tox_irc_sync/tox-irc-sync.py
2022-10-26 08:44:57 +00:00

1012 lines
38 KiB
Python

# -*- mode: python; indent-tabs-mode: nil; py-indent-offset: 4; coding: utf-8 -*-
import sys
import os
import socket
import select
import re
import pickle
import logging
import ctypes
from time import sleep
from threading import Thread
from random import shuffle
from OpenSSL import SSL
import wrapper
from wrapper.tox import Tox
from wrapper.toxav import ToxAV
import wrapper.toxcore_enums_and_consts as enums
from wrapper.toxcore_enums_and_consts import \
TOX_CONNECTION, TOX_USER_STATUS, TOX_MESSAGE_TYPE, \
TOX_SECRET_KEY_SIZE, TOX_FILE_CONTROL, TOX_ADDRESS_SIZE, \
TOX_GROUP_PRIVACY_STATE, TOX_GROUP_ROLE
from wrapper_tests import socks
try:
import support_testing as ts
except ImportError:
import wrapper_tests.support_testing as ts
import wrapper.toxencryptsave as tox_encrypt_save
global LOG
LOG = logging.getLogger('app.'+'ts')
NAME = 'SyniTox'
# possible CA locations picks the first one
lCAs = ['/etc/ssl/cacert.pem']
bot_toxname = 'SyniTox'
# tox.py can be called by callbacks
def LOG_ERROR(a): print('EROR> '+a)
def LOG_WARN(a): print('WARN> '+a)
def LOG_INFO(a):
bVERBOSE = hasattr(__builtins__, 'app') and app.oArgs.loglevel <= 20
if bVERBOSE: print('INFO> '+a)
def LOG_DEBUG(a):
bVERBOSE = hasattr(__builtins__, 'app') and app.oArgs.loglevel <= 10-1
if bVERBOSE: print('DBUG> '+a)
def LOG_TRACE(a):
bVERBOSE = hasattr(__builtins__, 'app') and app.oArgs.loglevel < 10
if bVERBOSE: print('TRAC> '+a)
# https://wiki.python.org/moin/SSL
def ssl_verify_cb(HOST):
# wrapps host
def ssl_verify(*args):
"""
callback for certificate validation
should return true if verification passes and false otherwise
"""
LOG.debug(f"ssl_verify {len(args)} {args}")
ssl_conn, x509, error_num, depth, return_code = args
if error_num != 0:
return False
if depth != 0:
# don't validate names of root certificates
return True
if x509.get_subject().commonName == HOST:
return True
LOG.warn(f"ssl_verify {x509.get_subject().commonName} {HOST}")
# allow matching subdomains
have , want = x509.get_subject().commonName, HOST
if len(have.split('.')) == len(want.split('.')) and len(want.split('.')) > 2:
if have.split('.')[1:] == want.split('.')[1:]:
return True
return False
return ssl_verify
class SyniTox(Tox):
def __init__(self,
oArgs,
oOpts,
GROUP_BOT_PK = '',
sMEMORY_DB = ''
):
opts = oTOX_OPTIONS
self._opts = opts
self._oArgs = oArgs
# self._oArgs.profile
self.load_profile(self._opts, self._oArgs, self._oArgs.password)
Tox.__init__(self, tox_options=self._opts)
self._address = self.self_get_address()
self._app = None
self._settings = {}
self.av = self.AV
self.irc = None
self.bid = -1
self._bRouted = None
self._ssl_context = None
self._irc_id = ''
self._toxes = None
self.joined = None
self.request = None
self.memory = {}
self.readbuffer = b''
#? tox_group_id
self._peers = []
self._groups = {}
self.sMEMORY_DB = sMEMORY_DB
self.sGROUP_BOT_PK = GROUP_BOT_PK
self.sGROUP_BOT_NUM = -1
def load_profile(self, tox_options, oArgs, password=''):
if oArgs.profile and os.path.exists(oArgs.profile):
data = open(oArgs.profile, 'rb').read()
else:
data = None
if data and self.has_password():
data = self.pass_decrypt(data)
if data: # load existing profile
tox_options.contents.savedata_type = enums.TOX_SAVEDATA_TYPE['TOX_SAVE']
tox_options.contents.savedata_data = ctypes.c_char_p(data)
tox_options.contents.savedata_length = len(data)
else: # create new profile
tox_options.contents.savedata_type = enums.TOX_SAVEDATA_TYPE['NONE']
tox_options.contents.savedata_data = None
tox_options.contents.savedata_length = 0
def _save_profile(self, data=None):
LOG.debug("_save_profile")
data = data or self.get_savedata()
if self.has_password():
data = self.pass_encrypt(data)
try:
suf = f"{os.getpid()}"
with open(self._oArgs.profile+suf, 'wb') as fl:
fl.write(data)
stat = os.stat(self._oArgs.profile+suf)
if hasattr(stat, 'st_blocks'):
assert stat.st_blocks > 0, f"Zero length file {self._oArgs.profile+suf}"
os.rename(self._oArgs.profile+suf, self._oArgs.profile)
LOG.info('Profile saved successfully to' +self._oArgs.profile)
except Exception as e:
LOG.warn(f"Profile save failed to {self._oArgs.profile}\n{e}")
def start(self):
self._tox = self
self._toxes = tox_encrypt_save.ToxEncryptSave()
self.self_set_name(self._oArgs.bot_name)
self.self_set_status_message("Send me a message with the word 'invite'")
LOG.info('Our ToxID: %s' % self.self_get_toxid())
self.tox_group_id = None
self.init_callbacks()
if os.path.exists(self.sMEMORY_DB):
with open(self.sMEMORY_DB, 'r') as f:
self.memory = pickle.load(f)
if self._oArgs.irc_ssl != '':
self.start_ssl(self._oArgs.irc_host)
def start_ssl(self, HOST):
if not self._ssl_context:
# TLSv1_3_METHOD does not exist
context = SSL.Context(SSL.TLSv1_2_METHOD)
context.set_options(SSL.OP_NO_SSLv2|SSL.OP_NO_SSLv3|SSL.OP_NO_TLSv1)
if self._oArgs.irc_pem:
val = SSL.VERIFY_PEER | SSL.VERIFY_FAIL_IF_NO_PEER_CERT
LOG.info('Using keyfile: %s' % self._oArgs.irc_pem)
context.use_privatekey_file(self._oArgs.irc_pem)
else:
val = SSL.VERIFY_PEER
context.set_verify(val, ssl_verify_cb(self._oArgs.irc_host))
assert os.path.exists(self._oArgs.irc_ca), self._oArgs.irc_ca
if os.path.isdir(self._oArgs.irc_ca):
context.load_verify_locations(capath=self._oArgs.irc_ca)
else:
context.load_verify_locations(cafile=self._oArgs.irc_ca)
if self._oArgs.irc_ssl == 'tls1.2':
context.set_min_proto_version(SSL.TLS1_2_VERSION)
elif self._oArgs.irc_ssl == 'tls1.3':
context.set_min_proto_version(SSL.TLS1_3_VERSION)
self._ssl_context = context
return self._ssl_context
def bRouted(self):
if self._oArgs.network in ['local']:
return True
b = ts.bAreWeConnected()
if b is None:
i = os.system('ip route|grep ^def')
if i > 0:
b = False
else:
b = True
self._bRouted = b
return b
def test_net(self, lElts=None, oThread=None, iMax=4):
LOG.debug("test_net network=" +self._oArgs.network )
# bootstrap
lNodes = ts.generate_nodes(oArgs=self._oArgs,
ipv='ipv4',
udp_not_tcp=True)
self._settings['current_nodes_udp'] = ts.sDNSClean(lNodes)
if not lNodes:
LOG.warn('empty generate_nodes udp')
else:
LOG.info(f'Called generate_nodes: udp {len(lNodes)}')
lNodes = ts.generate_nodes(oArgs=self._oArgs,
ipv='ipv4',
udp_not_tcp=False)
self._settings['current_nodes_tcp'] = ts.sDNSClean(lNodes)
if not lNodes:
LOG.warn('empty generate_nodes tcp')
else:
LOG.info(f'Called generate_nodes: tcp {len(lNodes)}')
# if oThread and oThread._stop_thread: return
return True
def add_friend(self, pk):
self.friend_add_norequest(pk)
assert self.friend_exists(pk)
assert pk in self.self_get_friend_list()
friend_number = self.friend_by_public_key(pk)
return friend_number
def start_groups(self):
if not self.bRouted(): return False
if not self.group_is_connected(self.sGROUP_BOT_NUM):
self.group_reconnect(self.sGROUP_BOT_NUM)
if not self.group_is_connected(self.sGROUP_BOT_NUM):
return False
assert self.sGROUP_BOT_NUM
num = self.sGROUP_BOT_NUM
self.group_self_set_status(num, TOX_USER_STATUS['NONE'])
# add myself as a peer in the group or am I in as founder?
self.group_send_message(num, TOX_MESSAGE_TYPE['NORMAL'], "hi")
# The code in tests_wrapper need extending and then
# wiring up to here.
#
if self._oArgs.group_invite:
pk = self._oArgs.group_invite
if pk not in self.self_get_friend_list():
friend_number = self.add_friend(pk)
else:
friend_number = self.friend_by_public_key(pk)
b = self.group_invite_friend(num, friend_number)
LOG.info(f"A PK to invite to the group {b}")
return True
if self._oArgs.group_moderator:
pk = self._oArgs.group_moderator
if pk not in self.self_get_friend_list():
friend_number = self.add_friend(pk)
else:
friend_number = self.friend_by_public_key(pk)
role = TOX_GROUP_ROLE['MODERATOR']
# dunno
peer_id = friend_number
b = self.group_mod_set_role(num, peer_id, role)
LOG.info("A PK to invite to the group as moderator {b}")
return True
if self._oArgs.group_ignore:
pk = self._oArgs.group_ignore
if pk not in self.self_get_friend_list():
friend_number = self.add_friend(pk)
else:
friend_number = self.friend_by_public_key(pk)
# dunno
peer_id = friend_number
b = self.group_toggle_set_ignore(num, peer_id, True)
LOG.info("A PK to ignore in the group {b}")
return True
return None
def create_group(self):
privacy_state = TOX_GROUP_PRIVACY_STATE[self._oArgs.group_state.upper()]
nick = self._oArgs.group_nick
group_name = self._oArgs.group_name
if not group_name:
group_name = self._oArgs.bot_name +self._oArgs.irc_chan
self._oArgs.group_name = group_name
status = TOX_USER_STATUS['NONE']
num = self.group_new(privacy_state, group_name, nick, status)
assert num >= 0, num
self.group_set_topic(num, f"{group_name} IRC on {self._oArgs.irc_host}" )
# self.tox_group_id = self.group_invite_accept(b'', friendid, nick)
chat_id = self.group_get_chat_id(num)
if self._oArgs.profile and os.path.exists(os.path.dirname(self._oArgs.profile)):
f = os.path.splitext(self._oArgs.profile)[0] +'.chatid'
open(f, 'rt').write(chat_id)
LOG.info(f"Chat Id: {chat_id} written to {f}")
else:
LOG.info(f"Chat Id: {chat_id}")
# dunno
if self.self_get_friend_list():
friendid = self.self_get_friend_list()[0]
i = on_group_invite(friendid, b'', 0)
assert i
self.tox_group_id = i
return num
def join_group(self):
password = self._oArgs.group_pass
nick = self._oArgs.group_nick
# is the chat_id the pk?
chat_id = self._oArgs.group_chatid
num = self.group_join(chat_id, password, nick, status='')
self.sGROUP_BOT_NUM = num
self.group_self_set_status(num, TOX_USER_STATUS['NONE'])
return num
def init_groups(self):
LOG.debug(f"init_groups proxy={self._oArgs.proxy_type}")
group_name = self._oArgs.bot_name +' Test ' +self._oArgs.irc_chan
if self.sGROUP_BOT_NUM < 0:
# ToDo: look for the first group of the profile
i = self.group_get_number_groups()
if i == 0:
if not self.bRouted(): return False
num = self.create_group()
self.sGROUP_BOT_NUM = num
elif i > 1:
LOG.error('There are more than one groups in this profile')
for ig in range(i):
LOG.warn(f"group #{ig} {self.group_self_get_name(ig)}")
raise RuntimeError("select one of the groups at the cmdline")
else:
if not self.bRouted(): return False
num = self.join_group()
LOG.info(f"init_groups GROUP_BOT_PK={self.sGROUP_BOT_PK}")
if self.bRouted():
try:
self.start_groups()
except Exception as e:
LOG.warn(f"init_groups self.start_groups {e}")
return False
# TOX_GROUP_ROLE['FOUNDER']
return True
def init_callbacks(self):
# wraps self with
LOG.info("Adding Tox init_callbacks")
def gi_wrapped(iTox, friendid, invite_data, invite_len, *args):
invite_data = str(invite_data, 'UTF-8')
LOG.debug(f'on_group_invite {friendid} {invite_data}')
self.on_group_invite(friendid, invite_data, 0)
self.callback_group_invite(gi_wrapped, 0)
def scs_wrapped(iTox, friendid, status, *args):
LOG.debug(f'on_connection_status {friendId} {status}.')
self.on_connection_status(friendid, status)
self.callback_self_connection_status(scs_wrapped)
def gm_wrapped(iTox, groupnumber, peer_id, type_, message, mlen, *args):
message = str(message, 'UTF-8')
LOG.debug(f'on_group_message {groupnumber} {peer_id} {message}')
self.on_group_message(groupnumber, peer_id, message)
self.callback_group_message(gm_wrapped, 0)
def ga_wrapped(iTox, groupnumber, peer_id, type_, action, mlen, *args):
LOG.debug(f'on_group_action(groupnumber, peer_id, action)')
self.on_group_action(groupnumber, peer_id, action)
#? self.callback_group_action(ga_wrapped, 0)
def fr_wrapped(iTox, pk, message, mlen, *args):
message = str(message, 'UTF-8')
LOG.debug(f'on_friend_request(pk, message)')
self.on_friend_request(pk, message)
self.callback_friend_request(fr_wrapped)
def fm_wrapped(iTox, peer_id, message, mlen, *args):
message = str(message, 'UTF-8')
LOG.debug(f'on_friend_request(peer_id, message)')
self.on_friend_request(peer_id, message)
self.callback_friend_request(fm_wrapped)
def del_callbacks(self):
self.callback_group_invite(None, 0)
self.callback_self_connection_status(None)
self.callback_group_message(None, 0)
# self.callback_group_action(None, 0)
self.callback_friend_request(None)
self.callback_friend_request(None)
def irc_init(self):
if not self.bRouted(): return
nick = self._oArgs.irc_nick
realname = self._oArgs.irc_name
ident = self._oArgs.irc_ident
LOG.info(f"irc_init proxy={self._oArgs.proxy_type}")
try:
if self._oArgs.proxy_type == 2:
socks.setdefaultproxy(socks.PROXY_TYPE_SOCKS5,
self._oArgs.proxy_host,
self._oArgs.proxy_port)
irc = socks.socksocket()
elif self._oArgs.proxy_type == 1:
socks.setdefaultproxy(socks.PROXY_TYPE_HTTP,
self._oArgs.proxy_host,
self._oArgs.proxy_port)
irc = socks.socksocket()
else:
irc = socket.socket()
if self._oArgs.irc_ssl:
if not self._ssl_context:
self.start_ssl(self._oArgs.irc_host)
irc = SSL.Connection(self._ssl_context, irc)
irc.connect((self._oArgs.irc_host, self._oArgs.irc_port))
irc.do_handshake()
LOG.info('IRC SSL connected ')
else:
irc.connect((self._oArgs.irc_host, self._oArgs.irc_port))
LOG.info('IRC connected ')
except ( SSL.Error, ) as e:
LOG.warn(f"SSL error: {e.args}")
return
except (SSL.SysCallError, ) as e:
LOG.warn(f"SSL error: {e.args}")
return
except Exception as e:
LOG.warn(f"Error: {e}")
return
self.irc = irc
self.irc.send(bytes('NICK ' + nick + '\r\n', 'UTF-8' ))
self.irc.send(bytes('USER %s %s bla :%s\r\n' % (
ident, self._oArgs.irc_host, realname), 'UTF-8'))
def dht_init(self):
if not self.bRouted(): return
if 'current_nodes_udp' not in self._settings:
self.test_net()
lNodes = self._settings['current_nodes_udp']
shuffle(lNodes)
if self._oArgs.proxy_type == 0:
ts.bootstrap_udp(lNodes[:6], [self])
else:
if self._bRouted is None:
LOG.info(f'UDP bootstapping 1')
ts.bootstrap_udp([lNodes[0]], [self])
if 'current_nodes_tcp' not in self._settings:
self.test_net()
lNodes = self._settings['current_nodes_tcp']
shuffle(lNodes)
LOG.info(f'TCP bootstapping 6')
ts.bootstrap_tcp(lNodes[:6], [self])
def get_all_groups(self):
try:
group_numbers = range(self._tox.group_get_number_groups())
except Exception as e:
return None
groups = map(lambda n: self.get_group_by_number(n), group_numbers)
return list(groups)
def get_group_by_number(self, group_number):
try:
public_key = self._tox.group_get_chat_id(group_number)
# LOG.info(f"group_get_chat_id {group_number} {public_key}")
return self.get_group_by_public_key(public_key)
except Exception as e:
LOG.warn(f"group_get_chat_id {group_number} {e}")
return None
def get_group_by_public_key(self, public_key, group):
self._groups[public_key] = group
# -----------------------------------------------------------------------------------------------------------------
# Group peers
# -----------------------------------------------------------------------------------------------------------------
def get_all_group_peers(self):
return list()
def get_group_peer_by_public_key(self, group, public_key):
peer = group.get_peer_by_public_key(public_key)
return self._get_group_peer(group, peer)
def get_peer_by_id(self, peer_id):
peers = list(filter(lambda p: p.id == peer_id, self._peers))
if peers:
return peers[0]
else:
LOG_WARN(f"get_peer_by_id empty peers for {peer_id}")
return []
def ensure_exe(self, func, *args):
count = 0
THRESHOLD = 50
while True:
try:
return func(*args)
except:
assert count < THRESHOLD
count += 1
self.do()
def do(self, n=50):
interval = self.iteration_interval()
for i in range(n):
self.iterate()
sleep(interval / 1000.0 *10)
def unroute(self):
if self.irc:
try: self.irc.close()
except: pass
self.irc = None
def irc_check(self, lines):
if b'NOTICE AUTH' in lines[0]:
for line in lines[:99]:
if b'NOTICE AUTH' not in line: return
line = str(line, 'UTF-8').strip()
print(line)
else:
for line in lines[:5]:
line = str(line, 'UTF-8').strip().lower()
if 'banned' in line:
raise RuntimeError(line)
if 'error' in line and 'closing' in line:
raise RuntimeError(line)
def irc_readlines(self):
nick = self._oArgs.irc_nick
pwd = self._oArgs.irc_pass
fp = self._oArgs.irc_fp
email = self._oArgs.irc_email
self.readbuffer += self.irc.recv(4096)
lines = self.readbuffer.split(b'\n')
self.irc_check(lines)
LOG.debug(f'Waited on IRC and got {len(lines)} lines.')
self.readbuffer = lines.pop()
for line in lines:
line = str(line, 'UTF-8')
l = line.rstrip().split()
if len(l) < 2:
print(line)
elif l[1] not in ['372']:
i = line.find(' ')
print(line[i+1:])
rx = re.match(r':(.*?)!.*? PRIVMSG %s :(.*?)\r' %
self._oArgs.irc_chan, line, re.S)
if rx:
self.relay_message(rx)
elif l[0] == 'PING':
self.irc_send('PONG %s\r\n' % l[1])
elif len(l) < 2:
pass
elif l[1] == '376':
# :End of /MOTD command
if email == '':
self.irc.send(bytes('PRIVMSG NickServ IDENTIFY %s %s\r\n'
% (nick, pwd,), 'UTF-8'))
else:
self.irc.send(bytes('PRIVMSG NickServ REGISTER %s %s\r\n'
% (pwd, email,), 'UTF-8'))
if False and fp:
LOG.info(f"PRIVMSG NickServ CERT ADD")
# self.irc.send(bytes(f'PRIVMSG NickServ CERT ADD {fp}\r\n', 'UTF-8'))
#
self.irc.send(bytes('JOIN %s\r\n' % self._oArgs.irc_chan, 'UTF-8'))
# put off init_groups until you have joined IRC
self.init_groups()
# Make sure we are in
elif l[1] == '042':
# 042 SyniTox 8VQAADOD0 :your unique ID
self._irc_id = line.replace(' :your unique ID',''). \
replace('042 '+nick +' ', '')
elif l[1] == '421':
# 421 SyniTox .PRIVMSG :Unknown command
pass
elif l[1] == '477':
#477 SyniTox #tor :Cannot join channel (Need to be identified and verified to join this channel, '/msg NickServ help' to learn how to register and verify.)
LOG.info(f"PRIVMSG NickServ STATUS {nick}")
i = line.find("'/msg NickServ help'")
if i > 0:
line = line[:i]
raise RuntimeError(line)
def relay_message(self, rx):
print('IRC> %s: %s' % rx.groups())
msg = '[%s]: %s' % rx.groups()
content = rx.group(2)
if self.sGROUP_BOT_NUM >= 0:
if content[1:].startswith('ACTION '):
action = '[%s]: %s' % (rx.group(1),
rx.group(2)[8:-1])
type_ = TOX_MESSAGE_TYPE['ACTION']
self.ensure_exe(self.group_send_message,
self.sGROUP_BOT_NUM, type_, action)
else:
type_ = TOX_MESSAGE_TYPE['NORMAL']
self.ensure_exe(self.group_send_message,
self.sGROUP_BOT_NUM, type_, msg)
if content.startswith('^'):
self.handle_command(content)
def spin(self, n=20):
readable = False
waiti = 0
while not readable:
waiti += 1
readable, _, _ = select.select([self.irc], [], [], n/1000.0 )
self.do(n)
if waiti > 100: break
return readable
def iLoop(self):
group_connected = False
routed = None
self.joined = False
self.request = False
iCount = 0
iDelay = 10
nick = self._oArgs.irc_nick
pwd = self._oArgs.irc_pass
email = self._oArgs.irc_email
LOG.info(f"Looping for Tox and IRC connections")
if iCount < self._oArgs.max_sleep:
while True:
iCount += 1
# LOG.debug(f"Looping {iCount}")
b = self.bRouted()
if not b:
self.unroute()
group_connected = False
iDelay = iDelay + iDelay // 10
if routed != b:
if iCount % 10 == 1:
LOG.info(f'Not routed {iCount} sleeping {iDelay} seconds')
sleep(iDelay)
continue
elif b != routed or routed is None:
LOG.debug(f'Routed {iCount} - resetting count')
iDelay = 10
routed = b
dht_conneted = self.self_get_connection_status()
if not dht_conneted:
self.dht_init()
LOG.info(f'Not DHT connected {iCount} iterating {10 + iDelay} seconds')
self.do(10 + iDelay)
#drop through
if not group_connected and dht_conneted:
LOG.info('Connected to DHT.')
group_connected = True
try:
#? self.bid = self.friend_by_public_key(self.sGROUP_BOT_PK)
r = self.group_reconnect(self.sGROUP_BOT_NUM)
LOG.info(f'Connected to group {r}')
except ctypes.ArgumentError as e:
self.bid = None
if self.bid == None:
self.ensure_exe(self.friend_add_norequest, self.sGROUP_BOT_PK)
LOG.info(f'friend_add_n to group {self.sGROUP_BOT_PK[:8]}')
self.bid = self.friend_by_public_key(self.sGROUP_BOT_PK)
LOG.info(f'Added to group {self.bid}')
num = self.sGROUP_BOT_NUM
my_pk = self.group_self_get_public_key(num)
LOG.info(f'Connected to group as {my_pk[:8]}')
if group_connected and not dht_conneted:
LOG.info('Disconnected from DHT.')
self.dht_init()
group_connected = False
if not self.irc:
LOG.info('Disconnected from IRC.')
self.irc_init()
if not self.irc:
self.do(20)
continue
LOG.info('Waiting on IRC.')
iDelay = 10
readable = self.spin(20)
if not readable:
LOG.info('Waited on IRC but nothing to read.')
continue
try:
self.irc_readlines()
except Exception as e:
LOG.exception(f'IRC Error during read: {e}')
# close irc?
try: self.irc.close()
except: pass
self.irc = None
self.irc_init()
continue
return 0
def quit(self):
self.del_callbacks()
self.save_to_file()
def save_to_file(self):
pass
def irc_send(self, msg):
success = False
while not success:
try:
self.irc.send(bytes(msg, 'UTF-8'))
success = True
break
except socket.error:
self.irc_init()
sleep(1)
def on_connection_status(self, friendId, status):
# scs_wrapped
if not self.request and not self.joined \
and friendId == self.bid and status:
LOG.info('Groupbot online, trying to get invited to group chat.')
self.request = True
type_ = TOX_MESSAGE_TYPE['NORMAL']
# the bot is sending a message to myself self.bid
self.ensure_exe(self.friend_send_message, self.bid, type_, 'invite')
# gi_wrapped
def on_group_invite(self, friendid, invite_data, user_data):
if not self.joined:
self.joined = True
nick = self._oArgs.group_nick
self.tox_group_id = self.group_invite_accept(invite_data, friendid, nick)
LOG.info('Joined groupchat.')
def group_peername(self, groupnumber, peer_id):
#dunno
return ''
def on_group_message(self, groupnumber, peer_id, message):
name = self.group_peername(groupnumber, peer_id)
if len(name) and name != NAME:
print('TOX> %s: %s' % (name, message))
if message.startswith('>'):
message = '\x0309%s\x03' % message
self.irc_send(b'PRIVMSG %s :[%s]: %s\r\n' %
(self._oArgs.irc_chan, name, message))
if message.startswith('^'):
self.handle_command(message)
def on_group_action(self, groupnumber, peer_id, action):
"""old? message type action?"""
name = self.group_peername(groupnumber, peer_id)
if name and name != NAME:
print('TOX> %s: %s' % (name, action))
if action.startswith('>'):
action = '\x0309%s\x03' % action
self.irc_send('PRIVMSG %s :\x01ACTION [%s]: %s\x01\r\n' %
(self._oArgs.irc_chan, name, action))
def on_friend_request(self, pk, message):
LOG.info('Friend request from %s: %s' % (pk, message))
self.friend_add_norequest(pk)
LOG.info('Accepted.')
def on_friend_message(self, friendid, message):
if message.startswith('invite'):
if not self.tox_group_id is None:
LOG.info('Inviting %s' % self.friend_get_name(friendid))
self.group_invite_friend(self.sGROUP_BOT_NUM, friendid)
return
else:
message = 'Waiting for GroupBot, please try again in 1 min.'
type_ = TOX_MESSAGE_TYPE['NORMAL']
self.ensure_exe(self.friend_send_message, friendid, type_, message)
def send_both(self, content):
type_ = TOX_MESSAGE_TYPE['NORMAL']
self.ensure_exe(self.group_send_message, self.sGROUP_BOT_NUM, type_, content)
self.irc_send('PRIVMSG %s :%s\r\n' % (self._oArgs.irc_chan, content))
def handle_command(self, cmd):
cmd = cmd[1:]
if cmd in ['syncbot', 'echobot']:
self.send_both(self.self_get_address())
elif cmd == 'resync':
sys.exit(0)
elif cmd.startswith('remember '):
args = cmd[9:].split(' ')
subject = args[0]
desc = ' '.join(args[1:])
self.memory[subject] = desc
if self.sMEMORY_DB:
with open(self.sMEMORY_DB, 'w') as f:
pickle.dump(self.memory, f)
self.send_both('Remembering ^%s: %s' % (subject, desc))
elif self.memory.has_key(cmd):
self.send_both(self.memory[cmd])
def is_data_encrypted(self, data):
return len(data) > 0 and self._toxes.is_data_encrypted(data)
def pass_encrypt(self, data):
return self._toxes.pass_encrypt(data, self._oArgs.password)
def has_password(self):
return self._oArgs.password
def pass_decrypt(self, data):
return self._toxes.pass_decrypt(data, self._oArgs.password)
def iMain(oArgs, oOpts):
assert oTOX_OPTIONS
assert oTOX_OARGS
try:
o = SyniTox(oArgs, oOpts)
__builtins__.app = o
o.start()
ret = o.iLoop()
except KeyboardInterrupt:
ret = 0
except ( SSL.Error, ) as e:
LOG.error(f"SSL error: {e.args}")
ret = 1
except (SSL.SysCallError, ) as e:
# OpenSSL.SSL.SysCallError: (9, 'EBADF')
LOG.error(f"SSL error: {e.args}")
ret = 1
except Exception as e:
LOG.exception(f'Error running program:\n{e}')
ret = 2
else:
ret = 0
o.quit()
return ret
def oToxygenToxOptions(oArgs):
tox_options = wrapper.tox.Tox.options_new()
if oArgs.proxy_type:
tox_options.contents.proxy_type = int(oArgs.proxy_type)
tox_options.contents.proxy_host = bytes(oArgs.proxy_host, 'UTF-8')
tox_options.contents.proxy_port = int(oArgs.proxy_port)
tox_options.contents.udp_enabled = False
else:
tox_options.contents.udp_enabled = oArgs.udp_enabled
if not os.path.exists('/proc/sys/net/ipv6'):
oArgs.ipv6_enabled = False
tox_options.contents.tcp_port = int(oArgs.tcp_port)
# overrides
tox_options.contents.local_discovery_enabled = False
tox_options.contents.dht_announcements_enabled = True
tox_options.contents.hole_punching_enabled = False
tox_options.contents.experimental_thread_safety = False
# REQUIRED!!
if oArgs.ipv6_enabled and not os.path.exists('/proc/sys/net/ipv6'):
LOG.warn('Disabling IPV6 because /proc/sys/net/ipv6 does not exist' + repr(oArgs.ipv6_enabled))
tox_options.contents.ipv6_enabled = False
else:
tox_options.contents.ipv6_enabled = bool(oArgs.ipv6_enabled)
#? tox_options.contents.log_callback = LOG
if oArgs.trace_enabled and tox_options._options_pointer:
# LOG.debug("Adding logging to tox_options._options_pointer ")
ts.vAddLoggerCallback(tox_options, ts.on_log)
else:
LOG.warn("No tox_options._options_pointer " +repr(tox_options._options_pointer))
return tox_options
def oArgparse(lArgv):
parser = ts.oMainArgparser()
parser.add_argument('profile', type=str, nargs='?', default=None,
help='Path to Tox profile - new groups will be saved there')
CAcs = []
for elt in lCAs:
if os.path.exists(elt):
CAcs.append(elt)
break
parser.add_argument('--bot_name', type=str, default=bot_toxname)
parser.add_argument('--max_sleep', type=int, default=3600,
help="max time to sleep waiting for routing before exiting")
parser.add_argument('--password', type=str, default='',
help="password for the profile if encrypted")
# parser.add_argument('--irc_type', type=str, default='',
# choices=['', 'startls', 'direct')
# does host == connect ?
parser.add_argument('--irc_host', type=str, default='irc.oftc.net',
help="irc.libera.chat will not work over Tor")
parser.add_argument('--irc_port', type=int, default=6667,
help="default 6667, but may be 6697 with SSL")
parser.add_argument('--irc_chan', type=str, default='#tor',
help="IRC channel to join - include the #")
#
parser.add_argument('--irc_ssl', type=str, default='',
help="TLS version; empty is no SSL",
choices=['', 'tls1.2', 'tls1.3'])
parser.add_argument('--irc_ca', type=str,
help="Certificate Authority file or directory",
default=CAcs[0])
parser.add_argument('--irc_pem', type=str, default='',
help="Certificate and key as pem; use openssl req -x509 -nodes -newkey rsa:2048")
parser.add_argument('--irc_fp', type=str, default='',
help="fingerprint of the pem added with CERT ADD; use openssl x509 -noout -fingerprint -SHA1 -text")
parser.add_argument('--irc_nick', type=str, default='',
help="IRC Nickname")
parser.add_argument('--irc_name', type=str, default='',
help="Third field in USER")
parser.add_argument('--irc_ident', type=str, default='',
help="First field in USER")
parser.add_argument('--irc_pass', type=str, default='',
help="password for INDENTIFY or REGISTER")
parser.add_argument('--irc_email', type=str, default='',
help="Use email to REGISTER with _pass")
#
parser.add_argument('--group_pass', type=str, default='',
help="password for the group - optional")
parser.add_argument('--group_state', type=str, default='public',
choices=['public','private'],
help="state for the group - default public")
parser.add_argument('--group_chatid', type=str, default='',
help="chat_id of the group - will be created on first use")
parser.add_argument('--group_name', type=str, default='',
help="name for the group")
parser.add_argument('--group_nick', type=str, default='',
help="Nickname of the group founder")
parser.add_argument('--group_invite', type=str, default='',
help="A PK to invite to the group")
parser.add_argument('--group_moderator', type=str, default='',
help="A PK to invite to the group as moderator")
parser.add_argument('--group_ignore', type=str, default='',
help="A PK to ignore by the group")
oArgs = parser.parse_args(lArgv)
for key in ts.lBOOLEANS:
if key not in oArgs: continue
val = getattr(oArgs, key)
setattr(oArgs, key, bool(val))
if hasattr(oArgs, 'sleep'):
if oArgs.sleep == 'qt':
pass # broken or gevent.sleep(idle_period)
elif oArgs.sleep == 'gevent':
pass # broken or gevent.sleep(idle_period)
else:
oArgs.sleep = 'time'
return oArgs
def main(lArgs=None):
if lArgs is None: lArgs = []
global oTOX_OARGS
oTOX_OARGS = oArgparse(lArgs)
global oTOX_OPTIONS
oTOX_OPTIONS = oToxygenToxOptions(oTOX_OARGS)
ts.vSetupLogging(oTOX_OARGS)
# ts.setup_logging(oArgs)
return iMain(oTOX_OARGS, oTOX_OPTIONS)
if __name__ == '__main__':
sys.exit(main(sys.argv[1:]))
# Ran 34 tests in 86.589s OK (skipped=12)