Exemple #1
0
    def __init__(self, name):
        self.name_ = name
        self.actuator_list_ = []
        self.proxy_ = None
        self.abnormal_topic_ = None
        self.exception_socket_ = None
        self.exception_send_seq_ = 0
        self.heartbeat_send_seq_ = 0
        self.data_condition_ = threading.Condition()
        self.status_ = ADAPTER_STATUS_UNINIT
        self.cmd_mask_exception_list_ = [
            'getcmdlist', 'getstatus', 'getappinfo', 'setloglevel',
            'getsysteminfo'
        ]
        # create proxy
        unit_dict = JsonUtils.get_config_unit('application', 'proxy', 'proxy')
        if unit_dict is None:
            proxy_ip = None
        else:
            proxy_ip = JsonUtils.get_dict_key_value(unit_dict, 'ip',
                                                    (str, unicode))
        if proxy_ip is None:
            log.error("proxy config error! the program can not run!")
            exit()
        client = ProxyClient(self.name_,
                             self,
                             self.proxy_callback,
                             proxy_addr=proxy_ip)
        client.connect()
        self.proxy_ = client
        log.info("proxy connect to {} succeed!".format(proxy_ip))
        self.abnormal_topic_ = PS_Socket(proxy_ip)
        log.info("socket publish has been connected!")
        self.topic_sub_ = PS_Socket(proxy_ip, self.exception_callback, self)
        topic_list = []
        topic_name = "{}".format(kTopicException)
        topic_name = topic_name.decode('utf-8')
        topic_list.append(topic_name)
        self.topic_sub_.subscribe(topic_list)
        log.info("socket subscribe has been connected!")

        # read log level
        unit_dict = JsonUtils.get_config_unit('application', 'actuator', name)
        if unit_dict is None:
            log_level = None
        else:
            log_level = JsonUtils.get_dict_key_value(unit_dict, 'loglevel',
                                                     (str, unicode))
        if log_level is None:
            log_level = 'info'
        else:
            log_level = log_level.encode('utf-8')
        self.log_level_ = log_level
        log.warn("[adapter]read config log level [{}]".format(log_level))

        self.heartbeatHandle_th_ = threading.Thread(
            target=Adapter.heartbeat_handle_thread, args=(self, ))
        self.heartbeatHandle_th_.setDaemon(True)
        self.heartbeatHandle_th_.start()
def test_get_random_blocks_equal_to_zero(mock_beta_create_proxy_stub):
    """
    Test if GetRandomBlocks method raises an error when given 0 as a blocks argument
    """
    client = ProxyClient()
    with pytest.raises(ValueError) as e:
        client.get_random_blocks(0)
    assert "argument blocks cannot be lower or equal to 0" in e.value
Exemple #3
0
def foo():
    log.info('start')
    client = ProxyClient('http://114.55.31.211:8081')
    start = time.time()
    #r = client.get(url=url, headers={'User-Agent': 'xman', 'timeout': '3'})
    r = client.get(url=url)
    log.info('[{}][{}][{}]'.format(r.status_code, r.reason,
                                   time.time() - start))
    open('content', 'wb').write(r.content)
def test_get_random_blocks_returns_a_list_of_strips(mock_beta_create_proxy_stub):
    """
    Test if the proxy returns the expected number of blocks when receiving a valid reply from the service
    """
    client = ProxyClient()
    result = client.get_random_blocks(1)
    assert isinstance(result, list)
    assert len(result) == 1
    first_element = result[0]
    assert isinstance(first_element, Strip)
 async def send_message(self, loop, future, server_id, message):
   try:
     await loop.create_connection(
       lambda: ProxyClient(message, future),
       host=SERVER_URL,
       port=SERVER_MAPPINGS[server_id]
     )
   except OSError:
     self.log.debug('[CONNECTION REFUSED] Failed to connect to {}'.format(server_id))
    def __init__(self, client_name, proxy_ip=None):
        self.name_ = client_name
        self.actuator_name_ = None
        self.adapter_name_ = None
        self.core_name_ = None
        self.proxy_ip_ = proxy_ip
        self.condition_ = threading.Condition()
        self.msg_cond_list_lock_ = threading.Lock()
        self.msg_cond_list_ = []
        self.send_seq_ = 0
        self.send_seq_lock_ = threading.Lock()
        self.topic_list_ = []

        self.proxy_ = ProxyClient(client_name,
                                  self,
                                  self.proxy_callback,
                                  proxy_addr=proxy_ip)
        self.proxy_.connect()
        self.topic_socket_ = PS_Socket(proxy_ip, self.subscribe_callback)

        log.info("{}:connect to proxy [{}] success!".format(
            self.name_, self.proxy_ip_))
class ActuatorInterface:
    def __init__(self, client_name, proxy_ip=None):
        self.name_ = client_name
        self.actuator_name_ = None
        self.adapter_name_ = None
        self.core_name_ = None
        self.proxy_ip_ = proxy_ip
        self.condition_ = threading.Condition()
        self.msg_cond_list_lock_ = threading.Lock()
        self.msg_cond_list_ = []
        self.send_seq_ = 0
        self.send_seq_lock_ = threading.Lock()
        self.topic_list_ = []

        self.proxy_ = ProxyClient(client_name,
                                  self,
                                  self.proxy_callback,
                                  proxy_addr=proxy_ip)
        self.proxy_.connect()
        self.topic_socket_ = PS_Socket(proxy_ip, self.subscribe_callback)

        log.info("{}:connect to proxy [{}] success!".format(
            self.name_, self.proxy_ip_))

    def set_target(self, actuator_name, core_name=None):
        self.actuator_name_ = actuator_name
        self.core_name_ = core_name

    def set_target_direct(self, actuator_name, adapter_name):
        self.actuator_name_ = actuator_name
        self.adapter_name_ = adapter_name

    def proxy_callback(self, this_ins, msg):
        log.debug("{}:client recv: {}".format(self.name_, msg))
        adapter_name = self.get_dict_key_value(msg, 'cmdsrc', (str, unicode))
        if adapter_name is None:
            log.error("adapter name error!")
            return

        cmd = self.get_dict_key_value(msg, 'cmd', (str, unicode))
        if cmd is None:
            log.error("cmd error")
            return

        params = self.get_params(msg)

        seq = self.get_dict_key_value(params, 'seq', int)

        if seq is None:
            log.error("seq error")
            return

        type = self.get_dict_key_value(params, 'type', (str, unicode))

        if type is None:
            log.error("type error")
            return

        code = self.get_dict_key_value(params, 'code', int)
        if code is None:
            log.error("code error")
            return

        codestring = self.get_dict_key_value(params, 'codestring',
                                             (str, unicode))
        if codestring is None:
            codestring = ''

        data = self.get_dict_key_value(params, 'data')

        self.msg_cond_list_lock_.acquire()
        for msg_cond in self.msg_cond_list_:
            log.debug(
                "cond: seq:{},is_has_handle:{},type:{},adapter_name{},cmd:{}".
                format(msg_cond.seq_, msg_cond.is_has_handle, type,
                       msg_cond.adapter_name_, msg_cond.cmd_))
            log.debug("rev : seq:{},type:{},adapter_name:{},cmd:{}".format(
                seq, type, adapter_name, cmd))
            if msg_cond.seq_ == seq and type == 'ack' \
                    and msg_cond.adapter_name_ == adapter_name\
                    and msg_cond.cmd_ == cmd\
                    and msg_cond.is_has_handle is False:
                msg_cond.status = "ack"
                with msg_cond.condition_:
                    msg_cond.condition_.notify()
            elif msg_cond.seq_ == seq and type == 'res' \
                    and msg_cond.adapter_name_ == adapter_name\
                    and msg_cond.cmd_ == cmd\
                    and msg_cond.is_has_handle is False:
                #print("get cond")
                msg_cond.result_data = data
                msg_cond.is_has_handle = True
                msg_cond.status = "res"
                msg_cond.code = code
                msg_cond.codestring = codestring
                with msg_cond.condition_:
                    msg_cond.condition_.notify()
            else:
                log.error("unknow replay type!")
        self.msg_cond_list_lock_.release()

    def subscribe_callback(self, args, topic, content):
        #print "get topic:", topic
        for topic_tup in self.topic_list_:
            if topic == topic_tup[0]:
                topic_tup[1](content)

    # value_type: int, float, str, bool, list, dict
    def get_dict_key_value(self, dict_ins, key, value_type=None):
        if key in dict_ins:
            value = dict_ins.get(key)
            if value_type is not None:
                if isinstance(value, value_type) is False:
                    value = None
        else:
            value = None
        return value

    def json_loads(self, json_str):
        # print "load json:",json_str
        try:
            strings = json.loads(json_str, encoding='utf-8')
        except:
            print("Parsing json string error! json_str:", json_str)
            return
        else:
            return strings

    def json_dumps(self, dict_str):
        # print "dict:",dict_str
        try:
            # note [ensure_ascii=False] must be set, then utf-8 chinese code can be use
            json_str = json.dumps(dict_str, ensure_ascii=False)
        except:
            log.error("Dict to json error! dict:", dict_str)
            return
        else:
            return json_str

    def get_params(self, cmd):
        try:
            if 'params' in cmd:
                param_json = cmd.get('params')
        except:
            log.error("Cmd params error! cmd:", cmd)
            return
        else:
            param = self.json_loads(param_json)
            return param

    def push_msg_cond(self, msg_cond):
        self.msg_cond_list_lock_.acquire()
        self.msg_cond_list_.append(msg_cond)
        self.msg_cond_list_lock_.release()

    def delete_msg_cond(self, msg_cond):
        self.msg_cond_list_lock_.acquire()
        self.msg_cond_list_.remove(msg_cond)
        self.msg_cond_list_lock_.release()

    def get_seq(self):
        self.send_seq_lock_.acquire()
        seq = self.send_seq_
        self.send_seq_ = self.send_seq_ + 1
        self.send_seq_lock_.release()
        return seq

    def send_msg(self, cmd, params, wait=True):
        ret = 0

        if self.adapter_name_ is None or self.actuator_name_ is None:
            return -1, None

        timestamp_handle_start = int(time.time() * 1000)
        seq = self.get_seq()
        if params is None:
            params = {}
        params['seq'] = seq
        params_json = self.json_dumps(params)

        actuator_cmd = self.actuator_name_ + ':' + cmd
        self.proxy_.send(self.adapter_name_, actuator_cmd, params_json)

        if wait is False:
            return 0, None
        msg_cond = MsgCondition(seq, self.adapter_name_, actuator_cmd)
        self.push_msg_cond(msg_cond)
        retry_cnt = 0
        # print("wait ack...")
        while msg_cond.status == "init" and retry_cnt < 3:
            with msg_cond.condition_:
                #msg_cond.condition_.wait(MSG_ACK_TIMEOUT_MS/1000)
                msg_cond.condition_.wait(MSG_WAIT_INFINITE)
            if msg_cond.status == "init":
                log.error("retry send cmd!")
                self.proxy_.send_cmd(self.adapter_name_, actuator_cmd,
                                     params_json)
                retry_cnt = retry_cnt + 1

        if msg_cond.status == "ack":
            with msg_cond.condition_:
                msg_cond.condition_.wait(MSG_WAIT_INFINITE)
                ret = msg_cond.code

        if msg_cond.status != "res":
            ret = -1

        timestamp_handle_end = int(time.time() * 1000)
        #print("{}:cmd[{}] handle time:{}".format(self.name_, cmd,
        #                                         timestamp_handle_end - timestamp_handle_start))
        if msg_cond.result_data is not None:
            result_data = msg_cond.result_data
        else:
            result_data = None

        self.delete_msg_cond(msg_cond)

        return ret, result_data

    def subscribe(self, topic, callback):
        topic_list = []
        topic_name = "{0}:{1}:{2}".format(self.adapter_name_,
                                          self.actuator_name_, topic)
        topic_list.append(topic_name)
        self.topic_list_.append((topic_name, callback))
        self.topic_socket_.subscribe(topic_list)
        log.info("{}:subscribe topic:{}".format(self.name_, topic_name))
Exemple #8
0
                    help='server to send message to',
                    choices=[*SERVER_MAPPINGS])
parser.add_argument('message', metavar='M', help='a message for the client to send')
args = parser.parse_args()

SERVER_ADDRESS = (SERVER_URL, SERVER_MAPPINGS[args.server])
logging.basicConfig(
    level=logging.DEBUG,
    format='%(name)s: %(message)s',
    stream=sys.stderr,
)
log = logging.getLogger('client.py')

event_loop = asyncio.get_event_loop()
client_completed = asyncio.Future()
message = args.message
factory_coroutine = event_loop.create_connection(
  lambda: ProxyClient(message, client_completed),
  *SERVER_ADDRESS,
)

log.debug('waiting for client to complete')
try:
  event_loop.run_until_complete(factory_coroutine)
  event_loop.run_until_complete(client_completed)
except OSError as error:
  print('Caught failure {}'.format(error))
finally:
  log.debug('closing event loop')
  event_loop.close()