func (this *FunServantImpl) warmUp() {
log.Debug("warming up...")
if this.mg != nil {
go this.mg.Warmup()
}
if this.mc != nil {
go this.mc.Warmup()
}
if this.my != nil {
this.my.Warmup()
}
if this.proxy != nil {
this.proxy.Warmup()
}
if this.rd != nil {
this.rd.Warmup()
}
log.Debug("warmup done")
}
func (this *subServer) wsReadPump(clientGone chan struct{}, ws *websocket.Conn) {
ws.SetReadLimit(this.wsReadLimit)
ws.SetReadDeadline(time.Now().Add(this.wsPongWait))
ws.SetPongHandler(func(string) error {
ws.SetReadDeadline(time.Now().Add(this.wsPongWait))
return nil
})
// if kateway shutdown while there are open ws conns, the shutdown will
// wait 1m: this.subServer.wsPongWait
for {
_, message, err := ws.ReadMessage()
if err != nil {
if websocket.IsUnexpectedCloseError(err, websocket.CloseGoingAway) {
log.Warn("%s: %v", ws.RemoteAddr(), err)
} else {
log.Debug("%s: %v", ws.RemoteAddr(), err)
}
close(clientGone)
break
}
log.Debug("ws[%s] read: %s", ws.RemoteAddr(), string(message))
}
}
func (this *FunServantImpl) MgInsert(ctx *rpc.Context,
kind string, table string, shardId int32,
doc []byte, options []byte) (r bool, intError error) {
log.Debug("%s %d %s %s %v %s", kind, shardId, table,
string(doc), doc, string(options))
var sess *mongo.Session
sess, intError = this.mongoSession(kind, shardId)
if intError != nil {
return
}
var bdoc = bson.M{}
json.Unmarshal(doc, &bdoc)
log.Debug("%+v", bdoc)
err := sess.DB().C(table).Insert(bdoc)
if err == nil {
r = true
} else {
log.Error(err)
}
sess.Recyle(&err)
return
}
func LaunchHttpServer(listenAddr string, debugAddr string) (err error) {
if httpApi != nil {
return httpDupLaunch
}
httpApi = new(httpRestApi)
httpApi.httpPaths = make([]string, 0, 10)
httpApi.httpRouter = mux.NewRouter()
httpApi.httpServer = &http.Server{
Addr: listenAddr,
Handler: httpApi.httpRouter,
}
httpApi.httpListener, err = net.Listen("tcp", httpApi.httpServer.Addr)
if err != nil {
httpApi = nil
return err
}
if debugAddr != "" {
log.Debug("HTTP serving at %s with pprof at %s", listenAddr, debugAddr)
} else {
log.Debug("HTTP serving at %s", listenAddr)
}
go httpApi.httpServer.Serve(httpApi.httpListener)
if debugAddr != "" {
go http.ListenAndServe(debugAddr, nil)
}
return nil
}
// TODO batch DELETE/INSERT for better performance.
func (this *JobExecutor) handleDueJobs(wg *sync.WaitGroup) {
defer wg.Done()
var (
// zabbix maintains a in-memory delete queue
// delete from history_uint where itemid=? and clock<min_clock
sqlDeleteJob = fmt.Sprintf("DELETE FROM %s WHERE job_id=?", this.table)
sqlInsertArchive = fmt.Sprintf("INSERT INTO %s(job_id,payload,ctime,due_time,etime,actor_id) VALUES(?,?,?,?,?,?)",
jm.HistoryTable(this.topic))
sqlReinject = fmt.Sprintf("INSERT INTO %s(job_id, payload, ctime, due_time) VALUES(?,?,?,?)", this.table)
)
for {
select {
case <-this.stopper:
return
case item := <-this.dueJobs:
now := time.Now()
affectedRows, _, err := this.mc.Exec(jm.AppPool, this.table, this.aid, sqlDeleteJob, item.JobId)
if err != nil {
log.Error("%s: %s", this.ident, err)
continue
}
if affectedRows == 0 {
// 2 possibilities:
// - client Cancel job wins
// - this handler is too slow and the job fetched twice in tick
continue
}
log.Debug("%s land %s", this.ident, item)
_, _, err = store.DefaultPubStore.SyncPub(this.cluster, this.topic, nil, item.Payload)
if err != nil {
err = hh.Default.Append(this.cluster, this.topic, nil, item.Payload)
}
if err != nil {
// pub fails and hinted handoff also fails: reinject job back to mysql
log.Error("%s: %s", this.ident, err)
this.mc.Exec(jm.AppPool, this.table, this.aid, sqlReinject,
item.JobId, item.Payload, item.Ctime, item.DueTime)
continue
}
log.Debug("%s fired %s", this.ident, item)
this.auditor.Trace(item.String())
// mv job to archive table
_, _, err = this.mc.Exec(jm.AppPool, this.table, this.aid, sqlInsertArchive,
item.JobId, item.Payload, item.Ctime, item.DueTime, now.Unix(), this.parentId)
if err != nil {
log.Error("%s: %s", this.ident, err)
} else {
log.Debug("%s archived %s", this.ident, item)
}
}
}
}
func (this *ConfigProxy) LoadConfig(selfAddr string, cf *conf.Conf) {
if selfAddr == "" {
panic("proxy self addr unknown")
}
this.PoolCapacity = cf.Int("pool_capacity", 10)
this.IdleTimeout = cf.Duration("idle_timeout", 0)
this.IoTimeout = cf.Duration("io_timeout", time.Second*10)
this.BorrowTimeout = cf.Duration("borrow_timeout", time.Second*10)
this.DiagnosticInterval = cf.Duration("diagnostic_interval", time.Second*5)
this.TcpNoDelay = cf.Bool("tcp_nodelay", true)
this.BufferSize = cf.Int("buffer_size", 4<<10)
this.SelfAddr = selfAddr
parts := strings.SplitN(this.SelfAddr, ":", 2)
if parts[0] == "" {
// auto get local ip when self_addr like ":9001"
ips, _ := ip.LocalIpv4Addrs()
if len(ips) == 0 {
panic("cannot get local ip address")
}
this.SelfAddr = ips[0] + ":" + parts[1]
}
log.Debug("proxy conf: %+v", *this)
}
func (this *ConfigMongodb) LoadConfig(cf *conf.Conf) {
this.ShardBaseNum = cf.Int("shard_base_num", 100000)
this.DebugProtocol = cf.Bool("debug_protocol", false)
this.DebugHeartbeat = cf.Bool("debug_heartbeat", false)
this.ShardStrategy = cf.String("shard_strategy", "legacy")
this.ConnectTimeout = cf.Duration("connect_timeout", 4*time.Second)
this.IoTimeout = cf.Duration("io_timeout", 30*time.Second)
this.MaxIdleConnsPerServer = cf.Int("max_idle_conns_per_server", 2)
this.MaxConnsPerServer = cf.Int("max_conns_per_server",
this.MaxIdleConnsPerServer*5)
this.HeartbeatInterval = cf.Int("heartbeat_interval", 120)
section, err := cf.Section("breaker")
if err == nil {
this.Breaker.loadConfig(section)
}
this.Servers = make(map[string]*ConfigMongodbServer)
for i := 0; i < len(cf.List("servers", nil)); i++ {
section, err := cf.Section(fmt.Sprintf("servers[%d]", i))
if err != nil {
panic(err)
}
server := new(ConfigMongodbServer)
server.ShardBaseNum = this.ShardBaseNum
server.loadConfig(section)
this.Servers[server.Pool] = server
}
log.Debug("mongodb conf: %+v", *this)
}
// consume topic: __consumer_offsets and process the message to get offsets of consumers
func (this *ZkCluster) processConsumerOffsetsMessage(msg *sarama.ConsumerMessage) {
var keyver, valver uint16
var partition uint32
var offset, timestamp uint64
buf := bytes.NewBuffer(msg.Key)
err := binary.Read(buf, binary.BigEndian, &keyver)
if (err != nil) || ((keyver != 0) && (keyver != 1)) {
log.Warn("Failed to decode %s:%v offset %v: keyver", msg.Topic, msg.Partition, msg.Offset)
return
}
group, err := readString(buf)
if err != nil {
log.Warn("Failed to decode %s:%v offset %v: group", msg.Topic, msg.Partition, msg.Offset)
return
}
topic, err := readString(buf)
if err != nil {
log.Warn("Failed to decode %s:%v offset %v: topic", msg.Topic, msg.Partition, msg.Offset)
return
}
err = binary.Read(buf, binary.BigEndian, &partition)
if err != nil {
log.Warn("Failed to decode %s:%v offset %v: partition", msg.Topic, msg.Partition, msg.Offset)
return
}
buf = bytes.NewBuffer(msg.Value)
err = binary.Read(buf, binary.BigEndian, &valver)
if (err != nil) || ((valver != 0) && (valver != 1)) {
log.Warn("Failed to decode %s:%v offset %v: valver", msg.Topic, msg.Partition, msg.Offset)
return
}
err = binary.Read(buf, binary.BigEndian, &offset)
if err != nil {
log.Warn("Failed to decode %s:%v offset %v: offset", msg.Topic, msg.Partition, msg.Offset)
return
}
_, err = readString(buf)
if err != nil {
log.Warn("Failed to decode %s:%v offset %v: metadata", msg.Topic, msg.Partition, msg.Offset)
return
}
err = binary.Read(buf, binary.BigEndian, ×tamp)
if err != nil {
log.Warn("Failed to decode %s:%v offset %v: timestamp", msg.Topic, msg.Partition, msg.Offset)
return
}
partitionOffset := &PartitionOffset{
Cluster: this.Name(),
Topic: topic,
Partition: int32(partition),
Group: group,
Timestamp: int64(timestamp),
Offset: int64(offset),
}
log.Debug("%+v", partitionOffset)
return
}
func (this *subServer) commitOffsets() {
for cluster, clusterTopic := range this.ackedOffsets {
zkcluster := meta.Default.ZkCluster(cluster)
for topic, groupPartition := range clusterTopic {
for group, partitionOffset := range groupPartition {
for partition, offset := range partitionOffset {
if offset == -1 {
// this slot is empty
continue
}
log.Debug("cluster[%s] group[%s] commit offset {T:%s/%d O:%d}", cluster, group, topic, partition, offset)
if err := zkcluster.ResetConsumerGroupOffset(topic, group, strconv.Itoa(partition), offset); err != nil {
log.Error("cluster[%s] group[%s] commit offset {T:%s/%d O:%d} %v", cluster, group, topic, partition, offset, err)
if err == zk.ErrNoNode {
// invalid offset commit request, will not retry
this.ackedOffsets[cluster][topic][group][partition] = -1
}
} else {
// mark this slot empty
this.ackedOffsets[cluster][topic][group][partition] = -1
}
}
}
}
}
}
func newMysql(dsn string, maxStmtCached int, bc *config.ConfigBreaker) *mysql {
this := new(mysql)
if bc == nil {
bc = &config.ConfigBreaker{
FailureAllowance: 5,
RetryTimeout: time.Second * 10,
}
}
this.dsn = dsn
this.breaker = &breaker.Consecutive{
FailureAllowance: bc.FailureAllowance,
RetryTimeout: bc.RetryTimeout}
if maxStmtCached > 0 {
this.stmtsStore = cache.NewLruCache(maxStmtCached)
this.stmtsStore.OnEvicted = func(key cache.Key, value interface{}) {
query := key.(string)
stmt := value.(*sql.Stmt)
stmt.Close()
log.Debug("[%s] stmt[%s] closed", this.dsn, query)
}
}
return this
}
func (this *Ping) diagnose() {
this.zkzone.ForSortedClusters(func(zkcluster *zk.ZkCluster) {
registeredBrokers := zkcluster.RegisteredInfo().Roster
for _, broker := range registeredBrokers {
log.Debug("ping %s", broker.Addr())
kfk, err := sarama.NewClient([]string{broker.Addr()}, sarama.NewConfig())
if err != nil {
log.Error("%25s %30s %s", broker.Addr(), broker.NamedAddr(), color.Red(err.Error()))
continue
}
_, err = kfk.Topics() // kafka didn't provide ping, so use Topics() as ping
if err != nil {
log.Error("%25s %30s %s", broker.Addr(), broker.NamedAddr(), color.Red(err.Error()))
} else {
if !this.problematicMode {
log.Info("%25s %30s %s", broker.Addr(), broker.NamedAddr(), color.Green("ok"))
}
}
kfk.Close()
}
})
}
func (this *ConfigMemcache) LoadConfig(cf *conf.Conf) {
this.Servers = make(map[string]*ConfigMemcacheServer)
this.HashStrategy = cf.String("hash_strategy", "standard")
this.Timeout = cf.Duration("timeout", 4*time.Second)
this.ReplicaN = cf.Int("replica_num", 1)
section, err := cf.Section("breaker")
if err == nil {
this.Breaker.loadConfig(section)
}
this.MaxIdleConnsPerServer = cf.Int("max_idle_conns_per_server", 3)
this.MaxConnsPerServer = cf.Int("max_conns_per_server",
this.MaxIdleConnsPerServer*10)
for i := 0; i < len(cf.List("servers", nil)); i++ {
section, err := cf.Section(fmt.Sprintf("servers[%d]", i))
if err != nil {
panic(err)
}
server := new(ConfigMemcacheServer)
server.loadConfig(section)
this.Servers[server.Address()] = server
}
log.Debug("memcache conf: %+v", *this)
}
func (this *Peer) discoverPeers() {
defer func() {
this.c.Close() // leave the multicast group
}()
var msg peerMessage
reader := bufio.NewReader(this.c)
for {
// net.ListenMulticastUDP sets IP_MULTICAST_LOOP=0 as
// default, so you never receive your own sent data
// if you run both sender and receiver on (logically) same IP host
line, _, err := reader.ReadLine()
if err != nil {
log.Error(err)
continue
}
if err := msg.unmarshal(line); err != nil {
// Not our protocol, it may be SSDP or else
continue
}
log.Debug("received peer: %+v", msg)
neighborIp, present := msg["ip"]
if !present {
log.Info("Peer msg has no 'ip'")
continue
}
this.refreshNeighbor(neighborIp.(string))
}
}
// Close must be called before Recycle
func (this *syncProducerClient) Close() {
log.Debug("cluster[%s] closing kafka sync client: %d", this.cluster, this.id)
// will close the producer and the kafka tcp conn
this.SyncProducer.Close()
this.closed = true
}
func (this *ConfigRedis) LoadConfig(cf *conf.Conf) {
section, err := cf.Section("breaker")
if err == nil {
this.Breaker.loadConfig(section)
}
this.Servers = make(map[string]map[string]*ConfigRedisServer)
for i := 0; i < len(cf.List("pools", nil)); i++ {
section, err := cf.Section(fmt.Sprintf("pools[%d]", i))
if err != nil {
panic(err)
}
pool := section.String("name", "")
if pool == "" {
panic("Empty redis pool name")
}
this.Servers[pool] = make(map[string]*ConfigRedisServer)
// get servers in each pool
for j := 0; j < len(section.List("servers", nil)); j++ {
server, err := section.Section(fmt.Sprintf("servers[%d]", j))
if err != nil {
panic(err)
}
redisServer := new(ConfigRedisServer)
redisServer.loadConfig(server)
this.Servers[pool][redisServer.Addr] = redisServer
}
}
log.Debug("redis conf: %+v", *this)
}
// loadSegments loads all in-range segments on disk
// FIXME manage q.inflights counter while loading segments
func (q *queue) loadSegments(minId uint64) (segments, error) {
segments := []*segment{}
files, err := ioutil.ReadDir(q.dir)
if err != nil {
return segments, err
}
for _, segment := range files {
if segment.IsDir() || segment.Name() == cursorFile {
continue
}
// segment file names are all numeric
id, err := strconv.ParseUint(segment.Name(), 10, 64)
if err != nil {
log.Error("queue[%s] segment:%s %s", q.ident(), segment.Name(), err)
continue
}
if id < minId {
log.Debug("queue[%s] skip stale segment:%s", q.ident(), segment.Name())
continue
}
segment, err := newSegment(id, filepath.Join(q.dir, segment.Name()), q.maxSegmentSize)
if err != nil {
return segments, err
}
segments = append(segments, segment)
}
return segments, nil
}
// watchTopicPartitionsChange watch partition changes on a topic.
func (cg *ConsumerGroup) watchTopicPartitionsChange(topic string, stopper <-chan struct{},
topicPartitionsChanged chan<- string, outstanding *sync.WaitGroup) {
defer outstanding.Done()
_, ch, err := cg.kazoo.Topic(topic).WatchPartitions()
if err != nil {
if err == zk.ErrNoNode {
err = ErrInvalidTopic
}
log.Error("[%s/%s] topic[%s] watch partitions: %s", cg.group.Name, cg.shortID(), topic, err)
cg.emitError(err, topic, -1)
return
}
var (
backoff = time.Duration(5)
maxRetries = 3
)
select {
case <-cg.stopper:
return
case <-stopper:
return
case <-ch:
// when partitions scales up, the zk node might not be completely ready, await it ready
//
// even if zk node ready, kafka broker might not be ready:
// kafka server: Request was for a topic or partition that does not exist on this broker
// so we blindly wait: should be enough for most cases
// in rare cases, that is still not enough: imagine partitions 1->1000, which takes long
// ok, just return that err to client to retry
time.Sleep(time.Second * backoff)
for retries := 0; retries < maxRetries; retries++ {
// retrieve brokers/topics/{topic}/partitions/{partition}/state and find the leader broker id
// the new partitions state znode might not be ready yet
if partitions, err := cg.kazoo.Topic(topic).Partitions(); err == nil {
if _, err = retrievePartitionLeaders(partitions); err == nil {
log.Debug("[%s/%s] topic[%s] partitions change complete", cg.group.Name, cg.shortID(), topic)
break
} else {
log.Warn("[%s/%s] topic[%s] partitions change retry#%d waiting: %v", cg.group.Name, cg.shortID(), topic, retries, err)
backoff-- // don't worry if negative
time.Sleep(time.Second * backoff)
}
} else {
log.Warn("[%s/%s] topic[%s] partitions change retry#%d waiting: %v", cg.group.Name, cg.shortID(), topic, retries, err)
backoff--
time.Sleep(time.Second * backoff)
}
}
// safe to trigger rebalance
select {
case topicPartitionsChanged <- topic:
default:
}
}
}
func (this *ConfigLock) LoadConfig(cf *conf.Conf) {
this.MaxItems = cf.Int("max_items", 1<<20)
this.Expires = cf.Duration("expires", time.Second*10)
this.enabled = true
log.Debug("lock conf: %+v", *this)
}
func loadConfig(cf *conf.Conf) {
config.etcServers = cf.StringList("etcd_servers", nil)
config.faeTemplateFile = cf.String("fae_template_file", "")
config.faeTargetFile = cf.String("fae_target_file", "")
config.maintainTemplateFile = cf.String("maintain_template_file", "")
config.maintainTargetFile = cf.String("maintain_target_file", "")
log.Debug("config: %+v", config)
}
func (c *fastListenerConn) Close() error {
log.Debug("%s closing conn from %s", c.Conn.LocalAddr(), c.Conn.RemoteAddr())
err := c.Conn.Close()
if c.gw != nil && !Options.DisableMetrics {
c.gw.svrMetrics.ConcurrentConns.Dec(1)
}
return err
}
func (this *Peer) killNeighbor(ip string) {
this.Lock()
defer this.Unlock()
delete(this.neighbors, ip)
this.picker.DelPeer(ip)
log.Info("Peer[%s] killed", ip)
log.Debug("Neighbors: %+v", this.neighbors)
}
func (c *limitListenerConn) Close() error {
log.Debug("%s[%s] closing conn from %s", c.name, c.Conn.LocalAddr(), c.Conn.RemoteAddr())
err := c.Conn.Close()
if c.gw != nil && !Options.DisableMetrics {
c.gw.svrMetrics.ConcurrentConns.Dec(1)
}
c.releaseOnce.Do(c.release)
return err
}
func (this *profiler) do(name string, ctx *rpc.Context, format interface{}, args ...interface{}) {
elapsed := time.Since(this.t1)
if elapsed.Seconds() > 5.0 { // TODO config
// slow response
s := fmt.Sprintf("SLOW T=%s Q=%s X{%s} "+format, elapsed, name, this.contextInfo(ctx), args...)
log.Warn(s)
} else if this.on {
s := fmt.Sprintf("T=%s Q=%s X{%s} "+format, elapsed, name, this.contextInfo(ctx), args...)
log.Debug(s)
}
}
func (this *Client) Warmup() {
t1 := time.Now()
for poolName, pool := range this.conns {
for addr, conn := range pool {
log.Debug("redis pool[%s] connecting: %s", poolName, addr)
for i := 0; i < this.cf.Servers[poolName][addr].MaxActive; i++ {
c := conn.Get()
if c.Err() != nil {
log.Error("redis[%s][%s]: %v", poolName, addr, c.Err())
continue
}
c.Do("PING")
defer c.Close()
}
}
}
log.Debug("Redis warmup within %s: %+v",
time.Since(t1), this.selectors)
}
func (cg *ConsumerGroup) Close() error {
shutdownError := AlreadyClosing
cg.singleShutdown.Do(func() {
log.Debug("[%s/%s] closing...", cg.group.Name, cg.shortID())
shutdownError = nil
close(cg.stopper) // notify all sub-goroutines to stop
cg.wg.Wait() // await cg.consumeTopics() done
if err := cg.offsetManager.Close(); err != nil {
// e,g. Not all offsets were committed before shutdown was completed
log.Error("[%s/%s] closing offset manager: %s", cg.group.Name, cg.shortID(), err)
}
if shutdownError = cg.instance.Deregister(); shutdownError != nil {
log.Error("[%s/%s] de-register cg instance: %s", cg.group.Name, cg.shortID(), shutdownError)
} else {
log.Debug("[%s/%s] de-registered cg instance", cg.group.Name, cg.shortID())
}
if cg.consumer != nil {
if shutdownError = cg.consumer.Close(); shutdownError != nil {
log.Error("[%s/%s] closing Sarama consumer: %v", cg.group.Name, cg.shortID(), shutdownError)
}
}
close(cg.messages)
close(cg.errors)
log.Debug("[%s/%s] closed", cg.group.Name, cg.shortID())
cg.instance = nil
cg.kazoo.Close()
if cg.cacher != nil {
// nothing? TODO gc it quickly
}
})
return shutdownError
}
func (this *ConfigMemcacheServer) loadConfig(section *conf.Conf) {
this.host = section.String("host", "")
if this.host == "" {
panic("Empty memcache server host")
}
this.hort = section.String("port", "")
if this.hort == "" {
panic("Empty memcache server port")
}
log.Debug("memcache server: %+v", *this)
}
func (this *Peer) refreshNeighbor(ip string) {
this.Lock()
defer this.Unlock()
if _, present := this.neighbors[ip]; !present {
log.Info("Peer[%s] joined", ip)
this.picker.AddPeer(ip)
}
this.neighbors[ip] = time.Now()
log.Debug("Neighbors: %+v", this.neighbors)
}
func (this *configRpc) loadConfig(section *conf.Conf) {
this.listenAddr = section.String("listen_addr", "")
if this.listenAddr == "" {
panic("Empty listen_addr")
}
this.clientSlowThreshold = section.Float("client_slow_threshold", 5)
this.callSlowThreshold = section.Float("call_slow_threshold", 5)
this.clientTimeout = time.Duration(section.Int("client_timeout", 0)) * time.Second
this.framed = section.Bool("framed", false)
this.protocol = section.String("protocol", "binary")
log.Debug("rpc: %+v", *this)
}
func (this *mysql) Query(query string, args ...interface{}) (rows *sql.Rows,
err error) {
if this.db == nil {
return nil, ErrNotOpen
}
if this.breaker.Open() {
return nil, ErrCircuitOpen
}
var stmt *sql.Stmt = nil
if this.stmtsStore != nil {
if stmtc, present := this.stmtsStore.Get(query); present {
stmt = stmtc.(*sql.Stmt)
} else {
// FIXME thundering hurd
stmt, err = this.db.Prepare(query)
if err != nil {
if this.isSystemError(err) {
log.Warn("mysql prepare breaks: %s", err.Error())
this.breaker.Fail()
}
return nil, err
}
this.mutex.Lock()
this.stmtsStore.Set(query, stmt)
this.mutex.Unlock()
log.Debug("[%s] stmt[%s] open", this.dsn, query)
}
}
// Under the hood, db.Query() actually prepares, executes, and closes
// a prepared statement. That's three round-trips to the database.
if stmt != nil {
rows, err = stmt.Query(args...)
} else {
rows, err = this.db.Query(query, args...)
}
if err != nil {
if this.isSystemError(err) {
log.Warn("mysql query breaks: %s", err.Error())
this.breaker.Fail()
}
} else {
this.breaker.Succeed()
}
return
}
func (l *fastListener) Accept() (net.Conn, error) {
c, err := l.Listener.Accept()
if err != nil {
return nil, err
}
log.Debug("%s new conn from %s", l.Listener.Addr(), c.RemoteAddr())
if l.gw != nil && !Options.DisableMetrics {
l.gw.svrMetrics.TotalConns.Inc(1)
l.gw.svrMetrics.ConcurrentConns.Inc(1)
}
return &fastListenerConn{c, l.gw}, nil
}
