/* Copyright (C) 2002 Kimmo Pekkola + few lsapi developers This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "StdAfx.h" #include "Litestep.h" #include "Rainmeter.h" #include "DialogAbout.h" #include "System.h" extern CRainmeter* Rainmeter; typedef BOOL (*FPADDBANGCOMMAND)(LPCSTR command, BangCommand f); FPADDBANGCOMMAND fpAddBangCommand = NULL; typedef HRGN (*FPBITMAPTOREGION)(HBITMAP hBmp, COLORREF cTransparentColor, COLORREF cTolerance, int xoffset, int yoffset); FPBITMAPTOREGION fpBitmapToRegion = NULL; typedef HWND (*FPGETLITESTEPWND)(void); FPGETLITESTEPWND fpGetLitestepWnd = NULL; typedef BOOL (*FPGETRCSTRING)(LPCSTR lpKeyName, LPSTR value, LPCSTR defStr, int maxLen); FPGETRCSTRING fpGetRCString = NULL; //typedef int (*FPGETRCINT)(LPCSTR lpKeyName, int nDefault); //FPGETRCINT fpGetRCInt = NULL; typedef HINSTANCE (*FPLSEXECUTE)(HWND Owner, LPCSTR szCommand, int nShowCmd); FPLSEXECUTE fpLSExecute = NULL; typedef BOOL (*FPREMOVEBANGCOMMAND)(LPCSTR command); FPREMOVEBANGCOMMAND fpRemoveBangCommand = NULL; //typedef void (*FPTRANSPARENTBLTLS)(HDC dc, int nXDest, int nYDest, int nWidth, int nHeight, HDC tempDC, int nXSrc, int nYSrc, COLORREF colorTransparent); //FPTRANSPARENTBLTLS fpTransparentBltLS = NULL; typedef void (*FPVAREXPANSION)(LPSTR buffer, LPCSTR value); FPVAREXPANSION fpVarExpansion = NULL; typedef BOOL (WINAPI *FPLSLOG)(int nLevel, LPCSTR pszModule, LPCSTR pszMessage); FPLSLOG fpLSLog = NULL; static CRITICAL_SECTION g_CsLog = {0}; static CRITICAL_SECTION g_CsLogDelay = {0}; static int logFound = 0; void ResetLoggingFlag() { logFound = 0; } void InitalizeLitestep() { InitializeCriticalSection(&g_CsLog); InitializeCriticalSection(&g_CsLogDelay); if (!CRainmeter::GetDummyLitestep()) { // Use lsapi's methods instead of the stubs HINSTANCE h = CSystem::RmLoadLibrary(L"lsapi.dll"); if (h != NULL) { fpAddBangCommand = (FPADDBANGCOMMAND)GetProcAddress(h, "AddBangCommand"); fpBitmapToRegion = (FPBITMAPTOREGION)GetProcAddress(h, "BitmapToRegion"); fpGetLitestepWnd = (FPGETLITESTEPWND)GetProcAddress(h, "GetLitestepWnd"); fpGetRCString = (FPGETRCSTRING)GetProcAddress(h, "GetRCString"); //fpGetRCInt = (FPGETRCINT)GetProcAddress(h, "GetRCInt"); fpLSExecute = (FPLSEXECUTE)GetProcAddress(h, "LSExecute"); fpRemoveBangCommand = (FPREMOVEBANGCOMMAND)GetProcAddress(h, "RemoveBangCommand"); //fpTransparentBltLS = (FPTRANSPARENTBLTLS)GetProcAddress(h, "TransparentBltLS"); fpVarExpansion = (FPVAREXPANSION)GetProcAddress(h, "VarExpansion"); fpLSLog = (FPLSLOG)GetProcAddress(h, "_LSLog@12"); } } } void FinalizeLitestep() { DeleteCriticalSection(&g_CsLog); DeleteCriticalSection(&g_CsLogDelay); } BOOL AddBangCommand(LPCSTR command, BangCommand f) { // Use the lsapi.dll version of the method if possible if (fpAddBangCommand) return fpAddBangCommand(command, f); // The stub implementation return true; } HWND GetLitestepWnd(void) { // Use the lsapi.dll version of the method if possible if (fpGetLitestepWnd) return fpGetLitestepWnd(); // The stub implementation return NULL; } BOOL RemoveBangCommand(LPCSTR command) { // Use the lsapi.dll version of the method if possible if (fpRemoveBangCommand) return fpRemoveBangCommand(command); // The stub implementation return true; } BOOL GetRCString(LPCSTR lpKeyName, LPSTR value, LPCSTR defStr, int maxLen) { // Use the lsapi.dll version of the method if possible if (fpGetRCString) return fpGetRCString(lpKeyName, value, defStr, maxLen); // The stub implementation return false; } //int GetRCInt(LPCSTR lpKeyName, int nDefault) //{ // // Use the lsapi.dll version of the method if possible // if (fpGetRCInt) return fpGetRCInt(lpKeyName, nDefault); // // // The stub implementation // return nDefault; //} void VarExpansion(LPSTR buffer, LPCSTR value) { // Use the lsapi.dll version of the method if possible if (fpVarExpansion) { fpVarExpansion(buffer, value); } else { // The stub implementation if (buffer != value) { strcpy(buffer, value); } } } HRGN BitmapToRegion(HBITMAP hbm, COLORREF clrTransp, COLORREF clrTolerance, int xoffset, int yoffset) { // Use the lsapi.dll version of the method if possible if (fpBitmapToRegion) return fpBitmapToRegion(hbm, clrTransp, clrTolerance, xoffset, yoffset); // start with a completely transparent rgn // this is more correct as no bmp, should render a transparent background HRGN hRgn = CreateRectRgn(0, 0, 0, 0); if (hbm) { // create a dc for the 32 bit dib HDC hdcMem = CreateCompatibleDC(NULL); if (hdcMem) { VOID *pbits32; HBITMAP hbm32; BITMAP bm; // get the size GetObject(hbm, sizeof(BITMAP), &bm); BITMAPINFOHEADER bmpInfo32; bmpInfo32.biSize = sizeof(BITMAPINFOHEADER); bmpInfo32.biWidth = bm.bmWidth; bmpInfo32.biHeight = bm.bmHeight; bmpInfo32.biPlanes = 1; bmpInfo32.biBitCount = 32; bmpInfo32.biCompression = BI_RGB; bmpInfo32.biSizeImage = 0; bmpInfo32.biXPelsPerMeter = 0; bmpInfo32.biYPelsPerMeter = 0; bmpInfo32.biClrUsed = 0; bmpInfo32.biClrImportant = 0; hbm32 = CreateDIBSection(hdcMem, (BITMAPINFO *) & bmpInfo32, DIB_RGB_COLORS, &pbits32, NULL, 0); if (hbm32) { HBITMAP hbmOld32 = (HBITMAP)SelectObject(hdcMem, hbm32); // Create a DC just to copy the bitmap into the memory D HDC hdcTmp = CreateCompatibleDC(hdcMem); if (hdcTmp) { // Get how many bytes per row we have for the bitmap bits (rounded up to 32 bits int y = 0; BITMAP bm32; GetObject(hbm32, sizeof(bm32), &bm32); while (bm32.bmWidthBytes % 4) bm32.bmWidthBytes++; // get the limits for the colors BYTE clrHiR = ( 0xff - GetRValue( clrTolerance ) > GetRValue( clrTransp ) ) ? GetRValue( clrTransp ) + GetRValue( clrTolerance ) : 0xff; BYTE clrHiG = ( 0xff - GetGValue( clrTolerance ) > GetGValue( clrTransp ) ) ? GetGValue( clrTransp ) + GetGValue( clrTolerance ) : 0xff; BYTE clrHiB = ( 0xff - GetBValue( clrTolerance ) > GetBValue( clrTransp ) ) ? GetBValue( clrTransp ) + GetBValue( clrTolerance ) : 0xff; BYTE clrLoR = ( GetRValue( clrTolerance ) < GetRValue( clrTransp ) ) ? GetRValue( clrTransp ) - GetRValue( clrTolerance ) : 0x00; BYTE clrLoG = ( GetGValue( clrTolerance ) < GetGValue( clrTransp ) ) ? GetGValue( clrTransp ) - GetGValue( clrTolerance ) : 0x00; BYTE clrLoB = ( GetBValue( clrTolerance ) < GetBValue( clrTransp ) ) ? GetBValue( clrTransp ) - GetBValue( clrTolerance ) : 0x00; // Copy the bitmap into the memory D HBITMAP hbmOld = (HBITMAP)SelectObject(hdcTmp, hbm); BitBlt(hdcMem, 0, 0, bm.bmWidth, bm.bmHeight, hdcTmp, 0, 0, SRCCOPY); // Scan each bitmap row from bottom to top (the bitmap is inverted vertically BYTE *p; BYTE *p32 = (BYTE *)bm32.bmBits + (bm32.bmHeight - 1) * bm32.bmWidthBytes; while (y < bm.bmHeight) { int x = 0; while ( x < bm.bmWidth ) { int x0 = 0; // loop through all transparent pixels... while ( x < bm.bmWidth ) { p = p32 + 4 * x; // if the pixel is non-transparent if (*p < clrLoB || *p > clrHiB) break; p++; if (*p < clrLoG || *p > clrHiG) break; p++; if (*p < clrLoR || *p > clrHiR) break; x++; } // set first non transparent pixel x0 = x; // loop through all non transparent pixels while ( x < bm.bmWidth ) { p = p32 + 4 * x; // if the pixel is transparent, then break if (*p >= clrLoB && *p <= clrHiB) { p++; if (*p >= clrLoG && *p <= clrHiG) { p++; if (*p >= clrLoR && *p <= clrHiR) break; } } x++; } // if found one or more non-transparent pixels in a row, add them to the rgn... if (x != x0) { HRGN hTempRgn = CreateRectRgn(x0 + xoffset, y + yoffset, x + xoffset, y + 1 + yoffset); CombineRgn(hRgn, hRgn, hTempRgn, RGN_OR); DeleteObject(hTempRgn); } x++; } y++; p32 -= bm32.bmWidthBytes; } // Clean up SelectObject(hdcTmp, hbmOld); DeleteDC(hdcTmp); } SelectObject(hdcMem, hbmOld32); DeleteObject(hbm32); } DeleteDC(hdcMem); } } return hRgn; } HINSTANCE LSExecuteAsAdmin(HWND Owner, LPCTSTR szCommand, int nShowCmd) { BOOL IsInAdminGroup = FALSE; SID_IDENTIFIER_AUTHORITY NtAuthority = SECURITY_NT_AUTHORITY; PSID AdministratorsGroup; // Initialize SID. if (!AllocateAndInitializeSid( &NtAuthority, 2, SECURITY_BUILTIN_DOMAIN_RID, DOMAIN_ALIAS_RID_ADMINS, 0, 0, 0, 0, 0, 0, &AdministratorsGroup)) { // Initializing SID Failed. IsInAdminGroup = FALSE; } else { // Check whether the token is present in admin group. if (!CheckTokenMembership( NULL, AdministratorsGroup, &IsInAdminGroup )) { // Error occurred. IsInAdminGroup = FALSE; } // Free SID and return. FreeSid(AdministratorsGroup); } if (IsInAdminGroup) { return ExecuteCommand(Owner, szCommand, nShowCmd, L"open"); } else { return ExecuteCommand(Owner, szCommand, nShowCmd, L"runas"); } } HINSTANCE LSExecute(HWND Owner, LPCTSTR szCommand, int nShowCmd) { // Use the lsapi.dll version of the method if possible if (fpLSExecute) { std::string asc = ConvertToAscii(szCommand); return fpLSExecute(Owner, asc.c_str(), nShowCmd); } return ExecuteCommand(Owner, szCommand, nShowCmd, L"open"); } HINSTANCE ExecuteCommand(HWND Owner, LPCTSTR szCommand, int nShowCmd, LPCTSTR szVerb) { // The stub implementation (some of this code is taken from lsapi.cpp) if (szCommand == NULL || *szCommand == 0) return NULL; std::wstring args; std::wstring command = szCommand; size_t notwhite = command.find_first_not_of(L" \t\r\n"); command.erase(0, notwhite); if (command.empty()) return NULL; size_t quotePos = command.find(L'"'); if (quotePos == 0) { size_t quotePos2 = command.find(L'"', quotePos + 1); if (quotePos2 != std::wstring::npos) { args.assign(command, quotePos2 + 1, command.length() - (quotePos2 + 1)); command.assign(command, quotePos + 1, quotePos2 - quotePos - 1); } else { command.erase(0, 1); } } else { size_t spacePos = command.find(L' '); if (spacePos != std::wstring::npos) { args.assign(command, spacePos + 1, command.length() - (spacePos + 1)); command.erase(spacePos); } } DWORD type = GetFileAttributes(command.c_str()); if (type & FILE_ATTRIBUTE_DIRECTORY && type != 0xFFFFFFFF) { HINSTANCE instance = ShellExecute(Owner, szVerb, command.c_str(), NULL, NULL, nShowCmd ? nShowCmd : SW_SHOWNORMAL); return instance; } std::wstring dir = CRainmeter::ExtractPath(command); SHELLEXECUTEINFO si = {sizeof(SHELLEXECUTEINFO)}; si.hwnd = Owner; si.lpVerb = szVerb; si.lpFile = command.c_str(); si.lpParameters = args.c_str(); si.lpDirectory = dir.c_str(); si.nShow = nShowCmd ? nShowCmd : SW_SHOWNORMAL; si.fMask = SEE_MASK_DOENVSUBST | SEE_MASK_FLAG_NO_UI; ShellExecuteEx(&si); return si.hInstApp; } //void TransparentBltLS(HDC hdcDst, int nXDest, int nYDest, int nWidth, int nHeight, HDC hdcSrc, int nXSrc, int nYSrc, COLORREF colorTransparent) //{ // // Use the lsapi.dll version of the method if possible // if (fpTransparentBltLS) // { // fpTransparentBltLS(hdcDst, nXDest, nYDest, nWidth, nHeight, hdcSrc, nXSrc, nYSrc, colorTransparent); // } // else // { // HDC hdcMem, hdcMask, hdcDstCpy; // HBITMAP hbmMask, hbmMem, hbmDstCpy; // HBITMAP hbmOldMem, hbmOldMask, hbmOldDstCpy; // // // create a destination compatble dc containing // // a copy of the destination dc // hdcDstCpy = CreateCompatibleDC(hdcDst); // hbmDstCpy = CreateCompatibleBitmap(hdcDst, nWidth, nHeight); // hbmOldDstCpy = (HBITMAP)SelectObject(hdcDstCpy, hbmDstCpy); // // BitBlt(hdcDstCpy, 0, 0, nWidth, nHeight, hdcDst, nXDest, nYDest, SRCCOPY); // // // create a destination compatble dc containing // // a copy of the source dc // hdcMem = CreateCompatibleDC(hdcDst); // hbmMem = CreateCompatibleBitmap(hdcDst, nWidth, nHeight); // hbmOldMem = (HBITMAP)SelectObject(hdcMem, hbmMem); // // BitBlt(hdcMem, 0, 0, nWidth, nHeight, hdcSrc, nXSrc, nYSrc, SRCCOPY); // // // the transparent color should be selected as // // bkcolor into the memory dc // SetBkColor(hdcMem, colorTransparent); // // // Create monochrome bitmap for the mask // hdcMask = CreateCompatibleDC(hdcDst); // hbmMask = CreateBitmap(nWidth, nHeight, 1, 1, NULL); // hbmOldMask = (HBITMAP)SelectObject(hdcMask, hbmMask); // // // Create the mask from the memory dc // BitBlt(hdcMask, 0, 0, nWidth, nHeight, hdcMem, 0, 0, SRCCOPY); // // // Set the background in hdcMem to black. Using SRCPAINT with black // // and any other color results in the other color, thus making // // black the transparent color // SetBkColor(hdcMem, RGB(0, 0, 0)); // SetTextColor(hdcMem, RGB(255, 255, 255)); // // BitBlt(hdcMem, 0, 0, nWidth, nHeight, hdcMask, 0, 0, SRCAND); // // // Set the foreground to black. See comment above. // SetBkColor(hdcDst, RGB(255, 255, 255)); // SetTextColor(hdcDst, RGB(0, 0, 0)); // // BitBlt(hdcDstCpy, 0, 0, nWidth, nHeight, hdcMask, 0, 0, SRCAND); // // // Combine the foreground with the background // BitBlt(hdcDstCpy, 0, 0, nWidth, nHeight, hdcMem, 0, 0, SRCPAINT); // // // now we have created the image we want to blt // // in the destination copy dc // BitBlt(hdcDst, nXDest, nYDest, nWidth, nHeight, hdcDstCpy, 0, 0, SRCCOPY); // // SelectObject(hdcMask, hbmOldMask); // DeleteObject(hbmMask); // DeleteDC(hdcMask); // // SelectObject(hdcMem, hbmOldMem); // DeleteObject(hbmMem); // DeleteDC(hdcMem); // // SelectObject(hdcDstCpy, hbmOldDstCpy); // DeleteObject(hbmDstCpy); // DeleteDC(hdcDstCpy); // } //} std::string ConvertToAscii(LPCTSTR str) { std::string szAscii; if (str && *str) { int strLen = (int)wcslen(str); int bufLen = WideCharToMultiByte(CP_ACP, 0, str, strLen, NULL, 0, NULL, NULL); if (bufLen > 0) { szAscii.resize(bufLen); WideCharToMultiByte(CP_ACP, 0, str, strLen, &szAscii[0], bufLen, NULL, NULL); } } return szAscii; } std::wstring ConvertToWide(LPCSTR str) { std::wstring szWide; if (str && *str) { int strLen = (int)strlen(str); int bufLen = MultiByteToWideChar(CP_ACP, 0, str, strLen, NULL, 0); if (bufLen > 0) { szWide.resize(bufLen); MultiByteToWideChar(CP_ACP, 0, str, strLen, &szWide[0], bufLen); } } return szWide; } std::string ConvertToUTF8(LPCWSTR str) { std::string szAscii; if (str && *str) { int strLen = (int)wcslen(str); int bufLen = WideCharToMultiByte(CP_UTF8, 0, str, strLen, NULL, 0, NULL, NULL); if (bufLen > 0) { szAscii.resize(bufLen); WideCharToMultiByte(CP_UTF8, 0, str, strLen, &szAscii[0], bufLen, NULL, NULL); } } return szAscii; } std::wstring ConvertUTF8ToWide(LPCSTR str) { std::wstring szWide; if (str && *str) { int strLen = (int)strlen(str); int bufLen = MultiByteToWideChar(CP_UTF8, 0, str, strLen, NULL, 0); if (bufLen > 0) { szWide.resize(bufLen); MultiByteToWideChar(CP_UTF8, 0, str, strLen, &szWide[0], bufLen); } } return szWide; } BOOL LogInternal(int nLevel, LPCTSTR pszModule, ULONGLONG elapsed, LPCTSTR pszMessage) { // Add timestamp WCHAR buffer[128]; _snwprintf_s(buffer, _TRUNCATE, L"%02llu:%02llu:%02llu.%03llu", elapsed / (1000 * 60 * 60), (elapsed / (1000 * 60)) % 60, (elapsed / 1000) % 60, elapsed % 1000); if (Rainmeter) { Rainmeter->AddAboutLogInfo(nLevel, buffer, pszMessage); } std::wstring message = L"("; message += buffer; message += L") "; message += pszMessage; #ifdef _DEBUG _RPT0(_CRT_WARN, ConvertToAscii(message.c_str()).c_str()); _RPT0(_CRT_WARN, "\n"); #endif // Use the lsapi.dll version of the method if possible if (fpLSLog) { std::string asc = ConvertToAscii(message.c_str()); std::string mod = ConvertToAscii(pszModule); return fpLSLog(nLevel, mod.c_str(), asc.c_str()); } // The stub implementation if (Rainmeter && Rainmeter->GetLogging()) { std::wstring logfile = Rainmeter->GetLogFile(); if (logFound == 0) { // Check if the file exists if (_waccess(logfile.c_str(), 0) != -1) { logFound = 1; // Clear the file FILE* logFile = _wfopen(logfile.c_str(), L"w"); fclose(logFile); } else { logFound = 2; // not found } } if (logFound == 1) { if (_waccess(logfile.c_str(), 0) == -1) { // Disable logging if the file was deleted manually Rainmeter->StopLogging(); } else { FILE* logFile = _wfopen(logfile.c_str(), L"a+, ccs=UTF-8"); if (logFile) { message.insert(0, L": "); switch (nLevel) { case LOG_ERROR: message.insert(0, L"ERROR"); break; case LOG_WARNING: message.insert(0, L"WARNING"); break; case LOG_NOTICE: message.insert(0, L"NOTICE"); break; case LOG_DEBUG: message.insert(0, L"DEBUG"); break; } message += L"\n"; fputws(message.c_str(), logFile); fclose(logFile); } } } } return TRUE; } BOOL LSLog(int nLevel, LPCTSTR pszModule, LPCTSTR pszMessage) { // Ignore LOG_DEBUG messages from plugins unless in debug mode if (nLevel != LOG_DEBUG || Rainmeter->GetDebug()) { Log(nLevel, pszMessage, pszModule); } return TRUE; } void Log(int nLevel, const WCHAR* message, const WCHAR* module) { struct DELAYED_LOG_INFO { int level; std::wstring module; ULONGLONG elapsed; std::wstring message; }; static std::list c_LogDelay; static ULONGLONG startTime = CSystem::GetTickCount64(); ULONGLONG elapsed = CSystem::GetTickCount64() - startTime; if (TryEnterCriticalSection(&g_CsLog)) { // Log the queued messages first EnterCriticalSection(&g_CsLogDelay); while (!c_LogDelay.empty()) { DELAYED_LOG_INFO& logInfo = c_LogDelay.front(); LogInternal(logInfo.level, logInfo.module.c_str(), logInfo.elapsed, logInfo.message.c_str()); c_LogDelay.erase(c_LogDelay.begin()); } LeaveCriticalSection(&g_CsLogDelay); // Log the message LogInternal(nLevel, module, elapsed, message); LeaveCriticalSection(&g_CsLog); } else { // Queue the message EnterCriticalSection(&g_CsLogDelay); DELAYED_LOG_INFO logInfo = {nLevel, module, elapsed, message}; c_LogDelay.push_back(logInfo); LeaveCriticalSection(&g_CsLogDelay); } } void LogWithArgs(int nLevel, const WCHAR* format, ... ) { WCHAR* buffer = new WCHAR[4096]; va_list args; va_start( args, format ); _invalid_parameter_handler oldHandler = _set_invalid_parameter_handler(RmNullCRTInvalidParameterHandler); _CrtSetReportMode(_CRT_ASSERT, 0); errno = 0; _vsnwprintf_s( buffer, 4096, _TRUNCATE, format, args ); if (errno != 0) { nLevel = LOG_ERROR; _snwprintf_s(buffer, 4096, _TRUNCATE, L"LogWithArgs internal error: %s", format); } _set_invalid_parameter_handler(oldHandler); Log(nLevel, buffer); va_end(args); delete [] buffer; } void LogError(CError& error) { Log(LOG_ERROR, error.GetString().c_str()); CDialogAbout::ShowAboutLog(); } void RmNullCRTInvalidParameterHandler(const wchar_t* expression, const wchar_t* function, const wchar_t* file, unsigned int line, uintptr_t pReserved) { // Do nothing. }