#if _WIN32 #ifndef WIN32_LEAN_AND_MEAN #define WIN32_LEAN_AND_MEAN 1 #endif #ifndef NOMINMAX #define NOMINMAX #endif #include #include #include #include #elif defined(__SWITCH__) #include #include #else #include #include #include #include #include #if __linux__ #include #endif #endif #include #include #include #include #include #include #include #include #include #include "logvisor/logvisor.hpp" #if SENTRY_ENABLED #include #endif /* ANSI sequences */ #define RED "\x1b[1;31m" #define YELLOW "\x1b[1;33m" #define GREEN "\x1b[1;32m" #define MAGENTA "\x1b[1;35m" #define CYAN "\x1b[1;36m" #define BOLD "\x1b[1m" #define NORMAL "\x1b[0m" #if _WIN32 #define FOREGROUND_WHITE FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE #endif #ifndef _MSC_VER #pragma GCC diagnostic ignored "-Wformat-truncation" #endif void logvisorBp() {} namespace logvisor { static Module Log("logvisor"); static std::unordered_map ThreadMap; static void AddThreadToMap(const char* name) { auto lk = LockLog(); ThreadMap[std::this_thread::get_id()] = name; } void RegisterThreadName(const char* name) { AddThreadToMap(name); #if __APPLE__ pthread_setname_np(name); #elif __linux__ prctl(PR_SET_NAME, name); #elif _MSC_VER struct { DWORD dwType; // Must be 0x1000. LPCSTR szName; // Pointer to name (in user addr space). DWORD dwThreadID; // Thread ID (-1=caller thread). DWORD dwFlags; // Reserved for future use, must be zero. } info = {0x1000, name, (DWORD)-1, 0}; __try { RaiseException(0x406D1388, 0, sizeof(info) / sizeof(ULONG_PTR), (ULONG_PTR*)&info); } __except (EXCEPTION_EXECUTE_HANDLER) {} #endif } #if _WIN32 #pragma comment(lib, "Dbghelp.lib") #if defined(WINAPI_FAMILY) && WINAPI_FAMILY != WINAPI_FAMILY_DESKTOP_APP #define WINDOWS_STORE 1 #else #define WINDOWS_STORE 0 #endif void KillProcessTree() { DWORD myprocID = GetCurrentProcessId(); PROCESSENTRY32W pe = {}; pe.dwSize = sizeof(pe); HANDLE hSnap = ::CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0); if (::Process32FirstW(hSnap, &pe)) { BOOL bContinue = TRUE; // kill child processes while (bContinue) { // only kill child processes and let console window remain if (pe.th32ParentProcessID == myprocID && std::wcscmp(pe.szExeFile, L"conhost.exe") != 0) { HANDLE hChildProc = ::OpenProcess(PROCESS_ALL_ACCESS, FALSE, pe.th32ProcessID); if (hChildProc) { ::TerminateProcess(hChildProc, 1); ::CloseHandle(hChildProc); } } bContinue = ::Process32NextW(hSnap, &pe); } } } [[noreturn]] void logvisorAbort() { #if !WINDOWS_STORE unsigned int i; void* stack[100]; unsigned short frames; SYMBOL_INFO* symbol; HANDLE process; process = GetCurrentProcess(); SymInitialize(process, NULL, TRUE); frames = CaptureStackBackTrace(0, 100, stack, NULL); symbol = (SYMBOL_INFO*)calloc(sizeof(SYMBOL_INFO) + 256 * sizeof(char), 1); symbol->MaxNameLen = 255; symbol->SizeOfStruct = sizeof(SYMBOL_INFO); for (i = 0; i < frames; i++) { SymFromAddr(process, (DWORD64)(stack[i]), 0, symbol); std::fprintf(stderr, "%i: %s - 0x%0llX", frames - i - 1, symbol->Name, symbol->Address); DWORD dwDisplacement; IMAGEHLP_LINE64 line; SymSetOptions(SYMOPT_LOAD_LINES); line.SizeOfStruct = sizeof(IMAGEHLP_LINE64); if (SymGetLineFromAddr64(process, (DWORD64)(stack[i]), &dwDisplacement, &line)) { // SymGetLineFromAddr64 returned success std::fprintf(stderr, " LINE %d\n", int(line.LineNumber)); } else { std::fputc('\n', stderr); } } std::fflush(stderr); std::free(symbol); #endif KillProcessTree(); // If you caught one of the above signals, it is likely you just // want to quit your program right now. #ifndef NDEBUG signal(SIGABRT, SIG_DFL); abort(); #else exit(1); #endif } #elif defined(__SWITCH__) [[noreturn]] void logvisorAbort() { MainLoggers.clear(); nvExit(); exit(1); } #else void KillProcessTree() {} #include [[noreturn]] void logvisorAbort() { void* array[128]; size_t size = backtrace(array, 128); constexpr size_t exeBufSize = 1024 + 1; char exeNameBuffer[exeBufSize] = {}; #if __linux__ readlink("/proc/self/exe", exeNameBuffer, exeBufSize); #endif #if __APPLE__ std::string cmdLineStr = fmt::format(FMT_STRING("atos -p {}"), getpid()); #else std::string cmdLineStr = fmt::format(FMT_STRING("2>/dev/null addr2line -C -f -e \"{}\""), exeNameBuffer); #endif for (size_t i = 0; i < size; i++) { #if __linux__ Dl_info dlip; if (dladdr(array[i], &dlip)) cmdLineStr += fmt::format(FMT_STRING(" 0x{:016X}"), (uintptr_t)((uint8_t*)array[i] - (uint8_t*)dlip.dli_fbase)); else cmdLineStr += fmt::format(FMT_STRING(" 0x{:016X}"), (uintptr_t)array[i]); #else cmdLineStr += fmt::format(FMT_STRING(" 0x{:016X}"), (uintptr_t)array[i]); #endif } FILE* fp = popen(cmdLineStr.c_str(), "r"); if (fp) { char readBuf[256]; size_t readSz; while ((readSz = fread(readBuf, 1, 256, fp))) std::fwrite(readBuf, 1, readSz, stderr); pclose(fp); } else { for (size_t i = 0; i < size; i++) { std::fputs("- ", stderr); Dl_info dlip; if (dladdr(array[i], &dlip)) { int status; char* demangledName = abi::__cxa_demangle(dlip.dli_sname, nullptr, nullptr, &status); std::fprintf(stderr, "%p(%s+%p)\n", dlip.dli_saddr, demangledName ? demangledName : dlip.dli_sname, (void*)((uint8_t*)array[i] - (uint8_t*)dlip.dli_fbase)); std::free(demangledName); } else { std::fprintf(stderr, "%p\n", array[i]); } } } std::fflush(stderr); std::fflush(stdout); KillProcessTree(); #ifndef NDEBUG signal(SIGABRT, SIG_DFL); abort(); #else exit(1); #endif } #endif LogMutex _LogMutex; static void AbortHandler(int signum) { _LogMutex.enabled = false; switch (signum) { case SIGSEGV: Log.report(logvisor::Fatal, FMT_STRING("Segmentation Fault")); break; case SIGILL: Log.report(logvisor::Fatal, FMT_STRING("Bad Execution")); break; case SIGFPE: Log.report(logvisor::Fatal, FMT_STRING("Floating Point Exception")); break; case SIGABRT: Log.report(logvisor::Fatal, FMT_STRING("Abort Signal")); break; default: Log.report(logvisor::Fatal, FMT_STRING("unknown signal {}"), signum); break; } } uint64_t _LogCounter; std::vector> MainLoggers; std::atomic_size_t ErrorCount(0); static std::chrono::steady_clock MonoClock; static std::chrono::steady_clock::time_point GlobalStart = MonoClock.now(); static inline std::chrono::steady_clock::duration CurrentUptime() { return MonoClock.now() - GlobalStart; } std::atomic_uint_fast64_t FrameIndex(0); static inline int ConsoleWidth() { int retval = 80; #if _WIN32 #if !WINDOWS_STORE CONSOLE_SCREEN_BUFFER_INFO info; GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &info); retval = info.dwSize.X - 1; #endif #elif defined(__SWITCH__) return 80; #else struct winsize w; if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &w) != -1) retval = w.ws_col; #endif if (retval < 10) return 10; return retval; } #if LOGVISOR_NX_LM struct ConsoleLogger : public ILogger { Service m_svc{}; Service m_logger{}; bool m_ready = false; struct MessageHeader { enum Flags : u32 { IsHead = 1, IsTail = 2, }; enum Severity : u32 { Trace, Info, Warning, Error, Critical, }; u64 pid; u64 thread_context; //union { //BitField<0, 16, Flags> flags; //BitField<16, 8, Severity> severity; //BitField<24, 8, u32> verbosity; //}; u32 flags; u32 payload_size; Flags GetFlags() const { return Flags(flags & u32(0xffff)); } void SetFlags(Flags f) { flags &= ~u32(0xffff); flags |= f; } Severity GetSeverity() const { return Severity((flags >> u32(16)) & u32(0xff)); } void SetSeverity(Severity f) { flags &= ~u32(0xff0000); flags |= f << u32(16); } u32 GetVerbosity() const { return u32((flags >> u32(24)) & u32(0xff)); } void SetVerbosity(u32 f) { flags &= ~u32(0xff000000); flags |= f << u32(24); } bool IsHeadLog() const { return flags & IsHead; } bool IsTailLog() const { return flags & IsTail; } }; static_assert(sizeof(MessageHeader) == 0x18, "MessageHeader is incorrect size"); enum class Field : u8 { Skip = 1, Message = 2, Line = 3, Filename = 4, Function = 5, Module = 6, Thread = 7, }; static constexpr MessageHeader::Severity LevelToSeverity(Level l) { switch (l) { case Level::Info: default: return MessageHeader::Info; case Level::Warning: return MessageHeader::Warning; case Level::Error: return MessageHeader::Error; case Level::Fatal: return MessageHeader::Critical; } } ConsoleLogger() { if (R_SUCCEEDED(smGetService(&m_svc, "lm"))) { auto pid = getpid(); if (R_SUCCEEDED(serviceDispatchIn(&m_svc, 0, pid, .out_num_objects = 1, .out_objects = &m_logger))) { m_ready = true; MessageHeader head{}; head.pid = getpid(); head.SetFlags(MessageHeader::IsHead); serviceDispatch(&m_logger, 0, .buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In }, .buffers = { { &head, sizeof(head) } }); } } } ~ConsoleLogger() override { if (m_ready) { MessageHeader head{}; head.pid = getpid(); head.SetFlags(MessageHeader::IsTail); serviceDispatch(&m_logger, 0, .buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In }, .buffers = { { &head, sizeof(head) } }); } serviceClose(&m_logger); serviceClose(&m_svc); } void SendBuffer(const std::vector& buf) { serviceDispatch(&m_logger, 0, .buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In }, .buffers = { { buf.data(), buf.size() } }); } void report(const char* modName, Level severity, fmt::string_view format, fmt::format_args args) override { if (!m_ready) return; const std::thread::id thrId = std::this_thread::get_id(); const char* thrName = nullptr; size_t thrNameSize = 0; if (ThreadMap.find(thrId) != ThreadMap.end()) { thrName = ThreadMap[thrId]; thrNameSize = std::min(std::strlen(thrName), size_t(255)); } auto modNameSize = std::min(std::strlen(modName), size_t(255)); auto message = fmt::vformat(format, args); auto messageSize = std::min(message.size(), size_t(255)); std::vector bufOut(sizeof(MessageHeader) + (thrNameSize ? 2 + thrNameSize : 0) + 2 + modNameSize + 2 + messageSize, '\0'); auto it = bufOut.begin(); auto& head = *reinterpret_cast(&*it); head.pid = getpid(); head.payload_size = bufOut.size() - sizeof(MessageHeader); head.SetSeverity(LevelToSeverity(severity)); it += sizeof(MessageHeader); if (thrNameSize) { *it++ = u8(Field::Thread); *it++ = thrNameSize; std::memcpy(&*it, thrName, thrNameSize); it += thrNameSize; } *it++ = u8(Field::Module); *it++ = modNameSize; std::memcpy(&*it, modName, modNameSize); it += modNameSize; *it++ = u8(Field::Message); *it++ = messageSize; std::memcpy(&*it, message.data(), messageSize); it += messageSize; SendBuffer(bufOut); } void report(const char* modName, Level severity, fmt::wstring_view format, fmt::wformat_args args) override {} void reportSource(const char* modName, Level severity, const char* file, unsigned linenum, fmt::string_view format, fmt::format_args args) override { if (!m_ready) return; const std::thread::id thrId = std::this_thread::get_id(); const char* thrName = nullptr; size_t thrNameSize = 0; if (ThreadMap.find(thrId) != ThreadMap.end()) { thrName = ThreadMap[thrId]; thrNameSize = std::min(std::strlen(thrName), size_t(255)); } auto modNameSize = std::min(std::strlen(modName), size_t(255)); auto fileNameSize = std::min(std::strlen(file), size_t(255)); auto message = fmt::vformat(format, args); auto messageSize = std::min(message.size(), size_t(255)); std::vector bufOut(sizeof(MessageHeader) + (thrNameSize ? 2 + thrNameSize : 0) + 2 + modNameSize + 2 + fileNameSize + 3 + 4 + 2 + messageSize, '\0'); auto it = bufOut.begin(); auto& head = *reinterpret_cast(&*it); head.pid = getpid(); head.payload_size = bufOut.size() - sizeof(MessageHeader); head.SetSeverity(LevelToSeverity(severity)); it += sizeof(MessageHeader); if (thrNameSize) { *it++ = u8(Field::Thread); *it++ = thrNameSize; std::memcpy(&*it, thrName, thrNameSize); it += thrNameSize; } *it++ = u8(Field::Module); *it++ = modNameSize; std::memcpy(&*it, modName, modNameSize); it += modNameSize; *it++ = u8(Field::Filename); *it++ = fileNameSize; std::memcpy(&*it, file, fileNameSize); it += fileNameSize; *it++ = u8(Field::Line); *it++ = 4; *it++ = u8(Field::Skip); std::memcpy(&*it, &linenum, 4); it += 4; *it++ = u8(Field::Message); *it++ = messageSize; std::memcpy(&*it, message.data(), messageSize); it += messageSize; SendBuffer(bufOut); } void reportSource(const char* modName, Level severity, const char* file, unsigned linenum, fmt::wstring_view format, fmt::wformat_args args) override {} }; #else #if _WIN32 static HANDLE Term = 0; #else static const char* Term = nullptr; #endif bool XtermColor = false; struct ConsoleLogger : public ILogger { ConsoleLogger() : ILogger(log_typeid(ConsoleLogger)) { #if _WIN32 #if !WINDOWS_STORE const char* conemuANSI = getenv("ConEmuANSI"); if (conemuANSI && !strcmp(conemuANSI, "ON")) XtermColor = true; #endif if (!Term) Term = GetStdHandle(STD_ERROR_HANDLE); #else if (!Term) { Term = getenv("TERM"); if (Term && !strncmp(Term, "xterm", 5)) { XtermColor = true; putenv((char*)"TERM=xterm-16color"); } } #endif } ~ConsoleLogger() override = default; static void _reportHead(const char* modName, const char* sourceInfo, Level severity) { /* Clear current line out */ const int width = ConsoleWidth(); std::fputc('\r', stderr); for (int w = 0; w < width; ++w) std::fputc(' ', stderr); std::fputc('\r', stderr); const std::chrono::steady_clock::duration tm = CurrentUptime(); const double tmd = tm.count() * std::chrono::steady_clock::duration::period::num / static_cast(std::chrono::steady_clock::duration::period::den); const std::thread::id thrId = std::this_thread::get_id(); const char* thrName = nullptr; if (ThreadMap.find(thrId) != ThreadMap.end()) thrName = ThreadMap[thrId]; if (XtermColor) { std::fputs(BOLD "[", stderr); fmt::print(stderr, FMT_STRING(GREEN "{:.4f} "), tmd); const uint_fast64_t fIdx = FrameIndex.load(); if (fIdx != 0) fmt::print(stderr, FMT_STRING("({}) "), fIdx); switch (severity) { case Info: std::fputs(BOLD CYAN "INFO", stderr); break; case Warning: std::fputs(BOLD YELLOW "WARNING", stderr); break; case Error: std::fputs(RED BOLD "ERROR", stderr); break; case Fatal: std::fputs(BOLD RED "FATAL ERROR", stderr); break; default: break; }; fmt::print(stderr, FMT_STRING(NORMAL BOLD " {}"), modName); if (sourceInfo) fmt::print(stderr, FMT_STRING(BOLD YELLOW " {{}}"), sourceInfo); if (thrName) fmt::print(stderr, FMT_STRING(BOLD MAGENTA " ({})"), thrName); std::fputs(NORMAL BOLD "] " NORMAL, stderr); } else { #if _WIN32 #if !WINDOWS_STORE SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_WHITE); std::fputc('[', stderr); SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_GREEN); fmt::print(stderr, FMT_STRING("{:.4f} "), tmd); const uint64_t fi = FrameIndex.load(); if (fi != 0) std::fprintf(stderr, "(%" PRIu64 ") ", fi); switch (severity) { case Info: SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_GREEN | FOREGROUND_BLUE); std::fputs("INFO", stderr); break; case Warning: SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_GREEN); std::fputs("WARNING", stderr); break; case Error: SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_RED); std::fputs("ERROR", stderr); break; case Fatal: SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_RED); std::fputs("FATAL ERROR", stderr); break; default: break; } SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_WHITE); fmt::print(stderr, FMT_STRING(" {}"), modName); SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_GREEN); if (sourceInfo) fmt::print(stderr, FMT_STRING(" {{}}"), sourceInfo); SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_BLUE); if (thrName) fmt::print(stderr, FMT_STRING(" ({})"), thrName); SetConsoleTextAttribute(Term, FOREGROUND_INTENSITY | FOREGROUND_WHITE); std::fputs("] ", stderr); SetConsoleTextAttribute(Term, FOREGROUND_WHITE); #endif #else std::fputc('[', stderr); fmt::print(stderr, FMT_STRING("{:.4f} "), tmd); uint_fast64_t fIdx = FrameIndex.load(); if (fIdx) fmt::print(stderr, FMT_STRING("({}) "), fIdx); switch (severity) { case Info: std::fputs("INFO", stderr); break; case Warning: std::fputs("WARNING", stderr); break; case Error: std::fputs("ERROR", stderr); break; case Fatal: std::fputs("FATAL ERROR", stderr); break; default: break; } fmt::print(stderr, FMT_STRING(" {}"), modName); if (sourceInfo) fmt::print(stderr, FMT_STRING(" {{}}"), sourceInfo); if (thrName) fmt::print(stderr, FMT_STRING(" ({})"), thrName); std::fputs("] ", stderr); #endif } } void report(const char* modName, Level severity, fmt::string_view format, fmt::format_args args) override { _reportHead(modName, nullptr, severity); fmt::vprint(stderr, format, args); std::fputc('\n', stderr); std::fflush(stderr); } void report(const char* modName, Level severity, fmt::wstring_view format, fmt::wformat_args args) override { _reportHead(modName, nullptr, severity); fmt::vprint(stderr, format, args); std::fputc('\n', stderr); std::fflush(stderr); } void reportSource(const char* modName, Level severity, const char* file, unsigned linenum, fmt::string_view format, fmt::format_args args) override { _reportHead(modName, fmt::format(FMT_STRING("{}:{}"), file, linenum).c_str(), severity); fmt::vprint(stderr, format, args); std::fputc('\n', stderr); std::fflush(stderr); } void reportSource(const char* modName, Level severity, const char* file, unsigned linenum, fmt::wstring_view format, fmt::wformat_args args) override { _reportHead(modName, fmt::format(FMT_STRING("{}:{}"), file, linenum).c_str(), severity); fmt::vprint(stderr, format, args); std::fputc('\n', stderr); std::fflush(stderr); } }; #endif static bool ConsoleLoggerRegistered = false; void RegisterConsoleLogger() { /* Otherwise construct new console logger */ if (!ConsoleLoggerRegistered) { MainLoggers.emplace_back(new ConsoleLogger); ConsoleLoggerRegistered = true; } } #if _WIN32 void CreateWin32Console() { #if !WINDOWS_STORE /* Debug console */ AllocConsole(); std::freopen("CONIN$", "r", stdin); std::freopen("CONOUT$", "w", stdout); std::freopen("CONOUT$", "w", stderr); #endif } #endif void RegisterStandardExceptions() { signal(SIGABRT, AbortHandler); signal(SIGSEGV, AbortHandler); signal(SIGILL, AbortHandler); signal(SIGFPE, AbortHandler); } #if SENTRY_ENABLED void RegisterSentry(const char* appName, const char* appVersion, const char* cacheDir) { sentry_options_t *options = sentry_options_new(); sentry_options_set_database_path(options, cacheDir); sentry_options_set_auto_session_tracking(options, true); sentry_options_set_symbolize_stacktraces(options, true); sentry_options_set_dsn(options, SENTRY_DSN); #ifdef NDEBUG sentry_options_set_environment(options, "release"); #else sentry_options_set_environment(options, "debug"); #endif std::string release = fmt::format(FMT_STRING("{}@{}"), appName, appVersion); sentry_options_set_release(options, release.c_str()); sentry_init(options); } #endif struct FileLogger : public ILogger { FILE* fp = nullptr; FileLogger(uint64_t typeHash) : ILogger(typeHash) {} virtual void openFile() = 0; void openFileIfNeeded() { if (!fp) { openFile(); } } virtual void closeFile() { if (fp) { std::fclose(fp); fp = nullptr; } } virtual ~FileLogger() { closeFile(); } void _reportHead(const char* modName, const char* sourceInfo, Level severity) { const std::chrono::steady_clock::duration tm = CurrentUptime(); const double tmd = tm.count() * std::chrono::steady_clock::duration::period::num / static_cast(std::chrono::steady_clock::duration::period::den); const std::thread::id thrId = std::this_thread::get_id(); const char* thrName = nullptr; if (ThreadMap.find(thrId) != ThreadMap.end()) { thrName = ThreadMap[thrId]; } std::fputc('[', fp); std::fprintf(fp, "%5.4f ", tmd); const uint_fast64_t fIdx = FrameIndex.load(); if (fIdx != 0) { std::fprintf(fp, "(%" PRIu64 ") ", fIdx); } switch (severity) { case Info: std::fputs("INFO", fp); break; case Warning: std::fputs("WARNING", fp); break; case Error: std::fputs("ERROR", fp); break; case Fatal: std::fputs("FATAL ERROR", fp); break; default: break; }; std::fprintf(fp, " %s", modName); if (sourceInfo) { std::fprintf(fp, " {%s}", sourceInfo); } if (thrName) { std::fprintf(fp, " (%s)", thrName); } std::fputs("] ", fp); } void report(const char* modName, Level severity, fmt::string_view format, fmt::format_args args) override { openFileIfNeeded(); _reportHead(modName, nullptr, severity); fmt::vprint(fp, format, args); std::fputc('\n', fp); } void report(const char* modName, Level severity, fmt::wstring_view format, fmt::wformat_args args) override { openFileIfNeeded(); _reportHead(modName, nullptr, severity); fmt::vprint(fp, format, args); std::fputc('\n', fp); } void reportSource(const char* modName, Level severity, const char* file, unsigned linenum, fmt::string_view format, fmt::format_args args) override { openFileIfNeeded(); _reportHead(modName, fmt::format(FMT_STRING("{}:{}"), file, linenum).c_str(), severity); fmt::vprint(fp, format, args); std::fputc('\n', fp); } void reportSource(const char* modName, Level severity, const char* file, unsigned linenum, fmt::wstring_view format, fmt::wformat_args args) override { openFileIfNeeded(); _reportHead(modName, fmt::format(FMT_STRING("{}:{}"), file, linenum).c_str(), severity); fmt::vprint(fp, format, args); std::fputc('\n', fp); } }; struct FileLogger8 : public FileLogger { const char* m_filepath; FileLogger8(const char* filepath) : FileLogger(log_typeid(FileLogger8)), m_filepath(filepath) {} void openFile() override { fp = std::fopen(m_filepath, "a"); } ~FileLogger8() override = default; }; void RegisterFileLogger(const char* filepath) { /* Otherwise construct new file logger */ MainLoggers.emplace_back(new FileLogger8(filepath)); } #if LOG_UCS2 struct FileLogger16 : public FileLogger { const wchar_t* m_filepath; FileLogger16(const wchar_t* filepath) : FileLogger(log_typeid(FileLogger16)), m_filepath(filepath) {} void openFile() override { fp = _wfopen(m_filepath, L"a"); } ~FileLogger16() override = default; }; void RegisterFileLogger(const wchar_t* filepath) { /* Determine if file logger already added */ for (const auto& logger : MainLoggers) { if (logger->getTypeId() == log_typeid(FileLogger16)) { const auto* fl = static_cast(logger.get()); if (!wcscmp(filepath, fl->m_filepath)) { return; } } } /* Otherwise construct new file logger */ MainLoggers.emplace_back(new FileLogger16(filepath)); } #endif } // namespace logvisor