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windows-nt/Source/XPSP1/NT/enduser/stuff/hhctrl/ipserver.cpp
CryptoAlgo Inc b3cac27891 Add source files
2020-09-26 16:20:57 +08:00

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// Copyright (C) 1996-1997 Microsoft Corporation. All rights reserved.
//
// implements all exported DLL functions for the program, as well as a few
// others that will be used by same
//
#include "header.h"
#include "internet.h"
#include "AutoObj.H"
#include "ClassF.H"
#include "Unknown.H"
#include "strtable.h"
#include "hhifc.h"
#include "hhsort.h"
#include "resource.h"
#ifdef _DEBUG
#undef THIS_FILE
static const char THIS_FILE[] = __FILE__;
#endif
#include "atlinc.h" // includes for ATL.
#include "iterror.h"
#include "itSort.h"
#include "itSortid.h"
#include "hhsyssrt.h"
#include "hhfinder.h"
#include "msitstg.h"
// Only including for the pahwnd declaration.
#include "secwin.h"
// So we can cleanup the lasterror object.
#include "lasterr.h"
#include <atlimpl.cpp>
extern HMODULE g_hmodMSI; // msi.dll module handle
CHtmlHelpModule _Module;
BEGIN_OBJECT_MAP(ObjectMap)
OBJECT_ENTRY(CLSID_HHSysSort, CHHSysSort)
OBJECT_ENTRY(CLSID_HHFinder, CHHFinder)
END_OBJECT_MAP()
const IID IID_ICatRegister = {0x0002E012,0x0000,0x0000,{0xC0,0x00,0x00,0x00,0x00,0x00,0x00,0x46}};
const GUID CATID_SafeForScripting = {0x7dd95801,0x9882,0x11cf,{0x9f,0xa9,0x00,0xaa,0x00,0x6c,0x42,0xc4}};
const GUID CATID_SafeForInitializing = {0x7dd95802,0x9882,0x11cf,{0x9f,0xa9,0x00,0xaa,0x00,0x6c,0x42,0xc4}};
// In 1996-1997 alone, these two constants appeared and disappeared in 3 different
// header files. I got tired or finding out which !@$! header file they
// got moved to this time and just defined them here.
#define LANG_ARABIC 0x01
#define LANG_HEBREW 0x0d
static const char txtCplDesktop[] = "Control Panel\\Desktop\\ResourceLocale";
static const char txtShellOpenFmt[] = "%s\\shell\\open\\%s";
static const char txtCommand[] = "command";
static const char txtStdOpen[] = "[open(\"%1\")]";
static const char txtStdArg[] = " %1";
static const char txtChmFile[] = "chm.file";
static const char txtHhExe[] = "hh.exe";
static const char txtItssDll[] = "itss.dll";
static const char txtItirclDll[] = "itircl.dll";
static const char txtDllRegisterServer[] = "DllRegisterServer";
static const char txtDllUnRegisterServer[] = "DllUnregisterServer";
static const char txtIE4[] = "SOFTWARE\\Microsoft\\Internet Explorer";
static const char txtVersion[] = "version";
static const char txtMouseWheel[] = "MSWHEEL_ROLLMSG";
static const char txtStringGuid[] = "{%08lX-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}";
static const char txtInProc[] = "CLSID\\%s\\InprocServer32";
static void SetRegKey(LPCTSTR pszKey, LPCTSTR pszValue);
void RegisterHH(PCSTR pszHHPath); // also called by hh.cpp
extern HANDLE g_hsemMemory;
//=--------------------------------------------------------------------------=
// private routines for this file.
int IndexOfOleObject(REFCLSID);
HRESULT RegisterAllObjects(void);
HRESULT UnregisterAllObjects(void);
//=--------------------------------------------------------------------------=
// StringFromGuidA
//=--------------------------------------------------------------------------=
// returns an ANSI string from a CLSID or GUID
//
// Parameters:
// REFIID - [in] clsid to make string out of.
// LPSTR - [in/out] buffer in which to place resultant GUID.
//
// Output:
// int - number of chars written out.
//
// Notes:
//
int StringFromGuidA( CLSID riid, LPSTR pszBuf )
{
return wsprintf( (char*) pszBuf,
txtStringGuid,
riid.Data1, riid.Data2, riid.Data3,
riid.Data4[0], riid.Data4[1], riid.Data4[2], riid.Data4[3],
riid.Data4[4], riid.Data4[5], riid.Data4[6], riid.Data4[7]);
}
#define GUID_STR_LEN 40
//=--------------------------------------------------------------------------=
// GetRegisteredLocation
//=--------------------------------------------------------------------------=
// Returns the registered location of an inproc server given the CLSID
//
// HKEY_CLASSES_ROOT\CLSID\<CLSID>\InprocServer32 = <path to local server>
//
// Parameters:
// REFCLSID - [in] CLSID of the object
// LPTSTR - [in/out] Pathname
//
// Output:
// BOOL - FALSE means couldn't find it
BOOL GetRegisteredLocation( CLSID riid, LPTSTR pszPathname )
{
BOOL bReturn = FALSE;
HKEY hKey = NULL;
char szGuidStr[GUID_STR_LEN];
char szScratch[MAX_PATH];
if( !StringFromGuidA( riid, szGuidStr ) )
return FALSE;
wsprintf( szScratch, txtInProc, szGuidStr );
if( RegOpenKeyEx( HKEY_CLASSES_ROOT, szScratch, 0, KEY_READ, &hKey ) == ERROR_SUCCESS ) {
DWORD dwSize = MAX_PATH;
if( RegQueryValueExA( hKey, "", 0, 0, (BYTE*) szScratch, &dwSize ) == ERROR_SUCCESS ) {
strcpy( pszPathname, szScratch );
bReturn = TRUE;
}
}
if( hKey )
RegCloseKey( hKey );
return bReturn;
}
BOOL WINAPI DllMain(HANDLE hInstance, DWORD dwReason, void *pvReserved)
{
int i;
switch (dwReason) {
// set up some global variables, and get some OS/Version information
// set up.
//
case DLL_PROCESS_ATTACH:
{
//NOTE: Do not handle resources until after the _Module.Init call below.
OSVERSIONINFO versionInfo;
versionInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
GetVersionEx(&versionInfo);
g_bWinNT5 = ((versionInfo.dwPlatformId == VER_PLATFORM_WIN32_NT) && (versionInfo.dwMajorVersion >= 5));
g_bWin98 = (versionInfo.dwPlatformId == VER_PLATFORM_WIN32_WINDOWS) && ((versionInfo.dwMajorVersion > 4)
|| ((versionInfo.dwMajorVersion == 4) && (versionInfo.dwMinorVersion > 0)));
// Check version
DWORD dwVer = GetVersion();
DWORD dwWinVer;
// swap the two lowest bytes of dwVer so that the major and minor version
// numbers are in a usable order.
// for dwWinVer: high byte = major version, low byte = minor version
// OS Sys_WinVersion (as of 5/2/95)
// =-------------= =-------------=
// Win95 0x035F (3.95)
// WinNT ProgMan 0x0333 (3.51)
// WinNT Win95 UI 0x0400 (4.00)
//
dwWinVer = (UINT)(((dwVer & 0xFF) << 8) | ((dwVer >> 8) & 0xFF));
g_fSysWinNT = FALSE;
g_fSysWin95 = FALSE;
g_fSysWin95Shell = FALSE;
if (dwVer < 0x80000000) {
g_fSysWinNT = TRUE;
g_fSysWin95Shell = (dwWinVer >= 0x0334);
} else {
g_fSysWin95 = TRUE;
g_fSysWin95Shell = TRUE;
}
if ( !g_fCoInitialized )
{
OleInitialize(NULL);
g_fCoInitialized = TRUE; // so that we call CoUninitialize() when dll is unloaded
}
// Initialize ATL's module information.
_Module.Init(ObjectMap, (HINSTANCE) hInstance);
DisableThreadLibraryCalls((HINSTANCE) hInstance);
// Now it is okay to read the resources.
g_fDBCSSystem = (BOOL) GetSystemMetrics(SM_DBCSENABLED);
g_lcidSystem = GetUserDefaultLCID();
// Determine if we are on a BiDi system
g_langSystem = PRIMARYLANGID(LANGIDFROMLCID(g_lcidSystem));
// Get the language of the UI (Satalite DLL)
//
LANGID lid = PRIMARYLANGID(_Module.m_Language.GetUiLanguage());
// determine if we are running with a localized Hebrew or Arabic UI
//
if(lid == LANG_ARABIC || lid == LANG_HEBREW)
g_bBiDiUi=TRUE;
else
g_bBiDiUi=FALSE;
// determine if we are running with a localized Hebrew or Arabic UI
//
if(lid == LANG_ARABIC)
g_bArabicUi=TRUE;
else
g_bArabicUi=FALSE;
MSG_MOUSEWHEEL = RegisterWindowMessage(txtMouseWheel);
// Find out if we are on IE 4 or later
{
HKEY hkey;
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, txtIE4, 0, KEY_READ, &hkey) ==
ERROR_SUCCESS) {
char szVersion[MAX_PATH];
DWORD cbPath = sizeof(szVersion);
if (RegQueryValueEx(hkey, txtVersion, NULL, NULL, (LPBYTE) szVersion, &cbPath) == ERROR_SUCCESS) {
// IE 3 didn't have a version key, so if this succeeds,
// we know we aren't on IE 3.
g_fIE3 = FALSE; // we're on IE 4, not IE 3
g_bMsItsMonikerSupport = FALSE; // Don't make this TRUE. See bug 6984 & 6876
}
RegCloseKey(hkey);
}
}
// register our server if the pathname is not the same as the
// one that is already registered
TCHAR szHHCtrl[MAX_PATH];
szHHCtrl[0] = 0;
TCHAR szModulePathname[MAX_PATH];
szModulePathname[0] = 0;
BOOL bRegister = FALSE;
bRegister = !GetRegisteredLocation( CLSID_HHCtrl, szHHCtrl );
if( !bRegister ) {
GetModuleFileName( _Module.GetModuleInstance(), szModulePathname, MAX_PATH );
if( lstrcmpi( szHHCtrl, szModulePathname ) != 0 )
bRegister = TRUE;
}
if( bRegister )
DllRegisterServer();
// TODO: pahwnd needs to be incapsulated into a class and allocated on demand.
g_cWindowSlots = 5;
pahwnd = (CHHWinType**) lcCalloc(g_cWindowSlots * sizeof(CHHWinType*));
memset( pahwnd, 0, g_cWindowSlots * sizeof(CHHWinType*) );
return TRUE;
}
case DLL_PROCESS_DETACH:
// DBWIN("HHCtrl unloading");
// DeleteCriticalSection(&g_CriticalSection);
// unregister all the registered window classes.
// Clean out the memory in the last error object, since the heap is screwed before the destructor is called.
g_LastError.Finish() ;
i = 0;
while (!ISEMPTYOBJECT(i)) {
if (g_ObjectInfo[i].usType == OI_CONTROL) {
#ifdef _DEBUG
CONTROLOBJECTINFO* pinfo = (CONTROLOBJECTINFO*) g_ObjectInfo[i].pInfo;
#endif
if (CTLWNDCLASSREGISTERED(i))
UnregisterClass(WNDCLASSNAMEOFCONTROL(i), _Module.GetModuleInstance());
}
i++;
}
// clean up our parking window.
if (g_hwndParking) {
DestroyWindow(g_hwndParking);
UnregisterClass("CtlFrameWork_Parking", _Module.GetModuleInstance());
--g_cLocks;
}
// free our window types list
for( int i = 0; i < g_cWindowSlots; i++ )
if( pahwnd[i] ) {
CHECK_AND_FREE( pahwnd[i]->pszType );
CHECK_AND_FREE( pahwnd[i]->pszCaption );
CHECK_AND_FREE( pahwnd[i]->pszToc );
CHECK_AND_FREE( pahwnd[i]->pszIndex );
CHECK_AND_FREE( pahwnd[i]->pszFile );
CHECK_AND_FREE( pahwnd[i]->pszHome );
CHECK_AND_FREE( pahwnd[i]->pszJump1 );
CHECK_AND_FREE( pahwnd[i]->pszJump2 );
CHECK_AND_FREE( pahwnd[i]->pszUrlJump1 );
CHECK_AND_FREE( pahwnd[i]->pszUrlJump2 );
CHECK_AND_FREE( pahwnd[i]->pszCustomTabs );
pahwnd[i]->ProcessDetachSafeCleanup();
}
CHECK_AND_FREE( pahwnd );
// free the CHmData
CHECK_AND_FREE( g_phmData );
// don't call DBWIN here since it will cause a GPF
if (g_hmodMSI != NULL)
FreeLibrary(g_hmodMSI);
if (g_hpalSplash)
DeleteObject(g_hpalSplash);
_Module.Term();
if (g_hsemMemory)
CloseHandle(g_hsemMemory);
if (g_hsemNavigate)
CloseHandle(g_hsemNavigate);
// DeleteAllHmData();
if (g_hmodHHA != NULL)
{
FreeLibrary(g_hmodHHA);
g_hmodHHA = NULL;
}
if (g_fCoInitialized)
{
OleUninitialize();
g_fCoInitialized = FALSE;
}
return TRUE;
}
return TRUE;
}
#ifndef HHUTIL
//=--------------------------------------------------------------------------=
// DllRegisterServer
//=--------------------------------------------------------------------------=
// registers the Automation server
STDAPI DllRegisterServer(void)
{
HRESULT hr;
hr = RegisterAllObjects();
ASSERT(SUCCEEDED(hr));
RETURN_ON_FAILURE(hr);
CreateComponentCategory(CATID_SafeForScripting, L"Controls that are safely scriptable");
CreateComponentCategory(CATID_SafeForInitializing, L"Controls safely initializable from persistent data");
RegisterCLSIDInCategory(CLSID_HHCtrl, CATID_SafeForScripting);
RegisterCLSIDInCategory(CLSID_HHCtrl, CATID_SafeForInitializing);
char szPath[MAX_PATH];
GetRegWindowsDirectory(szPath);
AddTrailingBackslash(szPath);
strcat(szPath, txtHhExe);
if (GetFileAttributes(szPath) != HFILE_ERROR)
RegisterHH(szPath);
GetSystemDirectory(szPath, sizeof(szPath));
AddTrailingBackslash(szPath);
PSTR pszEnd = szPath + strlen(szPath);
strcpy(pszEnd, txtItssDll);
// Register decompression DLL (for .CHM files)
HMODULE hmod = LoadLibrary(szPath);
if (hmod) {
void (STDCALL *pDllRegisterServer)(void);
(FARPROC&) pDllRegisterServer =
GetProcAddress(hmod, txtDllRegisterServer);
if (pDllRegisterServer)
pDllRegisterServer();
FreeLibrary(hmod);
}
// Register the full-text search module
strcpy(pszEnd, txtItirclDll);
hmod = LoadLibrary(szPath);
if (hmod) {
void (STDCALL *pDllRegisterServer)(void);
(FARPROC&) pDllRegisterServer =
GetProcAddress(hmod, txtDllRegisterServer);
if (pDllRegisterServer)
pDllRegisterServer();
FreeLibrary(hmod);
}
// register our file extensions for Removable Media Support
HKEY hKey;
LPCTSTR szGUID = HHFINDER_GUID;
LPCTSTR szExt = HHFINDER_EXTENSION;
RegCreateKeyEx( HKEY_LOCAL_MACHINE, ITSS_FINDER, 0, NULL,
REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, &hKey, NULL);
RegSetValueEx( hKey, szExt, 0, REG_SZ, (const unsigned char*) szGUID,
(int)(strlen(szGUID) + 1) );
RegCloseKey( hKey );
_Module.RegisterServer(TRUE);
return S_OK;
}
#endif
void RegisterHH(PCSTR pszHHPath)
{
char szFullPath[MAX_PATH];
SetRegKey(txtDefExtension, txtChmFile);
LoadString(_Module.GetResourceInstance(),IDS_COMPILEDHTMLFILE,szFullPath,sizeof(szFullPath));
SetRegKey(txtChmFile, szFullPath);
// Put path in quotes, in case there are spaces in the folder name
szFullPath[0] = '\042';
strcpy(szFullPath + 1, pszHHPath);
strcat(szFullPath, "\"");
PSTR pszPathEnd = szFullPath + strlen(szFullPath);
strcat(szFullPath, txtStdArg); // "pathname %1"
char szBuf[MAX_PATH * 2];
wsprintf(szBuf, txtShellOpenFmt, txtChmFile, txtCommand);
SetRegKey(szBuf, szFullPath);
// Register the icon to use for .chm files
*pszPathEnd = '\0'; // remove the arguments
strcpy(szFullPath + strlen(szFullPath) - 1, ",0"); // remove the close quote
SetRegKey("chm.file\\DefaultIcon", szFullPath + 1);
}
static void SetRegKey(LPCTSTR pszKey, LPCTSTR pszValue)
{
RegSetValue(HKEY_CLASSES_ROOT, pszKey, REG_SZ, pszValue, (int)strlen(pszValue));
}
#ifndef HHUTIL
//=--------------------------------------------------------------------------=
// DllUnregisterServer
//=--------------------------------------------------------------------------=
// unregister's the Automation server
STDAPI DllUnregisterServer(void)
{
HRESULT hr;
hr = UnregisterAllObjects();
RETURN_ON_FAILURE(hr);
// call user unregistration function
hr = UnregisterData();
// Remove registration for decompression DLL (for .CHM files)
HMODULE hmod = LoadLibrary(txtItssDll);
if (hmod) {
void (STDCALL *pDllRegisterServer)(void);
(FARPROC&) pDllRegisterServer =
GetProcAddress(hmod, txtDllUnRegisterServer);
if (pDllRegisterServer)
pDllRegisterServer();
FreeLibrary(hmod);
}
// Remove registration for the full-text search module
hmod = LoadLibrary(txtItirclDll);
if (hmod) {
void (STDCALL *pDllRegisterServer)(void);
(FARPROC&) pDllRegisterServer =
GetProcAddress(hmod, txtDllUnRegisterServer);
if (pDllRegisterServer)
pDllRegisterServer();
FreeLibrary(hmod);
}
// unregister our file extensions for Removable Media Support
HKEY hKey;
LPCTSTR szGUID = HHFINDER_GUID;
LPCTSTR szExt = HHFINDER_EXTENSION;
RegCreateKeyEx( HKEY_LOCAL_MACHINE, ITSS_FINDER, 0, NULL,
REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, &hKey, NULL);
RegDeleteKey( hKey, szExt );
RegCloseKey( hKey );
_Module.UnregisterServer();
// BUGBUG: remove association with .CHM files
return hr;
}
#endif
#ifndef HHUTIL
//=--------------------------------------------------------------------------=
// DllCanUnloadNow
//=--------------------------------------------------------------------------=
// we are being asked whether or not it's okay to unload the DLL. just check
// the lock counts on remaining objects ...
//
// Output:
// HRESULT - S_OK, can unload now, S_FALSE, can't.
STDAPI DllCanUnloadNow(void)
{
// if there are any objects lying around, then we can't unload. The
// controlling CUnknownObject class that people should be inheriting from
// takes care of this
return (g_cLocks) ? S_FALSE : S_OK;
}
#endif
#ifndef HHUTIL
//=--------------------------------------------------------------------------=
// DllGetClassObject
//=--------------------------------------------------------------------------=
// creates a ClassFactory object, and returns it.
//
// Parameters:
// REFCLSID - CLSID for the class object
// REFIID - interface we want class object to be.
// void ** - pointer to where we should ptr to new object.
//
// Output:
// HRESULT - S_OK, CLASS_E_CLASSNOTAVAILABLE, E_OUTOFMEMORY,
// E_INVALIDARG, E_UNEXPECTED
STDAPI DllGetClassObject(REFCLSID rclsid, REFIID riid, void **ppvObjOut)
{
HRESULT hr;
void *pv;
int iIndex;
if( IsEqualCLSID( rclsid, CLSID_HHSysSort ) || IsEqualCLSID( rclsid, CLSID_HHFinder ) )
return _Module.GetClassObject( rclsid, riid, ppvObjOut );
// arg checking
if (!ppvObjOut)
return E_INVALIDARG;
// first of all, make sure they're asking for something we work with.
iIndex = IndexOfOleObject(rclsid);
if (iIndex == -1)
return CLASS_E_CLASSNOTAVAILABLE;
// create the blank object.
pv = (void *)new CClassFactory(iIndex);
if (!pv)
return E_OUTOFMEMORY;
// QI for whatever the user has asked for.
//
hr = ((IUnknown *)pv)->QueryInterface(riid, ppvObjOut);
((IUnknown *)pv)->Release();
return hr;
}
#endif
//=--------------------------------------------------------------------------=
// IndexOfOleObject
//=--------------------------------------------------------------------------=
// returns the index in our global table of objects of the given CLSID. if
// it's not a supported object, then we return -1
//
// Parameters:
// REFCLSID - [in] duh.
//
// Output:
// int - >= 0 is index into global table, -1 means not supported
int IndexOfOleObject(REFCLSID rclsid)
{
int x = 0;
// an object is creatable if it's CLSID is in the table of all allowable object
// types.
while (!ISEMPTYOBJECT(x)) {
#ifdef _DEBUG
CONTROLOBJECTINFO* pinfo = (CONTROLOBJECTINFO*) g_ObjectInfo[x].pInfo;
#endif
if (OBJECTISCREATABLE(x)) {
if (rclsid == CLSIDOFOBJECT(x))
return x;
}
x++;
}
return -1;
}
//=--------------------------------------------------------------------------=
// RegisterAllObjects
//=--------------------------------------------------------------------------=
// registers all the objects for the given automation server.
//
// Parameters:
// none
//
// Output:
// HERSULT - S_OK, E_FAIL
//
// Notes:
//
const char g_szLibName[] = "Internet";
HRESULT RegisterAllObjects(void)
{
HRESULT hr;
int x = 0;
// loop through all of our creatable objects [those that have a clsid in
// our global table] and register them.
while (!ISEMPTYOBJECT(x)) {
#ifdef _DEBUG
CONTROLOBJECTINFO* pinfo = (CONTROLOBJECTINFO*) g_ObjectInfo[x].pInfo;
#endif
if (!OBJECTISCREATABLE(x)) {
x++;
continue;
}
// depending on the object type, register different pieces of information
switch (g_ObjectInfo[x].usType) {
// for both simple co-creatable objects and proeprty pages, do the same
// thing
case OI_UNKNOWN:
case OI_PROPERTYPAGE:
RegisterUnknownObject(NAMEOFOBJECT(x), CLSIDOFOBJECT(x));
break;
case OI_AUTOMATION:
RegisterAutomationObject(g_szLibName, NAMEOFOBJECT(x),
VERSIONOFOBJECT(x), *g_pLibid, CLSIDOFOBJECT(x));
break;
case OI_CONTROL:
RegisterControlObject(g_szLibName, NAMEOFOBJECT(x),
VERSIONOFOBJECT(x), *g_pLibid, CLSIDOFOBJECT(x),
OLEMISCFLAGSOFCONTROL(x), BITMAPIDOFCONTROL(x));
break;
}
x++;
}
// Load and register our type library.
if (g_fServerHasTypeLibrary) {
char szTmp[MAX_PATH];
DWORD dwPathLen = GetModuleFileName(_Module.GetModuleInstance(), szTmp, MAX_PATH);
MAKE_WIDEPTR_FROMANSI(pwsz, szTmp);
ITypeLib *pTypeLib;
hr = LoadTypeLib(pwsz, &pTypeLib);
RETURN_ON_FAILURE(hr);
hr = RegisterTypeLib(pTypeLib, pwsz, NULL);
pTypeLib->Release();
RETURN_ON_FAILURE(hr);
}
return S_OK;
}
//=--------------------------------------------------------------------------=
// UnregisterAllObjects
//=--------------------------------------------------------------------------=
// un-registers all the objects for the given automation server.
//
// Parameters:
// none
//
// Output:
// HRESULT - S_OK
HRESULT UnregisterAllObjects(void)
{
int x = 0;
// loop through all of our creatable objects [those that have a clsid in
// our global table] and register them.
//
while (!ISEMPTYOBJECT(x)) {
#ifdef _DEBUG
CONTROLOBJECTINFO* pinfo = (CONTROLOBJECTINFO*) g_ObjectInfo[x].pInfo;
#endif
if (!OBJECTISCREATABLE(x)) {
x++;
continue;
}
switch (g_ObjectInfo[x].usType) {
case OI_UNKNOWN:
case OI_PROPERTYPAGE:
UnregisterUnknownObject(CLSIDOFOBJECT(x));
break;
case OI_CONTROL:
UnregisterControlObject(g_szLibName, NAMEOFOBJECT(x),
VERSIONOFOBJECT(x), CLSIDOFOBJECT(x));
case OI_AUTOMATION:
UnregisterAutomationObject(g_szLibName, NAMEOFOBJECT(x),
VERSIONOFOBJECT(x), CLSIDOFOBJECT(x));
break;
}
x++;
}
/*
* if we've got one, unregister our type library [this isn't an API
* function -- we've implemented this ourselves]
*/
if (g_pLibid)
UnregisterTypeLibrary(*g_pLibid);
return S_OK;
}
//=--------------------------------------------------------------------------=
// UnregisterData
//=--------------------------------------------------------------------------=
// inproc server writers should unregister anything they registered in
// RegisterData() here.
//
// Output:
// BOOL - false means failure.
BOOL UnregisterData(void)
{
HRESULT hr;
hr = UnRegisterCLSIDInCategory(CLSID_HHCtrl, CATID_SafeForScripting);
hr = UnRegisterCLSIDInCategory(CLSID_HHCtrl, CATID_SafeForInitializing);
return TRUE;
}
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