/* * MPR WNet functions * * Copyright 1999 Ulrich Weigand * Copyright 2004 Juan Lang * Copyright 2007 Maarten Lankhorst * * 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 */ #include #include "windef.h" #include "winbase.h" #include "winnls.h" #include "winnetwk.h" #include "npapi.h" #include "winreg.h" #include "winuser.h" #include "wine/debug.h" #include "wine/unicode.h" #include "mprres.h" #include "wnetpriv.h" WINE_DEFAULT_DEBUG_CHANNEL(mpr); /* Data structures representing network service providers. Assumes only one * thread creates them, and that they are constant for the life of the process * (and therefore doesn't synchronize access). * FIXME: only basic provider data and enumeration-related data are implemented * so far, need to implement the rest too. */ typedef struct _WNetProvider { HMODULE hLib; PWSTR name; PF_NPGetCaps getCaps; DWORD dwSpecVersion; DWORD dwNetType; DWORD dwEnumScopes; PF_NPOpenEnum openEnum; PF_NPEnumResource enumResource; PF_NPCloseEnum closeEnum; PF_NPGetResourceInformation getResourceInformation; } WNetProvider, *PWNetProvider; typedef struct _WNetProviderTable { LPWSTR entireNetwork; DWORD numAllocated; DWORD numProviders; WNetProvider table[1]; } WNetProviderTable, *PWNetProviderTable; #define WNET_ENUMERATOR_TYPE_NULL 0 #define WNET_ENUMERATOR_TYPE_GLOBAL 1 #define WNET_ENUMERATOR_TYPE_PROVIDER 2 #define WNET_ENUMERATOR_TYPE_CONTEXT 3 /* An WNet enumerator. Note that the type doesn't correspond to the scope of * the enumeration; it represents one of the following types: * - a 'null' enumeration, one that contains no members * - a global enumeration, one that's executed across all providers * - a provider-specific enumeration, one that's only executed by a single * provider * - a context enumeration. I know this contradicts what I just said about * there being no correspondence between the scope and the type, but it's * necessary for the special case that a "Entire Network" entry needs to * be enumerated in an enumeration of the context scope. Thus an enumeration * of the context scope results in a context type enumerator, which morphs * into a global enumeration (so the enumeration continues across all * providers). */ typedef struct _WNetEnumerator { DWORD enumType; DWORD providerIndex; HANDLE handle; BOOL providerDone; DWORD dwScope; DWORD dwType; DWORD dwUsage; LPNETRESOURCEW lpNet; } WNetEnumerator, *PWNetEnumerator; #define BAD_PROVIDER_INDEX (DWORD)0xffffffff /* Returns an index (into the global WNetProviderTable) of the provider with * the given name, or BAD_PROVIDER_INDEX if not found. */ static DWORD _findProviderIndexW(LPCWSTR lpProvider); static PWNetProviderTable providerTable; /* * Global provider table functions */ static void _tryLoadProvider(PCWSTR provider) { static const WCHAR servicePrefix[] = { 'S','y','s','t','e','m','\\', 'C','u','r','r','e','n','t','C','o','n','t','r','o','l','S','e','t','\\', 'S','e','r','v','i','c','e','s','\\',0 }; static const WCHAR serviceFmt[] = { '%','s','%','s','\\', 'N','e','t','w','o','r','k','P','r','o','v','i','d','e','r',0 }; WCHAR serviceName[MAX_PATH]; HKEY hKey; TRACE("%s\n", debugstr_w(provider)); snprintfW(serviceName, sizeof(serviceName) / sizeof(WCHAR), serviceFmt, servicePrefix, provider); serviceName[sizeof(serviceName) / sizeof(WCHAR) - 1] = '\0'; if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, serviceName, 0, KEY_READ, &hKey) == ERROR_SUCCESS) { static const WCHAR szProviderPath[] = { 'P','r','o','v','i','d','e','r', 'P','a','t','h',0 }; WCHAR providerPath[MAX_PATH]; DWORD type, size = sizeof(providerPath); if (RegQueryValueExW(hKey, szProviderPath, NULL, &type, (LPBYTE)providerPath, &size) == ERROR_SUCCESS && type == REG_SZ) { static const WCHAR szProviderName[] = { 'N','a','m','e',0 }; PWSTR name = NULL; size = 0; RegQueryValueExW(hKey, szProviderName, NULL, NULL, NULL, &size); if (size) { name = HeapAlloc(GetProcessHeap(), 0, size); if (RegQueryValueExW(hKey, szProviderName, NULL, &type, (LPBYTE)name, &size) != ERROR_SUCCESS || type != REG_SZ) { HeapFree(GetProcessHeap(), 0, name); name = NULL; } } if (name) { HMODULE hLib = LoadLibraryW(providerPath); if (hLib) { PF_NPGetCaps getCaps = (PF_NPGetCaps)GetProcAddress(hLib, "NPGetCaps"); TRACE("loaded lib %p\n", hLib); if (getCaps) { PWNetProvider provider = &providerTable->table[providerTable->numProviders]; provider->hLib = hLib; provider->name = name; TRACE("name is %s\n", debugstr_w(name)); provider->getCaps = getCaps; provider->dwSpecVersion = getCaps(WNNC_SPEC_VERSION); provider->dwNetType = getCaps(WNNC_NET_TYPE); TRACE("net type is 0x%08x\n", provider->dwNetType); provider->dwEnumScopes = getCaps(WNNC_ENUMERATION); if (provider->dwEnumScopes) { TRACE("supports enumeration\n"); provider->openEnum = (PF_NPOpenEnum) GetProcAddress(hLib, "NPOpenEnum"); TRACE("openEnum is %p\n", provider->openEnum); provider->enumResource = (PF_NPEnumResource) GetProcAddress(hLib, "NPEnumResource"); TRACE("enumResource is %p\n", provider->enumResource); provider->closeEnum = (PF_NPCloseEnum) GetProcAddress(hLib, "NPCloseEnum"); TRACE("closeEnum is %p\n", provider->closeEnum); provider->getResourceInformation = (PF_NPGetResourceInformation) GetProcAddress(hLib, "NPGetResourceInformation"); TRACE("getResourceInformation is %p\n", provider->getResourceInformation); if (!provider->openEnum || !provider->enumResource || !provider->closeEnum) { provider->openEnum = NULL; provider->enumResource = NULL; provider->closeEnum = NULL; provider->dwEnumScopes = 0; WARN("Couldn't load enumeration functions\n"); } } providerTable->numProviders++; } else { WARN("Provider %s didn't export NPGetCaps\n", debugstr_w(provider)); HeapFree(GetProcessHeap(), 0, name); FreeLibrary(hLib); } } else { WARN("Couldn't load library %s for provider %s\n", debugstr_w(providerPath), debugstr_w(provider)); HeapFree(GetProcessHeap(), 0, name); } } else { WARN("Couldn't get provider name for provider %s\n", debugstr_w(provider)); } } else WARN("Couldn't open value %s\n", debugstr_w(szProviderPath)); RegCloseKey(hKey); } else WARN("Couldn't open service key for provider %s\n", debugstr_w(provider)); } void wnetInit(HINSTANCE hInstDll) { static const WCHAR providerOrderKey[] = { 'S','y','s','t','e','m','\\', 'C','u','r','r','e','n','t','C','o','n','t','r','o','l','S','e','t','\\', 'C','o','n','t','r','o','l','\\', 'N','e','t','w','o','r','k','P','r','o','v','i','d','e','r','\\', 'O','r','d','e','r',0 }; static const WCHAR providerOrder[] = { 'P','r','o','v','i','d','e','r', 'O','r','d','e','r',0 }; HKEY hKey; if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, providerOrderKey, 0, KEY_READ, &hKey) == ERROR_SUCCESS) { DWORD size = 0; RegQueryValueExW(hKey, providerOrder, NULL, NULL, NULL, &size); if (size) { PWSTR providers = HeapAlloc(GetProcessHeap(), 0, size); if (providers) { DWORD type; if (RegQueryValueExW(hKey, providerOrder, NULL, &type, (LPBYTE)providers, &size) == ERROR_SUCCESS && type == REG_SZ) { PWSTR ptr; DWORD numToAllocate; TRACE("provider order is %s\n", debugstr_w(providers)); /* first count commas as a heuristic for how many to * allocate space for */ for (ptr = providers, numToAllocate = 1; ptr; ) { ptr = strchrW(ptr, ','); if (ptr) { numToAllocate++; ptr++; } } providerTable = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WNetProviderTable) + (numToAllocate - 1) * sizeof(WNetProvider)); if (providerTable) { PWSTR ptrPrev; int entireNetworkLen; entireNetworkLen = LoadStringW(hInstDll, IDS_ENTIRENETWORK, NULL, 0); providerTable->entireNetwork = HeapAlloc( GetProcessHeap(), 0, (entireNetworkLen + 1) * sizeof(WCHAR)); if (providerTable->entireNetwork) LoadStringW(hInstDll, IDS_ENTIRENETWORK, providerTable->entireNetwork, entireNetworkLen + 1); providerTable->numAllocated = numToAllocate; for (ptr = providers; ptr; ) { ptrPrev = ptr; ptr = strchrW(ptr, ','); if (ptr) *ptr++ = '\0'; _tryLoadProvider(ptrPrev); } } } HeapFree(GetProcessHeap(), 0, providers); } } RegCloseKey(hKey); } } void wnetFree(void) { if (providerTable) { DWORD i; for (i = 0; i < providerTable->numProviders; i++) { HeapFree(GetProcessHeap(), 0, providerTable->table[i].name); FreeModule(providerTable->table[i].hLib); } HeapFree(GetProcessHeap(), 0, providerTable->entireNetwork); HeapFree(GetProcessHeap(), 0, providerTable); providerTable = NULL; } } static DWORD _findProviderIndexW(LPCWSTR lpProvider) { DWORD ret = BAD_PROVIDER_INDEX; if (providerTable && providerTable->numProviders) { DWORD i; for (i = 0; i < providerTable->numProviders && ret == BAD_PROVIDER_INDEX; i++) if (!strcmpW(lpProvider, providerTable->table[i].name)) ret = i; } return ret; } /* * Browsing Functions */ static LPNETRESOURCEW _copyNetResourceForEnumW(LPNETRESOURCEW lpNet) { LPNETRESOURCEW ret; if (lpNet) { ret = HeapAlloc(GetProcessHeap(), 0, sizeof(NETRESOURCEW)); if (ret) { size_t len; *ret = *lpNet; ret->lpLocalName = ret->lpComment = ret->lpProvider = NULL; if (lpNet->lpRemoteName) { len = strlenW(lpNet->lpRemoteName) + 1; ret->lpRemoteName = HeapAlloc(GetProcessHeap(), 0, len * sizeof(WCHAR)); if (ret->lpRemoteName) strcpyW(ret->lpRemoteName, lpNet->lpRemoteName); } } } else ret = NULL; return ret; } static void _freeEnumNetResource(LPNETRESOURCEW lpNet) { if (lpNet) { HeapFree(GetProcessHeap(), 0, lpNet->lpRemoteName); HeapFree(GetProcessHeap(), 0, lpNet); } } static PWNetEnumerator _createNullEnumerator(void) { PWNetEnumerator ret = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WNetEnumerator)); if (ret) ret->enumType = WNET_ENUMERATOR_TYPE_NULL; return ret; } static PWNetEnumerator _createGlobalEnumeratorW(DWORD dwScope, DWORD dwType, DWORD dwUsage, LPNETRESOURCEW lpNet) { PWNetEnumerator ret = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WNetEnumerator)); if (ret) { ret->enumType = WNET_ENUMERATOR_TYPE_GLOBAL; ret->dwScope = dwScope; ret->dwType = dwType; ret->dwUsage = dwUsage; ret->lpNet = _copyNetResourceForEnumW(lpNet); } return ret; } static PWNetEnumerator _createProviderEnumerator(DWORD dwScope, DWORD dwType, DWORD dwUsage, DWORD index, HANDLE handle) { PWNetEnumerator ret; if (!providerTable || index >= providerTable->numProviders) ret = NULL; else { ret = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WNetEnumerator)); if (ret) { ret->enumType = WNET_ENUMERATOR_TYPE_PROVIDER; ret->providerIndex = index; ret->dwScope = dwScope; ret->dwType = dwType; ret->dwUsage = dwUsage; ret->handle = handle; } } return ret; } static PWNetEnumerator _createContextEnumerator(DWORD dwScope, DWORD dwType, DWORD dwUsage) { PWNetEnumerator ret = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WNetEnumerator)); if (ret) { ret->enumType = WNET_ENUMERATOR_TYPE_CONTEXT; ret->dwScope = dwScope; ret->dwType = dwType; ret->dwUsage = dwUsage; } return ret; } /* Thunks the array of wide-string LPNETRESOURCEs lpNetArrayIn into buffer * lpBuffer, with size *lpBufferSize. lpNetArrayIn contains *lpcCount entries * to start. On return, *lpcCount reflects the number thunked into lpBuffer. * Returns WN_SUCCESS on success (all of lpNetArrayIn thunked), WN_MORE_DATA * if not all members of the array could be thunked, and something else on * failure. */ static DWORD _thunkNetResourceArrayWToA(const NETRESOURCEW *lpNetArrayIn, const DWORD *lpcCount, LPVOID lpBuffer, const DWORD *lpBufferSize) { DWORD i, numToThunk, totalBytes, ret; LPSTR strNext; if (!lpNetArrayIn) return WN_BAD_POINTER; if (!lpcCount) return WN_BAD_POINTER; if (*lpcCount == -1) return WN_BAD_VALUE; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; for (i = 0, numToThunk = 0, totalBytes = 0; i < *lpcCount; i++) { const NETRESOURCEW *lpNet = lpNetArrayIn + i; totalBytes += sizeof(NETRESOURCEA); if (lpNet->lpLocalName) totalBytes += WideCharToMultiByte(CP_ACP, 0, lpNet->lpLocalName, -1, NULL, 0, NULL, NULL); if (lpNet->lpRemoteName) totalBytes += WideCharToMultiByte(CP_ACP, 0, lpNet->lpRemoteName, -1, NULL, 0, NULL, NULL); if (lpNet->lpComment) totalBytes += WideCharToMultiByte(CP_ACP, 0, lpNet->lpComment, -1, NULL, 0, NULL, NULL); if (lpNet->lpProvider) totalBytes += WideCharToMultiByte(CP_ACP, 0, lpNet->lpProvider, -1, NULL, 0, NULL, NULL); if (totalBytes < *lpBufferSize) numToThunk = i + 1; } strNext = (LPSTR)((LPBYTE)lpBuffer + numToThunk * sizeof(NETRESOURCEA)); for (i = 0; i < numToThunk; i++) { LPNETRESOURCEA lpNetOut = (LPNETRESOURCEA)lpBuffer + i; const NETRESOURCEW *lpNetIn = lpNetArrayIn + i; memcpy(lpNetOut, lpNetIn, sizeof(NETRESOURCEA)); /* lie about string lengths, we already verified how many * we have space for above */ if (lpNetIn->lpLocalName) { lpNetOut->lpLocalName = strNext; strNext += WideCharToMultiByte(CP_ACP, 0, lpNetIn->lpLocalName, -1, lpNetOut->lpLocalName, *lpBufferSize, NULL, NULL); } if (lpNetIn->lpRemoteName) { lpNetOut->lpRemoteName = strNext; strNext += WideCharToMultiByte(CP_ACP, 0, lpNetIn->lpRemoteName, -1, lpNetOut->lpRemoteName, *lpBufferSize, NULL, NULL); } if (lpNetIn->lpComment) { lpNetOut->lpComment = strNext; strNext += WideCharToMultiByte(CP_ACP, 0, lpNetIn->lpComment, -1, lpNetOut->lpComment, *lpBufferSize, NULL, NULL); } if (lpNetIn->lpProvider) { lpNetOut->lpProvider = strNext; strNext += WideCharToMultiByte(CP_ACP, 0, lpNetIn->lpProvider, -1, lpNetOut->lpProvider, *lpBufferSize, NULL, NULL); } } ret = numToThunk < *lpcCount ? WN_MORE_DATA : WN_SUCCESS; TRACE("numToThunk is %d, *lpcCount is %d, returning %d\n", numToThunk, *lpcCount, ret); return ret; } /* Thunks the array of multibyte-string LPNETRESOURCEs lpNetArrayIn into buffer * lpBuffer, with size *lpBufferSize. lpNetArrayIn contains *lpcCount entries * to start. On return, *lpcCount reflects the number thunked into lpBuffer. * Returns WN_SUCCESS on success (all of lpNetArrayIn thunked), WN_MORE_DATA * if not all members of the array could be thunked, and something else on * failure. */ static DWORD _thunkNetResourceArrayAToW(const NETRESOURCEA *lpNetArrayIn, const DWORD *lpcCount, LPVOID lpBuffer, const DWORD *lpBufferSize) { DWORD i, numToThunk, totalBytes, ret; LPWSTR strNext; if (!lpNetArrayIn) return WN_BAD_POINTER; if (!lpcCount) return WN_BAD_POINTER; if (*lpcCount == -1) return WN_BAD_VALUE; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; for (i = 0, numToThunk = 0, totalBytes = 0; i < *lpcCount; i++) { const NETRESOURCEA *lpNet = lpNetArrayIn + i; totalBytes += sizeof(NETRESOURCEW); if (lpNet->lpLocalName) totalBytes += MultiByteToWideChar(CP_ACP, 0, lpNet->lpLocalName, -1, NULL, 0) * sizeof(WCHAR); if (lpNet->lpRemoteName) totalBytes += MultiByteToWideChar(CP_ACP, 0, lpNet->lpRemoteName, -1, NULL, 0) * sizeof(WCHAR); if (lpNet->lpComment) totalBytes += MultiByteToWideChar(CP_ACP, 0, lpNet->lpComment, -1, NULL, 0) * sizeof(WCHAR); if (lpNet->lpProvider) totalBytes += MultiByteToWideChar(CP_ACP, 0, lpNet->lpProvider, -1, NULL, 0) * sizeof(WCHAR); if (totalBytes < *lpBufferSize) numToThunk = i + 1; } strNext = (LPWSTR)((LPBYTE)lpBuffer + numToThunk * sizeof(NETRESOURCEW)); for (i = 0; i < numToThunk; i++) { LPNETRESOURCEW lpNetOut = (LPNETRESOURCEW)lpBuffer + i; const NETRESOURCEA *lpNetIn = lpNetArrayIn + i; memcpy(lpNetOut, lpNetIn, sizeof(NETRESOURCEW)); /* lie about string lengths, we already verified how many * we have space for above */ if (lpNetIn->lpLocalName) { lpNetOut->lpLocalName = strNext; strNext += MultiByteToWideChar(CP_ACP, 0, lpNetIn->lpLocalName, -1, lpNetOut->lpLocalName, *lpBufferSize); } if (lpNetIn->lpRemoteName) { lpNetOut->lpRemoteName = strNext; strNext += MultiByteToWideChar(CP_ACP, 0, lpNetIn->lpRemoteName, -1, lpNetOut->lpRemoteName, *lpBufferSize); } if (lpNetIn->lpComment) { lpNetOut->lpComment = strNext; strNext += MultiByteToWideChar(CP_ACP, 0, lpNetIn->lpComment, -1, lpNetOut->lpComment, *lpBufferSize); } if (lpNetIn->lpProvider) { lpNetOut->lpProvider = strNext; strNext += MultiByteToWideChar(CP_ACP, 0, lpNetIn->lpProvider, -1, lpNetOut->lpProvider, *lpBufferSize); } } ret = numToThunk < *lpcCount ? WN_MORE_DATA : WN_SUCCESS; TRACE("numToThunk is %d, *lpcCount is %d, returning %d\n", numToThunk, *lpcCount, ret); return ret; } /********************************************************************* * WNetOpenEnumA [MPR.@] * * See comments for WNetOpenEnumW. */ DWORD WINAPI WNetOpenEnumA( DWORD dwScope, DWORD dwType, DWORD dwUsage, LPNETRESOURCEA lpNet, LPHANDLE lphEnum ) { DWORD ret; TRACE( "(%08X, %08X, %08X, %p, %p)\n", dwScope, dwType, dwUsage, lpNet, lphEnum ); if (!lphEnum) ret = WN_BAD_POINTER; else if (!providerTable || providerTable->numProviders == 0) ret = WN_NO_NETWORK; else { if (lpNet) { LPNETRESOURCEW lpNetWide = NULL; BYTE buf[1024]; DWORD size = sizeof(buf), count = 1; BOOL allocated = FALSE; ret = _thunkNetResourceArrayAToW(lpNet, &count, buf, &size); if (ret == WN_MORE_DATA) { lpNetWide = HeapAlloc(GetProcessHeap(), 0, size); if (lpNetWide) { ret = _thunkNetResourceArrayAToW(lpNet, &count, lpNetWide, &size); allocated = TRUE; } else ret = WN_OUT_OF_MEMORY; } else if (ret == WN_SUCCESS) lpNetWide = (LPNETRESOURCEW)buf; if (ret == WN_SUCCESS) ret = WNetOpenEnumW(dwScope, dwType, dwUsage, lpNetWide, lphEnum); if (allocated) HeapFree(GetProcessHeap(), 0, lpNetWide); } else ret = WNetOpenEnumW(dwScope, dwType, dwUsage, NULL, lphEnum); } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetOpenEnumW [MPR.@] * * Network enumeration has way too many parameters, so I'm not positive I got * them right. What I've got so far: * * - If the scope is RESOURCE_GLOBALNET, and no LPNETRESOURCE is passed, * all the network providers should be enumerated. * * - If the scope is RESOURCE_GLOBALNET, and LPNETRESOURCE is passed, and * and neither the LPNETRESOURCE's lpRemoteName nor the LPNETRESOURCE's * lpProvider is set, all the network providers should be enumerated. * (This means the enumeration is a list of network providers, not that the * enumeration is passed on to the providers.) * * - If the scope is RESOURCE_GLOBALNET, and LPNETRESOURCE is passed, and the * resource matches the "Entire Network" resource (no remote name, no * provider, comment is the "Entire Network" string), a RESOURCE_GLOBALNET * enumeration is done on every network provider. * * - If the scope is RESOURCE_GLOBALNET, and LPNETRESOURCE is passed, and * the LPNETRESOURCE's lpProvider is set, enumeration will be passed through * only to the given network provider. * * - If the scope is RESOURCE_GLOBALNET, and LPNETRESOURCE is passed, and * no lpProvider is set, enumeration will be tried on every network provider, * in the order in which they're loaded. * * - The LPNETRESOURCE should be disregarded for scopes besides * RESOURCE_GLOBALNET. MSDN states that lpNet must be NULL if dwScope is not * RESOURCE_GLOBALNET, but Windows doesn't return an error if it isn't NULL. * * - If the scope is RESOURCE_CONTEXT, MS includes an "Entire Network" net * resource in the enumerated list, as well as any machines in your * workgroup. The machines in your workgroup come from doing a * RESOURCE_CONTEXT enumeration of every Network Provider. */ DWORD WINAPI WNetOpenEnumW( DWORD dwScope, DWORD dwType, DWORD dwUsage, LPNETRESOURCEW lpNet, LPHANDLE lphEnum ) { DWORD ret; TRACE( "(%08X, %08X, %08X, %p, %p)\n", dwScope, dwType, dwUsage, lpNet, lphEnum ); if (!lphEnum) ret = WN_BAD_POINTER; else if (!providerTable || providerTable->numProviders == 0) ret = WN_NO_NETWORK; else { switch (dwScope) { case RESOURCE_GLOBALNET: if (lpNet) { if (lpNet->lpProvider) { DWORD index = _findProviderIndexW(lpNet->lpProvider); if (index != BAD_PROVIDER_INDEX) { if (providerTable->table[index].openEnum && providerTable->table[index].dwEnumScopes & WNNC_ENUM_GLOBAL) { HANDLE handle; ret = providerTable->table[index].openEnum( dwScope, dwType, dwUsage, lpNet, &handle); if (ret == WN_SUCCESS) { *lphEnum = (HANDLE)_createProviderEnumerator( dwScope, dwType, dwUsage, index, handle); ret = *lphEnum ? WN_SUCCESS : WN_OUT_OF_MEMORY; } } else ret = WN_NOT_SUPPORTED; } else ret = WN_BAD_PROVIDER; } else if (lpNet->lpRemoteName) { *lphEnum = (HANDLE)_createGlobalEnumeratorW(dwScope, dwType, dwUsage, lpNet); ret = *lphEnum ? WN_SUCCESS : WN_OUT_OF_MEMORY; } else { if (lpNet->lpComment && !strcmpW(lpNet->lpComment, providerTable->entireNetwork)) { /* comment matches the "Entire Network", enumerate * global scope of every provider */ *lphEnum = (HANDLE)_createGlobalEnumeratorW(dwScope, dwType, dwUsage, lpNet); } else { /* this is the same as not having passed lpNet */ *lphEnum = (HANDLE)_createGlobalEnumeratorW(dwScope, dwType, dwUsage, NULL); } ret = *lphEnum ? WN_SUCCESS : WN_OUT_OF_MEMORY; } } else { *lphEnum = (HANDLE)_createGlobalEnumeratorW(dwScope, dwType, dwUsage, lpNet); ret = *lphEnum ? WN_SUCCESS : WN_OUT_OF_MEMORY; } break; case RESOURCE_CONTEXT: *lphEnum = (HANDLE)_createContextEnumerator(dwScope, dwType, dwUsage); ret = *lphEnum ? WN_SUCCESS : WN_OUT_OF_MEMORY; break; case RESOURCE_REMEMBERED: case RESOURCE_CONNECTED: *lphEnum = (HANDLE)_createNullEnumerator(); ret = *lphEnum ? WN_SUCCESS : WN_OUT_OF_MEMORY; break; default: WARN("unknown scope 0x%08x\n", dwScope); ret = WN_BAD_VALUE; } } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetEnumResourceA [MPR.@] */ DWORD WINAPI WNetEnumResourceA( HANDLE hEnum, LPDWORD lpcCount, LPVOID lpBuffer, LPDWORD lpBufferSize ) { DWORD ret; TRACE( "(%p, %p, %p, %p)\n", hEnum, lpcCount, lpBuffer, lpBufferSize ); if (!hEnum) ret = WN_BAD_POINTER; else if (!lpcCount) ret = WN_BAD_POINTER; else if (!lpBuffer) ret = WN_BAD_POINTER; else if (!lpBufferSize) ret = WN_BAD_POINTER; else if (*lpBufferSize < sizeof(NETRESOURCEA)) { *lpBufferSize = sizeof(NETRESOURCEA); ret = WN_MORE_DATA; } else { DWORD localCount = *lpcCount, localSize = *lpBufferSize; LPVOID localBuffer = HeapAlloc(GetProcessHeap(), 0, localSize); if (localBuffer) { ret = WNetEnumResourceW(hEnum, &localCount, localBuffer, &localSize); if (ret == WN_SUCCESS || (ret == WN_MORE_DATA && localCount != -1)) { /* FIXME: this isn't necessarily going to work in the case of * WN_MORE_DATA, because our enumerator may have moved on to * the next provider. MSDN states that a large (16KB) buffer * size is the appropriate usage of this function, so * hopefully it won't be an issue. */ ret = _thunkNetResourceArrayWToA((LPNETRESOURCEW)localBuffer, &localCount, lpBuffer, lpBufferSize); *lpcCount = localCount; } HeapFree(GetProcessHeap(), 0, localBuffer); } else ret = WN_OUT_OF_MEMORY; } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } static DWORD _countProviderBytesW(PWNetProvider provider) { DWORD ret; if (provider) { ret = sizeof(NETRESOURCEW); ret += 2 * (strlenW(provider->name) + 1) * sizeof(WCHAR); } else ret = 0; return ret; } static DWORD _enumerateProvidersW(PWNetEnumerator enumerator, LPDWORD lpcCount, LPVOID lpBuffer, const DWORD *lpBufferSize) { DWORD ret; if (!enumerator) return WN_BAD_POINTER; if (enumerator->enumType != WNET_ENUMERATOR_TYPE_GLOBAL) return WN_BAD_VALUE; if (!lpcCount) return WN_BAD_POINTER; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; if (*lpBufferSize < sizeof(NETRESOURCEA)) return WN_MORE_DATA; if (!providerTable || enumerator->providerIndex >= providerTable->numProviders) ret = WN_NO_MORE_ENTRIES; else { DWORD bytes = 0, count = 0, countLimit, i; LPNETRESOURCEW resource; LPWSTR strNext; countLimit = *lpcCount == -1 ? providerTable->numProviders - enumerator->providerIndex : *lpcCount; while (count < countLimit && bytes < *lpBufferSize) { DWORD bytesNext = _countProviderBytesW( &providerTable->table[count + enumerator->providerIndex]); if (bytes + bytesNext < *lpBufferSize) { bytes += bytesNext; count++; } } strNext = (LPWSTR)((LPBYTE)lpBuffer + count * sizeof(NETRESOURCEW)); for (i = 0, resource = (LPNETRESOURCEW)lpBuffer; i < count; i++, resource++) { resource->dwScope = RESOURCE_GLOBALNET; resource->dwType = RESOURCETYPE_ANY; resource->dwDisplayType = RESOURCEDISPLAYTYPE_NETWORK; resource->dwUsage = RESOURCEUSAGE_CONTAINER | RESOURCEUSAGE_RESERVED; resource->lpLocalName = NULL; resource->lpRemoteName = strNext; strcpyW(resource->lpRemoteName, providerTable->table[i + enumerator->providerIndex].name); strNext += strlenW(resource->lpRemoteName) + 1; resource->lpComment = NULL; resource->lpProvider = strNext; strcpyW(resource->lpProvider, providerTable->table[i + enumerator->providerIndex].name); strNext += strlenW(resource->lpProvider) + 1; } enumerator->providerIndex += count; *lpcCount = count; ret = count > 0 ? WN_SUCCESS : WN_MORE_DATA; } TRACE("Returning %d\n", ret); return ret; } /* Advances the enumerator (assumed to be a global enumerator) to the next * provider that supports the enumeration scope passed to WNetOpenEnum. Does * not open a handle with the next provider. * If the existing handle is NULL, may leave the enumerator unchanged, since * the current provider may support the desired scope. * If the existing handle is not NULL, closes it before moving on. * Returns WN_SUCCESS on success, WN_NO_MORE_ENTRIES if there is no available * provider, and another error on failure. */ static DWORD _globalEnumeratorAdvance(PWNetEnumerator enumerator) { if (!enumerator) return WN_BAD_POINTER; if (enumerator->enumType != WNET_ENUMERATOR_TYPE_GLOBAL) return WN_BAD_VALUE; if (!providerTable || enumerator->providerIndex >= providerTable->numProviders) return WN_NO_MORE_ENTRIES; if (enumerator->providerDone) { DWORD dwEnum = 0; enumerator->providerDone = FALSE; if (enumerator->handle) { providerTable->table[enumerator->providerIndex].closeEnum( enumerator->handle); enumerator->handle = NULL; enumerator->providerIndex++; } if (enumerator->dwScope == RESOURCE_CONNECTED) dwEnum = WNNC_ENUM_LOCAL; else if (enumerator->dwScope == RESOURCE_GLOBALNET) dwEnum = WNNC_ENUM_GLOBAL; else if (enumerator->dwScope == RESOURCE_CONTEXT) dwEnum = WNNC_ENUM_CONTEXT; for (; enumerator->providerIndex < providerTable->numProviders && !(providerTable->table[enumerator->providerIndex].dwEnumScopes & dwEnum); enumerator->providerIndex++) ; } return enumerator->providerIndex < providerTable->numProviders ? WN_SUCCESS : WN_NO_MORE_ENTRIES; } /* "Passes through" call to the next provider that supports the enumeration * type. * FIXME: if one call to a provider's enumerator succeeds while there's still * space in lpBuffer, I don't call to the next provider. The caller may not * expect that it should call EnumResourceW again with a return value of * WN_SUCCESS (depending what *lpcCount was to begin with). That means strings * may have to be moved around a bit, ick. */ static DWORD _enumerateGlobalPassthroughW(PWNetEnumerator enumerator, LPDWORD lpcCount, LPVOID lpBuffer, LPDWORD lpBufferSize) { DWORD ret; if (!enumerator) return WN_BAD_POINTER; if (enumerator->enumType != WNET_ENUMERATOR_TYPE_GLOBAL) return WN_BAD_VALUE; if (!lpcCount) return WN_BAD_POINTER; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; if (*lpBufferSize < sizeof(NETRESOURCEW)) return WN_MORE_DATA; ret = _globalEnumeratorAdvance(enumerator); if (ret == WN_SUCCESS) { ret = providerTable->table[enumerator->providerIndex]. openEnum(enumerator->dwScope, enumerator->dwType, enumerator->dwUsage, enumerator->lpNet, &enumerator->handle); if (ret == WN_SUCCESS) { ret = providerTable->table[enumerator->providerIndex]. enumResource(enumerator->handle, lpcCount, lpBuffer, lpBufferSize); if (ret != WN_MORE_DATA) enumerator->providerDone = TRUE; } } TRACE("Returning %d\n", ret); return ret; } static DWORD _enumerateGlobalW(PWNetEnumerator enumerator, LPDWORD lpcCount, LPVOID lpBuffer, LPDWORD lpBufferSize) { DWORD ret; if (!enumerator) return WN_BAD_POINTER; if (enumerator->enumType != WNET_ENUMERATOR_TYPE_GLOBAL) return WN_BAD_VALUE; if (!lpcCount) return WN_BAD_POINTER; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; if (*lpBufferSize < sizeof(NETRESOURCEW)) return WN_MORE_DATA; if (!providerTable) return WN_NO_NETWORK; switch (enumerator->dwScope) { case RESOURCE_GLOBALNET: if (enumerator->lpNet) ret = _enumerateGlobalPassthroughW(enumerator, lpcCount, lpBuffer, lpBufferSize); else ret = _enumerateProvidersW(enumerator, lpcCount, lpBuffer, lpBufferSize); break; case RESOURCE_CONTEXT: ret = _enumerateGlobalPassthroughW(enumerator, lpcCount, lpBuffer, lpBufferSize); break; default: WARN("unexpected scope 0x%08x\n", enumerator->dwScope); ret = WN_NO_MORE_ENTRIES; } TRACE("Returning %d\n", ret); return ret; } static DWORD _enumerateProviderW(PWNetEnumerator enumerator, LPDWORD lpcCount, LPVOID lpBuffer, LPDWORD lpBufferSize) { if (!enumerator) return WN_BAD_POINTER; if (enumerator->enumType != WNET_ENUMERATOR_TYPE_PROVIDER) return WN_BAD_VALUE; if (!enumerator->handle) return WN_BAD_VALUE; if (!lpcCount) return WN_BAD_POINTER; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; if (!providerTable) return WN_NO_NETWORK; if (enumerator->providerIndex >= providerTable->numProviders) return WN_NO_MORE_ENTRIES; if (!providerTable->table[enumerator->providerIndex].enumResource) return WN_BAD_VALUE; return providerTable->table[enumerator->providerIndex].enumResource( enumerator->handle, lpcCount, lpBuffer, lpBufferSize); } static DWORD _enumerateContextW(PWNetEnumerator enumerator, LPDWORD lpcCount, LPVOID lpBuffer, LPDWORD lpBufferSize) { DWORD ret; size_t cchEntireNetworkLen, bytesNeeded; if (!enumerator) return WN_BAD_POINTER; if (enumerator->enumType != WNET_ENUMERATOR_TYPE_CONTEXT) return WN_BAD_VALUE; if (!lpcCount) return WN_BAD_POINTER; if (!lpBuffer) return WN_BAD_POINTER; if (!lpBufferSize) return WN_BAD_POINTER; if (!providerTable) return WN_NO_NETWORK; cchEntireNetworkLen = strlenW(providerTable->entireNetwork) + 1; bytesNeeded = sizeof(NETRESOURCEW) + cchEntireNetworkLen * sizeof(WCHAR); if (*lpBufferSize < bytesNeeded) { *lpBufferSize = bytesNeeded; ret = WN_MORE_DATA; } else { LPNETRESOURCEW lpNet = (LPNETRESOURCEW)lpBuffer; lpNet->dwScope = RESOURCE_GLOBALNET; lpNet->dwType = enumerator->dwType; lpNet->dwDisplayType = RESOURCEDISPLAYTYPE_ROOT; lpNet->dwUsage = RESOURCEUSAGE_CONTAINER; lpNet->lpLocalName = NULL; lpNet->lpRemoteName = NULL; lpNet->lpProvider = NULL; /* odd, but correct: put comment at end of buffer, so it won't get * overwritten by subsequent calls to a provider's enumResource */ lpNet->lpComment = (LPWSTR)((LPBYTE)lpBuffer + *lpBufferSize - (cchEntireNetworkLen * sizeof(WCHAR))); strcpyW(lpNet->lpComment, providerTable->entireNetwork); ret = WN_SUCCESS; } if (ret == WN_SUCCESS) { DWORD bufferSize = *lpBufferSize - bytesNeeded; /* "Entire Network" entry enumerated--morph this into a global * enumerator. enumerator->lpNet continues to be NULL, since it has * no meaning when the scope isn't RESOURCE_GLOBALNET. */ enumerator->enumType = WNET_ENUMERATOR_TYPE_GLOBAL; ret = _enumerateGlobalW(enumerator, lpcCount, (LPBYTE)lpBuffer + bytesNeeded, &bufferSize); if (ret == WN_SUCCESS) { /* reflect the fact that we already enumerated "Entire Network" */ lpcCount++; *lpBufferSize = bufferSize + bytesNeeded; } else { /* the provider enumeration failed, but we already succeeded in * enumerating "Entire Network"--leave type as global to allow a * retry, but indicate success with a count of one. */ ret = WN_SUCCESS; *lpcCount = 1; *lpBufferSize = bytesNeeded; } } TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetEnumResourceW [MPR.@] */ DWORD WINAPI WNetEnumResourceW( HANDLE hEnum, LPDWORD lpcCount, LPVOID lpBuffer, LPDWORD lpBufferSize ) { DWORD ret; TRACE( "(%p, %p, %p, %p)\n", hEnum, lpcCount, lpBuffer, lpBufferSize ); if (!hEnum) ret = WN_BAD_POINTER; else if (!lpcCount) ret = WN_BAD_POINTER; else if (!lpBuffer) ret = WN_BAD_POINTER; else if (!lpBufferSize) ret = WN_BAD_POINTER; else if (*lpBufferSize < sizeof(NETRESOURCEW)) { *lpBufferSize = sizeof(NETRESOURCEW); ret = WN_MORE_DATA; } else { PWNetEnumerator enumerator = (PWNetEnumerator)hEnum; switch (enumerator->enumType) { case WNET_ENUMERATOR_TYPE_NULL: ret = WN_NO_MORE_ENTRIES; break; case WNET_ENUMERATOR_TYPE_GLOBAL: ret = _enumerateGlobalW(enumerator, lpcCount, lpBuffer, lpBufferSize); break; case WNET_ENUMERATOR_TYPE_PROVIDER: ret = _enumerateProviderW(enumerator, lpcCount, lpBuffer, lpBufferSize); break; case WNET_ENUMERATOR_TYPE_CONTEXT: ret = _enumerateContextW(enumerator, lpcCount, lpBuffer, lpBufferSize); break; default: WARN("bogus enumerator type!\n"); ret = WN_NO_NETWORK; } } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetCloseEnum [MPR.@] */ DWORD WINAPI WNetCloseEnum( HANDLE hEnum ) { DWORD ret; TRACE( "(%p)\n", hEnum ); if (hEnum) { PWNetEnumerator enumerator = (PWNetEnumerator)hEnum; switch (enumerator->enumType) { case WNET_ENUMERATOR_TYPE_NULL: ret = WN_SUCCESS; break; case WNET_ENUMERATOR_TYPE_GLOBAL: if (enumerator->lpNet) _freeEnumNetResource(enumerator->lpNet); if (enumerator->handle) providerTable->table[enumerator->providerIndex]. closeEnum(enumerator->handle); ret = WN_SUCCESS; break; case WNET_ENUMERATOR_TYPE_PROVIDER: if (enumerator->handle) providerTable->table[enumerator->providerIndex]. closeEnum(enumerator->handle); ret = WN_SUCCESS; break; default: WARN("bogus enumerator type!\n"); ret = WN_BAD_HANDLE; } HeapFree(GetProcessHeap(), 0, hEnum); } else ret = WN_BAD_HANDLE; if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetGetResourceInformationA [MPR.@] * * See WNetGetResourceInformationW */ DWORD WINAPI WNetGetResourceInformationA( LPNETRESOURCEA lpNetResource, LPVOID lpBuffer, LPDWORD cbBuffer, LPSTR *lplpSystem ) { DWORD ret; TRACE( "(%p, %p, %p, %p)\n", lpNetResource, lpBuffer, cbBuffer, lplpSystem ); if (!providerTable || providerTable->numProviders == 0) ret = WN_NO_NETWORK; else if (lpNetResource) { LPNETRESOURCEW lpNetResourceW = NULL; DWORD size = 1024, count = 1; DWORD len; lpNetResourceW = HeapAlloc(GetProcessHeap(), 0, size); ret = _thunkNetResourceArrayAToW(lpNetResource, &count, lpNetResourceW, &size); if (ret == WN_MORE_DATA) { lpNetResourceW = HeapAlloc(GetProcessHeap(), 0, size); if (lpNetResourceW) ret = _thunkNetResourceArrayAToW(lpNetResource, &count, lpNetResourceW, &size); else ret = WN_OUT_OF_MEMORY; } if (ret == WN_SUCCESS) { LPWSTR lpSystemW = NULL; LPVOID lpBufferW; size = 1024; lpBufferW = HeapAlloc(GetProcessHeap(), 0, size); if (lpBufferW) { ret = WNetGetResourceInformationW(lpNetResourceW, lpBufferW, &size, &lpSystemW); if (ret == WN_MORE_DATA) { HeapFree(GetProcessHeap(), 0, lpBufferW); lpBufferW = HeapAlloc(GetProcessHeap(), 0, size); if (lpBufferW) ret = WNetGetResourceInformationW(lpNetResourceW, lpBufferW, &size, &lpSystemW); else ret = WN_OUT_OF_MEMORY; } if (ret == WN_SUCCESS) { ret = _thunkNetResourceArrayWToA(lpBufferW, &count, lpBuffer, cbBuffer); lpNetResourceW = lpBufferW; size = sizeof(NETRESOURCEA); size += WideCharToMultiByte(CP_ACP, 0, lpNetResourceW->lpRemoteName, -1, NULL, 0, NULL, NULL); size += WideCharToMultiByte(CP_ACP, 0, lpNetResourceW->lpProvider, -1, NULL, 0, NULL, NULL); len = WideCharToMultiByte(CP_ACP, 0, lpSystemW, -1, NULL, 0, NULL, NULL); if ((len) && ( size + len < *cbBuffer)) { *lplpSystem = (char*)lpBuffer + *cbBuffer - len; WideCharToMultiByte(CP_ACP, 0, lpSystemW, -1, *lplpSystem, len, NULL, NULL); ret = WN_SUCCESS; } else ret = WN_MORE_DATA; } else ret = WN_OUT_OF_MEMORY; HeapFree(GetProcessHeap(), 0, lpBufferW); } else ret = WN_OUT_OF_MEMORY; HeapFree(GetProcessHeap(), 0, lpSystemW); } HeapFree(GetProcessHeap(), 0, lpNetResourceW); } else ret = WN_NO_NETWORK; if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetGetResourceInformationW [MPR.@] * * WNetGetResourceInformationW function identifies the network provider * that owns the resource and gets information about the type of the resource. * * PARAMS: * lpNetResource [ I] the pointer to NETRESOURCEW structure, that * defines a network resource. * lpBuffer [ O] the pointer to buffer, containing result. It * contains NETRESOURCEW structure and strings to * which the members of the NETRESOURCEW structure * point. * cbBuffer [I/O] the pointer to DWORD number - size of buffer * in bytes. * lplpSystem [ O] the pointer to string in the output buffer, * containing the part of the resource name without * names of the server and share. * * RETURNS: * NO_ERROR if the function succeeds. System error code if the function fails. */ DWORD WINAPI WNetGetResourceInformationW( LPNETRESOURCEW lpNetResource, LPVOID lpBuffer, LPDWORD cbBuffer, LPWSTR *lplpSystem ) { DWORD ret = WN_NO_NETWORK; DWORD index; TRACE( "(%p, %p, %p, %p)\n", lpNetResource, lpBuffer, cbBuffer, lplpSystem); if (!(lpBuffer)) ret = WN_OUT_OF_MEMORY; else { /* FIXME: For function value of a variable is indifferent, it does * search of all providers in a network. */ for (index = 0; index < providerTable->numProviders; index++) { if(providerTable->table[index].getCaps(WNNC_DIALOG) & WNNC_DLG_GETRESOURCEINFORMATION) { if (providerTable->table[index].getResourceInformation) ret = providerTable->table[index].getResourceInformation( lpNetResource, lpBuffer, cbBuffer, lplpSystem); else ret = WN_NO_NETWORK; if (ret == WN_SUCCESS) break; } } } if (ret) SetLastError(ret); return ret; } /********************************************************************* * WNetGetResourceParentA [MPR.@] */ DWORD WINAPI WNetGetResourceParentA( LPNETRESOURCEA lpNetResource, LPVOID lpBuffer, LPDWORD lpBufferSize ) { FIXME( "(%p, %p, %p): stub\n", lpNetResource, lpBuffer, lpBufferSize ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetGetResourceParentW [MPR.@] */ DWORD WINAPI WNetGetResourceParentW( LPNETRESOURCEW lpNetResource, LPVOID lpBuffer, LPDWORD lpBufferSize ) { FIXME( "(%p, %p, %p): stub\n", lpNetResource, lpBuffer, lpBufferSize ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /* * Connection Functions */ /********************************************************************* * WNetAddConnectionA [MPR.@] */ DWORD WINAPI WNetAddConnectionA( LPCSTR lpRemoteName, LPCSTR lpPassword, LPCSTR lpLocalName ) { FIXME( "(%s, %p, %s): stub\n", debugstr_a(lpRemoteName), lpPassword, debugstr_a(lpLocalName) ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetAddConnectionW [MPR.@] */ DWORD WINAPI WNetAddConnectionW( LPCWSTR lpRemoteName, LPCWSTR lpPassword, LPCWSTR lpLocalName ) { FIXME( "(%s, %p, %s): stub\n", debugstr_w(lpRemoteName), lpPassword, debugstr_w(lpLocalName) ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetAddConnection2A [MPR.@] */ DWORD WINAPI WNetAddConnection2A( LPNETRESOURCEA lpNetResource, LPCSTR lpPassword, LPCSTR lpUserID, DWORD dwFlags ) { FIXME( "(%p, %p, %s, 0x%08X): stub\n", lpNetResource, lpPassword, debugstr_a(lpUserID), dwFlags ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetAddConnection2W [MPR.@] */ DWORD WINAPI WNetAddConnection2W( LPNETRESOURCEW lpNetResource, LPCWSTR lpPassword, LPCWSTR lpUserID, DWORD dwFlags ) { FIXME( "(%p, %p, %s, 0x%08X): stub\n", lpNetResource, lpPassword, debugstr_w(lpUserID), dwFlags ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetAddConnection3A [MPR.@] */ DWORD WINAPI WNetAddConnection3A( HWND hwndOwner, LPNETRESOURCEA lpNetResource, LPCSTR lpPassword, LPCSTR lpUserID, DWORD dwFlags ) { FIXME( "(%p, %p, %p, %s, 0x%08X), stub\n", hwndOwner, lpNetResource, lpPassword, debugstr_a(lpUserID), dwFlags ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetAddConnection3W [MPR.@] */ DWORD WINAPI WNetAddConnection3W( HWND hwndOwner, LPNETRESOURCEW lpNetResource, LPCWSTR lpPassword, LPCWSTR lpUserID, DWORD dwFlags ) { FIXME( "(%p, %p, %p, %s, 0x%08X), stub\n", hwndOwner, lpNetResource, lpPassword, debugstr_w(lpUserID), dwFlags ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /***************************************************************** * WNetUseConnectionA [MPR.@] */ DWORD WINAPI WNetUseConnectionA( HWND hwndOwner, LPNETRESOURCEA lpNetResource, LPCSTR lpPassword, LPCSTR lpUserID, DWORD dwFlags, LPSTR lpAccessName, LPDWORD lpBufferSize, LPDWORD lpResult ) { FIXME( "(%p, %p, %p, %s, 0x%08X, %s, %p, %p), stub\n", hwndOwner, lpNetResource, lpPassword, debugstr_a(lpUserID), dwFlags, debugstr_a(lpAccessName), lpBufferSize, lpResult ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /***************************************************************** * WNetUseConnectionW [MPR.@] */ DWORD WINAPI WNetUseConnectionW( HWND hwndOwner, LPNETRESOURCEW lpNetResource, LPCWSTR lpPassword, LPCWSTR lpUserID, DWORD dwFlags, LPWSTR lpAccessName, LPDWORD lpBufferSize, LPDWORD lpResult ) { FIXME( "(%p, %p, %p, %s, 0x%08X, %s, %p, %p), stub\n", hwndOwner, lpNetResource, lpPassword, debugstr_w(lpUserID), dwFlags, debugstr_w(lpAccessName), lpBufferSize, lpResult ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetCancelConnectionA [MPR.@] */ DWORD WINAPI WNetCancelConnectionA( LPCSTR lpName, BOOL fForce ) { FIXME( "(%s, %d), stub\n", debugstr_a(lpName), fForce ); return WN_SUCCESS; } /********************************************************************* * WNetCancelConnectionW [MPR.@] */ DWORD WINAPI WNetCancelConnectionW( LPCWSTR lpName, BOOL fForce ) { FIXME( "(%s, %d), stub\n", debugstr_w(lpName), fForce ); return WN_SUCCESS; } /********************************************************************* * WNetCancelConnection2A [MPR.@] */ DWORD WINAPI WNetCancelConnection2A( LPCSTR lpName, DWORD dwFlags, BOOL fForce ) { FIXME( "(%s, %08X, %d), stub\n", debugstr_a(lpName), dwFlags, fForce ); return WN_SUCCESS; } /********************************************************************* * WNetCancelConnection2W [MPR.@] */ DWORD WINAPI WNetCancelConnection2W( LPCWSTR lpName, DWORD dwFlags, BOOL fForce ) { FIXME( "(%s, %08X, %d), stub\n", debugstr_w(lpName), dwFlags, fForce ); return WN_SUCCESS; } /***************************************************************** * WNetRestoreConnectionA [MPR.@] */ DWORD WINAPI WNetRestoreConnectionA( HWND hwndOwner, LPCSTR lpszDevice ) { FIXME( "(%p, %s), stub\n", hwndOwner, debugstr_a(lpszDevice) ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /***************************************************************** * WNetRestoreConnectionW [MPR.@] */ DWORD WINAPI WNetRestoreConnectionW( HWND hwndOwner, LPCWSTR lpszDevice ) { FIXME( "(%p, %s), stub\n", hwndOwner, debugstr_w(lpszDevice) ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /************************************************************************** * WNetGetConnectionA [MPR.@] * * RETURNS * - WN_BAD_LOCALNAME lpLocalName makes no sense * - WN_NOT_CONNECTED drive is a local drive * - WN_MORE_DATA buffer isn't big enough * - WN_SUCCESS success (net path in buffer) * * FIXME: need to test return values under different errors */ DWORD WINAPI WNetGetConnectionA( LPCSTR lpLocalName, LPSTR lpRemoteName, LPDWORD lpBufferSize ) { DWORD ret; if (!lpLocalName) ret = WN_BAD_POINTER; else if (!lpBufferSize) ret = WN_BAD_POINTER; else if (!lpRemoteName && *lpBufferSize) ret = WN_BAD_POINTER; else { int len = MultiByteToWideChar(CP_ACP, 0, lpLocalName, -1, NULL, 0); if (len) { PWSTR wideLocalName = HeapAlloc(GetProcessHeap(), 0, len * sizeof(WCHAR)); if (wideLocalName) { WCHAR wideRemoteStatic[MAX_PATH]; DWORD wideRemoteSize = sizeof(wideRemoteStatic) / sizeof(WCHAR); MultiByteToWideChar(CP_ACP, 0, lpLocalName, -1, wideLocalName, len); /* try once without memory allocation */ ret = WNetGetConnectionW(wideLocalName, wideRemoteStatic, &wideRemoteSize); if (ret == WN_SUCCESS) { int len = WideCharToMultiByte(CP_ACP, 0, wideRemoteStatic, -1, NULL, 0, NULL, NULL); if (len <= *lpBufferSize) { WideCharToMultiByte(CP_ACP, 0, wideRemoteStatic, -1, lpRemoteName, *lpBufferSize, NULL, NULL); ret = WN_SUCCESS; } else { *lpBufferSize = len; ret = WN_MORE_DATA; } } else if (ret == WN_MORE_DATA) { PWSTR wideRemote = HeapAlloc(GetProcessHeap(), 0, wideRemoteSize * sizeof(WCHAR)); if (wideRemote) { ret = WNetGetConnectionW(wideLocalName, wideRemote, &wideRemoteSize); if (ret == WN_SUCCESS) { if (len <= *lpBufferSize) { WideCharToMultiByte(CP_ACP, 0, wideRemoteStatic, -1, lpRemoteName, *lpBufferSize, NULL, NULL); ret = WN_SUCCESS; } else { *lpBufferSize = len; ret = WN_MORE_DATA; } } HeapFree(GetProcessHeap(), 0, wideRemote); } else ret = WN_OUT_OF_MEMORY; } HeapFree(GetProcessHeap(), 0, wideLocalName); } else ret = WN_OUT_OF_MEMORY; } else ret = WN_BAD_LOCALNAME; } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /************************************************************************** * WNetGetConnectionW [MPR.@] * * FIXME: need to test return values under different errors */ DWORD WINAPI WNetGetConnectionW( LPCWSTR lpLocalName, LPWSTR lpRemoteName, LPDWORD lpBufferSize ) { DWORD ret; TRACE("(%s, %p, %p)\n", debugstr_w(lpLocalName), lpRemoteName, lpBufferSize); if (!lpLocalName) ret = WN_BAD_POINTER; else if (!lpBufferSize) ret = WN_BAD_POINTER; else if (!lpRemoteName && *lpBufferSize) ret = WN_BAD_POINTER; else if (!lpLocalName[0]) ret = WN_BAD_LOCALNAME; else { if (lpLocalName[1] == ':') { switch(GetDriveTypeW(lpLocalName)) { case DRIVE_REMOTE: { static const WCHAR unc[] = { 'u','n','c','\\' }; WCHAR rremote[MAX_PATH], *remote = rremote; if (!QueryDosDeviceW( lpLocalName, remote, MAX_PATH )) remote[0] = 0; else if (!strncmpW(remote, unc, 4)) { remote += 2; remote[0] = '\\'; } else if (remote[0] != '\\' || remote[1] != '\\') FIXME("Don't know how to convert %s to an unc\n", debugstr_w(remote)); if (strlenW(remote) + 1 > *lpBufferSize) { *lpBufferSize = strlenW(remote) + 1; ret = WN_MORE_DATA; } else { strcpyW( lpRemoteName, remote ); *lpBufferSize = strlenW(lpRemoteName) + 1; ret = WN_SUCCESS; } break; } case DRIVE_REMOVABLE: case DRIVE_FIXED: case DRIVE_CDROM: TRACE("file is local\n"); ret = WN_NOT_CONNECTED; break; default: ret = WN_BAD_LOCALNAME; } } else ret = WN_BAD_LOCALNAME; } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /************************************************************************** * WNetSetConnectionA [MPR.@] */ DWORD WINAPI WNetSetConnectionA( LPCSTR lpName, DWORD dwProperty, LPVOID pvValue ) { FIXME( "(%s, %08X, %p): stub\n", debugstr_a(lpName), dwProperty, pvValue ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /************************************************************************** * WNetSetConnectionW [MPR.@] */ DWORD WINAPI WNetSetConnectionW( LPCWSTR lpName, DWORD dwProperty, LPVOID pvValue ) { FIXME( "(%s, %08X, %p): stub\n", debugstr_w(lpName), dwProperty, pvValue ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /***************************************************************** * WNetGetUniversalNameA [MPR.@] */ DWORD WINAPI WNetGetUniversalNameA ( LPCSTR lpLocalPath, DWORD dwInfoLevel, LPVOID lpBuffer, LPDWORD lpBufferSize ) { DWORD err, size; FIXME( "(%s, 0x%08X, %p, %p): stub\n", debugstr_a(lpLocalPath), dwInfoLevel, lpBuffer, lpBufferSize); switch (dwInfoLevel) { case UNIVERSAL_NAME_INFO_LEVEL: { LPUNIVERSAL_NAME_INFOA info = (LPUNIVERSAL_NAME_INFOA)lpBuffer; size = sizeof(*info) + lstrlenA(lpLocalPath) + 1; if (*lpBufferSize < size) { err = WN_MORE_DATA; break; } info->lpUniversalName = (char *)info + sizeof(*info); lstrcpyA(info->lpUniversalName, lpLocalPath); *lpBufferSize = size; err = WN_NO_ERROR; break; } case REMOTE_NAME_INFO_LEVEL: err = WN_NO_NETWORK; break; default: err = WN_BAD_VALUE; break; } SetLastError(err); return err; } /***************************************************************** * WNetGetUniversalNameW [MPR.@] */ DWORD WINAPI WNetGetUniversalNameW ( LPCWSTR lpLocalPath, DWORD dwInfoLevel, LPVOID lpBuffer, LPDWORD lpBufferSize ) { DWORD err, size; FIXME( "(%s, 0x%08X, %p, %p): stub\n", debugstr_w(lpLocalPath), dwInfoLevel, lpBuffer, lpBufferSize); switch (dwInfoLevel) { case UNIVERSAL_NAME_INFO_LEVEL: { LPUNIVERSAL_NAME_INFOW info = (LPUNIVERSAL_NAME_INFOW)lpBuffer; size = sizeof(*info) + (lstrlenW(lpLocalPath) + 1) * sizeof(WCHAR); if (*lpBufferSize < size) { err = WN_MORE_DATA; break; } info->lpUniversalName = (LPWSTR)((char *)info + sizeof(*info)); lstrcpyW(info->lpUniversalName, lpLocalPath); *lpBufferSize = size; err = WN_NO_ERROR; break; } case REMOTE_NAME_INFO_LEVEL: err = WN_NO_NETWORK; break; default: err = WN_BAD_VALUE; break; } SetLastError(err); return err; } /* * Other Functions */ /************************************************************************** * WNetGetUserA [MPR.@] * * FIXME: we should not return ourselves, but the owner of the drive lpName */ DWORD WINAPI WNetGetUserA( LPCSTR lpName, LPSTR lpUserID, LPDWORD lpBufferSize ) { if (GetUserNameA( lpUserID, lpBufferSize )) return WN_SUCCESS; return GetLastError(); } /***************************************************************** * WNetGetUserW [MPR.@] * * FIXME: we should not return ourselves, but the owner of the drive lpName */ DWORD WINAPI WNetGetUserW( LPCWSTR lpName, LPWSTR lpUserID, LPDWORD lpBufferSize ) { if (GetUserNameW( lpUserID, lpBufferSize )) return WN_SUCCESS; return GetLastError(); } /********************************************************************* * WNetConnectionDialog [MPR.@] */ DWORD WINAPI WNetConnectionDialog( HWND hwnd, DWORD dwType ) { FIXME( "(%p, %08X): stub\n", hwnd, dwType ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetConnectionDialog1A [MPR.@] */ DWORD WINAPI WNetConnectionDialog1A( LPCONNECTDLGSTRUCTA lpConnDlgStruct ) { FIXME( "(%p): stub\n", lpConnDlgStruct ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetConnectionDialog1W [MPR.@] */ DWORD WINAPI WNetConnectionDialog1W( LPCONNECTDLGSTRUCTW lpConnDlgStruct ) { FIXME( "(%p): stub\n", lpConnDlgStruct ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetDisconnectDialog [MPR.@] */ DWORD WINAPI WNetDisconnectDialog( HWND hwnd, DWORD dwType ) { FIXME( "(%p, %08X): stub\n", hwnd, dwType ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetDisconnectDialog1A [MPR.@] */ DWORD WINAPI WNetDisconnectDialog1A( LPDISCDLGSTRUCTA lpConnDlgStruct ) { FIXME( "(%p): stub\n", lpConnDlgStruct ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetDisconnectDialog1W [MPR.@] */ DWORD WINAPI WNetDisconnectDialog1W( LPDISCDLGSTRUCTW lpConnDlgStruct ) { FIXME( "(%p): stub\n", lpConnDlgStruct ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetGetLastErrorA [MPR.@] */ DWORD WINAPI WNetGetLastErrorA( LPDWORD lpError, LPSTR lpErrorBuf, DWORD nErrorBufSize, LPSTR lpNameBuf, DWORD nNameBufSize ) { FIXME( "(%p, %p, %d, %p, %d): stub\n", lpError, lpErrorBuf, nErrorBufSize, lpNameBuf, nNameBufSize ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetGetLastErrorW [MPR.@] */ DWORD WINAPI WNetGetLastErrorW( LPDWORD lpError, LPWSTR lpErrorBuf, DWORD nErrorBufSize, LPWSTR lpNameBuf, DWORD nNameBufSize ) { FIXME( "(%p, %p, %d, %p, %d): stub\n", lpError, lpErrorBuf, nErrorBufSize, lpNameBuf, nNameBufSize ); SetLastError(WN_NO_NETWORK); return WN_NO_NETWORK; } /********************************************************************* * WNetGetNetworkInformationA [MPR.@] */ DWORD WINAPI WNetGetNetworkInformationA( LPCSTR lpProvider, LPNETINFOSTRUCT lpNetInfoStruct ) { DWORD ret; TRACE( "(%s, %p)\n", debugstr_a(lpProvider), lpNetInfoStruct ); if (!lpProvider) ret = WN_BAD_POINTER; else { int len; len = MultiByteToWideChar(CP_ACP, 0, lpProvider, -1, NULL, 0); if (len) { LPWSTR wideProvider = HeapAlloc(GetProcessHeap(), 0, len * sizeof(WCHAR)); if (wideProvider) { MultiByteToWideChar(CP_ACP, 0, lpProvider, -1, wideProvider, len); ret = WNetGetNetworkInformationW(wideProvider, lpNetInfoStruct); HeapFree(GetProcessHeap(), 0, wideProvider); } else ret = WN_OUT_OF_MEMORY; } else ret = GetLastError(); } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /********************************************************************* * WNetGetNetworkInformationW [MPR.@] */ DWORD WINAPI WNetGetNetworkInformationW( LPCWSTR lpProvider, LPNETINFOSTRUCT lpNetInfoStruct ) { DWORD ret; TRACE( "(%s, %p)\n", debugstr_w(lpProvider), lpNetInfoStruct ); if (!lpProvider) ret = WN_BAD_POINTER; else if (!lpNetInfoStruct) ret = WN_BAD_POINTER; else if (lpNetInfoStruct->cbStructure < sizeof(NETINFOSTRUCT)) ret = WN_BAD_VALUE; else { if (providerTable && providerTable->numProviders) { DWORD providerIndex = _findProviderIndexW(lpProvider); if (providerIndex != BAD_PROVIDER_INDEX) { lpNetInfoStruct->cbStructure = sizeof(NETINFOSTRUCT); lpNetInfoStruct->dwProviderVersion = providerTable->table[providerIndex].dwSpecVersion; lpNetInfoStruct->dwStatus = NO_ERROR; lpNetInfoStruct->dwCharacteristics = 0; lpNetInfoStruct->dwHandle = (ULONG_PTR)NULL; lpNetInfoStruct->wNetType = HIWORD(providerTable->table[providerIndex].dwNetType); lpNetInfoStruct->dwPrinters = -1; lpNetInfoStruct->dwDrives = -1; ret = WN_SUCCESS; } else ret = WN_BAD_PROVIDER; } else ret = WN_NO_NETWORK; } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /***************************************************************** * WNetGetProviderNameA [MPR.@] */ DWORD WINAPI WNetGetProviderNameA( DWORD dwNetType, LPSTR lpProvider, LPDWORD lpBufferSize ) { DWORD ret; TRACE("(0x%08x, %s, %p)\n", dwNetType, debugstr_a(lpProvider), lpBufferSize); if (!lpProvider) ret = WN_BAD_POINTER; else if (!lpBufferSize) ret = WN_BAD_POINTER; else { if (providerTable) { DWORD i; ret = WN_NO_NETWORK; for (i = 0; i < providerTable->numProviders && HIWORD(providerTable->table[i].dwNetType) != HIWORD(dwNetType); i++) ; if (i < providerTable->numProviders) { DWORD sizeNeeded = WideCharToMultiByte(CP_ACP, 0, providerTable->table[i].name, -1, NULL, 0, NULL, NULL); if (*lpBufferSize < sizeNeeded) { *lpBufferSize = sizeNeeded; ret = WN_MORE_DATA; } else { WideCharToMultiByte(CP_ACP, 0, providerTable->table[i].name, -1, lpProvider, *lpBufferSize, NULL, NULL); ret = WN_SUCCESS; /* FIXME: is *lpBufferSize set to the number of characters * copied? */ } } } else ret = WN_NO_NETWORK; } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; } /***************************************************************** * WNetGetProviderNameW [MPR.@] */ DWORD WINAPI WNetGetProviderNameW( DWORD dwNetType, LPWSTR lpProvider, LPDWORD lpBufferSize ) { DWORD ret; TRACE("(0x%08x, %s, %p)\n", dwNetType, debugstr_w(lpProvider), lpBufferSize); if (!lpProvider) ret = WN_BAD_POINTER; else if (!lpBufferSize) ret = WN_BAD_POINTER; else { if (providerTable) { DWORD i; ret = WN_NO_NETWORK; for (i = 0; i < providerTable->numProviders && HIWORD(providerTable->table[i].dwNetType) != HIWORD(dwNetType); i++) ; if (i < providerTable->numProviders) { DWORD sizeNeeded = strlenW(providerTable->table[i].name) + 1; if (*lpBufferSize < sizeNeeded) { *lpBufferSize = sizeNeeded; ret = WN_MORE_DATA; } else { strcpyW(lpProvider, providerTable->table[i].name); ret = WN_SUCCESS; /* FIXME: is *lpBufferSize set to the number of characters * copied? */ } } } else ret = WN_NO_NETWORK; } if (ret) SetLastError(ret); TRACE("Returning %d\n", ret); return ret; }