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WindowsXP-SP1/shell/shell32/ctrlfldr.cpp

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#include "shellprv.h"
#include "caggunk.h"
#include "views.h"
#include "ids.h"
#include "shitemid.h"
#include "datautil.h"
#include "clsobj.h"
#include "control.h"
#include "drives.h"
#include "infotip.h"
#include "prop.h" // COLUMN_INFO
#include "basefvcb.h"
#include "fstreex.h"
#include "idhidden.h"
#include "shstyle.h"
#include "util.h" // GetVariantFromRegistryValue
#define GADGET_ENABLE_TRANSITIONS
#define GADGET_ENABLE_CONTROLS
#define GADGET_ENABLE_OLE
#include <duser.h>
#include <directui.h>
#include <duserctrl.h>
#include "cpview.h"
#include "cputil.h"
//
// An array of pidls
//
typedef CPL::CDpa<UNALIGNED ITEMIDLIST, CPL::CDpaDestroyer_ILFree<UNALIGNED ITEMIDLIST> > CDpaItemIDList;
#define MAX_CPL_EXEC_NAME (1 + MAX_PATH + 2 + MAX_CCH_CPLNAME) //See wnsprintf in GetExecName
STDAPI_(BOOL) IsNameListedUnderKey(LPCTSTR pszFileName, LPCTSTR pszKey);
#pragma pack(1)
// our pidc type:
typedef struct _IDCONTROL
{
USHORT cb;
USHORT wDummy; // DONT REUSE - was stack garbage pre-XP
int idIcon;
USHORT oName; // cBuf[oName] is start of NAME
USHORT oInfo; // cBuf[oInfo] is start of DESCRIPTION
CHAR cBuf[MAX_PATH+MAX_CCH_CPLNAME+MAX_CCH_CPLINFO]; // cBuf[0] is the start of FILENAME
} IDCONTROL;
typedef UNALIGNED struct _IDCONTROL *LPIDCONTROL;
typedef struct _IDCONTROLW
{
USHORT cb;
USHORT wDummy; // DONT REUSE - was stack garbage pre-XP
int idIcon;
USHORT oName; // if Unicode .cpl, this will be 0
USHORT oInfo; // if Unicode .cpl, this will be 0
CHAR cBuf[2]; // if Unicode .cpl, cBuf[0] = '\0', cBuf[1] = magic byte
USHORT wDummy2; // DONT REUSE - was stack garbage pre-XP
DWORD dwFlags; // Unused; for future expansion
USHORT oNameW; // cBufW[oNameW] is start of NAME
USHORT oInfoW; // cBufW[oInfoW] is start of DESCRIPTION
WCHAR cBufW[MAX_PATH+MAX_CCH_CPLNAME+MAX_CCH_CPLINFO]; // cBufW[0] is the start of FILENAME
} IDCONTROLW;
typedef UNALIGNED struct _IDCONTROLW *LPIDCONTROLW;
#pragma pack()
#ifdef DEBUG
// our pidc type:
typedef struct _IDCONTROLDEBUG
{
USHORT cb;
int idIcon;
USHORT oName; // cBuf[oName] is start of NAME
USHORT oInfo; // cBuf[oInfo] is start of DESCRIPTION
CHAR cBuf[MAX_PATH+MAX_CCH_CPLNAME+MAX_CCH_CPLINFO]; // cBuf[0] is the start of FILENAME
} IDCONTROLDEBUG;
typedef struct _IDCONTROLWDEBUG
{
USHORT cb;
int idIcon;
USHORT oName; // if Unicode .cpl, this will be 0
USHORT oInfo; // if Unicode .cpl, this will be 0
CHAR cBuf[2]; // if Unicode .cpl, cBuf[0] = '\0', cBuf[1] = magic byte
DWORD dwFlags; // Unused; for future expansion
USHORT oNameW; // cBufW[oNameW] is start of NAME
USHORT oInfoW; // cBufW[oInfoW] is start of DESCRIPTION
WCHAR cBufW[MAX_PATH+MAX_CCH_CPLNAME+MAX_CCH_CPLINFO]; // cBufW[0] is the start of FILENAME
} IDCONTROLWDEBUG;
void ValidateControlIDStructs()
{
COMPILETIME_ASSERT(sizeof(IDCONTROL) == sizeof(IDCONTROLDEBUG));
COMPILETIME_ASSERT(sizeof(IDCONTROLW) == sizeof(IDCONTROLWDEBUG));
}
#endif DEBUG
// Unicode IDCONTROLs will be flagged by having oName = 0, oInfo = 0,
// cBuf[0] = '\0', and cBuf[1] = UNICODE_CPL_SIGNATURE_BYTE
STDAPI ControlExtractIcon_CreateInstance(LPCTSTR pszSubObject, REFIID riid, void **ppv);
class CControlPanelViewCallback;
class CControlPanelFolder : public CAggregatedUnknown, public IShellFolder2, IPersistFolder2
{
friend CControlPanelViewCallback;
public:
// IUknown
STDMETHODIMP QueryInterface(REFIID riid, void **ppv) { return CAggregatedUnknown::QueryInterface(riid, ppv); };
STDMETHODIMP_(ULONG) AddRef(void) { return CAggregatedUnknown::AddRef(); };
STDMETHODIMP_(ULONG) Release(void) { return CAggregatedUnknown::Release(); };
// IShellFolder
STDMETHODIMP ParseDisplayName(HWND hwnd, LPBC pbc, LPOLESTR lpszDisplayName,
ULONG* pchEaten, LPITEMIDLIST* ppidl, ULONG* pdwAttributes);
STDMETHODIMP EnumObjects(HWND hwnd, DWORD grfFlags, LPENUMIDLIST* ppenumIDList);
STDMETHODIMP BindToObject(LPCITEMIDLIST pidl, LPBC pbc, REFIID riid, void** ppv);
STDMETHODIMP BindToStorage(LPCITEMIDLIST pidl, LPBC pbc, REFIID riid, void** ppv);
STDMETHODIMP CompareIDs(LPARAM lParam, LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2);
STDMETHODIMP CreateViewObject (HWND hwndOwner, REFIID riid, void** ppv);
STDMETHODIMP GetAttributesOf(UINT cidl, LPCITEMIDLIST* apidl, ULONG* rgfInOut);
STDMETHODIMP GetUIObjectOf(HWND hwndOwner, UINT cidl, LPCITEMIDLIST* apidl,
REFIID riid, UINT* prgfInOut, void** ppv);
STDMETHODIMP GetDisplayNameOf(LPCITEMIDLIST pidl, DWORD uFlags, LPSTRRET lpName);
STDMETHODIMP SetNameOf(HWND hwnd, LPCITEMIDLIST pidl, LPCOLESTR lpszName, DWORD uFlags,
LPITEMIDLIST* ppidlOut);
// IShellFolder2
STDMETHODIMP GetDefaultSearchGUID(GUID *pGuid);
STDMETHODIMP EnumSearches(IEnumExtraSearch **ppenum);
STDMETHODIMP GetDefaultColumn(DWORD dwRes, ULONG* pSort, ULONG* pDisplay);
STDMETHODIMP GetDefaultColumnState(UINT iColumn, DWORD* pbState);
STDMETHODIMP GetDetailsEx(LPCITEMIDLIST pidl, const SHCOLUMNID* pscid, VARIANT* pv);
STDMETHODIMP GetDetailsOf(LPCITEMIDLIST pidl, UINT iColumn, SHELLDETAILS* pDetails);
STDMETHODIMP MapColumnToSCID(UINT iColumn, SHCOLUMNID* pscid);
// IPersist
STDMETHODIMP GetClassID(CLSID* pClassID);
// IPersistFolder
STDMETHODIMP Initialize(LPCITEMIDLIST pidl);
// IPersistFolder2
STDMETHODIMP GetCurFolder(LPITEMIDLIST* ppidl);
protected:
CControlPanelFolder(IUnknown* punkOuter);
~CControlPanelFolder();
// used by the CAggregatedUnknown stuff
HRESULT v_InternalQueryInterface(REFIID riid, void** ppv);
static void GetExecName(LPIDCONTROL pidc, LPTSTR pszParseName, UINT cchParseName);
static HRESULT GetModuleMapped(LPIDCONTROL pidc, LPTSTR pszModule, UINT cchModule,
UINT* pidNewIcon, LPTSTR pszApplet, UINT cchApplet);
static void GetDisplayName(LPIDCONTROL pidc, LPTSTR pszName, UINT cchName);
static void GetModule(LPIDCONTROL pidc, LPTSTR pszModule, UINT cchModule);
static void _GetDescription(LPIDCONTROL pidc, LPTSTR pszDesc, UINT cchDesc);
static void _GetFullCPLName(LPIDCONTROL pidc, LPTSTR achKeyValName, UINT cchSize);
BOOL _GetExtPropRegValName(HKEY hkey, LPTSTR pszExpandedName, LPTSTR pszRegValName, UINT cch);
static BOOL _GetExtPropsKey(HKEY hkeyParent, HKEY * pHkey, const SHCOLUMNID * pscid);
static LPIDCONTROL _IsValid(LPCITEMIDLIST pidl);
static LPIDCONTROLW _IsUnicodeCPL(LPIDCONTROL pidc);
LPCITEMIDLIST GetIDList() { return _pidl; }
private:
friend HRESULT CControlPanel_CreateInstance(IUnknown* punkOuter, REFIID riid, void** ppv);
static HRESULT CALLBACK DFMCallBack(IShellFolder *psf, HWND hwndView,
IDataObject *pdtobj, UINT uMsg,
WPARAM wParam, LPARAM lParam);
HRESULT _GetDisplayNameForSelf(DWORD dwFlags, STRRET* pstrret);
LPITEMIDLIST _pidl;
IUnknown* _punkReg;
HDSA _hdsaExtPropRegVals; // Array of EPRV_CACHE_ENTRY.
//
// An entry in the Extended Property Reg Values cache.
// This cache is used to minimize the amount of path 'normalization'
// done when comparing CPL applet paths with the corresponding paths
// stored for categorization.
//
struct EPRV_CACHE_ENTRY
{
LPTSTR pszRegValName;
LPTSTR pszRegValNameNormalized;
};
DWORD _InitExtPropRegValNameCache(HKEY hkey);
BOOL _LookupExtPropRegValName(HKEY hkey, LPTSTR pszSearchKeyNormalized, LPTSTR pszRegValName, UINT cch);
DWORD _CacheExtPropRegValName(LPCTSTR pszRegValNameNormalized, LPCTSTR pszRegValName);
static int CALLBACK _DestroyExtPropsRegValEntry(void *p, void *pData);
static INT _FilterStackOverflow(INT nException);
DWORD _NormalizeCplSpec(LPTSTR pszSpecIn, LPTSTR pszSpecOut, UINT cchSpecOut);
DWORD _NormalizePath(LPCTSTR pszPathIn, LPTSTR pszPathOut, UINT cchPathOut);
DWORD _NormalizePathWorker(LPCTSTR pszPathIn, LPTSTR pszPathOut, UINT cchPathOut);
void _TrimSpaces(LPTSTR psz);
};
class CControlPanelEnum : public IEnumIDList
{
public:
// IUnknown
STDMETHODIMP QueryInterface(REFIID riid, void **ppv);
STDMETHODIMP_(ULONG) AddRef();
STDMETHODIMP_(ULONG) Release();
// IEnumIDList
STDMETHODIMP Next(ULONG celt, LPITEMIDLIST *rgelt, ULONG *pceltFetched);
STDMETHODIMP Skip(ULONG celt) { return E_NOTIMPL; };
STDMETHODIMP Reset();
STDMETHODIMP Clone(IEnumIDList **ppenum) { return E_NOTIMPL; };
CControlPanelEnum(UINT uFlags);
HRESULT Init();
private:
~CControlPanelEnum();
BOOL _DoesPolicyAllow(LPCTSTR pszName, LPCTSTR pszFileName);
LONG _cRef;
ULONG _uFlags;
int _iModuleCur;
int _cControlsOfCurrentModule;
int _iControlCur;
int _cControlsTotal;
int _iRegControls;
MINST _minstCur;
ControlData _cplData;
};
//
// This handler isn't defined in shlobjp.h.
// The only reason I can see is that it references DUI::Element.
//
#define HANDLE_SFVM_GETWEBVIEWBARRICADE(pv, wP, lP, fn) \
((fn)((pv), (DUI::Element**)(lP)))
class CControlPanelViewCallback : public CBaseShellFolderViewCB
{
public:
CControlPanelViewCallback(CControlPanelFolder *pcpf)
: _pcpf(pcpf),
CBaseShellFolderViewCB(pcpf->GetIDList(), SHCNE_UPDATEITEM),
_pCplView(NULL),
_penumWvInfo(NULL)
{
TraceMsg(TF_LIFE, "CControlPanelViewCallback::CControlPanelViewCallback, this = 0x%x", this);
_pcpf->AddRef();
}
STDMETHODIMP RealMessage(UINT uMsg, WPARAM wParam, LPARAM lParam);
private:
~CControlPanelViewCallback()
{
TraceMsg(TF_LIFE, "CControlPanelViewCallback::~CControlPanelViewCallback, this = 0x%x", this);
_pcpf->Release();
ATOMICRELEASE(_penumWvInfo);
ATOMICRELEASE(_pCplView);
}
HRESULT OnMergeMenu(DWORD pv, QCMINFO*lP)
{
return S_OK;
}
HRESULT OnSize(DWORD pv, UINT cx, UINT cy)
{
ResizeStatus(_punkSite, cx);
return S_OK;
}
HRESULT OnGetPane(DWORD pv, LPARAM dwPaneID, DWORD *pdwPane)
{
if (PANE_ZONE == dwPaneID)
*pdwPane = 2;
return S_OK;
}
HRESULT _OnSFVMGetHelpTopic(DWORD pv, SFVM_HELPTOPIC_DATA * phtd);
HRESULT _OnSFVMForceWebView(DWORD pv, PBOOL bForceWebView);
HRESULT _OnSFVMGetWebViewLayout(DWORD pv, UINT uViewMode, SFVM_WEBVIEW_LAYOUT_DATA* pData);
HRESULT _OnSFVMGetWebViewBarricade(DWORD pv, DUI::Element **ppe);
HRESULT _OnSFVMGetWebViewContent(DWORD pv, SFVM_WEBVIEW_CONTENT_DATA *pData);
HRESULT _OnSFVMEnumWebViewTasks(DWORD pv, SFVM_WEBVIEW_ENUMTASKSECTION_DATA *pData);
HRESULT _OnSFVMWindowDestroy(DWORD pv, HWND hwnd);
HRESULT _OnSFVMUpdateStatusBar(DWORD pv, BOOL bInitialize);
HRESULT _GetCplView(CPL::ICplView **ppView, bool bInitialize = false);
HRESULT _GetCplCategoryFromFolderIDList(CPL::eCPCAT *peCategory);
HRESULT _GetWebViewInfoEnumerator(CPL::IEnumCplWebViewInfo **ppewvi);
HRESULT _EnumFolderViewIDs(IEnumIDList **ppenumIDs);
CControlPanelFolder *_pcpf;
CPL::ICplView *_pCplView; // The 'categorized' view content
CPL::IEnumCplWebViewInfo *_penumWvInfo;
};
STDMETHODIMP CControlPanelViewCallback::RealMessage(UINT uMsg, WPARAM wParam, LPARAM lParam)
{
switch (uMsg)
{
HANDLE_MSG(0, SFVM_MERGEMENU, OnMergeMenu);
HANDLE_MSG(0, SFVM_ADDPROPERTYPAGES, SFVCB_OnAddPropertyPages);
HANDLE_MSG(0, SFVM_SIZE, OnSize);
HANDLE_MSG(0, SFVM_GETPANE, OnGetPane);
HANDLE_MSG(0, SFVM_GETHELPTOPIC, _OnSFVMGetHelpTopic);
HANDLE_MSG(0, SFVM_FORCEWEBVIEW, _OnSFVMForceWebView);
HANDLE_MSG(0, SFVM_GETWEBVIEWLAYOUT, _OnSFVMGetWebViewLayout);
HANDLE_MSG(0, SFVM_GETWEBVIEWBARRICADE, _OnSFVMGetWebViewBarricade);
HANDLE_MSG(0, SFVM_GETWEBVIEWCONTENT, _OnSFVMGetWebViewContent);
HANDLE_MSG(0, SFVM_ENUMWEBVIEWTASKS, _OnSFVMEnumWebViewTasks);
HANDLE_MSG(0, SFVM_WINDOWDESTROY, _OnSFVMWindowDestroy);
HANDLE_MSG(0, SFVM_UPDATESTATUSBAR, _OnSFVMUpdateStatusBar);
default:
return E_FAIL;
}
return S_OK;
}
HRESULT
CControlPanelViewCallback::_OnSFVMGetHelpTopic(
DWORD pv,
SFVM_HELPTOPIC_DATA *phtd
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMGetHelpTopic");
ASSERT(NULL != phtd);
ASSERT(!IsBadWritePtr(phtd, sizeof(*phtd)));
UNREFERENCED_PARAMETER(pv);
HRESULT hr = E_FAIL;
phtd->wszHelpFile[0] = L'\0';
phtd->wszHelpTopic[0] = L'\0';
if (IsOS(OS_ANYSERVER))
{
//
// Server has a fixed help URL so we can simply
// copy it.
//
lstrcpynW(phtd->wszHelpTopic,
L"hcp://services/centers/homepage",
ARRAYSIZE(phtd->wszHelpTopic));
hr = S_OK;
}
else
{
if (CPL::CategoryViewIsActive(NULL))
{
//
// Category view is active.
// Retrieve help URL from the view object.
//
CPL::ICplView *pView;
hr = _GetCplView(&pView);
if (SUCCEEDED(hr))
{
CPL::eCPCAT eCategory;
hr = _GetCplCategoryFromFolderIDList(&eCategory);
if (S_OK == hr)
{
//
// We're viewing a Control Panel category page.
// Ask the view for the help URL for this category.
//
hr = pView->GetCategoryHelpURL(eCategory,
phtd->wszHelpTopic,
ARRAYSIZE(phtd->wszHelpTopic));
}
ATOMICRELEASE(pView);
}
}
if (L'\0' == phtd->wszHelpTopic[0])
{
//
// Either we're in 'classic' view, the 'category choice' page
// or something failed above. Return the URL for the basic
// Control Panel help.
//
hr = CPL::BuildHssHelpURL(NULL, phtd->wszHelpTopic, ARRAYSIZE(phtd->wszHelpTopic));
}
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMGetHelpTopic", hr);
return THR(hr);
}
//
// Defview sends SFVM_ENUMWEBVIEWTASKS repeatedly until
// we set the SFVMWVF_NOMORETASKS flag in the data. With each call we
// return data describing a single menu (caption and items) in the
// webview pane.
//
HRESULT
CControlPanelViewCallback::_OnSFVMEnumWebViewTasks(
DWORD pv,
SFVM_WEBVIEW_ENUMTASKSECTION_DATA *pData
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMEnumWebViewTasks");
ASSERT(NULL != pData);
ASSERT(!IsBadWritePtr(pData, sizeof(*pData)));
UNREFERENCED_PARAMETER(pv);
HRESULT hr = S_OK;
if (NULL == _penumWvInfo)
{
hr = _GetWebViewInfoEnumerator(&_penumWvInfo);
}
if (SUCCEEDED(hr))
{
ASSERT(NULL != _penumWvInfo);
CPL::ICplWebViewInfo *pwvi;
hr = _penumWvInfo->Next(1, &pwvi, NULL);
if (S_OK == hr)
{
ASSERT(NULL == pData->pHeader);
hr = pwvi->get_Header(&(pData->pHeader));
if (SUCCEEDED(hr))
{
ASSERT(NULL == pData->penumTasks);
hr = pwvi->EnumTasks(&(pData->penumTasks));
if (SUCCEEDED(hr))
{
DWORD dwStyle = 0;
hr = pwvi->get_Style(&dwStyle);
if (SUCCEEDED(hr))
{
//
// ISSUE-2001/01/02-BrianAu Revisit this.
// I don't like using an SFVMWVF_XXXXXX flag in the
// dwStyle returned by get_Style. That style should
// be defined independently of any SFVMWVF_XXXXX
// flags then translated appropriately here.
//
pData->idBitmap = 0; // Default is no bitmap.
pData->idWatermark = 0; // No watermark used.
if (SFVMWVF_SPECIALTASK & dwStyle)
{
pData->dwFlags |= SFVMWVF_SPECIALTASK;
pData->idBitmap = IDB_CPANEL_ICON_BMP;
}
}
}
}
ATOMICRELEASE(pwvi);
}
else if (S_FALSE == hr)
{
//
// Tell defview the enumeration is complete.
// Release the info enumerator.
//
pData->dwFlags = SFVMWVF_NOMORETASKS;
ATOMICRELEASE(_penumWvInfo);
}
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMEnumWebViewTasks", hr);
return THR(hr);
}
//
// Retrieves the proper enumerator of webview information.
//
HRESULT
CControlPanelViewCallback::_GetWebViewInfoEnumerator(
CPL::IEnumCplWebViewInfo **ppewvi
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_GetWebViewInfoEnumerator");
ASSERT(NULL != ppewvi);
ASSERT(!IsBadWritePtr(ppewvi, sizeof(*ppewvi)));
CPL::ICplView *pView;
HRESULT hr = _GetCplView(&pView);
if (SUCCEEDED(hr))
{
DWORD dwFlags = 0;
bool bBarricadeFixedByPolicy;
bool bCategoryViewActive = CPL::CategoryViewIsActive(&bBarricadeFixedByPolicy);
if (bBarricadeFixedByPolicy)
{
//
// If the view type is fixed by policy, we don't present
// controls that allow the user to switch view types.
//
dwFlags |= CPVIEW_EF_NOVIEWSWITCH;
}
if (bCategoryViewActive)
{
CPL::eCPCAT eCategory;
hr = _GetCplCategoryFromFolderIDList(&eCategory);
if (SUCCEEDED(hr))
{
if (S_OK == hr)
{
//
// Displaying a category page.
//
hr = pView->EnumCategoryWebViewInfo(dwFlags, eCategory, ppewvi);
}
else
{
//
// Displaying category choice page.
//
hr = pView->EnumCategoryChoiceWebViewInfo(dwFlags, ppewvi);
}
}
}
else
{
//
// Displaying classic view.
//
hr = pView->EnumClassicWebViewInfo(dwFlags, ppewvi);
}
ATOMICRELEASE(pView);
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_GetWebViewInfoEnumerator", hr);
return THR(hr);
}
//
// Get a pointer to the CCplView object. If the object is not yet created,
// create one.
//
HRESULT
CControlPanelViewCallback::_GetCplView(
CPL::ICplView **ppView,
bool bInitialize
)
{
HRESULT hr = S_OK;
*ppView = NULL;
IEnumIDList *penumIDs = NULL;
if (NULL == _pCplView || bInitialize)
{
//
// If creating a new view object or reinitializing an
// existing view object, we'll need the most recent list of
// folder item IDs.
//
hr = _EnumFolderViewIDs(&penumIDs);
}
if (SUCCEEDED(hr))
{
if (NULL == _pCplView)
{
//
// Create a new view object.
// Give the view CB's site pointer to the CplView object.
// This is then used to initialize the various command objects
// contained in the CCplNamespace object. Some of these command objects
// need access to the shell browser. The most generic method of
// providing this access was to use the site mechanism.
//
IUnknown *punkSite;
hr = GetSite(IID_IUnknown, (void **)&punkSite);
if (SUCCEEDED(hr))
{
hr = CPL::CplView_CreateInstance(penumIDs, punkSite, CPL::IID_ICplView, (void **)&_pCplView);
ATOMICRELEASE(punkSite);
}
}
else if (bInitialize)
{
//
// Reinitialize the existing view object.
//
hr = _pCplView->RefreshIDs(penumIDs);
}
}
if (SUCCEEDED(hr))
{
//
// Create a reference for the caller.
//
(*ppView = _pCplView)->AddRef();
}
ATOMICRELEASE(penumIDs);
return THR(hr);
}
//
// Get a Category ID number based on the folder's current ID list.
// The Control Panel ID list uses a hidden part to store the
// 'category' ID. The ID is simply one of the eCPCAT enumeration.
// It is added to the ID list in CPL::COpenCplCategory::Execute().
// This function returns:
//
// S_OK - *peCategory contains a valid category ID.
// S_FALSE - folder ID list did not contain a category ID.
// E_FAIL - folder ID list contains an invalid category ID.
//
HRESULT
CControlPanelViewCallback::_GetCplCategoryFromFolderIDList(
CPL::eCPCAT *peCategory
)
{
ASSERT(NULL != peCategory);
ASSERT(!IsBadWritePtr(peCategory, sizeof(*peCategory)));
HRESULT hr = S_FALSE;
CPL::eCPCAT eCategory = CPL::eCPCAT(-1);
WCHAR szHidden[10];
szHidden[0] = L'\0';
ILGetHiddenStringW(_pcpf->GetIDList(), IDLHID_NAVIGATEMARKER, szHidden, ARRAYSIZE(szHidden));
if (L'\0' != szHidden[0])
{
eCategory = CPL::eCPCAT(StrToInt(szHidden));
if (CPL::eCPCAT_NUMCATEGORIES > eCategory)
{
hr = S_OK;
}
else
{
hr = E_FAIL;
}
}
*peCategory = eCategory;
return THR(hr);
}
HRESULT
CControlPanelViewCallback::_EnumFolderViewIDs(
IEnumIDList **ppenumIDs
)
{
IUnknown *punkSite;
HRESULT hr = THR(GetSite(IID_IUnknown, (void **)&punkSite));
if (SUCCEEDED(hr))
{
IDVGetEnum *pdvge; // private defview interface
hr = THR(IUnknown_QueryService(punkSite, SID_SFolderView, IID_PPV_ARG(IDVGetEnum, &pdvge)));
if (SUCCEEDED(hr))
{
const DWORD dwEnumFlags = SHCONTF_NONFOLDERS | SHCONTF_FOLDERS;
hr = THR(pdvge->CreateEnumIDListFromContents(_pidl, dwEnumFlags, ppenumIDs));
pdvge->Release();
}
punkSite->Release();
}
return THR(hr);
}
//
// DefView calls this to obtain information about the view CB's webview
// content.
//
HRESULT
CControlPanelViewCallback::_OnSFVMGetWebViewContent(
DWORD pv,
SFVM_WEBVIEW_CONTENT_DATA *pData
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMGetWebViewContent");
ASSERT(NULL != pData);
ASSERT(!IsBadWritePtr(pData, sizeof(*pData)));
UNREFERENCED_PARAMETER(pv);
HRESULT hr = S_OK;
//
// Tell defview...
//
// 1. We'll provide a 'barricade' if we're in 'category' view mode.
// Our 'barricade' is 'category' view.
// 2. We'll enumerate a set of non-standard webview tasks regardless
// of the view mode. One of these tasks is to switch between 'classic'
// view and 'category' view.
//
ZeroMemory(pData, sizeof(*pData));
pData->dwFlags = SFVMWVF_ENUMTASKS | SFVMWVF_CONTENTSCHANGE;
if (CPL::CategoryViewIsActive(NULL))
{
pData->dwFlags |= SFVMWVF_BARRICADE;
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMGetWebViewContent", hr);
return THR(hr);
}
//
// SFVM_UPDATESTATUSBAR handler.
// In 'Category' view, we want no status bar content.
// In 'Classic' view, we want the standard content produced by defview.
//
HRESULT
CControlPanelViewCallback::_OnSFVMUpdateStatusBar(
DWORD pv,
BOOL bInitialize
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMUpdateStatusBar");
HRESULT hr;
if (CPL::CategoryViewIsActive(NULL))
{
//
// 'Category' view.
// Simply return S_OK. DefView has already cleared the statusbar.
// Returning S_OK tells DefView that we'll set the status text ourselves.
// Therefore, by not setting anything, the statusbar remains empty.
//
hr = S_OK;
}
else
{
//
// 'Classic' view. Returning an error code tells defview
// to handle all the status bar content.
//
hr = E_NOTIMPL;
}
ASSERT(S_OK == hr || E_NOTIMPL == hr);
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMUpdateStatusBar", hr);
return hr;
}
//
// Selectively disable web view for this folder (WOW64 thing for the 32-bit
// control panel.
//
HRESULT
CControlPanelViewCallback::_OnSFVMForceWebView(
DWORD pv,
PBOOL pfForce
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMForceWebView");
ASSERT(NULL != pfForce);
ASSERT(!IsBadWritePtr(pfForce, sizeof(*pfForce)));
UNREFERENCED_PARAMETER(pv);
HRESULT hr;
if (IsOS(OS_WOW6432))
{
*pfForce = FALSE;
hr = S_OK;
}
else
{
hr = E_FAIL;
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMForceWebView", hr);
return hr;
}
//
// Tell defview we're DUI (avoids extra legacy work on defview side)
//
HRESULT
CControlPanelViewCallback::_OnSFVMGetWebViewLayout(
DWORD pv,
UINT uViewMode,
SFVM_WEBVIEW_LAYOUT_DATA* pData)
{
ZeroMemory(pData, sizeof(*pData));
pData->dwLayout = SFVMWVL_NORMAL;
return S_OK;
}
//
// Provide the barricade DUI element. In Control Panel, our 'barricade'
// is simply our 'Category' view. We inspect the folder's pidl to determine
// if we display the 'category choice' view or a view for a specific
// category.
//
HRESULT
CControlPanelViewCallback::_OnSFVMGetWebViewBarricade(
DWORD pv,
DUI::Element **ppe
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMGetWebViewBarricade");
ASSERT(NULL != ppe);
ASSERT(!IsBadWritePtr(ppe, sizeof(*ppe)));
UNREFERENCED_PARAMETER(pv);
*ppe = NULL;
CPL::ICplView *pView;
HRESULT hr = _GetCplView(&pView, true);
if (SUCCEEDED(hr))
{
CPL::eCPCAT eCategory;
hr = _GetCplCategoryFromFolderIDList(&eCategory);
if (SUCCEEDED(hr))
{
if (S_OK == hr)
{
hr = pView->CreateCategoryElement(eCategory, ppe);
}
else
{
hr = pView->CreateCategoryChoiceElement(ppe);
}
}
ATOMICRELEASE(pView);
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMGetWebViewBarricade", hr);
return THR(hr);
}
HRESULT
CControlPanelViewCallback::_OnSFVMWindowDestroy(
DWORD pv,
HWND hwnd
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMWindowDestroy");
UNREFERENCED_PARAMETER(pv);
UNREFERENCED_PARAMETER(hwnd);
HRESULT hr = S_OK;
//
// Need to destroy these in response to window destruction so
// we break the site chains. If we don't do this, the
// CDefView dtor is never called because our namespace
// objects have outstanding references to CDefView.
//
ATOMICRELEASE(_penumWvInfo);
ATOMICRELEASE(_pCplView);
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelViewCallback::_OnSFVMWindowDestroy", hr);
return THR(hr);
}
// column IDs
typedef enum
{
CPL_ICOL_NAME = 0,
CPL_ICOL_COMMENT,
};
const COLUMN_INFO c_cpl_cols[] =
{
DEFINE_COL_STR_ENTRY(SCID_NAME, 20, IDS_NAME_COL),
DEFINE_COL_STR_ENTRY(SCID_Comment, 20, IDS_EXCOL_COMMENT),
};
#define PRINTERS_SORT_INDEX 45
const REQREGITEM c_asControlPanelReqItems[] =
{
{ &CLSID_Printers, IDS_PRNANDFAXFOLDER, c_szShell32Dll, -IDI_PRNFLD, PRINTERS_SORT_INDEX, SFGAO_DROPTARGET | SFGAO_FOLDER, NULL},
};
CControlPanelFolder::CControlPanelFolder(IUnknown* punkOuter) :
CAggregatedUnknown (punkOuter),
_pidl (NULL),
_punkReg (NULL),
_hdsaExtPropRegVals (NULL)
{
}
CControlPanelFolder::~CControlPanelFolder()
{
if (NULL != _hdsaExtPropRegVals)
{
DSA_DestroyCallback(_hdsaExtPropRegVals,
_DestroyExtPropsRegValEntry,
NULL);
}
if (NULL != _pidl)
{
ILFree(_pidl);
}
SHReleaseInnerInterface(SAFECAST(this, IShellFolder *), &_punkReg);
}
#define REGSTR_POLICIES_RESTRICTCPL REGSTR_PATH_POLICIES TEXT("\\Explorer\\RestrictCpl")
#define REGSTR_POLICIES_DISALLOWCPL REGSTR_PATH_POLICIES TEXT("\\Explorer\\DisallowCpl")
HRESULT CControlPanel_CreateInstance(IUnknown* punkOuter, REFIID riid, void** ppvOut)
{
CControlPanelFolder* pcpf = new CControlPanelFolder(punkOuter);
if (NULL != pcpf)
{
static REGITEMSPOLICY ripControlPanel =
{
REGSTR_POLICIES_RESTRICTCPL,
REST_RESTRICTCPL,
REGSTR_POLICIES_DISALLOWCPL,
REST_DISALLOWCPL
};
REGITEMSINFO riiControlPanel =
{
REGSTR_PATH_EXPLORER TEXT("\\ControlPanel\\NameSpace"),
&ripControlPanel,
TEXT(':'),
SHID_CONTROLPANEL_REGITEM_EX, // note, we don't really have a sig
1,
SFGAO_CANLINK,
ARRAYSIZE(c_asControlPanelReqItems),
c_asControlPanelReqItems,
RIISA_ALPHABETICAL,
NULL,
// we want everything from after IDREGITEM.bOrder to the first 2 cBuf bytes to be filled with 0's
(FIELD_OFFSET(IDCONTROL, cBuf) + 2) - (FIELD_OFFSET(IDREGITEM, bOrder) + 1),
SHID_CONTROLPANEL_REGITEM,
};
if (IsOS(OS_WOW6432))
{
// The crippled 32-bit control panel on IA64 should show less/other stuff
riiControlPanel.pszRegKey = REGSTR_PATH_EXPLORER TEXT("\\ControlPanelWOW64\\NameSpace");
riiControlPanel.iReqItems = 0;
}
//
// we dont want to return a naked
// control panel folder. this should
// only fail with memory probs.
//
HRESULT hr = CRegFolder_CreateInstance(&riiControlPanel, (IUnknown*) (IShellFolder2*) pcpf,
IID_IUnknown, (void **) &(pcpf->_punkReg));
if (SUCCEEDED(hr))
{
hr = pcpf->QueryInterface(riid, ppvOut);
}
pcpf->Release();
return hr;
}
*ppvOut = NULL;
return E_OUTOFMEMORY;
}
HRESULT CControlPanelFolder::v_InternalQueryInterface(REFIID riid, void **ppv)
{
static const QITAB qit[] = {
QITABENT(CControlPanelFolder, IShellFolder2), // IID_IShellFolder2
QITABENTMULTI(CControlPanelFolder, IShellFolder, IShellFolder2), // IID_IShellFolder
QITABENT(CControlPanelFolder, IPersistFolder2), // IID_IPersistFolder2
QITABENTMULTI(CControlPanelFolder, IPersistFolder, IPersistFolder2), // IID_IPersistFolder
QITABENTMULTI(CControlPanelFolder, IPersist, IPersistFolder2), // IID_IPersist
{ 0 },
};
if (_punkReg && RegGetsFirstShot(riid))
{
return _punkReg->QueryInterface(riid, ppv);
}
else
{
return QISearch(this, qit, riid, ppv);
}
}
// Unicode .cpl's will be flagged by having oName = 0, oInfo = 0,
// cBuf[0] = '\0', and cBuf[1] = UNICODE_CPL_SIGNATURE_BYTE
#define UNICODE_CPL_SIGNATURE_BYTE (BYTE)0x6a
LPIDCONTROLW CControlPanelFolder::_IsUnicodeCPL(LPIDCONTROL pidc)
{
ASSERT(_IsValid((LPCITEMIDLIST)pidc));
if ((pidc->oName == 0) && (pidc->oInfo == 0) && (pidc->cBuf[0] == '\0') && (pidc->cBuf[1] == UNICODE_CPL_SIGNATURE_BYTE))
return (LPIDCONTROLW)pidc;
return NULL;
}
HRESULT _IDControlCreateW(PCWSTR pszModule, int idIcon, PCWSTR pszName, PCWSTR pszInfo, LPITEMIDLIST *ppidl)
{
UINT cbModule = CbFromCchW(lstrlen(pszModule) + 1);
UINT cbName = CbFromCchW(lstrlen(pszName) + 1);
UINT cbInfo = CbFromCchW(lstrlen(pszInfo) + 1);
UINT cbIDC = FIELD_OFFSET(IDCONTROLW, cBufW) + cbModule + cbName + cbInfo;
*ppidl = _ILCreate(cbIDC + sizeof(USHORT));
if (*ppidl)
{
IDCONTROLW *pidc = (IDCONTROLW *) *ppidl;
// init the static bits (ILCreate() zero inits)
pidc->idIcon = idIcon;
// pidc->oName = 0;
// pidc->oInfo = 0;
// pidc->cBuf[0] = '\0';
pidc->cBuf[1] = UNICODE_CPL_SIGNATURE_BYTE;
// pidc->dwFlags = 0;
// copy module
ualstrcpy(pidc->cBufW, pszModule);
// copy name
pidc->oNameW = (USHORT)(cbModule / sizeof(pszModule[0]));
ualstrcpy(pidc->cBufW + pidc->oNameW, pszName);
// copy info
pidc->oInfoW = pidc->oNameW + (USHORT)(cbName / sizeof(pszName[0]));
ualstrcpy(pidc->cBufW + pidc->oInfoW, pszInfo);
pidc->cb = (USHORT)cbIDC;
return S_OK;
}
return E_OUTOFMEMORY;
}
HRESULT _IDControlCreateA(PCSTR pszModule, int idIcon, PCSTR pszName, PCSTR pszInfo, LPITEMIDLIST *ppidl)
{
UINT cbModule = CbFromCchA(lstrlenA(pszModule) + 1);
UINT cbName = CbFromCchA(lstrlenA(pszName) + 1);
UINT cbInfo = CbFromCchA(lstrlenA(pszInfo) + 1);
UINT cbIDC = FIELD_OFFSET(IDCONTROL, cBuf) + cbModule + cbName + cbInfo;
*ppidl = _ILCreate(cbIDC + sizeof(USHORT));
if (*ppidl)
{
IDCONTROL *pidc = (IDCONTROL *) *ppidl;
// init the static bits (ILCreate() zero inits)
pidc->idIcon = idIcon;
// copy module
lstrcpyA(pidc->cBuf, pszModule);
// copy name
pidc->oName = (USHORT)(cbModule / sizeof(pszModule[0]));
lstrcpyA(pidc->cBuf + pidc->oName, pszName);
// copy info
pidc->oInfo = pidc->oName + (USHORT)(cbName / sizeof(pszName[0]));
lstrcpyA(pidc->cBuf + pidc->oInfo, pszInfo);
pidc->cb = (USHORT)cbIDC;
return S_OK;
}
return E_OUTOFMEMORY;
}
HRESULT IDControlCreate(LPTSTR pszModule, int idIcon, LPTSTR pszName, LPTSTR pszInfo, LPITEMIDLIST *ppidc)
{
CHAR szModuleA[MAX_PATH];
CHAR szNameA[MAX_CCH_CPLNAME];
CHAR szInfoA[MAX_CCH_CPLINFO];
ASSERT(lstrlen(pszModule) < MAX_PATH);
ASSERT(lstrlen(pszName) < MAX_CCH_CPLNAME);
ASSERT(lstrlen(pszInfo) < MAX_CCH_CPLINFO);
// See if any of the three string inputs cannot be represented as ANSI
if (DoesStringRoundTrip(pszModule, szModuleA, ARRAYSIZE(szModuleA))
&& DoesStringRoundTrip(pszName, szNameA, ARRAYSIZE(szNameA))
&& DoesStringRoundTrip(pszInfo, szInfoA, ARRAYSIZE(szInfoA)))
{
return _IDControlCreateA(szModuleA, idIcon, szNameA, szInfoA, ppidc);
}
else
{
// Must create a full Unicode IDL
return _IDControlCreateW(pszModule, idIcon, pszName, pszInfo, ppidc);
}
}
LPIDCONTROL CControlPanelFolder::_IsValid(LPCITEMIDLIST pidl)
{
//
// the original design had no signature
// so we are left just trying to filter out the regitems that might
// somehow get to us. we used to SIL_GetType(pidl) != SHID_CONTROLPANEL_REGITEM)
// but if somehow we had an icon index that had the low byte equal
// to SHID_CONTROLPANEL_REGITEM (0x70) we would invalidate it. DUMB!
//
// so we will complicate the heuristics a little bit. lets assume that
// all icon indeces will range between 0xFF000000 and 0x00FFFFFF
// (or -16777214 and 16777215, 16 million each way should be plenty).
// of course this could easily get false positives, but there really
// isnt anything else that we can check against.
//
// we will also check a minimum size.
//
if (pidl && pidl->mkid.cb > FIELD_OFFSET(IDCONTROL, cBuf))
{
LPIDCONTROL pidc = (LPIDCONTROL)pidl;
int i = pidc->idIcon & 0xFF000000;
if (i == 0 || i == 0xFF000000)
return pidc;
}
return NULL;
}
#define REGVAL_CTRLFLDRITEM_MODULE TEXT("Module")
#define REGVAL_CTRLFLDRITEM_ICONINDEX TEXT("IconIndex")
#define REGVAL_CTRLFLDRITEM_NAME TEXT("Name")
#define REGVAL_CTRLFLDRITEM_INFO TEXT("Info")
HRESULT GetPidlFromCanonicalName(LPCTSTR pszCanonicalName, LPITEMIDLIST* ppidl)
{
HRESULT hr = E_FAIL;
*ppidl = NULL;
TCHAR szRegPath[MAX_PATH] = REGSTR_PATH_EXPLORER TEXT("\\ControlPanel\\NameSpace\\");
StrCatBuff(szRegPath, pszCanonicalName, ARRAYSIZE(szRegPath));
HKEY hKey;
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, szRegPath, 0, KEY_READ, &hKey) == ERROR_SUCCESS)
{
TCHAR szModule[MAX_PATH], szName[MAX_CCH_CPLNAME], szInfo[MAX_CCH_CPLINFO];
DWORD dwIconIndex = 0, dwType, cbSize = sizeof(szModule);
if (SHQueryValueEx(hKey, REGVAL_CTRLFLDRITEM_MODULE, NULL, &dwType, (LPBYTE)szModule, &cbSize) == ERROR_SUCCESS)
{
cbSize = sizeof(dwIconIndex);
if (SHQueryValueEx(hKey, REGVAL_CTRLFLDRITEM_ICONINDEX, NULL, &dwType, (LPBYTE)&dwIconIndex, &cbSize) != ERROR_SUCCESS)
{
dwIconIndex = 0;
}
cbSize = sizeof(szName);
if (SHQueryValueEx(hKey, REGVAL_CTRLFLDRITEM_NAME, NULL, &dwType, (LPBYTE)szName, &cbSize) != ERROR_SUCCESS)
{
szName[0] = TEXT('\0');
}
cbSize = sizeof(szInfo);
if (SHQueryValueEx(hKey, REGVAL_CTRLFLDRITEM_INFO, NULL, &dwType, (LPBYTE)szInfo, &cbSize) != ERROR_SUCCESS)
{
szInfo[0] = TEXT('\0');
}
hr = IDControlCreate(szModule, EIRESID(dwIconIndex), szName, szInfo, ppidl);
}
RegCloseKey(hKey);
}
return hr;
}
STDMETHODIMP CControlPanelFolder::ParseDisplayName(HWND hwnd, LPBC pbc, WCHAR* pszName,
ULONG* pchEaten, LPITEMIDLIST* ppidl, ULONG* pdwAttrib)
{
if (!ppidl)
return E_INVALIDARG;
*ppidl = NULL;
if (!pszName)
return E_INVALIDARG;
TCHAR szCanonicalName[MAX_PATH];
SHUnicodeToTChar(pszName, szCanonicalName, ARRAYSIZE(szCanonicalName));
HRESULT hr = GetPidlFromCanonicalName(szCanonicalName, ppidl);
if (SUCCEEDED(hr))
{
// First, make sure that the pidl we obtained is valid
DWORD dwAttrib = SFGAO_VALIDATE;
hr = GetAttributesOf(1, (LPCITEMIDLIST *)ppidl, &dwAttrib);
// Now, get the other attributes if they were requested
if (SUCCEEDED(hr) && pdwAttrib && *pdwAttrib)
{
hr = GetAttributesOf(1, (LPCITEMIDLIST *)ppidl, pdwAttrib);
}
}
return hr;
}
STDMETHODIMP CControlPanelFolder::GetAttributesOf(UINT cidl, LPCITEMIDLIST* apidl, ULONG* prgfInOut)
{
if ((*prgfInOut & SFGAO_VALIDATE) && cidl)
{
HRESULT hr = E_INVALIDARG;
LPIDCONTROL pidc = _IsValid(*apidl);
if (pidc)
{
TCHAR szModule[MAX_PATH];
GetModuleMapped((LPIDCONTROL)*apidl, szModule, ARRAYSIZE(szModule),
NULL, NULL, 0);
if (PathFileExists(szModule))
hr = S_OK;
else
hr = E_FAIL;
}
return hr;
}
*prgfInOut &= SFGAO_CANLINK;
return S_OK;
}
STDMETHODIMP CControlPanelFolder::GetUIObjectOf(HWND hwnd, UINT cidl, LPCITEMIDLIST* apidl,
REFIID riid, UINT *pres, void **ppv)
{
HRESULT hr = E_INVALIDARG;
LPIDCONTROL pidc = cidl && apidl ? _IsValid(apidl[0]) : NULL;
*ppv = NULL;
if (pidc && (IsEqualIID(riid, IID_IExtractIconA) || IsEqualIID(riid, IID_IExtractIconW)))
{
TCHAR achParams[MAX_PATH+1+32+1+MAX_CCH_CPLNAME]; // See wsprintf below
TCHAR szModule[MAX_PATH], szName[MAX_CCH_CPLNAME];
UINT idIcon;
// Map the icon ID for upgraded win95 shortcuts to CPLs
GetModuleMapped(pidc, szModule, ARRAYSIZE(szModule), &idIcon, szName, ARRAYSIZE(szName));
// Use the applet name in the pid if we didn't override the name in GetModuleMapped
if (*szName == 0)
GetDisplayName(pidc, szName, ARRAYSIZE(szName));
wsprintf(achParams, TEXT("%s,%d,%s"), szModule, idIcon, szName);
hr = ControlExtractIcon_CreateInstance(achParams, riid, ppv);
}
else if (pidc && IsEqualIID(riid, IID_IContextMenu))
{
hr = CDefFolderMenu_Create(_pidl, hwnd, cidl, apidl,
SAFECAST(this, IShellFolder*), DFMCallBack, NULL, NULL, (IContextMenu**) ppv);
}
else if (pidc && IsEqualIID(riid, IID_IDataObject))
{
hr = CIDLData_CreateFromIDArray(_pidl, cidl, apidl, (IDataObject**) ppv);
}
else if (pidc && IsEqualIID(riid, IID_IQueryInfo))
{
TCHAR szTemp[MAX_CCH_CPLINFO];
_GetDescription(pidc, szTemp, ARRAYSIZE(szTemp));
hr = CreateInfoTipFromText(szTemp, riid, ppv);
}
return hr;
}
STDMETHODIMP CControlPanelFolder::GetDefaultSearchGUID(GUID *pGuid)
{
*pGuid = SRCID_SFileSearch;
return S_OK;
}
STDMETHODIMP CControlPanelFolder::EnumSearches(LPENUMEXTRASEARCH *ppenum)
{
*ppenum = NULL;
return E_NOTIMPL;
}
STDMETHODIMP CControlPanelFolder::EnumObjects(HWND hwnd, DWORD grfFlags, IEnumIDList **ppenum)
{
*ppenum = NULL;
if (!(grfFlags & SHCONTF_NONFOLDERS))
return S_FALSE;
HRESULT hr;
CControlPanelEnum* pesf = new CControlPanelEnum(grfFlags);
if (pesf)
{
// get list of module names
hr = pesf->Init();
if (SUCCEEDED(hr))
pesf->QueryInterface(IID_PPV_ARG(IEnumIDList, ppenum));
pesf->Release();
}
else
hr = E_OUTOFMEMORY;
return hr;
}
STDMETHODIMP CControlPanelFolder::BindToObject(LPCITEMIDLIST pidl, LPBC pbc, REFIID riid, void** ppv)
{
*ppv = NULL;
return E_NOTIMPL;
}
STDMETHODIMP CControlPanelFolder::CompareIDs(LPARAM iCol, LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2)
{
LPIDCONTROL pidc1 = _IsValid(pidl1);
LPIDCONTROL pidc2 = _IsValid(pidl2);
if (pidc1 && pidc2)
{
TCHAR szName1[max(MAX_CCH_CPLNAME, MAX_CCH_CPLINFO)];
TCHAR szName2[max(MAX_CCH_CPLNAME, MAX_CCH_CPLINFO)];
int iCmp;
switch (iCol)
{
case CPL_ICOL_COMMENT:
_GetDescription(pidc1, szName1, ARRAYSIZE(szName1));
_GetDescription(pidc2, szName2, ARRAYSIZE(szName2));
// They're both ANSI, so we can compare directly
iCmp = StrCmpLogicalRestricted(szName1, szName2);
if (iCmp != 0)
return ResultFromShort(iCmp);
// Fall through if the help field compares the same...
case CPL_ICOL_NAME:
default:
GetDisplayName(pidc1, szName1, ARRAYSIZE(szName1));
GetDisplayName(pidc2, szName2, ARRAYSIZE(szName2));
return ResultFromShort(StrCmpLogicalRestricted(szName1, szName2));
}
}
return E_INVALIDARG;
}
//
// background (no items) context menu callback
//
HRESULT CALLBACK CControls_DFMCallBackBG(IShellFolder *psf, HWND hwnd,
IDataObject *pdtobj, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
HRESULT hr = S_OK;
switch (uMsg)
{
case DFM_MERGECONTEXTMENU:
break;
case DFM_GETHELPTEXT:
LoadStringA(HINST_THISDLL, LOWORD(wParam) + IDS_MH_FSIDM_FIRST, (LPSTR)lParam, HIWORD(wParam));;
break;
case DFM_GETHELPTEXTW:
LoadStringW(HINST_THISDLL, LOWORD(wParam) + IDS_MH_FSIDM_FIRST, (LPWSTR)lParam, HIWORD(wParam));;
break;
case DFM_INVOKECOMMAND:
hr = S_FALSE; // view menu items, use the default code.
break;
default:
hr = E_NOTIMPL;
break;
}
return hr;
}
STDMETHODIMP CControlPanelFolder::CreateViewObject(HWND hwnd, REFIID riid, void** ppv)
{
HRESULT hr;
if (IsEqualIID(riid, IID_IShellView))
{
if (SHRestricted(REST_NOCONTROLPANEL))
{
ShellMessageBox(HINST_THISDLL, hwnd, MAKEINTRESOURCE(IDS_RESTRICTIONS),
MAKEINTRESOURCE(IDS_RESTRICTIONSTITLE), MB_OK|MB_ICONSTOP);
hr = HRESULT_FROM_WIN32( ERROR_CANCELLED );
}
else
{
SFV_CREATE sSFV;
sSFV.cbSize = sizeof(sSFV);
sSFV.psvOuter = NULL;
sSFV.psfvcb = new CControlPanelViewCallback(this);
QueryInterface(IID_IShellFolder, (void**) &sSFV.pshf); // in case we are agregated
hr = SHCreateShellFolderView(&sSFV, (IShellView**) ppv);
if (sSFV.pshf)
sSFV.pshf->Release();
if (sSFV.psfvcb)
sSFV.psfvcb->Release();
}
}
else if (IsEqualIID(riid, IID_IContextMenu))
{
hr = CDefFolderMenu_Create(NULL, hwnd, 0, NULL,
SAFECAST(this, IShellFolder*), CControls_DFMCallBackBG, NULL, NULL, (IContextMenu**) ppv);
}
else
{
*ppv = NULL;
hr = E_NOINTERFACE;
}
return hr;
}
STDMETHODIMP CControlPanelFolder::GetDisplayNameOf(LPCITEMIDLIST pidl, DWORD dwFlags, STRRET* pstrret)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelFolder::GetDisplayNameOf");
HRESULT hr = E_INVALIDARG;
LPIDCONTROL pidc = _IsValid(pidl);
if (pidc)
{
TCHAR szName[max(MAX_PATH, MAX_CCH_CPLNAME)];
if ((dwFlags & (SHGDN_FORPARSING | SHGDN_INFOLDER | SHGDN_FORADDRESSBAR)) == ((SHGDN_FORPARSING | SHGDN_INFOLDER)))
{
GetModule(pidc, szName, ARRAYSIZE(szName));
}
else
{
GetDisplayName(pidc, szName, ARRAYSIZE(szName));
}
hr = StringToStrRet(szName, pstrret);
}
else if (IsSelf(1, &pidl))
{
//
// Control Panel is registered with "WantsFORDISPLAY".
//
hr = _GetDisplayNameForSelf(dwFlags, pstrret);
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelFolder::GetDisplayNameOf", hr);
return THR(hr);
}
HRESULT
CControlPanelFolder::_GetDisplayNameForSelf(
DWORD dwFlags,
STRRET* pstrret
)
{
DBG_ENTER(FTF_CPANEL, "CControlPanelFolder::_GetDisplayNameForSelf");
//
// This code only formats the folder name for display purposes.
//
const bool bForParsing = (0 != (SHGDN_FORPARSING & dwFlags));
const bool bForAddressBar = (0 != (SHGDN_FORADDRESSBAR & dwFlags));
ASSERT(!bForParsing || bForAddressBar);
HRESULT hr = S_FALSE;
if (CPL::CategoryViewIsActive(NULL))
{
WCHAR szHidden[10];
szHidden[0] = L'\0';
ILGetHiddenStringW(_pidl, IDLHID_NAVIGATEMARKER, szHidden, ARRAYSIZE(szHidden));
if (L'\0' != szHidden[0])
{
//
// The folder pidl has a hidden navigation marker. For Control Panel,
// this is a category number. Translate the category number to
// the category title and use that in the display name for the folder.
//
WCHAR szCategory[MAX_PATH];
szCategory[0] = L'\0';
const CPL::eCPCAT eCategory = CPL::eCPCAT(StrToInt(szHidden));
hr = CPL::CplView_GetCategoryTitle(eCategory, szCategory, ARRAYSIZE(szCategory));
if (SUCCEEDED(hr))
{
//
// Ex: "Appearance and Themes"
//
hr = StringToStrRet(szCategory, pstrret);
}
}
}
DBG_EXIT_HRES(FTF_CPANEL, "CControlPanelFolder::_GetDisplayNameForSelf", hr);
return THR(hr);
}
STDMETHODIMP CControlPanelFolder::BindToStorage(LPCITEMIDLIST pidl, LPBC pbc, REFIID riid, void** ppv)
{
*ppv = NULL;
return E_NOTIMPL;
}
STDMETHODIMP CControlPanelFolder::SetNameOf(HWND hwnd, LPCITEMIDLIST pidl, LPCOLESTR lpszName,
DWORD dwReserved, LPITEMIDLIST* ppidlOut)
{
return E_FAIL;
}
STDMETHODIMP CControlPanelFolder::GetDefaultColumn(DWORD dwRes, ULONG* pSort, ULONG* pDisplay)
{
return E_NOTIMPL;
}
STDMETHODIMP CControlPanelFolder::GetDefaultColumnState(UINT iColumn, DWORD* pdwState)
{
return E_NOTIMPL;
}
//
// Implementing this to handle Categorization of CPL applets.
//
STDMETHODIMP CControlPanelFolder::GetDetailsEx(LPCITEMIDLIST pidl, const SHCOLUMNID* pscid, VARIANT* pv)
{
HRESULT hr = E_FAIL;
LPIDCONTROL pidc = _IsValid(pidl);
if (pidc)
{
if (IsEqualSCID(*pscid, SCID_CONTROLPANELCATEGORY))
{
HKEY hkey;
TCHAR achCPLName[MAX_CPL_EXEC_NAME], achRegName[MAX_CPL_EXEC_NAME];
_GetFullCPLName(pidc, achCPLName, ARRAYSIZE(achCPLName));
if (_GetExtPropsKey(HKEY_LOCAL_MACHINE, &hkey, pscid))
{
if (_GetExtPropRegValName(hkey, achCPLName, achRegName, ARRAYSIZE(achRegName)))
{
hr = GetVariantFromRegistryValue(hkey, achRegName, pv);
}
RegCloseKey(hkey);
}
if (FAILED(hr)) // maybe it exists under HKCU
{
if (_GetExtPropsKey(HKEY_CURRENT_USER, &hkey, pscid))
{
if (_GetExtPropRegValName(hkey, achCPLName, achRegName, ARRAYSIZE(achRegName)))
{
hr = GetVariantFromRegistryValue(hkey, achRegName, pv);
}
RegCloseKey(hkey);
}
}
}
else if (IsEqualSCID(*pscid, SCID_Comment))
{
TCHAR szDesc[MAX_PATH] = {0};
_GetDescription(pidc, szDesc, ARRAYSIZE(szDesc));
hr = InitVariantFromStr(pv, szDesc);
}
}
return hr;
}
//
// This function takes a registry key (hkey) and goes through all the value names under that key.
// It expands any environment variables in the value names and then compares them to the input value
// (pszFullName). On finding a match it returns the (unexpanded) key name in pszRegValName.
//
// pszFullName is of the form = C:\WINNT\System32\main.cpl,keyboard
//
// The corresponding registry value name would be = %SystemRoot%\System32\main.cpl,keyboard
// or it could only be the filepath portion = %SystemRoot%\System32\main.cpl
// if all the applets in that .cpl file belong to the same category.
//
BOOL
CControlPanelFolder::_GetExtPropRegValName(
HKEY hkey,
LPTSTR pszFullName, // This is modified only temporarily.
LPTSTR pszRegValName,
UINT cch
)
{
ASSERT(NULL != hkey);
ASSERT(NULL != pszFullName);
ASSERT(NULL != pszRegValName);
ASSERT(!IsBadWritePtr(pszRegValName, cch * sizeof(*pszRegValName)));
TCHAR szSearchKeyNormalized[MAX_CPL_EXEC_NAME];
//
// Normalize the CPL spec we're comparing with.
//
DWORD dwResult = TW32(_NormalizeCplSpec(pszFullName,
szSearchKeyNormalized,
ARRAYSIZE(szSearchKeyNormalized)));
if (ERROR_SUCCESS == dwResult)
{
//
// Look it up in the cache.
//
if (_LookupExtPropRegValName(hkey, szSearchKeyNormalized, pszRegValName, cch))
{
return TRUE;
}
}
*pszRegValName = 0;
return FALSE;
}
//
// ----------------------------------------------------------------------------
// What is 'normalization' and why do we need this caching?
//
// Starting with Windows XP, CPL applets can be categorized so that they
// appear in one of the several Control Panel categories. The 'category'
// of an applet is stored in the registry as an 'extended property' value.
// The categorization data in the registry is stored in name-value pairs.
// The 'name' is the CPL's filesystem path with an optional applet name
// appended. The 'value' is the CPL's category.
//
// When looking up the category for an applet, we build the CPL's 'name'
// from the path and applet name. See _GetFullCPLName().
// This string is then used as a 'key' to locate the associated category
// 'extended property' value in the registry.
//
// The problem is that it's possible for two filesystem paths to refer
// to the same file yet be lexically different from one another. Issues
// such as embedded environment variables and long (LFN) vs. short (SFN)
// file names can create these lexical differences. In order to properly
// compare paths, each path must be 'normalized'. This is done by expanding
// environment variables, converting any LFN paths to their SFN counterpart
// and removing any leading and trailing spaces. Only then can the paths
// be correctly compared. Windows XP bug 328304 illuminated this requirement.
//
// Normalizing a name is a bit expensive, especially the LFN->SFN conversion
// which must hit the filesystem. To minimize the number of normalizations,
// I've added a simple cache. Nothing fancy. It's unsorted and lookup
// is linear. The cache is initialized the first time it is needed and
// it remains available until the CControlPanelFolder object is destroyed.
//
// brianau - 03/08/01
//
// ----------------------------------------------------------------------------
//
// Retrieve the name of the 'extended property' reg value
// corresponding to a particular CPL. The 'key' is a 'normalized'
// CPL name string.
//
// Assume a search key:
//
// "C:\WINNT\System32\main.cpl,keyboard"
//
// If an 'extended property' reg value with this name is found...
//
// "C:\WINNT\System32\main.cpl,keyboard"
//
// ...then it is considered a match. This means that only the "keyboard"
// applet provided by main.cpl is in the category associated with this
// entry.
//
// If an 'extended property' reg value with this name is found...
//
// "C:\WINNT\System32\main.cpl"
//
// ...then it is also considered a match. This means that ALL applets
// provided by main.cpl are in the category associated with this
// entry.
//
BOOL
CControlPanelFolder::_LookupExtPropRegValName(
HKEY hkey,
LPTSTR pszSearchKeyNormalized,
LPTSTR pszRegValName,
UINT cch
)
{
ASSERT(NULL != hkey);
ASSERT(NULL != pszSearchKeyNormalized);
ASSERT(NULL != pszRegValName);
ASSERT(!IsBadWritePtr(pszRegValName, cch * sizeof(*pszRegValName)));
BOOL bFound = FALSE;
if (NULL == _hdsaExtPropRegVals)
{
//
// Create and initialize (fill) the cache.
//
TW32(_InitExtPropRegValNameCache(hkey));
}
if (NULL != _hdsaExtPropRegVals)
{
//
// Search is simply linear.
//
int const cEntries = DSA_GetItemCount(_hdsaExtPropRegVals);
for (int i = 0; i < cEntries && !bFound; i++)
{
EPRV_CACHE_ENTRY *pEntry = (EPRV_CACHE_ENTRY *)DSA_GetItemPtr(_hdsaExtPropRegVals, i);
TBOOL(NULL != pEntry);
if (NULL != pEntry)
{
//
// Compare the normalized values. First do a complete
// comparison of the entire string.
//
if (0 == StrCmpI(pEntry->pszRegValNameNormalized, pszSearchKeyNormalized))
{
bFound = TRUE;
}
else
{
LPTSTR pszComma = StrChr(pszSearchKeyNormalized, TEXT(','));
if (NULL != pszComma)
{
//
// Compare only the path parts.
//
const DWORD cchPath = pszComma - pszSearchKeyNormalized;
if (0 == StrCmpNI(pEntry->pszRegValNameNormalized,
pszSearchKeyNormalized,
cchPath))
{
bFound = TRUE;
}
}
}
if (bFound)
{
lstrcpyn(pszRegValName, pEntry->pszRegValName, cch);
}
}
}
}
return bFound;
}
//
// Create and initialize the 'extended properties' value name
// cache. The cache is simply a DSA of type EPRV_CACHE_ENTRY.
// Each entry contains the normalized form of the reg value
// name paired with the reg value name as read from the registry
// (not normalized). The normalized value is the 'key'.
//
DWORD
CControlPanelFolder::_InitExtPropRegValNameCache(
HKEY hkey
)
{
ASSERT(NULL != hkey);
ASSERT(NULL == _hdsaExtPropRegVals);
DWORD dwResult = ERROR_SUCCESS;
_hdsaExtPropRegVals = DSA_Create(sizeof(EPRV_CACHE_ENTRY), 32);
if (NULL == _hdsaExtPropRegVals)
{
dwResult = TW32(ERROR_OUTOFMEMORY);
}
else
{
TCHAR szRegValName[MAX_CPL_EXEC_NAME];
DWORD dwIndex = 0;
while (ERROR_SUCCESS == dwResult)
{
DWORD dwType;
DWORD dwSize = ARRAYSIZE(szRegValName);
dwResult = RegEnumValue(hkey,
dwIndex++,
szRegValName,
&dwSize,
NULL,
&dwType,
NULL,
NULL);
if (ERROR_SUCCESS == dwResult)
{
//
// We are interested in DWORD values only.
//
if (REG_DWORD == dwType)
{
//
// Normalize the value name to create the 'key'
// string then cache the pair.
//
TCHAR szRegValueNameNormalized[MAX_CPL_EXEC_NAME];
dwResult = TW32(_NormalizeCplSpec(szRegValName,
szRegValueNameNormalized,
ARRAYSIZE(szRegValueNameNormalized)));
if (ERROR_SUCCESS == dwResult)
{
dwResult = TW32(_CacheExtPropRegValName(szRegValueNameNormalized,
szRegValName));
}
else if (ERROR_INVALID_NAME == dwResult)
{
//
// If the path read from the registry is invalid,
// _NormalizeCplSpec will return ERROR_INVALID_NAME.
// This value is originally returned by GetShortPathName().
// We don't want an invalid path in one reg entry
// to prevent the caching of subsequent valid paths so
// we convert this error value to ERROR_SUCCESS.
//
dwResult = ERROR_SUCCESS;
}
}
}
}
if (ERROR_NO_MORE_ITEMS == dwResult)
{
dwResult = ERROR_SUCCESS;
}
}
return TW32(dwResult);
}
//
// Insert an entry into the 'extended properties' reg value name
// cache.
//
DWORD
CControlPanelFolder::_CacheExtPropRegValName(
LPCTSTR pszRegValNameNormalized,
LPCTSTR pszRegValName
)
{
ASSERT(NULL != _hdsaExtPropRegVals);
ASSERT(NULL != pszRegValNameNormalized);
ASSERT(NULL != pszRegValName);
DWORD dwResult = ERROR_SUCCESS;
EPRV_CACHE_ENTRY entry = { NULL, NULL };
if (FAILED(SHStrDup(pszRegValNameNormalized, &entry.pszRegValNameNormalized)) ||
FAILED(SHStrDup(pszRegValName, &entry.pszRegValName)) ||
(-1 == DSA_AppendItem(_hdsaExtPropRegVals, &entry)))
{
_DestroyExtPropsRegValEntry(&entry, NULL);
dwResult = ERROR_OUTOFMEMORY;
}
return TW32(dwResult);
}
//
// Destroy the contents of a EPRV_CACHE_ENTRY structure.
// This is used by DSA_DestroyCallback when the cache is
// destroyed.
//
int CALLBACK
CControlPanelFolder::_DestroyExtPropsRegValEntry( // [static]
void *p,
void *pData
)
{
EPRV_CACHE_ENTRY *pEntry = (EPRV_CACHE_ENTRY *)p;
ASSERT(NULL != pEntry);
//
// Checks for NULL are necessary as we also call this directly
// from _CacheExtPropRegValName in the case of a failure to
// add the entry to the cache.
//
if (NULL != pEntry->pszRegValName)
{
SHFree(pEntry->pszRegValName);
pEntry->pszRegValName = NULL;
}
if (NULL != pEntry->pszRegValNameNormalized)
{
SHFree(pEntry->pszRegValNameNormalized);
pEntry->pszRegValNameNormalized = NULL;
}
return 1;
}
//
// Given a CPL applet spec consisting of a path and an optional
// argument, this function returns the spec with the following:
//
// 1. Expands all embedded environment variables.
// 2. Shortens all LFN path strings to their SFN equivalents.
// 3. Removes leading and trailing whitespace from the path.
// 4. Removes leading and trailing whitespace from the arguments.
//
DWORD
CControlPanelFolder::_NormalizeCplSpec(
LPTSTR pszSpecIn,
LPTSTR pszSpecOut,
UINT cchSpecOut
)
{
ASSERT(NULL != pszSpecIn);
ASSERT(!IsBadWritePtr(pszSpecIn, sizeof(*pszSpecIn) * lstrlen(pszSpecIn) + 1));
ASSERT(NULL != pszSpecOut);
ASSERT(!IsBadWritePtr(pszSpecOut, cchSpecOut * sizeof(*pszSpecOut)));
//
// Temporarily truncate the spec at the end of the path part
// if the spec contains trialing arguments (i.e. an applet name in
// a multi-applet CPL). This is why the pszSpecIn argument can't be
// constant. I don't want to create a temporary buffer just for this
// so we modify the input string.
//
LPTSTR pszArgs = StrChr(pszSpecIn, TEXT(','));
if (NULL != pszArgs)
{
*pszArgs = 0;
}
DWORD dwResult = TW32(_NormalizePath(pszSpecIn, pszSpecOut, cchSpecOut));
if (NULL != pszArgs)
{
//
// Quick, put the comma back before anyone notices.
//
*pszArgs = TEXT(',');
}
if (ERROR_SUCCESS == dwResult)
{
//
// The name contained a comma so we need to copy it and the
// trailing argument to the output buffer.
//
if (NULL != pszArgs)
{
const UINT cchPath = lstrlen(pszSpecOut);
const UINT cchArgs = lstrlen(pszArgs);
if (cchArgs < (cchSpecOut - cchPath))
{
lstrcpy(pszSpecOut + cchPath, pszArgs);
//
// Trim leading and trailing whitespace around the argument(s).
// This will convert ", keyboard " to ",keyboard".
//
_TrimSpaces(pszSpecOut + cchPath + 1);
}
else
{
dwResult = TW32(ERROR_INSUFFICIENT_BUFFER);
}
}
}
return TW32(dwResult);
}
//
// Wraps _NormalizePathWorker to handle the possible stack overflow
// exception generated by the use of _alloca().
//
DWORD
CControlPanelFolder::_NormalizePath(
LPCTSTR pszPathIn,
LPTSTR pszPathOut,
UINT cchPathOut
)
{
//
// NormalizePathWorker uses _alloca() to allocate a stack buffer.
// Need to handle the case where the stack is all used up. Unlikely
// but it could happen.
//
DWORD dwResult;
__try
{
dwResult = TW32(_NormalizePathWorker(pszPathIn, pszPathOut, cchPathOut));
}
__except(_FilterStackOverflow(GetExceptionCode()))
{
dwResult = TW32(ERROR_STACK_OVERFLOW);
}
return TW32(dwResult);
}
INT
CControlPanelFolder::_FilterStackOverflow( // [static]
INT nException
)
{
if (STATUS_STACK_OVERFLOW == nException)
{
return EXCEPTION_EXECUTE_HANDLER;
}
return EXCEPTION_CONTINUE_SEARCH;
}
//
// Given a path string, this function expands all environment variables and
// converts all LFN strings to SFN strings. This looks like a large function.
// It's really just one call to ExpandEnvironmentStrings() and one call to
// GetShortPathName() wrapped with some extra housekeeping.
//
DWORD
CControlPanelFolder::_NormalizePathWorker(
LPCTSTR pszPathIn,
LPTSTR pszPathOut,
UINT cchPathOut
)
{
ASSERT(NULL != pszPathIn);
ASSERT(NULL != pszPathOut);
ASSERT(!IsBadWritePtr(pszPathOut, cchPathOut * sizeof(*pszPathOut)));
DWORD dwResult = ERROR_SUCCESS;
//
// _alloca generates a stack fault exception if insufficient stack space
// is available. It is not appropriate to check the return value.
// This function is wrapped by _NormalizePath to handle the exception.
//
const DWORD cchTemp = cchPathOut;
LPTSTR pszTemp = (LPTSTR)_alloca(cchPathOut * sizeof(*pszPathOut));
//
// Expand the entire string once to catch any env vars in either the path
// or in any arguments.
//
const DWORD cchExpanded = ExpandEnvironmentStrings(pszPathIn, pszTemp, cchTemp);
if (0 == cchExpanded)
{
dwResult = TW32(GetLastError());
}
else if (cchExpanded > cchTemp)
{
dwResult = TW32(ERROR_INSUFFICIENT_BUFFER);
}
else
{
//
// Trim any leading and trailing spaces.
//
_TrimSpaces(pszTemp);
//
// Convert the path part to it's short-name equivalent. This allows
// us to compare a LFN and a SFN that resolve to the same actual file.
// Note that this will fail if the file doesn't exist.
// GetShortPath supports the src and dest ptrs referencing the same memory.
//
const DWORD cchShort = GetShortPathName(pszTemp, pszPathOut, cchPathOut);
if (0 == cchShort)
{
dwResult = GetLastError();
if (ERROR_FILE_NOT_FOUND == dwResult ||
ERROR_PATH_NOT_FOUND == dwResult ||
ERROR_ACCESS_DENIED == dwResult)
{
//
// File doesn't exist or we don't have access.
// We can't get the SFN so simply return the path
// with env vars expanded.
//
if (cchExpanded < cchPathOut)
{
lstrcpy(pszPathOut, pszTemp);
dwResult = ERROR_SUCCESS;
}
else
{
//
// Output buffer is too small to hold expanded string.
//
dwResult = TW32(ERROR_INSUFFICIENT_BUFFER);
}
}
}
else if (cchShort > cchPathOut)
{
//
// Output buffer is too small to hold expanded SFN string.
//
dwResult = TW32(ERROR_INSUFFICIENT_BUFFER);
}
}
return TW32(dwResult);
}
//
// Remove leading and trailing spaces from a text string.
// Modifies the string in-place.
//
void
CControlPanelFolder::_TrimSpaces(
LPTSTR psz
)
{
ASSERT(NULL != psz);
ASSERT(!IsBadWritePtr(psz, sizeof(*psz) * (lstrlen(psz) + 1)));
LPTSTR pszRead = psz;
LPTSTR pszWrite = psz;
//
// Skip leading spaces.
//
while(0 != *pszRead && TEXT(' ') == *pszRead)
{
++pszRead;
}
//
// Copy remainder up to the terminating nul.
//
LPTSTR pszLastNonSpaceChar = NULL;
while(0 != *pszRead)
{
if (TEXT(' ') != *pszRead)
{
pszLastNonSpaceChar = pszWrite;
}
*pszWrite++ = *pszRead++;
}
if (NULL != pszLastNonSpaceChar)
{
//
// The string contained at least one non-space character.
// Adjust the 'write' ptr so that we terminate the string
// immediately after the last one found.
// This trims trailing spaces.
//
ASSERT(TEXT(' ') != *pszLastNonSpaceChar && 0 != *pszLastNonSpaceChar);
pszWrite = pszLastNonSpaceChar + 1;
}
*pszWrite = 0;
}
//
// Method returns a string corresponding to what the registry value name should be
// for this CPL pidl (pidc). This string format is basically the same as the GetExecName
// format with the quotation marks stripped, so all we do is skip the first
// two " marks in the GetExecName string
//
// String in GetExecName format: "C:\WINNT\System32\main.cpl",keyboard
// String in registry format : C:\WINNT\System32\main.cpl,keyboard
//
//
void CControlPanelFolder::_GetFullCPLName(LPIDCONTROL pidc, LPTSTR achFullCPLName, UINT cchSize)
{
const TCHAR QUOTE = TEXT('\"');
GetExecName(pidc, achFullCPLName,cchSize);
// first char must be a quote
ASSERTMSG ((QUOTE == *achFullCPLName), "CControlPanelFolder::_GetFullCPLName() GetExecName returned an invalid value");
if (QUOTE == *achFullCPLName) // I know we asserted, just being super paranoid
{
LPTSTR pszWrite = achFullCPLName;
LPCTSTR pszRead = achFullCPLName;
int cQuotes = 2; // we want to skip the first two quotes only
while(*pszRead)
{
if (0 < cQuotes && QUOTE == *pszRead)
{
--cQuotes;
++pszRead;
}
else
{
*pszWrite++ = *pszRead++;
}
}
*pszWrite = TEXT('\0');
}
}
STDMETHODIMP CControlPanelFolder::GetDetailsOf(LPCITEMIDLIST pidl, UINT iColumn, SHELLDETAILS* pDetails)
{
HRESULT hr = E_INVALIDARG;
if (pidl == NULL)
{
hr = GetDetailsOfInfo(c_cpl_cols, ARRAYSIZE(c_cpl_cols), iColumn, pDetails);
}
else
{
LPIDCONTROL pidc = _IsValid(pidl);
if (pidc)
{
TCHAR szTemp[max(max(MAX_PATH, MAX_CCH_CPLNAME), MAX_CCH_CPLINFO)];
pDetails->str.uType = STRRET_CSTR;
pDetails->str.cStr[0] = 0;
switch (iColumn)
{
case CPL_ICOL_NAME:
GetDisplayName(pidc, szTemp, ARRAYSIZE(szTemp));
break;
case CPL_ICOL_COMMENT:
_GetDescription(pidc, szTemp, ARRAYSIZE(szTemp));
break;
default:
szTemp[0] = 0;
break;
}
hr = StringToStrRet(szTemp, &pDetails->str);
}
}
return hr;
}
STDMETHODIMP CControlPanelFolder::MapColumnToSCID(UINT iColumn, SHCOLUMNID* pscid)
{
return MapColumnToSCIDImpl(c_cpl_cols, ARRAYSIZE(c_cpl_cols), iColumn, pscid);
}
STDMETHODIMP CControlPanelFolder::GetClassID(CLSID* pCLSID)
{
*pCLSID = CLSID_ControlPanel;
return S_OK;
}
STDMETHODIMP CControlPanelFolder::Initialize(LPCITEMIDLIST pidl)
{
if (NULL != _pidl)
{
ILFree(_pidl);
_pidl = NULL;
}
return SHILClone(pidl, &_pidl);
}
STDMETHODIMP CControlPanelFolder::GetCurFolder(LPITEMIDLIST* ppidl)
{
return GetCurFolderImpl(_pidl, ppidl);
}
//
// list of item context menu callback
//
HRESULT CALLBACK CControlPanelFolder::DFMCallBack(IShellFolder *psf, HWND hwndView,
IDataObject *pdtobj, UINT uMsg,
WPARAM wParam, LPARAM lParam)
{
HRESULT hr = E_NOTIMPL;
if (pdtobj)
{
STGMEDIUM medium;
LPIDA pida = DataObj_GetHIDA(pdtobj, &medium);
if (pida)
{
hr = S_OK;
switch(uMsg)
{
case DFM_MERGECONTEXTMENU:
{
LPQCMINFO pqcm = (LPQCMINFO)lParam;
int idCmdFirst = pqcm->idCmdFirst;
if (wParam & CMF_EXTENDEDVERBS)
{
// If the user is holding down shift, on NT5 we load the menu with both "Open" and "Run as..."
CDefFolderMenu_MergeMenu(HINST_THISDLL, MENU_GENERIC_CONTROLPANEL_VERBS, 0, pqcm);
}
else
{
// Just load the "Open" menu
CDefFolderMenu_MergeMenu(HINST_THISDLL, MENU_GENERIC_OPEN_VERBS, 0, pqcm);
}
SetMenuDefaultItem(pqcm->hmenu, 0, MF_BYPOSITION);
//
// Returning S_FALSE indicates no need to get verbs from
// extensions.
//
hr = S_FALSE;
break;
} // case DFM_MERGECONTEXTMENU
case DFM_GETHELPTEXT:
LoadStringA(HINST_THISDLL, LOWORD(wParam) + IDS_MH_FSIDM_FIRST, (LPSTR)lParam, HIWORD(wParam));;
break;
case DFM_GETHELPTEXTW:
LoadStringW(HINST_THISDLL, LOWORD(wParam) + IDS_MH_FSIDM_FIRST, (LPWSTR)lParam, HIWORD(wParam));;
break;
case DFM_INVOKECOMMAND:
{
for (int i = pida->cidl - 1; i >= 0; i--)
{
LPIDCONTROL pidc = _IsValid(IDA_GetIDListPtr(pida, i));
if (pidc)
{
switch(wParam)
{
case FSIDM_OPENPRN:
case FSIDM_RUNAS:
{
TCHAR achParam[MAX_CPL_EXEC_NAME]; // See wnsprintf in GetExecName
GetExecName(pidc, achParam, ARRAYSIZE(achParam));
SHRunControlPanelEx(achParam, hwndView, (wParam == FSIDM_RUNAS));
hr = S_OK;
break;
}
default:
hr = S_FALSE;
} // switch(wParam)
}
else
hr = E_FAIL;
}
}
break;
case DFM_MAPCOMMANDNAME:
if (lstrcmpi((LPCTSTR)lParam, c_szOpen) == 0)
{
*(UINT_PTR *)wParam = FSIDM_OPENPRN;
}
else
{
// command not found
hr = E_FAIL;
}
break;
default:
hr = E_NOTIMPL;
break;
} // switch (uMsg)
HIDA_ReleaseStgMedium(pida, &medium);
} // if (pida)
} // if (pdtobj)
return hr;
}
int MakeCPLCommandLine(LPCTSTR pszModule, LPCTSTR pszName, LPTSTR pszCommandLine, DWORD cchCommandLine)
{
RIP(pszCommandLine);
RIP(pszModule);
RIP(pszName);
return wnsprintf(pszCommandLine, cchCommandLine, TEXT("\"%s\",%s"), pszModule, pszName);
}
void CControlPanelFolder::GetExecName(LPIDCONTROL pidc, LPTSTR pszParseName, UINT cchParseName)
{
TCHAR szModule[MAX_PATH], szName[MAX_CCH_CPLNAME];
GetModuleMapped(pidc, szModule, ARRAYSIZE(szModule), NULL, szName, ARRAYSIZE(szName));
// If our GetModuleMapped call didn't override the applet name, get it the old fashioned way
if (*szName == 0)
GetDisplayName(pidc, szName, ARRAYSIZE(szName));
MakeCPLCommandLine(szModule, szName, pszParseName, cchParseName);
}
typedef struct _OLDCPLMAPPING
{
LPCTSTR szOldModule;
UINT idOldIcon;
LPCTSTR szNewModule;
UINT idNewIcon;
LPCTSTR szApplet;
// Put TEXT("") in szApplet to use the applet name stored in the cpl shortcut
} OLDCPLMAPPING, *LPOLDCPLMAPPING;
const OLDCPLMAPPING g_rgOldCPLMapping[] =
{
// Win95 shortcuts that don't work correctly
// -----------------------------------------
// Add New Hardware
{TEXT("SYSDM.CPL"), 0xfffffda6, TEXT("HDWWIZ.CPL"), (UINT) -100, TEXT("@0")},
// ODBC 32 bit
{TEXT("ODBCCP32.CPL"), 0xfffffa61, TEXT("ODBCCP32.CPL"), 0xfffffa61, TEXT("@0")},
// Mail
{TEXT("MLCFG32.CPL"), 0xffffff7f, TEXT("MLCFG32.CPL"), 0xffffff7f, TEXT("@0")},
// Modem
{TEXT("MODEM.CPL"), 0xfffffc18, TEXT("TELEPHON.CPL"), (UINT) -100, TEXT("")},
// Multimedia
{TEXT("MMSYS.CPL"), 0xffffff9d, TEXT("MMSYS.CPL"), (UINT) -110, TEXT("")},
// Network
{TEXT("NETCPL.CPL"), 0xffffff9c, TEXT("NCPA.CPL"), 0xfffffc17, TEXT("@0")},
// Password
{TEXT("PASSWORD.CPL"), 0xfffffc18, TEXT("PASSWORD.CPL"), 0xfffffc18, TEXT("@0")},
// Regional Settings
{TEXT("INTL.CPL"), 0xffffff9b, TEXT("INTL.CPL"), (UINT) -200, TEXT("@0")},
// System
{TEXT("SYSDM.CPL"), 0xfffffda8, TEXT("SYSDM.CPL"), (UINT) -6, TEXT("")},
// Users
{TEXT("INETCPL.CPL"), 0xfffffad5, TEXT("INETCPL.CPL"), 0xfffffad5, TEXT("@0")},
// NT4 Shortcuts that don't work
// -----------------------------
// Multimedia
{TEXT("MMSYS.CPL"), 0xfffff444, TEXT("MMSYS.CPL"), 0xfffff444, TEXT("@0")},
// Network
{TEXT("NCPA.CPL"), 0xfffffc17, TEXT("NCPA.CPL"), 0xfffffc17, TEXT("@0")},
// UPS
{TEXT("UPS.CPL"), 0xffffff9c, TEXT("POWERCFG.CPL"), (UINT) -202, TEXT("@0")},
// Synonyms for hardware management
// Devices
{TEXT("SRVMGR.CPL"), 0xffffff67, TEXT("HDWWIZ.CPL"), (UINT) -100, TEXT("@0")},
// Ports
{TEXT("PORTS.CPL"), 0xfffffffe, TEXT("HDWWIZ.CPL"), (UINT) -100, TEXT("@0")},
// SCSI Adapters
{TEXT("DEVAPPS.CPL"), 0xffffff52, TEXT("HDWWIZ.CPL"), (UINT) -100, TEXT("@0")},
// Tape Devices
{TEXT("DEVAPPS.CPL"), 0xffffff97, TEXT("HDWWIZ.CPL"), (UINT) -100, TEXT("@0")},
};
HRESULT CControlPanelFolder::GetModuleMapped(LPIDCONTROL pidc, LPTSTR pszModule, UINT cchModule,
UINT* pidNewIcon, LPTSTR pszApplet, UINT cchApplet)
{
HRESULT hr = S_FALSE;
GetModule(pidc, pszModule, cchModule);
// Compare just the .cpl file name, not the full path: Get this file name from the full path
LPTSTR pszFilename = PathFindFileName(pszModule);
// Calculate the size of the buffer available for the filename
UINT cchFilenameBuffer = cchModule - (UINT)(pszFilename - pszModule);
if (((int) pidc->idIcon <= 0) && (pszFilename))
{
for (int i = 0; i < ARRAYSIZE(g_rgOldCPLMapping); i++)
{
// See if the module names and old icon IDs match those in this
// entry of our mapping
if (((UINT) pidc->idIcon == g_rgOldCPLMapping[i].idOldIcon) &&
(lstrcmpi(pszFilename, g_rgOldCPLMapping[i].szOldModule) == 0))
{
hr = S_OK;
// Set the return values to those of the found item
if (pidNewIcon != NULL)
*pidNewIcon = g_rgOldCPLMapping[i].idNewIcon;
lstrcpyn(pszFilename, g_rgOldCPLMapping[i].szNewModule, cchFilenameBuffer);
if (pszApplet != NULL)
lstrcpyn(pszApplet, g_rgOldCPLMapping[i].szApplet, cchApplet);
break;
}
}
}
// Return old values if we didn't require a translation
if (hr == S_FALSE)
{
if (pidNewIcon != NULL)
*pidNewIcon = pidc->idIcon;
if (pszApplet != NULL)
*pszApplet = 0; //NULL String
}
// If the .cpl file can't be found, this may be a Win95 shortcut specifying
// the old system directory - possibly an upgraded system. We try to make
// this work by changing the directory specified to the actual system
// directory. For example c:\windows\system\foo.cpl will become
// c:\winnt\system32\foo.cpl.
//
// Note: The path substitution is done unconditionally because if we
// can't find the file it doesn't matter where we can't find it...
if (!PathFileExists(pszModule))
{
TCHAR szNew[MAX_PATH], szSystem[MAX_PATH];
GetSystemDirectory(szSystem, ARRAYSIZE(szSystem));
PathCombine(szNew, szSystem, pszFilename);
lstrcpyn(pszModule, szNew, cchModule);
}
return hr;
}
//
// SHualUnicodeToTChar is like SHUnicodeToTChar except that it accepts
// an unaligned input string parameter.
//
#ifdef UNICODE
#define SHualUnicodeToTChar(src, dst, cch) ualstrcpyn(dst, src, cch)
#else // No ANSI platforms require alignment
#define SHualUnicodeToTChar SHUnicodeToTChar
#endif
void CControlPanelFolder::GetDisplayName(LPIDCONTROL pidc, LPTSTR pszName, UINT cchName)
{
LPIDCONTROLW pidcW = _IsUnicodeCPL(pidc);
if (pidcW)
SHualUnicodeToTChar(pidcW->cBufW + pidcW->oNameW, pszName, cchName);
else
SHAnsiToTChar(pidc->cBuf + pidc->oName, pszName, cchName);
}
void CControlPanelFolder::GetModule(LPIDCONTROL pidc, LPTSTR pszModule, UINT cchModule)
{
LPIDCONTROLW pidcW = _IsUnicodeCPL(pidc);
if (pidcW)
{
if (!SHualUnicodeToTChar(pidcW->cBufW, pszModule, cchModule))
{
*pszModule = TEXT('\0');
}
}
else
{
if (!SHAnsiToTChar(pidc->cBuf, pszModule, cchModule))
{
*pszModule = TEXT('\0');
}
}
}
void CControlPanelFolder::_GetDescription(LPIDCONTROL pidc, LPTSTR pszDesc, UINT cchDesc)
{
LPIDCONTROLW pidcW = _IsUnicodeCPL(pidc);
if (pidcW)
SHualUnicodeToTChar(pidcW->cBufW + pidcW->oInfoW, pszDesc, cchDesc);
else
SHAnsiToTChar(pidc->cBuf + pidc->oInfo, pszDesc, cchDesc);
}
//
// Method opens a subkey corresponding to a SCID under ExtendedPoperties for control panel
//
BOOL CControlPanelFolder::_GetExtPropsKey(HKEY hkeyParent, HKEY * pHkey, const SHCOLUMNID * pscid)
{
const TCHAR c_szRegPath[] = TEXT("SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Control Panel\\Extended Properties\\");
const UINT cchRegPath = ARRAYSIZE (c_szRegPath);
TCHAR achPath[cchRegPath + SCIDSTR_MAX];
lstrcpy(achPath, c_szRegPath);
ASSERT (hkeyParent);
if (0 < StringFromSCID(pscid, achPath + cchRegPath - 1, ARRAYSIZE(achPath) - cchRegPath))
{
return (ERROR_SUCCESS == RegOpenKeyEx(hkeyParent,
achPath,
0,
KEY_QUERY_VALUE,
pHkey));
}
return FALSE;
}
#undef SHualUnicodeToTChar
CControlPanelEnum::CControlPanelEnum(UINT uFlags) :
_cRef (1),
_uFlags (uFlags),
_iModuleCur (0),
_cControlsOfCurrentModule (0),
_iControlCur (0),
_cControlsTotal (0),
_iRegControls (0)
{
ZeroMemory(&_minstCur, sizeof(_minstCur));
ZeroMemory(&_cplData, sizeof(_cplData));
}
CControlPanelEnum::~CControlPanelEnum()
{
CPLD_Destroy(&_cplData);
}
HRESULT CControlPanelEnum::Init()
{
HRESULT hr;
if (CPLD_GetModules(&_cplData))
{
CPLD_GetRegModules(&_cplData);
hr = S_OK;
}
else
{
hr = E_FAIL;
}
return hr;
}
STDMETHODIMP CControlPanelEnum::QueryInterface(REFIID riid, void **ppv)
{
static const QITAB qit[] = {
QITABENT(CControlPanelEnum, IEnumIDList),
{ 0 }
};
return QISearch(this, qit, riid, ppv);
}
STDMETHODIMP_(ULONG) CControlPanelEnum::AddRef()
{
return InterlockedIncrement(&_cRef);
}
STDMETHODIMP_(ULONG) CControlPanelEnum::Release()
{
if (InterlockedDecrement(&_cRef))
return _cRef;
delete this;
return 0;
}
// for other ways to hide CPLs see control1.c, DontLoadCPL()
BOOL CControlPanelEnum::_DoesPolicyAllow(LPCTSTR pszName, LPCTSTR pszFileName)
{
BOOL bAllow = TRUE;
if (SHRestricted(REST_RESTRICTCPL) &&
!IsNameListedUnderKey(pszName, REGSTR_POLICIES_RESTRICTCPL) &&
!IsNameListedUnderKey(pszFileName, REGSTR_POLICIES_RESTRICTCPL))
{
bAllow = FALSE;
}
if (bAllow)
{
if (SHRestricted(REST_DISALLOWCPL) &&
(IsNameListedUnderKey(pszName, REGSTR_POLICIES_DISALLOWCPL) ||
IsNameListedUnderKey(pszFileName, REGSTR_POLICIES_DISALLOWCPL)))
{
bAllow = FALSE;
}
}
return bAllow;
}
STDMETHODIMP CControlPanelEnum::Next(ULONG celt, LPITEMIDLIST* ppidlOut, ULONG* pceltFetched)
{
ZeroMemory(ppidlOut, sizeof(ppidlOut[0])*celt);
if (pceltFetched)
*pceltFetched = 0;
if (!(_uFlags & SHCONTF_NONFOLDERS))
return S_FALSE;
// Loop through lpData->pRegCPLs and use what cached information we can.
while (_iRegControls < _cplData.cRegCPLs)
{
REG_CPL_INFO *pRegCPL = (REG_CPL_INFO *) DPA_GetPtr(_cplData.hRegCPLs, _iRegControls);
PMODULEINFO pmi;
TCHAR szFilePath[MAX_PATH];
lstrcpyn(szFilePath, REGCPL_FILENAME(pRegCPL), ARRAYSIZE(szFilePath));
LPTSTR pszFileName = PathFindFileName(szFilePath);
// find this module in the hamiModule list
for (int i = 0; i < _cplData.cModules; i++)
{
pmi = (PMODULEINFO) DSA_GetItemPtr(_cplData.hamiModule, i);
if (!lstrcmpi(pszFileName, pmi->pszModuleName))
break;
}
if (i < _cplData.cModules)
{
LPCTSTR pszDisplayName = REGCPL_CPLNAME(pRegCPL);
// If this cpl is not supposed to be displayed let's bail
if (!_DoesPolicyAllow(pszDisplayName, pszFileName))
{
_iRegControls++;
// we have to set this bit, so that the cpl doesn't get reregistered
pmi->flags |= MI_REG_ENUM;
continue;
}
// Get the module's creation time & size
if (!(pmi->flags & MI_FIND_FILE))
{
WIN32_FIND_DATA findData;
HANDLE hFindFile = FindFirstFile(pmi->pszModule, &findData);
if (hFindFile != INVALID_HANDLE_VALUE)
{
pmi->flags |= MI_FIND_FILE;
pmi->ftCreationTime = findData.ftCreationTime;
pmi->nFileSizeHigh = findData.nFileSizeHigh;
pmi->nFileSizeLow = findData.nFileSizeLow;
FindClose(hFindFile);
}
else
{
// this module no longer exists... Blow it away.
DebugMsg(DM_TRACE,TEXT("sh CPLS: very stange, couldn't get timestamps for %s"), REGCPL_FILENAME(pRegCPL));
goto RemoveRegCPL;
}
}
if (0 != CompareFileTime(&pmi->ftCreationTime, &pRegCPL->ftCreationTime) ||
pmi->nFileSizeHigh != pRegCPL->nFileSizeHigh ||
pmi->nFileSizeLow != pRegCPL->nFileSizeLow)
{
// this doesn't match -- remove it from pRegCPLs; it will
// get enumerated below.
DebugMsg(DM_TRACE,TEXT("sh CPLS: timestamps don't match for %s"), REGCPL_FILENAME(pRegCPL));
goto RemoveRegCPL;
}
// we have a match: mark this module so we skip it below
// and enumerate this cpl now
pmi->flags |= MI_REG_ENUM;
IDControlCreate(pmi->pszModule, EIRESID(pRegCPL->idIcon), REGCPL_CPLNAME(pRegCPL), REGCPL_CPLINFO(pRegCPL), ppidlOut);
_iRegControls++;
goto return_item;
}
else
{
DebugMsg(DM_TRACE,TEXT("sh CPLS: %s not in module list!"), REGCPL_FILENAME(pRegCPL));
}
RemoveRegCPL:
// Nuke this cpl entry from the registry
if (!(pRegCPL->flags & REGCPL_FROMREG))
LocalFree(pRegCPL);
DPA_DeletePtr(_cplData.hRegCPLs, _iRegControls);
_cplData.cRegCPLs--;
_cplData.fRegCPLChanged = TRUE;
}
// Have we enumerated all the cpls in this module?
LPCPLMODULE pcplm;
LPCPLITEM pcpli;
do
{
while (_iControlCur >= _cControlsOfCurrentModule || // no more
_cControlsOfCurrentModule < 0) // error getting modules
{
// Have we enumerated all the modules?
if (_iModuleCur >= _cplData.cModules)
{
CPLD_FlushRegModules(&_cplData); // flush changes for next guy
return S_FALSE;
}
// Was this module enumerated from the registry?
PMODULEINFO pmi = (PMODULEINFO) DSA_GetItemPtr(_cplData.hamiModule, _iModuleCur);
if (!(pmi->flags & MI_REG_ENUM))
{
// No. Load and init the module, set up counters.
pmi->flags |= MI_CPL_LOADED;
_cControlsOfCurrentModule = CPLD_InitModule(&_cplData, _iModuleCur, &_minstCur);
_iControlCur = 0;
}
++_iModuleCur; // Point to next module
}
// We're enumerating the next control in this module
// Add the control to the registry
EVAL(CPLD_AddControlToReg(&_cplData, &_minstCur, _iControlCur));
// This shouldn't fail at all; that would mean that DSA_GetItemPtr() failed,
// and we've already called that successfully.
// Get the control's pidl name
pcplm = FindCPLModule(&_minstCur);
pcpli = (LPCPLITEM) DSA_GetItemPtr(pcplm->hacpli, _iControlCur);
++_iControlCur;
} while (!_DoesPolicyAllow(pcpli->pszName, PathFindFileName(pcplm->szModule)));
IDControlCreate(pcplm->szModule, EIRESID(pcpli->idIcon), pcpli->pszName, pcpli->pszInfo, ppidlOut);
return_item:
HRESULT hr = *ppidlOut ? S_OK : E_OUTOFMEMORY;
if (SUCCEEDED(hr))
{
++_cControlsTotal;
if (pceltFetched)
*pceltFetched = 1;
}
return hr;
}
STDMETHODIMP CControlPanelEnum::Reset()
{
_iModuleCur = 0;
_cControlsOfCurrentModule = 0;
_iControlCur = 0;
_cControlsTotal = 0;
_iRegControls = 0;
return S_OK;
}
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