//--------------------------------------------------------------------------- // Part of this code is // Copyright (C) 2002-2004, Marco Barisione //--------------------------------------------------------------------------- #include #pragma hdrstop #include #include #include #include #include #include #include #include #include #include #include #include #include "WinConfiguration.h" #include "WinInterface.h" #include "Tools.h" #include "Setup.h" #include #include "ProgParams.h" //--------------------------------------------------------------------------- #define KEY _T("SYSTEM\\CurrentControlSet\\Control\\") \ _T("Session Manager\\Environment") // when the PATH registry key is over aprox 2048 characters, // PATH as well as WINDIR variables are actually not set, breaking the system #define MAX_PATH_LEN 2000 /* Command line options. */ UnicodeString LastPathError; //--------------------------------------------------------------------------- // Display the error "err_msg". void err_out(LPCTSTR err_msg) { LastPathError = err_msg; } //--------------------------------------------------------------------------- // Display "base_err_msg" followed by the description of the system error // identified by "sys_err". void err_out_sys(LPCTSTR base_err_msg, LONG sys_err) { LastPathError = FORMAT(L"%s %s", (base_err_msg, SysErrorMessage(sys_err))); } //--------------------------------------------------------------------------- // Works as "strcmp" but the comparison is not case sensitive. int tcharicmp(LPCTSTR str1, LPCTSTR str2){ for (; tolower(*str1) == tolower(*str2); ++str1, ++str2) if (*str1 == L'\0') return 0; return tolower(*str1) - tolower(*str2); } //--------------------------------------------------------------------------- // Returns un unquoted copy of "str" (or a copy of "str" if the quotes are // not present). The returned value must be freed with "free". LPTSTR unquote(LPCTSTR str){ int last_pos; LPTSTR ret; size_t new_len; last_pos = _tcslen(str) - 1; if (last_pos != -1 && str[0] == L'"' && str[last_pos] == L'"'){ new_len= (_tcslen(str) - 1); ret = (LPTSTR)malloc(new_len * sizeof(TCHAR)); lstrcpyn(ret, &str[1], new_len); } else ret = _tcsdup(str); return ret; } //--------------------------------------------------------------------------- // Find "what" in the ";" separated string "str" and returns a pointer to // the first letter of "what" in the string. If "next" is not "NULL" it // points to the first letter after "what" (excluding the trailing ";"). // If "what" isn't find the functions returns "NULL". LPTSTR find_reg_str(LPTSTR str, LPCTSTR what, LPTSTR * next){ LPTSTR tok_buff; LPTSTR curr_tok; LPTSTR curr_tok_dup; BOOL path_eq; TCHAR sh_path1[MAX_PATH], sh_path2[MAX_PATH]; int pos = -1; LPTSTR ret; tok_buff = _tcsdup(str); curr_tok = _tcstok(tok_buff, _T(";")); while (pos == -1 && curr_tok){ curr_tok_dup = unquote(curr_tok); path_eq = GetShortPathName(what, sh_path1, LENOF(sh_path1)) && GetShortPathName(curr_tok_dup, sh_path2, LENOF(sh_path2)) && (tcharicmp(sh_path1, sh_path2) == 0); if (path_eq || tcharicmp(what, curr_tok_dup) == 0){ pos = curr_tok - tok_buff; } free(curr_tok_dup); curr_tok = _tcstok(NULL, _T(";")); if (pos != -1 && next){ if (curr_tok) *next = str + (curr_tok - tok_buff); else *next = str + _tcslen(str); } } free(tok_buff); if (pos != -1) ret = str + pos; else ret = NULL; return ret; } //--------------------------------------------------------------------------- void path_reg_propagate() { DWORD send_message_result; LONG ret = SendMessageTimeout(HWND_BROADCAST, WM_SETTINGCHANGE, 0, (LPARAM)_T("Environment"), SMTO_ABORTIFHUNG, 5000, &send_message_result); if (ret != ERROR_SUCCESS && GetLastError() != 0) { err_out_sys(_T("Cannot propagate the new enviroment to ") _T("other processes. The new value will be ") _T("avaible after a reboot."), GetLastError()); SimpleErrorDialog(LastPathError); LastPathError = L""; } } //--------------------------------------------------------------------------- // Add "path" to the registry. Return "TRUE" if the path has been added or // was already in the registry, "FALSE" otherwise. BOOL add_path_reg(LPCTSTR path){ HKEY key; LONG ret; DWORD data_size; LPTSTR reg_str; BOOL func_ret = TRUE; ret = RegOpenKeyEx(HKEY_LOCAL_MACHINE, KEY, 0, KEY_WRITE | KEY_READ, &key); if (ret != ERROR_SUCCESS){ err_out_sys(_T("Cannot open registry."), ret); return FALSE; } RegQueryValueEx(key, _T("PATH"), NULL, NULL, NULL, &data_size); data_size += _tcslen(path) + 3 ; /* ";" and quotes, "data_size" already includes '\0'. */ reg_str = (LPTSTR)malloc(data_size * sizeof(TCHAR)); ret = RegQueryValueEx(key, _T("PATH"), NULL, NULL, (LPBYTE)reg_str, &data_size); if (ret != ERROR_SUCCESS){ err_out_sys(_T("Cannot read \"PATH\" key."), ret); func_ret = FALSE; } else{ if (!find_reg_str(reg_str, path, NULL)){ _tcscat(reg_str, _T(";")); _tcscat(reg_str, path); size_t len = _tcslen(reg_str); if (len >= MAX_PATH_LEN) { err_out(LoadStr(PATH_ENV_TOO_LONG).c_str()); func_ret = FALSE; } else { ret = RegSetValueEx(key, _T("PATH"), 0, REG_EXPAND_SZ, (LPBYTE)reg_str, (_tcslen(reg_str) + 1) * sizeof(TCHAR)); if (ret != ERROR_SUCCESS){ err_out_sys(_T("Cannot write \"PATH\" key."), ret); func_ret = FALSE; } /* Is this needed to make the new key avaible? */ RegFlushKey(key); SetLastError(0); path_reg_propagate(); } } } RegCloseKey(key); free(reg_str); return func_ret; } //--------------------------------------------------------------------------- // Removes "path" from the registry. Return "TRUE" if the path has been // removed or it wasn't in the registry, "FALSE" otherwise. BOOL remove_path_reg(LPCTSTR path){ HKEY key; LONG ret; DWORD data_size; LPTSTR reg_str; LPTSTR reg_str2; BOOL func_ret = TRUE; LPTSTR next; LPTSTR del_part; int last_pos; ret = RegOpenKeyEx(HKEY_LOCAL_MACHINE, KEY, 0, KEY_WRITE | KEY_READ, &key); if (ret != ERROR_SUCCESS){ err_out_sys(_T("Cannot open registry."), ret); return FALSE; } RegQueryValueEx(key, _T("PATH"), NULL, NULL, NULL, &data_size); data_size += _tcslen(path) + 3; /* ";" and quotes,"data_size" already includes '\0'. */ reg_str = (LPTSTR)malloc(data_size * sizeof(TCHAR)); ret = RegQueryValueEx(key, _T("PATH"), NULL, NULL, (LPBYTE)reg_str, &data_size); if (ret != ERROR_SUCCESS){ err_out_sys(_T("Cannot read \"PATH\" key."), ret); func_ret = FALSE; } else{ if ((del_part = find_reg_str(reg_str, path, &next)) != NULL){ reg_str2 = (LPTSTR)malloc((_tcslen(reg_str) + 1) * sizeof(TCHAR)); *del_part = '\0'; _stprintf(reg_str2, _T("%s%s"), reg_str, next); last_pos = _tcslen(reg_str2) - 1; if (last_pos != -1 && reg_str2[last_pos] == ';') reg_str2[last_pos] = '\0'; ret = RegSetValueEx(key, _T("PATH"), 0, REG_EXPAND_SZ, (LPBYTE)reg_str2, (_tcslen(reg_str2) + 1) * sizeof(TCHAR)); if (ret != ERROR_SUCCESS){ err_out_sys(_T("Cannot write \"PATH\" key."), ret); func_ret = FALSE; } free(reg_str2); /* Is this needed to make the new key avaible? */ RegFlushKey(key); SetLastError(0); path_reg_propagate(); } } RegCloseKey(key); free(reg_str); return func_ret; } //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- void __fastcall AddSearchPath(const UnicodeString Path) { if (!add_path_reg(Path.c_str())) { throw ExtException(FMTLOAD(ADD_PATH_ERROR, (Path)), LastPathError); } } //--------------------------------------------------------------------------- void __fastcall RemoveSearchPath(const UnicodeString Path) { if (!remove_path_reg(Path.c_str())) { throw ExtException(FMTLOAD(REMOVE_PATH_ERROR, (Path)), LastPathError); } } //--------------------------------------------------------------------------- static const UnicodeString SoftwareClassesBaseKey = L"Software\\Classes\\"; //--------------------------------------------------------------------------- static void __fastcall DeleteKeyIfEmpty(TRegistry * Registry, const UnicodeString & Key, bool AllowRootValues) { if (Registry->OpenKey(Key, false)) { std::auto_ptr List(new TStringList()); Registry->GetValueNames(List.get()); bool CanDelete = true; for (int Index = 0; CanDelete && (Index < List->Count); Index++) { UnicodeString ValueName = List->Strings[Index]; if (!AllowRootValues) { CanDelete = false; } if ((ValueName != L"") && (ValueName != L"URL Protocol") && (ValueName != L"EditFlags") && (ValueName != L"BrowserFlags")) { CanDelete = false; } } List->Clear(); Registry->GetKeyNames(List.get()); Registry->CloseKey(); if (CanDelete) { for (int Index = 0; Index < List->Count; Index++) { DeleteKeyIfEmpty(Registry, IncludeTrailingBackslash(Key) + List->Strings[Index], false); } // will fail, if not all subkeys got removed Registry->DeleteKey(Key); } } } //--------------------------------------------------------------------------- static void __fastcall RegisterProtocol(TRegistry * Registry, const UnicodeString & Protocol, UnicodeString Description, bool Force) { if (Description.IsEmpty()) { Description = FMTLOAD(PROTOCOL_URL_DESC, (Protocol)); } UnicodeString ProtocolKey = SoftwareClassesBaseKey + Protocol; if (Force || !Registry->KeyExists(ProtocolKey)) { if (Registry->OpenKey(SoftwareClassesBaseKey + Protocol, true)) { Registry->WriteString(L"", Description); Registry->WriteString(L"URL Protocol", L""); Registry->WriteInteger(L"EditFlags", 0x02); Registry->WriteInteger(L"BrowserFlags", 0x08); if (Registry->OpenKey(L"DefaultIcon", true)) { Registry->WriteString(L"", FORMAT(L"\"%s\",0", (Application->ExeName))); Registry->CloseKey(); } else { Abort(); } } else { Abort(); } } } //--------------------------------------------------------------------------- static void __fastcall UnregisterProtocol(TRegistry * Registry, const UnicodeString & Protocol) { DeleteKeyIfEmpty(Registry, SoftwareClassesBaseKey + Protocol, true); } //--------------------------------------------------------------------------- static TRegistry * __fastcall CreateRegistry(HKEY RootKey) { std::auto_ptr Registry(new TRegistry()); Registry->Access = KEY_WRITE | KEY_READ; Registry->RootKey = RootKey; return Registry.release(); } //--------------------------------------------------------------------------- static void __fastcall RegisterAsUrlHandler(HKEY RootKey, const UnicodeString & Protocol, UnicodeString Description = "") { std::auto_ptr Registry(CreateRegistry(RootKey)); RegisterProtocol(Registry.get(), Protocol, Description, true); if (Registry->OpenKey(SoftwareClassesBaseKey + Protocol, false) && Registry->OpenKey(L"shell", true) && Registry->OpenKey(L"open", true) && Registry->OpenKey(L"command", true)) { Registry->WriteString(L"", FORMAT(L"\"%s\" /unsafe \"%%1\"", (Application->ExeName))); Registry->CloseKey(); } else { Abort(); } } //--------------------------------------------------------------------------- static void __fastcall RegisterAsUrlHandler(const UnicodeString & Protocol, UnicodeString Description = L"") { try { RegisterAsUrlHandler(HKEY_LOCAL_MACHINE, Protocol, Description); // get rid of any HKCU registraction that would overrite the HKLM one std::auto_ptr Registry(CreateRegistry(HKEY_CURRENT_USER)); if (Registry->KeyExists(SoftwareClassesBaseKey + Protocol)) { Registry->DeleteKey(SoftwareClassesBaseKey + Protocol); } } catch (Exception & E) { try { RegisterAsUrlHandler(HKEY_CURRENT_USER, Protocol, Description); } catch(Exception & E) { throw ExtException(&E, LoadStr(REGISTER_URL_ERROR2)); } } } //--------------------------------------------------------------------------- static void __fastcall UnregisterAsUrlHandler(HKEY RootKey, const UnicodeString & Protocol, bool UnregisterProtocol, bool ForceHandlerUnregistration) { std::auto_ptr Registry(CreateRegistry(RootKey)); UnicodeString DefaultIconKey = SoftwareClassesBaseKey + Protocol + L"\\DefaultIcon"; if (Registry->OpenKey(DefaultIconKey, false)) { UnicodeString Value = Registry->ReadString(L""); UnicodeString ExeBaseName = ExtractFileBaseName(Application->ExeName); if (ForceHandlerUnregistration || ContainsText(Value, ExeBaseName)) { Registry->DeleteValue(L""); } Registry->CloseKey(); DeleteKeyIfEmpty(Registry.get(), DefaultIconKey, false); } UnicodeString ShellKey = SoftwareClassesBaseKey + Protocol + L"\\shell"; if (Registry->OpenKey(ShellKey + L"\\open\\command", false)) { UnicodeString Value = Registry->ReadString(L""); UnicodeString ExeBaseName = ExtractFileBaseName(Application->ExeName); if (ForceHandlerUnregistration || ContainsText(Value, ExeBaseName)) { Registry->DeleteValue(L""); } Registry->CloseKey(); DeleteKeyIfEmpty(Registry.get(), ShellKey, false); } if (UnregisterProtocol) { ::UnregisterProtocol(Registry.get(), Protocol); } } //--------------------------------------------------------------------------- static void __fastcall UnregisterAsUrlHandler(const UnicodeString & Protocol, bool UnregisterProtocol) { UnregisterAsUrlHandler(HKEY_LOCAL_MACHINE, Protocol, UnregisterProtocol, false); UnregisterAsUrlHandler(HKEY_CURRENT_USER, Protocol, UnregisterProtocol, false); } //--------------------------------------------------------------------------- static void __fastcall RegisterAsNonBrowserUrlHandler(const UnicodeString & Prefix) { RegisterAsUrlHandler(Prefix + SftpProtocol.UpperCase()); RegisterAsUrlHandler(Prefix + ScpProtocol.UpperCase()); } //--------------------------------------------------------------------------- static void __fastcall UnregisterAsUrlHandlers(const UnicodeString & Prefix, bool UnregisterProtocol) { UnregisterAsUrlHandler(Prefix + SftpProtocol, UnregisterProtocol); UnregisterAsUrlHandler(Prefix + ScpProtocol, UnregisterProtocol); // add WebDAV } //--------------------------------------------------------------------------- static const UnicodeString GenericUrlHandler(L"WinSCP.Url"); //--------------------------------------------------------------------------- static void __fastcall RegisterProtocolForDefaultPrograms(HKEY RootKey, const UnicodeString & Protocol) { // Register protocol, if it does not exist yet. // Prior to Windows 8, we need to register ourselves as legacy handler to // become the default handler. On Windows 8, it's automatic as long as no other // application is registered for the protocol (i.e. RegisterProtocol would be enough) RegisterAsUrlHandler(RootKey, Protocol); // see http://msdn.microsoft.com/en-us/library/windows/desktop/cc144154.aspx#registration std::auto_ptr Registry(CreateRegistry(RootKey)); // create capabilities record // this has to be a separate branch from WinSCP one, as by its presence we // enforce registry storage usage, and the capabilities branch may exist // even if we are using INI file UnicodeString CapabilitiesKey = IncludeTrailingBackslash(GetCompanyRegistryKey()) + L"WinSCPCapabilities"; if (!Registry->OpenKey(CapabilitiesKey, true)) { Abort(); } UnicodeString Description = LoadStr(REGISTERED_APP_DESC); Registry->WriteString(L"ApplicationDescription", Description); if (!Registry->OpenKey(L"UrlAssociations", true)) { Abort(); } Registry->WriteString(Protocol, GenericUrlHandler); Registry->CloseKey(); // register application if (!Registry->OpenKey(L"Software\\RegisteredApplications", true)) { Abort(); } Registry->WriteString(AppNameString(), CapabilitiesKey); Registry->CloseKey(); } //--------------------------------------------------------------------------- static void __fastcall UnregisterProtocolForDefaultPrograms(HKEY RootKey, const UnicodeString & Protocol, bool ForceHandlerUnregistration) { std::auto_ptr Registry(CreateRegistry(RootKey)); // unregister the protocol UnregisterAsUrlHandler(RootKey, Protocol, false, ForceHandlerUnregistration); // remove capabilities record UnicodeString CapabilitiesKey = IncludeTrailingBackslash(GetCompanyRegistryKey()) + L"WinSCPCapabilities"; UnicodeString UrlAssociationsKey = CapabilitiesKey + L"\\UrlAssociations"; if (Registry->OpenKey(UrlAssociationsKey, false)) { Registry->DeleteValue(Protocol); Registry->CloseKey(); DeleteKeyIfEmpty(Registry.get(), UrlAssociationsKey, false); } if (Registry->OpenKey(CapabilitiesKey, false)) { if (!Registry->HasSubKeys()) { Registry->DeleteValue(L"ApplicationDescription"); } Registry->CloseKey(); DeleteKeyIfEmpty(Registry.get(), CapabilitiesKey, false); } if (!Registry->KeyExists(CapabilitiesKey)) { // unregister application if (Registry->OpenKey(L"Software\\RegisteredApplications", false)) { Registry->DeleteValue(AppNameString()); Registry->CloseKey(); } } } //--------------------------------------------------------------------------- static void __fastcall RegisterProtocolsForDefaultPrograms(HKEY RootKey) { // register URL handler, if it does not exist yet RegisterAsUrlHandler(RootKey, GenericUrlHandler, L"WinSCP URL"); RegisterProtocolForDefaultPrograms(RootKey, FtpProtocol); RegisterProtocolForDefaultPrograms(RootKey, FtpsProtocol); RegisterProtocolForDefaultPrograms(RootKey, SftpProtocol); RegisterProtocolForDefaultPrograms(RootKey, ScpProtocol); } //--------------------------------------------------------------------------- static void __fastcall UnregisterProtocolsForDefaultPrograms(HKEY RootKey, bool ForceHandlerUnregistration) { UnregisterProtocolForDefaultPrograms(RootKey, FtpProtocol, ForceHandlerUnregistration); UnregisterProtocolForDefaultPrograms(RootKey, FtpsProtocol, ForceHandlerUnregistration); UnregisterProtocolForDefaultPrograms(RootKey, SftpProtocol, ForceHandlerUnregistration); UnregisterProtocolForDefaultPrograms(RootKey, ScpProtocol, ForceHandlerUnregistration); // we should not really need the "force" flag here, but why not UnregisterAsUrlHandler(RootKey, GenericUrlHandler, true, true); } //--------------------------------------------------------------------------- static void __fastcall RegisterForDefaultPrograms() { try { RegisterProtocolsForDefaultPrograms(HKEY_LOCAL_MACHINE); // make sure we unregister any legacy protocol handler for CU, // this is needed for Windows Vista+7 UnregisterProtocolsForDefaultPrograms(HKEY_CURRENT_USER, true); } catch (Exception & E) { try { RegisterProtocolsForDefaultPrograms(HKEY_CURRENT_USER); } catch (Exception & E) { throw ExtException(&E, LoadStr(REGISTER_URL_ERROR2)); } } } //--------------------------------------------------------------------------- static void __fastcall NotifyChangedAssociations() { SHChangeNotify(SHCNE_ASSOCCHANGED, 0, 0, 0); } //--------------------------------------------------------------------------- void __fastcall RegisterForDefaultProtocols() { if (IsWinVista()) { RegisterForDefaultPrograms(); } else { RegisterAsNonBrowserUrlHandler(UnicodeString()); } RegisterAsNonBrowserUrlHandler(WinSCPProtocolPrefix); RegisterAsUrlHandler(WinSCPProtocolPrefix + FtpProtocol.UpperCase()); RegisterAsUrlHandler(WinSCPProtocolPrefix + FtpsProtocol.UpperCase()); // add WebDAV NotifyChangedAssociations(); } //--------------------------------------------------------------------------- void __fastcall UnregisterForProtocols() { UnregisterAsUrlHandlers(UnicodeString(), false); UnregisterAsUrlHandlers(WinSCPProtocolPrefix, true); UnregisterAsUrlHandler(WinSCPProtocolPrefix + FtpProtocol.UpperCase(), true); UnregisterAsUrlHandler(WinSCPProtocolPrefix + FtpsProtocol.UpperCase(), true); UnregisterProtocolsForDefaultPrograms(HKEY_CURRENT_USER, false); UnregisterProtocolsForDefaultPrograms(HKEY_LOCAL_MACHINE, false); NotifyChangedAssociations(); } //--------------------------------------------------------------------------- void __fastcall LaunchAdvancedAssociationUI() { assert(IsWinVista()); RegisterForDefaultPrograms(); NotifyChangedAssociations(); // sleep recommended by http://msdn.microsoft.com/en-us/library/windows/desktop/cc144154.aspx#browser Sleep(1000); IApplicationAssociationRegistrationUI * AppAssocRegUI; HRESULT Result = CoCreateInstance(CLSID_ApplicationAssociationRegistrationUI, NULL, CLSCTX_INPROC, __uuidof(IApplicationAssociationRegistrationUI), (void**)&AppAssocRegUI); if (SUCCEEDED(Result)) { AppAssocRegUI->LaunchAdvancedAssociationUI(AppNameString().c_str()); AppAssocRegUI->Release(); } } //--------------------------------------------------------------------------- void __fastcall TemporaryDirectoryCleanup() { bool Continue = true; TStrings * Folders = NULL; try { if (WinConfiguration->ConfirmTemporaryDirectoryCleanup) { Folders = WinConfiguration->FindTemporaryFolders(); Continue = (Folders != NULL); if (Continue) { Configuration->Usage->Inc(L"TemporaryDirectoryCleanupConfirmations"); TQueryButtonAlias Aliases[1]; Aliases[0].Button = qaRetry; Aliases[0].Alias = LoadStr(OPEN_BUTTON); TMessageParams Params(mpNeverAskAgainCheck); Params.Aliases = Aliases; Params.AliasesCount = LENOF(Aliases); unsigned int Answer = MoreMessageDialog( FMTLOAD(CLEANTEMP_CONFIRM2, (Folders->Count)), Folders, qtConfirmation, qaYes | qaNo | qaRetry, HELP_CLEAN_TEMP_CONFIRM, &Params); if (Answer == qaNeverAskAgain) { WinConfiguration->ConfirmTemporaryDirectoryCleanup = false; Answer = qaYes; } else if (Answer == qaRetry) { for (int Index = 0; Index < Folders->Count; Index++) { ShellExecute(Application->Handle, NULL, Folders->Strings[Index].c_str(), NULL, NULL, SW_SHOWNORMAL); } } Continue = (Answer == qaYes); } } if (Continue) { try { WinConfiguration->CleanupTemporaryFolders(Folders); } catch (Exception &E) { ShowExtendedException(&E); } } } __finally { delete Folders; } } //-------------------------------------------- ------------------------------- UnicodeString __fastcall VersionStrFromCompoundVersion(int Version) { int MajorVer = Version / (10000*100*100); int MinorVer = (Version % (10000*100*100)) / (10000*100); int Release = (Version % (10000*100)) / (10000); UnicodeString Result; if (Release > 0) { Result = FORMAT(L"%d.%d.%d", (MajorVer, MinorVer, Release)); } else { Result = FORMAT(L"%d.%d", (MajorVer, MinorVer)); } return Result; } //--------------------------------------------------------------------------- UnicodeString __fastcall CampaignUrl(UnicodeString AURL) { // see also TWebHelpSystem::ShowHelp const wchar_t FragmentSeparator = L'#'; UnicodeString URL = ::CutToChar(AURL, FragmentSeparator, false); if (URL.Pos(L"?") == 0) { URL += L"?"; } else { URL += L"&"; } int CurrentCompoundVer = Configuration->CompoundVersion; AnsiString Version = VersionStrFromCompoundVersion(CurrentCompoundVer); URL += FORMAT(L"utm_source=winscp&utm_medium=app&utm_campaign=%s", (Version)); AddToList(URL, AURL, FragmentSeparator); return URL; } //--------------------------------------------------------------------------- UnicodeString __fastcall GetUsageData() { return Configuration->Usage->Serialize(); } //--------------------------------------------------------------------------- void __fastcall QueryUpdates() { bool Complete = false; try { UnicodeString Response; TVSFixedFileInfo * FileInfo = Configuration->FixedApplicationInfo; int CurrentCompoundVer = Configuration->CompoundVersion; UnicodeString CurrentVersionStr = FORMAT(L"%d.%d.%d.%d", (HIWORD(FileInfo->dwFileVersionMS), LOWORD(FileInfo->dwFileVersionMS), HIWORD(FileInfo->dwFileVersionLS), LOWORD(FileInfo->dwFileVersionLS))); TUpdatesConfiguration Updates = WinConfiguration->Updates; THttp * CheckForUpdatesHTTP = new THttp(Application); try { UnicodeString URL = LoadStr(UPDATES_URL) + FORMAT(L"?v=%s&lang=%s", (CurrentVersionStr, IntToHex(__int64(GUIConfiguration->Locale), 4))); bool Beta; if (WinConfiguration->IsBeta) { Beta = true; } else { switch (Updates.BetaVersions) { case asAuto: Beta = WinConfiguration->AnyBetaInVersionHistory; break; case asOn: Beta = true; break; default: Beta = false; break; } } if (Beta) { URL += L"&beta=1"; } URL += L"&dotnet=" + Updates.DotNetVersion; URL += L"&console=" + Updates.ConsoleVersion; UnicodeString Proxy; switch (Updates.ConnectionType) { case ctAuto: AutodetectProxyUrl(Proxy); break; case ctProxy: Proxy = FORMAT(L"%s:%d", (Updates.ProxyHost, Updates.ProxyPort)); break; } CheckForUpdatesHTTP->Proxy = Proxy; CheckForUpdatesHTTP->URL = URL; if (Configuration->CollectUsage) { UTF8String UtfUsage = UTF8String(GetUsageData()); CheckForUpdatesHTTP->Stream->Write(UtfUsage.c_str(), UtfUsage.Length()); CheckForUpdatesHTTP->Post(); } else { CheckForUpdatesHTTP->Action(); } // sanity check if (CheckForUpdatesHTTP->Stream->Size > 102400) { Abort(); } UTF8String UtfResponse; UtfResponse.SetLength(static_cast(CheckForUpdatesHTTP->Stream->Size)); CheckForUpdatesHTTP->Stream->Read(UtfResponse.c_str(), UtfResponse.Length()); Response = UnicodeString(UtfResponse); } __finally { delete CheckForUpdatesHTTP; } bool Changed = !Updates.HaveResults; Updates.LastCheck = Now(); Updates.HaveResults = true; TUpdatesData PrevResults = Updates.Results; Updates.Results.Reset(); Updates.Results.ForVersion = CurrentCompoundVer; while (!Response.IsEmpty()) { UnicodeString Line = ::CutToChar(Response, L'\n', false); UnicodeString Name = ::CutToChar(Line, L'=', false); if (AnsiSameText(Name, "Version")) { int MajorVer = StrToInt(::CutToChar(Line, L'.', false)); int MinorVer = StrToInt(::CutToChar(Line, L'.', false)); int Release = StrToInt(::CutToChar(Line, L'.', false)); int Build = StrToInt(::CutToChar(Line, L'.', false)); int NewVersion = CalculateCompoundVersion(MajorVer, MinorVer, Release, Build); Changed |= (NewVersion != PrevResults.Version); if (NewVersion <= CurrentCompoundVer) { NewVersion = 0; } Updates.Results.Version = NewVersion; Complete = true; } else if (AnsiSameText(Name, L"Message")) { Changed |= (PrevResults.Message != Line); Updates.Results.Message = Line; } else if (AnsiSameText(Name, L"Critical")) { bool NewCritical = (StrToIntDef(Line, 0) != 0); Changed |= (PrevResults.Critical != NewCritical); Updates.Results.Critical = NewCritical; } else if (AnsiSameText(Name, L"Release")) { Changed |= (PrevResults.Release != Line); Updates.Results.Release = Line; } else if (AnsiSameText(Name, L"Disabled")) { bool NewDisabled = (StrToIntDef(Line, 0) != 0); Changed |= (PrevResults.Disabled != NewDisabled); Updates.Results.Disabled = NewDisabled; Complete = true; } else if (AnsiSameText(Name, L"Url")) { Changed |= (PrevResults.Url != Line); Updates.Results.Url = Line; } else if (AnsiSameText(Name, L"UrlButton")) { Changed |= (PrevResults.UrlButton != Line); Updates.Results.UrlButton = Line; } } if (Changed) { Updates.ShownResults = false; } WinConfiguration->Updates = Updates; if (!Complete) { EXCEPTION; } Configuration->Usage->Reset(); Configuration->Usage->Inc(L"UpdateChecksSucceeded"); } catch(Exception & E) { Configuration->Usage->Inc(L"UpdateChecksFailed"); throw ExtException(&E, MainInstructions(LoadStr(CHECK_FOR_UPDATES_ERROR))); } } //--------------------------------------------------------------------------- void __fastcall GetUpdatesMessage(UnicodeString & Message, bool & New, TQueryType & Type, bool Force) { TUpdatesConfiguration Updates = WinConfiguration->Updates; assert(Updates.HaveResults); if (Updates.HaveResults) { if (Updates.Results.Disabled) { New = false; if (Force) { Message = LoadStr(UPDATE_DISABLED); } } else { New = (Updates.Results.Version > 0); if (New) { UnicodeString Version = VersionStrFromCompoundVersion(Updates.Results.Version); if (!Updates.Results.Release.IsEmpty()) { Version = FORMAT(L"%s %s", (Version, Updates.Results.Release)); } Message = FMTLOAD(NEW_VERSION4, (Version)); } else { Message = LoadStr(NO_NEW_VERSION); } } if (!Message.IsEmpty()) { Message = MainInstructions(Message); } if (!Updates.Results.Message.IsEmpty()) { Message += FMTLOAD(UPDATE_MESSAGE, (ReplaceStr(Updates.Results.Message, L"|", L"\n"))); } Type = (Updates.Results.Critical ? qtWarning : qtInformation); } else { New = false; } } //--------------------------------------------------------------------------- static void __fastcall OpenHistory(void * /*Data*/, TObject * /*Sender*/) { Configuration->Usage->Inc(L"UpdateHistoryOpens"); OpenBrowser(LoadStr(HISTORY_URL)); } //--------------------------------------------------------------------------- void __fastcall CheckForUpdates(bool CachedResults) { TCustomForm * ActiveForm = Screen->ActiveCustomForm; TOperationVisualizer Visualizer; try { if (ActiveForm) { assert(ActiveForm->Enabled); ActiveForm->Enabled = false; } bool Again = false; do { TUpdatesConfiguration Updates = WinConfiguration->Updates; bool Cached = !Again && Updates.HaveResults && (double(Updates.Period) > 0) && (Updates.Results.ForVersion == Configuration->CompoundVersion) && CachedResults; if (!Cached) { QueryUpdates(); // reread new data Updates = WinConfiguration->Updates; } Again = false; if (!Updates.ShownResults) { Updates.ShownResults = true; WinConfiguration->Updates = Updates; } assert(Updates.HaveResults); UnicodeString Message; bool New; TQueryType Type; GetUpdatesMessage(Message, New, Type, true); Configuration->Usage->Inc(L"UpdateDisplays"); if (New) { Configuration->Usage->Inc(L"UpdateDisplaysNew"); } if (Updates.HaveResults) { bool ShowLast = Cached; bool ShowNext = (double(Updates.Period) > 0); if (ShowLast || ShowNext) { Message += L"\n"; if (ShowLast) { Message += L"\n" + FMTLOAD(UPDATE_LAST, (FormatDateTime("ddddd", Updates.LastCheck))); } if (ShowNext) { Message += L"\n" + FMTLOAD(UPDATE_NEXT, (FormatDateTime("ddddd", Updates.LastCheck + Updates.Period))); } } } // add FLAGMASK(Cached, qaRetry) to enable "check again" button // for cached results int Answers = qaOK | FLAGMASK(New, qaCancel | qaAll) | FLAGMASK(!Updates.Results.Url.IsEmpty(), qaYes); TQueryButtonAlias Aliases[4]; Aliases[0].Button = qaRetry; Aliases[0].Alias = LoadStr(CHECK_AGAIN_BUTTON); Aliases[1].Button = qaYes; if (Updates.Results.UrlButton.IsEmpty()) { Aliases[1].Alias = LoadStr(UPDATE_URL_BUTTON); } else { Aliases[1].Alias = Updates.Results.UrlButton; } Aliases[2].Button = qaAll; Aliases[2].Alias = LoadStr(WHATS_NEW_BUTTON); Aliases[2].OnClick = MakeMethod(NULL, OpenHistory); Aliases[3].Button = qaOK; Aliases[3].Alias = LoadStr(DOWNLOAD_BUTTON); TMessageParams Params; Params.Aliases = Aliases; // alias "ok" button to "download" only if we have new version Params.AliasesCount = (New ? 4 : 3); unsigned int Answer = MessageDialog(Message, Type, Answers, HELP_UPDATES, &Params); switch (Answer) { case qaOK: if (New) { Configuration->Usage->Inc(L"UpdateDownloadOpens"); OpenBrowser(LoadStr(UPGRADE_URL)); } break; case qaYes: OpenBrowser(Updates.Results.Url); break; case qaAll: FAIL; break; case qaRetry: Again = true; break; } } while (Again); } __finally { if (ActiveForm) { ActiveForm->Enabled = true; } } } //--------------------------------------------------------------------------- class TUpdateThread : public TCompThread { public: __fastcall TUpdateThread(TThreadMethod OnUpdatesChecked); protected: virtual void __fastcall Execute(); TThreadMethod FOnUpdatesChecked; }; //--------------------------------------------------------------------------- TUpdateThread * UpdateThread = NULL; //--------------------------------------------------------------------------- __fastcall TUpdateThread::TUpdateThread(TThreadMethod OnUpdatesChecked) : TCompThread(false), FOnUpdatesChecked(OnUpdatesChecked) { } //--------------------------------------------------------------------------- void __fastcall TUpdateThread::Execute() { try { QueryUpdates(); if (FOnUpdatesChecked != NULL) { Synchronize(FOnUpdatesChecked); } } catch(...) { // ignore errors } } //--------------------------------------------------------------------------- void __fastcall StartUpdateThread(TThreadMethod OnUpdatesChecked) { assert(UpdateThread == NULL); UpdateThread = new TUpdateThread(OnUpdatesChecked); } //--------------------------------------------------------------------------- void __fastcall StopUpdateThread() { if (UpdateThread != NULL) { SAFE_DESTROY(UpdateThread); } } //--------------------------------------------------------------------------- void __fastcall SetupInitialize() { WinConfiguration->UpdateJumpList(); } //--------------------------------------------------------------------------- static bool __fastcall AddJumpListCategory(TStrings * Names, UnicodeString AdditionalParams, TStringList * Removed, ICustomDestinationList * DestinationList, UnicodeString CategoryName, int IconIndex) { bool Result = false; IObjectCollection * Collection = NULL; if (SUCCEEDED(CoCreateInstance(CLSID_EnumerableObjectCollection, NULL, CLSCTX_INPROC_SERVER, IID_IObjectCollection, (void**)&Collection))) { try { AddToList(AdditionalParams, TProgramParams::FormatSwitch(JUMPLIST_SWITCH), L" "); int Count = 0; for (int Index = 0; Index < Names->Count; Index++) { IShellLink * Link = CreateDesktopSessionShortCut( Names->Strings[Index], L"", AdditionalParams, -1, IconIndex, true); wchar_t Desc[2048]; if (SUCCEEDED(Link->GetDescription(Desc, sizeof(Desc) - 1))) { if (Removed->IndexOf(Desc) < 0) { try { CHECK(SUCCEEDED(Collection->AddObject(Link))); Count++; } __finally { Link->Release(); } } else { Names->Delete(Index); Index--; } } } if (Count > 0) { IObjectArray * Array; if (SUCCEEDED(Collection->QueryInterface(IID_IObjectArray, (void**)&Array))) { try { Result = SUCCEEDED( DestinationList->AppendCategory(CategoryName.c_str(), Array)); } __finally { Array->Release(); } } } } __finally { Collection->Release(); } } return Result; } //--------------------------------------------------------------------------- void __fastcall UpdateJumpList(TStrings * SessionNames, TStrings * WorkspaceNames) { ICustomDestinationList * DestinationList = NULL; IObjectArray * RemovedArray = NULL; TStringList * Removed = NULL; int OldErrMode = SetErrorMode(SEM_FAILCRITICALERRORS); try { if (SUCCEEDED(CoCreateInstance(CLSID_DestinationList, NULL, CLSCTX_INPROC_SERVER, IID_ICustomDestinationList, (void**)&DestinationList))) { unsigned int MinSlots; unsigned int * PMinSlots = &MinSlots; void ** PRemovedArray = (void**)&RemovedArray; HRESULT Result = DestinationList->BeginList(PMinSlots, IID_IObjectArray, PRemovedArray); if (SUCCEEDED(Result) && ALWAYS_TRUE(RemovedArray != NULL)) { Removed = new TStringList(); unsigned int RemovedCount; if (FAILED(RemovedArray->GetCount(&RemovedCount))) { RemovedCount = 0; } for (unsigned int Index = 0; Index < RemovedCount; Index++) { IShellLink * Link; wchar_t Desc[2048]; if (SUCCEEDED(RemovedArray->GetAt(Index, IID_IShellLink, (void**)&Link)) && SUCCEEDED(Link->GetDescription(Desc, sizeof(Desc) - 1))) { Removed->Add(Desc); } } AddJumpListCategory( WorkspaceNames, L"", Removed, DestinationList, LoadStr(JUMPLIST_WORKSPACES), WORKSPACE_ICON); AddJumpListCategory( SessionNames, TProgramParams::FormatSwitch(UPLOAD_IF_ANY_SWITCH), Removed, DestinationList, LoadStr(JUMPLIST_RECENT), SITE_ICON); if (DestinationList != NULL) { DestinationList->CommitList(); } } } } __finally { SetErrorMode(OldErrMode); if (RemovedArray != NULL) { RemovedArray->Release(); } if (DestinationList != NULL) { DestinationList->Release(); } delete Removed; } } //--------------------------------------------------------------------------- bool __fastcall AnyOtherInstanceOfSelf() { HANDLE Snapshot = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, NULL); bool Result = false; try { unsigned int Process = GetCurrentProcessId(); UnicodeString ExeBaseName = ExtractFileBaseName(Application->ExeName); PROCESSENTRY32 ProcessEntry; ProcessEntry.dwSize = sizeof(PROCESSENTRY32); if (Process32First(Snapshot, &ProcessEntry)) { while (!Result && Process32Next(Snapshot, &ProcessEntry)) { // we should check if the process is running in the same session, // but for that we probably need some special priviledges if ((Process != ProcessEntry.th32ProcessID) && SameText(ExtractFileBaseName(ProcessEntry.szExeFile), ExeBaseName)) { Result = true; } } } } __finally { CloseHandle(Snapshot); } return Result; }