/* * iphlpapi dll test * * Copyright (C) 2003 Juan Lang * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ /* * Some observations that an automated test can't produce: * An adapter index is a key for an adapter. That is, if an index is returned * from one API, that same index may be used successfully in another API, as * long as the adapter remains present. * If the adapter is removed and reinserted, however, the index may change (and * indeed it does change on Win2K). * * The Name field of the IP_ADAPTER_INDEX_MAP entries returned by * GetInterfaceInfo is declared as a wide string, but the bytes are actually * an ASCII string on some versions of the IP helper API under Win9x. This was * apparently an MS bug, it's corrected in later versions. * * The DomainName field of FIXED_INFO isn't NULL-terminated on Win98. */ #include #include "winsock2.h" #include "windef.h" #include "winbase.h" #include "ws2tcpip.h" #include "windns.h" #include "iphlpapi.h" #include "icmpapi.h" #include "iprtrmib.h" #include "netioapi.h" #include "wine/test.h" #include #include #define ICMP_MINLEN 8 /* copied from dlls/iphlpapi/ip_icmp.h file */ static HMODULE hLibrary = NULL; static DWORD (WINAPI *pAllocateAndGetTcpExTableFromStack)(void**,BOOL,HANDLE,DWORD,DWORD); static DWORD (WINAPI *pGetIfEntry2)(PMIB_IF_ROW2); static DWORD (WINAPI *pGetIfTable2)(PMIB_IF_TABLE2*); static DWORD (WINAPI *pGetIfTable2Ex)(MIB_IF_TABLE_LEVEL,PMIB_IF_TABLE2*); static DWORD (WINAPI *pGetTcp6Table)(PMIB_TCP6TABLE,PDWORD,BOOL); static DWORD (WINAPI *pGetUdp6Table)(PMIB_UDP6TABLE,PDWORD,BOOL); static DWORD (WINAPI *pGetUnicastIpAddressEntry)(MIB_UNICASTIPADDRESS_ROW*); static DWORD (WINAPI *pGetUnicastIpAddressTable)(ADDRESS_FAMILY,MIB_UNICASTIPADDRESS_TABLE**); static DWORD (WINAPI *pGetExtendedTcpTable)(PVOID,PDWORD,BOOL,ULONG,TCP_TABLE_CLASS,ULONG); static DWORD (WINAPI *pGetExtendedUdpTable)(PVOID,PDWORD,BOOL,ULONG,UDP_TABLE_CLASS,ULONG); static DWORD (WINAPI *pCreateSortedAddressPairs)(const PSOCKADDR_IN6,ULONG,const PSOCKADDR_IN6,ULONG,ULONG, PSOCKADDR_IN6_PAIR*,ULONG*); static void (WINAPI *pFreeMibTable)(void*); static DWORD (WINAPI *pConvertInterfaceGuidToLuid)(const GUID*,NET_LUID*); static DWORD (WINAPI *pConvertInterfaceIndexToLuid)(NET_IFINDEX,NET_LUID*); static DWORD (WINAPI *pConvertInterfaceLuidToGuid)(const NET_LUID*,GUID*); static DWORD (WINAPI *pConvertInterfaceLuidToIndex)(const NET_LUID*,NET_IFINDEX*); static DWORD (WINAPI *pConvertInterfaceLuidToNameW)(const NET_LUID*,WCHAR*,SIZE_T); static DWORD (WINAPI *pConvertInterfaceLuidToNameA)(const NET_LUID*,char*,SIZE_T); static DWORD (WINAPI *pConvertInterfaceNameToLuidA)(const char*,NET_LUID*); static DWORD (WINAPI *pConvertInterfaceNameToLuidW)(const WCHAR*,NET_LUID*); static DWORD (WINAPI *pConvertLengthToIpv4Mask)(ULONG,ULONG*); static DWORD (WINAPI *pParseNetworkString)(const WCHAR*,DWORD,NET_ADDRESS_INFO*,USHORT*,BYTE*); static DWORD (WINAPI *pNotifyUnicastIpAddressChange)(ADDRESS_FAMILY, PUNICAST_IPADDRESS_CHANGE_CALLBACK, PVOID, BOOLEAN, HANDLE *); static DWORD (WINAPI *pCancelMibChangeNotify2)(HANDLE); static PCHAR (WINAPI *pif_indextoname)(NET_IFINDEX,PCHAR); static NET_IFINDEX (WINAPI *pif_nametoindex)(const char*); static void loadIPHlpApi(void) { hLibrary = LoadLibraryA("iphlpapi.dll"); if (hLibrary) { pAllocateAndGetTcpExTableFromStack = (void *)GetProcAddress(hLibrary, "AllocateAndGetTcpExTableFromStack"); pGetIfEntry2 = (void *)GetProcAddress(hLibrary, "GetIfEntry2"); pGetIfTable2 = (void *)GetProcAddress(hLibrary, "GetIfTable2"); pGetIfTable2Ex = (void *)GetProcAddress(hLibrary, "GetIfTable2Ex"); pGetTcp6Table = (void *)GetProcAddress(hLibrary, "GetTcp6Table"); pGetUdp6Table = (void *)GetProcAddress(hLibrary, "GetUdp6Table"); pGetUnicastIpAddressEntry = (void *)GetProcAddress(hLibrary, "GetUnicastIpAddressEntry"); pGetUnicastIpAddressTable = (void *)GetProcAddress(hLibrary, "GetUnicastIpAddressTable"); pGetExtendedTcpTable = (void *)GetProcAddress(hLibrary, "GetExtendedTcpTable"); pGetExtendedUdpTable = (void *)GetProcAddress(hLibrary, "GetExtendedUdpTable"); pCreateSortedAddressPairs = (void *)GetProcAddress(hLibrary, "CreateSortedAddressPairs"); pFreeMibTable = (void *)GetProcAddress(hLibrary, "FreeMibTable"); pConvertInterfaceGuidToLuid = (void *)GetProcAddress(hLibrary, "ConvertInterfaceGuidToLuid"); pConvertInterfaceIndexToLuid = (void *)GetProcAddress(hLibrary, "ConvertInterfaceIndexToLuid"); pConvertInterfaceLuidToGuid = (void *)GetProcAddress(hLibrary, "ConvertInterfaceLuidToGuid"); pConvertInterfaceLuidToIndex = (void *)GetProcAddress(hLibrary, "ConvertInterfaceLuidToIndex"); pConvertInterfaceLuidToNameA = (void *)GetProcAddress(hLibrary, "ConvertInterfaceLuidToNameA"); pConvertInterfaceLuidToNameW = (void *)GetProcAddress(hLibrary, "ConvertInterfaceLuidToNameW"); pConvertInterfaceNameToLuidA = (void *)GetProcAddress(hLibrary, "ConvertInterfaceNameToLuidA"); pConvertInterfaceNameToLuidW = (void *)GetProcAddress(hLibrary, "ConvertInterfaceNameToLuidW"); pConvertLengthToIpv4Mask = (void *)GetProcAddress(hLibrary, "ConvertLengthToIpv4Mask"); pParseNetworkString = (void *)GetProcAddress(hLibrary, "ParseNetworkString"); pif_indextoname = (void *)GetProcAddress(hLibrary, "if_indextoname"); pif_nametoindex = (void *)GetProcAddress(hLibrary, "if_nametoindex"); pNotifyUnicastIpAddressChange = (void *)GetProcAddress(hLibrary, "NotifyUnicastIpAddressChange"); pCancelMibChangeNotify2 = (void *)GetProcAddress(hLibrary, "CancelMibChangeNotify2"); } } static void freeIPHlpApi(void) { FreeLibrary(hLibrary); } /* replacement for inet_ntoa */ static const char *ntoa( DWORD ip ) { static char buffers[4][16]; static int i = -1; ip = htonl(ip); i = (i + 1) % ARRAY_SIZE(buffers); sprintf( buffers[i], "%u.%u.%u.%u", (ip >> 24) & 0xff, (ip >> 16) & 0xff, (ip >> 8) & 0xff, ip & 0xff ); return buffers[i]; } static const char *ntoa6( IN6_ADDR *ip ) { static char buffers[4][40]; static int i = -1; unsigned short *p = ip->u.Word; i = (i + 1) % ARRAY_SIZE(buffers); sprintf( buffers[i], "%x:%x:%x:%x:%x:%x:%x:%x", htons(p[0]), htons(p[1]), htons(p[2]), htons(p[3]), htons(p[4]), htons(p[5]), htons(p[6]), htons(p[7]) ); return buffers[i]; } /* still-to-be-tested 98-only functions: GetUniDirectionalAdapterInfo */ static void testWin98OnlyFunctions(void) { } static void testGetNumberOfInterfaces(void) { DWORD apiReturn, numInterfaces; /* Crashes on Vista */ if (0) { apiReturn = GetNumberOfInterfaces(NULL); if (apiReturn == ERROR_NOT_SUPPORTED) return; ok(apiReturn == ERROR_INVALID_PARAMETER, "GetNumberOfInterfaces(NULL) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); } apiReturn = GetNumberOfInterfaces(&numInterfaces); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetNumberOfInterfaces is not supported\n"); return; } ok(apiReturn == NO_ERROR, "GetNumberOfInterfaces returned %d, expected 0\n", apiReturn); } static void testGetIfEntry(DWORD index) { DWORD apiReturn; MIB_IFROW row; memset(&row, 0, sizeof(row)); apiReturn = GetIfEntry(NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIfEntry is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIfEntry(NULL) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); row.dwIndex = -1; /* hope that's always bogus! */ apiReturn = GetIfEntry(&row); ok(apiReturn == ERROR_INVALID_DATA || apiReturn == ERROR_FILE_NOT_FOUND /* Vista */, "GetIfEntry(bogus row) returned %d, expected ERROR_INVALID_DATA or ERROR_FILE_NOT_FOUND\n", apiReturn); row.dwIndex = index; apiReturn = GetIfEntry(&row); ok(apiReturn == NO_ERROR, "GetIfEntry returned %d, expected NO_ERROR\n", apiReturn); } static void testGetIpAddrTable(void) { DWORD apiReturn; ULONG dwSize = 0; apiReturn = GetIpAddrTable(NULL, NULL, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIpAddrTable is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIpAddrTable(NULL, NULL, FALSE) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIpAddrTable(NULL, &dwSize, FALSE); ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetIpAddrTable(NULL, &dwSize, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_IPADDRTABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = GetIpAddrTable(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR, "GetIpAddrTable(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && buf->dwNumEntries) { int i; testGetIfEntry(buf->table[0].dwIndex); for (i = 0; i < buf->dwNumEntries; i++) { ok (buf->table[i].wType != 0, "Test[%d]: expected wType > 0\n", i); trace("Entry[%d]: addr %s, dwIndex %u, wType 0x%x\n", i, ntoa(buf->table[i].dwAddr), buf->table[i].dwIndex, buf->table[i].wType); } } HeapFree(GetProcessHeap(), 0, buf); } } static void testGetIfTable(void) { DWORD apiReturn; ULONG dwSize = 0; apiReturn = GetIfTable(NULL, NULL, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIfTable is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIfTable(NULL, NULL, FALSE) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIfTable(NULL, &dwSize, FALSE); ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetIfTable(NULL, &dwSize, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_IFTABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = GetIfTable(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR, "GetIfTable(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { DWORD i, j; char name[MAX_INTERFACE_NAME_LEN]; trace( "interface table: %u entries\n", buf->dwNumEntries ); for (i = 0; i < buf->dwNumEntries; i++) { MIB_IFROW *row = &buf->table[i]; WideCharToMultiByte( CP_ACP, 0, row->wszName, -1, name, MAX_INTERFACE_NAME_LEN, NULL, NULL ); trace( "%u: '%s' type %u mtu %u speed %u phys", row->dwIndex, name, row->dwType, row->dwMtu, row->dwSpeed ); for (j = 0; j < row->dwPhysAddrLen; j++) printf( " %02x", row->bPhysAddr[j] ); printf( "\n" ); trace( " in: bytes %u upkts %u nupkts %u disc %u err %u unk %u\n", row->dwInOctets, row->dwInUcastPkts, row->dwInNUcastPkts, row->dwInDiscards, row->dwInErrors, row->dwInUnknownProtos ); trace( " out: bytes %u upkts %u nupkts %u disc %u err %u\n", row->dwOutOctets, row->dwOutUcastPkts, row->dwOutNUcastPkts, row->dwOutDiscards, row->dwOutErrors ); } } HeapFree(GetProcessHeap(), 0, buf); } } static void testGetIpForwardTable(void) { DWORD apiReturn; ULONG dwSize = 0; apiReturn = GetIpForwardTable(NULL, NULL, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIpForwardTable is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIpForwardTable(NULL, NULL, FALSE) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIpForwardTable(NULL, &dwSize, FALSE); ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetIpForwardTable(NULL, &dwSize, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_IPFORWARDTABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = GetIpForwardTable(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR, "GetIpForwardTable(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR) { DWORD i; trace( "IP forward table: %u entries\n", buf->dwNumEntries ); for (i = 0; i < buf->dwNumEntries; i++) { if (!U1(buf->table[i]).dwForwardDest) /* Default route */ { todo_wine ok (U1(buf->table[i]).dwForwardProto == MIB_IPPROTO_NETMGMT, "Unexpected dwForwardProto %d\n", U1(buf->table[i]).dwForwardProto); ok (U1(buf->table[i]).dwForwardType == MIB_IPROUTE_TYPE_INDIRECT, "Unexpected dwForwardType %d\n", U1(buf->table[i]).dwForwardType); } else { /* In general we should get MIB_IPPROTO_LOCAL but does not work * for Vista, 2008 and 7. */ ok (U1(buf->table[i]).dwForwardProto == MIB_IPPROTO_LOCAL || broken(U1(buf->table[i]).dwForwardProto == MIB_IPPROTO_NETMGMT), "Unexpected dwForwardProto %d\n", U1(buf->table[i]).dwForwardProto); /* The forward type varies depending on the address and gateway * value so it is not worth testing in this case. */ } trace( "%u: dest %s mask %s gw %s if %u type %u proto %u\n", i, ntoa( buf->table[i].dwForwardDest ), ntoa( buf->table[i].dwForwardMask ), ntoa( buf->table[i].dwForwardNextHop ), buf->table[i].dwForwardIfIndex, U1(buf->table[i]).dwForwardType, U1(buf->table[i]).dwForwardProto ); } } HeapFree(GetProcessHeap(), 0, buf); } } static void testGetIpNetTable(void) { DWORD apiReturn; ULONG dwSize = 0; apiReturn = GetIpNetTable(NULL, NULL, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIpNetTable is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIpNetTable(NULL, NULL, FALSE) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIpNetTable(NULL, &dwSize, FALSE); ok(apiReturn == ERROR_NO_DATA || apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetIpNetTable(NULL, &dwSize, FALSE) returned %d, expected ERROR_NO_DATA or ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_NO_DATA) ; /* empty ARP table's okay */ else if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_IPNETTABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = GetIpNetTable(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR || apiReturn == ERROR_NO_DATA, /* empty ARP table's okay */ "GetIpNetTable(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { DWORD i, j; trace( "IP net table: %u entries\n", buf->dwNumEntries ); for (i = 0; i < buf->dwNumEntries; i++) { trace( "%u: idx %u type %u addr %s phys", i, buf->table[i].dwIndex, U(buf->table[i]).dwType, ntoa( buf->table[i].dwAddr )); for (j = 0; j < buf->table[i].dwPhysAddrLen; j++) printf( " %02x", buf->table[i].bPhysAddr[j] ); printf( "\n" ); } } HeapFree(GetProcessHeap(), 0, buf); } } static void testGetIcmpStatistics(void) { DWORD apiReturn; MIB_ICMP stats; /* Crashes on Vista */ if (0) { apiReturn = GetIcmpStatistics(NULL); if (apiReturn == ERROR_NOT_SUPPORTED) return; ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIcmpStatistics(NULL) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); } apiReturn = GetIcmpStatistics(&stats); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIcmpStatistics is not supported\n"); return; } ok(apiReturn == NO_ERROR, "GetIcmpStatistics returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "ICMP stats: %8s %8s\n", "in", "out" ); trace( " dwMsgs: %8u %8u\n", stats.stats.icmpInStats.dwMsgs, stats.stats.icmpOutStats.dwMsgs ); trace( " dwErrors: %8u %8u\n", stats.stats.icmpInStats.dwErrors, stats.stats.icmpOutStats.dwErrors ); trace( " dwDestUnreachs: %8u %8u\n", stats.stats.icmpInStats.dwDestUnreachs, stats.stats.icmpOutStats.dwDestUnreachs ); trace( " dwTimeExcds: %8u %8u\n", stats.stats.icmpInStats.dwTimeExcds, stats.stats.icmpOutStats.dwTimeExcds ); trace( " dwParmProbs: %8u %8u\n", stats.stats.icmpInStats.dwParmProbs, stats.stats.icmpOutStats.dwParmProbs ); trace( " dwSrcQuenchs: %8u %8u\n", stats.stats.icmpInStats.dwSrcQuenchs, stats.stats.icmpOutStats.dwSrcQuenchs ); trace( " dwRedirects: %8u %8u\n", stats.stats.icmpInStats.dwRedirects, stats.stats.icmpOutStats.dwRedirects ); trace( " dwEchos: %8u %8u\n", stats.stats.icmpInStats.dwEchos, stats.stats.icmpOutStats.dwEchos ); trace( " dwEchoReps: %8u %8u\n", stats.stats.icmpInStats.dwEchoReps, stats.stats.icmpOutStats.dwEchoReps ); trace( " dwTimestamps: %8u %8u\n", stats.stats.icmpInStats.dwTimestamps, stats.stats.icmpOutStats.dwTimestamps ); trace( " dwTimestampReps: %8u %8u\n", stats.stats.icmpInStats.dwTimestampReps, stats.stats.icmpOutStats.dwTimestampReps ); trace( " dwAddrMasks: %8u %8u\n", stats.stats.icmpInStats.dwAddrMasks, stats.stats.icmpOutStats.dwAddrMasks ); trace( " dwAddrMaskReps: %8u %8u\n", stats.stats.icmpInStats.dwAddrMaskReps, stats.stats.icmpOutStats.dwAddrMaskReps ); } } static void testGetIpStatistics(void) { DWORD apiReturn; MIB_IPSTATS stats; apiReturn = GetIpStatistics(NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetIpStatistics is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIpStatistics(NULL) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIpStatistics(&stats); ok(apiReturn == NO_ERROR, "GetIpStatistics returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "IP stats:\n" ); trace( " dwForwarding: %u\n", U(stats).dwForwarding ); trace( " dwDefaultTTL: %u\n", stats.dwDefaultTTL ); trace( " dwInReceives: %u\n", stats.dwInReceives ); trace( " dwInHdrErrors: %u\n", stats.dwInHdrErrors ); trace( " dwInAddrErrors: %u\n", stats.dwInAddrErrors ); trace( " dwForwDatagrams: %u\n", stats.dwForwDatagrams ); trace( " dwInUnknownProtos: %u\n", stats.dwInUnknownProtos ); trace( " dwInDiscards: %u\n", stats.dwInDiscards ); trace( " dwInDelivers: %u\n", stats.dwInDelivers ); trace( " dwOutRequests: %u\n", stats.dwOutRequests ); trace( " dwRoutingDiscards: %u\n", stats.dwRoutingDiscards ); trace( " dwOutDiscards: %u\n", stats.dwOutDiscards ); trace( " dwOutNoRoutes: %u\n", stats.dwOutNoRoutes ); trace( " dwReasmTimeout: %u\n", stats.dwReasmTimeout ); trace( " dwReasmReqds: %u\n", stats.dwReasmReqds ); trace( " dwReasmOks: %u\n", stats.dwReasmOks ); trace( " dwReasmFails: %u\n", stats.dwReasmFails ); trace( " dwFragOks: %u\n", stats.dwFragOks ); trace( " dwFragFails: %u\n", stats.dwFragFails ); trace( " dwFragCreates: %u\n", stats.dwFragCreates ); trace( " dwNumIf: %u\n", stats.dwNumIf ); trace( " dwNumAddr: %u\n", stats.dwNumAddr ); trace( " dwNumRoutes: %u\n", stats.dwNumRoutes ); } } static void testGetTcpStatistics(void) { DWORD apiReturn; MIB_TCPSTATS stats; apiReturn = GetTcpStatistics(NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetTcpStatistics is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetTcpStatistics(NULL) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetTcpStatistics(&stats); ok(apiReturn == NO_ERROR, "GetTcpStatistics returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "TCP stats:\n" ); trace( " dwRtoAlgorithm: %u\n", U(stats).dwRtoAlgorithm ); trace( " dwRtoMin: %u\n", stats.dwRtoMin ); trace( " dwRtoMax: %u\n", stats.dwRtoMax ); trace( " dwMaxConn: %u\n", stats.dwMaxConn ); trace( " dwActiveOpens: %u\n", stats.dwActiveOpens ); trace( " dwPassiveOpens: %u\n", stats.dwPassiveOpens ); trace( " dwAttemptFails: %u\n", stats.dwAttemptFails ); trace( " dwEstabResets: %u\n", stats.dwEstabResets ); trace( " dwCurrEstab: %u\n", stats.dwCurrEstab ); trace( " dwInSegs: %u\n", stats.dwInSegs ); trace( " dwOutSegs: %u\n", stats.dwOutSegs ); trace( " dwRetransSegs: %u\n", stats.dwRetransSegs ); trace( " dwInErrs: %u\n", stats.dwInErrs ); trace( " dwOutRsts: %u\n", stats.dwOutRsts ); trace( " dwNumConns: %u\n", stats.dwNumConns ); } } static void testGetUdpStatistics(void) { DWORD apiReturn; MIB_UDPSTATS stats; apiReturn = GetUdpStatistics(NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetUdpStatistics is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetUdpStatistics(NULL) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetUdpStatistics(&stats); ok(apiReturn == NO_ERROR, "GetUdpStatistics returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "UDP stats:\n" ); trace( " dwInDatagrams: %u\n", stats.dwInDatagrams ); trace( " dwNoPorts: %u\n", stats.dwNoPorts ); trace( " dwInErrors: %u\n", stats.dwInErrors ); trace( " dwOutDatagrams: %u\n", stats.dwOutDatagrams ); trace( " dwNumAddrs: %u\n", stats.dwNumAddrs ); } } static void testGetIcmpStatisticsEx(void) { DWORD apiReturn; MIB_ICMP_EX stats; /* Crashes on Vista */ if (1) { apiReturn = GetIcmpStatisticsEx(NULL, AF_INET); ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIcmpStatisticsEx(NULL, AF_INET) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); } apiReturn = GetIcmpStatisticsEx(&stats, AF_BAN); ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIcmpStatisticsEx(&stats, AF_BAN) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIcmpStatisticsEx(&stats, AF_INET); ok(apiReturn == NO_ERROR, "GetIcmpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { INT i; trace( "ICMP IPv4 Ex stats: %8s %8s\n", "in", "out" ); trace( " dwMsgs: %8u %8u\n", stats.icmpInStats.dwMsgs, stats.icmpOutStats.dwMsgs ); trace( " dwErrors: %8u %8u\n", stats.icmpInStats.dwErrors, stats.icmpOutStats.dwErrors ); for (i = 0; i < 256; i++) trace( " rgdwTypeCount[%3i]: %8u %8u\n", i, stats.icmpInStats.rgdwTypeCount[i], stats.icmpOutStats.rgdwTypeCount[i] ); } apiReturn = GetIcmpStatisticsEx(&stats, AF_INET6); ok(apiReturn == NO_ERROR || broken(apiReturn == ERROR_NOT_SUPPORTED), "GetIcmpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { INT i; trace( "ICMP IPv6 Ex stats: %8s %8s\n", "in", "out" ); trace( " dwMsgs: %8u %8u\n", stats.icmpInStats.dwMsgs, stats.icmpOutStats.dwMsgs ); trace( " dwErrors: %8u %8u\n", stats.icmpInStats.dwErrors, stats.icmpOutStats.dwErrors ); for (i = 0; i < 256; i++) trace( " rgdwTypeCount[%3i]: %8u %8u\n", i, stats.icmpInStats.rgdwTypeCount[i], stats.icmpOutStats.rgdwTypeCount[i] ); } } static void testGetIpStatisticsEx(void) { DWORD apiReturn; MIB_IPSTATS stats; apiReturn = GetIpStatisticsEx(NULL, AF_INET); ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIpStatisticsEx(NULL, AF_INET) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIpStatisticsEx(&stats, AF_BAN); ok(apiReturn == ERROR_INVALID_PARAMETER, "GetIpStatisticsEx(&stats, AF_BAN) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetIpStatisticsEx(&stats, AF_INET); ok(apiReturn == NO_ERROR, "GetIpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "IP IPv4 Ex stats:\n" ); trace( " dwForwarding: %u\n", U(stats).dwForwarding ); trace( " dwDefaultTTL: %u\n", stats.dwDefaultTTL ); trace( " dwInReceives: %u\n", stats.dwInReceives ); trace( " dwInHdrErrors: %u\n", stats.dwInHdrErrors ); trace( " dwInAddrErrors: %u\n", stats.dwInAddrErrors ); trace( " dwForwDatagrams: %u\n", stats.dwForwDatagrams ); trace( " dwInUnknownProtos: %u\n", stats.dwInUnknownProtos ); trace( " dwInDiscards: %u\n", stats.dwInDiscards ); trace( " dwInDelivers: %u\n", stats.dwInDelivers ); trace( " dwOutRequests: %u\n", stats.dwOutRequests ); trace( " dwRoutingDiscards: %u\n", stats.dwRoutingDiscards ); trace( " dwOutDiscards: %u\n", stats.dwOutDiscards ); trace( " dwOutNoRoutes: %u\n", stats.dwOutNoRoutes ); trace( " dwReasmTimeout: %u\n", stats.dwReasmTimeout ); trace( " dwReasmReqds: %u\n", stats.dwReasmReqds ); trace( " dwReasmOks: %u\n", stats.dwReasmOks ); trace( " dwReasmFails: %u\n", stats.dwReasmFails ); trace( " dwFragOks: %u\n", stats.dwFragOks ); trace( " dwFragFails: %u\n", stats.dwFragFails ); trace( " dwFragCreates: %u\n", stats.dwFragCreates ); trace( " dwNumIf: %u\n", stats.dwNumIf ); trace( " dwNumAddr: %u\n", stats.dwNumAddr ); trace( " dwNumRoutes: %u\n", stats.dwNumRoutes ); } apiReturn = GetIpStatisticsEx(&stats, AF_INET6); ok(apiReturn == NO_ERROR || broken(apiReturn == ERROR_NOT_SUPPORTED), "GetIpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "IP IPv6 Ex stats:\n" ); trace( " dwForwarding: %u\n", U(stats).dwForwarding ); trace( " dwDefaultTTL: %u\n", stats.dwDefaultTTL ); trace( " dwInReceives: %u\n", stats.dwInReceives ); trace( " dwInHdrErrors: %u\n", stats.dwInHdrErrors ); trace( " dwInAddrErrors: %u\n", stats.dwInAddrErrors ); trace( " dwForwDatagrams: %u\n", stats.dwForwDatagrams ); trace( " dwInUnknownProtos: %u\n", stats.dwInUnknownProtos ); trace( " dwInDiscards: %u\n", stats.dwInDiscards ); trace( " dwInDelivers: %u\n", stats.dwInDelivers ); trace( " dwOutRequests: %u\n", stats.dwOutRequests ); trace( " dwRoutingDiscards: %u\n", stats.dwRoutingDiscards ); trace( " dwOutDiscards: %u\n", stats.dwOutDiscards ); trace( " dwOutNoRoutes: %u\n", stats.dwOutNoRoutes ); trace( " dwReasmTimeout: %u\n", stats.dwReasmTimeout ); trace( " dwReasmReqds: %u\n", stats.dwReasmReqds ); trace( " dwReasmOks: %u\n", stats.dwReasmOks ); trace( " dwReasmFails: %u\n", stats.dwReasmFails ); trace( " dwFragOks: %u\n", stats.dwFragOks ); trace( " dwFragFails: %u\n", stats.dwFragFails ); trace( " dwFragCreates: %u\n", stats.dwFragCreates ); trace( " dwNumIf: %u\n", stats.dwNumIf ); trace( " dwNumAddr: %u\n", stats.dwNumAddr ); trace( " dwNumRoutes: %u\n", stats.dwNumRoutes ); } } static void testGetTcpStatisticsEx(void) { DWORD apiReturn; MIB_TCPSTATS stats; apiReturn = GetTcpStatisticsEx(NULL, AF_INET); ok(apiReturn == ERROR_INVALID_PARAMETER, "GetTcpStatisticsEx(NULL, AF_INET); returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetTcpStatisticsEx(&stats, AF_BAN); ok(apiReturn == ERROR_INVALID_PARAMETER || apiReturn == ERROR_NOT_SUPPORTED, "GetTcpStatisticsEx(&stats, AF_BAN) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetTcpStatisticsEx(&stats, AF_INET); ok(apiReturn == NO_ERROR, "GetTcpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "TCP IPv4 Ex stats:\n" ); trace( " dwRtoAlgorithm: %u\n", U(stats).dwRtoAlgorithm ); trace( " dwRtoMin: %u\n", stats.dwRtoMin ); trace( " dwRtoMax: %u\n", stats.dwRtoMax ); trace( " dwMaxConn: %u\n", stats.dwMaxConn ); trace( " dwActiveOpens: %u\n", stats.dwActiveOpens ); trace( " dwPassiveOpens: %u\n", stats.dwPassiveOpens ); trace( " dwAttemptFails: %u\n", stats.dwAttemptFails ); trace( " dwEstabResets: %u\n", stats.dwEstabResets ); trace( " dwCurrEstab: %u\n", stats.dwCurrEstab ); trace( " dwInSegs: %u\n", stats.dwInSegs ); trace( " dwOutSegs: %u\n", stats.dwOutSegs ); trace( " dwRetransSegs: %u\n", stats.dwRetransSegs ); trace( " dwInErrs: %u\n", stats.dwInErrs ); trace( " dwOutRsts: %u\n", stats.dwOutRsts ); trace( " dwNumConns: %u\n", stats.dwNumConns ); } apiReturn = GetTcpStatisticsEx(&stats, AF_INET6); todo_wine ok(apiReturn == NO_ERROR || broken(apiReturn == ERROR_NOT_SUPPORTED), "GetTcpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "TCP IPv6 Ex stats:\n" ); trace( " dwRtoAlgorithm: %u\n", U(stats).dwRtoAlgorithm ); trace( " dwRtoMin: %u\n", stats.dwRtoMin ); trace( " dwRtoMax: %u\n", stats.dwRtoMax ); trace( " dwMaxConn: %u\n", stats.dwMaxConn ); trace( " dwActiveOpens: %u\n", stats.dwActiveOpens ); trace( " dwPassiveOpens: %u\n", stats.dwPassiveOpens ); trace( " dwAttemptFails: %u\n", stats.dwAttemptFails ); trace( " dwEstabResets: %u\n", stats.dwEstabResets ); trace( " dwCurrEstab: %u\n", stats.dwCurrEstab ); trace( " dwInSegs: %u\n", stats.dwInSegs ); trace( " dwOutSegs: %u\n", stats.dwOutSegs ); trace( " dwRetransSegs: %u\n", stats.dwRetransSegs ); trace( " dwInErrs: %u\n", stats.dwInErrs ); trace( " dwOutRsts: %u\n", stats.dwOutRsts ); trace( " dwNumConns: %u\n", stats.dwNumConns ); } } static void testGetUdpStatisticsEx(void) { DWORD apiReturn; MIB_UDPSTATS stats; apiReturn = GetUdpStatisticsEx(NULL, AF_INET); ok(apiReturn == ERROR_INVALID_PARAMETER, "GetUdpStatisticsEx(NULL, AF_INET); returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetUdpStatisticsEx(&stats, AF_BAN); ok(apiReturn == ERROR_INVALID_PARAMETER || apiReturn == ERROR_NOT_SUPPORTED, "GetUdpStatisticsEx(&stats, AF_BAN) returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetUdpStatisticsEx(&stats, AF_INET); ok(apiReturn == NO_ERROR, "GetUdpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "UDP IPv4 Ex stats:\n" ); trace( " dwInDatagrams: %u\n", stats.dwInDatagrams ); trace( " dwNoPorts: %u\n", stats.dwNoPorts ); trace( " dwInErrors: %u\n", stats.dwInErrors ); trace( " dwOutDatagrams: %u\n", stats.dwOutDatagrams ); trace( " dwNumAddrs: %u\n", stats.dwNumAddrs ); } apiReturn = GetUdpStatisticsEx(&stats, AF_INET6); ok(apiReturn == NO_ERROR || broken(apiReturn == ERROR_NOT_SUPPORTED), "GetUdpStatisticsEx returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { trace( "UDP IPv6 Ex stats:\n" ); trace( " dwInDatagrams: %u\n", stats.dwInDatagrams ); trace( " dwNoPorts: %u\n", stats.dwNoPorts ); trace( " dwInErrors: %u\n", stats.dwInErrors ); trace( " dwOutDatagrams: %u\n", stats.dwOutDatagrams ); trace( " dwNumAddrs: %u\n", stats.dwNumAddrs ); } } static void testGetTcpTable(void) { DWORD apiReturn; ULONG dwSize = 0; apiReturn = GetTcpTable(NULL, &dwSize, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetTcpTable is not supported\n"); return; } ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetTcpTable(NULL, &dwSize, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_TCPTABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = GetTcpTable(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR, "GetTcpTable(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { DWORD i; trace( "TCP table: %u entries\n", buf->dwNumEntries ); for (i = 0; i < buf->dwNumEntries; i++) { trace( "%u: local %s:%u remote %s:%u state %u\n", i, ntoa(buf->table[i].dwLocalAddr), ntohs(buf->table[i].dwLocalPort), ntoa(buf->table[i].dwRemoteAddr), ntohs(buf->table[i].dwRemotePort), U(buf->table[i]).dwState ); } } HeapFree(GetProcessHeap(), 0, buf); } } static void testGetUdpTable(void) { DWORD apiReturn; ULONG dwSize = 0; apiReturn = GetUdpTable(NULL, &dwSize, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetUdpTable is not supported\n"); return; } ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetUdpTable(NULL, &dwSize, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_UDPTABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = GetUdpTable(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR, "GetUdpTable(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { DWORD i; trace( "UDP table: %u entries\n", buf->dwNumEntries ); for (i = 0; i < buf->dwNumEntries; i++) trace( "%u: %s:%u\n", i, ntoa( buf->table[i].dwLocalAddr ), ntohs(buf->table[i].dwLocalPort) ); } HeapFree(GetProcessHeap(), 0, buf); } } static void testSetTcpEntry(void) { DWORD ret; MIB_TCPROW row; memset(&row, 0, sizeof(row)); if(0) /* This test crashes in OS >= VISTA */ { ret = SetTcpEntry(NULL); ok( ret == ERROR_INVALID_PARAMETER, "got %u, expected %u\n", ret, ERROR_INVALID_PARAMETER); } ret = SetTcpEntry(&row); if (ret == ERROR_NETWORK_ACCESS_DENIED) { win_skip("SetTcpEntry failed with access error. Skipping test.\n"); return; } todo_wine ok( ret == ERROR_INVALID_PARAMETER, "got %u, expected %u\n", ret, ERROR_INVALID_PARAMETER); U(row).dwState = MIB_TCP_STATE_DELETE_TCB; ret = SetTcpEntry(&row); todo_wine ok( ret == ERROR_MR_MID_NOT_FOUND || broken(ret == ERROR_INVALID_PARAMETER), "got %u, expected %u\n", ret, ERROR_MR_MID_NOT_FOUND); } static void testIcmpSendEcho(void) { HANDLE icmp; char senddata[32], replydata[sizeof(senddata) + sizeof(ICMP_ECHO_REPLY)]; DWORD ret, error, replysz = sizeof(replydata); IPAddr address; ICMP_ECHO_REPLY *reply; INT i; memset(senddata, 0, sizeof(senddata)); address = htonl(INADDR_LOOPBACK); SetLastError(0xdeadbeef); ret = IcmpSendEcho(INVALID_HANDLE_VALUE, address, senddata, sizeof(senddata), NULL, replydata, replysz, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == ERROR_INVALID_PARAMETER || broken(error == ERROR_INVALID_HANDLE) /* <= 2003 */, "expected 87, got %d\n", error); icmp = IcmpCreateFile(); if (icmp == INVALID_HANDLE_VALUE) { error = GetLastError(); if (error == ERROR_ACCESS_DENIED) { skip ("ICMP is not available.\n"); return; } } ok (icmp != INVALID_HANDLE_VALUE, "IcmpCreateFile failed unexpectedly with error %d\n", GetLastError()); address = 0; SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, replysz, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == ERROR_INVALID_NETNAME || broken(error == IP_BAD_DESTINATION) /* <= 2003 */, "expected 1214, got %d\n", error); address = htonl(INADDR_LOOPBACK); if (0) /* crashes in XP */ { ret = IcmpSendEcho(icmp, address, NULL, sizeof(senddata), NULL, replydata, replysz, 1000); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); } SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, 0, NULL, replydata, replysz, 1000); error = GetLastError(); ok (ret, "IcmpSendEcho failed unexpectedly with error %d\n", error); SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, NULL, 0, NULL, replydata, replysz, 1000); error = GetLastError(); ok (ret, "IcmpSendEcho failed unexpectedly with error %d\n", error); SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, NULL, replysz, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == ERROR_INVALID_PARAMETER, "expected 87, got %d\n", error); SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, 0, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == ERROR_INVALID_PARAMETER || broken(error == ERROR_INSUFFICIENT_BUFFER) /* <= 2003 */, "expected 87, got %d\n", error); SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, NULL, 0, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == ERROR_INVALID_PARAMETER || broken(error == ERROR_INSUFFICIENT_BUFFER) /* <= 2003 */, "expected 87, got %d\n", error); SetLastError(0xdeadbeef); replysz = sizeof(replydata) - 1; ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, replysz, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == IP_GENERAL_FAILURE || broken(error == IP_BUF_TOO_SMALL) /* <= 2003 */, "expected 11050, got %d\n", error); SetLastError(0xdeadbeef); replysz = sizeof(ICMP_ECHO_REPLY); ret = IcmpSendEcho(icmp, address, senddata, 0, NULL, replydata, replysz, 1000); error = GetLastError(); ok (ret, "IcmpSendEcho failed unexpectedly with error %d\n", error); SetLastError(0xdeadbeef); replysz = sizeof(ICMP_ECHO_REPLY) + ICMP_MINLEN; ret = IcmpSendEcho(icmp, address, senddata, ICMP_MINLEN, NULL, replydata, replysz, 1000); error = GetLastError(); ok (ret, "IcmpSendEcho failed unexpectedly with error %d\n", error); SetLastError(0xdeadbeef); replysz = sizeof(ICMP_ECHO_REPLY) + ICMP_MINLEN; ret = IcmpSendEcho(icmp, address, senddata, ICMP_MINLEN + 1, NULL, replydata, replysz, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == IP_GENERAL_FAILURE || broken(error == IP_BUF_TOO_SMALL) /* <= 2003 */, "expected 11050, got %d\n", error); SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, ICMP_MINLEN, NULL, replydata, replysz - 1, 1000); error = GetLastError(); ok (!ret, "IcmpSendEcho succeeded unexpectedly\n"); ok (error == IP_GENERAL_FAILURE || broken(error == IP_BUF_TOO_SMALL) /* <= 2003 */, "expected 11050, got %d\n", error); /* in windows >= vista the timeout can't be invalid */ SetLastError(0xdeadbeef); replysz = sizeof(replydata); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, replysz, 0); error = GetLastError(); if (!ret) ok(error == ERROR_INVALID_PARAMETER, "expected 87, got %d\n", error); SetLastError(0xdeadbeef); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, replysz, -1); error = GetLastError(); if (!ret) ok(error == ERROR_INVALID_PARAMETER, "expected 87, got %d\n", error); /* real ping test */ SetLastError(0xdeadbeef); address = htonl(INADDR_LOOPBACK); ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, replysz, 1000); error = GetLastError(); if (ret) { PICMP_ECHO_REPLY pong = (PICMP_ECHO_REPLY) replydata; trace ("send addr : %s\n", ntoa(address)); trace ("reply addr : %s\n", ntoa(pong->Address)); trace ("reply size : %u\n", replysz); trace ("roundtrip : %u ms\n", pong->RoundTripTime); trace ("status : %u\n", pong->Status); trace ("recv size : %u\n", pong->DataSize); trace ("ttl : %u\n", pong->Options.Ttl); trace ("flags : 0x%x\n", pong->Options.Flags); } else { skip ("Failed to ping with error %d, is lo interface down?.\n", error); } /* check reply data */ SetLastError(0xdeadbeef); address = htonl(INADDR_LOOPBACK); for (i = 0; i < ARRAY_SIZE(senddata); i++) senddata[i] = i & 0xff; ret = IcmpSendEcho(icmp, address, senddata, sizeof(senddata), NULL, replydata, replysz, 1000); error = GetLastError(); reply = (ICMP_ECHO_REPLY *)replydata; ok(ret, "IcmpSendEcho failed unexpectedly\n"); ok(error == NO_ERROR, "Expect last error:0x%08x, got:0x%08x\n", NO_ERROR, error); ok(INADDR_LOOPBACK == ntohl(reply->Address), "Address mismatch, expect:%s, got: %s\n", ntoa(INADDR_LOOPBACK), ntoa(reply->Address)); ok(reply->Status == IP_SUCCESS, "Expect status:0x%08x, got:0x%08x\n", IP_SUCCESS, reply->Status); ok(reply->DataSize == sizeof(senddata), "Got size:%d\n", reply->DataSize); ok(!memcmp(senddata, reply->Data, min(sizeof(senddata), reply->DataSize)), "Data mismatch\n"); } /* still-to-be-tested NT4-onward functions: CreateIpForwardEntry DeleteIpForwardEntry CreateIpNetEntry DeleteIpNetEntry GetFriendlyIfIndex GetRTTAndHopCount SetIfEntry SetIpForwardEntry SetIpNetEntry SetIpStatistics SetIpTTL */ static void testWinNT4Functions(void) { testGetNumberOfInterfaces(); testGetIpAddrTable(); testGetIfTable(); testGetIpForwardTable(); testGetIpNetTable(); testGetIcmpStatistics(); testGetIpStatistics(); testGetTcpStatistics(); testGetUdpStatistics(); testGetIcmpStatisticsEx(); testGetIpStatisticsEx(); testGetTcpStatisticsEx(); testGetUdpStatisticsEx(); testGetTcpTable(); testGetUdpTable(); testSetTcpEntry(); testIcmpSendEcho(); } static void testGetInterfaceInfo(void) { DWORD apiReturn; ULONG len = 0; apiReturn = GetInterfaceInfo(NULL, NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetInterfaceInfo is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetInterfaceInfo returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetInterfaceInfo(NULL, &len); ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetInterfaceInfo returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PIP_INTERFACE_INFO buf = HeapAlloc(GetProcessHeap(), 0, len); apiReturn = GetInterfaceInfo(buf, &len); ok(apiReturn == NO_ERROR, "GetInterfaceInfo(buf, &dwSize) returned %d, expected NO_ERROR\n", apiReturn); HeapFree(GetProcessHeap(), 0, buf); } } static void testGetAdaptersInfo(void) { DWORD apiReturn; ULONG len = 0; apiReturn = GetAdaptersInfo(NULL, NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetAdaptersInfo is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetAdaptersInfo returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetAdaptersInfo(NULL, &len); ok(apiReturn == ERROR_NO_DATA || apiReturn == ERROR_BUFFER_OVERFLOW, "GetAdaptersInfo returned %d, expected ERROR_NO_DATA or ERROR_BUFFER_OVERFLOW\n", apiReturn); if (apiReturn == ERROR_NO_DATA) ; /* no adapter's, that's okay */ else if (apiReturn == ERROR_BUFFER_OVERFLOW) { PIP_ADAPTER_INFO ptr, buf = HeapAlloc(GetProcessHeap(), 0, len); apiReturn = GetAdaptersInfo(buf, &len); ok(apiReturn == NO_ERROR, "GetAdaptersInfo(buf, &dwSize) returned %d, expected NO_ERROR\n", apiReturn); ptr = buf; while (ptr) { ok(ptr->IpAddressList.IpAddress.String[0], "A valid IP must be present\n"); ok(ptr->IpAddressList.IpMask.String[0], "A valid mask must be present\n"); trace("Adapter '%s', IP %s, Mask %s\n", ptr->AdapterName, ptr->IpAddressList.IpAddress.String, ptr->IpAddressList.IpMask.String); ptr = ptr->Next; } HeapFree(GetProcessHeap(), 0, buf); } } static void testGetNetworkParams(void) { DWORD apiReturn; ULONG len = 0; apiReturn = GetNetworkParams(NULL, NULL); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetNetworkParams is not supported\n"); return; } ok(apiReturn == ERROR_INVALID_PARAMETER, "GetNetworkParams returned %d, expected ERROR_INVALID_PARAMETER\n", apiReturn); apiReturn = GetNetworkParams(NULL, &len); ok(apiReturn == ERROR_BUFFER_OVERFLOW, "GetNetworkParams returned %d, expected ERROR_BUFFER_OVERFLOW\n", apiReturn); if (apiReturn == ERROR_BUFFER_OVERFLOW) { PFIXED_INFO buf = HeapAlloc(GetProcessHeap(), 0, len); apiReturn = GetNetworkParams(buf, &len); ok(apiReturn == NO_ERROR, "GetNetworkParams(buf, &dwSize) returned %d, expected NO_ERROR\n", apiReturn); HeapFree(GetProcessHeap(), 0, buf); } } /* still-to-be-tested 98-onward functions: GetBestInterface GetBestRoute IpReleaseAddress IpRenewAddress */ static DWORD CALLBACK testWin98Functions(void *p) { testGetInterfaceInfo(); testGetAdaptersInfo(); testGetNetworkParams(); return 0; } static void testGetPerAdapterInfo(void) { DWORD ret, needed; void *buffer; ret = GetPerAdapterInfo(1, NULL, NULL); if (ret == ERROR_NOT_SUPPORTED) { skip("GetPerAdapterInfo is not supported\n"); return; } ok( ret == ERROR_INVALID_PARAMETER, "got %u instead of ERROR_INVALID_PARAMETER\n", ret ); needed = 0xdeadbeef; ret = GetPerAdapterInfo(1, NULL, &needed); if (ret == ERROR_NO_DATA) return; /* no such adapter */ ok( ret == ERROR_BUFFER_OVERFLOW, "got %u instead of ERROR_BUFFER_OVERFLOW\n", ret ); ok( needed != 0xdeadbeef, "needed not set\n" ); buffer = HeapAlloc( GetProcessHeap(), 0, needed ); ret = GetPerAdapterInfo(1, buffer, &needed); ok( ret == NO_ERROR, "got %u instead of NO_ERROR\n", ret ); HeapFree( GetProcessHeap(), 0, buffer ); } static void testNotifyAddrChange(void) { DWORD ret, bytes; OVERLAPPED overlapped; HANDLE handle; BOOL success; handle = NULL; ZeroMemory(&overlapped, sizeof(overlapped)); ret = NotifyAddrChange(&handle, &overlapped); ok(ret == ERROR_IO_PENDING, "NotifyAddrChange returned %d, expected ERROR_IO_PENDING\n", ret); ret = GetLastError(); todo_wine ok(ret == ERROR_IO_PENDING, "GetLastError returned %d, expected ERROR_IO_PENDING\n", ret); success = CancelIPChangeNotify(&overlapped); todo_wine ok(success == TRUE, "CancelIPChangeNotify returned FALSE, expected TRUE\n"); ZeroMemory(&overlapped, sizeof(overlapped)); success = CancelIPChangeNotify(&overlapped); ok(success == FALSE, "CancelIPChangeNotify returned TRUE, expected FALSE\n"); handle = NULL; ZeroMemory(&overlapped, sizeof(overlapped)); overlapped.hEvent = CreateEventW(NULL, FALSE, FALSE, NULL); ret = NotifyAddrChange(&handle, &overlapped); ok(ret == ERROR_IO_PENDING, "NotifyAddrChange returned %d, expected ERROR_IO_PENDING\n", ret); todo_wine ok(handle != INVALID_HANDLE_VALUE, "NotifyAddrChange returned invalid file handle\n"); success = GetOverlappedResult(handle, &overlapped, &bytes, FALSE); ok(success == FALSE, "GetOverlappedResult returned TRUE, expected FALSE\n"); ret = GetLastError(); ok(ret == ERROR_IO_INCOMPLETE, "GetLastError returned %d, expected ERROR_IO_INCOMPLETE\n", ret); success = CancelIPChangeNotify(&overlapped); todo_wine ok(success == TRUE, "CancelIPChangeNotify returned FALSE, expected TRUE\n"); if (winetest_interactive) { handle = NULL; ZeroMemory(&overlapped, sizeof(overlapped)); overlapped.hEvent = CreateEventW(NULL, FALSE, FALSE, NULL); trace("Testing asynchronous ipv4 address change notification. Please " "change the ipv4 address of one of your network interfaces\n"); ret = NotifyAddrChange(&handle, &overlapped); ok(ret == ERROR_IO_PENDING, "NotifyAddrChange returned %d, expected NO_ERROR\n", ret); success = GetOverlappedResult(handle, &overlapped, &bytes, TRUE); ok(success == TRUE, "GetOverlappedResult returned FALSE, expected TRUE\n"); } /* test synchronous functionality */ if (winetest_interactive) { trace("Testing synchronous ipv4 address change notification. Please " "change the ipv4 address of one of your network interfaces\n"); ret = NotifyAddrChange(NULL, NULL); todo_wine ok(ret == NO_ERROR, "NotifyAddrChange returned %d, expected NO_ERROR\n", ret); } } /* still-to-be-tested 2K-onward functions: AddIPAddress CreateProxyArpEntry DeleteIPAddress DeleteProxyArpEntry EnableRouter FlushIpNetTable GetAdapterIndex NotifyRouteChange + CancelIPChangeNotify SendARP UnenableRouter */ static void testWin2KFunctions(void) { testGetPerAdapterInfo(); testNotifyAddrChange(); } static void test_GetAdaptersAddresses(void) { ULONG ret, size, osize, i; IP_ADAPTER_ADDRESSES *aa, *ptr; IP_ADAPTER_UNICAST_ADDRESS *ua; ret = GetAdaptersAddresses(AF_UNSPEC, 0, NULL, NULL, NULL); ok(ret == ERROR_INVALID_PARAMETER, "expected ERROR_INVALID_PARAMETER got %u\n", ret); /* size should be ignored and overwritten if buffer is NULL */ size = 0x7fffffff; ret = GetAdaptersAddresses(AF_UNSPEC, 0, NULL, NULL, &size); ok(ret == ERROR_BUFFER_OVERFLOW, "expected ERROR_BUFFER_OVERFLOW, got %u\n", ret); if (ret != ERROR_BUFFER_OVERFLOW) return; ptr = HeapAlloc(GetProcessHeap(), 0, size); ret = GetAdaptersAddresses(AF_UNSPEC, 0, NULL, ptr, &size); ok(!ret, "expected ERROR_SUCCESS got %u\n", ret); HeapFree(GetProcessHeap(), 0, ptr); /* higher size must not be changed to lower size */ size *= 2; osize = size; ptr = HeapAlloc(GetProcessHeap(), 0, osize); ret = GetAdaptersAddresses(AF_UNSPEC, GAA_FLAG_INCLUDE_PREFIX, NULL, ptr, &osize); ok(!ret, "expected ERROR_SUCCESS got %u\n", ret); ok(osize == size, "expected %d, got %d\n", size, osize); for (aa = ptr; !ret && aa; aa = aa->Next) { char temp[128], buf[39]; IP_ADAPTER_PREFIX *prefix; DWORD status; GUID guid; ok(S(U(*aa)).Length == sizeof(IP_ADAPTER_ADDRESSES_LH) || S(U(*aa)).Length == sizeof(IP_ADAPTER_ADDRESSES_XP), "Unknown structure size of %u bytes\n", S(U(*aa)).Length); ok(aa->DnsSuffix != NULL, "DnsSuffix is not a valid pointer\n"); ok(aa->Description != NULL, "Description is not a valid pointer\n"); ok(aa->FriendlyName != NULL, "FriendlyName is not a valid pointer\n"); for (i = 0; i < aa->PhysicalAddressLength; i++) sprintf(temp + i * 3, "%02X-", aa->PhysicalAddress[i]); temp[i ? i * 3 - 1 : 0] = '\0'; trace("idx %u name %s %s dns %s descr %s phys %s mtu %u flags %08x type %u\n", S(U(*aa)).IfIndex, aa->AdapterName, wine_dbgstr_w(aa->FriendlyName), wine_dbgstr_w(aa->DnsSuffix), wine_dbgstr_w(aa->Description), temp, aa->Mtu, aa->Flags, aa->IfType ); ua = aa->FirstUnicastAddress; while (ua) { ok(S(U(*ua)).Length == sizeof(IP_ADAPTER_UNICAST_ADDRESS_LH) || S(U(*ua)).Length == sizeof(IP_ADAPTER_UNICAST_ADDRESS_XP), "Unknown structure size of %u bytes\n", S(U(*ua)).Length); ok(ua->PrefixOrigin != IpPrefixOriginOther, "bad address config value %d\n", ua->PrefixOrigin); ok(ua->SuffixOrigin != IpSuffixOriginOther, "bad address config value %d\n", ua->PrefixOrigin); /* Address configured manually or from DHCP server? */ if (ua->PrefixOrigin == IpPrefixOriginManual || ua->PrefixOrigin == IpPrefixOriginDhcp) { ok(ua->ValidLifetime, "expected non-zero value\n"); ok(ua->PreferredLifetime, "expected non-zero value\n"); ok(ua->LeaseLifetime, "expected non-zero\n"); } /* Is the address ok in the network (not duplicated)? */ ok(ua->DadState != IpDadStateInvalid && ua->DadState != IpDadStateDuplicate, "bad address duplication value %d\n", ua->DadState); trace(" flags %08x origin %u/%u state %u lifetime %u/%u/%u prefix %u\n", S(U(*ua)).Flags, ua->PrefixOrigin, ua->SuffixOrigin, ua->DadState, ua->ValidLifetime, ua->PreferredLifetime, ua->LeaseLifetime, S(U(*ua)).Length < sizeof(IP_ADAPTER_UNICAST_ADDRESS_LH) ? 0 : ua->OnLinkPrefixLength); ua = ua->Next; } for (i = 0, temp[0] = '\0'; i < ARRAY_SIZE(aa->ZoneIndices); i++) sprintf(temp + strlen(temp), "%d ", aa->ZoneIndices[i]); trace("status %u index %u zone %s\n", aa->OperStatus, aa->Ipv6IfIndex, temp ); prefix = aa->FirstPrefix; while (prefix) { trace( " prefix %u/%u flags %08x\n", prefix->Address.iSockaddrLength, prefix->PrefixLength, S(U(*prefix)).Flags ); prefix = prefix->Next; } if (S(U(*aa)).Length < sizeof(IP_ADAPTER_ADDRESSES_LH)) continue; trace("speed %s/%s metrics %u/%u guid %s type %u/%u\n", wine_dbgstr_longlong(aa->TransmitLinkSpeed), wine_dbgstr_longlong(aa->ReceiveLinkSpeed), aa->Ipv4Metric, aa->Ipv6Metric, wine_dbgstr_guid((GUID*) &aa->NetworkGuid), aa->ConnectionType, aa->TunnelType); if (pConvertInterfaceLuidToGuid) { status = pConvertInterfaceLuidToGuid(&aa->Luid, &guid); ok(!status, "got %u\n", status); sprintf(buf, "{%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x}", guid.Data1, guid.Data2, guid.Data3, guid.Data4[0], guid.Data4[1], guid.Data4[2], guid.Data4[3], guid.Data4[4], guid.Data4[5], guid.Data4[6], guid.Data4[7]); ok(!strcasecmp(aa->AdapterName, buf), "expected '%s' got '%s'\n", aa->AdapterName, buf); } } HeapFree(GetProcessHeap(), 0, ptr); } static void test_GetExtendedTcpTable(void) { DWORD ret, size; MIB_TCPTABLE *table; MIB_TCPTABLE_OWNER_PID *table_pid; MIB_TCPTABLE_OWNER_MODULE *table_module; if (!pGetExtendedTcpTable) { win_skip("GetExtendedTcpTable not available\n"); return; } ret = pGetExtendedTcpTable( NULL, NULL, TRUE, AF_INET, TCP_TABLE_BASIC_ALL, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); size = 0; ret = pGetExtendedTcpTable( NULL, &size, TRUE, AF_INET, TCP_TABLE_BASIC_ALL, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedTcpTable( table, &size, TRUE, AF_INET, TCP_TABLE_BASIC_ALL, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table ); size = 0; ret = pGetExtendedTcpTable( NULL, &size, TRUE, AF_INET, TCP_TABLE_BASIC_LISTENER, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedTcpTable( table, &size, TRUE, AF_INET, TCP_TABLE_BASIC_LISTENER, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table ); size = 0; ret = pGetExtendedTcpTable( NULL, &size, TRUE, AF_INET, TCP_TABLE_OWNER_PID_ALL, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table_pid = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedTcpTable( table_pid, &size, TRUE, AF_INET, TCP_TABLE_OWNER_PID_ALL, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table_pid ); size = 0; ret = pGetExtendedTcpTable( NULL, &size, TRUE, AF_INET, TCP_TABLE_OWNER_PID_LISTENER, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table_pid = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedTcpTable( table_pid, &size, TRUE, AF_INET, TCP_TABLE_OWNER_PID_LISTENER, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table_pid ); size = 0; ret = pGetExtendedTcpTable( NULL, &size, TRUE, AF_INET, TCP_TABLE_OWNER_MODULE_ALL, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table_module = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedTcpTable( table_module, &size, TRUE, AF_INET, TCP_TABLE_OWNER_MODULE_ALL, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table_module ); size = 0; ret = pGetExtendedTcpTable( NULL, &size, TRUE, AF_INET, TCP_TABLE_OWNER_MODULE_LISTENER, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table_module = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedTcpTable( table_module, &size, TRUE, AF_INET, TCP_TABLE_OWNER_MODULE_LISTENER, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table_module ); } static void test_AllocateAndGetTcpExTableFromStack(void) { DWORD ret; MIB_TCPTABLE_OWNER_PID *table_ex = NULL; if (!pAllocateAndGetTcpExTableFromStack) { skip("AllocateAndGetTcpExTableFromStack not available\n"); return; } if (0) { /* crashes on native */ ret = pAllocateAndGetTcpExTableFromStack( NULL, FALSE, INVALID_HANDLE_VALUE, 0, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pAllocateAndGetTcpExTableFromStack( (void **)&table_ex, FALSE, INVALID_HANDLE_VALUE, 0, AF_INET ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pAllocateAndGetTcpExTableFromStack( NULL, FALSE, GetProcessHeap(), 0, AF_INET ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); } ret = pAllocateAndGetTcpExTableFromStack( (void **)&table_ex, FALSE, GetProcessHeap(), 0, 0 ); ok( ret == ERROR_INVALID_PARAMETER || broken(ret == ERROR_NOT_SUPPORTED) /* win2k */, "got %u\n", ret ); ret = pAllocateAndGetTcpExTableFromStack( (void **)&table_ex, FALSE, GetProcessHeap(), 0, AF_INET ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); if (ret == NO_ERROR && winetest_debug > 1) { DWORD i; trace( "AllocateAndGetTcpExTableFromStack table: %u entries\n", table_ex->dwNumEntries ); for (i = 0; i < table_ex->dwNumEntries; i++) { char remote_ip[16]; strcpy(remote_ip, ntoa(table_ex->table[i].dwRemoteAddr)); trace( "%u: local %s:%u remote %s:%u state %u pid %u\n", i, ntoa(table_ex->table[i].dwLocalAddr), ntohs(table_ex->table[i].dwLocalPort), remote_ip, ntohs(table_ex->table[i].dwRemotePort), U(table_ex->table[i]).dwState, table_ex->table[i].dwOwningPid ); } } HeapFree(GetProcessHeap(), 0, table_ex); ret = pAllocateAndGetTcpExTableFromStack( (void **)&table_ex, FALSE, GetProcessHeap(), 0, AF_INET6 ); ok( ret == ERROR_NOT_SUPPORTED, "got %u\n", ret ); } static void test_GetExtendedUdpTable(void) { DWORD ret, size; MIB_UDPTABLE *table; MIB_UDPTABLE_OWNER_PID *table_pid; MIB_UDPTABLE_OWNER_MODULE *table_module; if (!pGetExtendedUdpTable) { win_skip("GetExtendedUdpTable not available\n"); return; } ret = pGetExtendedUdpTable( NULL, NULL, TRUE, AF_INET, UDP_TABLE_BASIC, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); size = 0; ret = pGetExtendedUdpTable( NULL, &size, TRUE, AF_INET, UDP_TABLE_BASIC, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedUdpTable( table, &size, TRUE, AF_INET, UDP_TABLE_BASIC, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table ); size = 0; ret = pGetExtendedUdpTable( NULL, &size, TRUE, AF_INET, UDP_TABLE_OWNER_PID, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table_pid = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedUdpTable( table_pid, &size, TRUE, AF_INET, UDP_TABLE_OWNER_PID, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table_pid ); size = 0; ret = pGetExtendedUdpTable( NULL, &size, TRUE, AF_INET, UDP_TABLE_OWNER_MODULE, 0 ); ok( ret == ERROR_INSUFFICIENT_BUFFER, "got %u\n", ret ); table_module = HeapAlloc( GetProcessHeap(), 0, size ); ret = pGetExtendedUdpTable( table_module, &size, TRUE, AF_INET, UDP_TABLE_OWNER_MODULE, 0 ); ok( ret == ERROR_SUCCESS, "got %u\n", ret ); HeapFree( GetProcessHeap(), 0, table_module ); } static void test_CreateSortedAddressPairs(void) { SOCKADDR_IN6 dst[2]; SOCKADDR_IN6_PAIR *pair; ULONG pair_count; DWORD ret; if (!pCreateSortedAddressPairs) { win_skip( "CreateSortedAddressPairs not available\n" ); return; } memset( dst, 0, sizeof(dst) ); dst[0].sin6_family = AF_INET6; dst[0].sin6_addr.u.Word[5] = 0xffff; dst[0].sin6_addr.u.Word[6] = 0x0808; dst[0].sin6_addr.u.Word[7] = 0x0808; pair_count = 0xdeadbeef; ret = pCreateSortedAddressPairs( NULL, 0, dst, 1, 0, NULL, &pair_count ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ok( pair_count == 0xdeadbeef, "got %u\n", pair_count ); pair = (SOCKADDR_IN6_PAIR *)0xdeadbeef; pair_count = 0xdeadbeef; ret = pCreateSortedAddressPairs( NULL, 0, NULL, 1, 0, &pair, &pair_count ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ok( pair == (SOCKADDR_IN6_PAIR *)0xdeadbeef, "got %p\n", pair ); ok( pair_count == 0xdeadbeef, "got %u\n", pair_count ); pair = NULL; pair_count = 0xdeadbeef; ret = pCreateSortedAddressPairs( NULL, 0, dst, 1, 0, &pair, &pair_count ); ok( ret == NO_ERROR, "got %u\n", ret ); ok( pair != NULL, "pair not set\n" ); ok( pair_count >= 1, "got %u\n", pair_count ); ok( pair[0].SourceAddress != NULL, "src address not set\n" ); ok( pair[0].DestinationAddress != NULL, "dst address not set\n" ); pFreeMibTable( pair ); dst[1].sin6_family = AF_INET6; dst[1].sin6_addr.u.Word[5] = 0xffff; dst[1].sin6_addr.u.Word[6] = 0x0404; dst[1].sin6_addr.u.Word[7] = 0x0808; pair = NULL; pair_count = 0xdeadbeef; ret = pCreateSortedAddressPairs( NULL, 0, dst, 2, 0, &pair, &pair_count ); ok( ret == NO_ERROR, "got %u\n", ret ); ok( pair != NULL, "pair not set\n" ); ok( pair_count >= 2, "got %u\n", pair_count ); ok( pair[0].SourceAddress != NULL, "src address not set\n" ); ok( pair[0].DestinationAddress != NULL, "dst address not set\n" ); ok( pair[1].SourceAddress != NULL, "src address not set\n" ); ok( pair[1].DestinationAddress != NULL, "dst address not set\n" ); pFreeMibTable( pair ); } static DWORD get_interface_index(void) { DWORD size = 0, ret = 0; IP_ADAPTER_ADDRESSES *buf, *aa; if (GetAdaptersAddresses( AF_UNSPEC, 0, NULL, NULL, &size ) != ERROR_BUFFER_OVERFLOW) return 0; buf = HeapAlloc( GetProcessHeap(), 0, size ); GetAdaptersAddresses( AF_UNSPEC, 0, NULL, buf, &size ); for (aa = buf; aa; aa = aa->Next) { if (aa->IfType == IF_TYPE_ETHERNET_CSMACD) { ret = aa->IfIndex; break; } } HeapFree( GetProcessHeap(), 0, buf ); return ret; } static void test_interface_identifier_conversion(void) { DWORD ret; NET_LUID luid; GUID guid; SIZE_T len; WCHAR nameW[IF_MAX_STRING_SIZE + 1]; char nameA[IF_MAX_STRING_SIZE + 1], *name; NET_IFINDEX index, index2; if (!pConvertInterfaceIndexToLuid) { win_skip( "ConvertInterfaceIndexToLuid not available\n" ); return; } if (!(index = get_interface_index())) { skip( "no suitable interface found\n" ); return; } /* ConvertInterfaceIndexToLuid */ ret = pConvertInterfaceIndexToLuid( 0, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &luid, 0xff, sizeof(luid) ); ret = pConvertInterfaceIndexToLuid( 0, &luid ); ok( ret == ERROR_FILE_NOT_FOUND, "got %u\n", ret ); ok( !luid.Info.Reserved, "got %x\n", luid.Info.Reserved ); ok( !luid.Info.NetLuidIndex, "got %u\n", luid.Info.NetLuidIndex ); ok( !luid.Info.IfType, "got %u\n", luid.Info.IfType ); luid.Info.Reserved = luid.Info.NetLuidIndex = luid.Info.IfType = 0xdead; ret = pConvertInterfaceIndexToLuid( index, &luid ); ok( !ret, "got %u\n", ret ); ok( !luid.Info.Reserved, "got %x\n", luid.Info.Reserved ); ok( luid.Info.NetLuidIndex != 0xdead, "index not set\n" ); ok( luid.Info.IfType == IF_TYPE_ETHERNET_CSMACD, "got %u\n", luid.Info.IfType ); /* ConvertInterfaceLuidToIndex */ ret = pConvertInterfaceLuidToIndex( NULL, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToIndex( NULL, &index ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToIndex( &luid, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToIndex( &luid, &index ); ok( !ret, "got %u\n", ret ); /* ConvertInterfaceLuidToGuid */ ret = pConvertInterfaceLuidToGuid( NULL, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &guid, 0xff, sizeof(guid) ); ret = pConvertInterfaceLuidToGuid( NULL, &guid ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ok( guid.Data1 == 0xffffffff, "got %x\n", guid.Data1 ); ret = pConvertInterfaceLuidToGuid( &luid, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &guid, 0, sizeof(guid) ); ret = pConvertInterfaceLuidToGuid( &luid, &guid ); ok( !ret, "got %u\n", ret ); ok( guid.Data1, "got %x\n", guid.Data1 ); /* ConvertInterfaceGuidToLuid */ ret = pConvertInterfaceGuidToLuid( NULL, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); luid.Info.NetLuidIndex = 1; ret = pConvertInterfaceGuidToLuid( NULL, &luid ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ok( luid.Info.NetLuidIndex == 1, "got %u\n", luid.Info.NetLuidIndex ); ret = pConvertInterfaceGuidToLuid( &guid, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); luid.Info.Reserved = luid.Info.NetLuidIndex = luid.Info.IfType = 0xdead; ret = pConvertInterfaceGuidToLuid( &guid, &luid ); ok( !ret, "got %u\n", ret ); ok( !luid.Info.Reserved, "got %x\n", luid.Info.Reserved ); ok( luid.Info.NetLuidIndex != 0xdead, "index not set\n" ); ok( luid.Info.IfType == IF_TYPE_ETHERNET_CSMACD, "got %u\n", luid.Info.IfType ); /* ConvertInterfaceLuidToNameW */ ret = pConvertInterfaceLuidToNameW( NULL, NULL, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToNameW( &luid, NULL, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToNameW( NULL, nameW, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToNameW( &luid, nameW, 0 ); ok( ret == ERROR_NOT_ENOUGH_MEMORY, "got %u\n", ret ); nameW[0] = 0; len = ARRAY_SIZE(nameW); ret = pConvertInterfaceLuidToNameW( &luid, nameW, len ); ok( !ret, "got %u\n", ret ); ok( nameW[0], "name not set\n" ); /* ConvertInterfaceLuidToNameA */ ret = pConvertInterfaceLuidToNameA( NULL, NULL, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToNameA( &luid, NULL, 0 ); ok( ret == ERROR_NOT_ENOUGH_MEMORY, "got %u\n", ret ); ret = pConvertInterfaceLuidToNameA( NULL, nameA, 0 ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pConvertInterfaceLuidToNameA( &luid, nameA, 0 ); ok( ret == ERROR_NOT_ENOUGH_MEMORY, "got %u\n", ret ); nameA[0] = 0; len = ARRAY_SIZE(nameA); ret = pConvertInterfaceLuidToNameA( &luid, nameA, len ); ok( !ret, "got %u\n", ret ); ok( nameA[0], "name not set\n" ); /* ConvertInterfaceNameToLuidW */ ret = pConvertInterfaceNameToLuidW( NULL, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); luid.Info.Reserved = luid.Info.NetLuidIndex = luid.Info.IfType = 0xdead; ret = pConvertInterfaceNameToLuidW( NULL, &luid ); ok( ret == ERROR_INVALID_NAME, "got %u\n", ret ); ok( !luid.Info.Reserved, "got %x\n", luid.Info.Reserved ); ok( luid.Info.NetLuidIndex != 0xdead, "index not set\n" ); ok( !luid.Info.IfType, "got %u\n", luid.Info.IfType ); ret = pConvertInterfaceNameToLuidW( nameW, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); luid.Info.Reserved = luid.Info.NetLuidIndex = luid.Info.IfType = 0xdead; ret = pConvertInterfaceNameToLuidW( nameW, &luid ); ok( !ret, "got %u\n", ret ); ok( !luid.Info.Reserved, "got %x\n", luid.Info.Reserved ); ok( luid.Info.NetLuidIndex != 0xdead, "index not set\n" ); ok( luid.Info.IfType == IF_TYPE_ETHERNET_CSMACD, "got %u\n", luid.Info.IfType ); /* ConvertInterfaceNameToLuidA */ ret = pConvertInterfaceNameToLuidA( NULL, NULL ); ok( ret == ERROR_INVALID_NAME, "got %u\n", ret ); luid.Info.Reserved = luid.Info.NetLuidIndex = luid.Info.IfType = 0xdead; ret = pConvertInterfaceNameToLuidA( NULL, &luid ); ok( ret == ERROR_INVALID_NAME, "got %u\n", ret ); ok( luid.Info.Reserved == 0xdead, "reserved set\n" ); ok( luid.Info.NetLuidIndex == 0xdead, "index set\n" ); ok( luid.Info.IfType == 0xdead, "type set\n" ); ret = pConvertInterfaceNameToLuidA( nameA, NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); luid.Info.Reserved = luid.Info.NetLuidIndex = luid.Info.IfType = 0xdead; ret = pConvertInterfaceNameToLuidA( nameA, &luid ); ok( !ret, "got %u\n", ret ); ok( !luid.Info.Reserved, "got %x\n", luid.Info.Reserved ); ok( luid.Info.NetLuidIndex != 0xdead, "index not set\n" ); ok( luid.Info.IfType == IF_TYPE_ETHERNET_CSMACD, "got %u\n", luid.Info.IfType ); if (!pif_nametoindex || !pif_indextoname) { skip("if_nametoindex/if_indextoname not supported\n"); return; } index2 = pif_nametoindex( NULL ); ok( !index2, "Got unexpected index %u\n", index2 ); index2 = pif_nametoindex( nameA ); ok( index2 == index, "Got index %u for %s, expected %u\n", index2, nameA, index ); /* Wargaming.net Game Center passes a GUID-like string. */ index2 = pif_nametoindex( "{00000001-0000-0000-0000-000000000000}" ); ok( !index2, "Got unexpected index %u\n", index2 ); index2 = pif_nametoindex( wine_dbgstr_guid( &guid ) ); ok( !index2, "Got unexpected index %u for input %s\n", index2, wine_dbgstr_guid( &guid ) ); name = pif_indextoname( 0, NULL ); ok( name == NULL, "got %s\n", name ); name = pif_indextoname( 0, nameA ); ok( name == NULL, "got %p\n", name ); name = pif_indextoname( ~0u, nameA ); ok( name == NULL, "got %p\n", name ); nameA[0] = 0; name = pif_indextoname( 1, nameA ); if (name != NULL) { ok( name[0], "empty name\n" ); ok( name == nameA, "got %p\n", name ); } } static void test_GetIfEntry2(void) { DWORD ret; MIB_IF_ROW2 row; NET_IFINDEX index; if (!pGetIfEntry2) { win_skip( "GetIfEntry2 not available\n" ); return; } if (!(index = get_interface_index())) { skip( "no suitable interface found\n" ); return; } ret = pGetIfEntry2( NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); ret = pGetIfEntry2( &row ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); row.InterfaceIndex = index; ret = pGetIfEntry2( &row ); ok( ret == NO_ERROR, "got %u\n", ret ); ok( row.InterfaceIndex == index, "got %u\n", index ); } static void test_GetIfTable2(void) { DWORD ret; MIB_IF_TABLE2 *table; if (!pGetIfTable2) { win_skip( "GetIfTable2 not available\n" ); return; } table = NULL; ret = pGetIfTable2( &table ); ok( ret == NO_ERROR, "got %u\n", ret ); ok( table != NULL, "table not set\n" ); pFreeMibTable( table ); } static void test_GetIfTable2Ex(void) { DWORD ret; MIB_IF_TABLE2 *table; if (!pGetIfTable2Ex) { win_skip( "GetIfTable2Ex not available\n" ); return; } table = NULL; ret = pGetIfTable2Ex( MibIfTableNormal, &table ); ok( ret == NO_ERROR, "got %u\n", ret ); ok( table != NULL, "table not set\n" ); pFreeMibTable( table ); table = NULL; ret = pGetIfTable2Ex( MibIfTableRaw, &table ); ok( ret == NO_ERROR, "got %u\n", ret ); ok( table != NULL, "table not set\n" ); pFreeMibTable( table ); table = NULL; ret = pGetIfTable2Ex( MibIfTableNormalWithoutStatistics, &table ); ok( ret == NO_ERROR || broken(ret == ERROR_INVALID_PARAMETER), "got %u\n", ret ); ok( table != NULL || broken(!table), "table not set\n" ); pFreeMibTable( table ); table = NULL; ret = pGetIfTable2Ex( 3, &table ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ok( !table, "table should not be set\n" ); pFreeMibTable( table ); } static void test_GetUnicastIpAddressEntry(void) { IP_ADAPTER_ADDRESSES *aa, *ptr; MIB_UNICASTIPADDRESS_ROW row; DWORD ret, size; if (!pGetUnicastIpAddressEntry) { win_skip( "GetUnicastIpAddressEntry not available\n" ); return; } ret = pGetUnicastIpAddressEntry( NULL ); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); ret = pGetUnicastIpAddressEntry( &row ); todo_wine ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); row.Address.Ipv4.sin_family = AF_INET; row.Address.Ipv4.sin_port = 0; row.Address.Ipv4.sin_addr.S_un.S_addr = 0x01020304; ret = pGetUnicastIpAddressEntry( &row ); ok( ret == ERROR_FILE_NOT_FOUND, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); row.InterfaceIndex = 123; ret = pGetUnicastIpAddressEntry( &row ); todo_wine ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); row.InterfaceIndex = get_interface_index(); row.Address.Ipv4.sin_family = AF_INET; row.Address.Ipv4.sin_port = 0; row.Address.Ipv4.sin_addr.S_un.S_addr = 0x01020304; ret = pGetUnicastIpAddressEntry( &row ); ok( ret == ERROR_NOT_FOUND, "got %u\n", ret ); memset( &row, 0, sizeof(row) ); row.InterfaceIndex = 123; row.Address.Ipv4.sin_family = AF_INET; row.Address.Ipv4.sin_port = 0; row.Address.Ipv4.sin_addr.S_un.S_addr = 0x01020304; ret = pGetUnicastIpAddressEntry( &row ); ok( ret == ERROR_FILE_NOT_FOUND, "got %u\n", ret ); ret = GetAdaptersAddresses(AF_UNSPEC, GAA_FLAG_INCLUDE_ALL_INTERFACES, NULL, NULL, &size); ok(ret == ERROR_BUFFER_OVERFLOW, "expected ERROR_BUFFER_OVERFLOW, got %u\n", ret); if (ret != ERROR_BUFFER_OVERFLOW) return; ptr = HeapAlloc(GetProcessHeap(), 0, size); ret = GetAdaptersAddresses(AF_UNSPEC, GAA_FLAG_INCLUDE_ALL_INTERFACES, NULL, ptr, &size); ok(!ret, "expected ERROR_SUCCESS got %u\n", ret); for (aa = ptr; !ret && aa; aa = aa->Next) { IP_ADAPTER_UNICAST_ADDRESS *ua; ua = aa->FirstUnicastAddress; while (ua) { /* test with luid */ memset( &row, 0, sizeof(row) ); memcpy(&row.InterfaceLuid, &aa->Luid, sizeof(aa->Luid)); memcpy(&row.Address, ua->Address.lpSockaddr, ua->Address.iSockaddrLength); ret = pGetUnicastIpAddressEntry( &row ); ok( ret == NO_ERROR, "got %u\n", ret ); /* test with index */ memset( &row, 0, sizeof(row) ); row.InterfaceIndex = S(U(*aa)).IfIndex; memcpy(&row.Address, ua->Address.lpSockaddr, ua->Address.iSockaddrLength); ret = pGetUnicastIpAddressEntry( &row ); ok( ret == NO_ERROR, "got %u\n", ret ); if (ret == NO_ERROR) { ok(row.InterfaceLuid.Info.Reserved == aa->Luid.Info.Reserved, "Expected %d, got %d\n", aa->Luid.Info.Reserved, row.InterfaceLuid.Info.Reserved); ok(row.InterfaceLuid.Info.NetLuidIndex == aa->Luid.Info.NetLuidIndex, "Expected %d, got %d\n", aa->Luid.Info.NetLuidIndex, row.InterfaceLuid.Info.NetLuidIndex); ok(row.InterfaceLuid.Info.IfType == aa->Luid.Info.IfType, "Expected %d, got %d\n", aa->Luid.Info.IfType, row.InterfaceLuid.Info.IfType); ok(row.InterfaceIndex == S(U(*aa)).IfIndex, "Expected %d, got %d\n", S(U(*aa)).IfIndex, row.InterfaceIndex); ok(row.PrefixOrigin == ua->PrefixOrigin, "Expected %d, got %d\n", ua->PrefixOrigin, row.PrefixOrigin); ok(row.SuffixOrigin == ua->SuffixOrigin, "Expected %d, got %d\n", ua->SuffixOrigin, row.SuffixOrigin); ok(row.ValidLifetime == ua->ValidLifetime, "Expected %d, got %d\n", ua->ValidLifetime, row.ValidLifetime); ok(row.PreferredLifetime == ua->PreferredLifetime, "Expected %d, got %d\n", ua->PreferredLifetime, row.PreferredLifetime); ok(row.OnLinkPrefixLength == ua->OnLinkPrefixLength, "Expected %d, got %d\n", ua->OnLinkPrefixLength, row.OnLinkPrefixLength); ok(row.SkipAsSource == 0, "Expected 0, got %d\n", row.SkipAsSource); ok(row.DadState == ua->DadState, "Expected %d, got %d\n", ua->DadState, row.DadState); if (row.Address.si_family == AF_INET6) ok(row.ScopeId.Value == row.Address.Ipv6.sin6_scope_id, "Expected %d, got %d\n", row.Address.Ipv6.sin6_scope_id, row.ScopeId.Value); ok(row.CreationTimeStamp.QuadPart, "CreationTimeStamp is 0\n"); } ua = ua->Next; } } HeapFree(GetProcessHeap(), 0, ptr); } static void test_GetUnicastIpAddressTable(void) { MIB_UNICASTIPADDRESS_TABLE *table; DWORD ret; ULONG i; if (!pGetUnicastIpAddressTable) { win_skip( "GetUnicastIpAddressTable not available\n" ); return; } ret = pGetUnicastIpAddressTable(AF_UNSPEC, NULL); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pGetUnicastIpAddressTable(AF_BAN, &table); ok( ret == ERROR_INVALID_PARAMETER, "got %u\n", ret ); ret = pGetUnicastIpAddressTable(AF_INET, &table); ok( ret == NO_ERROR, "got %u\n", ret ); trace("GetUnicastIpAddressTable(AF_INET): NumEntries %u\n", table->NumEntries); pFreeMibTable(table); ret = pGetUnicastIpAddressTable(AF_INET6, &table); ok( ret == NO_ERROR, "got %u\n", ret ); trace("GetUnicastIpAddressTable(AF_INET6): NumEntries %u\n", table->NumEntries); pFreeMibTable(table); ret = pGetUnicastIpAddressTable(AF_UNSPEC, &table); ok( ret == NO_ERROR, "got %u\n", ret ); trace("GetUnicastIpAddressTable(AF_UNSPEC): NumEntries %u\n", table->NumEntries); for (i = 0; i < table->NumEntries && winetest_debug > 1; i++) { trace("Index %u:\n", i); trace("Address.si_family: %u\n", table->Table[i].Address.si_family); trace("InterfaceLuid.Info.Reserved: %u\n", table->Table[i].InterfaceLuid.Info.Reserved); trace("InterfaceLuid.Info.NetLuidIndex: %u\n", table->Table[i].InterfaceLuid.Info.NetLuidIndex); trace("InterfaceLuid.Info.IfType: %u\n", table->Table[i].InterfaceLuid.Info.IfType); trace("InterfaceIndex: %u\n", table->Table[i].InterfaceIndex); trace("PrefixOrigin: %u\n", table->Table[i].PrefixOrigin); trace("SuffixOrigin: %u\n", table->Table[i].SuffixOrigin); trace("ValidLifetime: %u seconds\n", table->Table[i].ValidLifetime); trace("PreferredLifetime: %u seconds\n", table->Table[i].PreferredLifetime); trace("OnLinkPrefixLength: %u\n", table->Table[i].OnLinkPrefixLength); trace("SkipAsSource: %u\n", table->Table[i].SkipAsSource); trace("DadState: %u\n", table->Table[i].DadState); trace("ScopeId.Value: %u\n", table->Table[i].ScopeId.Value); trace("CreationTimeStamp: %08x%08x\n", table->Table[i].CreationTimeStamp.HighPart, table->Table[i].CreationTimeStamp.LowPart); } pFreeMibTable(table); } static void test_ConvertLengthToIpv4Mask(void) { DWORD ret; DWORD n; ULONG mask; ULONG expected; if (!pConvertLengthToIpv4Mask) { win_skip( "ConvertLengthToIpv4Mask not available\n" ); return; } for (n = 0; n <= 32; n++) { mask = 0xdeadbeef; if (n > 0) expected = htonl( ~0u << (32 - n) ); else expected = 0; ret = pConvertLengthToIpv4Mask( n, &mask ); ok( ret == NO_ERROR, "ConvertLengthToIpv4Mask returned 0x%08x, expected 0x%08x\n", ret, NO_ERROR ); ok( mask == expected, "ConvertLengthToIpv4Mask mask value 0x%08x, expected 0x%08x\n", mask, expected ); } /* Testing for out of range. In this case both mask and return are changed to indicate error. */ mask = 0xdeadbeef; ret = pConvertLengthToIpv4Mask( 33, &mask ); ok( ret == ERROR_INVALID_PARAMETER, "ConvertLengthToIpv4Mask returned 0x%08x, expected 0x%08x\n", ret, ERROR_INVALID_PARAMETER ); ok( mask == INADDR_NONE, "ConvertLengthToIpv4Mask mask value 0x%08x, expected 0x%08x\n", mask, INADDR_NONE ); } static void test_GetTcp6Table(void) { DWORD ret; ULONG size = 0; PMIB_TCP6TABLE buf; if (!pGetTcp6Table) { win_skip("GetTcp6Table not available\n"); return; } ret = pGetTcp6Table(NULL, &size, FALSE); if (ret == ERROR_NOT_SUPPORTED) { skip("GetTcp6Table is not supported\n"); return; } ok(ret == ERROR_INSUFFICIENT_BUFFER, "GetTcp6Table(NULL, &size, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", ret); if (ret != ERROR_INSUFFICIENT_BUFFER) return; buf = HeapAlloc(GetProcessHeap(), 0, size); ret = pGetTcp6Table(buf, &size, FALSE); ok(ret == NO_ERROR, "GetTcp6Table(buf, &size, FALSE) returned %d, expected NO_ERROR\n", ret); if (ret == NO_ERROR && winetest_debug > 1) { DWORD i; trace("TCP6 table: %u entries\n", buf->dwNumEntries); for (i = 0; i < buf->dwNumEntries; i++) { trace("%u: local %s%%%u:%u remote %s%%%u:%u state %u\n", i, ntoa6(&buf->table[i].LocalAddr), ntohs(buf->table[i].dwLocalScopeId), ntohs(buf->table[i].dwLocalPort), ntoa6(&buf->table[i].RemoteAddr), ntohs(buf->table[i].dwRemoteScopeId), ntohs(buf->table[i].dwRemotePort), buf->table[i].State); } } HeapFree(GetProcessHeap(), 0, buf); } static void test_GetUdp6Table(void) { DWORD apiReturn; ULONG dwSize = 0; if (!pGetUdp6Table) { win_skip("GetUdp6Table not available\n"); return; } apiReturn = pGetUdp6Table(NULL, &dwSize, FALSE); if (apiReturn == ERROR_NOT_SUPPORTED) { skip("GetUdp6Table is not supported\n"); return; } ok(apiReturn == ERROR_INSUFFICIENT_BUFFER, "GetUdp6Table(NULL, &dwSize, FALSE) returned %d, expected ERROR_INSUFFICIENT_BUFFER\n", apiReturn); if (apiReturn == ERROR_INSUFFICIENT_BUFFER) { PMIB_UDP6TABLE buf = HeapAlloc(GetProcessHeap(), 0, dwSize); apiReturn = pGetUdp6Table(buf, &dwSize, FALSE); ok(apiReturn == NO_ERROR, "GetUdp6Table(buf, &dwSize, FALSE) returned %d, expected NO_ERROR\n", apiReturn); if (apiReturn == NO_ERROR && winetest_debug > 1) { DWORD i; trace( "UDP6 table: %u entries\n", buf->dwNumEntries ); for (i = 0; i < buf->dwNumEntries; i++) trace( "%u: %s%%%u:%u\n", i, ntoa6(&buf->table[i].dwLocalAddr), ntohs(buf->table[i].dwLocalScopeId), ntohs(buf->table[i].dwLocalPort) ); } HeapFree(GetProcessHeap(), 0, buf); } } static void test_ParseNetworkString(void) { struct { char str[32]; IN_ADDR addr; DWORD ret; } ipv4_address_tests[] = { {"1.2.3.4", {{{1, 2, 3, 4}}}}, {"1.2.3.4a", {}, ERROR_INVALID_PARAMETER}, {"1.2.3.0x4a", {}, ERROR_INVALID_PARAMETER}, {"1.2.3", {}, ERROR_INVALID_PARAMETER}, {"a1.2.3.4", {}, ERROR_INVALID_PARAMETER}, {"0xdeadbeef", {}, ERROR_INVALID_PARAMETER}, {"1.2.3.4:22", {}, ERROR_INVALID_PARAMETER}, {"::1", {}, ERROR_INVALID_PARAMETER}, {"winehq.org", {}, ERROR_INVALID_PARAMETER}, }; struct { char str[32]; IN_ADDR addr; DWORD port; DWORD ret; } ipv4_service_tests[] = { {"1.2.3.4:22", {{{1, 2, 3, 4}}}, 22}, {"winehq.org:22", {}, 0, ERROR_INVALID_PARAMETER}, {"1.2.3.4", {}, 0, ERROR_INVALID_PARAMETER}, {"1.2.3.4:0", {}, 0, ERROR_INVALID_PARAMETER}, {"1.2.3.4:65536", {}, 0, ERROR_INVALID_PARAMETER}, }; WCHAR wstr[IP6_ADDRESS_STRING_BUFFER_LENGTH] = {'1','2','7','.','0','.','0','.','1',':','2','2',0}; NET_ADDRESS_INFO info; USHORT port; BYTE prefix_len; DWORD ret; int i; if (!pParseNetworkString) { win_skip("ParseNetworkString not available\n"); return; } ret = pParseNetworkString(wstr, -1, NULL, NULL, NULL); ok(ret == ERROR_SUCCESS, "expected success, got %d\n", ret); ret = pParseNetworkString(NULL, NET_STRING_IPV4_SERVICE, &info, NULL, NULL); ok(ret == ERROR_INVALID_PARAMETER, "expected ERROR_INVALID_PARAMETER, got %d\n", ret); for (i = 0; i < ARRAY_SIZE(ipv4_address_tests); i++) { MultiByteToWideChar(CP_ACP, 0, ipv4_address_tests[i].str, sizeof(ipv4_address_tests[i].str), wstr, ARRAY_SIZE(wstr)); memset(&info, 0x99, sizeof(info)); port = 0x9999; prefix_len = 0x99; ret = pParseNetworkString(wstr, NET_STRING_IPV4_ADDRESS, &info, &port, &prefix_len); ok(ret == ipv4_address_tests[i].ret, "%s gave error %d\n", ipv4_address_tests[i].str, ret); ok(info.Format == ret ? NET_ADDRESS_FORMAT_UNSPECIFIED : NET_ADDRESS_IPV4, "%s gave format %d\n", ipv4_address_tests[i].str, info.Format); ok(info.Ipv4Address.sin_addr.S_un.S_addr == (ret ? 0x99999999 : ipv4_address_tests[i].addr.S_un.S_addr), "%s gave address %d.%d.%d.%d\n", ipv4_address_tests[i].str, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b1, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b2, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b3, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b4); ok(info.Ipv4Address.sin_port == (ret ? 0x9999 : 0), "%s gave port %d\n", ipv4_service_tests[i].str, ntohs(info.Ipv4Address.sin_port)); ok(port == (ret ? 0x9999 : 0), "%s gave port %d\n", ipv4_service_tests[i].str, port); ok(prefix_len == (ret ? 0x99 : 255), "%s gave prefix length %d\n", ipv4_service_tests[i].str, prefix_len); } for (i = 0; i < ARRAY_SIZE(ipv4_service_tests); i++) { MultiByteToWideChar(CP_ACP, 0, ipv4_service_tests[i].str, sizeof(ipv4_service_tests[i].str), wstr, ARRAY_SIZE(wstr)); memset(&info, 0x99, sizeof(info)); port = 0x9999; prefix_len = 0x99; ret = pParseNetworkString(wstr, NET_STRING_IPV4_SERVICE, &info, &port, &prefix_len); ok(ret == ipv4_service_tests[i].ret, "%s gave error %d\n", ipv4_service_tests[i].str, ret); ok(info.Format == ret ? NET_ADDRESS_FORMAT_UNSPECIFIED : NET_ADDRESS_IPV4, "%s gave format %d\n", ipv4_address_tests[i].str, info.Format); ok(info.Ipv4Address.sin_addr.S_un.S_addr == (ret ? 0x99999999 : ipv4_service_tests[i].addr.S_un.S_addr), "%s gave address %d.%d.%d.%d\n", ipv4_service_tests[i].str, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b1, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b2, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b3, info.Ipv4Address.sin_addr.S_un.S_un_b.s_b4); ok(ntohs(info.Ipv4Address.sin_port) == (ret ? 0x9999 : ipv4_service_tests[i].port), "%s gave port %d\n", ipv4_service_tests[i].str, ntohs(info.Ipv4Address.sin_port)); ok(port == (ret ? 0x9999 : ipv4_service_tests[i].port), "%s gave port %d\n", ipv4_service_tests[i].str, port); ok(prefix_len == (ret ? 0x99 : 255), "%s gave prefix length %d\n", ipv4_service_tests[i].str, prefix_len); } } static void WINAPI test_ipaddtess_change_callback(PVOID context, PMIB_UNICASTIPADDRESS_ROW row, MIB_NOTIFICATION_TYPE notification_type) { BOOL *callback_called = context; *callback_called = TRUE; ok(notification_type == MibInitialNotification, "Unexpected notification_type %#x.\n", notification_type); ok(!row, "Unexpected row %p.\n", row); } static void test_NotifyUnicastIpAddressChange(void) { BOOL callback_called; HANDLE handle; DWORD ret; if (!pNotifyUnicastIpAddressChange) { win_skip("NotifyUnicastIpAddressChange not available.\n"); return; } callback_called = FALSE; ret = pNotifyUnicastIpAddressChange(AF_INET, test_ipaddtess_change_callback, &callback_called, TRUE, &handle); ok(ret == NO_ERROR, "Unexpected ret %#x.\n", ret); ok(callback_called, "Callback was not called.\n"); ret = pCancelMibChangeNotify2(handle); ok(ret == NO_ERROR, "Unexpected ret %#x.\n", ret); ok(!CloseHandle(handle), "CloseHandle() succeeded.\n"); } START_TEST(iphlpapi) { loadIPHlpApi(); if (hLibrary) { HANDLE thread; testWin98OnlyFunctions(); testWinNT4Functions(); /* run testGetXXXX in two threads at once to make sure we don't crash in that case */ thread = CreateThread(NULL, 0, testWin98Functions, NULL, 0, NULL); testWin98Functions(NULL); WaitForSingleObject(thread, INFINITE); testWin2KFunctions(); test_GetAdaptersAddresses(); test_GetExtendedTcpTable(); test_GetExtendedUdpTable(); test_AllocateAndGetTcpExTableFromStack(); test_CreateSortedAddressPairs(); test_interface_identifier_conversion(); test_GetIfEntry2(); test_GetIfTable2(); test_GetIfTable2Ex(); test_GetUnicastIpAddressEntry(); test_GetUnicastIpAddressTable(); test_ConvertLengthToIpv4Mask(); test_GetTcp6Table(); test_GetUdp6Table(); test_ParseNetworkString(); test_NotifyUnicastIpAddressChange(); freeIPHlpApi(); } }