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//***************************************************************************
//
// MAINDLL.CPP
//
// Module: WBEM NT EVENT PROVIDER
//
// Purpose: Contains the gloabal dll functions
//
// Copyright (c) 1996-2001 Microsoft Corporation, All Rights Reserved
//
//***************************************************************************
#include "precomp.h"
#include <olectl.h>
//OK we need these globals
HINSTANCE g_hInst = NULL;CEventProviderManager* g_pMgr = NULL;CCriticalSection g_ProvLock;ProvDebugLog* CNTEventProvider::g_NTEvtDebugLog = ProvDebugLog::GetProvDebugLog(LOG_EVTPROV);CDllMap CEventlogRecord::sm_dllMap;CSIDMap CEventlogRecord::sm_usersMap;CMutex* CNTEventProvider::g_secMutex = NULL;PSID CNTEventProvider::s_NetworkServiceSid = NULL;PSID CNTEventProvider::s_LocalServiceSid = NULL;PSID CNTEventProvider::s_AliasBackupOpsSid = NULL;PSID CNTEventProvider::s_AliasSystemOpsSid = NULL;PSID CNTEventProvider::s_AliasGuestsSid = NULL;PSID CNTEventProvider::s_LocalSystemSid = NULL;PSID CNTEventProvider::s_AliasAdminsSid = NULL;PSID CNTEventProvider::s_AnonymousLogonSid = NULL;PSID CNTEventProvider::s_WorldSid = NULL;IWbemClassObject *WbemTaskObject::g_ClassArray[] = { NULL, NULL, NULL, NULL, NULL };
//***************************************************************************
//
// LibMain32
//
// Purpose: Entry point for DLL. Good place for initialization.
// Return: TRUE if OK.
//***************************************************************************
BOOL APIENTRY DllMain (
HINSTANCE hInstance, ULONG ulReason , LPVOID pvReserved){ SetStructuredExceptionHandler seh; BOOL status = TRUE ;
try {
if ( DLL_PROCESS_DETACH == ulReason ) { } else if ( DLL_PROCESS_ATTACH == ulReason ) { g_hInst=hInstance; DisableThreadLibraryCalls(hInstance); } else if ( DLL_THREAD_DETACH == ulReason ) { } else if ( DLL_THREAD_ATTACH == ulReason ) { }
} catch(Structured_Exception e_SE) { status = FALSE; } catch(Heap_Exception e_HE) { status = FALSE; } catch(...) { status = FALSE; }
return status;}
//***************************************************************************
//
// DllGetClassObject
//
// Purpose: Called by Ole when some client wants a a class factory. Return
// one only if it is the sort of class this DLL supports.
//
//***************************************************************************
STDAPI DllGetClassObject (
REFCLSID rclsid , REFIID riid, void **ppv ){ HRESULT status = S_OK ; SetStructuredExceptionHandler seh;
try { if (g_ProvLock.Lock()) { if ( rclsid == CLSID_CNTEventProviderClassFactory ) { CNTEventlogEventProviderClassFactory *lpunk = new CNTEventlogEventProviderClassFactory;
if ( lpunk == NULL ) { status = E_OUTOFMEMORY ; } else { status = lpunk->QueryInterface ( riid , ppv ) ;
if ( FAILED ( status ) ) { delete lpunk ; } } } else if ( rclsid == CLSID_CNTEventInstanceProviderClassFactory ) { CNTEventlogInstanceProviderClassFactory *lpunk = new CNTEventlogInstanceProviderClassFactory;
if ( lpunk == NULL ) { status = E_OUTOFMEMORY ; } else { status = lpunk->QueryInterface ( riid , ppv ) ;
if ( FAILED ( status ) ) { delete lpunk ; } } } else { status = CLASS_E_CLASSNOTAVAILABLE ; }
g_ProvLock.Unlock(); } else { status = E_UNEXPECTED ; } } catch(Structured_Exception e_SE) { status = E_UNEXPECTED; } catch(Heap_Exception e_HE) { status = E_OUTOFMEMORY; } catch(...) { status = E_UNEXPECTED; }
return status ;}
//***************************************************************************
//
// DllCanUnloadNow
//
// Purpose: Called periodically by Ole in order to determine if the
// DLL can be freed.//
// Return: TRUE if there are no objects in use and the class factory
// isn't locked.
//***************************************************************************
STDAPI DllCanUnloadNow (){
/*
* Place code in critical section */ BOOL unload = FALSE; HRESULT status = S_OK ; SetStructuredExceptionHandler seh;
try { if (g_ProvLock.Lock()) { unload = (0 == CNTEventProviderClassFactory :: locksInProgress) && (0 == CNTEventProviderClassFactory :: objectsInProgress);
if (unload) { for (DWORD i = 0; i < NT_EVTLOG_MAX_CLASSES; i++) { if (WbemTaskObject::g_ClassArray[i]) { WbemTaskObject::g_ClassArray[i]->Release(); WbemTaskObject::g_ClassArray[i] = NULL; } }
CEventlogRecord::EmptyDllMap(); CEventlogRecord::EmptyUsersMap(); delete g_pMgr; g_pMgr = NULL; CNTEventProvider::FreeGlobalSIDs();
if (CNTEventProvider::g_secMutex != NULL) { delete CNTEventProvider::g_secMutex; CNTEventProvider::g_secMutex = NULL; }
}
g_ProvLock.Unlock(); } } catch(Structured_Exception e_SE) { unload = FALSE; } catch(Heap_Exception e_HE) { unload = FALSE; } catch(...) { unload = FALSE; }
return unload ? ResultFromScode ( S_OK ) : ResultFromScode ( S_FALSE ) ;}
//Strings used during self registeration
#define REG_FORMAT2_STR L"%s%s"
#define REG_FORMAT3_STR L"%s%s\\%s"
#define VER_IND_STR L"VersionIndependentProgID"
#define NOT_INTERT_STR L"NotInsertable"
#define INPROC32_STR L"InprocServer32"
#define PROGID_STR L"ProgID"
#define THREADING_MODULE_STR L"ThreadingModel"
#define APARTMENT_STR L"Both"
#define CLSID_STR L"CLSID\\"
#define PROVIDER_NAME_STR L"Microsoft WBEM NT Eventlog Event Provider"
#define PROVIDER_STR L"WBEM.NT.EVENTLOG.EVENT.PROVIDER"
#define H_PROVIDER_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.EVENT.PROVIDER"
#define PROVIDER_CVER_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.EVENT.PROVIDER\\CurVer"
#define PROVIDER_CLSID_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.EVENT.PROVIDER\\CLSID"
#define PROVIDER_VER_CLSID_STR L"WBEM.NT.EVENTLOG.EVENT.PROVIDER.0\\CLSID"
#define PROVIDER_VER_STR L"WBEM.NT.EVENTLOG.EVENT.PROVIDER.0"
#define H_PROVIDER_VER_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.EVENT.PROVIDER.0"
#define INST_PROVIDER_NAME_STR L"Microsoft WBEM NT Eventlog Instance Provider"
#define INST_PROVIDER_STR L"WBEM.NT.EVENTLOG.INSTANCE.PROVIDER"
#define H_INST_PROVIDER_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.INSTANCE.PROVIDER"
#define INST_PROVIDER_CVER_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.INSTANCE.PROVIDER\\CurVer"
#define INST_PROVIDER_CLSID_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.INSTANCE.PROVIDER\\CLSID"
#define INST_PROVIDER_VER_CLSID_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.INSTANCE.PROVIDER.0\\CLSID"
#define INST_PROVIDER_VER_STR L"WBEM.NT.EVENTLOG.INSTANCE.PROVIDER.0"
#define H_INST_PROVIDER_VER_STR L"SOFTWARE\\Classes\\WBEM.NT.EVENTLOG.INSTANCE.PROVIDER.0"
/***************************************************************************
* SetKeyAndValue * * Purpose: * Private helper function for DllRegisterServer that creates * a key, sets a value, and closes that key. * * Parameters: * pszKey LPTSTR to the ame of the key * pszSubkey LPTSTR ro the name of a subkey * pszValue LPTSTR to the value to store * * Return Value: * BOOL TRUE if successful, FALSE otherwise. ***************************************************************************/
BOOL SetKeyAndValue(wchar_t* pszKey, wchar_t* pszSubkey, wchar_t* pszValueName, wchar_t* pszValue){ HKEY hKey; wchar_t szKey[256];
StringCchCopyW ( szKey, 256, HKEYCLASSES ); if ( FAILED ( StringCchCatW ( szKey, 256, pszKey ) ) ) { return FALSE; }
if (NULL!=pszSubkey) { if ( FAILED ( StringCchCatW ( szKey, 256, L"\\") ) ) { return FALSE; }
if ( FAILED ( StringCchCatW ( szKey, 256, pszSubkey ) ) ) { return FALSE; } }
if (ERROR_SUCCESS!=RegCreateKeyEx(HKEY_LOCAL_MACHINE , szKey, 0, NULL, REG_OPTION_NON_VOLATILE , KEY_ALL_ACCESS, NULL, &hKey, NULL)) return FALSE;
if (NULL!=pszValue) { if (ERROR_SUCCESS != RegSetValueEx(hKey, pszValueName, 0, REG_SZ, (BYTE *)pszValue , (lstrlen(pszValue)+1)*sizeof(wchar_t))) return FALSE; } RegCloseKey(hKey); return TRUE;}
/***************************************************************************
* DllRegisterServer * * Purpose: * Instructs the server to create its own registry entries * * Parameters: * None * * Return Value: * HRESULT NOERROR if registration successful, error * otherwise. ***************************************************************************/STDAPI DllRegisterServer(){ HRESULT status = S_OK ; SetStructuredExceptionHandler seh;
try { wchar_t szModule[MAX_PATH + 1]; DWORD t_Status = GetModuleFileName(g_hInst,(wchar_t*)szModule, MAX_PATH + 1); if ( t_Status == 0 ) { return E_UNEXPECTED ; }
wchar_t szProviderClassID[128]; wchar_t szProviderCLSIDClassID[128]; StringFromGUID2(CLSID_CNTEventProviderClassFactory,szProviderClassID, 128);
StringCchCopyW ( szProviderCLSIDClassID, 128, CLSID_STR ); if ( FAILED ( StringCchCatW ( szProviderCLSIDClassID, 128, szProviderClassID ) ) ) { return SELFREG_E_CLASS; }
//Create entries under CLSID
if (FALSE ==SetKeyAndValue(szProviderCLSIDClassID, NULL, NULL, PROVIDER_NAME_STR)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szProviderCLSIDClassID, PROGID_STR, NULL, PROVIDER_VER_STR)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szProviderCLSIDClassID, VER_IND_STR, NULL, PROVIDER_STR)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szProviderCLSIDClassID, NOT_INTERT_STR, NULL, NULL)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szProviderCLSIDClassID, INPROC32_STR, NULL,szModule)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szProviderCLSIDClassID, INPROC32_STR,THREADING_MODULE_STR, APARTMENT_STR)) return SELFREG_E_CLASS;
wchar_t szInstProviderClassID[128]; wchar_t szInstProviderCLSIDClassID[128]; StringFromGUID2(CLSID_CNTEventInstanceProviderClassFactory,szInstProviderClassID, 128);
StringCchCopyW ( szInstProviderCLSIDClassID, 128, CLSID_STR ); if ( FAILED ( StringCchCatW ( szInstProviderCLSIDClassID, 128, szInstProviderClassID ) ) ) { return SELFREG_E_CLASS; }
//Create entries under CLSID
if (FALSE ==SetKeyAndValue(szInstProviderCLSIDClassID, NULL, NULL, INST_PROVIDER_NAME_STR)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szInstProviderCLSIDClassID, PROGID_STR, NULL, INST_PROVIDER_VER_STR)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szInstProviderCLSIDClassID, VER_IND_STR, NULL, INST_PROVIDER_STR)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szInstProviderCLSIDClassID, NOT_INTERT_STR, NULL, NULL)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szInstProviderCLSIDClassID, INPROC32_STR, NULL,szModule)) return SELFREG_E_CLASS; if (FALSE ==SetKeyAndValue(szInstProviderCLSIDClassID, INPROC32_STR,THREADING_MODULE_STR, APARTMENT_STR)) return SELFREG_E_CLASS; } catch(Structured_Exception e_SE) { status = E_UNEXPECTED; } catch(Heap_Exception e_HE) { status = E_OUTOFMEMORY; } catch(...) { status = E_UNEXPECTED; }
return status ;}
/***************************************************************************
* DllUnregisterServer * * Purpose: * Instructs the server to remove its own registry entries * * Parameters: * None * * Return Value: * HRESULT NOERROR if registration successful, error * otherwise. ***************************************************************************/
STDAPI DllUnregisterServer(void){ HRESULT status = S_OK ; SetStructuredExceptionHandler seh;
try { wchar_t szTemp[128]; wchar_t szProviderClassID[128]; wchar_t szProviderCLSIDClassID[128];
//event provider
StringFromGUID2(CLSID_CNTEventProviderClassFactory,szProviderClassID, 128);
StringCchCopyW ( szProviderCLSIDClassID, 128, CLSID_STR ); if ( FAILED ( StringCchCatW ( szProviderCLSIDClassID, 128, szProviderClassID ) ) ) { return SELFREG_E_CLASS ; }
//Delete ProgID keys
RegDeleteKey(HKEY_LOCAL_MACHINE, PROVIDER_CVER_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, PROVIDER_CLSID_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, H_PROVIDER_STR);
//Delete VersionIndependentProgID keys
RegDeleteKey(HKEY_LOCAL_MACHINE, PROVIDER_VER_CLSID_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, H_PROVIDER_VER_STR);
//Delete entries under CLSID
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szProviderCLSIDClassID, PROGID_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szProviderCLSIDClassID, VER_IND_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szProviderCLSIDClassID, NOT_INTERT_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szProviderCLSIDClassID, INPROC32_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT2_STR, HKEYCLASSES, szProviderCLSIDClassID); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
wchar_t szInstProviderClassID[128]; wchar_t szInstProviderCLSIDClassID[128];
//instance provider
StringFromGUID2(CLSID_CNTEventInstanceProviderClassFactory, szInstProviderClassID, 128);
StringCchCopyW ( szInstProviderCLSIDClassID, 128, CLSID_STR ); if ( FAILED ( StringCchCatW ( szInstProviderCLSIDClassID, 128, szInstProviderClassID ) ) ) { return SELFREG_E_CLASS ; }
//Delete ProgID keys
RegDeleteKey(HKEY_LOCAL_MACHINE, INST_PROVIDER_CVER_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, INST_PROVIDER_CLSID_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, H_INST_PROVIDER_STR);
//Delete VersionIndependentProgID keys
RegDeleteKey(HKEY_LOCAL_MACHINE, INST_PROVIDER_VER_CLSID_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, H_INST_PROVIDER_VER_STR);
//Delete entries under CLSID
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szInstProviderCLSIDClassID, PROGID_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szInstProviderCLSIDClassID, VER_IND_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szInstProviderCLSIDClassID, NOT_INTERT_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT3_STR, HKEYCLASSES, szInstProviderCLSIDClassID, INPROC32_STR); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp);
StringCchPrintf(szTemp, 128, REG_FORMAT2_STR, HKEYCLASSES, szInstProviderCLSIDClassID); RegDeleteKey(HKEY_LOCAL_MACHINE, szTemp); } catch(Structured_Exception e_SE) { status = E_UNEXPECTED; } catch(Heap_Exception e_HE) { status = E_OUTOFMEMORY; } catch(...) { status = E_UNEXPECTED; }
return status ; }
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