def setUp(self):
print >> sys.stderr, "test: TestOverlayThreadingBridge.setUp()"
secover1 = SecureOverlay.getInstance()
secover1.resetSingleton()
secover2 = SecureOverlay.getInstance()
secover2.resetSingleton()
overbridge1 = OverlayThreadingBridge()
overbridge1.register_bridge(secover1, None)
overbridge2 = OverlayThreadingBridge()
overbridge2.register_bridge(secover2, None)
self.peer1 = Peer(self, 1234, overbridge1)
self.peer2 = Peer(self, 5678, overbridge2)
self.peer1.start()
self.peer2.start()
self.wanted = False
self.wanted2 = False
self.got = False
self.got2 = False
self.first = True
print >> sys.stderr, "test: setUp: peer1 permid is", show_permid_short(
self.peer1.my_permid)
print >> sys.stderr, "test: setUp: peer2 permid is", show_permid_short(
self.peer2.my_permid)
time.sleep(2) # let server threads start
def __init__(self, infohash, num_pieces, btdownloader, proxydownloader, encoder):
# Number of pieces in the torrent
self.num_pieces = num_pieces
# Torrent infohash
self.infohash = infohash # readonly so no locking on this
# List of proxies that have been asked to relay but have not confirmed yet
# deque is thread-safe
self.asked_proxies = deque()
# List of confirmed proxies
# deque is thread-safe
self.confirmed_proxies = deque()
# Dictionary for keeping evidence of proxies and the pieces requested to them
# Key: permid of a proxy
# Value: list of pieces requested to that proxy
self.requested_pieces = {}
# Tribler overlay warm
self.overlay_bridge = OverlayThreadingBridge.getInstance()
# BT1Download object
self.btdownloader = btdownloader
self.proxydownloader = proxydownloader
# Encoder object
self.encoder = encoder
def __init__(self, torrent_hash, num_pieces, coordinator_permid, coordinator = None):
self.overlay_bridge = OverlayThreadingBridge.getInstance()
self.torrent_hash = torrent_hash
if coordinator_permid is not None and coordinator_permid == '':
self.coordinator_permid = None
else:
self.coordinator_permid = coordinator_permid
self.coordinator_ip = None # see is_coordinator()
self.coordinator_port = -1
if self.coordinator_permid is not None:
peerdb = PeerDBHandler.getInstance()
peer = peerdb.getPeer(coordinator_permid)
if peer is not None:
self.coordinator_ip = peer['ip']
self.coordinator_port = peer['port']
self.reserved_pieces = [False] * num_pieces
self.ignored_pieces = [False] * num_pieces
self.coordinator = coordinator
self.counter = 0
self.completed = False
self.distr_reserved_pieces = [False] * num_pieces
self.marker = [True] * num_pieces
self.round = 0
self.encoder = None
self.continuations = []
self.outstanding = None
self.last_req_time = 0
def __init__(self,
torrent_hash,
num_pieces,
coordinator_permid,
coordinator=None):
self.overlay_bridge = OverlayThreadingBridge.getInstance()
self.torrent_hash = torrent_hash
if coordinator_permid is not None and coordinator_permid == '':
self.coordinator_permid = None
else:
self.coordinator_permid = coordinator_permid
self.coordinator_ip = None # see is_coordinator()
self.coordinator_port = -1
if self.coordinator_permid is not None:
peerdb = PeerDBHandler.getInstance()
peer = peerdb.getPeer(coordinator_permid)
if peer is not None:
self.coordinator_ip = peer['ip']
self.coordinator_port = peer['port']
self.reserved_pieces = [False] * num_pieces
self.ignored_pieces = [False] * num_pieces
self.coordinator = coordinator
self.counter = 0
self.completed = False
self.distr_reserved_pieces = [False] * num_pieces
self.marker = [True] * num_pieces
self.round = 0
self.encoder = None
self.continuations = []
self.outstanding = None
self.last_req_time = 0
def __init__(self, infohash, num_pieces, btdownloader, proxydownloader,
encoder):
# Number of pieces in the torrent
self.num_pieces = num_pieces
# Torrent infohash
self.infohash = infohash # readonly so no locking on this
# List of proxies that have been asked to relay but have not confirmed yet
# deque is thread-safe
self.asked_proxies = deque()
# List of confirmed proxies
# deque is thread-safe
self.confirmed_proxies = deque()
# Dictionary for keeping evidence of proxies and the pieces requested to them
# Key: permid of a proxy
# Value: list of pieces requested to that proxy
self.requested_pieces = {}
# Tribler overlay warm
self.overlay_bridge = OverlayThreadingBridge.getInstance()
# BT1Download object
self.btdownloader = btdownloader
self.proxydownloader = proxydownloader
# Encoder object
self.encoder = encoder
def set_stop_collecting_threshold(self, value):
self.sesslock.acquire()
try:
SessionConfigInterface.set_stop_collecting_threshold(self, value)
olbridge = OverlayThreadingBridge.getInstance()
task = lambda: self.olthread_set_stop_collecting_threshold(value)
olbridge.add_task(task, 0)
finally:
self.sesslock.release()
def __init__(self):
self.metadata_queue = {}
self.metadata_queue_lock = Lock()
self.overlay_bridge = OverlayThreadingBridge.getInstance()
# active_reauests is a dictionary storing al permids asking for relay
# until the download object is created. The dictionary keys are infohashes,
# and the values are lists of permids
self.active_requests = {}
self.session = None
def set_stop_collecting_threshold(self,value):
self.sesslock.acquire()
try:
SessionConfigInterface.set_stop_collecting_threshold(self,value)
olbridge = OverlayThreadingBridge.getInstance()
task = lambda:self.olthread_set_stop_collecting_threshold(value)
olbridge.add_task(task,0)
finally:
self.sesslock.release()
def set_start_recommender(self,value):
self.sesslock.acquire()
try:
SessionConfigInterface.set_start_recommender(self,value)
olbridge = OverlayThreadingBridge.getInstance()
task = lambda:self.olthread_set_start_recommender(value)
olbridge.add_task(task,0)
finally:
self.sesslock.release()
def __init__(self, infohash, num_pieces):
self.reserved_pieces = [False] * num_pieces
self.infohash = infohash # readonly so no locking on this
self.lock = Lock()
self.asked_helpers = [] # protected by lock
# optimization
self.reserved = []
self.overlay_bridge = OverlayThreadingBridge.getInstance()
def __init__(self):
self.metadata_queue = {}
self.metadata_queue_lock = Lock()
self.overlay_bridge = OverlayThreadingBridge.getInstance()
# active_reauests is a dictionary storing al permids asking for relay
# until the download object is created. The dictionary keys are infohashes,
# and the values are lists of permids
self.active_requests = {}
self.session = None
def set_start_recommender(self, value):
self.sesslock.acquire()
try:
SessionConfigInterface.set_start_recommender(self, value)
olbridge = OverlayThreadingBridge.getInstance()
task = lambda: self.olthread_set_start_recommender(value)
olbridge.add_task(task, 0)
finally:
self.sesslock.release()
def set_torrent_collecting_rate(self,value):
self.sesslock.acquire()
try:
from Tribler.Core.Overlay.OverlayThreadingBridge import OverlayThreadingBridge
SessionConfigInterface.set_torrent_collecting_rate(self,value)
olbridge = OverlayThreadingBridge.getInstance()
task = lambda:self.olthread_set_torrent_collecting_rate(value)
olbridge.add_task(task,0)
finally:
self.sesslock.release()
def set_torrent_collecting_rate(self, value):
self.sesslock.acquire()
try:
from Tribler.Core.Overlay.OverlayThreadingBridge import OverlayThreadingBridge
SessionConfigInterface.set_torrent_collecting_rate(self, value)
olbridge = OverlayThreadingBridge.getInstance()
task = lambda: self.olthread_set_torrent_collecting_rate(value)
olbridge.add_task(task, 0)
finally:
self.sesslock.release()
def __init__(self, game):
threading.Thread.__init__(self)
self.overlay_bridge = OverlayThreadingBridge.getInstance()
global session
session.add_observer(self.gameCallback, NTFY_GAMECAST, [NTFY_UPDATE], 'Game')
self.mypermid = session.get_permid()
self.colour = game['players'][self.mypermid]
self.chess = ChessBoard()
self.game = game
self.done = False
if DEBUG:
print >> sys.stderr, 'chessbot: chessbot started for game (%d,%d)' % (self.game['owner_id'], self.game['game_id'])
def setUp(self):
print >>sys.stderr,"test: TestOverlayThreadingBridge.setUp()"
secover1 = SecureOverlay.getInstance()
secover1.resetSingleton()
secover2 = SecureOverlay.getInstance()
secover2.resetSingleton()
overbridge1 = OverlayThreadingBridge()
overbridge1.register_bridge(secover1,None)
overbridge2 = OverlayThreadingBridge()
overbridge2.register_bridge(secover2,None)
self.peer1 = Peer(self,1234,overbridge1)
self.peer2 = Peer(self,5678,overbridge2)
self.peer1.start()
self.peer2.start()
self.wanted = False
self.wanted2 = False
self.got = False
self.got2 = False
self.first = True
print >>sys.stderr,"test: setUp: peer1 permid is",show_permid_short(self.peer1.my_permid)
print >>sys.stderr,"test: setUp: peer2 permid is",show_permid_short(self.peer2.my_permid)
time.sleep(2) # let server threads start
def __init__(self, session):
if TaskDispatcher.__single:
raise RuntimeError, "TaskDispatcher is singleton"
TaskDispatcher.__single = self
threading.Thread.__init__(self)
self.setDaemon(True)
self.overlay_bridge = OverlayThreadingBridge.getInstance()
self.thegame = ['e2e4', 'd7d5', 'b1c3', 'Ng8f6', 'g1f3', 'd5xe4', 'c3e4', 'Nf6xe4', 'd2d4', 'Nb8c6', \
'c1f4', 'e7e6', 'f1b5', 'Bf8b4+', 'c2c3', 'Bb4d6', 'e1g1', 'Bd6xf4', 'd1d3', 'f7f5', \
'b5c6', 'b7xc6', 'f3e5', 'Bf4xe5', 'd4e5', 'Qd8xd3', 'c3c4', 'Qd3d4', 'c4c5', 'Bc8a6', \
'g2g4', 'Ba6xf1', 'g1h1', 'Qd4xf2', 'h2h4', 'Qf2g2#']
# Maximum number of games that can be played simultaneously.
self.max_games = 1
# Keep all games that are being played and all received invites in memory.
self.open_games = []
self.open_invites = []
# Keep a number of closed games in the cache. These games will be used when testing the discuss command.
self.closed_games = []
# Register db callbacks
self.session = session
self.session.add_observer(self.gameCallback, NTFY_GAMECAST, [NTFY_INSERT, NTFY_UPDATE, NTFY_DELETE], 'Game')
self.session.add_observer(self.inviteCallback, NTFY_GAMECAST, [NTFY_INSERT, NTFY_UPDATE, NTFY_DELETE], 'GameInvite')
self.done = False
self.mypermid = self.session.get_permid()
self.myip = self.session.get_external_ip()
self.myport = self.session.get_listen_port()
self.gamecast = GameCast.getInstance()
self.gamecast_gossip = GameCastGossip.getInstance()
self.gamecast_database = self.session.open_dbhandler(NTFY_GAMECAST)
self.peers_database = self.session.open_dbhandler(NTFY_PEERS)
# For stats
self.logged_peers = []
self.logged_games = []
self.start_time = time()
self.gc_logger = logging.getLogger('gamecast')
self.gcg_logger = logging.getLogger('gamecastgossip')
self.logging = threading.Thread(target=self.periodicLogging)
self.logging.daemon = True
self.logging_interval = 30
self.logging.start()
def __init__(self, infohash, num_pieces, btdownloader, proxydownloader,
encoder):
self.infohash = infohash
self.num_pieces = num_pieces
# The doe_nodes is a list that stores the permids if the doe nodes
self.doe_nodes = deque()
# Strores the pieces requested by each permid
self.requested_pieces = {}
# Stores the pieces sent to each permid
self.delivered_pieces = {}
# Stores the pieces dropped to each permid
self.dropped_pieces = {}
# list of pieces requested by the doe and not passed to the bittorrent engine yet
# deque is thread-safe
self.current_requests = deque()
# list of pieces passed to the bittorrent engine for retrieving
# deque is thread-safe
self.currently_downloading_pieces = deque()
self.counter = 0
self.completed = False
self.marker = [True] * num_pieces
self.round = 0
self.btdownloader = btdownloader
self.proxydownloader = proxydownloader
self.encoder = encoder
self.overlay_bridge = OverlayThreadingBridge.getInstance()
# self.continuations = []
# self.outstanding = None
self.last_req_time = 0
def __init__(self, infohash, num_pieces, btdownloader, proxydownloader, encoder):
self.infohash = infohash
self.num_pieces = num_pieces
# The doe_nodes is a list that stores the permids if the doe nodes
self.doe_nodes = deque()
# Strores the pieces requested by each permid
self.requested_pieces = {}
# Stores the pieces sent to each permid
self.delivered_pieces = {}
# Stores the pieces dropped to each permid
self.dropped_pieces = {}
# list of pieces requested by the doe and not passed to the bittorrent engine yet
# deque is thread-safe
self.current_requests = deque()
# list of pieces passed to the bittorrent engine for retrieving
# deque is thread-safe
self.currently_downloading_pieces = deque()
self.counter = 0
self.completed = False
self.marker = [True] * num_pieces
self.round = 0
self.btdownloader = btdownloader
self.proxydownloader = proxydownloader
self.encoder = encoder
self.overlay_bridge = OverlayThreadingBridge.getInstance()
# self.continuations = []
# self.outstanding = None
self.last_req_time = 0
def __init__(self, session):
if self.__singleton:
raise RuntimeError, "Crawler is Singleton"
self._overlay_bridge = OverlayThreadingBridge.getInstance()
self._session = session
self._crawler_db = CrawlerDBHandler.getInstance()
# _message_handlers contains message-id:(request-callback, reply-callback, last-request-timestamp)
# the handlers are called when either a CRAWL_REQUEST or CRAWL_REPLY message is received
self._message_handlers = {}
# _crawl_initiators is a list with (initiator-callback,
# frequency, accept_frequency) tuples the initiators are called
# when a new connection is received
self._crawl_initiators = []
# _initiator_dealines contains [deadline, frequency,
# accept_frequency, initiator-callback, permid, selversion,
# failure-counter] deadlines register information on when to
# call the crawl initiators again for a specific permid
self._initiator_deadlines = []
# _dialback_deadlines contains message_id:(deadline, permid) pairs
# client peers should connect back to -a- crawler indicated by
# permid after deadline expired
self._dialback_deadlines = {}
# _channels contains permid:buffer-dict pairs. Where
# buffer_dict contains channel-id:(timestamp, buffer,
# channel_data) pairs. Where buffer is the payload from
# multipart messages that are received so far. Channels are
# used to match outstanding replies to given requests
self._channels = {}
# start checking for expired deadlines
self._check_deadlines(True)
# start checking for ancient channels
self._check_channels()
def __init__(self, session):
if self.__singleton:
raise RuntimeError, "Crawler is Singleton"
self._overlay_bridge = OverlayThreadingBridge.getInstance()
self._session = session
self._crawler_db = CrawlerDBHandler.getInstance()
# _message_handlers contains message-id:(request-callback, reply-callback, last-request-timestamp)
# the handlers are called when either a CRAWL_REQUEST or CRAWL_REPLY message is received
self._message_handlers = {}
# _crawl_initiators is a list with (initiator-callback,
# frequency, accept_frequency) tuples the initiators are called
# when a new connection is received
self._crawl_initiators = []
# _initiator_dealines contains [deadline, frequency,
# accept_frequency, initiator-callback, permid, selversion,
# failure-counter] deadlines register information on when to
# call the crawl initiators again for a specific permid
self._initiator_deadlines = []
# _dialback_deadlines contains message_id:(deadline, permid) pairs
# client peers should connect back to -a- crawler indicated by
# permid after deadline expired
self._dialback_deadlines = {}
# _channels contains permid:buffer-dict pairs. Where
# buffer_dict contains channel-id:(timestamp, buffer,
# channel_data) pairs. Where buffer is the payload from
# multipart messages that are received so far. Channels are
# used to match outstanding replies to given requests
self._channels = {}
# start checking for expired deadlines
self._check_deadlines(True)
# start checking for ancient channels
self._check_channels()
if __name__ == "__main__":
# profile_on()
global orig_stdin, orig_stdout
orig_stdin = sys.stdin#Unbuffered(sys.stdin)
orig_stdout = sys.stdout#Unbuffered(sys.stdout)
sys.stdout = sys.stderr
sys.stdin = None
config, fileargs = parseargs(sys.argv, argsdef, presets = {})
config['statedir'] = os.path.join(os.getcwd(), os.path.pardir, '.'+config['name'])
print >> sys.stderr, "Config is", config
overlay_bridge = OverlayThreadingBridge.getInstance()
overlay_bridge.gcqueue = overlay_bridge.tqueue
overlay_bridge.add_task(startsession, 0)
params = pickle.load(orig_stdin)
print 'TaskDispatcher params', params
global session
td = TaskDispatcher.getInstance(session)
if params:
td.max_games = params[0]
td.start()
print 'TaskDispatcher has started'
while True:
try:
text = orig_stdin.readline()
def __init__(self, make_upload, downloader, choker, numpieces, piece_size,
totalup, config, ratelimiter, merkle_torrent, sched = None,
coordinator = None, helper = None, mylistenport = None, use_g2g = False, infohash=None, tracker=None):
self.downloader = downloader
self.make_upload = make_upload
self.choker = choker
self.numpieces = numpieces
self.piece_size = piece_size
self.config = config
self.ratelimiter = ratelimiter
self.rate_capped = False
self.sched = sched
self.totalup = totalup
self.rate_capped = False
self.connections = {}
self.external_connection_made = 0
self.merkle_torrent = merkle_torrent
self.use_g2g = use_g2g
# 2fastbt_
self.coordinator = coordinator
self.helper = helper
self.round = 0
self.mylistenport = mylistenport
self.infohash = infohash
self.tracker = tracker
try:
(scheme, netloc, path, pars, query, fragment) = urlparse.urlparse(self.tracker)
host = netloc.split(':')[0]
self.tracker_ip = socket.getaddrinfo(host,None)[0][4][0]
except:
print_exc()
self.tracker_ip = None
print >>sys.stderr,"Connecter: live: source/tracker is",self.tracker_ip
self.overlay_enabled = 0
if self.config['overlay']:
self.overlay_enabled = True
if DEBUG:
if self.overlay_enabled:
print >>sys.stderr,"connecter: Enabling overlay"
else:
print >>sys.stderr,"connecter: Disabling overlay"
if DEBUG:
if self.overlay_enabled:
print >>sys.stderr,"connecter: Enabling overlay"
else:
print >>sys.stderr,"connecter: Disabling overlay"
self.ut_pex_enabled = 0
if 'ut_pex_max_addrs_from_peer' in self.config:
self.ut_pex_max_addrs_from_peer = self.config['ut_pex_max_addrs_from_peer']
self.ut_pex_enabled = self.ut_pex_max_addrs_from_peer > 0
self.ut_pex_previous_conns = [] # last value of 'added' field for all peers
if DEBUG_UT_PEX:
if self.ut_pex_enabled:
print >>sys.stderr,"connecter: Enabling uTorrent PEX",self.ut_pex_max_addrs_from_peer
else:
print >>sys.stderr,"connecter: Disabling uTorrent PEX"
# The set of messages we support. Note that the msg ID is an int not a byte in
# this dict.
self.EXTEND_HANDSHAKE_M_DICT = {}
if self.overlay_enabled:
# Say in the EXTEND handshake we support the overlay-swarm ext.
d = {EXTEND_MSG_OVERLAYSWARM:ord(CHALLENGE)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
if self.ut_pex_enabled:
# Say in the EXTEND handshake we support uTorrent's peer exchange ext.
d = {EXTEND_MSG_UTORRENT_PEX:ord(EXTEND_MSG_UTORRENT_PEX_ID)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
self.sched(self.ut_pex_callback,6)
if self.use_g2g:
# Say in the EXTEND handshake we want to do G2G.
d = {EXTEND_MSG_G2G_V2:ord(G2G_PIECE_XFER)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
self.sched(self.g2g_callback,G2G_CALLBACK_INTERVAL)
# LIVEHACK
livekey = EXTEND_MSG_LIVE_PREFIX+str(CURRENT_LIVE_VERSION)
d = {livekey:ord(LIVE_FAKE_MESSAGE_ID)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
print >>sys.stderr,"Connecter: EXTEND: my dict",self.EXTEND_HANDSHAKE_M_DICT
# BarterCast
if config['overlay']:
self.overlay_bridge = OverlayThreadingBridge.getInstance()
else:
self.overlay_bridge = None
def __init__(self,
make_upload,
downloader,
choker,
numpieces,
piece_size,
totalup,
config,
ratelimiter,
merkle_torrent,
sched=None,
coordinator=None,
helper=None,
mylistenport=None,
use_g2g=False,
infohash=None,
tracker=None):
self.downloader = downloader
self.make_upload = make_upload
self.choker = choker
self.numpieces = numpieces
self.piece_size = piece_size
self.config = config
self.ratelimiter = ratelimiter
self.rate_capped = False
self.sched = sched
self.totalup = totalup
self.rate_capped = False
self.connections = {}
self.external_connection_made = 0
self.merkle_torrent = merkle_torrent
self.use_g2g = use_g2g
# 2fastbt_
self.coordinator = coordinator
self.helper = helper
self.round = 0
self.mylistenport = mylistenport
self.infohash = infohash
self.tracker = tracker
try:
(scheme, netloc, path, pars, query,
fragment) = urlparse.urlparse(self.tracker)
host = netloc.split(':')[0]
self.tracker_ip = socket.getaddrinfo(host, None)[0][4][0]
except:
print_exc()
self.tracker_ip = None
print >> sys.stderr, "Connecter: live: source/tracker is", self.tracker_ip
self.overlay_enabled = 0
if self.config['overlay']:
self.overlay_enabled = True
if DEBUG:
if self.overlay_enabled:
print >> sys.stderr, "connecter: Enabling overlay"
else:
print >> sys.stderr, "connecter: Disabling overlay"
if DEBUG:
if self.overlay_enabled:
print >> sys.stderr, "connecter: Enabling overlay"
else:
print >> sys.stderr, "connecter: Disabling overlay"
self.ut_pex_enabled = 0
if 'ut_pex_max_addrs_from_peer' in self.config:
self.ut_pex_max_addrs_from_peer = self.config[
'ut_pex_max_addrs_from_peer']
self.ut_pex_enabled = self.ut_pex_max_addrs_from_peer > 0
self.ut_pex_previous_conns = [
] # last value of 'added' field for all peers
if DEBUG_UT_PEX:
if self.ut_pex_enabled:
print >> sys.stderr, "connecter: Enabling uTorrent PEX", self.ut_pex_max_addrs_from_peer
else:
print >> sys.stderr, "connecter: Disabling uTorrent PEX"
# The set of messages we support. Note that the msg ID is an int not a byte in
# this dict.
self.EXTEND_HANDSHAKE_M_DICT = {}
if self.overlay_enabled:
# Say in the EXTEND handshake we support the overlay-swarm ext.
d = {EXTEND_MSG_OVERLAYSWARM: ord(CHALLENGE)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
if self.ut_pex_enabled:
# Say in the EXTEND handshake we support uTorrent's peer exchange ext.
d = {EXTEND_MSG_UTORRENT_PEX: ord(EXTEND_MSG_UTORRENT_PEX_ID)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
self.sched(self.ut_pex_callback, 6)
if self.use_g2g:
# Say in the EXTEND handshake we want to do G2G.
d = {EXTEND_MSG_G2G_V2: ord(G2G_PIECE_XFER)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
self.sched(self.g2g_callback, G2G_CALLBACK_INTERVAL)
# LIVEHACK
livekey = EXTEND_MSG_LIVE_PREFIX + str(CURRENT_LIVE_VERSION)
d = {livekey: ord(LIVE_FAKE_MESSAGE_ID)}
self.EXTEND_HANDSHAKE_M_DICT.update(d)
print >> sys.stderr, "Connecter: EXTEND: my dict", self.EXTEND_HANDSHAKE_M_DICT
# BarterCast
if config['overlay']:
self.overlay_bridge = OverlayThreadingBridge.getInstance()
else:
self.overlay_bridge = None
print >> sys.stderr, "superpeer: config is", config
if config['overlaylogpostfix'] == '':
config['overlaylogpostfix'] = 'sp' + str(config['port']) + '.log'
#
# Currently we use an in-memory database for superpeers.
# SQLite supports only per-thread in memory databases.
# As our Session initialization is currently setup, the MainThread
# creates the DB and adds the superpeer entries, and the OverlayThread
# does most DB operations. So two threads accessing the DB.
#
# To work around this I start the Session using the OverlayThread.
# Dirty, but a simple solution.
#
overlay_bridge = OverlayThreadingBridge.getInstance()
overlay_bridge.add_task(olthread_start_session, 0)
#
# NetworkThread and OverlayThread will now do their work. The MainThread
# running this here code should wait indefinitely to avoid exiting the
# process.
#
try:
while True:
# time.sleep(sys.maxint) has "issues" on 64bit architectures; divide it
# by some value (2048) to solve problem
time.sleep(sys.maxint / 2048)
except:
print_exc()
def setUp(self):
print >>sys.stderr,"test: TestOverlayThreadingBridge.setUp()"
self.config_path = tempfile.mkdtemp()
config = {}
config['state_dir'] = self.config_path
config['torrent_collecting_dir'] = self.config_path
config['install_dir'] = os.path.join('..','..')
config['peer_icon_path'] = os.path.join(self.config_path,'peer_icons')
config['superpeer'] = False
sqlitecachedb.init(config, self.rawserver_fatalerrorfunc)
secover1 = SecureOverlay.getInstance()
secover1.resetSingleton()
secover2 = SecureOverlay.getInstance()
secover2.resetSingleton()
overbridge1 = OverlayThreadingBridge()
overbridge1.register_bridge(secover1,None)
overbridge1.resetSingleton()
overbridge2 = OverlayThreadingBridge()
overbridge2.register_bridge(secover2,None)
overbridge2.resetSingleton()
self.peer1 = Peer(self,1234,overbridge1)
self.peer2 = Peer(self,5678,overbridge2)
self.peer1.start()
self.peer2.start()
self.wanted = False
self.wanted2 = False
self.got = False
self.got2 = False
self.first = True
print >>sys.stderr,"test: setUp: peer1 permid is",show_permid_short(self.peer1.my_permid)
print >>sys.stderr,"test: setUp: peer2 permid is",show_permid_short(self.peer2.my_permid)
time.sleep(2) # let server threads start