from __future__ import absolute_import from __future__ import division from __future__ import print_function import ray import sys import time import unittest class ComponentFailureTest(unittest.TestCase): # This test checks that when a worker dies in the middle of a get, the plasma # store and manager will not die. def testDyingWorkerGet(self): obj_id = 20 * b"a" @ray.remote def f(): ray.worker.global_worker.plasma_client.get(obj_id) ray.worker._init(num_workers=1, driver_mode=ray.SILENT_MODE, start_workers_from_local_scheduler=False, start_ray_local=True) # Have the worker wait in a get call. f.remote() # Kill the worker. time.sleep(1) ray.services.all_processes[ray.services.PROCESS_TYPE_WORKER][0].terminate() time.sleep(0.1) # Seal the object so the store attempts to notify the worker that the get # has been fulfilled. ray.worker.global_worker.plasma_client.create(obj_id, 100) ray.worker.global_worker.plasma_client.seal(obj_id) time.sleep(0.1) # Make sure that nothing has died. self.assertTrue(ray.services.all_processes_alive(exclude=[ray.services.PROCESS_TYPE_WORKER])) ray.worker.cleanup() # This test checks that when a worker dies in the middle of a wait, the plasma # store and manager will not die. def testDyingWorkerWait(self): obj_id = 20 * b"a" @ray.remote def f(): ray.worker.global_worker.plasma_client.wait([obj_id]) ray.worker._init(num_workers=1, driver_mode=ray.SILENT_MODE, start_workers_from_local_scheduler=False, start_ray_local=True) # Have the worker wait in a get call. f.remote() # Kill the worker. time.sleep(1) ray.services.all_processes[ray.services.PROCESS_TYPE_WORKER][0].terminate() time.sleep(0.1) # Seal the object so the store attempts to notify the worker that the get # has been fulfilled. ray.worker.global_worker.plasma_client.create(obj_id, 100) ray.worker.global_worker.plasma_client.seal(obj_id) time.sleep(0.1) # Make sure that nothing has died. self.assertTrue(ray.services.all_processes_alive(exclude=[ray.services.PROCESS_TYPE_WORKER])) ray.worker.cleanup() def _testWorkerFailed(self, num_local_schedulers): @ray.remote def f(x): time.sleep(0.5) return x num_initial_workers = 4 ray.worker._init(num_workers=num_initial_workers * num_local_schedulers, num_local_schedulers=num_local_schedulers, start_workers_from_local_scheduler=False, start_ray_local=True, num_cpus=[num_initial_workers] * num_local_schedulers) # Submit more tasks than there are workers so that all workers and cores # are utilized. object_ids = [f.remote(i) for i in range(num_initial_workers * num_local_schedulers)] object_ids += [f.remote(object_id) for object_id in object_ids] # Allow the tasks some time to begin executing. time.sleep(0.1) # Kill the workers as the tasks execute. for worker in ray.services.all_processes[ray.services.PROCESS_TYPE_WORKER]: worker.terminate() time.sleep(0.1) # Make sure that we can still get the objects after the executing tasks died. ray.get(object_ids) ray.worker.cleanup() def testWorkerFailed(self): self._testWorkerFailed(1) def testWorkerFailedMultinode(self): self._testWorkerFailed(4) if __name__ == "__main__": unittest.main(verbosity=2)