diff --git a/lib/domain.js b/lib/domain.js index b6321a20f80db6..630d02ec332751 100644 --- a/lib/domain.js +++ b/lib/domain.js @@ -27,8 +27,13 @@ Object.defineProperty(process, 'domain', { } }); +// It's possible to enter one domain while already inside +// another one. The stack is each entered domain. +const stack = []; +exports._stack = stack; + // let the process know we're using domains -const _domain_flag = process._setupDomainUse(_domain); +const _domain_flag = process._setupDomainUse(_domain, stack); exports.Domain = Domain; @@ -36,10 +41,6 @@ exports.create = exports.createDomain = function() { return new Domain(); }; -// it's possible to enter one domain while already inside -// another one. the stack is each entered domain. -var stack = []; -exports._stack = stack; // the active domain is always the one that we're currently in. exports.active = null; @@ -96,14 +97,20 @@ Domain.prototype._errorHandler = function errorHandler(er) { // that these exceptions are caught, and thus would prevent it from // aborting in these cases. if (stack.length === 1) { - try { - // Set the _emittingTopLevelDomainError so that we know that, even - // if technically the top-level domain is still active, it would - // be ok to abort on an uncaught exception at this point - process._emittingTopLevelDomainError = true; - caught = emitError(); - } finally { - process._emittingTopLevelDomainError = false; + // If there's no error handler, do not emit an 'error' event + // as this would throw an error, make the process exit, and thus + // prevent the process 'uncaughtException' event from being emitted + // if a listener is set. + if (EventEmitter.listenerCount(self, 'error') > 0) { + try { + // Set the _emittingTopLevelDomainError so that we know that, even + // if technically the top-level domain is still active, it would + // be ok to abort on an uncaught exception at this point + process._emittingTopLevelDomainError = true; + caught = emitError(); + } finally { + process._emittingTopLevelDomainError = false; + } } } else { // wrap this in a try/catch so we don't get infinite throwing diff --git a/src/env.h b/src/env.h index 93f7c47c9919a3..0c616ddef21400 100644 --- a/src/env.h +++ b/src/env.h @@ -242,6 +242,7 @@ namespace node { V(buffer_prototype_object, v8::Object) \ V(context, v8::Context) \ V(domain_array, v8::Array) \ + V(domains_stack_array, v8::Array) \ V(fs_stats_constructor_function, v8::Function) \ V(generic_internal_field_template, v8::ObjectTemplate) \ V(jsstream_constructor_template, v8::FunctionTemplate) \ diff --git a/src/node.cc b/src/node.cc index 819693559afeb3..3e3577d8a9c079 100644 --- a/src/node.cc +++ b/src/node.cc @@ -951,17 +951,50 @@ void* ArrayBufferAllocator::Allocate(size_t size) { return malloc(size); } +static bool DomainHasErrorHandler(const Environment* env, + const Local& domain) { + HandleScope scope(env->isolate()); + + Local domain_event_listeners_v = domain->Get(env->events_string()); + if (!domain_event_listeners_v->IsObject()) + return false; + + Local domain_event_listeners_o = + domain_event_listeners_v.As(); + + Local domain_error_listeners_v = + domain_event_listeners_o->Get(env->error_string()); + + if (domain_error_listeners_v->IsFunction() || + (domain_error_listeners_v->IsArray() && + domain_error_listeners_v.As()->Length() > 0)) + return true; + + return false; +} + +static bool DomainsStackHasErrorHandler(const Environment* env) { + HandleScope scope(env->isolate()); -static bool IsDomainActive(const Environment* env) { if (!env->using_domains()) return false; - Local domain_array = env->domain_array().As(); - if (domain_array->Length() == 0) + Local domains_stack_array = env->domains_stack_array().As(); + if (domains_stack_array->Length() == 0) return false; - Local domain_v = domain_array->Get(0); - return !domain_v->IsNull(); + uint32_t domains_stack_length = domains_stack_array->Length(); + for (uint32_t i = domains_stack_length; i > 0; --i) { + Local domain_v = domains_stack_array->Get(i - 1); + if (!domain_v->IsObject()) + return false; + + Local domain = domain_v.As(); + if (DomainHasErrorHandler(env, domain)) + return true; + } + + return false; } @@ -975,7 +1008,7 @@ static bool ShouldAbortOnUncaughtException(Isolate* isolate) { bool isEmittingTopLevelDomainError = process_object->Get(emitting_top_level_domain_error_key)->BooleanValue(); - return !IsDomainActive(env) || isEmittingTopLevelDomainError; + return isEmittingTopLevelDomainError || !DomainsStackHasErrorHandler(env); } @@ -1004,6 +1037,9 @@ void SetupDomainUse(const FunctionCallbackInfo& args) { CHECK(args[0]->IsArray()); env->set_domain_array(args[0].As()); + CHECK(args[1]->IsArray()); + env->set_domains_stack_array(args[1].As()); + // Do a little housekeeping. env->process_object()->Delete( FIXED_ONE_BYTE_STRING(args.GetIsolate(), "_setupDomainUse")); diff --git a/test/common.js b/test/common.js index 5fb1e05a5f9c20..d05d4796580a47 100644 --- a/test/common.js +++ b/test/common.js @@ -471,3 +471,37 @@ ArrayStream.prototype.writable = true; ArrayStream.prototype.pause = function() {}; ArrayStream.prototype.resume = function() {}; ArrayStream.prototype.write = function() {}; + +// Returns true if the exit code "exitCode" and/or signal name "signal" +// represent the exit code and/or signal name of a node process that aborted, +// false otherwise. +exports.nodeProcessAborted = function nodeProcessAborted(exitCode, signal) { + // Depending on the compiler used, node will exit with either + // exit code 132 (SIGILL), 133 (SIGTRAP) or 134 (SIGABRT). + var expectedExitCodes = [132, 133, 134]; + + // On platforms using KSH as the default shell (like SmartOS), + // when a process aborts, KSH exits with an exit code that is + // greater than 256, and thus the exit code emitted with the 'exit' + // event is null and the signal is set to either SIGILL, SIGTRAP, + // or SIGABRT (depending on the compiler). + const expectedSignals = ['SIGILL', 'SIGTRAP', 'SIGABRT']; + + // On Windows, v8's base::OS::Abort triggers an access violation, + // which corresponds to exit code 3221225477 (0xC0000005) + if (process.platform === 'win32') + expectedExitCodes = [3221225477]; + + // When using --abort-on-uncaught-exception, V8 will use + // base::OS::Abort to terminate the process. + // Depending on the compiler used, the shell or other aspects of + // the platform used to build the node binary, this will actually + // make V8 exit by aborting or by raising a signal. In any case, + // one of them (exit code or signal) needs to be set to one of + // the expected exit codes or signals. + if (signal !== null) { + return expectedSignals.indexOf(signal) > -1; + } else { + return expectedExitCodes.indexOf(exitCode) > -1; + } +}; diff --git a/test/parallel/test-domain-abort-on-uncaught.js b/test/parallel/test-domain-abort-on-uncaught.js index f4884aa8f33421..9d230465063e86 100644 --- a/test/parallel/test-domain-abort-on-uncaught.js +++ b/test/parallel/test-domain-abort-on-uncaught.js @@ -1,96 +1,256 @@ 'use strict'; -// Flags: --abort_on_uncaught_exception - -var common = require('../common'); -var assert = require('assert'); -var domain = require('domain'); - -var tests = [ - nextTick, - timer, - timerPlusNextTick, - netServer, - firstRun, -]; -var errors = 0; +// This test makes sure that when using --abort-on-uncaught-exception and +// when throwing an error from within a domain that has an error handler +// setup, the process _does not_ abort. -process.on('exit', function() { - assert.equal(errors, tests.length); -}); +const common = require('../common'); +const assert = require('assert'); +const domain = require('domain'); +const child_process = require('child_process'); -tests.forEach(function(test) { test(); }); +var errorHandlerCalled = false; -function nextTick() { - var d = domain.create(); +const tests = [ + function nextTick() { + const d = domain.create(); - d.once('error', function(err) { - errors += 1; - }); - d.run(function() { - process.nextTick(function() { - throw new Error('exceptional!'); + d.once('error', function(err) { + errorHandlerCalled = true; }); - }); -} -function timer() { - var d = domain.create(); + d.run(function() { + process.nextTick(function() { + throw new Error('exceptional!'); + }); + }); + }, - d.on('error', function(err) { - errors += 1; - }); - d.run(function() { - setTimeout(function() { - throw new Error('exceptional!'); - }, 33); - }); -} + function timer() { + const d = domain.create(); -function timerPlusNextTick() { - var d = domain.create(); + d.on('error', function(err) { + errorHandlerCalled = true; + }); - d.on('error', function(err) { - errors += 1; - }); - d.run(function() { - setTimeout(function() { - process.nextTick(function() { + d.run(function() { + setTimeout(function() { throw new Error('exceptional!'); + }, 33); + }); + }, + + function immediate() { + const d = domain.create(); + + d.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + setImmediate(function() { + throw new Error('boom!'); }); - }, 33); - }); -} + }); + }, -function firstRun() { - var d = domain.create(); + function timerPlusNextTick() { + const d = domain.create(); - d.on('error', function(err) { - errors += 1; - }); - d.run(function() { - throw new Error('exceptional!'); - }); -} + d.on('error', function(err) { + errorHandlerCalled = true; + }); + + d.run(function() { + setTimeout(function() { + process.nextTick(function() { + throw new Error('exceptional!'); + }); + }, 33); + }); + }, -function netServer() { - var net = require('net'); - var d = domain.create(); + function firstRun() { + const d = domain.create(); - d.on('error', function(err) { - errors += 1; - }); - d.run(function() { - var server = net.createServer(function(conn) { - conn.pipe(conn); - }); - server.listen(common.PORT, '0.0.0.0', function() { - var conn = net.connect(common.PORT, '0.0.0.0'); - conn.once('data', function() { - throw new Error('ok'); + d.on('error', function(err) { + errorHandlerCalled = true; + }); + + d.run(function() { + throw new Error('exceptional!'); + }); + }, + + function fsAsync() { + const d = domain.create(); + + d.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + var fs = require('fs'); + fs.exists('/non/existing/file', function onExists(exists) { + throw new Error('boom!'); + }); + }); + }, + + function netServer() { + const net = require('net'); + const d = domain.create(); + + d.on('error', function(err) { + errorHandlerCalled = true; + }); + + d.run(function() { + const server = net.createServer(function(conn) { + conn.pipe(conn); + }); + server.listen(common.PORT, common.localhostIPv4, function() { + const conn = net.connect(common.PORT, common.localhostIPv4); + conn.once('data', function() { + throw new Error('ok'); + }); + conn.end('ok'); + server.close(); }); - conn.end('ok'); - server.close(); + }); + }, + + function firstRunOnlyTopLevelErrorHandler() { + const d = domain.create(); + const d2 = domain.create(); + + d.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + d2.run(function() { + throw new Error('boom!'); + }); + }); + }, + + function firstRunNestedWithErrorHandler() { + const d = domain.create(); + const d2 = domain.create(); + + d2.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + d2.run(function() { + throw new Error('boom!'); + }); + }); + }, + + function timeoutNestedWithErrorHandler() { + const d = domain.create(); + const d2 = domain.create(); + + d2.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + d2.run(function() { + setTimeout(function() { + console.log('foo'); + throw new Error('boom!'); + }, 33); + }); + }); + }, + + function setImmediateNestedWithErrorHandler() { + const d = domain.create(); + const d2 = domain.create(); + + d2.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + d2.run(function() { + setImmediate(function() { + throw new Error('boom!'); + }); + }); + }); + }, + + function nextTickNestedWithErrorHandler() { + const d = domain.create(); + const d2 = domain.create(); + + d2.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + d2.run(function() { + process.nextTick(function() { + throw new Error('boom!'); + }); + }); + }); + }, + + function fsAsyncNestedWithErrorHandler() { + const d = domain.create(); + const d2 = domain.create(); + + d2.on('error', function errorHandler() { + errorHandlerCalled = true; + }); + + d.run(function() { + d2.run(function() { + var fs = require('fs'); + fs.exists('/non/existing/file', function onExists(exists) { + throw new Error('boom!'); + }); + }); + }); + } +]; + +if (process.argv[2] === 'child') { + const testIndex = +process.argv[3]; + + tests[testIndex](); + + process.on('exit', function onExit() { + assert.equal(errorHandlerCalled, true); + }); +} else { + + tests.forEach(function(test, testIndex) { + var testCmd = ''; + if (process.platform !== 'win32') { + // Do not create core files, as it can take a lot of disk space on + // continuous testing and developers' machines + testCmd += 'ulimit -c 0 && '; + } + + testCmd += process.argv[0]; + testCmd += ' ' + '--abort-on-uncaught-exception'; + testCmd += ' ' + process.argv[1]; + testCmd += ' ' + 'child'; + testCmd += ' ' + testIndex; + + var child = child_process.exec(testCmd); + + child.on('exit', function onExit(code, signal) { + assert.equal(code, 0, 'Test at index ' + testIndex + + ' should have exited with exit code 0 but instead exited with code ' + + code + ' and signal ' + signal); }); }); } diff --git a/test/parallel/test-domain-no-error-handler-abort-on-uncaught.js b/test/parallel/test-domain-no-error-handler-abort-on-uncaught.js new file mode 100644 index 00000000000000..2ecb4ffb81796a --- /dev/null +++ b/test/parallel/test-domain-no-error-handler-abort-on-uncaught.js @@ -0,0 +1,168 @@ +'use strict'; + +/* + * This test makes sure that when using --abort-on-uncaught-exception and + * when throwing an error from within a domain that does not have an error + * handler setup, the process aborts. + */ +const common = require('../common'); +const assert = require('assert'); +const domain = require('domain'); +const child_process = require('child_process'); + +const tests = [ + function() { + const d = domain.create(); + + d.run(function() { + throw new Error('boom!'); + }); + }, + + function() { + const d = domain.create(); + const d2 = domain.create(); + + d.run(function() { + d2.run(function() { + throw new Error('boom!'); + }); + }); + }, + + function() { + const d = domain.create(); + + d.run(function() { + setTimeout(function() { + throw new Error('boom!'); + }); + }); + }, + + function() { + const d = domain.create(); + + d.run(function() { + setImmediate(function() { + throw new Error('boom!'); + }); + }); + }, + + function() { + const d = domain.create(); + + d.run(function() { + process.nextTick(function() { + throw new Error('boom!'); + }); + }); + }, + + function() { + const d = domain.create(); + + d.run(function() { + var fs = require('fs'); + fs.exists('/non/existing/file', function onExists(exists) { + throw new Error('boom!'); + }); + }); + }, + + function() { + const d = domain.create(); + const d2 = domain.create(); + + d.on('error', function errorHandler() { + }); + + d.run(function() { + d2.run(function() { + setTimeout(function() { + throw new Error('boom!'); + }); + }); + }); + }, + + function() { + const d = domain.create(); + const d2 = domain.create(); + + d.on('error', function errorHandler() { + }); + + d.run(function() { + d2.run(function() { + setImmediate(function() { + throw new Error('boom!'); + }); + }); + }); + }, + + function() { + const d = domain.create(); + const d2 = domain.create(); + + d.on('error', function errorHandler() { + }); + + d.run(function() { + d2.run(function() { + process.nextTick(function() { + throw new Error('boom!'); + }); + }); + }); + }, + + function() { + const d = domain.create(); + const d2 = domain.create(); + + d.on('error', function errorHandler() { + }); + + d.run(function() { + d2.run(function() { + var fs = require('fs'); + fs.exists('/non/existing/file', function onExists(exists) { + throw new Error('boom!'); + }); + }); + }); + }, +]; + +if (process.argv[2] === 'child') { + const testIndex = +process.argv[3]; + tests[testIndex](); +} else { + + tests.forEach(function(test, testIndex) { + var testCmd = ''; + if (process.platform !== 'win32') { + // Do not create core files, as it can take a lot of disk space on + // continuous testing and developers' machines + testCmd += 'ulimit -c 0 && '; + } + + testCmd += process.argv[0]; + testCmd += ' ' + '--abort-on-uncaught-exception'; + testCmd += ' ' + process.argv[1]; + testCmd += ' ' + 'child'; + testCmd += ' ' + testIndex; + + var child = child_process.exec(testCmd); + + child.on('exit', function onExit(exitCode, signal) { + const errMsg = 'Test at index ' + testIndex + ' should have aborted ' + + 'but instead exited with exit code ' + exitCode + ' and signal ' + + signal; + assert(common.nodeProcessAborted(exitCode, signal), errMsg); + }); + }); +} diff --git a/test/parallel/test-domain-throw-error-then-throw-from-uncaught-exception-handler.js b/test/parallel/test-domain-throw-error-then-throw-from-uncaught-exception-handler.js new file mode 100644 index 00000000000000..499988107dae27 --- /dev/null +++ b/test/parallel/test-domain-throw-error-then-throw-from-uncaught-exception-handler.js @@ -0,0 +1,101 @@ +'use strict'; + +// This test makes sure that when throwing an error from a domain, and then +// handling that error in an uncaughtException handler by throwing an error +// again, the exit code, signal and error messages are the ones we expect with +// and without using --abort-on-uncaught-exception. + +const common = require('../common'); +const assert = require('assert'); +const child_process = require('child_process'); +const domain = require('domain'); + +const uncaughtExceptionHandlerErrMsg = 'boom from uncaughtException handler'; +const domainErrMsg = 'boom from domain'; + +const RAN_UNCAUGHT_EXCEPTION_HANDLER_EXIT_CODE = 42; + +if (process.argv[2] === 'child') { + process.on('uncaughtException', common.mustCall(function onUncaught() { + if (process.execArgv.indexOf('--abort-on-uncaught-exception') !== -1) { + // When passing --abort-on-uncaught-exception to the child process, + // we want to make sure that this handler (the process' uncaughtException + // event handler) wasn't called. Unfortunately we can't parse the child + // process' output to do that, since on Windows the standard error output + // is not properly flushed in V8's Isolate::Throw right before the + // process aborts due to an uncaught exception, and thus the error + // message representing the error that was thrown cannot be read by the + // parent process. So instead of parsing the child process' stdandard + // error, the parent process will check that in the case + // --abort-on-uncaught-exception was passed, the process did not exit + // with exit code RAN_UNCAUGHT_EXCEPTION_HANDLER_EXIT_CODE. + process.exit(RAN_UNCAUGHT_EXCEPTION_HANDLER_EXIT_CODE); + } else { + // On the other hand, when not passing --abort-on-uncaught-exception to + // the node process, we want to throw in this event handler to make sure + // that the proper error message, exit code and signal are the ones we + // expect. + throw new Error(uncaughtExceptionHandlerErrMsg); + } + })); + + const d = domain.create(); + d.run(common.mustCall(function() { + throw new Error(domainErrMsg); + })); +} else { + runTestWithoutAbortOnUncaughtException(); + runTestWithAbortOnUncaughtException(); +} + +function runTestWithoutAbortOnUncaughtException() { + child_process.exec(createTestCmdLine(), + function onTestDone(err, stdout, stderr) { + // When _not_ passing --abort-on-uncaught-exception, the process' + // uncaughtException handler _must_ be called, and thus the error + // message must include only the message of the error thrown from the + // process' uncaughtException handler. + assert(stderr.includes(uncaughtExceptionHandlerErrMsg), + 'stderr output must include proper uncaughtException handler\'s ' + + 'error\'s message'); + assert(!stderr.includes(domainErrMsg), 'stderr output must not ' + + 'include domain\'s error\'s message'); + + assert.notEqual(err.code, 0, + 'child process should have exited with a non-zero exit code, ' + + 'but did not'); + }); +} + +function runTestWithAbortOnUncaughtException() { + child_process.exec(createTestCmdLine({ + withAbortOnUncaughtException: true + }), function onTestDone(err, stdout, stderr) { + assert.notEqual(err.code, RAN_UNCAUGHT_EXCEPTION_HANDLER_EXIT_CODE, + 'child process should not have run its uncaughtException event ' + + 'handler'); + assert(common.nodeProcessAborted(err.code, err.signal), + 'process should have aborted, but did not'); + }); +} + +function createTestCmdLine(options) { + var testCmd = ''; + + if (process.platform !== 'win32') { + // Do not create core files, as it can take a lot of disk space on + // continuous testing and developers' machines + testCmd += 'ulimit -c 0 && '; + } + + testCmd += process.argv[0]; + + if (options && options.withAbortOnUncaughtException) { + testCmd += ' ' + '--abort-on-uncaught-exception'; + } + + testCmd += ' ' + process.argv[1]; + testCmd += ' ' + 'child'; + + return testCmd; +} diff --git a/test/parallel/test-domain-uncaught-exception.js b/test/parallel/test-domain-uncaught-exception.js new file mode 100644 index 00000000000000..8792eb1ce5459f --- /dev/null +++ b/test/parallel/test-domain-uncaught-exception.js @@ -0,0 +1,205 @@ +'use strict'; + +/* + * The goal of this test is to make sure that errors thrown within domains + * are handled correctly. It checks that the process' 'uncaughtException' event + * is emitted when appropriate, and not emitted when it shouldn't. It also + * checks that the proper domain error handlers are called when they should + * be called, and not called when they shouldn't. + */ + +const common = require('../common'); +const assert = require('assert'); +const domain = require('domain'); +const child_process = require('child_process'); + +const uncaughtExceptions = {}; + +const tests = []; + +function test1() { + /* + * Throwing from an async callback from within a domain that doesn't have + * an error handler must result in emitting the process' uncaughtException + * event. + */ + const d = domain.create(); + d.run(function() { + setTimeout(function onTimeout() { + throw new Error('boom!'); + }); + }); +} + +tests.push({ + fn: test1, + expectedMessages: ['uncaughtException'] +}); + +function test2() { + /* + * Throwing from from within a domain that doesn't have an error handler must + * result in emitting the process' uncaughtException event. + */ + const d2 = domain.create(); + d2.run(function() { + throw new Error('boom!'); + }); +} + +tests.push({ + fn: test2, + expectedMessages: ['uncaughtException'] +}); + +function test3() { + /* + * This test creates two nested domains: d3 and d4. d4 doesn't register an + * error handler, but d3 does. The error is handled by the d3 domain and thus + * an 'uncaughtException' event should _not_ be emitted. + */ + const d3 = domain.create(); + const d4 = domain.create(); + + d3.on('error', function onErrorInD3Domain(err) { + process.send('errorHandledByDomain'); + }); + + d3.run(function() { + d4.run(function() { + throw new Error('boom!'); + }); + }); +} + +tests.push({ + fn: test3, + expectedMessages: ['errorHandledByDomain'] +}); + +function test4() { + /* + * This test creates two nested domains: d5 and d6. d6 doesn't register an + * error handler. When the timer's callback is called, because async + * operations like timer callbacks are bound to the domain that was active + * at the time of their creation, and because both d5 and d6 domains have + * exited by the time the timer's callback is called, its callback runs with + * only d6 on the domains stack. Since d6 doesn't register an error handler, + * the process' uncaughtException event should be emitted. + */ + const d5 = domain.create(); + const d6 = domain.create(); + + d5.on('error', function onErrorInD2Domain(err) { + process.send('errorHandledByDomain'); + }); + + d5.run(function() { + d6.run(function() { + setTimeout(function onTimeout() { + throw new Error('boom!'); + }); + }); + }); +} + +tests.push({ + fn: test4, + expectedMessages: ['uncaughtException'] +}); + +function test5() { + /* + * This test creates two nested domains: d7 and d8. d8 _does_ register an + * error handler, so throwing within that domain should not emit an uncaught + * exception. + */ + const d7 = domain.create(); + const d8 = domain.create(); + + d8.on('error', function onErrorInD3Domain(err) { + process.send('errorHandledByDomain'); + }); + + d7.run(function() { + d8.run(function() { + throw new Error('boom!'); + }); + }); +} +tests.push({ + fn: test5, + expectedMessages: ['errorHandledByDomain'] +}); + +function test6() { + /* + * This test creates two nested domains: d9 and d10. d10 _does_ register an + * error handler, so throwing within that domain in an async callback should + * _not_ emit an uncaught exception. + */ + const d9 = domain.create(); + const d10 = domain.create(); + + d10.on('error', function onErrorInD2Domain(err) { + process.send('errorHandledByDomain'); + }); + + d9.run(function() { + d10.run(function() { + setTimeout(function onTimeout() { + throw new Error('boom!'); + }); + }); + }); +} + +tests.push({ + fn: test6, + expectedMessages: ['errorHandledByDomain'] +}); + +if (process.argv[2] === 'child') { + const testIndex = process.argv[3]; + process.on('uncaughtException', function onUncaughtException() { + process.send('uncaughtException'); + }); + + tests[testIndex].fn(); +} else { + // Run each test's function in a child process. Listen on + // messages sent by each child process and compare expected + // messages defined for each test with the actual received messages. + tests.forEach(function doTest(test, testIndex) { + const testProcess = child_process.fork(__filename, ['child', testIndex]); + + testProcess.on('message', function onMsg(msg) { + if (test.messagesReceived === undefined) + test.messagesReceived = []; + + test.messagesReceived.push(msg); + }); + + testProcess.on('disconnect', common.mustCall(function onExit() { + // Make sure that all expected messages were sent from the + // child process + test.expectedMessages.forEach(function(expectedMessage) { + if (test.messagesReceived === undefined || + test.messagesReceived.indexOf(expectedMessage) === -1) + assert(false, 'test ' + test.fn.name + + ' should have sent message: ' + expectedMessage + + ' but didn\'t'); + }); + + if (test.messagesReceived) { + test.messagesReceived.forEach(function(receivedMessage) { + if (test.expectedMessages.indexOf(receivedMessage) === -1) { + assert(false, 'test ' + test.fn.name + + ' should not have sent message: ' + receivedMessage + + ' but did'); + } + }); + } + })); + }); +} diff --git a/test/parallel/test-domain-with-abort-on-uncaught-exception.js b/test/parallel/test-domain-with-abort-on-uncaught-exception.js index bef952b84354a2..1c4c7cd8085ab0 100644 --- a/test/parallel/test-domain-with-abort-on-uncaught-exception.js +++ b/test/parallel/test-domain-with-abort-on-uncaught-exception.js @@ -131,38 +131,8 @@ if (process.argv[2] === 'child') { // outside of a try/catch block, the process should not exit gracefully if (!options.useTryCatch && options.throwInDomainErrHandler) { if (cmdLineOption === '--abort_on_uncaught_exception') { - // If the top-level domain's error handler throws, and only if - // --abort_on_uncaught_exception is passed on the command line, - // the process must abort. - // - // Depending on the compiler used, node will exit with either - // exit code 132 (SIGILL), 133 (SIGTRAP) or 134 (SIGABRT). - expectedExitCodes = [132, 133, 134]; - - // On platforms using KSH as the default shell (like SmartOS), - // when a process aborts, KSH exits with an exit code that is - // greater than 256, and thus the exit code emitted with the 'exit' - // event is null and the signal is set to either SIGILL, SIGTRAP, - // or SIGABRT (depending on the compiler). - expectedSignals = ['SIGILL', 'SIGTRAP', 'SIGABRT']; - - // On Windows, v8's base::OS::Abort triggers an access violation, - // which corresponds to exit code 3221225477 (0xC0000005) - if (process.platform === 'win32') - expectedExitCodes = [3221225477]; - - // When using --abort-on-uncaught-exception, V8 will use - // base::OS::Abort to terminate the process. - // Depending on the compiler used, the shell or other aspects of - // the platform used to build the node binary, this will actually - // make V8 exit by aborting or by raising a signal. In any case, - // one of them (exit code or signal) needs to be set to one of - // the expected exit codes or signals. - if (signal !== null) { - assert.ok(expectedSignals.indexOf(signal) > -1); - } else { - assert.ok(expectedExitCodes.indexOf(exitCode) > -1); - } + assert(common.nodeProcessAborted(exitCode, signal), + 'process should have aborted, but did not'); } else { // By default, uncaught exceptions make node exit with an exit // code of 7.