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tea_cah/ircbot.py
2018-08-19 19:52:42 +03:00

435 lines
15 KiB
Python

#!/usr/bin/env python3
import configparser
import select
import socket
import threading
import time
from collections import namedtuple
import channel
from constants import logmessage_types, internal_submessage_types, controlmessage_types
import botcmd
import cron
import line_handling
Server = namedtuple('Server', ['host', 'port', 'nick', 'username', 'realname', 'channels'])
class LoggerThread(threading.Thread):
def __init__(self, logging_channel, dead_notify_channel):
self.logging_channel = logging_channel
self.dead_notify_channel = dead_notify_channel
threading.Thread.__init__(self)
def run(self):
while True:
message_type, *message_data = self.logging_channel.recv()
# Lines that were sent between server and client
if message_type == logmessage_types.sent:
assert len(message_data) == 1
print('>' + message_data[0])
elif message_type == logmessage_types.received:
assert len(message_data) == 1
print('<' + message_data[0])
# Messages that are from internal components
elif message_type == logmessage_types.internal:
if message_data[0] == internal_submessage_types.quit:
assert len(message_data) == 1
print('--- Quit')
self.dead_notify_channel.send((controlmessage_types.quit,))
break
elif message_data[0] == internal_submessage_types.error:
assert len(message_data) == 2
print('--- Error', message_data[1])
else:
print('--- ???', message_data)
# Messages about status from the bot code
elif message_type == logmessage_types.status:
assert len(message_data) == 2
print('*', end='')
print(*message_data[0], **message_data[1])
else:
print('???', message_type, message_data)
# API(serverthread_object)
# Create a new API object corresponding to given ServerThread object
class API:
def __init__(self, serverthread_object):
# We need to access the internal functions of the ServerThread object in order to send lines etc.
self.serverthread_object = serverthread_object
# Have the cron object accessible more easily
self.cron = serverthread_object.cron_control_channel
def send_raw(self, line):
"""Sends a raw line (will terminate it itself.)
Don't use unless you are completely sure you know what you're doing."""
self.serverthread_object.send_line_raw(line)
def msg(self, recipient, message):
"""Make sending PRIVMSGs much nicer"""
line = b'PRIVMSG ' + recipient + b' :' + message
self.serverthread_object.send_line_raw(line)
def bot_response(self, recipient, message):
"""Prefix message with ZWSP and convert from unicode to bytestring if necessary."""
if isinstance(message, str):
message = message.encode('utf-8')
self.msg(recipient, '\u200b'.encode('utf-8') + message)
def nick(self, nick):
"""Send a NICK command and update the internal nick tracking state"""
with self.serverthread_object.nick_lock:
line = b'NICK ' + nick
self.serverthread_object.send_line_raw(line)
self.serverthread_object.nick = nick
def get_nick(self):
"""Returns current nick"""
with self.serverthread_object.nick_lock:
return self.serverthread_object.nick
def set_nick(self, nick):
"""Set the internal nick tracking state"""
with self.serverthread_object.nick_lock:
self.serverthread_object.nick = nick
def join(self, channel):
"""Send a JOIN command and update the internal channel tracking state"""
with self.serverthread_object.channels_lock:
line = b'JOIN ' + channel
self.serverthread_object.send_line_raw(line)
self.serverthread_object.channels.add(channel)
def part(self, channel, message = b''):
"""Send a PART command and update the internal channel tracking state"""
with self.serverthread_object.channels_lock:
line = b'PART %s :%s' % (channel, message)
self.serverthread_object.send_line_raw(line)
self.serverthread_object.channels.removeadd(channel)
def get_channels(self):
"""Returns the current set of channels"""
with self.serverthread_object.channels_lock:
return self.serverthread_object.channels
def set_channels(self, channels):
"""Set the current set of channels variable"""
with self.serverthread_object.channels_lock:
self.serverthread_object.channels = channels
def quit(self):
self.serverthread_object.control_channel.send((controlmessage_types.quit,))
self.serverthread_object.logging_channel.send((logmessage_types.internal, internal_submessage_types.quit))
cron.quit(self.cron)
def log(self, *args, **kwargs):
"""Log a status message. Supports normal print() arguments."""
self.serverthread_object.logging_channel.send((logmessage_types.status, args, kwargs))
def error(self, message):
"""Log an error"""
self.serverthread_object.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, message))
# ServerThread(server, control_channel, cron_control_channel, logging_channel)
# Creates a new server main loop thread
class ServerThread(threading.Thread):
def __init__(self, server, control_channel, cron_control_channel, logging_channel):
self.server = server
self.control_channel = control_channel
self.cron_control_channel = cron_control_channel
self.logging_channel = logging_channel
self.server_socket_write_lock = threading.Lock()
self.last_send = 0
self.last_send_lock = threading.Lock()
self.nick = None
self.nick_lock = threading.Lock()
self.channels = set()
self.channels_lock = threading.Lock()
threading.Thread.__init__(self)
def send_line_raw(self, line):
# Sanitize line just in case
line = line.replace(b'\r', b'').replace(b'\n', b'')[:510]
with self.last_send_lock:
now = time.monotonic()
if now - self.last_send < 1:
# Schedule our message sending one second after the last one
self.last_send += 1
wait = self.last_send - now
else:
self.last_send = now
wait = 0
if wait > 0:
time.sleep(wait)
with self.server_socket_write_lock:
self.server_socket.sendall(line + b'\r\n')
# Don't log PINGs or PONGs
if not (len(line) >= 5 and (line[:5] == b'PING ' or line[:5] == b'PONG ')):
self.logging_channel.send((logmessage_types.sent, line.decode(encoding = 'utf-8', errors = 'replace')))
def handle_line(self, line):
command, _, arguments = line.partition(b' ')
split = line.split(b' ')
if len(split) >= 1 and split[0].upper() == b'PING':
self.send_line_raw(b'PONG ' + arguments)
elif len(split) >= 2 and split[0][0:1] == b':' and split[1].upper() == b'PONG':
# No need to do anything special for PONGs
pass
else:
self.logging_channel.send((logmessage_types.received, line.decode(encoding = 'utf-8', errors = 'replace')))
# Ensure we have a bytestring, because bytearray can be annoying to deal with
line = bytes(line)
line_handling.handle_line(line, irc = self.api)
def mainloop(self):
# Register both the server socket and the control channel to a polling object
poll = select.poll()
poll.register(self.server_socket, select.POLLIN)
poll.register(self.control_channel, select.POLLIN)
# Keep buffer for input
server_input_buffer = bytearray()
quitting = False
reconnecting = False
while not quitting and not reconnecting:
# Wait until we can do something
for fd, event in poll.poll():
# Server
if fd == self.server_socket.fileno():
# Ready to receive, read into buffer and handle full messages
if event | select.POLLIN:
data = self.server_socket.recv(1024)
# Mo data to be read even as POLLIN triggered → connection has broken
# Log it and try reconnecting
if data == b'':
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, 'Empty read'))
reconnecting = True
break
server_input_buffer.extend(data)
# Try to see if we have a full line ending with \r\n in the buffer
# If yes, handle it
while b'\r\n' in server_input_buffer:
# Newline was found, split buffer
line, _, server_input_buffer = server_input_buffer.partition(b'\r\n')
self.handle_line(line)
# Remove possible pending ping timeout timer and reset ping timer to 3 minutes
cron.delete(self.cron_control_channel, self.control_channel, (controlmessage_types.ping_timeout,))
cron.reschedule(self.cron_control_channel, 3 * 60, self.control_channel, (controlmessage_types.ping,))
else:
error_message = 'Event on server socket: %s' % event
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, error_message))
# Control
elif fd == self.control_channel.fileno():
command_type, *arguments = self.control_channel.recv()
if command_type == controlmessage_types.quit:
quitting = True
elif command_type == controlmessage_types.send_line:
assert len(arguments) == 1
irc_command, space, arguments = arguments[0].encode('utf-8').partition(b' ')
line = irc_command.upper() + space + arguments
self.send_line_raw(line)
elif command_type == controlmessage_types.ping:
assert len(arguments) == 0
self.send_line_raw(b'PING :foo')
# Reset ping timeout timer to 2 minutes
cron.reschedule(self.cron_control_channel, 2 * 60, self.control_channel, (controlmessage_types.ping_timeout,))
elif command_type == controlmessage_types.ping_timeout:
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, 'Ping timeout'))
reconnecting = True
elif command_type == controlmessage_types.reconnect:
reconnecting = True
else:
error_message = 'Unknown control message: %s' % repr((command_type, *arguments))
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, error_message))
else:
assert False #unreachable
if reconnecting:
return True
else:
return False
def run(self):
while True:
# Connect to given server
address = (self.server.host, self.server.port)
try:
self.server_socket = socket.create_connection(address)
except (ConnectionRefusedError, socket.gaierror):
# Tell controller we failed
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, "Can't connect to %s:%s" % address))
# Try reconnecting in a minute
cron.reschedule(self.cron_control_channel, 60, self.control_channel, (controlmessage_types.reconnect,))
# Handle messages
reconnect = True
while True:
command_type, *arguments = self.control_channel.recv()
if command_type == controlmessage_types.reconnect:
break
elif command_type == controlmessage_types.quit:
reconnect = False
break
else:
error_message = 'Control message not supported when not connected: %s' % repr((command_type, *arguments))
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, error_message))
# Remove the reconnect message in case we were told to reconnnect manually
cron.delete(self.cron_control_channel, self.control_channel, (controlmessage_types.reconnect,))
if reconnect:
continue
else:
break
# Create an API object to give to outside line handler
self.api = API(self)
try:
# Run initialization
self.send_line_raw(b'USER %s a a :%s' % (self.server.username.encode('utf-8'), self.server.realname.encode('utf-8')))
# Set up nick
self.api.nick(self.server.nick.encode('utf-8'))
# Run the on_connect hook, to allow further setup
botcmd.on_connect(irc = self.api)
# Join channels
for channel in self.server.channels:
self.api.join(channel.encode('utf-8'))
# Schedule a ping to be sent in 3 minutes of no activity
cron.reschedule(self.cron_control_channel, 3 * 60, self.control_channel, (controlmessage_types.ping,))
# Run mainloop
reconnecting = self.mainloop()
if not reconnecting:
# Run bot cleanup code
botcmd.on_quit(irc = self.api)
# Tell the server we're quiting
self.send_line_raw(b'QUIT :%s exiting normally' % self.server.username.encode('utf-8'))
self.server_socket.close()
break
else:
# Tell server we're reconnecting
self.send_line_raw(b'QUIT :Reconnecting')
self.server_socket.close()
except (BrokenPipeError, TimeoutError) as err:
# Connection broke, log it and try to reconnect
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.error, 'Broken socket/pipe or timeout'))
self.server_socket.close()
# Tell controller we're quiting
self.logging_channel.send((logmessage_types.internal, internal_submessage_types.quit))
# Tell cron we're quiting
cron.quit(cron_control_channel)
# spawn_serverthread(server, cron_control_channel, logging_channel) → control_channel
# Creates a ServerThread for given server and returns the channel for controlling it
def spawn_serverthread(server, cron_control_channel, logging_channel):
thread_control_socket, spawner_control_socket = socket.socketpair()
control_channel = channel.Channel()
ServerThread(server, control_channel, cron_control_channel, logging_channel).start()
return control_channel
# spawn_loggerthread() → logging_channel, dead_notify_channel
# Spawn logger thread and returns the channel it logs and the channel it uses to notify about quiting
def spawn_loggerthread():
logging_channel = channel.Channel()
dead_notify_channel = channel.Channel()
LoggerThread(logging_channel, dead_notify_channel).start()
return logging_channel, dead_notify_channel
# read_config() → config, server
# Reads the configuration file and returns the configuration object as well as a server object for spawn_serverthread
def read_config():
config = configparser.ConfigParser()
config.read('bot.conf')
host = config['server']['host']
port = int(config['server']['port'])
nick = config['server']['nick']
username = config['server']['username']
realname = config['server']['realname']
channels = config['server']['channels'].split()
server = Server(host = host, port = port, nick = nick, username = username, realname = realname, channels = channels)
return config, server
if __name__ == '__main__':
config, server = read_config()
botcmd.initialize(config = config)
cron_control_channel = cron.start()
logging_channel, dead_notify_channel = spawn_loggerthread()
control_channel = spawn_serverthread(server, cron_control_channel, logging_channel)
while True:
message = dead_notify_channel.recv(blocking = False)
if message is not None:
if message[0] == controlmessage_types.quit:
break
cmd = input('')
if cmd == 'q':
print('Keyboard quit')
control_channel.send((controlmessage_types.quit,))
logging_channel.send((logmessage_types.internal, internal_submessage_types.quit))
cron.quit(cron_control_channel)
break
elif cmd == 'r':
print('Keyboard reconnect')
control_channel.send((controlmessage_types.reconnect,))
elif len(cmd) > 0 and cmd[0] == '/':
control_channel.send((controlmessage_types.send_line, cmd[1:]))