#include #include #include "node_errors.h" #include "node_internals.h" #ifdef NODE_REPORT #include "node_report.h" #endif #include "node_process.h" #include "node_v8_platform-inl.h" #include "util-inl.h" namespace node { using errors::TryCatchScope; using v8::Boolean; using v8::Context; using v8::Exception; using v8::Function; using v8::FunctionCallbackInfo; using v8::HandleScope; using v8::Int32; using v8::Isolate; using v8::Just; using v8::Local; using v8::Maybe; using v8::MaybeLocal; using v8::Message; using v8::Number; using v8::Object; using v8::ScriptOrigin; using v8::StackFrame; using v8::StackTrace; using v8::String; using v8::Undefined; using v8::Value; bool IsExceptionDecorated(Environment* env, Local er) { if (!er.IsEmpty() && er->IsObject()) { Local err_obj = er.As(); auto maybe_value = err_obj->GetPrivate(env->context(), env->decorated_private_symbol()); Local decorated; return maybe_value.ToLocal(&decorated) && decorated->IsTrue(); } return false; } namespace per_process { static Mutex tty_mutex; } // namespace per_process static const int kMaxErrorSourceLength = 1024; static std::string GetErrorSource(Isolate* isolate, Local context, Local message, bool* added_exception_line) { MaybeLocal source_line_maybe = message->GetSourceLine(context); node::Utf8Value encoded_source(isolate, source_line_maybe.ToLocalChecked()); std::string sourceline(*encoded_source, encoded_source.length()); if (sourceline.find("node-do-not-add-exception-line") != std::string::npos) { *added_exception_line = false; return sourceline; } // Because of how node modules work, all scripts are wrapped with a // "function (module, exports, __filename, ...) {" // to provide script local variables. // // When reporting errors on the first line of a script, this wrapper // function is leaked to the user. There used to be a hack here to // truncate off the first 62 characters, but it caused numerous other // problems when vm.runIn*Context() methods were used for non-module // code. // // If we ever decide to re-instate such a hack, the following steps // must be taken: // // 1. Pass a flag around to say "this code was wrapped" // 2. Update the stack frame output so that it is also correct. // // It would probably be simpler to add a line rather than add some // number of characters to the first line, since V8 truncates the // sourceline to 78 characters, and we end up not providing very much // useful debugging info to the user if we remove 62 characters. // Print (filename):(line number): (message). ScriptOrigin origin = message->GetScriptOrigin(); node::Utf8Value filename(isolate, message->GetScriptResourceName()); const char* filename_string = *filename; int linenum = message->GetLineNumber(context).FromJust(); int script_start = (linenum - origin.ResourceLineOffset()->Value()) == 1 ? origin.ResourceColumnOffset()->Value() : 0; int start = message->GetStartColumn(context).FromMaybe(0); int end = message->GetEndColumn(context).FromMaybe(0); if (start >= script_start) { CHECK_GE(end, start); start -= script_start; end -= script_start; } int max_off = kMaxErrorSourceLength - 2; char buf[kMaxErrorSourceLength]; int off = snprintf(buf, kMaxErrorSourceLength, "%s:%i\n%s\n", filename_string, linenum, sourceline.c_str()); CHECK_GE(off, 0); if (off > max_off) { off = max_off; } // Print wavy underline (GetUnderline is deprecated). for (int i = 0; i < start; i++) { if (sourceline[i] == '\0' || off >= max_off) { break; } CHECK_LT(off, max_off); buf[off++] = (sourceline[i] == '\t') ? '\t' : ' '; } for (int i = start; i < end; i++) { if (sourceline[i] == '\0' || off >= max_off) { break; } CHECK_LT(off, max_off); buf[off++] = '^'; } CHECK_LE(off, max_off); buf[off] = '\n'; buf[off + 1] = '\0'; *added_exception_line = true; return std::string(buf); } void PrintStackTrace(Isolate* isolate, Local stack) { for (int i = 0; i < stack->GetFrameCount() - 1; i++) { Local stack_frame = stack->GetFrame(isolate, i); node::Utf8Value fn_name_s(isolate, stack_frame->GetFunctionName()); node::Utf8Value script_name(isolate, stack_frame->GetScriptName()); const int line_number = stack_frame->GetLineNumber(); const int column = stack_frame->GetColumn(); if (stack_frame->IsEval()) { if (stack_frame->GetScriptId() == Message::kNoScriptIdInfo) { fprintf(stderr, " at [eval]:%i:%i\n", line_number, column); } else { fprintf(stderr, " at [eval] (%s:%i:%i)\n", *script_name, line_number, column); } break; } if (fn_name_s.length() == 0) { fprintf(stderr, " at %s:%i:%i\n", *script_name, line_number, column); } else { fprintf(stderr, " at %s (%s:%i:%i)\n", *fn_name_s, *script_name, line_number, column); } } fflush(stderr); } void PrintException(Isolate* isolate, Local context, Local err, Local message) { node::Utf8Value reason(isolate, err->ToDetailString(context) .FromMaybe(Local())); bool added_exception_line = false; std::string source = GetErrorSource(isolate, context, message, &added_exception_line); fprintf(stderr, "%s\n", source.c_str()); fprintf(stderr, "%s\n", *reason); Local stack = message->GetStackTrace(); if (!stack.IsEmpty()) PrintStackTrace(isolate, stack); } void PrintCaughtException(Isolate* isolate, Local context, const v8::TryCatch& try_catch) { CHECK(try_catch.HasCaught()); PrintException(isolate, context, try_catch.Exception(), try_catch.Message()); } void AppendExceptionLine(Environment* env, Local er, Local message, enum ErrorHandlingMode mode) { if (message.IsEmpty()) return; HandleScope scope(env->isolate()); Local err_obj; if (!er.IsEmpty() && er->IsObject()) { err_obj = er.As(); } bool added_exception_line = false; std::string source = GetErrorSource( env->isolate(), env->context(), message, &added_exception_line); if (!added_exception_line) { return; } MaybeLocal arrow_str = ToV8Value(env->context(), source); const bool can_set_arrow = !arrow_str.IsEmpty() && !err_obj.IsEmpty(); // If allocating arrow_str failed, print it out. There's not much else to do. // If it's not an error, but something needs to be printed out because // it's a fatal exception, also print it out from here. // Otherwise, the arrow property will be attached to the object and handled // by the caller. if (!can_set_arrow || (mode == FATAL_ERROR && !err_obj->IsNativeError())) { if (env->printed_error()) return; Mutex::ScopedLock lock(per_process::tty_mutex); env->set_printed_error(true); ResetStdio(); PrintErrorString("\n%s", source.c_str()); return; } CHECK(err_obj ->SetPrivate(env->context(), env->arrow_message_private_symbol(), arrow_str.ToLocalChecked()) .FromMaybe(false)); } [[noreturn]] void Abort() { DumpBacktrace(stderr); fflush(stderr); ABORT_NO_BACKTRACE(); } [[noreturn]] void Assert(const AssertionInfo& info) { char name[1024]; GetHumanReadableProcessName(&name); fprintf(stderr, "%s: %s:%s%s Assertion `%s' failed.\n", name, info.file_line, info.function, *info.function ? ":" : "", info.message); fflush(stderr); Abort(); } enum class EnhanceFatalException { kEnhance, kDontEnhance }; /** * Report the exception to the inspector, then print it to stderr. * This should only be used when the Node.js instance is about to exit * (i.e. this should be followed by a env->Exit() or an Abort()). * * Use enhance_stack = EnhanceFatalException::kDontEnhance * when it's unsafe to call into JavaScript. */ static void ReportFatalException(Environment* env, Local error, Local message, EnhanceFatalException enhance_stack) { if (!env->can_call_into_js()) enhance_stack = EnhanceFatalException::kDontEnhance; Isolate* isolate = env->isolate(); CHECK(!error.IsEmpty()); CHECK(!message.IsEmpty()); HandleScope scope(isolate); AppendExceptionLine(env, error, message, FATAL_ERROR); auto report_to_inspector = [&]() { #if HAVE_INSPECTOR env->inspector_agent()->ReportUncaughtException(error, message); #endif }; Local arrow; Local stack_trace; bool decorated = IsExceptionDecorated(env, error); if (!error->IsObject()) { // We can only enhance actual errors. report_to_inspector(); stack_trace = Undefined(isolate); // If error is not an object, AppendExceptionLine() has already print the // source line and the arrow to stderr. // TODO(joyeecheung): move that side effect out of AppendExceptionLine(). // It is done just to preserve the source line as soon as possible. } else { Local err_obj = error.As(); auto enhance_with = [&](Local enhancer) { Local enhanced; Local argv[] = {err_obj}; if (!enhancer.IsEmpty() && enhancer ->Call(env->context(), Undefined(isolate), arraysize(argv), argv) .ToLocal(&enhanced)) { stack_trace = enhanced; } }; switch (enhance_stack) { case EnhanceFatalException::kEnhance: { enhance_with(env->enhance_fatal_stack_before_inspector()); report_to_inspector(); enhance_with(env->enhance_fatal_stack_after_inspector()); break; } case EnhanceFatalException::kDontEnhance: { USE(err_obj->Get(env->context(), env->stack_string()) .ToLocal(&stack_trace)); report_to_inspector(); break; } default: UNREACHABLE(); } arrow = err_obj->GetPrivate(env->context(), env->arrow_message_private_symbol()) .ToLocalChecked(); } node::Utf8Value trace(env->isolate(), stack_trace); // range errors have a trace member set to undefined if (trace.length() > 0 && !stack_trace->IsUndefined()) { if (arrow.IsEmpty() || !arrow->IsString() || decorated) { PrintErrorString("%s\n", *trace); } else { node::Utf8Value arrow_string(env->isolate(), arrow); PrintErrorString("%s\n%s\n", *arrow_string, *trace); } } else { // this really only happens for RangeErrors, since they're the only // kind that won't have all this info in the trace, or when non-Error // objects are thrown manually. MaybeLocal message; MaybeLocal name; if (error->IsObject()) { Local err_obj = error.As(); message = err_obj->Get(env->context(), env->message_string()); name = err_obj->Get(env->context(), env->name_string()); } if (message.IsEmpty() || message.ToLocalChecked()->IsUndefined() || name.IsEmpty() || name.ToLocalChecked()->IsUndefined()) { // Not an error object. Just print as-is. String::Utf8Value message(env->isolate(), error); PrintErrorString("%s\n", *message ? *message : ""); } else { node::Utf8Value name_string(env->isolate(), name.ToLocalChecked()); node::Utf8Value message_string(env->isolate(), message.ToLocalChecked()); if (arrow.IsEmpty() || !arrow->IsString() || decorated) { PrintErrorString("%s: %s\n", *name_string, *message_string); } else { node::Utf8Value arrow_string(env->isolate(), arrow); PrintErrorString( "%s\n%s: %s\n", *arrow_string, *name_string, *message_string); } } if (!env->options()->trace_uncaught) { PrintErrorString("(Use `node --trace-uncaught ...` to show " "where the exception was thrown)\n"); } } if (env->options()->trace_uncaught) { Local trace = message->GetStackTrace(); if (!trace.IsEmpty()) { PrintErrorString("Thrown at:\n"); PrintStackTrace(env->isolate(), trace); } } fflush(stderr); } void PrintErrorString(const char* format, ...) { va_list ap; va_start(ap, format); #ifdef _WIN32 HANDLE stderr_handle = GetStdHandle(STD_ERROR_HANDLE); // Check if stderr is something other than a tty/console if (stderr_handle == INVALID_HANDLE_VALUE || stderr_handle == nullptr || uv_guess_handle(_fileno(stderr)) != UV_TTY) { vfprintf(stderr, format, ap); va_end(ap); return; } // Fill in any placeholders int n = _vscprintf(format, ap); std::vector out(n + 1); vsprintf(out.data(), format, ap); // Get required wide buffer size n = MultiByteToWideChar(CP_UTF8, 0, out.data(), -1, nullptr, 0); std::vector wbuf(n); MultiByteToWideChar(CP_UTF8, 0, out.data(), -1, wbuf.data(), n); // Don't include the null character in the output CHECK_GT(n, 0); WriteConsoleW(stderr_handle, wbuf.data(), n - 1, nullptr, nullptr); #else vfprintf(stderr, format, ap); #endif va_end(ap); } [[noreturn]] void FatalError(const char* location, const char* message) { OnFatalError(location, message); // to suppress compiler warning ABORT(); } void OnFatalError(const char* location, const char* message) { if (location) { PrintErrorString("FATAL ERROR: %s %s\n", location, message); } else { PrintErrorString("FATAL ERROR: %s\n", message); } #ifdef NODE_REPORT Isolate* isolate = Isolate::GetCurrent(); Environment* env = Environment::GetCurrent(isolate); if (env == nullptr || env->isolate_data()->options()->report_on_fatalerror) { report::TriggerNodeReport( isolate, env, message, "FatalError", "", Local()); } #endif // NODE_REPORT fflush(stderr); ABORT(); } namespace errors { TryCatchScope::~TryCatchScope() { if (HasCaught() && !HasTerminated() && mode_ == CatchMode::kFatal) { HandleScope scope(env_->isolate()); Local exception = Exception(); Local message = Message(); EnhanceFatalException enhance = CanContinue() ? EnhanceFatalException::kEnhance : EnhanceFatalException::kDontEnhance; if (message.IsEmpty()) message = Exception::CreateMessage(env_->isolate(), exception); ReportFatalException(env_, exception, message, enhance); env_->Exit(7); } } const char* errno_string(int errorno) { #define ERRNO_CASE(e) \ case e: \ return #e; switch (errorno) { #ifdef EACCES ERRNO_CASE(EACCES); #endif #ifdef EADDRINUSE ERRNO_CASE(EADDRINUSE); #endif #ifdef EADDRNOTAVAIL ERRNO_CASE(EADDRNOTAVAIL); #endif #ifdef EAFNOSUPPORT ERRNO_CASE(EAFNOSUPPORT); #endif #ifdef EAGAIN ERRNO_CASE(EAGAIN); #endif #ifdef EWOULDBLOCK #if EAGAIN != EWOULDBLOCK ERRNO_CASE(EWOULDBLOCK); #endif #endif #ifdef EALREADY ERRNO_CASE(EALREADY); #endif #ifdef EBADF ERRNO_CASE(EBADF); #endif #ifdef EBADMSG ERRNO_CASE(EBADMSG); #endif #ifdef EBUSY ERRNO_CASE(EBUSY); #endif #ifdef ECANCELED ERRNO_CASE(ECANCELED); #endif #ifdef ECHILD ERRNO_CASE(ECHILD); #endif #ifdef ECONNABORTED ERRNO_CASE(ECONNABORTED); #endif #ifdef ECONNREFUSED ERRNO_CASE(ECONNREFUSED); #endif #ifdef ECONNRESET ERRNO_CASE(ECONNRESET); #endif #ifdef EDEADLK ERRNO_CASE(EDEADLK); #endif #ifdef EDESTADDRREQ ERRNO_CASE(EDESTADDRREQ); #endif #ifdef EDOM ERRNO_CASE(EDOM); #endif #ifdef EDQUOT ERRNO_CASE(EDQUOT); #endif #ifdef EEXIST ERRNO_CASE(EEXIST); #endif #ifdef EFAULT ERRNO_CASE(EFAULT); #endif #ifdef EFBIG ERRNO_CASE(EFBIG); #endif #ifdef EHOSTUNREACH ERRNO_CASE(EHOSTUNREACH); #endif #ifdef EIDRM ERRNO_CASE(EIDRM); #endif #ifdef EILSEQ ERRNO_CASE(EILSEQ); #endif #ifdef EINPROGRESS ERRNO_CASE(EINPROGRESS); #endif #ifdef EINTR ERRNO_CASE(EINTR); #endif #ifdef EINVAL ERRNO_CASE(EINVAL); #endif #ifdef EIO ERRNO_CASE(EIO); #endif #ifdef EISCONN ERRNO_CASE(EISCONN); #endif #ifdef EISDIR ERRNO_CASE(EISDIR); #endif #ifdef ELOOP ERRNO_CASE(ELOOP); #endif #ifdef EMFILE ERRNO_CASE(EMFILE); #endif #ifdef EMLINK ERRNO_CASE(EMLINK); #endif #ifdef EMSGSIZE ERRNO_CASE(EMSGSIZE); #endif #ifdef EMULTIHOP ERRNO_CASE(EMULTIHOP); #endif #ifdef ENAMETOOLONG ERRNO_CASE(ENAMETOOLONG); #endif #ifdef ENETDOWN ERRNO_CASE(ENETDOWN); #endif #ifdef ENETRESET ERRNO_CASE(ENETRESET); #endif #ifdef ENETUNREACH ERRNO_CASE(ENETUNREACH); #endif #ifdef ENFILE ERRNO_CASE(ENFILE); #endif #ifdef ENOBUFS ERRNO_CASE(ENOBUFS); #endif #ifdef ENODATA ERRNO_CASE(ENODATA); #endif #ifdef ENODEV ERRNO_CASE(ENODEV); #endif #ifdef ENOENT ERRNO_CASE(ENOENT); #endif #ifdef ENOEXEC ERRNO_CASE(ENOEXEC); #endif #ifdef ENOLINK ERRNO_CASE(ENOLINK); #endif #ifdef ENOLCK #if ENOLINK != ENOLCK ERRNO_CASE(ENOLCK); #endif #endif #ifdef ENOMEM ERRNO_CASE(ENOMEM); #endif #ifdef ENOMSG ERRNO_CASE(ENOMSG); #endif #ifdef ENOPROTOOPT ERRNO_CASE(ENOPROTOOPT); #endif #ifdef ENOSPC ERRNO_CASE(ENOSPC); #endif #ifdef ENOSR ERRNO_CASE(ENOSR); #endif #ifdef ENOSTR ERRNO_CASE(ENOSTR); #endif #ifdef ENOSYS ERRNO_CASE(ENOSYS); #endif #ifdef ENOTCONN ERRNO_CASE(ENOTCONN); #endif #ifdef ENOTDIR ERRNO_CASE(ENOTDIR); #endif #ifdef ENOTEMPTY #if ENOTEMPTY != EEXIST ERRNO_CASE(ENOTEMPTY); #endif #endif #ifdef ENOTSOCK ERRNO_CASE(ENOTSOCK); #endif #ifdef ENOTSUP ERRNO_CASE(ENOTSUP); #else #ifdef EOPNOTSUPP ERRNO_CASE(EOPNOTSUPP); #endif #endif #ifdef ENOTTY ERRNO_CASE(ENOTTY); #endif #ifdef ENXIO ERRNO_CASE(ENXIO); #endif #ifdef EOVERFLOW ERRNO_CASE(EOVERFLOW); #endif #ifdef EPERM ERRNO_CASE(EPERM); #endif #ifdef EPIPE ERRNO_CASE(EPIPE); #endif #ifdef EPROTO ERRNO_CASE(EPROTO); #endif #ifdef EPROTONOSUPPORT ERRNO_CASE(EPROTONOSUPPORT); #endif #ifdef EPROTOTYPE ERRNO_CASE(EPROTOTYPE); #endif #ifdef ERANGE ERRNO_CASE(ERANGE); #endif #ifdef EROFS ERRNO_CASE(EROFS); #endif #ifdef ESPIPE ERRNO_CASE(ESPIPE); #endif #ifdef ESRCH ERRNO_CASE(ESRCH); #endif #ifdef ESTALE ERRNO_CASE(ESTALE); #endif #ifdef ETIME ERRNO_CASE(ETIME); #endif #ifdef ETIMEDOUT ERRNO_CASE(ETIMEDOUT); #endif #ifdef ETXTBSY ERRNO_CASE(ETXTBSY); #endif #ifdef EXDEV ERRNO_CASE(EXDEV); #endif default: return ""; } } void PerIsolateMessageListener(Local message, Local error) { Isolate* isolate = message->GetIsolate(); switch (message->ErrorLevel()) { case Isolate::MessageErrorLevel::kMessageWarning: { Environment* env = Environment::GetCurrent(isolate); if (!env) { break; } Utf8Value filename(isolate, message->GetScriptOrigin().ResourceName()); // (filename):(line) (message) std::stringstream warning; warning << *filename; warning << ":"; warning << message->GetLineNumber(env->context()).FromMaybe(-1); warning << " "; v8::String::Utf8Value msg(isolate, message->Get()); warning << *msg; USE(ProcessEmitWarningGeneric(env, warning.str().c_str(), "V8")); break; } case Isolate::MessageErrorLevel::kMessageError: TriggerUncaughtException(isolate, error, message); break; } } void SetPrepareStackTraceCallback(const FunctionCallbackInfo& args) { Environment* env = Environment::GetCurrent(args); CHECK(args[0]->IsFunction()); env->set_prepare_stack_trace_callback(args[0].As()); } static void SetEnhanceStackForFatalException( const FunctionCallbackInfo& args) { Environment* env = Environment::GetCurrent(args); CHECK(args[0]->IsFunction()); CHECK(args[1]->IsFunction()); env->set_enhance_fatal_stack_before_inspector(args[0].As()); env->set_enhance_fatal_stack_after_inspector(args[1].As()); } // Side effect-free stringification that will never throw exceptions. static void NoSideEffectsToString(const FunctionCallbackInfo& args) { Local context = args.GetIsolate()->GetCurrentContext(); Local detail_string; if (args[0]->ToDetailString(context).ToLocal(&detail_string)) args.GetReturnValue().Set(detail_string); } static void TriggerUncaughtException(const FunctionCallbackInfo& args) { Isolate* isolate = args.GetIsolate(); Environment* env = Environment::GetCurrent(isolate); Local exception = args[0]; Local message = Exception::CreateMessage(isolate, exception); if (env != nullptr && env->abort_on_uncaught_exception()) { ReportFatalException( env, exception, message, EnhanceFatalException::kEnhance); Abort(); } bool from_promise = args[1]->IsTrue(); errors::TriggerUncaughtException(isolate, exception, message, from_promise); } void Initialize(Local target, Local unused, Local context, void* priv) { Environment* env = Environment::GetCurrent(context); env->SetMethod( target, "setPrepareStackTraceCallback", SetPrepareStackTraceCallback); env->SetMethod(target, "setEnhanceStackForFatalException", SetEnhanceStackForFatalException); env->SetMethodNoSideEffect( target, "noSideEffectsToString", NoSideEffectsToString); env->SetMethod(target, "triggerUncaughtException", TriggerUncaughtException); } void DecorateErrorStack(Environment* env, const errors::TryCatchScope& try_catch) { Local exception = try_catch.Exception(); if (!exception->IsObject()) return; Local err_obj = exception.As(); if (IsExceptionDecorated(env, err_obj)) return; AppendExceptionLine(env, exception, try_catch.Message(), CONTEXTIFY_ERROR); TryCatchScope try_catch_scope(env); // Ignore exceptions below. MaybeLocal stack = err_obj->Get(env->context(), env->stack_string()); MaybeLocal maybe_value = err_obj->GetPrivate(env->context(), env->arrow_message_private_symbol()); Local arrow; if (!(maybe_value.ToLocal(&arrow) && arrow->IsString())) { return; } if (stack.IsEmpty() || !stack.ToLocalChecked()->IsString()) { return; } Local decorated_stack = String::Concat( env->isolate(), String::Concat(env->isolate(), arrow.As(), FIXED_ONE_BYTE_STRING(env->isolate(), "\n")), stack.ToLocalChecked().As()); USE(err_obj->Set(env->context(), env->stack_string(), decorated_stack)); err_obj->SetPrivate( env->context(), env->decorated_private_symbol(), True(env->isolate())); } void TriggerUncaughtException(Isolate* isolate, Local error, Local message, bool from_promise) { CHECK(!error.IsEmpty()); HandleScope scope(isolate); if (message.IsEmpty()) message = Exception::CreateMessage(isolate, error); CHECK(isolate->InContext()); Local context = isolate->GetCurrentContext(); Environment* env = Environment::GetCurrent(context); if (env == nullptr) { // This means that the exception happens before Environment is assigned // to the context e.g. when there is a SyntaxError in a per-context // script - which usually indicates that there is a bug because no JS // error is supposed to be thrown at this point. // Since we don't have access to Environment here, there is not // much we can do, so we just print whatever is useful and crash. PrintException(isolate, context, error, message); Abort(); } // Invoke process._fatalException() to give user a chance to handle it. // We have to grab it from the process object since this has been // monkey-patchable. Local process_object = env->process_object(); Local fatal_exception_string = env->fatal_exception_string(); Local fatal_exception_function = process_object->Get(env->context(), fatal_exception_string).ToLocalChecked(); // If the exception happens before process._fatalException is attached // during bootstrap, or if the user has patched it incorrectly, exit // the current Node.js instance. if (!fatal_exception_function->IsFunction()) { ReportFatalException( env, error, message, EnhanceFatalException::kDontEnhance); env->Exit(6); return; } MaybeLocal handled; if (env->can_call_into_js()) { // We do not expect the global uncaught exception itself to throw any more // exceptions. If it does, exit the current Node.js instance. errors::TryCatchScope try_catch(env, errors::TryCatchScope::CatchMode::kFatal); // Explicitly disable verbose exception reporting - // if process._fatalException() throws an error, we don't want it to // trigger the per-isolate message listener which will call this // function and recurse. try_catch.SetVerbose(false); Local argv[2] = { error, Boolean::New(env->isolate(), from_promise) }; handled = fatal_exception_function.As()->Call( env->context(), process_object, arraysize(argv), argv); } // If process._fatalException() throws, we are now exiting the Node.js // instance so return to continue the exit routine. // TODO(joyeecheung): return a Maybe here to prevent the caller from // stepping on the exit. if (handled.IsEmpty()) { return; } // The global uncaught exception handler returns true if the user handles it // by e.g. listening to `uncaughtException`. In that case, continue program // execution. // TODO(joyeecheung): This has been only checking that the return value is // exactly false. Investigate whether this can be turned to an "if true" // similar to how the worker global uncaught exception handler handles it. if (!handled.ToLocalChecked()->IsFalse()) { return; } // Now we are certain that the exception is fatal. ReportFatalException(env, error, message, EnhanceFatalException::kEnhance); RunAtExit(env); // If the global uncaught exception handler sets process.exitCode, // exit with that code. Otherwise, exit with 1. Local exit_code = env->exit_code_string(); Local code; if (process_object->Get(env->context(), exit_code).ToLocal(&code) && code->IsInt32()) { env->Exit(code.As()->Value()); } else { env->Exit(1); } } void TriggerUncaughtException(Isolate* isolate, const v8::TryCatch& try_catch) { // If the try_catch is verbose, the per-isolate message listener is going to // handle it (which is going to call into another overload of // TriggerUncaughtException()). if (try_catch.IsVerbose()) { return; } // If the user calls TryCatch::TerminateExecution() on this TryCatch // they must call CancelTerminateExecution() again before invoking // TriggerUncaughtException() because it will invoke // process._fatalException() in the JS land. CHECK(!try_catch.HasTerminated()); CHECK(try_catch.HasCaught()); HandleScope scope(isolate); TriggerUncaughtException(isolate, try_catch.Exception(), try_catch.Message(), false /* from_promise */); } } // namespace errors } // namespace node NODE_MODULE_CONTEXT_AWARE_INTERNAL(errors, node::errors::Initialize)