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Mini Shell
Mini Shell
import queue
import threading
import time
import typing
import mitmproxy.types
from mitmproxy import command
from mitmproxy import connections
from mitmproxy import controller
from mitmproxy import ctx
from mitmproxy import exceptions
from mitmproxy import flow
from mitmproxy import http
from mitmproxy import io
from mitmproxy import log
from mitmproxy import options
from mitmproxy.coretypes import basethread
from mitmproxy.net import server_spec, tls
from mitmproxy.net.http import http1
from mitmproxy.net.http.url import hostport
from mitmproxy.utils import human
class RequestReplayThread(basethread.BaseThread):
daemon = True
def __init__(
self,
opts: options.Options,
channel: controller.Channel,
queue: queue.Queue,
) -> None:
self.options = opts
self.channel = channel
self.queue = queue
self.inflight = threading.Event()
super().__init__("RequestReplayThread")
def run(self):
while True:
f = self.queue.get()
self.inflight.set()
self.replay(f)
self.inflight.clear()
def replay(self, f): # pragma: no cover
f.live = True
r = f.request
bsl = human.parse_size(self.options.body_size_limit)
authority_backup = r.authority
server = None
try:
f.response = None
# If we have a channel, run script hooks.
request_reply = self.channel.ask("request", f)
if isinstance(request_reply, http.HTTPResponse):
f.response = request_reply
if not f.response:
# In all modes, we directly connect to the server displayed
if self.options.mode.startswith("upstream:"):
server_address = server_spec.parse_with_mode(self.options.mode)[1].address
server = connections.ServerConnection(server_address)
server.connect()
if r.scheme == "https":
connect_request = http.make_connect_request((r.data.host, r.port))
server.wfile.write(http1.assemble_request(connect_request))
server.wfile.flush()
resp = http1.read_response(
server.rfile,
connect_request,
body_size_limit=bsl
)
if resp.status_code != 200:
raise exceptions.ReplayException(
"Upstream server refuses CONNECT request"
)
server.establish_tls(
sni=f.server_conn.sni,
**tls.client_arguments_from_options(self.options)
)
r.authority = b""
else:
r.authority = hostport(r.scheme, r.host, r.port)
else:
server_address = (r.host, r.port)
server = connections.ServerConnection(server_address)
server.connect()
if r.scheme == "https":
server.establish_tls(
sni=f.server_conn.sni,
**tls.client_arguments_from_options(self.options)
)
r.authority = ""
server.wfile.write(http1.assemble_request(r))
server.wfile.flush()
r.timestamp_start = r.timestamp_end = time.time()
if f.server_conn:
f.server_conn.close()
f.server_conn = server
f.response = http1.read_response(server.rfile, r, body_size_limit=bsl)
response_reply = self.channel.ask("response", f)
if response_reply == exceptions.Kill:
raise exceptions.Kill()
except (exceptions.ReplayException, exceptions.NetlibException) as e:
f.error = flow.Error(str(e))
self.channel.ask("error", f)
except exceptions.Kill:
self.channel.tell("log", log.LogEntry(flow.Error.KILLED_MESSAGE, "info"))
except Exception as e:
self.channel.tell("log", log.LogEntry(repr(e), "error"))
finally:
r.authority = authority_backup
f.live = False
if server and server.connected():
server.finish()
server.close()
class ClientPlayback:
def __init__(self):
self.q = queue.Queue()
self.thread: RequestReplayThread = None
def check(self, f: flow.Flow):
if f.live:
return "Can't replay live flow."
if f.intercepted:
return "Can't replay intercepted flow."
if isinstance(f, http.HTTPFlow):
if not f.request:
return "Can't replay flow with missing request."
if f.request.raw_content is None:
return "Can't replay flow with missing content."
else:
return "Can only replay HTTP flows."
def load(self, loader):
loader.add_option(
"client_replay", typing.Sequence[str], [],
"Replay client requests from a saved file."
)
def running(self):
self.thread = RequestReplayThread(
ctx.options,
ctx.master.channel,
self.q,
)
self.thread.start()
def configure(self, updated):
if "client_replay" in updated and ctx.options.client_replay:
try:
flows = io.read_flows_from_paths(ctx.options.client_replay)
except exceptions.FlowReadException as e:
raise exceptions.OptionsError(str(e))
self.start_replay(flows)
@command.command("replay.client.count")
def count(self) -> int:
"""
Approximate number of flows queued for replay.
"""
inflight = 1 if self.thread and self.thread.inflight.is_set() else 0
return self.q.qsize() + inflight
@command.command("replay.client.stop")
def stop_replay(self) -> None:
"""
Clear the replay queue.
"""
with self.q.mutex:
lst = list(self.q.queue)
self.q.queue.clear()
for f in lst:
f.revert()
ctx.master.addons.trigger("update", lst)
ctx.log.alert("Client replay queue cleared.")
@command.command("replay.client")
def start_replay(self, flows: typing.Sequence[flow.Flow]) -> None:
"""
Add flows to the replay queue, skipping flows that can't be replayed.
"""
lst = []
for f in flows:
hf = typing.cast(http.HTTPFlow, f)
err = self.check(hf)
if err:
ctx.log.warn(err)
continue
lst.append(hf)
# Prepare the flow for replay
hf.backup()
hf.is_replay = "request"
hf.response = None
hf.error = None
# https://github.com/mitmproxy/mitmproxy/issues/2197
if hf.request.http_version == "HTTP/2.0":
hf.request.http_version = "HTTP/1.1"
hf.request.headers.pop(":authority", None)
host = hf.request.host
if host is not None:
hf.request.headers.insert(0, "host", host)
self.q.put(hf)
ctx.master.addons.trigger("update", lst)
@command.command("replay.client.file")
def load_file(self, path: mitmproxy.types.Path) -> None:
"""
Load flows from file, and add them to the replay queue.
"""
try:
flows = io.read_flows_from_paths([path])
except exceptions.FlowReadException as e:
raise exceptions.CommandError(str(e))
self.start_replay(flows)
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