Xray-core/transport/internet/splithttp/dialer.go

516 lines
14 KiB
Go

package splithttp
import (
"context"
gotls "crypto/tls"
"fmt"
"io"
"net/http"
"net/http/httptrace"
"net/url"
"strconv"
"sync"
"sync/atomic"
"time"
"github.com/quic-go/quic-go"
"github.com/quic-go/quic-go/http3"
"github.com/xtls/xray-core/common"
"github.com/xtls/xray-core/common/buf"
"github.com/xtls/xray-core/common/errors"
"github.com/xtls/xray-core/common/net"
"github.com/xtls/xray-core/common/signal/done"
"github.com/xtls/xray-core/common/uuid"
"github.com/xtls/xray-core/transport/internet"
"github.com/xtls/xray-core/transport/internet/browser_dialer"
"github.com/xtls/xray-core/transport/internet/reality"
"github.com/xtls/xray-core/transport/internet/stat"
"github.com/xtls/xray-core/transport/internet/tls"
"github.com/xtls/xray-core/transport/pipe"
"golang.org/x/net/http2"
)
// defines the maximum time an idle TCP session can survive in the tunnel, so
// it should be consistent across HTTP versions and with other transports.
const connIdleTimeout = 300 * time.Second
// consistent with quic-go
const quicgoH3KeepAlivePeriod = 10 * time.Second
// consistent with chrome
const chromeH2KeepAlivePeriod = 45 * time.Second
type dialerConf struct {
net.Destination
*internet.MemoryStreamConfig
}
var (
globalDialerMap map[dialerConf]*XmuxManager
globalDialerAccess sync.Mutex
)
func getHTTPClient(ctx context.Context, dest net.Destination, streamSettings *internet.MemoryStreamConfig) (DialerClient, *XmuxClient) {
realityConfig := reality.ConfigFromStreamSettings(streamSettings)
if browser_dialer.HasBrowserDialer() && realityConfig != nil {
return &BrowserDialerClient{}, nil
}
globalDialerAccess.Lock()
defer globalDialerAccess.Unlock()
if globalDialerMap == nil {
globalDialerMap = make(map[dialerConf]*XmuxManager)
}
key := dialerConf{dest, streamSettings}
xmuxManager, found := globalDialerMap[key]
if !found {
transportConfig := streamSettings.ProtocolSettings.(*Config)
var xmuxConfig XmuxConfig
if transportConfig.Xmux != nil {
xmuxConfig = *transportConfig.Xmux
}
xmuxManager = NewXmuxManager(xmuxConfig, func() XmuxConn {
return createHTTPClient(dest, streamSettings)
})
globalDialerMap[key] = xmuxManager
}
xmuxClient := xmuxManager.GetXmuxClient(ctx)
return xmuxClient.XmuxConn.(DialerClient), xmuxClient
}
func decideHTTPVersion(tlsConfig *tls.Config, realityConfig *reality.Config) string {
if realityConfig != nil {
return "2"
}
if tlsConfig == nil {
return "1.1"
}
if len(tlsConfig.NextProtocol) != 1 {
return "2"
}
if tlsConfig.NextProtocol[0] == "http/1.1" {
return "1.1"
}
if tlsConfig.NextProtocol[0] == "h3" {
return "3"
}
return "2"
}
func createHTTPClient(dest net.Destination, streamSettings *internet.MemoryStreamConfig) DialerClient {
tlsConfig := tls.ConfigFromStreamSettings(streamSettings)
realityConfig := reality.ConfigFromStreamSettings(streamSettings)
httpVersion := decideHTTPVersion(tlsConfig, realityConfig)
if httpVersion == "3" {
dest.Network = net.Network_UDP // better to keep this line
}
var gotlsConfig *gotls.Config
if tlsConfig != nil {
gotlsConfig = tlsConfig.GetTLSConfig(tls.WithDestination(dest))
}
transportConfig := streamSettings.ProtocolSettings.(*Config)
dialContext := func(ctxInner context.Context) (net.Conn, error) {
conn, err := internet.DialSystem(ctxInner, dest, streamSettings.SocketSettings)
if err != nil {
return nil, err
}
if realityConfig != nil {
return reality.UClient(conn, realityConfig, ctxInner, dest)
}
if gotlsConfig != nil {
if fingerprint := tls.GetFingerprint(tlsConfig.Fingerprint); fingerprint != nil {
conn = tls.UClient(conn, gotlsConfig, fingerprint)
if err := conn.(*tls.UConn).HandshakeContext(ctxInner); err != nil {
return nil, err
}
} else {
conn = tls.Client(conn, gotlsConfig)
}
}
return conn, nil
}
var keepAlivePeriod time.Duration
if streamSettings.ProtocolSettings.(*Config).Xmux != nil {
keepAlivePeriod = time.Duration(streamSettings.ProtocolSettings.(*Config).Xmux.HKeepAlivePeriod) * time.Second
}
var transport http.RoundTripper
if httpVersion == "3" {
if keepAlivePeriod == 0 {
keepAlivePeriod = quicgoH3KeepAlivePeriod
}
if keepAlivePeriod < 0 {
keepAlivePeriod = 0
}
quicConfig := &quic.Config{
MaxIdleTimeout: connIdleTimeout,
// these two are defaults of quic-go/http3. the default of quic-go (no
// http3) is different, so it is hardcoded here for clarity.
// https://github.com/quic-go/quic-go/blob/b8ea5c798155950fb5bbfdd06cad1939c9355878/http3/client.go#L36-L39
MaxIncomingStreams: -1,
KeepAlivePeriod: keepAlivePeriod,
}
transport = &http3.RoundTripper{
QUICConfig: quicConfig,
TLSClientConfig: gotlsConfig,
Dial: func(ctx context.Context, addr string, tlsCfg *gotls.Config, cfg *quic.Config) (quic.EarlyConnection, error) {
conn, err := internet.DialSystem(ctx, dest, streamSettings.SocketSettings)
if err != nil {
return nil, err
}
var udpConn net.PacketConn
var udpAddr *net.UDPAddr
switch c := conn.(type) {
case *internet.PacketConnWrapper:
var ok bool
udpConn, ok = c.Conn.(*net.UDPConn)
if !ok {
return nil, errors.New("PacketConnWrapper does not contain a UDP connection")
}
udpAddr, err = net.ResolveUDPAddr("udp", c.Dest.String())
if err != nil {
return nil, err
}
case *net.UDPConn:
udpConn = c
udpAddr, err = net.ResolveUDPAddr("udp", c.RemoteAddr().String())
if err != nil {
return nil, err
}
default:
udpConn = &internet.FakePacketConn{c}
udpAddr, err = net.ResolveUDPAddr("udp", c.RemoteAddr().String())
if err != nil {
return nil, err
}
}
return quic.DialEarly(ctx, udpConn, udpAddr, tlsCfg, cfg)
},
}
} else if httpVersion == "2" {
if keepAlivePeriod == 0 {
keepAlivePeriod = chromeH2KeepAlivePeriod
}
if keepAlivePeriod < 0 {
keepAlivePeriod = 0
}
transport = &http2.Transport{
DialTLSContext: func(ctxInner context.Context, network string, addr string, cfg *gotls.Config) (net.Conn, error) {
return dialContext(ctxInner)
},
IdleConnTimeout: connIdleTimeout,
ReadIdleTimeout: keepAlivePeriod,
}
} else {
httpDialContext := func(ctxInner context.Context, network string, addr string) (net.Conn, error) {
return dialContext(ctxInner)
}
transport = &http.Transport{
DialTLSContext: httpDialContext,
DialContext: httpDialContext,
IdleConnTimeout: connIdleTimeout,
// chunked transfer download with KeepAlives is buggy with
// http.Client and our custom dial context.
DisableKeepAlives: true,
}
}
client := &DefaultDialerClient{
transportConfig: transportConfig,
client: &http.Client{
Transport: transport,
},
httpVersion: httpVersion,
uploadRawPool: &sync.Pool{},
dialUploadConn: dialContext,
}
return client
}
func init() {
common.Must(internet.RegisterTransportDialer(protocolName, Dial))
}
func Dial(ctx context.Context, dest net.Destination, streamSettings *internet.MemoryStreamConfig) (stat.Connection, error) {
tlsConfig := tls.ConfigFromStreamSettings(streamSettings)
realityConfig := reality.ConfigFromStreamSettings(streamSettings)
httpVersion := decideHTTPVersion(tlsConfig, realityConfig)
if httpVersion == "3" {
dest.Network = net.Network_UDP
}
transportConfiguration := streamSettings.ProtocolSettings.(*Config)
var requestURL url.URL
if tlsConfig != nil || realityConfig != nil {
requestURL.Scheme = "https"
} else {
requestURL.Scheme = "http"
}
requestURL.Host = transportConfiguration.Host
if requestURL.Host == "" && tlsConfig != nil {
requestURL.Host = tlsConfig.ServerName
}
if requestURL.Host == "" && realityConfig != nil {
requestURL.Host = realityConfig.ServerName
}
if requestURL.Host == "" {
requestURL.Host = dest.Address.String()
}
sessionIdUuid := uuid.New()
requestURL.Path = transportConfiguration.GetNormalizedPath() + sessionIdUuid.String()
requestURL.RawQuery = transportConfiguration.GetNormalizedQuery()
httpClient, xmuxClient := getHTTPClient(ctx, dest, streamSettings)
mode := transportConfiguration.Mode
if mode == "" || mode == "auto" {
mode = "packet-up"
if httpVersion == "2" {
mode = "stream-up"
}
if realityConfig != nil && transportConfiguration.DownloadSettings == nil {
mode = "stream-one"
}
}
errors.LogInfo(ctx, fmt.Sprintf("XHTTP is dialing to %s, mode %s, HTTP version %s, host %s", dest, mode, httpVersion, requestURL.Host))
requestURL2 := requestURL
httpClient2 := httpClient
xmuxClient2 := xmuxClient
if transportConfiguration.DownloadSettings != nil {
globalDialerAccess.Lock()
if streamSettings.DownloadSettings == nil {
streamSettings.DownloadSettings = common.Must2(internet.ToMemoryStreamConfig(transportConfiguration.DownloadSettings)).(*internet.MemoryStreamConfig)
}
globalDialerAccess.Unlock()
memory2 := streamSettings.DownloadSettings
dest2 := *memory2.Destination // just panic
tlsConfig2 := tls.ConfigFromStreamSettings(memory2)
realityConfig2 := reality.ConfigFromStreamSettings(memory2)
httpVersion2 := decideHTTPVersion(tlsConfig2, realityConfig2)
if httpVersion2 == "3" {
dest2.Network = net.Network_UDP
}
if tlsConfig2 != nil || realityConfig2 != nil {
requestURL2.Scheme = "https"
} else {
requestURL2.Scheme = "http"
}
config2 := memory2.ProtocolSettings.(*Config)
requestURL2.Host = config2.Host
if requestURL2.Host == "" && tlsConfig2 != nil {
requestURL2.Host = tlsConfig2.ServerName
}
if requestURL2.Host == "" && realityConfig2 != nil {
requestURL2.Host = realityConfig2.ServerName
}
if requestURL2.Host == "" {
requestURL2.Host = dest2.Address.String()
}
requestURL2.Path = config2.GetNormalizedPath() + sessionIdUuid.String()
requestURL2.RawQuery = config2.GetNormalizedQuery()
httpClient2, xmuxClient2 = getHTTPClient(ctx, dest2, memory2)
errors.LogInfo(ctx, fmt.Sprintf("XHTTP is downloading from %s, mode %s, HTTP version %s, host %s", dest2, "stream-down", httpVersion2, requestURL2.Host))
}
var writer io.WriteCloser
var reader io.ReadCloser
var remoteAddr, localAddr net.Addr
var err error
if mode == "stream-one" {
requestURL.Path = transportConfiguration.GetNormalizedPath()
if xmuxClient != nil {
xmuxClient.LeftRequests.Add(-1)
}
writer, reader = httpClient.Open(context.WithoutCancel(ctx), requestURL.String())
remoteAddr = &net.TCPAddr{}
localAddr = &net.TCPAddr{}
} else {
if xmuxClient2 != nil {
xmuxClient2.LeftRequests.Add(-1)
}
reader, remoteAddr, localAddr, err = httpClient2.OpenDownload(context.WithoutCancel(ctx), requestURL2.String())
if err != nil {
return nil, err
}
}
if xmuxClient != nil {
xmuxClient.OpenUsage.Add(1)
}
if xmuxClient2 != nil && xmuxClient2 != xmuxClient {
xmuxClient2.OpenUsage.Add(1)
}
var once atomic.Int32
conn := splitConn{
writer: writer,
reader: reader,
remoteAddr: remoteAddr,
localAddr: localAddr,
onClose: func() {
if once.Add(-1) < 0 {
return
}
if xmuxClient != nil {
xmuxClient.OpenUsage.Add(-1)
}
if xmuxClient2 != nil && xmuxClient2 != xmuxClient {
xmuxClient2.OpenUsage.Add(-1)
}
},
}
if mode == "stream-one" {
if xmuxClient != nil {
xmuxClient.LeftRequests.Add(-1)
}
return stat.Connection(&conn), nil
}
if mode == "stream-up" {
if xmuxClient != nil {
xmuxClient.LeftRequests.Add(-1)
}
conn.writer = httpClient.OpenUpload(ctx, requestURL.String())
return stat.Connection(&conn), nil
}
scMaxEachPostBytes := transportConfiguration.GetNormalizedScMaxEachPostBytes()
scMinPostsIntervalMs := transportConfiguration.GetNormalizedScMinPostsIntervalMs()
maxUploadSize := scMaxEachPostBytes.rand()
// WithSizeLimit(0) will still allow single bytes to pass, and a lot of
// code relies on this behavior. Subtract 1 so that together with
// uploadWriter wrapper, exact size limits can be enforced
// uploadPipeReader, uploadPipeWriter := pipe.New(pipe.WithSizeLimit(maxUploadSize - 1))
uploadPipeReader, uploadPipeWriter := pipe.New(pipe.WithSizeLimit(maxUploadSize - buf.Size))
conn.writer = uploadWriter{
uploadPipeWriter,
maxUploadSize,
}
go func() {
var seq int64
var lastWrite time.Time
for {
wroteRequest := done.New()
ctx := httptrace.WithClientTrace(ctx, &httptrace.ClientTrace{
WroteRequest: func(httptrace.WroteRequestInfo) {
wroteRequest.Close()
},
})
// this intentionally makes a shallow-copy of the struct so we
// can reassign Path (potentially concurrently)
url := requestURL
url.Path += "/" + strconv.FormatInt(seq, 10)
// reassign query to get different padding
url.RawQuery = transportConfiguration.GetNormalizedQuery()
seq += 1
if scMinPostsIntervalMs.From > 0 {
time.Sleep(time.Duration(scMinPostsIntervalMs.rand())*time.Millisecond - time.Since(lastWrite))
}
// by offloading the uploads into a buffered pipe, multiple conn.Write
// calls get automatically batched together into larger POST requests.
// without batching, bandwidth is extremely limited.
chunk, err := uploadPipeReader.ReadMultiBuffer()
if err != nil {
break
}
lastWrite = time.Now()
if xmuxClient != nil && xmuxClient.LeftRequests.Add(-1) <= 0 {
httpClient, xmuxClient = getHTTPClient(ctx, dest, streamSettings)
}
go func() {
err := httpClient.SendUploadRequest(
context.WithoutCancel(ctx),
url.String(),
&buf.MultiBufferContainer{MultiBuffer: chunk},
int64(chunk.Len()),
)
wroteRequest.Close()
if err != nil {
errors.LogInfoInner(ctx, err, "failed to send upload")
uploadPipeReader.Interrupt()
}
}()
if _, ok := httpClient.(*DefaultDialerClient); ok {
<-wroteRequest.Wait()
}
}
}()
return stat.Connection(&conn), nil
}
// A wrapper around pipe that ensures the size limit is exactly honored.
//
// The MultiBuffer pipe accepts any single WriteMultiBuffer call even if that
// single MultiBuffer exceeds the size limit, and then starts blocking on the
// next WriteMultiBuffer call. This means that ReadMultiBuffer can return more
// bytes than the size limit. We work around this by splitting a potentially
// too large write up into multiple.
type uploadWriter struct {
*pipe.Writer
maxLen int32
}
func (w uploadWriter) Write(b []byte) (int, error) {
/*
capacity := int(w.maxLen - w.Len())
if capacity > 0 && capacity < len(b) {
b = b[:capacity]
}
*/
buffer := buf.New()
n, err := buffer.Write(b)
if err != nil {
return 0, err
}
err = w.WriteMultiBuffer([]*buf.Buffer{buffer})
if err != nil {
return 0, err
}
return n, nil
}