def _start_event_generator_if_listeners(self):
if not self._event_generator and len(self._reg_event_listeners):
self._event_generator = EventGenerator(self._event_notifier)
self._event_generator.start()
log.debug("event generator started (%s listeners registered)",
len(self._reg_event_listeners))
class CIOMSSimulator(CIOMSClient):
"""
Implementation of CIOMSClient for testing purposes.
It adds some methods intended to be used by tests (they are prefixed with
"x_" and are "public" to make them visible through the xml/rpc mechanism).
"""
# _raise_exception: see disable() and enable()
_raise_exception = False
@classmethod
def x_disable(cls):
"""
Makes any subsequent call to any public API operation to raise an
exception. This allows to test for the "lost connection" case.
"""
cls._raise_exception = True
@classmethod
def x_enable(cls):
"""
Cancels the effect of disable() (so the simulator continues to
operate normally).
"""
cls._raise_exception = False
def __init__(self, yaml_filename='mi/platform/rsn/simulator/network.yml'):
self._ndef = NetworkUtil.deserialize_network_definition(file(yaml_filename))
self._platform_types = self._ndef.platform_types
self._pnodes = self._ndef.pnodes
# registered event listeners: {url: reg_time, ...},
# where reg_time is the NTP time of (latest) registration.
# NOTE: for simplicity, we don't keep info about unregistered listeners
self._reg_event_listeners = {}
self._event_notifier = EventNotifier()
# EventGenerator only kept while there are listeners registered
self._event_generator = None
def _start_event_generator_if_listeners(self):
if not self._event_generator and len(self._reg_event_listeners):
self._event_generator = EventGenerator(self._event_notifier)
self._event_generator.start()
log.debug("event generator started (%s listeners registered)",
len(self._reg_event_listeners))
def _stop_event_generator_if_no_listeners(self):
if self._event_generator and not len(self._reg_event_listeners):
log.debug("event generator stopping (no listeners registered)")
self._event_generator.stop()
self._event_generator = None
def _deactivate_simulator(self):
"""
Special method only intended to be called for when the simulator is run
in "embedded" form. See test_oms_simulator for the particular case.
"""
log.info("_deactivate_simulator called. event_generator=%s; %s listeners registered",
self._event_generator, len(self._reg_event_listeners))
if self._event_generator:
self._event_generator.stop()
self._event_generator = None
def _enter(self):
"""
Called when entering any of the CI-OMS interface methods.
"""
self._dispatch_synthetic_exception()
def _dispatch_synthetic_exception(self):
"""
Called by all CI_OMS interface methods to dispatch the
simulation of connection lost.
"""
if self._raise_exception:
msg = "(LC) synthetic exception from CIOMSSimulator"
log.debug(msg)
raise Exception(msg)
def ping(self):
self._enter()
return "pong"
def get_platform_map(self):
self._enter()
return self._ndef.get_map()
def get_platform_types(self):
self._enter()
return self._platform_types
def get_platform_metadata(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
pnode = self._pnodes[platform_id]
# TODO capture/include appropriate elements
md = {}
if pnode.name:
md['name'] = pnode.name
if pnode.parent:
md['parent_platform_id'] = pnode.parent.platform_id
md['platform_types'] = pnode.platform_types
return {platform_id: md}
def get_platform_attributes(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
attrs = self._pnodes[platform_id].attrs
ret_infos = {}
for attrName in attrs:
attr = attrs[attrName]
ret_infos[attrName] = attr.defn
return {platform_id: ret_infos}
def get_platform_attribute_values(self, platform_id, req_attrs):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
# complete time window until current time:
to_time = ntplib.system_to_ntp_time(time.time())
attrs = self._pnodes[platform_id].attrs
vals = {}
for attrName, from_time in req_attrs:
if attrName in attrs:
attr = attrs[attrName]
values = generate_values(platform_id, attr.attr_id, from_time, to_time)
vals[attrName] = values
# Note: values == [] if there are no values.
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_ID
return {platform_id: vals}
def set_platform_attribute_values(self, platform_id, input_attrs):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
assert isinstance(input_attrs, list)
timestamp = ntplib.system_to_ntp_time(time.time())
attrs = self._pnodes[platform_id].attrs
vals = {}
for (attrName, attrValue) in input_attrs:
if attrName in attrs:
attr = attrs[attrName]
if attr.writable:
#
# TODO check given attrValue
#
vals[attrName] = (attrValue, timestamp)
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_NOT_WRITABLE
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_ID
retval = {platform_id: vals}
log.debug("set_platform_attribute_values returning: %s", str(retval))
return retval
def get_platform_ports(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
ports = {}
for port_id, port in self._pnodes[platform_id].ports.iteritems():
ports[port_id] = {'state' : port.state}
return {platform_id: ports}
def connect_instrument(self, platform_id, port_id, instrument_id, attributes):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
result = None
if instrument_id in port.instruments:
result = InvalidResponse.INSTRUMENT_ALREADY_CONNECTED
elif port.state == "ON":
# TODO: confirm that port must be OFF so instrument can be connected
result = InvalidResponse.PORT_IS_ON
if result is None:
# verify required attributes are provided:
for key in REQUIRED_INSTRUMENT_ATTRIBUTES:
if not key in attributes:
result = InvalidResponse.MISSING_INSTRUMENT_ATTRIBUTE
log.warn("connect_instrument called with missing attribute: %s"% key)
break
if result is None:
# verify given attributes are recognized:
for key in attributes.iterkeys():
if not key in REQUIRED_INSTRUMENT_ATTRIBUTES:
result = InvalidResponse.INVALID_INSTRUMENT_ATTRIBUTE
log.warn("connect_instrument called with invalid attribute: %s"% key)
break
if result is None:
# NOTE: values simply accepted without any validation
connected_instrument = InstrumentNode(instrument_id)
port.add_instrument(connected_instrument)
attrs = connected_instrument.attrs
result = {}
for key, val in attributes.iteritems():
attrs[key] = val # set the value of the attribute:
result[key] = val # in the result, indicate that the value was set
return {platform_id: {port_id: {instrument_id: result}}}
def disconnect_instrument(self, platform_id, port_id, instrument_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if instrument_id not in port.instruments:
result = InvalidResponse.INSTRUMENT_NOT_CONNECTED
elif port.state == "ON":
# TODO: confirm that port must be OFF so instrument can be disconnected
result = InvalidResponse.PORT_IS_ON
else:
port.remove_instrument(instrument_id)
result = NormalResponse.INSTRUMENT_DISCONNECTED
return {platform_id: {port_id: {instrument_id: result}}}
def get_connected_instruments(self, platform_id, port_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
result = {}
for instrument_id in port.instruments:
result[instrument_id] = port.instruments[instrument_id].attrs
return {platform_id: {port_id: result}}
def turn_on_platform_port(self, platform_id, port_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if port.state == "ON":
result = NormalResponse.PORT_ALREADY_ON
log.warn("port %s in platform %s already turned on." % (port_id, platform_id))
else:
port.set_state("ON")
result = NormalResponse.PORT_TURNED_ON
log.info("port %s in platform %s turned on." % (port_id, platform_id))
return {platform_id: {port_id: result}}
def turn_off_platform_port(self, platform_id, port_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if port.state == "OFF":
result = NormalResponse.PORT_ALREADY_OFF
log.warn("port %s in platform %s already turned off." % (port_id, platform_id))
else:
port.set_state("OFF")
result = NormalResponse.PORT_TURNED_OFF
log.info("port %s in platform %s turned off." % (port_id, platform_id))
return {platform_id: {port_id: result}}
def _validate_event_listener_url(self, url):
"""
Does a basic, static validation of the url.
"""
# TODO implement it; for now always returning True
return True
def register_event_listener(self, url):
self._enter()
# NOTE: event_types was previously a parameter to this operation. To
# minimize changes in the code, I introduced an 'ALL' event type to
# be used here explicitly.
event_type = 'ALL'
log.debug("register_event_listener called: url=%r", url)
if not self._validate_event_listener_url(url):
return {url: InvalidResponse.EVENT_LISTENER_URL}
if not url in self._reg_event_listeners:
# create entry for this new url
reg_time = self._event_notifier.add_listener(url, event_type)
self._reg_event_listeners[url] = reg_time
log.info("registered url=%r", url)
else:
# already registered:
reg_time = self._reg_event_listeners[url]
self._start_event_generator_if_listeners()
return {url: reg_time}
def unregister_event_listener(self, url):
self._enter()
# NOTE: event_types was previously a parameter to this operation. To
# minimize changes in the code, I introduced an 'ALL' event type to
# be used here explicitly.
event_type = 'ALL'
log.debug("unregister_event_listener called: url=%r", url)
if not url in self._reg_event_listeners:
return {url: 0}
#
# registered, so remove it
#
unreg_time = self._event_notifier.remove_listener(url, event_type)
del self._reg_event_listeners[url]
log.info("unregistered url=%r", url)
self._stop_event_generator_if_no_listeners()
return {url: unreg_time}
def get_registered_event_listeners(self):
self._enter()
return self._reg_event_listeners
def generate_test_event(self, event):
self._enter()
if self._event_generator: # there are listeners registered.
# copy event and include the additional fields:
event_instance = event.copy()
event_instance['test_event'] = True
timestamp = ntplib.system_to_ntp_time(time.time())
if 'timestamp' not in event_instance:
event_instance['timestamp'] = timestamp
if 'first_time_timestamp' not in event_instance:
event_instance['first_time_timestamp'] = timestamp
# simply notify listeners right away
self._event_notifier.notify(event_instance)
return True
else: # there are *no* listeners registered.
return False
def get_checksum(self, platform_id):
"""
@note the checksum is always computed, which is fine for the simulator.
A more realistic and presumably more efficient implementation would
exploit some caching mechanism along with appropriate invalidation
upon modifications to the platform information.
"""
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
pnode = self._pnodes[platform_id]
checksum = pnode.compute_checksum()
return {platform_id: checksum}
class CIOMSSimulator(CIOMSClient):
"""
Implementation of CIOMSClient for testing purposes.
It adds some methods intended to be used by tests (they are prefixed with
"x_" and are "public" to make them visible through the xml/rpc mechanism).
"""
# _raise_exception: see disable() and enable()
_raise_exception = False
@classmethod
def x_disable(cls):
"""
Makes any subsequent call to any public API operation to raise an
exception. This allows to test for the "lost connection" case.
"""
cls._raise_exception = True
@classmethod
def x_enable(cls):
"""
Cancels the effect of disable() (so the simulator continues to
operate normally).
"""
cls._raise_exception = False
@classmethod
def x_exit_inactivity(cls, inactivity_period):
"""
will fill out if needed.
"""
pass
def __init__(self, yaml_filename='mi/platform/rsn/simulator/network.yml'):
self._ndef = NetworkUtil.deserialize_network_definition(file(yaml_filename))
self._platform_types = self._ndef.platform_types
self._pnodes = self._ndef.pnodes
self._mission_flags = ['pause', 'returntohome', 'returntodock']
# registered event listeners: {url: reg_time, ...},
# where reg_time is the NTP time of (latest) registration.
# NOTE: for simplicity, we don't keep info about unregistered listeners
self._reg_event_listeners = {}
self._event_notifier = EventNotifier()
# EventGenerator only kept while there are listeners registered
self._event_generator = None
def _start_event_generator_if_listeners(self):
if not self._event_generator and len(self._reg_event_listeners):
self._event_generator = EventGenerator(self._event_notifier)
self._event_generator.start()
log.debug("event generator started (%s listeners registered)",
len(self._reg_event_listeners))
def _stop_event_generator_if_no_listeners(self):
if self._event_generator and not len(self._reg_event_listeners):
log.debug("event generator stopping (no listeners registered)")
self._event_generator.stop()
self._event_generator = None
def _deactivate_simulator(self):
"""
Special method only intended to be called for when the simulator is run
in "embedded" form. See test_oms_simulator for the particular case.
"""
log.info("_deactivate_simulator called. event_generator=%s; %s listeners registered",
self._event_generator, len(self._reg_event_listeners))
if self._event_generator:
self._event_generator.stop()
self._event_generator = None
def _enter(self):
"""
Called when entering any of the CI-OMS interface methods.
"""
self._dispatch_synthetic_exception()
def _dispatch_synthetic_exception(self):
"""
Called by all CI_OMS interface methods to dispatch the
simulation of connection lost.
"""
if self._raise_exception:
msg = "(LC) synthetic exception from CIOMSSimulator"
log.debug(msg)
raise Exception(msg)
def ping(self):
self._enter()
return "pong"
def get_platform_map(self):
self._enter()
return self._ndef.get_map()
def get_platform_types(self):
self._enter()
return self._platform_types
def get_platform_metadata(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
pnode = self._pnodes[platform_id]
# TODO capture/include appropriate elements
md = {}
if pnode.name:
md['name'] = pnode.name
if pnode.parent:
md['parent_platform_id'] = pnode.parent.platform_id
md['platform_types'] = pnode.platform_types
return {platform_id: md}
def get_platform_attributes(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
attrs = self._pnodes[platform_id].attrs
ret_infos = {}
for attrName in attrs:
attr = attrs[attrName]
ret_infos[attrName] = attr.defn
return {platform_id: ret_infos}
def get_platform_attribute_values(self, platform_id, req_attrs):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
# complete time window until current time:
to_time = ntplib.system_to_ntp_time(time.time())
attrs = self._pnodes[platform_id].attrs
vals = {}
for attrName, from_time in req_attrs:
if attrName in attrs:
attr = attrs[attrName]
values = generate_values(platform_id, attr.attr_id, from_time, to_time)
vals[attrName] = values
# Note: values == [] if there are no values.
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_ID
return {platform_id: vals}
def set_over_current(self, platform_id, port_id, milliamps, microseconds, src):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
return {platform_id: {port_id: NormalResponse.OVER_CURRENT_SET}}
def turn_on_platform_port(self, platform_id, port_id, src):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if port.state == "ON":
result = NormalResponse.PORT_ALREADY_ON
log.warn("port %s in platform %s already turned on." % (port_id, platform_id))
else:
port.set_state("ON")
result = NormalResponse.PORT_TURNED_ON
log.info("port %s in platform %s turned on." % (port_id, platform_id))
return {platform_id: {port_id: result}}
def turn_off_platform_port(self, platform_id, port_id, src):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports :
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if port.state == "OFF":
result = NormalResponse.PORT_ALREADY_OFF
log.warn("port %s in platform %s already turned off." % (port_id, platform_id))
else:
port.set_state("OFF")
result = NormalResponse.PORT_TURNED_OFF
log.info("port %s in platform %s turned off." % (port_id, platform_id))
return {platform_id: {port_id: result}}
def get_available_missions(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
return {platform_id: self._pnodes[platform_id].missions.keys()}
def get_mission_status(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
return {platform_id: 'Moving'}
def start_mission(self, platform_id, mission_name, src):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if mission_name not in self._pnodes[platform_id].missions:
return {platform_id: InvalidResponse.MISSION_ID}
return {platform_id: NormalResponse.MISSION_STARTED}
def stop_mission(self, platform_id, flag, src):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if flag not in self._mission_flags:
return {platform_id: InvalidResponse.FLAG}
return {platform_id: NormalResponse.MISSION_STOPPED}
def _validate_event_listener_url(self, url):
"""
Does a basic, static validation of the url.
"""
# TODO implement it; for now always returning True
return True
def register_event_listener(self, url):
self._enter()
# NOTE: event_types was previously a parameter to this operation. To
# minimize changes in the code, I introduced an 'ALL' event type to
# be used here explicitly.
event_type = 'ALL'
log.debug("register_event_listener called: url=%r", url)
if not self._validate_event_listener_url(url):
return {url: InvalidResponse.EVENT_LISTENER_URL}
if not url in self._reg_event_listeners:
# create entry for this new url
reg_time = self._event_notifier.add_listener(url, event_type)
self._reg_event_listeners[url] = reg_time
log.info("registered url=%r", url)
else:
# already registered:
reg_time = self._reg_event_listeners[url]
self._start_event_generator_if_listeners()
return {url: reg_time}
def unregister_event_listener(self, url):
self._enter()
# NOTE: event_types was previously a parameter to this operation. To
# minimize changes in the code, I introduced an 'ALL' event type to
# be used here explicitly.
event_type = 'ALL'
log.debug("unregister_event_listener called: url=%r", url)
if not url in self._reg_event_listeners:
return {url: 0}
#
# registered, so remove it
#
unreg_time = self._event_notifier.remove_listener(url, event_type)
del self._reg_event_listeners[url]
log.info("unregistered url=%r", url)
self._stop_event_generator_if_no_listeners()
return {url: unreg_time}
def get_registered_event_listeners(self):
self._enter()
return self._reg_event_listeners
def generate_test_event(self, event):
self._enter()
if self._event_generator: # there are listeners registered.
# copy event and include the additional fields:
event_instance = event.copy()
event_instance['test_event'] = True
timestamp = ntplib.system_to_ntp_time(time.time())
if 'timestamp' not in event_instance:
event_instance['timestamp'] = timestamp
if 'first_time_timestamp' not in event_instance:
event_instance['first_time_timestamp'] = timestamp
# simply notify listeners right away
self._event_notifier.notify(event_instance)
return True
else: # there are *no* listeners registered.
return False
def get_checksum(self, platform_id):
"""
@note the checksum is always computed, which is fine for the simulator.
A more realistic and presumably more efficient implementation would
exploit some caching mechanism along with appropriate invalidation
upon modifications to the platform information.
"""
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
pnode = self._pnodes[platform_id]
checksum = pnode.compute_checksum()
return {platform_id: checksum}
def _start_event_generator_if_listeners(self):
if not self._event_generator and len(self._reg_event_listeners):
self._event_generator = EventGenerator(self._event_notifier)
self._event_generator.start()
log.debug("event generator started (%s listeners registered)",
len(self._reg_event_listeners))
class CIOMSSimulator(CIOMSClient):
"""
Implementation of CIOMSClient for testing purposes.
It adds some methods intended to be used by tests (they are prefixed with
"x_" and are "public" to make them visible through the xml/rpc mechanism).
"""
# _raise_exception: see disable() and enable()
_raise_exception = False
@classmethod
def x_disable(cls):
"""
Makes any subsequent call to any public API operation to raise an
exception. This allows to test for the "lost connection" case.
"""
cls._raise_exception = True
@classmethod
def x_enable(cls):
"""
Cancels the effect of disable() (so the simulator continues to
operate normally).
"""
cls._raise_exception = False
def __init__(self, yaml_filename='mi/platform/rsn/simulator/network.yml'):
self._ndef = NetworkUtil.deserialize_network_definition(
file(yaml_filename))
self._platform_types = self._ndef.platform_types
self._pnodes = self._ndef.pnodes
# registered event listeners: {url: reg_time, ...},
# where reg_time is the NTP time of (latest) registration.
# NOTE: for simplicity, we don't keep info about unregistered listeners
self._reg_event_listeners = {}
self._event_notifier = EventNotifier()
# EventGenerator only kept while there are listeners registered
self._event_generator = None
def _start_event_generator_if_listeners(self):
if not self._event_generator and len(self._reg_event_listeners):
self._event_generator = EventGenerator(self._event_notifier)
self._event_generator.start()
log.debug("event generator started (%s listeners registered)",
len(self._reg_event_listeners))
def _stop_event_generator_if_no_listeners(self):
if self._event_generator and not len(self._reg_event_listeners):
log.debug("event generator stopping (no listeners registered)")
self._event_generator.stop()
self._event_generator = None
def _deactivate_simulator(self):
"""
Special method only intended to be called for when the simulator is run
in "embedded" form. See test_oms_simulator for the particular case.
"""
log.info(
"_deactivate_simulator called. event_generator=%s; %s listeners registered",
self._event_generator, len(self._reg_event_listeners))
if self._event_generator:
self._event_generator.stop()
self._event_generator = None
def _enter(self):
"""
Called when entering any of the CI-OMS interface methods.
"""
self._dispatch_synthetic_exception()
def _dispatch_synthetic_exception(self):
"""
Called by all CI_OMS interface methods to dispatch the
simulation of connection lost.
"""
if self._raise_exception:
msg = "(LC) synthetic exception from CIOMSSimulator"
log.debug(msg)
raise Exception(msg)
def ping(self):
self._enter()
return "pong"
def get_platform_map(self):
self._enter()
return self._ndef.get_map()
def get_platform_types(self):
self._enter()
return self._platform_types
def get_platform_metadata(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
pnode = self._pnodes[platform_id]
# TODO capture/include appropriate elements
md = {}
if pnode.name:
md['name'] = pnode.name
if pnode.parent:
md['parent_platform_id'] = pnode.parent.platform_id
md['platform_types'] = pnode.platform_types
return {platform_id: md}
def get_platform_attributes(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
attrs = self._pnodes[platform_id].attrs
ret_infos = {}
for attrName in attrs:
attr = attrs[attrName]
ret_infos[attrName] = attr.defn
return {platform_id: ret_infos}
def get_platform_attribute_values(self, platform_id, req_attrs):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
# complete time window until current time:
to_time = ntplib.system_to_ntp_time(time.time())
attrs = self._pnodes[platform_id].attrs
vals = {}
for attrName, from_time in req_attrs:
if attrName in attrs:
attr = attrs[attrName]
values = generate_values(platform_id, attr.attr_id, from_time,
to_time)
vals[attrName] = values
# Note: values == [] if there are no values.
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_ID
return {platform_id: vals}
def set_platform_attribute_values(self, platform_id, input_attrs):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
assert isinstance(input_attrs, list)
timestamp = ntplib.system_to_ntp_time(time.time())
attrs = self._pnodes[platform_id].attrs
vals = {}
for (attrName, attrValue) in input_attrs:
if attrName in attrs:
attr = attrs[attrName]
if attr.writable:
#
# TODO check given attrValue
#
vals[attrName] = (attrValue, timestamp)
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_NOT_WRITABLE
else:
vals[attrName] = InvalidResponse.ATTRIBUTE_ID
retval = {platform_id: vals}
log.debug("set_platform_attribute_values returning: %s", str(retval))
return retval
def get_platform_ports(self, platform_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
ports = {}
for port_id, port in self._pnodes[platform_id].ports.iteritems():
ports[port_id] = {'state': port.state}
return {platform_id: ports}
def connect_instrument(self, platform_id, port_id, instrument_id,
attributes):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports:
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
result = None
if instrument_id in port.instruments:
result = InvalidResponse.INSTRUMENT_ALREADY_CONNECTED
elif port.state == "ON":
# TODO: confirm that port must be OFF so instrument can be connected
result = InvalidResponse.PORT_IS_ON
if result is None:
# verify required attributes are provided:
for key in REQUIRED_INSTRUMENT_ATTRIBUTES:
if not key in attributes:
result = InvalidResponse.MISSING_INSTRUMENT_ATTRIBUTE
log.warn(
"connect_instrument called with missing attribute: %s"
% key)
break
if result is None:
# verify given attributes are recognized:
for key in attributes.iterkeys():
if not key in REQUIRED_INSTRUMENT_ATTRIBUTES:
result = InvalidResponse.INVALID_INSTRUMENT_ATTRIBUTE
log.warn(
"connect_instrument called with invalid attribute: %s"
% key)
break
if result is None:
# NOTE: values simply accepted without any validation
connected_instrument = InstrumentNode(instrument_id)
port.add_instrument(connected_instrument)
attrs = connected_instrument.attrs
result = {}
for key, val in attributes.iteritems():
attrs[key] = val # set the value of the attribute:
result[
key] = val # in the result, indicate that the value was set
return {platform_id: {port_id: {instrument_id: result}}}
def disconnect_instrument(self, platform_id, port_id, instrument_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports:
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if instrument_id not in port.instruments:
result = InvalidResponse.INSTRUMENT_NOT_CONNECTED
elif port.state == "ON":
# TODO: confirm that port must be OFF so instrument can be disconnected
result = InvalidResponse.PORT_IS_ON
else:
port.remove_instrument(instrument_id)
result = NormalResponse.INSTRUMENT_DISCONNECTED
return {platform_id: {port_id: {instrument_id: result}}}
def get_connected_instruments(self, platform_id, port_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports:
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
result = {}
for instrument_id in port.instruments:
result[instrument_id] = port.instruments[instrument_id].attrs
return {platform_id: {port_id: result}}
def turn_on_platform_port(self, platform_id, port_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports:
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if port.state == "ON":
result = NormalResponse.PORT_ALREADY_ON
log.warn("port %s in platform %s already turned on." %
(port_id, platform_id))
else:
port.set_state("ON")
result = NormalResponse.PORT_TURNED_ON
log.info("port %s in platform %s turned on." %
(port_id, platform_id))
return {platform_id: {port_id: result}}
def turn_off_platform_port(self, platform_id, port_id):
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
if port_id not in self._pnodes[platform_id].ports:
return {platform_id: {port_id: InvalidResponse.PORT_ID}}
port = self._pnodes[platform_id].get_port(port_id)
if port.state == "OFF":
result = NormalResponse.PORT_ALREADY_OFF
log.warn("port %s in platform %s already turned off." %
(port_id, platform_id))
else:
port.set_state("OFF")
result = NormalResponse.PORT_TURNED_OFF
log.info("port %s in platform %s turned off." %
(port_id, platform_id))
return {platform_id: {port_id: result}}
def _validate_event_listener_url(self, url):
"""
Does a basic, static validation of the url.
"""
# TODO implement it; for now always returning True
return True
def register_event_listener(self, url):
self._enter()
# NOTE: event_types was previously a parameter to this operation. To
# minimize changes in the code, I introduced an 'ALL' event type to
# be used here explicitly.
event_type = 'ALL'
log.debug("register_event_listener called: url=%r", url)
if not self._validate_event_listener_url(url):
return {url: InvalidResponse.EVENT_LISTENER_URL}
if not url in self._reg_event_listeners:
# create entry for this new url
reg_time = self._event_notifier.add_listener(url, event_type)
self._reg_event_listeners[url] = reg_time
log.info("registered url=%r", url)
else:
# already registered:
reg_time = self._reg_event_listeners[url]
self._start_event_generator_if_listeners()
return {url: reg_time}
def unregister_event_listener(self, url):
self._enter()
# NOTE: event_types was previously a parameter to this operation. To
# minimize changes in the code, I introduced an 'ALL' event type to
# be used here explicitly.
event_type = 'ALL'
log.debug("unregister_event_listener called: url=%r", url)
if not url in self._reg_event_listeners:
return {url: 0}
#
# registered, so remove it
#
unreg_time = self._event_notifier.remove_listener(url, event_type)
del self._reg_event_listeners[url]
log.info("unregistered url=%r", url)
self._stop_event_generator_if_no_listeners()
return {url: unreg_time}
def get_registered_event_listeners(self):
self._enter()
return self._reg_event_listeners
def generate_test_event(self, event):
self._enter()
if self._event_generator: # there are listeners registered.
# copy event and include the additional fields:
event_instance = event.copy()
event_instance['test_event'] = True
timestamp = ntplib.system_to_ntp_time(time.time())
if 'timestamp' not in event_instance:
event_instance['timestamp'] = timestamp
if 'first_time_timestamp' not in event_instance:
event_instance['first_time_timestamp'] = timestamp
# simply notify listeners right away
self._event_notifier.notify(event_instance)
return True
else: # there are *no* listeners registered.
return False
def get_checksum(self, platform_id):
"""
@note the checksum is always computed, which is fine for the simulator.
A more realistic and presumably more efficient implementation would
exploit some caching mechanism along with appropriate invalidation
upon modifications to the platform information.
"""
self._enter()
if platform_id not in self._pnodes:
return {platform_id: InvalidResponse.PLATFORM_ID}
pnode = self._pnodes[platform_id]
checksum = pnode.compute_checksum()
return {platform_id: checksum}
