/*
* Copyright (c) 2020, Matthew Olsson <matthewcolsson@gmail.com>
* Copyright (c) 2020, Linus Groh <mail@linusgroh.de>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <AK/ByteBuffer.h>
#include <AK/JsonObject.h>
#include <AK/JsonValue.h>
#include <AK/LexicalPath.h>
#include <AK/LogStream.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 <signal.h>
#include <stdlib.h>
#include <sys/time.h>
#define TOP_LEVEL_TEST_NAME "__$$TOP_LEVEL$$__"
RefPtr<JS::VM> vm;
static bool collect_on_every_allocation = false;
static String currently_running_test;
enum class TestResult {
Pass,
Fail,
Skip,
};
struct JSTest {
String name;
TestResult result;
String details;
};
struct JSSuite {
String name;
// A failed test takes precedence over a skipped test, which both have
// precedence over a passed test
TestResult most_severe_test_result { TestResult::Pass };
Vector<JSTest> tests {};
};
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
TestResult most_severe_test_result { TestResult::Pass };
Vector<JSSuite> suites {};
Vector<String> logged_messages {};
};
struct JSTestRunnerCounts {
int tests_failed { 0 };
int tests_passed { 0 };
int tests_skipped { 0 };
int suites_failed { 0 };
int suites_passed { 0 };
int files_total { 0 };
};
class TestRunnerGlobalObject : public JS::GlobalObject {
public:
TestRunnerGlobalObject();
virtual ~TestRunnerGlobalObject() override;
virtual void initialize() override;
private:
virtual const char* class_name() const override { return "TestRunnerGlobalObject"; }
JS_DECLARE_NATIVE_FUNCTION(is_strict_mode);
JS_DECLARE_NATIVE_FUNCTION(can_parse_source);
};
class TestRunner {
public:
static TestRunner* the()
{
return s_the;
}
TestRunner(String test_root, bool print_times)
: m_test_root(move(test_root))
, m_print_times(print_times)
{
ASSERT(!s_the);
s_the = this;
}
void run();
const JSTestRunnerCounts& counts() const { return m_counts; }
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;
double m_total_elapsed_time_in_ms { 0 };
JSTestRunnerCounts m_counts;
RefPtr<JS::Program> m_test_program;
};
TestRunner* TestRunner::s_the = nullptr;
TestRunnerGlobalObject::TestRunnerGlobalObject()
{
}
TestRunnerGlobalObject::~TestRunnerGlobalObject()
{
}
void TestRunnerGlobalObject::initialize()
{
JS::GlobalObject::initialize();
static FlyString global_property_name { "global" };
static FlyString is_strict_mode_property_name { "isStrictMode" };
static FlyString can_parse_source_property_name { "canParseSource" };
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);
}
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());
}
static void cleanup_and_exit()
{
// Clear the taskbar progress.
#ifdef __serenity__
fprintf(stderr, "\033]9;-1;\033\\");
#endif
exit(1);
}
static void handle_sigabrt(int)
{
dbg() << "test-js: SIGABRT received, cleaning up.";
cleanup_and_exit();
}
static double get_time_in_ms()
{
struct timeval tv1;
auto return_code = gettimeofday(&tv1, nullptr);
ASSERT(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 = String::format("%s/%s", directory_path.characters(), directory_iterator.next_path().characters());
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;
}
void 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));
#ifdef __serenity__
fprintf(stderr, "\033]9;%zu;%zu;\033\\", progress_counter, test_paths.size());
#endif
}
#ifdef __serenity__
fprintf(stderr, "\033]9;-1;\033\\");
#endif
print_test_results();
}
static Result<NonnullRefPtr<JS::Program>, ParserError> parse_file(const String& file_path)
{
auto file = Core::File::construct(file_path);
auto result = file->open(Core::IODevice::ReadOnly);
if (!result) {
printf("Failed to open the following file: \"%s\"\n", file_path.characters());
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::format("%s/test-common.js", m_test_root.characters()));
if (result.is_error()) {
printf("Unable to parse test-common.js\n");
printf("%s\n", result.error().error.to_string().characters());
printf("%s\n", result.error().hint.characters());
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()) {
printf("Received malformed JSON from test \"%s\"\n", test_path.characters());
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) {
JSSuite suite { suite_name };
ASSERT(suite_value.is_object());
suite_value.as_object().for_each_member([&](const String& test_name, const JsonValue& test_value) {
JSTest test { test_name, TestResult::Fail, "" };
ASSERT(test_value.is_object());
ASSERT(test_value.as_object().has("result"));
auto result = test_value.as_object().get("result");
ASSERT(result.is_string());
auto result_string = result.as_string();
if (result_string == "pass") {
test.result = TestResult::Pass;
m_counts.tests_passed++;
} else if (result_string == "fail") {
test.result = TestResult::Fail;
m_counts.tests_failed++;
suite.most_severe_test_result = TestResult::Fail;
ASSERT(test_value.as_object().has("details"));
auto details = test_value.as_object().get("details");
ASSERT(result.is_string());
test.details = details.as_string();
} else {
test.result = TestResult::Skip;
if (suite.most_severe_test_result == TestResult::Pass)
suite.most_severe_test_result = TestResult::Skip;
m_counts.tests_skipped++;
}
suite.tests.append(test);
});
if (suite.most_severe_test_result == TestResult::Fail) {
m_counts.suites_failed++;
file_result.most_severe_test_result = TestResult::Fail;
} else {
if (suite.most_severe_test_result == TestResult::Skip && file_result.most_severe_test_result == TestResult::Pass)
file_result.most_severe_test_result = TestResult::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 = [&]() -> String {
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";
}
ASSERT_NOT_REACHED();
};
printf("%s", code().characters());
}
}
void TestRunner::print_file_result(const JSFileResult& file_result) const
{
if (file_result.most_severe_test_result == TestResult::Fail || file_result.error.has_value()) {
print_modifiers({ BG_RED, FG_BLACK, FG_BOLD });
printf(" FAIL ");
print_modifiers({ CLEAR });
} else {
if (m_print_times || file_result.most_severe_test_result != TestResult::Pass) {
print_modifiers({ BG_GREEN, FG_BLACK, FG_BOLD });
printf(" PASS ");
print_modifiers({ CLEAR });
} else {
return;
}
}
printf(" %s", file_result.name.characters());
if (m_print_times) {
print_modifiers({ CLEAR, ITALIC, FG_GRAY });
if (file_result.time_taken < 1000) {
printf(" (%dms)\n", static_cast<int>(file_result.time_taken));
} else {
printf(" (%.3fs)\n", file_result.time_taken / 1000.0);
}
print_modifiers({ CLEAR });
} else {
printf("\n");
}
if (!file_result.logged_messages.is_empty()) {
print_modifiers({ FG_GRAY, FG_BOLD });
#ifdef __serenity__
printf(" ℹ Console output:\n");
#else
// This emoji has a second invisible byte after it. The one above does not
printf(" ℹ️ Console output:\n");
#endif
print_modifiers({ CLEAR, FG_GRAY });
for (auto& message : file_result.logged_messages)
printf(" %s\n", message.characters());
}
if (file_result.error.has_value()) {
auto test_error = file_result.error.value();
print_modifiers({ FG_RED });
#ifdef __serenity__
printf(" ❌ The file failed to parse\n\n");
#else
// No invisible byte here, but the spacing still needs to be altered on the host
printf(" ❌ The file failed to parse\n\n");
#endif
print_modifiers({ FG_GRAY });
for (auto& message : test_error.hint.split('\n', true)) {
printf(" %s\n", message.characters());
}
print_modifiers({ FG_RED });
printf(" %s\n\n", test_error.error.to_string().characters());
return;
}
if (file_result.most_severe_test_result != TestResult::Pass) {
for (auto& suite : file_result.suites) {
if (suite.most_severe_test_result == TestResult::Pass)
continue;
bool failed = suite.most_severe_test_result == TestResult::Fail;
print_modifiers({ FG_GRAY, FG_BOLD });
if (failed) {
#ifdef __serenity__
printf(" ❌ Suite: ");
#else
// No invisible byte here, but the spacing still needs to be altered on the host
printf(" ❌ Suite: ");
#endif
} else {
#ifdef __serenity__
printf(" ⚠ Suite: ");
#else
// This emoji has a second invisible byte after it. The one above does not
printf(" ⚠️ Suite: ");
#endif
}
print_modifiers({ CLEAR, FG_GRAY });
if (suite.name == TOP_LEVEL_TEST_NAME) {
printf("<top-level>\n");
} else {
printf("%s\n", suite.name.characters());
}
print_modifiers({ CLEAR });
for (auto& test : suite.tests) {
if (test.result == TestResult::Pass)
continue;
print_modifiers({ FG_GRAY, FG_BOLD });
printf(" Test: ");
if (test.result == TestResult::Fail) {
print_modifiers({ CLEAR, FG_RED });
printf("%s (failed):\n", test.name.characters());
printf(" %s\n", test.details.characters());
} else {
print_modifiers({ CLEAR, FG_ORANGE });
printf("%s (skipped)\n", test.name.characters());
}
print_modifiers({ CLEAR });
}
}
}
}
void TestRunner::print_test_results() const
{
printf("\nTest Suites: ");
if (m_counts.suites_failed) {
print_modifiers({ FG_RED });
printf("%d failed, ", m_counts.suites_failed);
print_modifiers({ CLEAR });
}
if (m_counts.suites_passed) {
print_modifiers({ FG_GREEN });
printf("%d passed, ", m_counts.suites_passed);
print_modifiers({ CLEAR });
}
printf("%d total\n", m_counts.suites_failed + m_counts.suites_passed);
printf("Tests: ");
if (m_counts.tests_failed) {
print_modifiers({ FG_RED });
printf("%d failed, ", m_counts.tests_failed);
print_modifiers({ CLEAR });
}
if (m_counts.tests_skipped) {
print_modifiers({ FG_ORANGE });
printf("%d skipped, ", m_counts.tests_skipped);
print_modifiers({ CLEAR });
}
if (m_counts.tests_passed) {
print_modifiers({ FG_GREEN });
printf("%d passed, ", m_counts.tests_passed);
print_modifiers({ CLEAR });
}
printf("%d total\n", m_counts.tests_failed + m_counts.tests_skipped + m_counts.tests_passed);
printf("Files: %d total\n", m_counts.files_total);
printf("Time: ");
if (m_total_elapsed_time_in_ms < 1000.0) {
printf("%dms\n\n", static_cast<int>(m_total_elapsed_time_in_ms));
} else {
printf("%-.3fs\n\n", m_total_elapsed_time_in_ms / 1000.0);
}
}
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 {
ASSERT_NOT_REACHED();
}
auto start_time = get_time_in_ms();
String details = "";
TestResult test_result;
if (test_path.ends_with(".module.js")) {
test_result = TestResult::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 = TestResult::Pass;
} else {
test_result = TestResult::Fail;
details = parse_result.error().error.to_string();
}
} else {
if (parse_result.is_error()) {
test_result = TestResult::Pass;
} else {
test_result = TestResult::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
JSTest test { expecting_file_to_parse ? "file should parse" : "file should not parse", test_result, details };
JSSuite 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 == TestResult::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 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(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) {
fprintf(stderr, "--collect-often and --test262-parser-tests options must not be used together\n");
return 1;
}
if (!specified_test_root) {
fprintf(stderr, "Test root is required with --test262-parser-tests\n");
return 1;
}
}
if (getenv("DISABLE_DBG_OUTPUT")) {
DebugLogStream::set_enabled(false);
}
String test_root;
if (!specified_test_root) {
#ifdef __serenity__
test_root = "/home/anon/js-tests";
#else
char* serenity_root = getenv("SERENITY_ROOT");
if (!serenity_root) {
printf("No test root given, test-js requires the SERENITY_ROOT environment variable to be set");
return 1;
}
test_root = String::formatted("{}/Libraries/LibJS/Tests", serenity_root);
#endif
}
if (!Core::File::is_directory(test_root)) {
warnln("Test root is not a directory: {}", test_root);
return 1;
}
vm = JS::VM::create();
if (test262_parser_tests)
Test262ParserTestRunner(test_root, print_times).run();
else
TestRunner(test_root, print_times).run();
vm = nullptr;
return TestRunner::the()->counts().tests_failed > 0 ? 1 : 0;
}