func (this *VMessInboundHandler) HandleConnection(connection *net.TCPConn) error {
defer connection.Close()
connReader := v2net.NewTimeOutReader(16, connection)
requestReader := protocol.NewVMessRequestReader(this.clients)
request, err := requestReader.Read(connReader)
if err != nil {
log.Access(connection.RemoteAddr().String(), "", log.AccessRejected, err.Error())
log.Warning("VMessIn: Invalid request from (%s): %v", connection.RemoteAddr().String(), err)
return err
}
log.Access(connection.RemoteAddr().String(), request.Address.String(), log.AccessAccepted, "")
log.Debug("VMessIn: Received request for %s", request.Address.String())
ray := this.space.PacketDispatcher().DispatchToOutbound(v2net.NewPacket(request.Destination(), nil, true))
input := ray.InboundInput()
output := ray.InboundOutput()
var readFinish, writeFinish sync.Mutex
readFinish.Lock()
writeFinish.Lock()
userSettings := vmess.GetUserSettings(request.User.Level)
connReader.SetTimeOut(userSettings.PayloadReadTimeout)
go handleInput(request, connReader, input, &readFinish)
responseKey := md5.Sum(request.RequestKey)
responseIV := md5.Sum(request.RequestIV)
aesStream, err := v2crypto.NewAesEncryptionStream(responseKey[:], responseIV[:])
if err != nil {
log.Error("VMessIn: Failed to create AES decryption stream: %v", err)
close(input)
return err
}
responseWriter := v2crypto.NewCryptionWriter(aesStream, connection)
// Optimize for small response packet
buffer := alloc.NewLargeBuffer().Clear()
defer buffer.Release()
buffer.AppendBytes(request.ResponseHeader[0] ^ request.ResponseHeader[1])
buffer.AppendBytes(request.ResponseHeader[2] ^ request.ResponseHeader[3])
buffer.AppendBytes(byte(0), byte(0))
if data, open := <-output; open {
buffer.Append(data.Value)
data.Release()
responseWriter.Write(buffer.Value)
go handleOutput(request, responseWriter, output, &writeFinish)
writeFinish.Lock()
}
connection.CloseWrite()
readFinish.Lock()
return nil
}
func (handler *VMessInboundHandler) HandleConnection(connection *net.TCPConn) error {
defer connection.Close()
connReader := v2net.NewTimeOutReader(16, connection)
requestReader := protocol.NewVMessRequestReader(handler.clients)
request, err := requestReader.Read(connReader)
if err != nil {
log.Access(connection.RemoteAddr().String(), "", log.AccessRejected, err.Error())
log.Warning("VMessIn: Invalid request from (%s): %v", connection.RemoteAddr().String(), err)
return err
}
log.Access(connection.RemoteAddr().String(), request.Address.String(), log.AccessAccepted, "")
log.Debug("VMessIn: Received request for %s", request.Address.String())
ray := handler.dispatcher.DispatchToOutbound(v2net.NewPacket(request.Destination(), nil, true))
input := ray.InboundInput()
output := ray.InboundOutput()
var readFinish, writeFinish sync.Mutex
readFinish.Lock()
writeFinish.Lock()
connReader.SetTimeOut(120)
go handleInput(request, connReader, input, &readFinish)
responseKey := md5.Sum(request.RequestKey)
responseIV := md5.Sum(request.RequestIV)
responseWriter, err := v2io.NewAesEncryptWriter(responseKey[:], responseIV[:], connection)
if err != nil {
log.Error("VMessIn: Failed to create encrypt writer: %v", err)
return err
}
// Optimize for small response packet
buffer := alloc.NewLargeBuffer().Clear()
buffer.Append(request.ResponseHeader)
if data, open := <-output; open {
buffer.Append(data.Value)
data.Release()
responseWriter.Write(buffer.Value)
buffer.Release()
go handleOutput(request, responseWriter, output, &writeFinish)
writeFinish.Lock()
}
connection.CloseWrite()
readFinish.Lock()
return nil
}
func (this *Server) handleConnection(conn internet.Connection) {
defer conn.Close()
timedReader := v2net.NewTimeOutReader(this.config.Timeout, conn)
reader := bufio.NewReaderSize(timedReader, 2048)
request, err := http.ReadRequest(reader)
if err != nil {
if err != io.EOF {
log.Warning("HTTP: Failed to read http request: ", err)
}
return
}
log.Info("HTTP: Request to Method [", request.Method, "] Host [", request.Host, "] with URL [", request.URL, "]")
defaultPort := v2net.Port(80)
if strings.ToLower(request.URL.Scheme) == "https" {
defaultPort = v2net.Port(443)
}
host := request.Host
if len(host) == 0 {
host = request.URL.Host
}
dest, err := parseHost(host, defaultPort)
if err != nil {
log.Warning("HTTP: Malformed proxy host (", host, "): ", err)
return
}
log.Access(conn.RemoteAddr(), request.URL, log.AccessAccepted, "")
if strings.ToUpper(request.Method) == "CONNECT" {
this.handleConnect(request, dest, reader, conn)
} else {
this.handlePlainHTTP(request, dest, reader, conn)
}
}
func (handler *VMessInboundHandler) AcceptPackets(conn *net.UDPConn) {
for {
buffer := alloc.NewBuffer()
nBytes, addr, err := conn.ReadFromUDP(buffer.Value)
if err != nil {
log.Error("VMessIn failed to read UDP packets: %v", err)
buffer.Release()
continue
}
reader := bytes.NewReader(buffer.Value[:nBytes])
requestReader := protocol.NewVMessRequestReader(handler.clients)
request, err := requestReader.Read(reader)
if err != nil {
log.Access(addr.String(), "", log.AccessRejected, err.Error())
log.Warning("VMessIn: Invalid request from (%s): %v", addr.String(), err)
buffer.Release()
continue
}
log.Access(addr.String(), request.Address.String(), log.AccessAccepted, "")
cryptReader, err := v2io.NewAesDecryptReader(request.RequestKey, request.RequestIV, reader)
if err != nil {
log.Error("VMessIn: Failed to create decrypt reader: %v", err)
buffer.Release()
continue
}
data := alloc.NewBuffer()
nBytes, err = cryptReader.Read(data.Value)
buffer.Release()
if err != nil {
log.Warning("VMessIn: Unable to decrypt data: %v", err)
data.Release()
continue
}
data.Slice(0, nBytes)
packet := v2net.NewPacket(request.Destination(), data, false)
go handler.handlePacket(conn, request, packet, addr)
}
}
func (this *Server) handleSocks4(clientAddr string, reader *v2io.BufferedReader, writer *v2io.BufferedWriter, auth protocol.Socks4AuthenticationRequest) error {
result := protocol.Socks4RequestGranted
if auth.Command == protocol.CmdBind {
result = protocol.Socks4RequestRejected
}
socks4Response := protocol.NewSocks4AuthenticationResponse(result, auth.Port, auth.IP[:])
socks4Response.Write(writer)
if result == protocol.Socks4RequestRejected {
log.Warning("Socks: Unsupported socks 4 command ", auth.Command)
log.Access(clientAddr, "", log.AccessRejected, ErrorUnsupportedSocksCommand)
return ErrorUnsupportedSocksCommand
}
reader.SetCached(false)
writer.SetCached(false)
dest := v2net.TCPDestination(v2net.IPAddress(auth.IP[:]), auth.Port)
log.Access(clientAddr, dest, log.AccessAccepted, "")
this.transport(reader, writer, dest)
return nil
}
func (this *Server) handlerUDPPayload(payload *alloc.Buffer, source v2net.Destination) {
defer payload.Release()
ivLen := this.config.Cipher.IVSize()
iv := payload.Value[:ivLen]
key := this.config.Key
payload.SliceFrom(ivLen)
stream, err := this.config.Cipher.NewDecodingStream(key, iv)
if err != nil {
log.Error("Shadowsocks: Failed to create decoding stream: ", err)
return
}
reader := crypto.NewCryptionReader(stream, payload)
request, err := ReadRequest(reader, NewAuthenticator(HeaderKeyGenerator(key, iv)), true)
if err != nil {
if err != io.EOF {
log.Access(source, "", log.AccessRejected, err)
log.Warning("Shadowsocks: Invalid request from ", source, ": ", err)
}
return
}
//defer request.Release()
dest := v2net.UDPDestination(request.Address, request.Port)
log.Access(source, dest, log.AccessAccepted, "")
log.Info("Shadowsocks: Tunnelling request to ", dest)
this.udpServer.Dispatch(source, dest, request.DetachUDPPayload(), func(destination v2net.Destination, payload *alloc.Buffer) {
defer payload.Release()
response := alloc.NewBuffer().Slice(0, ivLen)
defer response.Release()
rand.Read(response.Value)
respIv := response.Value
stream, err := this.config.Cipher.NewEncodingStream(key, respIv)
if err != nil {
log.Error("Shadowsocks: Failed to create encoding stream: ", err)
return
}
writer := crypto.NewCryptionWriter(stream, response)
switch {
case request.Address.IsIPv4():
writer.Write([]byte{AddrTypeIPv4})
writer.Write(request.Address.IP())
case request.Address.IsIPv6():
writer.Write([]byte{AddrTypeIPv6})
writer.Write(request.Address.IP())
case request.Address.IsDomain():
writer.Write([]byte{AddrTypeDomain, byte(len(request.Address.Domain()))})
writer.Write([]byte(request.Address.Domain()))
}
writer.Write(request.Port.Bytes())
writer.Write(payload.Value)
if request.OTA {
respAuth := NewAuthenticator(HeaderKeyGenerator(key, respIv))
respAuth.Authenticate(response.Value, response.Value[ivLen:])
}
this.udpHub.WriteTo(response.Value, source)
})
}
func (this *Server) handleConnection(conn internet.Connection) {
defer conn.Close()
buffer := alloc.NewSmallBuffer()
defer buffer.Release()
timedReader := v2net.NewTimeOutReader(16, conn)
defer timedReader.Release()
bufferedReader := v2io.NewBufferedReader(timedReader)
defer bufferedReader.Release()
ivLen := this.config.Cipher.IVSize()
_, err := io.ReadFull(bufferedReader, buffer.Value[:ivLen])
if err != nil {
if err != io.EOF {
log.Access(conn.RemoteAddr(), "", log.AccessRejected, err)
log.Warning("Shadowsocks: Failed to read IV: ", err)
}
return
}
iv := buffer.Value[:ivLen]
key := this.config.Key
stream, err := this.config.Cipher.NewDecodingStream(key, iv)
if err != nil {
log.Error("Shadowsocks: Failed to create decoding stream: ", err)
return
}
reader := crypto.NewCryptionReader(stream, bufferedReader)
request, err := ReadRequest(reader, NewAuthenticator(HeaderKeyGenerator(key, iv)), false)
if err != nil {
log.Access(conn.RemoteAddr(), "", log.AccessRejected, err)
log.Warning("Shadowsocks: Invalid request from ", conn.RemoteAddr(), ": ", err)
return
}
defer request.Release()
bufferedReader.SetCached(false)
userSettings := protocol.GetUserSettings(this.config.Level)
timedReader.SetTimeOut(userSettings.PayloadReadTimeout)
dest := v2net.TCPDestination(request.Address, request.Port)
log.Access(conn.RemoteAddr(), dest, log.AccessAccepted, "")
log.Info("Shadowsocks: Tunnelling request to ", dest)
ray := this.packetDispatcher.DispatchToOutbound(dest)
defer ray.InboundOutput().Release()
var writeFinish sync.Mutex
writeFinish.Lock()
go func() {
if payload, err := ray.InboundOutput().Read(); err == nil {
payload.SliceBack(ivLen)
rand.Read(payload.Value[:ivLen])
stream, err := this.config.Cipher.NewEncodingStream(key, payload.Value[:ivLen])
if err != nil {
log.Error("Shadowsocks: Failed to create encoding stream: ", err)
return
}
stream.XORKeyStream(payload.Value[ivLen:], payload.Value[ivLen:])
conn.Write(payload.Value)
payload.Release()
writer := crypto.NewCryptionWriter(stream, conn)
v2writer := v2io.NewAdaptiveWriter(writer)
v2io.Pipe(ray.InboundOutput(), v2writer)
writer.Release()
v2writer.Release()
}
writeFinish.Unlock()
}()
var payloadReader v2io.Reader
if request.OTA {
payloadAuth := NewAuthenticator(ChunkKeyGenerator(iv))
payloadReader = NewChunkReader(reader, payloadAuth)
} else {
payloadReader = v2io.NewAdaptiveReader(reader)
}
v2io.Pipe(payloadReader, ray.InboundInput())
ray.InboundInput().Close()
payloadReader.Release()
writeFinish.Lock()
}
func (this *Shadowsocks) handlerUDPPayload(payload *alloc.Buffer, source v2net.Destination) {
defer payload.Release()
iv := payload.Value[:this.config.Cipher.IVSize()]
key := this.config.Key
payload.SliceFrom(this.config.Cipher.IVSize())
reader, err := this.config.Cipher.NewDecodingStream(key, iv, payload)
if err != nil {
log.Error("Shadowsocks: Failed to create decoding stream: ", err)
return
}
request, err := ReadRequest(reader, NewAuthenticator(HeaderKeyGenerator(key, iv)), true)
if err != nil {
log.Access(source, serial.StringLiteral(""), log.AccessRejected, serial.StringLiteral(err.Error()))
log.Warning("Shadowsocks: Invalid request from ", source, ": ", err)
return
}
dest := v2net.UDPDestination(request.Address, request.Port)
log.Access(source, dest, log.AccessAccepted, serial.StringLiteral(""))
log.Info("Shadowsocks: Tunnelling request to ", dest)
packet := v2net.NewPacket(dest, request.UDPPayload, false)
this.udpServer.Dispatch(source, packet, func(packet v2net.Packet) {
defer packet.Chunk().Release()
response := alloc.NewBuffer().Slice(0, this.config.Cipher.IVSize())
defer response.Release()
rand.Read(response.Value)
respIv := response.Value
writer, err := this.config.Cipher.NewEncodingStream(key, respIv, response)
if err != nil {
log.Error("Shadowsocks: Failed to create encoding stream: ", err)
return
}
switch {
case request.Address.IsIPv4():
writer.Write([]byte{AddrTypeIPv4})
writer.Write(request.Address.IP())
case request.Address.IsIPv6():
writer.Write([]byte{AddrTypeIPv6})
writer.Write(request.Address.IP())
case request.Address.IsDomain():
writer.Write([]byte{AddrTypeDomain, byte(len(request.Address.Domain()))})
writer.Write([]byte(request.Address.Domain()))
}
writer.Write(request.Port.Bytes())
writer.Write(packet.Chunk().Value)
if request.OTA {
respAuth := NewAuthenticator(HeaderKeyGenerator(key, respIv))
respAuth.Authenticate(response.Value, response.Value[this.config.Cipher.IVSize():])
}
this.udpHub.WriteTo(response.Value, source)
})
}
func (this *Shadowsocks) handleConnection(conn *hub.TCPConn) {
defer conn.Close()
buffer := alloc.NewSmallBuffer()
defer buffer.Release()
_, err := io.ReadFull(conn, buffer.Value[:this.config.Cipher.IVSize()])
if err != nil {
log.Access(conn.RemoteAddr(), serial.StringLiteral(""), log.AccessRejected, serial.StringLiteral(err.Error()))
log.Error("Shadowsocks: Failed to read IV: ", err)
return
}
iv := buffer.Value[:this.config.Cipher.IVSize()]
key := this.config.Key
reader, err := this.config.Cipher.NewDecodingStream(key, iv, conn)
if err != nil {
log.Error("Shadowsocks: Failed to create decoding stream: ", err)
return
}
request, err := ReadRequest(reader, NewAuthenticator(HeaderKeyGenerator(iv, key)), false)
if err != nil {
log.Access(conn.RemoteAddr(), serial.StringLiteral(""), log.AccessRejected, serial.StringLiteral(err.Error()))
log.Warning("Shadowsocks: Invalid request from ", conn.RemoteAddr(), ": ", err)
return
}
dest := v2net.TCPDestination(request.Address, request.Port)
log.Access(conn.RemoteAddr(), dest, log.AccessAccepted, serial.StringLiteral(""))
log.Info("Shadowsocks: Tunnelling request to ", dest)
packet := v2net.NewPacket(dest, nil, true)
ray := this.packetDispatcher.DispatchToOutbound(packet)
var writeFinish sync.Mutex
writeFinish.Lock()
go func() {
if payload, ok := <-ray.InboundOutput(); ok {
payload.SliceBack(16)
rand.Read(payload.Value[:16])
writer, err := this.config.Cipher.NewEncodingStream(key, payload.Value[:16], conn)
if err != nil {
log.Error("Shadowsocks: Failed to create encoding stream: ", err)
return
}
writer.Write(payload.Value)
payload.Release()
v2io.ChanToRawWriter(writer, ray.InboundOutput())
}
writeFinish.Unlock()
}()
var payloadReader v2io.Reader
if request.OTA {
payloadAuth := NewAuthenticator(ChunkKeyGenerator(iv))
payloadReader = NewChunkReader(reader, payloadAuth)
} else {
payloadReader = v2io.NewAdaptiveReader(reader)
}
v2io.ReaderToChan(ray.InboundInput(), payloadReader)
close(ray.InboundInput())
writeFinish.Lock()
}
func (this *Server) handleSocks5(clientAddr string, reader *v2io.BufferedReader, writer *v2io.BufferedWriter, auth protocol.Socks5AuthenticationRequest) error {
expectedAuthMethod := protocol.AuthNotRequired
if this.config.AuthType == AuthTypePassword {
expectedAuthMethod = protocol.AuthUserPass
}
if !auth.HasAuthMethod(expectedAuthMethod) {
authResponse := protocol.NewAuthenticationResponse(protocol.AuthNoMatchingMethod)
err := protocol.WriteAuthentication(writer, authResponse)
writer.Flush()
if err != nil {
log.Warning("Socks: failed to write authentication: ", err)
return err
}
log.Warning("Socks: client doesn't support any allowed auth methods.")
return ErrorUnsupportedAuthMethod
}
authResponse := protocol.NewAuthenticationResponse(expectedAuthMethod)
protocol.WriteAuthentication(writer, authResponse)
err := writer.Flush()
if err != nil {
log.Error("Socks: failed to write authentication: ", err)
return err
}
if this.config.AuthType == AuthTypePassword {
upRequest, err := protocol.ReadUserPassRequest(reader)
if err != nil {
log.Warning("Socks: failed to read username and password: "******"Socks: failed to write user pass response: ", err)
return err
}
if status != byte(0) {
log.Warning("Socks: Invalid user account: ", upRequest.AuthDetail())
log.Access(clientAddr, "", log.AccessRejected, proxy.ErrInvalidAuthentication)
return proxy.ErrInvalidAuthentication
}
}
request, err := protocol.ReadRequest(reader)
if err != nil {
log.Warning("Socks: failed to read request: ", err)
return err
}
if request.Command == protocol.CmdUdpAssociate && this.config.UDPEnabled {
return this.handleUDP(reader, writer)
}
if request.Command == protocol.CmdBind || request.Command == protocol.CmdUdpAssociate {
response := protocol.NewSocks5Response()
response.Error = protocol.ErrorCommandNotSupported
response.Port = v2net.Port(0)
response.SetIPv4([]byte{0, 0, 0, 0})
response.Write(writer)
writer.Flush()
if err != nil {
log.Error("Socks: failed to write response: ", err)
return err
}
log.Warning("Socks: Unsupported socks command ", request.Command)
return ErrorUnsupportedSocksCommand
}
response := protocol.NewSocks5Response()
response.Error = protocol.ErrorSuccess
// Some SOCKS software requires a value other than dest. Let's fake one:
response.Port = v2net.Port(1717)
response.SetIPv4([]byte{0, 0, 0, 0})
response.Write(writer)
if err != nil {
log.Error("Socks: failed to write response: ", err)
return err
}
reader.SetCached(false)
writer.SetCached(false)
dest := request.Destination()
log.Info("Socks: TCP Connect request to ", dest)
log.Access(clientAddr, dest, log.AccessAccepted, "")
this.transport(reader, writer, dest)
return nil
}
func (this *VMessInboundHandler) HandleConnection(connection internet.Connection) {
defer connection.Close()
if !this.accepting {
return
}
connReader := v2net.NewTimeOutReader(8, connection)
defer connReader.Release()
reader := v2io.NewBufferedReader(connReader)
defer reader.Release()
this.RLock()
if !this.accepting {
this.RUnlock()
return
}
session := raw.NewServerSession(this.clients)
defer session.Release()
request, err := session.DecodeRequestHeader(reader)
this.RUnlock()
if err != nil {
if err != io.EOF {
log.Access(connection.RemoteAddr(), "", log.AccessRejected, err)
log.Warning("VMessIn: Invalid request from ", connection.RemoteAddr(), ": ", err)
}
connection.SetReusable(false)
return
}
log.Access(connection.RemoteAddr(), request.Destination(), log.AccessAccepted, "")
log.Info("VMessIn: Received request for ", request.Destination())
connection.SetReusable(request.Option.Has(protocol.RequestOptionConnectionReuse))
ray := this.packetDispatcher.DispatchToOutbound(request.Destination())
input := ray.InboundInput()
output := ray.InboundOutput()
defer input.Close()
defer output.Release()
var readFinish sync.Mutex
readFinish.Lock()
userSettings := protocol.GetUserSettings(request.User.Level)
connReader.SetTimeOut(userSettings.PayloadReadTimeout)
reader.SetCached(false)
go func() {
bodyReader := session.DecodeRequestBody(reader)
var requestReader v2io.Reader
if request.Option.Has(protocol.RequestOptionChunkStream) {
requestReader = vmessio.NewAuthChunkReader(bodyReader)
} else {
requestReader = v2io.NewAdaptiveReader(bodyReader)
}
err := v2io.Pipe(requestReader, input)
if err != io.EOF {
connection.SetReusable(false)
}
requestReader.Release()
input.Close()
readFinish.Unlock()
}()
writer := v2io.NewBufferedWriter(connection)
defer writer.Release()
response := &protocol.ResponseHeader{
Command: this.generateCommand(request),
}
if connection.Reusable() {
response.Option.Set(protocol.ResponseOptionConnectionReuse)
}
session.EncodeResponseHeader(response, writer)
bodyWriter := session.EncodeResponseBody(writer)
var v2writer v2io.Writer = v2io.NewAdaptiveWriter(bodyWriter)
if request.Option.Has(protocol.RequestOptionChunkStream) {
v2writer = vmessio.NewAuthChunkWriter(v2writer)
}
// Optimize for small response packet
if data, err := output.Read(); err == nil {
if err := v2writer.Write(data); err != nil {
connection.SetReusable(false)
}
writer.SetCached(false)
err = v2io.Pipe(output, v2writer)
if err != io.EOF {
connection.SetReusable(false)
}
}
output.Release()
if request.Option.Has(protocol.RequestOptionChunkStream) {
if err := v2writer.Write(alloc.NewSmallBuffer().Clear()); err != nil {
connection.SetReusable(false)
}
}
v2writer.Release()
readFinish.Lock()
}
func (this *VMessInboundHandler) HandleConnection(connection *hub.TCPConn) {
defer connection.Close()
connReader := v2net.NewTimeOutReader(16, connection)
reader := v2io.NewBufferedReader(connReader)
session := raw.NewServerSession(this.clients)
request, err := session.DecodeRequestHeader(reader)
if err != nil {
log.Access(connection.RemoteAddr(), serial.StringLiteral(""), log.AccessRejected, serial.StringLiteral(err.Error()))
log.Warning("VMessIn: Invalid request from ", connection.RemoteAddr(), ": ", err)
return
}
log.Access(connection.RemoteAddr(), request.Destination(), log.AccessAccepted, serial.StringLiteral(""))
log.Debug("VMessIn: Received request for ", request.Destination())
ray := this.packetDispatcher.DispatchToOutbound(v2net.NewPacket(request.Destination(), nil, true))
input := ray.InboundInput()
output := ray.InboundOutput()
var readFinish, writeFinish sync.Mutex
readFinish.Lock()
writeFinish.Lock()
userSettings := proto.GetUserSettings(request.User.Level)
connReader.SetTimeOut(userSettings.PayloadReadTimeout)
reader.SetCached(false)
go func() {
defer close(input)
defer readFinish.Unlock()
bodyReader := session.DecodeRequestBody(reader)
var requestReader v2io.Reader
if request.Option.IsChunkStream() {
requestReader = vmessio.NewAuthChunkReader(bodyReader)
} else {
requestReader = v2io.NewAdaptiveReader(bodyReader)
}
v2io.ReaderToChan(input, requestReader)
}()
writer := v2io.NewBufferedWriter(connection)
response := &proto.ResponseHeader{
Command: this.generateCommand(request),
}
session.EncodeResponseHeader(response, writer)
bodyWriter := session.EncodeResponseBody(writer)
// Optimize for small response packet
if data, open := <-output; open {
if request.Option.IsChunkStream() {
vmessio.Authenticate(data)
}
bodyWriter.Write(data.Value)
data.Release()
writer.SetCached(false)
go func(finish *sync.Mutex) {
var writer v2io.Writer = v2io.NewAdaptiveWriter(bodyWriter)
if request.Option.IsChunkStream() {
writer = vmessio.NewAuthChunkWriter(writer)
}
v2io.ChanToWriter(writer, output)
finish.Unlock()
}(&writeFinish)
writeFinish.Lock()
}
connection.CloseWrite()
readFinish.Lock()
}
func (this *VMessInboundHandler) HandleConnection(connection *hub.TCPConn) {
defer connection.Close()
connReader := v2net.NewTimeOutReader(16, connection)
requestReader := protocol.NewVMessRequestReader(this.clients)
request, err := requestReader.Read(connReader)
if err != nil {
log.Access(connection.RemoteAddr(), serial.StringLiteral(""), log.AccessRejected, serial.StringLiteral(err.Error()))
log.Warning("VMessIn: Invalid request from ", connection.RemoteAddr(), ": ", err)
return
}
log.Access(connection.RemoteAddr(), request.Address, log.AccessAccepted, serial.StringLiteral(""))
log.Debug("VMessIn: Received request for ", request.Address)
ray := this.packetDispatcher.DispatchToOutbound(v2net.NewPacket(request.Destination(), nil, true))
input := ray.InboundInput()
output := ray.InboundOutput()
var readFinish, writeFinish sync.Mutex
readFinish.Lock()
writeFinish.Lock()
userSettings := vmess.GetUserSettings(request.User.Level)
connReader.SetTimeOut(userSettings.PayloadReadTimeout)
go handleInput(request, connReader, input, &readFinish)
responseKey := md5.Sum(request.RequestKey)
responseIV := md5.Sum(request.RequestIV)
aesStream, err := v2crypto.NewAesEncryptionStream(responseKey[:], responseIV[:])
if err != nil {
log.Error("VMessIn: Failed to create AES decryption stream: ", err)
close(input)
return
}
responseWriter := v2crypto.NewCryptionWriter(aesStream, connection)
// Optimize for small response packet
buffer := alloc.NewLargeBuffer().Clear()
defer buffer.Release()
buffer.AppendBytes(request.ResponseHeader, byte(0))
this.generateCommand(buffer)
if data, open := <-output; open {
if request.IsChunkStream() {
vmessio.Authenticate(data)
}
buffer.Append(data.Value)
data.Release()
responseWriter.Write(buffer.Value)
go func(finish *sync.Mutex) {
var writer v2io.Writer
writer = v2io.NewAdaptiveWriter(responseWriter)
if request.IsChunkStream() {
writer = vmessio.NewAuthChunkWriter(writer)
}
v2io.ChanToWriter(writer, output)
finish.Unlock()
}(&writeFinish)
writeFinish.Lock()
}
connection.CloseWrite()
readFinish.Lock()
}
