def __init__(self, make_upload, downloader, choker, numpieces, ratelimiter,
rawserver, config, private, my_id, add_task, infohash,
context, addcontactfunc, reported_port, tracker_ips,
log_prefix):
"""
@param downloader: MultiDownload for this torrent.
@param my_id: my peer id.
@param tracker_ips: list of tracker ip addresses.
ConnectionManager does not drop connections from the tracker.
This allows trackers to perform NAT checks even when there
are max_allow_in connections.
@param log_prefix: string used as the prefix for all
log entries generated by the ConnectionManager and its
created Connectors.
"""
self.make_upload = make_upload
self.downloader = downloader
self.choker = choker
# aaargh
self.piece_size = downloader.storage.piece_size
self.numpieces = numpieces
self.ratelimiter = ratelimiter
self.rawserver = rawserver
self.my_id = my_id
self.private = private
self.config = config
self.add_task = add_task
self.infohash = infohash
self.context = context
self.addcontact = addcontactfunc
self.reported_port = reported_port
self.everinc = False
self.tracker_ips = tracker_ips
self.log_prefix = log_prefix
self.logger = logging.getLogger(self.log_prefix)
self.closed = False
# submitted
self.pending_connections = {}
# transport connected
self.connectors = set()
# protocol active
# we do a lot of itterating and few mutations, so use a list
self.complete_connectors = [] # set()
# use a dict for a little semi-randomness
self.spares = {} # OrderedDict()
self.cached_peers = OrderedDict()
self.cache_limit = 300
self.connector_ips = DictWithInts()
self.connector_ids = DictWithInts()
self.banned = set()
self._ka_task = self.add_task(config['keepalive_interval'],
self.send_keepalives)
self._pex_task = None
if not self.private:
self._pex_task = self.add_task(config['pex_interval'],
self.send_pex)
self.reopen(reported_port)
def __init__(self, make_upload, downloader, choker,
numpieces, ratelimiter,
rawserver, config, private, my_id, add_task, infohash, context,
addcontactfunc, reported_port, tracker_ips, log_prefix ):
"""
@param downloader: MultiDownload for this torrent.
@param my_id: my peer id.
@param tracker_ips: list of tracker ip addresses.
ConnectionManager does not drop connections from the tracker.
This allows trackers to perform NAT checks even when there
are max_allow_in connections.
@param log_prefix: string used as the prefix for all
log entries generated by the ConnectionManager and its
created Connectors.
"""
self.make_upload = make_upload
self.downloader = downloader
self.choker = choker
# aaargh
self.piece_size = downloader.storage.piece_size
self.numpieces = numpieces
self.ratelimiter = ratelimiter
self.rawserver = rawserver
self.my_id = my_id
self.private = private
self.config = config
self.add_task = add_task
self.infohash = infohash
self.context = context
self.addcontact = addcontactfunc
self.reported_port = reported_port
self.everinc = False
self.tracker_ips = tracker_ips
self.log_prefix = log_prefix
self.logger = logging.getLogger(self.log_prefix)
self.closed = False
# submitted
self.pending_connections = {}
# transport connected
self.connectors = set()
# protocol active
# we do a lot of itterating and few mutations, so use a list
self.complete_connectors = [] # set()
# use a dict for a little semi-randomness
self.spares = {} # OrderedDict()
self.cached_peers = OrderedDict()
self.cache_limit = 300
self.connector_ips = DictWithInts()
self.connector_ids = DictWithInts()
self.banned = set()
self._ka_task = self.add_task(config['keepalive_interval'],
self.send_keepalives)
self._pex_task = None
if not self.private:
self._pex_task = self.add_task(config['pex_interval'],
self.send_pex)
self.reopen(reported_port)
class ConnectionManager(InternetSubscriber):
def __init__(self, make_upload, downloader, choker, numpieces, ratelimiter,
rawserver, config, private, my_id, add_task, infohash,
context, addcontactfunc, reported_port, tracker_ips,
log_prefix):
"""
@param downloader: MultiDownload for this torrent.
@param my_id: my peer id.
@param tracker_ips: list of tracker ip addresses.
ConnectionManager does not drop connections from the tracker.
This allows trackers to perform NAT checks even when there
are max_allow_in connections.
@param log_prefix: string used as the prefix for all
log entries generated by the ConnectionManager and its
created Connectors.
"""
self.make_upload = make_upload
self.downloader = downloader
self.choker = choker
# aaargh
self.piece_size = downloader.storage.piece_size
self.numpieces = numpieces
self.ratelimiter = ratelimiter
self.rawserver = rawserver
self.my_id = my_id
self.private = private
self.config = config
self.add_task = add_task
self.infohash = infohash
self.context = context
self.addcontact = addcontactfunc
self.reported_port = reported_port
self.everinc = False
self.tracker_ips = tracker_ips
self.log_prefix = log_prefix
self.logger = logging.getLogger(self.log_prefix)
self.closed = False
# submitted
self.pending_connections = {}
# transport connected
self.connectors = set()
# protocol active
# we do a lot of itterating and few mutations, so use a list
self.complete_connectors = [] # set()
# use a dict for a little semi-randomness
self.spares = {} # OrderedDict()
self.cached_peers = OrderedDict()
self.cache_limit = 300
self.connector_ips = DictWithInts()
self.connector_ids = DictWithInts()
self.banned = set()
self._ka_task = self.add_task(config['keepalive_interval'],
self.send_keepalives)
self._pex_task = None
if not self.private:
self._pex_task = self.add_task(config['pex_interval'],
self.send_pex)
self.reopen(reported_port)
def cleanup(self):
if not self.closed:
self.close_connections()
del self.context
self.cached_peers.clear()
if self._ka_task.active():
self._ka_task.cancel()
if self._pex_task and self._pex_task.active():
self._pex_task.cancel()
def reopen(self, port):
self.closed = False
self.reported_port = port
self.unthrottle_connections()
for addr in self.cached_peers:
self._fire_cached_connection(addr)
self.rawserver.internet_watcher.add_subscriber(self)
def internet_active(self):
for addr in self.cached_peers.iterkeys():
self._fire_cached_connection(addr)
def remove_addr_from_cache(self, addr):
# could have been an incoming connection
# or could have been dropped by the cache limit
if addr in self.cached_peers:
del self.cached_peers[addr]
def try_one_connection(self):
keys = self.cached_peers.keys()
if not keys:
return False
addr = random.choice(keys)
self._fire_cached_connection(addr)
return True
def _fire_cached_connection(self, addr):
v = self.cached_peers[addr]
complete, (id, handler, a, kw) = v
return self._start_connection(addr, id, handler, *a, **kw)
def cache_complete_peer(self, addr, pid, handler, *a, **kw):
self.cache_peer(addr, pid, handler, 1, *a, **kw)
def cache_incomplete_peer(self, addr, pid, handler, *a, **kw):
self.cache_peer(addr, pid, handler, 0, *a, **kw)
def cache_peer(self, addr, pid, handler, complete, *a, **kw):
# obey the cache size limit
if (addr not in self.cached_peers
and len(self.cached_peers) >= self.cache_limit):
for k, v in self.cached_peers.iteritems():
if not v[0]:
del self.cached_peers[k]
break
else:
# cache full of completes, delete a random peer.
# yes, this can cache an incomplete when the cache is full of
# completes, but only 1 because of the filter above.
oldaddr = self.cached_peers.keys()[0]
del self.cached_peers[oldaddr]
elif not complete:
if addr in self.cached_peers and self.cached_peers[addr][0]:
# don't overwrite a complete with an incomplete.
return
self.cached_peers[addr] = (complete, (pid, handler, a, kw))
def send_keepalives(self):
self._ka_task = self.add_task(self.config['keepalive_interval'],
self.send_keepalives)
for c in self.complete_connectors:
c.send_keepalive()
def send_pex(self):
self._pex_task = self.add_task(self.config['pex_interval'],
self.send_pex)
pex_set = set()
for c in self.complete_connectors:
if c.listening_port:
pex_set.add((c.ip, c.listening_port))
for c in self.complete_connectors:
c.send_pex(pex_set)
def hashcheck_succeeded(self, i):
for c in self.complete_connectors:
# should we send a have message if peer already has the piece?
# yes! it is low bandwidth and useful for that peer.
c.send_have(i)
def find_connection_in_common(self, addr):
for c in self.complete_connectors:
if addr in c.remote_pex_set:
return c
# returns False if the connection info has been pushed on to self.spares
# other filters and a successful connection return True
def start_connection(self, addr, id=None, encrypt=False, lan=False):
"""@param addr: domain name/ip address and port pair.
@param id: peer id.
"""
return self._start_connection(addr,
id,
GaurdedInitialConnection,
encrypt=encrypt,
lan=lan)
def start_http_connection(self, url):
r = urlparse.urlparse(url)
host = r[1]
if ':' in host:
host, port = host.split(':')
port = int(port)
else:
port = 80
df = self.rawserver.gethostbyname(host)
df.addCallback(self._connect_http, port, url)
df.addLogback(self.logger.warning, "Resolve failed")
def _connect_http(self, ip, port, url):
self._start_connection((ip, port),
url,
HTTPInitialConnection,
urgent=True)
def _start_connection(self, addr, pid, handler, *a, **kw):
"""@param addr: domain name/ip address and port pair.
@param pid: peer id.
"""
if self.closed:
return True
if addr[0] in self.banned:
return True
if pid == self.my_id:
return True
for v in self.connectors:
if pid and v.id == pid:
return True
if self.config['one_connection_per_ip'] and v.ip == addr[0]:
return True
total_outstanding = len(self.connectors)
# it's possible the pending connections could eventually complete,
# so we have to account for those when enforcing max_initiate
total_outstanding += len(self.pending_connections)
if total_outstanding >= self.config['max_initiate']:
self.spares[(addr, pid)] = (handler, a, kw)
return False
# if these fail, I'm getting a very weird addr object
assert isinstance(addr, tuple)
assert isinstance(addr[0], str)
assert isinstance(addr[1], int)
if ONLY_LOCAL and addr[0] != "127.0.0.1" and not addr[0].startswith(
"192.168") and addr[1] != 80:
return True
if GLOBAL_FILTER and not GLOBAL_FILTER(addr[0], addr[1], "out"):
return True
if addr not in self.cached_peers:
self.cache_incomplete_peer(addr, pid, handler, *a, **kw)
# sometimes we try to connect to a peer we're already trying to
# connect to
#assert addr not in self.pending_connections
if addr in self.pending_connections:
return True
kw['log_prefix'] = self.log_prefix
timeout = 30
if use_timeout_order:
timeout = timeout_order[0]
kw.setdefault('timeout', timeout)
h = handler(self, pid, *a, **kw)
self.pending_connections[addr] = (h, (addr, pid, handler, a, kw))
urgent = kw.pop('urgent', False)
connector = self.rawserver.start_connection(
addr,
h,
self.context,
# we'll handle timeouts.
# not so fond of this.
timeout=None,
urgent=urgent)
h.connector = connector
return True
def _resubmit_connection(self, addr):
# we leave it on pending_connections.
# so the standard connection_failed handling occurs.
h, info = self.pending_connections[addr]
addr, pid, handler, a, kw = info
self.spares[(addr, pid)] = (handler, a, kw)
def _cancel_connection(self, addr):
if addr not in self.pending_connections:
# already made
return
# we leave it on pending_connections.
# so the standard connection_failed handling occurs.
h, info = self.pending_connections[addr]
addr, pid, handler, a, kw = info
if use_timeout_order and h.timeout < timeout_order[-1]:
for t in timeout_order:
if t > h.timeout:
h.timeout = t
break
else:
h.timeout = timeout_order[-1]
# this feels odd
kw['timeout'] = h.timeout
self.spares[(addr, pid)] = (handler, a, kw)
# do this last, since twisted might fire the event handler from inside
# the function
# HMM:
# should be stopConnecting, but I've seen this fail.
# close does the same thing, but disconnects in the case where the
# connection was made. Not sure how that occurs without add being in
# self.pending_connections
# Maybe this was fixed recently in CRLR.
#h.connector.stopConnecting()
h.connector.close()
def connection_handshake_completed(self, connector):
self.connector_ips.add(connector.ip)
self.connector_ids.add(connector.id)
self.complete_connectors.append(connector)
connector.upload = self.make_upload(connector)
connector.download = self.downloader.make_download(connector)
self.choker.connection_made(connector)
if connector.uses_dht:
connector.send_port(self.reported_port)
if self.config['resolve_hostnames']:
df = self.rawserver.gethostbyaddr(connector.ip)
def save_hostname(hostname_tuple):
hostname, aliases, ips = hostname_tuple
connector.hostname = hostname
df.addCallback(save_hostname)
df.addErrback(lambda fuckoff: None)
def got_port(self, connector):
if self.addcontact and connector.uses_dht and \
connector.dht_port != None:
self.addcontact(connector.connection.ip, connector.dht_port)
def ever_got_incoming(self):
return self.everinc
def how_many_connections(self):
return len(self.complete_connectors)
def replace_connection(self):
if self.closed:
return
while self.spares:
k, v = self.spares.popitem()
addr, id = k
handler, a, kw = v
started = self._start_connection(addr, id, handler, *a, **kw)
if not started:
# start_connection decided to push this connection back on to
# self.spares because a limit was hit. break now or loop
# forever
break
def throttle_connections(self):
self.throttled = True
for c in iter_rand_pos(self.connectors):
c.connection.pause_reading()
def unthrottle_connections(self):
self.throttled = False
for c in iter_rand_pos(self.connectors):
c.connection.resume_reading()
# arg. resume actually flushes the buffers in iocpreactor, so
# we have to check the state constantly
if self.throttled:
break
def close_connection(self, id):
for c in self.connectors:
if c.id == id and not c.closed:
c.connection.close()
c.closed = True
def close_connections(self):
self.rawserver.internet_watcher.remove_subscriber(self)
self.closed = True
pending = self.pending_connections.values()
# drop connections which could be made after we're not interested
for h, info in pending:
h.connector.close()
for c in self.connectors:
if not c.closed:
c.connection.close()
c.closed = True
def singleport_connection(self, connector):
"""hand-off from SingleportListener once the infohash is known and
thus we can map a connection on to a particular Torrent."""
if connector.ip in self.banned:
return False
m = self.config['max_allow_in']
if (m and len(self.connectors) >= m
and connector.ip not in self.tracker_ips):
return False
self._add_connection(connector)
if self.closed:
return False
connector.set_parent(self)
connector.connection.context = self.context
return True
def _add_connection(self, connector):
self.connectors.add(connector)
if self.closed:
connector.connection.close()
elif self.throttled:
connector.connection.pause_reading()
def ban(self, ip):
self.banned.add(ip)
def connection_lost(self, connector):
assert isinstance(connector, Connector)
self.connectors.remove(connector)
if self.ratelimiter:
self.ratelimiter.dequeue(connector)
if connector.complete:
self.connector_ips.remove(connector.ip)
self.connector_ids.remove(connector.id)
self.complete_connectors.remove(connector)
self.choker.connection_lost(connector)
class ConnectionManager(InternetSubscriber):
def __init__(self, make_upload, downloader, choker,
numpieces, ratelimiter,
rawserver, config, private, my_id, add_task, infohash, context,
addcontactfunc, reported_port, tracker_ips, log_prefix ):
"""
@param downloader: MultiDownload for this torrent.
@param my_id: my peer id.
@param tracker_ips: list of tracker ip addresses.
ConnectionManager does not drop connections from the tracker.
This allows trackers to perform NAT checks even when there
are max_allow_in connections.
@param log_prefix: string used as the prefix for all
log entries generated by the ConnectionManager and its
created Connectors.
"""
self.make_upload = make_upload
self.downloader = downloader
self.choker = choker
# aaargh
self.piece_size = downloader.storage.piece_size
self.numpieces = numpieces
self.ratelimiter = ratelimiter
self.rawserver = rawserver
self.my_id = my_id
self.private = private
self.config = config
self.add_task = add_task
self.infohash = infohash
self.context = context
self.addcontact = addcontactfunc
self.reported_port = reported_port
self.everinc = False
self.tracker_ips = tracker_ips
self.log_prefix = log_prefix
self.logger = logging.getLogger(self.log_prefix)
self.closed = False
# submitted
self.pending_connections = {}
# transport connected
self.connectors = set()
# protocol active
# we do a lot of itterating and few mutations, so use a list
self.complete_connectors = [] # set()
# use a dict for a little semi-randomness
self.spares = {} # OrderedDict()
self.cached_peers = OrderedDict()
self.cache_limit = 300
self.connector_ips = DictWithInts()
self.connector_ids = DictWithInts()
self.banned = set()
self._ka_task = self.add_task(config['keepalive_interval'],
self.send_keepalives)
self._pex_task = None
if not self.private:
self._pex_task = self.add_task(config['pex_interval'],
self.send_pex)
self.reopen(reported_port)
def cleanup(self):
if not self.closed:
self.close_connections()
del self.context
self.cached_peers.clear()
if self._ka_task.active():
self._ka_task.cancel()
if self._pex_task and self._pex_task.active():
self._pex_task.cancel()
def reopen(self, port):
self.closed = False
self.reported_port = port
self.unthrottle_connections()
for addr in self.cached_peers:
self._fire_cached_connection(addr)
self.rawserver.internet_watcher.add_subscriber(self)
def internet_active(self):
for addr in self.cached_peers.iterkeys():
self._fire_cached_connection(addr)
def remove_addr_from_cache(self, addr):
# could have been an incoming connection
# or could have been dropped by the cache limit
if addr in self.cached_peers:
del self.cached_peers[addr]
def try_one_connection(self):
keys = self.cached_peers.keys()
if not keys:
return False
addr = random.choice(keys)
self._fire_cached_connection(addr)
return True
def _fire_cached_connection(self, addr):
v = self.cached_peers[addr]
complete, (id, handler, a, kw) = v
return self._start_connection(addr, id, handler, *a, **kw)
def cache_complete_peer(self, addr, pid, handler, *a, **kw):
self.cache_peer(addr, pid, handler, 1, *a, **kw)
def cache_incomplete_peer(self, addr, pid, handler, *a, **kw):
self.cache_peer(addr, pid, handler, 0, *a, **kw)
def cache_peer(self, addr, pid, handler, complete, *a, **kw):
# obey the cache size limit
if (addr not in self.cached_peers and
len(self.cached_peers) >= self.cache_limit):
for k, v in self.cached_peers.iteritems():
if not v[0]:
del self.cached_peers[k]
break
else:
# cache full of completes, delete a random peer.
# yes, this can cache an incomplete when the cache is full of
# completes, but only 1 because of the filter above.
oldaddr = self.cached_peers.keys()[0]
del self.cached_peers[oldaddr]
elif not complete:
if addr in self.cached_peers and self.cached_peers[addr][0]:
# don't overwrite a complete with an incomplete.
return
self.cached_peers[addr] = (complete, (pid, handler, a, kw))
def send_keepalives(self):
self._ka_task = self.add_task(self.config['keepalive_interval'],
self.send_keepalives)
for c in self.complete_connectors:
c.send_keepalive()
def send_pex(self):
self._pex_task = self.add_task(self.config['pex_interval'],
self.send_pex)
pex_set = set()
for c in self.complete_connectors:
if c.listening_port:
pex_set.add((c.ip, c.listening_port))
for c in self.complete_connectors:
c.send_pex(pex_set)
def hashcheck_succeeded(self, i):
for c in self.complete_connectors:
# should we send a have message if peer already has the piece?
# yes! it is low bandwidth and useful for that peer.
c.send_have(i)
def find_connection_in_common(self, addr):
for c in self.complete_connectors:
if addr in c.remote_pex_set:
return c
# returns False if the connection info has been pushed on to self.spares
# other filters and a successful connection return True
def start_connection(self, addr, id=None, encrypt=False, lan=False):
"""@param addr: domain name/ip address and port pair.
@param id: peer id.
"""
return self._start_connection(addr, id, GaurdedInitialConnection,
encrypt=encrypt,
lan=lan)
def start_http_connection(self, url):
r = urlparse.urlparse(url)
host = r[1]
if ':' in host:
host, port = host.split(':')
port = int(port)
else:
port = 80
df = self.rawserver.gethostbyname(host)
df.addCallback(self._connect_http, port, url)
df.addLogback(self.logger.warning, "Resolve failed")
def _connect_http(self, ip, port, url):
self._start_connection((ip, port), url,
HTTPInitialConnection, urgent=True)
def _start_connection(self, addr, pid, handler, *a, **kw):
"""@param addr: domain name/ip address and port pair.
@param pid: peer id.
"""
if self.closed:
return True
if addr[0] in self.banned:
return True
if pid == self.my_id:
return True
for v in self.connectors:
if pid and v.id == pid:
return True
if self.config['one_connection_per_ip'] and v.ip == addr[0]:
return True
total_outstanding = len(self.connectors)
# it's possible the pending connections could eventually complete,
# so we have to account for those when enforcing max_initiate
total_outstanding += len(self.pending_connections)
if total_outstanding >= self.config['max_initiate']:
self.spares[(addr, pid)] = (handler, a, kw)
return False
# if these fail, I'm getting a very weird addr object
assert isinstance(addr, tuple)
assert isinstance(addr[0], str)
assert isinstance(addr[1], int)
if ONLY_LOCAL and addr[0] != "127.0.0.1" and not addr[0].startswith("192.168") and addr[1] != 80:
return True
if GLOBAL_FILTER and not GLOBAL_FILTER(addr[0], addr[1], "out"):
return True
if addr not in self.cached_peers:
self.cache_incomplete_peer(addr, pid, handler, *a, **kw)
# sometimes we try to connect to a peer we're already trying to
# connect to
#assert addr not in self.pending_connections
if addr in self.pending_connections:
return True
kw['log_prefix'] = self.log_prefix
timeout = 30
if use_timeout_order:
timeout = timeout_order[0]
kw.setdefault('timeout', timeout)
h = handler(self, pid, *a, **kw)
self.pending_connections[addr] = (h, (addr, pid, handler, a, kw))
urgent = kw.pop('urgent', False)
connector = self.rawserver.start_connection(addr, h, self.context,
# we'll handle timeouts.
# not so fond of this.
timeout=None,
urgent=urgent)
h.connector = connector
return True
def _resubmit_connection(self, addr):
# we leave it on pending_connections.
# so the standard connection_failed handling occurs.
h, info = self.pending_connections[addr]
addr, pid, handler, a, kw = info
self.spares[(addr, pid)] = (handler, a, kw)
def _cancel_connection(self, addr):
if addr not in self.pending_connections:
# already made
return
# we leave it on pending_connections.
# so the standard connection_failed handling occurs.
h, info = self.pending_connections[addr]
addr, pid, handler, a, kw = info
if use_timeout_order and h.timeout < timeout_order[-1]:
for t in timeout_order:
if t > h.timeout:
h.timeout = t
break
else:
h.timeout = timeout_order[-1]
# this feels odd
kw['timeout'] = h.timeout
self.spares[(addr, pid)] = (handler, a, kw)
# do this last, since twisted might fire the event handler from inside
# the function
# HMM:
# should be stopConnecting, but I've seen this fail.
# close does the same thing, but disconnects in the case where the
# connection was made. Not sure how that occurs without add being in
# self.pending_connections
# Maybe this was fixed recently in CRLR.
#h.connector.stopConnecting()
h.connector.close()
def connection_handshake_completed(self, connector):
self.connector_ips.add(connector.ip)
self.connector_ids.add(connector.id)
self.complete_connectors.append(connector)
connector.upload = self.make_upload(connector)
connector.download = self.downloader.make_download(connector)
self.choker.connection_made(connector)
if connector.uses_dht:
connector.send_port(self.reported_port)
if self.config['resolve_hostnames']:
df = self.rawserver.gethostbyaddr(connector.ip)
def save_hostname(hostname_tuple):
hostname, aliases, ips = hostname_tuple
connector.hostname = hostname
df.addCallback(save_hostname)
df.addErrback(lambda fuckoff : None)
def got_port(self, connector):
if self.addcontact and connector.uses_dht and \
connector.dht_port != None:
self.addcontact(connector.connection.ip, connector.dht_port)
def ever_got_incoming(self):
return self.everinc
def how_many_connections(self):
return len(self.complete_connectors)
def replace_connection(self):
if self.closed:
return
while self.spares:
k, v = self.spares.popitem()
addr, id = k
handler, a, kw = v
started = self._start_connection(addr, id, handler, *a, **kw)
if not started:
# start_connection decided to push this connection back on to
# self.spares because a limit was hit. break now or loop
# forever
break
def throttle_connections(self):
self.throttled = True
for c in iter_rand_pos(self.connectors):
c.connection.pause_reading()
def unthrottle_connections(self):
self.throttled = False
for c in iter_rand_pos(self.connectors):
c.connection.resume_reading()
# arg. resume actually flushes the buffers in iocpreactor, so
# we have to check the state constantly
if self.throttled:
break
def close_connection(self, id):
for c in self.connectors:
if c.id == id and not c.closed:
c.connection.close()
c.closed = True
def close_connections(self):
self.rawserver.internet_watcher.remove_subscriber(self)
self.closed = True
pending = self.pending_connections.values()
# drop connections which could be made after we're not interested
for h, info in pending:
h.connector.close()
for c in self.connectors:
if not c.closed:
c.connection.close()
c.closed = True
def singleport_connection(self, connector):
"""hand-off from SingleportListener once the infohash is known and
thus we can map a connection on to a particular Torrent."""
if connector.ip in self.banned:
return False
m = self.config['max_allow_in']
if (m and len(self.connectors) >= m and
connector.ip not in self.tracker_ips):
return False
self._add_connection(connector)
if self.closed:
return False
connector.set_parent(self)
connector.connection.context = self.context
return True
def _add_connection(self, connector):
self.connectors.add(connector)
if self.closed:
connector.connection.close()
elif self.throttled:
connector.connection.pause_reading()
def ban(self, ip):
self.banned.add(ip)
def connection_lost(self, connector):
assert isinstance(connector, Connector)
self.connectors.remove(connector)
if self.ratelimiter:
self.ratelimiter.dequeue(connector)
if connector.complete:
self.connector_ips.remove(connector.ip)
self.connector_ids.remove(connector.id)
self.complete_connectors.remove(connector)
self.choker.connection_lost(connector)
