from uuid import uuid4 import tempfile import os import time import psutil import pytest import ray from ray.dashboard.modules.job.common import JobStatus, JOB_ID_METADATA_KEY from ray.dashboard.modules.job.job_manager import JobManager from ray._private.test_utils import SignalActor, wait_for_condition TEST_NAMESPACE = "jobs_test_namespace" @pytest.fixture(scope="session") def shared_ray_instance(): yield ray.init(num_cpus=16, namespace=TEST_NAMESPACE, log_to_driver=True) @pytest.fixture def job_manager(shared_ray_instance): yield JobManager() def _driver_script_path(file_name: str) -> str: return os.path.join( os.path.dirname(__file__), "subprocess_driver_scripts", file_name) def check_job_succeeded(job_manager, job_id): status = job_manager.get_job_status(job_id) if status == JobStatus.FAILED: logs = job_manager.get_job_logs(job_id) raise RuntimeError(f"Job failed! logs:\n{logs}") assert status in { JobStatus.PENDING, JobStatus.RUNNING, JobStatus.SUCCEEDED } return status == JobStatus.SUCCEEDED def check_job_failed(job_manager, job_id): status = job_manager.get_job_status(job_id) assert status in {JobStatus.PENDING, JobStatus.RUNNING, JobStatus.FAILED} return status == JobStatus.FAILED def check_job_stopped(job_manager, job_id): status = job_manager.get_job_status(job_id) assert status in {JobStatus.PENDING, JobStatus.RUNNING, JobStatus.STOPPED} return status == JobStatus.STOPPED def check_subprocess_cleaned(pid): return psutil.pid_exists(pid) is False def test_pass_job_id(job_manager): job_id = "my_custom_id" returned_id = job_manager.submit_job( entrypoint="echo hello", job_id=job_id) assert returned_id == job_id wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) # Check that the same job_id is rejected. with pytest.raises(RuntimeError): job_manager.submit_job(entrypoint="echo hello", job_id=job_id) class TestShellScriptExecution: def test_submit_basic_echo(self, job_manager): job_id = job_manager.submit_job(entrypoint="echo hello") wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert job_manager.get_job_logs(job_id) == "hello\n" def test_submit_stderr(self, job_manager): job_id = job_manager.submit_job(entrypoint="echo error 1>&2") wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert job_manager.get_job_logs(job_id) == "error\n" def test_submit_ls_grep(self, job_manager): grep_cmd = f"ls {os.path.dirname(__file__)} | grep test_job_manager.py" job_id = job_manager.submit_job(entrypoint=grep_cmd) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert job_manager.get_job_logs(job_id) == "test_job_manager.py\n" def test_subprocess_exception(self, job_manager): """ Run a python script with exception, ensure: 1) Job status is marked as failed 2) Job manager can surface exception message back to logs api 3) Job no hanging job supervisor actor 4) Empty logs """ run_cmd = f"python {_driver_script_path('script_with_exception.py')}" job_id = job_manager.submit_job(entrypoint=run_cmd) wait_for_condition( check_job_failed, job_manager=job_manager, job_id=job_id) logs = job_manager.get_job_logs(job_id) last_line = logs.strip().splitlines()[-1] assert last_line == "Exception: Script failed with exception !" assert job_manager._get_actor_for_job(job_id) is None def test_submit_with_s3_runtime_env(self, job_manager): job_id = job_manager.submit_job( entrypoint="python script.py", runtime_env={"working_dir": "s3://runtime-env-test/script.zip"}) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert job_manager.get_job_logs( job_id) == "Executing main() from script.py !!\n" class TestRuntimeEnv: def test_inheritance(self, job_manager): # Test that the driver and actors/tasks inherit the right runtime_env. pass def test_pass_env_var(self, job_manager): """Test we can pass env vars in the subprocess that executes job's driver script. """ job_id = job_manager.submit_job( entrypoint="echo $TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR", runtime_env={ "env_vars": { "TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR": "233" } }) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert job_manager.get_job_logs(job_id) == "233\n" def test_multiple_runtime_envs(self, job_manager): # Test that you can run two jobs in different envs without conflict. job_id_1 = job_manager.submit_job( entrypoint=f"python {_driver_script_path('print_runtime_env.py')}", runtime_env={ "env_vars": { "TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR": "JOB_1_VAR" } }) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id_1) logs = job_manager.get_job_logs(job_id_1) assert "{'env_vars': {'TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR': 'JOB_1_VAR'}}" in logs # noqa: E501 job_id_2 = job_manager.submit_job( entrypoint=f"python {_driver_script_path('print_runtime_env.py')}", runtime_env={ "env_vars": { "TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR": "JOB_2_VAR" } }) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id_2) logs = job_manager.get_job_logs(job_id_2) assert "{'env_vars': {'TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR': 'JOB_2_VAR'}}" in logs # noqa: E501 def test_env_var_and_driver_job_config_warning(self, job_manager): """Ensure we got error message from worker.py and job logs if user provided runtime_env in both driver script and submit() """ job_id = job_manager.submit_job( entrypoint=f"python {_driver_script_path('override_env_var.py')}", runtime_env={ "env_vars": { "TEST_SUBPROCESS_JOB_CONFIG_ENV_VAR": "JOB_1_VAR" } }) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) logs = job_manager.get_job_logs(job_id) assert logs.startswith( "Both RAY_JOB_CONFIG_JSON_ENV_VAR and ray.init(runtime_env) " "are provided") assert "JOB_1_VAR" in logs def test_failed_runtime_env_configuration(self, job_manager): """Ensure job status is correctly set as failed if job supervisor actor failed to setup runtime_env. """ with pytest.raises(RuntimeError): run_cmd = f"python {_driver_script_path('override_env_var.py')}" job_id = job_manager.submit_job( entrypoint=run_cmd, runtime_env={"working_dir": "path_not_exist"}) assert job_manager.get_job_status(job_id) == JobStatus.FAILED def test_pass_metadata(self, job_manager): def dict_to_str(d): return str(dict(sorted(d.items()))) print_metadata_cmd = ( "python -c\"" "import ray;" "ray.init();" "job_config=ray.worker.global_worker.core_worker.get_job_config();" "print(dict(sorted(job_config.metadata.items())))" "\"") # Check that we default to only the job ID. job_id = job_manager.submit_job(entrypoint=print_metadata_cmd) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert dict_to_str({ JOB_ID_METADATA_KEY: job_id }) in job_manager.get_job_logs(job_id) # Check that we can pass custom metadata. job_id = job_manager.submit_job( entrypoint=print_metadata_cmd, metadata={ "key1": "val1", "key2": "val2" }) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) assert dict_to_str({ JOB_ID_METADATA_KEY: job_id, "key1": "val1", "key2": "val2" }) in job_manager.get_job_logs(job_id) class TestAsyncAPI: def _run_hanging_command(self, job_manager, tmp_dir, _start_signal_actor=None): tmp_file = os.path.join(tmp_dir, "hello") pid_file = os.path.join(tmp_dir, "pid") # Write subprocess pid to pid_file and block until tmp_file is present. wait_for_file_cmd = (f"echo $$ > {pid_file} && " f"until [ -f {tmp_file} ]; " "do echo 'Waiting...' && sleep 1; " "done") job_id = job_manager.submit_job( entrypoint=wait_for_file_cmd, _start_signal_actor=_start_signal_actor) for _ in range(10): time.sleep(0.1) status = job_manager.get_job_status(job_id) if _start_signal_actor: assert status == JobStatus.PENDING logs = job_manager.get_job_logs(job_id) assert logs == "" else: assert status == JobStatus.RUNNING logs = job_manager.get_job_logs(job_id) assert "Waiting..." in logs return pid_file, tmp_file, job_id def test_status_and_logs_while_blocking(self, job_manager): with tempfile.TemporaryDirectory() as tmp_dir: pid_file, tmp_file, job_id = self._run_hanging_command( job_manager, tmp_dir) with open(pid_file, "r") as file: pid = int(file.read()) assert psutil.pid_exists(pid), ( "driver subprocess should be running") # Signal the job to exit by writing to the file. with open(tmp_file, "w") as f: print("hello", file=f) wait_for_condition( check_job_succeeded, job_manager=job_manager, job_id=job_id) # Ensure driver subprocess gets cleaned up after job reached # termination state wait_for_condition(check_subprocess_cleaned, pid=pid) def test_stop_job(self, job_manager): with tempfile.TemporaryDirectory() as tmp_dir: _, _, job_id = self._run_hanging_command(job_manager, tmp_dir) assert job_manager.stop_job(job_id) is True wait_for_condition( check_job_stopped, job_manager=job_manager, job_id=job_id) # Assert re-stopping a stopped job also returns False assert job_manager.stop_job(job_id) is False # Assert stopping non-existent job returns False assert job_manager.stop_job(str(uuid4())) is False def test_kill_job_actor_in_before_driver_finish(self, job_manager): """ Test submitting a long running / blocker driver script, and kill the job supervisor actor before script returns and ensure 1) Job status is correctly marked as failed 2) No hanging subprocess from failed job """ with tempfile.TemporaryDirectory() as tmp_dir: pid_file, _, job_id = self._run_hanging_command( job_manager, tmp_dir) with open(pid_file, "r") as file: pid = int(file.read()) assert psutil.pid_exists(pid), ( "driver subprocess should be running") actor = job_manager._get_actor_for_job(job_id) ray.kill(actor, no_restart=True) wait_for_condition( check_job_failed, job_manager=job_manager, job_id=job_id) # Ensure driver subprocess gets cleaned up after job reached # termination state wait_for_condition(check_subprocess_cleaned, pid=pid) def test_stop_job_in_pending(self, job_manager): """ Kick off a job that is in PENDING state, stop the job and ensure 1) Job can correctly be stop immediately with correct JobStatus 2) No dangling subprocess left. """ _start_signal_actor = SignalActor.remote() with tempfile.TemporaryDirectory() as tmp_dir: pid_file, _, job_id = self._run_hanging_command( job_manager, tmp_dir, _start_signal_actor=_start_signal_actor) assert not os.path.exists(pid_file), ( "driver subprocess should NOT be running while job is " "still PENDING.") assert job_manager.stop_job(job_id) is True # Send run signal to unblock run function ray.get(_start_signal_actor.send.remote()) wait_for_condition( check_job_stopped, job_manager=job_manager, job_id=job_id) def test_kill_job_actor_in_pending(self, job_manager): """ Kick off a job that is in PENDING state, kill the job actor and ensure 1) Job can correctly be stop immediately with correct JobStatus 2) No dangling subprocess left. """ _start_signal_actor = SignalActor.remote() with tempfile.TemporaryDirectory() as tmp_dir: pid_file, _, job_id = self._run_hanging_command( job_manager, tmp_dir, _start_signal_actor=_start_signal_actor) assert not os.path.exists(pid_file), ( "driver subprocess should NOT be running while job is " "still PENDING.") actor = job_manager._get_actor_for_job(job_id) ray.kill(actor, no_restart=True) wait_for_condition( check_job_failed, job_manager=job_manager, job_id=job_id) def test_stop_job_subprocess_cleanup_upon_stop(self, job_manager): """ Ensure driver scripts' subprocess is cleaned up properly when we stopped a running job. SIGTERM first, SIGKILL after 3 seconds. """ with tempfile.TemporaryDirectory() as tmp_dir: pid_file, _, job_id = self._run_hanging_command( job_manager, tmp_dir) with open(pid_file, "r") as file: pid = int(file.read()) assert psutil.pid_exists(pid), ( "driver subprocess should be running") assert job_manager.stop_job(job_id) is True wait_for_condition( check_job_stopped, job_manager=job_manager, job_id=job_id) # Ensure driver subprocess gets cleaned up after job reached # termination state wait_for_condition(check_subprocess_cleaned, pid=pid) if __name__ == "__main__": import sys import pytest sys.exit(pytest.main(["-v", __file__]))