from queues import Queue import random from bmconfigparser import BMConfigParser import knownnodes import protocol from queues import portCheckerQueue import state import helper_random def getDiscoveredPeer(): try: peer = helper_random.randomchoice(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 helper_random.randomchoice((False, True)) and not haveOnion: # discovered peers are already filtered by allowed streams return getDiscoveredPeer() for _ in range(50): peer = helper_random.randomchoice(knownnodes.knownNodes[stream].keys()) try: rating = knownnodes.knownNodes[stream][peer]["rating"] except TypeError: print "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 else: 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