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network.py 5.78 KiB
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from argparse import ArgumentParser
from collections import defaultdict, OrderedDict
from itertools import combinations
import math
import random
import sys

import simpy
import yaml
import networkx as nx

from .communities import types as communities
from .routers import types as routers
from .traces import types as traces

class Network:
    ''''''
    def __init__(self, env,
                 packets=None,
                 node_factory=None,
                 community=None,
                 trace=None):
        ''''''
        self.env = env

        # contact trace
        if trace is None:
            trace = traces['random']()
        self.trace = trace
        self.trace.start(env, self)

        # community detection
        self.community = community
        if community is not None:
            self.community.start(env, self)

        # packet generation
        '''
        if packets is None:
            packets = packets['uniform']()
        self.packets = packets
        self.packets_proc = self.packets.process(self.env, self)
        '''

        # create node network
        if node_factory is None:
            node_factory = NodeFactory(tick_rate=1, router=routers['direct'])
        self.nodes = [
            node_factory(env, self, nid)
            for nid in range(self.trace.nodes)
        ]
        self.links = [
            (a, b)
            for a, b in combinations(self.nodes, 2)
        ]

        # set up networkx graph
        self.graph = nx.Graph()
        self.graph.add_nodes_from(self.nodes)
        self.graph.add_edges_from([
            (a, b, { 'state': False })
            for a, b in self.links
        ])

        # TODO: better packet generation
        self.packets = []
        for i in range(100):
            source, dest = random.choice(self.links)
            packet = Packet(i, source, dest, trace.duration, None)
            self.packets.append(packet)
            source.recv(packet)

    def set_link(self, a, b, state):
        if isinstance(a, int):
            a = self.nodes[a]

        if isinstance(b, int):
            b = self.nodes[b]

        edge = self[a][b]
        if edge['state'] == state:
            return

        if state is None:
            state = not edge['state']
        edge['state'] = state

        if self.community:
            self.community.set_link(a, b, state, self.env.now)

    def toggle_link(self, a, b):
        self.set_link(a, b, None)

    def send_link(self, a, b, packet):
        ''''''
        if self[a][b]['state']:
            # TODO: transfer delay
            b.recv(packet)
        else:
            raise Exception('Nodes {} and {} not connected'.format(a, b))

    def __getitem__(self, node):
        ''''''
        return self.graph[node]


def NodeFactory(router, **kwargs):
    nid = -1
    def factory(env, network, nid):
        nid += 1
        return Node(env, network, nid, router=router, **kwargs)
    return factory


class Node:
    ''''''
    def __init__(self, env, network, nid,
                 tick_time=1, router=None):
        ''''''
        self.env = env

        self.network = network
        self.id = nid

        self.tick_time = tick_time
        self.ticker = env.process(self.tick())

        self.buffer = Buffer(self.env)

        # bind router as a class method
        if router is None:
            router = routers['direct']
        self.router = router.__get__(self, Node)
        self.router_state = {}

    def tick(self):
        ''''''
        while True:
            packets_to_delete = []

            for packet in self.buffer:
                if packet.ttl < self.env.now:
                    packets_to_delete.append(packet)
                    continue
                if self.router(packet, self.router_state):
                    packets_to_delete.append(packet)

            for packet in packets_to_delete:
                self.buffer.remove(packet)

            yield self.env.timeout(self.tick_time)

    def send(self, to, packet):
        # TODO: transfer delay
        self.network.send_link(self, to, packet)

    def recv(self, packet):
        if packet.destination == self:
            packet.recv()
        else:
            self.buffer.add(packet)

    @property
    def community(self):
        return self.network.community[self]

    @property
    def links(self):
        '''
        Returns a list of connected links.
        '''
        links = {
            met: data
            for met, data in self.network[self].items()
            if data['state']
        }
        return links

    def __repr__(self):
        return 'Node(id={})'.format(self.id)


class Buffer:
    def __init__(self, env, capacity=0):
        self.env = env

        if capacity <= 0:
            self.capacity = float('inf')
        else:
            self.capacity = capacity

        self.buffer = OrderedDict()
        self.used = 0

    def add(self, packet):
        if self.used < self.capacity:
            self.used += 1
            self.buffer[packet] = None
        else:
            raise Exception('buffer full')

    def remove(self, packet):
        self.used -= 1
        del self.buffer[packet]

    def __contains__(self, packet):
        return packet in self.buffer

    def __iter__(self):
        return iter(self.buffer)

    def __len__(self):
        return len(self.buffer)


class Packet:
    def __init__(self, id, source, destination, ttl, payload):
        self.id = id
        self.source = source
        self.destination = destination
        self.ttl = ttl
        self.payload = payload

        self.recieved = False
        self.recieved_count = 0

    def recv(self):
        self.recieved = True
        self.recieved_count += 1

    def __str__(self):
        return "Packet(id={}, source={}, destination={})".format(
            self.id,
            self.source,
            self.destination
        )