#include #include #include #include #include #include #include #include #include #include #include #include "..\..\dnslib\dnslib.h" VOID PrintRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintARecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintSOARecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintPTRRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintMINFORecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintMXRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintHINFORecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintNULLRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintWKSRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintAAAARecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintSRVRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintATMARecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintWINSRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintWINSRRecord ( IN PDNS_RECORD pDnsRecord ); VOID PrintDNSFlags ( IN DNSREC_FLAGS Flags ); VOID PrintIpAddress ( IN DWORD dwIpAddress ) { printf( " %d.%d.%d.%d\n", ((BYTE *) &dwIpAddress)[0], ((BYTE *) &dwIpAddress)[1], ((BYTE *) &dwIpAddress)[2], ((BYTE *) &dwIpAddress)[3] ); } #define BUFFSIZE 3000 GUID DnsRRGuidA = SVCID_DNS_TYPE_A; GUID DnsRRGuidNS = SVCID_DNS_TYPE_NS; GUID DnsRRGuidMD = SVCID_DNS_TYPE_MD; GUID DnsRRGuidMF = SVCID_DNS_TYPE_MF; GUID DnsRRGuidCNAME = SVCID_DNS_TYPE_CNAME; GUID DnsRRGuidSOA = SVCID_DNS_TYPE_SOA; GUID DnsRRGuidMB = SVCID_DNS_TYPE_MB; GUID DnsRRGuidMG = SVCID_DNS_TYPE_MG; GUID DnsRRGuidMR = SVCID_DNS_TYPE_MR; GUID DnsRRGuidNULL = SVCID_DNS_TYPE_NULL; GUID DnsRRGuidWKS = SVCID_DNS_TYPE_WKS; GUID DnsRRGuidPTR = SVCID_DNS_TYPE_PTR; GUID DnsRRGuidHINFO = SVCID_DNS_TYPE_HINFO; GUID DnsRRGuidMINFO = SVCID_DNS_TYPE_MINFO; GUID DnsRRGuidMX = SVCID_DNS_TYPE_MX; GUID DnsRRGuidTEXT = SVCID_DNS_TYPE_TEXT; GUID DnsRRGuidRP = SVCID_DNS_TYPE_RP; GUID DnsRRGuidAFSDB = SVCID_DNS_TYPE_AFSDB; GUID DnsRRGuidX25 = SVCID_DNS_TYPE_X25; GUID DnsRRGuidISDN = SVCID_DNS_TYPE_ISDN; GUID DnsRRGuidRT = SVCID_DNS_TYPE_RT; GUID DnsRRGuidNSAP = SVCID_DNS_TYPE_NSAP; GUID DnsRRGuidNSAPPTR = SVCID_DNS_TYPE_NSAPPTR; GUID DnsRRGuidSIG = SVCID_DNS_TYPE_SIG; GUID DnsRRGuidKEY = SVCID_DNS_TYPE_KEY; GUID DnsRRGuidPX = SVCID_DNS_TYPE_PX; GUID DnsRRGuidGPOS = SVCID_DNS_TYPE_GPOS; GUID DnsRRGuidAAAA = SVCID_DNS_TYPE_AAAA; GUID DnsRRGuidLOC = SVCID_DNS_TYPE_LOC; GUID DnsRRGuidNXT = SVCID_DNS_TYPE_NXT; GUID DnsRRGuidSRV = SVCID_DNS_TYPE_SRV; GUID DnsRRGuidATMA = SVCID_DNS_TYPE_ATMA; _cdecl main(int argc, char **argv) { WCHAR Buffer[BUFFSIZE]; PWSAQUERYSETW Query = (PWSAQUERYSETW)Buffer; HANDLE hRnr; DWORD dwQuerySize = BUFFSIZE; WSADATA wsaData; LPGUID lpServiceGuid = NULL; DWORD iter; LONG cch; DWORD Status = NO_ERROR; WORD wType; WCHAR usName[1000]; if ( argc != 3 ) { printf( "\nUsage: ws2qry \n" ); printf( "\nWhere:\n" ); printf( " DNS Name - Server_X.dbsd-test.microsoft.com\n" ); printf( " Type - 1 | A, 2 | ns, 12 | Ptr, 33 | SRV, ...\n" ); return(-1); } cch = MultiByteToWideChar( CP_ACP, 0L, argv[1], -1, usName, 1000 ); if (!cch) { Status = GetLastError(); return (Status); } if ( Dns_NameCompare_A( "A", argv[2] ) ) { wType = DNS_TYPE_A; lpServiceGuid = &DnsRRGuidA; } else if ( Dns_NameCompare_A( "NS", argv[2] ) ) { wType = DNS_TYPE_NS; lpServiceGuid = &DnsRRGuidNS; } else if ( Dns_NameCompare_A( "MD", argv[2] ) ) { wType = DNS_TYPE_MD; lpServiceGuid = &DnsRRGuidMD; } else if ( Dns_NameCompare_A( "MF", argv[2] ) ) { wType = DNS_TYPE_MF; lpServiceGuid = &DnsRRGuidMF; } else if ( Dns_NameCompare_A( "CNAME", argv[2] ) ) { wType = DNS_TYPE_CNAME; lpServiceGuid = &DnsRRGuidCNAME; } else if ( Dns_NameCompare_A( "SOA", argv[2] ) ) { wType = DNS_TYPE_SOA; lpServiceGuid = &DnsRRGuidSOA; } else if ( Dns_NameCompare_A( "MB", argv[2] ) ) { wType = DNS_TYPE_MB; lpServiceGuid = &DnsRRGuidMB; } else if ( Dns_NameCompare_A( "MG", argv[2] ) ) { wType = DNS_TYPE_MG; lpServiceGuid = &DnsRRGuidMG; } else if ( Dns_NameCompare_A( "MR", argv[2] ) ) { wType = DNS_TYPE_MR; lpServiceGuid = &DnsRRGuidMR; } else if ( Dns_NameCompare_A( "NULL", argv[2] ) ) { wType = DNS_TYPE_NULL; lpServiceGuid = &DnsRRGuidNULL; } else if ( Dns_NameCompare_A( "WKS", argv[2] ) ) { wType = DNS_TYPE_WKS; lpServiceGuid = &DnsRRGuidWKS; } else if ( Dns_NameCompare_A( "PTR", argv[2] ) ) { wType = DNS_TYPE_PTR; lpServiceGuid = &DnsRRGuidPTR; } else if ( Dns_NameCompare_A( "HINFO", argv[2] ) ) { wType = DNS_TYPE_HINFO; lpServiceGuid = &DnsRRGuidHINFO; } else if ( Dns_NameCompare_A( "MINFO", argv[2] ) ) { wType = DNS_TYPE_MINFO; lpServiceGuid = &DnsRRGuidMINFO; } else if ( Dns_NameCompare_A( "MX", argv[2] ) ) { wType = DNS_TYPE_MX; lpServiceGuid = &DnsRRGuidMX; } else if ( Dns_NameCompare_A( "TEXT", argv[2] ) ) { wType = DNS_TYPE_TEXT; lpServiceGuid = &DnsRRGuidTEXT; } else if ( Dns_NameCompare_A( "RP", argv[2] ) ) { wType = DNS_TYPE_RP; lpServiceGuid = &DnsRRGuidRP; } else if ( Dns_NameCompare_A( "AFSDB", argv[2] ) ) { wType = DNS_TYPE_AFSDB; lpServiceGuid = &DnsRRGuidAFSDB; } else if ( Dns_NameCompare_A( "X25", argv[2] ) ) { wType = DNS_TYPE_X25; lpServiceGuid = &DnsRRGuidX25; } else if ( Dns_NameCompare_A( "ISDN", argv[2] ) ) { wType = DNS_TYPE_ISDN; lpServiceGuid = &DnsRRGuidISDN; } else if ( Dns_NameCompare_A( "RT", argv[2] ) ) { wType = DNS_TYPE_RT; lpServiceGuid = &DnsRRGuidRT; } else if ( Dns_NameCompare_A( "NSAP", argv[2] ) ) { wType = DNS_TYPE_NSAP; lpServiceGuid = &DnsRRGuidNSAP; } else if ( Dns_NameCompare_A( "NSAPPTR", argv[2] ) ) { wType = DNS_TYPE_NSAPPTR; lpServiceGuid = &DnsRRGuidNSAPPTR; } else if ( Dns_NameCompare_A( "SIG", argv[2] ) ) { wType = DNS_TYPE_SIG; lpServiceGuid = &DnsRRGuidSIG; } else if ( Dns_NameCompare_A( "KEY", argv[2] ) ) { wType = DNS_TYPE_KEY; lpServiceGuid = &DnsRRGuidKEY; } else if ( Dns_NameCompare_A( "PX", argv[2] ) ) { wType = DNS_TYPE_PX; lpServiceGuid = &DnsRRGuidPX; } else if ( Dns_NameCompare_A( "GPOS", argv[2] ) ) { wType = DNS_TYPE_GPOS; lpServiceGuid = &DnsRRGuidGPOS; } else if ( Dns_NameCompare_A( "AAAA", argv[2] ) ) { wType = DNS_TYPE_AAAA; lpServiceGuid = &DnsRRGuidAAAA; } else if ( Dns_NameCompare_A( "LOC", argv[2] ) ) { wType = DNS_TYPE_LOC; lpServiceGuid = &DnsRRGuidLOC; } else if ( Dns_NameCompare_A( "NXT", argv[2] ) ) { wType = DNS_TYPE_NXT; lpServiceGuid = &DnsRRGuidNXT; } else if ( Dns_NameCompare_A( "SRV", argv[2] ) ) { wType = DNS_TYPE_SRV; lpServiceGuid = &DnsRRGuidSRV; } else if ( Dns_NameCompare_A( "ATMA", argv[2] ) ) { wType = DNS_TYPE_ATMA; lpServiceGuid = &DnsRRGuidATMA; } else { wType = (WORD) atoi( argv[2] ); } printf( "\nGoing to look up ( %S, %d ) ...\n\n", usName, wType ); WSAStartup(MAKEWORD(2, 0), &wsaData); memset(Query, 0, sizeof(*Query)); Query->lpszServiceInstanceName = usName; Query->dwSize = sizeof(*Query); Query->dwNameSpace = NS_DNS; Query->lpServiceClassId = lpServiceGuid; if( WSALookupServiceBeginW( Query, LUP_RETURN_ADDR | LUP_RETURN_ALIASES | LUP_RETURN_BLOB | LUP_RETURN_NAME, &hRnr ) == SOCKET_ERROR ) { printf( "LookupBegin failed %d\n", GetLastError() ); } while ( WSALookupServiceNextW( hRnr, 0, &dwQuerySize, Query ) == NO_ERROR ) { printf( "Next got: \n" ); printf( " dwSize = %d\n", Query->dwSize ); printf( " dwOutputFlags = %d\n", Query->dwOutputFlags ); printf( " lpszServiceInstanceName = %S\n", Query->lpszServiceInstanceName ); if ( Query->lpVersion ) { printf( " lpVersion->dwVersion = %d\n", Query->lpVersion->dwVersion ); printf( " lpVersion->ecHow = %d\n", Query->lpVersion->ecHow ); } if ( Query->lpszComment ) { printf( " lpszComment = %ws\n", Query->lpszComment ); } printf( " dwNameSpace = %d\n", Query->dwNameSpace ); if ( Query->lpszContext ) { printf( " lpszContext = %S\n", Query->lpszContext ); } printf( " dwNumberOfCsAddrs = %d\n", Query->dwNumberOfCsAddrs ); for ( iter = 0; iter < Query->dwNumberOfCsAddrs; iter++ ) { if ( Query->lpcsaBuffer[iter].RemoteAddr.lpSockaddr->sa_data ) { printf( " Address : " ); PrintIpAddress( * ((DWORD*) &Query->lpcsaBuffer[iter].RemoteAddr.lpSockaddr->sa_data[2]) ); } } if ( Query->lpBlob ) { PDNS_RECORD pDNSRecord = NULL; PDNS_RECORD pTempDNSRecord = NULL; PDNS_MESSAGE_BUFFER pMsg = (PDNS_MESSAGE_BUFFER) Query->lpBlob->pBlobData; SWAP_COUNT_BYTES( &pMsg->MessageHead ); printf( "Extracting record(s) from message buffer ...\n\n" ); Status = DnsExtractRecordsFromMessage_W( pMsg, (WORD) Query->lpBlob->cbSize, &pDNSRecord ); if ( Status ) { printf( "DnsExtractRecordsFromMessage_W call failed with error: 0x%.8X\n", Status ); pDNSRecord = NULL; } pTempDNSRecord = pDNSRecord; while ( pTempDNSRecord ) { printf( " Record:\n" ); printf( " -------------------------------------\n" ); printf( " Name : %S\n", pTempDNSRecord->pName ); printf( " Type : %d\n", pTempDNSRecord->wType ); printf( " Data Length : %d\n", pTempDNSRecord->wDataLength ); printf( " Ttl (mins) : %d\n", pTempDNSRecord->dwTtl/60 ); printf( " Flags : 0x%X", pTempDNSRecord->Flags.DW ); PrintDNSFlags( pTempDNSRecord->Flags.S ); printf( "\n" ); PrintRecord( pTempDNSRecord ); pTempDNSRecord = pTempDNSRecord->pNext; } DnsFreeRRSet( pDNSRecord, TRUE ); } } printf( "Next finished with %d\n", GetLastError() ); if( WSALookupServiceEnd( hRnr ) ) { printf( "ServiceEnd failed %d\n", GetLastError() ); } WSACleanup(); return(0); } VOID PrintRecord ( IN PDNS_RECORD pDnsRecord ) { switch( pDnsRecord->wType ) { case DNS_TYPE_A : PrintARecord( pDnsRecord ); break; case DNS_TYPE_SOA : PrintSOARecord( pDnsRecord ); break; case DNS_TYPE_PTR : case DNS_TYPE_NS : case DNS_TYPE_CNAME : case DNS_TYPE_MB : case DNS_TYPE_MD : case DNS_TYPE_MF : case DNS_TYPE_MG : case DNS_TYPE_MR : PrintPTRRecord( pDnsRecord ); break; case DNS_TYPE_MINFO : case DNS_TYPE_RP : PrintMINFORecord( pDnsRecord ); break; case DNS_TYPE_MX : case DNS_TYPE_AFSDB : case DNS_TYPE_RT : PrintMXRecord( pDnsRecord ); break; case DNS_TYPE_HINFO : case DNS_TYPE_ISDN : case DNS_TYPE_TEXT : case DNS_TYPE_X25 : PrintHINFORecord( pDnsRecord ); break; case DNS_TYPE_NULL : PrintNULLRecord( pDnsRecord ); break; case DNS_TYPE_WKS : PrintWKSRecord( pDnsRecord ); break; case DNS_TYPE_AAAA : PrintAAAARecord( pDnsRecord ); break; case DNS_TYPE_SRV : PrintSRVRecord( pDnsRecord ); break; case DNS_TYPE_ATMA : PrintATMARecord( pDnsRecord ); break; case DNS_TYPE_WINS : PrintWINSRecord( pDnsRecord ); break; case DNS_TYPE_NBSTAT : PrintWINSRRecord( pDnsRecord ); break; default : printf( "Don't know how to print record type %d\n", pDnsRecord->wType ); } } VOID PrintARecord ( IN PDNS_RECORD pDnsRecord ) { printf( " A record :\n" ); printf( " ipAddress = %d.%d.%d.%d\n", ((BYTE *) &pDnsRecord->Data.A.ipAddress)[0], ((BYTE *) &pDnsRecord->Data.A.ipAddress)[1], ((BYTE *) &pDnsRecord->Data.A.ipAddress)[2], ((BYTE *) &pDnsRecord->Data.A.ipAddress)[3] ); printf( "\n" ); } VOID PrintSOARecord ( IN PDNS_RECORD pDnsRecord ) { printf( " SOA record :\n" ); printf( " pNamePrimaryServer = %S\n", pDnsRecord->Data.SOA.pNamePrimaryServer ); printf( " pNameAdministrator = %S\n", pDnsRecord->Data.SOA.pNameAdministrator ); printf( " dwSerialNo = %d\n", pDnsRecord->Data.SOA.dwSerialNo ); printf( " dwRefresh = %d\n", pDnsRecord->Data.SOA.dwRefresh ); printf( " dwRetry = %d\n", pDnsRecord->Data.SOA.dwRetry ); printf( " dwExpire = %d\n", pDnsRecord->Data.SOA.dwExpire ); printf( " dwDefaultTtl = %d\n", pDnsRecord->Data.SOA.dwDefaultTtl ); printf( "\n" ); } VOID PrintPTRRecord ( IN PDNS_RECORD pDnsRecord ) { printf( " PTR, NS, CNAME, MB, MD, MF, MG, MR record :\n" ); printf( " pNameHost = %S\n", pDnsRecord->Data.PTR.pNameHost ); printf( "\n" ); } VOID PrintMINFORecord ( IN PDNS_RECORD pDnsRecord ) { printf( " MINFO, RP record :\n" ); printf( " pNameMailbox = %S\n", pDnsRecord->Data.MINFO.pNameMailbox ); printf( " pNameErrorsMailbox = %S\n", pDnsRecord->Data.MINFO.pNameErrorsMailbox ); printf( "\n" ); } VOID PrintMXRecord ( IN PDNS_RECORD pDnsRecord ) { printf( " MX, AFSDB, RT record :\n" ); printf( " pNameExchange = %S\n", pDnsRecord->Data.MX.pNameExchange ); printf( " wPreference = %d\n", pDnsRecord->Data.MX.wPreference ); printf( " Pad = %d\n", pDnsRecord->Data.MX.Pad ); printf( "\n" ); } VOID PrintHINFORecord ( IN PDNS_RECORD pDnsRecord ) { DWORD iter; printf( " HINFO, ISDN, TEXT, X25 record :\n" ); printf( " dwStringCount = %d\n", pDnsRecord->Data.HINFO.dwStringCount ); for ( iter = 0; iter < pDnsRecord->Data.HINFO.dwStringCount; iter ++ ) { printf( " pStringArray[%d] = %S\n", iter, pDnsRecord->Data.HINFO.pStringArray[iter] ); } printf( "\n" ); } VOID PrintNULLRecord ( IN PDNS_RECORD pDnsRecord ) { printf( " NULL record :\n" ); printf( "\n" ); } VOID PrintWKSRecord ( IN PDNS_RECORD pDnsRecord ) { printf( " WKS record :\n" ); printf( " ipAddress = %d.%d.%d.%d\n", ((BYTE *) &pDnsRecord->Data.WKS.ipAddress)[0], ((BYTE *) &pDnsRecord->Data.WKS.ipAddress)[1], ((BYTE *) &pDnsRecord->Data.WKS.ipAddress)[2], ((BYTE *) &pDnsRecord->Data.WKS.ipAddress)[3] ); printf( " chProtocol = %d\n", pDnsRecord->Data.WKS.chProtocol ); printf( " bBitMask = %s\n", pDnsRecord->Data.WKS.bBitMask ); printf( "\n" ); } VOID PrintAAAARecord ( IN PDNS_RECORD pDnsRecord ) { printf( " AAAA record :\n" ); printf( " ipAddress = %d.%d.%d.%d.%d.%d.%d.%d.%d.%d.%d.%d.%d.%d.%d.%d\n", ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[0], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[1], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[2], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[3], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[4], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[5], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[6], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[7], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[8], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[9], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[10], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[11], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[12], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[13], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[14], ((BYTE *) &pDnsRecord->Data.AAAA.ipv6Address)[15] ); printf( "\n" ); } VOID PrintSRVRecord ( IN PDNS_RECORD pDnsRecord ) { printf( " SRV record :\n" ); printf( " pNameTarget = %S\n", pDnsRecord->Data.SRV.pNameTarget ); printf( " wPriority = %d\n", pDnsRecord->Data.SRV.wPriority ); printf( " wWeight = %d\n", pDnsRecord->Data.SRV.wWeight ); printf( " wPort = %d\n", pDnsRecord->Data.SRV.wPort ); printf( " Pad = %d\n", pDnsRecord->Data.SRV.Pad ); printf( "\n" ); } VOID PrintATMARecord ( IN PDNS_RECORD pDnsRecord ) { printf( " ATMA record :\n" ); printf( " Address Type = %d\n", pDnsRecord->Data.ATMA.AddressType ); if ( pDnsRecord->Data.ATMA.Address && pDnsRecord->Data.ATMA.AddressType == DNS_ATM_TYPE_E164 ) { printf( " Address = %s\n", pDnsRecord->Data.ATMA.Address ); } else { DWORD iter; printf( " Address =\n\t" ); for ( iter = 0; iter < pDnsRecord->wDataLength; iter++ ) { printf( "%02x", (UCHAR) pDnsRecord->Data.ATMA.Address[iter] ); } printf( "\n" ); } printf( "\n" ); } VOID PrintWINSRecord ( IN PDNS_RECORD pDnsRecord ) { DWORD iter; printf( " WINS record :\n" ); printf( " dwMappingFlag = %d\n", pDnsRecord->Data.WINS.dwMappingFlag ); printf( " dwLookupTimeout = %d\n", pDnsRecord->Data.WINS.dwLookupTimeout ); printf( " dwCacheTimeout = %d\n", pDnsRecord->Data.WINS.dwCacheTimeout ); printf( " cWinsServerCount = %d\n", pDnsRecord->Data.WINS.cWinsServerCount ); printf( " aipWinsServers =" ); for ( iter = 0; iter < pDnsRecord->Data.WINS.cWinsServerCount; iter++ ) { PrintIpAddress( pDnsRecord->Data.WINS.aipWinsServers[iter] ); printf( " " ); } printf( "\n\n" ); } VOID PrintWINSRRecord ( IN PDNS_RECORD pDnsRecord ) { printf( " NBSTAT record :\n" ); printf( " dwMappingFlag = %d\n", pDnsRecord->Data.WINSR.dwMappingFlag ); printf( " dwLookupTimeout = %d\n", pDnsRecord->Data.WINSR.dwLookupTimeout ); printf( " dwCacheTimeout = %d\n", pDnsRecord->Data.WINSR.dwCacheTimeout ); printf( " pNameResultDomain = %S\n", pDnsRecord->Data.WINSR.pNameResultDomain ); printf( "\n" ); } VOID PrintDNSFlags ( IN DNSREC_FLAGS Flags ) { if ( Flags.Section == DNSREC_ANSWER ) { printf( " Answer" ); } if ( Flags.Section == DNSREC_AUTHORITY ) { printf( " Authority" ); } if ( Flags.Section == DNSREC_ADDITIONAL ) { printf( " Additional" ); } printf( "\n" ); }