/* * WSOCK32 specific functions * * Copyright (C) 1993,1994,1996,1997 John Brezak, Erik Bos, Alex Korobka. * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include <stdarg.h> #include "windef.h" #include "winbase.h" #include "wine/debug.h" #include "winsock2.h" #include "winnt.h" #include "wscontrol.h" #include "iphlpapi.h" WINE_DEFAULT_DEBUG_CHANNEL(winsock); /* internal remapper function for the IP_ constants */ static INT _remap_optname(INT level, INT optname) { TRACE("level=%d, optname=%d\n", level, optname); if (level == IPPROTO_IP) { switch (optname) { /***** from value *****/ case 2: return 9; /* IP_MULTICAST_IF */ case 3: return 10; /* IP_MULTICAST_TTL */ case 4: return 11; /* IP_MULTICAST_LOOP */ case 5: return 12; /* IP_ADD_MEMBERSHIP */ case 6: return 13; /* IP_DROP_MEMBERSHIP */ case 7: return 4; /* IP_TTL */ case 8: return 3; /* IP_TOS */ case 9: return 14; /* IP_DONTFRAGMENT */ default: FIXME("Unknown optname %d, can't remap!\n", optname); return optname; } } else { /* don't need to do anything */ return optname; } } /*********************************************************************** * setsockopt (WSOCK32.21) * * We have these forwarders because, for reasons unknown to us mere mortals, * the values of the IP_ constants changed between winsock.h and winsock2.h. * So, we need to remap them here. */ INT WINAPI WS1_setsockopt(SOCKET s, INT level, INT optname, char *optval, INT optlen) { return setsockopt(s, level, _remap_optname(level, optname), optval, optlen); } /*********************************************************************** * getsockopt (WSOCK32.7) */ INT WINAPI WS1_getsockopt(SOCKET s, INT level, INT optname, char *optval, INT *optlen) { return getsockopt(s, level, _remap_optname(level, optname), optval, optlen); } /*********************************************************************** * WsControl (WSOCK32.1001) * * WsControl seems to be an undocumented Win95 function. A lot of * discussion about WsControl can be found on the net, e.g. * Subject: Re: WSOCK32.DLL WsControl Exported Function * From: "Peter Rindfuss" <rindfuss-s@medea.wz-berlin.de> * Date: 1997/08/17 * * The WSCNTL_TCPIP_QUERY_INFO option is partially implemented based * on observing the behaviour of WsControl with an app in * Windows 98. It is not fully implemented, and there could * be (are?) errors due to incorrect assumptions made. * * * WsControl returns WSCTL_SUCCESS on success. * ERROR_LOCK_VIOLATION is returned if the output buffer length * (*pcbResponseInfoLen) is too small. This is an unusual error code, but * it matches Win98's behavior. Other errors come from winerror.h, not from * winsock.h. Again, this is to match Win98 behavior. * */ DWORD WINAPI WsControl(DWORD protocol, DWORD action, LPVOID pRequestInfo, LPDWORD pcbRequestInfoLen, LPVOID pResponseInfo, LPDWORD pcbResponseInfoLen) { /* Get the command structure into a pointer we can use, rather than void */ TDIObjectID *pcommand = (TDIObjectID *)pRequestInfo; /* validate input parameters. Error codes are from winerror.h, not from * winsock.h. pcbResponseInfoLen is apparently allowed to be NULL for some * commands, since winipcfg.exe fails if we ensure it's non-NULL in every * case. */ if (protocol != IPPROTO_TCP) return ERROR_INVALID_PARAMETER; if (!pcommand) return ERROR_INVALID_PARAMETER; if (!pcbRequestInfoLen) return ERROR_INVALID_ACCESS; if (*pcbRequestInfoLen < sizeof(TDIObjectID)) return ERROR_INVALID_ACCESS; if (!pResponseInfo) return ERROR_INVALID_PARAMETER; if (pcommand->toi_type != INFO_TYPE_PROVIDER) return ERROR_INVALID_PARAMETER; TRACE (" WsControl TOI_ID=>0x%lx<, {TEI_ENTITY=0x%lx, TEI_INSTANCE=0x%lx}, TOI_CLASS=0x%lx, TOI_TYPE=0x%lx\n", pcommand->toi_id, pcommand->toi_entity.tei_entity, pcommand->toi_entity.tei_instance, pcommand->toi_class, pcommand->toi_type ); switch (action) { case WSCNTL_TCPIP_QUERY_INFO: { if (pcommand->toi_class != INFO_CLASS_GENERIC && pcommand->toi_class != INFO_CLASS_PROTOCOL) { ERR("Unexpected class %ld for WSCNTL_TCPIP_QUERY_INFO\n", pcommand->toi_class); return ERROR_BAD_ENVIRONMENT; } switch (pcommand->toi_id) { /* ENTITY_LIST_ID gets the list of "entity IDs", where an entity may represent an interface, or a datagram service, or address translation, or other fun things. Typically an entity ID represents a class of service, which is further queried for what type it is. Different types will then have more specific queries defined. */ case ENTITY_LIST_ID: { TDIEntityID *baseptr = (TDIEntityID *)pResponseInfo; DWORD numInt, i, ifTable, spaceNeeded; PMIB_IFTABLE table; if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (pcommand->toi_class != INFO_CLASS_GENERIC) { FIXME ("Unexpected Option for ENTITY_LIST_ID request -> toi_class=0x%lx\n", pcommand->toi_class); return (ERROR_BAD_ENVIRONMENT); } GetNumberOfInterfaces(&numInt); spaceNeeded = sizeof(TDIEntityID) * (numInt * 2 + 3); if (*pcbResponseInfoLen < spaceNeeded) return (ERROR_LOCK_VIOLATION); ifTable = 0; GetIfTable(NULL, &ifTable, FALSE); table = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, ifTable ); if (!table) return ERROR_NOT_ENOUGH_MEMORY; GetIfTable(table, &ifTable, FALSE); spaceNeeded = sizeof(TDIEntityID) * (table->dwNumEntries + 4); if (*pcbResponseInfoLen < spaceNeeded) { HeapFree( GetProcessHeap(), 0, table ); return ERROR_LOCK_VIOLATION; } memset(baseptr, 0, spaceNeeded); for (i = 0; i < table->dwNumEntries; i++) { /* Return IF_GENERIC and CL_NL_ENTITY on every interface, and * AT_ENTITY, CL_TL_ENTITY, and CO_TL_ENTITY on the first * interface. MS returns them only on the loopback interface, * but it doesn't seem to matter. */ if (i == 0) { baseptr->tei_entity = CO_TL_ENTITY; baseptr->tei_instance = table->table[i].dwIndex; baseptr++; baseptr->tei_entity = CL_TL_ENTITY; baseptr->tei_instance = table->table[i].dwIndex; baseptr++; baseptr->tei_entity = AT_ENTITY; baseptr->tei_instance = table->table[i].dwIndex; baseptr++; } baseptr->tei_entity = CL_NL_ENTITY; baseptr->tei_instance = table->table[i].dwIndex; baseptr++; baseptr->tei_entity = IF_GENERIC; baseptr->tei_instance = table->table[i].dwIndex; baseptr++; } *pcbResponseInfoLen = spaceNeeded; HeapFree( GetProcessHeap(), 0, table ); break; } /* Returns MIB-II statistics for an interface */ case ENTITY_TYPE_ID: switch (pcommand->toi_entity.tei_entity) { case IF_GENERIC: if (pcommand->toi_class == INFO_CLASS_GENERIC) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; *((ULONG *)pResponseInfo) = IF_MIB; *pcbResponseInfoLen = sizeof(ULONG); } else if (pcommand->toi_class == INFO_CLASS_PROTOCOL) { MIB_IFROW row; DWORD index = pcommand->toi_entity.tei_instance, ret; DWORD size = sizeof(row) - sizeof(row.wszName) - sizeof(row.bDescr); if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (*pcbResponseInfoLen < size) return (ERROR_LOCK_VIOLATION); row.dwIndex = index; ret = GetIfEntry(&row); if (ret != NO_ERROR) { /* FIXME: Win98's arp.exe insists on querying index 1 for * its MIB-II stats, regardless of the tei_instances * returned in the ENTITY_LIST query above. If the query * fails, arp.exe fails. So, I do this hack return value * if index is 1 and the query failed just to get arp.exe * to continue. */ if (index == 1) return NO_ERROR; ERR ("Error retrieving data for interface index %lu\n", index); return ret; } size = sizeof(row) - sizeof(row.wszName) - sizeof(row.bDescr) + row.dwDescrLen; if (*pcbResponseInfoLen < size) return (ERROR_LOCK_VIOLATION); memcpy(pResponseInfo, &row.dwIndex, size); *pcbResponseInfoLen = size; } break; /* Returns address-translation related data. In our case, this is * ARP. */ case AT_ENTITY: if (pcommand->toi_class == INFO_CLASS_GENERIC) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; *((ULONG *)pResponseInfo) = AT_ARP; *pcbResponseInfoLen = sizeof(ULONG); } else if (pcommand->toi_class == INFO_CLASS_PROTOCOL) { PMIB_IPNETTABLE table; DWORD size; PULONG output = (PULONG)pResponseInfo; if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (*pcbResponseInfoLen < sizeof(ULONG) * 2) return (ERROR_LOCK_VIOLATION); GetIpNetTable(NULL, &size, FALSE); table = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, size ); if (!table) return ERROR_NOT_ENOUGH_MEMORY; GetIpNetTable(table, &size, FALSE); /* FIXME: I don't understand the meaning of the ARP output * very well, but it seems to indicate how many ARP entries * exist. I don't know whether this should reflect the * number per interface, as I'm only testing with a single * interface. So, I lie and say all ARP entries exist on * a single interface--the first one that appears in the * ARP table. */ *(output++) = table->dwNumEntries; *output = table->table[0].dwIndex; HeapFree( GetProcessHeap(), 0, table ); *pcbResponseInfoLen = sizeof(ULONG) * 2; } break; /* Returns connectionless network layer statistics--in our case, * this is IP. */ case CL_NL_ENTITY: if (pcommand->toi_class == INFO_CLASS_GENERIC) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; *((ULONG *)pResponseInfo) = CL_NL_IP; *pcbResponseInfoLen = sizeof(ULONG); } else if (pcommand->toi_class == INFO_CLASS_PROTOCOL) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (*pcbResponseInfoLen < sizeof(MIB_IPSTATS)) return ERROR_LOCK_VIOLATION; GetIpStatistics((PMIB_IPSTATS)pResponseInfo); *pcbResponseInfoLen = sizeof(MIB_IPSTATS); } break; /* Returns connectionless transport layer statistics--in our case, * this is UDP. */ case CL_TL_ENTITY: if (pcommand->toi_class == INFO_CLASS_GENERIC) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; *((ULONG *)pResponseInfo) = CL_TL_UDP; *pcbResponseInfoLen = sizeof(ULONG); } else if (pcommand->toi_class == INFO_CLASS_PROTOCOL) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (*pcbResponseInfoLen < sizeof(MIB_UDPSTATS)) return ERROR_LOCK_VIOLATION; GetUdpStatistics((PMIB_UDPSTATS)pResponseInfo); *pcbResponseInfoLen = sizeof(MIB_UDPSTATS); } break; /* Returns connection-oriented transport layer statistics--in our * case, this is TCP. */ case CO_TL_ENTITY: if (pcommand->toi_class == INFO_CLASS_GENERIC) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; *((ULONG *)pResponseInfo) = CO_TL_TCP; *pcbResponseInfoLen = sizeof(ULONG); } else if (pcommand->toi_class == INFO_CLASS_PROTOCOL) { if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (*pcbResponseInfoLen < sizeof(MIB_TCPSTATS)) return ERROR_LOCK_VIOLATION; GetTcpStatistics((PMIB_TCPSTATS)pResponseInfo); *pcbResponseInfoLen = sizeof(MIB_TCPSTATS); } break; default: ERR("Unknown entity %ld for ENTITY_TYPE_ID query\n", pcommand->toi_entity.tei_entity); } break; /* This call returns the IP address, subnet mask, and broadcast * address for an interface. If there are multiple IP addresses for * the interface with the given index, returns the "first" one. */ case IP_MIB_ADDRTABLE_ENTRY_ID: { DWORD index = pcommand->toi_entity.tei_instance; PMIB_IPADDRROW baseIPInfo = (PMIB_IPADDRROW) pResponseInfo; PMIB_IPADDRTABLE table; DWORD tableSize, i; if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; if (*pcbResponseInfoLen < sizeof(MIB_IPADDRROW)) return (ERROR_LOCK_VIOLATION); /* get entire table, because there isn't an exported function that gets just one entry. */ tableSize = 0; GetIpAddrTable(NULL, &tableSize, FALSE); table = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, tableSize ); if (!table) return ERROR_NOT_ENOUGH_MEMORY; GetIpAddrTable(table, &tableSize, FALSE); for (i = 0; i < table->dwNumEntries; i++) { if (table->table[i].dwIndex == index) { TRACE("Found IP info for tei_instance 0x%lx:\n", index); TRACE("IP 0x%08lx, mask 0x%08lx\n", table->table[i].dwAddr, table->table[i].dwMask); memcpy(baseIPInfo, &table->table[i], sizeof(MIB_IPADDRROW)); break; } } HeapFree( GetProcessHeap(), 0, table ); *pcbResponseInfoLen = sizeof(MIB_IPADDRROW); break; } case IP_MIB_TABLE_ENTRY_ID: { switch (pcommand->toi_entity.tei_entity) { /* This call returns the routing table. * No official documentation found, even the name of the command is unknown. * Work is based on * http://www.cyberport.com/~tangent/programming/winsock/articles/wscontrol.html * and testings done with winipcfg.exe, route.exe and ipconfig.exe. * pcommand->toi_entity.tei_instance seems to be the interface number * but route.exe outputs only the information for the last interface * if only the routes for the pcommand->toi_entity.tei_instance * interface are returned. */ case CL_NL_ENTITY: { DWORD routeTableSize, numRoutes, ndx, ret; PMIB_IPFORWARDTABLE table; IPRouteEntry *winRouteTable = (IPRouteEntry *) pResponseInfo; if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; GetIpForwardTable(NULL, &routeTableSize, FALSE); numRoutes = min(routeTableSize - sizeof(MIB_IPFORWARDTABLE), 0) / sizeof(MIB_IPFORWARDROW) + 1; if (*pcbResponseInfoLen < sizeof(IPRouteEntry) * numRoutes) return (ERROR_LOCK_VIOLATION); table = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, routeTableSize ); if (!table) return ERROR_NOT_ENOUGH_MEMORY; ret = GetIpForwardTable(table, &routeTableSize, FALSE); if (ret != NO_ERROR) { HeapFree( GetProcessHeap(), 0, table ); return ret; } memset(pResponseInfo, 0, sizeof(IPRouteEntry) * numRoutes); for (ndx = 0; ndx < table->dwNumEntries; ndx++) { winRouteTable->ire_addr = table->table[ndx].dwForwardDest; winRouteTable->ire_index = table->table[ndx].dwForwardIfIndex; winRouteTable->ire_metric = table->table[ndx].dwForwardMetric1; /* winRouteTable->ire_option4 = winRouteTable->ire_option5 = winRouteTable->ire_option6 = */ winRouteTable->ire_gw = table->table[ndx].dwForwardNextHop; /* winRouteTable->ire_option8 = winRouteTable->ire_option9 = winRouteTable->ire_option10 = */ winRouteTable->ire_mask = table->table[ndx].dwForwardMask; /* winRouteTable->ire_option12 = */ winRouteTable++; } /* calculate the length of the data in the output buffer */ *pcbResponseInfoLen = sizeof(IPRouteEntry) * table->dwNumEntries; HeapFree( GetProcessHeap(), 0, table ); } break; case AT_ARP: { DWORD arpTableSize, numEntries, ret; PMIB_IPNETTABLE table; if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; GetIpNetTable(NULL, &arpTableSize, FALSE); numEntries = min(arpTableSize - sizeof(MIB_IPNETTABLE), 0) / sizeof(MIB_IPNETROW) + 1; if (*pcbResponseInfoLen < sizeof(MIB_IPNETROW) * numEntries) return (ERROR_LOCK_VIOLATION); table = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, arpTableSize ); if (!table) return ERROR_NOT_ENOUGH_MEMORY; ret = GetIpNetTable(table, &arpTableSize, FALSE); if (ret != NO_ERROR) { HeapFree( GetProcessHeap(), 0, table ); return ret; } if (*pcbResponseInfoLen < sizeof(MIB_IPNETROW) * table->dwNumEntries) { HeapFree( GetProcessHeap(), 0, table ); return ERROR_LOCK_VIOLATION; } memcpy(pResponseInfo, table->table, sizeof(MIB_IPNETROW) * table->dwNumEntries); /* calculate the length of the data in the output buffer */ *pcbResponseInfoLen = sizeof(MIB_IPNETROW) * table->dwNumEntries; HeapFree( GetProcessHeap(), 0, table ); } break; case CO_TL_ENTITY: { DWORD tcpTableSize, numEntries, ret; PMIB_TCPTABLE table; DWORD i; if (!pcbResponseInfoLen) return ERROR_BAD_ENVIRONMENT; GetTcpTable(NULL, &tcpTableSize, FALSE); numEntries = min(tcpTableSize - sizeof(MIB_TCPTABLE), 0) / sizeof(MIB_TCPROW) + 1; if (*pcbResponseInfoLen < sizeof(MIB_TCPROW) * numEntries) return (ERROR_LOCK_VIOLATION); table = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, tcpTableSize ); if (!table) return ERROR_NOT_ENOUGH_MEMORY; ret = GetTcpTable(table, &tcpTableSize, FALSE); if (ret != NO_ERROR) { HeapFree( GetProcessHeap(), 0, table ); return ret; } if (*pcbResponseInfoLen < sizeof(MIB_TCPROW) * table->dwNumEntries) { HeapFree( GetProcessHeap(), 0, table ); return ERROR_LOCK_VIOLATION; } for (i = 0; i < table->dwNumEntries; i++) { USHORT sPort; sPort = ntohs((USHORT)table->table[i].dwLocalPort); table->table[i].dwLocalPort = (DWORD)sPort; sPort = ntohs((USHORT)table->table[i].dwRemotePort); table->table[i].dwRemotePort = (DWORD)sPort; } memcpy(pResponseInfo, table->table, sizeof(MIB_TCPROW) * table->dwNumEntries); /* calculate the length of the data in the output buffer */ *pcbResponseInfoLen = sizeof(MIB_TCPROW) * table->dwNumEntries; HeapFree( GetProcessHeap(), 0, table ); } break; default: { FIXME ("Command ID Not Supported -> toi_id=0x%lx, toi_entity={tei_entity=0x%lx, tei_instance=0x%lx}, toi_class=0x%lx\n", pcommand->toi_id, pcommand->toi_entity.tei_entity, pcommand->toi_entity.tei_instance, pcommand->toi_class); return (ERROR_BAD_ENVIRONMENT); } } } break; default: { FIXME ("Command ID Not Supported -> toi_id=0x%lx, toi_entity={tei_entity=0x%lx, tei_instance=0x%lx}, toi_class=0x%lx\n", pcommand->toi_id, pcommand->toi_entity.tei_entity, pcommand->toi_entity.tei_instance, pcommand->toi_class); return (ERROR_BAD_ENVIRONMENT); } } break; } case WSCNTL_TCPIP_ICMP_ECHO: { unsigned int addr = *(unsigned int*)pRequestInfo; #if 0 int timeout= *(unsigned int*)(inbuf+4); short x1 = *(unsigned short*)(inbuf+8); short sendbufsize = *(unsigned short*)(inbuf+10); char x2 = *(unsigned char*)(inbuf+12); char ttl = *(unsigned char*)(inbuf+13); char service = *(unsigned char*)(inbuf+14); char type= *(unsigned char*)(inbuf+15); /* 0x2: don't fragment*/ #endif FIXME("(ICMP_ECHO) to 0x%08x stub \n", addr); break; } default: FIXME("Protocol Not Supported -> protocol=0x%lx, action=0x%lx, Request=%p, RequestLen=%p, Response=%p, ResponseLen=%p\n", protocol, action, pRequestInfo, pcbRequestInfoLen, pResponseInfo, pcbResponseInfoLen); return (WSAEOPNOTSUPP); } return (WSCTL_SUCCESS); } /*********************************************************************** * WSARecvEx (WSOCK32.1107) * * WSARecvEx is a Microsoft specific extension to winsock that is identical to recv * except that has an in/out argument call flags that has the value MSG_PARTIAL ored * into the flags parameter when a partial packet is read. This only applies to * sockets using the datagram protocol. This method does not seem to be implemented * correctly by microsoft as the winsock implementation does not set the MSG_PARTIAL * flag when a fragmented packet arrives. */ INT WINAPI WSARecvEx(SOCKET s, char *buf, INT len, INT *flags) { FIXME("(WSARecvEx) partial packet return value not set \n"); return recv(s, buf, len, *flags); } /*********************************************************************** * s_perror (WSOCK32.1108) */ void WINAPI s_perror(LPCSTR message) { FIXME("(%s): stub\n",message); return; }