def test_amgr_synchronizer():
amgr = Amgr(hostname=host, port=port, username=username, password=password)
amgr._setup_mqs()
p = Pipeline()
s = Stage()
# Create and add 10 tasks to the stage
for cnt in range(10):
t = Task()
t.executable = 'some-executable-%s' % cnt
s.add_tasks(t)
p.add_stages(s)
p._validate()
amgr.workflow = [p]
sid = 'test.0016'
rmgr = BaseRmgr({}, sid, None, {})
tmgr = BaseTmgr(sid=sid,
pending_queue=['pending-1'],
completed_queue=['completed-1'],
rmgr=rmgr,
rmq_conn_params=amgr._rmq_conn_params,
rts=None)
amgr._rmgr = rmgr
rmgr._task_manager = tmgr
for t in p.stages[0].tasks:
assert t.state == states.INITIAL
assert p.stages[0].state == states.INITIAL
assert p.state == states.INITIAL
# Start the synchronizer method in a thread
amgr._terminate_sync = mt.Event()
sync_thread = mt.Thread(target=amgr._synchronizer,
name='synchronizer-thread')
sync_thread.start()
# Start the synchronizer method in a thread
proc = mp.Process(target=func_for_synchronizer_test, name='temp-proc',
args=(amgr._sid, p, tmgr))
proc.start()
proc.join()
# Wait for AppManager to finish the message exchange
# no need to set *)terminate_sync* but a timeout instead
# amgr._terminate_sync.set()
sync_thread.join(15)
for t in p.stages[0].tasks:
assert t.state == states.COMPLETED
def test_wfp_workflow_incomplete():
p = Pipeline()
s = Stage()
t = Task()
t.executable = ['/bin/date']
s.add_tasks(t)
p.add_stages(s)
amgr = Amgr(hostname=hostname, port=port)
amgr._setup_mqs()
wfp = WFprocessor(sid=amgr._sid,
workflow=[p],
pending_queue=amgr._pending_queue,
completed_queue=amgr._completed_queue,
mq_hostname=amgr._mq_hostname,
port=amgr._port,
resubmit_failed=False)
wfp._initialize_workflow()
assert wfp.workflow_incomplete()
amgr.workflow = [p]
profiler = ru.Profiler(name='radical.entk.temp')
p.stages[0].state == states.SCHEDULING
p.state == states.SCHEDULED
for t in p.stages[0].tasks:
t.state = states.COMPLETED
import json
import pika
task_as_dict = json.dumps(t.to_dict())
mq_connection = pika.BlockingConnection(
pika.ConnectionParameters(host=amgr._mq_hostname, port=amgr._port))
mq_channel = mq_connection.channel()
mq_channel.basic_publish(exchange='',
routing_key='%s-completedq-1' % amgr._sid,
body=task_as_dict)
amgr._terminate_sync = Event()
sync_thread = Thread(target=amgr._synchronizer, name='synchronizer-thread')
sync_thread.start()
proc = Process(target=func_for_dequeue_test,
name='temp-proc',
args=(wfp, ))
proc.start()
proc.join()
amgr._terminate_sync.set()
sync_thread.join()
assert not wfp.workflow_incomplete()
def test_wfp_workflow_incomplete():
p = Pipeline()
s = Stage()
t = Task()
t.executable = ['/bin/date']
s.add_tasks(t)
p.add_stages(s)
amgr = Amgr(hostname=hostname, port=port)
amgr._setup_mqs()
wfp = WFprocessor(sid=amgr._sid,
workflow=[p],
pending_queue=amgr._pending_queue,
completed_queue=amgr._completed_queue,
mq_hostname=amgr._mq_hostname,
port=amgr._port,
resubmit_failed=False)
wfp._initialize_workflow()
assert wfp.workflow_incomplete()
amgr.workflow = [p]
profiler = ru.Profiler(name='radical.entk.temp')
p.stages[0].state == states.SCHEDULING
p.state == states.SCHEDULED
for t in p.stages[0].tasks:
t.state = states.COMPLETED
import json
import pika
task_as_dict = json.dumps(t.to_dict())
mq_connection = pika.BlockingConnection(pika.ConnectionParameters(host=amgr._mq_hostname, port=amgr._port))
mq_channel = mq_connection.channel()
mq_channel.basic_publish(exchange='',
routing_key='%s-completedq-1' % amgr._sid,
body=task_as_dict)
amgr._terminate_sync = Event()
sync_thread = Thread(target=amgr._synchronizer, name='synchronizer-thread')
sync_thread.start()
proc = Process(target=func_for_dequeue_test, name='temp-proc', args=(wfp,))
proc.start()
proc.join()
amgr._terminate_sync.set()
sync_thread.join()
assert not wfp.workflow_incomplete()
def test_amgr_synchronizer():
logger = ru.get_logger('radical.entk.temp_logger')
profiler = ru.Profiler(name='radical.entk.temp')
amgr = Amgr(hostname=hostname, port=port)
mq_connection = pika.BlockingConnection(pika.ConnectionParameters(host=hostname, port=port))
mq_channel = mq_connection.channel()
amgr._setup_mqs()
p = Pipeline()
s = Stage()
# Create and add 100 tasks to the stage
for cnt in range(100):
t = Task()
t.executable = ['some-executable-%s' % cnt]
s.add_tasks(t)
p.add_stages(s)
p._assign_uid(amgr._sid)
p._validate()
amgr.workflow = [p]
for t in p.stages[0].tasks:
assert t.state == states.INITIAL
assert p.stages[0].state == states.INITIAL
assert p.state == states.INITIAL
# Start the synchronizer method in a thread
amgr._terminate_sync = Event()
sync_thread = Thread(target=amgr._synchronizer, name='synchronizer-thread')
sync_thread.start()
# Start the synchronizer method in a thread
proc = Process(target=func_for_synchronizer_test, name='temp-proc',
args=(amgr._sid, p, logger, profiler))
proc.start()
proc.join()
for t in p.stages[0].tasks:
assert t.state == states.SCHEDULING
assert p.stages[0].state == states.SCHEDULING
assert p.state == states.SCHEDULING
amgr._terminate_sync.set()
sync_thread.join()
def test_amgr_synchronizer():
logger = ru.Logger('radical.entk.temp_logger')
profiler = ru.Profiler(name='radical.entk.temp')
amgr = Amgr(hostname=hostname, port=port)
amgr._setup_mqs()
p = Pipeline()
s = Stage()
# Create and add 100 tasks to the stage
for cnt in range(100):
t = Task()
t.executable = ['some-executable-%s' % cnt]
s.add_tasks(t)
p.add_stages(s)
p._assign_uid(amgr._sid)
p._validate()
amgr.workflow = [p]
for t in p.stages[0].tasks:
assert t.state == states.INITIAL
assert p.stages[0].state == states.INITIAL
assert p.state == states.INITIAL
# Start the synchronizer method in a thread
amgr._terminate_sync = Event()
sync_thread = Thread(target=amgr._synchronizer, name='synchronizer-thread')
sync_thread.start()
# Start the synchronizer method in a thread
proc = Process(target=func_for_synchronizer_test, name='temp-proc',
args=(amgr._sid, p, logger, profiler))
proc.start()
proc.join()
for t in p.stages[0].tasks:
assert t.state == states.SCHEDULING
assert p.stages[0].state == states.SCHEDULING
assert p.state == states.SCHEDULING
amgr._terminate_sync.set()
sync_thread.join()
def test_wfp_enqueue():
p = Pipeline()
s = Stage()
t = Task()
t.executable = ['/bin/date']
s.add_tasks(t)
p.add_stages(s)
amgr = Amgr(hostname=hostname, port=port)
amgr._setup_mqs()
wfp = WFprocessor(sid=amgr._sid,
workflow=[p],
pending_queue=amgr._pending_queue,
completed_queue=amgr._completed_queue,
mq_hostname=amgr._mq_hostname,
port=amgr._port,
resubmit_failed=False)
wfp._initialize_workflow()
amgr.workflow = [p]
profiler = ru.Profiler(name='radical.entk.temp')
for t in p.stages[0].tasks:
assert t.state == states.INITIAL
assert p.stages[0].state == states.INITIAL
assert p.state == states.INITIAL
amgr._terminate_sync = Event()
sync_thread = Thread(target=amgr._synchronizer, name='synchronizer-thread')
sync_thread.start()
proc = Process(target=func_for_enqueue_test,
name='temp-proc',
args=(wfp, ))
proc.start()
proc.join()
amgr._terminate_sync.set()
sync_thread.join()
for t in p.stages[0].tasks:
assert t.state == states.SCHEDULED
assert p.stages[0].state == states.SCHEDULED
assert p.state == states.SCHEDULING
def test_wfp_enqueue():
p = Pipeline()
s = Stage()
t = Task()
t.executable = ['/bin/date']
s.add_tasks(t)
p.add_stages(s)
amgr = Amgr(hostname=hostname, port=port)
amgr._setup_mqs()
wfp = WFprocessor(sid=amgr._sid,
workflow=[p],
pending_queue=amgr._pending_queue,
completed_queue=amgr._completed_queue,
mq_hostname=amgr._mq_hostname,
port=amgr._port,
resubmit_failed=False)
wfp._initialize_workflow()
amgr.workflow = [p]
profiler = ru.Profiler(name='radical.entk.temp')
for t in p.stages[0].tasks:
assert t.state == states.INITIAL
assert p.stages[0].state == states.INITIAL
assert p.state == states.INITIAL
amgr._terminate_sync = Event()
sync_thread = Thread(target=amgr._synchronizer, name='synchronizer-thread')
sync_thread.start()
proc = Process(target=func_for_enqueue_test, name='temp-proc', args=(wfp,))
proc.start()
proc.join()
amgr._terminate_sync.set()
sync_thread.join()
for t in p.stages[0].tasks:
assert t.state == states.SCHEDULED
assert p.stages[0].state == states.SCHEDULED
assert p.state == states.SCHEDULING
