mc-router/server/connector.go

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package server
import (
"bytes"
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"context"
"io"
"net"
"sync"
"sync/atomic"
"time"
"golang.ngrok.com/ngrok"
"golang.ngrok.com/ngrok/config"
"github.com/go-kit/kit/metrics"
"github.com/itzg/mc-router/mcproto"
"github.com/juju/ratelimit"
"github.com/pires/go-proxyproto"
"github.com/sirupsen/logrus"
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)
const (
handshakeTimeout = 5 * time.Second
)
var noDeadline time.Time
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type ConnectorMetrics struct {
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Errors metrics.Counter
BytesTransmitted metrics.Counter
ConnectionsFrontend metrics.Counter
ConnectionsBackend metrics.Counter
ActiveConnections metrics.Gauge
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}
func NewConnector(metrics *ConnectorMetrics, sendProxyProto bool, receiveProxyProto bool, trustedProxyNets []*net.IPNet) *Connector {
return &Connector{
metrics: metrics,
sendProxyProto: sendProxyProto,
connectionsCond: sync.NewCond(&sync.Mutex{}),
receiveProxyProto: receiveProxyProto,
trustedProxyNets: trustedProxyNets,
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}
}
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type Connector struct {
state mcproto.State
metrics *ConnectorMetrics
sendProxyProto bool
receiveProxyProto bool
trustedProxyNets []*net.IPNet
activeConnections int32
connectionsCond *sync.Cond
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ngrokToken string
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}
func (c *Connector) StartAcceptingConnections(ctx context.Context, listenAddress string, connRateLimit int) error {
ln, err := c.createListener(ctx, listenAddress)
if err != nil {
return err
}
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go c.acceptConnections(ctx, ln, connRateLimit)
return nil
}
func (c *Connector) createListener(ctx context.Context, listenAddress string) (net.Listener, error) {
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if c.ngrokToken != "" {
ngrokTun, err := ngrok.Listen(ctx,
config.TCPEndpoint(),
ngrok.WithAuthtoken(c.ngrokToken),
)
if err != nil {
logrus.WithError(err).Fatal("Unable to start ngrok tunnel")
return nil, err
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}
logrus.WithField("ngrokUrl", ngrokTun.URL()).Info("Listening for Minecraft client connections via ngrok tunnel")
return ngrokTun, nil
}
listener, err := net.Listen("tcp", listenAddress)
if err != nil {
logrus.WithError(err).Fatal("Unable to start listening")
return nil, err
}
logrus.WithField("listenAddress", listenAddress).Info("Listening for Minecraft client connections")
if c.receiveProxyProto {
proxyListener := &proxyproto.Listener{
Listener: listener,
Policy: c.createProxyProtoPolicy(),
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}
logrus.Info("Using PROXY protocol listener")
return proxyListener, nil
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}
return listener, nil
}
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func (c *Connector) createProxyProtoPolicy() func(upstream net.Addr) (proxyproto.Policy, error) {
return func(upstream net.Addr) (proxyproto.Policy, error) {
trustedIpNets := c.trustedProxyNets
if len(trustedIpNets) == 0 {
logrus.Debug("No trusted proxy networks configured, using the PROXY header by default")
return proxyproto.USE, nil
}
upstreamIP := upstream.(*net.TCPAddr).IP
for _, ipNet := range trustedIpNets {
if ipNet.Contains(upstreamIP) {
logrus.WithField("upstream", upstream).Debug("IP is in trusted proxies, using the PROXY header")
return proxyproto.USE, nil
}
}
logrus.WithField("upstream", upstream).Debug("IP is not in trusted proxies, discarding PROXY header")
return proxyproto.IGNORE, nil
}
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}
func (c *Connector) WaitForConnections() {
c.connectionsCond.L.Lock()
defer c.connectionsCond.L.Unlock()
for {
count := atomic.LoadInt32(&c.activeConnections)
if count > 0 {
logrus.Infof("Waiting on %d connection(s)", count)
c.connectionsCond.Wait()
} else {
break
}
}
}
func (c *Connector) acceptConnections(ctx context.Context, ln net.Listener, connRateLimit int) {
//noinspection GoUnhandledErrorResult
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defer ln.Close()
bucket := ratelimit.NewBucketWithRate(float64(connRateLimit), int64(connRateLimit*2))
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for {
select {
case <-ctx.Done():
return
case <-time.After(bucket.Take(1)):
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conn, err := ln.Accept()
if err != nil {
logrus.WithError(err).Error("Failed to accept connection")
} else {
go c.HandleConnection(ctx, conn)
}
}
}
}
func (c *Connector) HandleConnection(ctx context.Context, frontendConn net.Conn) {
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c.metrics.ConnectionsFrontend.Add(1)
//noinspection GoUnhandledErrorResult
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defer frontendConn.Close()
clientAddr := frontendConn.RemoteAddr()
logrus.
WithField("client", clientAddr).
Info("Got connection")
defer logrus.WithField("client", clientAddr).Debug("Closing frontend connection")
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inspectionBuffer := new(bytes.Buffer)
inspectionReader := io.TeeReader(frontendConn, inspectionBuffer)
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if err := frontendConn.SetReadDeadline(time.Now().Add(handshakeTimeout)); err != nil {
logrus.
WithError(err).
WithField("client", clientAddr).
Error("Failed to set read deadline")
c.metrics.Errors.With("type", "read_deadline").Add(1)
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return
}
packet, err := mcproto.ReadPacket(inspectionReader, clientAddr, c.state)
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if err != nil {
logrus.WithError(err).WithField("clientAddr", clientAddr).Error("Failed to read packet")
c.metrics.Errors.With("type", "read").Add(1)
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return
}
logrus.
WithField("client", clientAddr).
WithField("length", packet.Length).
WithField("packetID", packet.PacketID).
Debug("Got packet")
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if packet.PacketID == mcproto.PacketIdHandshake {
handshake, err := mcproto.ReadHandshake(packet.Data)
if err != nil {
logrus.WithError(err).WithField("clientAddr", clientAddr).
Error("Failed to read handshake")
c.metrics.Errors.With("type", "read").Add(1)
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return
}
logrus.
WithField("client", clientAddr).
WithField("handshake", handshake).
Debug("Got handshake")
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serverAddress := handshake.ServerAddress
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c.findAndConnectBackend(ctx, frontendConn, clientAddr, inspectionBuffer, serverAddress)
} else if packet.PacketID == mcproto.PacketIdLegacyServerListPing {
handshake, ok := packet.Data.(*mcproto.LegacyServerListPing)
if !ok {
logrus.
WithField("client", clientAddr).
WithField("packet", packet).
Warn("Unexpected data type for PacketIdLegacyServerListPing")
c.metrics.Errors.With("type", "unexpected_content").Add(1)
return
}
logrus.
WithField("client", clientAddr).
WithField("handshake", handshake).
Debug("Got legacy server list ping")
serverAddress := handshake.ServerAddress
c.findAndConnectBackend(ctx, frontendConn, clientAddr, inspectionBuffer, serverAddress)
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} else {
logrus.
WithField("client", clientAddr).
WithField("packetID", packet.PacketID).
Error("Unexpected packetID, expected handshake")
c.metrics.Errors.With("type", "unexpected_content").Add(1)
return
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}
}
func (c *Connector) findAndConnectBackend(ctx context.Context, frontendConn net.Conn,
clientAddr net.Addr, preReadContent io.Reader, serverAddress string) {
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backendHostPort, resolvedHost, waker := Routes.FindBackendForServerAddress(ctx, serverAddress)
if waker != nil {
if err := waker(ctx); err != nil {
logrus.WithFields(logrus.Fields{"serverAddress": serverAddress}).WithError(err).Error("failed to wake up backend")
c.metrics.Errors.With("type", "wakeup_failed").Add(1)
return
}
}
if backendHostPort == "" {
logrus.
WithField("serverAddress", serverAddress).
WithField("resolvedHost", resolvedHost).
Warn("Unable to find registered backend")
c.metrics.Errors.With("type", "missing_backend").Add(1)
return
}
logrus.
WithField("client", clientAddr).
WithField("server", serverAddress).
WithField("backendHostPort", backendHostPort).
Info("Connecting to backend")
backendConn, err := net.Dial("tcp", backendHostPort)
if err != nil {
logrus.
WithError(err).
WithField("client", clientAddr).
WithField("serverAddress", serverAddress).
WithField("backend", backendHostPort).
Warn("Unable to connect to backend")
c.metrics.Errors.With("type", "backend_failed").Add(1)
return
}
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c.metrics.ConnectionsBackend.With("host", resolvedHost).Add(1)
c.metrics.ActiveConnections.Set(float64(
atomic.AddInt32(&c.activeConnections, 1)))
defer func() {
c.metrics.ActiveConnections.Set(float64(
atomic.AddInt32(&c.activeConnections, -1)))
c.connectionsCond.Signal()
}()
// PROXY protocol implementation
if c.sendProxyProto {
// Determine transport protocol for the PROXY header by "analyzing" the frontend connection's address
transportProtocol := proxyproto.TCPv4
ourHostIpPart, _, err := net.SplitHostPort(frontendConn.LocalAddr().String())
if err != nil {
logrus.
WithError(err).
WithField("localAddr", frontendConn.LocalAddr()).
Error("Failed to extract host part of our address")
_ = backendConn.Close()
return
}
ourFrontendIp := net.ParseIP(ourHostIpPart)
if ourFrontendIp.To4() == nil {
transportProtocol = proxyproto.TCPv6
}
header := &proxyproto.Header{
Version: 2,
Command: proxyproto.PROXY,
TransportProtocol: transportProtocol,
SourceAddr: clientAddr,
DestinationAddr: frontendConn.LocalAddr(), // our end of the client's connection
}
_, err = header.WriteTo(backendConn)
if err != nil {
logrus.
WithError(err).
WithField("clientAddr", header.SourceAddr).
WithField("destAddr", header.DestinationAddr).
Error("Failed to write PROXY header")
c.metrics.Errors.With("type", "proxy_write").Add(1)
_ = backendConn.Close()
return
}
}
amount, err := io.Copy(backendConn, preReadContent)
if err != nil {
logrus.WithError(err).Error("Failed to write handshake to backend connection")
c.metrics.Errors.With("type", "backend_failed").Add(1)
return
}
logrus.WithField("amount", amount).Debug("Relayed handshake to backend")
if err = frontendConn.SetReadDeadline(noDeadline); err != nil {
logrus.
WithError(err).
WithField("client", clientAddr).
Error("Failed to clear read deadline")
c.metrics.Errors.With("type", "read_deadline").Add(1)
return
}
c.pumpConnections(ctx, frontendConn, backendConn)
}
func (c *Connector) pumpConnections(ctx context.Context, frontendConn, backendConn net.Conn) {
//noinspection GoUnhandledErrorResult
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defer backendConn.Close()
clientAddr := frontendConn.RemoteAddr()
defer logrus.WithField("client", clientAddr).Debug("Closing backend connection")
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errors := make(chan error, 2)
go c.pumpFrames(backendConn, frontendConn, errors, "backend", "frontend", clientAddr)
go c.pumpFrames(frontendConn, backendConn, errors, "frontend", "backend", clientAddr)
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select {
case err := <-errors:
if err != io.EOF {
logrus.WithError(err).
WithField("client", clientAddr).
Error("Error observed on connection relay")
c.metrics.Errors.With("type", "relay").Add(1)
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}
case <-ctx.Done():
logrus.Debug("Observed context cancellation")
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}
}
func (c *Connector) pumpFrames(incoming io.Reader, outgoing io.Writer, errors chan<- error, from, to string, clientAddr net.Addr) {
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amount, err := io.Copy(outgoing, incoming)
logrus.
WithField("client", clientAddr).
WithField("amount", amount).
Infof("Finished relay %s->%s", from, to)
c.metrics.BytesTransmitted.Add(float64(amount))
if err != nil {
errors <- err
} else {
// successful io.Copy return nil error, not EOF...to simulate that to trigger outer handling
errors <- io.EOF
}
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}
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func (c *Connector) UseNgrok(token string) {
c.ngrokToken = token
}