/** * @file llappviewerwin32.cpp * @brief The LLAppViewerWin32 class definitions * * $LicenseInfo:firstyear=2007&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "llviewerprecompiledheaders.h" #ifdef INCLUDE_VLD #include "vld.h" #endif #include "llwin32headers.h" #include "llwindowwin32.h" // *FIX: for setting gIconResource. #include "llappviewerwin32.h" #include "llgl.h" #include "res/resource.h" // *FIX: for setting gIconResource. #include //_O_APPEND #include //_open_osfhandle() #include // for WerAddExcludedApplication() #include // _spawnl() #include // For TCHAR support #include "llviewercontrol.h" #include "lldxhardware.h" #include "nvapi/nvapi.h" #include "nvapi/NvApiDriverSettings.h" #include #include "llweb.h" #include "llviewernetwork.h" #include "llmd5.h" #include "llfindlocale.h" #include "llcommandlineparser.h" #include "lltrans.h" #ifndef LL_RELEASE_FOR_DOWNLOAD #include "llwindebug.h" #endif #include "stringize.h" #include "lldir.h" #include "llerrorcontrol.h" #include #include // Bugsplat (http://bugsplat.com) crash reporting tool #ifdef LL_BUGSPLAT #include "BugSplat.h" #include "boost/json.hpp" // Boost.Json #include "llagent.h" // for agent location #include "llviewerregion.h" #include "llvoavatarself.h" // for agent name namespace { // MiniDmpSender's constructor is defined to accept __wchar_t* instead of // plain wchar_t*. That said, wunder() returns std::basic_string<__wchar_t>, // NOT plain __wchar_t*, despite the apparent convenience. Calling // wunder(something).c_str() as an argument expression is fine: that // std::basic_string instance will survive until the function returns. // Calling c_str() on a std::basic_string local to wunder() would be // Undefined Behavior: we'd be left with a pointer into a destroyed // std::basic_string instance. But we can do that with a macro... #define WCSTR(string) wunder(string).c_str() // It would be nice if, when wchar_t is the same as __wchar_t, this whole // function would optimize away. However, we use it only for the arguments // to the BugSplat API -- a handful of calls. inline std::basic_string<__wchar_t> wunder(const std::wstring& str) { return { str.begin(), str.end() }; } // when what we have in hand is a std::string, convert from UTF-8 using // specific wstringize() overload inline std::basic_string<__wchar_t> wunder(const std::string& str) { return wunder(wstringize(str)); } // Irritatingly, MiniDmpSender::setCallback() is defined to accept a // classic-C function pointer instead of an arbitrary C++ callable. If it // did accept a modern callable, we could pass a lambda that binds our // MiniDmpSender pointer. As things stand, though, we must define an // actual function and store the pointer statically. static MiniDmpSender *sBugSplatSender = nullptr; bool bugsplatSendLog(UINT nCode, LPVOID lpVal1, LPVOID lpVal2) { if (nCode == MDSCB_EXCEPTIONCODE) { // send the main viewer log file, one per instance // widen to wstring, convert to __wchar_t, then pass c_str() sBugSplatSender->sendAdditionalFile( WCSTR(LLError::logFileName())); // second instance does not have some log files // TODO: This needs fixing, if each instance now has individual logs, // same should be made true for static debug files if (!LLAppViewer::instance()->isSecondInstance()) { sBugSplatSender->sendAdditionalFile( WCSTR(*LLAppViewer::instance()->getStaticDebugFile())); } sBugSplatSender->sendAdditionalFile( WCSTR(gDirUtilp->getExpandedFilename(LL_PATH_USER_SETTINGS, "settings.xml"))); // We don't have an email address for any user. Hijack this // metadata field for the platform identifier. sBugSplatSender->setDefaultUserEmail( WCSTR(STRINGIZE(LLOSInfo::instance().getOSStringSimple() << " (" << ADDRESS_SIZE << "-bit)"))); if (gAgentAvatarp) { // user name, when we have it sBugSplatSender->setDefaultUserName(WCSTR(gAgentAvatarp->getFullname())); sBugSplatSender->sendAdditionalFile( WCSTR(gDirUtilp->getExpandedFilename(LL_PATH_PER_SL_ACCOUNT, "settings_per_account.xml"))); } // LL_ERRS message, when there is one sBugSplatSender->setDefaultUserDescription(WCSTR(LLError::getFatalMessage())); if (gAgent.getRegion()) { // region location, when we have it LLVector3 loc = gAgent.getPositionAgent(); sBugSplatSender->resetAppIdentifier( WCSTR(STRINGIZE(gAgent.getRegion()->getName() << '/' << loc.mV[0] << '/' << loc.mV[1] << '/' << loc.mV[2]))); } } // MDSCB_EXCEPTIONCODE return false; } } #endif // LL_BUGSPLAT namespace { void (*gOldTerminateHandler)() = NULL; } static void exceptionTerminateHandler() { // reinstall default terminate() handler in case we re-terminate. if (gOldTerminateHandler) std::set_terminate(gOldTerminateHandler); // treat this like a regular viewer crash, with nice stacktrace etc. long *null_ptr; null_ptr = 0; *null_ptr = 0xDEADBEEF; //Force an exception that will trigger breakpad. // we've probably been killed-off before now, but... gOldTerminateHandler(); // call old terminate() handler } LONG WINAPI catchallCrashHandler(EXCEPTION_POINTERS * /*ExceptionInfo*/) { LL_WARNS() << "Hit last ditch-effort attempt to catch crash." << LL_ENDL; exceptionTerminateHandler(); return 0; } // *FIX:Mani - This hack is to fix a linker issue with libndofdev.lib // The lib was compiled under VS2005 - in VS2003 we need to remap assert #ifdef LL_DEBUG #ifdef LL_MSVC7 extern "C" { void _wassert(const wchar_t * _Message, const wchar_t *_File, unsigned _Line) { LL_ERRS() << _Message << LL_ENDL; } } #endif #endif const std::string LLAppViewerWin32::sWindowClass = "Second Life"; /* This function is used to print to the command line a text message describing the nvapi error and quits */ void nvapi_error(NvAPI_Status status) { NvAPI_ShortString szDesc = {0}; NvAPI_GetErrorMessage(status, szDesc); LL_WARNS() << szDesc << LL_ENDL; //should always trigger when asserts are enabled //llassert(status == NVAPI_OK); } // Create app mutex creates a unique global windows object. // If the object can be created it returns true, otherwise // it returns false. The false result can be used to determine // if another instance of a second life app (this vers. or later) // is running. // *NOTE: Do not use this method to run a single instance of the app. // This is intended to help debug problems with the cross-platform // locked file method used for that purpose. bool create_app_mutex() { bool result = true; LPCWSTR unique_mutex_name = L"SecondLifeAppMutex"; HANDLE hMutex; hMutex = CreateMutex(NULL, TRUE, unique_mutex_name); if(GetLastError() == ERROR_ALREADY_EXISTS) { result = false; } return result; } void ll_nvapi_init(NvDRSSessionHandle hSession) { // (2) load all the system settings into the session NvAPI_Status status = NvAPI_DRS_LoadSettings(hSession); if (status != NVAPI_OK) { nvapi_error(status); return; } NvAPI_UnicodeString profile_name; std::string app_name = LLTrans::getString("APP_NAME"); llutf16string w_app_name = utf8str_to_utf16str(app_name); wsprintf(profile_name, L"%s", w_app_name.c_str()); NvDRSProfileHandle hProfile = 0; // (3) Check if we already have an application profile for the viewer status = NvAPI_DRS_FindProfileByName(hSession, profile_name, &hProfile); if (status != NVAPI_OK && status != NVAPI_PROFILE_NOT_FOUND) { nvapi_error(status); return; } else if (status == NVAPI_PROFILE_NOT_FOUND) { // Don't have an application profile yet - create one LL_INFOS() << "Creating NVIDIA application profile" << LL_ENDL; NVDRS_PROFILE profileInfo; profileInfo.version = NVDRS_PROFILE_VER; profileInfo.isPredefined = 0; wsprintf(profileInfo.profileName, L"%s", w_app_name.c_str()); status = NvAPI_DRS_CreateProfile(hSession, &profileInfo, &hProfile); if (status != NVAPI_OK) { nvapi_error(status); return; } } // (4) Check if current exe is part of the profile std::string exe_name = gDirUtilp->getExecutableFilename(); NVDRS_APPLICATION profile_application; profile_application.version = NVDRS_APPLICATION_VER; llutf16string w_exe_name = utf8str_to_utf16str(exe_name); NvAPI_UnicodeString profile_app_name; wsprintf(profile_app_name, L"%s", w_exe_name.c_str()); status = NvAPI_DRS_GetApplicationInfo(hSession, hProfile, profile_app_name, &profile_application); if (status != NVAPI_OK && status != NVAPI_EXECUTABLE_NOT_FOUND) { nvapi_error(status); return; } else if (status == NVAPI_EXECUTABLE_NOT_FOUND) { LL_INFOS() << "Creating application for " << exe_name << " for NVIDIA application profile" << LL_ENDL; // Add this exe to the profile NVDRS_APPLICATION application; application.version = NVDRS_APPLICATION_VER; application.isPredefined = 0; wsprintf(application.appName, L"%s", w_exe_name.c_str()); wsprintf(application.userFriendlyName, L"%s", w_exe_name.c_str()); wsprintf(application.launcher, L"%s", w_exe_name.c_str()); wsprintf(application.fileInFolder, L"%s", ""); status = NvAPI_DRS_CreateApplication(hSession, hProfile, &application); if (status != NVAPI_OK) { nvapi_error(status); return; } // Save application in case we added one status = NvAPI_DRS_SaveSettings(hSession); if (status != NVAPI_OK) { nvapi_error(status); return; } } // load settings for querying status = NvAPI_DRS_LoadSettings(hSession); if (status != NVAPI_OK) { nvapi_error(status); return; } //get the preferred power management mode for Second Life NVDRS_SETTING drsSetting = {0}; drsSetting.version = NVDRS_SETTING_VER; status = NvAPI_DRS_GetSetting(hSession, hProfile, PREFERRED_PSTATE_ID, &drsSetting); if (status == NVAPI_SETTING_NOT_FOUND) { //only override if the user hasn't specifically set this setting // (5) Specify that we want to enable maximum performance setting // first we fill the NVDRS_SETTING struct, then we call the function drsSetting.version = NVDRS_SETTING_VER; drsSetting.settingId = PREFERRED_PSTATE_ID; drsSetting.settingType = NVDRS_DWORD_TYPE; drsSetting.u32CurrentValue = PREFERRED_PSTATE_PREFER_MAX; status = NvAPI_DRS_SetSetting(hSession, hProfile, &drsSetting); if (status != NVAPI_OK) { nvapi_error(status); return; } // (6) Now we apply (or save) our changes to the system status = NvAPI_DRS_SaveSettings(hSession); if (status != NVAPI_OK) { nvapi_error(status); return; } } else if (status != NVAPI_OK) { nvapi_error(status); return; } // enable Threaded Optimization instead of letting the driver decide status = NvAPI_DRS_GetSetting(hSession, hProfile, OGL_THREAD_CONTROL_ID, &drsSetting); if (status == NVAPI_SETTING_NOT_FOUND || (status == NVAPI_OK && drsSetting.u32CurrentValue != OGL_THREAD_CONTROL_ENABLE)) { drsSetting.version = NVDRS_SETTING_VER; drsSetting.settingId = OGL_THREAD_CONTROL_ID; drsSetting.settingType = NVDRS_DWORD_TYPE; drsSetting.u32CurrentValue = OGL_THREAD_CONTROL_ENABLE; status = NvAPI_DRS_SetSetting(hSession, hProfile, &drsSetting); if (status != NVAPI_OK) { nvapi_error(status); return; } // Now we apply (or save) our changes to the system status = NvAPI_DRS_SaveSettings(hSession); if (status != NVAPI_OK) { nvapi_error(status); return; } } else if (status != NVAPI_OK) { nvapi_error(status); return; } } //#define DEBUGGING_SEH_FILTER 1 #if DEBUGGING_SEH_FILTER # define WINMAIN DebuggingWinMain #else # define WINMAIN wWinMain #endif int APIENTRY WINMAIN(HINSTANCE hInstance, HINSTANCE hPrevInstance, PWSTR pCmdLine, int nCmdShow) { // Call Tracy first thing to have it allocate memory // https://github.com/wolfpld/tracy/issues/196 LL_PROFILER_FRAME_END; LL_PROFILER_SET_THREAD_NAME("App"); const S32 MAX_HEAPS = 255; DWORD heap_enable_lfh_error[MAX_HEAPS]; S32 num_heaps = 0; LLWindowWin32::setDPIAwareness(); #if WINDOWS_CRT_MEM_CHECKS && !INCLUDE_VLD _CrtSetDbgFlag ( _CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF ); // dump memory leaks on exit #elif 0 // Experimental - enable the low fragmentation heap // This results in a 2-3x improvement in opening a new Inventory window (which uses a large numebr of allocations) // Note: This won't work when running from the debugger unless the _NO_DEBUG_HEAP environment variable is set to 1 // Enable to get mem debugging within visual studio. #if LL_DEBUG _CrtSetDbgFlag(_CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF); #else _CrtSetDbgFlag(0); // default, just making explicit ULONG ulEnableLFH = 2; HANDLE* hHeaps = new HANDLE[MAX_HEAPS]; num_heaps = GetProcessHeaps(MAX_HEAPS, hHeaps); for(S32 i = 0; i < num_heaps; i++) { bool success = HeapSetInformation(hHeaps[i], HeapCompatibilityInformation, &ulEnableLFH, sizeof(ulEnableLFH)); if (success) heap_enable_lfh_error[i] = 0; else heap_enable_lfh_error[i] = GetLastError(); } #endif #endif // *FIX: global gIconResource = MAKEINTRESOURCE(IDI_LL_ICON); LLAppViewerWin32* viewer_app_ptr = new LLAppViewerWin32(ll_convert_wide_to_string(pCmdLine).c_str()); gOldTerminateHandler = std::set_terminate(exceptionTerminateHandler); // Set a debug info flag to indicate if multiple instances are running. bool found_other_instance = !create_app_mutex(); gDebugInfo["FoundOtherInstanceAtStartup"] = LLSD::Boolean(found_other_instance); bool ok = viewer_app_ptr->init(); if(!ok) { LL_WARNS() << "Application init failed." << LL_ENDL; return -1; } NvDRSSessionHandle hSession = 0; static LLCachedControl use_nv_api(gSavedSettings, "NvAPICreateApplicationProfile", true); if (use_nv_api) { NvAPI_Status status; // Initialize NVAPI status = NvAPI_Initialize(); if (status == NVAPI_OK) { // Create the session handle to access driver settings status = NvAPI_DRS_CreateSession(&hSession); if (status != NVAPI_OK) { nvapi_error(status); } else { //override driver setting as needed ll_nvapi_init(hSession); } } } // Have to wait until after logging is initialized to display LFH info if (num_heaps > 0) { LL_INFOS() << "Attempted to enable LFH for " << num_heaps << " heaps." << LL_ENDL; for(S32 i = 0; i < num_heaps; i++) { if (heap_enable_lfh_error[i]) { LL_INFOS() << " Failed to enable LFH for heap: " << i << " Error: " << heap_enable_lfh_error[i] << LL_ENDL; } } } // Run the application main loop while (! viewer_app_ptr->frame()) {} if (!LLApp::isError()) { // // We don't want to do cleanup here if the error handler got called - // the assumption is that the error handler is responsible for doing // app cleanup if there was a problem. // #if WINDOWS_CRT_MEM_CHECKS LL_INFOS() << "CRT Checking memory:" << LL_ENDL; if (!_CrtCheckMemory()) { LL_WARNS() << "_CrtCheckMemory() failed at prior to cleanup!" << LL_ENDL; } else { LL_INFOS() << " No corruption detected." << LL_ENDL; } #endif gGLActive = true; viewer_app_ptr->cleanup(); #if WINDOWS_CRT_MEM_CHECKS LL_INFOS() << "CRT Checking memory:" << LL_ENDL; if (!_CrtCheckMemory()) { LL_WARNS() << "_CrtCheckMemory() failed after cleanup!" << LL_ENDL; } else { LL_INFOS() << " No corruption detected." << LL_ENDL; } #endif } delete viewer_app_ptr; viewer_app_ptr = NULL; // (NVAPI) (6) We clean up. This is analogous to doing a free() if (hSession) { NvAPI_DRS_DestroySession(hSession); hSession = 0; } return 0; } #if DEBUGGING_SEH_FILTER // The compiler doesn't like it when you use __try/__except blocks // in a method that uses object destructors. Go figure. // This winmain just calls the real winmain inside __try. // The __except calls our exception filter function. For debugging purposes. int APIENTRY wWinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, PWSTR lpCmdLine, int nCmdShow) { __try { WINMAIN(hInstance, hPrevInstance, lpCmdLine, nCmdShow); } __except( viewer_windows_exception_handler( GetExceptionInformation() ) ) { _tprintf( _T("Exception handled.\n") ); } } #endif void LLAppViewerWin32::disableWinErrorReporting() { std::string executable_name = gDirUtilp->getExecutableFilename(); if( S_OK == WerAddExcludedApplication( utf8str_to_utf16str(executable_name).c_str(), FALSE ) ) { LL_INFOS() << "WerAddExcludedApplication() succeeded for " << executable_name << LL_ENDL; } else { LL_INFOS() << "WerAddExcludedApplication() failed for " << executable_name << LL_ENDL; } } const S32 MAX_CONSOLE_LINES = 7500; // Only defined in newer SDKs than we currently use #ifndef ENABLE_VIRTUAL_TERMINAL_PROCESSING #define ENABLE_VIRTUAL_TERMINAL_PROCESSING 4 #endif namespace { void set_stream(const char* desc, FILE* fp, DWORD handle_id, const char* name, const char* mode="w"); bool create_console() { // allocate a console for this app const bool isConsoleAllocated = AllocConsole(); if (isConsoleAllocated) { // set the screen buffer to be big enough to let us scroll text CONSOLE_SCREEN_BUFFER_INFO coninfo; GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &coninfo); coninfo.dwSize.Y = MAX_CONSOLE_LINES; SetConsoleScreenBufferSize(GetStdHandle(STD_OUTPUT_HANDLE), coninfo.dwSize); // redirect unbuffered STDOUT to the console set_stream("stdout", stdout, STD_OUTPUT_HANDLE, "CONOUT$"); // redirect unbuffered STDERR to the console set_stream("stderr", stderr, STD_ERROR_HANDLE, "CONOUT$"); // redirect unbuffered STDIN to the console // Don't bother: our console is solely for log output. We never read stdin. // set_stream("stdin", stdin, STD_INPUT_HANDLE, "CONIN$", "r"); } return isConsoleAllocated; } void set_stream(const char* desc, FILE* fp, DWORD handle_id, const char* name, const char* mode) { // SL-13528: This code used to be based on // http://dslweb.nwnexus.com/~ast/dload/guicon.htm // (referenced in https://stackoverflow.com/a/191880). // But one of the comments on that StackOverflow answer points out that // assigning to *stdout or *stderr "probably doesn't even work with the // Universal CRT that was introduced in 2015," suggesting freopen_s() // instead. Code below is based on https://stackoverflow.com/a/55875595. auto std_handle = GetStdHandle(handle_id); if (std_handle == INVALID_HANDLE_VALUE) { LL_WARNS() << "create_console() failed to get " << desc << " handle" << LL_ENDL; } else { if (mode == std::string("w")) { // Enable color processing on Windows 10 console windows. DWORD dwMode = 0; GetConsoleMode(std_handle, &dwMode); dwMode |= ENABLE_VIRTUAL_TERMINAL_PROCESSING; SetConsoleMode(std_handle, dwMode); } // Redirect the passed fp to the console. FILE* ignore; if (freopen_s(&ignore, name, mode, fp) == 0) { // use unbuffered I/O setvbuf( fp, NULL, _IONBF, 0 ); } } } } // anonymous namespace LLAppViewerWin32::LLAppViewerWin32(const char* cmd_line) : mCmdLine(cmd_line), mIsConsoleAllocated(false) { } LLAppViewerWin32::~LLAppViewerWin32() { } bool LLAppViewerWin32::init() { // Platform specific initialization. // Turn off Windows Error Reporting // (Don't send our data to Microsoft--at least until we are Logo approved and have a way // of getting the data back from them.) // // LL_INFOS() << "Turning off Windows error reporting." << LL_ENDL; disableWinErrorReporting(); #ifndef LL_RELEASE_FOR_DOWNLOAD // Merely requesting the LLSingleton instance initializes it. LLWinDebug::instance(); #endif #if LL_SEND_CRASH_REPORTS #if ! defined(LL_BUGSPLAT) #pragma message("Building without BugSplat") #else // LL_BUGSPLAT #pragma message("Building with BugSplat") if (!isSecondInstance()) { // Cleanup previous session std::string log_file = gDirUtilp->getExpandedFilename(LL_PATH_LOGS, "bugsplat.log"); LLFile::remove(log_file, ENOENT); } // Win7 is no longer supported bool is_win_7_or_below = LLOSInfo::getInstance()->mMajorVer <= 6 && LLOSInfo::getInstance()->mMajorVer <= 1; if (!is_win_7_or_below) { std::string build_data_fname( gDirUtilp->getExpandedFilename(LL_PATH_EXECUTABLE, "build_data.json")); // Use llifstream instead of std::ifstream because LL_PATH_EXECUTABLE // could contain non-ASCII characters, which std::ifstream doesn't handle. llifstream inf(build_data_fname.c_str()); if (!inf.is_open()) { LL_WARNS("BUGSPLAT") << "Can't initialize BugSplat, can't read '" << build_data_fname << "'" << LL_ENDL; } else { boost::json::error_code ec; boost::json::value build_data = boost::json::parse(inf, ec); if(ec.failed()) { // gah, the typo is baked into Json::Reader API LL_WARNS("BUGSPLAT") << "Can't initialize BugSplat, can't parse '" << build_data_fname << "': " << ec.what() << LL_ENDL; } else { if (!build_data.is_object() || !build_data.as_object().contains("BugSplat DB")) { LL_WARNS("BUGSPLAT") << "Can't initialize BugSplat, no 'BugSplat DB' entry in '" << build_data_fname << "'" << LL_ENDL; } else { boost::json::value BugSplat_DB = build_data.at("BugSplat DB"); // Got BugSplat_DB, onward! std::wstring version_string(WSTRINGIZE(LL_VIEWER_VERSION_MAJOR << '.' << LL_VIEWER_VERSION_MINOR << '.' << LL_VIEWER_VERSION_PATCH << '.' << LL_VIEWER_VERSION_BUILD)); DWORD dwFlags = MDSF_NONINTERACTIVE | // automatically submit report without prompting MDSF_PREVENTHIJACKING; // disallow swiping Exception filter bool needs_log_file = !isSecondInstance(); LL_DEBUGS("BUGSPLAT"); if (needs_log_file) { // Startup only! LL_INFOS("BUGSPLAT") << "Engaged BugSplat logging to bugsplat.log" << LL_ENDL; dwFlags |= MDSF_LOGFILE | MDSF_LOG_VERBOSE; } LL_ENDL; // have to convert normal wide strings to strings of __wchar_t sBugSplatSender = new MiniDmpSender( WCSTR(boost::json::value_to(BugSplat_DB)), WCSTR(LL_TO_WSTRING(LL_VIEWER_CHANNEL)), WCSTR(version_string), nullptr, // szAppIdentifier -- set later dwFlags); sBugSplatSender->setCallback(bugsplatSendLog); LL_DEBUGS("BUGSPLAT"); if (needs_log_file) { // Log file will be created in %TEMP%, but it will be moved into logs folder in case of crash std::string log_file = gDirUtilp->getExpandedFilename(LL_PATH_LOGS, "bugsplat.log"); sBugSplatSender->setLogFilePath(WCSTR(log_file)); } LL_ENDL; // engage stringize() overload that converts from wstring LL_INFOS("BUGSPLAT") << "Engaged BugSplat(" << LL_TO_STRING(LL_VIEWER_CHANNEL) << ' ' << stringize(version_string) << ')' << LL_ENDL; } // got BugSplat_DB } // parsed build_data.json } // opened build_data.json } // !is_win_7_or_below #endif // LL_BUGSPLAT #endif // LL_SEND_CRASH_REPORTS bool success = LLAppViewer::init(); return success; } bool LLAppViewerWin32::cleanup() { bool result = LLAppViewer::cleanup(); gDXHardware.cleanup(); if (mIsConsoleAllocated) { FreeConsole(); mIsConsoleAllocated = false; } return result; } void LLAppViewerWin32::reportCrashToBugsplat(void* pExcepInfo) { #if defined(LL_BUGSPLAT) if (sBugSplatSender) { sBugSplatSender->createReport((EXCEPTION_POINTERS*)pExcepInfo); } #endif // LL_BUGSPLAT } void LLAppViewerWin32::initLoggingAndGetLastDuration() { LLAppViewer::initLoggingAndGetLastDuration(); } void LLAppViewerWin32::initConsole() { // pop up debug console mIsConsoleAllocated = create_console(); return LLAppViewer::initConsole(); } void write_debug_dx(const char* str) { std::string value = gDebugInfo["DXInfo"].asString(); value += str; gDebugInfo["DXInfo"] = value; } void write_debug_dx(const std::string& str) { write_debug_dx(str.c_str()); } bool LLAppViewerWin32::initHardwareTest() { // // Do driver verification and initialization based on DirectX // hardware polling and driver versions // if (true == gSavedSettings.getBOOL("ProbeHardwareOnStartup") && false == gSavedSettings.getBOOL("NoHardwareProbe")) { // per DEV-11631 - disable hardware probing for everything // but vram. bool vram_only = true; LLSplashScreen::update(LLTrans::getString("StartupDetectingHardware")); LL_DEBUGS("AppInit") << "Attempting to poll DirectX for hardware info" << LL_ENDL; gDXHardware.setWriteDebugFunc(write_debug_dx); bool probe_ok = gDXHardware.getInfo(vram_only); if (!probe_ok && gWarningSettings.getBOOL("AboutDirectX9")) { LL_WARNS("AppInit") << "DirectX probe failed, alerting user." << LL_ENDL; // Warn them that runnin without DirectX 9 will // not allow us to tell them about driver issues std::ostringstream msg; msg << LLTrans::getString ("MBNoDirectX"); S32 button = OSMessageBox( msg.str(), LLTrans::getString("MBWarning"), OSMB_YESNO); if (OSBTN_NO== button) { LL_INFOS("AppInit") << "User quitting after failed DirectX 9 detection" << LL_ENDL; LLWeb::loadURLExternal("http://secondlife.com/support/", false); return false; } gWarningSettings.setBOOL("AboutDirectX9", false); } LL_DEBUGS("AppInit") << "Done polling DirectX for hardware info" << LL_ENDL; // Only probe once after installation gSavedSettings.setBOOL("ProbeHardwareOnStartup", false); // Disable so debugger can work std::string splash_msg; LLStringUtil::format_map_t args; args["[APP_NAME]"] = LLAppViewer::instance()->getSecondLifeTitle(); splash_msg = LLTrans::getString("StartupLoading", args); LLSplashScreen::update(splash_msg); } if (!restoreErrorTrap()) { LL_WARNS("AppInit") << " Someone took over my exception handler (post hardware probe)!" << LL_ENDL; } if (gGLManager.mVRAM == 0) { gGLManager.mVRAM = gDXHardware.getVRAM(); } LL_INFOS("AppInit") << "Detected VRAM: " << gGLManager.mVRAM << LL_ENDL; return true; } bool LLAppViewerWin32::initParseCommandLine(LLCommandLineParser& clp) { if (!clp.parseCommandLineString(mCmdLine)) { return false; } // Find the system language. FL_Locale *locale = NULL; FL_Success success = FL_FindLocale(&locale, FL_MESSAGES); if (success != 0) { if (success >= 2 && locale->lang) // confident! { LL_INFOS("AppInit") << "Language: " << ll_safe_string(locale->lang) << LL_ENDL; LL_INFOS("AppInit") << "Location: " << ll_safe_string(locale->country) << LL_ENDL; LL_INFOS("AppInit") << "Variant: " << ll_safe_string(locale->variant) << LL_ENDL; LLControlVariable* c = gSavedSettings.getControl("SystemLanguage"); if(c) { c->setValue(std::string(locale->lang), false); } } } FL_FreeLocale(&locale); return true; } bool LLAppViewerWin32::beingDebugged() { return IsDebuggerPresent(); } bool LLAppViewerWin32::restoreErrorTrap() { return true; // we don't check for handler collisions on windows, so just say they're ok } //virtual bool LLAppViewerWin32::sendURLToOtherInstance(const std::string& url) { wchar_t window_class[256]; /* Flawfinder: ignore */ // Assume max length < 255 chars. mbstowcs(window_class, sWindowClass.c_str(), 255); window_class[255] = 0; // Use the class instead of the window name. HWND other_window = FindWindow(window_class, NULL); if (other_window != NULL) { LL_DEBUGS() << "Found other window with the name '" << getWindowTitle() << "'" << LL_ENDL; COPYDATASTRUCT cds; const S32 SLURL_MESSAGE_TYPE = 0; cds.dwData = SLURL_MESSAGE_TYPE; cds.cbData = static_cast(url.length()) + 1; cds.lpData = (void*)url.c_str(); LRESULT msg_result = SendMessage(other_window, WM_COPYDATA, NULL, (LPARAM)&cds); LL_DEBUGS() << "SendMessage(WM_COPYDATA) to other window '" << getWindowTitle() << "' returned " << msg_result << LL_ENDL; return true; } return false; } std::string LLAppViewerWin32::generateSerialNumber() { char serial_md5[MD5HEX_STR_SIZE]; // Flawfinder: ignore serial_md5[0] = 0; DWORD serial = 0; DWORD flags = 0; BOOL success = GetVolumeInformation( L"C:\\", NULL, // volume name buffer 0, // volume name buffer size &serial, // volume serial NULL, // max component length &flags, // file system flags NULL, // file system name buffer 0); // file system name buffer size if (success) { LLMD5 md5; md5.update( (unsigned char*)&serial, sizeof(DWORD)); md5.finalize(); md5.hex_digest(serial_md5); } else { LL_WARNS() << "GetVolumeInformation failed" << LL_ENDL; } return serial_md5; }