aos/starter/subprocess_test.cc - RealtimeRoboticsGroup/test - Gitiles

 #include "aos/starter/subprocess.h"

 #include <signal.h>
 #include <sys/types.h>

 #include "gtest/gtest.h"

 #include "aos/events/shm_event_loop.h"
 #include "aos/testing/path.h"
 #include "aos/testing/tmpdir.h"
 #include "aos/util/file.h"

 namespace aos::starter::testing {

 class SubprocessTest : public ::testing::Test {
  protected:
   SubprocessTest() : shm_dir_(aos::testing::TestTmpDir() + "/aos") {
     FLAGS_shm_base = shm_dir_;

     // Nuke the shm dir:
     aos::util::UnlinkRecursive(shm_dir_);
   }

   gflags::FlagSaver flag_saver_;
   std::string shm_dir_;
 };

 TEST_F(SubprocessTest, CaptureOutputs) {
   const std::string config_file =
       ::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

   aos::FlatbufferDetachedBuffer<aos::Configuration> config =
       aos::configuration::ReadConfig(config_file);
   aos::ShmEventLoop event_loop(&config.message());
   bool observed_stopped = false;
   Application echo_stdout(
       "echo", "echo", &event_loop, [&observed_stopped, &echo_stdout]() {
         if (echo_stdout.status() == aos::starter::State::STOPPED) {
           observed_stopped = true;
         }
       });
   ASSERT_FALSE(echo_stdout.autorestart());
   echo_stdout.set_args({"abcdef"});
   echo_stdout.set_capture_stdout(true);
   echo_stdout.set_capture_stderr(true);

   echo_stdout.Start();
   aos::TimerHandler *exit_timer =
       event_loop.AddTimer([&event_loop]() { event_loop.Exit(); });
   event_loop.OnRun([&event_loop, exit_timer]() {
     // Note: we are using the backup poll in this test to capture SIGCHLD.  This
     // runs at 1 hz, so make sure we let it run at least once.
     exit_timer->Schedule(event_loop.monotonic_now() +
                          std::chrono::milliseconds(1500));
   });

   event_loop.Run();

   ASSERT_EQ("abcdef\n", echo_stdout.GetStdout());
   ASSERT_TRUE(echo_stdout.GetStderr().empty());
   EXPECT_TRUE(observed_stopped);
   EXPECT_EQ(aos::starter::State::STOPPED, echo_stdout.status());

   observed_stopped = false;

   // Run again, the output should've been cleared.
   echo_stdout.set_args({"ghijkl"});
   echo_stdout.Start();
   event_loop.Run();
   ASSERT_EQ("ghijkl\n", echo_stdout.GetStdout());
   EXPECT_TRUE(observed_stopped);
 }

 TEST_F(SubprocessTest, CaptureStderr) {
   const std::string config_file =
       ::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

   aos::FlatbufferDetachedBuffer<aos::Configuration> config =
       aos::configuration::ReadConfig(config_file);
   aos::ShmEventLoop event_loop(&config.message());
   bool observed_stopped = false;
   Application echo_stderr(
       "echo", "sh", &event_loop, [&observed_stopped, &echo_stderr]() {
         if (echo_stderr.status() == aos::starter::State::STOPPED) {
           observed_stopped = true;
         }
       });
   echo_stderr.set_args({"-c", "echo abcdef >&2"});
   echo_stderr.set_capture_stdout(true);
   echo_stderr.set_capture_stderr(true);

   echo_stderr.Start();
   // Note: we are using the backup poll in this test to capture SIGCHLD.  This
   // runs at 1 hz, so make sure we let it run at least once.
   event_loop.AddTimer([&event_loop]() { event_loop.Exit(); })
       ->Schedule(event_loop.monotonic_now() + std::chrono::milliseconds(1500));

   event_loop.Run();

   ASSERT_EQ("abcdef\n", echo_stderr.GetStderr());
   ASSERT_TRUE(echo_stderr.GetStdout().empty());
   ASSERT_TRUE(observed_stopped);
   ASSERT_EQ(aos::starter::State::STOPPED, echo_stderr.status());
 }

 TEST_F(SubprocessTest, UnactiveQuietFlag) {
   const std::string config_file =
       ::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

   ::testing::internal::CaptureStderr();

   // Set up application without quiet flag active
   aos::FlatbufferDetachedBuffer<aos::Configuration> config =
       aos::configuration::ReadConfig(config_file);
   aos::ShmEventLoop event_loop(&config.message());
   bool observed_stopped = false;
   Application error_out(
       "false", "false", &event_loop,
       [&observed_stopped, &error_out]() {
         if (error_out.status() == aos::starter::State::STOPPED) {
           observed_stopped = true;
         }
       },
       Application::QuietLogging::kNo);
   ASSERT_FALSE(error_out.autorestart());

   error_out.Start();
   aos::TimerHandler *exit_timer =
       event_loop.AddTimer([&event_loop]() { event_loop.Exit(); });
   event_loop.OnRun([&event_loop, exit_timer]() {
     exit_timer->Schedule(event_loop.monotonic_now() +
                          std::chrono::milliseconds(1500));
   });

   event_loop.Run();

   // Ensure presence of logs without quiet flag
   std::string output = ::testing::internal::GetCapturedStderr();
   std::string expectedStart = "Failed to start 'false'";
   std::string expectedRun = "exited unexpectedly with status";

   ASSERT_TRUE(output.find(expectedStart) != std::string::npos ||
               output.find(expectedRun) != std::string::npos);
   EXPECT_TRUE(observed_stopped);
   EXPECT_EQ(aos::starter::State::STOPPED, error_out.status());
 }

 TEST_F(SubprocessTest, ActiveQuietFlag) {
   const std::string config_file =
       ::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

   ::testing::internal::CaptureStderr();

   // Set up application with quiet flag active
   aos::FlatbufferDetachedBuffer<aos::Configuration> config =
       aos::configuration::ReadConfig(config_file);
   aos::ShmEventLoop event_loop(&config.message());
   bool observed_stopped = false;
   Application error_out(
       "false", "false", &event_loop,
       [&observed_stopped, &error_out]() {
         if (error_out.status() == aos::starter::State::STOPPED) {
           observed_stopped = true;
         }
       },
       Application::QuietLogging::kYes);
   ASSERT_FALSE(error_out.autorestart());

   error_out.Start();
   aos::TimerHandler *exit_timer =
       event_loop.AddTimer([&event_loop]() { event_loop.Exit(); });
   event_loop.OnRun([&event_loop, exit_timer]() {
     exit_timer->Schedule(event_loop.monotonic_now() +
                          std::chrono::milliseconds(1500));
   });

   event_loop.Run();

   // Ensure lack of logs with quiet flag
   ASSERT_TRUE(::testing::internal::GetCapturedStderr().empty());
   EXPECT_TRUE(observed_stopped);
   EXPECT_EQ(aos::starter::State::STOPPED, error_out.status());
 }

 // Tests that Nothing Bad™ happens if the event loop outlives the Application.
 //
 // Note that this is a bit of a hope test, as there is no guarantee that we
 // will trigger a crash even if the resources tied to the event loop in the
 // aos::Application aren't properly released.
 TEST_F(SubprocessTest, ShortLivedApp) {
   const std::string config_file =
       ::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

   aos::FlatbufferDetachedBuffer<aos::Configuration> config =
       aos::configuration::ReadConfig(config_file);
   aos::ShmEventLoop event_loop(&config.message());

   auto application =
       std::make_unique<Application>("sleep", "sleep", &event_loop, []() {});
   application->set_args({"10"});
   application->Start();
   pid_t pid = application->get_pid();

   int ticks = 0;
   aos::TimerHandler *exit_timer = event_loop.AddTimer([&event_loop, &ticks,
                                                        &application, pid]() {
     ticks++;
     if (application && application->status() == aos::starter::State::RUNNING) {
       // Kill the application, it will autorestart.
       kill(pid, SIGTERM);
       application.reset();
     }

     // event loop lives for longer.
     if (ticks >= 5) {
       // Now we exit.
       event_loop.Exit();
     }
   });

   event_loop.OnRun([&event_loop, exit_timer]() {
     exit_timer->Schedule(event_loop.monotonic_now(),
                          std::chrono::milliseconds(1000));
   });

   event_loop.Run();
 }
 }  // namespace aos::starter::testing
	#include "aos/starter/subprocess.h"

	#include <signal.h>
	#include <sys/types.h>

	#include "gtest/gtest.h"

	#include "aos/events/shm_event_loop.h"
	#include "aos/testing/path.h"
	#include "aos/testing/tmpdir.h"
	#include "aos/util/file.h"

	namespace aos::starter::testing {

	class SubprocessTest : public ::testing::Test {
	protected:
	SubprocessTest() : shm_dir_(aos::testing::TestTmpDir() + "/aos") {
	FLAGS_shm_base = shm_dir_;

	// Nuke the shm dir:
	aos::util::UnlinkRecursive(shm_dir_);
	}

	gflags::FlagSaver flag_saver_;
	std::string shm_dir_;
	};

	TEST_F(SubprocessTest, CaptureOutputs) {
	const std::string config_file =
	::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

	aos::FlatbufferDetachedBuffer<aos::Configuration> config =
	aos::configuration::ReadConfig(config_file);
	aos::ShmEventLoop event_loop(&config.message());
	bool observed_stopped = false;
	Application echo_stdout(
	"echo", "echo", &event_loop, [&observed_stopped, &echo_stdout]() {
	if (echo_stdout.status() == aos::starter::State::STOPPED) {
	observed_stopped = true;
	}
	});
	ASSERT_FALSE(echo_stdout.autorestart());
	echo_stdout.set_args({"abcdef"});
	echo_stdout.set_capture_stdout(true);
	echo_stdout.set_capture_stderr(true);

	echo_stdout.Start();
	aos::TimerHandler *exit_timer =
	event_loop.AddTimer([&event_loop]() { event_loop.Exit(); });
	event_loop.OnRun([&event_loop, exit_timer]() {
	// Note: we are using the backup poll in this test to capture SIGCHLD. This
	// runs at 1 hz, so make sure we let it run at least once.
	exit_timer->Schedule(event_loop.monotonic_now() +
	std::chrono::milliseconds(1500));
	});

	event_loop.Run();

	ASSERT_EQ("abcdef\n", echo_stdout.GetStdout());
	ASSERT_TRUE(echo_stdout.GetStderr().empty());
	EXPECT_TRUE(observed_stopped);
	EXPECT_EQ(aos::starter::State::STOPPED, echo_stdout.status());

	observed_stopped = false;

	// Run again, the output should've been cleared.
	echo_stdout.set_args({"ghijkl"});
	echo_stdout.Start();
	event_loop.Run();
	ASSERT_EQ("ghijkl\n", echo_stdout.GetStdout());
	EXPECT_TRUE(observed_stopped);
	}

	TEST_F(SubprocessTest, CaptureStderr) {
	const std::string config_file =
	::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

	aos::FlatbufferDetachedBuffer<aos::Configuration> config =
	aos::configuration::ReadConfig(config_file);
	aos::ShmEventLoop event_loop(&config.message());
	bool observed_stopped = false;
	Application echo_stderr(
	"echo", "sh", &event_loop, [&observed_stopped, &echo_stderr]() {
	if (echo_stderr.status() == aos::starter::State::STOPPED) {
	observed_stopped = true;
	}
	});
	echo_stderr.set_args({"-c", "echo abcdef >&2"});
	echo_stderr.set_capture_stdout(true);
	echo_stderr.set_capture_stderr(true);

	echo_stderr.Start();
	// Note: we are using the backup poll in this test to capture SIGCHLD. This
	// runs at 1 hz, so make sure we let it run at least once.
	event_loop.AddTimer([&event_loop]() { event_loop.Exit(); })
	->Schedule(event_loop.monotonic_now() + std::chrono::milliseconds(1500));

	event_loop.Run();

	ASSERT_EQ("abcdef\n", echo_stderr.GetStderr());
	ASSERT_TRUE(echo_stderr.GetStdout().empty());
	ASSERT_TRUE(observed_stopped);
	ASSERT_EQ(aos::starter::State::STOPPED, echo_stderr.status());
	}

	TEST_F(SubprocessTest, UnactiveQuietFlag) {
	const std::string config_file =
	::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

	::testing::internal::CaptureStderr();

	// Set up application without quiet flag active
	aos::FlatbufferDetachedBuffer<aos::Configuration> config =
	aos::configuration::ReadConfig(config_file);
	aos::ShmEventLoop event_loop(&config.message());
	bool observed_stopped = false;
	Application error_out(
	"false", "false", &event_loop,
	[&observed_stopped, &error_out]() {
	if (error_out.status() == aos::starter::State::STOPPED) {
	observed_stopped = true;
	}
	},
	Application::QuietLogging::kNo);
	ASSERT_FALSE(error_out.autorestart());

	error_out.Start();
	aos::TimerHandler *exit_timer =
	event_loop.AddTimer([&event_loop]() { event_loop.Exit(); });
	event_loop.OnRun([&event_loop, exit_timer]() {
	exit_timer->Schedule(event_loop.monotonic_now() +
	std::chrono::milliseconds(1500));
	});

	event_loop.Run();

	// Ensure presence of logs without quiet flag
	std::string output = ::testing::internal::GetCapturedStderr();
	std::string expectedStart = "Failed to start 'false'";
	std::string expectedRun = "exited unexpectedly with status";

	ASSERT_TRUE(output.find(expectedStart) != std::string::npos \|\|
	output.find(expectedRun) != std::string::npos);
	EXPECT_TRUE(observed_stopped);
	EXPECT_EQ(aos::starter::State::STOPPED, error_out.status());
	}

	TEST_F(SubprocessTest, ActiveQuietFlag) {
	const std::string config_file =
	::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

	::testing::internal::CaptureStderr();

	// Set up application with quiet flag active
	aos::FlatbufferDetachedBuffer<aos::Configuration> config =
	aos::configuration::ReadConfig(config_file);
	aos::ShmEventLoop event_loop(&config.message());
	bool observed_stopped = false;
	Application error_out(
	"false", "false", &event_loop,
	[&observed_stopped, &error_out]() {
	if (error_out.status() == aos::starter::State::STOPPED) {
	observed_stopped = true;
	}
	},
	Application::QuietLogging::kYes);
	ASSERT_FALSE(error_out.autorestart());

	error_out.Start();
	aos::TimerHandler *exit_timer =
	event_loop.AddTimer([&event_loop]() { event_loop.Exit(); });
	event_loop.OnRun([&event_loop, exit_timer]() {
	exit_timer->Schedule(event_loop.monotonic_now() +
	std::chrono::milliseconds(1500));
	});

	event_loop.Run();

	// Ensure lack of logs with quiet flag
	ASSERT_TRUE(::testing::internal::GetCapturedStderr().empty());
	EXPECT_TRUE(observed_stopped);
	EXPECT_EQ(aos::starter::State::STOPPED, error_out.status());
	}

	// Tests that Nothing Bad™ happens if the event loop outlives the Application.
	//
	// Note that this is a bit of a hope test, as there is no guarantee that we
	// will trigger a crash even if the resources tied to the event loop in the
	// aos::Application aren't properly released.
	TEST_F(SubprocessTest, ShortLivedApp) {
	const std::string config_file =
	::aos::testing::ArtifactPath("aos/events/pingpong_config.json");

	aos::FlatbufferDetachedBuffer<aos::Configuration> config =
	aos::configuration::ReadConfig(config_file);
	aos::ShmEventLoop event_loop(&config.message());

	auto application =
	std::make_unique<Application>("sleep", "sleep", &event_loop, []() {});
	application->set_args({"10"});
	application->Start();
	pid_t pid = application->get_pid();

	int ticks = 0;
	aos::TimerHandler *exit_timer = event_loop.AddTimer([&event_loop, &ticks,
	&application, pid]() {
	ticks++;
	if (application && application->status() == aos::starter::State::RUNNING) {
	// Kill the application, it will autorestart.
	kill(pid, SIGTERM);
	application.reset();
	}

	// event loop lives for longer.
	if (ticks >= 5) {
	// Now we exit.
	event_loop.Exit();
	}
	});

	event_loop.OnRun([&event_loop, exit_timer]() {
	exit_timer->Schedule(event_loop.monotonic_now(),
	std::chrono::milliseconds(1000));
	});

	event_loop.Run();
	}
	} // namespace aos::starter::testing