/* * ReactOS ATL * * Copyright 2009 Andrew Hill * * 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 Street, Fifth Floor, Boston, MA 02110-1301 USA */ #pragma once #include "atldef.h" #include "atlcore.h" #include "statreg.h" #include "atlcomcli.h" #include "atlalloc.h" #include "atlexcept.h" #include "atltrace.h" #include "comcat.h" #include "tchar.h" #ifdef _MSC_VER // It is common to use this in ATL constructors. They only store this for later use, so the usage is safe. #pragma warning(disable:4355) #endif #ifndef ATLTRY #define ATLTRY(x) x; #endif #ifdef _ATL_DISABLE_NO_VTABLE #define ATL_NO_VTABLE #else #define ATL_NO_VTABLE __declspec(novtable) #endif #ifndef ATL_DEPRECATED #define ATL_DEPRECATED __declspec(deprecated) #endif namespace ATL { class CAtlModule; class CComModule; class CAtlComModule; __declspec(selectany) CAtlModule *_pAtlModule = NULL; __declspec(selectany) CComModule *_pModule = NULL; template struct CAtlValidateModuleConfiguration { #if !defined(_WINDLL) && !defined(_USRDLL) static_assert(!isDll, "_WINDLL or _USRDLL must be defined when 'CAtlDllModuleT' is used"); #else static_assert(isDll, "_WINDLL or _USRDLL must be defined when 'CAtlExeModuleT' is used"); #endif }; struct _ATL_CATMAP_ENTRY { int iType; const GUID* pcatid; }; #define _ATL_CATMAP_ENTRY_END 0 #define _ATL_CATMAP_ENTRY_IMPLEMENTED 1 #define _ATL_CATMAP_ENTRY_REQUIRED 2 typedef HRESULT (WINAPI _ATL_CREATORFUNC)(void *pv, REFIID riid, LPVOID *ppv); typedef LPCTSTR (WINAPI _ATL_DESCRIPTIONFUNC)(); typedef const struct _ATL_CATMAP_ENTRY * (_ATL_CATMAPFUNC)(); struct _ATL_OBJMAP_ENTRY30 { const CLSID *pclsid; HRESULT (WINAPI *pfnUpdateRegistry)(BOOL bRegister); _ATL_CREATORFUNC *pfnGetClassObject; _ATL_CREATORFUNC *pfnCreateInstance; IUnknown *pCF; DWORD dwRegister; _ATL_DESCRIPTIONFUNC *pfnGetObjectDescription; _ATL_CATMAPFUNC *pfnGetCategoryMap; void (WINAPI *pfnObjectMain)(bool bStarting); HRESULT WINAPI RevokeClassObject() { if (dwRegister == 0) return S_OK; return CoRevokeClassObject(dwRegister); } HRESULT WINAPI RegisterClassObject(DWORD dwClsContext, DWORD dwFlags) { IUnknown *p; HRESULT hResult; p = NULL; if (pfnGetClassObject == NULL) return S_OK; hResult = pfnGetClassObject(reinterpret_cast(pfnCreateInstance), IID_IUnknown, reinterpret_cast(&p)); if (SUCCEEDED(hResult)) hResult = CoRegisterClassObject(*pclsid, p, dwClsContext, dwFlags, &dwRegister); if (p != NULL) p->Release(); return hResult; } }; typedef _ATL_OBJMAP_ENTRY30 _ATL_OBJMAP_ENTRY; typedef void (__stdcall _ATL_TERMFUNC)(DWORD_PTR dw); struct _ATL_TERMFUNC_ELEM { _ATL_TERMFUNC *pFunc; DWORD_PTR dw; _ATL_TERMFUNC_ELEM *pNext; }; struct _ATL_MODULE70 { UINT cbSize; LONG m_nLockCnt; _ATL_TERMFUNC_ELEM *m_pTermFuncs; CComCriticalSection m_csStaticDataInitAndTypeInfo; }; typedef _ATL_MODULE70 _ATL_MODULE; typedef HRESULT (WINAPI _ATL_CREATORARGFUNC)(void *pv, REFIID riid, LPVOID *ppv, DWORD_PTR dw); #define _ATL_SIMPLEMAPENTRY ((ATL::_ATL_CREATORARGFUNC *)1) struct _ATL_INTMAP_ENTRY { const IID *piid; DWORD_PTR dw; _ATL_CREATORARGFUNC *pFunc; }; struct _AtlCreateWndData { void *m_pThis; DWORD m_dwThreadID; _AtlCreateWndData *m_pNext; }; struct _ATL_COM_MODULE70 { UINT cbSize; HINSTANCE m_hInstTypeLib; _ATL_OBJMAP_ENTRY **m_ppAutoObjMapFirst; _ATL_OBJMAP_ENTRY **m_ppAutoObjMapLast; CComCriticalSection m_csObjMap; }; typedef _ATL_COM_MODULE70 _ATL_COM_MODULE; struct _ATL_WIN_MODULE70 { UINT cbSize; CComCriticalSection m_csWindowCreate; _AtlCreateWndData *m_pCreateWndList; #ifdef NOTYET CSimpleArray m_rgWindowClassAtoms; #endif }; typedef _ATL_WIN_MODULE70 _ATL_WIN_MODULE; // Auto object map #if defined(_MSC_VER) #pragma section("ATL$__a", read, write) #pragma section("ATL$__z", read, write) #pragma section("ATL$__m", read, write) #define _ATLALLOC(x) __declspec(allocate(x)) #if defined(_M_IX86) #define OBJECT_ENTRY_PRAGMA(class) __pragma(comment(linker, "/include:___pobjMap_" #class)); #elif defined(_M_IA64) || defined(_M_AMD64) || (_M_ARM) || defined(_M_ARM64) #define OBJECT_ENTRY_PRAGMA(class) __pragma(comment(linker, "/include:__pobjMap_" #class)); #else #error Your platform is not supported. #endif #elif defined(__GNUC__) // GCC completely ignores __attribute__((unused)) on the __pobjMap_ pointer, so we pass it to a function that is not allowed to be optimized.... static int __attribute__((optimize("O0"), unused)) hack_for_gcc(const _ATL_OBJMAP_ENTRY * const *) { return 1; } #define _ATLALLOC(x) __attribute__((section(x))) #define OBJECT_ENTRY_PRAGMA(class) static int __pobjMap_hack_##class = hack_for_gcc(&__pobjMap_##class); #else #error Your compiler is not supported. #endif extern "C" { __declspec(selectany) _ATLALLOC("ATL$__a") _ATL_OBJMAP_ENTRY *__pobjMapEntryFirst = NULL; __declspec(selectany) _ATLALLOC("ATL$__z") _ATL_OBJMAP_ENTRY *__pobjMapEntryLast = NULL; } struct _ATL_REGMAP_ENTRY { LPCOLESTR szKey; LPCOLESTR szData; }; HRESULT WINAPI AtlWinModuleInit(_ATL_WIN_MODULE *pWinModule); HRESULT WINAPI AtlWinModuleTerm(_ATL_WIN_MODULE *pWinModule, HINSTANCE hInst); HRESULT WINAPI AtlInternalQueryInterface(void *pThis, const _ATL_INTMAP_ENTRY *pEntries, REFIID iid, void **ppvObject); void WINAPI AtlWinModuleAddCreateWndData(_ATL_WIN_MODULE *pWinModule, _AtlCreateWndData *pData, void *pObject); void *WINAPI AtlWinModuleExtractCreateWndData(_ATL_WIN_MODULE *pWinModule); HRESULT WINAPI AtlComModuleGetClassObject(_ATL_COM_MODULE *pComModule, REFCLSID rclsid, REFIID riid, LPVOID *ppv); HRESULT WINAPI AtlComModuleRegisterServer(_ATL_COM_MODULE *mod, BOOL bRegTypeLib, const CLSID *clsid); HRESULT WINAPI AtlComModuleUnregisterServer(_ATL_COM_MODULE *mod, BOOL bRegTypeLib, const CLSID *clsid); HRESULT WINAPI AtlComModuleRegisterClassObjects(_ATL_COM_MODULE *module, DWORD context, DWORD flags); HRESULT WINAPI AtlComModuleRevokeClassObjects(_ATL_COM_MODULE *module); template class CComCritSecLock { private: bool m_bLocked; TLock &m_cs; public: CComCritSecLock(TLock &cs, bool bInitialLock = true) : m_cs(cs) { HRESULT hResult; m_bLocked = false; if (bInitialLock) { hResult = Lock(); if (FAILED(hResult)) { ATLASSERT(false); } } } ~CComCritSecLock() { if (m_bLocked) Unlock(); } HRESULT Lock() { HRESULT hResult; ATLASSERT(!m_bLocked); hResult = m_cs.Lock(); if (FAILED(hResult)) return hResult; m_bLocked = true; return S_OK; } void Unlock() { HRESULT hResult; ATLASSERT(m_bLocked); hResult = m_cs.Unlock(); if (FAILED(hResult)) { ATLASSERT(false); } m_bLocked = false; } }; class CHandle { public: HANDLE m_handle; public: CHandle() : m_handle(NULL) { } CHandle(_Inout_ CHandle& handle) : m_handle(NULL) { Attach(handle.Detach()); } explicit CHandle(_In_ HANDLE handle) : m_handle(handle) { } ~CHandle() { if (m_handle) { Close(); } } CHandle& operator=(_Inout_ CHandle& handle) { if (this != &handle) { if (m_handle) { Close(); } Attach(handle.Detach()); } return *this; } operator HANDLE() const { return m_handle; } void Attach(_In_ HANDLE handle) { ATLASSERT(m_handle == NULL); m_handle = handle; } HANDLE Detach() { HANDLE handle = m_handle; m_handle = NULL; return handle; } void Close() { if (m_handle) { ::CloseHandle(m_handle); m_handle = NULL; } } }; inline BOOL WINAPI InlineIsEqualUnknown(REFGUID rguid1) { return ( ((unsigned long *)&rguid1)[0] == 0 && ((unsigned long *)&rguid1)[1] == 0 && ((unsigned long *)&rguid1)[2] == 0x000000C0 && ((unsigned long *)&rguid1)[3] == 0x46000000); } class CComMultiThreadModelNoCS { public: typedef CComFakeCriticalSection AutoCriticalSection; typedef CComFakeCriticalSection CriticalSection; typedef CComMultiThreadModelNoCS ThreadModelNoCS; typedef CComFakeCriticalSection AutoDeleteCriticalSection; static ULONG WINAPI Increment(LPLONG p) { return InterlockedIncrement(p); } static ULONG WINAPI Decrement(LPLONG p) { return InterlockedDecrement(p); } }; class CComMultiThreadModel { public: typedef CComAutoCriticalSection AutoCriticalSection; typedef CComCriticalSection CriticalSection; typedef CComMultiThreadModelNoCS ThreadModelNoCS; typedef CComAutoDeleteCriticalSection AutoDeleteCriticalSection; static ULONG WINAPI Increment(LPLONG p) { return InterlockedIncrement(p); } static ULONG WINAPI Decrement(LPLONG p) { return InterlockedDecrement(p); } }; class CComSingleThreadModel { public: typedef CComFakeCriticalSection AutoCriticalSection; typedef CComFakeCriticalSection CriticalSection; typedef CComSingleThreadModel ThreadModelNoCS; typedef CComFakeCriticalSection AutoDeleteCriticalSection; static ULONG WINAPI Increment(LPLONG p) { return ++*p; } static ULONG WINAPI Decrement(LPLONG p) { return --*p; } }; #if defined(_ATL_FREE_THREADED) typedef CComMultiThreadModel CComObjectThreadModel; typedef CComMultiThreadModel CComGlobalsThreadModel; #elif defined(_ATL_APARTMENT_THREADED) typedef CComSingleThreadModel CComObjectThreadModel; typedef CComMultiThreadModel CComGlobalsThreadModel; #elif defined(_ATL_SINGLE_THREADED) typedef CComSingleThreadModel CComObjectThreadModel; typedef CComSingleThreadModel CComGlobalsThreadModel; #else #error No threading model #endif class CAtlModule : public _ATL_MODULE { public: static GUID m_libid; CAtlModule() { ATLASSERT(_pAtlModule == NULL); _pAtlModule = this; cbSize = sizeof(_ATL_MODULE); m_nLockCnt = 0; } virtual LONG GetLockCount() { return m_nLockCnt; } virtual LONG Lock() { return CComGlobalsThreadModel::Increment(&m_nLockCnt); } virtual LONG Unlock() { return CComGlobalsThreadModel::Decrement(&m_nLockCnt); } virtual HRESULT AddCommonRGSReplacements(IRegistrarBase* /*pRegistrar*/) = 0; HRESULT WINAPI UpdateRegistryFromResource(LPCTSTR lpszRes, BOOL bRegister, struct _ATL_REGMAP_ENTRY *pMapEntries = NULL) { CRegObject registrar; WCHAR modulePath[MAX_PATH]; HRESULT hResult; PCWSTR lpwszRes; hResult = CommonInitRegistrar(registrar, modulePath, sizeof(modulePath) / sizeof(modulePath[0]), pMapEntries); if (FAILED(hResult)) return hResult; #ifdef UNICODE lpwszRes = lpszRes; #else /* FIXME: this is a bit of a hack, need to re-evaluate */ WCHAR resid[MAX_PATH]; MultiByteToWideChar(CP_ACP, 0, lpszRes, -1, resid, MAX_PATH); lpwszRes = resid; #endif if (bRegister != FALSE) hResult = registrar.ResourceRegisterSz(modulePath, lpwszRes, L"REGISTRY"); else hResult = registrar.ResourceUnregisterSz(modulePath, lpwszRes, L"REGISTRY"); return hResult; } HRESULT WINAPI UpdateRegistryFromResource(UINT nResID, BOOL bRegister, struct _ATL_REGMAP_ENTRY *pMapEntries = NULL) { CRegObject registrar; WCHAR modulePath[MAX_PATH]; HRESULT hResult; hResult = CommonInitRegistrar(registrar, modulePath, sizeof(modulePath) / sizeof(modulePath[0]), pMapEntries); if (FAILED(hResult)) return hResult; if (bRegister != FALSE) hResult = registrar.ResourceRegister(modulePath, nResID, L"REGISTRY"); else hResult = registrar.ResourceUnregister(modulePath, nResID, L"REGISTRY"); return hResult; } private: HRESULT CommonInitRegistrar(CRegObject ®istrar, WCHAR *modulePath, DWORD modulePathCount, struct _ATL_REGMAP_ENTRY *pMapEntries) { HINSTANCE hInstance; DWORD dwFLen; HRESULT hResult; hInstance = _AtlBaseModule.GetModuleInstance(); dwFLen = GetModuleFileNameW(hInstance, modulePath, modulePathCount); if (dwFLen == modulePathCount) return HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); else if (dwFLen == 0) return HRESULT_FROM_WIN32(GetLastError()); if (pMapEntries != NULL) { while (pMapEntries->szKey != NULL) { ATLASSERT(pMapEntries->szData != NULL); hResult = registrar.AddReplacement(pMapEntries->szKey, pMapEntries->szData); if (FAILED(hResult)) return hResult; pMapEntries++; } } hResult = AddCommonRGSReplacements(®istrar); if (FAILED(hResult)) return hResult; hResult = registrar.AddReplacement(L"Module", modulePath); if (FAILED(hResult)) return hResult; hResult = registrar.AddReplacement(L"Module_Raw", modulePath); if (FAILED(hResult)) return hResult; return S_OK; } }; __declspec(selectany) GUID CAtlModule::m_libid = {0x0, 0x0, 0x0, {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0} }; template class CAtlModuleT : public CAtlModule { public: HRESULT RegisterServer(BOOL bRegTypeLib = FALSE, const CLSID *pCLSID = NULL); HRESULT UnregisterServer(BOOL bUnRegTypeLib, const CLSID *pCLSID = NULL); virtual HRESULT AddCommonRGSReplacements(IRegistrarBase *pRegistrar) { return pRegistrar->AddReplacement(L"APPID", T::GetAppId()); } static LPCOLESTR GetAppId() { return L""; } }; class CAtlComModule : public _ATL_COM_MODULE { public: CAtlComModule() { GetModuleHandleExW(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, (LPCWSTR)this, &m_hInstTypeLib); m_ppAutoObjMapFirst = &__pobjMapEntryFirst + 1; m_ppAutoObjMapLast = &__pobjMapEntryLast; if (FAILED(m_csObjMap.Init())) { ATLASSERT(0); CAtlBaseModule::m_bInitFailed = true; return; } cbSize = sizeof(_ATL_COM_MODULE); } ~CAtlComModule() { Term(); } HRESULT RegisterServer(BOOL bRegTypeLib = FALSE, const CLSID *pCLSID = NULL) { return AtlComModuleRegisterServer(this, bRegTypeLib, pCLSID); } HRESULT UnregisterServer(BOOL bUnRegTypeLib, const CLSID *pCLSID = NULL) { return AtlComModuleUnregisterServer(this, bUnRegTypeLib, pCLSID); } void Term() { if (cbSize != 0) { for (_ATL_OBJMAP_ENTRY **iter = m_ppAutoObjMapFirst; iter < m_ppAutoObjMapLast; iter++) { _ATL_OBJMAP_ENTRY *ptr = *iter; if (!ptr) continue; if (!ptr->pCF) continue; ptr->pCF->Release(); ptr->pCF = NULL; } m_csObjMap.Term(); cbSize = 0; } } void ExecuteObjectMain(bool bStarting) { for (_ATL_OBJMAP_ENTRY **iter = m_ppAutoObjMapFirst; iter < m_ppAutoObjMapLast; iter++) { if (!*iter) continue; (*iter)->pfnObjectMain(bStarting); } } }; __declspec(selectany) CAtlComModule _AtlComModule; template HRESULT CAtlModuleT::RegisterServer(BOOL bRegTypeLib, const CLSID *pCLSID) { return _AtlComModule.RegisterServer(bRegTypeLib, pCLSID); } template HRESULT CAtlModuleT::UnregisterServer(BOOL bUnRegTypeLib, const CLSID *pCLSID) { return _AtlComModule.UnregisterServer(bUnRegTypeLib, pCLSID); } template class CAtlDllModuleT : public CAtlModuleT , private CAtlValidateModuleConfiguration { public: CAtlDllModuleT() { _AtlComModule.ExecuteObjectMain(true); } ~CAtlDllModuleT() { _AtlComModule.ExecuteObjectMain(false); } HRESULT DllCanUnloadNow() { T *pThis; pThis = static_cast(this); if (pThis->GetLockCount() == 0) return S_OK; return S_FALSE; } HRESULT DllGetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv) { T *pThis; pThis = static_cast(this); return pThis->GetClassObject(rclsid, riid, ppv); } HRESULT DllRegisterServer(BOOL bRegTypeLib = TRUE) { T *pThis; HRESULT hResult; pThis = static_cast(this); hResult = pThis->RegisterServer(bRegTypeLib); return hResult; } HRESULT DllUnregisterServer(BOOL bUnRegTypeLib = TRUE) { T *pThis; HRESULT hResult; pThis = static_cast(this); hResult = pThis->UnregisterServer(bUnRegTypeLib); return hResult; } HRESULT GetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv) { return AtlComModuleGetClassObject(&_AtlComModule, rclsid, riid, ppv); } }; template class CAtlExeModuleT : public CAtlModuleT , private CAtlValidateModuleConfiguration { public: DWORD m_dwMainThreadID; //DWORD m_dwTimeOut; //DWORD m_dwPause; //bool m_bDelayShutdown; CAtlExeModuleT() :m_dwMainThreadID(::GetCurrentThreadId()) { _AtlComModule.ExecuteObjectMain(true); } ~CAtlExeModuleT() { _AtlComModule.ExecuteObjectMain(false); } int WinMain(int nShowCmd) { HRESULT hr = T::InitializeCom(); if (FAILED(hr)) return hr; T* pThis = static_cast(this); LPCTSTR lpCommandLine = GetCommandLine(); if (pThis->ParseCommandLine(lpCommandLine, &hr)) { hr = pThis->Run(nShowCmd); } T::UninitializeCom(); return hr; } HRESULT Run(int nShowCmd = SW_HIDE) { HRESULT hr = S_OK; T* pThis = static_cast(this); hr = pThis->PreMessageLoop(nShowCmd); if (hr == S_OK) { pThis->RunMessageLoop(); hr = pThis->PostMessageLoop(); } return hr; } LONG Lock() { return CoAddRefServerProcess(); } LONG Unlock() { LONG lRet = CoReleaseServerProcess(); if (lRet == 0) { ::PostThreadMessage(m_dwMainThreadID, WM_QUIT, 0, 0); } return lRet; } bool ParseCommandLine(LPCTSTR lpCmdLine, HRESULT* pnRetCode) { // unimplemented! return true; } HRESULT PreMessageLoop(int nShowCmd) { T* pThis = static_cast(this); return pThis->RegisterClassObjects(CLSCTX_LOCAL_SERVER, REGCLS_MULTIPLEUSE); } void RunMessageLoop() { MSG msg; while (GetMessage(&msg, 0, 0, 0) > 0) { TranslateMessage(&msg); DispatchMessage(&msg); } } HRESULT PostMessageLoop() { T* pThis = static_cast(this); return pThis->RevokeClassObjects(); } HRESULT RegisterClassObjects(DWORD dwClsContext, DWORD dwFlags) { return AtlComModuleRegisterClassObjects(&_AtlComModule, dwClsContext, dwFlags); } HRESULT RevokeClassObjects() { return AtlComModuleRevokeClassObjects(&_AtlComModule); } static HRESULT InitializeCom() { #if defined(_ATL_FREE_THREADED) constexpr COINIT coInit = COINIT_MULTITHREADED; #else constexpr COINIT coInit = COINIT_APARTMENTTHREADED; #endif return ::CoInitializeEx(NULL, coInit); } static void UninitializeCom() { ::CoUninitialize(); } }; class CComModule : public CAtlModuleT { public: _ATL_OBJMAP_ENTRY *m_pObjMap; public: CComModule() { ATLASSERT(_pModule == NULL); _pModule = this; _pModule->m_pObjMap = NULL; } ~CComModule() { _pModule = NULL; } HRESULT Init(_ATL_OBJMAP_ENTRY *p, HINSTANCE /* h */, const GUID *plibid) { _ATL_OBJMAP_ENTRY *objectMapEntry; if (plibid != NULL) m_libid = *plibid; if (p != reinterpret_cast<_ATL_OBJMAP_ENTRY *>(-1)) { m_pObjMap = p; if (p != NULL) { objectMapEntry = p; while (objectMapEntry->pclsid != NULL) { objectMapEntry->pfnObjectMain(true); objectMapEntry++; } } } for (_ATL_OBJMAP_ENTRY **iter = _AtlComModule.m_ppAutoObjMapFirst; iter < _AtlComModule.m_ppAutoObjMapLast; iter++) { if (*iter != NULL) (*iter)->pfnObjectMain(true); } return S_OK; } void Term() { _ATL_OBJMAP_ENTRY *objectMapEntry; if (m_pObjMap != NULL) { objectMapEntry = m_pObjMap; while (objectMapEntry->pclsid != NULL) { if (objectMapEntry->pCF != NULL) objectMapEntry->pCF->Release(); objectMapEntry->pCF = NULL; objectMapEntry->pfnObjectMain(false); objectMapEntry++; } } for (_ATL_OBJMAP_ENTRY **iter = _AtlComModule.m_ppAutoObjMapFirst; iter < _AtlComModule.m_ppAutoObjMapLast; iter++) { if (*iter != NULL) (*iter)->pfnObjectMain(false); } } HRESULT GetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv) { _ATL_OBJMAP_ENTRY *objectMapEntry; HRESULT hResult; ATLASSERT(ppv != NULL); if (ppv == NULL) return E_POINTER; *ppv = NULL; hResult = S_OK; if (m_pObjMap != NULL) { objectMapEntry = m_pObjMap; while (objectMapEntry->pclsid != NULL) { if (objectMapEntry->pfnGetClassObject != NULL && InlineIsEqualGUID(rclsid, *objectMapEntry->pclsid) != FALSE) { if (objectMapEntry->pCF == NULL) { CComCritSecLock lock(_AtlComModule.m_csObjMap, true); if (objectMapEntry->pCF == NULL) hResult = objectMapEntry->pfnGetClassObject(reinterpret_cast(objectMapEntry->pfnCreateInstance), IID_IUnknown, reinterpret_cast(&objectMapEntry->pCF)); } if (objectMapEntry->pCF != NULL) hResult = objectMapEntry->pCF->QueryInterface(riid, ppv); break; } objectMapEntry++; } } if (hResult == S_OK && *ppv == NULL) { hResult = AtlComModuleGetClassObject(&_AtlComModule, rclsid, riid, ppv); } return hResult; } HRESULT RegisterServer(BOOL bRegTypeLib = FALSE, const CLSID *pCLSID = NULL) { _ATL_OBJMAP_ENTRY *objectMapEntry; HRESULT hResult; hResult = S_OK; objectMapEntry = m_pObjMap; if (objectMapEntry != NULL) { while (objectMapEntry->pclsid != NULL) { if (pCLSID == NULL || IsEqualGUID(*pCLSID, *objectMapEntry->pclsid) != FALSE) { hResult = objectMapEntry->pfnUpdateRegistry(TRUE); if (FAILED(hResult)) break; } objectMapEntry++; } } if (SUCCEEDED(hResult)) hResult = CAtlModuleT::RegisterServer(bRegTypeLib, pCLSID); return hResult; } HRESULT UnregisterServer(BOOL bUnRegTypeLib, const CLSID *pCLSID = NULL) { _ATL_OBJMAP_ENTRY *objectMapEntry; HRESULT hResult; hResult = S_OK; objectMapEntry = m_pObjMap; if (objectMapEntry != NULL) { while (objectMapEntry->pclsid != NULL) { if (pCLSID == NULL || IsEqualGUID(*pCLSID, *objectMapEntry->pclsid) != FALSE) { hResult = objectMapEntry->pfnUpdateRegistry(FALSE); //unregister if (FAILED(hResult)) break; } objectMapEntry++; } } if (SUCCEEDED(hResult)) hResult = CAtlModuleT::UnregisterServer(bUnRegTypeLib, pCLSID); return hResult; } HRESULT DllCanUnloadNow() { if (GetLockCount() == 0) return S_OK; return S_FALSE; } HRESULT DllGetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv) { return GetClassObject(rclsid, riid, ppv); } HRESULT DllRegisterServer(BOOL bRegTypeLib = TRUE) { return RegisterServer(bRegTypeLib); } HRESULT DllUnregisterServer(BOOL bUnRegTypeLib = TRUE) { return UnregisterServer(bUnRegTypeLib); } }; class CAtlWinModule : public _ATL_WIN_MODULE { public: CAtlWinModule() { HRESULT hResult; hResult = AtlWinModuleInit(this); if (FAILED(hResult)) { CAtlBaseModule::m_bInitFailed = true; ATLASSERT(0); } } ~CAtlWinModule() { Term(); } void Term() { AtlWinModuleTerm(this, _AtlBaseModule.GetModuleInstance()); } void AddCreateWndData(_AtlCreateWndData *pData, void *pObject) { AtlWinModuleAddCreateWndData(this, pData, pObject); } void *ExtractCreateWndData() { return AtlWinModuleExtractCreateWndData(this); } }; __declspec(selectany) CAtlWinModule _AtlWinModule; class CComAllocator { public: static void* Allocate(_In_ size_t size) { return ::CoTaskMemAlloc(size); } static void* Reallocate(_In_opt_ void* ptr, _In_ size_t size) { return ::CoTaskMemRealloc(ptr, size); } static void Free(_In_opt_ void* ptr) { ::CoTaskMemFree(ptr); } }; class CRegKey { public: HKEY m_hKey; #if 0 // FIXME & TODO: CAtlTransactionManager* m_pTM; #endif public: CRegKey() throw() : m_hKey(NULL) { } CRegKey(CRegKey& key) throw() : m_hKey(key.Detach()) { } explicit CRegKey(HKEY hKey) throw() : m_hKey(hKey) { } #if 0 // FIXME & TODO: CRegKey(CAtlTransactionManager* pTM) throw() { ... } #endif ~CRegKey() throw() { Close(); } void Attach(HKEY hKey) throw() { m_hKey = hKey; } LONG Close() throw() { if (m_hKey) { HKEY hKey = Detach(); return ::RegCloseKey(hKey); } return ERROR_SUCCESS; } HKEY Detach() throw() { HKEY hKey = m_hKey; m_hKey = NULL; return hKey; } LONG Open(HKEY hKeyParent, LPCTSTR lpszKeyName, REGSAM samDesired = KEY_READ | KEY_WRITE) throw() { ATLASSERT(hKeyParent); ATLASSERT(lpszKeyName); HKEY hKey = NULL; LONG lRes = ::RegOpenKeyEx(hKeyParent, lpszKeyName, 0, samDesired, &hKey); if (lRes == ERROR_SUCCESS) { Close(); m_hKey = hKey; } return lRes; } LONG Create(HKEY hKeyParent, LPCTSTR lpszKeyName, LPTSTR lpszClass = REG_NONE, DWORD dwOptions = REG_OPTION_NON_VOLATILE, REGSAM samDesired = KEY_READ | KEY_WRITE, LPSECURITY_ATTRIBUTES lpSecAttr = NULL, LPDWORD lpdwDisposition = NULL) throw() { ATLASSERT(hKeyParent); ATLASSERT(lpszKeyName); HKEY hKey = NULL; LONG lRes = ::RegCreateKeyEx(hKeyParent, lpszKeyName, 0, lpszClass, dwOptions, samDesired, lpSecAttr, &hKey, lpdwDisposition); if (lRes == ERROR_SUCCESS) { Close(); m_hKey = hKey; } return lRes; } LONG QueryValue(LPCTSTR pszValueName, DWORD* pdwType, void* pData, ULONG* pnBytes) throw() { ATLASSERT(m_hKey); return ::RegQueryValueEx(m_hKey, pszValueName, NULL, pdwType, (LPBYTE)pData, pnBytes); } LONG QueryDWORDValue(LPCTSTR pszValueName, DWORD& dwValue) throw() { ULONG size = sizeof(DWORD); DWORD type = 0; LONG lRet = QueryValue(pszValueName, &type, &dwValue, &size); if (lRet == ERROR_SUCCESS && type != REG_DWORD) lRet = ERROR_INVALID_DATA; return lRet; } LONG QueryBinaryValue(LPCTSTR pszValueName, void* pValue, ULONG* pnBytes) throw() { DWORD type = 0; LONG lRet = QueryValue(pszValueName, &type, pValue, pnBytes); if (lRet == ERROR_SUCCESS && type != REG_BINARY) lRet = ERROR_INVALID_DATA; return lRet; } LONG QueryStringValue(LPCTSTR pszValueName, LPTSTR pszValue, ULONG* pnChars) throw() { ULONG size = (*pnChars) * sizeof(TCHAR); DWORD type = 0; LONG lRet = QueryValue(pszValueName, &type, pszValue, &size); if (lRet == ERROR_SUCCESS && type != REG_SZ && type != REG_EXPAND_SZ) lRet = ERROR_INVALID_DATA; *pnChars = size / sizeof(TCHAR); return lRet; } LONG QueryGUIDValue(LPCTSTR pszValueName, GUID& guidValue) throw() { OLECHAR buf[40] = {0}; ULONG nChars = 39; LONG lRet; #ifdef UNICODE lRet = QueryStringValue(pszValueName, buf, &nChars); #else CHAR bufA[40] = {0}; lRet = QueryStringValue(pszValueName, bufA, &nChars); if (lRet != ERROR_SUCCESS) return lRet; if (!::MultiByteToWideChar(CP_THREAD_ACP, 0, bufA, -1, buf, 39)) lRet = ERROR_INVALID_DATA; #endif if (lRet != ERROR_SUCCESS) return lRet; if (!SUCCEEDED(::CLSIDFromString(buf, &guidValue))) return ERROR_INVALID_DATA; return lRet; } LONG QueryQWORDValue(LPCTSTR pszValueName, ULONGLONG& qwValue) throw() { ULONG size = sizeof(ULONGLONG); DWORD type = 0; LONG lRet = QueryValue(pszValueName, &type, &qwValue, &size); if (lRet == ERROR_SUCCESS && type != REG_QWORD) lRet = ERROR_INVALID_DATA; return lRet; } LONG QueryMultiStringValue(LPCTSTR pszValueName, LPTSTR pszValue, ULONG* pnChars) throw() { ULONG size = (*pnChars) * sizeof(TCHAR); DWORD type; LONG lRet = QueryValue(pszValueName, &type, pszValue, &size); if (lRet == ERROR_SUCCESS && type != REG_MULTI_SZ) lRet = ERROR_INVALID_DATA; *pnChars = size / sizeof(TCHAR); return lRet; } LONG SetValue(LPCTSTR pszValueName, DWORD dwType, const void* pValue, ULONG nBytes) throw() { ATLASSERT(m_hKey); return ::RegSetValueEx(m_hKey, pszValueName, 0, dwType, (const BYTE*)pValue, nBytes); } LONG SetDWORDValue(LPCTSTR pszValueName, DWORD dwValue) throw() { return SetValue(pszValueName, REG_DWORD, &dwValue, sizeof(DWORD)); } LONG SetStringValue(LPCTSTR pszValueName, LPCTSTR pszValue, DWORD dwType = REG_SZ) throw() { SIZE_T length; switch (dwType) { case REG_SZ: case REG_EXPAND_SZ: length = (_tcslen(pszValue) + 1) * sizeof(TCHAR); return SetValue(pszValueName, dwType, pszValue, length); case REG_MULTI_SZ: return SetMultiStringValue(pszValueName, pszValue); default: return ERROR_INVALID_DATA; } } LONG SetGUIDValue(LPCTSTR pszValueName, REFGUID guidValue) throw() { OLECHAR buf[40] = {0}; ::StringFromGUID2(guidValue, buf, 39); #ifdef UNICODE return SetStringValue(pszValueName, buf); #else CHAR bufA[40] = {0}; ::WideCharToMultiByte(CP_THREAD_ACP, 0, buf, -1, bufA, 40, NULL, NULL); return SetStringValue(pszValueName, bufA); #endif } LONG SetBinaryValue(LPCTSTR pszValueName, const void* pValue, ULONG nBytes) throw() { return SetValue(pszValueName, REG_BINARY, pValue, nBytes); } LONG SetMultiStringValue(LPCTSTR pszValueName, LPCTSTR pszValue) throw() { ULONG dwSize = CRegKey::_GetMultiStringSize(pszValue); return SetValue(pszValueName, REG_MULTI_SZ, pszValue, dwSize); } LONG SetQWORDValue(LPCTSTR pszValueName, ULONGLONG qwValue) throw() { ULONG dwSize = sizeof(ULONGLONG); return SetValue(pszValueName, REG_QWORD, &qwValue, dwSize); } LONG NotifyChangeKeyValue(BOOL bWatchSubtree, DWORD dwNotifyFilter, HANDLE hEvent, BOOL bAsync = TRUE) throw() { ATLASSERT(m_hKey); LONG ret = ::RegNotifyChangeKeyValue(m_hKey, bWatchSubtree, dwNotifyFilter, hEvent, bAsync); return ret; } LONG Flush() throw() { ATLASSERT(m_hKey); LONG ret = ::RegFlushKey(m_hKey); return ret; } static LONG WINAPI SetValue(HKEY hKeyParent, LPCTSTR lpszKeyName, LPCTSTR lpszValue, LPCTSTR lpszValueName = NULL) { CRegKey key; LONG lRet = key.Create(hKeyParent, lpszKeyName); if (lRet == ERROR_SUCCESS) { lRet = key.SetStringValue(lpszValueName, lpszValue); } return lRet; } LONG SetKeyValue(LPCTSTR lpszKeyName, LPCTSTR lpszValue, LPCTSTR lpszValueName = NULL) throw() { CRegKey key; LONG lRet = key.Create(m_hKey, lpszKeyName); if (lRet == ERROR_SUCCESS) { lRet = key.SetStringValue(lpszValueName, lpszValue); } return lRet; } LONG DeleteValue(LPCTSTR lpszValue) throw() { ATLASSERT(m_hKey); return ::RegDeleteValue(m_hKey, lpszValue); } LONG DeleteSubKey(LPCTSTR lpszSubKey) throw() { ATLASSERT(m_hKey); ATLASSERT(lpszSubKey); return ::RegDeleteKey(m_hKey, lpszSubKey); } LONG RecurseDeleteKey(LPCTSTR lpszKey) throw() { ATLASSERT(m_hKey); ATLASSERT(lpszKey); return CRegKey::_DoDeleteKeyTree(m_hKey, lpszKey); } LONG EnumKey(DWORD iIndex, LPTSTR pszName, LPDWORD pnNameLength, FILETIME* pftLastWriteTime = NULL) throw() { ATLASSERT(m_hKey); LONG ret = ::RegEnumKeyEx(m_hKey, iIndex, pszName, pnNameLength, NULL, NULL, NULL, pftLastWriteTime); return ret; } LONG GetKeySecurity(SECURITY_INFORMATION si, PSECURITY_DESCRIPTOR psd, LPDWORD pnBytes) throw() { ATLASSERT(m_hKey); LONG ret = ::RegGetKeySecurity(m_hKey, si, psd, pnBytes); return ret; } LONG SetKeySecurity(SECURITY_INFORMATION si, PSECURITY_DESCRIPTOR psd) throw() { ATLASSERT(m_hKey); LONG ret = ::RegSetKeySecurity(m_hKey, si, psd); return ret; } operator HKEY() const throw() { return m_hKey; } CRegKey& operator=(CRegKey& key) throw() { if (m_hKey != key.m_hKey) { Close(); Attach(key.Detach()); } return *this; } protected: // get the total size of a multistring static ULONG _GetMultiStringSize(LPCTSTR pszz) { size_t count = 0; do { size_t len = _tcslen(pszz); count += len + 1; pszz += len + 1; } while (*pszz != TEXT('\0')); ++count; ATLASSERT(count * sizeof(TCHAR) <= ULONG_MAX); return (ULONG)count * sizeof(TCHAR); } // delete key recursively static LONG _DoDeleteKeyTree(HKEY hParentKey, LPCTSTR lpszKey) { ATLASSERT(hParentKey); ATLASSERT(lpszKey); // open the key CRegKey key; LONG ret = key.Open(hParentKey, lpszKey); if (ret != ERROR_SUCCESS) { return ret; // failure } // get the longest length of subkey names DWORD NameMax; ret = ::RegQueryInfoKey(key, NULL, NULL, NULL, NULL, &NameMax, NULL, NULL, NULL, NULL, NULL, NULL); if (ret != ERROR_SUCCESS) { return ret; // failure } ++NameMax; // for NUL // allocate the string buffer for names if necessary TCHAR szNameBuf[MAX_PATH], *pszName; if (NameMax > MAX_PATH) { pszName = (TCHAR *)malloc(NameMax * sizeof(TCHAR)); ATLASSERT(pszName); if (pszName == NULL) { return ERROR_OUTOFMEMORY; // failure } } else { NameMax = MAX_PATH; pszName = szNameBuf; } // enumerate every subkey and delete for (;;) { DWORD Count = NameMax; ret = key.EnumKey(0, pszName, &Count); if (ret != ERROR_SUCCESS) { if (ret == ERROR_NO_MORE_ITEMS) ret = ERROR_SUCCESS; break; } ret = CRegKey::_DoDeleteKeyTree(key, pszName); if (ret != ERROR_SUCCESS) break; } // close key key.Close(); // delete the subkey if (ret == ERROR_SUCCESS) ret = ::RegDeleteKey(hParentKey, lpszKey); // delete the buffer if any if (pszName != szNameBuf) free(pszName); return ret; } }; template class CComHeapPtr : public CHeapPtr { public: CComHeapPtr() { } explicit CComHeapPtr(T *lp) : CHeapPtr(lp) { } }; inline HRESULT __stdcall AtlAdvise(IUnknown *pUnkCP, IUnknown *pUnk, const IID &iid, LPDWORD pdw) { CComPtr container; CComPtr connectionPoint; HRESULT hResult; if (pUnkCP == NULL) return E_INVALIDARG; hResult = pUnkCP->QueryInterface(IID_IConnectionPointContainer, (void **)&container); if (FAILED(hResult)) return hResult; hResult = container->FindConnectionPoint(iid, &connectionPoint); if (FAILED(hResult)) return hResult; return connectionPoint->Advise(pUnk, pdw); } inline HRESULT __stdcall AtlUnadvise(IUnknown *pUnkCP, const IID &iid, DWORD dw) { CComPtr container; CComPtr connectionPoint; HRESULT hResult; if (pUnkCP == NULL) return E_INVALIDARG; hResult = pUnkCP->QueryInterface(IID_IConnectionPointContainer, (void **)&container); if (FAILED(hResult)) return hResult; hResult = container->FindConnectionPoint(iid, &connectionPoint); if (FAILED(hResult)) return hResult; return connectionPoint->Unadvise(dw); } inline HRESULT __stdcall AtlInternalQueryInterface(void *pThis, const _ATL_INTMAP_ENTRY *pEntries, REFIID iid, void **ppvObject) { int i; IUnknown *resultInterface; HRESULT hResult; ATLASSERT(pThis != NULL && pEntries != NULL); if (pThis == NULL || pEntries == NULL) return E_INVALIDARG; if (ppvObject == NULL) return E_POINTER; if (InlineIsEqualUnknown(iid)) { resultInterface = reinterpret_cast(reinterpret_cast(pThis) + pEntries[0].dw); *ppvObject = resultInterface; resultInterface->AddRef(); return S_OK; } i = 0; while (pEntries[i].pFunc != 0) { if (pEntries[i].piid == NULL || InlineIsEqualGUID(iid, *pEntries[i].piid)) { if (pEntries[i].pFunc == reinterpret_cast<_ATL_CREATORARGFUNC *>(1)) { ATLASSERT(pEntries[i].piid != NULL); resultInterface = reinterpret_cast(reinterpret_cast(pThis) + pEntries[i].dw); *ppvObject = resultInterface; resultInterface->AddRef(); return S_OK; } else { hResult = pEntries[i].pFunc(pThis, iid, ppvObject, 0); if (hResult == S_OK) return hResult; if (FAILED(hResult) && pEntries[i].piid != NULL) break; } } i++; } *ppvObject = NULL; return E_NOINTERFACE; } inline HRESULT __stdcall AtlWinModuleInit(_ATL_WIN_MODULE *pWinModule) { if (pWinModule == NULL) return E_INVALIDARG; pWinModule->m_pCreateWndList = NULL; return pWinModule->m_csWindowCreate.Init(); } inline HRESULT __stdcall AtlWinModuleTerm(_ATL_WIN_MODULE *pWinModule, HINSTANCE hInst) { if (pWinModule == NULL) return E_INVALIDARG; pWinModule->m_csWindowCreate.Term(); return S_OK; } inline void __stdcall AtlWinModuleAddCreateWndData(_ATL_WIN_MODULE *pWinModule, _AtlCreateWndData *pData, void *pObject) { CComCritSecLock lock(pWinModule->m_csWindowCreate, true); ATLASSERT(pWinModule != NULL); ATLASSERT(pObject != NULL); pData->m_pThis = pObject; pData->m_dwThreadID = ::GetCurrentThreadId(); pData->m_pNext = pWinModule->m_pCreateWndList; pWinModule->m_pCreateWndList = pData; } inline void *__stdcall AtlWinModuleExtractCreateWndData(_ATL_WIN_MODULE *pWinModule) { CComCritSecLock lock(pWinModule->m_csWindowCreate, true); void *result; _AtlCreateWndData *currentEntry; _AtlCreateWndData **previousLink; DWORD threadID; ATLASSERT(pWinModule != NULL); result = NULL; threadID = GetCurrentThreadId(); currentEntry = pWinModule->m_pCreateWndList; previousLink = &pWinModule->m_pCreateWndList; while (currentEntry != NULL) { if (currentEntry->m_dwThreadID == threadID) { *previousLink = currentEntry->m_pNext; result = currentEntry->m_pThis; break; } previousLink = ¤tEntry->m_pNext; currentEntry = currentEntry->m_pNext; } return result; } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlLoadTypeLib(HINSTANCE inst, LPCOLESTR lpszIndex, BSTR *pbstrPath, ITypeLib **ppTypeLib) { size_t index_len = lpszIndex ? wcslen(lpszIndex) : 0; CComHeapPtr path; path.Allocate(MAX_PATH + index_len + wcslen(L".tlb")); if (!path) return E_OUTOFMEMORY; size_t path_len = GetModuleFileNameW(inst, path, MAX_PATH); if (!path_len) return HRESULT_FROM_WIN32(GetLastError()); if (index_len) wcscat(path, lpszIndex); CComPtr typelib; HRESULT hResult = LoadTypeLib(path, &typelib); if (FAILED(hResult)) { WCHAR *ptr; for (ptr = path+path_len-1; ptr > path && *ptr != '\\' && *ptr != '.'; ptr--) ; if (*ptr != '.') ptr = (WCHAR*)path + path_len; wcscpy(ptr, L".tlb"); hResult = LoadTypeLib(path, &typelib); } if (SUCCEEDED(hResult)) { *pbstrPath = SysAllocString(path); if (!*pbstrPath) { typelib.Release(); hResult = E_OUTOFMEMORY; } } if (FAILED(hResult)) return hResult; *ppTypeLib = typelib.Detach(); return S_OK; } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlRegisterTypeLib(HINSTANCE inst, const WCHAR *index) { CComBSTR path; CComPtr typelib; HRESULT hResult = AtlLoadTypeLib(inst, index, &path, &typelib); if (FAILED(hResult)) return hResult; return RegisterTypeLib(typelib, path, NULL); /* FIXME: pass help directory */ } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlRegisterClassCategoriesHelper(REFCLSID clsid, const _ATL_CATMAP_ENTRY *catmap, BOOL reg) { if (!catmap) return S_OK; CComPtr catreg; HRESULT hResult = CoCreateInstance(CLSID_StdComponentCategoriesMgr, NULL, CLSCTX_INPROC_SERVER, IID_ICatRegister, (void**)&catreg); if (FAILED(hResult)) return hResult; for (const _ATL_CATMAP_ENTRY *iter = catmap; iter->iType != _ATL_CATMAP_ENTRY_END; iter++) { CATID catid = *iter->pcatid; if (iter->iType == _ATL_CATMAP_ENTRY_IMPLEMENTED) { if (reg) hResult = catreg->RegisterClassImplCategories(clsid, 1, &catid); else hResult = catreg->UnRegisterClassImplCategories(clsid, 1, &catid); } else { if (reg) hResult = catreg->RegisterClassReqCategories(clsid, 1, &catid); else hResult = catreg->UnRegisterClassReqCategories(clsid, 1, &catid); } if (FAILED(hResult)) return hResult; } if (!reg) { WCHAR reg_path[256] = L"CLSID\\"; StringFromGUID2(clsid, reg_path + wcslen(reg_path), 64); wcscat(reg_path, L"\\"); WCHAR* ptr = reg_path + wcslen(reg_path); wcscpy(ptr, L"Implemented Categories"); RegDeleteKeyW(HKEY_CLASSES_ROOT, reg_path); wcscpy(ptr, L"Required Categories"); RegDeleteKeyW(HKEY_CLASSES_ROOT, reg_path); } return hResult; } // Adapted from dll/win32/atl80/atl80.c inline HRESULT __stdcall AtlComModuleRegisterServer(_ATL_COM_MODULE *mod, BOOL bRegTypeLib, const CLSID *clsid) { HRESULT hResult = S_OK; for (_ATL_OBJMAP_ENTRY ** iter = mod->m_ppAutoObjMapFirst; iter < mod->m_ppAutoObjMapLast; iter++) { if (!*iter) continue; _ATL_OBJMAP_ENTRY* entry = *iter; if (clsid && !IsEqualCLSID(*entry->pclsid, *clsid)) continue; hResult = entry->pfnUpdateRegistry(TRUE); if (FAILED(hResult)) return hResult; const _ATL_CATMAP_ENTRY *catmap = entry->pfnGetCategoryMap(); if (catmap) { hResult = AtlRegisterClassCategoriesHelper(*entry->pclsid, catmap, TRUE); if (FAILED(hResult)) return hResult; } } if (bRegTypeLib) { hResult = AtlRegisterTypeLib(mod->m_hInstTypeLib, NULL); } return hResult; } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlComModuleUnregisterServer(_ATL_COM_MODULE *mod, BOOL bUnRegTypeLib, const CLSID *clsid) { HRESULT hResult = S_OK; for (_ATL_OBJMAP_ENTRY **iter = mod->m_ppAutoObjMapFirst; iter < mod->m_ppAutoObjMapLast; iter++) { if (!*iter) continue; _ATL_OBJMAP_ENTRY* entry = *iter; if (clsid && !IsEqualCLSID(*entry->pclsid, *clsid)) continue; const _ATL_CATMAP_ENTRY *catmap = entry->pfnGetCategoryMap(); if (catmap) { hResult = AtlRegisterClassCategoriesHelper(*entry->pclsid, catmap, FALSE); if (FAILED(hResult)) return hResult; } hResult = entry->pfnUpdateRegistry(FALSE); if (FAILED(hResult)) return hResult; } if (bUnRegTypeLib) { CComPtr typelib; TLIBATTR *attr; CComBSTR path; hResult = AtlLoadTypeLib(mod->m_hInstTypeLib, NULL, &path, &typelib); if (FAILED(hResult)) return hResult; hResult = typelib->GetLibAttr(&attr); if (SUCCEEDED(hResult)) { hResult = UnRegisterTypeLib(attr->guid, attr->wMajorVerNum, attr->wMinorVerNum, attr->lcid, attr->syskind); typelib->ReleaseTLibAttr(attr); } } return hResult; } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlComModuleRegisterClassObjects(_ATL_COM_MODULE *module, DWORD context, DWORD flags) { _ATL_OBJMAP_ENTRY **iter; IUnknown* unk = NULL; HRESULT hr; if (!module) return E_INVALIDARG; for (iter = module->m_ppAutoObjMapFirst; iter < module->m_ppAutoObjMapLast; iter++) { _ATL_OBJMAP_ENTRY *ptr = *iter; if (!ptr) continue; if (!ptr->pfnGetClassObject) continue; hr = ptr->pfnGetClassObject((void*)ptr->pfnCreateInstance, IID_IUnknown, (void**)&unk); if (FAILED(hr)) return hr; hr = CoRegisterClassObject(*ptr->pclsid, unk, context, flags, &ptr->dwRegister); unk->Release(); if (FAILED(hr)) return hr; } return S_OK; } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlComModuleRevokeClassObjects(_ATL_COM_MODULE *module) { _ATL_OBJMAP_ENTRY **iter; HRESULT hr; if (!module) return E_INVALIDARG; for (iter = module->m_ppAutoObjMapFirst; iter < module->m_ppAutoObjMapLast; iter++) { _ATL_OBJMAP_ENTRY *ptr = *iter; if (!ptr) continue; hr = CoRevokeClassObject(ptr->dwRegister); if (FAILED(hr)) return hr; } return S_OK; } // Adapted from dll/win32/atl/atl.c inline HRESULT WINAPI AtlComModuleGetClassObject(_ATL_COM_MODULE *pm, REFCLSID rclsid, REFIID riid, void **ppv) { if (!pm) return E_INVALIDARG; for (_ATL_OBJMAP_ENTRY **iter = pm->m_ppAutoObjMapFirst; iter < pm->m_ppAutoObjMapLast; iter++) { _ATL_OBJMAP_ENTRY *ptr = *iter; if (!ptr) continue; if (IsEqualCLSID(*ptr->pclsid, rclsid) && ptr->pfnGetClassObject) { HRESULT hr = CLASS_E_CLASSNOTAVAILABLE; if (!ptr->pCF) { CComCritSecLock lock(_AtlComModule.m_csObjMap, true); if (!ptr->pCF) { hr = ptr->pfnGetClassObject((void *)ptr->pfnCreateInstance, IID_IUnknown, (void **)&ptr->pCF); } } if (ptr->pCF) hr = ptr->pCF->QueryInterface(riid, ppv); return hr; } } return CLASS_E_CLASSNOTAVAILABLE; } }; // namespace ATL #ifndef _ATL_NO_AUTOMATIC_NAMESPACE using namespace ATL; #endif //!_ATL_NO_AUTOMATIC_NAMESPACE