def _test_log_rotation_file_size_trigger_recovery(command):
host = '127.0.0.1'
sources = 1
workers = 2
res_dir = tempfile.mkdtemp(dir='/tmp/', prefix='res-data.')
expect = 2000
event_log_file_size = 50000
last_value_0 = '[{}]'.format(','.join(
(str(expect - v) for v in range(6, -2, -2))))
last_value_1 = '[{}]'.format(','.join(
(str(expect - 1 - v) for v in range(6, -2, -2))))
await_values = (struct.pack('>I', len(last_value_0)) + last_value_0,
struct.pack('>I', len(last_value_1)) + last_value_1)
setup_resilience_path(res_dir)
command = '''{} \
--log-rotation \
--stop-pause {}
'''.format(command, STOP_THE_WORLD_PAUSE)
alt_block = '--event-log-file-size {}'.format(event_log_file_size)
alt_func = lambda x: x > 0
runners = []
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
reader = Reader(sequence_generator(expect))
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
num_ports = sources + 3 * workers
ports = get_port_values(num=num_ports, host=host)
(input_ports, worker_ports) = (ports[:sources], [
ports[sources:][i:i + 3] for i in range(0, len(ports[sources:]), 3)
])
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs, metrics_port,
res_dir, workers, worker_ports, alt_block, alt_func)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners, timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# start sender
sender = Sender(host,
input_ports[0],
reader,
batch_size=100,
interval=0.05)
sender.start()
# Wait for runner to complete a log rotation
log_rotated_checker = RunnerChecker(runners[1],
log_rotated_patterns,
timeout=AWAIT_TIMEOUT)
log_rotated_checker.start()
log_rotated_checker.join()
if log_rotated_checker.error:
raise log_rotated_checker.error
# stop the worker in a non-graceful fashion so it doesn't remove
# recovery files
runners[-1].kill()
## restart worker
runners.append(runners[-1].respawn())
runners[-1].start()
# wait until sender completes (~1 second)
sender.join(30)
if sender.error:
raise sender.error
if sender.is_alive():
sender.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Use metrics to determine when to stop runners and sink
stopper = SinkAwaitValue(sink, await_values, AWAIT_TIMEOUT)
stopper.start()
stopper.join()
if stopper.error:
for r in runners:
print r.name
print r.get_output()
print '---'
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
print 'sink.data size: ', len(sink.data)
# Use validator to validate the data in at-least-once mode
# save sink data to a file
out_file = os.path.join(res_dir, 'received.txt')
sink.save(out_file, mode='giles')
# Validate captured output
cmd_validate = ('validator -i {out_file} -e {expect} -a'.format(
out_file=out_file, expect=expect))
res = run_shell_cmd(cmd_validate)
try:
assert (res.success)
except AssertionError:
print runners[-1].name
print runners[-1].get_output()
print '---'
print runners[-2].name
print runners[-2].get_output()
print '---'
raise AssertionError('Validation failed with the following '
'error:\n{}'.format(res.output))
# Validate worker underwent log rotation, but not initializer
i, r = 1, runners[1]
stdout = r.get_output()
try:
assert (re.search(log_rotated_pattern, stdout, re.M | re.S)
is not None)
except AssertionError:
raise AssertionError('Worker %d.%r does not appear to have '
'performed log rotation as expected.'
' The pattern %r '
'is missing form the Worker output '
'included below.\nSTDOUT\n---\n%s\n'
'---\n' %
(i, r.name, log_rotated_pattern, stdout))
# Validate worker actually underwent recovery
pattern = "RESILIENCE\: Replayed \d+ entries from recovery log file\."
stdout = runners[-1].get_output()
try:
assert (re.search(pattern, stdout) is not None)
except AssertionError:
raise AssertionError('Worker does not appear to have performed '
'recovery as expected. Worker output is '
'included below.\nSTDOUT\n---\n%s' % stdout)
finally:
for r in runners:
r.stop()
clean_resilience_path(res_dir)
def _autoscale_sequence(command, ops=[1], cycles=1, initial=None):
host = '127.0.0.1'
sources = 1
if isinstance(ops, int):
ops = [ops]
# If no initial workers value is given, determine the minimum number
# required at the start so that the cluster never goes below 1 worker.
# If a number is given, then verify it is sufficient.
bottom = min(min(compact_sign(ops * cycles)), sum(ops * cycles))
if bottom < 1:
min_workers = abs(bottom) + 1
else:
min_workers = 1
if isinstance(initial, int):
assert (initial >= min_workers)
workers = initial
else:
workers = min_workers
batch_size = 10
interval = 0.05
msgs_per_sec = int(batch_size / interval)
base_time = 10 # Seconds
cycle_time = 10 # seconds
expect_time = base_time + cycle_time * cycles # seconds
expect = expect_time * msgs_per_sec
sender_timeout = expect_time + 10 # seconds
join_timeout = 200
runner_join_timeout = 30
res_dir = tempfile.mkdtemp(dir='/tmp/', prefix='res-data.')
setup_resilience_path(res_dir)
steps = []
runners = []
try:
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
lowercase2 = [a + b for a in lowercase for b in lowercase]
char_gen = cycle(lowercase2)
chars = [next(char_gen) for i in range(expect)]
expected = Counter(chars)
reader = Reader(iter_generator(chars,
lambda s: pack('>2sI', s, 1)))
await_values = [
pack('>I2sQ', 10, c, v) for c, v in expected.items()
]
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
num_ports = sources + 3 + (2 * (workers - 1))
ports = get_port_values(num=num_ports, host=host)
(input_ports, (control_port, data_port, external_port),
worker_ports) = (ports[:sources], ports[sources:sources + 3],
zip(ports[-(2 * (workers - 1)):][::2],
ports[-(2 * (workers - 1)):][1::2]))
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs,
metrics_port, control_port, external_port, data_port,
res_dir, workers, worker_ports)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners, timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# Get initial partition data
partitions = query_partitions(host, external_port)
# Verify all workers start with partitions
assert (map(
len, partitions['state_partitions']
['letter-state'].values()).count(0) == 0)
# start sender
sender = Sender(host,
input_ports[0],
reader,
batch_size=batch_size,
interval=interval)
sender.start()
time.sleep(2)
# Perform autoscale cycles
start_froms = {r: 0 for r in runners}
for cyc in range(cycles):
for joiners in ops:
steps.append(joiners)
joined = []
left = []
if joiners > 0:
# create a new worker and have it join
new_ports = get_port_values(num=(joiners * 2),
host=host,
base_port=25000)
joiner_ports = zip(new_ports[::2], new_ports[1::2])
for i in range(joiners):
add_runner(runners, command, host, inputs, outputs,
metrics_port, control_port,
external_port, data_port, res_dir,
joiners, *joiner_ports[i])
joined.append(runners[-1])
start_froms[runners[-1]] = 0
patterns_i = ([
re.escape('***Worker {} attempting to join the '
'cluster. Sent necessary information.***'
.format(r.name)) for r in joined
] + [
re.escape('Migrating partitions to {}'.format(
r.name)) for r in joined
] + [
re.escape('--All new workers have acked migration '
'batch complete'),
re.escape('~~~Resuming message processing.~~~')
])
patterns_j = [
re.escape('***Successfully joined cluster!***'),
re.escape('~~~Resuming message processing.~~~')
]
# Wait for runners to complete joining
join_checkers = []
join_checkers.append(
RunnerChecker(runners[0],
patterns_i,
timeout=join_timeout,
start_from=start_froms[runners[0]]))
for runner in joined:
join_checkers.append(
RunnerChecker(runner,
patterns_j,
timeout=join_timeout,
start_from=start_froms[runner]))
for jc in join_checkers:
jc.start()
for jc in join_checkers:
jc.join()
if jc.error:
outputs = runners_output_format(runners)
raise AutoscaleTimeoutError(
"'{}' timed out on JOIN in {} "
"seconds. The cluster had the following outputs:\n===\n{}"
.format(jc.runner_name, jc.timeout,
outputs),
as_error=jc.error,
as_steps=steps)
elif joiners < 0: # joiners < 0, e.g. leavers!
# choose the most recent, still-alive runners to leave
leavers = abs(joiners)
idx = 1
while len(left) < leavers and idx < len(runners):
if runners[-idx].is_alive():
left.append(runners[-idx])
idx += 1
if len(left) < leavers:
raise AutoscaleTestError(
"Not enough workers left to "
"shrink! {} requested but "
"only {} live non-initializer"
"workers found!".format(joiners, len(left)))
# Create the checkers
initializer = [runners[0]]
remaining = [
r for r in runners
if r.is_alive() and r not in initializer + left
]
patterns_i = ([
r'ExternalChannelConnectNotifier: initializer: '
r'server closed', r'Saving topology!',
r'Saving worker names to file: .*?initializer.'
r'workers'
] + [
re.escape(
r'LocalTopology._save_worker_names: {}'.format(
r.name)) for r in initializer + remaining
] + [
re.escape(r'~~~Initiating shrink~~~'),
re.escape(r'-- Remaining workers:')
] + [
re.escape(r'-- -- {}'.format(r.name))
for n in initializer + remaining
] + [
re.escape(r'~~~Stopping message processing for '
r'leaving workers.~~~'),
re.escape(r'~~~Resuming message processing.~~~')
])
patterns_r = ([
re.escape(
r'Control Ch: Received Mute Request from initializer'
),
re.escape(
r'~~~Stopping message processing for leaving workers.~~~'
),
re.escape(
r'DataChannelConnectNotifier: server closed'),
re.escape(
r'ControlSenderConnectNotifier: server closed'
),
re.escape(r'BoundaryNotify: closed'),
re.escape(
r'Control Ch: Received Unmute Request from initializer'
),
re.escape(r'~~~Resuming message processing.~~~'),
re.escape(r'Shutting down OutgoingBoundary'),
re.escape(r'Shutting down ControlConnection')
])
patterns_r_per = [
r'ControlChannelConnectNotifier:{}: server closed'
]
patterns_l = ([
re.escape(
r'Control Ch: Received Mute Request from {}'.
format(r.name))
for r in initializer + remaining
] + [
re.escape(
r'Migrating all partitions to {} remaining '
r'workers'.format(
len(initializer + remaining))),
r'\^\^Migrating \d+ steps to {} workers'.format(
len(initializer + remaining))
] + [
r'\^\^Migrating step \d+ to outgoing '
r'boundary {}/[0-9a-f]{{12}}'.format(r.name)
for r in initializer + remaining
] + [
re.escape(
r'--Sending leaving worker done migration msg to cluster'
),
re.escape(
r'Connections: Finished shutdown procedure.'),
re.escape(r'Shutting down ControlConnection'),
re.escape(r'Shutting down TCPSink'),
re.escape(r'Shutting down DataReceiver'),
re.escape(
r'Shutting down ReconnectingMetricsSink'),
re.escape(r'Shutting down OutgoingBoundary'),
re.escape(r'Shutting down Startup...'),
re.escape(r'Shutting down DataChannel'),
re.escape(r'metrics connection closed'),
re.escape(r'TCPSink connection closed'),
re.escape(
r'ControlChannelConnectNotifier: server closed'
)
])
patterns_l_per = []
left_checkers = []
# initializer STDOUT checker
left_checkers.append(
RunnerChecker(
initializer[0],
patterns_i,
timeout=join_timeout,
start_from=start_froms[initializer[0]]))
# remaining workers STDOUT checkers
for runner in remaining:
left_checkers.append(
RunnerChecker(runner,
patterns_r + [
p.format(runner.name)
for p in patterns_r_per
],
timeout=join_timeout,
start_from=start_froms[runner]))
# leaving workers STDOUT checkers
for runner in left:
left_checkers.append(
RunnerChecker(runner,
patterns_l + [
p.format(runner.name)
for p in patterns_l_per
],
timeout=join_timeout,
start_from=start_froms[runner]))
for lc in left_checkers:
lc.start()
# Send the shrink command
send_shrink_cmd(host,
external_port,
names=[r.name for r in left])
# Wait for output checkers to join
for lc in left_checkers:
lc.join()
if lc.error:
outputs = runners_output_format(runners)
raise AutoscaleTimeoutError(
"'{}' timed out on SHRINK in {} "
"seconds. The cluster had the following outputs:\n===\n{}"
.format(lc.runner_name, lc.timeout,
outputs),
as_error=lc.error,
as_steps=steps)
else: # Handle the 0 case as a noop
continue
start_froms = {r: r.tell() for r in runners}
# Validate autoscale via partition query
try:
partitions = query_partitions(host, external_port)
phase_validate_partitions(
runners,
partitions,
joined=[r.name for r in joined],
left=[r.name for r in left])
except Exception as err:
print(
'error validating {} have joined and {} have left'.
format([r.name for r in joined],
[r.name for r in left]))
raise err
# wait until sender completes (~10 seconds)
sender.join(sender_timeout)
if sender.error:
raise sender.error
if sender.is_alive():
sender.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Use Sink value to determine when to stop runners and sink
stopper = SinkAwaitValue(sink, await_values, 30)
stopper.start()
stopper.join()
if stopper.error:
print('sink.data', len(sink.data))
print('await_values', len(await_values))
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
# Stop metrics
metrics.stop()
# validate output
phase_validate_output(runners, sink, expected)
finally:
for r in runners:
r.stop()
# Wait on runners to finish waiting on their subprocesses to exit
for r in runners:
r.join(runner_join_timeout)
alive = []
for r in runners:
if r.is_alive():
alive.append(r)
for r in runners:
ec = r.poll()
if ec != 0:
print('Worker {!r} exited with return code {}'.format(
r.name, ec))
print('Its last 5 log lines were:')
print('\n'.join(r.get_output().splitlines()[-5:]))
print()
if alive:
alive_names = ', '.join((r.name for r in alive))
outputs = runners_output_format(runners)
for a in alive:
a.kill()
clean_resilience_path(res_dir)
if alive:
raise PipelineTestError(
"Runners [{}] failed to exit cleanly after"
" {} seconds.\n"
"Runner outputs are attached below:"
"\n===\n{}".format(alive_names, runner_join_timeout,
outputs))
except Exception as err:
if not hasattr(err, 'as_steps'):
err.as_steps = steps
raise err
def _test_log_rotation_external_trigger_no_recovery(command):
host = '127.0.0.1'
sources = 1
workers = 2
res_dir = tempfile.mkdtemp(dir='/tmp/', prefix='res-data.')
expect = 2000
last_value_0 = '[{}]'.format(','.join(
(str(expect - v) for v in range(6, -2, -2))))
last_value_1 = '[{}]'.format(','.join(
(str(expect - 1 - v) for v in range(6, -2, -2))))
await_values = (struct.pack('>I', len(last_value_0)) + last_value_0,
struct.pack('>I', len(last_value_1)) + last_value_1)
setup_resilience_path(res_dir)
command = '''{} \
--log-rotation \
--stop-pause {}
'''.format(command, STOP_THE_WORLD_PAUSE)
runners = []
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
reader = Reader(sequence_generator(expect))
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
num_ports = sources + 3 * workers
ports = get_port_values(num=num_ports, host=host)
(input_ports, worker_ports) = (ports[:sources], [
ports[sources:][i:i + 3] for i in range(0, len(ports[sources:]), 3)
])
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs, metrics_port,
res_dir, workers, worker_ports)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners, timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# start sender
sender = Sender(host,
input_ports[0],
reader,
batch_size=100,
interval=0.05)
sender.start()
time.sleep(0.5)
# Trigger log rotation with external message
cmd_external_trigger = ('external_sender -e {}:{} -t rotate-log -m '
'worker1'.format(host, external_port))
res = run_shell_cmd(cmd_external_trigger)
try:
assert (res.success)
except AssertionError:
raise AssertionError('External rotation trigger failed with '
'the error:\n{}'.format(res.output))
# wait until sender completes (~1 second)
sender.join(30)
if sender.error:
raise sender.error
if sender.is_alive():
sender.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Use metrics to determine when to stop runners and sink
stopper = SinkAwaitValue(sink, await_values, AWAIT_TIMEOUT)
stopper.start()
stopper.join()
if stopper.error:
for r in runners:
print r.name
print r.get_output()
print '---'
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
print 'sink.data size: ', len(sink.data)
# Use validator to validate the data in at-least-once mode
# save sink data to a file
out_file = os.path.join(res_dir, 'received.txt')
sink.save(out_file, mode='giles')
# Validate captured output
cmd_validate = ('validator -i {out_file} -e {expect} -a'.format(
out_file=out_file, expect=expect))
res = run_shell_cmd(cmd_validate)
try:
assert (res.success)
except AssertionError:
print runners[0].name
print runners[0].get_output()
print '---'
print runners[1].name
print runners[1].get_output()
print '---'
raise AssertionError('Validation failed with the following '
'error:\n{}'.format(res.output))
# Validate all workers underwent log rotation
for r in runners[1:]:
stdout = r.get_output()
try:
assert (re.search(log_rotated_pattern, stdout, re.M | re.S)
is not None)
except AssertionError:
raise AssertionError('Worker %r does not appear to have '
'performed log rotation as expected.'
' The pattern %r '
'is missing form the Worker output '
'included below.\nSTDOUT\n---\n%s\n'
'---\n' %
(r.name, log_rotated_pattern, stdout))
finally:
for r in runners:
r.stop()
clean_resilience_path(res_dir)
def _test_restart(command):
host = '127.0.0.1'
sources = 1
workers = 2
res_dir = '/tmp/res-data'
expect = 200
last_value_0 = '[{}]'.format(','.join(
(str(expect - v) for v in range(6, -2, -2))))
last_value_1 = '[{}]'.format(','.join(
(str(expect - 1 - v) for v in range(6, -2, -2))))
await_values = (struct.pack('>I', len(last_value_0)) + last_value_0,
struct.pack('>I', len(last_value_1)) + last_value_1)
setup_resilience_path(res_dir)
runners = []
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
reader = Reader(sequence_generator(expect))
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
input_ports, control_port, external_port, data_port = (get_port_values(
host, sources))
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs, metrics_port,
control_port, external_port, data_port, res_dir, workers)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners, timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# start sender
sender = Sender(host,
input_ports[0],
reader,
batch_size=1,
interval=0.05,
reconnect=True)
sender.start()
time.sleep(0.2)
# stop worker in a non-graceful fashion so that recovery files
# aren't removed
runners[-1].kill()
## restart worker
runners.append(runners[-1].respawn())
runners[-1].start()
# wait until sender completes (~1 second)
sender.join(30)
if sender.error:
raise sender.error
if sender.is_alive():
sender.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Wait for the last sent value expected at the worker
stopper = SinkAwaitValue(sink, await_values, 30)
stopper.start()
stopper.join()
if stopper.error:
for r in runners:
print r.name
print r.get_output()[0]
print '---'
print 'sink data'
print sink.data
print '---'
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
# Validate worker actually underwent recovery
pattern_restarting = "Restarting a listener ..."
stdout, stderr = runners[-1].get_output()
try:
assert (re.search(pattern_restarting, stdout) is not None)
except AssertionError:
raise AssertionError('Worker does not appear to have reconnected '
'as expected. Worker output is '
'included below.\nSTDOUT\n---\n%s\n---\n'
'STDERR\n---\n%s' % (stdout, stderr))
finally:
for r in runners:
r.stop()
def _test_log_rotation_external_trigger_recovery(command):
host = '127.0.0.1'
sources = 1
workers = 2
res_dir = '/tmp/res-data'
expect = 2000
last_value_0 = '[{}]'.format(','.join(
(str(expect - v) for v in range(6, -2, -2))))
last_value_1 = '[{}]'.format(','.join(
(str(expect - 1 - v) for v in range(6, -2, -2))))
await_values = (struct.pack('>I', len(last_value_0)) + last_value_0,
struct.pack('>I', len(last_value_1)) + last_value_1)
setup_resilience_path(res_dir)
command = '''{} \
--log-rotation \
--stop-pause {}
'''.format(command, STOP_THE_WORLD_PAUSE)
runners = []
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
reader = Reader(sequence_generator(expect))
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
input_ports, control_port, external_port, data_port = (get_port_values(
host, sources))
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs, metrics_port,
control_port, external_port, data_port, res_dir, workers)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners, timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# start sender
sender = Sender(host,
input_ports[0],
reader,
batch_size=100,
interval=0.05)
sender.start()
time.sleep(0.5)
# Trigger log rotation with external message
cmd_external_trigger = ('external_sender -e {}:{} -t rotate-log -m '
'worker1'.format(host, external_port))
success, stdout, retcode, cmd = ex_validate(cmd_external_trigger)
try:
assert (success)
except AssertionError:
raise AssertionError('External rotation trigger failed with '
'the error:\n{}'.format(stdout))
# Check for log rotation
log_rotated_checker = RunnerChecker(runners[1],
log_rotated_patterns,
timeout=AWAIT_TIMEOUT)
log_rotated_checker.start()
log_rotated_checker.join()
if log_rotated_checker.error:
raise log_rotated_checker.error
# stop worker in a non-graceful fashion so that recovery files
# aren't removed
runners[-1].kill()
## restart worker
runners.append(runners[-1].respawn())
runners[-1].start()
# wait until sender completes (~1 second)
sender.join(30)
if sender.error:
raise sender.error
if sender.is_alive():
sender.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Use metrics to determine when to stop runners and sink
stopper = SinkAwaitValue(sink, await_values, AWAIT_TIMEOUT)
stopper.start()
stopper.join()
if stopper.error:
for r in runners:
print r.name
print r.get_output()[0]
print '---'
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
print 'sink.data size: ', len(sink.data)
# Use validator to validate the data in at-least-once mode
# save sink data to a file
out_file = os.path.join(res_dir, 'received.txt')
sink.save(out_file, mode='giles')
# Validate captured output
cmd_validate = ('validator -i {out_file} -e {expect} -a'.format(
out_file=out_file, expect=expect))
success, stdout, retcode, cmd = ex_validate(cmd_validate)
try:
assert (success)
except AssertionError:
print runners[0].name
print runners[0].get_output()[0]
print '---'
print runners[1].name
print runners[1].get_output()[0]
print '---'
raise AssertionError('Validation failed with the following '
'error:\n{}'.format(stdout))
# Validate all workers underwent log rotation
r = runners[1]
stdout, stderr = r.get_output()
try:
assert (re.search(log_rotated_pattern, stdout, re.M | re.S)
is not None)
except AssertionError:
raise AssertionError('Worker %d.%r does not appear to have '
'performed log rotation as expected.'
' The pattern %r '
'is missing form the Worker output '
'included below.\nSTDOUT\n---\n%s\n'
'---\n' %
(1, r.name, log_rotated_pattern, stdout))
# Validate worker actually underwent recovery
pattern = "RESILIENCE\: Replayed \d+ entries from recovery log file\."
stdout, stderr = runners[-1].get_output()
try:
assert (re.search(pattern, stdout) is not None)
except AssertionError:
raise AssertionError(
'Worker %d.%r does not appear to have '
'performed recovery as expected. Worker '
'output is '
'included below.\nSTDOUT\n---\n%s\n---\n'
'STDERR\n---\n%s' %
(len(runners) - 1, runners[-1].name, stdout, stderr))
finally:
for r in runners:
r.stop()
def _test_recovery(command):
host = '127.0.0.1'
sources = 1
workers = 2
res_dir = '/tmp/res-data'
expect = 2000
last_value_0 = '[{}]'.format(','.join(
(str(expect - v) for v in range(6, -2, -2))))
last_value_1 = '[{}]'.format(','.join(
(str(expect - 1 - v) for v in range(6, -2, -2))))
await_values = (struct.pack('>I', len(last_value_0)) + last_value_0,
struct.pack('>I', len(last_value_1)) + last_value_1)
setup_resilience_path(res_dir)
runners = []
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
reader = Reader(sequence_generator(expect))
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
input_ports, control_port, external_port, data_port = (get_port_values(
host, sources))
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs, metrics_port,
control_port, external_port, data_port, res_dir, workers)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners[0], timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# start sender
sender = Sender(host,
input_ports[0],
reader,
batch_size=100,
interval=0.05)
sender.start()
time.sleep(0.2)
# stop worker
runners[-1].stop()
## restart worker
runners.append(runners[-1].respawn())
runners[-1].start()
# wait until sender completes (~1 second)
sender.join(5)
if sender.error:
raise sender.error
if sender.is_alive():
sender.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Use metrics to determine when to stop runners and sink
stopper = SinkAwaitValue(sink, await_values, 30)
stopper.start()
stopper.join()
if stopper.error:
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
print 'sink.data size: ', len(sink.data)
# Use validator to validate the data in at-least-once mode
# save sink data to a file
out_file = os.path.join(res_dir, 'received.txt')
sink.save(out_file, mode='giles')
# Validate captured output
cmd_validate = ('validator -i {out_file} -e {expect} -a'.format(
out_file=out_file, expect=expect))
success, stdout, retcode, cmd = ex_validate(cmd_validate)
try:
assert (success)
except AssertionError:
print runners[-1].get_output()[0]
print '---'
print runners[-2].get_output()[0]
print '---'
raise AssertionError('Validation failed with the following '
'error:\n{}'.format(stdout))
# Validate worker actually underwent recovery
pattern = "RESILIENCE\: Replayed \d+ entries from recovery log file\."
stdout, stderr = runners[-1].get_output()
try:
assert (re.search(pattern, stdout) is not None)
except AssertionError:
raise AssertionError('Worker does not appear to have performed '
'recovery as expected. Worker output is '
'included below.\nSTDOUT\n---\n%s\n---\n'
'STDERR\n---\n%s' % (stdout, stderr))
finally:
for r in runners:
r.stop()
clean_up_resilience_path(res_dir)
def _test_autoscale_grow(command):
host = '127.0.0.1'
sources = 1
workers = 1
res_dir = '/tmp/res-data'
expect = 2000
last_value_0 = '[{}]'.format(','.join(
(str(expect - v) for v in range(6, -2, -2))))
last_value_1 = '[{}]'.format(','.join(
(str(expect - 1 - v) for v in range(6, -2, -2))))
await_values = (struct.pack('>I', len(last_value_0)) + last_value_0,
struct.pack('>I', len(last_value_1)) + last_value_1)
patterns_i = [
re.escape(r'***Worker worker1 attempting to join the '
r'cluster. Sent necessary information.***'),
re.escape(r'Migrating partitions to worker1'),
re.escape(r'--All new workers have acked migration '
r'batch complete'),
re.escape(r'~~~Resuming message processing.~~~')
]
patterns_w = [
re.escape(r'***Successfully joined cluster!***'),
re.escape(r'~~~Resuming message processing.~~~')
]
setup_resilience_path(res_dir)
runners = []
try:
# Create sink, metrics, reader, sender
sink = Sink(host)
metrics = Metrics(host)
reader1 = Reader(sequence_generator(expect - 1000))
reader2 = Reader(sequence_generator(expect, 1000))
# Start sink and metrics, and get their connection info
sink.start()
sink_host, sink_port = sink.get_connection_info()
outputs = '{}:{}'.format(sink_host, sink_port)
metrics.start()
metrics_host, metrics_port = metrics.get_connection_info()
time.sleep(0.05)
input_ports, control_port, external_port, data_port = (get_port_values(
host, sources))
inputs = ','.join(['{}:{}'.format(host, p) for p in input_ports])
start_runners(runners, command, host, inputs, outputs, metrics_port,
control_port, external_port, data_port, res_dir, workers)
# Wait for first runner (initializer) to report application ready
runner_ready_checker = RunnerReadyChecker(runners, timeout=30)
runner_ready_checker.start()
runner_ready_checker.join()
if runner_ready_checker.error:
raise runner_ready_checker.error
# start sender1 (0,1000]
sender1 = Sender(host,
input_ports[0],
reader1,
batch_size=10,
interval=0.05)
sender1.start()
# wait until sender1 completes (~5 seconds)
sender1.join(30)
if sender1.error:
raise sender1.error
if sender1.is_alive():
sender1.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# create a new worker and have it join
add_runner(runners, command, host, inputs, outputs, metrics_port,
control_port, external_port, data_port, res_dir, workers)
# Wait for runner to complete a log rotation
join_checker_i = RunnerChecker(runners[0], patterns_i, timeout=30)
join_checker_w = RunnerChecker(runners[1], patterns_w, timeout=30)
join_checker_i.start()
join_checker_w.start()
join_checker_i.join()
if join_checker_i.error:
print('worker output:')
print(runners[1].get_output()[0])
raise join_checker_i.error
join_checker_w.join()
if join_checker_w.error:
print('initalizer output:')
print(runners[0].get_output()[0])
raise join_checker_w.error
# Start sender2 (1000, 2000]
sender2 = Sender(host,
input_ports[0],
reader2,
batch_size=10,
interval=0.05)
sender2.start()
# wait until sender2 completes (~5 seconds)
sender2.join(30)
if sender2.error:
raise sender2.error
if sender2.is_alive():
sender2.stop()
raise TimeoutError('Sender did not complete in the expected '
'period')
# Use Sink value to determine when to stop runners and sink
stopper = SinkAwaitValue(sink, await_values, 30)
stopper.start()
stopper.join()
if stopper.error:
raise stopper.error
# stop application workers
for r in runners:
r.stop()
# Stop sink
sink.stop()
print 'sink.data size: ', len(sink.data)
# Stop metrics
metrics.stop()
# parse metrics data and validate worker has shifted from 1 to 2
# workers
mp = MetricsParser()
mp.load_string_list(metrics.data)
mp.parse()
# Now confirm that there are computations in worker1's metrics
app_key = mp.data.keys()[0] # 'metrics:Sequence Window Printer'
worker_metrics = [
v for v in mp.data[app_key].get('worker1', []) if v[0] == 'metrics'
]
# Verify there is at least one entry for a computation with a nonzero
# total value
print('worker_metrics', worker_metrics)
filtered = filter(
lambda v:
(v[1]['metric_category'] == 'computation' and v[1]['total'] > 0),
worker_metrics)
print('filtered', filtered)
assert (len(filtered) > 0)
# Use validator to validate the data in at-least-once mode
# save sink data to a file
out_file = os.path.join(res_dir, 'received.txt')
sink.save(out_file, mode='giles')
# Validate captured output
cmd_validate = ('validator -i {out_file} -e {expect} -a'.format(
out_file=out_file, expect=expect))
success, stdout, retcode, cmd = ex_validate(cmd_validate)
try:
assert (success)
except AssertionError:
print runners[-1].get_output()[0]
print '---'
print runners[-2].get_output()[0]
print '---'
raise AssertionError('Validation failed with the following '
'error:\n{}'.format(stdout))
finally:
for r in runners:
r.stop()