#!/var/local/bin/python3.bash # -*- mode: python; indent-tabs-mode: nil; py-indent-offset: 4; coding: utf-8 -*- # A work in progress - chat works. """ echo.py features - accept friend request - echo back friend message # - accept and answer friend call request # - send back friend audio/video data # - send back files friend sent """ import sys import os import traceback import threading import random from ctypes import * import time # LOG=util.log global LOG import logging # log = lambda x: LOG.info(x) LOG = logging.getLogger('app') def LOG_error(a): print('EROR_ '+a) def LOG_warn(a): print('WARN_ '+a) def LOG_info(a): print('INFO_ '+a) def LOG_debug(a): print('DBUG_ '+a) def LOG_trace(a): pass # print('TRAC_ '+a) from tox_wrapper import tox import tox_wrapper.toxcore_enums_and_consts as enums from tox_wrapper.tox import Tox, UINT32_MAX from tox_wrapper.toxcore_enums_and_consts import TOX_CONNECTION, TOX_USER_STATUS, \ TOX_MESSAGE_TYPE, TOX_PUBLIC_KEY_SIZE, TOX_FILE_CONTROL, TOX_FILE_KIND import tox_wrapper.tests.support_testing as ts from tox_wrapper.tests.support_testing import oMainArgparser def sleep(fSec): if 'QtCore' in globals(): if fSec > .000001: QtCore.QThread.msleep(fSec) QtCore.QCoreApplication.processEvents() else: time.sleep(fSec) try: import coloredlogs if 'COLOREDLOGS_LEVEL_STYLES' not in os.environ: os.environ['COLOREDLOGS_LEVEL_STYLES'] = 'spam=22;debug=28;verbose=34;notice=220;warning=202;success=118,bold;error=124;critical=background=red' except ImportError as e: # logging.log(logging.DEBUG, f"coloredlogs not available: {e}") coloredlogs = None if 'USER' in os.environ: sDATA_FILE = '/tmp/logging_toxygen_' +os.environ['USER'] +'.tox' elif 'USERNAME' in os.environ: sDATA_FILE = '/tmp/logging_toxygen_' +os.environ['USERNAME'] +'.tox' else: sDATA_FILE = '/tmp/logging_toxygen_' +'data' +'.tox' bHAVE_AV = False iDHT_TRIES = 100 iDHT_TRY = 0 #?SERVER = lLOCAL[-1] if not bHAVE_AV: class AV(): pass else: class AV(tox.ToxAV): def __init__(self, core): super(AV, self).__init__(core) self.core = self.get_tox() def on_call(self, fid, audio_enabled, video_enabled) -> None: LOG.info("Incoming %s call from %d:%s ..." % ( "video" if video_enabled else "audio", fid, self.core.friend_get_name(fid))) bret = self.answer(fid, 48, 64) LOG.info(f"Answered, in call... {bret}") def on_call_state(self, fid, state) -> None: LOG.info('call state:fn=%d, state=%d' % (fid, state)) def on_audio_bit_rate(self, fid, audio_bit_rate) -> None: LOG.info('audio bit rate status: fn=%d, abr=%d' % (fid, audio_bit_rate)) def on_video_bit_rate(self, fid, video_bit_rate) -> None: LOG.info('video bit rate status: fn=%d, vbr=%d' % (fid, video_bit_rate)) def on_audio_receive_frame(self, fid, pcm, sample_count, channels, sampling_rate) -> None: # LOG.info('audio frame: %d, %d, %d, %d' % # (fid, sample_count, channels, sampling_rate)) # LOG.info('pcm len:%d, %s' % (len(pcm), str(type(pcm)))) sys.stdout.write('.') sys.stdout.flush() bret = self.audio_send_frame(fid, pcm, sample_count, channels, sampling_rate) if bret is False: LOG.error('on_audio_receive_frame error.') def on_video_receive_frame(self, fid, width, height, frame, u, v) -> None: LOG.info('video frame: %d, %d, %d, ' % (fid, width, height)) sys.stdout.write('*') sys.stdout.flush() bret = self.video_send_frame(fid, width, height, frame, u, v) if bret is False: LOG.error('on_video_receive_frame error.') def witerate(self) -> None: self.iterate() def save_to_file(tox, fname): data = tox.get_savedata() with open(fname, 'wb') as f: f.write(data) def load_from_file(fname): assert os.path.exists(fname) return open(fname, 'rb').read() class EchoBot(): def __init__(self, oTox): self._tox = oTox self._tox.self_set_name("PyEchoBot") LOG.info(f'ID: {self._tox.self_get_address()}') self.files = {} self.av = None self.on_connection_status = None def start(self) -> None: self.connect() if bHAVE_AV: # RuntimeError: Attempted to create a second session for the same Tox instance. self.av = True # AV(self._tox_pointer) def bobs_on_friend_request(iTox, public_key, message_data, message_data_size, *largs) -> None: key = ''.join(chr(x) for x in public_key[:TOX_PUBLIC_KEY_SIZE]) sPk = tox.bin_to_string(key, TOX_PUBLIC_KEY_SIZE) sMd = str(message_data, 'UTF-8') LOG.debug('on_friend_request ' +sPk +' ' +sMd) self.on_friend_request(sPk, sMd) LOG.info('setting bobs_on_friend_request') self._tox.callback_friend_request(bobs_on_friend_request) def bobs_on_friend_message(iTox, iFriendNum, iMessageType, message_data, message_data_size, *largs) -> None: sMd = str(message_data, 'UTF-8') LOG_debug(f"on_friend_message {iFriendNum}" +' ' +sMd) self.on_friend_message(iFriendNum, iMessageType, sMd) LOG.info('setting bobs_on_friend_message') self._tox.callback_friend_message(bobs_on_friend_message) def bobs_on_file_chunk_request(iTox, fid, filenumber, position, length, *largs) -> None: if length == 0: return data = self.files[(fid, filenumber)]['f'][position:(position + length)] self._tox.file_send_chunk(fid, filenumber, position, data) self._tox.callback_file_chunk_request(bobs_on_file_chunk_request) def bobs_on_file_recv(iTox, fid, filenumber, kind, size, filename, *largs): LOG_info(f"on_file_recv {fid} {filenumber} {kind} {size} {filename}") if size == 0: return self.files[(fid, filenumber)] = { 'f': bytes(), 'filename': filename, 'size': size } self._tox.file_control(fid, filenumber, TOX_FILE_CONTROL['RESUME']) def connect(self) -> None: if not self.on_connection_status: def on_connection_status(iTox, iCon, *largs): LOG_info('ON_CONNECTION_STATUS - CONNECTED ' + repr(iCon)) self._tox.callback_self_connection_status(on_connection_status) LOG.info('setting on_connection_status callback ') self.on_connection_status = on_connection_status if self._oargs.network in ['newlocal', 'local']: LOG.info('connecting on the new network ') sNet = 'newlocal' elif self._oargs.network == 'new': LOG.info('connecting on the new network ') sNet = 'new' else: # main old LOG.info('connecting on the old network ') sNet = 'old' sFile = self._oargs.nodes_json lNodes = ts.generate_nodes_from_file(sFile) lElts = lNodes random.shuffle(lElts) for lElt in lElts[:10]: status = self._tox.self_get_connection_status() try: if self._tox.bootstrap(*lElt): LOG.info('connected to ' + lElt[0]+' '+repr(status)) else: LOG.warn('failed connecting to ' + lElt[0]) except Exception as e: LOG.warn('error connecting to ' + lElt[0]) if self._oargs.proxy_type > 0: random.shuffle(lElts) for lElt in lElts[:10]: status = self._tox.self_get_connection_status() try: if self._tox.add_tcp_relay(*lElt): LOG.info('relayed to ' + lElt[0] +' '+repr(status)) else: LOG.warn('failed relay to ' + lElt[0]) except Exception as e: LOG.warn('error relay to ' + lElt[0]) def loop(self) -> None: if not self.av: self.start() checked = False save_to_file(self._tox, sDATA_FILE) LOG.info('Starting loop.') while True: status = self._tox.self_get_connection_status() if not checked and status: LOG.info('Connected to DHT.') checked = True if not checked and not status: global iDHT_TRY iDHT_TRY += 10 self.connect() self.iterate(100) if iDHT_TRY >= iDHT_TRIES: raise RuntimeError("Failed to connect to the DHT.") LOG.warn(f"NOT Connected to DHT. {iDHT_TRY}") checked = True if checked and not status: LOG.info('Disconnected from DHT.') self.connect() checked = False if bHAVE_AV: True # self.av.witerate() self.iterate(100) LOG.info('Ending loop.') def iterate(self, n=100) -> None: interval = self._tox.iteration_interval() for i in range(n): self._tox.iterate() sleep(interval / 1000.0) self._tox.iterate() def on_friend_request(self, pk, message) -> None: LOG.debug('Friend request from %s: %s' % (pk, message)) self._tox.friend_add_norequest(pk) LOG.info('on_friend_request Accepted.') save_to_file(self._tox, sDATA_FILE) def on_friend_message(self, friendId, message_type , message) -> None: name = self._tox.friend_get_name(friendId) LOG.debug(f"{name}, {message}, {message_type}") yMessage = bytes(message, 'UTF-8') self._tox.friend_send_message(friendId, TOX_MESSAGE_TYPE['NORMAL'], yMessage) LOG.info('EchoBot sent: %s' % message) def on_file_recv_chunk(self, fid, filenumber, position, data) -> None: filename = self.files[(fid, filenumber)]['filename'] size = self.files[(fid, filenumber)]['size'] LOG.debug(f"on_file_recv_chunk {fid} {filenumber} {filename} {position/float(size)*100}") if data is None: msg = "I got '{}', sending it back right away!".format(filename) self._tox.friend_send_message(fid, TOX_MESSAGE_TYPE['NORMAL'], msg) self.files[(fid, 0)] = self.files[(fid, filenumber)] length = self.files[(fid, filenumber)]['size'] self._tox.file_send(fid, TOX_FILE_KIND['DATA'], length, filename) del self.files[(fid, filenumber)] return self.files[(fid, filenumber)]['f'] += data class App(): def __init__(self): self.mode = 0 oAPP = App() class EchobotTox(Tox): def __init__(self, opts, app=None): super().__init__(opts, app=app) self._address = self.self_get_address() self.name = 'pyechobot' self._opts = opts self._app = app class BaseThread(threading.Thread): def __init__(self, name=None, target=None): if name: super().__init__(name=name, target=target) else: super().__init__(target=target) self._stop_thread = False self.name = name def stop_thread(self, timeout=-1) -> None: self._stop_thread = True if timeout < 0: timeout = ts.iTHREAD_TIMEOUT i = 0 while i < ts.iTHREAD_JOINS: self.join(timeout) if not self.is_alive(): break i = i + 1 else: LOG.warning(f"{self.name} BLOCKED") class ToxIterateThread(BaseThread): def __init__(self, tox): super().__init__(name='ToxIterateThread') self._tox = tox def run(self) -> None: while not self._stop_thread: self._tox.iterate() sleep(self._tox.iteration_interval() / 1000) def oArgparse(lArgv): parser = ts.oMainArgparser() parser.add_argument('--norequest',type=str, default='False', choices=['True','False'], help='Use _norequest') parser.add_argument('profile', type=str, nargs='?', default=None, help='Path to Tox profile') 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 iMain(oArgs) -> int: global sDATA_FILE # oTOX_OPTIONS = ToxOptions() global oTOX_OPTIONS oMainArgparser oTOX_OPTIONS = ts.oToxygenToxOptions(oArgs) opts = oTOX_OPTIONS if coloredlogs: coloredlogs.install( level=oArgs.loglevel, logger=LOG, # %(asctime)s,%(msecs)03d %(hostname)s [%(process)d] fmt='%(name)s %(levelname)s %(message)s' ) else: if 'logfile' in oArgs: logging.basicConfig(filename=oArgs.logfile, level=oArgs.loglevel, format='%(levelname)-8s %(message)s') else: logging.basicConfig(level=oArgs.loglevel, format='%(levelname)-8s %(message)s') iRet = 0 if hasattr(oArgs,'profile') and oArgs.profile and os.path.isfile(oArgs.profile): sDATA_FILE = oArgs.profile LOG.info(f"loading from {sDATA_FILE}") opts.savedata_data = load_from_file(sDATA_FILE) opts.savedata_length = len(opts.savedata_data) opts.savedata_type = enums.TOX_SAVEDATA_TYPE['TOX_SAVE'] else: opts.savedata_data = None try: oTox = EchobotTox(opts, app=oAPP) t = EchoBot(oTox) t._oargs = oArgs t.start() t.loop() save_to_file(t._tox, sDATA_FILE) except KeyboardInterrupt: save_to_file(t._tox, sDATA_FILE) except RuntimeError as e: LOG.error(f"ERROR {e}") iRet = 1 except Exception as e: LOG.error(f"EXCEPTION {e}") LOG.warn(' iMain(): ' \ +'\n' + traceback.format_exc()) iRet = 1 return iRet def main(lArgs=None) -> int: global oTOX_OARGS global bIS_LOCAL if lArgs is None: lArgs = [] oArgs = oArgparse(lArgs) bIS_LOCAL = oArgs.network in ['newlocal', 'localnew', 'local'] oTOX_OARGS = oArgs setattr(oTOX_OARGS, 'bIS_LOCAL', bIS_LOCAL) global oTOX_OPTIONS oTOX_OPTIONS = ts.oToxygenToxOptions(oArgs) if coloredlogs: # https://pypi.org/project/coloredlogs/ coloredlogs.install(level=oArgs.loglevel, logger=LOG, # %(asctime)s,%(msecs)03d %(hostname)s [%(process)d] fmt='%(name)s %(levelname)s %(message)s' ) else: logging.basicConfig(level=oArgs.loglevel) # logging.INFO return iMain(oArgs) if __name__ == '__main__': try: i = main(sys.argv[1:]) except KeyboardInterrupt as e: i = 0 except Exception as e: i = 1 sys.exit(i)