/*
* Copyright (c) 2022, David Tuin <davidot@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ByteString.h>
#include <AK/Format.h>
#include <AK/HashMap.h>
#include <AK/JsonObject.h>
#include <AK/JsonParser.h>
#include <AK/LexicalPath.h>
#include <AK/QuickSort.h>
#include <AK/Vector.h>
#include <LibCore/ArgsParser.h>
#include <LibCore/Command.h>
#include <LibCore/File.h>
#include <LibFileSystem/FileSystem.h>
#include <LibMain/Main.h>
#include <LibTest/TestRunnerUtil.h>
enum class TestResult {
Passed,
Failed,
Skipped,
MetadataError,
HarnessError,
TimeoutError,
ProcessError,
RunnerFailure,
TodoError,
};
static StringView name_for_result(TestResult result)
{
switch (result) {
case TestResult::Passed:
return "PASSED"sv;
case TestResult::Failed:
return "FAILED"sv;
case TestResult::Skipped:
return "SKIPPED"sv;
case TestResult::MetadataError:
return "METADATA_ERROR"sv;
case TestResult::HarnessError:
return "HARNESS_ERROR"sv;
case TestResult::TimeoutError:
return "TIMEOUT_ERROR"sv;
case TestResult::ProcessError:
return "PROCESS_ERROR"sv;
case TestResult::RunnerFailure:
return "RUNNER_EXCEPTION"sv;
case TestResult::TodoError:
return "TODO_ERROR"sv;
}
VERIFY_NOT_REACHED();
return ""sv;
}
static TestResult result_from_string(StringView string_view)
{
if (string_view == "passed"sv)
return TestResult::Passed;
if (string_view == "failed"sv)
return TestResult::Failed;
if (string_view == "skipped"sv)
return TestResult::Skipped;
if (string_view == "metadata_error"sv)
return TestResult::MetadataError;
if (string_view == "harness_error"sv)
return TestResult::HarnessError;
if (string_view == "timeout"sv)
return TestResult::TimeoutError;
if (string_view == "process_error"sv || string_view == "assert_fail"sv)
return TestResult::ProcessError;
if (string_view == "todo_error"sv)
return TestResult::TodoError;
return TestResult::RunnerFailure;
}
static StringView emoji_for_result(TestResult result)
{
switch (result) {
case TestResult::Passed:
return "โ
"sv;
case TestResult::Failed:
return "โ"sv;
case TestResult::Skipped:
return "โ "sv;
case TestResult::MetadataError:
return "๐"sv;
case TestResult::HarnessError:
return "โ"sv;
case TestResult::TimeoutError:
return "๐"sv;
case TestResult::ProcessError:
return "๐ฅ"sv;
case TestResult::RunnerFailure:
return "๐"sv;
case TestResult::TodoError:
return "๐"sv;
}
VERIFY_NOT_REACHED();
return ""sv;
}
static constexpr StringView total_test_emoji = "๐งช"sv;
static ErrorOr<HashMap<size_t, TestResult>> run_test_files(Span<ByteString> files, size_t offset, StringView command, char const* const arguments[])
{
HashMap<size_t, TestResult> results {};
TRY(results.try_ensure_capacity(files.size()));
size_t test_index = 0;
auto fail_all_after = [&] {
for (; test_index < files.size(); ++test_index)
results.set(offset + test_index, TestResult::RunnerFailure);
};
while (test_index < files.size()) {
auto runner_process_or_error = Core::Command::create(command, arguments);
if (runner_process_or_error.is_error()) {
fail_all_after();
return results;
}
auto& runner_process = runner_process_or_error.value();
if (auto maybe_error = runner_process->write_lines(files.slice(test_index)); maybe_error.is_error()) {
warnln("Runner process failed writing writing file input: {}", maybe_error.error());
fail_all_after();
return results;
}
auto output_or_error = runner_process->read_all();
ByteString output;
if (output_or_error.is_error())
warnln("Got error: {} while reading runner output", output_or_error.error());
else
output = ByteString(output_or_error.release_value().standard_error.bytes(), Chomp);
auto status_or_error = runner_process->status();
bool failed = false;
if (!status_or_error.is_error()) {
VERIFY(status_or_error.value() != Core::Command::ProcessResult::Running);
failed = status_or_error.value() != Core::Command::ProcessResult::DoneWithZeroExitCode;
}
for (StringView line : output.split_view('\n')) {
if (!line.starts_with("RESULT "sv))
break;
auto test_for_line = test_index;
++test_index;
if (test_for_line >= files.size())
break;
line = line.substring_view(7).trim("\n\0 "sv);
JsonParser parser { line };
TestResult result = TestResult::RunnerFailure;
auto result_object_or_error = parser.parse();
if (!result_object_or_error.is_error() && result_object_or_error.value().is_object()) {
auto& result_object = result_object_or_error.value().as_object();
if (auto result_string = result_object.get_byte_string("result"sv); result_string.has_value()) {
auto const& view = result_string.value();
// Timeout and assert fail already are the result of the stopping test
if (view == "timeout"sv || view == "assert_fail"sv) {
failed = false;
}
result = result_from_string(view);
}
}
results.set(test_for_line + offset, result);
}
if (failed) {
TestResult result = TestResult::ProcessError;
if (!status_or_error.is_error() && status_or_error.value() == Core::Command::ProcessResult::FailedFromTimeout) {
result = TestResult::TimeoutError;
}
// assume the last test failed, if by SIGALRM signal it's a timeout
results.set(test_index + offset, result);
++test_index;
}
}
return results;
}
void write_per_file(HashMap<size_t, TestResult> const& result_map, Vector<ByteString> const& paths, StringView per_file_name, double time_taken_in_ms);
ErrorOr<int> minerva_main(Main::Arguments arguments)
{
size_t batch_size = 50;
StringView per_file_location;
StringView pass_through_parameters;
StringView runner_command = "test262-runner"sv;
StringView test_directory;
bool dont_print_progress = false;
bool dont_disable_core_dump = false;
Core::ArgsParser args_parser;
args_parser.add_positional_argument(test_directory, "Directory to search for tests", "tests");
args_parser.add_option(per_file_location, "Output a per-file containing all results", "per-file", 'o', "filename");
args_parser.add_option(batch_size, "Size of batches send to runner at once", "batch-size", 'b', "batch size");
args_parser.add_option(runner_command, "Command to run", "runner-command", 'r', "command");
args_parser.add_option(pass_through_parameters, "Parameters to pass through to the runner, will split on spaces", "pass-through", 'p', "parameters");
args_parser.add_option(dont_print_progress, "Hide progress information", "quiet", 'q');
args_parser.add_option(dont_disable_core_dump, "Enabled core dumps for runner (i.e. don't pass --disable-core-dump)", "enable-core-dumps");
args_parser.parse(arguments);
// Normalize the path to ensure filenames are consistent
Vector<ByteString> paths;
if (!FileSystem::is_directory(test_directory)) {
paths.append(test_directory);
} else {
Test::iterate_directory_recursively(LexicalPath::canonicalized_path(test_directory), [&](ByteString const& file_path) {
if (file_path.contains("_FIXTURE"sv))
return;
// FIXME: Add ignored file set
paths.append(file_path);
});
quick_sort(paths);
}
outln("Found {} tests", paths.size());
auto parameters = pass_through_parameters.split_view(' ');
Vector<ByteString> args;
args.ensure_capacity(parameters.size() + 2);
args.append(runner_command);
if (!dont_disable_core_dump)
args.append("--disable-core-dump"sv);
for (auto parameter : parameters)
args.append(parameter);
Vector<char const*> raw_args;
raw_args.ensure_capacity(args.size() + 1);
for (auto& arg : args)
raw_args.append(arg.characters());
raw_args.append(nullptr);
dbgln("test262 runner command: {}", args);
HashMap<size_t, TestResult> results;
Array<size_t, 9> result_counts {};
static_assert(result_counts.size() == static_cast<size_t>(TestResult::TodoError) + 1u);
size_t index = 0;
double start_time = Test::get_time_in_ms();
auto print_progress = [&] {
if (!dont_print_progress) {
warn("\033]9;{};{};\033\\", index, paths.size());
double percentage_done = (100. * index) / paths.size();
warn("{:04.2f}% {:3.1f}s ", percentage_done, (Test::get_time_in_ms() - start_time) / 1000.);
for (size_t i = 0; i < result_counts.size(); ++i) {
auto result_type = static_cast<TestResult>(i);
warn("{} {} ", emoji_for_result(result_type), result_counts[i]);
}
warn("\r");
}
};
while (index < paths.size()) {
print_progress();
auto this_batch_size = min(batch_size, paths.size() - index);
auto batch_results = TRY(run_test_files(paths.span().slice(index, this_batch_size), index, args[0], raw_args.data()));
TRY(results.try_ensure_capacity(results.size() + batch_results.size()));
for (auto& [key, value] : batch_results) {
results.set(key, value);
++result_counts[static_cast<size_t>(value)];
}
index += this_batch_size;
}
double time_taken_in_ms = Test::get_time_in_ms() - start_time;
print_progress();
if (!dont_print_progress)
warn("\n\033]9;-1;\033\\");
outln("Took {} seconds", time_taken_in_ms / 1000.);
outln("{}: {}", total_test_emoji, paths.size());
for (size_t i = 0; i < result_counts.size(); ++i) {
auto result_type = static_cast<TestResult>(i);
outln("{}: {} ({:3.2f}%)", emoji_for_result(result_type), result_counts[i], 100. * static_cast<double>(result_counts[i]) / paths.size());
}
if (!per_file_location.is_empty())
write_per_file(results, paths, per_file_location, time_taken_in_ms);
return 0;
}
void write_per_file(HashMap<size_t, TestResult> const& result_map, Vector<ByteString> const& paths, StringView per_file_name, double time_taken_in_ms)
{
auto file_or_error = Core::File::open(per_file_name, Core::File::OpenMode::Write);
if (file_or_error.is_error()) {
warnln("Failed to open per file for writing at {}: {}", per_file_name, file_or_error.error().string_literal());
return;
}
auto& file = file_or_error.value();
JsonObject result_object;
for (auto& [test, value] : result_map)
result_object.set(paths[test], name_for_result(value));
JsonObject complete_results {};
complete_results.set("duration", time_taken_in_ms / 1000.);
complete_results.set("results", result_object);
if (file->write_until_depleted(complete_results.to_byte_string()).is_error())
warnln("Failed to write per-file");
file->close();
}
