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db.go
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db.go
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package miniredis
import (
"errors"
"fmt"
"math"
"math/big"
"sort"
"strconv"
"time"
)
var (
errInvalidEntryID = errors.New("stream ID is invalid")
)
// exists also updates the lru
func (db *RedisDB) exists(k string) bool {
_, ok := db.keys[k]
if ok {
db.lru[k] = db.master.effectiveNow()
}
return ok
}
// t gives the type of a key, or ""
func (db *RedisDB) t(k string) string {
return db.keys[k]
}
// incr increases the version and the lru timestamp
func (db *RedisDB) incr(k string) {
db.lru[k] = db.master.effectiveNow()
db.keyVersion[k]++
}
// allKeys returns all keys. Sorted.
func (db *RedisDB) allKeys() []string {
res := make([]string, 0, len(db.keys))
for k := range db.keys {
res = append(res, k)
}
sort.Strings(res) // To make things deterministic.
return res
}
// flush removes all keys and values.
func (db *RedisDB) flush() {
db.keys = map[string]string{}
db.lru = map[string]time.Time{}
db.stringKeys = map[string]string{}
db.hashKeys = map[string]hashKey{}
db.listKeys = map[string]listKey{}
db.setKeys = map[string]setKey{}
db.hllKeys = map[string]*hll{}
db.sortedsetKeys = map[string]sortedSet{}
db.ttl = map[string]time.Duration{}
db.streamKeys = map[string]*streamKey{}
}
// move something to another db. Will return ok. Or not.
func (db *RedisDB) move(key string, to *RedisDB) bool {
if _, ok := to.keys[key]; ok {
return false
}
t, ok := db.keys[key]
if !ok {
return false
}
to.keys[key] = db.keys[key]
switch t {
case "string":
to.stringKeys[key] = db.stringKeys[key]
case "hash":
to.hashKeys[key] = db.hashKeys[key]
case "list":
to.listKeys[key] = db.listKeys[key]
case "set":
to.setKeys[key] = db.setKeys[key]
case "zset":
to.sortedsetKeys[key] = db.sortedsetKeys[key]
case "stream":
to.streamKeys[key] = db.streamKeys[key]
case "hll":
to.hllKeys[key] = db.hllKeys[key]
default:
panic("unhandled key type")
}
if v, ok := db.ttl[key]; ok {
to.ttl[key] = v
}
to.incr(key)
db.del(key, true)
return true
}
func (db *RedisDB) rename(from, to string) {
db.del(to, true)
switch db.t(from) {
case "string":
db.stringKeys[to] = db.stringKeys[from]
case "hash":
db.hashKeys[to] = db.hashKeys[from]
case "list":
db.listKeys[to] = db.listKeys[from]
case "set":
db.setKeys[to] = db.setKeys[from]
case "zset":
db.sortedsetKeys[to] = db.sortedsetKeys[from]
case "stream":
db.streamKeys[to] = db.streamKeys[from]
case "hll":
db.hllKeys[to] = db.hllKeys[from]
default:
panic("missing case")
}
db.keys[to] = db.keys[from]
if v, ok := db.ttl[from]; ok {
db.ttl[to] = v
}
db.incr(to)
db.del(from, true)
}
func (db *RedisDB) del(k string, delTTL bool) {
if !db.exists(k) {
return
}
t := db.t(k)
delete(db.keys, k)
delete(db.lru, k)
db.keyVersion[k]++
if delTTL {
delete(db.ttl, k)
}
switch t {
case "string":
delete(db.stringKeys, k)
case "hash":
delete(db.hashKeys, k)
case "list":
delete(db.listKeys, k)
case "set":
delete(db.setKeys, k)
case "zset":
delete(db.sortedsetKeys, k)
case "stream":
delete(db.streamKeys, k)
case "hll":
delete(db.hllKeys, k)
default:
panic("Unknown key type: " + t)
}
}
// stringGet returns the string key or "" on error/nonexists.
func (db *RedisDB) stringGet(k string) string {
if t, ok := db.keys[k]; !ok || t != "string" {
return ""
}
return db.stringKeys[k]
}
// stringSet force set()s a key. Does not touch expire.
func (db *RedisDB) stringSet(k, v string) {
db.del(k, false)
db.keys[k] = "string"
db.stringKeys[k] = v
db.incr(k)
}
// change int key value
func (db *RedisDB) stringIncr(k string, delta int) (int, error) {
v := 0
if sv, ok := db.stringKeys[k]; ok {
var err error
v, err = strconv.Atoi(sv)
if err != nil {
return 0, ErrIntValueError
}
}
if delta > 0 {
if math.MaxInt-delta < v {
return 0, ErrIntValueOverflowError
}
} else {
if math.MinInt-delta > v {
return 0, ErrIntValueOverflowError
}
}
v += delta
db.stringSet(k, strconv.Itoa(v))
return v, nil
}
// change float key value
func (db *RedisDB) stringIncrfloat(k string, delta *big.Float) (*big.Float, error) {
v := big.NewFloat(0.0)
v.SetPrec(128)
if sv, ok := db.stringKeys[k]; ok {
var err error
v, _, err = big.ParseFloat(sv, 10, 128, 0)
if err != nil {
return nil, ErrFloatValueError
}
}
v.Add(v, delta)
db.stringSet(k, formatBig(v))
return v, nil
}
// listLpush is 'left push', aka unshift. Returns the new length.
func (db *RedisDB) listLpush(k, v string) int {
l, ok := db.listKeys[k]
if !ok {
db.keys[k] = "list"
}
l = append([]string{v}, l...)
db.listKeys[k] = l
db.incr(k)
return len(l)
}
// 'left pop', aka shift.
func (db *RedisDB) listLpop(k string) string {
l := db.listKeys[k]
el := l[0]
l = l[1:]
if len(l) == 0 {
db.del(k, true)
} else {
db.listKeys[k] = l
}
db.incr(k)
return el
}
func (db *RedisDB) listPush(k string, v ...string) int {
l, ok := db.listKeys[k]
if !ok {
db.keys[k] = "list"
}
l = append(l, v...)
db.listKeys[k] = l
db.incr(k)
return len(l)
}
func (db *RedisDB) listPop(k string) string {
l := db.listKeys[k]
el := l[len(l)-1]
l = l[:len(l)-1]
if len(l) == 0 {
db.del(k, true)
} else {
db.listKeys[k] = l
db.incr(k)
}
return el
}
// setset replaces a whole set.
func (db *RedisDB) setSet(k string, set setKey) {
db.keys[k] = "set"
db.setKeys[k] = set
db.incr(k)
}
// setadd adds members to a set. Returns nr of new keys.
func (db *RedisDB) setAdd(k string, elems ...string) int {
s, ok := db.setKeys[k]
if !ok {
s = setKey{}
db.keys[k] = "set"
}
added := 0
for _, e := range elems {
if _, ok := s[e]; !ok {
added++
}
s[e] = struct{}{}
}
db.setKeys[k] = s
db.incr(k)
return added
}
// setrem removes members from a set. Returns nr of deleted keys.
func (db *RedisDB) setRem(k string, fields ...string) int {
s, ok := db.setKeys[k]
if !ok {
return 0
}
removed := 0
for _, f := range fields {
if _, ok := s[f]; ok {
removed++
delete(s, f)
}
}
if len(s) == 0 {
db.del(k, true)
} else {
db.setKeys[k] = s
}
db.incr(k)
return removed
}
// All members of a set.
func (db *RedisDB) setMembers(k string) []string {
set := db.setKeys[k]
members := make([]string, 0, len(set))
for k := range set {
members = append(members, k)
}
sort.Strings(members)
return members
}
// Is a SET value present?
func (db *RedisDB) setIsMember(k, v string) bool {
set, ok := db.setKeys[k]
if !ok {
return false
}
_, ok = set[v]
return ok
}
// hashFields returns all (sorted) keys ('fields') for a hash key.
func (db *RedisDB) hashFields(k string) []string {
v := db.hashKeys[k]
var r []string
for k := range v {
r = append(r, k)
}
sort.Strings(r)
return r
}
// hashValues returns all (sorted) values a hash key.
func (db *RedisDB) hashValues(k string) []string {
h := db.hashKeys[k]
var r []string
for _, v := range h {
r = append(r, v)
}
sort.Strings(r)
return r
}
// hashGet a value
func (db *RedisDB) hashGet(key, field string) string {
return db.hashKeys[key][field]
}
// hashSet returns the number of new keys
func (db *RedisDB) hashSet(k string, fv ...string) int {
if t, ok := db.keys[k]; ok && t != "hash" {
db.del(k, true)
}
db.keys[k] = "hash"
if _, ok := db.hashKeys[k]; !ok {
db.hashKeys[k] = map[string]string{}
}
new := 0
for idx := 0; idx < len(fv)-1; idx = idx + 2 {
f, v := fv[idx], fv[idx+1]
_, ok := db.hashKeys[k][f]
db.hashKeys[k][f] = v
db.incr(k)
if !ok {
new++
}
}
return new
}
// hashIncr changes int key value
func (db *RedisDB) hashIncr(key, field string, delta int) (int, error) {
v := 0
if h, ok := db.hashKeys[key]; ok {
if f, ok := h[field]; ok {
var err error
v, err = strconv.Atoi(f)
if err != nil {
return 0, ErrIntValueError
}
}
}
v += delta
db.hashSet(key, field, strconv.Itoa(v))
return v, nil
}
// hashIncrfloat changes float key value
func (db *RedisDB) hashIncrfloat(key, field string, delta *big.Float) (*big.Float, error) {
v := big.NewFloat(0.0)
v.SetPrec(128)
if h, ok := db.hashKeys[key]; ok {
if f, ok := h[field]; ok {
var err error
v, _, err = big.ParseFloat(f, 10, 128, 0)
if err != nil {
return nil, ErrFloatValueError
}
}
}
v.Add(v, delta)
db.hashSet(key, field, formatBig(v))
return v, nil
}
// sortedSet set returns a sortedSet as map
func (db *RedisDB) sortedSet(key string) map[string]float64 {
ss := db.sortedsetKeys[key]
return map[string]float64(ss)
}
// ssetSet sets a complete sorted set.
func (db *RedisDB) ssetSet(key string, sset sortedSet) {
db.keys[key] = "zset"
db.incr(key)
db.sortedsetKeys[key] = sset
}
// ssetAdd adds member to a sorted set. Returns whether this was a new member.
func (db *RedisDB) ssetAdd(key string, score float64, member string) bool {
ss, ok := db.sortedsetKeys[key]
if !ok {
ss = newSortedSet()
db.keys[key] = "zset"
}
_, ok = ss[member]
ss[member] = score
db.sortedsetKeys[key] = ss
db.incr(key)
return !ok
}
// All members from a sorted set, ordered by score.
func (db *RedisDB) ssetMembers(key string) []string {
ss, ok := db.sortedsetKeys[key]
if !ok {
return nil
}
elems := ss.byScore(asc)
members := make([]string, 0, len(elems))
for _, e := range elems {
members = append(members, e.member)
}
return members
}
// All members+scores from a sorted set, ordered by score.
func (db *RedisDB) ssetElements(key string) ssElems {
ss, ok := db.sortedsetKeys[key]
if !ok {
return nil
}
return ss.byScore(asc)
}
func (db *RedisDB) ssetRandomMember(key string) string {
elems := db.ssetElements(key)
if len(elems) == 0 {
return ""
}
return elems[db.master.randIntn(len(elems))].member
}
// ssetCard is the sorted set cardinality.
func (db *RedisDB) ssetCard(key string) int {
ss := db.sortedsetKeys[key]
return ss.card()
}
// ssetRank is the sorted set rank.
func (db *RedisDB) ssetRank(key, member string, d direction) (int, bool) {
ss := db.sortedsetKeys[key]
return ss.rankByScore(member, d)
}
// ssetScore is sorted set score.
func (db *RedisDB) ssetScore(key, member string) float64 {
ss := db.sortedsetKeys[key]
return ss[member]
}
// ssetMScore returns multiple scores of a list of members in a sorted set.
func (db *RedisDB) ssetMScore(key string, members []string) []float64 {
scores := make([]float64, 0, len(members))
ss := db.sortedsetKeys[key]
for _, member := range members {
scores = append(scores, ss[member])
}
return scores
}
// ssetRem is sorted set key delete.
func (db *RedisDB) ssetRem(key, member string) bool {
ss := db.sortedsetKeys[key]
_, ok := ss[member]
delete(ss, member)
if len(ss) == 0 {
// Delete key on removal of last member
db.del(key, true)
}
return ok
}
// ssetExists tells if a member exists in a sorted set.
func (db *RedisDB) ssetExists(key, member string) bool {
ss := db.sortedsetKeys[key]
_, ok := ss[member]
return ok
}
// ssetIncrby changes float sorted set score.
func (db *RedisDB) ssetIncrby(k, m string, delta float64) float64 {
ss, ok := db.sortedsetKeys[k]
if !ok {
ss = newSortedSet()
db.keys[k] = "zset"
db.sortedsetKeys[k] = ss
}
v, _ := ss.get(m)
v += delta
ss.set(v, m)
db.incr(k)
return v
}
// setDiff implements the logic behind SDIFF*
func (db *RedisDB) setDiff(keys []string) (setKey, error) {
key := keys[0]
keys = keys[1:]
if db.exists(key) && db.t(key) != "set" {
return nil, ErrWrongType
}
s := setKey{}
for k := range db.setKeys[key] {
s[k] = struct{}{}
}
for _, sk := range keys {
if !db.exists(sk) {
continue
}
if db.t(sk) != "set" {
return nil, ErrWrongType
}
for e := range db.setKeys[sk] {
delete(s, e)
}
}
return s, nil
}
// setInter implements the logic behind SINTER*
// len keys needs to be > 0
func (db *RedisDB) setInter(keys []string) (setKey, error) {
// all keys must either not exist, or be of type "set".
for _, key := range keys {
if db.exists(key) && db.t(key) != "set" {
return nil, ErrWrongType
}
}
key := keys[0]
keys = keys[1:]
if !db.exists(key) {
return nil, nil
}
if db.t(key) != "set" {
return nil, ErrWrongType
}
s := setKey{}
for k := range db.setKeys[key] {
s[k] = struct{}{}
}
for _, sk := range keys {
if !db.exists(sk) {
return setKey{}, nil
}
if db.t(sk) != "set" {
return nil, ErrWrongType
}
other := db.setKeys[sk]
for e := range s {
if _, ok := other[e]; ok {
continue
}
delete(s, e)
}
}
return s, nil
}
// setIntercard implements the logic behind SINTER*
// len keys needs to be > 0
func (db *RedisDB) setIntercard(keys []string, limit int) (int, error) {
// all keys must either not exist, or be of type "set".
allExist := true
for _, key := range keys {
exists := db.exists(key)
allExist = allExist && exists
if exists && db.t(key) != "set" {
return 0, ErrWrongType
}
}
if !allExist {
return 0, nil
}
smallestKey := keys[0]
smallestIdx := 0
for i, key := range keys {
if len(db.setKeys[key]) < len(db.setKeys[smallestKey]) {
smallestKey = key
smallestIdx = i
}
}
keys[smallestIdx] = keys[len(keys)-1]
keys = keys[:len(keys)-1]
count := 0
for item := range db.setKeys[smallestKey] {
inIntersection := true
for _, key := range keys {
if _, ok := db.setKeys[key][item]; !ok {
inIntersection = false
break
}
}
if inIntersection {
count++
if count == limit {
break
}
}
}
return count, nil
}
// setUnion implements the logic behind SUNION*
func (db *RedisDB) setUnion(keys []string) (setKey, error) {
key := keys[0]
keys = keys[1:]
if db.exists(key) && db.t(key) != "set" {
return nil, ErrWrongType
}
s := setKey{}
for k := range db.setKeys[key] {
s[k] = struct{}{}
}
for _, sk := range keys {
if !db.exists(sk) {
continue
}
if db.t(sk) != "set" {
return nil, ErrWrongType
}
for e := range db.setKeys[sk] {
s[e] = struct{}{}
}
}
return s, nil
}
func (db *RedisDB) newStream(key string) (*streamKey, error) {
if s, err := db.stream(key); err != nil {
return nil, err
} else if s != nil {
return nil, fmt.Errorf("ErrAlreadyExists")
}
db.keys[key] = "stream"
s := newStreamKey()
db.streamKeys[key] = s
db.incr(key)
return s, nil
}
// return existing stream, or nil.
func (db *RedisDB) stream(key string) (*streamKey, error) {
if db.exists(key) && db.t(key) != "stream" {
return nil, ErrWrongType
}
return db.streamKeys[key], nil
}
// return existing stream group, or nil.
func (db *RedisDB) streamGroup(key, group string) (*streamGroup, error) {
s, err := db.stream(key)
if err != nil || s == nil {
return nil, err
}
return s.groups[group], nil
}
// fastForward proceeds the current timestamp with duration, works as a time machine
func (db *RedisDB) fastForward(duration time.Duration) {
for _, key := range db.allKeys() {
if value, ok := db.ttl[key]; ok {
db.ttl[key] = value - duration
db.checkTTL(key)
}
}
}
func (db *RedisDB) checkTTL(key string) {
if v, ok := db.ttl[key]; ok && v <= 0 {
db.del(key, true)
}
}
// hllAdd adds members to a hll. Returns 1 if at least 1 if internal HyperLogLog was altered, otherwise 0
func (db *RedisDB) hllAdd(k string, elems ...string) int {
s, ok := db.hllKeys[k]
if !ok {
s = newHll()
db.keys[k] = "hll"
}
hllAltered := 0
for _, e := range elems {
if s.Add([]byte(e)) {
hllAltered = 1
}
}
db.hllKeys[k] = s
db.incr(k)
return hllAltered
}
// hllCount estimates the amount of members added to hll by hllAdd. If called with several arguments, hllCount returns a sum of estimations
func (db *RedisDB) hllCount(keys []string) (int, error) {
countOverall := 0
for _, key := range keys {
if db.exists(key) && db.t(key) != "hll" {
return 0, ErrNotValidHllValue
}
if !db.exists(key) {
continue
}
countOverall += db.hllKeys[key].Count()
}
return countOverall, nil
}
// hllMerge merges all the hlls provided as keys to the first key. Creates a new hll in the first key if it contains nothing
func (db *RedisDB) hllMerge(keys []string) error {
for _, key := range keys {
if db.exists(key) && db.t(key) != "hll" {
return ErrNotValidHllValue
}
}
destKey := keys[0]
restKeys := keys[1:]
var destHll *hll
if db.exists(destKey) {
destHll = db.hllKeys[destKey]
} else {
destHll = newHll()
}
for _, key := range restKeys {
if !db.exists(key) {
continue
}
destHll.Merge(db.hllKeys[key])
}
db.hllKeys[destKey] = destHll
db.keys[destKey] = "hll"
db.incr(destKey)
return nil
}