def main(arguments=None):
parser = argparse.ArgumentParser(
description=desc, formatter_class=argparse.RawDescriptionHelpFormatter)
parser.add_argument("-v",
dest="verbose",
action="count",
default=0,
help="print verbose output")
parser.add_argument("--version",
action="version",
version=f"%(prog)s {__version__}")
parser.add_argument("server", nargs="+", type=get_server)
args = parser.parse_args(arguments)
if args.verbose == 0:
level = logging.ERROR
elif args.verbose == 1:
level = logging.INFO
else:
level = logging.DEBUG
gvars.logger.setLevel(level)
try:
resource.setrlimit(resource.RLIMIT_NOFILE, (50000, 50000))
except Exception:
gvars.logger.warning("Require root permission to allocate resources")
kernel = curio.Kernel()
try:
kernel.run(multi_server(*args.server))
except Exception as e:
gvars.logger.exception(str(e))
except KeyboardInterrupt:
kernel.run(shutdown=True)
def curio_runner(pvdb, client, *, threaded_client=False):
async def server_main():
try:
ctx = caproto.curio.server.Context(pvdb)
await ctx.run()
except caproto.curio.server.ServerExit:
print('Server exited normally')
except Exception as ex:
print('Server failed', ex)
raise
finally:
print('Server exiting')
async def run_server_and_client():
try:
server_task = await curio.spawn(server_main)
# Give this a couple tries, akin to poll_readiness.
for _ in range(15):
try:
if threaded_client:
await threaded_in_curio_wrapper(client)()
else:
await client()
except TimeoutError:
continue
else:
break
else:
raise TimeoutError(f"ioc failed to start")
finally:
await server_task.cancel()
with curio.Kernel() as kernel:
kernel.run(run_server_and_client)
def main():
parser = argparse.ArgumentParser(
description=__doc__,
formatter_class=argparse.RawDescriptionHelpFormatter)
parser.add_argument('-v',
dest='verbose',
action='count',
default=0,
help='print verbose output')
parser.add_argument('--version',
action='version',
version=f'%(prog)s {__version__}')
parser.add_argument('server', nargs='+', type=get_server)
args = parser.parse_args()
global verbose
verbose = args.verbose
try:
resource.setrlimit(resource.RLIMIT_NOFILE, (50000, 50000))
except Exception as e:
print('Require root permission to allocate resources')
kernel = curio.Kernel()
try:
kernel.run(multi_server(*args.server))
except Exception as e:
traceback.print_exc()
for k, v in kernel._selector.get_map().items():
print(k, v, file=sys.stderr)
for conn in connections:
print('|', conn, file=sys.stderr)
except KeyboardInterrupt:
kernel.run(shutdown=True)
print()
def kernel():
kernel = curio.Kernel(log_errors=False)
def handle_crash(current):
raise current.exc_info[1]
kernel._crash_handler = handle_crash
return kernel
def test_thread_client_example(curio_server):
from caproto.examples.thread_client_simple import main as example_main
server_runner, prefix, caget_pvdb = curio_server
@conftest.threaded_in_curio_wrapper
def client():
example_main(pvname1=prefix + 'int', pvname2=prefix + 'str')
with curio.Kernel() as kernel:
kernel.run(server_runner, client)
def get_kernel():
try:
return _locals.curio_kernel
except AttributeError:
_locals.curio_kernel = k = curio.Kernel()
if 'CURIOMONITOR' in os.environ:
m = Monitor(k)
k._call_at_shutdown(m.close)
return k
def test_repeater():
from caproto.asyncio.repeater import main
logging.getLogger('caproto').setLevel(logging.DEBUG)
logging.basicConfig()
loop = asyncio.get_event_loop()
def run_repeater():
asyncio.set_event_loop(loop)
main()
thread_repeater = threading.Thread(target=run_repeater)
thread_repeater.start()
threads = [thread_repeater]
try:
print('Waiting for the repeater to start up...')
time.sleep(2)
async def check_repeater():
for pv in (
"XF:31IDA-OP{Tbl-Ax:X1}Mtr.VAL",
"XF:31IDA-OP{Tbl-Ax:X2}Mtr.VAL",
):
data = await run_caget(pv)
print(data)
udp_sock = ca.bcast_socket()
for i in range(3):
print('Sending repeater register request ({})'.format(i + 1))
udp_sock.sendto(bytes(ca.RepeaterRegisterRequest('0.0.0.0')),
('127.0.0.1', REPEATER_PORT))
await curio.sleep(1)
with curio.Kernel() as kernel:
kernel.run(check_repeater)
finally:
print('Stopping the event loop')
loop.call_soon_threadsafe(loop.stop)
for th in threads:
print('Joining the thread')
th.join()
print('Closing the event loop')
loop.close()
print('Setting a new event loop')
# new event loop for other tests
asyncio.set_event_loop(asyncio.new_event_loop())
print('Done')
def test_curio_server():
import caproto.curio.client as client
from caproto.curio.server import _test as example_server
kernel = curio.Kernel()
called = []
async def run_client():
# Some user function to call when subscriptions receive data.
def user_callback(command):
print("Subscription has received data.")
called.append(True)
broadcaster = client.SharedBroadcaster(log_level='DEBUG')
await broadcaster.register()
ctx = client.Context(broadcaster, log_level='DEBUG')
await ctx.search('pi')
print('done searching')
chan1 = await ctx.create_channel('pi')
chan1.register_user_callback(user_callback)
# ...and then wait for all the responses.
await chan1.wait_for_connection()
reading = await chan1.read()
print('reading:', reading)
sub_id = await chan1.subscribe()
await chan1.unsubscribe(sub_id)
await chan1.write((5, ))
reading = await chan1.read()
print('reading:', reading)
await chan1.write((6, ))
reading = await chan1.read()
print('reading:', reading)
await chan1.disconnect()
await chan1.circuit.socket.close()
async def task():
# os.environ['EPICS_CA_ADDR_LIST'] = '255.255.255.255'
try:
server_task = await curio.spawn(example_server())
await curio.sleep(1) # Give server some time to start up.
await run_client()
print('client is done')
finally:
await server_task.cancel()
print('server is canceled', server_task.cancelled) # prints True
print(kernel._tasks)
with kernel:
kernel.run(task)
assert called, 'subscription not called in client'
print('done')
def test_with_caput(curio_server, pv, put_value, check_value, async_put=True):
curio_server, caget_pvdb = curio_server
async def client():
print('* client_test', pv, 'put value', put_value, 'check value',
check_value)
db_entry = caget_pvdb[pv]
db_old = db_entry.value
data = await run_caput(pv,
put_value,
as_string=isinstance(db_entry, ca.ChannelChar))
db_new = db_entry.value
if isinstance(db_entry, (ca.ChannelInteger, ca.ChannelDouble)):
clean_func = ast.literal_eval
# elif isinstance(db_entry, ca.ChannelString):
# clean_func = lambda v: v.split(' ', 1)[1]
else:
clean_func = None
if clean_func is not None:
for key in ('old', 'new'):
data[key] = clean_func(data[key])
print('caput data', data)
print('old from db', db_old)
print('new from db', db_new)
print('old from caput', data['old'])
print('new from caput', data['new'])
# check value from database compared to value from caput output
assert db_new == data['new']
# check value from database compared to value the test expects
assert db_new == check_value
async def task():
server_task = await curio.spawn(curio_server)
try:
await client()
finally:
await server_task.cancel()
with curio.Kernel() as kernel:
kernel.run(task)
print('done')
def test_curio_server_and_thread_client(curio_server):
from caproto.threading.client import (SharedBroadcaster,
PVContext)
from .conftest import threaded_in_curio_wrapper
curio_server, caget_pvdb = curio_server
@threaded_in_curio_wrapper
def client_test():
shared_broadcaster = SharedBroadcaster()
cntx = PVContext(broadcaster=shared_broadcaster, log_level='DEBUG')
pv = cntx.get_pv('int')
assert pv.get() == caget_pvdb['int'].value
print('get', pv.get())
monitor_values = []
def callback(value=None, **kwargs):
print('monitor', value)
monitor_values.append(value[0])
pv.add_callback(callback)
pv.put(1, wait=True)
pv.put(2, wait=True)
pv.put(3, wait=True)
for i in range(3):
if pv.get() == 3:
break
else:
time.sleep(0.1)
assert len(monitor_values) == 4
async def task():
server_task = await curio.spawn(curio_server)
try:
await curio.run_in_thread(client_test)
await client_test.wait()
finally:
await server_task.cancel()
with curio.Kernel() as kernel:
kernel.run(task)
def bench_curio_many_connections(pv_names,
*,
initial_value=None,
log_level='DEBUG'):
kernel = curio.Kernel()
async def test():
broadcaster = ca.curio.client.SharedBroadcaster(log_level=log_level)
await broadcaster.register()
ctx = ca.curio.client.Context(broadcaster, log_level=log_level)
pvs = {}
async with curio.TaskGroup() as connect_task:
async with curio.TaskGroup() as search_task:
for pvname in pv_names:
await search_task.spawn(ctx.search, pvname)
while True:
res = await search_task.next_done()
if res is None:
break
pvname = res.result
await connect_task.spawn(ctx.create_channel, pvname)
while True:
res = await connect_task.next_done()
if res is None:
break
curio_channel = res.result
pvname = curio_channel.channel.name
pvs[pvname] = curio_channel
assert len(pvs) == len(pv_names)
# TODO: can't successfully test as this hammers file creation; this
# will be important to resolve...
await curio.sleep(1)
def curio_client():
kernel.run(test())
yield curio_client
logger.debug('Shutting down the kernel')
kernel.run(shutdown=True)
logger.debug('Done')
def test_curio_server_example(prefix, run_client):
import caproto.curio.client as client
from caproto.ioc_examples.type_varieties import (pvdb)
from caproto.curio.server import ServerExit, start_server as server_main
pvdb = {prefix + key: value for key, value in pvdb.items()}
pi_pv = prefix + 'int'
broadcaster = client.SharedBroadcaster()
ctx = client.Context(broadcaster)
async def connect():
await broadcaster.register()
await ctx.search(pi_pv)
print('done searching')
chan1 = await ctx.create_channel(pi_pv)
# ...and then wait for all the responses.
await chan1.wait_for_connection()
return chan1
async def task():
async def server_wrapper():
try:
await server_main(pvdb)
except ServerExit:
print('Server exited normally')
try:
server_task = await curio.spawn(server_wrapper)
await curio.sleep(1) # Give server some time to start up.
chan1 = await connect()
await run_client(chan1, pvdb, ctx)
await chan1.disconnect()
print('client is done')
finally:
try:
await server_task.cancel()
await server_task.join()
except curio.KernelExit:
print('Server exited normally')
with curio.Kernel() as kernel:
kernel.run(task)
print('done')
def test_sync_repeater(ioc):
logging.getLogger('caproto').setLevel(logging.DEBUG)
logging.basicConfig()
async def check_repeater():
for pv in (ioc.pvs['float'], ioc.pvs['str']):
data = await run_caget('curio', pv)
print(data)
udp_sock = ca.bcast_socket()
for i in range(3):
print('Sending repeater register request ({})'.format(i + 1))
udp_sock.sendto(bytes(ca.RepeaterRegisterRequest('0.0.0.0')),
('127.0.0.1', REPEATER_PORT))
await curio.sleep(1)
with curio.Kernel() as kernel:
kernel.run(check_repeater)
def bench_curio_get_speed(pvname, *, initial_value=None, log_level='DEBUG'):
kernel = curio.Kernel()
async def curio_setup():
logger.debug('Registering...')
broadcaster = ca.curio.client.SharedBroadcaster(log_level=log_level)
await broadcaster.register()
ctx = ca.curio.client.Context(broadcaster, log_level=log_level)
logger.debug('Registered')
logger.debug('Searching for %s...', pvname)
await ctx.search(pvname)
logger.debug('... found!')
chan = await ctx.create_channel(pvname)
await chan.wait_for_connection()
logger.debug('Connected to %s', pvname)
if initial_value is not None:
logger.debug('Writing initial value')
await chan.write(initial_value)
logger.debug('Wrote initial value')
logger.debug('Init complete')
return chan
def curio_client():
async def get():
reading = await chan.read()
if initial_value is not None:
assert len(reading.data) == len(initial_value)
kernel.run(get())
chan = kernel.run(curio_setup())
assert chan.channel.states[ca.CLIENT] is ca.CONNECTED, 'Not connected'
yield curio_client
logger.debug('Shutting down the kernel')
kernel.run(shutdown=True)
logger.debug('Done')
def bench_curio_get_speed(pvname, *, initial_value=None, log_level='DEBUG'):
logging.getLogger('caproto').setLevel(log_level)
kernel = curio.Kernel()
async def curio_setup():
ctx = await get_curio_context()
logger.debug('Searching for %s...', pvname)
await ctx.search(pvname)
logger.debug('... found!')
chan = await ctx.create_channel(pvname)
await chan.wait_for_connection()
logger.debug('Connected to %s', pvname)
if initial_value is not None:
logger.debug('Writing initial value')
await chan.write(initial_value, notify=True)
logger.debug('Wrote initial value')
logger.debug('Init complete')
return chan
def curio_client():
async def get():
reading = await chan.read()
if initial_value is not None:
assert len(reading.data) == len(initial_value)
kernel.run(get())
chan = kernel.run(curio_setup())
assert chan.channel.states[ca.CLIENT] is ca.CONNECTED, 'Not connected'
try:
yield curio_client
finally:
logger.debug('Shutting down the kernel')
kernel.run(shutdown=True)
logger.debug('Done')
def curio_runner(pvdb, client, *, threaded_client=False):
# Hide these imports so that the other fixtures are usable by other
# libraries (e.g. ophyd) without the experimental dependencies.
import curio
import caproto.curio
async def server_main():
try:
ctx = caproto.curio.server.Context(pvdb)
await ctx.run()
except caproto.curio.server.ServerExit:
logger.info('Server exited normally')
except Exception as ex:
logger.error('Server failed: %s %s', type(ex), ex)
raise
async def run_server_and_client():
try:
server_task = await curio.spawn(server_main)
# Give this a couple tries, akin to poll_readiness.
for _ in range(15):
try:
if threaded_client:
await threaded_in_curio_wrapper(client)()
else:
await client()
except TimeoutError:
continue
else:
break
else:
raise TimeoutError("ioc failed to start")
finally:
await server_task.cancel()
with curio.Kernel() as kernel:
kernel.run(run_server_and_client)
def bench_curio_put_speed(pvname, *, value, log_level='DEBUG'):
kernel = curio.Kernel()
async def curio_setup():
logger.debug('Registering...')
broadcaster = ca.curio.client.SharedBroadcaster(log_level=log_level)
await broadcaster.register()
ctx = ca.curio.client.Context(broadcaster, log_level=log_level)
logger.debug('Registered')
logger.debug('Searching for %s...', pvname)
await ctx.search(pvname)
logger.debug('... found!')
chan = await ctx.create_channel(pvname)
await chan.wait_for_connection()
logger.debug('Connected to %s', pvname)
return chan
def curio_client():
async def put():
await chan.write(value)
kernel.run(put())
chan = kernel.run(curio_setup())
assert chan.channel.states[ca.CLIENT] is ca.CONNECTED, 'Not connected'
yield curio_client
async def check():
reading = await chan.read()
np.testing.assert_array_almost_equal(reading.data, value)
kernel.run(check())
logger.debug('Shutting down the kernel')
kernel.run(shutdown=True)
logger.debug('Done')
def bench_curio_put_speed(pvname, *, value, log_level='DEBUG'):
logging.getLogger('caproto').setLevel(log_level)
kernel = curio.Kernel()
async def curio_setup():
ctx = await get_curio_context()
logger.debug('Searching for %s...', pvname)
await ctx.search(pvname)
logger.debug('... found!')
chan = await ctx.create_channel(pvname)
await chan.wait_for_connection()
logger.debug('Connected to %s', pvname)
return chan
def curio_client():
async def put():
await chan.write(value, notify=True)
kernel.run(put())
chan = kernel.run(curio_setup())
assert chan.channel.states[ca.CLIENT] is ca.CONNECTED, 'Not connected'
try:
yield curio_client
async def check():
reading = await chan.read()
np.testing.assert_array_almost_equal(reading.data, value)
kernel.run(check())
finally:
logger.debug('Shutting down the kernel')
kernel.run(shutdown=True)
logger.debug('Done')
def _get_kernel():
global test_kernel
if test_kernel is None:
test_kernel = curio.Kernel()
return test_kernel
def curio_client():
with curio.Kernel() as kernel:
kernel.run(test)
def test_curio_server_with_caget(curio_server, pv, dbr_type):
ctrl_keys = ('upper_disp_limit', 'lower_alarm_limit', 'upper_alarm_limit',
'lower_warning_limit', 'upper_warning_limit',
'lower_ctrl_limit', 'upper_ctrl_limit', 'precision')
async def run_client_test():
print('* client_test', pv, dbr_type)
db_entry = caget_pvdb[pv]
# native type as in the ChannelData database
db_native = ca.native_type(db_entry.data_type)
# native type of the request
req_native = ca.native_type(dbr_type)
data = await run_caget(pv, dbr_type=dbr_type)
print('dbr_type', dbr_type, 'data:')
print(data)
db_value = db_entry.value
# convert from string value to enum if requesting int
if (db_native == ChType.ENUM
and not (req_native == ChType.STRING
or dbr_type in (ChType.CTRL_ENUM, ChType.GR_ENUM))):
db_value = db_entry.enum_strings.index(db_value)
if req_native in (ChType.INT, ChType.LONG, ChType.SHORT, ChType.CHAR):
if db_native == ChType.CHAR:
assert int(data['value']) == ord(db_value)
else:
assert int(data['value']) == int(db_value)
elif req_native in (ChType.STSACK_STRING, ):
db_string_value = db_entry.alarm.alarm_string
string_length = len(db_string_value)
read_value = data['value'][:string_length]
assert read_value == db_string_value
elif req_native in (ChType.CLASS_NAME, ):
assert data['class_name'] == 'caproto'
elif req_native in (ChType.FLOAT, ChType.DOUBLE):
assert float(data['value']) == float(db_value)
elif req_native == ChType.STRING:
if db_native == ChType.STRING:
db_string_value = str(db_value)
string_length = len(db_string_value)
read_value = data['value'][:string_length]
assert int(data['element_count']) == string_length
assert read_value == db_string_value
# due to how we monitor the caget output, we get @@@s where
# null padding bytes are. so long as we verify element_count
# above and the set of chars that should match, this assertion
# should pass
else:
assert data['value'] == str(db_value)
elif req_native == ChType.ENUM:
bad_strings = ['Illegal Value (', 'Enum Index Overflow (']
for bad_string in bad_strings:
if data['value'].startswith(bad_string):
data['value'] = data['value'][len(bad_string):-1]
if (db_native == ChType.ENUM
and (dbr_type in (ChType.CTRL_ENUM, ChType.GR_ENUM))):
# ctrl enum gets back the full string value
assert data['value'] == db_value
else:
assert int(data['value']) == int(db_value)
else:
raise ValueError('TODO ' + str(dbr_type))
# TODO metadata should be cast to requested type as well!
same_type = (ca.native_type(dbr_type) == db_native)
if (dbr_type in ca.control_types and same_type
and dbr_type != ChType.CTRL_ENUM):
for key in ctrl_keys:
if (key == 'precision'
and ca.native_type(dbr_type) != ChType.DOUBLE):
print('skipping', key)
continue
print('checking', key)
assert float(data[key]) == getattr(db_entry, key), key
if dbr_type in ca.time_types:
timestamp = datetime.datetime.fromtimestamp(db_entry.timestamp)
assert data['timestamp'] == timestamp
if (dbr_type in ca.time_types or dbr_type in ca.status_types
or dbr_type == ChType.STSACK_STRING):
severity = data['severity']
if not severity.endswith('_ALARM'):
severity = '{}_ALARM'.format(severity)
severity = getattr(ca._dbr.AlarmSeverity, severity)
assert severity == db_entry.severity, key
status = data['status']
status = getattr(ca._dbr.AlarmStatus, status)
assert status == db_entry.status, key
if 'ackt' in data:
ack_transient = data['ackt'] == 'YES'
assert ack_transient == db_entry.alarm.acknowledge_transient
if 'acks' in data:
ack_severity = data['acks']
ack_severity = getattr(ca._dbr.AlarmSeverity, ack_severity)
assert ack_severity == db_entry.alarm.acknowledge_severity
async def task():
server_task = await curio.spawn(curio_server)
try:
await run_client_test()
finally:
await server_task.cancel()
with curio.Kernel() as kernel:
kernel.run(task)
print('done')
def test_curio_client():
from caproto.curio.client import main
with curio.Kernel() as kernel:
kernel.run(main())
def func_wrapper(*args, **kwargs):
kernel = curio.Kernel()
kernel.run(func(*args, **kwargs))
kernel.run(shutdown=True)
def server_thread(context):
async def server():
return await context.run(log_pv_names=True)
kernel = curio.Kernel()
kernel.run(server)
"target":
request.target.decode("ascii"),
"headers": [(name.decode("ascii"), value.decode("ascii"))
for (name, value) in request.headers],
"body":
"",
}
while True:
event = await wrapper.next_event()
if type(event) is h11.EndOfMessage:
break
assert type(event) is h11.Data
response_json["body"] += event.data.decode("ascii")
response_body_unicode = json.dumps(response_json,
sort_keys=True,
indent=4,
separators=(",", ": "))
response_body_bytes = response_body_unicode.encode("utf-8")
await send_simple_response(wrapper, 200, "application/json; charset=utf-8",
response_body_bytes)
################################################################
# Run the server
################################################################
if __name__ == "__main__":
kernel = curio.Kernel()
print("Listening on http://localhost:8080")
kernel.run(curio.tcp_server("localhost", 8080, http_serve))
def kernel(request):
"""Create an instance of the default kernel for each test case."""
kernel = curio.Kernel()
# request.addfinalizer(kernel.shutdown)
return kernel
def test_curio_client_example():
from caproto.examples.curio_client_simple import main
with curio.Kernel() as kernel:
kernel.run(main())
def run(self, host, port):
kernel = curio.Kernel()
logging.info(f"Listening on http://{host}:{port}")
kernel.run(curio.tcp_server(host, port, self.http_serve))
def kernel(request):
"""Create an instance of the default kernel for each test case."""
kernel = curio.Kernel()
request.addfinalizer(lambda: kernel.run(shutdown=True))
return kernel
for n in range(50):
total += await curio.run_cpu_bound(fib, n)
except curio.CancelledError:
print('Fine. Saving my work.')
async def parent():
print('Parent PID', os.getpid())
kid_task = await curio.new_task(kid())
await curio.sleep(5)
print("Yes, go play")
await start_evt.set()
await curio.SignalSet(signal.SIGHUP).wait()
print("Let's go")
count_task = await curio.new_task(countdown(10))
await count_task.join()
print("We're leaving!")
try:
await kid_task.join(timeout=10)
except TimeoutError:
print('I warned you!')
await kid_task.cancel()
print("Leaving!")
if __name__ == '__main__':
kernel = curio.Kernel(with_monitor=True)
kernel.run(parent())
