/*++ Copyright (c) 1999 Microsoft Corporation Module Name: net\routing\netsh\if\showmib.c Abstract: Fns to parse and show MIB information Author: v raman Revision History: Anand Mahalingam Dave Thaler --*/ #include "precomp.h" #pragma hdrstop #include #define MALLOC(x) HeapAlloc(GetProcessHeap(), 0, (x)) #define FREE(x) HeapFree(GetProcessHeap(), 0, (x)) HANDLE g_hConsole, g_hStdOut; MIB_OBJECT_PARSER MIBObjectMap[] = { {TOKEN_MIB_OBJECT_INTERFACE,1,GetMIBIfIndex}, {TOKEN_MIB_OBJECT_IPSTATS, 0,NULL}, {TOKEN_MIB_OBJECT_IPADDRESS,1,GetMIBIpAddress}, {TOKEN_MIB_OBJECT_IPNET, 2,GetMIBIpNetIndex}, {TOKEN_MIB_OBJECT_ICMP, 0,NULL}, {TOKEN_MIB_OBJECT_TCPSTATS, 0,NULL}, {TOKEN_MIB_OBJECT_TCPCONN, 4,GetMIBTcpConnIndex}, {TOKEN_MIB_OBJECT_UDPSTATS, 0,NULL}, {TOKEN_MIB_OBJECT_UDPCONN, 2,GetMIBUdpConnIndex}, }; ULONG g_ulNumMibObjects = sizeof(MIBObjectMap)/sizeof(MIB_OBJECT_PARSER); MAGIC_TABLE MIBVar[] = { {IF_ROW, PrintIfRow}, {IF_TABLE, PrintIfTable}, {IP_STATS, PrintIpStats}, {IP_STATS, PrintIpStats}, {IP_ADDRROW, PrintIpAddrRow}, {IP_ADDRTABLE, PrintIpAddrTable}, {IP_NETROW, PrintIpNetRow}, {IP_NETTABLE, PrintIpNetTable}, {ICMP_STATS, PrintIcmp}, {ICMP_STATS, PrintIcmp}, {TCP_STATS, PrintTcpStats}, {TCP_STATS, PrintTcpStats}, {TCP_ROW, PrintTcpRow}, {TCP_TABLE, PrintTcpTable}, {UDP_STATS, PrintUdpStats}, {UDP_STATS, PrintUdpStats}, {UDP_ROW, PrintUdpRow}, {UDP_TABLE, PrintUdpTable}, }; DWORD GetMIBIfIndex( IN PTCHAR *pptcArguments, IN DWORD dwCurrentIndex, OUT PDWORD pdwIndices, OUT PDWORD pdwNumParsed ) /*++ Routine Description: Gets the interface index. Arguments: pptcArguments - Argument array dwCurrentIndex - Index of the first argument in array pdwIndices - Indices specified in command pdwNumParsed - Number of indices in command Return Value: NO_ERROR, ERROR_INVALID_PARAMETER --*/ { DWORD dwErr = NO_ERROR; *pdwNumParsed = 1; // If index was specified just use it if (iswdigit(pptcArguments[dwCurrentIndex][0])) { pdwIndices[0] = _tcstoul(pptcArguments[dwCurrentIndex],NULL,10); return NO_ERROR; } // Try converting a friendly name to an ifindex return IfutlGetIfIndexFromFriendlyName( pptcArguments[dwCurrentIndex], &pdwIndices[0] ); } DWORD GetMIBIpAddress( IN PTCHAR *pptcArguments, IN DWORD dwCurrentIndex, OUT PDWORD pdwIndices, OUT PDWORD pdwNumParsed ) /*++ Routine Description: Gets the IP address. Arguments: pptcArguments - Argument array dwCurrentIndex - Index of the first argument in array pdwIndices - Indices specified in command pdwNumParsed - Number of indices in command Return Value: NO_ERROR --*/ { DWORD dwErr = GetIpAddress(pptcArguments[dwCurrentIndex], &pdwIndices[0]); *pdwNumParsed = 1; return dwErr; } DWORD GetMIBIpNetIndex( IN PTCHAR *pptcArguments, IN DWORD dwCurrentIndex, OUT PDWORD pdwIndices, OUT PDWORD pdwNumParsed ) /*++ Routine Description: Gets the IP net index Arguments: pptcArguments - Argument array dwCurrentIndex - Index of the first argument in array pdwIndices - Indices specified in command pdwNumParsed - Number of indices in command Return Value: NO_ERROR --*/ { DWORD dwErr; pdwIndices[0] = _tcstoul(pptcArguments[dwCurrentIndex],NULL,10); dwErr = GetIpAddress(pptcArguments[dwCurrentIndex + 1], &pdwIndices[1]); *pdwNumParsed = 2; return dwErr; } DWORD GetMIBTcpConnIndex( IN PTCHAR *pptcArguments, IN DWORD dwCurrentIndex, OUT PDWORD pdwIndices, OUT PDWORD pdwNumParsed ) /*++ Routine Description: Gets the tco conn index Arguments: pptcArguments - Argument array dwCurrentIndex - Index of the first argument in array pdwIndices - Indices specified in command pdwNumParsed - Number of indices in command Return Value: NO_ERROR --*/ { DWORD dwErr = GetIpAddress(pptcArguments[dwCurrentIndex], &pdwIndices[0]); if (dwErr isnot NO_ERROR) { return dwErr; } pdwIndices[1] = htons((WORD)(_tcstoul(pptcArguments[dwCurrentIndex + 1],NULL,10))); dwErr = GetIpAddress(pptcArguments[dwCurrentIndex + 2], &pdwIndices[2]); pdwIndices[3] = htons((WORD)(_tcstoul(pptcArguments[dwCurrentIndex + 3], NULL,10))); *pdwNumParsed = 4; return dwErr; } DWORD GetMIBUdpConnIndex( IN PTCHAR *pptcArguments, IN DWORD dwCurrentIndex, OUT PDWORD pdwIndices, OUT PDWORD pdwNumParsed ) /*++ Routine Description: Gets the udp conn index Arguments: pptcArguments - Argument array dwCurrentIndex - Index of the first argument in array pdwIndices - Indices specified in command pdwNumParsed - Number of indices in command Return Value: NO_ERROR --*/ { DWORD dwErr = GetIpAddress(pptcArguments[dwCurrentIndex], &pdwIndices[0]); pdwIndices[1] = htons((WORD)(_tcstoul(pptcArguments[dwCurrentIndex + 1], NULL,10))); *pdwNumParsed = 2; return dwErr; } DWORD GetIgmpList(IN IPV4_ADDRESS NTEAddr, OUT IPV4_ADDRESS *pIgmpList, OUT PULONG dwOutBufLen ); DWORD GetPrintJoinRow( IPV4_ADDRESS ipAddr ) { DWORD dwOutBufLen = 0; IPV4_ADDRESS *pIgmpList = NULL; DWORD dwStatus; DWORD i; dwStatus = GetIgmpList( ipAddr, pIgmpList, &dwOutBufLen ); if (dwStatus == ERROR_INSUFFICIENT_BUFFER) { pIgmpList = HeapAlloc(GetProcessHeap(), 0, dwOutBufLen); if (!pIgmpList) return ERROR_NOT_ENOUGH_MEMORY; dwStatus = GetIgmpList( ipAddr, pIgmpList, &dwOutBufLen ); } if (dwStatus == STATUS_SUCCESS) { WCHAR pwszIfAddr[20], pwszGrAddr[20]; DWORD dwTotal = dwOutBufLen/sizeof(ipAddr); MakeAddressStringW(pwszIfAddr, ipAddr); if (!pwszIfAddr) return ERROR_NOT_ENOUGH_MEMORY; for (i=0; iiAddressCount; j++) { GetPrintJoinRow( ((LPSOCKADDR_IN)pList->Address[j].lpSockaddr)->sin_addr.s_addr ); } FREE(pList); } } while (FALSE); return dwResult; } DWORD HandleIpMibShowObject( IN LPCWSTR pwszMachine, IN OUT LPWSTR *ppwcArguments, IN DWORD dwCurrentIndex, IN DWORD dwArgCount, IN DWORD dwFlags, IN LPCVOID pvData, OUT BOOL *pbDone ) /*++ Routine Description: Parses command to get MIB object and optional parameters Arguments: Return Value: --*/ { DWORD dwIndices[MAX_NUM_INDICES]; DWORD dwNumParsed = 0; PMIB_OPAQUE_QUERY pQuery = NULL; PMIB_OPAQUE_INFO pRpcInfo; DWORD dwQuerySize; BOOL bFound = FALSE,bOptPresent = FALSE; DWORD dwRefreshRate; DWORD dwOutEntrySize; DWORD i,dwResult,dwErr; DWORD dwMIBIndex, dwIndex; BOOL bIndex = FALSE, dwType; DWORD dwRR = 0, dwInd = 0; HANDLE hMib; #if 0 TOKEN_VALUE tvMfeTypes[] = { { TOKEN_VALUE_POSITIVE, PositiveMfe }, { TOKEN_VALUE_NEGATIVE, NegativeMfe }, { TOKEN_VALUE_BOTH, Both } }; #endif if ( ! IfutlIsRouterRunning() ) { if (g_pwszRouter) { DisplayMessage(g_hModule, MSG_IP_REMOTE_ROUTER_NOT_RUNNING, g_pwszRouter); } else { DisplayMessage(g_hModule, MSG_IP_LOCAL_ROUTER_NOT_RUNNING); } return NO_ERROR; } // // Match MIB object // ppwcArguments += (dwCurrentIndex-1); dwArgCount -= (dwCurrentIndex-1); dwCurrentIndex = 1; //DEBUG2("In IP MIB Show : %s\n",pptcArguments[0]); for (i = 0; i < sizeof(MIBObjectMap)/sizeof(MIB_OBJECT_PARSER); i++) { if (MatchToken(ppwcArguments[0],MIBObjectMap[i].pwszMIBObj)) { dwIndex = i; bFound = TRUE; break; } } if (!bFound) { return ERROR_CMD_NOT_FOUND; } #if 0 // // Special case for MFEs where MFE type is specified // before index option // if ( ( MIBVar[ 2 * dwIndex ].dwId is MCAST_MFE ) || ( MIBVar[ 2 * dwIndex ].dwId is MCAST_MFE_STATS ) ) { if ( dwArgCount > 1 ) { if ( !_wcsnicmp( ppwcArguments[ 1 ], L"TYPE=", 5 ) ) { wcscpy( ppwcArguments[ 1 ], &ppwcArguments[ 1 ][ 5 ] ); } dwErr = MatchEnumTag( g_hModule, ppwcArguments[ 1 ], NUM_TOKENS_IN_TABLE( tvMfeTypes ), tvMfeTypes, &dwType ); } else { dwErr = ERROR_INVALID_PARAMETER; } if (dwErr isnot NO_ERROR) { return ERROR_INVALID_SYNTAX; } dwErr = GetMibTagToken(&ppwcArguments[2], dwArgCount - 2, MIBObjectMap[dwIndex].dwMinOptArg, &dwRR, &bIndex, &dwInd); } else #endif { dwErr = GetMibTagToken(&ppwcArguments[1], dwArgCount - 1, MIBObjectMap[dwIndex].dwMinOptArg, &dwRR, &bIndex, &dwInd); } if (dwErr isnot NO_ERROR) { return ERROR_INVALID_SYNTAX; } if (bIndex) { dwMIBIndex = dwIndex * 2; bOptPresent = TRUE; } else { dwMIBIndex = dwIndex * 2 + 1; } // // Convert refresh rate to msec // dwRR *= 1000; if (!InitializeConsole(&dwRR, &hMib, &g_hConsole)) { return ERROR_INIT_DISPLAY; } // // Query the MIB // pQuery = NULL; for ( ; ; ) { if(dwRR) { DisplayMessageToConsole(g_hModule, g_hConsole, MSG_CTRL_C_TO_QUIT); } // always... { if (!(dwMIBIndex % 2)) { (*MIBObjectMap[dwIndex].pfnMIBObjParser)(ppwcArguments, 1, dwIndices, &dwNumParsed); } dwQuerySize = ( sizeof( MIB_OPAQUE_QUERY ) - sizeof( DWORD ) ) + (dwNumParsed) * sizeof(DWORD); pQuery = (PMIB_OPAQUE_QUERY)HeapAlloc(GetProcessHeap(), 0, dwQuerySize); if (pQuery is NULL) { dwErr = ERROR_NOT_ENOUGH_MEMORY; DisplayMessage(g_hModule, MSG_IP_NOT_ENOUGH_MEMORY); return dwErr; } pQuery->dwVarId = MIBVar[dwMIBIndex].dwId; for( i = 0; i < dwNumParsed; i++ ) { pQuery->rgdwVarIndex[i] = dwIndices[i]; } dwResult = MibGet( PID_IP, IPRTRMGR_PID, (PVOID) pQuery, dwQuerySize, (PVOID *) &pRpcInfo, &dwOutEntrySize ); if ( dwResult isnot NO_ERROR ) { DisplayMessage(g_hModule, MSG_IP_DIM_ERROR, dwResult ); return dwResult; } if ( pRpcInfo is NULL ) { DisplayMessage(g_hModule, MSG_IP_NO_ENTRIES ); return dwResult; } (*MIBVar[dwMIBIndex].pfnPrintFunction)(g_hMIBServer, pRpcInfo); MprAdminMIBBufferFree( (PVOID) pRpcInfo ); } if(pQuery != NULL ) { HeapFree(GetProcessHeap(),0,pQuery); } if (!RefreshConsole(hMib, g_hConsole, dwRR)) { break; } } return dwResult; } VOID PrintIfTable( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints interface table information Arguments: Return Value: --*/ { PMIB_IFTABLE lprpcTable = (PMIB_IFTABLE)(prpcInfo->rgbyData); PTCHAR ptszIfType, ptszOper, ptszAdmin; TCHAR tszDescr[MAXLEN_IFDESCR + 1], tszIfName[MAX_INTERFACE_NAME_LEN + 1]; TCHAR tszPhysAddr[DISPLAYLEN_PHYSADDR + 1]; WCHAR wszBuffer[MAX_INTERFACE_NAME_LEN+1]; DWORD dwSize; DWORD dwCount = lprpcTable->dwNumEntries; DWORD i; DisplayMessageToConsole(g_hModule, g_hConsole, MSG_MIB_IF_HDR); if ( dwCount is 0 ) { DisplayMessageToConsole(g_hModule, g_hConsole, MSG_IP_NO_ENTRIES); return; } for(i = 0; i < dwCount; i++) { switch(lprpcTable->table[i].dwType) { case IF_TYPE_ETHERNET_CSMACD: { ptszIfType = MakeString(g_hModule, STRING_ETHERNET); break; } case IF_TYPE_ISO88025_TOKENRING: { ptszIfType = MakeString(g_hModule, STRING_TOKENRING); break; } case IF_TYPE_FDDI: { ptszIfType = MakeString(g_hModule, STRING_FDDI); break; } case IF_TYPE_PPP: { ptszIfType = MakeString(g_hModule, STRING_PPP); break; } case IF_TYPE_SOFTWARE_LOOPBACK: { ptszIfType = MakeString(g_hModule, STRING_LOOPBACK); break; } case IF_TYPE_SLIP: { ptszIfType = MakeString(g_hModule, STRING_SLIP); break; } case IF_TYPE_OTHER: default: { ptszIfType = MakeString(g_hModule, STRING_OTHER); break; } } switch(lprpcTable->table[i].dwAdminStatus) { case IF_ADMIN_STATUS_UP: { ptszAdmin = MakeString(g_hModule, STRING_UP); break; } case IF_ADMIN_STATUS_TESTING: { ptszAdmin = MakeString(g_hModule, STRING_TESTING); break; } case IF_ADMIN_STATUS_DOWN: default: { ptszAdmin = MakeString(g_hModule, STRING_DOWN); break; } } switch(lprpcTable->table[i].dwOperStatus) { case IF_OPER_STATUS_UNREACHABLE: { ptszOper = MakeString(g_hModule, STRING_UNREACHABLE); break; } case IF_OPER_STATUS_DISCONNECTED: { ptszOper = MakeString(g_hModule, STRING_DISCONNECTED); break; } case IF_OPER_STATUS_CONNECTING: { ptszOper = MakeString(g_hModule, STRING_CONNECTING); break; } case IF_OPER_STATUS_CONNECTED: { ptszOper = MakeString(g_hModule, STRING_CONNECTED); break; } case IF_OPER_STATUS_OPERATIONAL: { ptszOper = MakeString(g_hModule, STRING_OPERATIONAL); break; } case IF_OPER_STATUS_NON_OPERATIONAL: default: { ptszOper = MakeString(g_hModule, STRING_NON_OPERATIONAL); break; } } #ifdef UNICODE wcscpy(tszIfName, lprpcTable->table[i].wszName); MultiByteToWideChar(GetConsoleOutputCP(), 0, lprpcTable->table[i].bDescr, -1, tszDescr, MAXLEN_IFDESCR); #else WideCharToMultiByte(GetConsoleOutputCP(), 0, lprpcTable->table[i].wszName, -1, tszIfName, MAX_INTERFACE_NAME_LEN, NULL, NULL); strcpy(tszDescr,lprpcTable->table[i].bDescr); #endif if (lprpcTable->table[i].dwPhysAddrLen == 0) { tszPhysAddr[0] = TEXT('\0'); } else { MakeUnicodePhysAddr(tszPhysAddr, lprpcTable->table[i].bPhysAddr, lprpcTable->table[i].dwPhysAddrLen); } dwSize = sizeof(wszBuffer); IfutlGetInterfaceDescription( tszIfName, wszBuffer, &dwSize ); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_INTERFACE, lprpcTable->table[i].dwIndex, wszBuffer, tszIfName, ptszIfType, lprpcTable->table[i].dwMtu, lprpcTable->table[i].dwSpeed, tszPhysAddr, ptszAdmin, ptszOper, lprpcTable->table[i].dwLastChange, lprpcTable->table[i].dwInOctets, lprpcTable->table[i].dwInUcastPkts, lprpcTable->table[i].dwInNUcastPkts, lprpcTable->table[i].dwInDiscards, lprpcTable->table[i].dwInErrors, lprpcTable->table[i].dwInUnknownProtos, lprpcTable->table[i].dwOutOctets, lprpcTable->table[i].dwOutUcastPkts, lprpcTable->table[i].dwOutNUcastPkts, lprpcTable->table[i].dwOutDiscards, lprpcTable->table[i].dwOutErrors, lprpcTable->table[i].dwOutQLen, tszDescr); FreeString(ptszIfType); FreeString(ptszAdmin); FreeString(ptszOper); } } VOID PrintIfRow( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints interface row information Arguments: Return Value: --*/ { PMIB_IFROW ieRow = (PMIB_IFROW)(prpcInfo->rgbyData); PTCHAR ptszIfType, ptszOper, ptszAdmin; TCHAR tszDescr[MAXLEN_IFDESCR + 1], tszIfName[MAX_INTERFACE_NAME_LEN + 1]; TCHAR tszPhysAddr[DISPLAYLEN_PHYSADDR + 1]; WCHAR wszBuffer[MAX_INTERFACE_NAME_LEN+1]; DWORD dwSize; DisplayMessageToConsole(g_hModule, g_hConsole, MSG_MIB_IF_HDR); switch(ieRow->dwType) { case IF_TYPE_ETHERNET_CSMACD: { ptszIfType = MakeString(g_hModule, STRING_ETHERNET); break; } case IF_TYPE_ISO88025_TOKENRING: { ptszIfType = MakeString(g_hModule, STRING_TOKENRING); break; } case IF_TYPE_FDDI: { ptszIfType = MakeString(g_hModule, STRING_FDDI); break; } case IF_TYPE_PPP: { ptszIfType = MakeString(g_hModule, STRING_PPP); break; } case IF_TYPE_SOFTWARE_LOOPBACK: { ptszIfType = MakeString(g_hModule, STRING_LOOPBACK); break; } case IF_TYPE_SLIP: { ptszIfType = MakeString(g_hModule, STRING_SLIP); break; } case IF_TYPE_OTHER: default: { ptszIfType = MakeString(g_hModule, STRING_OTHER); break; } } switch(ieRow->dwAdminStatus) { case IF_ADMIN_STATUS_UP: { ptszAdmin = MakeString(g_hModule, STRING_UP); break; } case IF_ADMIN_STATUS_TESTING: { ptszAdmin = MakeString(g_hModule, STRING_TESTING); break; } case IF_ADMIN_STATUS_DOWN: default: { ptszAdmin = MakeString(g_hModule, STRING_DOWN); break; } } switch(ieRow->dwOperStatus) { case IF_OPER_STATUS_UNREACHABLE: { ptszOper = MakeString(g_hModule, STRING_UNREACHABLE); break; } case IF_OPER_STATUS_DISCONNECTED: { ptszOper = MakeString(g_hModule, STRING_DISCONNECTED); break; } case IF_OPER_STATUS_CONNECTING: { ptszOper = MakeString(g_hModule, STRING_CONNECTING); break; } case IF_OPER_STATUS_CONNECTED: { ptszOper = MakeString(g_hModule, STRING_CONNECTED); break; } case IF_OPER_STATUS_OPERATIONAL: { ptszOper = MakeString(g_hModule, STRING_OPERATIONAL); break; } case IF_OPER_STATUS_NON_OPERATIONAL: default: { ptszOper = MakeString(g_hModule, STRING_NON_OPERATIONAL); break; } } #ifdef UNICODE wcscpy(tszIfName, ieRow->wszName); MultiByteToWideChar(GetConsoleOutputCP(), 0, ieRow->bDescr, -1, tszDescr, MAXLEN_IFDESCR); #else WideCharToMultiByte(GetConsoleOutputCP(), 0, ieRow->wszName, -1, tszIfName, MAX_INTERFACE_NAME_LEN, NULL, NULL); strcpy(tszDescr,ieRow->bDescr); #endif if (ieRow->dwPhysAddrLen == 0) { tszPhysAddr[0] = TEXT('\0'); } else { MakeUnicodePhysAddr(tszPhysAddr,ieRow->bPhysAddr,ieRow->dwPhysAddrLen); } dwSize = sizeof(wszBuffer); IfutlGetInterfaceDescription( tszIfName, wszBuffer, &dwSize ); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_INTERFACE, ieRow->dwIndex, wszBuffer, tszIfName, ptszIfType, ieRow->dwMtu, ieRow->dwSpeed, tszPhysAddr, ptszAdmin, ptszOper, ieRow->dwLastChange, ieRow->dwInOctets, ieRow->dwInUcastPkts, ieRow->dwInNUcastPkts, ieRow->dwInDiscards, ieRow->dwInErrors, ieRow->dwInUnknownProtos, ieRow->dwOutOctets, ieRow->dwOutUcastPkts, ieRow->dwOutNUcastPkts, ieRow->dwOutDiscards, ieRow->dwOutErrors, ieRow->dwOutQLen, tszDescr); FreeString(ptszIfType); FreeString(ptszAdmin); FreeString(ptszOper); } VOID PrintIcmp( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints ICMP information. Arguments: Return Value: --*/ { PMIB_ICMP lprpcIcmp = (PMIB_ICMP)(prpcInfo->rgbyData); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_ICMP, lprpcIcmp->stats.icmpInStats.dwMsgs, lprpcIcmp->stats.icmpInStats.dwErrors, lprpcIcmp->stats.icmpInStats.dwDestUnreachs, lprpcIcmp->stats.icmpInStats.dwTimeExcds, lprpcIcmp->stats.icmpInStats.dwParmProbs, lprpcIcmp->stats.icmpInStats.dwSrcQuenchs, lprpcIcmp->stats.icmpInStats.dwRedirects, lprpcIcmp->stats.icmpInStats.dwEchos, lprpcIcmp->stats.icmpInStats.dwEchoReps, lprpcIcmp->stats.icmpInStats.dwTimestamps, lprpcIcmp->stats.icmpInStats.dwTimestampReps, lprpcIcmp->stats.icmpInStats.dwAddrMasks, lprpcIcmp->stats.icmpInStats.dwAddrMaskReps, lprpcIcmp->stats.icmpOutStats.dwMsgs, lprpcIcmp->stats.icmpOutStats.dwErrors, lprpcIcmp->stats.icmpOutStats.dwDestUnreachs, lprpcIcmp->stats.icmpOutStats.dwTimeExcds, lprpcIcmp->stats.icmpOutStats.dwParmProbs, lprpcIcmp->stats.icmpOutStats.dwSrcQuenchs, lprpcIcmp->stats.icmpOutStats.dwRedirects, lprpcIcmp->stats.icmpOutStats.dwEchos, lprpcIcmp->stats.icmpOutStats.dwEchoReps, lprpcIcmp->stats.icmpOutStats.dwTimestamps, lprpcIcmp->stats.icmpOutStats.dwTimestampReps, lprpcIcmp->stats.icmpOutStats.dwAddrMasks, lprpcIcmp->stats.icmpOutStats.dwAddrMaskReps); } VOID PrintUdpStats( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints UDP statistics. Arguments: Return Value: --*/ { PMIB_UDPSTATS lprpcUdp = (PMIB_UDPSTATS)(prpcInfo->rgbyData); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_UDP_STATS, lprpcUdp->dwInDatagrams, lprpcUdp->dwNoPorts, lprpcUdp->dwInErrors, lprpcUdp->dwOutDatagrams); } VOID PrintUdpTable( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints UDP table information. Arguments: Return Value: --*/ { PMIB_UDPTABLE lprpcTable = (PMIB_UDPTABLE)(prpcInfo->rgbyData); TCHAR tszAddr[ADDR_LENGTH + 1]; DWORD i; DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_UDP_ENTRY_HDR); if(lprpcTable->dwNumEntries is 0) { DisplayMessageToConsole(g_hModule, g_hConsole,MSG_IP_NO_ENTRIES); return; } for(i = 0; i < lprpcTable->dwNumEntries; i++) { MakeUnicodeIpAddr(tszAddr, inet_ntoa(*((struct in_addr *)(&lprpcTable->table[i].dwLocalAddr)))); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_UDP_ENTRY, tszAddr, ntohs((WORD)lprpcTable->table[i].dwLocalPort)); } } VOID PrintUdpRow( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints UDP row information. Arguments: Return Value: --*/ { PMIB_UDPROW ueRow = (PMIB_UDPROW)(prpcInfo->rgbyData); TCHAR tszAddr[ADDR_LENGTH + 1]; DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_UDP_ENTRY_HDR); MakeUnicodeIpAddr(tszAddr,inet_ntoa(*((struct in_addr *) (&ueRow->dwLocalAddr)))); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_UDP_ENTRY, tszAddr, ntohs((WORD)ueRow->dwLocalPort)); } VOID PrintTcpStats( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints TCP Statistics Arguments: Return Value: --*/ { PMIB_TCPSTATS lprpcTcp = (PMIB_TCPSTATS)(prpcInfo->rgbyData); PTCHAR ptszMaxConn, ptszAlgo; switch(lprpcTcp->dwRtoAlgorithm) { case MIB_TCP_RTO_CONSTANT: { ptszAlgo = MakeString(g_hModule, STRING_CONSTANT); break; } case MIB_TCP_RTO_RSRE: { ptszAlgo = MakeString(g_hModule, STRING_RSRE); break; } case MIB_TCP_RTO_VANJ: { ptszAlgo = MakeString(g_hModule, STRING_VANJ); break; } case MIB_TCP_RTO_OTHER: default: { ptszAlgo = MakeString(g_hModule, STRING_OTHER); break; } } if(lprpcTcp->dwMaxConn is MIB_TCP_MAXCONN_DYNAMIC) { ptszMaxConn = MakeString(g_hModule, STRING_DYNAMIC); } else { ptszMaxConn = HeapAlloc(GetProcessHeap(),0,20); if(ptszMaxConn is NULL) { return; } _stprintf(ptszMaxConn,TEXT("%d"),lprpcTcp->dwMaxConn); } DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_TCP_STATS, ptszAlgo, lprpcTcp->dwRtoMin, lprpcTcp->dwRtoMax, ptszMaxConn, lprpcTcp->dwActiveOpens, lprpcTcp->dwPassiveOpens, lprpcTcp->dwAttemptFails, lprpcTcp->dwEstabResets, lprpcTcp->dwCurrEstab, lprpcTcp->dwInSegs, lprpcTcp->dwOutSegs, lprpcTcp->dwRetransSegs, lprpcTcp->dwInErrs, lprpcTcp->dwOutRsts); FreeString(ptszAlgo); if(lprpcTcp->dwMaxConn is MIB_TCP_MAXCONN_DYNAMIC) { FreeString(ptszMaxConn); } else { HeapFree(GetProcessHeap,0,ptszMaxConn); } } VOID PrintTcpTable( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints TCP table information. Arguments: Return Value: --*/ { PMIB_TCPTABLE lprpcTable = (PMIB_TCPTABLE)(prpcInfo->rgbyData); TCHAR tszLAddr[ADDR_LENGTH + 1], tszRAddr[ADDR_LENGTH + 1]; PTCHAR ptszState; DWORD i; DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_TCP_ENTRY_HDR); if(lprpcTable->dwNumEntries is 0) { DisplayMessageToConsole(g_hModule, g_hConsole,MSG_IP_NO_ENTRIES); return; } for(i = 0; i < lprpcTable->dwNumEntries; i++) { switch(lprpcTable->table[i].dwState) { case MIB_TCP_STATE_CLOSED: { ptszState = MakeString(g_hModule, STRING_CLOSED); break; } case MIB_TCP_STATE_LISTEN: { ptszState = MakeString(g_hModule, STRING_LISTEN); break; } case MIB_TCP_STATE_SYN_SENT: { ptszState = MakeString(g_hModule, STRING_SYN_SENT); break; } case MIB_TCP_STATE_SYN_RCVD: { ptszState = MakeString(g_hModule, STRING_SYN_RCVD); break; } case MIB_TCP_STATE_ESTAB: { ptszState = MakeString(g_hModule, STRING_ESTAB); break; } case MIB_TCP_STATE_FIN_WAIT1: { ptszState = MakeString(g_hModule, STRING_FIN_WAIT1); break; } case MIB_TCP_STATE_FIN_WAIT2: { ptszState = MakeString(g_hModule, STRING_FIN_WAIT2); break; } case MIB_TCP_STATE_CLOSE_WAIT: { ptszState = MakeString(g_hModule, STRING_CLOSE_WAIT); break; } case MIB_TCP_STATE_CLOSING: { ptszState = MakeString(g_hModule, STRING_CLOSING); break; } case MIB_TCP_STATE_LAST_ACK: { ptszState = MakeString(g_hModule, STRING_LAST_ACK); break; } case MIB_TCP_STATE_TIME_WAIT: { ptszState = MakeString(g_hModule, STRING_TIME_WAIT); break; } case MIB_TCP_STATE_DELETE_TCB : { ptszState = MakeString(g_hModule, STRING_DELETE_TCB); break; } } MakeUnicodeIpAddr(tszLAddr, inet_ntoa(*((struct in_addr *) (&lprpcTable->table[i].dwLocalAddr)))); MakeUnicodeIpAddr(tszRAddr, inet_ntoa(*((struct in_addr *) (&lprpcTable->table[i].dwRemoteAddr)))); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_TCP_ENTRY, tszLAddr, ntohs((WORD)lprpcTable->table[i].dwLocalPort), tszRAddr, ntohs((WORD)lprpcTable->table[i].dwRemotePort), ptszState); FreeString(ptszState); } } VOID PrintTcpRow( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints TCP row information. Arguments: Return Value: --*/ { PMIB_TCPROW tcteRow = (PMIB_TCPROW)(prpcInfo->rgbyData); TCHAR tszLAddr[ADDR_LENGTH + 1], tszRAddr[ADDR_LENGTH + 1]; PTCHAR ptszState; DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_TCP_ENTRY_HDR); switch(tcteRow->dwState) { case MIB_TCP_STATE_CLOSED: { ptszState = MakeString(g_hModule, STRING_CLOSED); break; } case MIB_TCP_STATE_LISTEN: { ptszState = MakeString(g_hModule, STRING_LISTEN); break; } case MIB_TCP_STATE_SYN_SENT: { ptszState = MakeString(g_hModule, STRING_SYN_SENT); break; } case MIB_TCP_STATE_SYN_RCVD: { ptszState = MakeString(g_hModule, STRING_SYN_RCVD); break; } case MIB_TCP_STATE_ESTAB: { ptszState = MakeString(g_hModule, STRING_ESTAB); break; } case MIB_TCP_STATE_FIN_WAIT1: { ptszState = MakeString(g_hModule, STRING_FIN_WAIT1); break; } case MIB_TCP_STATE_FIN_WAIT2: { ptszState = MakeString(g_hModule, STRING_FIN_WAIT2); break; } case MIB_TCP_STATE_CLOSE_WAIT: { ptszState = MakeString(g_hModule, STRING_CLOSE_WAIT); break; } case MIB_TCP_STATE_CLOSING: { ptszState = MakeString(g_hModule, STRING_CLOSING); break; } case MIB_TCP_STATE_LAST_ACK: { ptszState = MakeString(g_hModule, STRING_LAST_ACK); break; } case MIB_TCP_STATE_TIME_WAIT: { ptszState = MakeString(g_hModule, STRING_TIME_WAIT); break; } case MIB_TCP_STATE_DELETE_TCB : { ptszState = MakeString(g_hModule, STRING_DELETE_TCB); break; } } MakeUnicodeIpAddr(tszLAddr, inet_ntoa(*((struct in_addr *) (&tcteRow->dwLocalAddr)))); MakeUnicodeIpAddr(tszRAddr, inet_ntoa(*((struct in_addr *) (&tcteRow->dwRemoteAddr)))); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_TCP_ENTRY, tszLAddr, ntohs((WORD)tcteRow->dwLocalPort), tszRAddr, ntohs((WORD)tcteRow->dwRemotePort), ptszState); FreeString(ptszState); } VOID PrintIpStats( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) { PMIB_IPSTATS lprpcIp = (PMIB_IPSTATS)(prpcInfo->rgbyData); PTCHAR ptszForw; if(lprpcIp->dwForwarding is MIB_IP_FORWARDING) { ptszForw = MakeString(g_hModule, STRING_ENABLED); } else { ptszForw = MakeString(g_hModule, STRING_DISABLED); } DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_STATS, ptszForw, lprpcIp->dwDefaultTTL, lprpcIp->dwInReceives, lprpcIp->dwInHdrErrors, lprpcIp->dwInAddrErrors, lprpcIp->dwForwDatagrams, lprpcIp->dwInUnknownProtos, lprpcIp->dwInDiscards, lprpcIp->dwInDelivers, lprpcIp->dwOutRequests, lprpcIp->dwRoutingDiscards, lprpcIp->dwOutDiscards, lprpcIp->dwOutNoRoutes, lprpcIp->dwReasmTimeout, lprpcIp->dwReasmReqds, lprpcIp->dwReasmOks, lprpcIp->dwReasmFails, lprpcIp->dwFragOks, lprpcIp->dwFragFails, lprpcIp->dwFragCreates); FreeString(ptszForw); } VOID PrintIpAddrTable( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints IP address table. Arguments: Return Value: --*/ { WCHAR wszFriendlyName[MAX_INTERFACE_NAME_LEN + 1]; PMIB_IPADDRTABLE lprpcTable; TCHAR tszAddr[ADDR_LENGTH + 1], tszMask[ADDR_LENGTH + 1]; DWORD i, dwErr = NO_ERROR; lprpcTable = (PMIB_IPADDRTABLE)(prpcInfo->rgbyData); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_ADDR_HDR); if(lprpcTable->dwNumEntries is 0) { DisplayMessageToConsole(g_hModule, g_hConsole,MSG_IP_NO_ENTRIES); return; } for(i = 0; i < lprpcTable->dwNumEntries; i++) { MakeUnicodeIpAddr(tszAddr, inet_ntoa(*((struct in_addr *) (&lprpcTable->table[i].dwAddr)))); MakeUnicodeIpAddr(tszMask, inet_ntoa(*((struct in_addr *) (&lprpcTable->table[i].dwMask)))); dwErr = IfutlGetFriendlyNameFromIfIndex( hMibServer, lprpcTable->table[i].dwIndex, wszFriendlyName, sizeof(wszFriendlyName) ); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_ADDR_ENTRY, tszAddr, tszMask, lprpcTable->table[i].dwBCastAddr, lprpcTable->table[i].dwReasmSize, wszFriendlyName ); } } VOID PrintIpAddrRow( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints IP address table row. Arguments: Return Value: --*/ { WCHAR wszFriendlyName[MAX_INTERFACE_NAME_LEN + 1]; PMIB_IPADDRROW iaeRow = (PMIB_IPADDRROW)(prpcInfo->rgbyData); DWORD dwErr = NO_ERROR; TCHAR tszAddr[ADDR_LENGTH + 1], tszMask[ADDR_LENGTH + 1]; MakeUnicodeIpAddr(tszAddr, inet_ntoa(*((struct in_addr *)(&iaeRow->dwAddr)))); MakeUnicodeIpAddr(tszMask, inet_ntoa(*((struct in_addr *)(&iaeRow->dwMask)))); dwErr = IfutlGetFriendlyNameFromIfIndex( hMibServer, iaeRow->dwIndex, wszFriendlyName, sizeof(wszFriendlyName) ); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_ADDR_HDR); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_ADDR_ENTRY, tszAddr, tszMask, iaeRow->dwBCastAddr, iaeRow->dwReasmSize, wszFriendlyName ); } VOID PrintIpNetTable( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints IP net table information. Arguments: Return Value: --*/ { WCHAR wszFriendlyName[MAX_INTERFACE_NAME_LEN + 1]; PMIB_IPNETTABLE lprpcTable = (PMIB_IPNETTABLE)(prpcInfo->rgbyData); TCHAR tszPhysAddr[DISPLAYLEN_PHYSADDR + 1], tszIpAddr[ADDR_LENGTH + 1]; PTCHAR ptszType; DWORD i, dwErr = NO_ERROR; DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_NET_HDR); if(lprpcTable->dwNumEntries is 0) { DisplayMessageToConsole(g_hModule, g_hConsole,MSG_IP_NO_ENTRIES); return; } for(i = 0; i < lprpcTable->dwNumEntries; i++) { switch(lprpcTable->table[i].dwType) { case MIB_IPNET_TYPE_INVALID: { ptszType = MakeString(g_hModule, STRING_INVALID); break; } case MIB_IPNET_TYPE_DYNAMIC: { ptszType = MakeString(g_hModule, STRING_DYNAMIC); break; } case MIB_IPNET_TYPE_STATIC: { ptszType = MakeString(g_hModule, STRING_STATIC); break; } case MIB_IPNET_TYPE_OTHER: default: { ptszType = MakeString(g_hModule, STRING_OTHER); break; } } MakeUnicodeIpAddr(tszIpAddr, inet_ntoa(*((struct in_addr *) (&lprpcTable->table[i].dwAddr)))); MakeUnicodePhysAddr(tszPhysAddr, lprpcTable->table[i].bPhysAddr, lprpcTable->table[i].dwPhysAddrLen); dwErr = IfutlGetFriendlyNameFromIfIndex( hMibServer, lprpcTable->table[i].dwIndex, wszFriendlyName, sizeof(wszFriendlyName) ); if (dwErr != NO_ERROR) { wcscpy(wszFriendlyName, L"?"); } DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_NET_ENTRY, wszFriendlyName, tszPhysAddr, tszIpAddr, ptszType); FreeString(ptszType); } } VOID PrintIpNetRow( MIB_SERVER_HANDLE hMibServer, PMIB_OPAQUE_INFO prpcInfo ) /*++ Routine Description: Prints IP net row information. Arguments: Return Value: --*/ { WCHAR wszFriendlyName[MAX_INTERFACE_NAME_LEN + 1]; PMIB_IPNETROW inmeRow = (PMIB_IPNETROW)(prpcInfo->rgbyData); TCHAR tszPhysAddr[DISPLAYLEN_PHYSADDR + 1], tszIpAddr[ADDR_LENGTH + 1]; PTCHAR ptszType; DWORD dwErr = NO_ERROR; switch(inmeRow->dwType) { case MIB_IPNET_TYPE_INVALID: { ptszType = MakeString(g_hModule, STRING_INVALID); break; } case MIB_IPNET_TYPE_DYNAMIC: { ptszType = MakeString(g_hModule, STRING_DYNAMIC); break; } case MIB_IPNET_TYPE_STATIC: { ptszType = MakeString(g_hModule, STRING_STATIC); break; } case MIB_IPNET_TYPE_OTHER: default: { ptszType = MakeString(g_hModule, STRING_OTHER); break; } } MakeUnicodeIpAddr(tszIpAddr, inet_ntoa(*((struct in_addr *)(&inmeRow->dwAddr)))); MakeUnicodePhysAddr(tszPhysAddr,inmeRow->bPhysAddr,inmeRow->dwPhysAddrLen); dwErr = IfutlGetFriendlyNameFromIfIndex( hMibServer, inmeRow->dwIndex, wszFriendlyName, sizeof(wszFriendlyName) ); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_NET_HDR); DisplayMessageToConsole(g_hModule, g_hConsole,MSG_MIB_IP_NET_ENTRY, wszFriendlyName, tszPhysAddr, tszIpAddr, ptszType); FreeString(ptszType); }