// ARP.cpp : Add Remove Programs // #include "priv.h" #define GADGET_ENABLE_TRANSITIONS // Related services #include #include #include "stdafx.h" #include "appwizid.h" #include "resource.h" #include // BlockInput #include // Multi-threaded routines #include "setupenum.h" #include // for TermsrvAppInstallMod #include // for DPA stuff #include "util.h" #include #include using namespace DirectUI; UsingDUIClass(Element); UsingDUIClass(Button); UsingDUIClass(RepeatButton); // used by ScrollBar UsingDUIClass(Thumb); // used by ScrollBar UsingDUIClass(ScrollBar); // used by ScrollViewer UsingDUIClass(Selector); UsingDUIClass(HWNDElement); UsingDUIClass(ScrollViewer); UsingDUIClass(Combobox); #include "shappmgrp.h" #include "arp.h" #define HRCHK(r) if (FAILED(r)) goto Cleanup; // Primary thread run flag bool g_fRun = true; // Appliction shutting down after run flag goes false bool g_fAppShuttingDown = false; // Service Pack resource DLL HINSTANCE g_hinstSP1; void CALLBACK ARPParseError(LPCWSTR pszError, LPCWSTR pszToken, int dLine); inline void StrFree(LPWSTR psz) { CoTaskMemFree(psz); // CoTaskMemFree handles NULL parameter } // Need this weirdo helper function to avoid compiler complaining that // "bool is smaller than LPARAM, you're truncating!" Do this only if // you know that the LPARAM came from a bool originally. bool UNCASTLPARAMTOBOOL(LPARAM lParam) { return (bool&)lParam; } extern "C" void inline SetElementAccessability(Element* pe, bool bAccessible, int iRole, LPCWSTR pszAccName); // Client names are compared in English to avoid weirdness // with collation rules of certain languages. inline bool AreEnglishStringsEqual(LPCTSTR psz1, LPCTSTR psz2) { return CompareString(LOCALE_INVARIANT, NORM_IGNORECASE, psz1, -1, psz2, -1) == CSTR_EQUAL; } // // Set the default action based on a resource ID in oleacc. // HRESULT SetDefAction(Element* pe, UINT oleacc) { WCHAR szBuf[80]; if (!GetRoleTextW(oleacc, szBuf, DUIARRAYSIZE(szBuf))) { szBuf[0] = TEXT('\0'); } return pe->SetAccDefAction(szBuf); } //////////////////////////////////////////////////////// // Tree traversal upwards // Element* _FindAncestorElement(Element* pe, IClassInfo* Class) { while (pe && !pe->GetClassInfo()->IsSubclassOf(Class)) { pe = pe->GetParent(); } return pe; } template T* FindAncestorElement(Element *pe) { return (T*)_FindAncestorElement(pe, T::Class); } //////////////////////////////////////////////////////// // Tree traversal downwards // typedef HRESULT (CALLBACK *_TRAVERSETREECB)(Element*, LPARAM); // // _TraverseTree is the worker function for TraverseTree. HRESULT _TraverseTree(Element* pe, IClassInfo* Class, _TRAVERSETREECB lpfnCB, LPARAM lParam) { HRESULT hr = S_OK; Value* pv; if (pe->GetClassInfo()->IsSubclassOf(Class)) { hr = lpfnCB(pe, lParam); } if (SUCCEEDED(hr)) { ElementList* peList = pe->GetChildren(&pv); if (peList) { Element* peChild; for (UINT i = 0; SUCCEEDED(hr) && i < peList->GetSize(); i++) { peChild = peList->GetItem(i); hr = _TraverseTree(peChild, Class, lpfnCB, lParam); } pv->Release(); } } return hr; } // TraverseTree walks the tree starting at pe and calls the callback // for each element of type T. T is inferred from the callback function, // but for readability, it is suggested that you state it explicitly. // // Callback should return S_OK to continue enumeration or a COM error // to stop enumeration, in which case the COM error code is returned as // the return value from TraverseTree. // template HRESULT TraverseTree(Element* pe, HRESULT (CALLBACK *lpfnCB)(T*, LPARAM), LPARAM lParam = 0) { return _TraverseTree(pe, T::Class, (_TRAVERSETREECB)lpfnCB, lParam); } //////////////////////////////////////////////////////// // // When chunks of the tree go UI-inactive, you must manually // enable and disable accessibility on them. HRESULT DisableElementAccessibilityCB(Element* pe, LPARAM) { pe->SetAccessible(false); return S_OK; } HRESULT CheckAndEnableElementAccessibilityCB(Element* pe, LPARAM) { if ( 0 != pe->GetAccRole()) { pe->SetAccessible(true); } return S_OK; } void DisableElementTreeAccessibility(Element* pe) { TraverseTree(pe, DisableElementAccessibilityCB); } void EnableElementTreeAccessibility(Element* pe) { TraverseTree(pe, CheckAndEnableElementAccessibilityCB); } HRESULT DisableElementShortcutCB(Element* pe, LPARAM) { pe->SetShortcut(0); return S_OK; } // When a tree is hidden or removed from layout permanently (due to // restriction), we also have to remove all keyboard shortcuts so the // user doesn't have a backdoor. // void DisableElementTreeShortcut(Element* pe) { pe->SetVisible(false); TraverseTree(pe, DisableElementShortcutCB); } //////////////////////////////////////////////////////// // // Locates resources in g_hinstSP1 // //////////////////////////////////////////////////////// HRESULT FindSPResource(UINT id, LPCSTR* ppszData, int* pcb) { HRESULT hr = E_FAIL; HRSRC hrsrc = FindResource(g_hinstSP1, MAKEINTRESOURCE(id), RT_RCDATA); if (hrsrc) { *ppszData = (LPCSTR)LoadResource(g_hinstSP1, hrsrc); if (*ppszData) { *pcb = SizeofResource(g_hinstSP1, hrsrc); hr = S_OK; } } return hr; } //////////////////////////////////////////////////////// // ARPFrame class //////////////////////////////////////////////////////// // ARPFrame IDs (for identifying targets of events) ATOM ARPFrame::_idChange = 0; ATOM ARPFrame::_idAddNew = 0; ATOM ARPFrame::_idAddRmWin = 0; ATOM ARPFrame::_idClose = 0; ATOM ARPFrame::_idAddFromDisk = 0; ATOM ARPFrame::_idAddFromMsft = 0; ATOM ARPFrame::_idComponents = 0; ATOM ARPFrame::_idSortCombo = 0; ATOM ARPFrame::_idCategoryCombo = 0; ATOM ARPFrame::_idAddFromCDPane = 0; ATOM ARPFrame::_idAddFromMSPane = 0; ATOM ARPFrame::_idAddFromNetworkPane = 0; ATOM ARPFrame::_idAddWinComponent = 0; ATOM ARPFrame::_idPickApps = 0; ATOM ARPFrame::_idOptionList = 0; HANDLE ARPFrame::htPopulateInstalledItemList = NULL; HANDLE ARPFrame::htPopulateAndRenderOCSetupItemList = NULL; HANDLE ARPFrame::htPopulateAndRenderPublishedItemList = NULL; ARPFrame::~ARPFrame() { UINT i; if (_psacl) { for (i = 0; i < _psacl->cCategories; i++) { if (_psacl->pCategory[i].pszCategory) { StrFree(_psacl->pCategory[i].pszCategory); } } delete _psacl; } if (_pParserStyle) _pParserStyle->Destroy(); // Close theme handles (if applicable) for (i = FIRSTHTHEME; i <= LASTHTHEME; i++) { if (_arH[i]) CloseThemeData(_arH[i]); } if (_arH[SHELLSTYLEHINSTANCE]) { FreeLibrary((HMODULE)_arH[SHELLSTYLEHINSTANCE]); } EndProgressDialog(); } HRESULT ARPFrame::Create(OUT Element** ppElement) { UNREFERENCED_PARAMETER(ppElement); DUIAssertForce("Cannot instantiate an HWND host derived Element via parser. Must use substitution."); return E_NOTIMPL; } HRESULT ARPFrame::Create(NativeHWNDHost* pnhh, bool fDblBuffer, OUT Element** ppElement) { *ppElement = NULL; ARPFrame* paf = HNewAndZero(); if (!paf) return E_OUTOFMEMORY; HRESULT hr = paf->Initialize(pnhh, fDblBuffer); if (FAILED(hr)) { paf->Destroy(); return hr; } *ppElement = paf; return S_OK; } HRESULT ARPFrame::Initialize(NativeHWNDHost* pnhh, bool fDblBuffer) { // Initialize _pnhh = pnhh; _bDoubleBuffer = fDblBuffer; _pParserStyle = NULL; ZeroMemory(_arH, sizeof(_arH)); _fThemedStyle = FALSE; _pParserStyle = NULL; _hdsaInstalledItems = NULL; _hdsaPublishedItems = NULL; _bAnimationEnabled = true; if (IsOS(OS_TERMINALSERVER)) { _bTerminalServer = true; } else { _bTerminalServer = false; } // Do base class initialization HRESULT hr = HWNDElement::Initialize(pnhh->GetHWND(), fDblBuffer, 0); if (FAILED(hr)) return hr; CurrentSortType = SORT_NAME; hr = CreateStyleParser(&_pParserStyle); if (FAILED(hr) || !_pParserStyle || _pParserStyle->WasParseError()) return hr; ManageAnimations(); return S_OK; } HRESULT ARPFrame::CreateStyleParser(Parser** ppParser) { HRESULT hr; // We always need these two _arH[THISDLLHINSTANCE] = g_hinst; // Default HINSTANCE _arH[XPSP1HINSTANCE] = g_hinstSP1; // Alternate HINSTANCE // And this one if (_arH[SHELLSTYLEHINSTANCE]) { FreeLibrary((HMODULE)_arH[SHELLSTYLEHINSTANCE]); } _arH[SHELLSTYLEHINSTANCE] = SHGetShellStyleHInstance(); UINT uidRes; // Store style and theme information // We cannot trust IsAppThemed() or IsThemeActive() because WindowBlinds // patches them to return hard-coded TRUE. If we trusted it, then // we would think that we're using a theme-enabled shellstyle.dll and // fail when we try to load resources out of it. Instead, sniff // the DLL to see if it has a control panel watermark bitmap. if (FindResource((HMODULE)_arH[SHELLSTYLEHINSTANCE], MAKEINTRESOURCE(IDB_CPANEL_WATERMARK), RT_BITMAP)) { _fThemedStyle = TRUE; // Populate handle list for theme style parsing _arH[BUTTONHTHEME] = OpenThemeData(GetHWND(), L"Button"); _arH[SCROLLBARHTHEME] = OpenThemeData(GetHWND(), L"Scrollbar"); _arH[TOOLBARHTHEME] = OpenThemeData(GetHWND(), L"Toolbar"); uidRes = IDR_APPWIZ_ARPSTYLETHEME; } else { _fThemedStyle = FALSE; uidRes = IDR_APPWIZ_ARPSTYLESTD; } LPCSTR pszData; int cbData; hr = FindSPResource(uidRes, &pszData, &cbData); if (FAILED(hr)) { return hr; } hr = Parser::Create(pszData, cbData, _arH, ARPParseError, ppParser); return hr; } extern "C" DWORD _cdecl ARPIsRestricted(LPCWSTR pszPolicy); extern "C" bool _cdecl ARPIsOnDomain(); // Handy helper functions. // Finds a descendent and asserts if not found. Element* FindDescendentByName(Element* peRoot, LPCWSTR pszName) { Element* pe = peRoot->FindDescendent(StrToID(pszName)); DUIAssertNoMsg(pe); return pe; } // Finds a descendent but doesn't complain if not found. Element* MaybeFindDescendentByName(Element* peRoot, LPCWSTR pszName) { Element* pe = peRoot->FindDescendent(StrToID(pszName)); return pe; } HRESULT _SendParseCompleted(ClientBlock* pcb, LPARAM lParam) { return pcb->ParseCompleted((ARPFrame*)lParam); } // Initialize IDs and hold parser, called after contents are filled bool ARPFrame::Setup(Parser* pParser, int uiStartPane) { WCHAR szTemp[1024]; _pParser = pParser; if (uiStartPane >= 0 && uiStartPane <= 3) { _uiStartPane = uiStartPane; } // // DUI's parser doesn't support handlemap()s in rcchar so we have // to do it manually. // LoadString(g_hinstSP1, IDS_APPWIZ_SHORTCUTPICKAPPS, szTemp, DUIARRAYSIZE(szTemp)); FindDescendentByName(this, L"pickappsshortcut")->SetShortcut(szTemp[0]); // Initialize ID cache _idChange = StrToID(L"change"); _idAddNew = StrToID(L"addnew"); _idAddRmWin = StrToID(L"addrmwin"); _idClose = StrToID(L"close"); _idAddFromDisk = StrToID(L"addfromdisk"); _idAddFromMsft = StrToID(L"addfrommsft"); _idComponents = StrToID(L"components"); _idSortCombo = StrToID(L"sortcombo"); _idCategoryCombo = StrToID(L"categorycombo"); _idAddFromCDPane = StrToID(L"addfromCDPane"); _idAddFromMSPane = StrToID(L"addfromMSpane"); _idAddFromNetworkPane = StrToID(L"addfromNetworkpane"); _idAddWinComponent = StrToID(L"addwincomponent"); _idPickApps = StrToID(L"pickapps"); _idOptionList = StrToID(L"optionlist"); // Find children _peOptionList = (ARPSelector*) FindDescendentByName(this, L"optionlist"); _peInstalledItemList = (Selector*) FindDescendentByName(this, L"installeditemlist"); _pePublishedItemList = (Selector*) FindDescendentByName(this, L"publisheditemlist"); _peOCSetupItemList = (Selector*) FindDescendentByName(this, L"ocsetupitemlist"); _peSortCombo = (Combobox*) FindDescendentByName(this, L"sortcombo"); _pePublishedCategory = (Combobox*) FindDescendentByName(this, L"categorycombo"); _pePublishedCategoryLabel = (Element*) FindDescendentByName(this, L"categorylabel"); _peClientTypeList = (ARPSelector*) FindDescendentByName(this, L"clienttypelist"); _peOEMClients = (Expando*) FindDescendentByName(_peClientTypeList, L"oemclients"); _peMSClients = (Expando*) FindDescendentByName(_peClientTypeList, L"msclients"); _peNonMSClients = (Expando*) FindDescendentByName(_peClientTypeList, L"nonmsclients"); _peCustomClients = (Expando*) FindDescendentByName(_peClientTypeList, L"customclients"); _peOK = FindDescendentByName(this, L"ok"); _peCancel = FindDescendentByName(this, L"cancel"); _peCurrentItemList = NULL; _peChangePane = FindDescendentByName(this, L"changepane"); _peAddNewPane = FindDescendentByName(this, L"addnewpane"); _peAddRmWinPane = FindDescendentByName(this, L"addrmwinpane"); _pePickAppPane = FindDescendentByName(this, L"pickapppane"); if (NULL != _peSortCombo) { LoadStringW(_pParser->GetHInstance(), IDS_APPNAME, szTemp, DUIARRAYSIZE(szTemp)); _peSortCombo->AddString(szTemp); LoadStringW(_pParser->GetHInstance(), IDS_SIZE, szTemp, DUIARRAYSIZE(szTemp)); _peSortCombo->AddString(szTemp); LoadStringW(_pParser->GetHInstance(), IDS_FREQUENCY, szTemp, DUIARRAYSIZE(szTemp)); _peSortCombo->AddString(szTemp); LoadStringW(_pParser->GetHInstance(), IDS_DATELASTUSED, szTemp, DUIARRAYSIZE(szTemp)); _peSortCombo->AddString(szTemp); _peSortCombo->SetSelection(0); } _bInDomain = ARPIsOnDomain(); _bOCSetupNeeded = !!COCSetupEnum::s_OCSetupNeeded(); // Apply polices as needed ApplyPolices(); if(!_bOCSetupNeeded) { Element* pe = FindDescendentByName(this, L"addrmwinoc"); DUIAssertNoMsg(pe); pe->SetLayoutPos(LP_None); } // Set initial selection of option list Element* peSel; switch(_uiStartPane) { case 3: peSel = FindDescendent(_idPickApps); break; case 2: peSel = FindDescendent(_idAddRmWin); break; case 1: peSel = FindDescendent(_idAddNew); break; case 0: default: peSel = FindDescendent(_idChange); break; } // Set initial selection of style list DUIAssertNoMsg(peSel); _peOptionList->SetSelection(peSel); // initialize focus-following floater window peLastFocused = NULL; Element::Create(0, &peFloater); peFloater->SetLayoutPos(LP_Absolute); Add(peFloater); peFloater->SetBackgroundColor(ARGB(64, 255, 255, 0)); /////////////////////////////////////////////////////////////// // Initialize the Pick Apps pane // Tell the clientblock elements that it's safe to initialize now if (FAILED(TraverseTree(this, _SendParseCompleted, (LPARAM)this))) { return false; } // Fill the client type lists InitClientCombos(_peOEMClients, CLIENTFILTER_OEM); InitClientCombos(_peMSClients, CLIENTFILTER_MS); InitClientCombos(_peNonMSClients, CLIENTFILTER_NONMS); _peClientTypeList->SetSelection(_peCustomClients); _peCustomClients->SetExpanded(false); return true; } struct SETFILTERINFO { CLIENTFILTER _cf; BOOL _fHasApp; ARPFrame* _paf; }; HRESULT SetFilterCB(ClientPicker *pe, LPARAM lParam) { SETFILTERINFO* pfi = (SETFILTERINFO*)lParam; HRESULT hr = pe->SetFilter(pfi->_cf, pfi->_paf); if (SUCCEEDED(hr) && !pe->IsEmpty()) { pfi->_fHasApp = TRUE; } return hr; } HRESULT ARPFrame::InitClientCombos(Expando* pexParent, CLIENTFILTER cf) { HRESULT hr; Element* pe; hr = _pParser->CreateElement(L"clientcategoryblock", NULL, &pe); if (SUCCEEDED(hr)) { // // The client combos appear as the last element in the // clipped block. The clipped block is the first (only) // child of the clipper. // GetNthChild(pexParent->GetClipper(), 0)->Add(pe); SETFILTERINFO sfi = { cf, FALSE, this }; hr = TraverseTree(pe, SetFilterCB, (LPARAM)&sfi); if (sfi._cf == CLIENTFILTER_OEM && !sfi._fHasApp) { pexParent->SetLayoutPos(LP_None); } } pexParent->SetExpanded(false); return hr; } // // ARPFrame::FindClientBlock locates a ClientBlock by client type. // struct FINDCLIENTBLOCKINFO { LPCWSTR _pwszType; ClientBlock* _pcb; }; HRESULT FindClientBlockCB(ClientBlock* pcb, LPARAM lParam) { FINDCLIENTBLOCKINFO* pfcbi = (FINDCLIENTBLOCKINFO*)lParam; Value* pv; LPWSTR pwszType = pcb->GetClientTypeString(&pv); // Use LOCALE_INVARIANT so we aren't bitten by locales that do not // collate the same way as English. if (pwszType && AreEnglishStringsEqual(pwszType, pfcbi->_pwszType)) { pfcbi->_pcb = pcb; // found it! } pv->Release(); return S_OK; } ClientBlock* ARPFrame::FindClientBlock(LPCWSTR pwszType) { FINDCLIENTBLOCKINFO fcbi = { pwszType, NULL }; TraverseTree(this, FindClientBlockCB, (LPARAM)&fcbi); return fcbi._pcb; } /* * You must be a member of the Administrators group in order to * configure programs. Being Power User isn't good enough because * Power Users can't write to %ALLUSERSPROFILE%. */ BOOL CanConfigurePrograms() { return IsUserAnAdmin(); } HINSTANCE LoadLibraryFromSystem32Directory(LPCTSTR pszDll) { TCHAR szDll[MAX_PATH]; if (GetSystemDirectory(szDll, ARRAYSIZE(szDll)) && PathAppend(szDll, pszDll)) { return LoadLibraryEx(szDll, NULL, LOAD_LIBRARY_AS_DATAFILE); } return NULL; } void ARPFrame::ApplyPolices() { Element* pe; if (ARPIsRestricted(L"NoSupportInfo")) { _bSupportInfoRestricted = true; } if (ARPIsRestricted(L"ShowPostSetup")) { _bOCSetupNeeded = true; } else if (ARPIsRestricted(L"NoServices")) { _bOCSetupNeeded = false; } pe = FindDescendent(_idChange); DUIAssertNoMsg(pe); if (ARPIsRestricted(L"NoRemovePage")) { pe->SetLayoutPos(LP_None); if (0 == _uiStartPane) { _uiStartPane++; } } pe = FindDescendent(_idAddNew); DUIAssertNoMsg(pe); if (ARPIsRestricted(L"NoAddPage")) { pe->SetLayoutPos(LP_None); if (1 == _uiStartPane) { _uiStartPane++; } } else { if (ARPIsRestricted(L"NoAddFromCDorFloppy")) { pe = FindDescendent(_idAddFromCDPane); DUIAssertNoMsg(pe); pe->SetVisible(false); DisableElementTreeShortcut(pe); } if (ARPIsRestricted(L"NoAddFromInternet")) { pe = FindDescendent(_idAddFromMSPane); DUIAssertNoMsg(pe); pe->SetVisible(false); DisableElementTreeShortcut(pe); } if (!_bInDomain || ARPIsRestricted(L"NoAddFromNetwork")) { pe = FindDescendent(_idAddFromNetworkPane); DUIAssertNoMsg(pe); pe->SetVisible(false); DisableElementTreeShortcut(pe); } } pe = FindDescendent(_idAddRmWin); DUIAssertNoMsg(pe); // Note that in real ARP, we will never end up here with all thre panes disabled since we check for that before doing anything elese. if (ARPIsRestricted(L"NoWindowsSetupPage")) { pe->SetLayoutPos(LP_None); DisableElementTreeShortcut(pe); if (2 == _uiStartPane) { _uiStartPane++; } } pe = FindDescendent(_idAddWinComponent); DUIAssertNoMsg(pe); if (ARPIsRestricted(L"NoComponents")) { pe->SetVisible(false); DisableElementTreeShortcut(pe); } // Remove the "pick apps" page entirely if we are on Server or embedded // ("Choose Programs" is a workstation-only feature) // or it is restricted // ( pe = FindDescendent(_idPickApps); DUIAssertNoMsg(pe); if (IsOS(OS_ANYSERVER) || IsOS(OS_EMBEDDED) || ARPIsRestricted(L"NoChooseProgramsPage")) { pe->SetLayoutPos(LP_None); DisableElementTreeShortcut(pe); if (3 == _uiStartPane) { _uiStartPane++; } } else { // Last-minute change: Swap in a new image // DUI doesn't support content=rcicon so we have to set it manually HINSTANCE hinstMorIcons = LoadLibraryFromSystem32Directory(TEXT("moricons.dll")); if (hinstMorIcons) { HICON hico = (HICON)LoadImage(hinstMorIcons, MAKEINTRESOURCE(114), IMAGE_ICON, 32, 32, 0); if (hico) { Value *pv = Value::CreateGraphic(hico); if (pv) { GetNthChild(pe, 0)->SetValue(ContentProp, PI_Local, pv); pv->Release(); } } FreeLibrary(hinstMorIcons); } // Neuter the "pick apps" page if the user can't configure apps if (!CanConfigurePrograms()) { pe = FindDescendentByName(_pePickAppPane, L"pickappadmin"); pe->SetVisible(false); DisableElementTreeShortcut(pe); pe = FindDescendentByName(_pePickAppPane, L"pickappnonadmin"); pe->SetVisible(true); } } } bool ARPFrame::IsChangeRestricted() { return ARPIsRestricted(L"NoRemovePage")? true : false; } void ARPFrame::RunOCManager() { // Invoke Add/Remove Windows components // Command to invoke and OCMgr: "sysocmgr /y /i:%systemroot%\system32\sysoc.inf" WCHAR szInf[MAX_PATH]; if (GetSystemDirectoryW(szInf, MAX_PATH) && PathCombineW(szInf, szInf, L"sysoc.inf")) { WCHAR szParam[MAX_PATH]; wnsprintf(szParam, ARRAYSIZE(szParam), L"/y /i:%s", szInf); ShellExecuteW(NULL, NULL, L"sysocmgr", szParam, NULL, SW_SHOWDEFAULT); } } DWORD WINAPI PopulateInstalledItemList(void* paf); void ARPFrame::UpdateInstalledItems() { if (!IsChangeRestricted()) { _peInstalledItemList->RemoveAll(); _bInstalledListFilled = false; // Start second thread for item population //_beginthread(PopulateInstalledItemList, 0, (void*)this); if (!htPopulateInstalledItemList && g_fRun) htPopulateInstalledItemList = CreateThread(NULL, 0, PopulateInstalledItemList, (void*)this, 0, NULL); } } //////////////////////////////////////////////////////// // Generic eventing // Helper inline void _SetElementSheet(Element* peTarget, ATOM atomID, Value* pvSheet, bool bSheetRelease = true) { if (pvSheet) { Element* pe = peTarget->FindDescendent(atomID); DUIAssertNoMsg(pe); pe->SetValue(Element::SheetProp, PI_Local, pvSheet); if (bSheetRelease) pvSheet->Release(); } } BOOL IsValidFileTime(FILETIME ft) { return ft.dwHighDateTime || ft.dwLowDateTime; } BOOL IsValidSize(ULONGLONG ull) { return ull != (ULONGLONG)-1; } BOOL IsValidFrequency(int iTimesUsed) { return iTimesUsed >= 0; } void CALLBACK _UnblockInputCallback(HWND /*hwnd*/, UINT /*uMsg*/, UINT_PTR idEvent, DWORD /*dwTime*/) { BlockInput(FALSE); KillTimer(NULL, idEvent); } void _BlockDoubleClickInput(void) { if (SetTimer(NULL, 0, GetDoubleClickTime(), _UnblockInputCallback)) { BlockInput(TRUE); } } //#ifdef NEVER // // NTRAID#NTBUG9-314154-2001/3/12-brianau Handle Refresh // // Need to finish this for Whistler. // DWORD WINAPI PopulateAndRenderPublishedItemList(void* paf); DWORD WINAPI PopulateAndRenderOCSetupItemList(void* paf); void EnablePane(Element* pePane, bool fEnable); void ARPFrame::OnInput(InputEvent *pEvent) { if (GMF_BUBBLED == pEvent->nStage) { if (GINPUT_KEYBOARD == pEvent->nCode) { KeyboardEvent *pke = (KeyboardEvent *)pEvent; if (VK_F5 == pke->ch) { if (_peCurrentItemList) { if (_peCurrentItemList == _peInstalledItemList) { UpdateInstalledItems(); } else if (_peCurrentItemList == _pePublishedItemList) { RePopulatePublishedItemList(); } else if (_peCurrentItemList == _peOCSetupItemList) { RePopulateOCSetupItemList(); } } } } } HWNDElement::OnInput(pEvent); } //#endif HRESULT SetVisibleClientCB(ClientPicker *pe, LPARAM lParam) { pe->SetVisible(UNCASTLPARAMTOBOOL(lParam)); return TRUE; } // // This hides the controls that belong to the old pane and shows the // controls that belong to the new pane. // void ARPFrame::ChangePane(Element *pePane) { bool fEnable; // Show/hide elements that belong to _peChangePane... fEnable = pePane == _peChangePane; // TODO: Zero size ancestors need to cause adaptors (HWNDHosts) to hide _peSortCombo->SetVisible(fEnable); EnablePane(_peChangePane, fEnable); // Show/hide elements that belong to _peAddNewPane fEnable = pePane == _peAddNewPane; _pePublishedCategory->SetVisible(fEnable); _pePublishedCategoryLabel->SetVisible(fEnable); EnablePane(_peAddNewPane, fEnable); // Show/hide elements that belong to _peAddRmWinPane fEnable = pePane == _peAddRmWinPane; EnablePane(_peAddRmWinPane, fEnable); // Show/hide elements that belong to _pePickAppPane fEnable = pePane == _pePickAppPane; TraverseTree(_pePickAppPane, SetVisibleClientCB, fEnable); EnablePane(_pePickAppPane, fEnable); } // If we can't put focus on the list, it will go to the fallback location void ARPFrame::PutFocusOnList(Selector* peList) { Element* pe; if (pe = peList->GetSelection()) { pe->SetKeyFocus(); } else { pe = FallbackFocus(); if (pe) { pe->SetKeyFocus(); } } } void ARPFrame::OnEvent(Event* pEvent) { // Handle only bubbled generic events if (pEvent->nStage == GMF_BUBBLED) { if (pEvent->uidType == Button::Click) { ButtonClickEvent* pbce = (ButtonClickEvent*)pEvent; if (pbce->peTarget->GetID() == _idClose || pbce->peTarget == _peOK) { // Close button if (OnClose()) { _pnhh->DestroyWindow(); } pEvent->fHandled = true; return; } else if (pbce->peTarget == _peCancel) { // Do not call OnClose; nothing will be applied _pnhh->DestroyWindow(); pEvent->fHandled = true; return; } else if (pbce->peTarget->GetID() == _idAddFromDisk) { // Add from disk button HRESULT hr; IShellAppManager* pisam = NULL; hr = CoCreateInstance(__uuidof(ShellAppManager), NULL, CLSCTX_INPROC_SERVER, __uuidof(IShellAppManager), (void**)&pisam); if (SUCCEEDED(hr)) { pisam->InstallFromFloppyOrCDROM(GetHWND()); } if (pisam) { pisam->Release(); } pEvent->fHandled = true; return; } else if (pbce->peTarget->GetID() == _idAddFromMsft) { // Windows update button ShellExecuteW(NULL, NULL, L"wupdmgr.exe", NULL, NULL, SW_SHOWDEFAULT); pEvent->fHandled = true; return; } else if (pbce->peTarget->GetID() == _idComponents) { RunOCManager(); } else if (pbce->peTarget->GetID() == ARPItem::_idSize || pbce->peTarget->GetID() == ARPItem::_idFreq || pbce->peTarget->GetID() == ARPItem::_idSupInfo) { // Help requests ARPHelp* peHelp; NativeHWNDHost* pnhh = NULL; Element* pe = NULL; WCHAR szTitle[1024]; if (pbce->peTarget->GetID() == ARPItem::_idSize) { LoadStringW(_pParser->GetHInstance(), IDS_SIZETITLE, szTitle, DUIARRAYSIZE(szTitle)); if (SUCCEEDED(NativeHWNDHost::Create(szTitle, GetHWND(), NULL, CW_USEDEFAULT, CW_USEDEFAULT, 200, 200, 0, WS_POPUPWINDOW | WS_OVERLAPPED | WS_DLGFRAME, NHHO_NoSendQuitMessage | NHHO_HostControlsSize | NHHO_ScreenCenter, &pnhh))) { ARPHelp::Create(pnhh, this, _bDoubleBuffer, (Element**)&peHelp); _pParser->CreateElement(L"sizehelp", peHelp, &pe); } else { DUITrace(">> Failed to create NativeHWNDHost for size info window.\n"); } } else if (pbce->peTarget->GetID() == ARPItem::_idFreq) { LoadStringW(_pParser->GetHInstance(), IDS_FREQUENCYTITLE, szTitle, DUIARRAYSIZE(szTitle)); if (SUCCEEDED(NativeHWNDHost::Create(szTitle, GetHWND(), NULL, CW_USEDEFAULT, CW_USEDEFAULT, 200, 200, 0, WS_POPUPWINDOW | WS_OVERLAPPED | WS_DLGFRAME, NHHO_NoSendQuitMessage | NHHO_HostControlsSize | NHHO_ScreenCenter, &pnhh))) { ARPHelp::Create(pnhh, this, _bDoubleBuffer, (Element**)&peHelp); _pParser->CreateElement(L"freqhelp", peHelp, &pe); } else { DUITrace(">> Failed to create NativeHWNDHost for frequency info window.\n"); } } else { // Support information, add additional fields LoadStringW(_pParser->GetHInstance(), IDS_SUPPORTTITLE, szTitle, DUIARRAYSIZE(szTitle)); if (SUCCEEDED(NativeHWNDHost::Create(szTitle, GetHWND(), NULL, CW_USEDEFAULT, CW_USEDEFAULT, 200, 200, 0, WS_POPUPWINDOW | WS_OVERLAPPED | WS_DLGFRAME, NHHO_NoSendQuitMessage | NHHO_HostControlsSize | NHHO_ScreenCenter, &pnhh))) { ARPHelp::Create(pnhh, this, _bDoubleBuffer, (Element**)&peHelp); _pParser->CreateElement(L"suphelp", peHelp, &pe); // Get application info APPINFODATA aid = {0}; // Query aid.cbSize = sizeof(APPINFODATA); aid.dwMask = AIM_DISPLAYNAME | AIM_VERSION | AIM_PUBLISHER | AIM_PRODUCTID | AIM_REGISTEREDOWNER | AIM_REGISTEREDCOMPANY | AIM_SUPPORTURL | AIM_SUPPORTTELEPHONE | AIM_HELPLINK | AIM_INSTALLLOCATION | AIM_INSTALLDATE | AIM_COMMENTS | AIM_IMAGE | AIM_READMEURL | AIM_CONTACT | AIM_UPDATEINFOURL; // There must be a selection ARPItem* peSel = (ARPItem*)_peInstalledItemList->GetSelection(); peSel->_piia->GetAppInfo(&aid); ((ARPHelp*)peHelp)->_piia = peSel->_piia; PrepareSupportInfo(peHelp, &aid); // Clean up ClearAppInfoData(&aid); } else { DUITrace(">> Failed to create NativeHWNDHost for support info window.\n"); } } if (pe && pnhh) // Fill contents using substitution { // Set visible and host _pah = peHelp; _bInModalMode = true; EnableWindow(GetHWND(), FALSE); pnhh->Host(peHelp); peHelp->SetVisible(true); peHelp->SetDefaultFocus(); // Do initial show pnhh->ShowWindow(); } pEvent->fHandled = true; return; } } else if (pEvent->uidType == Selector::SelectionChange) { SelectionChangeEvent* sce = (SelectionChangeEvent*)pEvent; // // NTRAID#NTBUG9-294015-2001/02/08-jeffreys // // If the user double-clicks, weird things can happen. // // // NTRAID#NTBUG9-313888-2001/2/14-brianau // // This fix for 294015 caused more strange things to happen. The most notable // is that sometimes you click a button and it remains depressed // but nothing happens. Disabling this call to block double // click input fixes this problem. We need to devise a better way // of handling double-click input in DUI. // // _BlockDoubleClickInput(); if (sce->peTarget == _peOptionList) { // ARP options StartDefer(); Element* peAddContentHeader = FindDescendentByName(this, L"addcontentheader"); ASSERT(peAddContentHeader != NULL); if (sce->peNew->GetID() == _idChange) { if (!_bInstalledListFilled) { UpdateInstalledItems(); } ChangePane(_peChangePane); _peCurrentItemList = _peInstalledItemList; _peInstalledItemList->SetContentString(L""); PutFocusOnList(_peInstalledItemList); } else if (sce->peNew->GetID() == _idAddNew) { if (!_bPublishedListFilled) { WCHAR szTemp[1024]; LoadStringW(_pParser->GetHInstance(), IDS_WAITFEEDBACK, szTemp, DUIARRAYSIZE(szTemp)); _pePublishedItemList->SetContentString(szTemp); SetElementAccessability(_pePublishedItemList, true, ROLE_SYSTEM_STATICTEXT, szTemp); RePopulatePublishedItemList(); } ChangePane(_peAddNewPane); if (_bTerminalServer) { // No applications are available to install // from the network in terminal server mode // so there is no point choosing a category _pePublishedCategory->SetVisible(false); _pePublishedCategoryLabel->SetVisible(false); } _peCurrentItemList = _pePublishedItemList; PutFocusOnList(_pePublishedItemList); } else if (sce->peNew->GetID() == _idAddRmWin) { ChangePane(_peAddRmWinPane); _peCurrentItemList = _peOCSetupItemList; if (!_bOCSetupNeeded) { RunOCManager(); if (sce->peOld) { _peOptionList->SetSelection(sce->peOld); } } else { if (!_bOCSetupListFilled) { //_beginthread(PopulateAndRenderOCSetupItemList, 0, (void*)this); if (!htPopulateAndRenderOCSetupItemList && g_fRun) htPopulateAndRenderOCSetupItemList = CreateThread(NULL, 0, PopulateAndRenderOCSetupItemList, (void*)this, 0, NULL); _bOCSetupListFilled = true; } PutFocusOnList(_peOCSetupItemList); } } else if (sce->peNew->GetID() == _idPickApps) { ChangePane(_pePickAppPane); _peCurrentItemList = _peClientTypeList; PutFocusOnList(_peClientTypeList); } EndDefer(); } else if (sce->peTarget == _peInstalledItemList) { if (sce->peOld) { sce->peOld->FindDescendent(ARPItem::_idRow[0])->SetEnabled(false); } if (sce->peNew) { sce->peNew->FindDescendent(ARPItem::_idRow[0])->RemoveLocalValue(EnabledProp); } } pEvent->fHandled = true; return; } else if (pEvent->uidType == Combobox::SelectionChange) { SelectionIndexChangeEvent* psice = (SelectionIndexChangeEvent*)pEvent; if (psice->peTarget->GetID() == _idSortCombo) { SortList(psice->iNew, psice->iOld); } else if (psice->peTarget->GetID() == _idCategoryCombo) { _curCategory = psice->iNew; if (_bPublishedComboFilled) { if (_bPublishedListFilled) { RePopulatePublishedItemList(); } } } } } HWNDElement::OnEvent(pEvent); } void ARPFrame::OnKeyFocusMoved(Element* peFrom, Element* peTo) { if(peTo && IsDescendent(peTo)) { peLastFocused = peTo; } Element::OnKeyFocusMoved(peFrom, peTo); /* uncomment when JStall's message fixing is done if (peTo != peLastFocused) { // transition focus-following floater element from old to new if (!peTo) peFloater->SetVisible(false); else { Value* pvSize; const SIZE* psize = peTo->GetExtent(&pvSize); peFloater->SetWidth(psize->cx); peFloater->SetHeight(psize->cy); pvSize->Release(); POINT pt = { 0, 0 }; MapElementPoint(peTo, &pt, &pt); peFloater->SetX(pt.x); peFloater->SetY(pt.y); if (!peLastFocused) peFloater->SetVisible(true); } peLastFocused = peTo; } */ } void ARPFrame::OnPublishedListComplete() { Invoke(ARP_PUBLISHEDLISTCOMPLETE, NULL); } void ARPFrame::RePopulatePublishedItemList() { //_beginthread(::PopulateAndRenderPublishedItemList, 0, (void*)this); if (!htPopulateAndRenderPublishedItemList && g_fRun) { // Disable the category combo until we are done populating the list _pePublishedCategory->SetEnabled(false); _bPublishedListFilled = false; _pePublishedItemList->DestroyAll(); htPopulateAndRenderPublishedItemList = CreateThread(NULL, 0, PopulateAndRenderPublishedItemList, (void*)this, 0, NULL); } } void ARPFrame::RePopulateOCSetupItemList() { if (!htPopulateAndRenderOCSetupItemList && g_fRun) { _peOCSetupItemList->DestroyAll(); _bOCSetupListFilled = false; htPopulateAndRenderOCSetupItemList = CreateThread(NULL, 0, PopulateAndRenderOCSetupItemList, (void*)this, 0, NULL); _bOCSetupListFilled = true; } } bool ARPFrame::CanSetFocus() { if (_bInModalMode) { HWND hWnd = _pah->GetHost()->GetHWND(); FLASHWINFO fwi = { sizeof(FLASHWINFO), // cbSize hWnd, // hwnd FLASHW_CAPTION, // flags 5, // uCount 75 // dwTimeout }; FlashWindowEx(&fwi); SetFocus(hWnd); return false; } return true; } HRESULT TransferToCustomCB(ClientPicker *pe, LPARAM) { return pe->TransferToCustom(); } HRESULT ApplyClientBlockCB(ClientBlock* pcb, LPARAM lParam) { return pcb->Apply((ARPFrame*)lParam); } bool ARPFrame::OnClose() { if (_peClientTypeList) { Element *peSelected = _peClientTypeList->GetSelection(); if (peSelected) { // Get all the client pickers in the user's selection // to transfer their settings to the Custom pane. // (This is a NOP if the current selection is itself the custom pane.) TraverseTree(peSelected, TransferToCustomCB); InitProgressDialog(); // To get the progress bar right, we apply in two passes. // The first pass is "fake mode" where all we do is count up // how much work we are going to do. SetProgressFakeMode(true); TraverseTree(this, ApplyClientBlockCB, (LPARAM)this); // Okay now we know what the progress bar limit should be. _dwProgressTotal = _dwProgressSoFar; _dwProgressSoFar = 0; // The second pass is "real mode" where we do the actualy work. SetProgressFakeMode(false); TraverseTree(this, ApplyClientBlockCB, (LPARAM)this); EndProgressDialog(); } } return true; } void ARPFrame::InitProgressDialog() { TCHAR szBuf[MAX_PATH]; EndProgressDialog(); _dwProgressTotal = _dwProgressSoFar = 0; if (SUCCEEDED(CoCreateInstance(CLSID_ProgressDialog, NULL, CLSCTX_INPROC_SERVER, IID_PPV_ARG(IProgressDialog, &_ppd)))) { _ppd->SetAnimation(GetModuleHandle(TEXT("SHELL32")), 165); LoadString(g_hinstSP1, IDS_APPWIZ_APPLYINGCLIENT, szBuf, SIZECHARS(szBuf)); _ppd->SetTitle(szBuf); _ppd->StartProgressDialog(GetHostWindow(), NULL, PROGDLG_MODAL | PROGDLG_NOTIME | PROGDLG_NOMINIMIZE, NULL); } } void ARPFrame::SetProgressDialogText(UINT ids, LPCTSTR pszName) { TCHAR szBuf[MAX_PATH]; TCHAR szFormat[MAX_PATH]; if (_ppd) { LoadString(g_hinstSP1, ids, szFormat, SIZECHARS(szFormat)); wnsprintf(szBuf, SIZECHARS(szBuf), szFormat, pszName); _ppd->SetLine(1, szBuf, FALSE, NULL); _ppd->SetProgress(_dwProgressSoFar, _dwProgressTotal); } } void ARPFrame::EndProgressDialog() { if (_ppd) { _ppd->StopProgressDialog(); _ppd->Release(); _ppd = NULL; } } HRESULT ARPFrame::LaunchClientCommandAndWait(UINT ids, LPCTSTR pszName, LPTSTR pszCommand) { HRESULT hr = S_OK; if (!_bFakeProgress) { if (_ppd && _ppd->HasUserCancelled()) { hr = HRESULT_FROM_WIN32(ERROR_CANCELLED); } else { SetProgressDialogText(ids, pszName); PROCESS_INFORMATION pi; STARTUPINFO si = { 0 }; si.cb = sizeof(si); si.dwFlags = STARTF_USESHOWWINDOW; si.wShowWindow = SW_SHOWNORMAL; if (CreateProcess(NULL, pszCommand, NULL, NULL, FALSE, 0, NULL, NULL, &si, &pi)) { while (SHWaitForSendMessageThread(pi.hProcess, 1000) == WAIT_TIMEOUT) { if (_ppd && _ppd->HasUserCancelled()) { hr = HRESULT_FROM_WIN32(ERROR_CANCELLED); break; } } CloseHandle(pi.hProcess); CloseHandle(pi.hThread); } } } _dwProgressSoFar++; return hr; } //////////////////////////////////////////////////////// // Caller thread-safe APIs (do any additional work on callers thread and then marshal) // Sets the range for the total number of installed items void ARPFrame::SetInstalledItemCount(UINT cItems) { Invoke(ARP_SETINSTALLEDITEMCOUNT, (void*)(UINT_PTR)cItems); } void ARPFrame::DecrementInstalledItemCount() { Invoke(ARP_DECREMENTINSTALLEDITEMCOUNT, NULL); } // Sets the range for the total number of installed items void ARPFrame::SetPublishedItemCount(UINT cItems) { Invoke(ARP_SETPUBLISHEDITEMCOUNT, (void*)(UINT_PTR)cItems); } void ARPFrame::DecrementPublishedItemCount() { Invoke(ARP_DECREMENTPUBLISHEDITEMCOUNT, NULL); } // Inserts in items, sorted into the ARP list void ARPFrame::InsertInstalledItem(IInstalledApp* piia) { if (piia == NULL) { Invoke(ARP_DONEINSERTINSTALLEDITEM, NULL); } else { // Setup marshalled call, do as much work as possible on caller thread InsertItemData iid; APPINFODATA aid = {0}; SLOWAPPINFO sai = {0}; // Query only for display name and support URL aid.cbSize = sizeof(APPINFODATA); aid.dwMask = AIM_DISPLAYNAME | AIM_VERSION | AIM_PUBLISHER | AIM_PRODUCTID | AIM_REGISTEREDOWNER | AIM_REGISTEREDCOMPANY | AIM_SUPPORTURL | AIM_SUPPORTTELEPHONE | AIM_HELPLINK | AIM_INSTALLLOCATION | AIM_INSTALLDATE | AIM_COMMENTS | AIM_IMAGE | AIM_READMEURL | AIM_CONTACT | AIM_UPDATEINFOURL; piia->GetAppInfo(&aid); if(FAILED(piia->GetCachedSlowAppInfo(&sai))) { piia->GetSlowAppInfo(&sai); } // Set data iid.piia = piia; if (aid.pszDisplayName && aid.pszDisplayName[0]) { // Title CopyMemory(iid.pszTitle, aid.pszDisplayName, min(sizeof(iid.pszTitle), (wcslen(aid.pszDisplayName) + 1) * sizeof(WCHAR))); // Image if (aid.pszImage && aid.pszImage[0]) { iid.iIconIndex = PathParseIconLocationW(aid.pszImage); CopyMemory(iid.pszImage, aid.pszImage, min(sizeof(iid.pszImage), (wcslen(aid.pszImage) + 1) * sizeof(WCHAR))); } else if (sai.pszImage && sai.pszImage[0]) { iid.iIconIndex = PathParseIconLocationW(sai.pszImage); CopyMemory(iid.pszImage, sai.pszImage, min(sizeof(iid.pszImage), (wcslen(sai.pszImage) + 1) * sizeof(WCHAR))); } else { *iid.pszImage = NULL; } // Size, Frequency, and Last Used On iid.ullSize = sai.ullSize; iid.iTimesUsed = sai.iTimesUsed; iid.ftLastUsed = sai.ftLastUsed; // Possible actions (change, remove, etc.) piia->GetPossibleActions(&iid.dwActions); // Flag if support information is available iid.bSupportInfo = ShowSupportInfo(&aid); Invoke(ARP_INSERTINSTALLEDITEM, &iid); } else // Adjust Status bar size. { DecrementInstalledItemCount(); } // Free query memory ClearAppInfoData(&aid); } } void ARPFrame::InsertPublishedItem(IPublishedApp* pipa, bool bDuplicateName) { PUBAPPINFO* ppai; APPINFODATA aid = {0}; InsertItemData iid= {0}; ppai = new PUBAPPINFO; if (ppai == NULL) { return; } ppai->cbSize = sizeof(PUBAPPINFO); ppai->dwMask = PAI_SOURCE | PAI_ASSIGNEDTIME | PAI_PUBLISHEDTIME | PAI_EXPIRETIME | PAI_SCHEDULEDTIME; aid.cbSize = sizeof(APPINFODATA); aid.dwMask = AIM_DISPLAYNAME | AIM_VERSION | AIM_PUBLISHER | AIM_PRODUCTID | AIM_REGISTEREDOWNER | AIM_REGISTEREDCOMPANY | AIM_SUPPORTURL | AIM_SUPPORTTELEPHONE | AIM_HELPLINK | AIM_INSTALLLOCATION | AIM_INSTALLDATE | AIM_COMMENTS | AIM_IMAGE | AIM_READMEURL | AIM_CONTACT | AIM_UPDATEINFOURL; pipa->GetAppInfo(&aid); pipa->GetPublishedAppInfo(ppai); // Title if (bDuplicateName) { // // Duplicate entries have their publisher name appended // to the application name so that they can be differentiated // from one another in the UI. // wnsprintf(iid.pszTitle, ARRAYSIZE(iid.pszTitle), L"%ls: %ls", aid.pszDisplayName, ppai->pszSource); } else { // // iid.pszTitle, despite the name is a character buffer, not a pointer. // lstrcpyn(iid.pszTitle, aid.pszDisplayName, ARRAYSIZE(iid.pszTitle)); } iid.pipa = pipa; iid.ppai = ppai; Invoke(ARP_INSERTPUBLISHEDITEM, &iid); // Free query memory ClearAppInfoData(&aid); } void ARPFrame::InsertOCSetupItem(COCSetupApp* pocsa) { APPINFODATA aid = {0}; InsertItemData iid= {0}; aid.cbSize = sizeof(APPINFODATA); aid.dwMask = AIM_DISPLAYNAME; pocsa->GetAppInfo(&aid); iid.pocsa = pocsa; // Title CopyMemory(iid.pszTitle, aid.pszDisplayName, min(sizeof(iid.pszTitle), (wcslen(aid.pszDisplayName) + 1) * sizeof(WCHAR))); Invoke(ARP_INSERTOCSETUPITEM, &iid); // Free query memory ClearAppInfoData(&aid); } void ARPFrame::FeedbackEmptyPublishedList() { Invoke(ARP_SETPUBLISHEDFEEDBACKEMPTY, 0); } void ARPFrame::DirtyInstalledListFlag() { _bInstalledListFilled=false; // Refresh if we are on the published list if (_peCurrentItemList == _peInstalledItemList) { UpdateInstalledItems(); } } void ARPFrame::DirtyPublishedListFlag() { _bPublishedListFilled=false; // Refresh if we are on the published list if (_peCurrentItemList == _pePublishedItemList) { RePopulatePublishedItemList(); } } void ARPFrame::PopulateCategoryCombobox() { Invoke(ARP_POPULATECATEGORYCOMBO, NULL); } LPCWSTR ARPFrame::GetCurrentPublishedCategory() { int iCurrentCategory = _curCategory; if (iCurrentCategory == 0 || iCurrentCategory == CB_ERR || _psacl == NULL) { return NULL; } return _psacl->pCategory[iCurrentCategory - 1].pszCategory; } inline bool ARPFrame::ShowSupportInfo(APPINFODATA *paid) { if (_bSupportInfoRestricted) { return false; } if (paid->pszVersion && paid->pszVersion || paid->pszPublisher && paid->pszPublisher || paid->pszProductID && paid->pszProductID || paid->pszRegisteredOwner && paid->pszRegisteredOwner || paid->pszRegisteredCompany && paid->pszRegisteredCompany || paid->pszSupportUrl && paid->pszSupportUrl || paid->pszHelpLink && paid->pszHelpLink || paid->pszContact && paid->pszContact || paid->pszReadmeUrl && paid->pszReadmeUrl || paid->pszComments && paid->pszComments) { return TRUE; } return FALSE; } void ARPFrame::PrepareSupportInfo(Element* peHelp, APPINFODATA *paid) { DWORD dwAction = 0; Element* pe; pe = FindDescendentByName(peHelp, L"title"); pe->SetContentString(paid->pszDisplayName); SetElementAccessability(pe, true, ROLE_SYSTEM_STATICTEXT, paid->pszDisplayName); pe = FindDescendentByName(peHelp, L"prodname"); pe->SetContentString(paid->pszDisplayName); SetElementAccessability(pe, true, ROLE_SYSTEM_STATICTEXT, paid->pszDisplayName); ARPSupportItem* pasi; pasi = (ARPSupportItem*) FindDescendentByName(peHelp, L"publisher"); pasi->SetAccValue(paid->pszPublisher); pasi->SetURL(paid->pszSupportUrl); FindDescendentByName(peHelp, L"version")->SetAccValue(paid->pszVersion); FindDescendentByName(peHelp, L"contact")->SetAccValue(paid->pszContact); pasi = (ARPSupportItem*) FindDescendentByName(peHelp, L"support"); pasi->SetAccValue(paid->pszHelpLink); pasi->SetURL(paid->pszHelpLink); pasi = (ARPSupportItem*) FindDescendentByName(peHelp, L"readme"); pasi->SetAccValue(paid->pszReadmeUrl); pasi->SetURL(paid->pszReadmeUrl); pasi = (ARPSupportItem*) FindDescendentByName(peHelp, L"update"); pasi->SetAccValue(paid->pszUpdateInfoUrl); pasi->SetURL(paid->pszUpdateInfoUrl); FindDescendentByName(peHelp, L"productID")->SetAccValue(paid->pszProductID); FindDescendentByName(peHelp, L"regCompany")->SetAccValue(paid->pszRegisteredCompany); FindDescendentByName(peHelp, L"regOwner")->SetAccValue(paid->pszRegisteredOwner); FindDescendentByName(peHelp, L"comments")->SetAccValue(paid->pszComments); ((ARPHelp*)peHelp)->_piia->GetPossibleActions(&dwAction); if (!(dwAction & APPACTION_REPAIR)) FindDescendentByName(peHelp, L"repairblock")->SetLayoutPos(LP_None); } extern "C" int __cdecl CompareElementDataName(const void* pA, const void* pB); extern "C" int __cdecl CompareElementDataSize(const void* pA, const void* pB); extern "C" int __cdecl CompareElementDataFreq(const void* pA, const void* pB); extern "C" int __cdecl CompareElementDataLast(const void* pA, const void* pB); CompareCallback ARPFrame::GetCompareFunction() { switch(CurrentSortType) { case SORT_SIZE: return CompareElementDataSize; case SORT_TIMESUSED: return CompareElementDataFreq; case SORT_LASTUSED: return CompareElementDataLast; default: return CompareElementDataName; } } void ARPFrame::SortList(int iNew, int iOld) { if ((iNew >= 0) && (iNew != CurrentSortType)) { CurrentSortType = (SortType) iNew; StartDefer(); if (((iNew != SORT_NAME) || (iOld != SORT_SIZE)) && ((iNew != SORT_SIZE) || (iOld != SORT_NAME))) { Value* pvChildren; ElementList* pel = _peInstalledItemList->GetChildren(&pvChildren); if (NULL == pel) { EndDefer(); return; } for (UINT i = 0; i < pel->GetSize(); i++) ((ARPItem*) pel->GetItem(i))->SortBy(iNew, iOld); pvChildren->Release(); } _peInstalledItemList->SortChildren(GetCompareFunction()); if (!_peInstalledItemList->GetSelection()) { Value* pv; ElementList* peList = _peInstalledItemList->GetChildren(&pv); if (NULL == peList) { EndDefer(); return; } _peInstalledItemList->SetSelection(peList->GetItem(0)); pv->Release(); } EndDefer(); } } void ARPFrame::SelectInstalledApp(IInstalledApp* piia) { Value* pv; ElementList* peList = _peInstalledItemList->GetChildren(&pv); for (UINT i = 0; i < peList->GetSize(); i++) { ARPItem* pai = (ARPItem*) peList->GetItem(i); if (pai->_piia == piia) { pai->SetKeyFocus(); break; } } pv->Release(); } // Selects an app adjacent in the list to piia if possible, or to the fallback otherwise. // First preference is for the app immediately following piia, if available. void ARPFrame::SelectClosestApp(IInstalledApp* piia) { Value* pv; ElementList* peList = _peInstalledItemList->GetChildren(&pv); for (UINT i = 0; i < peList->GetSize(); i++) { ARPItem* pai = (ARPItem*) peList->GetItem(i); if (pai->_piia == piia) { Element* peFocus = FallbackFocus(); // If there is an app after piia, select it. if ((i + 1) < peList->GetSize()) { peFocus = (Element*) peList->GetItem(i + 1); } // else if there is an app before piia, select it else if (i != 0) { peFocus = (Element*) peList->GetItem(i - 1); } peFocus->SetKeyFocus(); break; } } pv->Release(); } //////////////////////////////////////////////////////// // Callee thread-safe invoke (override) void ARPFrame::OnInvoke(UINT nType, void* pData) { // We are shutting down, ignore any requests from other threads if (!g_fRun) return; // Initialize ID cache if first pass if (!ARPItem::_idTitle) { ARPItem::_idTitle = StrToID(L"title"); ARPItem::_idIcon = StrToID(L"icon"); ARPItem::_idSize = StrToID(L"size"); ARPItem::_idFreq = StrToID(L"freq"); ARPItem::_idLastUsed = StrToID(L"lastused"); ARPItem::_idInstalled = StrToID(L"installed"); ARPItem::_idExInfo = StrToID(L"exinfo"); ARPItem::_idSupInfo = StrToID(L"supinfo"); ARPItem::_idItemAction = StrToID(L"itemaction"); ARPItem::_idRow[0] = StrToID(L"row1"); ARPItem::_idRow[1] = StrToID(L"row2"); ARPItem::_idRow[2] = StrToID(L"row3"); } switch (nType) { case ARP_SETINSTALLEDITEMCOUNT: // pData is item count _cMaxInstalledItems = (int)(INT_PTR)pData; break; case ARP_DECREMENTINSTALLEDITEMCOUNT: _cMaxInstalledItems--; break; case ARP_SETPUBLISHEDITEMCOUNT: // pData is item count _cMaxPublishedItems = (int)(INT_PTR)pData; break; case ARP_DECREMENTPUBLISHEDITEMCOUNT: _cMaxPublishedItems--; break; case ARP_SETPUBLISHEDFEEDBACKEMPTY: { WCHAR szTemp[1024]; if (_bTerminalServer) { // We are running terminal server // This means no applications are displayed by design (not because there aren't any available) LoadStringW(_pParser->GetHInstance(), IDS_TERMSERVFEEDBACK, szTemp, DUIARRAYSIZE(szTemp)); } else { LoadStringW(_pParser->GetHInstance(), IDS_EMPTYFEEDBACK, szTemp, DUIARRAYSIZE(szTemp)); } _pePublishedItemList->SetContentString(szTemp); SetElementAccessability(_pePublishedItemList, true, ROLE_SYSTEM_STATICTEXT, szTemp); } break; case ARP_INSERTINSTALLEDITEM: { WCHAR szTemp[1024] = {0}; // pData is InsertItemData struct InsertItemData* piid = (InsertItemData*)pData; StartDefer(); // Create ARP item DUIAssertNoMsg(_pParser); ARPItem* peItem; Element* pe; if (_hdsaInstalledItems == NULL) { LoadStringW(_pParser->GetHInstance(), IDS_PLEASEWAIT, szTemp, DUIARRAYSIZE(szTemp)); _hdsaInstalledItems = DSA_Create(sizeof(ARPItem*), _cMaxInstalledItems); _peInstalledItemList->SetContentString(szTemp); } _pParser->CreateElement(L"installeditem", NULL, (Element**)&peItem); peItem->_paf = this; // Add appropriate change, remove buttons Element* peAction = NULL; if (!(piid->dwActions & APPACTION_MODIFYREMOVE)) { // It isn't marked with modify/remove (the default) // Somebody gave us some special instructions from the registry if (!(piid->dwActions & APPACTION_UNINSTALL)) { // NoRemove is set to 1 if (piid->dwActions & APPACTION_MODIFY) { // NoModify is not set so we can show the change button _pParser->CreateElement(L"installeditemchangeonlyaction", NULL, &peAction); if (!ARPItem::_idChg) { ARPItem::_idChg = StrToID(L"chg"); } LoadStringW(_pParser->GetHInstance(), IDS_HELPCHANGE, szTemp, DUIARRAYSIZE(szTemp)); } } else if (!(piid->dwActions & APPACTION_MODIFY)) { // NoModify is set to 1 // The only way we get here is if NoRemove is not set // so we don't have to check it again _pParser->CreateElement(L"installeditemremoveonlyaction", NULL, &peAction); if (!ARPItem::_idRm) { ARPItem::_idRm = StrToID(L"rm"); } LoadStringW(_pParser->GetHInstance(), IDS_HELPREMOVE, szTemp, DUIARRAYSIZE(szTemp)); } else { // Just display both Change and Remove buttons _pParser->CreateElement(L"installeditemdoubleaction", NULL, &peAction); if (!ARPItem::_idChg) { ARPItem::_idChg = StrToID(L"chg"); ARPItem::_idRm = StrToID(L"rm"); } LoadStringW(_pParser->GetHInstance(), IDS_HELPCHANGEORREMOVE, szTemp, DUIARRAYSIZE(szTemp)); } } else { // Display the default "Change/Remove" button _pParser->CreateElement(L"installeditemsingleaction", NULL, &peAction); if (!ARPItem::_idChgRm) ARPItem::_idChgRm = StrToID(L"chgrm"); LoadStringW(_pParser->GetHInstance(), IDS_HELPCHANGEREMOVE, szTemp, DUIARRAYSIZE(szTemp)); } // Common steps for all cases above if (peAction) { // If peAction is not set, we are not displaying any buttons... pe = FindDescendentByName(peItem, L"instruct"); pe->SetContentString(szTemp); SetElementAccessability(pe, true, ROLE_SYSTEM_STATICTEXT, szTemp); peItem->FindDescendent(ARPItem::_idItemAction)->Add(peAction); } // Support information if (!piid->bSupportInfo) peItem->FindDescendent(ARPItem::_idSupInfo)->SetLayoutPos(LP_None); // Set fields // Installed app interface pointer peItem->_piia = piid->piia; peItem->_piia->AddRef(); // should just be call into the peItem: peItem->SetTimesUsed(piid->iTimesUsed); etc. peItem->_iTimesUsed = piid->iTimesUsed; peItem->_ftLastUsed = piid->ftLastUsed; peItem->_ullSize = piid->ullSize; // Title Element* peField = peItem->FindDescendent(ARPItem::_idTitle); DUIAssertNoMsg(peField); peField->SetContentString(piid->pszTitle); SetElementAccessability(peField, true, ROLE_SYSTEM_STATICTEXT, piid->pszTitle); SetElementAccessability(peItem, true, ROLE_SYSTEM_LISTITEM, piid->pszTitle); // Icon if (piid->pszImage) { HICON hIcon; ExtractIconExW(piid->pszImage, piid->iIconIndex, NULL, &hIcon, 1); if (hIcon) { peField = peItem->FindDescendent(ARPItem::_idIcon); DUIAssertNoMsg(peField); Value* pvIcon = Value::CreateGraphic(hIcon); if (NULL != pvIcon) { peField->SetValue(Element::ContentProp, PI_Local, pvIcon); // Element takes ownership (will destroy) pvIcon->Release(); } } } *szTemp = NULL; // Size peField = peItem->FindDescendent(ARPItem::_idSize); DUIAssertNoMsg(peField); if (IsValidSize(piid->ullSize)) { WCHAR szMBLabel[5] = L"MB"; WCHAR szSize[15] = {0}; double fSize = (double)(__int64)piid->ullSize; fSize /= 1048576.; // 1MB LoadStringW(_pParser->GetHInstance(), IDS_SIZEUNIT, szMBLabel, DUIARRAYSIZE(szMBLabel)); if (fSize > 100.) { swprintf(szTemp, L"%d", (__int64)fSize); // Clip } else { swprintf(szTemp, L"%.2f", fSize); } // Format the number for the current user's locale if (GetNumberFormat(LOCALE_USER_DEFAULT, 0, szTemp, NULL, szSize, DUIARRAYSIZE(szSize)) == 0) { lstrcpyn(szSize, szTemp, DUIARRAYSIZE(szSize)); } if (lstrcat(szSize, szMBLabel)) { peField->SetContentString(szSize); SetElementAccessability(peField, true, ROLE_SYSTEM_STATICTEXT, szTemp); } } else { peField->SetVisible(false); FindDescendentByName(peItem, L"sizelabel")->SetVisible(false); } // Frequency peField = peItem->FindDescendent(ARPItem::_idFreq); DUIAssertNoMsg(peField); if (IsValidFrequency(piid->iTimesUsed)) { if (piid->iTimesUsed <= 2) LoadStringW(_pParser->GetHInstance(), IDS_USEDREARELY, szTemp, DUIARRAYSIZE(szTemp)); else if (piid->iTimesUsed <= 10) LoadStringW(_pParser->GetHInstance(), IDS_USEDOCCASIONALLY, szTemp, DUIARRAYSIZE(szTemp)); else LoadStringW(_pParser->GetHInstance(), IDS_USEDFREQUENTLY, szTemp, DUIARRAYSIZE(szTemp)); peField->SetContentString(szTemp); SetElementAccessability(peField, true, ROLE_SYSTEM_STATICTEXT, szTemp); } else { peField->SetVisible(false); FindDescendentByName(peItem, L"freqlabel")->SetVisible(false); } // Last used on peField = peItem->FindDescendent(ARPItem::_idLastUsed); DUIAssertNoMsg(peField); if (IsValidFileTime(piid->ftLastUsed)) { LPWSTR szDate; SYSTEMTIME stLastUsed; DWORD dwDateSize = 0; BOOL bFailed=FALSE; // Get the date it was last used on FileTimeToSystemTime(&piid->ftLastUsed, &stLastUsed); dwDateSize = GetDateFormat(LOCALE_USER_DEFAULT, DATE_SHORTDATE, &stLastUsed, NULL, NULL, dwDateSize); if (dwDateSize) { szDate = new WCHAR[dwDateSize]; if (szDate) { dwDateSize = GetDateFormat(LOCALE_USER_DEFAULT, DATE_SHORTDATE, &stLastUsed, NULL, szDate, dwDateSize); if (dwDateSize) { peField->SetContentString(szDate); SetElementAccessability(peField, true, ROLE_SYSTEM_STATICTEXT, szDate); } else { bFailed=TRUE; } delete [] szDate; } else { bFailed=TRUE; } } else { bFailed=TRUE; } if (bFailed) { peField->SetVisible(false); FindDescendentByName(peItem, L"lastlabel")->SetVisible(false); } } else { peField->SetVisible(false); FindDescendentByName(peItem, L"lastlabel")->SetVisible(false); } // Insert item into DSA int cNum = DSA_InsertItem(_hdsaInstalledItems, INT_MAX, &peItem); // Insert failed if (cNum < 0) { _cMaxInstalledItems--; // We're out of items to insert so remove the wait string if (!_cMaxInstalledItems) { _peInstalledItemList->SetContentString(L""); } } EndDefer(); } break; case ARP_DONEINSERTINSTALLEDITEM: { DUITrace(">> ARP_DONEINSERTINSTALLEDITEM STARTED.\n"); StartDefer(); if (_hdsaInstalledItems != NULL) { int iMax = DSA_GetItemCount(_hdsaInstalledItems); // Just to be safe so if all items get removed we won't be // stuck with the please wait string. _peInstalledItemList->SetContentString(L""); for (int i=0; i < iMax; i++) { ARPItem* aItem; if (DSA_GetItem(_hdsaInstalledItems, i, &aItem)) { _peInstalledItemList->Add(aItem, GetCompareFunction()); } } DSA_Destroy(_hdsaInstalledItems); _hdsaInstalledItems = NULL; // Set focus to first item // once list is populated, move focus to list GetNthChild(_peInstalledItemList, 0)->SetKeyFocus(); _bInstalledListFilled = true; } EndDefer(); DUITrace(">> ARP_DONEINSERTINSTALLEDITEM DONE.\n"); } break; case ARP_INSERTPUBLISHEDITEM: { WCHAR szTemp[MAX_PATH] = {0}; InsertItemData* piid = (InsertItemData*)pData; StartDefer(); // Need a DSA so we can add them all to the list at one time to avoid // having lots of redrawing of the layout. This method is much much faster. if (_hdsaPublishedItems == NULL) { LoadStringW(_pParser->GetHInstance(), IDS_PLEASEWAIT, szTemp, DUIARRAYSIZE(szTemp)); _hdsaPublishedItems = DSA_Create(sizeof(ARPItem*), _cMaxPublishedItems); _pePublishedItemList->SetContentString(szTemp); } // Create ARP item DUIAssertNoMsg(_pParser); ARPItem* peItem; Element* pe; _pParser->CreateElement(L"publisheditem", NULL, (Element**)&peItem); peItem->_paf = this; // Add appropriate change, remove buttons Element* peAction = NULL; _pParser->CreateElement(L"publisheditemsingleaction", NULL, &peAction); if (!ARPItem::_idAdd) ARPItem::_idAdd = StrToID(L"add"); peItem->FindDescendent(ARPItem::_idItemAction)->Add(peAction); if (S_OK == piid->pipa->IsInstalled()) { peItem->ShowInstalledString(TRUE); } // Published app interface pointer peItem->_pipa = piid->pipa; peItem->_pipa->AddRef(); peItem->_ppai = piid->ppai; // Title Element* peField = peItem->FindDescendent(ARPItem::_idTitle); DUIAssertNoMsg(peField); peField->SetContentString(piid->pszTitle); SetElementAccessability(peField, true, ROLE_SYSTEM_STATICTEXT, piid->pszTitle); SetElementAccessability(peItem, true, ROLE_SYSTEM_LISTITEM, piid->pszTitle); // Icon if (piid->pszImage) { HICON hIcon; ExtractIconExW(piid->pszImage, NULL, NULL, &hIcon, 1); if (hIcon) { peField = peItem->FindDescendent(ARPItem::_idIcon); DUIAssertNoMsg(peField); Value* pvIcon = Value::CreateGraphic(hIcon); peField->SetValue(Element::ContentProp, PI_Local, pvIcon); // Element takes ownership (will destroy) pvIcon->Release(); } } // Insert into DSA, alphabetically if (_hdsaPublishedItems != NULL) { int iInsert; int cNum = DSA_GetItemCount(_hdsaPublishedItems); // Search for place to insert for (iInsert = 0; iInsert < cNum; iInsert++) { ARPItem* fItem; if (DSA_GetItem(_hdsaPublishedItems, iInsert, &fItem)) { Value* pvTitle; pe = fItem->FindDescendent(ARPItem::_idTitle); DUIAssertNoMsg(pe); if (wcscmp(pe->GetContentString(&pvTitle), piid->pszTitle) > 0) { pvTitle->Release(); break; } pvTitle->Release(); } } // Insert item into DSA if (DSA_InsertItem(_hdsaPublishedItems, iInsert, &peItem) < 0) { // Failed to insert the item // Bring the total down by 1 _cMaxPublishedItems--; } } // We only want to start actually adding the items to the list // when we reach our last item. If we insert each item into the list // as we process these messages, it can take upwards of 4 minutes to populate // if there are a lot of items. if (_hdsaPublishedItems != NULL && DSA_GetItemCount(_hdsaPublishedItems) == _cMaxPublishedItems) { for (int i=0; i < _cMaxPublishedItems; i++) { ARPItem* aItem; if (DSA_GetItem(_hdsaPublishedItems, i, &aItem)) { _pePublishedItemList->Insert(aItem, i); } } DSA_Destroy(_hdsaPublishedItems); _hdsaPublishedItems = NULL; _pePublishedItemList->SetSelection(GetNthChild(_pePublishedItemList, 0)); } EndDefer(); } break; case ARP_INSERTOCSETUPITEM: { WCHAR szTemp[MAX_PATH] = {0}; InsertItemData* piid = (InsertItemData*)pData; StartDefer(); // Create ARP item DUIAssertNoMsg(_pParser); ARPItem* peItem; if (SUCCEEDED(_pParser->CreateElement(L"ocsetupitem", NULL, (Element**)&peItem))) { peItem->_paf = this; if (!ARPItem::_idConfigure) ARPItem::_idConfigure = StrToID(L"configure"); // Add appropriate change, remove buttons Element* peAction = NULL; if (SUCCEEDED(_pParser->CreateElement(L"ocsetupitemsingleaction", NULL, &peAction))) { Element *peItemAction = peItem->FindDescendent(ARPItem::_idItemAction); if (NULL != peItemAction && SUCCEEDED(peItemAction->Add(peAction))) { peAction = NULL; // Action successfully added. // OCSetup pointer peItem->_pocsa = piid->pocsa; // Title Element* peField = peItem->FindDescendent(ARPItem::_idTitle); DUIAssertNoMsg(peField); peField->SetContentString(piid->pszTitle); SetElementAccessability(peField, true, ROLE_SYSTEM_STATICTEXT, piid->pszTitle); SetElementAccessability(peItem, true, ROLE_SYSTEM_LISTITEM, piid->pszTitle); // Insert into list, alphabetically Value* pvElList; ElementList* peElList = _peOCSetupItemList->GetChildren(&pvElList); Value* pvTitle; Element* pe; UINT iInsert = 0; if (peElList) { for (; iInsert < peElList->GetSize(); iInsert++) { pe = peElList->GetItem(iInsert)->FindDescendent(ARPItem::_idTitle); DUIAssertNoMsg(pe); if (wcscmp(pe->GetContentString(&pvTitle), piid->pszTitle) > 0) { pvTitle->Release(); break; } pvTitle->Release(); } } pvElList->Release(); // Insert item into list if (FAILED(_peOCSetupItemList->Insert(peItem, iInsert))) { // // Failed to insert item into list. Need to delete // the OCSetupApp object. // delete peItem->_pocsa; peItem->_pocsa = NULL; } else { peItem = NULL; // Successfully added to list. _peOCSetupItemList->SetSelection(GetNthChild(_peOCSetupItemList, 0)); } } if (NULL != peAction) { peAction->Destroy(); peAction = NULL; } } if (NULL != peItem) { peItem->Destroy(); peItem = NULL; } } EndDefer(); } break; case ARP_POPULATECATEGORYCOMBO: { UINT i; WCHAR szTemp[1024]; UINT iSelection = 0; // Default to "All Categories" SHELLAPPCATEGORY *psac = _psacl->pCategory; LoadStringW(_pParser->GetHInstance(), IDS_ALLCATEGORIES, szTemp, DUIARRAYSIZE(szTemp)); _pePublishedCategory->AddString(szTemp); szTemp[0] = 0; ARPGetPolicyString(L"DefaultCategory", szTemp, ARRAYSIZE(szTemp)); StartDefer(); for (i = 0; i < _psacl->cCategories; i++, psac++) { if (psac->pszCategory) { _pePublishedCategory->AddString(psac->pszCategory); if (0 == lstrcmpi(psac->pszCategory, szTemp)) { // // Policy says default to this category. // i + 1 is required since element 0 is "All Categories" // and is ALWAYS present at element 0. // iSelection = i + 1; } } } _pePublishedCategory->SetSelection(iSelection); EndDefer(); } break; case ARP_PUBLISHEDLISTCOMPLETE: { _pePublishedCategory->SetEnabled(true); break; } } } void ARPFrame::ManageAnimations() { BOOL fAnimate = TRUE; SystemParametersInfo(SPI_GETMENUANIMATION, 0, &fAnimate, 0); if (fAnimate) { if (!IsFrameAnimationEnabled()) { _bAnimationEnabled = true; EnableAnimations(); } } else { if (IsFrameAnimationEnabled()) { _bAnimationEnabled = false; DisableAnimations(); } } DUIAssertNoMsg((fAnimate != FALSE) == IsFrameAnimationEnabled()); } HRESULT CalculateWidthCB(ClientPicker* pcp, LPARAM) { pcp->CalculateWidth(); return S_OK; } LRESULT ARPFrame::WndProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam) { switch (uMsg) { case WM_THEMECHANGED: case WM_SETTINGCHANGE: { LockWindowUpdate(_pnhh->GetHWND()); Parser* pOldStyle = _pParserStyle; Parser* pNewStyle = NULL; if (!pOldStyle) break; // System parameter changing, reload style sheets so to sync // up with changes if (_fThemedStyle) { for (int i = FIRSTHTHEME; i <= LASTHTHEME; i++) { if (_arH[i]) { CloseThemeData(_arH[i]); _arH[i] = NULL; } } } CreateStyleParser(&pNewStyle); // Replace all style sheets if (pNewStyle) { Parser::ReplaceSheets(this, pOldStyle, pNewStyle); } // New style parser _pParserStyle = pNewStyle; // Destroy old pOldStyle->Destroy(); // Animation setting may have changed ManageAnimations(); TraverseTree(this, CalculateWidthCB); LockWindowUpdate(NULL); } break; } return HWNDElement::WndProc(hWnd, uMsg, wParam, lParam); } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* ARPFrame::Class = NULL; HRESULT ARPFrame::Register() { return ClassInfo::Register(L"ARPFrame", NULL, 0); } //////////////////////////////////////////////////////// // ARPItem class //////////////////////////////////////////////////////// // ARP item IDs ATOM ARPItem::_idTitle = 0; ATOM ARPItem::_idIcon = 0; ATOM ARPItem::_idSize = 0; ATOM ARPItem::_idFreq = 0; ATOM ARPItem::_idLastUsed = 0; ATOM ARPItem::_idExInfo = 0; ATOM ARPItem::_idInstalled = 0; ATOM ARPItem::_idChgRm = 0; ATOM ARPItem::_idChg = 0; ATOM ARPItem::_idRm = 0; ATOM ARPItem::_idAdd = 0; ATOM ARPItem::_idConfigure = 0; ATOM ARPItem::_idSupInfo = 0; ATOM ARPItem::_idItemAction = 0; ATOM ARPItem::_idRow[3] = { 0, 0, 0 }; //////////////////////////////////////////////////////// // ARPItem HRESULT ARPItem::Create(OUT Element** ppElement) { *ppElement = NULL; ARPItem* pai = HNew(); if (!pai) return E_OUTOFMEMORY; HRESULT hr = pai->Initialize(); if (FAILED(hr)) { pai->Destroy(); return hr; } *ppElement = pai; return S_OK; } HRESULT ARPItem::Initialize() { _piia = NULL; // Init before base in event of failure (invokes desstructor) _pipa = NULL; // Init before base in event of failure (invokes desstructor) // Do base class initialization HRESULT hr = Button::Initialize(AE_MouseAndKeyboard); if (FAILED(hr)) return hr; return S_OK; } ARPItem::~ARPItem() { if (_piia) _piia->Release(); if (_pipa) _pipa->Release(); if (_pocsa) delete _pocsa; if (_ppai) { ClearPubAppInfo(_ppai); delete _ppai; } } void ARPItem::ShowInstalledString(BOOL bInstalled) { WCHAR szTemp[MAX_PATH] = L""; Element* pe = FindDescendent(ARPItem::_idInstalled); if (pe != NULL) { if (bInstalled) { LoadStringW(g_hinst, IDS_INSTALLED, szTemp, DUIARRAYSIZE(szTemp)); } pe->SetContentString(szTemp); SetElementAccessability(pe, true, ROLE_SYSTEM_STATICTEXT, szTemp); } } extern HWND _CreateTransparentStubWindow(HWND hwndParent); //////////////////////////////////////////////////////// // Generic eventing void ARPItem::OnEvent(Event* pEvent) { // Handle only bubbled generic events if (pEvent->uidType == Element::KeyboardNavigate) { KeyboardNavigateEvent* pkne = (KeyboardNavigateEvent*)pEvent; if (pkne->iNavDir & NAV_LOGICAL) { if (pEvent->nStage == GMF_DIRECT) { } } else { if (pEvent->nStage == GMF_ROUTED) { pEvent->fHandled = true; KeyboardNavigateEvent kne; kne.uidType = Element::KeyboardNavigate; kne.peTarget = this; kne.iNavDir = pkne->iNavDir; FireEvent(&kne); // Will route and bubble } return; } } if (pEvent->nStage == GMF_BUBBLED) { if (pEvent->uidType == Button::Click) { ButtonClickEvent* pbce = (ButtonClickEvent*)pEvent; ATOM id = pbce->peTarget->GetID(); if (id == _idChgRm || id == _idRm || id == _idChg || id == _idAdd || id == _idConfigure) { HWND hwndStub = NULL; HWND hwndHost = NULL; DUIAssertNoMsg(_paf); if (_paf) { hwndHost = _paf->GetHostWindow(); } if (hwndHost) { hwndStub = _CreateTransparentStubWindow(hwndHost); EnableWindow(hwndHost, FALSE); SetActiveWindow(hwndStub); } if (id == _idAdd) { HRESULT hres = S_OK; // Does the app have an expired publishing time? if (_ppai->dwMask & PAI_EXPIRETIME) { // Yes, it does. Let's compare the expired time with our current time SYSTEMTIME stCur = {0}; GetLocalTime(&stCur); // Is "now" later than the expired time? if (CompareSystemTime(&stCur, &_ppai->stExpire) > 0) { // Yes, warn the user and return failure ShellMessageBox(g_hinst, hwndHost, MAKEINTRESOURCE(IDS_EXPIRED), MAKEINTRESOURCE(IDS_ARPTITLE), MB_OK | MB_ICONEXCLAMATION); hres = E_FAIL; } } // if hres is not set by the above code, preceed with installation if (hres == S_OK) { HCURSOR hcur = ::SetCursor(LoadCursor(NULL, IDC_WAIT)); // On NT, let Terminal Services know that we are about to install an application. // NOTE: This function should be called no matter the Terminal Services // is running or not. BOOL bPrevMode = TermsrvAppInstallMode(); SetTermsrvAppInstallMode(TRUE); if (SUCCEEDED(_pipa->Install(NULL))) { // Show this item as installed ShowInstalledString(TRUE); // update installed items list _paf->DirtyInstalledListFlag(); } SetTermsrvAppInstallMode(bPrevMode); ::SetCursor(hcur); } } else { HRESULT hr = E_FAIL; if ((id == _idChgRm) || (id == _idRm)) hr = _piia->Uninstall(hwndHost); else if (id == _idChg) hr = _piia->Modify(hwndHost); if (SUCCEEDED(hr)) { if (S_FALSE == _piia->IsInstalled()) { _paf->DirtyPublishedListFlag(); } } } if (id == _idConfigure) { _pocsa->Run(); _paf->RePopulateOCSetupItemList(); } if (hwndHost) { if (!_piia) { EnableWindow(hwndHost, TRUE); SetForegroundWindow(hwndHost); } if (hwndStub) { DestroyWindow(hwndStub); } EnableWindow(hwndHost, TRUE); } if (_piia) { if (S_OK == _piia->IsInstalled()) { SetKeyFocus(); } else { // remove from installed items list _paf->SelectClosestApp(_piia); Destroy(); } } pEvent->fHandled = true; return; } } } Button::OnEvent(pEvent); } //////////////////////////////////////////////////////// // System events void ARPItem::OnPropertyChanged(PropertyInfo* ppi, int iIndex, Value* pvOld, Value* pvNew) { if (IsProp(Selected)) { // Display of extended information Element* peExInfo = FindDescendent(_idExInfo); DUIAssertNoMsg(peExInfo); peExInfo->SetLayoutPos(pvNew->GetBool() ? BLP_Top : LP_None); // Do default processing in this case } Button::OnPropertyChanged(ppi, iIndex, pvOld, pvNew); } void GetOrder(int iSortBy, int* iOrder) { switch (iSortBy) { case SORT_NAME: case SORT_SIZE: iOrder[0] = 0; iOrder[1] = 1; iOrder[2] = 2; break; case SORT_TIMESUSED: iOrder[0] = 1; iOrder[1] = 0; iOrder[2] = 2; break; case SORT_LASTUSED: iOrder[0] = 2; iOrder[1] = 0; iOrder[2] = 1; break; } } void ARPItem::SortBy(int iNew, int iOld) { Element* pe[3][2]; // size, timesused, lastused int iOrderOld[3]; // size, timesused, lastused int iOrderNew[3]; // size, timesused, lastused GetOrder(iOld, iOrderOld); GetOrder(iNew, iOrderNew); // // First get all the DUI elements to be sorted. If we // can't get all of them, this sort fails. // bool bAllFound = true; int i; Element* peRow[3]; // row1, row2, row3 for (i = 0; i < ARRAYSIZE(peRow); i++) { if (iOrderOld[i] != iOrderNew[i]) { peRow[i] = FindDescendent(ARPItem::_idRow[i]); if (NULL == peRow[i]) { bAllFound = false; } } } if (bAllFound) { for (i = 0; i < ARRAYSIZE(iOrderOld); i++) // loop through rows { int row = iOrderOld[i]; if (row == iOrderNew[i]) iOrderNew[i] = -1; else { DUIAssertNoMsg(NULL != peRow[i]); Value* pvChildren; ElementList* pel; pel = peRow[i]->GetChildren(&pvChildren); pe[row][0] = pel->GetItem(0); pe[row][1] = pel->GetItem(1); pvChildren->Release(); } } for (i = 0; i < 3; i++) { int row = iOrderNew[i]; if (row != -1) // meaning that this row doesn't change peRow[i]->Add(pe[row], 2); } } } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* ARPItem::Class = NULL; HRESULT ARPItem::Register() { return ClassInfo::Register(L"ARPItem", NULL, 0); } //////////////////////////////////////////////////////// // ARPHelp //////////////////////////////////////////////////////// HRESULT ARPHelp::Create(OUT Element** ppElement) { UNREFERENCED_PARAMETER(ppElement); DUIAssertForce("Cannot instantiate an HWND host derived Element via parser. Must use substitution."); return E_NOTIMPL; } HRESULT ARPHelp::Create(NativeHWNDHost* pnhh, ARPFrame* paf, bool bDblBuffer, OUT Element** ppElement) { *ppElement = NULL; ARPHelp* pah = HNew(); if (!pah) return E_OUTOFMEMORY; HRESULT hr = pah->Initialize(pnhh, paf, bDblBuffer); if (FAILED(hr)) { pah->Destroy(); return hr; } *ppElement = pah; return S_OK; } HRESULT ARPHelp::Initialize(NativeHWNDHost* pnhh, ARPFrame* paf, bool bDblBuffer) { // Do base class initialization HRESULT hr = HWNDElement::Initialize(pnhh->GetHWND(), bDblBuffer, 0); if (FAILED(hr)) return hr; // Initialize // SetActive(AE_MouseAndKeyboard); _pnhh = pnhh; _paf = paf; return S_OK; } void ARPHelp::SetDefaultFocus() { Element* pe = FindDescendentByName(this, L"close"); if (pe) { pe->SetKeyFocus(); } } //////////////////////////////////////////////////////// // Generic eventing void ARPHelp::OnEvent(Event* pEvent) { // Handle only bubbled generic events if (pEvent->nStage == GMF_BUBBLED) { if (pEvent->uidType == Button::Click) { ATOM id = pEvent->peTarget->GetID(); if (id == StrToID(L"repair")) _piia->Repair(NULL); if (pEvent->peTarget->GetID() == StrToID(L"close")) { _pnhh->DestroyWindow(); } pEvent->fHandled = true; return; } } HWNDElement::OnEvent(pEvent); } void ARPHelp::OnDestroy() { HWNDElement::OnDestroy(); if (_paf) { _paf->SetModalMode(false); } } ARPHelp::~ARPHelp() { if (_paf) { EnableWindow(_paf->GetHWND(), TRUE); SetFocus(_paf->GetHWND()); _paf->RestoreKeyFocus(); } if (_pnhh) { _pnhh->Destroy(); } } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* ARPHelp::Class = NULL; HRESULT ARPHelp::Register() { return ClassInfo::Register(L"ARPHelp", NULL, 0); } //////////////////////////////////////////////////////// // ARPSupportItem //////////////////////////////////////////////////////// HRESULT ARPSupportItem::Create(OUT Element** ppElement) { *ppElement = NULL; ARPSupportItem* pasi = HNew(); if (!pasi) return E_OUTOFMEMORY; HRESULT hr = pasi->Initialize(); if (FAILED(hr)) { pasi->Destroy(); return hr; } *ppElement = pasi; return S_OK; } Value* _pvRowLayout = NULL; HRESULT ARPSupportItem::Initialize() { // Do base class initialization HRESULT hr = Element::Initialize(0); if (FAILED(hr)) return hr; // Initialize bool fCreateLayout = !_pvRowLayout; if (fCreateLayout) { int ari[3] = { -1, 0, 3 }; hr = RowLayout::Create(3, ari, &_pvRowLayout); if (FAILED(hr)) return hr; } Element* peName; hr = Element::Create(AE_Inactive, &peName); if (FAILED(hr)) return hr; Button* peValue; hr = Button::Create((Element**) &peValue); if (FAILED(hr)) { peName->Destroy(); return hr; } peValue->SetEnabled(false); Add(peName); Add(peValue); SetValue(LayoutProp, PI_Local, _pvRowLayout); SetLayoutPos(LP_None); if (fCreateLayout) { // todo: need to track in propertychanged to know when it reaches null, which is // when we need to set it to NULL } return S_OK; } //////////////////////////////////////////////////////// // System events #define ASI_Name 0 #define ASI_Value 1 Element* GetNthChild(Element *peRoot, UINT index) { Value* pvChildren; ElementList* pel = peRoot->GetChildren(&pvChildren); Element* pe = NULL; if (pel && (pel->GetSize() > index)) pe = pel->GetItem(index); pvChildren->Release(); return pe; } Element* ARPSupportItem::GetChild(UINT index) { return GetNthChild(this, index); } void ARPSupportItem::OnPropertyChanged(PropertyInfo* ppi, int iIndex, Value* pvOld, Value* pvNew) { int index = -1; if (IsProp(AccName)) index = ASI_Name; else if (IsProp(AccValue)) index = ASI_Value; else if (IsProp(URL)) { Element* pe = GetChild(ASI_Value); if (pe) { if (pvNew && pvNew->GetString() && *(pvNew->GetString())) pe->RemoveLocalValue(EnabledProp); else pe->SetEnabled(false); } } if (index != -1) { Element* pe = GetChild(index); if (index == ASI_Value) { // WARNING -- this code assumes you will not put a layoutpos on this element // as this code toggles between LP_None and unset, ignoring any previous setting // to the property -- verify this with Mark -- could be that this is local // and the markup is specified? then there wouldn't be a problem if (pvNew && pvNew->GetString() && *(pvNew->GetString())) RemoveLocalValue(LayoutPosProp); else SetLayoutPos(LP_None); } if (pe) pe->SetValue(ContentProp, PI_Local, pvNew); } Element::OnPropertyChanged(ppi, iIndex, pvOld, pvNew); } //////////////////////////////////////////////////////// // Generic eventing void ARPSupportItem::OnEvent(Event* pEvent) { // Handle only bubbled generic events if (pEvent->nStage == GMF_BUBBLED) { if (pEvent->uidType == Button::Click) { Value* pvURL; LPCWSTR lpszURL = GetURL(&pvURL); if (*lpszURL) ShellExecuteW(NULL, NULL, lpszURL, NULL, NULL, SW_SHOWDEFAULT); pvURL->Release(); pEvent->fHandled = true; return; } } Element::OnEvent(pEvent); } // URL property static int vvURL[] = { DUIV_STRING, -1 }; StaticValuePtr(svDefaultURL, DUIV_STRING, (void*)L""); static PropertyInfo impURLProp = { L"URL", PF_Normal|PF_Cascade, 0, vvURL, NULL, (Value*)&svDefaultURL }; PropertyInfo* ARPSupportItem::URLProp = &impURLProp; //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Class properties static PropertyInfo* _aPI[] = { ARPSupportItem::URLProp, }; // Define class info with type and base type, set static class pointer IClassInfo* ARPSupportItem::Class = NULL; HRESULT ARPSupportItem::Register() { return ClassInfo::Register(L"ARPSupportItem", _aPI, DUIARRAYSIZE(_aPI)); } //////////////////////////////////////////////////////// // // ARPSelector // // A Selector whose children are all buttons. If the user clicks // any of the buttons, that button automatically becomes the new // selection. // Define class info with type and base type, set static class pointer HRESULT ARPSelector::Create(OUT Element** ppElement) { *ppElement = NULL; ARPSelector* ps = HNew(); if (!ps) return E_OUTOFMEMORY; HRESULT hr = ps->Initialize(); if (FAILED(hr)) { ps->Destroy(); return hr; } *ppElement = ps; return S_OK; } //////////////////////////////////////////////////////// // Generic eventing HRESULT CALLBACK CollapseExpandosExceptCB(Expando* pex, LPARAM lParam) { if (pex != (Expando*)lParam) { pex->SetExpanded(false); } return S_OK; } void CALLBACK s_Repaint(HWND hwnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime) { KillTimer(hwnd, idEvent); ARPSelector* self = (ARPSelector*)idEvent; Element* pe; if (SUCCEEDED(Element::Create(0, &pe))) { pe->SetLayoutPos(BLP_Client); if (SUCCEEDED(self->Add(pe))) { self->Remove(pe); } pe->Destroy(); } } void ARPSelector::OnEvent(Event* pEvent) { // Handle only bubbled generic events if (pEvent->nStage == GMF_BUBBLED) { // Selection occurs only for Button::Click or Expando::Click events if (pEvent->uidType == Button::Click || pEvent->uidType == Expando::Click) { pEvent->fHandled = true; SetSelection(pEvent->peTarget); // If it was a Click from an Expando, then unexpand all the // other Expandos and expand this expando if (pEvent->uidType == Expando::Click) { TraverseTree(this, CollapseExpandosExceptCB, (LPARAM)pEvent->peTarget); Expando* pex = (Expando*)pEvent->peTarget; pex->SetExpanded(true); // Hack for DUI painting weirdness // After the animation is over, repaint ourselves // to get rid of the detritus. ARPFrame* paf = FindAncestorElement(this); if (paf->GetHostWindow()) { SetTimer(paf->GetHostWindow(), (UINT_PTR)this, paf->GetAnimationTime(), s_Repaint); } } return; } } Selector::OnEvent(pEvent); } // If we are not the option list, bypass Selector::GetAdjacent because // Selector navigates from the selected element but we want to navigate // from the focus element because the focus element has interesting // subelements... Element *ARPSelector::GetAdjacent(Element *peFrom, int iNavDir, NavReference const *pnr, bool bKeyable) { if (GetID() == ARPFrame::_idOptionList) { // Let the option list navigate normally return Selector::GetAdjacent(peFrom, iNavDir, pnr, bKeyable); } else { // All other selectors navigate from selection return Element::GetAdjacent(peFrom, iNavDir, pnr, bKeyable); } } IClassInfo* ARPSelector::Class = NULL; HRESULT ARPSelector::Register() { return ClassInfo::Register(L"ARPSelector", NULL, 0); } //////////////////////////////////////////////////////// // // CLIENTINFO // // Tracks information about a specific client. // bool CLIENTINFO::GetInstallFile(HKEY hkInfo, LPCTSTR pszValue, LPTSTR pszBuf, UINT cchBuf, bool fFile) { DWORD dwType; DWORD cb = cchBuf * sizeof(TCHAR); if (SHQueryValueEx(hkInfo, pszValue, NULL, &dwType, pszBuf, &cb) != ERROR_SUCCESS || dwType != REG_SZ) { // If a file, then failure is okay (it means nothing to verify) return fFile; } TCHAR szBuf[MAX_PATH]; lstrcpyn(szBuf, pszBuf, DUIARRAYSIZE(szBuf)); if (!fFile) { // Now validate that the program exists PathRemoveArgs(szBuf); PathUnquoteSpaces(szBuf); } // Must be fully-qualified if (PathIsRelative(szBuf)) { return false; } // File must exist, but don't hit the network to validate it if (!PathIsNetworkPath(szBuf) && !PathFileExists(szBuf)) { return false; } return true; } bool CLIENTINFO::GetInstallCommand(HKEY hkInfo, LPCTSTR pszValue, LPTSTR pszBuf, UINT cchBuf) { return GetInstallFile(hkInfo, pszValue, pszBuf, cchBuf, FALSE); } LONG RegQueryDWORD(HKEY hk, LPCTSTR pszValue, DWORD* pdwOut) { DWORD dwType; DWORD cb = sizeof(*pdwOut); LONG lRc = RegQueryValueEx(hk, pszValue, NULL, &dwType, (LPBYTE)pdwOut, &cb); if (lRc == ERROR_SUCCESS && dwType != REG_DWORD) { lRc = ERROR_INVALID_DATA; } return lRc; } // // hkInfo = NULL means that pzsKey is actually the friendlyname for // "keep this item" // bool CLIENTINFO::Initialize(HKEY hkApp, HKEY hkInfo, LPCWSTR pszKey) { LPCWSTR pszName; WCHAR szBuf[MAX_PATH]; DUIAssertNoMsg(_tOEMShown == TRIBIT_UNDEFINED); if (hkInfo) { _pszKey = StrDupW(pszKey); if (!_pszKey) return false; // Program must have properly registered IconsVisible status DWORD dwValue; if (RegQueryDWORD(hkInfo, TEXT("IconsVisible"), &dwValue) != ERROR_SUCCESS) { return false; } // If there is a VerifyFile, the file must exist if (!GetInstallFile(hkInfo, TEXT("VerifyFile"), szBuf, DUIARRAYSIZE(szBuf), TRUE)) { return false; } _bShown = BOOLIFY(dwValue); // Program must have properly registered Reinstall, HideIcons and ShowIcons commands if (!GetInstallCommand(hkInfo, TEXT("ReinstallCommand"), szBuf, DUIARRAYSIZE(szBuf)) || !GetInstallCommand(hkInfo, TEXT("HideIconsCommand"), szBuf, DUIARRAYSIZE(szBuf)) || !GetInstallCommand(hkInfo, TEXT("ShowIconsCommand"), szBuf, DUIARRAYSIZE(szBuf))) { return false; } // Get the OEM's desired hide/show setting for this app, if any if (RegQueryDWORD(hkInfo, TEXT("OEMShowIcons"), &dwValue) == ERROR_SUCCESS) { _tOEMShown = dwValue ? TRIBIT_TRUE : TRIBIT_FALSE; } // See if this is the OEM's default client if (RegQueryDWORD(hkInfo, TEXT("OEMDefault"), &dwValue) == ERROR_SUCCESS && dwValue != 0) { _bOEMDefault = BOOLIFY(dwValue); } SHLoadLegacyRegUIStringW(hkApp, NULL, szBuf, ARRAYSIZE(szBuf)); if (!szBuf[0]) return false; pszName = szBuf; } else { pszName = pszKey; } _pszName = StrDupW(pszName); if (!_pszName) return false; return true; } CLIENTINFO* CLIENTINFO::Create(HKEY hkApp, HKEY hkInfo, LPCWSTR pszKey) { CLIENTINFO* pci = HNewAndZero(); if (pci) { if (!pci->Initialize(hkApp, hkInfo, pszKey)) { pci->Delete(); pci = NULL; } } return pci; } CLIENTINFO::~CLIENTINFO() { LocalFree(_pszKey); LocalFree(_pszName); if (_pvMSName) { _pvMSName->Release(); } } int CLIENTINFO::QSortCMP(const void* p1, const void* p2) { CLIENTINFO* pci1 = *(CLIENTINFO**)p1; CLIENTINFO* pci2 = *(CLIENTINFO**)p2; return lstrcmpi(pci1->_pszName, pci2->_pszName); } //////////////////////////////////////////////////////// // // StringList // // A list of strings. The buffer for all the strings is allocated // in _pszBuf; the DynamicArray contains pointers into that buffer. // void StringList::Reset() { if (_pdaStrings) { _pdaStrings->Destroy(); _pdaStrings = NULL; } LocalFree(_pszBuf); _pszBuf = NULL; } // pszInit is a semicolon-separated list HRESULT StringList::SetStringList(LPCTSTR pszInit) { HRESULT hr; Reset(); if (!pszInit) { hr = S_OK; // empty list } else if (SUCCEEDED(hr = DynamicArray::Create(0, false, &_pdaStrings))) { _pszBuf = StrDup(pszInit); if (_pszBuf) { LPTSTR psz = _pszBuf; hr = S_OK; while (SUCCEEDED(hr) && psz && *psz) { LPTSTR pszT = StrChr(psz, L';'); if (pszT) { *pszT++ = L'\0'; } hr = _pdaStrings->Add(psz); psz = pszT; } } else { hr = E_OUTOFMEMORY; } } return hr; } bool StringList::IsStringInList(LPCTSTR pszFind) { if (_pdaStrings) { for (UINT i = 0; i < _pdaStrings->GetSize(); i++) { if (AreEnglishStringsEqual(_pdaStrings->GetItem(i), pszFind)) { return true; } } } return false; } //////////////////////////////////////////////////////// // // ClientPicker // // An element which manages a list of registered clients. // // If there is only one item in the list, then the element is static. // Otherwise, the element hosts a combo box. // // The clienttype attribute is the name of the registry key under Clients. // HRESULT ClientPicker::Create(OUT Element** ppElement) { *ppElement = NULL; ClientPicker* pcc = HNewAndZero(); if (!pcc) return E_OUTOFMEMORY; HRESULT hr = pcc->Initialize(); if (FAILED(hr)) { pcc->Destroy(); return hr; } *ppElement = pcc; return S_OK; }; HRESULT ClientPicker::Initialize() { HRESULT hr; // Initialize base hr = super::Initialize(0); // Normal display node creation if (FAILED(hr)) return hr; // Initialize members hr = DynamicArray::Create(0, false, &_pdaClients); if (FAILED(hr)) return hr; hr = Element::Create(0, &_peStatic); if (FAILED(hr)) return hr; if (FAILED(hr = _peStatic->SetClass(L"clientstatic")) || FAILED(hr = Add(_peStatic))) { _peStatic->Destroy(); return hr; } _peStatic->SetAccessible(true); _peStatic->SetAccRole(ROLE_SYSTEM_STATICTEXT); hr = Combobox::Create((Element**)&_peCombo); if (FAILED(hr)) return hr; if (FAILED(hr = Add(_peCombo)) || FAILED(hr = _peCombo->SetVisible(false))) { _peCombo->Destroy(); return hr; } // JeffBog says I should mess with the width here SetWidth(10); return S_OK; } ClientPicker::~ClientPicker() { _CancelDelayShowCombo(); if (_pdaClients) { _pdaClients->Destroy(); } } void ClientPicker::OnPropertyChanged(PropertyInfo* ppi, int iIndex, Value* pvOld, Value* pvNew) { super::OnPropertyChanged(ppi, iIndex, pvOld, pvNew); // Since UIActive = Selected && ParentEnabled, we need to call // _SyncUIActive if either property changes. if (IsProp(Selected)) { // Change in selection may require us to block or unblock the OK button. _CheckBlockOK(pvNew->GetBool()); _SyncUIActive(); } else if (IsProp(ParentExpanded)) { _SyncUIActive(); } } // To keep accessibility happy, we reflect content in the AccName. void _SetStaticTextAndAccName(Element* pe, Value* pv) { pe->SetValue(Element::ContentProp, PI_Local, pv); pe->SetValue(Element::AccNameProp, PI_Local, pv); } void _SetStaticTextAndAccName(Element* pe, LPCWSTR pszText) { Value* pv = Value::CreateString(pszText); _SetStaticTextAndAccName(pe, pv); pv->Release(); } // // When UI Active, show the combo box. // When not UI Active, hide our combo box so animation doesn't tube it. // void ClientPicker::_SyncUIActive() { ARPFrame* paf = FindAncestorElement(this); bool bUIActive = GetSelected() && GetParentExpanded(); if (_bUIActive != bUIActive) { _bUIActive = bUIActive; if (_bUIActive) { // Normally we would just _peCombo->SetVisible(_NeedsCombo()) // and go home. Unfortunately, DirectUI gets confused if a // combo box moves around, so we have to change the visibility // after the world has gone quiet _hwndHost = paf->GetHostWindow(); if (_hwndHost) { SetTimer(_hwndHost, (UINT_PTR)this, paf->GetAnimationTime(), s_DelayShowCombo); } } else { // Inactive - copy current combo selection to static // and hide the combo UINT iSel = _peCombo->GetSelection(); if (iSel < GetClientList()->GetSize()) { _SetStaticTextAndAccName(_peStatic, GetClientList()->GetItem(iSel)->GetFilteredName(GetFilter())); } _peCombo->SetVisible(false); _peStatic->SetVisible(true); _CancelDelayShowCombo(); } } } void ClientPicker::_DelayShowCombo() { // Tell DirectUI to let the combo participate in layout again bool bNeedsCombo = _NeedsCombo(); _peCombo->SetVisible(bNeedsCombo); _peStatic->SetVisible(!bNeedsCombo); // Force a relayout by shrinking the combo box a teensy bit, then // returning it to normal size. This cannot be done inside a // Defer because that ends up optimizing out the relayout. _peCombo->SetWidth(_peCombo->GetWidth()-1); _peCombo->RemoveLocalValue(WidthProp); if (!_bFilledCombo) { _bFilledCombo = true; SendMessage(_peCombo->GetHWND(), CB_RESETCONTENT, 0, 0); for (UINT i = 0; i < GetClientList()->GetSize(); i++) { _peCombo->AddString(GetClientList()->GetItem(i)->GetFilteredName(GetFilter())); } _peCombo->SetSelection(0); } } // If the user picked "Choose from list" and we are selected, // then block OK since the user actually needs to choose something. void ClientPicker::_CheckBlockOK(bool bSelected) { ARPFrame* paf = FindAncestorElement(this); CLIENTINFO* pci = GetSelectedClient(); if (pci) { if (bSelected && pci->IsPickFromList()) { if (!_bBlockedOK) { _bBlockedOK = true; paf->BlockOKButton(); } } else { if (_bBlockedOK) { _bBlockedOK = false; paf->UnblockOKButton(); } } } } void ClientPicker::s_DelayShowCombo(HWND hwnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime) { KillTimer(hwnd, idEvent); ClientPicker* self = (ClientPicker*)idEvent; self->_DelayShowCombo(); } void ClientPicker::_CancelDelayShowCombo() { if (_hwndHost) { KillTimer(_hwndHost, (UINT_PTR)this); _hwndHost = NULL; } } void ClientPicker::OnEvent(Event* pEvent) { // Handle only bubbled generic events if (pEvent->nStage == GMF_BUBBLED) { // If the selection changed, then see if it's a change // that should block the OK button. if (pEvent->uidType == Combobox::SelectionChange) { _CheckBlockOK(GetSelected()); } } super::OnEvent(pEvent); } // // CLIENTFILTER_OEM - add one if marked OEM, else "Keep unchanged" // CLIENTFILTER_MS - add any that are marked MS, else "Keep unchanged" // CLIENTFILTER_NONMS - add any that are not marked MS, else "Keep unchanged" // furthermore, if more than one non-MS, then // add and select "Choose from list" // // On success, returns the number of items added // (not counting "Keep unchanged" / "Choose from list") // HRESULT ClientPicker::SetFilter(CLIENTFILTER cf, ARPFrame* paf) { HRESULT hr = E_FAIL; DUIAssert(_cf == 0, "SetFilter called more than once"); _cf = cf; _bEmpty = true; _bFilledCombo = false; Value* pv; LPWSTR pszType = GetClientTypeString(&pv); if (pszType) { _pcb = paf->FindClientBlock(pszType); if (_pcb) { hr = _pcb->InitializeClientPicker(this); } } pv->Release(); // The static element gets the first item in the list if (SUCCEEDED(hr) && GetClientList()->GetSize()) { _SetStaticTextAndAccName(_peStatic, GetClientList()->GetItem(0)->_pszName); } if (SUCCEEDED(hr)) { CalculateWidth(); _SyncUIActive(); } return hr; } // Set our width to the width of the longest string in our combo box. // Combo boxes don't do this themselves, so they need our help. We have // to set the width on ourselves and not on the combobox because // RowLayout will change the width of the combobox and HWNDHost will // treat the HWND width as authoritative, overwriting the combobox width // we had set. void ClientPicker::CalculateWidth() { HWND hwndCombo = _peCombo->GetHWND(); HDC hdc = GetDC(hwndCombo); if (hdc) { HFONT hfPrev = SelectFont(hdc, GetWindowFont(hwndCombo)); int cxMax = 0; SIZE siz; for (UINT i = 0; i < GetClientList()->GetSize(); i++) { LPCTSTR pszName = GetClientList()->GetItem(i)->GetFilteredName(GetFilter()); if (GetTextExtentPoint(hdc, pszName, lstrlen(pszName), &siz) && cxMax < siz.cx) { cxMax = siz.cx; } } SelectFont(hdc, hfPrev); ReleaseDC(hwndCombo, hdc); // Add in the borders that USER adds to the combo box. // Unfortunately, we get called when the combo box has been // squished to zero width, so GetComboBoxInfo is of no use. // We have to replicate the computations. // // The client space is arranged horizontally like so: // // SM_CXFIXEDFRAME // v v // | | edit | | | // ^ // SM_CXVSCROLL RECT rc = { 0, 0, cxMax, 0 }; rc.right += 2 * GetSystemMetrics(SM_CXFIXEDFRAME) + GetSystemMetrics(SM_CXVSCROLL); rc.right += GetSystemMetrics(SM_CXEDGE); // extra edge for Hebrew/Arabic AdjustWindowRect(&rc, GetWindowStyle(hwndCombo), FALSE); SetWidth(rc.right - rc.left); } } HRESULT ClientPicker::TransferToCustom() { HRESULT hr = E_FAIL; if (_pcb) { hr = _pcb->TransferFromClientPicker(this); } return hr; } CLIENTINFO* ClientPicker::GetSelectedClient() { if (_peCombo) { UINT iSel = _peCombo->GetSelection(); if (iSel < GetClientList()->GetSize()) { return GetClientList()->GetItem(iSel); } } return NULL; } //////////////////////////////////////////////////////// // Property definitions /** Property template (replace !!!), also update private PropertyInfo* parray and class header (element.h) // !!! property static int vv!!![] = { DUIV_INT, -1 }; StaticValue(svDefault!!!, DUIV_INT, 0); static PropertyInfo imp!!!Prop = { L"!!!", PF_Normal, 0, vv!!!, (Value*)&svDefault!!! }; PropertyInfo* Element::!!!Prop = &imp!!!Prop; **/ // ClientType property static int vvCCClientType[] = { DUIV_STRING, -1 }; static PropertyInfo impCCClientTypeProp = { L"ClientType", PF_Normal, 0, vvCCClientType, NULL, Value::pvStringNull }; PropertyInfo* ClientPicker::ClientTypeProp = &impCCClientTypeProp; // ParentExpanded property static int vvParentExpanded[] = { DUIV_BOOL, -1 }; static PropertyInfo impParentExpandedProp = { L"parentexpanded", PF_Normal, 0, vvParentExpanded, NULL, Value::pvBoolFalse }; PropertyInfo* ClientPicker::ParentExpandedProp = &impParentExpandedProp; //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Class properties PropertyInfo* _aClientPickerPI[] = { ClientPicker::ClientTypeProp, ClientPicker::ParentExpandedProp, }; // Define class info with type and base type, set static class pointer IClassInfo* ClientPicker::Class = NULL; HRESULT ClientPicker::Register() { return ClassInfo::Register(L"clientpicker", _aClientPickerPI, DUIARRAYSIZE(_aClientPickerPI)); } //////////////////////////////////////////////////////// // ARP Parser HRESULT ARPParser::Create(ARPFrame* paf, UINT uRCID, HINSTANCE hInst, PPARSEERRORCB pfnErrorCB, OUT Parser** ppParser) { *ppParser = NULL; ARPParser* ap = HNew(); if (!ap) return E_OUTOFMEMORY; HRESULT hr = ap->Initialize(paf, uRCID, hInst, pfnErrorCB); if (FAILED(hr)) { ap->Destroy(); return hr; } *ppParser = ap; return S_OK; } HRESULT ARPParser::Initialize(ARPFrame* paf, UINT uRCID, HINSTANCE hInst, PPARSEERRORCB pfnErrorCB) { _paf = paf; _arH[0] = hInst; _arH[1] = g_hinstSP1; LPCSTR pszData; int cbData; HRESULT hr = FindSPResource(uRCID, &pszData, &cbData); if (FAILED(hr)) { return hr; } return Parser::Initialize(pszData, cbData, _arH, pfnErrorCB); } Value* ARPParser::GetSheet(LPCWSTR pszResID) { // All style sheet mappings go through here. Redirect sheet queries to appropriate // style sheets (i.e. themed or standard look). _pParserStyle points to the // appropriate stylesheet-only Parser instance return _paf->GetStyleParser()->GetSheet(pszResID); } //////////////////////////////////////////////////////// // // AutoButton // // A button that does a bunch of stuff that USER does automagically, // if it were a regular button control. // // - Automatically updates its own accessibility state and action // - If a checkbox, autotoggles on click HRESULT AutoButton::Create(OUT Element** ppElement) { *ppElement = NULL; AutoButton* pb = HNew(); if (!pb) return E_OUTOFMEMORY; HRESULT hr = pb->Initialize(AE_MouseAndKeyboard); if (FAILED(hr)) { pb->Destroy(); return hr; } *ppElement = pb; return S_OK; } void AutoButton::OnEvent(Event* pev) { // Checkboxes auto-toggle on click if (pev->nStage == GMF_DIRECT && pev->uidType == Button::Click && GetAccRole() == ROLE_SYSTEM_CHECKBUTTON) { pev->fHandled = true; // Toggle the selected state SetSelected(!GetSelected()); } super::OnEvent(pev); } // // Reflect the selected state to accessibility. // void AutoButton::OnPropertyChanged(PropertyInfo* ppi, int iIndex, Value* pvOld, Value* pvNew) { super::OnPropertyChanged(ppi, iIndex, pvOld, pvNew); if (IsProp(Selected)) { int state = GetAccState(); if (GetAccRole() == ROLE_SYSTEM_OUTLINEBUTTON) { // Outline buttons expose Selection as expanded/collapsed state &= ~(STATE_SYSTEM_EXPANDED | STATE_SYSTEM_COLLAPSED); if (pvNew->GetBool()) { state |= STATE_SYSTEM_EXPANDED; } else { state |= STATE_SYSTEM_COLLAPSED; } } else { // Radio buttons and checkboxes expose Selection as checked/unchecked if (pvNew->GetBool()) { state |= STATE_SYSTEM_CHECKED; } else { state &= ~STATE_SYSTEM_CHECKED; } } SetAccState(state); SyncDefAction(); } else if (IsProp(AccRole)) { SyncDefAction(); } } // // Role strings from oleacc. They are biased by 1100 since that is // where roles begin. // #define OLEACCROLE_EXPAND (305-1100) #define OLEACCROLE_COLLAPSE (306-1100) #define OLEACCROLE_CHECK (309-1100) #define OLEACCROLE_UNCHECK (310-1100) // Default action is "Check" if a radio button or an unchecked // checkbox. Default action is "Uncheck" if an unchecked checkbox. void AutoButton::SyncDefAction() { UINT idsAction; switch (GetAccRole()) { // Checkbuttons will check or uncheck depending on state case ROLE_SYSTEM_CHECKBUTTON: idsAction = (GetAccState() & STATE_SYSTEM_CHECKED) ? OLEACCROLE_UNCHECK : OLEACCROLE_CHECK; break; // Radiobutton always checks. case ROLE_SYSTEM_RADIOBUTTON: idsAction = OLEACCROLE_CHECK; break; // Expando button expands or collapses. case ROLE_SYSTEM_OUTLINEBUTTON: idsAction = (GetAccState() & STATE_SYSTEM_EXPANDED) ? OLEACCROLE_COLLAPSE : OLEACCROLE_EXPAND; break; default: DUIAssert(0, "Unknown AccRole"); return; } SetDefAction(this, idsAction); } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* AutoButton::Class = NULL; HRESULT AutoButton::Register() { return ClassInfo::Register(L"AutoButton", NULL, 0); } //////////////////////////////////////////////////////// // ClientBlock class // // Manages a block of elements which expose all the clients registered // to a particular client category. HRESULT ClientBlock::Create(OUT Element** ppElement) { *ppElement = NULL; ClientBlock* pcb = HNewAndZero(); if (!pcb) return E_OUTOFMEMORY; HRESULT hr = pcb->Initialize(); if (FAILED(hr)) { pcb->Destroy(); return hr; } *ppElement = pcb; return S_OK; } HRESULT ClientBlock::Initialize() { HRESULT hr; // Initialize base hr = super::Initialize(0); // Normal display node creation if (FAILED(hr)) return hr; // Initialize members hr = DynamicArray::Create(0, false, &_pdaClients); if (FAILED(hr)) return hr; return S_OK; } ClientBlock::~ClientBlock() { if (_pdaClients) { for (UINT i = 0; i < _pdaClients->GetSize(); i++) { _pdaClients->GetItem(i)->Delete(); } _pdaClients->Destroy(); } } // // If the user clicks a new default application, force it to be checked // and disable it so it cannot be unchecked. Also re-enable the old one. // void ClientBlock::OnEvent(Event* pev) { if (pev->nStage == GMF_BUBBLED && pev->uidType == Selector::SelectionChange) { SelectionChangeEvent* sce = (SelectionChangeEvent*)pev; // Re-enable the previous guy, if any _EnableShowCheckbox(sce->peOld, true); // Disable the new guy, if any _EnableShowCheckbox(sce->peNew, false); } super::OnEvent(pev); } void ClientBlock::_EnableShowCheckbox(Element* peRadio, bool fEnable) { if (peRadio) { Element* peRow = peRadio->GetParent(); if (peRow) { Element* peShow = MaybeFindDescendentByName(peRow, L"show"); if (peShow) { peShow->SetEnabled(fEnable); peShow->SetSelected(true); // force checked // HACKHACK - DUI doesn't realize that the checkbox needs // to be repainted so I have to kick it. InvalidateGadget(peShow->GetDisplayNode()); } } } } // // ClientBlock initialization / apply methods... // HKEY ClientBlock::_OpenClientKey(HKEY hkRoot, DWORD dwAccess) { HKEY hkClient = NULL; Value *pv; LPCWSTR pszClient = GetClientTypeString(&pv); if (pszClient) { WCHAR szBuf[MAX_PATH]; wnsprintfW(szBuf, ARRAYSIZE(szBuf), TEXT("Software\\Clients\\%s"), pszClient); RegOpenKeyExW(hkRoot, szBuf, 0, dwAccess, &hkClient); pv->Release(); } return hkClient; } bool ClientBlock::_GetDefaultClient(HKEY hkClient, HKEY hkRoot, LPTSTR pszBuf, LONG cchBuf) { bool bResult = false; HKEY hk = _OpenClientKey(hkRoot); if (hk) { DWORD cbSize = cchBuf * sizeof(*pszBuf); DWORD dwType; // Client must be defined, be of type REG_SZ, be non-NULL, and have // a corresponding entry in HKLM\Software\Clients. RegQueryValue // is a handy abbreviatio for RegQueryKeyExists. LONG l; if (SHGetValue(hk, NULL, NULL, &dwType, pszBuf, &cbSize) == ERROR_SUCCESS && dwType == REG_SZ && pszBuf[0] && RegQueryValue(hkClient, pszBuf, NULL, &l) == ERROR_SUCCESS) { bResult = true; } RegCloseKey(hk); } return bResult; } // Determines whether the current client is a Microsoft client different // from the Windows default client. Usually, this is when the current // client is Outlook but the Windows default client is Outlook Express. bool ClientBlock::_IsCurrentClientNonWindowsMS() { bool bResult = false; HKEY hkClient = _OpenClientKey(); if (hkClient) { TCHAR szClient[MAX_PATH]; if (_GetDefaultClient(hkClient, HKEY_CURRENT_USER, szClient, ARRAYSIZE(szClient)) || _GetDefaultClient(hkClient, HKEY_LOCAL_MACHINE, szClient, ARRAYSIZE(szClient))) { // Is it a Microsoft client that isn't the Windows default? if (_GetClientTier(szClient) == CBT_MS) { bResult = true; } } RegCloseKey(hkClient); } return bResult; } // // Called after the entire tree has been parsed and hosted. // (Sort of like readystatecomplete.) // HRESULT ClientBlock::ParseCompleted(ARPFrame *paf) { HRESULT hr = S_OK; Value* pv; hr = _slOtherMSClients.SetStringList(GetOtherMSClientsString(&pv)); pv->Release(); if (SUCCEEDED(hr)) { hr = paf->CreateElement(L"clientblockselector", NULL, (Element**)&_peSel); if (SUCCEEDED(hr)) { hr = Add(_peSel); if (SUCCEEDED(hr)) { // Failure to open the client key is not fatal; it just means that // there are vacuously no clients. HKEY hkClient = _OpenClientKey(); if (hkClient) { // Enumerate each app under the client key and look for those which // have a "InstallInfo" subkey. TCHAR szKey[MAX_PATH]; for (DWORD dwIndex = 0; SUCCEEDED(hr) && RegEnumKey(hkClient, dwIndex, szKey, ARRAYSIZE(szKey)) == ERROR_SUCCESS; dwIndex++) { HKEY hkApp; if (RegOpenKeyEx(hkClient, szKey, 0, KEY_READ, &hkApp) == ERROR_SUCCESS) { HKEY hkInfo; if (RegOpenKeyEx(hkApp, TEXT("InstallInfo"), 0, KEY_READ, &hkInfo) == ERROR_SUCCESS) { // Woo-hoo, this client provided install info // Let's see if it's complete. CLIENTINFO* pci = CLIENTINFO::Create(hkApp, hkInfo, szKey); if (pci) { if (SUCCEEDED(hr = _pdaClients->Add(pci))) { // success } else { pci->Delete(); } } RegCloseKey(hkInfo); } RegCloseKey(hkApp); } } RegCloseKey(hkClient); // // Sort the clients alphabetically to look nice. // (Otherwise they show up alphabetical by registry key name, // which is not very useful to an end-user.) // _pdaClients->Sort(CLIENTINFO::QSortCMP); } // // Insert "Keep unchanged" and "Pick from list". // Do this after sorting because we want those two // to be at the top. Since we are adding to the top, // we add them in the reverse order so // "Keep unchanged" = 1, "Pick from list" = 0. hr = AddStaticClientInfoToTop(KeepTextProp); if (SUCCEEDED(hr)) { hr = AddStaticClientInfoToTop(PickTextProp); } // Now create one row for each client we found // Start at i=1 to skip over "Pick from list" for (UINT i = 1; SUCCEEDED(hr) && i < _pdaClients->GetSize(); i++) { CLIENTINFO* pci = _pdaClients->GetItem(i); Element* pe; hr = paf->CreateElement(L"clientitem", NULL, &pe); if (SUCCEEDED(hr)) { hr = _peSel->Add(pe); if (SUCCEEDED(hr)) { pci->_pe = pe; // Set friendly name pci->SetFriendlyName(pci->_pszName); if (pci->IsSentinel()) { // "Keep Unchanged" loses the checkboxes and defaults selected // Merely hide the checkboxes instead of destroying them; // this keeps RowLayout happy. FindDescendentByName(pe, L"show")->SetVisible(false); _peSel->SetSelection(pe); } else { // Others initialize the checkbox and default unselected pci->SetShowCheckbox(pci->_bShown); } } else // _peSel->Add(pe) failed { pe->Destroy(); } } } } else // Add(_peSel) failed { _peSel->Destroy(); _peSel = NULL; } } } return hr; } HRESULT ClientBlock::AddStaticClientInfoToTop(PropertyInfo* ppi) { HRESULT hr; Value* pv; pv = GetValue(ppi, PI_Specified); CLIENTINFO* pci = CLIENTINFO::Create(NULL, NULL, pv->GetString()); pv->Release(); if (pci) { if (SUCCEEDED(hr = _pdaClients->Insert(0, pci))) { // maybe this block has a custom replacement text for the // Microsoft section if the current app is a Microsoft app. GetKeepMSTextString(&pci->_pvMSName); } else { pci->Delete(); } } else { hr = E_OUTOFMEMORY; } return hr; } ClientBlock::CBTIER ClientBlock::_GetClientTier(LPCTSTR pszClient) { Value* pv; LPWSTR pwsz; // Highest tier is "Windows default client" pwsz = GetWindowsClientString(&pv); bool bRet = pwsz && AreEnglishStringsEqual(pwsz, pszClient); pv->Release(); if (bRet) { return CBT_WINDOWSDEFAULT; } // next best is "Microsoft client" if (_slOtherMSClients.IsStringInList(pszClient)) { return CBT_MS; } // otherwise, it's a thirdparty app return CBT_NONMS; } // // Based on the filter, determine whether the specified item should // be shown, hidden, or left alone (returned as a TRIBIT), and optionally // determine whether the item should be added to the client picker. // TRIBIT ClientBlock::_GetFilterShowAdd(CLIENTINFO* pci, ClientPicker* pcp, bool* pbAdd) { bool bAdd = false; TRIBIT tShow = TRIBIT_UNDEFINED; CBTIER cbt = _GetClientTier(pci->_pszKey); switch (pcp->GetFilter()) { case CLIENTFILTER_OEM: // // Add the one that is marked "OEM Default". // (Caller will catch the "more than one" scenario.) // Set show/hide state according to OEM preference. // bAdd = pci->_bOEMDefault; if (bAdd) { tShow = TRIBIT_TRUE; } else { tShow = pci->_tOEMShown; } break; case CLIENTFILTER_MS: // // Add the Windows preferred client. // Show all applications except for "keep unchanged" (which // isn't really an application anyway). // bAdd = IsWindowsDefaultClient(cbt); tShow = TRIBIT_TRUE; break; case CLIENTFILTER_NONMS: // // Hide all Microsoft clients. // Add all thirdparty clients and show them. // if (IsMicrosoftClient(cbt)) { bAdd = false; tShow = TRIBIT_FALSE; } else { bAdd = true; tShow = TRIBIT_TRUE; } break; default: DUIAssert(0, "Invalid client filter category"); break; } if (pbAdd) { *pbAdd = bAdd; } if (pci->IsSentinel()) { tShow = TRIBIT_UNDEFINED; } return tShow; } // // On success, returns the number of items added // (not counting "Keep unchanged") // HRESULT ClientBlock::InitializeClientPicker(ClientPicker* pcp) { HRESULT hr = S_OK; ARPFrame* paf = FindAncestorElement(this); // Walk our children looking for ones that match the filter. HKEY hkClient = _OpenClientKey(); if (hkClient) { if (SUCCEEDED(paf->CreateElement(L"oemclientshowhide", NULL, &pcp->_peShowHide))) { // Insert the template after our parent Element* peParent = pcp->GetParent(); peParent->GetParent()->Insert(pcp->_peShowHide, peParent->GetIndex() + 1); } // Note! Start loop with 2 because we don't care about // "Pick from list" or "Keep Unchanged" yet DUIAssert(_pdaClients->GetItem(0)->IsPickFromList(), "GetItem(0) must be 'Pick from list'"); DUIAssert(_pdaClients->GetItem(1)->IsKeepUnchanged(), "GetItem(1) must be 'Keep unchanged'"); for (UINT i = 2; SUCCEEDED(hr) && i < _pdaClients->GetSize(); i++) { CLIENTINFO* pci = _pdaClients->GetItem(i); bool bAdd; TRIBIT tShow = _GetFilterShowAdd(pci, pcp, &bAdd); if (pcp->_peShowHide) { switch (tShow) { case TRIBIT_TRUE: pcp->AddClientToOEMRow(L"show", pci); pcp->SetNotEmpty(); break; case TRIBIT_FALSE: pcp->AddClientToOEMRow(L"hide", pci); pcp->SetNotEmpty(); break; } } if (bAdd) { hr = pcp->GetClientList()->Add(pci); pcp->SetNotEmpty(); } } RegCloseKey(hkClient); } if (SUCCEEDED(hr)) { // Now some wacko cleanup rules. switch (pcp->GetFilter()) { case CLIENTFILTER_OEM: // There can be only one OEM default item. // If there's more than one (OEM or app trying to cheat), // then throw them all away. if (pcp->GetClientList()->GetSize() != 1) { pcp->GetClientList()->Reset(); // throw away everything } break; case CLIENTFILTER_MS: // If the current client is not the default client but // does belong to Microsoft, then add "Keep unchanged" // and select it. What's more, save the current string // to be used if the user picks the Windows client, // then append the Windows app to the "Also Show" string // and save that too. if (_IsCurrentClientNonWindowsMS()) { hr = pcp->AddKeepUnchanged(_pdaClients->GetItem(1)); } break; case CLIENTFILTER_NONMS: // If there is more than one available, then insert // "Pick an app" if (pcp->GetClientList()->GetSize() > 1) { hr = pcp->GetClientList()->Insert(0, _pdaClients->GetItem(0)); // insert "pick an app" } break; } // If there are no items, then add "Keep unchanged" if (pcp->GetClientList()->GetSize() == 0) { hr = pcp->GetClientList()->Add(_pdaClients->GetItem(1)); // add "keep unchanged" } } if (pcp->_peShowHide) { _RemoveEmptyOEMRow(pcp->_peShowHide, L"show"); _RemoveEmptyOEMRow(pcp->_peShowHide, L"hide"); } return hr; } HRESULT ClientPicker::AddKeepUnchanged(CLIENTINFO* pciKeepUnchanged) { HRESULT hr = GetClientList()->Insert(0, pciKeepUnchanged); // insert "keep unchanged" return hr; } void ClientPicker::AddClientToOEMRow(LPCWSTR pszName, CLIENTINFO* pci) { Element* peRow = FindDescendentByName(_peShowHide, pszName); Element* peList = FindDescendentByName(peRow, L"list"); Value* pv; LPCWSTR pszContent = peList->GetContentString(&pv); if (!pszContent) { _SetStaticTextAndAccName(peList, pci->_pszName); } else { TCHAR szFormat[20]; LPCWSTR rgpszInsert[2] = { pszContent, pci->_pszName }; LoadString(g_hinstSP1, IDS_APPWIZ_ADDITIONALCLIENTFORMAT, szFormat, SIZECHARS(szFormat)); LPWSTR pszFormatted; if (FormatMessageW(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_STRING | FORMAT_MESSAGE_ARGUMENT_ARRAY, szFormat, 0, 0, (LPWSTR)&pszFormatted, 0, (va_list*)rgpszInsert)) { _SetStaticTextAndAccName(peList, pszFormatted); LocalFree(pszFormatted); } } pv->Release(); } void ClientBlock::_RemoveEmptyOEMRow(Element* peShowHide, LPCWSTR pszName) { Element* peRow = FindDescendentByName(peShowHide, pszName); Element* peList = FindDescendentByName(peRow, L"list"); Value* pv; LPCWSTR pszContent = peList->GetContentString(&pv); if (!pszContent || !pszContent[0]) { peRow->Destroy(); } pv->Release(); } // Take the setting from the ClientPicker and copy it to the Custom item // This is done in preparation for Apply()ing the custom item to make the // changes stick. HRESULT ClientBlock::TransferFromClientPicker(ClientPicker* pcp) { HRESULT hr = S_OK; CLIENTINFO* pciSel = pcp->GetSelectedClient(); for (UINT i = 0; SUCCEEDED(hr) && i < _pdaClients->GetSize(); i++) { CLIENTINFO* pci = _pdaClients->GetItem(i); // If this is the one the guy selected, then select it here too if (pci == pciSel && _peSel) { if (pci->IsPickFromList()) { // "Pick from list" -> "Keep unchanged" _peSel->SetSelection(_pdaClients->GetItem(1)->GetSetDefault()); } else { _peSel->SetSelection(pci->GetSetDefault()); } } // Transfer the hide/show setting into the element TRIBIT tShow = _GetFilterShowAdd(pci, pcp, NULL); if (tShow != TRIBIT_UNDEFINED) { pci->SetShowCheckbox(tShow == TRIBIT_TRUE); } } return hr; } // // Okay, here it is, the whole reason we're here. Apply the user's // choices. // HRESULT ClientBlock::Apply(ARPFrame* paf) { HRESULT hr = S_OK; HKEY hkClient = _OpenClientKey(HKEY_LOCAL_MACHINE, KEY_READ | KEY_WRITE); if (hkClient) { // Note! Start loop with 2 because we don't care about applying "Keep Unchanged" // or "Pick an app" DUIAssert(_pdaClients->GetItem(0)->IsPickFromList(), "GetItem(0) must be 'Pick from list'"); DUIAssert(_pdaClients->GetItem(1)->IsKeepUnchanged(), "GetItem(1) must be 'Keep unchanged'"); for (UINT i = 2; SUCCEEDED(hr) && i < _pdaClients->GetSize(); i++) { CLIENTINFO* pci = _pdaClients->GetItem(i); TCHAR szBuf[MAX_PATH]; wnsprintf(szBuf, ARRAYSIZE(szBuf), TEXT("%s\\InstallInfo"), pci->_pszKey); HKEY hkInfo; if (RegOpenKeyEx(hkClient, szBuf, 0, KEY_READ, &hkInfo) == ERROR_SUCCESS) { // Always do hide/show first. That way, an application being // asked to set itself as the default always does so while its // icons are shown. bool bShow = pci->IsShowChecked(); if (bShow != pci->_bShown) { if (pci->GetInstallCommand(hkInfo, bShow ? TEXT("ShowIconsCommand") : TEXT("HideIconsCommand"), szBuf, DUIARRAYSIZE(szBuf))) { hr = paf->LaunchClientCommandAndWait(bShow ? IDS_APPWIZ_SHOWINGICONS : IDS_APPWIZ_HIDINGICONS, pci->_pszName, szBuf); } } if (pci->GetSetDefault()->GetSelected()) { if (pci->GetInstallCommand(hkInfo, TEXT("ReinstallCommand"), szBuf, DUIARRAYSIZE(szBuf))) { FILETIME ft; GetSystemTimeAsFileTime(&ft); SHSetValue(hkClient, NULL, TEXT("LastUserInitiatedDefaultChange"), REG_BINARY, &ft, sizeof(ft)); hr = paf->LaunchClientCommandAndWait(IDS_APPWIZ_SETTINGDEFAULT, pci->_pszName, szBuf); } } RegCloseKey(hkInfo); } } RegCloseKey(hkClient); } return hr; } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // ClientType property static int vvClientType[] = { DUIV_STRING, -1 }; static PropertyInfo impClientTypeProp = { L"ClientType", PF_Normal, 0, vvClientType, NULL, Value::pvStringNull }; PropertyInfo* ClientBlock::ClientTypeProp = &impClientTypeProp; // WindowsClient property static int vvWindowsClient[] = { DUIV_STRING, -1 }; static PropertyInfo impWindowsClientProp = { L"WindowsClient", PF_Normal, 0, vvWindowsClient, NULL, Value::pvStringNull }; PropertyInfo* ClientBlock::WindowsClientProp = &impWindowsClientProp; // OtherMSClients property static int vvOtherMSClients[] = { DUIV_STRING, -1 }; static PropertyInfo impOtherMSClientsProp = { L"OtherMSClients", PF_Normal, 0, vvOtherMSClients, NULL, Value::pvStringNull }; PropertyInfo* ClientBlock::OtherMSClientsProp = &impOtherMSClientsProp; // KeepText property static int vvKeepText[] = { DUIV_STRING, -1 }; static PropertyInfo impKeepTextProp = { L"KeepText", PF_Normal, 0, vvKeepText, NULL, Value::pvStringNull }; PropertyInfo* ClientBlock::KeepTextProp = &impKeepTextProp; // KeepMSText property static int vvKeepMSText[] = { DUIV_STRING, -1 }; static PropertyInfo impKeepMSTextProp = { L"KeepMSText", PF_Normal, 0, vvKeepMSText, NULL, Value::pvStringNull }; PropertyInfo* ClientBlock::KeepMSTextProp = &impKeepMSTextProp; // PickText property static int vvPickText[] = { DUIV_STRING, -1 }; static PropertyInfo impPickTextProp = { L"PickText", PF_Normal, 0, vvPickText, NULL, Value::pvStringNull }; PropertyInfo* ClientBlock::PickTextProp = &impPickTextProp; // Class properties PropertyInfo* _aClientBlockPI[] = { ClientBlock::ClientTypeProp, ClientBlock::WindowsClientProp, ClientBlock::OtherMSClientsProp, ClientBlock::KeepTextProp, ClientBlock::KeepMSTextProp, ClientBlock::PickTextProp, }; // Define class info with type and base type, set static class pointer IClassInfo* ClientBlock::Class = NULL; HRESULT ClientBlock::Register() { return ClassInfo::Register(L"clientblock", _aClientBlockPI, DUIARRAYSIZE(_aClientBlockPI)); } //////////////////////////////////////////////////////// // Expandable class // // Base class for Expando and Clipper. It is just an element // with an "expanded" property. This property inherits from parent // to child. This is used so Clipper can inherit (and therefore // react to) the expanded state of its parent Expando. // HRESULT Expandable::Create(OUT Element** ppElement) { *ppElement = NULL; Expandable* pe = HNew(); if (!pe) return E_OUTOFMEMORY; HRESULT hr = pe->Initialize(0); if (FAILED(hr)) { pe->Destroy(); return hr; } *ppElement = pe; return S_OK; } //////////////////////////////////////////////////////// // Property definitions /** Property template (replace !!!), also update private PropertyInfo* parray and class header (element.h) // !!! property static int vv!!![] = { DUIV_INT, -1 }; StaticValue(svDefault!!!, DUIV_INT, 0); static PropertyInfo imp!!!Prop = { L"!!!", PF_Normal, 0, vv!!!, (Value*)&svDefault!!! }; PropertyInfo* Element::!!!Prop = &imp!!!Prop; **/ // Expanded property static int vvExpanded[] = { DUIV_BOOL, -1 }; static PropertyInfo impExpandedProp = { L"Expanded", PF_Normal|PF_Inherit, 0, vvExpanded, NULL, Value::pvBoolTrue }; PropertyInfo* Expandable::ExpandedProp = &impExpandedProp; //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Class properties PropertyInfo* _aExpandablePI[] = { Expandable::ExpandedProp }; // Define class info with type and base type, set static class pointer IClassInfo* Expandable::Class = NULL; HRESULT Expandable::Register() { return ClassInfo::Register(L"Expandable", _aExpandablePI, DUIARRAYSIZE(_aExpandablePI)); } //////////////////////////////////////////////////////// // Expando class // // An Expando element works in conjunction with a Clipper element // to provide expand/collapse functionality. // // The Expando element manages the expanded/contracted state. // The Expando element has two child elements: // // The first element is a button (the "header"). // The second element is a Clipper. // // The Clipper vanishes when contracted and is shown when expanded. // The header is always shown. // // One of the elements in the header must be a button of type "arrow". // Clicking this button causes the Expando to expand/collapse. // // A click on any other element causes an Expando::Click event // to fire (to be caught by an ancestor element.) // // The "selected" property on the "arrow" tracks the "expanded" // property on the Expando. // DefineClassUniqueID(Expando, Click) HRESULT Expando::Create(OUT Element** ppElement) { *ppElement = NULL; Expando* pex = HNewAndZero(); if (!pex) return E_OUTOFMEMORY; HRESULT hr = pex->Initialize(); if (FAILED(hr)) { pex->Destroy(); return hr; } *ppElement = pex; return S_OK; } HRESULT Expando::Initialize() { HRESULT hr; // Initialize base hr = super::Initialize(0); // Normal display node creation if (FAILED(hr)) return hr; // Initialize _fExpanding = false; return S_OK; } Clipper* Expando::GetClipper() { Element* pe = GetNthChild(this, 1); DUIAssertNoMsg(pe->GetClassInfo()->IsSubclassOf(Clipper::Class)); return (Clipper*)pe; } // // Do this so ARPSelector will select us and deselect our siblings // void Expando::FireClickEvent() { Event e; e.uidType = Expando::Click; FireEvent(&e); // Will route and bubble } void Expando::OnEvent(Event* pev) { if (pev->nStage == GMF_BUBBLED) { if (pev->uidType == Button::Click) { pev->fHandled = true; // Clicking the arrow toggles the expanded state if (pev->peTarget->GetID() == StrToID(L"arrow")) { SetExpanded(!GetExpanded()); } else { // Clicking anything else activates our section FireClickEvent(); } } } Element::OnEvent(pev); } //////////////////////////////////////////////////////// // System events HRESULT _SetParentExpandedProp(ClientPicker* pcp, LPARAM lParam) { Value* pv = (Value*)lParam; pcp->SetValue(ClientPicker::ParentExpandedProp, PI_Local, pv); return S_OK; } void Expando::OnPropertyChanged(PropertyInfo* ppi, int iIndex, Value* pvOld, Value* pvNew) { // Do default processing Element::OnPropertyChanged(ppi, iIndex, pvOld, pvNew); if (IsProp(Selected)) { // BUGBUG something goes here? } else if (IsProp(Expanded)) { // Update height of clipper based on expanded state Element* pe = GetClipper(); if (pe) { // The following will cause a relayout, mark object so that // when the expando's Extent changes, it'll go through // with the EnsureVisible. Otherwise, it's being resized // as a result of something else. In which case, do nothing. _fExpanding = true; // To achieve "pulldown" animation, we use a clipper control that will // size it's child based on it's unconstrained desired size in its Y direction. // We also push the Expanded property into all child ClientPicker // elements as the Selected property so they can turn static when // collapsed. if (pvNew->GetBool()) { pe->RemoveLocalValue(HeightProp); } else { pe->SetHeight(0); } TraverseTree(pe, _SetParentExpandedProp, (LPARAM)pvNew); } // child Clipper object inherits the Expanded state // Push the Expanded state as the arrow's Selected state FindDescendentByName(this, L"arrow")->SetValue(SelectedProp, PI_Local, pvNew); } else if (IsProp(Extent)) { if (_fExpanding && GetExpanded()) { _fExpanding = false; // On extent, we want to ensure that not just the client area but // also the bottom margin of the expando is visible. Why? Simply // because it looks better to scroll the expando plus its margin // into view versus just the expando. // Value* pvSize; Value* pvMargin; const SIZE* psize = GetExtent(&pvSize); const RECT* prect = GetMargin(&pvMargin); EnsureVisible(0, 0, psize->cx, psize->cy + prect->bottom); pvSize->Release(); pvMargin->Release(); } } } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* Expando::Class = NULL; HRESULT Expando::Register() { return ClassInfo::Register(L"Expando", NULL, 0); } //////////////////////////////////////////////////////// // // Clipper class // // Used to do the smooth hide/show animation. // // The Clipper element animates away its one child, typically // an with layout and inner child elements. // HRESULT Clipper::Create(OUT Element** ppElement) { *ppElement = NULL; Clipper* pc = HNewAndZero(); if (!pc) return E_OUTOFMEMORY; HRESULT hr = pc->Initialize(); if (FAILED(hr)) { pc->Destroy(); return hr; } *ppElement = pc; return S_OK; } HRESULT Clipper::Initialize() { // Initialize base HRESULT hr = super::Initialize(EC_SelfLayout); // Normal display node creation, self layout if (FAILED(hr)) return hr; // Children can exist outside of Element bounds SetGadgetStyle(GetDisplayNode(), GS_CLIPINSIDE, GS_CLIPINSIDE); return S_OK; } //////////////////////////////////////////////////////// // Self-layout methods SIZE Clipper::_SelfLayoutUpdateDesiredSize(int cxConstraint, int cyConstraint, Surface* psrf) { UNREFERENCED_PARAMETER(cyConstraint); SIZE size = { 0, 0 }; // Desired size of this is based solely on it's first child. // Width is child's width, height is unconstrained height of child. Element* pec = GetNthChild(this, 0); if (pec) { size = pec->_UpdateDesiredSize(cxConstraint, INT_MAX, psrf); if (size.cx > cxConstraint) size.cx = cxConstraint; if (size.cy > cyConstraint) size.cy = cyConstraint; } return size; } void Clipper::_SelfLayoutDoLayout(int cx, int cy) { // Layout first child giving it's desired height and aligning // it with the clipper's bottom edge Element* pec = GetNthChild(this, 0); if (pec) { const SIZE* pds = pec->GetDesiredSize(); pec->_UpdateLayoutPosition(0, cy - pds->cy); pec->_UpdateLayoutSize(cx, pds->cy); } } //////////////////////////////////////////////////////// // Property definitions //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* Clipper::Class = NULL; HRESULT Clipper::Register() { return ClassInfo::Register(L"Clipper", NULL, 0); } //////////////////////////////////////////////////////// // GradientLine class // // This is necessary for two reasons. // // 1. gradient(...) doesn't support FILLTYPE_TriHGradient. // The code to implement tri-gradients exists only in // the GdiPlus version. We can fake it by putting two // FILLTYPE_HGradient elements next to each other, except // for the second problem... // 2. gradient(...) doesn't support system colors like "buttonface". // HRESULT GradientLine::Create(OUT Element** ppElement) { *ppElement = NULL; GradientLine* pe = HNew(); if (!pe) return E_OUTOFMEMORY; HRESULT hr = pe->Initialize(0); if (FAILED(hr)) { pe->Destroy(); return hr; } *ppElement = pe; return S_OK; } COLORREF GradientLine::GetColorProperty(PropertyInfo* ppi) { // on failure, use transparent color (i.e., nothing happens) COLORREF cr = ARGB(0xFF, 0, 0, 0); Value* pv = GetValue(ppi, PI_Specified); switch (pv->GetType()) { case DUIV_INT: cr = ColorFromEnumI(pv->GetInt()); break; case DUIV_FILL: { const Fill* pf = pv->GetFill(); if (pf->dType == FILLTYPE_Solid) { cr = pf->ref.cr; } else { DUIAssert(0, "GradientLine supports only solid colors"); } } break; default: DUIAssert(0, "GradientLine supports only solid colors"); } pv->Release(); return cr; } void GradientLine::Paint(HDC hDC, const RECT* prcBounds, const RECT* prcInvalid, RECT* prcSkipBorder, RECT* prcSkipContent) { // Paint default except content RECT rcContent; Element::Paint(hDC, prcBounds, prcInvalid, prcSkipBorder, &rcContent); // Render gradient content if requested if (!prcSkipContent) { // // Vertices are as indicated. The two rectangles are (0-1) and (1-2). // // 0(bgcolor) 2(bgcolor) // +-----------------+----------------+ // | | // | | // | | // +-----------------+----------------+ // 1(fgcolor) TRIVERTEX rgvert[3]; GRADIENT_RECT rggr[2]; COLORREF cr; cr = GetColorProperty(BackgroundProp); rgvert[0].x = rcContent.left; rgvert[0].y = rcContent.top; rgvert[0].Red = GetRValue(cr) << 8; rgvert[0].Green = GetGValue(cr) << 8; rgvert[0].Blue = GetBValue(cr) << 8; rgvert[0].Alpha = GetAValue(cr) << 8; rgvert[2] = rgvert[0]; rgvert[2].x = rcContent.right; cr = GetColorProperty(ForegroundProp); rgvert[1].x = (rcContent.left + rcContent.right) / 2; rgvert[1].y = rcContent.bottom; rgvert[1].Red = GetRValue(cr) << 8; rgvert[1].Green = GetGValue(cr) << 8; rgvert[1].Blue = GetBValue(cr) << 8; rgvert[1].Alpha = GetAValue(cr) << 8; rggr[0].UpperLeft = 0; rggr[0].LowerRight = 1; rggr[1].UpperLeft = 1; rggr[1].LowerRight = 2; GradientFill(hDC, rgvert, DUIARRAYSIZE(rgvert), rggr, DUIARRAYSIZE(rggr), GRADIENT_FILL_RECT_H); } else { *prcSkipContent = rcContent; } } //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Define class info with type and base type, set static class pointer IClassInfo* GradientLine::Class = NULL; HRESULT GradientLine::Register() { return ClassInfo::Register(L"GradientLine", NULL, 0); } //////////////////////////////////////////////////////// // BigElement class // // This is necessary because the DUI parser limits rcstr() to 256 // characters and we have strings that are dangerously close to that // limit. (So localization will likely push them over the limit.) // HRESULT BigElement::Create(OUT Element** ppElement) { *ppElement = NULL; BigElement* pe = HNew(); if (!pe) return E_OUTOFMEMORY; HRESULT hr = pe->Initialize(0); if (FAILED(hr)) { pe->Destroy(); return hr; } *ppElement = pe; return S_OK; } void BigElement::OnPropertyChanged(PropertyInfo* ppi, int iIndex, Value* pvOld, Value* pvNew) { // Do default processing Element::OnPropertyChanged(ppi, iIndex, pvOld, pvNew); if (IsProp(StringResID)) { UINT uID = pvNew->GetInt(); HRSRC hrsrc = FindResource(g_hinstSP1, (LPTSTR)(LONG_PTR)(1 + uID / 16), RT_STRING); if (hrsrc) { PWCHAR pwch = (PWCHAR)LoadResource(g_hinstSP1, hrsrc); if (pwch) { // Now skip over strings until we hit the one we want. for (uID %= 16; uID; uID--) { pwch += *pwch + 1; } // Found it -- load the entire string and set it LPWSTR pszString = new WCHAR[*pwch + 1]; if (pszString) { memcpy(pszString, pwch+1, *pwch * sizeof(WCHAR)); pszString[*pwch] = L'\0'; SetContentString(pszString); SetAccName(pszString); delete[] pszString; } } } } } //////////////////////////////////////////////////////// // Property definitions // StringResID property static int vvStringResID[] = { DUIV_INT, -1 }; static PropertyInfo impStringResIDProp = { L"StringResID", PF_Normal, 0, vvStringResID, NULL, Value::pvIntZero }; PropertyInfo* BigElement::StringResIDProp = &impStringResIDProp; //////////////////////////////////////////////////////// // ClassInfo (must appear after property definitions) // Class properties PropertyInfo* _aBigElementPI[] = { BigElement::StringResIDProp }; // Define class info with type and base type, set static class pointer IClassInfo* BigElement::Class = NULL; HRESULT BigElement::Register() { return ClassInfo::Register(L"BigElement", _aBigElementPI, DUIARRAYSIZE(_aBigElementPI)); } //////////////////////////////////////////////////////// // ARP Parser callback void CALLBACK ARPParseError(LPCWSTR pszError, LPCWSTR pszToken, int dLine) { WCHAR buf[201]; if (dLine != -1) wnsprintf(buf, ARRAYSIZE(buf), L"%s '%s' at line %d", pszError, pszToken, dLine); else wnsprintf(buf, ARRAYSIZE(buf), L"%s '%s'", pszError, pszToken); MessageBoxW(NULL, buf, L"Parser Message", MB_OK); } void inline SetElementAccessability(Element* pe, bool bAccessible, int iRole, LPCWSTR pszAccName) { if (pe) { pe->SetAccessible(bAccessible); pe->SetAccRole(iRole); pe->SetAccName(pszAccName); } } void EnablePane(Element* pePane, bool fEnable) { if (fEnable) { pePane->SetLayoutPos(BLP_Client); EnableElementTreeAccessibility(pePane); } else { pePane->SetLayoutPos(LP_None); DisableElementTreeAccessibility(pePane); } } void BestFitOnDesktop(RECT* r) { ASSERT(r != NULL); RECT wr; // Rect to hold size of work area if (SystemParametersInfo(SPI_GETWORKAREA, 0, &wr, 0)) { if ((wr.right-wr.left) < ARP_DEFAULT_WIDTH) { // Default width is too large, use the entire width of the desktop area r->left = wr.left; r->right = wr.right - wr.left; } else { // Center on screen using default width r->left = wr.left + (((wr.right-wr.left) - ARP_DEFAULT_WIDTH) / 2); r->right = ARP_DEFAULT_WIDTH; } if ((wr.bottom-wr.top) < ARP_DEFAULT_HEIGHT) { // Default height is too large, use the entire height of the desktop area r->top = wr.top; r->bottom = wr.bottom - wr.top; } else { // Center on screen using default height r->top = wr.top + (((wr.bottom-wr.top) - ARP_DEFAULT_HEIGHT) / 2); r->bottom = ARP_DEFAULT_HEIGHT; } } else { // Don't know why the function would fail, but if it does just use the default size // and position SetRect(r, ARP_DEFAULT_POS_X, ARP_DEFAULT_POS_Y, ARP_DEFAULT_WIDTH, ARP_DEFAULT_HEIGHT); } } //////////////////////////////////////////////////////// // ARP entry point DWORD WINAPI PopulateInstalledItemList(void* paf); STDAPI ARP(HWND hWnd, int nPage) { HRESULT hr; Parser* pParser = NULL; NativeHWNDHost* pnhh = NULL; ARPFrame* paf = NULL; Element* pe = NULL; RECT rect; WCHAR szTemp[1024]; g_hinstSP1 = LoadLibraryFromSystem32Directory(TEXT("XPSP1RES.DLL")); if (!g_hinstSP1) { goto Failure; } // DirectUI init process hr = InitProcess(); if (FAILED(hr)) goto Failure; // Register classes hr = ARPFrame::Register(); if (FAILED(hr)) goto Failure; hr = ARPItem::Register(); if (FAILED(hr)) goto Failure; hr = ARPHelp::Register(); if (FAILED(hr)) goto Failure; hr = ARPSupportItem::Register(); if (FAILED(hr)) goto Failure; hr = ARPSelector::Register(); if (FAILED(hr)) goto Failure; hr = ClientPicker::Register(); if (FAILED(hr)) goto Failure; hr = AutoButton::Register(); if (FAILED(hr)) goto Failure; hr = ClientBlock::Register(); if (FAILED(hr)) goto Failure; hr = Expandable::Register(); if (FAILED(hr)) goto Failure; hr = Expando::Register(); if (FAILED(hr)) goto Failure; hr = Clipper::Register(); if (FAILED(hr)) goto Failure; hr = GradientLine::Register(); if (FAILED(hr)) goto Failure; hr = BigElement::Register(); if (FAILED(hr)) goto Failure; // DirectUI init thread hr = InitThread(); if (FAILED(hr)) goto Failure; hr = CoInitialize(NULL); if (FAILED(hr)) goto Failure; Element::StartDefer(); // Create host LoadStringW(g_hinst, IDS_ARPTITLE, szTemp, DUIARRAYSIZE(szTemp)); BestFitOnDesktop(&rect); hr = NativeHWNDHost::Create(szTemp, hWnd, LoadIcon(g_hinst, MAKEINTRESOURCE(IDI_CPLICON)), rect.left, rect.top, rect.right, rect.bottom, WS_EX_APPWINDOW, WS_OVERLAPPEDWINDOW, 0, &pnhh); if (FAILED(hr)) goto Failure; hr = ARPFrame::Create(pnhh, true, (Element**)&paf); if (FAILED(hr)) goto Failure; // Load resources ARPParser::Create(paf, IDR_APPWIZ_ARP, g_hinst, ARPParseError, &pParser); if (!pParser || pParser->WasParseError()) goto Failure; pParser->CreateElement(L"main", paf, &pe); if (pe && // Fill contents using substitution paf->Setup(pParser, nPage)) // Set ARPFrame state (incluing ID initialization) { // Set visible and host paf->SetVisible(true); pnhh->Host(paf); Element::EndDefer(); // Do initial show pnhh->ShowWindow(); Element* peClose = ((ARPFrame*)pe)->FallbackFocus(); if (peClose) { peClose->SetKeyFocus(); } if (!paf->IsChangeRestricted()) { paf->UpdateInstalledItems(); } // Pump messages MSG msg; bool fDispatch = true; while (GetMessageW(&msg, 0, 0, 0) != 0) { // Check for destruction of top-level window (always async) if (msg.hwnd == pnhh->GetHWND() && msg.message == NHHM_ASYNCDESTROY) { // Async destroy requested, clean up secondary threads // Signal that secondary threads should complete as soon as possible // Any requests from secondary threads will be ignored // No more secondary threads will be allowed to start g_fRun = false; // Hide window, some threads may need more time to exit normally pnhh->HideWindow(); // Don't dispatch this one if (!g_fAppShuttingDown) fDispatch = false; } // Check for pending threads if (!g_fRun) { if (!ARPFrame::htPopulateInstalledItemList && !ARPFrame::htPopulateAndRenderOCSetupItemList && !ARPFrame::htPopulateAndRenderPublishedItemList) { if (!g_fAppShuttingDown) { // Done, reissue async destroy DUITrace(">> App shutting down, async destroying main window\n"); g_fAppShuttingDown = true; pnhh->DestroyWindow(); } } } if (fDispatch) { TranslateMessage(&msg); DispatchMessageW(&msg); } else fDispatch = true; } // paf will be deleted by native HWND host when destroyed } else Element::EndDefer(); Failure: if (pnhh) { if (pnhh->GetHWND()) { // In the error case we didn't destroy the window cleanly, so // we need to do it viciously. Cannot use pnhh->DestroyWindow() // because that defers the destroy but we need it to happen now. DestroyWindow(pnhh->GetHWND()); } pnhh->Destroy(); } if (pParser) pParser->Destroy(); CoUninitialize(); UnInitThread(); UnInitProcess(); return 0; } DWORD _cdecl ARPIsRestricted(LPCWSTR pszPolicy) { return SHGetRestriction(NULL, L"Uninstall", pszPolicy); } bool _cdecl ARPIsOnDomain() { // NOTE: assume it's on the domain bool bRet = true; LPWSTR pszDomain; NETSETUP_JOIN_STATUS nsjs; if (NERR_Success == NetGetJoinInformation(NULL, &pszDomain, &nsjs)) { if (nsjs != NetSetupDomainName) bRet = FALSE; NetApiBufferFree(pszDomain); } return bRet; } //////////////////////////////////////////////////////// // Async ARP item population thread //////////////////////////////////////////////////////// // Query system and enumerate installed apps HRESULT BuildPublishedAppArray(IEnumPublishedApps *penum, HDSA *phdsaPubApps); HRESULT InstallPublishedAppArray(ARPFrame *paf, HDSA hdsaPubApps, UINT *piCount); HRESULT InsertPubAppInPubAppArray(HDSA hdsa, IPublishedApp *ppa); HRESULT GetPubAppName(IPublishedApp *ppa, LPWSTR *ppszName); int CALLBACK DestroyPublishedAppArrayEntry(void *p, void *pData); DWORD WINAPI PopulateAndRenderPublishedItemList(void* paf) { DUITrace(">> Thread 'htPopulateAndRenderPublishedItemList' STARTED.\n"); HRESULT hr; UINT iCount = 0; IShellAppManager* pisam = NULL; IEnumPublishedApps* piepa = NULL; IPublishedApp* pipa = NULL; HDCONTEXT hctx = NULL; // Initialize HRESULT hrOle = CoInitialize(NULL); INITGADGET ig; ZeroMemory(&ig, sizeof(ig)); ig.cbSize = sizeof(ig); ig.nThreadMode = IGTM_MULTIPLE; ig.nMsgMode = IGMM_ADVANCED; ig.hctxShare = NULL; hctx = InitGadgets(&ig); if (hctx == NULL) { goto Cleanup; } // Create shell manager hr = CoCreateInstance(__uuidof(ShellAppManager), NULL, CLSCTX_INPROC_SERVER, __uuidof(IShellAppManager), (void**)&pisam); HRCHK(hr); if (!((ARPFrame*)paf)->GetPublishedComboFilled()) { // Get the list of categories SHELLAPPCATEGORYLIST* psacl = ((ARPFrame*)paf)->GetShellAppCategoryList(); if (psacl == NULL) { psacl = new SHELLAPPCATEGORYLIST; } if (psacl == NULL) { goto Cleanup; } else { ((ARPFrame*)paf)->SetShellAppCategoryList(psacl); } hr = pisam->GetPublishedAppCategories(psacl); ((ARPFrame*)paf)->PopulateCategoryCombobox(); ((ARPFrame*)paf)->SetPublishedComboFilled(true); } hr = pisam->EnumPublishedApps(((ARPFrame*)paf)->GetCurrentPublishedCategory(), &piepa); HRCHK(hr); HDSA hdsaPubApps = NULL; hr = BuildPublishedAppArray(piepa, &hdsaPubApps); HRCHK(hr); hr = InstallPublishedAppArray((ARPFrame *)paf, hdsaPubApps, &iCount); HRCHK(hr); if (iCount == 0) { ((ARPFrame*)paf)->FeedbackEmptyPublishedList(); } Cleanup: if (NULL != hdsaPubApps) { DSA_DestroyCallback(hdsaPubApps, DestroyPublishedAppArrayEntry, NULL); hdsaPubApps = NULL; } if (paf) { ((ARPFrame*)paf)->OnPublishedListComplete(); ((ARPFrame*)paf)->SetPublishedListFilled(true); } if (pisam) pisam->Release(); if (piepa) piepa->Release(); if (hctx) DeleteHandle(hctx); if (SUCCEEDED(hrOle)) { CoUninitialize(); } // Thread is done ARPFrame::htPopulateAndRenderPublishedItemList = NULL; // Information primary thread that this worker is complete PostMessage(((ARPFrame*)paf)->GetHWND(), WM_ARPWORKERCOMPLETE, 0, 0); DUITrace(">> Thread 'htPopulateAndRenderPublishedItemList' DONE.\n"); return 0; } // ---------------------------------------------------------------------------- // Handling published apps with duplicate names // ---------------------------------------------------------------------------- // // Entry in dynamic array of published app items. // Entries with duplicate application names must be identifed // in the UI by appending the applicable publishing source name // to the display name of the application. In order to do this, // we need to assemble all of the published entries in a sorted // array then mark as such those that have duplicate names. // When the array items are added to the ARP frame, the items // marked 'duplicate' have their publisher's name appended to // their application name. // struct PubItemListEntry { IPublishedApp *ppa; // The published app object. bool bDuplicateName; // Does it have a duplicate name? }; // // Build the dynamic array of app/duplicate information. // One entry for each published app. If this function succeeds, // the caller is responsible for destroying the returnd DSA. // HRESULT BuildPublishedAppArray( IEnumPublishedApps *penum, HDSA *phdsaPubApps ) { ASSERT(NULL != penum); ASSERT(NULL != phdsaPubApps); ASSERT(!IsBadWritePtr(phdsaPubApps, sizeof(*phdsaPubApps))); HRESULT hr = S_OK; // // Create a large DSA so that we minimize resizing. // HDSA hdsa = DSA_Create(sizeof(PubItemListEntry), 512); if (NULL != hdsa) { IPublishedApp *ppa; while(g_fRun) { hr = THR(penum->Next(&ppa)); if (S_OK == hr) { // // Ignore any errors related to a specific published app. // THR(InsertPubAppInPubAppArray(hdsa, ppa)); ppa->Release(); } else { break; } } if (FAILED(hr)) { DSA_DestroyCallback(hdsa, DestroyPublishedAppArrayEntry, NULL); hdsa = NULL; } } else { hr = E_OUTOFMEMORY; } ASSERT(FAILED(hr) || NULL != hdsa); *phdsaPubApps = hdsa; return THR(hr); } // // Retrieve the application name string for a given published app. // If this function succeeds, the caller is responsible for freeing // the name string by using SHFree. // HRESULT GetPubAppName( IPublishedApp *ppa, LPWSTR *ppszName ) { ASSERT(NULL != ppa); ASSERT(NULL != ppszName); ASSERT(!IsBadWritePtr(ppszName, sizeof(*ppszName))); APPINFODATA aid; aid.cbSize = sizeof(aid); aid.dwMask = AIM_DISPLAYNAME; *ppszName = NULL; HRESULT hr = THR(ppa->GetAppInfo(&aid)); if (SUCCEEDED(hr)) { if (AIM_DISPLAYNAME & aid.dwMask) { *ppszName = aid.pszDisplayName; } else { hr = E_FAIL; } } return THR(hr); } // // Insert a published app into the published app array. // Upon return, the dynamic array is sorted by published app name // and all duplicate entries are marked with their bDuplicateName // member set to 'true'. // HRESULT InsertPubAppInPubAppArray( HDSA hdsa, IPublishedApp *ppa ) { ASSERT(NULL != hdsa); ASSERT(NULL != ppa); LPWSTR pszAppName; HRESULT hr = THR(GetPubAppName(ppa, &pszAppName)); if (SUCCEEDED(hr)) { // // Create the new entry. We'll addref the COM pointer // only after the item is successfully inserted into the array. // PubItemListEntry entryNew = { ppa, false }; // // Find the insertion point so that the array is // sorted by app name. // const int cEntries = DSA_GetItemCount(hdsa); int iInsertHere = 0; // Insertion point. PubItemListEntry *pEntry = NULL; for (iInsertHere = 0; iInsertHere < cEntries; iInsertHere++) { pEntry = (PubItemListEntry *)DSA_GetItemPtr(hdsa, iInsertHere); TBOOL(NULL != pEntry); if (NULL != pEntry) { LPWSTR psz; hr = THR(GetPubAppName(pEntry->ppa, &psz)); if (SUCCEEDED(hr)) { int iCompare = lstrcmpi(psz, pszAppName); SHFree(psz); psz = NULL; if (0 <= iCompare) { // // This is the insertion point. // if (0 == iCompare) { // // This entry has the same name. // entryNew.bDuplicateName = true; pEntry->bDuplicateName = true; } break; } } } } // // Now mark all other duplicates. Note that if the entry // currently at the insertion point is a duplicate of the // entry we're inserting, we've already marked it as a duplicate // above. Therefore, we can start with the next entry. // for (int i = iInsertHere + 1; i < cEntries; i++) { pEntry = (PubItemListEntry *)DSA_GetItemPtr(hdsa, i); TBOOL(NULL != pEntry); if (NULL != pEntry) { LPWSTR psz; hr = THR(GetPubAppName(pEntry->ppa, &psz)); if (SUCCEEDED(hr)) { int iCompare = lstrcmpi(psz, pszAppName); SHFree(psz); psz = NULL; // // Assert that the array is sorted alphabetically. // ASSERT(0 <= iCompare); if (0 == iCompare) { // // Yep, another duplicate. // pEntry->bDuplicateName = true; } else { break; // No need to look further. } } } } // // Insert the new item. // if (-1 != DSA_InsertItem(hdsa, iInsertHere, &entryNew)) { entryNew.ppa->AddRef(); } else { hr = E_OUTOFMEMORY; } SHFree(pszAppName); } return THR(hr); } // // Given a DSA of application/duplicate-flag pairs, install // the items in the ARP frame. // HRESULT InstallPublishedAppArray( ARPFrame *paf, HDSA hdsaPubApps, UINT *piCount // optional. Can be NULL. ) { ASSERT(NULL != paf); ASSERT(NULL != hdsaPubApps); ASSERT(NULL == piCount || !IsBadWritePtr(piCount, sizeof(*piCount))); int cEntries = DSA_GetItemCount(hdsaPubApps); paf->SetPublishedItemCount(cEntries); UINT iCount = 0; for (int i = 0; i < cEntries && g_fRun; i++) { PubItemListEntry *pEntry = (PubItemListEntry *)DSA_GetItemPtr(hdsaPubApps, i); TBOOL(NULL != pEntry); if (NULL != pEntry) { // // Unfortunately, InsertPublishedItem() doesn't return a value. // paf->InsertPublishedItem(pEntry->ppa, pEntry->bDuplicateName); iCount++; } } if (NULL != piCount) { *piCount = iCount; } return S_OK; } // // Callback for destroying the DSA of application/duplicate-flag pairs. // Need to release the IPublishedApp ptr for each entry. // int CALLBACK DestroyPublishedAppArrayEntry( void *p, void *pData ) { PubItemListEntry *pEntry = (PubItemListEntry *)p; ASSERT(NULL != pEntry && NULL != pEntry->ppa); ATOMICRELEASE(pEntry->ppa); return 1; } DWORD WINAPI PopulateAndRenderOCSetupItemList(void* paf) { DUITrace(">> Thread 'htPopulateAndRenderOCSetupItemList' STARTED.\n"); HDCONTEXT hctx = NULL; INITGADGET ig; ZeroMemory(&ig, sizeof(ig)); ig.cbSize = sizeof(ig); ig.nThreadMode = IGTM_MULTIPLE; ig.nMsgMode = IGMM_ADVANCED; ig.hctxShare = NULL; hctx = InitGadgets(&ig); if (hctx == NULL) { goto Cleanup; } // Create an object that enums the OCSetup items COCSetupEnum * pocse = new COCSetupEnum; if (pocse) { if (pocse->EnumOCSetupItems()) { COCSetupApp* pocsa; while (g_fRun && pocse->Next(&pocsa)) { APPINFODATA ai = {0}; ai.cbSize = sizeof(ai); ai.dwMask = AIM_DISPLAYNAME; if ( pocsa->GetAppInfo(&ai) && (lstrlen(ai.pszDisplayName) > 0) ) { // // InsertOCSetupItem doesn't return a status value // so we have no way of knowing if the item was // added to ARP or not. So... we have no way of knowing // if we should delete it to prevent a leak. // I've added code to ARPFrame::OnInvoke to delete // the pocsa object if it cannot be added to ARP. // [brianau - 2/27/01] // // Insert item ((ARPFrame*)paf)->InsertOCSetupItem(pocsa); } else { delete pocsa; pocsa = NULL; } } } delete pocse; pocse = NULL; } Cleanup: if (hctx) DeleteHandle(hctx); // Thread is done ARPFrame::htPopulateAndRenderOCSetupItemList = NULL; // Information primary thread that this worker is complete PostMessage(((ARPFrame*)paf)->GetHWND(), WM_ARPWORKERCOMPLETE, 0, 0); DUITrace(">> Thread 'htPopulateAndRenderOCSetupItemList' DONE.\n"); return 0; } DWORD WINAPI PopulateInstalledItemList(void* paf) { DUITrace(">> Thread 'htPopulateInstalledItemList' STARTED.\n"); HRESULT hr; IShellAppManager* pisam = NULL; IEnumInstalledApps* pieia = NULL; IInstalledApp* piia = NULL; DWORD dwAppCount = 0; APPINFODATA aid = {0}; HDCONTEXT hctx = NULL; // Initialize CoInitialize(NULL); INITGADGET ig; ZeroMemory(&ig, sizeof(ig)); ig.cbSize = sizeof(ig); ig.nThreadMode = IGTM_MULTIPLE; ig.nMsgMode = IGMM_ADVANCED; ig.hctxShare = NULL; hctx = InitGadgets(&ig); if (hctx == NULL) { goto Cleanup; } aid.cbSize = sizeof(APPINFODATA); aid.dwMask = AIM_DISPLAYNAME | AIM_VERSION | AIM_PUBLISHER | AIM_PRODUCTID | AIM_REGISTEREDOWNER | AIM_REGISTEREDCOMPANY | AIM_SUPPORTURL | AIM_SUPPORTTELEPHONE | AIM_HELPLINK | AIM_INSTALLLOCATION | AIM_INSTALLDATE | AIM_COMMENTS | AIM_IMAGE | AIM_READMEURL | AIM_CONTACT | AIM_UPDATEINFOURL; // Create shell manager hr = CoCreateInstance(__uuidof(ShellAppManager), NULL, CLSCTX_INPROC_SERVER, __uuidof(IShellAppManager), (void**)&pisam); HRCHK(hr); hr = pisam->EnumInstalledApps(&pieia); HRCHK(hr); // Count installed apps, IShellAppManager::GetNumberofInstalledApps() not impl while (g_fRun) { hr = pieia->Next(&piia); if (hr == S_FALSE) // Done with enumeration break; dwAppCount++; } // IEnumInstalledApps::Reset() doesn't work pieia->Release(); pieia = NULL; hr = pisam->EnumInstalledApps(&pieia); HRCHK(hr); // Set app count in frame ((ARPFrame*)paf)->SetInstalledItemCount(dwAppCount); // Enumerate apps while (g_fRun) { hr = pieia->Next(&piia); if (hr == S_FALSE) // Done with enumeration break; // Insert item if (piia != NULL) { ((ARPFrame*)paf)->InsertInstalledItem(piia); } } // Passing NULL to InsertInstalledItem signals ARP that it is finished // inserting items and should now display the list. if (dwAppCount > 0) { ((ARPFrame*)paf)->InsertInstalledItem(NULL); } Cleanup: if (pisam) pisam->Release(); if (pieia) pieia->Release(); if (hctx) DeleteHandle(hctx); CoUninitialize(); if (g_fRun) ((ARPFrame*)paf)->FlushWorkingSet(); // Thread is done ARPFrame::htPopulateInstalledItemList = NULL; // Information primary thread that this worker is complete PostMessage(((ARPFrame*)paf)->GetHWND(), WM_ARPWORKERCOMPLETE, 0, 0); DUITrace(">> Thread 'htPopulateInstalledItemList' DONE.\n"); return 0; } // Sorting int __cdecl CompareElementDataName(const void* pA, const void* pB) { Value* pvName1 = NULL; Value* pvName2 = NULL; LPCWSTR pszName1 = NULL; LPCWSTR pszName2 = NULL; Element *pe; if (NULL != pA) { pe = (*(ARPItem**)pA)->FindDescendent(ARPItem::_idTitle); if (NULL != pe) { pszName1 = pe->GetContentString(&pvName1); } } if (NULL != pB) { pe = (*(ARPItem**)pB)->FindDescendent(ARPItem::_idTitle); if (NULL != pe) { pszName2 = pe->GetContentString(&pvName2); } } static const int rgResults[2][2] = { /* pszName2 == NULL, pszName2 != NULL */ /* pszName1 == NULL */ { 0, 1 }, /* pszName1 != NULL */ { -1, 2 } }; int iResult = rgResults[int(NULL != pszName1)][int(NULL != pszName2)]; if (2 == iResult) { iResult = StrCmpW(pszName1, pszName2); } if (NULL != pvName1) { pvName1->Release(); } if (NULL != pvName2) { pvName2->Release(); } return iResult; } int __cdecl CompareElementDataSize(const void* pA, const void* pB) { ULONGLONG ull1 = (*(ARPItem**)pA)->_ullSize; ULONGLONG ull2 = (*(ARPItem**)pB)->_ullSize; if (!IsValidSize(ull1)) ull1 = 0; if (!IsValidSize(ull2)) ull2 = 0; // Big apps come before smaller apps if (ull1 > ull2) return -1; else if (ull1 < ull2) return 1; return CompareElementDataName(pA, pB); } int __cdecl CompareElementDataFreq(const void* pA, const void* pB) { // Rarely used apps come before frequently used apps. Blank // (unknown) apps go last. Unknown apps are -1, so those sort // to the bottom if we simply compare unsigned values. UINT u1 = (UINT)(*(ARPItem**)pA)->_iTimesUsed; UINT u2 = (UINT)(*(ARPItem**)pB)->_iTimesUsed; if (u1 < u2) return -1; else if (u1 > u2) return 1; return CompareElementDataName(pA, pB); } int __cdecl CompareElementDataLast(const void* pA, const void* pB) { FILETIME ft1 = (*(ARPItem**)pA)->_ftLastUsed; FILETIME ft2 = (*(ARPItem**)pB)->_ftLastUsed; BOOL bTime1 = IsValidFileTime(ft1); BOOL bTime2 = IsValidFileTime(ft2); if (!bTime1 || !bTime2) { if (bTime1) return -1; if (bTime2) return 1; // else they're both not set -- use name } else { LONG diff = CompareFileTime(&ft1, &ft2); if (diff) return diff; } return CompareElementDataName(pA, pB); }