Esempio n. 1
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def main() -> None:
    args = parse_args()
    config_path = args.config
    delattr(args, 'config')

    config = Config()
    if config_path is not None:
        config.load_file(config_path)
    config.from_object(args)
    try:
        config.validate([
            'tunnel',
            'dest',
            'secretkey',
            'max_spare_count',
        ])
    except ConfigMissing as e:
        logger.error(e)
        exit()

    logger.setLevel(name2level(args.level))

    Protocol.set_secret_key(args.secretkey)
    Protocol.recalc_crc32()
    pkgbuilder = PKGBuilder(Protocol)

    local_ = Local(pkgbuilder, config)
    logger.debug('PID: {}'.format(os.getpid()))
    logger.info('init successful, running as local')

    local_.run_forever()
Esempio n. 2
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    def transfer_from_dest(self, r_conn: socket_t, mask: int,
                           buf: List[deque]) -> None:
        """receive data from dest and store in buffer"""
        w_conn = self.working_pool.inv.get(r_conn)
        if w_conn is None:
            self._sel.unregister(r_conn)
            r_conn.close()
            return

        data = b''
        need_close = False

        try:
            data = r_conn.recv(BUF_SIZE)
        except ConnectionError:
            need_close = True

        if data == b'' or need_close:
            try:
                peer = r_conn.getpeername()
                logger.info(
                    f'closing dest connection from {format_addr(peer)}')
            except OSError as e:
                logger.warn(e)
            self._sel.unregister(r_conn)
            self._sel.modify(w_conn, selectors.EVENT_WRITE,
                             partial(self.send_to_tunnel, buf=buf))
            r_conn.close()
            buf[NEG].append(sentinel)
            del self.working_pool.inv[r_conn]
            return

        buf[NEG].append(data)
Esempio n. 3
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    def transfer_from_tunnel(self, r_conn: socket_t, mask: int,
                             buf: List[deque]) -> None:
        """receive data from tunnel and store in buffer"""
        w_conn = self.work_pool.inv.get(r_conn)
        if w_conn is None:
            self._sel.unregister(r_conn)
            r_conn.close()
            return

        data = b''
        need_close = False

        try:
            data = r_conn.recv(BUF_SIZE)
        except ConnectionError:
            need_close = True

        if data == b'' or need_close:
            try:
                peer = r_conn.getpeername()
                logger.info(
                    f'closing tunnel connection from {format_addr(peer)}'
                )  # noqa
            except OSError as e:
                logger.warn(e)
            self._sel.unregister(r_conn)
            r_conn.close()
            buf[NEG].append(sentinel)
            del self.work_pool.inv[r_conn]
            return

        buf[NEG].append(data)
Esempio n. 4
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    def accept_expose(self, expose_sock: socket_t, mask: int) -> None:
        """accept user connection"""
        conn, addr = expose_sock.accept()
        conn.setblocking(False)

        self._sel.register(conn, selectors.EVENT_READ, self.prepare_transfer)

        logger.info(f'accept user connection from {format_addr(addr)}')
Esempio n. 5
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    def accept_tunnel(self, tunnel_sock: socket_t, mask: int) -> None:
        """accept tunnel connection"""
        conn, addr = tunnel_sock.accept()
        conn.setblocking(False)

        self.tunnel_pool.append(conn)

        logger.info(f'accept tunnel connection from {format_addr(addr)}, '
                    f'poolsize is {len(self.tunnel_pool)}')
Esempio n. 6
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    def run_forever(self) -> None:
        while not self._stopping:
            self.manage_tunnel()
            events = self._sel.select(timeout=self._timeout)
            for key, mask in events:
                callback = key.data
                callback(key.fileobj, mask)

        logger.info('stopping now ...')
        self.exit()
Esempio n. 7
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    def _handshake(self, conn: socket_t) -> bool:
        buff = conn.recv(self._pkgbuilder.PACKAGE_SIZE)
        if (buff == b'' or not self._pkgbuilder.decode_verify(
                buff, self._pkgbuilder.PTYPE_HS_M2S)):
            logger.info('handshake failed')
            conn.close()
            return False

        logger.debug('handshake successful')
        conn.setblocking(True)  # TODO
        conn.send(self._pkgbuilder.pbuild_hs_s2m())
        conn.setblocking(False)
        return True
Esempio n. 8
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 def send_to_tunnel(self, w_conn: socket_t, mask: int,
                    buf: List[deque]) -> None:
     if not len(buf[NEG]):
         return
     try:
         data = buf[NEG].popleft()
         if data is sentinel:
             self._sel.unregister(w_conn)
             w_conn.close()
             return
         byte = w_conn.send(data)
     except socket.error as e:
         if e.args[0] == errno.EWOULDBLOCK:
             logger.info('EWOULDBLOCK occur in send to tunnel')
             buf[NEG].appendleft(data[byte:])
Esempio n. 9
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    def run_forever(self) -> None:
        """main loop"""
        while not self._stopping:
            events = self._sel.select(timeout=self._timeout)
            for job in self._ready:  # TODO heartbeat
                job()
            self._ready.clear()

            # from pprint import pprint
            # pprint(events)
            for key, mask in events:
                callback = key.data
                callback(key.fileobj, mask)
        logger.info('stopping now ...')
        self.exit()
Esempio n. 10
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    def _connect_tunnel(self) -> bool:
        """establish tunnel connection"""
        sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        try:
            sock.connect(self.tunnel_addr)
        except ConnectionError:
            self.next_timeout()
            logger.warn(f'master is unreachable, '
                        f'retry after {self._timeout}sec...')  # noqa
            return False

        self.reset_timeout()
        self._sel.register(sock, selectors.EVENT_READ, self.prepare_transfer)
        self.tunnel_pool.append(sock)
        logger.info(f'connect to tunnel {format_addr(self.tunnel_addr)}, '
                    f'poolsize is {len(self.tunnel_pool)}')
        return True
Esempio n. 11
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    def find_available_tunnel(self) -> Optional[socket_t]:
        while True:
            try:
                conn = self.tunnel_pool.popleft()
            except IndexError:
                # no available tunnel connection, just return
                # do not need to wait in a loop, because we work in LT Mode
                self.next_timeout()
                logger.info('no available tunnel connection, waiting')
                return None
            else:
                self.reset_timeout()

            if not self._handshake(conn):  # handshake first
                conn.close()
                continue
            return conn
Esempio n. 12
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    def _connect_dest(self) -> Optional[socket_t]:
        sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        sock.settimeout(2)
        try:
            sock.connect(self.dest_addr)
        except socket.timeout:
            logger.info('connect dest timeout')
            return None
        except ConnectionRefusedError:
            logger.info('dest refused connection')
            return None

        logger.info('connected to dest {} at {}'.format(
            format_addr(sock.getpeername()),
            format_addr(sock.getsockname()),
        ))
        return sock
Esempio n. 13
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 def handle_signal(self, expose_sock: socket_t, mask: int) -> None:
     sig = self._wake_fds[0].recv(1)
     logger.info('recving signal {}'.format(sig))
     self._stopping = True