// Remove a proxy connection from the pool and return it
// If not proxy connections are in the pool, request one
// and wait until it is available
// Returns an error if we couldn't get a proxy because it took too long
// or the tunnel is closing
func (c *Control) GetProxy() (proxyConn conn.Conn, err error) {
// initial timeout is zero to try to get a proxy connection without asking for one
timeout := time.NewTimer(0)
// get a proxy connection. if we timeout, request one over the control channel
for proxyConn == nil {
var ok bool
select {
case proxyConn, ok = <-c.proxies:
if !ok {
err = fmt.Errorf("No proxy connections available, control is closing")
return
}
continue
case <-timeout.C:
c.conn.Debug("Requesting new proxy connection")
// request a proxy connection
if err = util.PanicToError(func() { c.out <- &msg.ReqProxy{} }); err != nil {
return
}
// timeout after 1 second if we don't get one
timeout.Reset(1 * time.Second)
}
}
// To try to reduce latency hanndling tunnel connections, we employ
// the following curde heuristic:
// Whenever we take a proxy connection from the pool, replace it with a new one
err = util.PanicToError(func() { c.out <- &msg.ReqProxy{} })
return
}
// Remove a proxy connection from the pool and return it
// If not proxy connections are in the pool, request one
// and wait until it is available
// Returns an error if we couldn't get a proxy because it took too long
// or the tunnel is closing
func (c *Control) GetProxy() (proxyConn conn.Conn, err error) {
var ok bool
// get a proxy connection from the pool
select {
case proxyConn, ok = <-c.proxies:
if !ok {
err = fmt.Errorf("No proxy connections available, control is closing")
return
}
default:
// no proxy available in the pool, ask for one over the control channel
c.conn.Debug("No proxy in pool, requesting proxy from control . . .")
if err = util.PanicToError(func() { c.out <- &msg.ReqProxy{} }); err != nil {
return
}
select {
case proxyConn, ok = <-c.proxies:
if !ok {
err = fmt.Errorf("No proxy connections available, control is closing")
return
}
case <-time.After(pingTimeoutInterval):
err = fmt.Errorf("Timeout trying to get proxy connection")
return
}
}
return
}
func (t *Tunnel) HandlePublicConnection(publicConn conn.Conn) {
defer publicConn.Close()
defer func() {
if r := recover(); r != nil {
publicConn.Warn("HandlePublicConnection failed with error %v", r)
}
}()
startTime := time.Now()
metrics.OpenConnection(t, publicConn)
var proxyConn conn.Conn
var err error
for i := 0; i < (2 * proxyMaxPoolSize); i++ {
// get a proxy connection
if proxyConn, err = t.ctl.GetProxy(); err != nil {
t.Warn("Failed to get proxy connection: %v", err)
return
}
defer proxyConn.Close()
t.Info("Got proxy connection %s", proxyConn.Id())
proxyConn.AddLogPrefix(t.Id())
// tell the client we're going to start using this proxy connection
startPxyMsg := &msg.StartProxy{
Url: t.url,
ClientAddr: publicConn.RemoteAddr().String(),
}
if err = msg.WriteMsg(proxyConn, startPxyMsg); err != nil {
proxyConn.Warn("Failed to write StartProxyMessage: %v, attempt %d", err, i)
proxyConn.Close()
} else {
// success
break
}
}
if err != nil {
// give up
publicConn.Error("Too many failures starting proxy connection")
return
}
// To reduce latency handling tunnel connections, we employ the following curde heuristic:
// Whenever we take a proxy connection from the pool, replace it with a new one
util.PanicToError(func() { t.ctl.out <- &msg.ReqProxy{} })
// no timeouts while connections are joined
proxyConn.SetDeadline(time.Time{})
// join the public and proxy connections
bytesIn, bytesOut := conn.Join(publicConn, proxyConn)
metrics.CloseConnection(t, publicConn, startTime, bytesIn, bytesOut)
//log.Info("Proxy authId=%s bytesIn=%d, bytesOut=%d\n", t.ctl.userInfo.Uc.UserId, bytesIn, bytesOut)
atomic.AddInt32(&t.ctl.userInfo.TransPerDay, int32(bytesIn+bytesOut))
atomic.AddInt32(&t.ctl.userInfo.TransAll, int32(bytesIn+bytesOut))
}
