/*** *dllcrt0.c - C runtime initialization routine for a DLL with linked-in C R-T * * Copyright (c) Microsoft Corporation. All rights reserved. * *Purpose: * This the startup routine for a DLL which is linked with its own * C run-time code. It is similar to the routine _mainCRTStartup() * in the file CRT0.C, except that there is no main() in a DLL. * *******************************************************************************/ #ifndef CRTDLL #include #include #include #include #include #include #include #include #define _DECL_DLLMAIN /* enable prototypes for DllMain and _CRT_INIT */ #include #include #include #include #include #include /* * flag set iff _CRTDLL_INIT was called with DLL_PROCESS_ATTACH */ static int __proc_attached = 0; /* * command line, environment, and a few other globals */ char *_acmdln; /* points to command line */ char *_aenvptr = NULL; /* points to environment block */ wchar_t *_wenvptr = NULL; /* points to wide environment block */ /* * _error_mode and _apptype, together, determine how error messages are * written out. */ int __error_mode = _OUT_TO_DEFAULT; int __app_type = _UNKNOWN_APP; /* * User routine DllMain is called on all notifications */ extern BOOL WINAPI DllMain( HANDLE hDllHandle, DWORD dwReason, LPVOID lpreserved ) ; /* * _pRawDllMain MUST be an extern const variable, which will be aliased to * _pDefaultRawDllMain if no real user definition is present, thanks to the * alternatename directive. */ extern BOOL (WINAPI * const _pRawDllMain)(HANDLE, DWORD, LPVOID); extern BOOL (WINAPI * const _pDefaultRawDllMain)(HANDLE, DWORD, LPVOID) = NULL; #if defined (_M_IX86) #pragma comment(linker, "/alternatename:__pRawDllMain=__pDefaultRawDllMain") #elif defined (_M_IA64) || defined (_M_AMD64) #pragma comment(linker, "/alternatename:_pRawDllMain=_pDefaultRawDllMain") #else /* defined (_M_IA64) || defined (_M_AMD64) */ #error Unsupported platform #endif /* defined (_M_IA64) || defined (_M_AMD64) */ /*** *BOOL WINAPI _CRT_INIT(hDllHandle, dwReason, lpreserved) - * C Run-Time initialization for a DLL linked with a C run-time library. * *Purpose: * This routine does the C run-time initialization or termination. * For the multi-threaded run-time library, it also cleans up the * multi-threading locks on DLL termination. * *Entry: * *Exit: * *NOTES: * This routine must be the entry point for the DLL. * *******************************************************************************/ BOOL WINAPI _CRT_INIT( HANDLE hDllHandle, DWORD dwReason, LPVOID lpreserved ) { unsigned int osplatform = 0; unsigned int winver = 0; unsigned int winmajor = 0; unsigned int winminor = 0; unsigned int osver = 0; /* * Start-up code only gets executed when the process is initialized */ if ( dwReason == DLL_PROCESS_ATTACH ) { /* * Dynamically allocate the OSVERSIONINFOA buffer, so we avoid * triggering the /GS buffer overrun detection. That can't be * used here, since the guard cookie isn't available until we * initialize it from here! */ OSVERSIONINFOA *posvi = (OSVERSIONINFOA *)HeapAlloc(GetProcessHeap(), 0, sizeof(OSVERSIONINFOA)); if (!posvi) { return FALSE; } /* * Get the full Win32 version */ posvi->dwOSVersionInfoSize = sizeof(OSVERSIONINFOA); if ( !GetVersionExA(posvi) ) { HeapFree(GetProcessHeap(), 0, posvi); return FALSE; } osplatform = posvi->dwPlatformId; winmajor = posvi->dwMajorVersion; winminor = posvi->dwMinorVersion; /* * The somewhat bizarre calculations of _osver and _winver are * required for backward compatibility (used to use GetVersion) */ osver = (posvi->dwBuildNumber) & 0x07fff; HeapFree(GetProcessHeap(), 0, posvi); if ( osplatform != VER_PLATFORM_WIN32_NT ) osver |= 0x08000; winver = (winmajor << 8) + winminor; _set_osplatform(osplatform); _set_winver(winver); _set_winmajor(winmajor); _set_winminor(winminor); _set_osver(osver); if ( !_heap_init(1) ) /* initialize heap */ return FALSE; /* fail to load DLL */ if(!_mtinit()) /* initialize multi-thread */ { _heap_term(); /* heap is now invalid! */ return FALSE; /* fail to load DLL */ } /* * Initialize the Runtime Checks stuff */ #ifdef _RTC _RTC_Initialize(); #endif /* _RTC */ _acmdln = (char *)GetCommandLineA(); _aenvptr = (char *)__crtGetEnvironmentStringsA(); if (_ioinit() < 0) { /* initialize lowio */ _mtterm(); /* free TLS index, call _mtdeletelocks() */ _heap_term(); /* heap is now invalid! */ return FALSE; /* fail to load DLL */ } if (_setargv() < 0 || /* get cmd line info */ _setenvp() < 0 || /* get environ info */ _cinit(FALSE) != 0) /* do C data initialize, but don't init floating point */ { _ioterm(); /* shut down lowio */ _mtterm(); /* free TLS index, call _mtdeletelocks() */ _heap_term(); /* heap is now invalid! */ return FALSE; /* fail to load DLL */ } /* Enable buffer count checking if linking against static lib */ _CrtSetCheckCount(TRUE); /* * increment flag to indicate process attach notification * has been received */ __proc_attached++; } else if ( dwReason == DLL_PROCESS_DETACH ) { if ( __proc_attached > 0 ) { __proc_attached--; /* * Any basic clean-up code that goes here must be duplicated * below in _DllMainCRTStartup for the case where the user's * DllMain() routine fails on a Process Attach notification. * This does not include calling user C++ destructors, etc. */ if ( _C_Termination_Done == FALSE ) _cexit(); #ifdef _DEBUG /* Dump all memory leaks */ if (_CrtSetDbgFlag(_CRTDBG_REPORT_FLAG) & _CRTDBG_LEAK_CHECK_DF) _CrtDumpMemoryLeaks(); #endif /* _DEBUG */ /* * What remains is to clean up the system resources we have * used (handles, critical sections, memory,...,etc.). This * needs to be done if the whole process is NOT terminating. */ #ifndef _DEBUG if ( lpreserved == NULL ) { #endif /* _DEBUG */ /* * The process is NOT terminating so we must clean up... */ /* Shut down lowio */ _ioterm(); _mtterm(); /* This should be the last thing the C run-time does */ _heap_term(); /* heap is now invalid! */ #ifndef _DEBUG } #endif /* _DEBUG */ } else /* no prior process attach, just return */ return FALSE; } else if ( dwReason == DLL_THREAD_ATTACH ) { _ptiddata ptd; /* Initialize FlsGetValue function pointer */ __set_flsgetvalue(); if ( ((ptd = _calloc_crt(1, sizeof(struct _tiddata))) != NULL)) { if (FLS_SETVALUE(__flsindex, (LPVOID)ptd) ) { /* * Initialize of per-thread data */ _initptd(ptd, NULL); ptd->_tid = GetCurrentThreadId(); ptd->_thandle = (uintptr_t)(-1); } else { _free_crt(ptd); return FALSE; } } else { return FALSE; } } else if ( dwReason == DLL_THREAD_DETACH ) { _freeptd(NULL); /* free up per-thread CRT data */ } return TRUE ; } /*** *BOOL WINAPI _DllMainCRTStartup(hDllHandle, dwReason, lpreserved) - * C Run-Time initialization for a DLL linked with a C run-time library. * *Purpose: * This routine does the C run-time initialization or termination * and then calls the user code notification handler "DllMain". * For the multi-threaded run-time library, it also cleans up the * multi-threading locks on DLL termination. * *Entry: * *Exit: * *NOTES: * This routine is the preferred entry point. _CRT_INIT may also be * used, or the user may supply his/her own entry and call _CRT_INIT * from within it, but this is not the preferred method. * *******************************************************************************/ static BOOL __cdecl __DllMainCRTStartup( HANDLE hDllHandle, DWORD dwReason, LPVOID lpreserved ); BOOL WINAPI _DllMainCRTStartup( HANDLE hDllHandle, DWORD dwReason, LPVOID lpreserved ) { if (dwReason == DLL_PROCESS_ATTACH) { /* * The /GS security cookie must be initialized before any exception * handling targetting the current image is registered. No function * using exception handling can be called in the current image until * after __security_init_cookie has been called. */ __security_init_cookie(); } return __DllMainCRTStartup(hDllHandle, dwReason, lpreserved); } __declspec(noinline) BOOL __cdecl __DllMainCRTStartup( HANDLE hDllHandle, DWORD dwReason, LPVOID lpreserved ) { BOOL retcode = TRUE; /* * If this is a process detach notification, check that there has * has been a prior process attach notification. */ if ( (dwReason == DLL_PROCESS_DETACH) && (__proc_attached == 0) ) /* * no prior process attach notification. just return * without doing anything. */ return FALSE; __try { if ( dwReason == DLL_PROCESS_ATTACH || dwReason == DLL_THREAD_ATTACH ) { if ( _pRawDllMain ) retcode = (*_pRawDllMain)(hDllHandle, dwReason, lpreserved); if ( retcode ) retcode = _CRT_INIT(hDllHandle, dwReason, lpreserved); if ( !retcode ) return FALSE; } retcode = DllMain(hDllHandle, dwReason, lpreserved); if ( (dwReason == DLL_PROCESS_ATTACH) && !retcode ) { /* * The user's DllMain routine returned failure, the C runtime * needs to be cleaned up. Do this by calling _CRT_INIT again, * this time imitating DLL_PROCESS_DETACH. Note this will also * clear the __proc_attached flag so the cleanup will not be * repeated upon receiving the real process detach notification. */ DllMain(hDllHandle, DLL_PROCESS_DETACH, lpreserved); _CRT_INIT(hDllHandle, DLL_PROCESS_DETACH, lpreserved); if (_pRawDllMain) { (*_pRawDllMain)(hDllHandle, DLL_PROCESS_DETACH, lpreserved); } } if ( (dwReason == DLL_PROCESS_DETACH) || (dwReason == DLL_THREAD_DETACH) ) { if ( _CRT_INIT(hDllHandle, dwReason, lpreserved) == FALSE ) retcode = FALSE ; if ( retcode && _pRawDllMain ) retcode = (*_pRawDllMain)(hDllHandle, dwReason, lpreserved); } } __except ( __CppXcptFilter(GetExceptionCode(), GetExceptionInformation()) ) { return FALSE; } return retcode ; } #endif /* CRTDLL */