Пример #1
0
    def setUp(self):
        self.test_storage_dir = tempfile.mkdtemp()

        # Sample node.
        self.wallet = btctxstore.BtcTxStore(testnet=False, dryrun=True)
        self.wif = self.wallet.get_key(self.wallet.create_wallet())
        self.node_id = address_to_node_id(self.wallet.get_address(self.wif))
        self.store_config = {
            os.path.join(self.test_storage_dir, "storage"): {"limit": 0}
        }

        # dht_node = pyp2p.dht_msg.DHT(node_id=node_id)
        self.dht_node = storjnode.network.Node(
            self.wif, bootstrap_nodes=DEFAULT_BOOTSTRAP_NODES,
            disable_data_transfer=True
        )

        # Transfer client.
        self.client = FileTransfer(
            pyp2p.net.Net(
                node_type="simultaneous",
                nat_type="preserving",
                net_type="direct",
                passive_port=0,
                dht_node=self.dht_node,
                debug=1
            ),
            BandwidthLimit(),
            wif=self.wif,
            store_config=self.store_config
        )

        # Accept all transfers.
        def accept_handler(contract_id, src_unl, data_id, file_size):
            return 1

        # Add accept handler.
        self.client.handlers["accept"].add(accept_handler)

        # Accept UNL requests.
        enable_unl_requests(self.dht_node)
Пример #2
0
    def setUpClass(cls):

        # start profiler
        if PROFILE:
            cls.profile = cProfile.Profile()
            cls.profile.enable()

        # create swarm
        print("TEST: creating swarm")
        cls.btctxstore = btctxstore.BtcTxStore(testnet=False)
        cls.swarm = []
        for i in range(SWARM_SIZE):

            # isolate swarm
            bootstrap_nodes = [(LAN_IP, PORT + x) for x in range(i)][-20:]

            # create node
            node = storjnode.network.Node(
                cls.btctxstore.create_wallet(), port=(PORT + i), ksize=KSIZE,
                bootstrap_nodes=bootstrap_nodes,
                refresh_neighbours_interval=0.0,
                store_config={STORAGE_DIR: None},
                nat_type="preserving",
                node_type="passive",
                disable_data_transfer=False
            )
            storjnode.network.messages.info.enable(node, {})
            storjnode.network.messages.peers.enable(node)
            enable_unl_requests(node)
            node.bandwidth_test.enable()
            cls.swarm.append(node)

            msg = "TEST: created node {0} @ 127.0.0.1:{1}"
            print(msg.format(node.get_address(), node.port))

        # Peer used for get unl requests.
        unl_peer_bootstrap_nodes = [
            (LAN_IP, PORT + x)
            for x in range(SWARM_SIZE)
        ][-20:]
        cls.test_get_unl_peer = storjnode.network.Node(
            cls.btctxstore.create_wallet(),
            bootstrap_nodes=unl_peer_bootstrap_nodes,
            refresh_neighbours_interval=0.0,
            store_config={STORAGE_DIR: None},
            nat_type="preserving",
            node_type="passive",
            disable_data_transfer=False
        )
        enable_unl_requests(cls.test_get_unl_peer)

        # stabalize network overlay
        print("TEST: stabalize network overlay")
        time.sleep(WALK_TIMEOUT)
        for node in cls.swarm:
            node.refresh_neighbours()
        cls.test_get_unl_peer.refresh_neighbours()
        time.sleep(WALK_TIMEOUT)
        for node in cls.swarm:
            node.refresh_neighbours()
        cls.test_get_unl_peer.refresh_neighbours()
        time.sleep(WALK_TIMEOUT)

        print("TEST: created swarm")