// Copyright 2017 fatedier, fatedier@gmail.com // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package server import ( "fmt" "io" "runtime/debug" "sync" "time" "github.com/fatedier/frp/models/config" "github.com/fatedier/frp/models/consts" frpErr "github.com/fatedier/frp/models/errors" "github.com/fatedier/frp/models/msg" "github.com/fatedier/frp/server/controller" "github.com/fatedier/frp/server/proxy" "github.com/fatedier/frp/server/stats" "github.com/fatedier/frp/utils/net" "github.com/fatedier/frp/utils/version" "github.com/fatedier/golib/control/shutdown" "github.com/fatedier/golib/crypto" "github.com/fatedier/golib/errors" ) type ControlManager struct { // controls indexed by run id ctlsByRunId map[string]*Control mu sync.RWMutex } func NewControlManager() *ControlManager { return &ControlManager{ ctlsByRunId: make(map[string]*Control), } } func (cm *ControlManager) Add(runId string, ctl *Control) (oldCtl *Control) { cm.mu.Lock() defer cm.mu.Unlock() oldCtl, ok := cm.ctlsByRunId[runId] if ok { oldCtl.Replaced(ctl) } cm.ctlsByRunId[runId] = ctl return } // we should make sure if it's the same control to prevent delete a new one func (cm *ControlManager) Del(runId string, ctl *Control) { cm.mu.Lock() defer cm.mu.Unlock() if c, ok := cm.ctlsByRunId[runId]; ok && c == ctl { delete(cm.ctlsByRunId, runId) } } func (cm *ControlManager) GetById(runId string) (ctl *Control, ok bool) { cm.mu.RLock() defer cm.mu.RUnlock() ctl, ok = cm.ctlsByRunId[runId] return } type Control struct { // all resource managers and controllers rc *controller.ResourceController // proxy manager pxyManager *proxy.ProxyManager // stats collector to store stats info of clients and proxies statsCollector stats.Collector // login message loginMsg *msg.Login // control connection conn net.Conn // put a message in this channel to send it over control connection to client sendCh chan (msg.Message) // read from this channel to get the next message sent by client readCh chan (msg.Message) // work connections workConnCh chan net.Conn // proxies in one client proxies map[string]proxy.Proxy // pool count poolCount int // ports used, for limitations portsUsedNum int // last time got the Ping message lastPing time.Time // A new run id will be generated when a new client login. // If run id got from login message has same run id, it means it's the same client, so we can // replace old controller instantly. runId string // control status status string readerShutdown *shutdown.Shutdown writerShutdown *shutdown.Shutdown managerShutdown *shutdown.Shutdown allShutdown *shutdown.Shutdown mu sync.RWMutex // Server configuration information serverCfg config.ServerCommonConf } func NewControl(rc *controller.ResourceController, pxyManager *proxy.ProxyManager, statsCollector stats.Collector, ctlConn net.Conn, loginMsg *msg.Login, serverCfg config.ServerCommonConf) *Control { return &Control{ rc: rc, pxyManager: pxyManager, statsCollector: statsCollector, conn: ctlConn, loginMsg: loginMsg, sendCh: make(chan msg.Message, 10), readCh: make(chan msg.Message, 10), workConnCh: make(chan net.Conn, loginMsg.PoolCount+10), proxies: make(map[string]proxy.Proxy), poolCount: loginMsg.PoolCount, portsUsedNum: 0, lastPing: time.Now(), runId: loginMsg.RunId, status: consts.Working, readerShutdown: shutdown.New(), writerShutdown: shutdown.New(), managerShutdown: shutdown.New(), allShutdown: shutdown.New(), serverCfg: serverCfg, } } // Start send a login success message to client and start working. func (ctl *Control) Start() { loginRespMsg := &msg.LoginResp{ Version: version.Full(), RunId: ctl.runId, ServerUdpPort: ctl.serverCfg.BindUdpPort, Error: "", } msg.WriteMsg(ctl.conn, loginRespMsg) go ctl.writer() for i := 0; i < ctl.poolCount; i++ { ctl.sendCh <- &msg.ReqWorkConn{} } go ctl.manager() go ctl.reader() go ctl.stoper() } func (ctl *Control) RegisterWorkConn(conn net.Conn) { defer func() { if err := recover(); err != nil { ctl.conn.Error("panic error: %v", err) ctl.conn.Error(string(debug.Stack())) } }() select { case ctl.workConnCh <- conn: ctl.conn.Debug("new work connection registered") default: ctl.conn.Debug("work connection pool is full, discarding") conn.Close() } } // When frps get one user connection, we get one work connection from the pool and return it. // If no workConn available in the pool, send message to frpc to get one or more // and wait until it is available. // return an error if wait timeout func (ctl *Control) GetWorkConn() (workConn net.Conn, err error) { defer func() { if err := recover(); err != nil { ctl.conn.Error("panic error: %v", err) ctl.conn.Error(string(debug.Stack())) } }() var ok bool // get a work connection from the pool select { case workConn, ok = <-ctl.workConnCh: if !ok { err = frpErr.ErrCtlClosed return } ctl.conn.Debug("get work connection from pool") default: // no work connections available in the poll, send message to frpc to get more err = errors.PanicToError(func() { ctl.sendCh <- &msg.ReqWorkConn{} }) if err != nil { ctl.conn.Error("%v", err) return } select { case workConn, ok = <-ctl.workConnCh: if !ok { err = frpErr.ErrCtlClosed ctl.conn.Warn("no work connections avaiable, %v", err) return } case <-time.After(time.Duration(ctl.serverCfg.UserConnTimeout) * time.Second): err = fmt.Errorf("timeout trying to get work connection") ctl.conn.Warn("%v", err) return } } // When we get a work connection from pool, replace it with a new one. errors.PanicToError(func() { ctl.sendCh <- &msg.ReqWorkConn{} }) return } func (ctl *Control) Replaced(newCtl *Control) { ctl.conn.Info("Replaced by client [%s]", newCtl.runId) ctl.runId = "" ctl.allShutdown.Start() } func (ctl *Control) writer() { defer func() { if err := recover(); err != nil { ctl.conn.Error("panic error: %v", err) ctl.conn.Error(string(debug.Stack())) } }() defer ctl.allShutdown.Start() defer ctl.writerShutdown.Done() encWriter, err := crypto.NewWriter(ctl.conn, []byte(ctl.serverCfg.Token)) if err != nil { ctl.conn.Error("crypto new writer error: %v", err) ctl.allShutdown.Start() return } for { if m, ok := <-ctl.sendCh; !ok { ctl.conn.Info("control writer is closing") return } else { if err := msg.WriteMsg(encWriter, m); err != nil { ctl.conn.Warn("write message to control connection error: %v", err) return } } } } func (ctl *Control) reader() { defer func() { if err := recover(); err != nil { ctl.conn.Error("panic error: %v", err) ctl.conn.Error(string(debug.Stack())) } }() defer ctl.allShutdown.Start() defer ctl.readerShutdown.Done() encReader := crypto.NewReader(ctl.conn, []byte(ctl.serverCfg.Token)) for { if m, err := msg.ReadMsg(encReader); err != nil { if err == io.EOF { ctl.conn.Debug("control connection closed") return } else { ctl.conn.Warn("read error: %v", err) ctl.conn.Close() return } } else { ctl.readCh <- m } } } func (ctl *Control) stoper() { defer func() { if err := recover(); err != nil { ctl.conn.Error("panic error: %v", err) ctl.conn.Error(string(debug.Stack())) } }() ctl.allShutdown.WaitStart() close(ctl.readCh) ctl.managerShutdown.WaitDone() close(ctl.sendCh) ctl.writerShutdown.WaitDone() ctl.conn.Close() ctl.readerShutdown.WaitDone() ctl.mu.Lock() defer ctl.mu.Unlock() close(ctl.workConnCh) for workConn := range ctl.workConnCh { workConn.Close() } for _, pxy := range ctl.proxies { pxy.Close() ctl.pxyManager.Del(pxy.GetName()) ctl.statsCollector.Mark(stats.TypeCloseProxy, &stats.CloseProxyPayload{ Name: pxy.GetName(), ProxyType: pxy.GetConf().GetBaseInfo().ProxyType, }) } ctl.allShutdown.Done() ctl.conn.Info("client exit success") ctl.statsCollector.Mark(stats.TypeCloseClient, &stats.CloseClientPayload{}) } // block until Control closed func (ctl *Control) WaitClosed() { ctl.allShutdown.WaitDone() } func (ctl *Control) manager() { defer func() { if err := recover(); err != nil { ctl.conn.Error("panic error: %v", err) ctl.conn.Error(string(debug.Stack())) } }() defer ctl.allShutdown.Start() defer ctl.managerShutdown.Done() heartbeat := time.NewTicker(time.Second) defer heartbeat.Stop() for { select { case <-heartbeat.C: if time.Since(ctl.lastPing) > time.Duration(ctl.serverCfg.HeartBeatTimeout)*time.Second { ctl.conn.Warn("heartbeat timeout") return } case rawMsg, ok := <-ctl.readCh: if !ok { return } switch m := rawMsg.(type) { case *msg.NewProxy: // register proxy in this control remoteAddr, err := ctl.RegisterProxy(m) resp := &msg.NewProxyResp{ ProxyName: m.ProxyName, } if err != nil { resp.Error = err.Error() ctl.conn.Warn("new proxy [%s] error: %v", m.ProxyName, err) } else { resp.RemoteAddr = remoteAddr ctl.conn.Info("new proxy [%s] success", m.ProxyName) ctl.statsCollector.Mark(stats.TypeNewProxy, &stats.NewProxyPayload{ Name: m.ProxyName, ProxyType: m.ProxyType, }) } ctl.sendCh <- resp case *msg.CloseProxy: ctl.CloseProxy(m) ctl.conn.Info("close proxy [%s] success", m.ProxyName) case *msg.Ping: ctl.lastPing = time.Now() ctl.conn.Debug("receive heartbeat") ctl.sendCh <- &msg.Pong{} } } } } func (ctl *Control) RegisterProxy(pxyMsg *msg.NewProxy) (remoteAddr string, err error) { var pxyConf config.ProxyConf // Load configures from NewProxy message and check. pxyConf, err = config.NewProxyConfFromMsg(pxyMsg, ctl.serverCfg) if err != nil { return } // NewProxy will return a interface Proxy. // In fact it create different proxies by different proxy type, we just call run() here. pxy, err := proxy.NewProxy(ctl.runId, ctl.rc, ctl.statsCollector, ctl.poolCount, ctl.GetWorkConn, pxyConf, ctl.serverCfg) if err != nil { return remoteAddr, err } // Check ports used number in each client if ctl.serverCfg.MaxPortsPerClient > 0 { ctl.mu.Lock() if ctl.portsUsedNum+pxy.GetUsedPortsNum() > int(ctl.serverCfg.MaxPortsPerClient) { ctl.mu.Unlock() err = fmt.Errorf("exceed the max_ports_per_client") return } ctl.portsUsedNum = ctl.portsUsedNum + pxy.GetUsedPortsNum() ctl.mu.Unlock() defer func() { if err != nil { ctl.mu.Lock() ctl.portsUsedNum = ctl.portsUsedNum - pxy.GetUsedPortsNum() ctl.mu.Unlock() } }() } remoteAddr, err = pxy.Run() if err != nil { return } defer func() { if err != nil { pxy.Close() } }() err = ctl.pxyManager.Add(pxyMsg.ProxyName, pxy) if err != nil { return } ctl.mu.Lock() ctl.proxies[pxy.GetName()] = pxy ctl.mu.Unlock() return } func (ctl *Control) CloseProxy(closeMsg *msg.CloseProxy) (err error) { ctl.mu.Lock() pxy, ok := ctl.proxies[closeMsg.ProxyName] if !ok { ctl.mu.Unlock() return } if ctl.serverCfg.MaxPortsPerClient > 0 { ctl.portsUsedNum = ctl.portsUsedNum - pxy.GetUsedPortsNum() } pxy.Close() ctl.pxyManager.Del(pxy.GetName()) delete(ctl.proxies, closeMsg.ProxyName) ctl.mu.Unlock() ctl.statsCollector.Mark(stats.TypeCloseProxy, &stats.CloseProxyPayload{ Name: pxy.GetName(), ProxyType: pxy.GetConf().GetBaseInfo().ProxyType, }) return }