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from __future__ import absolute_import, print_function, division
import functools
import threading
import contextlib
from six.moves import queue
from mitmproxy import addons
from mitmproxy import options
from . import ctx as mitmproxy_ctx
from netlib import basethread
from . import exceptions
Events = frozenset([
"clientconnect",
"clientdisconnect",
"serverconnect",
"serverdisconnect",
"tcp_open",
"tcp_message",
"tcp_error",
"tcp_close",
"request",
"response",
"responseheaders",
"next_layer",
"error",
"log",
"start",
"configure",
"done",
"tick",
])
class Log(object):
def __init__(self, master):
self.master = master
def __call__(self, text, level="info"):
self.master.add_log(text, level)
def debug(self, txt):
self(txt, "debug")
def info(self, txt):
self(txt, "info")
def warn(self, txt):
self(txt, "warn")
def error(self, txt):
self(txt, "error")
class Master(object):
"""
The master handles mitmproxy's main event loop.
"""
def __init__(self, opts, *servers):
self.options = opts or options.Options()
self.addons = addons.Addons(self)
self.event_queue = queue.Queue()
self.should_exit = threading.Event()
self.servers = []
for i in servers:
self.add_server(i)
@contextlib.contextmanager
def handlecontext(self):
# Handlecontexts also have to nest - leave cleanup to the outermost
if mitmproxy_ctx.master:
yield
return
mitmproxy_ctx.master = self
mitmproxy_ctx.log = Log(self)
try:
yield
finally:
mitmproxy_ctx.master = None
mitmproxy_ctx.log = None
def add_log(self, e, level="info"):
"""
level: debug, info, warn, error
"""
def add_server(self, server):
# We give a Channel to the server which can be used to communicate with the master
channel = Channel(self.event_queue, self.should_exit)
server.set_channel(channel)
self.servers.append(server)
def start(self):
self.should_exit.clear()
for server in self.servers:
ServerThread(server).start()
def run(self):
self.start()
try:
while not self.should_exit.is_set():
# Don't choose a very small timeout in Python 2:
# https://github.com/mitmproxy/mitmproxy/issues/443
# TODO: Lower the timeout value if we move to Python 3.
self.tick(0.1)
finally:
self.shutdown()
def tick(self, timeout):
with self.handlecontext():
self.addons("tick")
changed = False
try:
mtype, obj = self.event_queue.get(timeout=timeout)
if mtype not in Events:
raise exceptions.ControlException("Unknown event %s" % repr(mtype))
handle_func = getattr(self, mtype)
if not callable(handle_func):
raise exceptions.ControlException("Handler %s not callable" % mtype)
if not handle_func.__dict__.get("__handler"):
raise exceptions.ControlException(
"Handler function %s is not decorated with controller.handler" % (
handle_func
)
)
handle_func(obj)
self.event_queue.task_done()
changed = True
except queue.Empty:
pass
return changed
def shutdown(self):
for server in self.servers:
server.shutdown()
self.should_exit.set()
self.addons.done()
class ServerThread(basethread.BaseThread):
def __init__(self, server):
self.server = server
address = getattr(self.server, "address", None)
super(ServerThread, self).__init__(
"ServerThread ({})".format(repr(address))
)
def run(self):
self.server.serve_forever()
class Channel(object):
"""
The only way for the proxy server to communicate with the master
is to use the channel it has been given.
"""
def __init__(self, q, should_exit):
self.q = q
self.should_exit = should_exit
def ask(self, mtype, m):
"""
Decorate a message with a reply attribute, and send it to the
master. Then wait for a response.
Raises:
exceptions.Kill: All connections should be closed immediately.
"""
m.reply = Reply(m)
self.q.put((mtype, m))
while not self.should_exit.is_set():
try:
# The timeout is here so we can handle a should_exit event.
g = m.reply.q.get(timeout=0.5)
except queue.Empty: # pragma: no cover
continue
if g == exceptions.Kill:
raise exceptions.Kill()
return g
raise exceptions.Kill()
def tell(self, mtype, m):
"""
Decorate a message with a dummy reply attribute, send it to the
master, then return immediately.
"""
m.reply = DummyReply()
self.q.put((mtype, m))
def handler(f):
@functools.wraps(f)
def wrapper(master, message):
if not hasattr(message, "reply"):
raise exceptions.ControlException("Message %s has no reply attribute" % message)
# The following ensures that inheritance with wrapped handlers in the
# base class works. If we're the first handler, then responsibility for
# acking is ours. If not, it's someone else's and we ignore it.
handling = False
# We're the first handler - ack responsibility is ours
if not message.reply.handled:
handling = True
message.reply.handled = True
with master.handlecontext():
ret = f(master, message)
if handling:
master.addons(f.__name__, message)
if handling and not message.reply.acked and not message.reply.taken:
message.reply.ack()
# Reset the handled flag - it's common for us to feed the same object
# through handlers repeatedly, so we don't want this to persist across
# calls.
if handling:
if not message.reply.taken:
message.reply.commit()
message.reply.handled = False
return ret
# Mark this function as a handler wrapper
wrapper.__dict__["__handler"] = True
return wrapper
NO_REPLY = object()
class Reply(object):
"""
Messages sent through a channel are decorated with a "reply" attribute.
This object is used to respond to the message through the return
channel.
"""
def __init__(self, obj):
self.obj = obj
self.q = queue.Queue()
# Has this message been acked?
self.acked = False
# What's the ack message?
self.ack_message = NO_REPLY
# Has the user taken responsibility for ack-ing?
self.taken = False
# Has a handler taken responsibility for ack-ing?
self.handled = False
def ack(self):
self.send(self.obj)
def kill(self):
self.send(exceptions.Kill)
def take(self):
self.taken = True
def send(self, msg):
if self.acked:
raise exceptions.ControlException("Message already acked.")
if self.ack_message != NO_REPLY:
# We may have overrides for this later.
raise exceptions.ControlException("Message already has a response.")
self.acked = True
self.ack_message = msg
if self.taken:
self.commit()
def commit(self):
"""
This is called by the handler to actually send the ack message.
"""
if self.ack_message == NO_REPLY:
raise exceptions.ControlException("Message has no response.")
self.q.put(self.ack_message)
def __del__(self):
if not self.acked:
# This will be ignored by the interpreter, but emit a warning
raise exceptions.ControlException("Un-acked message: %s" % self.obj)
class DummyReply(object):
"""
A reply object that does nothing. Useful when we need an object to seem
like it has a channel, and during testing.
"""
def __init__(self):
self.acked = False
self.taken = False
self.handled = False
def kill(self):
self.send(None)
def ack(self):
self.send(None)
def take(self):
self.taken = True
def send(self, msg):
self.acked = True
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