Exemplo n.º 1
0
    def __init__(self, session):
        RESTEndpoint.__init__(self, session)
        TaskManager.__init__(self)
        self.events_responses = []
        self.app.on_shutdown.append(self.on_shutdown)

        # We need to know that Tribler completed its startup sequence
        self.tribler_started = False
        self.session.notifier.add_observer(NTFY.TRIBLER_STARTED, self._tribler_started)

        for event_type, event_lambda in reactions_dict.items():
            self.session.notifier.add_observer(event_type,
                                               lambda *args, el=event_lambda, et=event_type:
                                               self.write_data({"type": et.value, "event": el(*args)}))

        def on_circuit_removed(circuit, *args):
            if isinstance(circuit, Circuit):
                event = {
                    "circuit_id": circuit.circuit_id,
                    "bytes_up": circuit.bytes_up,
                    "bytes_down": circuit.bytes_down,
                    "uptime": time.time() - circuit.creation_time
                }
                self.write_data({"type": NTFY.TUNNEL_REMOVE.value, "event": event})

        # Tribler tunnel circuit has been removed
        self.session.notifier.add_observer(NTFY.TUNNEL_REMOVE, on_circuit_removed)
Exemplo n.º 2
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    def setUp(self):
        super(TestTaskManager, self).setUp()

        self.dispersy_objects = []
        self.tm = TaskManager()
        self.tm._reactor = Clock()

        self.counter = 0
Exemplo n.º 3
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 def __init__(self, notifier: Notifier, public_key: str = None):
     RESTEndpoint.__init__(self)
     TaskManager.__init__(self)
     self.events_responses: List[RESTStreamResponse] = []
     self.app.on_shutdown.append(self.on_shutdown)
     self.notifier = None
     self.undelivered_error: Optional[dict] = None
     self.connect_notifier(notifier)
     self.public_key = public_key
Exemplo n.º 4
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 def __init__(self, working_dir, config_path):
     super().__init__(Service.create_config(working_dir, config_path), None,
                      working_dir, config_path)
     TaskManager.__init__(self)
     self.swarm = None
     self.start = time.time()
     self.results = []
     self.register_task('monitor_swarm', self.monitor_swarm, interval=5)
     self.register_task('_graceful_shutdown',
                        self._graceful_shutdown,
                        delay=EXPERIMENT_RUN_TIME)
Exemplo n.º 5
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 def __init__(self, lt_session):
     """
     Initialize the DHT health manager.
     :param lt_session: The session used to perform health lookups.
     """
     TaskManager.__init__(self)
     self.lookup_futures = {}  # Map from binary infohash to future
     self.bf_seeders = {
     }  # Map from infohash to (final) seeders bloomfilter
     self.bf_peers = {}  # Map from infohash to (final) peers bloomfilter
     self.lt_session = lt_session
Exemplo n.º 6
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 def __init__(self, working_dir, config_path):
     super().__init__(Service.create_config(working_dir, config_path),
                      working_dir=working_dir,
                      components=[
                          Ipv8Component(),
                          KeyComponent(),
                          RESTComponent(),
                          TunnelsComponent()
                      ])
     TaskManager.__init__(self)
     self.results = []
     self.output_file = 'speed_test_exit.txt'
Exemplo n.º 7
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    def __init__(self, session, history_size=CORE_RESOURCE_HISTORY_SIZE):
        TaskManager.__init__(self)
        ResourceMonitor.__init__(self, history_size=history_size)

        self.session = session
        self.disk_usage_data = deque(maxlen=history_size)

        self.state_dir = session.config.get_state_dir()
        self.resource_log_file = session.config.get_log_dir(
        ) / DEFAULT_RESOURCE_FILENAME
        self.resource_log_enabled = session.config.get_resource_monitor_enabled(
        )

        # Setup yappi profiler
        self.profiler = YappiProfiler(self.session)
Exemplo n.º 8
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    async def run(self):
        await super().run()

        config = self.session.config

        self._task_manager = TaskManager()

        port = config.ipv8.port
        address = config.ipv8.address
        self.logger.info('Starting ipv8')
        self.logger.info(f'Port: {port}. Address: {address}')
        ipv8_config_builder = (
            ConfigBuilder().set_port(port).set_address(address).clear_overlays(
            ).clear_keys()  # We load the keys ourselves
            .set_working_directory(str(config.state_dir)).set_walker_interval(
                config.ipv8.walk_interval))

        if config.gui_test_mode:
            endpoint = DispatcherEndpoint([])
        else:
            # IPv8 includes IPv6 support by default.
            # We only load IPv4 to not kill all Tribler overlays (currently, it would instantly crash all users).
            # If you want to test IPv6 in Tribler you can set ``endpoint = None`` here.
            endpoint = DispatcherEndpoint(["UDPIPv4"],
                                          UDPIPv4={
                                              'port': port,
                                              'ip': address
                                          })
        ipv8 = IPv8(ipv8_config_builder.finalize(),
                    enable_statistics=config.ipv8.statistics
                    and not config.gui_test_mode,
                    endpoint_override=endpoint)
        await ipv8.start()
        self.ipv8 = ipv8

        key_component = await self.require_component(KeyComponent)
        self.peer = Peer(key_component.primary_key)

        if config.ipv8.statistics and not config.gui_test_mode:
            # Enable gathering IPv8 statistics
            for overlay in ipv8.overlays:
                ipv8.endpoint.enable_community_statistics(
                    overlay.get_prefix(), True)

        if config.ipv8.walk_scaling_enabled and not config.gui_test_mode:
            from tribler_core.components.ipv8.ipv8_health_monitor import IPv8Monitor
            IPv8Monitor(ipv8, config.ipv8.walk_interval,
                        config.ipv8.walk_scaling_upper_limit).start(
                            self._task_manager)

        if config.dht.enabled:
            self._init_dht_discovery_community()

        if not config.gui_test_mode:
            if config.discovery_community.enabled:
                self._init_peer_discovery_community()
        else:
            if config.dht.enabled:
                self.dht_discovery_community.routing_tables[
                    UDPv4Address] = RoutingTable('\x00' * 20)
Exemplo n.º 9
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    def __init__(self,
                 state_dir,
                 log_dir,
                 config: ResourceMonitorSettings,
                 notifier: Notifier,
                 history_size=CORE_RESOURCE_HISTORY_SIZE):
        TaskManager.__init__(self)
        ResourceMonitor.__init__(self, history_size=history_size)

        self.config = config
        self.notifier = notifier
        self.disk_usage_data = deque(maxlen=history_size)

        self.state_dir = state_dir
        self.resource_log_file = log_dir / DEFAULT_RESOURCE_FILENAME
        self.resource_log_enabled = config.enabled

        # Setup yappi profiler
        self.profiler = YappiProfiler(log_dir)
Exemplo n.º 10
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async def fixture_task_manager():
    task_manager = TaskManager()
    yield task_manager
    await task_manager.shutdown_task_manager()
Exemplo n.º 11
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 def __init__(self, working_dir, config_path):
     super().__init__(Service.create_config(working_dir, config_path), None,
                      working_dir, config_path)
     TaskManager.__init__(self)
     self.results = []
     self.output_file = 'speed_test_exit.txt'
Exemplo n.º 12
0
class TestTaskManager(TestBase):
    def setUp(self):
        super(TestTaskManager, self).setUp()

        self.dispersy_objects = []
        self.tm = TaskManager()
        self.tm._reactor = Clock()

        self.counter = 0

    def tearDown(self):
        self.tm.cancel_all_pending_tasks()

    @twisted_test
    @untwisted_test
    def test_call_later(self):
        self.tm.register_task("test", reactor.callLater(10, lambda: None))

        self.assertTrue(self.tm.is_pending_task_active("test"))

    @twisted_test
    @untwisted_test
    def test_call_later_and_cancel(self):
        self.tm.register_task("test", reactor.callLater(10, lambda: None))
        self.tm.cancel_pending_task("test")

        self.assertFalse(self.tm.is_pending_task_active("test"))

    @twisted_test
    @untwisted_test
    def test_call_later_and_replace(self):
        task1 = self.tm.register_task("test",
                                      reactor.callLater(10, lambda: None))
        self.tm.replace_task("test", reactor.callLater(10, lambda: None))

        self.assertTrue(self.tm.is_pending_task_active("test"))
        self.assertFalse(task1.active())

    @twisted_test
    @untwisted_test
    def test_looping_call(self):
        self.tm.register_task("test",
                              LoopingCall(lambda: None)).start(10, now=True)

        self.assertTrue(self.tm.is_pending_task_active("test"))

    @twisted_test
    @untwisted_test
    def test_looping_call_and_cancel(self):
        self.tm.register_task("test",
                              LoopingCall(lambda: None)).start(10, now=True)
        self.tm.cancel_pending_task("test")

        self.assertFalse(self.tm.is_pending_task_active("test"))

    @twisted_test
    @untwisted_test
    def test_delayed_looping_call_requires_interval(self):
        self.assertRaises(ValueError,
                          self.tm.register_task,
                          "test",
                          LoopingCall(lambda: None),
                          delay=1)

    @twisted_test
    @untwisted_test
    def test_delayed_deferred_requires_value(self):
        self.assertRaises(ValueError,
                          self.tm.register_task,
                          "test",
                          deferLater(reactor, 0.0, lambda: None),
                          delay=1)

    @twisted_test
    @untwisted_test
    def test_delayed_looping_call_requires_LoopingCall_or_Deferred(self):
        self.assertRaises(ValueError,
                          self.tm.register_task,
                          "test not Deferred nor LoopingCall",
                          self.tm._reactor.callLater(0, lambda: None),
                          delay=1)

    @twisted_test
    @untwisted_test
    def test_delayed_looping_call_register_and_cancel_pre_delay(self):
        self.assertFalse(self.tm.is_pending_task_active("test"))
        self.tm.register_task("test",
                              LoopingCall(lambda: None),
                              delay=1,
                              interval=1)
        self.assertTrue(self.tm.is_pending_task_active("test"))
        self.tm.cancel_pending_task("test")
        self.assertFalse(self.tm.is_pending_task_active("test"))

    @twisted_test
    @untwisted_test
    def test_delayed_looping_call_register_wait_and_cancel(self):
        self.assertFalse(self.tm.is_pending_task_active("test"))
        lc = LoopingCall(self.count)
        lc.clock = self.tm._reactor
        self.tm.register_task("test", lc, delay=1, interval=1)
        self.assertTrue(self.tm.is_pending_task_active("test"))
        # After one second, the counter has increased by one and the task is still active.
        self.tm._reactor.advance(1)
        self.assertEquals(1, self.counter)
        self.assertTrue(self.tm.is_pending_task_active("test"))
        # After one more second, the counter should be 2
        self.tm._reactor.advance(1)
        self.assertEquals(2, self.counter)
        # After canceling the task the counter should stop increasing
        self.tm.cancel_pending_task("test")
        self.assertFalse(self.tm.is_pending_task_active("test"))
        self.tm._reactor.advance(10)
        self.assertEquals(2, self.counter)

    @twisted_test
    @untwisted_test
    def test_delayed_deferred(self):
        self.assertFalse(self.tm.is_pending_task_active("test"))
        d = Deferred()
        d.addCallback(self.set_counter)
        self.tm.register_task("test", d, delay=1, value=42)
        self.assertTrue(self.tm.is_pending_task_active("test"))
        # After one second, the deferred has fired
        self.tm._reactor.advance(1)
        self.assertEquals(42, self.counter)
        self.assertFalse(self.tm.is_pending_task_active("test"))

    def count(self):
        self.counter += 1

    def set_counter(self, value):
        self.counter = value