/* * Copyright 1994 Eric Youndale & Erik Bos * Copyright 1995 Martin von Löwis * Copyright 1996-98 Marcus Meissner * * based on Eric Youndale's pe-test and: * * ftp.microsoft.com:/pub/developer/MSDN/CD8/PEFILE.ZIP * make that: * ftp.microsoft.com:/developr/MSDN/OctCD/PEFILE.ZIP * * Modified for use with MPlayer, detailed changelog at * http://svn.mplayerhq.hu/mplayer/trunk/ * $Id$ * */ /* Notes: * Before you start changing something in this file be aware of the following: * * - There are several functions called recursively. In a very subtle and * obscure way. DLLs can reference each other recursively etc. * - If you want to enhance, speed up or clean up something in here, think * twice WHY it is implemented in that strange way. There is usually a reason. * Though sometimes it might just be lazyness ;) * - In PE_MapImage, right before fixup_imports() all external and internal * state MUST be correct since this function can be called with the SAME image * AGAIN. (Thats recursion for you.) That means MODREF.module and * NE_MODULE.module32. * - Sometimes, we can't use Linux mmap() to mmap() the images directly. * * The problem is, that there is not direct 1:1 mapping from a diskimage and * a memoryimage. The headers at the start are mapped linear, but the sections * are not. Older x86 pe binaries are 512 byte aligned in file and 4096 byte * aligned in memory. Linux likes them 4096 byte aligned in memory (due to * x86 pagesize, this cannot be fixed without a rather large kernel rewrite) * and 'blocksize' file-aligned (offsets). Since we have 512/1024/2048 (CDROM) * and other byte blocksizes, we can't always do this. We *can* do this for * newer pe binaries produced by MSVC 5 and later, since they are also aligned * to 4096 byte boundaries on disk. */ #include "config.h" #include "debug.h" #include <errno.h> #include <assert.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #ifdef HAVE_SYS_MMAN_H #include <sys/mman.h> #endif #include "wine/windef.h" #include "wine/winbase.h" #include "wine/winerror.h" #include "wine/heap.h" #include "wine/pe_image.h" #include "wine/module.h" #include "wine/debugtools.h" #include "ext.h" #include "win32.h" #define RVA(x) ((void *)((char *)load_addr+(unsigned int)(x))) #define AdjustPtr(ptr,delta) ((char *)(ptr) + (delta)) static void dump_exports( HMODULE hModule ) { char *Module; unsigned int i, j; u_short *ordinal; u_long *function,*functions; u_char **name; unsigned int load_addr = hModule; DWORD rva_start = PE_HEADER(hModule)->OptionalHeader .DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].VirtualAddress; DWORD rva_end = rva_start + PE_HEADER(hModule)->OptionalHeader .DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].Size; IMAGE_EXPORT_DIRECTORY *pe_exports = (IMAGE_EXPORT_DIRECTORY*)RVA(rva_start); Module = (char*)RVA(pe_exports->Name); TRACE("*******EXPORT DATA*******\n"); TRACE("Module name is %s, %ld functions, %ld names\n", Module, pe_exports->NumberOfFunctions, pe_exports->NumberOfNames); ordinal=(u_short*) RVA(pe_exports->AddressOfNameOrdinals); functions=function=(u_long*) RVA(pe_exports->AddressOfFunctions); name=(u_char**) RVA(pe_exports->AddressOfNames); TRACE(" Ord RVA Addr Name\n" ); for (i=0;i<pe_exports->NumberOfFunctions;i++, function++) { if (!*function) continue; if (TRACE_ON(win32)) { DPRINTF( "%4ld %08lx %p", i + pe_exports->Base, *function, RVA(*function) ); for (j = 0; j < pe_exports->NumberOfNames; j++) if (ordinal[j] == i) { DPRINTF( " %s", (char*)RVA(name[j]) ); break; } if ((*function >= rva_start) && (*function <= rva_end)) DPRINTF(" (forwarded -> %s)", (char *)RVA(*function)); DPRINTF("\n"); } } } /* Look up the specified function or ordinal in the exportlist: * If it is a string: * - look up the name in the Name list. * - look up the ordinal with that index. * - use the ordinal as offset into the functionlist * If it is a ordinal: * - use ordinal-pe_export->Base as offset into the functionlist */ FARPROC PE_FindExportedFunction( WINE_MODREF *wm, LPCSTR funcName, WIN_BOOL snoop ) { u_short * ordinals; u_long * function; u_char ** name; const char *ename = NULL; int i, ordinal; PE_MODREF *pem = &(wm->binfmt.pe); IMAGE_EXPORT_DIRECTORY *exports = pem->pe_export; unsigned int load_addr = wm->module; u_long rva_start, rva_end, addr; char * forward; if (HIWORD(funcName)) TRACE("(%s)\n",funcName); else TRACE("(%d)\n",(int)funcName); if (!exports) { /* Not a fatal problem, some apps do * GetProcAddress(0,"RegisterPenApp") which triggers this * case. */ WARN("Module %08x(%s)/MODREF %p doesn't have a exports table.\n",wm->module,wm->modname,pem); return NULL; } ordinals= (u_short*) RVA(exports->AddressOfNameOrdinals); function= (u_long*) RVA(exports->AddressOfFunctions); name = (u_char **) RVA(exports->AddressOfNames); forward = NULL; rva_start = PE_HEADER(wm->module)->OptionalHeader .DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].VirtualAddress; rva_end = rva_start + PE_HEADER(wm->module)->OptionalHeader .DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].Size; if (HIWORD(funcName)) { int min = 0, max = exports->NumberOfNames - 1; while (min <= max) { int res, pos = (min + max) / 2; ename = (const char*) RVA(name[pos]); if (!(res = strcmp( ename, funcName ))) { ordinal = ordinals[pos]; goto found; } if (res > 0) max = pos - 1; else min = pos + 1; } for (i = 0; i < exports->NumberOfNames; i++) { ename = (const char*) RVA(name[i]); if (!strcmp( ename, funcName )) { ERR( "%s.%s required a linear search\n", wm->modname, funcName ); ordinal = ordinals[i]; goto found; } } return NULL; } else { ordinal = LOWORD(funcName) - exports->Base; if (snoop && name) { for (i = 0; i < exports->NumberOfNames; i++) if (ordinals[i] == ordinal) { ename = RVA(name[i]); break; } } } found: if (ordinal >= exports->NumberOfFunctions) { TRACE(" ordinal %ld out of range!\n", ordinal + exports->Base ); return NULL; } addr = function[ordinal]; if (!addr) return NULL; if ((addr < rva_start) || (addr >= rva_end)) { FARPROC proc = RVA(addr); if (snoop) { if (!ename) ename = "@"; // proc = SNOOP_GetProcAddress(wm->module,ename,ordinal,proc); TRACE("SNOOP_GetProcAddress n/a\n"); } return proc; } else { WINE_MODREF *wm; char *forward = RVA(addr); char module[256]; char *end = strchr(forward, '.'); if (!end) return NULL; if (end - forward >= sizeof(module)) return NULL; memcpy( module, forward, end - forward ); module[end-forward] = 0; if (!(wm = MODULE_FindModule( module ))) { ERR("module not found for forward '%s'\n", forward ); return NULL; } return MODULE_GetProcAddress( wm->module, end + 1, snoop ); } } static DWORD fixup_imports( WINE_MODREF *wm ) { IMAGE_IMPORT_DESCRIPTOR *pe_imp; PE_MODREF *pem; unsigned int load_addr = wm->module; int i,characteristics_detection=1; char *modname; assert(wm->type==MODULE32_PE); pem = &(wm->binfmt.pe); if (pem->pe_export) modname = (char*) RVA(pem->pe_export->Name); else modname = "<unknown>"; TRACE("Dumping imports list\n"); pe_imp = pem->pe_import; if (!pe_imp) return 0; /* We assume that we have at least one import with !0 characteristics and * detect broken imports with all characteristsics 0 (notably Borland) and * switch the detection off for them. */ for (i = 0; pe_imp->Name ; pe_imp++) { if (!i && !pe_imp->u.Characteristics) characteristics_detection = 0; if (characteristics_detection && !pe_imp->u.Characteristics) break; i++; } if (!i) return 0; wm->nDeps = i; wm->deps = HeapAlloc( GetProcessHeap(), 0, i*sizeof(WINE_MODREF *) ); /* load the imported modules. They are automatically * added to the modref list of the process. */ for (i = 0, pe_imp = pem->pe_import; pe_imp->Name ; pe_imp++) { IMAGE_IMPORT_BY_NAME *pe_name; PIMAGE_THUNK_DATA import_list,thunk_list; char *name = (char *) RVA(pe_imp->Name); if (characteristics_detection && !pe_imp->u.Characteristics) break; //#warning FIXME: here we should fill imports TRACE("Loading imports for %s.dll\n", name); if (pe_imp->u.OriginalFirstThunk != 0) { TRACE("Microsoft style imports used\n"); import_list =(PIMAGE_THUNK_DATA) RVA(pe_imp->u.OriginalFirstThunk); thunk_list = (PIMAGE_THUNK_DATA) RVA(pe_imp->FirstThunk); while (import_list->u1.Ordinal) { if (IMAGE_SNAP_BY_ORDINAL(import_list->u1.Ordinal)) { int ordinal = IMAGE_ORDINAL(import_list->u1.Ordinal); // TRACE("--- Ordinal %s,%d\n", name, ordinal); thunk_list->u1.Function=LookupExternal(name, ordinal); } else { pe_name = (PIMAGE_IMPORT_BY_NAME)RVA(import_list->u1.AddressOfData); // TRACE("--- %s %s.%d\n", pe_name->Name, name, pe_name->Hint); thunk_list->u1.Function=LookupExternalByName(name, pe_name->Name); } import_list++; thunk_list++; } } else { TRACE("Borland style imports used\n"); thunk_list = (PIMAGE_THUNK_DATA) RVA(pe_imp->FirstThunk); while (thunk_list->u1.Ordinal) { if (IMAGE_SNAP_BY_ORDINAL(thunk_list->u1.Ordinal)) { int ordinal = IMAGE_ORDINAL(thunk_list->u1.Ordinal); TRACE("--- Ordinal %s.%d\n",name,ordinal); thunk_list->u1.Function=LookupExternal( name, ordinal); } else { pe_name=(PIMAGE_IMPORT_BY_NAME) RVA(thunk_list->u1.AddressOfData); TRACE("--- %s %s.%d\n", pe_name->Name,name,pe_name->Hint); thunk_list->u1.Function=LookupExternalByName( name, pe_name->Name); } thunk_list++; } } } return 0; } static int calc_vma_size( HMODULE hModule ) { int i,vma_size = 0; IMAGE_SECTION_HEADER *pe_seg = PE_SECTIONS(hModule); TRACE("Dump of segment table\n"); TRACE(" Name VSz Vaddr SzRaw Fileadr *Reloc *Lineum #Reloc #Linum Char\n"); for (i = 0; i< PE_HEADER(hModule)->FileHeader.NumberOfSections; i++) { TRACE("%8s: %4.4lx %8.8lx %8.8lx %8.8lx %8.8lx %8.8lx %4.4x %4.4x %8.8lx\n", pe_seg->Name, pe_seg->Misc.VirtualSize, pe_seg->VirtualAddress, pe_seg->SizeOfRawData, pe_seg->PointerToRawData, pe_seg->PointerToRelocations, pe_seg->PointerToLinenumbers, pe_seg->NumberOfRelocations, pe_seg->NumberOfLinenumbers, pe_seg->Characteristics); vma_size=max(vma_size, pe_seg->VirtualAddress+pe_seg->SizeOfRawData); vma_size=max(vma_size, pe_seg->VirtualAddress+pe_seg->Misc.VirtualSize); pe_seg++; } return vma_size; } static void do_relocations( unsigned int load_addr, IMAGE_BASE_RELOCATION *r ) { int delta = load_addr - PE_HEADER(load_addr)->OptionalHeader.ImageBase; int hdelta = (delta >> 16) & 0xFFFF; int ldelta = delta & 0xFFFF; if(delta == 0) return; while(r->VirtualAddress) { char *page = (char*) RVA(r->VirtualAddress); int count = (r->SizeOfBlock - 8)/2; int i; TRACE_(fixup)("%x relocations for page %lx\n", count, r->VirtualAddress); for(i=0;i<count;i++) { int offset = r->TypeOffset[i] & 0xFFF; int type = r->TypeOffset[i] >> 12; // TRACE_(fixup)("patching %x type %x\n", offset, type); switch(type) { case IMAGE_REL_BASED_ABSOLUTE: break; case IMAGE_REL_BASED_HIGH: *(short*)(page+offset) += hdelta; break; case IMAGE_REL_BASED_LOW: *(short*)(page+offset) += ldelta; break; case IMAGE_REL_BASED_HIGHLOW: *(int*)(page+offset) += delta; break; case IMAGE_REL_BASED_HIGHADJ: FIXME("Don't know what to do with IMAGE_REL_BASED_HIGHADJ\n"); break; case IMAGE_REL_BASED_MIPS_JMPADDR: FIXME("Is this a MIPS machine ???\n"); break; default: FIXME("Unknown fixup type\n"); break; } } r = (IMAGE_BASE_RELOCATION*)((char*)r + r->SizeOfBlock); } } /********************************************************************** * PE_LoadImage * Load one PE format DLL/EXE into memory * * Unluckily we can't just mmap the sections where we want them, for * (at least) Linux does only support offsets which are page-aligned. * * BUT we have to map the whole image anyway, for Win32 programs sometimes * want to access them. (HMODULE32 point to the start of it) */ HMODULE PE_LoadImage( int handle, LPCSTR filename, WORD *version ) { HMODULE hModule; HANDLE mapping; IMAGE_NT_HEADERS *nt; IMAGE_SECTION_HEADER *pe_sec; IMAGE_DATA_DIRECTORY *dir; // BY_HANDLE_FILE_INFORMATION bhfi; int i, rawsize, lowest_va, vma_size, file_size = 0; DWORD load_addr = 0, aoep, reloc = 0; // struct get_read_fd_request *req = get_req_buffer(); int unix_handle = handle; int page_size = getpagesize(); // if ( GetFileInformationByHandle( hFile, &bhfi ) ) // file_size = bhfi.nFileSizeLow; file_size=lseek(handle, 0, SEEK_END); lseek(handle, 0, SEEK_SET); //#warning fix CreateFileMappingA mapping = CreateFileMappingA( handle, NULL, PAGE_READONLY | SEC_COMMIT, 0, 0, NULL ); if (!mapping) { WARN("CreateFileMapping error %ld\n", GetLastError() ); return 0; } // hModule = (HMODULE)MapViewOfFile( mapping, FILE_MAP_READ, 0, 0, 0 ); hModule=(HMODULE)mapping; // CloseHandle( mapping ); if (!hModule) { WARN("MapViewOfFile error %ld\n", GetLastError() ); return 0; } if ( *(WORD*)hModule !=IMAGE_DOS_SIGNATURE) { WARN("%s image doesn't have DOS signature, but 0x%04x\n", filename,*(WORD*)hModule); goto error; } nt = PE_HEADER( hModule ); if ( nt->Signature != IMAGE_NT_SIGNATURE ) { WARN("%s image doesn't have PE signature, but 0x%08lx\n", filename, nt->Signature ); goto error; } if ( nt->FileHeader.Machine != IMAGE_FILE_MACHINE_I386 ) { MESSAGE("Trying to load PE image for unsupported architecture ("); switch (nt->FileHeader.Machine) { case IMAGE_FILE_MACHINE_UNKNOWN: MESSAGE("Unknown"); break; case IMAGE_FILE_MACHINE_I860: MESSAGE("I860"); break; case IMAGE_FILE_MACHINE_R3000: MESSAGE("R3000"); break; case IMAGE_FILE_MACHINE_R4000: MESSAGE("R4000"); break; case IMAGE_FILE_MACHINE_R10000: MESSAGE("R10000"); break; case IMAGE_FILE_MACHINE_ALPHA: MESSAGE("Alpha"); break; case IMAGE_FILE_MACHINE_POWERPC: MESSAGE("PowerPC"); break; default: MESSAGE("Unknown-%04x", nt->FileHeader.Machine); break; } MESSAGE(")\n"); goto error; } pe_sec = PE_SECTIONS( hModule ); rawsize = 0; lowest_va = 0x10000; for (i = 0; i < nt->FileHeader.NumberOfSections; i++) { if (lowest_va > pe_sec[i].VirtualAddress) lowest_va = pe_sec[i].VirtualAddress; if (pe_sec[i].Characteristics & IMAGE_SCN_CNT_UNINITIALIZED_DATA) continue; if (pe_sec[i].PointerToRawData+pe_sec[i].SizeOfRawData > rawsize) rawsize = pe_sec[i].PointerToRawData+pe_sec[i].SizeOfRawData; } if ( file_size && file_size < rawsize ) { ERR("PE module is too small (header: %d, filesize: %d), " "probably truncated download?\n", rawsize, file_size ); goto error; } aoep = nt->OptionalHeader.AddressOfEntryPoint; if (aoep && (aoep < lowest_va)) FIXME("VIRUS WARNING: '%s' has an invalid entrypoint (0x%08lx) " "below the first virtual address (0x%08x) " "(possibly infected by Tchernobyl/SpaceFiller virus)!\n", filename, aoep, lowest_va ); /* FIXME: Hack! While we don't really support shared sections yet, * this checks for those special cases where the whole DLL * consists only of shared sections and is mapped into the * shared address space > 2GB. In this case, we assume that * the module got mapped at its base address. Thus we simply * check whether the module has actually been mapped there * and use it, if so. This is needed to get Win95 USER32.DLL * to work (until we support shared sections properly). */ if ( nt->OptionalHeader.ImageBase & 0x80000000 && !strstr(filename, "xanlib.dll")) { HMODULE sharedMod = (HMODULE)nt->OptionalHeader.ImageBase; IMAGE_NT_HEADERS *sharedNt = (PIMAGE_NT_HEADERS) ( (LPBYTE)sharedMod + ((LPBYTE)nt - (LPBYTE)hModule) ); /* Well, this check is not really comprehensive, but should be good enough for now ... */ if ( !IsBadReadPtr( (LPBYTE)sharedMod, sizeof(IMAGE_DOS_HEADER) ) && memcmp( (LPBYTE)sharedMod, (LPBYTE)hModule, sizeof(IMAGE_DOS_HEADER) ) == 0 && !IsBadReadPtr( sharedNt, sizeof(IMAGE_NT_HEADERS) ) && memcmp( sharedNt, nt, sizeof(IMAGE_NT_HEADERS) ) == 0 ) { UnmapViewOfFile( (LPVOID)hModule ); return sharedMod; } } load_addr = nt->OptionalHeader.ImageBase; vma_size = calc_vma_size( hModule ); load_addr = (DWORD)VirtualAlloc( (void*)load_addr, vma_size, MEM_RESERVE | MEM_COMMIT, PAGE_EXECUTE_READWRITE ); if (load_addr == 0) { FIXME("We need to perform base relocations for %s\n", filename); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_BASERELOC; if (dir->Size) reloc = dir->VirtualAddress; else { FIXME( "FATAL: Need to relocate %s, but no relocation records present (%s). Try to run that file directly !\n", filename, (nt->FileHeader.Characteristics&IMAGE_FILE_RELOCS_STRIPPED)? "stripped during link" : "unknown reason" ); goto error; } /* FIXME: If we need to relocate a system DLL (base > 2GB) we should * really make sure that the *new* base address is also > 2GB. * Some DLLs really check the MSB of the module handle :-/ */ if ( nt->OptionalHeader.ImageBase & 0x80000000 ) ERR( "Forced to relocate system DLL (base > 2GB). This is not good.\n" ); load_addr = (DWORD)VirtualAlloc( NULL, vma_size, MEM_RESERVE | MEM_COMMIT, PAGE_EXECUTE_READWRITE ); if (!load_addr) { FIXME_(win32)( "FATAL: Couldn't load module %s (out of memory, %d needed)!\n", filename, vma_size); goto error; } } TRACE("Load addr is %lx (base %lx), range %x\n", load_addr, nt->OptionalHeader.ImageBase, vma_size ); TRACE_(segment)("Loading %s at %lx, range %x\n", filename, load_addr, vma_size ); #if 0 *(PIMAGE_DOS_HEADER)load_addr = *(PIMAGE_DOS_HEADER)hModule; *PE_HEADER( load_addr ) = *nt; memcpy( PE_SECTIONS(load_addr), PE_SECTIONS(hModule), sizeof(IMAGE_SECTION_HEADER) * nt->FileHeader.NumberOfSections ); memcpy( load_addr, hModule, lowest_fa ); #endif if ((void*)FILE_dommap( handle, (void *)load_addr, 0, nt->OptionalHeader.SizeOfHeaders, 0, 0, PROT_EXEC | PROT_WRITE | PROT_READ, MAP_PRIVATE | MAP_FIXED ) != (void*)load_addr) { ERR_(win32)( "Critical Error: failed to map PE header to necessary address.\n"); goto error; } pe_sec = PE_SECTIONS( hModule ); for (i = 0; i < nt->FileHeader.NumberOfSections; i++, pe_sec++) { if (!pe_sec->SizeOfRawData || !pe_sec->PointerToRawData) continue; TRACE("%s: mmaping section %s at %p off %lx size %lx/%lx\n", filename, pe_sec->Name, (void*)RVA(pe_sec->VirtualAddress), pe_sec->PointerToRawData, pe_sec->SizeOfRawData, pe_sec->Misc.VirtualSize ); if ((void*)FILE_dommap( unix_handle, (void*)RVA(pe_sec->VirtualAddress), 0, pe_sec->SizeOfRawData, 0, pe_sec->PointerToRawData, PROT_EXEC | PROT_WRITE | PROT_READ, MAP_PRIVATE | MAP_FIXED ) != (void*)RVA(pe_sec->VirtualAddress)) { ERR_(win32)( "Critical Error: failed to map PE section to necessary address.\n"); goto error; } if ((pe_sec->SizeOfRawData < pe_sec->Misc.VirtualSize) && (pe_sec->SizeOfRawData & (page_size-1))) { DWORD end = (pe_sec->SizeOfRawData & ~(page_size-1)) + page_size; if (end > pe_sec->Misc.VirtualSize) end = pe_sec->Misc.VirtualSize; TRACE("clearing %p - %p\n", RVA(pe_sec->VirtualAddress) + pe_sec->SizeOfRawData, RVA(pe_sec->VirtualAddress) + end ); memset( (char*)RVA(pe_sec->VirtualAddress) + pe_sec->SizeOfRawData, 0, end - pe_sec->SizeOfRawData ); } } if ( reloc ) do_relocations( load_addr, (IMAGE_BASE_RELOCATION *)RVA(reloc) ); *version = ( (nt->OptionalHeader.MajorSubsystemVersion & 0xff) << 8 ) | (nt->OptionalHeader.MinorSubsystemVersion & 0xff); UnmapViewOfFile( (LPVOID)hModule ); return (HMODULE)load_addr; error: if (unix_handle != -1) close( unix_handle ); if (load_addr) VirtualFree( (LPVOID)load_addr, 0, MEM_RELEASE ); UnmapViewOfFile( (LPVOID)hModule ); return 0; } /********************************************************************** * PE_CreateModule * * Create WINE_MODREF structure for loaded HMODULE32, link it into * process modref_list, and fixup all imports. * * Note: hModule must point to a correctly allocated PE image, * with base relocations applied; the 16-bit dummy module * associated to hModule must already exist. * * Note: This routine must always be called in the context of the * process that is to own the module to be created. */ WINE_MODREF *PE_CreateModule( HMODULE hModule, LPCSTR filename, DWORD flags, WIN_BOOL builtin ) { DWORD load_addr = (DWORD)hModule; IMAGE_NT_HEADERS *nt = PE_HEADER(hModule); IMAGE_DATA_DIRECTORY *dir; IMAGE_IMPORT_DESCRIPTOR *pe_import = NULL; IMAGE_EXPORT_DIRECTORY *pe_export = NULL; IMAGE_RESOURCE_DIRECTORY *pe_resource = NULL; WINE_MODREF *wm; dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_EXPORT; if (dir->Size) pe_export = (PIMAGE_EXPORT_DIRECTORY)RVA(dir->VirtualAddress); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_IMPORT; if (dir->Size) pe_import = (PIMAGE_IMPORT_DESCRIPTOR)RVA(dir->VirtualAddress); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_RESOURCE; if (dir->Size) pe_resource = (PIMAGE_RESOURCE_DIRECTORY)RVA(dir->VirtualAddress); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_EXCEPTION; if (dir->Size) FIXME("Exception directory ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_SECURITY; if (dir->Size) FIXME("Security directory ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_DEBUG; if (dir->Size) TRACE("Debug directory ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_COPYRIGHT; if (dir->Size) FIXME("Copyright string ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_GLOBALPTR; if (dir->Size) FIXME("Global Pointer (MIPS) ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG; if (dir->Size) FIXME("Load Configuration directory ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT; if (dir->Size) TRACE("Bound Import directory ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_IAT; if (dir->Size) TRACE("Import Address Table directory ignored\n" ); dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_DELAY_IMPORT; if (dir->Size) { TRACE("Delayed import, stub calls LoadLibrary\n" ); /* * Nothing to do here. */ #ifdef ImgDelayDescr /* * This code is useful to observe what the heck is going on. */ { ImgDelayDescr *pe_delay = NULL; pe_delay = (PImgDelayDescr)RVA(dir->VirtualAddress); TRACE_(delayhlp)("pe_delay->grAttrs = %08x\n", pe_delay->grAttrs); TRACE_(delayhlp)("pe_delay->szName = %s\n", pe_delay->szName); TRACE_(delayhlp)("pe_delay->phmod = %08x\n", pe_delay->phmod); TRACE_(delayhlp)("pe_delay->pIAT = %08x\n", pe_delay->pIAT); TRACE_(delayhlp)("pe_delay->pINT = %08x\n", pe_delay->pINT); TRACE_(delayhlp)("pe_delay->pBoundIAT = %08x\n", pe_delay->pBoundIAT); TRACE_(delayhlp)("pe_delay->pUnloadIAT = %08x\n", pe_delay->pUnloadIAT); TRACE_(delayhlp)("pe_delay->dwTimeStamp = %08x\n", pe_delay->dwTimeStamp); } #endif } dir = nt->OptionalHeader.DataDirectory+IMAGE_DIRECTORY_ENTRY_COM_DESCRIPTOR; if (dir->Size) FIXME("Unknown directory 14 ignored\n" ); dir = nt->OptionalHeader.DataDirectory+15; if (dir->Size) FIXME("Unknown directory 15 ignored\n" ); wm = (WINE_MODREF *)HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*wm) ); wm->module = hModule; if ( builtin ) wm->flags |= WINE_MODREF_INTERNAL; if ( flags & DONT_RESOLVE_DLL_REFERENCES ) wm->flags |= WINE_MODREF_DONT_RESOLVE_REFS; if ( flags & LOAD_LIBRARY_AS_DATAFILE ) wm->flags |= WINE_MODREF_LOAD_AS_DATAFILE; wm->type = MODULE32_PE; wm->binfmt.pe.pe_export = pe_export; wm->binfmt.pe.pe_import = pe_import; wm->binfmt.pe.pe_resource = pe_resource; wm->binfmt.pe.tlsindex = -1; wm->filename = malloc(strlen(filename)+1); strcpy(wm->filename, filename ); wm->modname = strrchr( wm->filename, '\\' ); if (!wm->modname) wm->modname = wm->filename; else wm->modname++; if ( pe_export ) dump_exports( hModule ); /* Fixup Imports */ if ( pe_import && !( wm->flags & WINE_MODREF_LOAD_AS_DATAFILE ) && !( wm->flags & WINE_MODREF_DONT_RESOLVE_REFS ) && fixup_imports( wm ) ) { /* remove entry from modref chain */ return NULL; } return wm; } /****************************************************************************** * The PE Library Loader frontend. * FIXME: handle the flags. */ WINE_MODREF *PE_LoadLibraryExA (LPCSTR name, DWORD flags) { HMODULE hModule32; WINE_MODREF *wm; char filename[256]; int hFile; WORD version = 0; strncpy(filename, name, sizeof(filename)); hFile=open(filename, O_RDONLY); if(hFile==-1) return NULL; hModule32 = PE_LoadImage( hFile, filename, &version ); if (!hModule32) { SetLastError( ERROR_OUTOFMEMORY ); return NULL; } if ( !(wm = PE_CreateModule( hModule32, filename, flags, FALSE )) ) { ERR( "can't load %s\n", filename ); SetLastError( ERROR_OUTOFMEMORY ); return NULL; } close(hFile); //printf("^^^^^^^^^^^^^^^^Alloc VM1 %p\n", wm); return wm; } /***************************************************************************** * PE_UnloadLibrary * * Unload the library unmapping the image and freeing the modref structure. */ void PE_UnloadLibrary(WINE_MODREF *wm) { TRACE(" unloading %s\n", wm->filename); if (wm->filename) free(wm->filename); if (wm->short_filename) free(wm->short_filename); HeapFree( GetProcessHeap(), 0, wm->deps ); VirtualFree( (LPVOID)wm->module, 0, MEM_RELEASE ); HeapFree( GetProcessHeap(), 0, wm ); //printf("^^^^^^^^^^^^^^^^Free VM1 %p\n", wm); } /***************************************************************************** * Load the PE main .EXE. All other loading is done by PE_LoadLibraryExA * FIXME: this function should use PE_LoadLibraryExA, but currently can't * due to the PROCESS_Create stuff. */ /* * This is a dirty hack. * The win32 DLLs contain an alloca routine, that first probes the soon * to be allocated new memory *below* the current stack pointer in 4KByte * increments. After the mem probing below the current %esp, the stack * pointer is finally decremented to make room for the "alloca"ed memory. * Maybe the probing code is intended to extend the stack on a windows box. * Anyway, the linux kernel does *not* extend the stack by simply accessing * memory below %esp; it segfaults. * The extend_stack_for_dll_alloca() routine just preallocates a big chunk * of memory on the stack, for use by the DLLs alloca routine. * Added the noinline attribute as e.g. gcc 3.2.2 inlines this function * in a way that breaks it. */ static void __attribute__((noinline)) extend_stack_for_dll_alloca(void) { #if !defined(__FreeBSD__) && !defined(__DragonFly__) volatile int* mem=alloca(0x20000); *mem=0x1234; #endif } /* Called if the library is loaded or freed. * NOTE: if a thread attaches a DLL, the current thread will only do * DLL_PROCESS_ATTACH. Only new created threads do DLL_THREAD_ATTACH * (SDK) */ WIN_BOOL PE_InitDLL( WINE_MODREF *wm, DWORD type, LPVOID lpReserved ) { WIN_BOOL retv = TRUE; assert( wm->type == MODULE32_PE ); if ((PE_HEADER(wm->module)->FileHeader.Characteristics & IMAGE_FILE_DLL) && (PE_HEADER(wm->module)->OptionalHeader.AddressOfEntryPoint) ) { DLLENTRYPROC entry ; entry = (void*)PE_FindExportedFunction(wm, "DllMain", 0); if(entry==NULL) entry = (void*)RVA_PTR( wm->module,OptionalHeader.AddressOfEntryPoint ); TRACE_(relay)("CallTo32(entryproc=%p,module=%08x,type=%ld,res=%p)\n", entry, wm->module, type, lpReserved ); TRACE("Entering DllMain("); switch(type) { case DLL_PROCESS_DETACH: TRACE("DLL_PROCESS_DETACH) "); break; case DLL_PROCESS_ATTACH: TRACE("DLL_PROCESS_ATTACH) "); break; case DLL_THREAD_DETACH: TRACE("DLL_THREAD_DETACH) "); break; case DLL_THREAD_ATTACH: TRACE("DLL_THREAD_ATTACH) "); break; } TRACE("for %s\n", wm->filename); extend_stack_for_dll_alloca(); retv = entry( wm->module, type, lpReserved ); } return retv; } static LPVOID _fixup_address(PIMAGE_OPTIONAL_HEADER opt,int delta,LPVOID addr) { if ( ((DWORD)addr>opt->ImageBase) && ((DWORD)addr<opt->ImageBase+opt->SizeOfImage) ) return (LPVOID)(((DWORD)addr)+delta); else return addr; }