/* library.c - custom dlls loader Copyright (C) 2008 Uncle Mike This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. */ #include "platform/platform.h" #if XASH_LIB == LIB_WIN32 #include "common.h" #include "library.h" #include #define CALCULATE_ADDRESS( base, offset ) ( ( DWORD )( base ) + ( DWORD )( offset ) ) #if XASH_X86 /* --------------------------------------------------------------- Custom dlls loader --------------------------------------------------------------- */ #define NUMBER_OF_DIRECTORY_ENTRIES 16 #ifndef IMAGE_SIZEOF_BASE_RELOCATION #define IMAGE_SIZEOF_BASE_RELOCATION ( sizeof( IMAGE_BASE_RELOCATION )) #endif typedef struct { PIMAGE_NT_HEADERS headers; byte *codeBase; void **modules; int numModules; int initialized; } MEMORYMODULE, *PMEMORYMODULE; // Protection flags for memory pages (Executable, Readable, Writeable) static int ProtectionFlags[2][2][2] = { { { PAGE_NOACCESS, PAGE_WRITECOPY }, // not executable { PAGE_READONLY, PAGE_READWRITE }, }, { { PAGE_EXECUTE, PAGE_EXECUTE_WRITECOPY }, // executable { PAGE_EXECUTE_READ, PAGE_EXECUTE_READWRITE }, }, }; typedef BOOL (WINAPI *DllEntryProc)( HINSTANCE hinstDLL, DWORD fdwReason, LPVOID lpReserved ); #define GET_HEADER_DICTIONARY( module, idx ) &(module)->headers->OptionalHeader.DataDirectory[idx] static void CopySections( const byte *data, PIMAGE_NT_HEADERS old_headers, PMEMORYMODULE module ) { PIMAGE_SECTION_HEADER section = IMAGE_FIRST_SECTION( module->headers ); byte *codeBase = module->codeBase; int i, size; byte *dest; for( i = 0; i < module->headers->FileHeader.NumberOfSections; i++, section++ ) { if( section->SizeOfRawData == 0 ) { // section doesn't contain data in the dll itself, but may define // uninitialized data size = old_headers->OptionalHeader.SectionAlignment; if( size > 0 ) { dest = (byte *)VirtualAlloc((byte *)CALCULATE_ADDRESS(codeBase, section->VirtualAddress), size, MEM_COMMIT, PAGE_READWRITE ); section->Misc.PhysicalAddress = (DWORD)dest; memset( dest, 0, size ); } // section is empty continue; } // commit memory block and copy data from dll dest = (byte *)VirtualAlloc((byte *)CALCULATE_ADDRESS(codeBase, section->VirtualAddress), section->SizeOfRawData, MEM_COMMIT, PAGE_READWRITE ); memcpy( dest, (byte *)CALCULATE_ADDRESS(data, section->PointerToRawData), section->SizeOfRawData ); section->Misc.PhysicalAddress = (DWORD)dest; } } static void FreeSections( PIMAGE_NT_HEADERS old_headers, PMEMORYMODULE module ) { PIMAGE_SECTION_HEADER section = IMAGE_FIRST_SECTION(module->headers); byte *codeBase = module->codeBase; int i, size; for( i = 0; i < module->headers->FileHeader.NumberOfSections; i++, section++ ) { if( section->SizeOfRawData == 0 ) { size = old_headers->OptionalHeader.SectionAlignment; if( size > 0 ) { VirtualFree((byte *)CALCULATE_ADDRESS( codeBase, section->VirtualAddress ), size, MEM_DECOMMIT ); section->Misc.PhysicalAddress = 0; } continue; } VirtualFree((byte *)CALCULATE_ADDRESS( codeBase, section->VirtualAddress ), section->SizeOfRawData, MEM_DECOMMIT ); section->Misc.PhysicalAddress = 0; } } static void FinalizeSections( MEMORYMODULE *module ) { PIMAGE_SECTION_HEADER section = IMAGE_FIRST_SECTION( module->headers ); int i; // loop through all sections and change access flags for( i = 0; i < module->headers->FileHeader.NumberOfSections; i++, section++ ) { DWORD protect, oldProtect, size; int executable = (section->Characteristics & IMAGE_SCN_MEM_EXECUTE) != 0; int readable = (section->Characteristics & IMAGE_SCN_MEM_READ) != 0; int writeable = (section->Characteristics & IMAGE_SCN_MEM_WRITE) != 0; if( section->Characteristics & IMAGE_SCN_MEM_DISCARDABLE ) { // section is not needed any more and can safely be freed VirtualFree((LPVOID)section->Misc.PhysicalAddress, section->SizeOfRawData, MEM_DECOMMIT); continue; } // determine protection flags based on characteristics protect = ProtectionFlags[executable][readable][writeable]; if( section->Characteristics & IMAGE_SCN_MEM_NOT_CACHED ) protect |= PAGE_NOCACHE; // determine size of region size = section->SizeOfRawData; if( size == 0 ) { if( section->Characteristics & IMAGE_SCN_CNT_INITIALIZED_DATA ) size = module->headers->OptionalHeader.SizeOfInitializedData; else if( section->Characteristics & IMAGE_SCN_CNT_UNINITIALIZED_DATA ) size = module->headers->OptionalHeader.SizeOfUninitializedData; } if( size > 0 ) { // change memory access flags if( !VirtualProtect((LPVOID)section->Misc.PhysicalAddress, size, protect, &oldProtect )) Sys_Error( "error protecting memory page\n" ); } } } static void PerformBaseRelocation( MEMORYMODULE *module, DWORD delta ) { PIMAGE_DATA_DIRECTORY directory = GET_HEADER_DICTIONARY( module, IMAGE_DIRECTORY_ENTRY_BASERELOC ); byte *codeBase = module->codeBase; DWORD i; if( directory->Size > 0 ) { PIMAGE_BASE_RELOCATION relocation = (PIMAGE_BASE_RELOCATION)CALCULATE_ADDRESS( codeBase, directory->VirtualAddress ); for( ; relocation->VirtualAddress > 0; ) { byte *dest = (byte *)CALCULATE_ADDRESS( codeBase, relocation->VirtualAddress ); word *relInfo = (word *)((byte *)relocation + IMAGE_SIZEOF_BASE_RELOCATION ); for( i = 0; i<((relocation->SizeOfBlock-IMAGE_SIZEOF_BASE_RELOCATION) / 2); i++, relInfo++ ) { DWORD *patchAddrHL; int type, offset; // the upper 4 bits define the type of relocation type = *relInfo >> 12; // the lower 12 bits define the offset offset = *relInfo & 0xfff; switch( type ) { case IMAGE_REL_BASED_ABSOLUTE: // skip relocation break; case IMAGE_REL_BASED_HIGHLOW: // change complete 32 bit address patchAddrHL = (DWORD *)CALCULATE_ADDRESS( dest, offset ); *patchAddrHL += delta; break; default: Con_Reportf( S_ERROR "PerformBaseRelocation: unknown relocation: %d\n", type ); break; } } // advance to next relocation block relocation = (PIMAGE_BASE_RELOCATION)CALCULATE_ADDRESS( relocation, relocation->SizeOfBlock ); } } } static FARPROC MemoryGetProcAddress( void *module, const char *name ) { PIMAGE_DATA_DIRECTORY directory = GET_HEADER_DICTIONARY((MEMORYMODULE *)module, IMAGE_DIRECTORY_ENTRY_EXPORT ); byte *codeBase = ((PMEMORYMODULE)module)->codeBase; PIMAGE_EXPORT_DIRECTORY exports; int idx = -1; DWORD i, *nameRef; WORD *ordinal; if( directory->Size == 0 ) { // no export table found return NULL; } exports = (PIMAGE_EXPORT_DIRECTORY)CALCULATE_ADDRESS( codeBase, directory->VirtualAddress ); if( exports->NumberOfNames == 0 || exports->NumberOfFunctions == 0 ) { // DLL doesn't export anything return NULL; } // search function name in list of exported names nameRef = (DWORD *)CALCULATE_ADDRESS( codeBase, exports->AddressOfNames ); ordinal = (WORD *)CALCULATE_ADDRESS( codeBase, exports->AddressOfNameOrdinals ); for( i = 0; i < exports->NumberOfNames; i++, nameRef++, ordinal++ ) { // GetProcAddress case insensative ????? if( !Q_stricmp( name, (const char *)CALCULATE_ADDRESS( codeBase, *nameRef ))) { idx = *ordinal; break; } } if( idx == -1 ) { // exported symbol not found return NULL; } if((DWORD)idx > exports->NumberOfFunctions ) { // name <-> ordinal number don't match return NULL; } // addressOfFunctions contains the RVAs to the "real" functions return (FARPROC)CALCULATE_ADDRESS( codeBase, *(DWORD *)CALCULATE_ADDRESS( codeBase, exports->AddressOfFunctions + (idx * 4))); } static int BuildImportTable( MEMORYMODULE *module ) { PIMAGE_DATA_DIRECTORY directory = GET_HEADER_DICTIONARY( module, IMAGE_DIRECTORY_ENTRY_IMPORT ); byte *codeBase = module->codeBase; int result = 1; if( directory->Size > 0 ) { PIMAGE_IMPORT_DESCRIPTOR importDesc = (PIMAGE_IMPORT_DESCRIPTOR)CALCULATE_ADDRESS( codeBase, directory->VirtualAddress ); for( ; !IsBadReadPtr( importDesc, sizeof( IMAGE_IMPORT_DESCRIPTOR )) && importDesc->Name; importDesc++ ) { DWORD *thunkRef, *funcRef; LPCSTR libname; void *handle; libname = (LPCSTR)CALCULATE_ADDRESS( codeBase, importDesc->Name ); handle = COM_LoadLibrary( libname, false, true ); if( handle == NULL ) { Con_Printf( S_ERROR "couldn't load library %s\n", libname ); result = 0; break; } module->modules = (void *)Mem_Realloc( host.mempool, module->modules, (module->numModules + 1) * (sizeof( void* ))); module->modules[module->numModules++] = handle; if( importDesc->OriginalFirstThunk ) { thunkRef = (DWORD *)CALCULATE_ADDRESS( codeBase, importDesc->OriginalFirstThunk ); funcRef = (DWORD *)CALCULATE_ADDRESS( codeBase, importDesc->FirstThunk ); } else { // no hint table thunkRef = (DWORD *)CALCULATE_ADDRESS( codeBase, importDesc->FirstThunk ); funcRef = (DWORD *)CALCULATE_ADDRESS( codeBase, importDesc->FirstThunk ); } for( ; *thunkRef; thunkRef++, funcRef++ ) { LPCSTR funcName; if( IMAGE_SNAP_BY_ORDINAL( *thunkRef )) { funcName = (LPCSTR)IMAGE_ORDINAL( *thunkRef ); *funcRef = (DWORD)COM_GetProcAddress( handle, funcName ); } else { PIMAGE_IMPORT_BY_NAME thunkData = (PIMAGE_IMPORT_BY_NAME)CALCULATE_ADDRESS( codeBase, *thunkRef ); funcName = (LPCSTR)&thunkData->Name; *funcRef = (DWORD)COM_GetProcAddress( handle, funcName ); } if( *funcRef == 0 ) { Con_Printf( S_ERROR "%s unable to find address: %s\n", libname, funcName ); result = 0; break; } } if( !result ) break; } } return result; } static void MemoryFreeLibrary( void *hInstance ) { MEMORYMODULE *module = (MEMORYMODULE *)hInstance; if( module != NULL ) { int i; if( module->initialized != 0 ) { // notify library about detaching from process DllEntryProc DllEntry = (DllEntryProc)CALCULATE_ADDRESS( module->codeBase, module->headers->OptionalHeader.AddressOfEntryPoint ); (*DllEntry)((HINSTANCE)module->codeBase, DLL_PROCESS_DETACH, 0 ); module->initialized = 0; } if( module->modules != NULL ) { // free previously opened libraries for( i = 0; i < module->numModules; i++ ) { if( module->modules[i] != NULL ) COM_FreeLibrary( module->modules[i] ); } Mem_Free( module->modules ); // Mem_Realloc end } FreeSections( module->headers, module ); if( module->codeBase != NULL ) { // release memory of library VirtualFree( module->codeBase, 0, MEM_RELEASE ); } HeapFree( GetProcessHeap(), 0, module ); } } void *MemoryLoadLibrary( const char *name ) { MEMORYMODULE *result = NULL; PIMAGE_DOS_HEADER dos_header; PIMAGE_NT_HEADERS old_header; byte *code, *headers; DWORD locationDelta; DllEntryProc DllEntry; string errorstring; qboolean successfull; void *data = NULL; data = FS_LoadFile( name, NULL, false ); if( !data ) { Q_sprintf( errorstring, "couldn't load %s", name ); goto library_error; } dos_header = (PIMAGE_DOS_HEADER)data; if( dos_header->e_magic != IMAGE_DOS_SIGNATURE ) { Q_sprintf( errorstring, "%s it's not a valid executable file", name ); goto library_error; } old_header = (PIMAGE_NT_HEADERS)&((const byte *)(data))[dos_header->e_lfanew]; if( old_header->Signature != IMAGE_NT_SIGNATURE ) { Q_sprintf( errorstring, "%s missing PE header", name ); goto library_error; } // reserve memory for image of library code = (byte *)VirtualAlloc((LPVOID)(old_header->OptionalHeader.ImageBase), old_header->OptionalHeader.SizeOfImage, MEM_RESERVE, PAGE_READWRITE ); if( code == NULL ) { // try to allocate memory at arbitrary position code = (byte *)VirtualAlloc( NULL, old_header->OptionalHeader.SizeOfImage, MEM_RESERVE, PAGE_READWRITE ); } if( code == NULL ) { Q_sprintf( errorstring, "%s can't reserve memory", name ); goto library_error; } result = (MEMORYMODULE *)HeapAlloc( GetProcessHeap(), 0, sizeof( MEMORYMODULE )); result->codeBase = code; result->numModules = 0; result->modules = NULL; result->initialized = 0; // XXX: is it correct to commit the complete memory region at once? // calling DllEntry raises an exception if we don't... VirtualAlloc( code, old_header->OptionalHeader.SizeOfImage, MEM_COMMIT, PAGE_READWRITE ); // commit memory for headers headers = (byte *)VirtualAlloc( code, old_header->OptionalHeader.SizeOfHeaders, MEM_COMMIT, PAGE_READWRITE ); // copy PE header to code memcpy( headers, dos_header, dos_header->e_lfanew + old_header->OptionalHeader.SizeOfHeaders ); result->headers = (PIMAGE_NT_HEADERS)&((const byte *)(headers))[dos_header->e_lfanew]; // update position result->headers->OptionalHeader.ImageBase = (DWORD)code; // copy sections from DLL file block to new memory location CopySections( data, old_header, result ); // adjust base address of imported data locationDelta = (DWORD)(code - old_header->OptionalHeader.ImageBase); if( locationDelta != 0 ) PerformBaseRelocation( result, locationDelta ); // load required dlls and adjust function table of imports if( !BuildImportTable( result )) { Q_sprintf( errorstring, "%s failed to build import table", name ); goto library_error; } // mark memory pages depending on section headers and release // sections that are marked as "discardable" FinalizeSections( result ); // get entry point of loaded library if( result->headers->OptionalHeader.AddressOfEntryPoint != 0 ) { DllEntry = (DllEntryProc)CALCULATE_ADDRESS( code, result->headers->OptionalHeader.AddressOfEntryPoint ); if( DllEntry == 0 ) { Q_sprintf( errorstring, "%s has no entry point", name ); goto library_error; } // notify library about attaching to process successfull = (*DllEntry)((HINSTANCE)code, DLL_PROCESS_ATTACH, 0 ); if( !successfull ) { Q_sprintf( errorstring, "can't attach library %s", name ); goto library_error; } result->initialized = 1; } Mem_Free( data ); // release memory return (void *)result; library_error: // cleanup if( data ) Mem_Free( data ); MemoryFreeLibrary( result ); Con_Printf( S_ERROR "LoadLibrary: %s\n", errorstring ); return NULL; } #endif static DWORD GetOffsetByRVA( DWORD rva, PIMAGE_NT_HEADERS nt_header ) { int i = 0; PIMAGE_SECTION_HEADER sect_header = IMAGE_FIRST_SECTION( nt_header ); if (!rva) return rva; for( i = 0; i < nt_header->FileHeader.NumberOfSections; i++, sect_header++) { if( rva >= sect_header->VirtualAddress && rva < sect_header->VirtualAddress + sect_header->Misc.VirtualSize ) break; } return (rva - sect_header->VirtualAddress + sect_header->PointerToRawData); } /* --------------------------------------------------------------- Name for function stuff --------------------------------------------------------------- */ static void FsGetString( file_t *f, char *str ) { char ch; while(( ch = FS_Getc( f )) != EOF ) { *str++ = ch; if( !ch ) break; } } static void FreeNameFuncGlobals( dll_user_t *hInst ) { int i; if( !hInst ) return; if( hInst->ordinals ) Mem_Free( hInst->ordinals ); if( hInst->funcs ) Mem_Free( hInst->funcs ); for( i = 0; i < hInst->num_ordinals; i++ ) { if( hInst->names[i] ) Mem_Free( hInst->names[i] ); } hInst->num_ordinals = 0; hInst->ordinals = NULL; hInst->funcs = NULL; } qboolean LibraryLoadSymbols( dll_user_t *hInst ) { file_t *f; string errorstring; IMAGE_DOS_HEADER dos_header; LONG nt_signature; IMAGE_FILE_HEADER pe_header; IMAGE_SECTION_HEADER section_header; qboolean rdata_found; IMAGE_OPTIONAL_HEADER optional_header; long rdata_delta = 0; IMAGE_EXPORT_DIRECTORY export_directory; long name_offset; long exports_offset; long ordinal_offset; long function_offset; string function_name; dword *p_Names = NULL; int i, index; // can only be done for loaded libraries if( !hInst ) return false; for( i = 0; i < hInst->num_ordinals; i++ ) hInst->names[i] = NULL; f = FS_Open( hInst->shortPath, "rb", false ); if( !f ) { Q_sprintf( errorstring, "couldn't load %s", hInst->shortPath ); goto table_error; } if( FS_Read( f, &dos_header, sizeof( dos_header )) != sizeof( dos_header )) { Q_sprintf( errorstring, "%s has corrupted EXE header", hInst->shortPath ); goto table_error; } if( dos_header.e_magic != IMAGE_DOS_SIGNATURE ) { Q_sprintf( errorstring, "%s does not have a valid dll signature", hInst->shortPath ); goto table_error; } if( FS_Seek( f, dos_header.e_lfanew, SEEK_SET ) == -1 ) { Q_sprintf( errorstring, "%s error seeking for new exe header", hInst->shortPath ); goto table_error; } if( FS_Read( f, &nt_signature, sizeof( nt_signature )) != sizeof( nt_signature )) { Q_sprintf( errorstring, "%s has corrupted NT header", hInst->shortPath ); goto table_error; } if( nt_signature != IMAGE_NT_SIGNATURE ) { Q_sprintf( errorstring, "%s does not have a valid NT signature", hInst->shortPath ); goto table_error; } if( FS_Read( f, &pe_header, sizeof( pe_header )) != sizeof( pe_header )) { Q_sprintf( errorstring, "%s does not have a valid PE header", hInst->shortPath ); goto table_error; } if( !pe_header.SizeOfOptionalHeader ) { Q_sprintf( errorstring, "%s does not have an optional header", hInst->shortPath ); goto table_error; } if( FS_Read( f, &optional_header, sizeof( optional_header )) != sizeof( optional_header )) { Q_sprintf( errorstring, "%s optional header probably corrupted", hInst->shortPath ); goto table_error; } rdata_found = false; for( i = 0; i < pe_header.NumberOfSections; i++ ) { if( FS_Read( f, §ion_header, sizeof( section_header )) != sizeof( section_header )) { Q_sprintf( errorstring, "%s error during reading section header", hInst->shortPath ); goto table_error; } if((( optional_header.DataDirectory[0].VirtualAddress >= section_header.VirtualAddress ) && (optional_header.DataDirectory[0].VirtualAddress < (section_header.VirtualAddress + section_header.Misc.VirtualSize)))) { rdata_found = true; break; } } if( rdata_found ) { rdata_delta = section_header.VirtualAddress - section_header.PointerToRawData; } exports_offset = optional_header.DataDirectory[0].VirtualAddress - rdata_delta; if( FS_Seek( f, exports_offset, SEEK_SET ) == -1 ) { Q_sprintf( errorstring, "%s does not have a valid exports section", hInst->shortPath ); goto table_error; } if( FS_Read( f, &export_directory, sizeof( export_directory )) != sizeof( export_directory )) { Q_sprintf( errorstring, "%s does not have a valid optional header", hInst->shortPath ); goto table_error; } hInst->num_ordinals = export_directory.NumberOfNames; // also number of ordinals if( hInst->num_ordinals > MAX_LIBRARY_EXPORTS ) { Q_sprintf( errorstring, "%s too many exports %i", hInst->shortPath, hInst->num_ordinals ); hInst->num_ordinals = 0; goto table_error; } ordinal_offset = export_directory.AddressOfNameOrdinals - rdata_delta; if( FS_Seek( f, ordinal_offset, SEEK_SET ) == -1 ) { Q_sprintf( errorstring, "%s does not have a valid ordinals section", hInst->shortPath ); goto table_error; } hInst->ordinals = Mem_Malloc( host.mempool, hInst->num_ordinals * sizeof( word )); if( FS_Read( f, hInst->ordinals, hInst->num_ordinals * sizeof( word )) != (hInst->num_ordinals * sizeof( word ))) { Q_sprintf( errorstring, "%s error during reading ordinals table", hInst->shortPath ); goto table_error; } function_offset = export_directory.AddressOfFunctions - rdata_delta; if( FS_Seek( f, function_offset, SEEK_SET ) == -1 ) { Q_sprintf( errorstring, "%s does not have a valid export address section", hInst->shortPath ); goto table_error; } hInst->funcs = Mem_Malloc( host.mempool, hInst->num_ordinals * sizeof( dword )); if( FS_Read( f, hInst->funcs, hInst->num_ordinals * sizeof( dword )) != (hInst->num_ordinals * sizeof( dword ))) { Q_sprintf( errorstring, "%s error during reading export address section", hInst->shortPath ); goto table_error; } name_offset = export_directory.AddressOfNames - rdata_delta; if( FS_Seek( f, name_offset, SEEK_SET ) == -1 ) { Q_sprintf( errorstring, "%s file does not have a valid names section", hInst->shortPath ); goto table_error; } p_Names = Mem_Malloc( host.mempool, hInst->num_ordinals * sizeof( dword )); if( FS_Read( f, p_Names, hInst->num_ordinals * sizeof( dword )) != (hInst->num_ordinals * sizeof( dword ))) { Q_sprintf( errorstring, "%s error during reading names table", hInst->shortPath ); goto table_error; } for( i = 0; i < hInst->num_ordinals; i++ ) { name_offset = p_Names[i] - rdata_delta; if( name_offset != 0 ) { if( FS_Seek( f, name_offset, SEEK_SET ) != -1 ) { FsGetString( f, function_name ); hInst->names[i] = copystring( COM_GetMSVCName( function_name )); } else break; } } if( i != hInst->num_ordinals ) { Q_sprintf( errorstring, "%s error during loading names section", hInst->shortPath ); goto table_error; } FS_Close( f ); for( i = 0; i < hInst->num_ordinals; i++ ) { if( !Q_strcmp( "GiveFnptrsToDll", hInst->names[i] )) // main entry point for user dlls { void *fn_offset; index = hInst->ordinals[i]; fn_offset = COM_GetProcAddress( hInst, "GiveFnptrsToDll" ); hInst->funcBase = (uintptr_t)(fn_offset) - hInst->funcs[index]; break; } } if( p_Names ) Mem_Free( p_Names ); return true; table_error: // cleanup if( f ) FS_Close( f ); if( p_Names ) Mem_Free( p_Names ); FreeNameFuncGlobals( hInst ); Con_Printf( S_ERROR "LoadLibrary: %s\n", errorstring ); return false; } qboolean COM_CheckLibraryDirectDependency( const char *name, const char *depname, qboolean directpath ) { PIMAGE_DOS_HEADER dosHeader; PIMAGE_NT_HEADERS peHeader; PIMAGE_DATA_DIRECTORY importDir; PIMAGE_IMPORT_DESCRIPTOR importDesc; string errorstring = ""; byte *data = NULL; dll_user_t *hInst; hInst = FS_FindLibrary( name, directpath ); if( !hInst ) { return false; // nothing to load } data = FS_LoadFile( name, NULL, false ); if( !data ) { Q_snprintf( errorstring, sizeof( errorstring ), "couldn't load %s", name ); goto libraryerror; } dosHeader = ( PIMAGE_DOS_HEADER )data; if( dosHeader->e_magic != IMAGE_DOS_SIGNATURE ) { Q_snprintf( errorstring, sizeof( errorstring ), "%s it's not a valid executable file", name ); goto libraryerror; } peHeader = ( PIMAGE_NT_HEADERS )(data + dosHeader->e_lfanew); if( peHeader->Signature != IMAGE_NT_SIGNATURE ) { Q_snprintf( errorstring, sizeof( errorstring ), "%s missing PE header", name ); goto libraryerror; } importDir = &peHeader->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT]; if( importDir->Size <= 0 ) { Con_Printf( S_WARN "%s: %s has no dependencies. Is this library valid?\n", __FUNCTION__, name ); goto libraryerror; } importDesc = (PIMAGE_IMPORT_DESCRIPTOR)CALCULATE_ADDRESS( data, GetOffsetByRVA(importDir->VirtualAddress, peHeader) ); for( ; !IsBadReadPtr( importDesc, sizeof( IMAGE_IMPORT_DESCRIPTOR)) && importDesc->Name; importDesc++ ) { const char *importName = (const char *)CALCULATE_ADDRESS( data, GetOffsetByRVA( importDesc->Name, peHeader ) ); Con_Reportf( "library %s has direct dependency %s\n", name, importName ); if( !Q_stricmp( importName, depname ) ) { Mem_Free( data ); return true; } } libraryerror: if( errorstring[0] ) { Con_Printf( S_ERROR "%s: %s\n", __FUNCTION__, errorstring ); } if( data ) Mem_Free( data ); // release memory return false; } /* ================ COM_LoadLibrary smart dll loader - can loading dlls from pack or wad files ================ */ void *COM_LoadLibrary( const char *dllname, int build_ordinals_table, qboolean directpath ) { dll_user_t *hInst; hInst = FS_FindLibrary( dllname, directpath ); if( !hInst ) return NULL; // nothing to load if( hInst->encrypted ) { Con_Printf( S_ERROR "LoadLibrary: couldn't load encrypted library %s\n", dllname ); return NULL; } #if XASH_X86 if( hInst->custom_loader ) { hInst->hInstance = MemoryLoadLibrary( hInst->fullPath ); } else #endif { hInst->hInstance = LoadLibrary( hInst->fullPath ); } if( !hInst->hInstance ) { Con_Reportf( "LoadLibrary: Loading %s - failed\n", dllname ); COM_FreeLibrary( hInst ); return NULL; } // if not set - FunctionFromName and NameForFunction will not working if( build_ordinals_table ) { if( !LibraryLoadSymbols( hInst )) { Con_Reportf( "LoadLibrary: Loading %s - failed\n", dllname ); COM_FreeLibrary( hInst ); return NULL; } } Con_Reportf( "LoadLibrary: Loading %s - ok\n", dllname ); return hInst; } void *COM_GetProcAddress( void *hInstance, const char *name ) { dll_user_t *hInst = (dll_user_t *)hInstance; if( !hInst || !hInst->hInstance ) return NULL; #if XASH_X86 if( hInst->custom_loader ) return (void *)MemoryGetProcAddress( hInst->hInstance, name ); #endif return (void *)GetProcAddress( hInst->hInstance, name ); } void COM_FreeLibrary( void *hInstance ) { dll_user_t *hInst = (dll_user_t *)hInstance; if( !hInst || !hInst->hInstance ) return; // already freed if( host.status == HOST_CRASHED ) { // we need to hold down all modules, while MSVC can find error Con_Reportf( "Sys_FreeLibrary: hold %s for debugging\n", hInst->dllName ); return; } else Con_Reportf( "Sys_FreeLibrary: Unloading %s\n", hInst->dllName ); #if XASH_X86 if( hInst->custom_loader ) { MemoryFreeLibrary( hInst->hInstance ); } else #endif { FreeLibrary( hInst->hInstance ); } hInst->hInstance = NULL; if( hInst->num_ordinals ) FreeNameFuncGlobals( hInst ); Mem_Free( hInst ); // done } void *COM_FunctionFromName( void *hInstance, const char *pName ) { dll_user_t *hInst = (dll_user_t *)hInstance; int i, index; if( !hInst || !hInst->hInstance ) return 0; for( i = 0; i < hInst->num_ordinals; i++ ) { if( !Q_strcmp( pName, hInst->names[i] )) { index = hInst->ordinals[i]; return hInst->funcs[index] + hInst->funcBase; } } // couldn't find the function name to return address Con_Printf( "Can't find proc: %s\n", pName ); return 0; } const char *COM_NameForFunction( void *hInstance, void *function ) { dll_user_t *hInst = (dll_user_t *)hInstance; int i, index; if( !hInst || !hInst->hInstance ) return NULL; for( i = 0; i < hInst->num_ordinals; i++ ) { index = hInst->ordinals[i]; if(( (char*)function - (char*)hInst->funcBase ) == hInst->funcs[index] ) return hInst->names[i]; } // couldn't find the function address to return name Con_Printf( "Can't find address: %08lx\n", function ); return NULL; } #endif // _WIN32