def update_progress(): global p r.set_progress(p) p += 5 if p < 100: reactor.call_later(0.01, update_progress) else: reactor.stop()
def _connect_new_peers(self): while self.new_addrs and len(self.processing_addrs) < 500: addr = self.new_addrs.pop() self.processing_addrs.add(addr) self.node.connect_peer(addr) if not self.new_addrs and not self.processing_addrs: print "Completed. Found {count} active peers.".format(count=len(self.success_addrs)) reactor.stop()
def _connect_new_peers(self): while self.new_addrs and len(self.processing_addrs) < 500: addr = self.new_addrs.pop() self.processing_addrs.add(addr) self.node.connect_peer(addr) if not self.new_addrs and not self.processing_addrs: print "Completed. Found {count} active peers.".format( count=len(self.success_addrs)) reactor.stop()
def test_node_connect_accept(self): log = stdout_logger() params1 = NodeParams(runmode=MAIN, port=8333) params2 = NodeParams(runmode=MAIN, port=8334) node1 = Node(params1, log) node2 = Node(params2, log) node1.connect_peer(SockAddr("localhost", 8334)) node2.subscribe(Node.EVT_CONNECTED, lambda event: reactor.stop()) reactor.run()
def request_passphrase(): f = yield EnterPassphraseView(None).get_passphrase() print "OK:", f reactor.stop()
def on_command_close(self, event): reactor.stop(self.on_service_exited)
def on_message(event): assert event.message.type == MSG_VERACK reactor.stop()