mitmproxy/libmproxy/flow.py

254 lines
7.4 KiB
Python
Raw Normal View History

"""
This module provides more sophisticated flow tracking. These match requests
with their responses, and provide filtering and interception facilities.
"""
2011-01-26 21:52:42 +00:00
from contrib import bson
import proxy, threading
class ReplayConnection:
pass
# begin nocover
class ReplayThread(threading.Thread):
def __init__(self, flow, masterq):
self.flow, self.masterq = flow, masterq
threading.Thread.__init__(self)
def run(self):
try:
server = proxy.ServerConnection(self.flow.request)
response = server.read_response()
response.send(self.masterq)
except proxy.ProxyError, v:
err = proxy.Error(self.flow.connection, v.msg)
err.send(self.masterq)
# end nocover
class Flow:
def __init__(self, connection):
self.connection = connection
self.request, self.response, self.error = None, None, None
self.intercepting = False
self._backup = None
def dump(self):
data = dict(
flows = [self.get_state()]
)
return bson.dumps(data)
def get_state(self):
return dict(
request = self.request.get_state() if self.request else None,
response = self.response.get_state() if self.response else None,
error = self.error.get_state() if self.error else None,
)
@classmethod
def from_state(klass, state):
f = klass(None)
if state["request"]:
f.request = proxy.Request.from_state(state["request"])
if state["response"]:
f.response = proxy.Response.from_state(f.request, state["response"])
if state["error"]:
f.error = proxy.Error.from_state(state["error"])
return f
def __eq__(self, other):
return self.get_state() == other.get_state()
def backup(self):
if not self._backup:
self._backup = [
self.connection.copy() if self.connection else None,
self.request.copy() if self.request else None,
self.response.copy() if self.response else None,
self.error.copy() if self.error else None,
]
def revert(self):
if self._backup:
restore = [i.copy() if i else None for i in self._backup]
self.connection, self.request, self.response, self.error = restore
def match(self, pattern):
if pattern:
if self.response:
return pattern(self.response)
elif self.request:
return pattern(self.request)
return False
def is_replay(self):
return isinstance(self.connection, ReplayConnection)
def kill(self):
if self.request and not self.request.acked:
self.request.kill = True
self.request.ack()
elif self.response and not self.response.acked:
self.response.kill = True
self.response.ack()
self.intercepting = False
def intercept(self):
self.intercepting = True
def accept_intercept(self):
if self.request:
if not self.request.acked:
self.request.ack()
elif self.response and not self.response.acked:
self.response.ack()
self.intercepting = False
class State:
def __init__(self):
self.flow_map = {}
self.flow_list = []
# These are compiled filt expressions:
self.limit = None
self.intercept = None
def add_browserconnect(self, f):
"""
Start a browser connection.
"""
self.flow_list.insert(0, f)
self.flow_map[f.connection] = f
def add_request(self, req):
"""
Add a request to the state. Returns the matching flow.
"""
f = self.flow_map.get(req.connection)
if not f:
return False
f.request = req
return f
def add_response(self, resp):
"""
Add a response to the state. Returns the matching flow.
"""
f = self.flow_map.get(resp.request.connection)
if not f:
return False
f.response = resp
f.backup()
return f
def add_error(self, err):
"""
Add an error response to the state. Returns the matching flow, or
None if there isn't one.
"""
f = self.flow_map.get(err.connection)
if not f:
return None
f.error = err
f.backup()
return f
def dump_flows(self):
2011-01-26 21:52:42 +00:00
data = dict(
flows =[i.get_state() for i in self.view]
)
return bson.dumps(data)
def load_flows(self, js, klass):
2011-01-26 21:52:42 +00:00
data = bson.loads(js)
data = [klass.from_state(i) for i in data["flows"]]
self.flow_list.extend(data)
def set_limit(self, limit):
"""
Limit is a compiled filter expression, or None.
"""
self.limit = limit
@property
def view(self):
if self.limit:
return tuple([i for i in self.flow_list if i.match(self.limit)])
else:
return tuple(self.flow_list[:])
def get_connection(self, itm):
if isinstance(itm, (proxy.BrowserConnection, ReplayConnection)):
return itm
elif hasattr(itm, "connection"):
return itm.connection
elif hasattr(itm, "request"):
return itm.request.connection
def lookup(self, itm):
"""
Checks for matching connection, using a Flow, Replay Connection,
BrowserConnection, Request, Response or Error object. Returns None
if not found.
"""
connection = self.get_connection(itm)
return self.flow_map.get(connection)
def delete_flow(self, f):
if not f.intercepting:
c = self.get_connection(f)
if c in self.flow_map:
del self.flow_map[c]
self.flow_list.remove(f)
return True
return False
def clear(self):
for i in self.flow_list[:]:
self.delete_flow(i)
def accept_all(self):
for i in self.flow_list[:]:
i.accept_intercept()
def kill_flow(self, f):
f.kill()
self.delete_flow(f)
def revert(self, f):
"""
Replaces the matching connection object with a ReplayConnection object.
"""
conn = self.get_connection(f)
if conn in self.flow_map:
del self.flow_map[conn]
f.revert()
self.flow_map[f.connection] = f
def replay(self, f, masterq):
"""
Replaces the matching connection object with a ReplayConnection object.
Returns None if successful, or error message if not.
"""
#begin nocover
if f.intercepting:
return "Can't replay while intercepting..."
if f.request:
f.backup()
conn = self.get_connection(f)
if conn in self.flow_map:
del self.flow_map[conn]
rp = ReplayConnection()
f.connection = rp
f.request.connection = rp
if f.request.content:
f.request.headers["content-length"] = [str(len(f.request.content))]
f.response = None
f.error = None
self.flow_map[rp] = f
rt = ReplayThread(f, masterq)
rt.start()
#end nocover