import random  # nosec

import knownnodes
import protocol
import state
from bmconfigparser import BMConfigParser
from debug import logger
from queues import Queue, portCheckerQueue


def getDiscoveredPeer():
    try:
        peer = random.choice(state.discoveredPeers.keys())
    except (IndexError, KeyError):
        raise ValueError
    try:
        del state.discoveredPeers[peer]
    except KeyError:
        pass
    return peer


def chooseConnection(stream):
    haveOnion = BMConfigParser().safeGet(
        "bitmessagesettings", "socksproxytype")[0:5] == 'SOCKS'
    if state.trustedPeer:
        return state.trustedPeer
    try:
        retval = portCheckerQueue.get(False)
        portCheckerQueue.task_done()
        return retval
    except Queue.Empty:
        pass
    # with a probability of 0.5, connect to a discovered peer
    if random.choice((False, True)) and not haveOnion:
        # discovered peers are already filtered by allowed streams
        return getDiscoveredPeer()
    for _ in range(50):
        peer = random.choice(knownnodes.knownNodes[stream].keys())
        try:
            rating = knownnodes.knownNodes[stream][peer]['rating']
        except TypeError:
            logger.warning('Error in %s', peer)
            rating = 0
        if haveOnion:
            # onion addresses have a higher priority when SOCKS
            if peer.host.endswith('.onion') and rating > 0:
                rating = 1
            # TODO: need better check
            elif not peer.host.startswith('bootstrap'):
                encodedAddr = protocol.encodeHost(peer.host)
                # don't connect to local IPs when using SOCKS
                if not protocol.checkIPAddress(encodedAddr, False):
                    continue
        if rating > 1:
            rating = 1
        try:
            if 0.05 / (1.0 - rating) > random.random():
                return peer
        except ZeroDivisionError:
            return peer
    raise ValueError