keys, args...).Result() return err }, acceptable) return } // Exists is the implementation of redis exists command. func (s *Redis) Exists(key string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.Exists(key).Result() if err != nil { return err } val = v == 1 return nil }, acceptable) return } // Expire is the implementation of redis expire command. func (s *Redis) Expire(key string, seconds int) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } return conn.Expire(key, time.Duration(seconds)*time.Second).Err() }, acceptable) } // Expireat is the implementation of redis expireat command. func (s *Redis) Expireat(key string, expireTime int64) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } return conn.ExpireAt(key, time.Unix(expireTime, 0)).Err() }, acceptable) } // GeoAdd is the implementation of redis geoadd command. func (s *Redis) GeoAdd(key string, geoLocation ...*GeoLocation) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GeoAdd(key, geoLocation...).Result() if err != nil { return err } val = v return nil }, acceptable) return } // GeoDist is the implementation of redis geodist command. func (s *Redis) GeoDist(key, member1, member2, unit string) (val float64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GeoDist(key, member1, member2, unit).Result() if err != nil { return err } val = v return nil }, acceptable) return } // GeoHash is the implementation of redis geohash command. func (s *Redis) GeoHash(key string, members ...string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GeoHash(key, members...).Result() if err != nil { return err } val = v return nil }, acceptable) return } // GeoRadius is the implementation of redis georadius command. func (s *Redis) GeoRadius(key string, longitude, latitude float64, query *GeoRadiusQuery) (val []GeoLocation, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GeoRadius(key, longitude, latitude, query).Result() if err != nil { return err } val = v return nil }, acceptable) return } // GeoRadiusByMember is the implementation of redis georadiusbymember command. func (s *Redis) GeoRadiusByMember(key, member string, query *GeoRadiusQuery) (val []GeoLocation, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GeoRadiusByMember(key, member, query).Result() if err != nil { return err } val = v return nil }, acceptable) return } // GeoPos is the implementation of redis geopos command. func (s *Redis) GeoPos(key string, members ...string) (val []*GeoPos, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GeoPos(key, members...).Result() if err != nil { return err } val = v return nil }, acceptable) return } // Get is the implementation of redis get command. func (s *Redis) Get(key string) (val string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } if val, err = conn.Get(key).Result(); err == red.Nil { return nil } else if err != nil { return err } else { return nil } }, acceptable) return } // GetBit is the implementation of redis getbit command. func (s *Redis) GetBit(key string, offset int64) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.GetBit(key, offset).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Hdel is the implementation of redis hdel command. func (s *Redis) Hdel(key string, fields ...string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.HDel(key, fields...).Result() if err != nil { return err } val = v == 1 return nil }, acceptable) return } // Hexists is the implementation of redis hexists command. func (s *Redis) Hexists(key, field string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.HExists(key, field).Result() return err }, acceptable) return } // Hget is the implementation of redis hget command. func (s *Redis) Hget(key, field string) (val string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.HGet(key, field).Result() return err }, acceptable) return } // Hgetall is the implementation of redis hgetall command. func (s *Redis) Hgetall(key string) (val map[string]string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.HGetAll(key).Result() return err }, acceptable) return } // Hincrby is the implementation of redis hincrby command. func (s *Redis) Hincrby(key, field string, increment int) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.HIncrBy(key, field, int64(increment)).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Hkeys is the implementation of redis hkeys command. func (s *Redis) Hkeys(key string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.HKeys(key).Result() return err }, acceptable) return } // Hlen is the implementation of redis hlen command. func (s *Redis) Hlen(key string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.HLen(key).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Hmget is the implementation of redis hmget command. func (s *Redis) Hmget(key string, fields ...string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.HMGet(key, fields...).Result() if err != nil { return err } val = toStrings(v) return nil }, acceptable) return } // Hset is the implementation of redis hset command. func (s *Redis) Hset(key, field, value string) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } return conn.HSet(key, field, value).Err() }, acceptable) } // Hsetnx is the implementation of redis hsetnx command. func (s *Redis) Hsetnx(key, field, value string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.HSetNX(key, field, value).Result() return err }, acceptable) return } // Hmset is the implementation of redis hmset command. func (s *Redis) Hmset(key string, fieldsAndValues map[string]string) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } vals := make(map[string]interface{}, len(fieldsAndValues)) for k, v := range fieldsAndValues { vals[k] = v } return conn.HMSet(key, vals).Err() }, acceptable) } // Hscan is the implementation of redis hscan command. func (s *Redis) Hscan(key string, cursor uint64, match string, count int64) (keys []string, cur uint64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } keys, cur, err = conn.HScan(key, cursor, match, count).Result() return err }, acceptable) return } // Hvals is the implementation of redis hvals command. func (s *Redis) Hvals(key string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.HVals(key).Result() return err }, acceptable) return } // Incr is the implementation of redis incr command. func (s *Redis) Incr(key string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.Incr(key).Result() return err }, acceptable) return } // Incrby is the implementation of redis incrby command. func (s *Redis) Incrby(key string, increment int64) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.IncrBy(key, int64(increment)).Result() return err }, acceptable) return } // Keys is the implementation of redis keys command. func (s *Redis) Keys(pattern string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.Keys(pattern).Result() return err }, acceptable) return } // Llen is the implementation of redis llen command. func (s *Redis) Llen(key string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.LLen(key).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Lpop is the implementation of redis lpop command. func (s *Redis) Lpop(key string) (val string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.LPop(key).Result() return err }, acceptable) return } // Lpush is the implementation of redis lpush command. func (s *Redis) Lpush(key string, values ...interface{}) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.LPush(key, values...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Lrange is the implementation of redis lrange command. func (s *Redis) Lrange(key string, start, stop int) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.LRange(key, int64(start), int64(stop)).Result() return err }, acceptable) return } // Lrem is the implementation of redis lrem command. func (s *Redis) Lrem(key string, count int, value string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.LRem(key, int64(count), value).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Mget is the implementation of redis mget command. func (s *Redis) Mget(keys ...string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.MGet(keys...).Result() if err != nil { return err } val = toStrings(v) return nil }, acceptable) return } // Persist is the implementation of redis persist command. func (s *Redis) Persist(key string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.Persist(key).Result() return err }, acceptable) return } // Pfadd is the implementation of redis pfadd command. func (s *Redis) Pfadd(key string, values ...interface{}) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.PFAdd(key, values...).Result() if err != nil { return err } val = v == 1 return nil }, acceptable) return } // Pfcount is the implementation of redis pfcount command. func (s *Redis) Pfcount(key string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.PFCount(key).Result() return err }, acceptable) return } // Pfmerge is the implementation of redis pfmerge command. func (s *Redis) Pfmerge(dest string, keys ...string) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } _, err = conn.PFMerge(dest, keys...).Result() return err }, acceptable) } // Ping is the implementation of redis ping command. func (s *Redis) Ping() (val bool) { // ignore error, error means false _ = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { val = false return nil } v, err := conn.Ping().Result() if err != nil { val = false return nil } val = v == "PONG" return nil }, acceptable) return } // Pipelined lets fn to execute pipelined commands. func (s *Redis) Pipelined(fn func(Pipeliner) error) (err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } _, err = conn.Pipelined(fn) return err }, acceptable) return } // Rpop is the implementation of redis rpop command. func (s *Redis) Rpop(key string) (val string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.RPop(key).Result() return err }, acceptable) return } // Rpush is the implementation of redis rpush command. func (s *Redis) Rpush(key string, values ...interface{}) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.RPush(key, values...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Sadd is the implementation of redis sadd command. func (s *Redis) Sadd(key string, values ...interface{}) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.SAdd(key, values...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Scan is the implementation of redis scan command. func (s *Redis) Scan(cursor uint64, match string, count int64) (keys []string, cur uint64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } keys, cur, err = conn.Scan(cursor, match, count).Result() return err }, acceptable) return } // SetBit is the implementation of redis setbit command. func (s *Redis) SetBit(key string, offset int64, value int) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } _, err = conn.SetBit(key, offset, value).Result() return err }, acceptable) } // Sscan is the implementation of redis sscan command. func (s *Redis) Sscan(key string, cursor uint64, match string, count int64) (keys []string, cur uint64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } keys, cur, err = conn.SScan(key, cursor, match, count).Result() return err }, acceptable) return } // Scard is the implementation of redis scard command. func (s *Redis) Scard(key string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SCard(key).Result() return err }, acceptable) return } // ScriptLoad is the implementation of redis script load command. func (s *Redis) ScriptLoad(script string) (string, error) { conn, err := getRedis(s) if err != nil { return "", err } return conn.ScriptLoad(script).Result() } // Set is the implementation of redis set command. func (s *Redis) Set(key, value string) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } return conn.Set(key, value, 0).Err() }, acceptable) } // Setex is the implementation of redis setex command. func (s *Redis) Setex(key, value string, seconds int) error { return s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } return conn.Set(key, value, time.Duration(seconds)*time.Second).Err() }, acceptable) } // Setnx is the implementation of redis setnx command. func (s *Redis) Setnx(key, value string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SetNX(key, value, 0).Result() return err }, acceptable) return } // SetnxEx is the implementation of redis setnx command with expire. func (s *Redis) SetnxEx(key, value string, seconds int) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SetNX(key, value, time.Duration(seconds)*time.Second).Result() return err }, acceptable) return } // Sismember is the implementation of redis sismember command. func (s *Redis) Sismember(key string, value interface{}) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SIsMember(key, value).Result() return err }, acceptable) return } // Smembers is the implementation of redis smembers command. func (s *Redis) Smembers(key string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SMembers(key).Result() return err }, acceptable) return } // Spop is the implementation of redis spop command. func (s *Redis) Spop(key string) (val string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SPop(key).Result() return err }, acceptable) return } // Srandmember is the implementation of redis srandmember command. func (s *Redis) Srandmember(key string, count int) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SRandMemberN(key, int64(count)).Result() return err }, acceptable) return } // Srem is the implementation of redis srem command. func (s *Redis) Srem(key string, values ...interface{}) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.SRem(key, values...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // String returns the string representation of s. func (s *Redis) String() string { return s.Addr } // Sunion is the implementation of redis sunion command. func (s *Redis) Sunion(keys ...string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SUnion(keys...).Result() return err }, acceptable) return } // Sunionstore is the implementation of redis sunionstore command. func (s *Redis) Sunionstore(destination string, keys ...string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.SUnionStore(destination, keys...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Sdiff is the implementation of redis sdiff command. func (s *Redis) Sdiff(keys ...string) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.SDiff(keys...).Result() return err }, acceptable) return } // Sdiffstore is the implementation of redis sdiffstore command. func (s *Redis) Sdiffstore(destination string, keys ...string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.SDiffStore(destination, keys...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Ttl is the implementation of redis ttl command. func (s *Redis) Ttl(key string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } duration, err := conn.TTL(key).Result() if err != nil { return err } val = int(duration / time.Second) return nil }, acceptable) return } // Zadd is the implementation of redis zadd command. func (s *Redis) Zadd(key string, score int64, value string) (val bool, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZAdd(key, red.Z{ Score: float64(score), Member: value, }).Result() if err != nil { return err } val = v == 1 return nil }, acceptable) return } // Zadds is the implementation of redis zadds command. func (s *Redis) Zadds(key string, ps ...Pair) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } var zs []red.Z for _, p := range ps { z := red.Z{Score: float64(p.Score), Member: p.Key} zs = append(zs, z) } v, err := conn.ZAdd(key, zs...).Result() if err != nil { return err } val = v return nil }, acceptable) return } // Zcard is the implementation of redis zcard command. func (s *Redis) Zcard(key string) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZCard(key).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Zcount is the implementation of redis zcount command. func (s *Redis) Zcount(key string, start, stop int64) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZCount(key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10)).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Zincrby is the implementation of redis zincrby command. func (s *Redis) Zincrby(key string, increment int64, field string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZIncrBy(key, float64(increment), field).Result() if err != nil { return err } val = int64(v) return nil }, acceptable) return } // Zscore is the implementation of redis zscore command. func (s *Redis) Zscore(key, value string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZScore(key, value).Result() if err != nil { return err } val = int64(v) return nil }, acceptable) return } // Zrank is the implementation of redis zrank command. func (s *Redis) Zrank(key, field string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.ZRank(key, field).Result() return err }, acceptable) return } // Zrem is the implementation of redis zrem command. func (s *Redis) Zrem(key string, values ...interface{}) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRem(key, values...).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Zremrangebyscore is the implementation of redis zremrangebyscore command. func (s *Redis) Zremrangebyscore(key string, start, stop int64) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRemRangeByScore(key, strconv.FormatInt(start, 10), strconv.FormatInt(stop, 10)).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Zremrangebyrank is the implementation of redis zremrangebyrank command. func (s *Redis) Zremrangebyrank(key string, start, stop int64) (val int, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRemRangeByRank(key, start, stop).Result() if err != nil { return err } val = int(v) return nil }, acceptable) return } // Zrange is the implementation of redis zrange command. func (s *Redis) Zrange(key string, start, stop int64) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.ZRange(key, start, stop).Result() return err }, acceptable) return } // ZrangeWithScores is the implementation of redis zrange command with scores. func (s *Redis) ZrangeWithScores(key string, start, stop int64) (val []Pair, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRangeWithScores(key, start, stop).Result() if err != nil { return err } val = toPairs(v) return nil }, acceptable) return } // ZRevRangeWithScores is the implementation of redis zrevrange command with scores. func (s *Redis) ZRevRangeWithScores(key string, start, stop int64) (val []Pair, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRevRangeWithScores(key, start, stop).Result() if err != nil { return err } val = toPairs(v) return nil }, acceptable) return } // ZrangebyscoreWithScores is the implementation of redis zrangebyscore command with scores. func (s *Redis) ZrangebyscoreWithScores(key string, start, stop int64) (val []Pair, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRangeByScoreWithScores(key, red.ZRangeBy{ Min: strconv.FormatInt(start, 10), Max: strconv.FormatInt(stop, 10), }).Result() if err != nil { return err } val = toPairs(v) return nil }, acceptable) return } // ZrangebyscoreWithScoresAndLimit is the implementation of redis zrangebyscore command with scores and limit. func (s *Redis) ZrangebyscoreWithScoresAndLimit(key string, start, stop int64, page, size int) ( val []Pair, err error) { err = s.brk.DoWithAcceptable(func() error { if size <= 0 { return nil } conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRangeByScoreWithScores(key, red.ZRangeBy{ Min: strconv.FormatInt(start, 10), Max: strconv.FormatInt(stop, 10), Offset: int64(page * size), Count: int64(size), }).Result() if err != nil { return err } val = toPairs(v) return nil }, acceptable) return } // Zrevrange is the implementation of redis zrevrange command. func (s *Redis) Zrevrange(key string, start, stop int64) (val []string, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.ZRevRange(key, start, stop).Result() return err }, acceptable) return } // ZrevrangebyscoreWithScores is the implementation of redis zrevrangebyscore command with scores. func (s *Redis) ZrevrangebyscoreWithScores(key string, start, stop int64) (val []Pair, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRevRangeByScoreWithScores(key, red.ZRangeBy{ Min: strconv.FormatInt(start, 10), Max: strconv.FormatInt(stop, 10), }).Result() if err != nil { return err } val = toPairs(v) return nil }, acceptable) return } // ZrevrangebyscoreWithScoresAndLimit is the implementation of redis zrevrangebyscore command with scores and limit. func (s *Redis) ZrevrangebyscoreWithScoresAndLimit(key string, start, stop int64, page, size int) ( val []Pair, err error) { err = s.brk.DoWithAcceptable(func() error { if size <= 0 { return nil } conn, err := getRedis(s) if err != nil { return err } v, err := conn.ZRevRangeByScoreWithScores(key, red.ZRangeBy{ Min: strconv.FormatInt(start, 10), Max: strconv.FormatInt(stop, 10), Offset: int64(page * size), Count: int64(size), }).Result() if err != nil { return err } val = toPairs(v) return nil }, acceptable) return } // Zrevrank is the implementation of redis zrevrank command. func (s *Redis) Zrevrank(key, field string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.ZRevRank(key, field).Result() return err }, acceptable) return } // Zunionstore is the implementation of redis zunionstore command. func (s *Redis) Zunionstore(dest string, store ZStore, keys ...string) (val int64, err error) { err = s.brk.DoWithAcceptable(func() error { conn, err := getRedis(s) if err != nil { return err } val, err = conn.ZUnionStore(dest, store, keys...).Result() return err }, acceptable) return } // Cluster customizes the given Redis as a cluster. func Cluster() Option { return func(r *Redis) { r.Type = ClusterType } } // WithPass customizes the given Redis with given password. func WithPass(pass string) Option { return func(r *Redis) { r.Pass = pass } } // WithTLS customizes the given Redis with TLS enabled. func WithTLS() Option { return func(r *Redis) { r.tls = true } } func acceptable(err error) bool { return err == nil || err == red.Nil } func getRedis(r *Redis) (RedisNode, error) { switch r.Type { case ClusterType: return getCluster(r) case NodeType: return getClient(r) default: return nil, fmt.Errorf("redis type '%s' is not supported", r.Type) } } func toPairs(vals []red.Z) []Pair { pairs := make([]Pair, len(vals)) for i, val := range vals { switch member := val.Member.(type) { case string: pairs[i] = Pair{ Key: member, Score: int64(val.Score), } default: pairs[i] = Pair{ Key: mapping.Repr(val.Member), Score: int64(val.Score), } } } return pairs } func toStrings(vals []interface{}) []string { ret := make([]string, len(vals)) for i, val := range vals { if val == nil { ret[i] = "" } else { switch val := val.(type) { case string: ret[i] = val default: ret[i] = mapping.Repr(val) } } } return ret }