ledisdb/ledis/t_ttl_test.go

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package ledis
import (
"fmt"
"sync"
"testing"
"time"
)
var m sync.Mutex
type adaptor struct {
set func([]byte, []byte) (int64, error)
del func([]byte) (int64, error)
exists func([]byte) (int64, error)
expire func([]byte, int64) (int64, error)
expireAt func([]byte, int64) (int64, error)
ttl func([]byte) (int64, error)
showIdent func() string
}
func kvAdaptor(db *DB) *adaptor {
adp := new(adaptor)
adp.showIdent = func() string {
return "kv-adptor"
}
adp.set = db.SetNX
adp.exists = db.Exists
adp.del = func(k []byte) (int64, error) {
return db.Del(k)
}
adp.expire = db.Expire
adp.expireAt = db.ExpireAt
adp.ttl = db.TTL
return adp
}
func listAdaptor(db *DB) *adaptor {
adp := new(adaptor)
adp.showIdent = func() string {
return "list-adptor"
}
adp.set = func(k []byte, v []byte) (int64, error) {
eles := make([][]byte, 0)
for i := 0; i < 3; i++ {
e := []byte(String(v) + fmt.Sprintf("_%d", i))
eles = append(eles, e)
}
if n, err := db.LPush(k, eles...); err != nil {
return 0, err
} else {
return n, nil
}
}
adp.exists = func(k []byte) (int64, error) {
if llen, err := db.LLen(k); err != nil || llen <= 0 {
return 0, err
} else {
return 1, nil
}
}
adp.del = db.LClear
adp.expire = db.LExpire
adp.expireAt = db.LExpireAt
adp.ttl = db.LTTL
return adp
}
func hashAdaptor(db *DB) *adaptor {
adp := new(adaptor)
adp.showIdent = func() string {
return "hash-adptor"
}
adp.set = func(k []byte, v []byte) (int64, error) {
datas := make([]FVPair, 0)
for i := 0; i < 3; i++ {
suffix := fmt.Sprintf("_%d", i)
pair := FVPair{
Field: []byte(String(k) + suffix),
Value: []byte(String(v) + suffix)}
datas = append(datas, pair)
}
if err := db.HMset(k, datas...); err != nil {
return 0, err
} else {
return int64(len(datas)), nil
}
}
adp.exists = func(k []byte) (int64, error) {
if hlen, err := db.HLen(k); err != nil || hlen <= 0 {
return 0, err
} else {
return 1, nil
}
}
adp.del = db.HClear
adp.expire = db.HExpire
adp.expireAt = db.HExpireAt
adp.ttl = db.HTTL
return adp
}
func zsetAdaptor(db *DB) *adaptor {
adp := new(adaptor)
adp.showIdent = func() string {
return "zset-adptor"
}
adp.set = func(k []byte, v []byte) (int64, error) {
datas := make([]ScorePair, 0)
for i := 0; i < 3; i++ {
memb := []byte(String(k) + fmt.Sprintf("_%d", i))
pair := ScorePair{
Score: int64(i),
Member: memb}
datas = append(datas, pair)
}
if n, err := db.ZAdd(k, datas...); err != nil {
return 0, err
} else {
return n, nil
}
}
adp.exists = func(k []byte) (int64, error) {
if cnt, err := db.ZCard(k); err != nil || cnt <= 0 {
return 0, err
} else {
return 1, nil
}
}
adp.del = db.ZClear
adp.expire = db.ZExpire
adp.expireAt = db.ZExpireAt
adp.ttl = db.ZTTL
return adp
}
func allAdaptors(db *DB) []*adaptor {
adps := make([]*adaptor, 4)
adps[0] = kvAdaptor(db)
adps[1] = listAdaptor(db)
adps[2] = hashAdaptor(db)
adps[3] = zsetAdaptor(db)
return adps
}
///////////////////////////////////////////////////////
func TestExpire(t *testing.T) {
db := getTestDB()
m.Lock()
defer m.Unlock()
k := []byte("ttl_a")
ek := []byte("ttl_b")
dbEntrys := allAdaptors(db)
for _, entry := range dbEntrys {
ident := entry.showIdent()
entry.set(k, []byte("1"))
if ok, _ := entry.expire(k, 10); ok != 1 {
t.Fatal(ident, ok)
}
// err - expire on an inexisting key
if ok, _ := entry.expire(ek, 10); ok != 0 {
t.Fatal(ident, ok)
}
// err - duration is zero
if ok, err := entry.expire(k, 0); err == nil || ok != 0 {
t.Fatal(ident, fmt.Sprintf("res = %d, err = %s", ok, err))
}
// err - duration is negative
if ok, err := entry.expire(k, -10); err == nil || ok != 0 {
t.Fatal(ident, fmt.Sprintf("res = %d, err = %s", ok, err))
}
}
}
func TestExpireAt(t *testing.T) {
db := getTestDB()
m.Lock()
defer m.Unlock()
k := []byte("ttl_a")
ek := []byte("ttl_b")
dbEntrys := allAdaptors(db)
for _, entry := range dbEntrys {
ident := entry.showIdent()
now := time.Now().Unix()
entry.set(k, []byte("1"))
if ok, _ := entry.expireAt(k, now+5); ok != 1 {
t.Fatal(ident, ok)
}
// err - expire on an inexisting key
if ok, _ := entry.expireAt(ek, now+5); ok != 0 {
t.Fatal(ident, ok)
}
// err - expire with the current time
if ok, err := entry.expireAt(k, now); err == nil || ok != 0 {
t.Fatal(ident, fmt.Sprintf("res = %d, err = %s", ok, err))
}
// err - expire with the time before
if ok, err := entry.expireAt(k, now-5); err == nil || ok != 0 {
t.Fatal(ident, fmt.Sprintf("res = %d, err = %s", ok, err))
}
}
}
func TestTTL(t *testing.T) {
db := getTestDB()
m.Lock()
defer m.Unlock()
k := []byte("ttl_a")
ek := []byte("ttl_b")
dbEntrys := allAdaptors(db)
for _, entry := range dbEntrys {
ident := entry.showIdent()
entry.set(k, []byte("1"))
entry.expire(k, 2)
if tRemain, _ := entry.ttl(k); tRemain != 2 {
t.Fatal(ident, tRemain)
}
// err - check ttl on an inexisting key
if tRemain, _ := entry.ttl(ek); tRemain != -1 {
t.Fatal(ident, tRemain)
}
entry.del(k)
if tRemain, _ := entry.ttl(k); tRemain != -1 {
t.Fatal(ident, tRemain)
}
}
}
func TestExpCompose(t *testing.T) {
db := getTestDB()
m.Lock()
defer m.Unlock()
k0 := []byte("ttl_a")
k1 := []byte("ttl_b")
k2 := []byte("ttl_c")
dbEntrys := allAdaptors(db)
for _, entry := range dbEntrys {
ident := entry.showIdent()
entry.set(k0, k0)
entry.set(k1, k1)
entry.set(k2, k2)
entry.expire(k0, 5)
entry.expire(k1, 2)
entry.expire(k2, 60)
if tRemain, _ := entry.ttl(k0); tRemain != 5 {
t.Fatal(ident, tRemain)
}
if tRemain, _ := entry.ttl(k1); tRemain != 2 {
t.Fatal(ident, tRemain)
}
if tRemain, _ := entry.ttl(k2); tRemain != 60 {
t.Fatal(ident, tRemain)
}
}
// after 1 sec
time.Sleep(1 * time.Second)
for _, entry := range dbEntrys {
ident := entry.showIdent()
if tRemain, _ := entry.ttl(k0); tRemain != 4 {
t.Fatal(ident, tRemain)
}
if tRemain, _ := entry.ttl(k1); tRemain != 1 {
t.Fatal(ident, tRemain)
}
}
// after 2 sec
time.Sleep(2 * time.Second)
for _, entry := range dbEntrys {
ident := entry.showIdent()
if tRemain, _ := entry.ttl(k1); tRemain != -1 {
t.Fatal(ident, tRemain)
}
if exist, _ := entry.exists(k1); exist > 0 {
t.Fatal(ident, false)
}
if tRemain, _ := entry.ttl(k0); tRemain != 2 {
t.Fatal(ident, tRemain)
}
if exist, _ := entry.exists(k0); exist <= 0 {
t.Fatal(ident, false)
}
// refresh the expiration of key
if tRemain, _ := entry.ttl(k2); !(0 < tRemain && tRemain < 60) {
t.Fatal(ident, tRemain)
}
if ok, _ := entry.expire(k2, 100); ok != 1 {
t.Fatal(ident, false)
}
if tRemain, _ := entry.ttl(k2); tRemain != 100 {
t.Fatal(ident, tRemain)
}
// expire an inexisting key
if ok, _ := entry.expire(k1, 10); ok == 1 {
t.Fatal(ident, false)
}
if tRemain, _ := entry.ttl(k1); tRemain != -1 {
t.Fatal(ident, tRemain)
}
}
return
}