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piratesstd.py
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piratesstd.py
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#!/usr/bin/python
# This is a dummy peer that just illustrates the available information your peers
# have available.
# You'll want to copy this file to AgentNameXXX.py for various versions of XXX,
# probably get rid of the silly logging messages, and then add more logic.
import random
import logging
from messages import Upload, Request
from util import even_split
from peer import Peer
class PiratesStd(Peer):
def post_init(self):
print "post_init(): %s here!" % self.id
self.dummy_state = dict()
self.dummy_state["cake"] = "lie"
self.current_opt_unchoke = ""
def requests(self, peers, history):
"""
peers: available info about the peers (who has what pieces)
history: what's happened so far as far as this peer can see
returns: a list of Request() objects
This will be called after update_pieces() with the most recent state.
"""
needed = lambda i: self.pieces[i] < self.conf.blocks_per_piece
needed_pieces = filter(needed, range(len(self.pieces)))
np_set = set(needed_pieces) # sets support fast intersection ops.
#logging.debug(np_set)
#logging.debug("%s here: still need pieces %s" % (
# self.id, needed_pieces))
#logging.debug("%s still here. Here are some peers:" % self.id)
#for p in peers:
# logging.debug("id: %s, available pieces: %s" % (p.id, p.available_pieces))
#logging.debug("And look, I have my entire history available too:")
#logging.debug("look at the AgentHistory class in history.py for details")
#logging.debug(str(history))
requests = [] # We'll put all the things we want here
# Symmetry breaking is good...
# random.shuffle(needed_pieces)
# Sort peers by id. This is probably not a useful sort, but other
# sorts might be useful
# peers.sort(key=lambda p: p.id)
# request all available pieces from all peers!
# (up to self.max_requests from each)
av_dict = {}
for i in np_set:
av_dict[i] = 0
for peer in peers:
if (i in peer.available_pieces):
av_dict[i] += 1
# print "needed pieces with availibility" + str(av_dict)
for peer in peers:
av_dict_tmp = av_dict.copy()
av_set = set(peer.available_pieces)
isect = av_set.intersection(np_set)
n = min(self.max_requests, len(isect))
""" if piece_id in av_set:"""
while n > 0:
piece_id = min(av_dict_tmp, key = av_dict.get)
av_dict_tmp.pop(piece_id)
if piece_id in av_set:
start_block = self.pieces[piece_id]
r = Request(self.id, peer.id, piece_id, start_block)
requests.append(r)
n -= 1
if len(av_set) == 0:
break
return requests
def uploads(self, requests, peers, history):
"""
requests -- a list of the requests for this peer for this round
peers -- available info about all the peers
history -- history for all previous rounds
returns: list of Upload objects.
In each round, this will be called after requests().
"""
round = history.current_round()
#logging.debug("%s again. It's round %d." % (
# self.id, round))
# One could look at other stuff in the history too here.
# For example, history.downloads[round-1] (if round != 0, of course)
# has a list of Download objects for each Download to this peer in
# the previous round.
if len(requests) == 0:
logging.debug("No one wants my pieces!")
chosen = []
bws = []
else:
##################################################################
########## Implementing recipocation #############################
##################################################################
S = 4 # Upload slots
request_bwd_history = {}
chosen = []
logging.debug("Requests, all:")
logging.debug(requests)
for request in requests:
request_bwd_history[request.requester_id] = 0
if round >= 1:
for download in history.downloads[round-1]:
if download.from_id in request_bwd_history:
request_bwd_history[download.from_id] += download.blocks
if round >= 2:
for download in history.downloads[round-2]:
if download.from_id in request_bwd_history:
request_bwd_history[download.from_id] += download.blocks
for i in range(0, S - 1):
if len(request_bwd_history) > 0:
peer_id = max(request_bwd_history, key = request_bwd_history.get)
request_bwd_history.pop(peer_id)
chosen.append(peer_id)
#if len(request_bwd_history) == 0:
# chosen.append(random.choice(request_bwd_history.keys()))
################################################################
################################################################
########## Implementing optimistic unchocking ##################
################################################################
#print peers
if round % 3 == 0
id_list = []
for peer_info in peers:
id_list.append(peer_info.id)
for peer_id in chosen:
id_list.remove(peer_id)
if len(id_list) > 0:
new_opt_unchoke = random.choice(id_list)
chosen.append(new_opt_unchoke)
self.current_opt_unchoke = new_opt_unchoke
#print "New optimistic unchoking" + new_opt_unchoke
else:
chosen.append(self.current_opt_unchoke)
#############################################################
# request = random.choice(requests)
# chosen = [request.requester_id]
# Evenly "split" my upload bandwidth among the one chosen requester
bws = even_split(self.up_bw, len(chosen))
# print bws
# print len(chosen)
# create actual uploads out of the list of peer ids and bandwidths
uploads = [Upload(self.id, peer_id, bw)
for (peer_id, bw) in zip(chosen, bws)]
return uploads