func NewKiteClientManager(zkAddr, groupId, secretKey string, listen listener.IListener) *KiteClientManager {
flowstat := stat.NewFlowStat("kiteclient-" + groupId)
rc := turbo.NewRemotingConfig(
"remoting-"+groupId,
50, 16*1024,
16*1024, 10000, 10000,
10*time.Second, 160000)
//重连管理器
reconnManager := c.NewReconnectManager(true, 30*time.Second, 100, handshake)
//构造pipeline的结构
pipeline := pipe.NewDefaultPipeline()
clientm := c.NewClientManager(reconnManager)
pipeline.RegisteHandler("kiteclient-packet", chandler.NewPacketHandler("kiteclient-packet"))
pipeline.RegisteHandler("kiteclient-heartbeat", chandler.NewHeartbeatHandler("kiteclient-heartbeat", 10*time.Second, 5*time.Second, clientm))
pipeline.RegisteHandler("kiteclient-accept", chandler.NewAcceptHandler("kiteclient-accept", listen))
pipeline.RegisteHandler("kiteclient-remoting", pipe.NewRemotingHandler("kiteclient-remoting", clientm))
manager := &KiteClientManager{
ga: c.NewGroupAuth(groupId, secretKey),
kiteClients: make(map[string][]*kiteClient, 10),
topics: make([]string, 0, 10),
pipeline: pipeline,
clientManager: clientm,
rc: rc,
flowstat: flowstat,
zkAddr: zkAddr}
//开启流量统计
manager.remointflow()
manager.flowstat.Start()
return manager
}
func NewKiteQServer(kc KiteQConfig) *KiteQServer {
kiteqName, _ := os.Hostname()
kitedb := parseDB(kc, kiteqName)
kitedb.Start()
//重连管理器
reconnManager := client.NewReconnectManager(false, -1, -1, handshake)
//客户端连接管理器
clientManager := client.NewClientManager(reconnManager)
// 临时在这里创建的BindExchanger
exchanger := binding.NewBindExchanger(kc.zkhost, kc.server)
//创建消息投递注册器
registry := stat.NewDeliveryRegistry(10 * 10000)
//重投策略
rw := make([]handler.RedeliveryWindow, 0, 10)
rw = append(rw, handler.NewRedeliveryWindow(0, 3, 30))
rw = append(rw, handler.NewRedeliveryWindow(4, 10, 2*60))
rw = append(rw, handler.NewRedeliveryWindow(10, 20, 4*60))
rw = append(rw, handler.NewRedeliveryWindow(20, 30, 8*60))
rw = append(rw, handler.NewRedeliveryWindow(30, 40, 16*60))
rw = append(rw, handler.NewRedeliveryWindow(40, 50, 32*60))
rw = append(rw, handler.NewRedeliveryWindow(50, -1, 60*60))
//初始化pipeline
pipeline := pipe.NewDefaultPipeline()
pipeline.RegisteHandler("packet", handler.NewPacketHandler("packet"))
pipeline.RegisteHandler("access", handler.NewAccessHandler("access", clientManager))
pipeline.RegisteHandler("validate", handler.NewValidateHandler("validate", clientManager))
pipeline.RegisteHandler("accept", handler.NewAcceptHandler("accept"))
pipeline.RegisteHandler("heartbeat", handler.NewHeartbeatHandler("heartbeat"))
pipeline.RegisteHandler("check_message", handler.NewCheckMessageHandler("check_message", kc.topics))
pipeline.RegisteHandler("persistent", handler.NewPersistentHandler("persistent", kc.deliverTimeout, kitedb, kc.fly, kc.flowstat))
pipeline.RegisteHandler("txAck", handler.NewTxAckHandler("txAck", kitedb))
pipeline.RegisteHandler("deliverpre", handler.NewDeliverPreHandler("deliverpre", kitedb, exchanger, kc.flowstat, kc.maxDeliverWorkers))
pipeline.RegisteHandler("deliver", handler.NewDeliverHandler("deliver", registry))
pipeline.RegisteHandler("remoting", pipe.NewRemotingHandler("remoting", clientManager))
pipeline.RegisteHandler("remote-future", handler.NewRemotingFutureHandler("remote-future"))
pipeline.RegisteHandler("deliverResult", handler.NewDeliverResultHandler("deliverResult", kc.deliverTimeout, kitedb, rw, registry))
//以下是处理投递结果返回事件,即到了remoting端会backwark到future-->result-->record
recoverManager := NewRecoverManager(kiteqName, kc.recoverPeriod, pipeline, kitedb)
return &KiteQServer{
reconnManager: reconnManager,
clientManager: clientManager,
exchanger: exchanger,
pipeline: pipeline,
recoverManager: recoverManager,
kc: kc,
kitedb: kitedb,
stop: false}
}
func init() {
rc := turbo.NewRemotingConfig(
"turbo-server:localhost:28888",
1000, 16*1024,
16*1024, 10000, 10000,
10*time.Second, 160000)
remoteServer = NewRemotionServer("localhost:28888", rc, packetDispatcher)
remoteServer.ListenAndServer()
conn, _ := dial("localhost:28888")
// //重连管理器
reconnManager := client.NewReconnectManager(false, -1, -1, handshake)
clientManager = client.NewClientManager(reconnManager)
rcc := turbo.NewRemotingConfig(
"turbo-client:localhost:28888",
1000, 16*1024,
16*1024, 10000, 10000,
10*time.Second, 160000)
remoteClient := client.NewRemotingClient(conn, clientPacketDispatcher, rcc)
remoteClient.Start()
auth := &client.GroupAuth{}
auth.GroupId = "a"
auth.SecretKey = "123"
clientManager.Auth(auth, remoteClient)
go func() {
for {
log.Println(clientf.Monitor())
time.Sleep(1 * time.Second)
}
}()
}
func main() {
go func() {
http.ListenAndServe(":13801", nil)
}()
// 重连管理器
reconnManager := client.NewReconnectManager(false, -1, -1, handshake)
clientManager := client.NewClientManager(reconnManager)
rcc := turbo.NewRemotingConfig(
"turbo-client:localhost:28888",
1000, 16*1024,
16*1024, 20000, 20000,
10*time.Second, 160000)
go func() {
for {
log.Println(rcc.FlowStat.Stat())
time.Sleep(1 * time.Second)
}
}()
//创建物理连接
conn, _ := func(hostport string) (*net.TCPConn, error) {
//连接
remoteAddr, err_r := net.ResolveTCPAddr("tcp4", hostport)
if nil != err_r {
log.Printf("KiteClientManager|RECONNECT|RESOLVE ADDR |FAIL|remote:%s\n", err_r)
return nil, err_r
}
conn, err := net.DialTCP("tcp4", nil, remoteAddr)
if nil != err {
log.Printf("KiteClientManager|RECONNECT|%s|FAIL|%s\n", hostport, err)
return nil, err
}
return conn, nil
}("localhost:28888")
remoteClient := client.NewRemotingClient(conn, clientPacketDispatcher, rcc)
remoteClient.Start()
auth := &client.GroupAuth{}
auth.GroupId = "a"
auth.SecretKey = "123"
clientManager.Auth(auth, remoteClient)
//echo command
p := packet.NewPacket(1, []byte("echo"))
//find a client
tmp := clientManager.FindRemoteClients([]string{"a"}, func(groupid string, c *client.RemotingClient) bool {
return false
})
for i := 0; i < 1; i++ {
go func() {
for {
//write command and wait for response
_, err := tmp["a"][0].WriteAndGet(*p, 100*time.Millisecond)
if nil != err {
log.Printf("WAIT RESPONSE FAIL|%s\n", err)
break
} else {
// log.Printf("WAIT RESPONSE SUCC|%s\n", string(resp.([]byte)))
}
}
}()
}
select {}
}