#include "pch.h" #include "crashhandler.h" #include "dedicated/dedicated.h" #include "config/profile.h" #include "util/version.h" #include "mods/modmanager.h" #include HANDLE hExceptionFilter; std::shared_ptr storedException {}; #define RUNTIME_EXCEPTION 3765269347 // clang format did this :/ std::map ExceptionNames = { {EXCEPTION_ACCESS_VIOLATION, "Access Violation"}, {EXCEPTION_IN_PAGE_ERROR, "Access Violation"}, {EXCEPTION_ARRAY_BOUNDS_EXCEEDED, "Array bounds exceeded"}, {EXCEPTION_DATATYPE_MISALIGNMENT, "Datatype misalignment"}, {EXCEPTION_FLT_DENORMAL_OPERAND, "Denormal operand"}, {EXCEPTION_FLT_DIVIDE_BY_ZERO, "Divide by zero (float)"}, {EXCEPTION_FLT_INEXACT_RESULT, "Inexact float result"}, {EXCEPTION_FLT_INVALID_OPERATION, "Invalid operation"}, {EXCEPTION_FLT_OVERFLOW, "Numeric overflow (float)"}, {EXCEPTION_FLT_STACK_CHECK, "Stack check"}, {EXCEPTION_FLT_UNDERFLOW, "Numeric underflow (float)"}, {EXCEPTION_ILLEGAL_INSTRUCTION, "Illegal instruction"}, {EXCEPTION_INT_DIVIDE_BY_ZERO, "Divide by zero (int)"}, {EXCEPTION_INT_OVERFLOW, "Numeric overfloat (int)"}, {EXCEPTION_INVALID_DISPOSITION, "Invalid disposition"}, {EXCEPTION_NONCONTINUABLE_EXCEPTION, "Non-continuable exception"}, {EXCEPTION_PRIV_INSTRUCTION, "Priviledged instruction"}, {EXCEPTION_STACK_OVERFLOW, "Stack overflow"}, {RUNTIME_EXCEPTION, "Uncaught runtime exception:"}, }; void PrintExceptionLog(ExceptionLog& exc) { // General crash message spdlog::error("Northstar version: {}", version); spdlog::error("Northstar has crashed! a minidump has been written and exception info is available below:"); if (g_pModManager) { spdlog::error("Loaded mods: "); for (const Mod& mod : g_pModManager->GetMods()) { if (mod.m_bEnabled) spdlog::error("{} {}", mod.Name, mod.Version); } } spdlog::error(exc.cause); // If this was a runtime error, print the message if (exc.runtimeInfo.length() != 0) spdlog::error("\"{}\"", exc.runtimeInfo); spdlog::error("At: {} + {}", exc.trace[0].name, exc.trace[0].relativeAddress); spdlog::error(""); spdlog::error("Stack trace:"); // Generate format string for stack trace std::stringstream formatString; formatString << " {:<" << exc.longestModuleNameLength + 2 << "} {:<" << exc.longestRelativeAddressLength << "} {}"; std::string guide = fmt::format(formatString.str(), "Module Name", "Offset", "Full Address"); std::string line(guide.length() + 2, '-'); spdlog::error(guide); spdlog::error(line); for (const auto& module : exc.trace) spdlog::error(formatString.str(), module.name, module.relativeAddress, module.address); // Print dump of most CPU registers spdlog::error(""); for (const auto& reg : exc.registerDump) spdlog::error(reg); if (!IsDedicatedServer()) MessageBoxA( 0, "Northstar has crashed! Crash info can be found in R2Northstar/logs", "Northstar has crashed!", MB_ICONERROR | MB_OK | MB_SYSTEMMODAL); NS::log::FlushLoggers(); } std::string GetExceptionName(ExceptionLog& exc) { const DWORD exceptionCode = exc.exceptionRecord.ExceptionCode; auto name = ExceptionNames[exceptionCode]; if (exceptionCode == EXCEPTION_ACCESS_VIOLATION || exceptionCode == EXCEPTION_IN_PAGE_ERROR) { std::stringstream returnString; returnString << name << ": "; auto exceptionInfo0 = exc.exceptionRecord.ExceptionInformation[0]; auto exceptionInfo1 = exc.exceptionRecord.ExceptionInformation[1]; if (!exceptionInfo0) returnString << "Attempted to read from: 0x" << (void*)exceptionInfo1; else if (exceptionInfo0 == 1) returnString << "Attempted to write to: 0x" << (void*)exceptionInfo1; else if (exceptionInfo0 == 8) returnString << "Data Execution Prevention (DEP) at: 0x" << (void*)std::hex << exceptionInfo1; else returnString << "Unknown access violation at: 0x" << (void*)exceptionInfo1; return returnString.str(); } return name; } // Custom formatter for the Xmm registers template <> struct fmt::formatter : fmt::formatter { template auto format(const M128A& obj, FormatContext& ctx) { // Masking the top and bottom half of the long long int v1 = obj.Low & INT_MAX; int v2 = obj.Low >> 32; int v3 = obj.High & INT_MAX; int v4 = obj.High >> 32; return fmt::format_to( ctx.out(), "[ {:G}, {:G}, {:G}, {:G}], [ 0x{:x}, 0x{:x}, 0x{:x}, 0x{:x} ]", *reinterpret_cast(&v1), *reinterpret_cast(&v2), *reinterpret_cast(&v3), *reinterpret_cast(&v4), v1, v2, v3, v4); } }; void GenerateTrace(ExceptionLog& exc, bool skipErrorHandlingFrames = true, int numSkipFrames = 0) { MODULEINFO crashedModuleInfo; GetModuleInformation(GetCurrentProcess(), exc.crashedModule, &crashedModuleInfo, sizeof(crashedModuleInfo)); char crashedModuleFullName[MAX_PATH]; GetModuleFileNameExA(GetCurrentProcess(), exc.crashedModule, crashedModuleFullName, MAX_PATH); char* crashedModuleName = strrchr(crashedModuleFullName, '\\') + 1; DWORD64 crashedModuleOffset = ((DWORD64)exc.exceptionRecord.ExceptionAddress) - ((DWORD64)crashedModuleInfo.lpBaseOfDll); PVOID framesToCapture[62]; int frames = RtlCaptureStackBackTrace(0, 62, framesToCapture, NULL); bool haveSkippedErrorHandlingFrames = false; for (int i = 0; i < frames; i++) { HMODULE backtraceModuleHandle; GetModuleHandleExA(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, static_cast(framesToCapture[i]), &backtraceModuleHandle); char backtraceModuleFullName[MAX_PATH]; GetModuleFileNameExA(GetCurrentProcess(), backtraceModuleHandle, backtraceModuleFullName, MAX_PATH); char* backtraceModuleName = strrchr(backtraceModuleFullName, '\\') + 1; if (!haveSkippedErrorHandlingFrames) { if (!strncmp(backtraceModuleFullName, crashedModuleFullName, MAX_PATH) && !strncmp(backtraceModuleName, crashedModuleName, MAX_PATH)) { haveSkippedErrorHandlingFrames = true; } else { continue; } } if (numSkipFrames > 0) { numSkipFrames--; continue; } void* actualAddress = (void*)framesToCapture[i]; void* relativeAddress = (void*)(uintptr_t(actualAddress) - uintptr_t(backtraceModuleHandle)); std::string s_moduleName {backtraceModuleName}; std::string s_relativeAddress {fmt::format("{}", relativeAddress)}; // These are used for formatting later on if (s_moduleName.length() > exc.longestModuleNameLength) { exc.longestModuleNameLength = s_moduleName.length(); } if (s_relativeAddress.length() > exc.longestRelativeAddressLength) { exc.longestRelativeAddressLength = s_relativeAddress.length(); } exc.trace.push_back(BacktraceModule {s_moduleName, s_relativeAddress, fmt::format("{}", actualAddress)}); } CONTEXT* exceptionContext = &exc.contextRecord; exc.registerDump.push_back(fmt::format("Flags: 0b{0:b}", exceptionContext->ContextFlags)); exc.registerDump.push_back(fmt::format("RIP: 0x{0:x}", exceptionContext->Rip)); exc.registerDump.push_back(fmt::format("CS : 0x{0:x}", exceptionContext->SegCs)); exc.registerDump.push_back(fmt::format("DS : 0x{0:x}", exceptionContext->SegDs)); exc.registerDump.push_back(fmt::format("ES : 0x{0:x}", exceptionContext->SegEs)); exc.registerDump.push_back(fmt::format("SS : 0x{0:x}", exceptionContext->SegSs)); exc.registerDump.push_back(fmt::format("FS : 0x{0:x}", exceptionContext->SegFs)); exc.registerDump.push_back(fmt::format("GS : 0x{0:x}", exceptionContext->SegGs)); exc.registerDump.push_back(fmt::format("RAX: 0x{0:x}", exceptionContext->Rax)); exc.registerDump.push_back(fmt::format("RBX: 0x{0:x}", exceptionContext->Rbx)); exc.registerDump.push_back(fmt::format("RCX: 0x{0:x}", exceptionContext->Rcx)); exc.registerDump.push_back(fmt::format("RDX: 0x{0:x}", exceptionContext->Rdx)); exc.registerDump.push_back(fmt::format("RSI: 0x{0:x}", exceptionContext->Rsi)); exc.registerDump.push_back(fmt::format("RDI: 0x{0:x}", exceptionContext->Rdi)); exc.registerDump.push_back(fmt::format("RBP: 0x{0:x}", exceptionContext->Rbp)); exc.registerDump.push_back(fmt::format("RSP: 0x{0:x}", exceptionContext->Rsp)); exc.registerDump.push_back(fmt::format("R8 : 0x{0:x}", exceptionContext->R8)); exc.registerDump.push_back(fmt::format("R9 : 0x{0:x}", exceptionContext->R9)); exc.registerDump.push_back(fmt::format("R10: 0x{0:x}", exceptionContext->R10)); exc.registerDump.push_back(fmt::format("R11: 0x{0:x}", exceptionContext->R11)); exc.registerDump.push_back(fmt::format("R12: 0x{0:x}", exceptionContext->R12)); exc.registerDump.push_back(fmt::format("R13: 0x{0:x}", exceptionContext->R13)); exc.registerDump.push_back(fmt::format("R14: 0x{0:x}", exceptionContext->R14)); exc.registerDump.push_back(fmt::format("R15: 0x{0:x}", exceptionContext->R15)); exc.registerDump.push_back(fmt::format("Xmm0 : {}", exceptionContext->Xmm0)); exc.registerDump.push_back(fmt::format("Xmm1 : {}", exceptionContext->Xmm1)); exc.registerDump.push_back(fmt::format("Xmm2 : {}", exceptionContext->Xmm2)); exc.registerDump.push_back(fmt::format("Xmm3 : {}", exceptionContext->Xmm3)); exc.registerDump.push_back(fmt::format("Xmm4 : {}", exceptionContext->Xmm4)); exc.registerDump.push_back(fmt::format("Xmm5 : {}", exceptionContext->Xmm5)); exc.registerDump.push_back(fmt::format("Xmm6 : {}", exceptionContext->Xmm6)); exc.registerDump.push_back(fmt::format("Xmm7 : {}", exceptionContext->Xmm7)); exc.registerDump.push_back(fmt::format("Xmm8 : {}", exceptionContext->Xmm8)); exc.registerDump.push_back(fmt::format("Xmm9 : {}", exceptionContext->Xmm9)); exc.registerDump.push_back(fmt::format("Xmm10: {}", exceptionContext->Xmm10)); exc.registerDump.push_back(fmt::format("Xmm11: {}", exceptionContext->Xmm11)); exc.registerDump.push_back(fmt::format("Xmm12: {}", exceptionContext->Xmm12)); exc.registerDump.push_back(fmt::format("Xmm13: {}", exceptionContext->Xmm13)); exc.registerDump.push_back(fmt::format("Xmm14: {}", exceptionContext->Xmm14)); exc.registerDump.push_back(fmt::format("Xmm15: {}", exceptionContext->Xmm15)); } void CreateMiniDump(EXCEPTION_POINTERS* exceptionInfo) { time_t time = std::time(nullptr); tm currentTime = *std::localtime(&time); std::stringstream stream; stream << std::put_time(¤tTime, (GetNorthstarPrefix() + "/logs/nsdump%Y-%m-%d %H-%M-%S.dmp").c_str()); auto hMinidumpFile = CreateFileA(stream.str().c_str(), GENERIC_WRITE, FILE_SHARE_READ, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); if (hMinidumpFile) { MINIDUMP_EXCEPTION_INFORMATION dumpExceptionInfo; dumpExceptionInfo.ThreadId = GetCurrentThreadId(); dumpExceptionInfo.ExceptionPointers = exceptionInfo; dumpExceptionInfo.ClientPointers = false; MiniDumpWriteDump( GetCurrentProcess(), GetCurrentProcessId(), hMinidumpFile, MINIDUMP_TYPE(MiniDumpWithIndirectlyReferencedMemory | MiniDumpScanMemory), &dumpExceptionInfo, nullptr, nullptr); CloseHandle(hMinidumpFile); } else spdlog::error("Failed to write minidump file {}!", stream.str()); } long GenerateExceptionLog(EXCEPTION_POINTERS* exceptionInfo) { storedException->exceptionRecord = *exceptionInfo->ExceptionRecord; storedException->contextRecord = *exceptionInfo->ContextRecord; const DWORD exceptionCode = exceptionInfo->ExceptionRecord->ExceptionCode; void* exceptionAddress = exceptionInfo->ExceptionRecord->ExceptionAddress; storedException->cause = GetExceptionName(*storedException); HMODULE crashedModuleHandle; GetModuleHandleExA(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, static_cast(exceptionAddress), &crashedModuleHandle); storedException->crashedModule = crashedModuleHandle; // When encountering a runtime exception, we store the exception to be displayed later // We then have to return EXCEPTION_CONTINUE_SEARCH so that our runtime handler may be called // This might possibly cause some issues if client and server are crashing at the same time, but honestly i don't care if (exceptionCode == RUNTIME_EXCEPTION) { GenerateTrace(*storedException, false, 2); storedException = storedException; return EXCEPTION_CONTINUE_SEARCH; } GenerateTrace(*storedException, true, 0); CreateMiniDump(exceptionInfo); PrintExceptionLog(*storedException); return EXCEPTION_EXECUTE_HANDLER; } long __stdcall ExceptionFilter(EXCEPTION_POINTERS* exceptionInfo) { if (!IsDebuggerPresent()) { // Check if we are capable of handling this type of exception if (ExceptionNames.find(exceptionInfo->ExceptionRecord->ExceptionCode) == ExceptionNames.end()) return EXCEPTION_CONTINUE_SEARCH; if (exceptionInfo->ExceptionRecord->ExceptionCode == RUNTIME_EXCEPTION) { storedException = std::make_shared(); storedException->exceptionRecord = *exceptionInfo->ExceptionRecord; storedException->contextRecord = *exceptionInfo->ContextRecord; } else { CreateMiniDump(exceptionInfo); return GenerateExceptionLog(exceptionInfo); } } return EXCEPTION_EXECUTE_HANDLER; } void RuntimeExceptionHandler() { auto ptr = std::current_exception(); if (ptr) { try { // This is to generate an actual std::exception object that we can then inspect std::rethrow_exception(ptr); } catch (std::exception& e) { storedException->runtimeInfo = e.what(); } catch (...) { storedException->runtimeInfo = "Unknown runtime exception type"; } EXCEPTION_POINTERS test {}; test.ContextRecord = &storedException->contextRecord; test.ExceptionRecord = &storedException->exceptionRecord; CreateMiniDump(&test); GenerateExceptionLog(&test); PrintExceptionLog(*storedException); exit(-1); } else { spdlog::error( "std::current_exception() returned nullptr while being handled by RuntimeExceptionHandler. This should never happen!"); std::abort(); } } BOOL WINAPI ConsoleHandlerRoutine(DWORD eventCode) { switch (eventCode) { case CTRL_CLOSE_EVENT: // User closed console, shut everything down spdlog::info("Exiting due to console close..."); RemoveCrashHandler(); exit(EXIT_SUCCESS); return FALSE; } return TRUE; } void InitialiseCrashHandler() { hExceptionFilter = AddVectoredExceptionHandler(TRUE, ExceptionFilter); SetConsoleCtrlHandler(ConsoleHandlerRoutine, true); std::set_terminate(RuntimeExceptionHandler); } void RemoveCrashHandler() { RemoveVectoredExceptionHandler(hExceptionFilter); }