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PyLink/main.py

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#!/usr/bin/python3
import imp
import os
import socket
import time
import sys
from collections import defaultdict
import threading
from log import log
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import conf
import classes
import utils
import coreplugin
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class Irc():
def initVars(self):
# Server, channel, and user indexes to be populated by our protocol module
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self.servers = {self.sid: classes.IrcServer(None, self.serverdata['hostname'], internal=True)}
self.users = {}
self.channels = defaultdict(classes.IrcChannel)
# Sets flags such as whether to use halfops, etc. The default RFC1459
# modes are implied.
self.cmodes = {'op': 'o', 'secret': 's', 'private': 'p',
'noextmsg': 'n', 'moderated': 'm', 'inviteonly': 'i',
'topiclock': 't', 'limit': 'l', 'ban': 'b',
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'voice': 'v', 'key': 'k',
# Type A, B, and C modes
'*A': 'b',
'*B': 'k',
'*C': 'l',
'*D': 'imnpstr'}
self.umodes = {'invisible': 'i', 'snomask': 's', 'wallops': 'w',
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'oper': 'o',
'*A': '', '*B': '', '*C': 's', '*D': 'iow'}
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# This nicklen value is only a default, and SHOULD be set by the
# protocol module as soon as the relevant capability information is
# received from the uplink. Plugins that depend on maxnicklen being
# set MUST call "irc.connected.wait()", which blocks until the
# capability information is received. This handling of irc.connected
# is also dependent on the protocol module.
self.maxnicklen = 30
self.prefixmodes = {'o': '@', 'v': '+'}
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# Uplink SID (filled in by protocol module)
self.uplink = None
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self.start_ts = int(time.time())
# UID generators, for servers that need it
self.uidgen = {}
def __init__(self, netname, proto, conf):
# Initialize some variables
self.connected = threading.Event()
self.name = netname.lower()
self.conf = conf
self.serverdata = conf['servers'][netname]
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self.sid = self.serverdata["sid"]
self.botdata = conf['bot']
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self.proto = proto
self.pingfreq = self.serverdata.get('pingfreq') or 30
self.pingtimeout = self.pingfreq * 2
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self.initVars()
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self.connection_thread = threading.Thread(target = self.connect)
self.connection_thread.start()
self.pingTimer = None
self.lastping = time.time()
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def connect(self):
ip = self.serverdata["ip"]
port = self.serverdata["port"]
while True:
log.info("Connecting to network %r on %s:%s", self.name, ip, port)
try:
# Initial connection timeout is a lot smaller than the timeout after
# we've connected; this is intentional.
self.socket = socket.create_connection((ip, port), timeout=1)
self.socket.setblocking(0)
self.socket.settimeout(self.pingtimeout)
self.proto.connect(self)
self.spawnMain()
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log.info('(%s) Starting ping schedulers....', self.name)
self.schedulePing()
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log.info('(%s) Server ready; listening for data.', self.name)
self.run()
except (socket.error, classes.ProtocolError, ConnectionError) as e:
log.warning('(%s) Disconnected from IRC: %s: %s',
self.name, type(e).__name__, str(e))
self.disconnect()
autoconnect = self.serverdata.get('autoconnect')
log.debug('(%s) Autoconnect delay set to %s seconds.', self.name, autoconnect)
if autoconnect is not None and autoconnect >= 0:
log.info('(%s) Going to auto-reconnect in %s seconds.', self.name, autoconnect)
time.sleep(autoconnect)
else:
return
def disconnect(self):
log.debug('(%s) Canceling pingTimer at %s due to disconnect() call', self.name, time.time())
self.connected.clear()
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try:
self.socket.close()
self.pingTimer.cancel()
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except: # Socket timed out during creation; ignore
pass
self.callHooks([None, 'PYLINK_DISCONNECT', {}])
# Reset all our variables - this is important!
self.initVars()
def run(self):
buf = b""
data = b""
while (time.time() - self.lastping) < self.pingtimeout:
log.debug('(%s) time_since_last_ping: %s', self.name, (time.time() - self.lastping))
log.debug('(%s) self.pingtimeout: %s', self.name, self.pingtimeout)
data = self.socket.recv(2048)
buf += data
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if self.connected and not data:
log.warn('(%s) No data received and self.connected is not set; disconnecting!', self.name)
break
while b'\n' in buf:
line, buf = buf.split(b'\n', 1)
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line = line.strip(b'\r')
line = line.decode("utf-8")
log.debug("(%s) <- %s", self.name, line)
hook_args = self.proto.handle_events(self, line)
# Only call our hooks if there's data to process. Handlers that support
# hooks will return a dict of parsed arguments, which can be passed on
# to plugins and the like. For example, the JOIN handler will return
# something like: {'channel': '#whatever', 'users': ['UID1', 'UID2',
# 'UID3']}, etc.
if hook_args is not None:
self.callHooks(hook_args)
def callHooks(self, hook_args):
numeric, command, parsed_args = hook_args
# Always make sure TS is sent.
if 'ts' not in parsed_args:
parsed_args['ts'] = int(time.time())
hook_cmd = command
hook_map = self.proto.hook_map
# Handlers can return a 'parse_as' key to send their payload to a
# different hook. An example of this is "/join 0" being interpreted
# as leaving all channels (PART).
command = parsed_args.get('parse_as') or command
if command in hook_map:
hook_cmd = hook_map[command]
log.debug('Parsed args %r received from %s handler (calling hook %s)', parsed_args, command, hook_cmd)
# Iterate over hooked functions, catching errors accordingly
for hook_func in utils.command_hooks[hook_cmd]:
try:
log.debug('Calling function %s', hook_func)
hook_func(self, numeric, command, parsed_args)
except Exception:
# We don't want plugins to crash our servers...
log.exception('Unhandled exception caught in %r' % hook_func)
continue
def send(self, data):
# Safeguard against newlines in input!! Otherwise, each line gets
# treated as a separate command, which is particularly nasty.
data = data.replace('\n', ' ')
data = data.encode("utf-8") + b"\n"
stripped_data = data.decode("utf-8").strip("\n")
log.debug("(%s) -> %s", self.name, stripped_data)
try:
self.socket.send(data)
except AttributeError:
log.debug("(%s) Dropping message %r; network isn't connected!", self.name, stripped_data)
def schedulePing(self):
self.proto.pingServer(self)
self.pingTimer = threading.Timer(self.pingfreq, self.schedulePing)
self.pingTimer.daemon = True
self.pingTimer.start()
log.debug('(%s) Ping scheduled at %s', self.name, time.time())
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def spawnMain(self):
nick = self.botdata.get('nick') or 'PyLink'
ident = self.botdata.get('ident') or 'pylink'
host = self.serverdata["hostname"]
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log.info('(%s) Connected! Spawning main client %s.', self.name, nick)
self.pseudoclient = self.proto.spawnClient(self, nick, ident, host, modes={("+o", None)})
for chan in self.serverdata['channels']:
self.proto.joinClient(self, self.pseudoclient.uid, chan)
if __name__ == '__main__':
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log.info('PyLink starting...')
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if conf.conf['login']['password'] == 'changeme':
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log.critical("You have not set the login details correctly! Exiting...")
sys.exit(2)
protocols_folder = [os.path.join(os.getcwd(), 'protocols')]
# Import plugins first globally, because they can listen for events
# that happen before the connection phase.
utils.plugins.append(coreplugin)
to_load = conf.conf['plugins']
plugins_folder = [os.path.join(os.getcwd(), 'plugins')]
# Here, we override the module lookup and import the plugins
# dynamically depending on which were configured.
for plugin in to_load:
try:
moduleinfo = imp.find_module(plugin, plugins_folder)
pl = imp.load_source(plugin, moduleinfo[1])
utils.plugins.append(pl)
except ImportError as e:
if str(e).startswith('No module named'):
log.error('Failed to load plugin %r: the plugin could not be found.', plugin)
else:
log.error('Failed to load plugin %r: import error %s', plugin, str(e))
else:
if hasattr(pl, 'main'):
log.debug('Calling main() function of plugin %r', pl)
pl.main()
for network in conf.conf['servers']:
protoname = conf.conf['servers'][network]['protocol']
try:
moduleinfo = imp.find_module(protoname, protocols_folder)
proto = imp.load_source(protoname, moduleinfo[1])
except ImportError as e:
if str(e).startswith('No module named'):
log.critical('Failed to load protocol module %r: the file could not be found.', protoname)
else:
log.critical('Failed to load protocol module: import error %s', protoname, str(e))
sys.exit(2)
else:
utils.networkobjects[network] = Irc(network, proto, conf.conf)
utils.started.set()
log.info("loaded plugins: %s", utils.plugins)