Ejemplo n.º 1
0
//Check hosts from list
size_t __fastcall CheckHostsProcess(PSTR OriginalRequest, const size_t Length, PSTR Result, const size_t ResultSize)
{
//Initilization
	std::string Domain;
	auto DNS_Header = (pdns_hdr)OriginalRequest;
	memset(Result, 0, ResultSize);

//Request check
	if (DNS_Header->Questions == htons(U16_NUM_ONE) && CheckQueryNameLength(OriginalRequest + sizeof(dns_hdr)) + 1U < DOMAIN_MAXSIZE)
	{
		if (DNSQueryToChar(OriginalRequest + sizeof(dns_hdr), Result) > DOMAIN_MINSIZE)
		{
		//Domain Case Conversion
			CaseConvert(false, Result, strnlen_s(Result, ResultSize));

		//Copy domain string.
			Domain = Result;
			memset(Result, 0, ResultSize);
		}
		else {
			return EXIT_FAILURE;
		}
	}
	else {
		return EXIT_FAILURE;
	}

//Response
	memcpy_s(Result, ResultSize, OriginalRequest, Length);
	DNS_Header = (pdns_hdr)Result;
	auto DNS_Query = (pdns_qry)(Result + DNS_PACKET_QUERY_LOCATE(Result));

//Check Classes.
	if (DNS_Query->Classes != htons(DNS_CLASS_IN))
		return EXIT_FAILURE;

//Check Accept Types list.
	if (Parameter.AcceptType) //Permit
	{
		for (auto AcceptTypeTableIter = Parameter.AcceptTypeList->begin();AcceptTypeTableIter != Parameter.AcceptTypeList->end();++AcceptTypeTableIter)
		{
			if (AcceptTypeTableIter + 1U == Parameter.AcceptTypeList->end())
			{
				if (*AcceptTypeTableIter != DNS_Query->Type)
				{
					DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R_SNH);
					return Length;
				}
			}
			else if (*AcceptTypeTableIter == DNS_Query->Type)
			{
				break;
			}
		}
	}
	else { //Deny
		for (auto AcceptTypeTableIter:*Parameter.AcceptTypeList)
		{
			if (DNS_Query->Type == AcceptTypeTableIter)
			{
				DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R_SNH);
				return Length;
			}
		}
	}

	size_t DataLength = 0;
//PTR Records
#if !defined(PLATFORM_MACX)
	if (DNS_Query->Type == htons(DNS_RECORD_PTR) && Parameter.LocalServer_Length + Length <= ResultSize)
	{
		auto IsSendPTR = false;

	//IPv6 check
		if (Domain == ("1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa") || //Loopback address(::1, Section 2.5.3 in RFC 4291)
	//IPv4 check
			Domain.find(".127.in-addr.arpa") != std::string::npos || //Loopback address(127.0.0.0/8, Section 3.2.1.3 in RFC 1122)
			Domain.find(".254.169.in-addr.arpa") != std::string::npos) //Link-local address(169.254.0.0/16, RFC 3927)
		{
			IsSendPTR = true;
		}
		else {
		//IPv6 check
			std::unique_lock<std::mutex> LocalAddressMutexIPv6(LocalAddressLock[0]);
			for (auto StringIter:*Parameter.LocalAddress_ResponsePTR[0])
			{
				if (Domain == StringIter)
				{
					IsSendPTR = true;
					break;
				}
			}
			LocalAddressMutexIPv6.unlock();

		//IPv4 check
			if (!IsSendPTR)
			{
				std::unique_lock<std::mutex> LocalAddressMutexIPv4(LocalAddressLock[1U]);
				for (auto StringIter:*Parameter.LocalAddress_ResponsePTR[1U])
				{
					if (Domain == StringIter)
					{
						IsSendPTR = true;
						break;
					}
				}
			}
		}

	//Send Localhost PTR.
		if (IsSendPTR)
		{
		//Set header flags and copy response to buffer.
			DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SER_RA);
			DNS_Header->Answer = htons(U16_NUM_ONE);
			memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), 0, ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)));
			memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)), Parameter.LocalServer_Response, Parameter.LocalServer_Length);
			DataLength = DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + Parameter.LocalServer_Length;

		//EDNS Label
			if (Parameter.EDNS_Label || DNS_Header->Additional > 0)
			{
				DNS_Header->Additional = 0;
				DataLength = AddEDNSLabelToAdditionalRR(Result, DataLength, ResultSize, false);
			}
			
			return DataLength;
		}
	}
#endif

//LocalFQDN check
	if (Domain == *Parameter.LocalFQDN_String)
	{
	//IPv6
		if (DNS_Query->Type == htons(DNS_RECORD_AAAA))
		{
			std::unique_lock<std::mutex> LocalAddressMutexIPv6(LocalAddressLock[0]);
			if (Parameter.LocalAddress_Length[0] >= DNS_PACKET_MINSIZE)
			{
				memset(Result + sizeof(uint16_t), 0, ResultSize - sizeof(uint16_t));
				memcpy_s(Result + sizeof(uint16_t), ResultSize - sizeof(uint16_t), Parameter.LocalAddress_Response[0] + sizeof(uint16_t), Parameter.LocalAddress_Length[0] - sizeof(uint16_t));
				return Parameter.LocalAddress_Length[0];
			}
		}
	//IPv4
		else if (DNS_Query->Type == htons(DNS_RECORD_A))
		{
			std::unique_lock<std::mutex> LocalAddressMutexIPv4(LocalAddressLock[1U]);
			if (Parameter.LocalAddress_Length[1U] >= DNS_PACKET_MINSIZE)
			{
				memset(Result + sizeof(uint16_t), 0, ResultSize - sizeof(uint16_t));
				memcpy_s(Result + sizeof(uint16_t), ResultSize - sizeof(uint16_t), Parameter.LocalAddress_Response[1U] + sizeof(uint16_t), Parameter.LocalAddress_Length[1U] - sizeof(uint16_t));
				return Parameter.LocalAddress_Length[1U];
			}
		}
	}

//Main check
	auto IsLocal = false;
	std::unique_lock<std::mutex> HostsFileMutex(HostsFileLock);
	for (auto HostsFileSetIter:*HostsFileSetUsing)
	{
		for (auto HostsTableIter:HostsFileSetIter.HostsList)
		{
			if (std::regex_match(Domain, HostsTableIter.Pattern))
			{
			//Check white list.
				if (HostsTableIter.Type_Hosts == HOSTS_TYPE_WHITE)
				{
					break;
				}
			//Check local request.
				else if (HostsTableIter.Type_Hosts == HOSTS_TYPE_LOCAL)
				{
					IsLocal = true;
					break;
				}
			//Check banned list.
				else if (HostsTableIter.Type_Hosts == HOSTS_TYPE_BANNED)
				{
					if (HostsTableIter.Type_Record.empty()) //Block all types
					{
						DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R_SNH);
						return Length;
					}
					else {
					//Permit or Deny
						if (HostsTableIter.Type_Operation)
						{
						//Only allow some types.
							for (auto RecordTypeIter = HostsTableIter.Type_Record.begin();RecordTypeIter != HostsTableIter.Type_Record.end();++RecordTypeIter)
							{
								if (DNS_Query->Type == *RecordTypeIter)
								{
									break;
								}
								else if (RecordTypeIter + 1U == HostsTableIter.Type_Record.end())
								{
									DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
									return Length;
								}
							}
						}
						else {
						//Block some types.
							for (auto RecordTypeIter:HostsTableIter.Type_Record)
							{
								if (DNS_Query->Type == RecordTypeIter)
								{
									DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
									return Length;
								}
							}
						}
					}
				}
			//Check Hosts.
				else if (!HostsTableIter.Type_Record.empty())
				{
				//IPv6
					if (DNS_Query->Type == htons(DNS_RECORD_AAAA) && HostsTableIter.Type_Record.front() == htons(DNS_RECORD_AAAA))
					{
/* Old version(2015-07-19)
					//EDNS Label
						if (DNS_Header->Additional == htons(U16_NUM_ONE))
						{
							memset(Result + Length - sizeof(dns_record_opt), 0, sizeof(dns_record_opt));
							DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
							DNS_Header->Answer = htons((uint16_t)(HostsTableIter.Length / sizeof(dns_record_aaaa)));
							memcpy_s(Result + Length - sizeof(dns_record_opt), Length, HostsTableIter.Response.get(), HostsTableIter.Length);

						//Hosts load balancing
							if (ntohs(DNS_Header->Answer) > U16_NUM_ONE)
							{
								std::shared_ptr<dns_record_aaaa> DNS_AAAA_Temp(new dns_record_aaaa());
								memset(DNS_AAAA_Temp.get(), 0, sizeof(dns_record_aaaa));

							//Select a ramdom preferred result.
								std::uniform_int_distribution<int> RamdomDistribution(0, ntohs(DNS_Header->Answer) - 1U);
								size_t RamdomIndex = RamdomDistribution(*Parameter.RamdomEngine);
								if (RamdomIndex > 0)
								{
									memcpy_s(DNS_AAAA_Temp.get(), sizeof(dns_record_aaaa), Result + Length - sizeof(dns_record_opt), sizeof(dns_record_aaaa));
									memset(Result + Length - sizeof(dns_record_opt), 0, sizeof(dns_record_aaaa));
									memcpy_s(Result + Length - sizeof(dns_record_opt), ResultSize, Result + Length - sizeof(dns_record_opt) + sizeof(dns_record_aaaa) * RamdomIndex, sizeof(dns_record_aaaa));
									memset(Result + Length - sizeof(dns_record_opt) + sizeof(dns_record_aaaa) * RamdomIndex, 0, sizeof(dns_record_aaaa));
									memcpy_s(Result + Length - sizeof(dns_record_opt) + sizeof(dns_record_aaaa) * RamdomIndex, ResultSize, DNS_AAAA_Temp.get(), sizeof(dns_record_aaaa));
								}
							}

						//Different result
							if (!Parameter.EDNS_Label)
							{
								auto DNS_Record_OPT = (pdns_record_opt)(Result + Length - sizeof(dns_record_opt) + HostsTableIter.Length);
								DNS_Record_OPT->Type = htons(DNS_RECORD_OPT);
								DNS_Record_OPT->UDPPayloadSize = htons((uint16_t)Parameter.EDNSPayloadSize);

							//DNSSEC
								if (Parameter.DNSSEC_Request)
									DNS_Record_OPT->Z_Field = htons(ntohs(DNS_Record_OPT->Z_Field) | EDNS_GET_BIT_DO); //Set Accepts DNSSEC security Resource Records bit.

								return Length + HostsTableIter.Length;

								DNS_Header->Additional = 0;
								return AddEDNSLabelToAdditionalRR(Result, Length - sizeof(dns_record_opt) + HostsTableIter.Length, ResultSize, false);
							}
							else {
								return Length - sizeof(dns_record_opt) + HostsTableIter.Length;
							}
						}
						else {
							DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
							DNS_Header->Answer = htons((uint16_t)(HostsTableIter.Length / sizeof(dns_record_aaaa)));
							memcpy_s(Result + Length, ResultSize, HostsTableIter.Response.get(), HostsTableIter.Length);
						
						//Hosts load balancing
							if (ntohs(DNS_Header->Answer) > U16_NUM_ONE)
							{
								std::shared_ptr<dns_record_aaaa> DNS_AAAA_Temp(new dns_record_aaaa());
								memset(DNS_AAAA_Temp.get(), 0, sizeof(dns_record_aaaa));

							//Select a ramdom preferred result.
								std::uniform_int_distribution<int> RamdomDistribution(0, ntohs(DNS_Header->Answer) - 1U);
								size_t RamdomIndex = RamdomDistribution(*Parameter.RamdomEngine);
								if (RamdomIndex > 0)
								{
									memcpy_s(DNS_AAAA_Temp.get(), sizeof(dns_record_aaaa), Result + Length, sizeof(dns_record_aaaa));
									memset(Result + Length, 0, sizeof(dns_record_aaaa));
									memcpy_s(Result + Length, ResultSize, Result + Length + sizeof(dns_record_aaaa) * RamdomIndex, sizeof(dns_record_aaaa));
									memset(Result + Length + sizeof(dns_record_aaaa) * RamdomIndex, 0, sizeof(dns_record_aaaa));
									memcpy_s(Result + Length + sizeof(dns_record_aaaa) * RamdomIndex, ResultSize, DNS_AAAA_Temp.get(), sizeof(dns_record_aaaa));
								}
							}

							return Length + HostsTableIter.Length;
						}
*/

					//Set header flags.
						DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
						DNS_Header->Answer = htons((uint16_t)(HostsTableIter.Length / sizeof(dns_record_aaaa)));
						
					//Hosts item length check
						DataLength = DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + HostsTableIter.Length;
						if (Parameter.EDNS_Label || DNS_Header->Additional > 0)
						{
							while (DataLength > PACKET_MAXSIZE - EDNS_ADDITIONAL_MAXSIZE)
							{
								DataLength -= sizeof(dns_record_aaaa);
								DNS_Header->Answer = htons(ntohs(DNS_Header->Answer) - 1U);
							}
						}
						else {
							while (DataLength > PACKET_MAXSIZE)
							{
								DataLength -= sizeof(dns_record_aaaa);
								DNS_Header->Answer = htons(ntohs(DNS_Header->Answer) - 1U);
							}
						}

					//Copy response to buffer.
						memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), 0, ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)));
						memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)), HostsTableIter.Response.get(), DataLength - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)));

					//Hosts load balancing
						if (ntohs(DNS_Header->Answer) > U16_NUM_ONE)
						{
							std::shared_ptr<dns_record_aaaa> DNS_AAAA_Temp(new dns_record_aaaa());
							memset(DNS_AAAA_Temp.get(), 0, sizeof(dns_record_aaaa));

						//Select a ramdom preferred result.
							std::uniform_int_distribution<int> RamdomDistribution(0, ntohs(DNS_Header->Answer) - 1U);
							size_t RamdomIndex = RamdomDistribution(*Parameter.RamdomEngine);
							if (RamdomIndex > 0)
							{
								memcpy_s(DNS_AAAA_Temp.get(), sizeof(dns_record_aaaa), Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), sizeof(dns_record_aaaa));
								memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), 0, sizeof(dns_record_aaaa));
								memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)), Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + sizeof(dns_record_aaaa) * RamdomIndex, sizeof(dns_record_aaaa));
								memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + sizeof(dns_record_aaaa) * RamdomIndex, 0, sizeof(dns_record_aaaa));
								memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + sizeof(dns_record_aaaa) * RamdomIndex, sizeof(dns_record_aaaa), DNS_AAAA_Temp.get(), sizeof(dns_record_aaaa));
							}
						}

					//EDNS Label
						if (Parameter.EDNS_Label || DNS_Header->Additional > 0)
						{
							DNS_Header->Additional = 0;
							DataLength = AddEDNSLabelToAdditionalRR(Result, DataLength, ResultSize, false);
						}

						return DataLength;
					}
					else if (DNS_Query->Type == htons(DNS_RECORD_A) && HostsTableIter.Type_Record.front() == htons(DNS_RECORD_A))
					{
/* Old version(2015-07-19)
					//EDNS Label
						if (DNS_Header->Additional == htons(U16_NUM_ONE))
						{
							memset(Result + Length - sizeof(dns_record_opt), 0, sizeof(dns_record_opt));
							DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
							DNS_Header->Answer = htons((uint16_t)(HostsTableIter.Length / sizeof(dns_record_a)));
							memcpy_s(Result + Length - sizeof(dns_record_opt), ResultSize, HostsTableIter.Response.get(), HostsTableIter.Length);

						//Hosts load balancing
							if (ntohs(DNS_Header->Answer) > U16_NUM_ONE)
							{
								std::shared_ptr<dns_record_a> DNS_A_Temp(new dns_record_a());
								memset(DNS_A_Temp.get(), 0, sizeof(dns_record_a));

							//Select a ramdom preferred result.
								std::uniform_int_distribution<int> RamdomDistribution(0, ntohs(DNS_Header->Answer) - 1U);
								size_t RamdomIndex = RamdomDistribution(*Parameter.RamdomEngine);
								if (RamdomIndex > 0)
								{
									memcpy_s(DNS_A_Temp.get(), sizeof(dns_record_a), Result + Length - sizeof(dns_record_opt), sizeof(dns_record_a));
									memset(Result + Length - sizeof(dns_record_opt), 0, sizeof(dns_record_a));
									memcpy_s(Result + Length - sizeof(dns_record_opt), ResultSize, Result + Length - sizeof(dns_record_opt) + sizeof(dns_record_a) * RamdomIndex, sizeof(dns_record_a));
									memset(Result + Length - sizeof(dns_record_opt) + sizeof(dns_record_a) * RamdomIndex, 0, sizeof(dns_record_a));
									memcpy_s(Result + Length - sizeof(dns_record_opt) + sizeof(dns_record_a) * RamdomIndex, ResultSize, DNS_A_Temp.get(), sizeof(dns_record_a));
								}
							}

						//Different result
							if (!Parameter.EDNS_Label)
							{

								auto DNS_Record_OPT = (pdns_record_opt)(Result + Length - sizeof(dns_record_opt) + HostsTableIter.Length);
								DNS_Record_OPT->Type = htons(DNS_RECORD_OPT);
								DNS_Record_OPT->UDPPayloadSize = htons((uint16_t)Parameter.EDNSPayloadSize);

							//DNSSEC
								if (Parameter.DNSSEC_Request)
									DNS_Record_OPT->Z_Field = htons(ntohs(DNS_Record_OPT->Z_Field) | EDNS_GET_BIT_DO); //Set Accepts DNSSEC security Resource Records bit.

								return Length + HostsTableIter.Length;

								DNS_Header->Additional = 0;
								return AddEDNSLabelToAdditionalRR(Result, Length - sizeof(dns_record_opt) + HostsTableIter.Length, ResultSize, false);
							}
							else {
								return Length - sizeof(dns_record_opt) + HostsTableIter.Length;
							}

						}
						else {
							DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
							DNS_Header->Answer = htons((uint16_t)(HostsTableIter.Length / sizeof(dns_record_a)));
							memcpy_s(Result + Length, ResultSize, HostsTableIter.Response.get(), HostsTableIter.Length);

						//Hosts load balancing
							if (ntohs(DNS_Header->Answer) > U16_NUM_ONE)
							{
								std::shared_ptr<dns_record_a> DNS_A_Temp(new dns_record_a());
								memset(DNS_A_Temp.get(), 0, sizeof(dns_record_a));

							//Select a ramdom preferred result.
								std::uniform_int_distribution<int> RamdomDistribution(0, ntohs(DNS_Header->Answer) - 1U);
								size_t RamdomIndex = RamdomDistribution(*Parameter.RamdomEngine);
								if (RamdomIndex > 0)
								{
									memcpy_s(DNS_A_Temp.get(), sizeof(dns_record_a), Result + Length, sizeof(dns_record_a));
									memset(Result + Length, 0, sizeof(dns_record_a));
									memcpy_s(Result + Length, ResultSize, Result + Length + sizeof(dns_record_a) * RamdomIndex, sizeof(dns_record_a));
									memset(Result + Length + sizeof(dns_record_a) * RamdomIndex, 0, sizeof(dns_record_a));
									memcpy_s(Result + Length + sizeof(dns_record_a) * RamdomIndex, ResultSize, DNS_A_Temp.get(), sizeof(dns_record_a));
								}
							}

							return Length + HostsTableIter.Length;
						}
*/
					//Set header flags.
						DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
						DNS_Header->Answer = htons((uint16_t)(HostsTableIter.Length / sizeof(dns_record_a)));
						
					//Hosts item length check
						DataLength = DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + HostsTableIter.Length;
						if (Parameter.EDNS_Label || DNS_Header->Additional > 0)
						{
							while (DataLength > PACKET_MAXSIZE - EDNS_ADDITIONAL_MAXSIZE)
							{
								DataLength -= sizeof(dns_record_a);
								DNS_Header->Answer = htons(ntohs(DNS_Header->Answer) - 1U);
							}
						}
						else {
							while (DataLength > PACKET_MAXSIZE)
							{
								DataLength -= sizeof(dns_record_a);
								DNS_Header->Answer = htons(ntohs(DNS_Header->Answer) - 1U);
							}
						}

					//Copy response to buffer.
						memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), 0, ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)));
						memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)), HostsTableIter.Response.get(), DataLength - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)));

					//Hosts load balancing
						if (ntohs(DNS_Header->Answer) > U16_NUM_ONE)
						{
							std::shared_ptr<dns_record_a> DNS_A_Temp(new dns_record_a());
							memset(DNS_A_Temp.get(), 0, sizeof(dns_record_a));

						//Select a ramdom preferred result.
							std::uniform_int_distribution<int> RamdomDistribution(0, ntohs(DNS_Header->Answer) - 1U);
							size_t RamdomIndex = RamdomDistribution(*Parameter.RamdomEngine);
							if (RamdomIndex > 0)
							{
								memcpy_s(DNS_A_Temp.get(), sizeof(dns_record_a), Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), sizeof(dns_record_a));
								memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), 0, sizeof(dns_record_a));
								memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry), ResultSize - (DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry)), Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + sizeof(dns_record_a) * RamdomIndex, sizeof(dns_record_a));
								memset(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + sizeof(dns_record_a) * RamdomIndex, 0, sizeof(dns_record_a));
								memcpy_s(Result + DNS_PACKET_QUERY_LOCATE(Result) + sizeof(dns_qry) + sizeof(dns_record_a) * RamdomIndex, sizeof(dns_record_a), DNS_A_Temp.get(), sizeof(dns_record_a));
							}
						}

					//EDNS Label
						if (Parameter.EDNS_Label || DNS_Header->Additional > 0)
						{
							DNS_Header->Additional = 0;
							DataLength = AddEDNSLabelToAdditionalRR(Result, DataLength, ResultSize, false);
						}

						return DataLength;
					}
				}
			}
		}
	}

	HostsFileMutex.unlock();

//Check DNS cache.
	std::unique_lock<std::mutex> DNSCacheListMutex(DNSCacheListLock);
	for (auto DNSCacheDataIter:DNSCacheList)
	{
		if (Domain == DNSCacheDataIter.Domain && DNS_Query->Type == DNSCacheDataIter.RecordType)
		{
			memset(Result + sizeof(uint16_t), 0, ResultSize - sizeof(uint16_t));
			memcpy_s(Result + sizeof(uint16_t), ResultSize - sizeof(uint16_t), DNSCacheDataIter.Response.get(), DNSCacheDataIter.Length);

			return DNSCacheDataIter.Length + sizeof(uint16_t);
		}
	}

	DNSCacheListMutex.unlock();

//Domain Case Conversion
	if (Parameter.DomainCaseConversion)
		MakeDomainCaseConversion(OriginalRequest + sizeof(dns_hdr));

	if (IsLocal)
		return EXIT_CHECK_HOSTS_TYPE_LOCAL;

	return EXIT_SUCCESS;
}
Ejemplo n.º 2
0
//Mark responses to domains Cache
bool __fastcall MarkDomainCache(const char *Buffer, const size_t Length)
{
//Check conditions.
	auto DNS_Header = (pdns_hdr)Buffer;
	if (
	//Not a response packet
		(ntohs(DNS_Header->Flags) & DNS_GET_BIT_RESPONSE) == 0 || 
	//Question Resource Records must be one.
		DNS_Header->Questions != htons(U16_NUM_ONE) || 
	//Not any Answer Resource Records
		DNS_Header->Answer == 0 /* && DNS_Header->Authority == 0 && DNS_Header->Additional == 0 */ || 
	//OPCode must be set Query/0.
		(ntohs(DNS_Header->Flags) & DNS_GET_BIT_OPCODE) != DNS_OPCODE_QUERY || 
	//Truncated bit must not be set.
		(ntohs(DNS_Header->Flags) & DNS_GET_BIT_TC) != 0 || 
	//RCode must be set No Error or Non-Existent Domain.
		(ntohs(DNS_Header->Flags) & DNS_GET_BIT_RCODE) != DNS_RCODE_NOERROR && (ntohs(DNS_Header->Flags) & DNS_GET_BIT_RCODE) != DNS_RCODE_NXDOMAIN)
			return false;

//Initialization(A part)
	DNSCACHE_DATA DNSCacheDataTemp;
	DNSCacheDataTemp.Length = 0;
	DNSCacheDataTemp.ClearCacheTime = 0;
	auto DNS_Query = (pdns_qry)(Buffer + DNS_PACKET_QUERY_LOCATE(Buffer));
	DNSCacheDataTemp.RecordType = DNS_Query->Type;
	uint32_t ResponseTTL = 0;

//Mark DNS A records and AAAA records only.
	if (DNSCacheDataTemp.RecordType == htons(DNS_RECORD_AAAA) || DNSCacheDataTemp.RecordType == htons(DNS_RECORD_A))
	{
		size_t DataLength = DNS_PACKET_RR_LOCATE(Buffer), TTLCounts = 0;
		pdns_record_standard DNS_Record_Standard = nullptr;
		uint16_t DNS_Pointer = 0;

	//Scan all Answers Resource Records.
		for (size_t Index = 0;Index < (size_t)ntohs(DNS_Header->Answer);++Index)
		{
		//Pointer check
			if (DataLength + sizeof(uint16_t) < Length && (UCHAR)Buffer[DataLength] >= DNS_POINTER_BITS)
			{
				DNS_Pointer = ntohs(*(uint16_t *)(Buffer + DataLength)) & DNS_POINTER_BITS_GET_LOCATE;
				if (DNS_Pointer >= Length || DNS_Pointer < sizeof(dns_hdr) || DNS_Pointer == DataLength || DNS_Pointer == DataLength + 1U)
					return false;
			}

		//Resource Records Name(Domain Name)
			DataLength += CheckQueryNameLength(Buffer + DataLength) + 1U;
			if (DataLength + sizeof(dns_record_standard) > Length)
				break;

		//Standard Resource Records
			DNS_Record_Standard = (pdns_record_standard)(Buffer + DataLength);
			DataLength += sizeof(dns_record_standard);
			if (DataLength > Length || DNS_Record_Standard != nullptr && DataLength + ntohs(DNS_Record_Standard->Length) > Length)
				break;

		//Resource Records Data
			if (DNS_Record_Standard->Classes == htons(DNS_CLASS_IN) && DNS_Record_Standard->TTL > 0 && 
				(DNS_Record_Standard->Type == htons(DNS_RECORD_AAAA) && DNS_Record_Standard->Length == htons(sizeof(in6_addr)) || 
				DNS_Record_Standard->Type == htons(DNS_RECORD_A) && DNS_Record_Standard->Length == htons(sizeof(in_addr))))
			{
				ResponseTTL += ntohl(DNS_Record_Standard->TTL);
				++TTLCounts;
			}

			DataLength += ntohs(DNS_Record_Standard->Length);
		}

	//Calculate average TTL.
		if (TTLCounts > 0)
			ResponseTTL = ResponseTTL / (uint32_t)TTLCounts + ResponseTTL % (uint32_t)TTLCounts;
	}

//Set cache TTL.
	if (ResponseTTL == 0) //Only mark A and AAAA records.
	{
		return false;
	}
	else {
		if (Parameter.CacheType == CACHE_TYPE_TIMER)
		{
			if (ResponseTTL * SECOND_TO_MILLISECOND < Parameter.CacheParameter)
				ResponseTTL = (uint32_t)(Parameter.CacheParameter / SECOND_TO_MILLISECOND - ResponseTTL + STANDARD_TIMEOUT / SECOND_TO_MILLISECOND);
		}
		else { //CACHE_TYPE_QUEUE
			if (ResponseTTL < Parameter.HostsDefaultTTL)
				ResponseTTL = Parameter.HostsDefaultTTL - ResponseTTL + STANDARD_TIMEOUT / SECOND_TO_MILLISECOND;
		}
	}

//Initialization(B part)
	if (Length <= DOMAIN_MAXSIZE)
	{
		std::shared_ptr<char> DNSCacheDataBufferTemp(new char[DOMAIN_MAXSIZE]());
		memset(DNSCacheDataBufferTemp.get(), 0, DOMAIN_MAXSIZE);
		DNSCacheDataTemp.Response.swap(DNSCacheDataBufferTemp);
	}
	else {
		std::shared_ptr<char> DNSCacheDataBufferTemp(new char[Length]());
		memset(DNSCacheDataBufferTemp.get(), 0, Length);
		DNSCacheDataTemp.Response.swap(DNSCacheDataBufferTemp);
	}

//Mark to global list.
	if (DNSQueryToChar(Buffer + sizeof(dns_hdr), DNSCacheDataTemp.Response.get()) > DOMAIN_MINSIZE)
	{
	//Domain Case Conversion
		CaseConvert(false, DNSCacheDataTemp.Response.get(), strnlen_s(DNSCacheDataTemp.Response.get(), DOMAIN_MAXSIZE));
		DNSCacheDataTemp.Domain = DNSCacheDataTemp.Response.get();
		memset(DNSCacheDataTemp.Response.get(), 0, DOMAIN_MAXSIZE);
		memcpy_s(DNSCacheDataTemp.Response.get(), PACKET_MAXSIZE, Buffer + sizeof(uint16_t), Length - sizeof(uint16_t));
		DNSCacheDataTemp.Length = Length - sizeof(uint16_t);

	//Minimum supported system of GetTickCount64() is Windows Vista(Windows XP with SP3 support).
	#if (defined(PLATFORM_WIN32) && !defined(PLATFORM_WIN64))
		if (Parameter.FunctionPTR_GetTickCount64 != nullptr)
			DNSCacheDataTemp.ClearCacheTime = (size_t)((*Parameter.FunctionPTR_GetTickCount64)() + ResponseTTL * SECOND_TO_MILLISECOND);
		else 
			DNSCacheDataTemp.ClearCacheTime = GetTickCount() + ResponseTTL * SECOND_TO_MILLISECOND;
	#else
		DNSCacheDataTemp.ClearCacheTime = GetTickCount64() + ResponseTTL * SECOND_TO_MILLISECOND;
	#endif

		std::unique_lock<std::mutex> DNSCacheListMutex(DNSCacheListLock);
	//Check repeating items, delete duque rear and add new item to deque front.
		for (auto DNSCacheDataIter = DNSCacheList.begin();DNSCacheDataIter != DNSCacheList.end();++DNSCacheDataIter)
		{
			if (DNSCacheDataTemp.Domain == DNSCacheDataIter->Domain && DNSCacheDataTemp.RecordType == DNSCacheDataIter->RecordType)
			{
				DNSCacheList.erase(DNSCacheDataIter);
				break;
			}
		}

		if (Parameter.CacheType == CACHE_TYPE_QUEUE)
		{
			while (DNSCacheList.size() > Parameter.CacheParameter)
				DNSCacheList.pop_front();
		}
		else { //CACHE_TYPE_TIMER
		//Minimum supported system of GetTickCount64() is Windows Vista(Windows XP with SP3 support).
		#if (defined(PLATFORM_WIN32) && !defined(PLATFORM_WIN64))
			while (!DNSCacheList.empty() && (Parameter.FunctionPTR_GetTickCount64 != nullptr && (*Parameter.FunctionPTR_GetTickCount64)() >= DNSCacheList.front().ClearCacheTime || 
				GetTickCount() >= DNSCacheList.front().ClearCacheTime))
		#else
			while (!DNSCacheList.empty() && GetTickCount64() >= DNSCacheList.front().ClearCacheTime)
		#endif
				DNSCacheList.pop_front();
		}

		DNSCacheList.push_back(DNSCacheDataTemp);
		DNSCacheList.shrink_to_fit();
		return true;
	}

	return false;
}
Ejemplo n.º 3
0
//Check hosts from global list
size_t __fastcall CheckHostsProcess(
	DNS_PACKET_DATA *Packet, 
	char *Result, 
	const size_t ResultSize)
{
//Initilization
	std::string Domain;
	size_t DataLength = 0;
	auto DNS_Header = (pdns_hdr)Packet->Buffer;

//Request check
	if (DNS_Header->Question == htons(U16_NUM_ONE) && CheckQueryNameLength(Packet->Buffer + sizeof(dns_hdr)) + 1U < DOMAIN_MAXSIZE)
	{
		if (DNSQueryToChar(Packet->Buffer + sizeof(dns_hdr), Domain) <= DOMAIN_MINSIZE)
			return EXIT_SUCCESS;
		else 
			CaseConvert(false, Domain);
	}
	else {
		return EXIT_FAILURE;
	}

//Response setting
	memset(Result, 0, ResultSize);
	memcpy_s(Result, ResultSize, Packet->Buffer, Packet->Length);
	DNS_Header = (pdns_hdr)Result;
	auto DNS_Query = (pdns_qry)(Result + DNS_PACKET_QUERY_LOCATE(Result));

//Check Classes.
	if (DNS_Query->Classes != htons(DNS_CLASS_IN))
		return EXIT_FAILURE;

//Check Accept Types list.
	if (Parameter.AcceptTypeList != nullptr)
	{
	//Permit
		if (Parameter.AcceptType)
		{
			for (auto AcceptTypeTableIter = Parameter.AcceptTypeList->begin();AcceptTypeTableIter != Parameter.AcceptTypeList->end();++AcceptTypeTableIter)
			{
				if (AcceptTypeTableIter + 1U == Parameter.AcceptTypeList->end())
				{
					if (*AcceptTypeTableIter != DNS_Query->Type)
					{
//						DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R_SNH);
						DNS_Header->Flags = htons(DNS_SET_R_SNH);
						return Packet->Length;
					}
				}
				else if (*AcceptTypeTableIter == DNS_Query->Type)
				{
					break;
				}
			}
		}
	//Deny
		else {
			for (auto AcceptTypeTableIter:*Parameter.AcceptTypeList)
			{
				if (DNS_Query->Type == AcceptTypeTableIter)
				{
//					DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R_SNH);
					DNS_Header->Flags = htons(DNS_SET_R_SNH);
					return Packet->Length;
				}
			}
		}
	}

//PTR Records
//LLMNR protocol of Mac OS X powered by mDNS with PTR records
#if (defined(PLATFORM_WIN) || defined(PLATFORM_LINUX))
	if (DNS_Query->Type == htons(DNS_RECORD_PTR) && Parameter.LocalServer_Length + Packet->Length <= ResultSize)
	{
		auto IsSendPTR = false;

	//IPv6 check
		if (Domain == ("1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa") || //Loopback address(::1, Section 2.5.3 in RFC 4291)
	//IPv4 check
			Domain.find(".127.in-addr.arpa") != std::string::npos || //Loopback address(127.0.0.0/8, Section 3.2.1.3 in RFC 1122)
			Domain.find(".254.169.in-addr.arpa") != std::string::npos) //Link-local address(169.254.0.0/16, RFC 3927)
		{
			IsSendPTR = true;
		}
		else {
		//IPv6 check
			std::unique_lock<std::mutex> LocalAddressMutexIPv6(LocalAddressLock[0]);
			for (auto StringIter:*GlobalRunningStatus.LocalAddress_ResponsePTR[0])
			{
				if (Domain == StringIter)
				{
					IsSendPTR = true;
					break;
				}
			}
			LocalAddressMutexIPv6.unlock();

		//IPv4 check
			if (!IsSendPTR)
			{
				std::lock_guard<std::mutex> LocalAddressMutexIPv4(LocalAddressLock[1U]);
				for (auto StringIter:*GlobalRunningStatus.LocalAddress_ResponsePTR[1U])
				{
					if (Domain == StringIter)
					{
						IsSendPTR = true;
						break;
					}
				}
			}
		}

	//Send Localhost PTR.
		if (IsSendPTR)
		{
		//Set header flags and copy response to buffer.
			DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SER_RA);
			DNS_Header->Answer = htons(U16_NUM_ONE);
			DNS_Header->Authority = 0;
			DNS_Header->Additional = 0;
			memset(Result + sizeof(dns_hdr) + Packet->Question, 0, Packet->Length - (sizeof(dns_hdr) + Packet->Question));
			memcpy_s(Result + sizeof(dns_hdr) + Packet->Question, ResultSize - (sizeof(dns_hdr) + Packet->Question), Parameter.LocalServer_Response, Parameter.LocalServer_Length);
			DataLength = sizeof(dns_hdr) + Packet->Question + Parameter.LocalServer_Length;

		//EDNS Label
			if (Parameter.EDNS_Label || Packet->EDNS_Record > 0)
				DataLength = AddEDNSLabelToAdditionalRR(Result, DataLength, ResultSize, nullptr);
			
			return DataLength;
		}
	}
#endif

//LocalFQDN check
	if (Parameter.LocalFQDN_String != nullptr && Domain == *Parameter.LocalFQDN_String)
	{
	//IPv6
		if (DNS_Query->Type == htons(DNS_RECORD_AAAA))
		{
			std::lock_guard<std::mutex> LocalAddressMutexIPv6(LocalAddressLock[0]);
			if (GlobalRunningStatus.LocalAddress_Length[0] >= DNS_PACKET_MINSIZE)
			{
				memset(Result + sizeof(uint16_t), 0, ResultSize - sizeof(uint16_t));
				memcpy_s(Result + sizeof(uint16_t), ResultSize - sizeof(uint16_t), GlobalRunningStatus.LocalAddress_Response[0] + sizeof(uint16_t), GlobalRunningStatus.LocalAddress_Length[0] - sizeof(uint16_t));
				return GlobalRunningStatus.LocalAddress_Length[0];
			}
		}
	//IPv4
		else if (DNS_Query->Type == htons(DNS_RECORD_A))
		{
			std::lock_guard<std::mutex> LocalAddressMutexIPv4(LocalAddressLock[1U]);
			if (GlobalRunningStatus.LocalAddress_Length[1U] >= DNS_PACKET_MINSIZE)
			{
				memset(Result + sizeof(uint16_t), 0, ResultSize - sizeof(uint16_t));
				memcpy_s(Result + sizeof(uint16_t), ResultSize - sizeof(uint16_t), GlobalRunningStatus.LocalAddress_Response[1U] + sizeof(uint16_t), GlobalRunningStatus.LocalAddress_Length[1U] - sizeof(uint16_t));
				return GlobalRunningStatus.LocalAddress_Length[1U];
			}
		}
	}

//Check DNS cache.
	std::unique_lock<std::mutex> DNSCacheListMutex(DNSCacheListLock);
	for (auto DNSCacheDataIter:DNSCacheList)
	{
		if (Domain == DNSCacheDataIter.Domain && DNS_Query->Type == DNSCacheDataIter.RecordType)
		{
			memset(Result + sizeof(uint16_t), 0, ResultSize - sizeof(uint16_t));
			memcpy_s(Result + sizeof(uint16_t), ResultSize - sizeof(uint16_t), DNSCacheDataIter.Response.get(), DNSCacheDataIter.Length);

			return DNSCacheDataIter.Length + sizeof(uint16_t);
		}
	}
	DNSCacheListMutex.unlock();

//Local Main check
	if (Parameter.LocalMain)
		Packet->IsLocal = true;

//Main check
	std::unique_lock<std::mutex> HostsFileMutex(HostsFileLock);
	for (auto HostsFileSetIter:*HostsFileSetUsing)
	{
	//Normal Hosts
		for (auto HostsTableIter:HostsFileSetIter.HostsList_Normal)
		{
			if (std::regex_match(Domain, HostsTableIter.Pattern))
			{
			//Check white and banned hosts list, empty record type list check
				DataLength = CheckWhiteBannedHostsProcess(Packet->Length, HostsTableIter, DNS_Header, DNS_Query, &Packet->IsLocal);
				if (DataLength >= DNS_PACKET_MINSIZE)
					return DataLength;
				else if (DataLength == EXIT_FAILURE)
					goto StopLoop;

			//Initialization
				void *DNS_Record = nullptr;
				size_t RamdomIndex = 0, Index = 0;

			//IPv6(AAAA records)
				if (DNS_Query->Type == htons(DNS_RECORD_AAAA) && HostsTableIter.RecordTypeList.front() == htons(DNS_RECORD_AAAA))
				{
				//Set header flags and convert DNS query to DNS response packet.
//					DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
					DNS_Header->Flags = htons(DNS_SQR_NE);
					DataLength = sizeof(dns_hdr) + Packet->Question;
					memset(Result + DataLength, 0, ResultSize - DataLength);

				//Hosts load balancing
					if (HostsTableIter.AddrList.size() > 1U)
					{
						std::uniform_int_distribution<size_t> RamdomDistribution(0, HostsTableIter.AddrList.size() - 1U);
						RamdomIndex = RamdomDistribution(*GlobalRunningStatus.RamdomEngine);
					}

				//Make response.
					for (Index = 0;Index < HostsTableIter.AddrList.size();++Index)
					{
					//Make resource records.
						DNS_Record = (pdns_record_aaaa)(Result + DataLength);
						DataLength += sizeof(dns_record_aaaa);
						((pdns_record_aaaa)DNS_Record)->Name = htons(DNS_POINTER_QUERY);
						((pdns_record_aaaa)DNS_Record)->Classes = htons(DNS_CLASS_IN);
						((pdns_record_aaaa)DNS_Record)->TTL = htonl(Parameter.HostsDefaultTTL);
						((pdns_record_aaaa)DNS_Record)->Type = htons(DNS_RECORD_AAAA);
						((pdns_record_aaaa)DNS_Record)->Length = htons(sizeof(in6_addr));
						if (Index == 0)
							((pdns_record_aaaa)DNS_Record)->Addr = HostsTableIter.AddrList.at(RamdomIndex).IPv6.sin6_addr;
						else if (Index == RamdomIndex)
							((pdns_record_aaaa)DNS_Record)->Addr = HostsTableIter.AddrList.at(0).IPv6.sin6_addr;
						else 
							((pdns_record_aaaa)DNS_Record)->Addr = HostsTableIter.AddrList.at(Index).IPv6.sin6_addr;

					//Hosts items length check
						if ((Parameter.EDNS_Label || Packet->EDNS_Record > 0) && DataLength + sizeof(dns_record_aaaa) + EDNS_ADDITIONAL_MAXSIZE >= ResultSize || //EDNS Label
							DataLength + sizeof(dns_record_aaaa) >= ResultSize) //Normal query
						{
							++Index;
							break;
						}
					}

				//Set DNS counts and EDNS Label
					DNS_Header->Answer = htons((uint16_t)Index);
					DNS_Header->Authority = 0;
					DNS_Header->Additional = 0;
					if (Parameter.EDNS_Label || Packet->EDNS_Record > 0)
						DataLength = AddEDNSLabelToAdditionalRR(Result, DataLength, ResultSize, nullptr);

					return DataLength;
				}
			//IPv4(A records)
				else if (DNS_Query->Type == htons(DNS_RECORD_A) && HostsTableIter.RecordTypeList.front() == htons(DNS_RECORD_A))
				{
				//Set header flags and convert DNS query to DNS response packet.
//					DNS_Header->Flags = htons(ntohs(DNS_Header->Flags) | DNS_SET_R);
					DNS_Header->Flags = htons(DNS_SQR_NE);
					DataLength = sizeof(dns_hdr) + Packet->Question;
					memset(Result + DataLength, 0, ResultSize - DataLength);

				//Hosts load balancing
					if (HostsTableIter.AddrList.size() > 1U)
					{
						std::uniform_int_distribution<size_t> RamdomDistribution(0, HostsTableIter.AddrList.size() - 1U);
						RamdomIndex = RamdomDistribution(*GlobalRunningStatus.RamdomEngine);
					}

				//Make response.
					for (Index = 0;Index < HostsTableIter.AddrList.size();++Index)
					{
					//Make resource records.
						DNS_Record = (pdns_record_a)(Result + DataLength);
						DataLength += sizeof(dns_record_a);
						((pdns_record_a)DNS_Record)->Name = htons(DNS_POINTER_QUERY);
						((pdns_record_a)DNS_Record)->Classes = htons(DNS_CLASS_IN);
						((pdns_record_a)DNS_Record)->TTL = htonl(Parameter.HostsDefaultTTL);
						((pdns_record_a)DNS_Record)->Type = htons(DNS_RECORD_A);
						((pdns_record_a)DNS_Record)->Length = htons(sizeof(in_addr));
						if (Index == 0)
							((pdns_record_a)DNS_Record)->Addr = HostsTableIter.AddrList.at(RamdomIndex).IPv4.sin_addr;
						else if (Index == RamdomIndex)
							((pdns_record_a)DNS_Record)->Addr = HostsTableIter.AddrList.at(0).IPv4.sin_addr;
						else 
							((pdns_record_a)DNS_Record)->Addr = HostsTableIter.AddrList.at(Index).IPv4.sin_addr;

					//Hosts items length check
						if ((Parameter.EDNS_Label || Packet->EDNS_Record > 0) && DataLength + sizeof(dns_record_a) + EDNS_ADDITIONAL_MAXSIZE >= ResultSize || //EDNS Label
							DataLength + sizeof(dns_record_a) >= ResultSize) //Normal query
						{
							++Index;
							break;
						}
					}

				//Set DNS counts and EDNS Label
					DNS_Header->Answer = htons((uint16_t)Index);
					DNS_Header->Authority = 0;
					DNS_Header->Additional = 0;
					if (Parameter.EDNS_Label || Packet->EDNS_Record > 0)
						DataLength = AddEDNSLabelToAdditionalRR(Result, DataLength, ResultSize, nullptr);

					return DataLength;
				}
			}
		}

	//Local Hosts
		for (auto HostsTableIter:HostsFileSetIter.HostsList_Local)
		{
			if (std::regex_match(Domain, HostsTableIter.Pattern))
			{
			//Check white and banned hosts list.
				DataLength = CheckWhiteBannedHostsProcess(Packet->Length, HostsTableIter, DNS_Header, DNS_Query, &Packet->IsLocal);
				if (DataLength >= DNS_PACKET_MINSIZE)
					return DataLength;
				else if (DataLength == EXIT_FAILURE)
					Packet->IsLocal = false;
				else //IsLocal flag setting
					Packet->IsLocal = true;

				goto StopLoop;
			}
		}
	}

//Jump here to stop loop.
StopLoop:
	HostsFileMutex.unlock();

//Domain Case Conversion
	if (Parameter.DomainCaseConversion)
		MakeDomainCaseConversion(Packet->Buffer + sizeof(dns_hdr));

	return EXIT_SUCCESS;
}