/usr/lib/python3/dist-packages/mitmproxy/master.py is in mitmproxy 2.0.2-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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import threading
import contextlib
import queue
import sys
from mitmproxy import addonmanager
from mitmproxy import options
from mitmproxy import controller
from mitmproxy import eventsequence
from mitmproxy import exceptions
from mitmproxy import connections
from mitmproxy import http
from mitmproxy import log
from mitmproxy import io
from mitmproxy.proxy.protocol import http_replay
from mitmproxy.types import basethread
import mitmproxy.net.http
from . import ctx as mitmproxy_ctx
class ServerThread(basethread.BaseThread):
def __init__(self, server):
self.server = server
address = getattr(self.server, "address", None)
super().__init__(
"ServerThread ({})".format(repr(address))
)
def run(self):
self.server.serve_forever()
class Master:
"""
The master handles mitmproxy's main event loop.
"""
def __init__(self, opts, server):
self.options = opts or options.Options()
self.addons = addonmanager.AddonManager(self)
self.event_queue = queue.Queue()
self.should_exit = threading.Event()
self.server = server
channel = controller.Channel(self.event_queue, self.should_exit)
server.set_channel(channel)
@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.Log(self)
try:
yield
finally:
mitmproxy_ctx.master = None
mitmproxy_ctx.log = None
def tell(self, mtype, m):
m.reply = controller.DummyReply()
self.event_queue.put((mtype, m))
def add_log(self, e, level):
"""
level: debug, info, warn, error
"""
with self.handlecontext():
self.addons("log", log.LogEntry(e, level))
def start(self):
self.should_exit.clear()
ServerThread(self.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 eventsequence.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):
self.server.shutdown()
self.should_exit.set()
self.addons.done()
def create_request(self, method, scheme, host, port, path):
"""
this method creates a new artificial and minimalist request also adds it to flowlist
"""
c = connections.ClientConnection.make_dummy(("", 0))
s = connections.ServerConnection.make_dummy((host, port))
f = http.HTTPFlow(c, s)
headers = mitmproxy.net.http.Headers()
req = http.HTTPRequest(
"absolute",
method,
scheme,
host,
port,
path,
b"HTTP/1.1",
headers,
b""
)
f.request = req
self.load_flow(f)
return f
def load_flow(self, f):
"""
Loads a flow
"""
if isinstance(f, http.HTTPFlow):
if self.server and self.options.mode == "reverse":
f.request.host = self.server.config.upstream_server.address.host
f.request.port = self.server.config.upstream_server.address.port
f.request.scheme = self.server.config.upstream_server.scheme
f.reply = controller.DummyReply()
for e, o in eventsequence.iterate(f):
getattr(self, e)(o)
def load_flows(self, fr: io.FlowReader) -> int:
"""
Load flows from a FlowReader object.
"""
cnt = 0
for i in fr.stream():
cnt += 1
self.load_flow(i)
return cnt
def load_flows_file(self, path: str) -> int:
path = os.path.expanduser(path)
try:
if path == "-":
try:
sys.stdin.buffer.read(0)
except Exception as e:
raise IOError("Cannot read from stdin: {}".format(e))
freader = io.FlowReader(sys.stdin.buffer)
return self.load_flows(freader)
else:
with open(path, "rb") as f:
freader = io.FlowReader(f)
return self.load_flows(freader)
except IOError as v:
raise exceptions.FlowReadException(v.strerror)
def replay_request(
self,
f: http.HTTPFlow,
block: bool=False
) -> http_replay.RequestReplayThread:
"""
Replay a HTTP request to receive a new response from the server.
Args:
f: The flow to replay.
block: If True, this function will wait for the replay to finish.
This causes a deadlock if activated in the main thread.
Returns:
The thread object doing the replay.
Raises:
exceptions.ReplayException, if the flow is in a state
where it is ineligible for replay.
"""
if f.live:
raise exceptions.ReplayException(
"Can't replay live flow."
)
if f.intercepted:
raise exceptions.ReplayException(
"Can't replay intercepted flow."
)
if f.request.raw_content is None:
raise exceptions.ReplayException(
"Can't replay flow with missing content."
)
if not f.request:
raise exceptions.ReplayException(
"Can't replay flow with missing request."
)
f.backup()
f.request.is_replay = True
f.response = None
f.error = None
rt = http_replay.RequestReplayThread(
self.server.config,
f,
self.event_queue,
self.should_exit
)
rt.start() # pragma: no cover
if block:
rt.join()
return rt
@controller.handler
def log(self, l):
pass
@controller.handler
def clientconnect(self, root_layer):
pass
@controller.handler
def clientdisconnect(self, root_layer):
pass
@controller.handler
def serverconnect(self, server_conn):
pass
@controller.handler
def serverdisconnect(self, server_conn):
pass
@controller.handler
def next_layer(self, top_layer):
pass
@controller.handler
def http_connect(self, f):
pass
@controller.handler
def error(self, f):
pass
@controller.handler
def requestheaders(self, f):
pass
@controller.handler
def request(self, f):
pass
@controller.handler
def responseheaders(self, f):
pass
@controller.handler
def response(self, f):
pass
@controller.handler
def websocket_handshake(self, f):
pass
@controller.handler
def websocket_start(self, flow):
pass
@controller.handler
def websocket_message(self, flow):
pass
@controller.handler
def websocket_error(self, flow):
pass
@controller.handler
def websocket_end(self, flow):
pass
@controller.handler
def tcp_start(self, flow):
pass
@controller.handler
def tcp_message(self, flow):
pass
@controller.handler
def tcp_error(self, flow):
pass
@controller.handler
def tcp_end(self, flow):
pass
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