示例#1
0
def tcp_client():
    client = rpc.TCPClient(ip_to_str(N.net[0].ip),
                           port=PORT,
                           net=N,
                           me=N.net[1],
                           sockmodgen=Sock)

    x = 5
    xsquare = client.square(x)
    print xtime.time(), 'assert xsquare == 25'
    assert xsquare == 25
    xmul7 = client.mul(x, 7)
    print xtime.time(), 'assert xmul7 == 35'
    assert xmul7 == 35
    xadd9 = client.nestmod.add(x, 9)
    print xtime.time(), 'assert xadd9 == 14'
    assert xadd9 == 14

    # something trickier
    n, nn = client, client.nestmod
    result = n.square(n.mul(x, nn.add(x, 10)))

    assert (1, 2) == client.caller_test(1, 2)

    try:
        # should crash now
        client.private_func()
    except Exception, e:
        logging.debug(str(e))
示例#2
0
    def store(self, ip_table):
        """Substitute the old ip_table with the new and notify about the
        changes

        ip_table: the new ip_table;
        """

        # the rows deleted during truncation
        died_ip_list = []

        ip_table, died_ip_list = self._truncate(ip_table)

        # first of all we cycle through the old ip_table
        # looking for nodes that aren't in the new one
        for key in self.ip_table:
            # if we find a row that isn't in the new ip_table and whose
            # deletion hasn't already been notified (raising an event)
            # during truncation
            if not key in ip_table and not key in died_ip_list:
                self.delete(key, remove_from_iptable=False)

        # now we cycle through the new ip_table
        # looking for nodes who weren't in the old one
        # or whose rtt has sensibly changed
        for key in ip_table:
            # if a node has been added
            if not key in self.ip_table:
                # generate an id and add the entry in translation_table
                self.ip_to_id(key)
                # create a TCP connection to the neighbour
                self.ntk_client[key] = rpc.TCPClient(ip_to_str(key))
                # send a message notifying we added a node
                self.events.send('NEIGH_NEW',
                                 (Neigh(bestdev=ip_table[key].bestdev,
                                        devs=ip_table[key].devs,
                                        idn=self.translation_table[key],
                                        ip=key,
                                        netid=self.netid_table[key],
                                        ntkd=self.ntk_client[key]), ))
            else:
                # otherwise (if the node already was in old ip_table) check if
                # its rtt has changed more than rtt_variation
                new_rtt = ip_table[key].bestdev[1]
                old_rtt = self.ip_table[key].bestdev[1]
                rtt_variation = abs(new_rtt - old_rtt) / float(old_rtt)
                if rtt_variation > self.rtt_variation_threshold:
                    # send a message notifying the node's rtt changed
                    self.events.send(
                        'NEIGH_REM_CHGED',
                        (Neigh(bestdev=self.ip_table[key].bestdev,
                               devs=self.ip_table[key].devs,
                               idn=self.translation_table[key],
                               ip=key,
                               netid=self.netid_table[key],
                               ntkd=self.ntk_client[key]), Rtt(new_rtt)))

        # finally, update the ip_table
        self.ip_table = ip_table
示例#3
0
def tcp_client():
    client = rpc.TCPClient(port=PORT)

    x = 5
    xsquare = client.square(x)
    assert xsquare == 25
    xmul7 = client.mul(x, 7)
    assert xmul7 == 35
    xadd9 = client.nestmod.add(x, 9)
    assert xadd9 == 14

    # something trickier
    n, nn = client, client.nestmod
    result = n.square(n.mul(x, nn.add(x, 10)))

    assert (1, 2) == client.caller_test(1, 2)

    try:
        # should crash now
        client.private_func()
    except Exception, e:
        logging.debug(str(e))
示例#4
0
    def ip_change(self, oldip, newip):
        """Adds `newip' in the Neighbours as a copy of `oldip', then it removes
        `oldip'. The relative events are raised."""

        logging.info("New IP of neighbour %s is now %s " %
                     (ip_to_str(oldip), ip_to_str(newip)))
        self.ip_table[newip] = self.ip_table[oldip]
        self.translation_table[newip] = self.translation_table[oldip]
        self.netid_table[newip] = self.netid_table[oldip]

        # we have to create a new TCP connection
        self.ntk_client[newip] = rpc.TCPClient(ip_to_str(newip))

        self.events.send('NEIGH_NEW',
                         (Neigh(bestdev=self.ip_table[newip].bestdev,
                                devs=self.ip_table[newip].devs,
                                idn=self.translation_table[newip],
                                ip=newip,
                                netid=self.netid_table[newip],
                                ntkd=self.ntk_client[newip]), ))

        self.delete(oldip)