コード例 #1
0
    def echo(self, message):
        servers = get_servers()

        if servers:
            for server in list(servers.keys()):
                conn = Proxy(servers[server])
                conn.echo(message)
        else:
            print('Não há nenhum servidor ativo')
            sys.exit(0)
コード例 #2
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ファイル: maclocontroller.py プロジェクト: ipic/projecao
 def client(self):
     """
     Set up a Pyro4 client so that we can talk to the LibreOfficeServer
     """
     if not self._client:
         self._client = Proxy(
             'PYRO:openlp.libreofficeserver@localhost:4310')
     if not self._client._pyroConnection:
         self._client._pyroReconnect()
     return self._client
コード例 #3
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ファイル: client.py プロジェクト: grimm004/ds-assignment
    def console_interface(just_hungry: Pyro4.Proxy) -> None:
        print("Welcome to Just Hungry!")

        postcode = ""
        while not POSTCODE_REGEX.match(postcode):
            postcode = input("Enter postcode to begin.\n > ")

        while True:
            print("\nCommands:\n" + "\n".join([
                "exit - Exit program", "order - Make order",
                "orders - View orders", "postcode - Change postcode"
            ]))
            command = input("Please enter a command.\n > ").lower()
            if command == "exit":
                break
            elif command == "order":
                while True:
                    item_count_entry = input(
                        "Enter number of items to be ordered.\n > ")
                    if item_count_entry.isdigit():
                        item_count = int(item_count_entry)
                        break

                items: List[str] = []
                for i in range(item_count):
                    while True:
                        item = input("Input item #%s.\n > " % (i + 1))
                        if not item.isspace():
                            items.append(item.strip())
                            break

                outcome, comment = just_hungry.place_order(postcode, items)
                print(("Order %s successfully placed!" %
                       comment) if outcome else ("Could not place order: %s" %
                                                 comment))
            elif command == "orders":
                orders, message = just_hungry.get_orders(postcode)
                if orders:
                    print("Orders:\n" + "\n".join([
                        "#%d: %s" % (i + 1, ", ".join(orders[i]))
                        for i in range(len(orders))
                    ]))
                else:
                    print(message if message else "No orders on record.")
            elif command == "postcode":
                postcode = ""
                while not POSTCODE_REGEX.match(postcode):
                    postcode = input("Enter postcode to begin.\n > ")
            elif command == "":
                pass
            else:
                print("Unrecognised command.")
コード例 #4
0
ファイル: singleton_host.py プロジェクト: LizardM4/ratcam
 def __enter__(self):
     receiver, transmitter = create_sync_pair()
     self._process = Process(target=SingletonHost._SingletonServer.server_main,
                             args=(self._socket, transmitter, self._name + 'Server'),
                             name=self._name)
     self._process.start()
     _log.debug('%s: waiting for server', self._name)
     uri = receiver.receive()
     self._instance = PyroProxy(uri)
     # Default serpent serializer does not trasmit a class
     self._instance._pyroSerializer = 'pickle'
     _log.debug('%s: obtained proxy at %s', self._name, uri)
     return self
コード例 #5
0
ファイル: maclocontroller.py プロジェクト: ipic/projecao
class MacLOController(PresentationController, LogMixin):
    """
    Class to control interactions with MacLO presentations on Mac OS X via Pyro4. It starts the Pyro4 nameserver,
    starts the LibreOfficeServer, and then controls MacLO via Pyro4.
    """
    log.info('MacLOController loaded')

    def __init__(self, plugin):
        """
        Initialise the class
        """
        log.debug('Initialising')
        super(MacLOController, self).__init__(plugin, 'maclo', MacLODocument,
                                              'Impress on macOS')
        self.supports = ['odp']
        self.also_supports = ['ppt', 'pps', 'pptx', 'ppsx', 'pptm']
        self.server_process = None
        self._client = None
        self._start_server()

    def _start_server(self):
        """
        Start a LibreOfficeServer
        """
        libreoffice_python = Path(
            '/Applications/LibreOffice.app/Contents/Resources/python')
        libreoffice_server = AppLocation.get_directory(
            AppLocation.PluginsDir).joinpath('presentations', 'lib',
                                             'libreofficeserver.py')
        if libreoffice_python.exists():
            self.server_process = Popen(
                [str(libreoffice_python),
                 str(libreoffice_server)])

    @property
    def client(self):
        """
        Set up a Pyro4 client so that we can talk to the LibreOfficeServer
        """
        if not self._client:
            self._client = Proxy(
                'PYRO:openlp.libreofficeserver@localhost:4310')
        if not self._client._pyroConnection:
            self._client._pyroReconnect()
        return self._client

    def check_available(self):
        """
        MacLO is able to run on this machine.
        """
        log.debug('check_available')
        return macuno_available

    def start_process(self):
        """
        Loads a running version of LibreOffice in the background. It is not displayed to the user but is available to
        the UNO interface when required.
        """
        log.debug('Started automatically by the Pyro server')
        self.client.start_process()

    def kill(self):
        """
        Called at system exit to clean up any running presentations.
        """
        log.debug('Kill LibreOffice')
        self.client.shutdown()
        self.server_process.kill()
コード例 #6
0
            line = self.sensor_connection.readline()
        except ValueError:
            print("No Connection")

    def read_data(self):
        try:
            line = self.sensor_connection.readline()
            self.read_count += 1
        except ValueError:
            print("No Connection")
        return line

    def read_and_process(self):
        return self.read_data().rstrip("\n\r")


if __name__ == '__main__':

    sc = SensorController("1", "pos_proximity")
    sc.connect_to_sensor()
    sc.next_read()
    cs = Proxy("PYRONAME:CommunicationService")

    while True:
        sensor_input_data = sc.read_and_process()
        print(sensor_input_data)
        cs.set_value_sensor_queue(sensor_input_data)
        sleep(1)


コード例 #7
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from Pyro4 import locateNS, Proxy
fr = Proxy(locateNS().lookup("frontend"))
for _ in range(100):
    while True:
        try:
            fr.add_rating(1, '1', 0)
            break
        except RuntimeError:
            pass
コード例 #8
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def get_replica():
    servers = get_servers()
    if servers:
        server_name = get_first_replica(servers)
        return Proxy(servers[server_name])
コード例 #9
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 def line_task(server_uri, y):
     with Proxy(server_uri) as calcproxy:
         return calcproxy.calc_photoimage_line(y, res_x, res_y)
コード例 #10
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ファイル: plain_client.py プロジェクト: SDRAST/support_pyro
"""
Example of using a server instance to access server methods

The first example ignores the server's Pyro4Server superclass and creates a
local instance.  The result is returned.

The second example assumes that the server is a normal Pyro4 server.  It will
accept a connection and allow a method to be invoked but no result is
returned.
"""
from async_server import BasicServer

srvr = BasicServer()
print "instance returned:", srvr.square(2)

from Pyro4 import Proxy

uri = "PYRO:BasicServer@localhost:9091"
proxy = Proxy(uri)
print "proxy returned:", proxy.square(2)



コード例 #11
0
ファイル: singleton_host.py プロジェクト: LizardM4/ratcam
class SingletonHost:
    _LOCAL_SINGLETONS_BY_NAME = {}
    _LOCAL_SINGLETONS_BY_ID = {}

    class _SingletonServer:
        def _instantiate(self, singleton_cls):
            try:
                instance = singleton_cls()
            except Exception as e:  # pragma: no cover
                # This doesn't need to be covered by testing, we use it for debugging only
                _log.exception('Unable to instantiate %s.', singleton_cls.__name__)
                raise e
            id_name_pair = (id(instance), singleton_cls.__name__)
            self._hosted_singletons.append(id_name_pair)
            SingletonHost._LOCAL_SINGLETONS_BY_ID[id_name_pair[0]] = instance
            SingletonHost._LOCAL_SINGLETONS_BY_NAME[id_name_pair[1]] = instance
            # _log.info('Registered objects on {}: {}'.format(self._name, SingletonHost._LOCAL_SINGLETONS_BY_ID))
            return instance

        def _clear_instantiated_objs(self):
            for instance_id, instance_name in self._hosted_singletons:
                del SingletonHost._LOCAL_SINGLETONS_BY_NAME[instance_name]
                del SingletonHost._LOCAL_SINGLETONS_BY_ID[instance_id]
            del self._hosted_singletons[:]

        @pyro_expose
        def register(self, singleton_cls):
            uri = self._daemon.register(self._instantiate(singleton_cls), singleton_cls.__name__)
            _log.debug('%s: serving at %s', self._name, uri)
            return str(uri)

        @pyro_expose
        @pyro_oneway
        def close(self):
            _log.debug('%s: will stop.', self._name)
            self._clear_instantiated_objs()
            # Need to run on another thread, or it will cause a ConnectionClosedError
            Thread(target=self._daemon.shutdown, name='shutdown_thread').start()

        def __init__(self, daemon, name=None):
            self._daemon = daemon
            self._name = self.__class__.__name__ if name is None else name
            self._hosted_singletons = []

        @staticmethod
        def server_main(socket, transmit_sync, name='SingletonServer'):
            if os.path.exists(socket):  # pragma: no cover
                os.remove(socket)
            daemon = PyroDaemon(unixsocket=socket)
            uri = daemon.register(SingletonHost._SingletonServer(daemon, name=name), name)
            _log.debug('%s: serving at %s', name, uri)
            transmit_sync.transmit(str(uri))
            daemon.requestLoop()
            _log.debug('%s: stopped serving at %s', name, uri)

    @classmethod
    def local_singletons_by_name(cls):
        return cls._LOCAL_SINGLETONS_BY_NAME

    @classmethod
    def local_singletons_by_id(cls):
        return cls._LOCAL_SINGLETONS_BY_ID

    def __enter__(self):
        receiver, transmitter = create_sync_pair()
        self._process = Process(target=SingletonHost._SingletonServer.server_main,
                                args=(self._socket, transmitter, self._name + 'Server'),
                                name=self._name)
        self._process.start()
        _log.debug('%s: waiting for server', self._name)
        uri = receiver.receive()
        self._instance = PyroProxy(uri)
        # Default serpent serializer does not trasmit a class
        self._instance._pyroSerializer = 'pickle'
        _log.debug('%s: obtained proxy at %s', self._name, uri)
        return self

    def initiate_shutdown(self):
        if self._instance is not None:
            self._instance.close()
            _log.debug('%s: signalled exit', self._name)
            # On Linux, Pyro does not query the stopping flag unless we call something.
            self._instance = None

    def __exit__(self, exc_type, exc_val, exc_tb):
        self.initiate_shutdown()
        _log.debug('%s: waiting %0.1f seconds for server to join.', self._name, _SHUTDOWN_TIMEOUT)
        self._process.join(_SHUTDOWN_TIMEOUT)
        if self._process.is_alive():  # pragma: no cover
            _log.warning('%s: server did not join, terminating.', self._name)
            self._process.terminate()
        else:
            _log.debug('%s: server joined', self._name)
        self._process = None
        if os.path.exists(self._socket):
            os.remove(self._socket)

    def __call__(self, singleton_cls):
        if self._instance is None:  # pragma: no cover
            raise RuntimeError('You must __enter__ into a %s.' % self.__class__.__name__)
        # We cannot send a custom class except through Pickle. We can't even pickle it and send the bytes through
        # serpent (at the best we could send them over with marshal). So let's just do pickle. We're trasmitting over
        # a local socket.
        if self._instance._pyroSerializer != 'pickle':  # pragma: no cover
            raise RuntimeError('Cannot transmit classes to create through %s. Please use pickle' %
                               str(self._instance._pyroSerializer))
        return PyroProxy(self._instance.register(singleton_cls))

    def __init__(self, socket, name=None):
        self._socket = socket
        self._process = None
        self._instance = None
        self._name = self.__class__.__name__ if name is None else name
コード例 #12
0
import sys
import random
import time
from Pyro4 import Proxy, locateNS

r = Proxy(locateNS().lookup("replica:%s" % sys.argv[1]))
t = {}
for i in range(100):
    while True:
        try:
            t = r.update(('U', (1, 1, random.choice([0, 1]))), t)
            time.sleep(random.random() / 100)
            break
        except RuntimeError:
            pass
コード例 #13
0
import pprint
import sys
from Pyro4 import Proxy, locateNS

db = Proxy(locateNS().lookup("replica:%s" % sys.argv[1])).get_state()[1]

# convert to JSON friendly output
for movie in db["movies"].values():
    movie["genres"] = list(sorted(movie["genres"]))
for user_tags in db["tags"].values():
    for user_id, tags in user_tags.items():
        user_tags[user_id] = list(sorted(tags))

pprint.pprint(db, width=100)