def __init__(self, logger=None, broker_ip='127.0.0.1', broker_port=1883):
self._loop = pyuv.Loop.default_loop()
""" Important. The base time of event loop is cahced at the earliest running """
self._loop.update_time()
self._broker_ip = broker_ip
self._broker_port = broker_port
self._json_response = None
self._protocol = SbrickProtocol()
self._logger = logger if logger else self._set_logger()
def __init__(self, logger, broker_ip, broker_port, loop):
self._loop = loop
self._logger = logger
self._broker_ip = broker_ip
self._broker_port = broker_port
self._protocol = SbrickProtocol()
# sbrick_id -> sbrick object
self._sbrick_map = {}
class SbrickIpcServer():
def __init__(self,
logger,
broker_ip,
broker_port,
loop,
broker_user=None,
broker_passwd=None):
self._loop = loop
self._logger = logger
self._broker_ip = broker_ip
self._broker_port = broker_port
self._broker_user = broker_user
self._broker_passwd = broker_passwd
self._protocol = SbrickProtocol()
# sbrick_id -> sbrick object
self._sbrick_map = {}
def connect(self, sbrick_list):
# connect to MQTT broker
m2m = M2mipc('sbrick_server', self._loop)
m2m.on_connect = self._on_mqtt_connect
if self._broker_user is not None or self._broker_passwd is not None:
m2m.username_pw_set(self._broker_user,
password=self._broker_passwd)
m2m.connect(self._broker_ip, self._broker_port)
self._m2mipc = m2m
# connect to sbrick
for sbrick_id in sbrick_list:
sbrick = SbrickAPI(logger=self._logger, dev_mac=sbrick_id)
sbrick.disconnect_ex()
sbrick.connect()
self._sbrick_map[sbrick_id] = sbrick
def disconnect(self):
self._logger.info('Disconnect from mosquitto broker {}:{}'.format(
self._broker_ip, self._broker_port))
self._m2mipc.disconnect()
for sbrick_id, sbrick in self._sbrick_map.items():
sbrick.disconnect()
def _get_sbrick(self, sbrick_id):
obj = self._sbrick_map.get(sbrick_id, None)
if None == obj:
self._logger.error('Wrong SBrick MAC ({})'.format(sbrick_id))
return obj
def _on_mqtt_connect(self, client, userdata, flags, rc):
if 0 == rc:
self._logger.info('Connect to mosquitto broker {}:{}'.format(
self._broker_ip, self._broker_port))
self._m2mipc.register_subscribe(
self._protocol.gen_sp_topic('drive'), self,
self._on_subscribe_drive)
self._m2mipc.register_subscribe(
self._protocol.gen_sp_topic('stop'), self,
self._on_subscribe_stop)
self._m2mipc.register_server(
self._protocol.gen_rr_topic('get_service'), self,
self._on_rr_get_service)
self._m2mipc.register_server(
self._protocol.gen_rr_topic('get_adc'), self,
self._on_rr_get_adc)
self._m2mipc.register_server(
self._protocol.gen_rr_topic('get_general'), self,
self._on_rr_get_general)
def _on_rr_get_service(self, request, userdata, json_msg):
message = json.loads(json_msg)
self._logger.debug('Accept get_service() event: {}'.format(message))
sbrick = self._get_sbrick(message['sbrick_id'])
services = sbrick.get_info_service(
) if sbrick else self._protocol.gen_rr_get_service_response(
ret_code=SbrickProtocol.CODE_ERR_PARM, msg={})
rc = request.send_response(services)
return rc
def _on_rr_get_adc(self, request, userdata, json_msg):
message = json.loads(json_msg)
self._logger.debug('Accept get_adc() event: {}'.format(message))
sbrick = self._get_sbrick(message['sbrick_id'])
adc = sbrick.get_info_adc(
) if sbrick else self._protocol.gen_rr_get_adc_response(
ret_code=SbrickProtocol.CODE_ERR_PARM, msg={})
rc = request.send_response(adc)
return rc
def _on_rr_get_general(self, request, userdata, json_msg):
message = json.loads(json_msg)
self._logger.debug('Accept get_general() event: {}'.format(message))
sbrick = self._get_sbrick(message['sbrick_id'])
general = sbrick.get_info_general(
) if sbrick else self._protocol.gen_rr_get_general_response(
ret_code=SbrickProtocol.CODE_ERR_PARM, msg={})
rc = request.send_response(general)
return rc
def _on_subscribe_drive(self, client, userdata, topic, msg):
self._logger.debug('Accept drive() event: {}'.format(msg))
sbrick = self._get_sbrick(msg['sbrick_id'])
if not sbrick:
return
# TODO: validate param
sbrick.drive(channel=msg['channel'],
direction=msg['direction'],
power=msg['power'],
exec_time=msg['exec_time'])
def _on_subscribe_stop(self, client, userdata, topic, msg):
self._logger.debug('Accept sopt() evnet: {}'.format(msg))
# TODO: validate param
sbrick = self._sbrick_map[msg['sbrick_id']]
sbrick.stop(channels=msg['channels'])
class SbrickIpcClient():
def __init__(self, logger=None, broker_ip='127.0.0.1', broker_port=1883):
self._loop = pyuv.Loop.default_loop()
""" Important. The base time of event loop is cahced at the earliest running """
self._loop.update_time()
self._broker_ip = broker_ip
self._broker_port = broker_port
self._json_response = None
self._protocol = SbrickProtocol()
self._logger = logger if logger else self._set_logger()
def _set_logger(self):
logger = logging.getLogger('SBrick_Client')
stream_handler = logging.StreamHandler(sys.stdout)
log_format = "%(asctime)s [%(filename)s:%(lineno)s(%(levelname)s)] - %(message)s"
stream_handler.setFormatter(logging.Formatter(fmt=log_format))
logger.setLevel(logging.INFO)
logger.addHandler(stream_handler)
return logger
def _on_mqtt_connect(self, client, userdata, flags, rc):
if 0 == rc:
self._logger.info('Connect to mosquitto broker {}:{}'.format(
self._broker_ip, self._broker_port))
def connect(self):
m2m = M2mipc('sbrick_client', self._loop)
m2m.on_connect = self._on_mqtt_connect
m2m.connect(self._broker_ip, self._broker_port)
self._m2mipc = m2m
def disconnect(self):
self._logger.info('Disconnect from mosquitto broker {}:{}'.format(
self._broker_ip, self._broker_port))
self._m2mipc.disconnect()
def publish_drive(self, sbrick_id, channel, direction, power, exec_time):
topic = self._protocol.gen_sp_topic('drive')
json_payload = json.dumps(
self._protocol.gen_sp_drive(sbrick_id, channel, direction, power,
exec_time))
self._m2mipc.publish(topic, json_payload)
def publish_stop(self, sbrick_id, channel_list):
topic = self._protocol.gen_sp_topic('stop')
json_payload = json.dumps(
self._protocol.gen_sp_stop(sbrick_id, channel_list))
self._m2mipc.publish(topic, json_payload)
def rr_get_service(self, sbrick_id, timeout):
topic = self._protocol.gen_rr_topic('get_service')
json_payload = json.dumps(self._protocol.gen_rr_request(sbrick_id))
client = self._m2mipc.prepare_request(topic, topic, self._on_rr_resp,
timeout)
client.send(json_payload)
self._loop.run()
return self._json_response
def rr_get_adc(self, sbrick_id, timeout):
topic = self._protocol.gen_rr_topic('get_adc')
json_payload = json.dumps(self._protocol.gen_rr_request(sbrick_id))
client = self._m2mipc.prepare_request(topic, topic, self._on_rr_resp,
timeout)
client.send(json_payload)
self._loop.run()
return self._json_response
def rr_get_general(self, sbrick_id, timeout):
topic = self._protocol.gen_rr_topic('get_general')
json_payload = json.dumps(self._protocol.gen_rr_request(sbrick_id))
client = self._m2mipc.prepare_request(topic, topic, self._on_rr_resp,
timeout)
client.send(json_payload)
self._loop.run()
return self._json_response
def _on_rr_resp(self, status, userdata, msg):
if REQ_RESP_DONE == status:
ret_code = msg[
'ret_code'] if 'ret_code' in msg else SbrickProtocol.CODE_SUCCESS
elif REQ_RESP_TIMEOUT == status:
msg = {}
ret_code = SbrickProtocol.CODE_ERR_TIMEOUT
if userdata == self._protocol.gen_rr_topic('get_adc'):
response = self._protocol.gen_rr_get_adc_response(
ret_code=ret_code, msg=msg)
elif userdata == self._protocol.gen_rr_topic('get_service'):
response = self._protocol.gen_rr_get_service_response(
ret_code=ret_code, msg=msg)
elif userdata == self._protocol.gen_rr_topic('get_general'):
response = self._protocol.gen_rr_get_general_response(
ret_code=ret_code, msg=msg)
self._json_response = json.dumps(response)
self._loop.stop()
@property
def json_response(self):
return self._json_response