func (s *Session) DEL(req *redis.Request) {
var result int64
// 串行会很慢,可以考滤开goroutine并行执行
// 但是这个goroutine量一定要控制,不能有多少key就多少goroutine
p := make(chan int, s.MulOpParallel)
for i := 0; i < s.MulOpParallel; i++ {
p <- 1
}
defer func() {
close(p)
}()
keys := req.Args()
wg := sync.WaitGroup{}
wg.Add(len(keys))
for _, key := range keys {
go func(key string) {
<-p
// log.Info("In DEL goroutine ", key)
cmdslice := []string{"DEL", key}
r := redis.NewRequest(cmdslice)
resp := s.Proxy.Backend.OnDEL(r)
result += resp.Val()
p <- 1
wg.Done()
}(key)
}
wg.Wait()
mergeResp := redis.FormatInt(result)
// log.Info("DEL merger resp ", mergeResp, result)
s.write2client(mergeResp)
}
func verifyCommand(req *redis.Request) error {
if req == nil || req.Len() == 0 {
return BadCommandError
}
name := req.Name()
if _, ok := blackList[name]; ok {
return CommandForbidden
}
rule, exist := reqrules[name]
if !exist {
// may return an error ?
return BadCommandError
}
for i, count := 0, len(rule); i < count; i++ {
switch i {
case RI_MinCount:
if val := rule[i].(int); val != -1 && req.Len() < val {
return WrongArgumentCount
}
case RI_MaxCount:
if val := rule[i].(int); val != -1 && req.Len() > val {
return WrongArgumentCount
}
}
}
return nil
}
func (s *Session) MSET(req *redis.Request) {
pair := req.Args()
if len(pair)%2 != 0 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
p := make(chan int, s.MulOpParallel)
for i := 0; i < s.MulOpParallel; i++ {
p <- 1
}
defer func() {
close(p)
}()
wg := sync.WaitGroup{}
wg.Add(len(pair) / 2)
partialErr := 0
// we just ignore return code, MSET reuturn OK unless anyone set error
for i := 0; i < len(pair); i += 2 {
go func(k string, v string) {
<-p
// log.Info("In MSET goroutine ", k, v)
cmdslice := []string{"SET", k, v}
r := redis.NewRequest(cmdslice)
resp := s.Proxy.Backend.OnSET(r)
if resp.Err() != nil && resp.Err() != redis.Nil {
// log.Warning("MSET error ", cmdslice, resp.Err())
partialErr += 1
}
p <- 1
wg.Done()
}(pair[i], pair[i+1])
}
wg.Wait()
if partialErr == 0 {
s.write2client(OK_BYTES)
} else {
d := fmt.Sprintf("- %d MSET failed, partial key/value %d set\r\n", partialErr, len(pair)/2-partialErr)
s.write2client([]byte(d))
}
}
//loglevel idletime mulparallel statsd slaveok
func (s *Session) proxyConf(req *redis.Request) {
// proxy config set loglevel info
// proxy config set idletime 200
// proxy config set slaveok 1|0
// proxy config set mulparallel 30
// proxy config get statsd
args := req.Args()
// config get|set
switch strings.ToLower(args[1]) {
case "get":
if len(req.Args()) != 3 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
cfgname := strings.ToLower(args[2])
reply := s.proxyConfigGetByName(cfgname)
s.write2client(reply)
return
case "set":
if len(req.Args()) != 4 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
cfgname := strings.ToLower(args[2])
value := strings.ToLower(args[3])
reply := s.proxyConfigSetByName(cfgname, value)
s.write2client(reply)
return
default:
s.write2client([]byte("-wrong proxy config op type\r\n"))
return
}
}
func (ps *ProxyServer) Dispatch(req *redis.Request) redis.Cmder {
name := req.Name()
method, ok := ps.RedisMethod[name]
if !ok {
method = reflect.ValueOf(ps.Backend).MethodByName("On" + name)
ps.RedisMethod[name] = method
}
if method.IsValid() {
in := []reflect.Value{reflect.ValueOf(req)}
callResult := method.Call(in)
if callResult[0].Interface() != nil {
return callResult[0].Interface().(redis.Cmder)
}
} else {
return ps.Backend.OnReflectUnvalid(req)
}
return ps.Backend.OnUnDenfined(req)
}
func (s *Session) MGET(req *redis.Request) {
p := make(chan int, s.MulOpParallel)
for i := 0; i < s.MulOpParallel; i++ {
p <- 1
}
defer func() {
close(p)
}()
keys := req.Args()
wg := sync.WaitGroup{}
wg.Add(len(keys))
// we should ensure the KEY's order
result := make([][]byte, len(keys))
for idx, key := range keys {
go func(key string, idx int) {
<-p
// log.Info("In MGET goroutine ", key)
cmdslice := []string{"GET", key}
r := redis.NewRequest(cmdslice)
resp := s.Proxy.Backend.OnGET(r)
result[idx] = resp.Reply()
p <- 1
wg.Done()
}(key, idx)
}
wg.Wait()
mergeResp := []byte(fmt.Sprintf("*%d\r\n", len(keys)))
for _, res := range result {
mergeResp = append(mergeResp, res...)
}
// log.Info("MGET merger resp ", string(mergeResp))
s.write2client(mergeResp)
}
func (s *Session) SpecCommandProcess(req *redis.Request) {
// log.Info("Spec command Process ", req)
switch req.Name() {
case "SINTERSTORE":
s.SINTERSTORE(req)
case "SMOVE":
s.SMOVE(req)
case "DEL":
s.DEL(req)
case "RPOPLPUSH":
s.RPOPLPUSH(req)
case "SDIFFSTORE":
s.SDIFFSTORE(req)
case "SINTER":
s.SINTER(req)
case "SDIFF":
s.SDIFF(req)
case "MGET":
s.MGET(req)
case "ZINTERSTORE":
s.ZINTERSTORE(req)
case "ZUNIONSTORE":
s.ZUNIONSTORE(req)
case "RENAME":
s.RENAME(req)
case "RENAMENX":
s.RENAMENX(req)
case "MSET":
s.MSET(req)
case "MSETNX":
s.MSETNX(req)
case "PROXY":
s.PROXY(req)
default:
log.Fatalf("Unknown Spec Command: %s, we won't expect this happen ", req.Name())
}
}
func (s *Session) Write2client(req *redis.Request) error {
return s.write2client(req.Result())
}
func (s *Session) forward(req *redis.Request) {
resp := s.Proxy.Dispatch(req)
// log.Info("session forward got response: ", resp)
req.SetResp(resp)
}
// buf, shouldClose, handled, err
func preCheckCommand(req *redis.Request) ([]byte, bool, bool, error) {
var reply []byte
shouldClose := false
if req.Len() == 0 {
return reply, false, true, BadCommandError
}
cmd := req.Name()
switch cmd {
case "PING":
reply = []byte("+PONG\r\n")
case "QUIT":
reply = OK_BYTES
shouldClose = true
case "SELECT":
//支持 select,但是到后台全部都用的 db 0
//hia hia hia hia 没办法。。。
reply = OK_BYTES
case "AUTH":
reply = OK_BYTES
case "ECHO":
if len(req.Args()) == 1 {
echo := fmt.Sprintf("+%s\r\n", req.Args()[0])
return []byte(echo), false, true, nil
} else {
return nil, false, true, WrongArgumentCount
}
}
if len(reply) > 0 {
return reply, shouldClose, true, nil
}
if err := verifyCommand(req); err != nil {
return nil, shouldClose, true, err
}
if len(req.Args()) >= 1 {
if _, ok := BlackKeyLists[req.Args()[0]]; ok {
// key blacked
reply = []byte("-key already be blacked \r\n")
return reply, shouldClose, true, nil
}
}
return reply, shouldClose, false, nil
}
func (s *Session) proxyBlack(req *redis.Request) {
args := strings.ToLower(req.Args()[1])
// log.Warning(req.Args())
switch args {
// proxy black remove keyname
case "remove":
if len(req.Args()) != 3 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
// delete(BlackKeyLists, req.Args()[-1])
key := req.Args()[2]
if _, exists := BlackKeyLists[key]; exists {
log.Warning("remove black key ", key)
delete(BlackKeyLists, key)
s.write2client(OK_BYTES)
} else {
s.write2client([]byte("-remove key not exists\r\n"))
}
case "get":
if len(req.Args()) != 2 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
ks := make([]string, 0)
for k, _ := range BlackKeyLists {
ks = append(ks, k)
}
d := redis.FormatStringSlice(ks)
s.write2client(d)
case "set":
//proxy black set 3600 keyname1
if len(req.Args()) != 4 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
t, err := strconv.Atoi(req.Args()[3])
if err != nil {
log.Warningf("black key: %s time unavailable %s", req.Args()[2], req.Args()[3])
err := fmt.Sprintf("-%s\r\n", BlackTimeUnavaliable)
s.write2client([]byte(err))
return
}
if t > 86400 || t < 0 {
log.Warningf("black key: %s time unavailable %s", req.Args()[2], req.Args()[3])
s.write2client([]byte("-black time must between 0 ~ 86400\r\n"))
return
}
BlackKeyLists[req.Args()[2]] = &BlackKey{
Name: req.Args()[2],
Startup: time.Now(),
Deadline: time.Now().Add(time.Duration(t) * time.Second),
}
s.write2client(OK_BYTES)
return
default:
err := fmt.Sprintf("-%s\r\n", UnknowProxyOpType)
s.write2client([]byte(err))
return
}
return
}
func (s *Session) PROXY(req *redis.Request) {
op := strings.ToLower(req.Args()[0])
// log.Warning("PROXY ", req.Args())
switch op {
case "info":
if len(req.Args()) != 1 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
s.proxyInfo(req)
case "black":
if len(req.Args()) < 2 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
s.proxyBlack(req)
case "config":
// proxy config set name value
if len(req.Args()) < 3 || len(req.Args()) > 4 {
err := fmt.Sprintf("-%s\r\n", WrongArgumentCount)
s.write2client([]byte(err))
return
}
s.proxyConf(req)
default:
log.Warning("Unknow proxy op type: ", req.Args())
err := fmt.Sprintf("-%s\r\n", UnknowProxyOpType)
s.write2client([]byte(err))
return
}
}
