/* * Resources * * Copyright 1993 Robert J. Amstadt * Copyright 1995 Alexandre Julliard */ #include #include #include #include #include #include #include #include "winbase.h" #include "windef.h" #include "wingdi.h" #include "winuser.h" #include "wine/winbase16.h" #include "wine/winuser16.h" #include "ldt.h" #include "global.h" #include "heap.h" #include "callback.h" #include "cursoricon.h" #include "neexe.h" #include "task.h" #include "process.h" #include "module.h" #include "file.h" #include "debugtools.h" #include "winerror.h" #include "winnls.h" DEFAULT_DEBUG_CHANNEL(resource); DECLARE_DEBUG_CHANNEL(accel); extern WORD WINE_LanguageId; #define HRSRC_MAP_BLOCKSIZE 16 typedef struct _HRSRC_ELEM { HANDLE hRsrc; WORD type; } HRSRC_ELEM; typedef struct _HRSRC_MAP { int nAlloc; int nUsed; HRSRC_ELEM *elem; } HRSRC_MAP; /********************************************************************** * MapHRsrc32To16 */ static HRSRC16 MapHRsrc32To16( NE_MODULE *pModule, HANDLE hRsrc32, WORD type ) { HRSRC_MAP *map = (HRSRC_MAP *)pModule->hRsrcMap; HRSRC_ELEM *newElem; int i; /* On first call, initialize HRSRC map */ if ( !map ) { if ( !(map = (HRSRC_MAP *)HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(HRSRC_MAP) ) ) ) { ERR("Cannot allocate HRSRC map\n" ); return 0; } pModule->hRsrcMap = (LPVOID)map; } /* Check whether HRSRC32 already in map */ for ( i = 0; i < map->nUsed; i++ ) if ( map->elem[i].hRsrc == hRsrc32 ) return (HRSRC16)(i + 1); /* If no space left, grow table */ if ( map->nUsed == map->nAlloc ) { if ( !(newElem = (HRSRC_ELEM *)HeapReAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, map->elem, (map->nAlloc + HRSRC_MAP_BLOCKSIZE) * sizeof(HRSRC_ELEM) ) )) { ERR("Cannot grow HRSRC map\n" ); return 0; } map->elem = newElem; map->nAlloc += HRSRC_MAP_BLOCKSIZE; } /* Add HRSRC32 to table */ map->elem[map->nUsed].hRsrc = hRsrc32; map->elem[map->nUsed].type = type; map->nUsed++; return (HRSRC16)map->nUsed; } /********************************************************************** * MapHRsrc16To32 */ static HANDLE MapHRsrc16To32( NE_MODULE *pModule, HRSRC16 hRsrc16 ) { HRSRC_MAP *map = (HRSRC_MAP *)pModule->hRsrcMap; if ( !map || !hRsrc16 || (int)hRsrc16 > map->nUsed ) return 0; return map->elem[(int)hRsrc16-1].hRsrc; } /********************************************************************** * MapHRsrc16ToType */ static WORD MapHRsrc16ToType( NE_MODULE *pModule, HRSRC16 hRsrc16 ) { HRSRC_MAP *map = (HRSRC_MAP *)pModule->hRsrcMap; if ( !map || !hRsrc16 || (int)hRsrc16 > map->nUsed ) return 0; return map->elem[(int)hRsrc16-1].type; } /********************************************************************** * RES_FindResource */ static HRSRC RES_FindResource( HMODULE hModule, LPCSTR type, LPCSTR name, WORD lang, BOOL bUnicode, BOOL bRet16 ) { HRSRC hRsrc = 0; HMODULE16 hMod16 = MapHModuleLS( hModule ); NE_MODULE *pModule = NE_GetPtr( hMod16 ); WINE_MODREF *wm = pModule && pModule->module32? MODULE32_LookupHMODULE( pModule->module32 ) : NULL; TRACE("(%08x %s, %08x%s, %08x%s, %04x, %s, %s)\n", hModule, pModule ? (char *)NE_MODULE_NAME(pModule) : "NULL dereference", (UINT)type, HIWORD(type)? (bUnicode? debugstr_w((LPWSTR)type) : debugstr_a(type)) : "", (UINT)name, HIWORD(name)? (bUnicode? debugstr_w((LPWSTR)name) : debugstr_a(name)) : "", lang, bUnicode? "W" : "A", bRet16? "NE" : "PE" ); if ( !pModule ) return 0; if ( wm ) { /* 32-bit PE module */ LPWSTR typeStr, nameStr; if ( HIWORD( type ) && !bUnicode ) typeStr = HEAP_strdupAtoW( GetProcessHeap(), 0, type ); else typeStr = (LPWSTR)type; if ( HIWORD( name ) && !bUnicode ) nameStr = HEAP_strdupAtoW( GetProcessHeap(), 0, name ); else nameStr = (LPWSTR)name; hRsrc = PE_FindResourceExW( wm, nameStr, typeStr, lang ); if ( HIWORD( type ) && !bUnicode ) HeapFree( GetProcessHeap(), 0, typeStr ); if ( HIWORD( name ) && !bUnicode ) HeapFree( GetProcessHeap(), 0, nameStr ); /* If we need to return 16-bit HRSRC, perform conversion */ if ( bRet16 ) hRsrc = MapHRsrc32To16( pModule, hRsrc, HIWORD( type )? 0 : LOWORD( type ) ); } else { /* 16-bit NE module */ LPSTR typeStr, nameStr; if ( HIWORD( type ) && bUnicode ) typeStr = HEAP_strdupWtoA( GetProcessHeap(), 0, (LPCWSTR)type ); else typeStr = (LPSTR)type; if ( HIWORD( name ) && bUnicode ) nameStr = HEAP_strdupWtoA( GetProcessHeap(), 0, (LPCWSTR)name ); else nameStr = (LPSTR)name; hRsrc = NE_FindResource( pModule, nameStr, typeStr ); if ( HIWORD( type ) && bUnicode ) HeapFree( GetProcessHeap(), 0, typeStr ); if ( HIWORD( name ) && bUnicode ) HeapFree( GetProcessHeap(), 0, nameStr ); /* If we need to return 32-bit HRSRC, no conversion is necessary, we simply use the 16-bit HRSRC as 32-bit HRSRC */ } return hRsrc; } /********************************************************************** * RES_SizeofResource */ static DWORD RES_SizeofResource( HMODULE hModule, HRSRC hRsrc, BOOL bRet16 ) { DWORD size = 0; HMODULE16 hMod16 = MapHModuleLS( hModule ); NE_MODULE *pModule = NE_GetPtr( hMod16 ); WINE_MODREF *wm = pModule && pModule->module32? MODULE32_LookupHMODULE( pModule->module32 ) : NULL; TRACE("(%08x %s, %08x, %s)\n", hModule, NE_MODULE_NAME(pModule), hRsrc, bRet16? "NE" : "PE" ); if ( !pModule || !hRsrc ) return 0; if ( wm ) { /* 32-bit PE module */ /* If we got a 16-bit hRsrc, convert it */ HRSRC hRsrc32 = HIWORD(hRsrc)? hRsrc : MapHRsrc16To32( pModule, hRsrc ); size = PE_SizeofResource( hModule, hRsrc32 ); } else { /* 16-bit NE module */ /* If we got a 32-bit hRsrc, we don't need to convert it */ size = NE_SizeofResource( pModule, hRsrc ); } return size; } /********************************************************************** * RES_AccessResource */ static HFILE RES_AccessResource( HMODULE hModule, HRSRC hRsrc, BOOL bRet16 ) { HFILE hFile = HFILE_ERROR; HMODULE16 hMod16 = MapHModuleLS( hModule ); NE_MODULE *pModule = NE_GetPtr( hMod16 ); WINE_MODREF *wm = pModule && pModule->module32? MODULE32_LookupHMODULE( pModule->module32 ) : NULL; TRACE("(%08x %s, %08x, %s)\n", hModule, NE_MODULE_NAME(pModule), hRsrc, bRet16? "NE" : "PE" ); if ( !pModule || !hRsrc ) return HFILE_ERROR; if ( wm ) { /* 32-bit PE module */ #if 0 /* If we got a 16-bit hRsrc, convert it */ HRSRC hRsrc32 = HIWORD(hRsrc)? hRsrc : MapHRsrc16To32( pModule, hRsrc ); #endif FIXME("32-bit modules not yet supported.\n" ); hFile = HFILE_ERROR; /* If we need to return a 16-bit file handle, convert it */ if ( bRet16 ) hFile = FILE_AllocDosHandle( hFile ); } else { /* 16-bit NE module */ /* If we got a 32-bit hRsrc, we don't need to convert it */ hFile = NE_AccessResource( pModule, hRsrc ); /* If we are to return a 32-bit file handle, convert it */ if ( !bRet16 ) hFile = FILE_GetHandle( hFile ); } return hFile; } /********************************************************************** * RES_LoadResource */ static HGLOBAL RES_LoadResource( HMODULE hModule, HRSRC hRsrc, BOOL bRet16 ) { HGLOBAL hMem = 0; HMODULE16 hMod16 = MapHModuleLS( hModule ); NE_MODULE *pModule = NE_GetPtr( hMod16 ); WINE_MODREF *wm = pModule && pModule->module32? MODULE32_LookupHMODULE( pModule->module32 ) : NULL; TRACE("(%08x %s, %08x, %s)\n", hModule, NE_MODULE_NAME(pModule), hRsrc, bRet16? "NE" : "PE" ); if ( !pModule || !hRsrc ) return 0; if ( wm ) { /* 32-bit PE module */ /* If we got a 16-bit hRsrc, convert it */ HRSRC hRsrc32 = HIWORD(hRsrc)? hRsrc : MapHRsrc16To32( pModule, hRsrc ); hMem = PE_LoadResource( wm, hRsrc32 ); /* If we need to return a 16-bit resource, convert it */ if ( bRet16 ) { WORD type = MapHRsrc16ToType( pModule, hRsrc ); DWORD size = SizeofResource( hModule, hRsrc ); LPVOID bits = LockResource( hMem ); hMem = NE_LoadPEResource( pModule, type, bits, size ); } } else { /* 16-bit NE module */ /* If we got a 32-bit hRsrc, we don't need to convert it */ hMem = NE_LoadResource( pModule, hRsrc ); /* If we are to return a 32-bit resource, we should probably convert it but we don't for now. FIXME !!! */ } return hMem; } /********************************************************************** * RES_LockResource */ static LPVOID RES_LockResource( HGLOBAL handle, BOOL bRet16 ) { LPVOID bits = NULL; TRACE("(%08x, %s)\n", handle, bRet16? "NE" : "PE" ); if ( HIWORD( handle ) ) { /* 32-bit memory handle */ if ( bRet16 ) FIXME("can't return SEGPTR to 32-bit resource %08x.\n", handle ); else bits = (LPVOID)handle; } else { /* 16-bit memory handle */ /* May need to reload the resource if discarded */ SEGPTR segPtr = WIN16_GlobalLock16( handle ); if ( bRet16 ) bits = (LPVOID)segPtr; else bits = PTR_SEG_TO_LIN( segPtr ); } return bits; } /********************************************************************** * RES_FreeResource */ static BOOL RES_FreeResource( HGLOBAL handle ) { HGLOBAL retv = handle; TRACE("(%08x)\n", handle ); if ( HIWORD( handle ) ) { /* 32-bit memory handle: nothing to do */ } else { /* 16-bit memory handle */ NE_MODULE *pModule = NE_GetPtr( FarGetOwner16( handle ) ); /* Try NE resource first */ retv = NE_FreeResource( pModule, handle ); /* If this failed, call USER.DestroyIcon32; this will check whether it is a shared cursor/icon; if not it will call GlobalFree16() */ if ( retv ) { if ( Callout.DestroyIcon32 ) retv = Callout.DestroyIcon32( handle, CID_RESOURCE ); else retv = GlobalFree16( handle ); } } return (BOOL)retv; } /********************************************************************** * FindResource16 (KERNEL.60) */ HRSRC16 WINAPI FindResource16( HMODULE16 hModule, SEGPTR name, SEGPTR type ) { LPCSTR nameStr = HIWORD(name)? PTR_SEG_TO_LIN(name) : (LPCSTR)name; LPCSTR typeStr = HIWORD(type)? PTR_SEG_TO_LIN(type) : (LPCSTR)type; return RES_FindResource( hModule, typeStr, nameStr, WINE_LanguageId, FALSE, TRUE ); } /********************************************************************** * FindResourceA (KERNEL32.128) */ HANDLE WINAPI FindResourceA( HMODULE hModule, LPCSTR name, LPCSTR type ) { return RES_FindResource( hModule, type, name, WINE_LanguageId, FALSE, FALSE ); } /********************************************************************** * FindResourceExA (KERNEL32.129) */ HANDLE WINAPI FindResourceExA( HMODULE hModule, LPCSTR type, LPCSTR name, WORD lang ) { return RES_FindResource( hModule, type, name, lang, FALSE, FALSE ); } /********************************************************************** * FindResourceExW (KERNEL32.130) */ HRSRC WINAPI FindResourceExW( HMODULE hModule, LPCWSTR type, LPCWSTR name, WORD lang ) { return RES_FindResource( hModule, (LPCSTR)type, (LPCSTR)name, lang, TRUE, FALSE ); } /********************************************************************** * FindResourceW (KERNEL32.131) */ HRSRC WINAPI FindResourceW(HINSTANCE hModule, LPCWSTR name, LPCWSTR type) { return RES_FindResource( hModule, (LPCSTR)type, (LPCSTR)name, WINE_LanguageId, TRUE, FALSE ); } /********************************************************************** * LoadResource16 (KERNEL.61) */ HGLOBAL16 WINAPI LoadResource16( HMODULE16 hModule, HRSRC16 hRsrc ) { return RES_LoadResource( hModule, hRsrc, TRUE ); } /********************************************************************** * LoadResource (KERNEL32.370) */ HGLOBAL WINAPI LoadResource( HINSTANCE hModule, HRSRC hRsrc ) { return RES_LoadResource( hModule, hRsrc, FALSE ); } /********************************************************************** * LockResource16 (KERNEL.62) */ SEGPTR WINAPI WIN16_LockResource16( HGLOBAL16 handle ) { return (SEGPTR)RES_LockResource( handle, TRUE ); } LPVOID WINAPI LockResource16( HGLOBAL16 handle ) { return RES_LockResource( handle, FALSE ); } /********************************************************************** * LockResource (KERNEL32.384) */ LPVOID WINAPI LockResource( HGLOBAL handle ) { return RES_LockResource( handle, FALSE ); } /********************************************************************** * FreeResource16 (KERNEL.63) */ BOOL16 WINAPI FreeResource16( HGLOBAL16 handle ) { return RES_FreeResource( handle ); } /********************************************************************** * FreeResource (KERNEL32.145) */ BOOL WINAPI FreeResource( HGLOBAL handle ) { return RES_FreeResource( handle ); } /********************************************************************** * AccessResource16 (KERNEL.64) */ INT16 WINAPI AccessResource16( HINSTANCE16 hModule, HRSRC16 hRsrc ) { return RES_AccessResource( hModule, hRsrc, TRUE ); } /********************************************************************** * AccessResource (KERNEL32.64) */ INT WINAPI AccessResource( HMODULE hModule, HRSRC hRsrc ) { return RES_AccessResource( hModule, hRsrc, FALSE ); } /********************************************************************** * SizeofResource16 (KERNEL.65) */ DWORD WINAPI SizeofResource16( HMODULE16 hModule, HRSRC16 hRsrc ) { return RES_SizeofResource( hModule, hRsrc, TRUE ); } /********************************************************************** * SizeofResource (KERNEL32.522) */ DWORD WINAPI SizeofResource( HINSTANCE hModule, HRSRC hRsrc ) { return RES_SizeofResource( hModule, hRsrc, FALSE ); } /********************************************************************** * LoadAccelerators16 [USER.177] */ HACCEL16 WINAPI LoadAccelerators16(HINSTANCE16 instance, SEGPTR lpTableName) { HRSRC16 hRsrc; if (HIWORD(lpTableName)) TRACE_(accel)("%04x '%s'\n", instance, (char *)PTR_SEG_TO_LIN( lpTableName ) ); else TRACE_(accel)("%04x %04x\n", instance, LOWORD(lpTableName) ); if (!(hRsrc = FindResource16( instance, lpTableName, RT_ACCELERATOR16 ))) { WARN_(accel)("couldn't find accelerator table resource\n"); return 0; } TRACE_(accel)("returning HACCEL 0x%x\n", hRsrc); return LoadResource16(instance,hRsrc); } /********************************************************************** * LoadAcceleratorsW [USER.177] * The image layout seems to look like this (not 100% sure): * 00: BYTE type type of accelerator * 01: BYTE pad (to WORD boundary) * 02: WORD event * 04: WORD IDval * 06: WORD pad (to DWORD boundary) */ HACCEL WINAPI LoadAcceleratorsW(HINSTANCE instance,LPCWSTR lpTableName) { HRSRC hRsrc; HACCEL hMem,hRetval=0; DWORD size; if (HIWORD(lpTableName)) TRACE_(accel)("%p '%s'\n", (LPVOID)instance, (char *)( lpTableName ) ); else TRACE_(accel)("%p 0x%04x\n", (LPVOID)instance, LOWORD(lpTableName) ); if (!(hRsrc = FindResourceW( instance, lpTableName, RT_ACCELERATORW ))) { WARN_(accel)("couldn't find accelerator table resource\n"); } else { hMem = LoadResource( instance, hRsrc ); size = SizeofResource( instance, hRsrc ); if(size>=sizeof(PE_ACCEL)) { LPPE_ACCEL accel_table = (LPPE_ACCEL) hMem; LPACCEL16 accel16; int i,nrofaccells = size/sizeof(PE_ACCEL); hRetval = GlobalAlloc16(0,sizeof(ACCEL16)*nrofaccells); accel16 = (LPACCEL16)GlobalLock16(hRetval); for (i=0;ientries) entries=xsize; i=0; while(!done) { /* Spit out some debugging information. */ TRACE_(accel)("accel %d: type 0x%02x, event '%c', IDval 0x%04x.\n", i, accel[i].fVirt, accel[i].key, accel[i].cmd); /* Copy data to the destination structure array (if dst == NULL, we're just supposed to count the number of entries). */ if(dst) { dst[i].fVirt = accel[i].fVirt; dst[i].key = accel[i].key; dst[i].cmd = accel[i].cmd; /* Check if we've reached the end of the application supplied accelerator table. */ if(i+1 == entries) { /* Turn off the high order bit, just in case. */ dst[i].fVirt &= 0x7f; done = TRUE; } } /* The highest order bit seems to mark the end of the accelerator resource table, but not always. Use GlobalSize() check too. */ if((accel[i].fVirt & 0x80) != 0) done = TRUE; i++; } return i; } /********************************************************************* * CreateAcceleratorTableA (USER32.64) * * By mortene@pvv.org 980321 */ HACCEL WINAPI CreateAcceleratorTableA(LPACCEL lpaccel, INT cEntries) { HACCEL hAccel; LPACCEL16 accel; int i; /* Do parameter checking just in case someone's trying to be funny. */ if(cEntries < 1) { WARN_(accel)("Application sent invalid parameters (%p %d).\n", lpaccel, cEntries); SetLastError(ERROR_INVALID_PARAMETER); return (HACCEL)NULL; } FIXME_(accel)("should check that the accelerator descriptions are valid," " return NULL and SetLastError() if not.\n"); /* Allocate memory and copy the table. */ hAccel = GlobalAlloc16(0,cEntries*sizeof(ACCEL16)); TRACE_(accel)("handle %x\n", hAccel); if(!hAccel) { ERR_(accel)("Out of memory.\n"); SetLastError(ERROR_NOT_ENOUGH_MEMORY); return (HACCEL)NULL; } accel = GlobalLock16(hAccel); for (i=0;i>4)+1), RT_STRING16 ); if (!hrsrc) return 0; hmem = LoadResource16( instance, hrsrc ); if (!hmem) return 0; p = LockResource16(hmem); string_num = resource_id & 0x000f; for (i = 0; i < string_num; i++) p += *p + 1; TRACE("strlen = %d\n", (int)*p ); if (buffer == NULL) return *p; i = min(buflen - 1, *p); if (i > 0) { memcpy(buffer, p + 1, i); buffer[i] = '\0'; } else { if (buflen > 1) { buffer[0] = '\0'; return 0; } WARN("Dont know why caller give buflen=%d *p=%d trying to obtain string '%s'\n", buflen, *p, p + 1); } FreeResource16( hmem ); TRACE("'%s' loaded !\n", buffer); return i; } /********************************************************************** * LoadStringW (USER32.376) */ INT WINAPI LoadStringW( HINSTANCE instance, UINT resource_id, LPWSTR buffer, INT buflen ) { HGLOBAL hmem; HRSRC hrsrc; WCHAR *p; int string_num; int i; if (HIWORD(resource_id)==0xFFFF) /* netscape 3 passes this */ resource_id = (UINT)(-((INT)resource_id)); TRACE("instance = %04x, id = %04x, buffer = %08x, " "length = %d\n", instance, (int)resource_id, (int) buffer, buflen); /* Use bits 4 - 19 (incremented by 1) as resourceid, mask out * 20 - 31. */ hrsrc = FindResourceW( instance, (LPCWSTR)(((resource_id>>4)&0xffff)+1), RT_STRINGW ); if (!hrsrc) return 0; hmem = LoadResource( instance, hrsrc ); if (!hmem) return 0; p = LockResource(hmem); string_num = resource_id & 0x000f; for (i = 0; i < string_num; i++) p += *p + 1; TRACE("strlen = %d\n", (int)*p ); if (buffer == NULL) return *p; i = min(buflen - 1, *p); if (i > 0) { memcpy(buffer, p + 1, i * sizeof (WCHAR)); buffer[i] = (WCHAR) 0; } else { if (buflen > 1) { buffer[0] = (WCHAR) 0; return 0; } #if 0 WARN("Dont know why caller give buflen=%d *p=%d trying to obtain string '%s'\n", buflen, *p, p + 1); #endif } TRACE("%s loaded !\n", debugstr_w(buffer)); return i; } /********************************************************************** * LoadStringA (USER32.375) */ INT WINAPI LoadStringA( HINSTANCE instance, UINT resource_id, LPSTR buffer, INT buflen ) { INT retval; INT wbuflen; INT abuflen; LPWSTR wbuf = NULL; LPSTR abuf = NULL; if ( buffer != NULL && buflen > 0 ) *buffer = 0; wbuflen = LoadStringW(instance,resource_id,NULL,0); if ( !wbuflen ) return 0; wbuflen ++; retval = 0; wbuf = HeapAlloc( GetProcessHeap(), 0, wbuflen * sizeof(WCHAR) ); wbuflen = LoadStringW(instance,resource_id,wbuf,wbuflen); if ( wbuflen > 0 ) { abuflen = WideCharToMultiByte(CP_ACP,0,wbuf,wbuflen,NULL,0,NULL,NULL); if ( abuflen > 0 ) { if ( buffer == NULL || buflen == 0 ) retval = abuflen; else { abuf = HeapAlloc( GetProcessHeap(), 0, abuflen * sizeof(CHAR) ); abuflen = WideCharToMultiByte(CP_ACP,0,wbuf,wbuflen,abuf,abuflen,NULL,NULL); if ( abuflen > 0 ) { abuflen = min(abuflen,buflen - 1); memcpy( buffer, abuf, abuflen ); buffer[abuflen] = 0; retval = abuflen; } HeapFree( GetProcessHeap(), 0, abuf ); } } } HeapFree( GetProcessHeap(), 0, wbuf ); return retval; } /* Messages...used by FormatMessage32* (KERNEL32.something) * * They can be specified either directly or using a message ID and * loading them from the resource. * * The resourcedata has following format: * start: * 0: DWORD nrofentries * nrofentries * subentry: * 0: DWORD firstentry * 4: DWORD lastentry * 8: DWORD offset from start to the stringentries * * (lastentry-firstentry) * stringentry: * 0: WORD len (0 marks end) * 2: WORD flags * 4: CHAR[len-4] * (stringentry i of a subentry refers to the ID 'firstentry+i') * * Yes, ANSI strings in win32 resources. Go figure. */ /********************************************************************** * LoadMessageA (internal) */ INT WINAPI LoadMessageA( HMODULE instance, UINT id, WORD lang, LPSTR buffer, INT buflen ) { HGLOBAL hmem; HRSRC hrsrc; PMESSAGE_RESOURCE_DATA mrd; PMESSAGE_RESOURCE_BLOCK mrb; PMESSAGE_RESOURCE_ENTRY mre; int i,slen; TRACE("instance = %08lx, id = %08lx, buffer = %p, length = %ld\n", (DWORD)instance, (DWORD)id, buffer, (DWORD)buflen); /*FIXME: I am not sure about the '1' ... But I've only seen those entries*/ hrsrc = FindResourceExW(instance,RT_MESSAGELISTW,(LPWSTR)1,lang); if (!hrsrc) return 0; hmem = LoadResource( instance, hrsrc ); if (!hmem) return 0; mrd = (PMESSAGE_RESOURCE_DATA)LockResource(hmem); mre = NULL; mrb = &(mrd->Blocks[0]); for (i=mrd->NumberOfBlocks;i--;) { if ((id>=mrb->LowId) && (id<=mrb->HighId)) { mre = (PMESSAGE_RESOURCE_ENTRY)(((char*)mrd)+mrb->OffsetToEntries); id -= mrb->LowId; break; } mrb++; } if (!mre) return 0; for (i=id;i--;) { if (!mre->Length) return 0; mre = (PMESSAGE_RESOURCE_ENTRY)(((char*)mre)+(mre->Length)); } slen=mre->Length; TRACE(" - strlen=%d\n",slen); i = min(buflen - 1, slen); if (buffer == NULL) return slen; if (i>0) { lstrcpynA(buffer,(char*)mre->Text,i); buffer[i]=0; } else { if (buflen>1) { buffer[0]=0; return 0; } } if (buffer) TRACE("'%s' copied !\n", buffer); return i; } /********************************************************************** * LoadMessageW (internal) */ INT WINAPI LoadMessageW( HMODULE instance, UINT id, WORD lang, LPWSTR buffer, INT buflen ) { INT retval; LPSTR buffer2 = NULL; if (buffer && buflen) buffer2 = HeapAlloc( GetProcessHeap(), 0, buflen ); retval = LoadMessageA(instance,id,lang,buffer2,buflen); if (buffer) { if (retval) { lstrcpynAtoW( buffer, buffer2, buflen ); retval = lstrlenW( buffer ); } HeapFree( GetProcessHeap(), 0, buffer2 ); } return retval; } /********************************************************************** * EnumResourceTypesA (KERNEL32.90) */ BOOL WINAPI EnumResourceTypesA( HMODULE hmodule,ENUMRESTYPEPROCA lpfun, LONG lParam) { /* FIXME: move WINE_MODREF stuff here */ return PE_EnumResourceTypesA(hmodule,lpfun,lParam); } /********************************************************************** * EnumResourceTypesW (KERNEL32.91) */ BOOL WINAPI EnumResourceTypesW( HMODULE hmodule,ENUMRESTYPEPROCW lpfun, LONG lParam) { /* FIXME: move WINE_MODREF stuff here */ return PE_EnumResourceTypesW(hmodule,lpfun,lParam); } /********************************************************************** * EnumResourceNamesA (KERNEL32.88) */ BOOL WINAPI EnumResourceNamesA( HMODULE hmodule, LPCSTR type, ENUMRESNAMEPROCA lpfun, LONG lParam ) { /* FIXME: move WINE_MODREF stuff here */ return PE_EnumResourceNamesA(hmodule,type,lpfun,lParam); } /********************************************************************** * EnumResourceNamesW (KERNEL32.89) */ BOOL WINAPI EnumResourceNamesW( HMODULE hmodule, LPCWSTR type, ENUMRESNAMEPROCW lpfun, LONG lParam ) { /* FIXME: move WINE_MODREF stuff here */ return PE_EnumResourceNamesW(hmodule,type,lpfun,lParam); } /********************************************************************** * EnumResourceLanguagesA (KERNEL32.86) */ BOOL WINAPI EnumResourceLanguagesA( HMODULE hmodule, LPCSTR type, LPCSTR name, ENUMRESLANGPROCA lpfun, LONG lParam) { /* FIXME: move WINE_MODREF stuff here */ return PE_EnumResourceLanguagesA(hmodule,type,name,lpfun,lParam); } /********************************************************************** * EnumResourceLanguagesW (KERNEL32.87) */ BOOL WINAPI EnumResourceLanguagesW( HMODULE hmodule, LPCWSTR type, LPCWSTR name, ENUMRESLANGPROCW lpfun, LONG lParam) { /* FIXME: move WINE_MODREF stuff here */ return PE_EnumResourceLanguagesW(hmodule,type,name,lpfun,lParam); }