mirror of
https://github.com/onionshare/onionshare.git
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610 lines
19 KiB
Python
610 lines
19 KiB
Python
# Copyright 2011-2013, Damian Johnson and The Tor Project
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# See LICENSE for licensing information
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"""
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Supports message based communication with sockets speaking the tor control
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protocol. This lets users send messages as basic strings and receive responses
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as instances of the :class:`~stem.response.ControlMessage` class.
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**Module Overview:**
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::
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ControlSocket - Socket wrapper that speaks the tor control protocol.
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|- ControlPort - Control connection via a port.
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| |- get_address - provides the ip address of our socket
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| +- get_port - provides the port of our socket
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|- ControlSocketFile - Control connection via a local file socket.
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| +- get_socket_path - provides the path of the socket we connect to
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|- send - sends a message to the socket
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|- recv - receives a ControlMessage from the socket
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|- is_alive - reports if the socket is known to be closed
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|- is_localhost - returns if the socket is for the local system or not
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|- connect - connects a new socket
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|- close - shuts down the socket
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+- __enter__ / __exit__ - manages socket connection
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send_message - Writes a message to a control socket.
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recv_message - Reads a ControlMessage from a control socket.
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send_formatting - Performs the formatting expected from sent messages.
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"""
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from __future__ import absolute_import
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import re
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import socket
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import threading
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import stem.prereq
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import stem.response
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import stem.util.str_tools
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from stem.util import log
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class ControlSocket(object):
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"""
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Wrapper for a socket connection that speaks the Tor control protocol. To the
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better part this transparently handles the formatting for sending and
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receiving complete messages. All methods are thread safe.
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Callers should not instantiate this class directly, but rather use subclasses
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which are expected to implement the **_make_socket()** method.
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"""
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def __init__(self):
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self._socket, self._socket_file = None, None
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self._is_alive = False
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# Tracks sending and receiving separately. This should be safe, and doing
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# so prevents deadlock where we block writes because we're waiting to read
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# a message that isn't coming.
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self._send_lock = threading.RLock()
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self._recv_lock = threading.RLock()
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def send(self, message, raw = False):
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"""
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Formats and sends a message to the control socket. For more information see
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the :func:`~stem.socket.send_message` function.
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:param str message: message to be formatted and sent to the socket
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:param bool raw: leaves the message formatting untouched, passing it to the socket as-is
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:raises:
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* :class:`stem.SocketError` if a problem arises in using the socket
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* :class:`stem.SocketClosed` if the socket is known to be shut down
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"""
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with self._send_lock:
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try:
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if not self.is_alive():
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raise stem.SocketClosed()
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send_message(self._socket_file, message, raw)
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except stem.SocketClosed as exc:
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# if send_message raises a SocketClosed then we should properly shut
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# everything down
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if self.is_alive():
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self.close()
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raise exc
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def recv(self):
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"""
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Receives a message from the control socket, blocking until we've received
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one. For more information see the :func:`~stem.socket.recv_message` function.
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:returns: :class:`~stem.response.ControlMessage` for the message received
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:raises:
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* :class:`stem.ProtocolError` the content from the socket is malformed
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* :class:`stem.SocketClosed` if the socket closes before we receive a complete message
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"""
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with self._recv_lock:
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try:
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# makes a temporary reference to the _socket_file because connect()
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# and close() may set or unset it
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socket_file = self._socket_file
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if not socket_file:
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raise stem.SocketClosed()
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return recv_message(socket_file)
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except stem.SocketClosed as exc:
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# If recv_message raises a SocketClosed then we should properly shut
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# everything down. However, there's a couple cases where this will
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# cause deadlock...
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#
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# * this socketClosed was *caused by* a close() call, which is joining
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# on our thread
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#
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# * a send() call that's currently in flight is about to call close(),
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# also attempting to join on us
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#
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# To resolve this we make a non-blocking call to acquire the send lock.
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# If we get it then great, we can close safely. If not then one of the
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# above are in progress and we leave the close to them.
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if self.is_alive():
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if self._send_lock.acquire(False):
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self.close()
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self._send_lock.release()
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raise exc
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def is_alive(self):
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"""
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Checks if the socket is known to be closed. We won't be aware if it is
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until we either use it or have explicitily shut it down.
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In practice a socket derived from a port knows about its disconnection
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after a failed :func:`~stem.socket.ControlSocket.recv` call. Socket file
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derived connections know after either a
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:func:`~stem.socket.ControlSocket.send` or
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:func:`~stem.socket.ControlSocket.recv`.
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This means that to have reliable detection for when we're disconnected
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you need to continually pull from the socket (which is part of what the
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:class:`~stem.control.BaseController` does).
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:returns: **bool** that's **True** if our socket is connected and **False** otherwise
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"""
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return self._is_alive
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def is_localhost(self):
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"""
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Returns if the connection is for the local system or not.
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:returns: **bool** that's **True** if the connection is for the local host and **False** otherwise
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"""
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return False
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def connect(self):
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"""
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Connects to a new socket, closing our previous one if we're already
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attached.
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:raises: :class:`stem.SocketError` if unable to make a socket
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"""
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with self._send_lock:
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# Closes the socket if we're currently attached to one. Once we're no
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# longer alive it'll be safe to acquire the recv lock because recv()
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# calls no longer block (raising SocketClosed instead).
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if self.is_alive():
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self.close()
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with self._recv_lock:
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self._socket = self._make_socket()
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self._socket_file = self._socket.makefile(mode = "rwb")
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self._is_alive = True
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# It's possible for this to have a transient failure...
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# SocketError: [Errno 4] Interrupted system call
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#
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# It's safe to retry, so give it another try if it fails.
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try:
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self._connect()
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except stem.SocketError:
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self._connect() # single retry
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def close(self):
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"""
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Shuts down the socket. If it's already closed then this is a no-op.
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"""
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with self._send_lock:
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# Function is idempotent with one exception: we notify _close() if this
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# is causing our is_alive() state to change.
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is_change = self.is_alive()
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if self._socket:
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# if we haven't yet established a connection then this raises an error
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# socket.error: [Errno 107] Transport endpoint is not connected
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try:
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self._socket.shutdown(socket.SHUT_RDWR)
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except socket.error:
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pass
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# Suppressing unexpected exceptions from close. For instance, if the
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# socket's file has already been closed then with python 2.7 that raises
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# with...
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# error: [Errno 32] Broken pipe
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try:
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self._socket.close()
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except:
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pass
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if self._socket_file:
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try:
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self._socket_file.close()
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except:
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pass
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self._socket = None
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self._socket_file = None
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self._is_alive = False
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if is_change:
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self._close()
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def _get_send_lock(self):
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"""
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The send lock is useful to classes that interact with us at a deep level
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because it's used to lock :func:`stem.socket.ControlSocket.connect` /
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:func:`stem.socket.ControlSocket.close`, and by extension our
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:func:`stem.socket.ControlSocket.is_alive` state changes.
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:returns: **threading.RLock** that governs sending messages to our socket
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and state changes
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"""
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return self._send_lock
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def __enter__(self):
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return self
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def __exit__(self, exit_type, value, traceback):
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self.close()
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def _connect(self):
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"""
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Connection callback that can be overwritten by subclasses and wrappers.
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"""
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pass
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def _close(self):
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"""
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Disconnection callback that can be overwritten by subclasses and wrappers.
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"""
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pass
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def _make_socket(self):
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"""
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Constructs and connects new socket. This is implemented by subclasses.
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:returns: **socket.socket** for our configuration
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:raises:
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* :class:`stem.SocketError` if unable to make a socket
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* **NotImplementedError** if not implemented by a subclass
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"""
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raise NotImplementedError("Unsupported Operation: this should be implemented by the ControlSocket subclass")
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class ControlPort(ControlSocket):
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"""
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Control connection to tor. For more information see tor's ControlPort torrc
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option.
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"""
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def __init__(self, address = "127.0.0.1", port = 9051, connect = True):
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"""
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ControlPort constructor.
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:param str address: ip address of the controller
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:param int port: port number of the controller
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:param bool connect: connects to the socket if True, leaves it unconnected otherwise
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:raises: :class:`stem.SocketError` if connect is **True** and we're
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unable to establish a connection
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"""
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super(ControlPort, self).__init__()
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self._control_addr = address
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self._control_port = port
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if connect:
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self.connect()
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def get_address(self):
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"""
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Provides the ip address our socket connects to.
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:returns: str with the ip address of our socket
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"""
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return self._control_addr
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def get_port(self):
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"""
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Provides the port our socket connects to.
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:returns: int with the port of our socket
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"""
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return self._control_port
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def is_localhost(self):
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return self._control_addr == "127.0.0.1"
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def _make_socket(self):
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try:
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control_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
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control_socket.connect((self._control_addr, self._control_port))
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return control_socket
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except socket.error as exc:
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raise stem.SocketError(exc)
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class ControlSocketFile(ControlSocket):
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"""
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Control connection to tor. For more information see tor's ControlSocket torrc
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option.
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"""
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def __init__(self, path = "/var/run/tor/control", connect = True):
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"""
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ControlSocketFile constructor.
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:param str socket_path: path where the control socket is located
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:param bool connect: connects to the socket if True, leaves it unconnected otherwise
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:raises: :class:`stem.SocketError` if connect is **True** and we're
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unable to establish a connection
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"""
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super(ControlSocketFile, self).__init__()
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self._socket_path = path
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if connect:
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self.connect()
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def get_socket_path(self):
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"""
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Provides the path our socket connects to.
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:returns: str with the path for our control socket
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"""
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return self._socket_path
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def is_localhost(self):
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return True
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def _make_socket(self):
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try:
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control_socket = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
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control_socket.connect(self._socket_path)
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return control_socket
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except socket.error as exc:
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raise stem.SocketError(exc)
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def send_message(control_file, message, raw = False):
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"""
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Sends a message to the control socket, adding the expected formatting for
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single verses multi-line messages. Neither message type should contain an
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ending newline (if so it'll be treated as a multi-line message with a blank
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line at the end). If the message doesn't contain a newline then it's sent
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as...
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::
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<message>\\r\\n
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and if it does contain newlines then it's split on ``\\n`` and sent as...
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::
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+<line 1>\\r\\n
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<line 2>\\r\\n
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<line 3>\\r\\n
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.\\r\\n
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:param file control_file: file derived from the control socket (see the
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socket's makefile() method for more information)
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:param str message: message to be sent on the control socket
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:param bool raw: leaves the message formatting untouched, passing it to the
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socket as-is
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:raises:
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* :class:`stem.SocketError` if a problem arises in using the socket
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* :class:`stem.SocketClosed` if the socket is known to be shut down
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"""
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if not raw:
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message = send_formatting(message)
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try:
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control_file.write(stem.util.str_tools._to_bytes(message))
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control_file.flush()
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log_message = message.replace("\r\n", "\n").rstrip()
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log.trace("Sent to tor:\n" + log_message)
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except socket.error as exc:
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log.info("Failed to send message: %s" % exc)
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# When sending there doesn't seem to be a reliable method for
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# distinguishing between failures from a disconnect verses other things.
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# Just accounting for known disconnection responses.
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if str(exc) == "[Errno 32] Broken pipe":
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raise stem.SocketClosed(exc)
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else:
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raise stem.SocketError(exc)
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except AttributeError:
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# if the control_file has been closed then flush will receive:
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# AttributeError: 'NoneType' object has no attribute 'sendall'
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log.info("Failed to send message: file has been closed")
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raise stem.SocketClosed("file has been closed")
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def recv_message(control_file):
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"""
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Pulls from a control socket until we either have a complete message or
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encounter a problem.
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:param file control_file: file derived from the control socket (see the
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socket's makefile() method for more information)
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:returns: :class:`~stem.response.ControlMessage` read from the socket
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:raises:
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* :class:`stem.ProtocolError` the content from the socket is malformed
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* :class:`stem.SocketClosed` if the socket closes before we receive
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a complete message
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"""
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parsed_content, raw_content = [], b""
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logging_prefix = "Error while receiving a control message (%s): "
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while True:
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try:
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# From a real socket readline() would always provide bytes, but during
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# tests we might be given a StringIO in which case it's unicode under
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# python 3.x.
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line = stem.util.str_tools._to_bytes(control_file.readline())
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except AttributeError:
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# if the control_file has been closed then we will receive:
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# AttributeError: 'NoneType' object has no attribute 'recv'
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prefix = logging_prefix % "SocketClosed"
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log.info(prefix + "socket file has been closed")
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raise stem.SocketClosed("socket file has been closed")
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except (socket.error, ValueError) as exc:
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# When disconnected we get...
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#
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# Python 2:
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# socket.error: [Errno 107] Transport endpoint is not connected
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#
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# Python 3:
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# ValueError: I/O operation on closed file.
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prefix = logging_prefix % "SocketClosed"
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log.info(prefix + "received exception \"%s\"" % exc)
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raise stem.SocketClosed(exc)
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raw_content += line
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# Parses the tor control lines. These are of the form...
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# <status code><divider><content>\r\n
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if len(line) == 0:
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# if the socket is disconnected then the readline() method will provide
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# empty content
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prefix = logging_prefix % "SocketClosed"
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log.info(prefix + "empty socket content")
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raise stem.SocketClosed("Received empty socket content.")
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elif len(line) < 4:
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prefix = logging_prefix % "ProtocolError"
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log.info(prefix + "line too short, \"%s\"" % log.escape(line))
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raise stem.ProtocolError("Badly formatted reply line: too short")
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elif not re.match(b'^[a-zA-Z0-9]{3}[-+ ]', line):
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prefix = logging_prefix % "ProtocolError"
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log.info(prefix + "malformed status code/divider, \"%s\"" % log.escape(line))
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raise stem.ProtocolError("Badly formatted reply line: beginning is malformed")
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elif not line.endswith(b"\r\n"):
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prefix = logging_prefix % "ProtocolError"
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log.info(prefix + "no CRLF linebreak, \"%s\"" % log.escape(line))
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raise stem.ProtocolError("All lines should end with CRLF")
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line = line[:-2] # strips off the CRLF
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status_code, divider, content = line[:3], line[3:4], line[4:]
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if stem.prereq.is_python_3():
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status_code = stem.util.str_tools._to_unicode(status_code)
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divider = stem.util.str_tools._to_unicode(divider)
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if divider == "-":
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# mid-reply line, keep pulling for more content
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parsed_content.append((status_code, divider, content))
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elif divider == " ":
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# end of the message, return the message
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parsed_content.append((status_code, divider, content))
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log_message = raw_content.replace(b"\r\n", b"\n").rstrip()
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log.trace("Received from tor:\n" + stem.util.str_tools._to_unicode(log_message))
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return stem.response.ControlMessage(parsed_content, raw_content)
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elif divider == "+":
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# data entry, all of the following lines belong to the content until we
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# get a line with just a period
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while True:
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try:
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line = stem.util.str_tools._to_bytes(control_file.readline())
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except socket.error as exc:
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prefix = logging_prefix % "SocketClosed"
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log.info(prefix + "received an exception while mid-way through a data reply (exception: \"%s\", read content: \"%s\")" % (exc, log.escape(raw_content)))
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raise stem.SocketClosed(exc)
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raw_content += line
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if not line.endswith(b"\r\n"):
|
|
prefix = logging_prefix % "ProtocolError"
|
|
log.info(prefix + "CRLF linebreaks missing from a data reply, \"%s\"" % log.escape(raw_content))
|
|
raise stem.ProtocolError("All lines should end with CRLF")
|
|
elif line == b".\r\n":
|
|
break # data block termination
|
|
|
|
line = line[:-2] # strips off the CRLF
|
|
|
|
# lines starting with a period are escaped by a second period (as per
|
|
# section 2.4 of the control-spec)
|
|
|
|
if line.startswith(b".."):
|
|
line = line[1:]
|
|
|
|
# appends to previous content, using a newline rather than CRLF
|
|
# separator (more conventional for multi-line string content outside
|
|
# the windows world)
|
|
|
|
content += b"\n" + line
|
|
|
|
parsed_content.append((status_code, divider, content))
|
|
else:
|
|
# this should never be reached due to the prefix regex, but might as well
|
|
# be safe...
|
|
prefix = logging_prefix % "ProtocolError"
|
|
log.warn(prefix + "\"%s\" isn't a recognized divider type" % divider)
|
|
raise stem.ProtocolError("Unrecognized divider type '%s': %s" % (divider, stem.util.str_tools._to_unicode(line)))
|
|
|
|
|
|
def send_formatting(message):
|
|
"""
|
|
Performs the formatting expected from sent control messages. For more
|
|
information see the :func:`~stem.socket.send_message` function.
|
|
|
|
:param str message: message to be formatted
|
|
|
|
:returns: **str** of the message wrapped by the formatting expected from
|
|
controllers
|
|
"""
|
|
|
|
# From control-spec section 2.2...
|
|
# Command = Keyword OptArguments CRLF / "+" Keyword OptArguments CRLF CmdData
|
|
# Keyword = 1*ALPHA
|
|
# OptArguments = [ SP *(SP / VCHAR) ]
|
|
#
|
|
# A command is either a single line containing a Keyword and arguments, or a
|
|
# multiline command whose initial keyword begins with +, and whose data
|
|
# section ends with a single "." on a line of its own.
|
|
|
|
# if we already have \r\n entries then standardize on \n to start with
|
|
message = message.replace("\r\n", "\n")
|
|
|
|
if "\n" in message:
|
|
return "+%s\r\n.\r\n" % message.replace("\n", "\r\n")
|
|
else:
|
|
return message + "\r\n"
|