Esempio n. 1
0
//Independent request process
bool __fastcall EnterRequestProcess(const char *OriginalSend, const size_t Length, const SOCKET_DATA LocalSocketData, const uint16_t Protocol, const bool IsLocal)
{
//Initialization(Send buffer part)
	std::shared_ptr<char> SendBuffer, RecvBuffer;
	if (Parameter.CompressionPointerMutation)
	{
		if (Parameter.CPM_PointerToAdditional)
		{
			std::shared_ptr<char> SendBufferTemp(new char[Length + 2U + sizeof(dns_record_aaaa) + sizeof(uint16_t)]());
			memset(SendBufferTemp.get(), 0, Length + 2U + sizeof(dns_record_aaaa) + sizeof(uint16_t));
			SendBufferTemp.swap(SendBuffer);
		}
		else if (Parameter.CPM_PointerToRR)
		{
			std::shared_ptr<char> SendBufferTemp(new char[Length + 2U + sizeof(uint16_t)]());
			memset(SendBufferTemp.get(), 0, Length + 2U + sizeof(uint16_t));
			SendBufferTemp.swap(SendBuffer);
		}
		else { //Pointer to header
			std::shared_ptr<char> SendBufferTemp(new char[Length + 1U + sizeof(uint16_t)]());
			memset(SendBufferTemp.get(), 0, Length + 1U + sizeof(uint16_t));
			SendBufferTemp.swap(SendBuffer);
		}
	}
	else {
		std::shared_ptr<char> SendBufferTemp(new char[Length + sizeof(uint16_t)]()); //Reserved 2 bytes for TCP header length.
		memset(SendBufferTemp.get(), 0, Length + sizeof(uint16_t));
		SendBufferTemp.swap(SendBuffer);
	}
	memcpy_s(SendBuffer.get(), Length, OriginalSend, Length);

//Initialization(Receive buffer part)
#if defined(ENABLE_LIBSODIUM)
	if (Parameter.RequestMode_Transport == REQUEST_MODE_TCP || Parameter.DNSCurve && DNSCurveParameter.DNSCurveMode == DNSCURVE_REQUEST_MODE_TCP || Protocol == IPPROTO_TCP)
#else
	if (Parameter.RequestMode_Transport == REQUEST_MODE_TCP || Protocol == IPPROTO_TCP)
#endif
	{
		std::shared_ptr<char> TCPRecvBuffer(new char[LARGE_PACKET_MAXSIZE + sizeof(uint16_t)]());
		memset(TCPRecvBuffer.get(), 0, LARGE_PACKET_MAXSIZE + sizeof(uint16_t));
		RecvBuffer.swap(TCPRecvBuffer);
	}
	else { //UDP
		std::shared_ptr<char> UDPRecvBuffer(new char[PACKET_MAXSIZE + sizeof(uint16_t)]());
		memset(UDPRecvBuffer.get(), 0, PACKET_MAXSIZE + sizeof(uint16_t));
		RecvBuffer.swap(UDPRecvBuffer);
	}

	size_t DataLength = 0;
//Local server requesting
	if ((Parameter.LocalMain || IsLocal) && 
		LocalRequestProcess(SendBuffer.get(), Length, RecvBuffer.get(), Protocol, LocalSocketData))
	{
	//Fin TCP request connection.
		if (Protocol == IPPROTO_TCP && LocalSocketData.Socket != INVALID_SOCKET)
		{
			shutdown(LocalSocketData.Socket, SD_BOTH);
			closesocket(LocalSocketData.Socket);
		}

		return true;
	}
	
	auto DNS_Header = (pdns_hdr)SendBuffer.get();
	DataLength = Length;
//Compression Pointer Mutation
	if (Parameter.CompressionPointerMutation && DNS_Header->Additional == 0)
	{
		DataLength = MakeCompressionPointerMutation(SendBuffer.get(), Length);
		if (DataLength < Length)
			DataLength = Length;
	}

//Direct Request requesting
	if (Parameter.DirectRequest > DIRECT_REQUEST_MODE_NONE && DirectRequestProcess(SendBuffer.get(), DataLength, RecvBuffer.get(), Protocol, true, LocalSocketData))
	{
	//Fin TCP request connection.
		if (Protocol == IPPROTO_TCP && LocalSocketData.Socket != INVALID_SOCKET)
		{
			shutdown(LocalSocketData.Socket, SD_BOTH);
			closesocket(LocalSocketData.Socket);
		}

		return true;
	}

//DNSCurve requesting
#if defined(ENABLE_LIBSODIUM)
	if (Parameter.DNSCurve)
	{
		if (DNSCurveParameter.IsEncryption && 
		//Send Length check
			(DataLength > DNSCurveParameter.DNSCurvePayloadSize + crypto_box_BOXZEROBYTES - (DNSCURVE_MAGIC_QUERY_LEN + crypto_box_PUBLICKEYBYTES + crypto_box_HALF_NONCEBYTES) || 
		//Receive Size check(TCP Mode)
		(Parameter.RequestMode_Transport == REQUEST_MODE_TCP || DNSCurveParameter.DNSCurveMode == DNSCURVE_REQUEST_MODE_TCP || Protocol == IPPROTO_TCP) && DNSCurveParameter.DNSCurvePayloadSize >= LARGE_PACKET_MAXSIZE && 
			crypto_box_ZEROBYTES + DNSCURVE_MAGIC_QUERY_LEN + crypto_box_PUBLICKEYBYTES + crypto_box_HALF_NONCEBYTES + DataLength >= LARGE_PACKET_MAXSIZE || 
		//Receive Size check(UDP Mode)
			Parameter.RequestMode_Transport != REQUEST_MODE_TCP && DNSCurveParameter.DNSCurveMode != DNSCURVE_REQUEST_MODE_TCP && Protocol != IPPROTO_TCP && DNSCurveParameter.DNSCurvePayloadSize >= PACKET_MAXSIZE && 
			crypto_box_ZEROBYTES + DNSCURVE_MAGIC_QUERY_LEN + crypto_box_PUBLICKEYBYTES + crypto_box_HALF_NONCEBYTES + DataLength >= PACKET_MAXSIZE))
				goto SkipDNSCurve;

	//DNSCurve requesting
		if (DNSCurveRequestProcess(SendBuffer.get(), DataLength, RecvBuffer.get(), Protocol, LocalSocketData))
			return true;

	//DNSCurve Encryption Only mode
		if (DNSCurveParameter.IsEncryptionOnly)
		{
		//Fin TCP request connection.
			if (Protocol == IPPROTO_TCP && LocalSocketData.Socket != INVALID_SOCKET)
			{
				shutdown(LocalSocketData.Socket, SD_BOTH);
				closesocket(LocalSocketData.Socket);
			}

			return true;
		}
	}
	SkipDNSCurve: 
#endif

//TCP requesting
	if ((Protocol == IPPROTO_TCP || Parameter.RequestMode_Transport == REQUEST_MODE_TCP) && 
		TCPRequestProcess(SendBuffer.get(), DataLength, RecvBuffer.get(), Protocol, LocalSocketData))
			return true;

//Direct requesting when Pcap Capture module is turn OFF.
#if defined(ENABLE_PCAP)
	if (!Parameter.PcapCapture)
	{
#endif
		DirectRequestProcess(SendBuffer.get(), DataLength, RecvBuffer.get(), Protocol, false, LocalSocketData);

	//Fin TCP request connection.
		if (Protocol == IPPROTO_TCP && LocalSocketData.Socket != INVALID_SOCKET)
		{
			shutdown(LocalSocketData.Socket, SD_BOTH);
			closesocket(LocalSocketData.Socket);
		}

		return true;
#if defined(ENABLE_PCAP)
	}

//UDP requesting
	RecvBuffer.reset();
	UDPRequestProcess(SendBuffer.get(), DataLength, LocalSocketData, Protocol);

	return true;
#endif
}
Esempio n. 2
0
//Independent request process
bool __fastcall EnterRequestProcess(
	DNS_PACKET_DATA Packet, 
	const SOCKET_DATA LocalSocketData)
{
//Initialization(Send buffer part)
	std::shared_ptr<char> SendBuffer;
	if (Packet.Protocol == IPPROTO_UDP)
	{
		if (Parameter.CompressionPointerMutation)
		{
			if (Parameter.CPM_PointerToAdditional)
			{
				std::shared_ptr<char> SendBufferTemp(new char[Packet.Length + 2U + sizeof(dns_record_aaaa) + sizeof(uint16_t)]());
				memset(SendBufferTemp.get(), 0, Packet.Length + 2U + sizeof(dns_record_aaaa) + sizeof(uint16_t));
				SendBufferTemp.swap(SendBuffer);
				Packet.BufferSize = Packet.Length + 2U + sizeof(dns_record_aaaa) + sizeof(uint16_t);
			}
			else if (Parameter.CPM_PointerToRR)
			{
				std::shared_ptr<char> SendBufferTemp(new char[Packet.Length + 2U + sizeof(uint16_t)]());
				memset(SendBufferTemp.get(), 0, Packet.Length + 2U + sizeof(uint16_t));
				SendBufferTemp.swap(SendBuffer);
				Packet.BufferSize = Packet.Length + 2U + sizeof(uint16_t);
			}
			else { //Pointer to header
				std::shared_ptr<char> SendBufferTemp(new char[Packet.Length + 1U + sizeof(uint16_t)]());
				memset(SendBufferTemp.get(), 0, Packet.Length + 1U + sizeof(uint16_t));
				SendBufferTemp.swap(SendBuffer);
				Packet.BufferSize = Packet.Length + 1U + sizeof(uint16_t);
			}
		}
		else {
			std::shared_ptr<char> SendBufferTemp(new char[Packet.Length + sizeof(uint16_t)]()); //Reserved 2 bytes for TCP header length.
			memset(SendBufferTemp.get(), 0, Packet.Length + sizeof(uint16_t));
			SendBufferTemp.swap(SendBuffer);
			Packet.BufferSize = Packet.Length + sizeof(uint16_t);
		}

		memcpy_s(SendBuffer.get(), Packet.BufferSize, Packet.Buffer, Packet.Length);
		Packet.Buffer = SendBuffer.get();
	}

//Initialization(Receive buffer part)
	std::shared_ptr<char> RecvBuffer;
	size_t RecvSize = 0;
	if (Parameter.RequestMode_Transport == REQUEST_MODE_TCP || Packet.Protocol == IPPROTO_TCP || //TCP request
		Parameter.LocalProtocol_Transport == REQUEST_MODE_TCP || //Local request
		Parameter.SOCKS_Proxy && Parameter.SOCKS_Protocol_Transport == REQUEST_MODE_TCP || //SOCKS TCP request
		Parameter.HTTP_Proxy //HTTP Proxy request
	#if defined(ENABLE_LIBSODIUM)
		|| Parameter.DNSCurve && DNSCurveParameter.DNSCurveProtocol_Transport == REQUEST_MODE_TCP //DNSCurve TCP request
	#endif
		) //TCP
	{
		std::shared_ptr<char> TCPRecvBuffer(new char[LARGE_PACKET_MAXSIZE + sizeof(uint16_t)]());
		memset(TCPRecvBuffer.get(), 0, LARGE_PACKET_MAXSIZE + sizeof(uint16_t));
		RecvBuffer.swap(TCPRecvBuffer);
		RecvSize = LARGE_PACKET_MAXSIZE;
	}
	else { //UDP
		std::shared_ptr<char> UDPRecvBuffer(new char[PACKET_MAXSIZE + sizeof(uint16_t)]());
		memset(UDPRecvBuffer.get(), 0, PACKET_MAXSIZE + sizeof(uint16_t));
		RecvBuffer.swap(UDPRecvBuffer);
		RecvSize = PACKET_MAXSIZE;
	}

//Local request process
	if (Packet.IsLocal && LocalRequestProcess(Packet, RecvBuffer.get(), RecvSize, LocalSocketData))
	{
	//Fin TCP request connection.
		if (Packet.Protocol == IPPROTO_TCP && SocketSetting(LocalSocketData.Socket, SOCKET_SETTING_INVALID_CHECK, false, nullptr))
		{
			shutdown(LocalSocketData.Socket, SD_BOTH);
			closesocket(LocalSocketData.Socket);
		}

		return true;
	}

//Compression Pointer Mutation
	if (Parameter.CompressionPointerMutation && ((pdns_hdr)Packet.Buffer)->Additional == 0)
	{
		auto DataLength = MakeCompressionPointerMutation(Packet.Buffer, Packet.Length);
		if (DataLength > Packet.Length)
			Packet.Length = DataLength;
	}

//SOCKS proxy request process
	if (Parameter.SOCKS_Proxy)
	{
	//SOCKS request
		if (SOCKSRequestProcess(Packet, RecvBuffer.get(), RecvSize, LocalSocketData))
			return true;

	//SOCKS Proxy Only mode
		if (Parameter.SOCKS_Only)
		{
		//Fin TCP request connection.
			if (Packet.Protocol == IPPROTO_TCP && SocketSetting(LocalSocketData.Socket, SOCKET_SETTING_INVALID_CHECK, false, nullptr))
			{
				shutdown(LocalSocketData.Socket, SD_BOTH);
				closesocket(LocalSocketData.Socket);
			}

			return true;
		}
	}

//HTTP proxy request process
	if (Parameter.HTTP_Proxy)
	{
	//HTTP request
		if (HTTPRequestProcess(Packet, RecvBuffer.get(), RecvSize, LocalSocketData))
			return true;

	//HTTP Proxy Only mode
		if (Parameter.HTTP_Only)
		{
		//Fin TCP request connection.
			if (Packet.Protocol == IPPROTO_TCP && SocketSetting(LocalSocketData.Socket, SOCKET_SETTING_INVALID_CHECK, false, nullptr))
			{
				shutdown(LocalSocketData.Socket, SD_BOTH);
				closesocket(LocalSocketData.Socket);
			}

			return true;
		}
	}

//Direct Request request process
	if (Parameter.DirectRequest > DIRECT_REQUEST_MODE_NONE && DirectRequestProcess(Packet, RecvBuffer.get(), RecvSize, true, LocalSocketData))
	{
	//Fin TCP request connection.
		if (Packet.Protocol == IPPROTO_TCP && SocketSetting(LocalSocketData.Socket, SOCKET_SETTING_INVALID_CHECK, false, nullptr))
		{
			shutdown(LocalSocketData.Socket, SD_BOTH);
			closesocket(LocalSocketData.Socket);
		}

		return true;
	}

//DNSCurve request process
#if defined(ENABLE_LIBSODIUM)
	if (Parameter.DNSCurve)
	{
	//DNSCurve check
		if (DNSCurveParameter.IsEncryption && Packet.Length + DNSCRYPT_BUFFER_RESERVE_LEN > DNSCurveParameter.DNSCurvePayloadSize)
			goto SkipDNSCurve;

	//DNSCurve request
		if (DNSCurveRequestProcess(Packet, RecvBuffer.get(), RecvSize, LocalSocketData))
			return true;

	//DNSCurve Encryption Only mode
		if (DNSCurveParameter.IsEncryptionOnly)
		{
		//Fin TCP request connection.
			if (Packet.Protocol == IPPROTO_TCP && SocketSetting(LocalSocketData.Socket, SOCKET_SETTING_INVALID_CHECK, false, nullptr))
			{
				shutdown(LocalSocketData.Socket, SD_BOTH);
				closesocket(LocalSocketData.Socket);
			}

			return true;
		}
	}
	
//Jump here to skip DNSCurve process.
SkipDNSCurve:
#endif

//TCP request process
	if ((Parameter.RequestMode_Transport == REQUEST_MODE_TCP || Packet.Protocol == IPPROTO_TCP) && 
		TCPRequestProcess(Packet, RecvBuffer.get(), RecvSize, LocalSocketData))
			return true;

//Direct request when Pcap Capture module is not available.
#if defined(ENABLE_PCAP)
	if (!Parameter.PcapCapture)
	{
#endif
		DirectRequestProcess(Packet, RecvBuffer.get(), RecvSize, false, LocalSocketData);

	//Fin TCP request connection.
		if (Packet.Protocol == IPPROTO_TCP && SocketSetting(LocalSocketData.Socket, SOCKET_SETTING_INVALID_CHECK, false, nullptr))
		{
			shutdown(LocalSocketData.Socket, SD_BOTH);
			closesocket(LocalSocketData.Socket);
		}

		return true;
#if defined(ENABLE_PCAP)
	}

//UDP request
	RecvBuffer.reset();
	UDPRequestProcess(Packet, LocalSocketData);

	return true;
#endif
}