package server import ( "errors" "math" "strconv" "strings" "git.internal/re/ledisdb/ledis" "git.internal/re/ledisdb/store" "github.com/siddontang/go/hack" "github.com/siddontang/go/num" ) //for simple implementation, we only support int64 score var errScoreOverflow = errors.New("zset score overflow") func zaddCommand(c *client) error { args := c.args if len(args) < 3 { return ErrCmdParams } key := args[0] if len(args[1:])&1 != 0 { return ErrCmdParams } args = args[1:] params := make([]ledis.ScorePair, len(args)>>1) for i := 0; i < len(params); i++ { score, err := ledis.StrInt64(args[2*i], nil) if err != nil { return ErrValue } params[i].Score = score params[i].Member = args[2*i+1] } n, err := c.db.ZAdd(key, params...) if err == nil { c.resp.writeInteger(n) } return err } func zcardCommand(c *client) error { args := c.args if len(args) != 1 { return ErrCmdParams } n, err := c.db.ZCard(args[0]) if err != nil { return err } c.resp.writeInteger(n) return nil } func zscoreCommand(c *client) error { args := c.args if len(args) != 2 { return ErrCmdParams } if s, err := c.db.ZScore(args[0], args[1]); err != nil { if err == ledis.ErrScoreMiss { c.resp.writeBulk(nil) } else { return err } } else { c.resp.writeBulk(num.FormatInt64ToSlice(s)) } return nil } func zremCommand(c *client) error { args := c.args if len(args) < 2 { return ErrCmdParams } n, err := c.db.ZRem(args[0], args[1:]...) if err == nil { c.resp.writeInteger(n) } return err } func zincrbyCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } key := args[0] delta, err := ledis.StrInt64(args[1], nil) if err != nil { return ErrValue } v, err := c.db.ZIncrBy(key, delta, args[2]) if err == nil { c.resp.writeBulk(num.FormatInt64ToSlice(v)) } return err } func zparseScoreRange(minBuf []byte, maxBuf []byte) (min int64, max int64, err error) { if strings.ToLower(hack.String(minBuf)) == "-inf" { min = math.MinInt64 } else { if len(minBuf) == 0 { err = ErrCmdParams return } var lopen bool = false if minBuf[0] == '(' { lopen = true minBuf = minBuf[1:] } min, err = ledis.StrInt64(minBuf, nil) if err != nil { err = ErrValue return } if min <= ledis.MinScore || min >= ledis.MaxScore { err = errScoreOverflow return } if lopen { min++ } } if strings.ToLower(hack.String(maxBuf)) == "+inf" { max = math.MaxInt64 } else { var ropen = false if len(maxBuf) == 0 { err = ErrCmdParams return } if maxBuf[0] == '(' { ropen = true maxBuf = maxBuf[1:] } if maxBuf[0] == '(' { ropen = true maxBuf = maxBuf[1:] } max, err = ledis.StrInt64(maxBuf, nil) if err != nil { err = ErrValue return } if max <= ledis.MinScore || max >= ledis.MaxScore { err = errScoreOverflow return } if ropen { max-- } } return } func zcountCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } min, max, err := zparseScoreRange(args[1], args[2]) if err != nil { return ErrValue } if min > max { c.resp.writeInteger(0) return nil } n, err := c.db.ZCount(args[0], min, max) if err != nil { return err } c.resp.writeInteger(n) return nil } func zrankCommand(c *client) error { args := c.args if len(args) != 2 { return ErrCmdParams } if n, err := c.db.ZRank(args[0], args[1]); err != nil { return err } else if n == -1 { c.resp.writeBulk(nil) } else { c.resp.writeInteger(n) } return nil } func zrevrankCommand(c *client) error { args := c.args if len(args) != 2 { return ErrCmdParams } if n, err := c.db.ZRevRank(args[0], args[1]); err != nil { return err } else if n == -1 { c.resp.writeBulk(nil) } else { c.resp.writeInteger(n) } return nil } func zremrangebyrankCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } key := args[0] start, stop, err := zparseRange(c, args[1], args[2]) if err != nil { return ErrValue } n, err := c.db.ZRemRangeByRank(key, start, stop) if err == nil { c.resp.writeInteger(n) } return err } func zremrangebyscoreCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } key := args[0] min, max, err := zparseScoreRange(args[1], args[2]) if err != nil { return err } n, err := c.db.ZRemRangeByScore(key, min, max) if err == nil { c.resp.writeInteger(n) } return err } func zparseRange(c *client, a1 []byte, a2 []byte) (start int, stop int, err error) { if start, err = strconv.Atoi(hack.String(a1)); err != nil { return } if stop, err = strconv.Atoi(hack.String(a2)); err != nil { return } return } func zrangeGeneric(c *client, reverse bool) error { args := c.args if len(args) < 3 { return ErrCmdParams } key := args[0] start, stop, err := zparseRange(c, args[1], args[2]) if err != nil { return ErrValue } args = args[3:] var withScores bool = false if len(args) > 0 { if len(args) != 1 { return ErrCmdParams } if strings.ToLower(hack.String(args[0])) == "withscores" { withScores = true } else { return ErrSyntax } } datas, err := c.db.ZRangeGeneric(key, start, stop, reverse) if err != nil { return err } c.resp.writeScorePairArray(datas, withScores) return nil } func zrangeCommand(c *client) error { return zrangeGeneric(c, false) } func zrevrangeCommand(c *client) error { return zrangeGeneric(c, true) } func zrangebyscoreGeneric(c *client, reverse bool) error { args := c.args if len(args) < 3 { return ErrCmdParams } key := args[0] var minScore, maxScore []byte if !reverse { minScore, maxScore = args[1], args[2] } else { minScore, maxScore = args[2], args[1] } min, max, err := zparseScoreRange(minScore, maxScore) if err != nil { return err } args = args[3:] var withScores bool = false if len(args) > 0 { if strings.ToLower(hack.String(args[0])) == "withscores" { withScores = true args = args[1:] } } var offset int = 0 var count int = -1 if len(args) > 0 { if len(args) != 3 { return ErrCmdParams } if strings.ToLower(hack.String(args[0])) != "limit" { return ErrSyntax } if offset, err = strconv.Atoi(hack.String(args[1])); err != nil { return ErrValue } if count, err = strconv.Atoi(hack.String(args[2])); err != nil { return ErrValue } } if offset < 0 { //for ledis, if offset < 0, a empty will return //so here we directly return a empty array c.resp.writeArray([]interface{}{}) return nil } datas, err := c.db.ZRangeByScoreGeneric(key, min, max, offset, count, reverse) if err != nil { return err } c.resp.writeScorePairArray(datas, withScores) return nil } func zrangebyscoreCommand(c *client) error { return zrangebyscoreGeneric(c, false) } func zrevrangebyscoreCommand(c *client) error { return zrangebyscoreGeneric(c, true) } func zclearCommand(c *client) error { args := c.args if len(args) != 1 { return ErrCmdParams } n, err := c.db.ZClear(args[0]) if err == nil { c.resp.writeInteger(n) } return err } func zmclearCommand(c *client) error { args := c.args if len(args) < 1 { return ErrCmdParams } n, err := c.db.ZMclear(args...) if err == nil { c.resp.writeInteger(n) } return err } func zexpireCommand(c *client) error { args := c.args if len(args) != 2 { return ErrCmdParams } duration, err := ledis.StrInt64(args[1], nil) if err != nil { return ErrValue } v, err := c.db.ZExpire(args[0], duration) if err == nil { c.resp.writeInteger(v) } return err } func zexpireAtCommand(c *client) error { args := c.args if len(args) != 2 { return ErrCmdParams } when, err := ledis.StrInt64(args[1], nil) if err != nil { return ErrValue } v, err := c.db.ZExpireAt(args[0], when) if err == nil { c.resp.writeInteger(v) } return err } func zttlCommand(c *client) error { args := c.args if len(args) != 1 { return ErrCmdParams } v, err := c.db.ZTTL(args[0]) if err != nil { return err } c.resp.writeInteger(v) return nil } func zpersistCommand(c *client) error { args := c.args if len(args) != 1 { return ErrCmdParams } n, err := c.db.ZPersist(args[0]) if err == nil { c.resp.writeInteger(n) } return err } func zparseZsetoptStore(args [][]byte) (destKey []byte, srcKeys [][]byte, weights []int64, aggregate byte, err error) { destKey = args[0] nKeys, err := strconv.Atoi(hack.String(args[1])) if err != nil { err = ErrValue return } args = args[2:] if len(args) < nKeys { err = ErrSyntax return } srcKeys = args[:nKeys] args = args[nKeys:] var weightsFlag = false var aggregateFlag = false for len(args) > 0 { if strings.ToLower(hack.String(args[0])) == "weights" { if weightsFlag { err = ErrSyntax return } args = args[1:] if len(args) < nKeys { err = ErrSyntax return } weights = make([]int64, nKeys) for i, arg := range args[:nKeys] { if weights[i], err = ledis.StrInt64(arg, nil); err != nil { err = ErrValue return } } args = args[nKeys:] weightsFlag = true } else if strings.ToLower(hack.String(args[0])) == "aggregate" { if aggregateFlag { err = ErrSyntax return } if len(args) < 2 { err = ErrSyntax return } if strings.ToLower(hack.String(args[1])) == "sum" { aggregate = ledis.AggregateSum } else if strings.ToLower(hack.String(args[1])) == "min" { aggregate = ledis.AggregateMin } else if strings.ToLower(hack.String(args[1])) == "max" { aggregate = ledis.AggregateMax } else { err = ErrSyntax return } args = args[2:] aggregateFlag = true } else { err = ErrSyntax return } } if !aggregateFlag { aggregate = ledis.AggregateSum } return } func zunionstoreCommand(c *client) error { args := c.args if len(args) < 2 { return ErrCmdParams } destKey, srcKeys, weights, aggregate, err := zparseZsetoptStore(args) if err != nil { return err } n, err := c.db.ZUnionStore(destKey, srcKeys, weights, aggregate) if err == nil { c.resp.writeInteger(n) } return err } func zinterstoreCommand(c *client) error { args := c.args if len(args) < 2 { return ErrCmdParams } destKey, srcKeys, weights, aggregate, err := zparseZsetoptStore(args) if err != nil { return err } n, err := c.db.ZInterStore(destKey, srcKeys, weights, aggregate) if err == nil { c.resp.writeInteger(n) } return err } func zparseMemberRange(minBuf []byte, maxBuf []byte) (min []byte, max []byte, rangeType uint8, err error) { rangeType = store.RangeClose if strings.ToLower(hack.String(minBuf)) == "-" { min = nil } else { if len(minBuf) == 0 { err = ErrCmdParams return } if minBuf[0] == '(' { rangeType |= store.RangeLOpen min = minBuf[1:] } else if minBuf[0] == '[' { min = minBuf[1:] } else { err = ErrCmdParams return } } if strings.ToLower(hack.String(maxBuf)) == "+" { max = nil } else { if len(maxBuf) == 0 { err = ErrCmdParams return } if maxBuf[0] == '(' { rangeType |= store.RangeROpen max = maxBuf[1:] } else if maxBuf[0] == '[' { max = maxBuf[1:] } else { err = ErrCmdParams return } } return } func zrangebylexCommand(c *client) error { args := c.args if len(args) != 3 && len(args) != 6 { return ErrCmdParams } min, max, rangeType, err := zparseMemberRange(args[1], args[2]) if err != nil { return err } var offset int = 0 var count int = -1 if len(args) == 6 { if strings.ToLower(hack.String(args[3])) != "limit" { return ErrSyntax } if offset, err = strconv.Atoi(hack.String(args[4])); err != nil { return ErrValue } if count, err = strconv.Atoi(hack.String(args[5])); err != nil { return ErrValue } } key := args[0] ay, err := c.db.ZRangeByLex(key, min, max, rangeType, offset, count) if err != nil { return err } c.resp.writeSliceArray(ay) return nil } func zremrangebylexCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } min, max, rangeType, err := zparseMemberRange(args[1], args[2]) if err != nil { return err } key := args[0] n, err := c.db.ZRemRangeByLex(key, min, max, rangeType) if err != nil { return err } c.resp.writeInteger(n) return nil } func zlexcountCommand(c *client) error { args := c.args if len(args) != 3 { return ErrCmdParams } min, max, rangeType, err := zparseMemberRange(args[1], args[2]) if err != nil { return err } key := args[0] n, err := c.db.ZLexCount(key, min, max, rangeType) if err != nil { return err } c.resp.writeInteger(n) return nil } func zkeyexistsCommand(c *client) error { args := c.args if len(args) != 1 { return ErrCmdParams } n, err := c.db.ZKeyExists(args[0]) if err != nil { return err } c.resp.writeInteger(n) return nil } func init() { register("zadd", zaddCommand) register("zcard", zcardCommand) register("zcount", zcountCommand) register("zincrby", zincrbyCommand) register("zrange", zrangeCommand) register("zrangebyscore", zrangebyscoreCommand) register("zrank", zrankCommand) register("zrem", zremCommand) register("zremrangebyrank", zremrangebyrankCommand) register("zremrangebyscore", zremrangebyscoreCommand) register("zrevrange", zrevrangeCommand) register("zrevrank", zrevrankCommand) register("zrevrangebyscore", zrevrangebyscoreCommand) register("zscore", zscoreCommand) register("zunionstore", zunionstoreCommand) register("zinterstore", zinterstoreCommand) register("zrangebylex", zrangebylexCommand) register("zremrangebylex", zremrangebylexCommand) register("zlexcount", zlexcountCommand) //ledisdb special command register("zclear", zclearCommand) register("zmclear", zmclearCommand) register("zexpire", zexpireCommand) register("zexpireat", zexpireAtCommand) register("zttl", zttlCommand) register("zpersist", zpersistCommand) register("zkeyexists", zkeyexistsCommand) }