LadybirdBrowser/ladybird
1
1
Fork 0
mirror of https://github.com/LadybirdBrowser/ladybird.git synced 2024-09-11 05:25:32 +03:00
Code Issues Packages Projects Releases Wiki Activity
e96451edc9
ladybird/Tests/LibJS/test-js.cpp
Andrew Kaster e96451edc9 Tests: Don't use TestRunners after their scope ends in test-js 
The TestRunner objects at the end of test-js are destroyed after the
if/else that chooses whether to run the 262 parser tests or the standard
tests. Accessing TestRunner::the() after the lifetime of the TestRunners
ends is UB, so return the Test::Counts from run() instead. Also, fix the
destructor of TestRunner to set s_the to nullptr so that if anyone tries
this type of shenanigains again, they'll get a crash :^).
2021-05-14 08:34:00 +01:00

754 lines
24 KiB
C++
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* Copyright (c) 2020, Matthew Olsson <mattco@serenityos.org>
* Copyright (c) 2020-2021, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ByteBuffer.h>
#include <AK/JsonObject.h>
#include <AK/JsonValue.h>
#include <AK/LexicalPath.h>
#include <AK/QuickSort.h>
#include <LibCore/ArgsParser.h>
#include <LibCore/DirIterator.h>
#include <LibCore/File.h>
#include <LibJS/Interpreter.h>
#include <LibJS/Lexer.h>
#include <LibJS/Parser.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/JSONObject.h>
#include <LibTest/Results.h>
#include <signal.h>
#include <stdlib.h>
#include <sys/time.h>
#include <unistd.h>
#define TOP_LEVEL_TEST_NAME "__$$TOP_LEVEL$$__"
RefPtr<JS::VM> vm;
static bool collect_on_every_allocation = false;
static String currently_running_test;
struct ParserError {
JS::Parser::Error error;
String hint;
};
struct JSFileResult {
String name;
Optional<ParserError> error {};
double time_taken { 0 };
// A failed test takes precedence over a skipped test, which both have
// precedence over a passed test
Test::Result most_severe_test_result { Test::Result::Pass };
Vector<Test::Suite> suites {};
Vector<String> logged_messages {};
};
class TestRunnerGlobalObject final : public JS::GlobalObject {
JS_OBJECT(TestRunnerGlobalObject, JS::GlobalObject);
public:
TestRunnerGlobalObject();
virtual ~TestRunnerGlobalObject() override;
virtual void initialize_global_object() override;
private:
JS_DECLARE_NATIVE_FUNCTION(is_strict_mode);
JS_DECLARE_NATIVE_FUNCTION(can_parse_source);
JS_DECLARE_NATIVE_FUNCTION(run_queued_promise_jobs);
};
class TestRunner {
public:
static TestRunner* the()
{
return s_the;
}
TestRunner(String test_root, bool print_times, bool print_progress)
: m_test_root(move(test_root))
, m_print_times(print_times)
, m_print_progress(print_progress)
{
VERIFY(!s_the);
s_the = this;
}
virtual ~TestRunner() { s_the = nullptr; };
Test::Counts run();
const Test::Counts& counts() const { return m_counts; }
bool is_printing_progress() const { return m_print_progress; }
protected:
static TestRunner* s_the;
virtual Vector<String> get_test_paths() const;
virtual JSFileResult run_file_test(const String& test_path);
void print_file_result(const JSFileResult& file_result) const;
void print_test_results() const;
String m_test_root;
bool m_print_times;
bool m_print_progress;
double m_total_elapsed_time_in_ms { 0 };
Test::Counts m_counts;
RefPtr<JS::Program> m_test_program;
};
TestRunner* TestRunner::s_the = nullptr;
TestRunnerGlobalObject::TestRunnerGlobalObject()
{
}
TestRunnerGlobalObject::~TestRunnerGlobalObject()
{
}
void TestRunnerGlobalObject::initialize_global_object()
{
Base::initialize_global_object();
static FlyString global_property_name { "global" };
static FlyString is_strict_mode_property_name { "isStrictMode" };
static FlyString can_parse_source_property_name { "canParseSource" };
static FlyString run_queued_promise_jobs_property_name { "runQueuedPromiseJobs" };
define_property(global_property_name, this, JS::Attribute::Enumerable);
define_native_function(is_strict_mode_property_name, is_strict_mode);
define_native_function(can_parse_source_property_name, can_parse_source);
define_native_function(run_queued_promise_jobs_property_name, run_queued_promise_jobs);
}
JS_DEFINE_NATIVE_FUNCTION(TestRunnerGlobalObject::is_strict_mode)
{
return JS::Value(vm.in_strict_mode());
}
JS_DEFINE_NATIVE_FUNCTION(TestRunnerGlobalObject::can_parse_source)
{
auto source = vm.argument(0).to_string(global_object);
if (vm.exception())
return {};
auto parser = JS::Parser(JS::Lexer(source));
parser.parse_program();
return JS::Value(!parser.has_errors());
}
JS_DEFINE_NATIVE_FUNCTION(TestRunnerGlobalObject::run_queued_promise_jobs)
{
vm.run_queued_promise_jobs();
return JS::js_undefined();
}
static void cleanup_and_exit()
{
// Clear the taskbar progress.
if (TestRunner::the() && TestRunner::the()->is_printing_progress())
warn("\033]9;-1;\033\\");
exit(1);
}
static void handle_sigabrt(int)
{
dbgln("test-js: SIGABRT received, cleaning up.");
cleanup_and_exit();
}
static double get_time_in_ms()
{
struct timeval tv1;
auto return_code = gettimeofday(&tv1, nullptr);
VERIFY(return_code >= 0);
return static_cast<double>(tv1.tv_sec) * 1000.0 + static_cast<double>(tv1.tv_usec) / 1000.0;
}
template<typename Callback>
static void iterate_directory_recursively(const String& directory_path, Callback callback)
{
Core::DirIterator directory_iterator(directory_path, Core::DirIterator::Flags::SkipDots);
while (directory_iterator.has_next()) {
auto file_path = directory_iterator.next_full_path();
if (Core::File::is_directory(file_path)) {
iterate_directory_recursively(file_path, callback);
} else {
callback(move(file_path));
}
}
}
Vector<String> TestRunner::get_test_paths() const
{
Vector<String> paths;
iterate_directory_recursively(m_test_root, [&](const String& file_path) {
if (!file_path.ends_with("test-common.js"))
paths.append(file_path);
});
quick_sort(paths);
return paths;
}
Test::Counts TestRunner::run()
{
size_t progress_counter = 0;
auto test_paths = get_test_paths();
for (auto& path : test_paths) {
++progress_counter;
print_file_result(run_file_test(path));
if (m_print_progress)
warn("\033]9;{};{};\033\\", progress_counter, test_paths.size());
}
if (m_print_progress)
warn("\033]9;-1;\033\\");
print_test_results();
return m_counts;
}
static Result<NonnullRefPtr<JS::Program>, ParserError> parse_file(const String& file_path)
{
auto file = Core::File::construct(file_path);
auto result = file->open(Core::OpenMode::ReadOnly);
if (!result) {
warnln("Failed to open the following file: \"{}\"", file_path);
cleanup_and_exit();
}
auto contents = file->read_all();
String test_file_string(reinterpret_cast<const char*>(contents.data()), contents.size());
file->close();
auto parser = JS::Parser(JS::Lexer(test_file_string));
auto program = parser.parse_program();
if (parser.has_errors()) {
auto error = parser.errors()[0];
return Result<NonnullRefPtr<JS::Program>, ParserError>(ParserError { error, error.source_location_hint(test_file_string) });
}
return Result<NonnullRefPtr<JS::Program>, ParserError>(program);
}
static Optional<JsonValue> get_test_results(JS::Interpreter& interpreter)
{
auto result = vm->get_variable("__TestResults__", interpreter.global_object());
auto json_string = JS::JSONObject::stringify_impl(interpreter.global_object(), result, JS::js_undefined(), JS::js_undefined());
auto json = JsonValue::from_string(json_string);
if (!json.has_value())
return {};
return json.value();
}
JSFileResult TestRunner::run_file_test(const String& test_path)
{
currently_running_test = test_path;
double start_time = get_time_in_ms();
auto interpreter = JS::Interpreter::create<TestRunnerGlobalObject>(*vm);
// FIXME: This is a hack while we're refactoring Interpreter/VM stuff.
JS::VM::InterpreterExecutionScope scope(*interpreter);
interpreter->heap().set_should_collect_on_every_allocation(collect_on_every_allocation);
if (!m_test_program) {
auto result = parse_file(String::formatted("{}/test-common.js", m_test_root));
if (result.is_error()) {
warnln("Unable to parse test-common.js");
warnln("{}", result.error().error.to_string());
warnln("{}", result.error().hint);
cleanup_and_exit();
}
m_test_program = result.value();
}
interpreter->run(interpreter->global_object(), *m_test_program);
auto file_program = parse_file(test_path);
if (file_program.is_error())
return { test_path, file_program.error() };
interpreter->run(interpreter->global_object(), *file_program.value());
auto test_json = get_test_results(*interpreter);
if (!test_json.has_value()) {
warnln("Received malformed JSON from test \"{}\"", test_path);
cleanup_and_exit();
}
JSFileResult file_result { test_path.substring(m_test_root.length() + 1, test_path.length() - m_test_root.length() - 1) };
// Collect logged messages
auto& arr = interpreter->vm().get_variable("__UserOutput__", interpreter->global_object()).as_array();
for (auto& entry : arr.indexed_properties()) {
auto message = entry.value_and_attributes(&interpreter->global_object()).value;
file_result.logged_messages.append(message.to_string_without_side_effects());
}
test_json.value().as_object().for_each_member([&](const String& suite_name, const JsonValue& suite_value) {
Test::Suite suite { suite_name };
VERIFY(suite_value.is_object());
suite_value.as_object().for_each_member([&](const String& test_name, const JsonValue& test_value) {
Test::Case test { test_name, Test::Result::Fail, "" };
VERIFY(test_value.is_object());
VERIFY(test_value.as_object().has("result"));
auto result = test_value.as_object().get("result");
VERIFY(result.is_string());
auto result_string = result.as_string();
if (result_string == "pass") {
test.result = Test::Result::Pass;
m_counts.tests_passed++;
} else if (result_string == "fail") {
test.result = Test::Result::Fail;
m_counts.tests_failed++;
suite.most_severe_test_result = Test::Result::Fail;
VERIFY(test_value.as_object().has("details"));
auto details = test_value.as_object().get("details");
VERIFY(result.is_string());
test.details = details.as_string();
} else {
test.result = Test::Result::Skip;
if (suite.most_severe_test_result == Test::Result::Pass)
suite.most_severe_test_result = Test::Result::Skip;
m_counts.tests_skipped++;
}
suite.tests.append(test);
});
if (suite.most_severe_test_result == Test::Result::Fail) {
m_counts.suites_failed++;
file_result.most_severe_test_result = Test::Result::Fail;
} else {
if (suite.most_severe_test_result == Test::Result::Skip && file_result.most_severe_test_result == Test::Result::Pass)
file_result.most_severe_test_result = Test::Result::Skip;
m_counts.suites_passed++;
}
file_result.suites.append(suite);
});
m_counts.files_total++;
file_result.time_taken = get_time_in_ms() - start_time;
m_total_elapsed_time_in_ms += file_result.time_taken;
return file_result;
}
enum Modifier {
BG_RED,
BG_GREEN,
FG_RED,
FG_GREEN,
FG_ORANGE,
FG_GRAY,
FG_BLACK,
FG_BOLD,
ITALIC,
CLEAR,
};
static void print_modifiers(Vector<Modifier> modifiers)
{
for (auto& modifier : modifiers) {
auto code = [&] {
switch (modifier) {
case BG_RED:
return "\033[48;2;255;0;102m";
case BG_GREEN:
return "\033[48;2;102;255;0m";
case FG_RED:
return "\033[38;2;255;0;102m";
case FG_GREEN:
return "\033[38;2;102;255;0m";
case FG_ORANGE:
return "\033[38;2;255;102;0m";
case FG_GRAY:
return "\033[38;2;135;139;148m";
case FG_BLACK:
return "\033[30m";
case FG_BOLD:
return "\033[1m";
case ITALIC:
return "\033[3m";
case CLEAR:
return "\033[0m";
}
VERIFY_NOT_REACHED();
}();
out("{}", code);
}
}
void TestRunner::print_file_result(const JSFileResult& file_result) const
{
if (file_result.most_severe_test_result == Test::Result::Fail || file_result.error.has_value()) {
print_modifiers({ BG_RED, FG_BLACK, FG_BOLD });
out(" FAIL ");
print_modifiers({ CLEAR });
} else {
if (m_print_times || file_result.most_severe_test_result != Test::Result::Pass) {
print_modifiers({ BG_GREEN, FG_BLACK, FG_BOLD });
out(" PASS ");
print_modifiers({ CLEAR });
} else {
return;
}
}
out(" {}", file_result.name);
if (m_print_times) {
print_modifiers({ CLEAR, ITALIC, FG_GRAY });
if (file_result.time_taken < 1000) {
outln(" ({}ms)", static_cast<int>(file_result.time_taken));
} else {
outln(" ({:3}s)", file_result.time_taken / 1000.0);
}
print_modifiers({ CLEAR });
} else {
outln();
}
if (!file_result.logged_messages.is_empty()) {
print_modifiers({ FG_GRAY, FG_BOLD });
#ifdef __serenity__
outln(" Console output:");
#else
// This emoji has a second invisible byte after it. The one above does not
outln(" Console output:");
#endif
print_modifiers({ CLEAR, FG_GRAY });
for (auto& message : file_result.logged_messages)
outln(" {}", message);
}
if (file_result.error.has_value()) {
auto test_error = file_result.error.value();
print_modifiers({ FG_RED });
#ifdef __serenity__
outln(" ❌ The file failed to parse");
#else
// No invisible byte here, but the spacing still needs to be altered on the host
outln(" ❌ The file failed to parse");
#endif
outln();
print_modifiers({ FG_GRAY });
for (auto& message : test_error.hint.split('\n', true)) {
outln(" {}", message);
}
print_modifiers({ FG_RED });
outln(" {}", test_error.error.to_string());
outln();
return;
}
if (file_result.most_severe_test_result != Test::Result::Pass) {
for (auto& suite : file_result.suites) {
if (suite.most_severe_test_result == Test::Result::Pass)
continue;
bool failed = suite.most_severe_test_result == Test::Result::Fail;
print_modifiers({ FG_GRAY, FG_BOLD });
if (failed) {
#ifdef __serenity__
out(" ❌ Suite: ");
#else
// No invisible byte here, but the spacing still needs to be altered on the host
out(" ❌ Suite: ");
#endif
} else {
#ifdef __serenity__
out(" ⚠ Suite: ");
#else
// This emoji has a second invisible byte after it. The one above does not
out(" ⚠️ Suite: ");
#endif
}
print_modifiers({ CLEAR, FG_GRAY });
if (suite.name == TOP_LEVEL_TEST_NAME) {
outln("<top-level>");
} else {
outln("{}", suite.name);
}
print_modifiers({ CLEAR });
for (auto& test : suite.tests) {
if (test.result == Test::Result::Pass)
continue;
print_modifiers({ FG_GRAY, FG_BOLD });
out(" Test: ");
if (test.result == Test::Result::Fail) {
print_modifiers({ CLEAR, FG_RED });
outln("{} (failed):", test.name);
outln(" {}", test.details);
} else {
print_modifiers({ CLEAR, FG_ORANGE });
outln("{} (skipped)", test.name);
}
print_modifiers({ CLEAR });
}
}
}
}
void TestRunner::print_test_results() const
{
out("\nTest Suites: ");
if (m_counts.suites_failed) {
print_modifiers({ FG_RED });
out("{} failed, ", m_counts.suites_failed);
print_modifiers({ CLEAR });
}
if (m_counts.suites_passed) {
print_modifiers({ FG_GREEN });
out("{} passed, ", m_counts.suites_passed);
print_modifiers({ CLEAR });
}
outln("{} total", m_counts.suites_failed + m_counts.suites_passed);
out("Tests: ");
if (m_counts.tests_failed) {
print_modifiers({ FG_RED });
out("{} failed, ", m_counts.tests_failed);
print_modifiers({ CLEAR });
}
if (m_counts.tests_skipped) {
print_modifiers({ FG_ORANGE });
out("{} skipped, ", m_counts.tests_skipped);
print_modifiers({ CLEAR });
}
if (m_counts.tests_passed) {
print_modifiers({ FG_GREEN });
out("{} passed, ", m_counts.tests_passed);
print_modifiers({ CLEAR });
}
outln("{} total", m_counts.tests_failed + m_counts.tests_skipped + m_counts.tests_passed);
outln("Files: {} total", m_counts.files_total);
out("Time: ");
if (m_total_elapsed_time_in_ms < 1000.0) {
outln("{}ms", static_cast<int>(m_total_elapsed_time_in_ms));
} else {
outln("{:>.3}s", m_total_elapsed_time_in_ms / 1000.0);
}
outln();
}
class Test262ParserTestRunner final : public TestRunner {
public:
using TestRunner::TestRunner;
private:
virtual Vector<String> get_test_paths() const override;
virtual JSFileResult run_file_test(const String& test_path) override;
};
Vector<String> Test262ParserTestRunner::get_test_paths() const
{
Vector<String> paths;
iterate_directory_recursively(m_test_root, [&](const String& file_path) {
auto dirname = LexicalPath(file_path).dirname();
if (dirname.ends_with("early") || dirname.ends_with("fail") || dirname.ends_with("pass") || dirname.ends_with("pass-explicit"))
paths.append(file_path);
});
quick_sort(paths);
return paths;
}
JSFileResult Test262ParserTestRunner::run_file_test(const String& test_path)
{
currently_running_test = test_path;
auto dirname = LexicalPath(test_path).dirname();
bool expecting_file_to_parse;
if (dirname.ends_with("early") || dirname.ends_with("fail")) {
expecting_file_to_parse = false;
} else if (dirname.ends_with("pass") || dirname.ends_with("pass-explicit")) {
expecting_file_to_parse = true;
} else {
VERIFY_NOT_REACHED();
}
auto start_time = get_time_in_ms();
String details = "";
Test::Result test_result;
if (test_path.ends_with(".module.js")) {
test_result = Test::Result::Skip;
m_counts.tests_skipped++;
m_counts.suites_passed++;
} else {
auto parse_result = parse_file(test_path);
if (expecting_file_to_parse) {
if (!parse_result.is_error()) {
test_result = Test::Result::Pass;
} else {
test_result = Test::Result::Fail;
details = parse_result.error().error.to_string();
}
} else {
if (parse_result.is_error()) {
test_result = Test::Result::Pass;
} else {
test_result = Test::Result::Fail;
details = "File was expected to produce a parser error but didn't";
}
}
}
// test262-parser-tests doesn't have "suites" and "tests" in the usual sense, it just has files
// and an expectation whether they should parse or not. We add one suite with one test nonetheless:
//
// - This makes interpreting skipped test easier as their file is shown as "PASS"
// - That way we can show additional information such as "file parsed but shouldn't have" or
// parser errors for files that should parse respectively
Test::Case test { expecting_file_to_parse ? "file should parse" : "file should not parse", test_result, details };
Test::Suite suite { "Parse file", test_result, { test } };
JSFileResult file_result {
test_path.substring(m_test_root.length() + 1, test_path.length() - m_test_root.length() - 1),
{},
get_time_in_ms() - start_time,
test_result,
{ suite }
};
if (test_result == Test::Result::Fail) {
m_counts.tests_failed++;
m_counts.suites_failed++;
} else {
m_counts.tests_passed++;
m_counts.suites_passed++;
}
m_counts.files_total++;
m_total_elapsed_time_in_ms += file_result.time_taken;
return file_result;
}
int main(int argc, char** argv)
{
struct sigaction act;
memset(&act, 0, sizeof(act));
act.sa_flags = SA_NOCLDWAIT;
act.sa_handler = handle_sigabrt;
int rc = sigaction(SIGABRT, &act, nullptr);
if (rc < 0) {
perror("sigaction");
return 1;
}
#ifdef SIGINFO
signal(SIGINFO, [](int) {
static char buffer[4096];
auto& counts = TestRunner::the()->counts();
int len = snprintf(buffer, sizeof(buffer), "Pass: %d, Fail: %d, Skip: %d\nCurrent test: %s\n", counts.tests_passed, counts.tests_failed, counts.tests_skipped, currently_running_test.characters());
write(STDOUT_FILENO, buffer, len);
});
#endif
bool print_times = false;
bool print_progress =
#ifdef __serenity__
true; // Use OSC 9 to print progress
#else
false;
#endif
bool test262_parser_tests = false;
const char* specified_test_root = nullptr;
Core::ArgsParser args_parser;
args_parser.add_option(print_times, "Show duration of each test", "show-time", 't');
args_parser.add_option(Core::ArgsParser::Option {
.requires_argument = true,
.help_string = "Show progress with OSC 9 (true, false)",
.long_name = "show-progress",
.short_name = 'p',
.accept_value = [&](auto* str) {
if (StringView { "true" } == str)
print_progress = true;
else if (StringView { "false" } == str)
print_progress = false;
else
return false;
return true;
},
});
args_parser.add_option(collect_on_every_allocation, "Collect garbage after every allocation", "collect-often", 'g');
args_parser.add_option(test262_parser_tests, "Run test262 parser tests", "test262-parser-tests", 0);
args_parser.add_positional_argument(specified_test_root, "Tests root directory", "path", Core::ArgsParser::Required::No);
args_parser.parse(argc, argv);
if (test262_parser_tests) {
if (collect_on_every_allocation) {
warnln("--collect-often and --test262-parser-tests options must not be used together");
return 1;
}
if (!specified_test_root) {
warnln("Test root is required with --test262-parser-tests");
return 1;
}
}
if (getenv("DISABLE_DBG_OUTPUT")) {
AK::set_debug_enabled(false);
}
String test_root;
if (specified_test_root) {
test_root = String { specified_test_root };
} else {
#ifdef __serenity__
test_root = "/home/anon/js-tests";
#else
char* serenity_source_dir = getenv("SERENITY_SOURCE_DIR");
if (!serenity_source_dir) {
warnln("No test root given, test-js requires the SERENITY_SOURCE_DIR environment variable to be set");
return 1;
}
test_root = String::formatted("{}/Userland/Libraries/LibJS/Tests", serenity_source_dir);
#endif
}
if (!Core::File::is_directory(test_root)) {
warnln("Test root is not a directory: {}", test_root);
return 1;
}
vm = JS::VM::create();
Test::Counts result_counts;
if (test262_parser_tests)
result_counts = Test262ParserTestRunner(test_root, print_times, print_progress).run();
else
result_counts = TestRunner(test_root, print_times, print_progress).run();
vm = nullptr;
return result_counts.tests_failed > 0 ? 1 : 0;
}
Reference in New Issue View Git Blame Copy Permalink