path: root/libmproxy/flow.py

"""
    This module provides more sophisticated flow tracking. These match requests
    with their responses, and provide filtering and interception facilities.
"""
import hashlib, Cookie, cookielib, copy, re, urlparse, threading
import time, urllib
import tnetstring, filt, script, utils, encoding, proxy
from email.utils import parsedate_tz, formatdate, mktime_tz
from netlib import odict, http, certutils, wsgi
import controller, version
import app

HDR_FORM_URLENCODED = "application/x-www-form-urlencoded"
CONTENT_MISSING = 0

ODict = odict.ODict
ODictCaseless = odict.ODictCaseless


class AppRegistry:
    def __init__(self):
        self.apps = {}

    def add(self, app, domain, port):
        """
            Add a WSGI app to the registry, to be served for requests to the
            specified domain, on the specified port.
        """
        self.apps[(domain, port)] = wsgi.WSGIAdaptor(app, domain, port, version.NAMEVERSION)

    def get(self, request):
        """
            Returns an WSGIAdaptor instance if request matches an app, or None.
        """
        if (request.host, request.port) in self.apps:
            return self.apps[(request.host, request.port)]
        if "host" in request.headers:
            host = request.headers["host"][0]
            return self.apps.get((host, request.port), None)


class ReplaceHooks:
    def __init__(self):
        self.lst = []

    def set(self, r):
        self.clear()
        for i in r:
            self.add(*i)

    def add(self, fpatt, rex, s):
        """
            add a replacement hook.

            fpatt: a string specifying a filter pattern.
            rex: a regular expression.
            s: the replacement string

            returns true if hook was added, false if the pattern could not be
            parsed.
        """
        cpatt = filt.parse(fpatt)
        if not cpatt:
            return False
        try:
            re.compile(rex)
        except re.error:
            return False
        self.lst.append((fpatt, rex, s, cpatt))
        return True

    def get_specs(self):
        """
            Retrieve the hook specifcations. Returns a list of (fpatt, rex, s) tuples.
        """
        return [i[:3] for i in self.lst]

    def count(self):
        return len(self.lst)

    def run(self, f):
        for _, rex, s, cpatt in self.lst:
            if cpatt(f):
                if f.response:
                    f.response.replace(rex, s)
                else:
                    f.request.replace(rex, s)

    def clear(self):
        self.lst = []


class SetHeaders:
    def __init__(self):
        self.lst = []

    def set(self, r):
        self.clear()
        for i in r:
            self.add(*i)

    def add(self, fpatt, header, value):
        """
            Add a set header hook.

            fpatt: String specifying a filter pattern.
            header: Header name.
            value: Header value string

            Returns True if hook was added, False if the pattern could not be
            parsed.
        """
        cpatt = filt.parse(fpatt)
        if not cpatt:
            return False
        self.lst.append((fpatt, header, value, cpatt))
        return True

    def get_specs(self):
        """
            Retrieve the hook specifcations. Returns a list of (fpatt, rex, s) tuples.
        """
        return [i[:3] for i in self.lst]

    def count(self):
        return len(self.lst)

    def clear(self):
        self.lst = []

    def run(self, f):
        for _, header, value, cpatt in self.lst:
            if cpatt(f):
                if f.response:
                    del f.response.headers[header]
                else:
                    del f.request.headers[header]
        for _, header, value, cpatt in self.lst:
            if cpatt(f):
                if f.response:
                    f.response.headers.add(header, value)
                else:
                    f.request.headers.add(header, value)


class StateObject:
    def _get_state(self):
        raise NotImplementedError

    def _load_state(self, state):
        raise NotImplementedError

    @classmethod
    def _from_state(cls, state):
        raise NotImplementedError

    def __eq__(self, other):
        try:
            return self._get_state() == other._get_state()
        except AttributeError:  # we may compare with something that's not a StateObject
            return False


class SimpleStateObject(StateObject):
    """
    A StateObject with opionated conventions that tries to keep everything DRY.y
    """

    _stateobject_attributes = None
    """
    A dict where the keys represent the attributes to be serialized.
    The values represent the attribute class or type.
    If the attribute is a class, this class must be a subclass of StateObject.
    """

    def _get_state(self):
        return {attr: (getattr(self, attr)._get_state()
                       if (type(cls) == 'classobj')
                       else getattr(self, attr))
                for attr, cls in self._stateobject_attributes.iteritems()}

    def _load_state(self, state):
        for attr, cls in self._stateobject_attributes.iteritems():
            self._load_state_attr(attr, cls, state)

    def _load_state_attr(self, attribute, cls, state):
        if state[attribute] is not None:
            if type(cls) == 'classobj':
                assert issubclass(cls, StateObject)
                curr = getattr(self, attribute)
                if curr:
                    curr._load_state(state[attribute])
                else:
                    setattr(self, attribute, cls._from_state(state[attribute]))
            else:
                setattr(self, attribute, cls(state[attribute]))
        else:
            setattr(self, attribute, None)

    @classmethod
    def _from_state(cls, state):
        f = cls()
        f._load_state(state)
        return f


class Response(object):
    """
        An HTTP response.

        Exposes the following attributes:

            request: Request object.

            code: HTTP response code

            msg: HTTP response message

            headers: ODict object

            content: Content of the request, None, or CONTENT_MISSING if there
            is content associated, but not present. CONTENT_MISSING evaluates
            to False to make checking for the presence of content natural.

            timestamp_start: Seconds since the epoch signifying response transmission started

            timestamp_end: Seconds since the epoch signifying response transmission ended
    """
    def __init__(self, request, httpversion, code, msg, headers, content, cert, timestamp_start=None, timestamp_end=None):
        assert isinstance(headers, ODictCaseless)
        self.request = request
        self.httpversion, self.code, self.msg = httpversion, code, msg
        self.headers, self.content = headers, content
        self.cert = cert
        self.timestamp_start = timestamp_start or utils.timestamp()
        self.timestamp_end = timestamp_end or utils.timestamp()
        self.replay = False

    def _refresh_cookie(self, c, delta):
        """
            Takes a cookie string c and a time delta in seconds, and returns
            a refreshed cookie string.
        """
        c = Cookie.SimpleCookie(str(c))
        for i in c.values():
            if "expires" in i:
                d = parsedate_tz(i["expires"])
                if d:
                    d = mktime_tz(d) + delta
                    i["expires"] = formatdate(d)
                else:
                    # This can happen when the expires tag is invalid.
                    # reddit.com sends a an expires tag like this: "Thu, 31 Dec
                    # 2037 23:59:59 GMT", which is valid RFC 1123, but not
                    # strictly correct according tot he cookie spec. Browsers
                    # appear to parse this tolerantly - maybe we should too.
                    # For now, we just ignore this.
                    del i["expires"]
        return c.output(header="").strip()

    def refresh(self, now=None):
        """
            This fairly complex and heuristic function refreshes a server
            response for replay.

                - It adjusts date, expires and last-modified headers.
                - It adjusts cookie expiration.
        """
        if not now:
            now = time.time()
        delta = now - self.timestamp_start
        refresh_headers = [
            "date",
            "expires",
            "last-modified",
        ]
        for i in refresh_headers:
            if i in self.headers:
                d = parsedate_tz(self.headers[i][0])
                if d:
                    new = mktime_tz(d) + delta
                    self.headers[i] = [formatdate(new)]
        c = []
        for i in self.headers["set-cookie"]:
            c.append(self._refresh_cookie(i, delta))
        if c:
            self.headers["set-cookie"] = c

    def _set_replay(self):
        self.replay = True

    def is_replay(self):
        """
            Is this response a replay?
        """
        return self.replay

    def _load_state(self, state):
        self.code = state["code"]
        self.msg = state["msg"]
        self.headers = ODictCaseless._from_state(state["headers"])
        self.content = state["content"]
        self.timestamp_start = state["timestamp_start"]
        self.timestamp_end = state["timestamp_end"]
        self.cert = certutils.SSLCert.from_pem(state["cert"]) if state["cert"] else None

    def _get_state(self):
        return dict(
            httpversion = self.httpversion,
            code = self.code,
            msg = self.msg,
            headers = self.headers._get_state(),
            timestamp_start = self.timestamp_start,
            timestamp_end = self.timestamp_end,
            cert = self.cert.to_pem() if self.cert else None,
            content = self.content,
        )

    @classmethod
    def _from_state(klass, request, state):
        return klass(
            request,
            state["httpversion"],
            state["code"],
            str(state["msg"]),
            ODictCaseless._from_state(state["headers"]),
            state["content"],
            certutils.SSLCert.from_pem(state["cert"]) if state["cert"] else None,
            state["timestamp_start"],
            state["timestamp_end"],
        )

    def copy(self):
        c = copy.copy(self)
        c.headers = self.headers.copy()
        return c

    def _assemble_head(self):
        FMT = '%s\r\n%s\r\n'
        headers = self.headers.copy()
        utils.del_all(
            headers,
            ['proxy-connection', 'transfer-encoding']
        )
        if self.content:
            headers["Content-Length"] = [str(len(self.content))]
        elif 'Transfer-Encoding' in self.headers:
            headers["Content-Length"] = ["0"]
        proto = "HTTP/%s.%s %s %s"%(self.httpversion[0], self.httpversion[1], self.code, str(self.msg))
        data = (proto, str(headers))
        return FMT%data

    def _assemble(self):
        """
            Assembles the response for transmission to the client. We make some
            modifications to make sure interception works properly.

            Returns None if the request cannot be assembled.
        """
        if self.content == CONTENT_MISSING:
            return None
        head = self._assemble_head()
        if self.content:
            return head + self.content
        else:
            return head

    def replace(self, pattern, repl, *args, **kwargs):
        """
            Replaces a regular expression pattern with repl in both the headers
            and the body of the response. Encoded content will be decoded
            before replacement, and re-encoded afterwards.

            Returns the number of replacements made.
        """
        with decoded(self):
            self.content, c = utils.safe_subn(pattern, repl, self.content, *args, **kwargs)
        c += self.headers.replace(pattern, repl, *args, **kwargs)
        return c

    def get_header_size(self):
        FMT = '%s\r\n%s\r\n'
        proto = "HTTP/%s.%s %s %s"%(self.httpversion[0], self.httpversion[1], self.code, str(self.msg))
        assembled_header = FMT % (proto, str(self.headers))
        return len(assembled_header)

    def get_cookies(self):
        cookie_headers = self.headers.get("set-cookie")
        if not cookie_headers:
            return None

        cookies = []
        for header in cookie_headers:
            pairs = [pair.partition("=") for pair in header.split(';')]
            cookie_name = pairs[0][0] # the key of the first key/value pairs
            cookie_value = pairs[0][2] # the value of the first key/value pairs
            cookie_parameters = {key.strip().lower():value.strip() for key,sep,value in pairs[1:]}
            cookies.append((cookie_name, (cookie_value, cookie_parameters)))
        return dict(cookies)


class ClientDisconnect:
    """
        A client disconnection event.

        Exposes the following attributes:

            client_conn: ClientConnect object.
    """
    def __init__(self, client_conn):
        self.client_conn = client_conn


class ClientConnect(StateObject):
    """
        A single client connection. Each connection can result in multiple HTTP
        Requests.

        Exposes the following attributes:

            address: (address, port) tuple, or None if the connection is replayed.
            requestcount: Number of requests created by this client connection.
            close: Is the client connection closed?
            error: Error string or None.
    """
    def __init__(self, address):
        """
            address is an (address, port) tuple, or None if this connection has
            been replayed from within mitmproxy.
        """
        self.address = address
        self.close = False
        self.error = None

    def __str__(self):
        if self.address:
            return "%s:%d"%(self.address[0],self.address[1])

    def _load_state(self, state):
        self.close = True
        self.error = state["error"]
        self.requestcount = state["requestcount"]

    def _get_state(self):
        return dict(
            address = list(self.address),
            requestcount = -1, # FIXME self.requestcount,
            error = self.error,
        )

    @classmethod
    def _from_state(klass, state):
        if state:
            k = klass(state["address"])
            k._load_state(state)
            return k
        else:
            return None

    def copy(self):
        return copy.copy(self)


class Error(StateObject):
    """
        An Error.

        This is distinct from an HTTP error response (say, a code 500), which
        is represented by a normal Response object. This class is responsible
        for indicating errors that fall outside of normal HTTP communications,
        like interrupted connections, timeouts, protocol errors.

        Exposes the following attributes:

            request: Request object
            msg: Message describing the error
            timestamp: Seconds since the epoch
    """
    def __init__(self, request, msg, timestamp=None):
        self.request, self.msg = request, msg
        self.timestamp = timestamp or utils.timestamp()

    def _load_state(self, state):
        self.msg = state["msg"]
        self.timestamp = state["timestamp"]

    def copy(self):
        c = copy.copy(self)
        return c

    def _get_state(self):
        return dict(
            msg = self.msg,
            timestamp = self.timestamp,
        )

    @classmethod
    def _from_state(klass, request, state):
        return klass(
            request,
            state["msg"],
            state["timestamp"],
        )

    def replace(self, pattern, repl, *args, **kwargs):
        """
            Replaces a regular expression pattern with repl in both the headers
            and the body of the request. Returns the number of replacements
            made.

            FIXME: Is replace useful on an Error object??
        """
        self.msg, c = utils.safe_subn(pattern, repl, self.msg, *args, **kwargs)
        return c


class ClientPlaybackState:
    def __init__(self, flows, exit):
        self.flows, self.exit = flows, exit
        self.current = None

    def count(self):
        return len(self.flows)

    def done(self):
        if len(self.flows) == 0 and not self.current:
            return True
        return False

    def clear(self, flow):
        """
           A request has returned in some way - if this is the one we're
           servicing, go to the next flow.
        """
        if flow is self.current:
            self.current = None

    def tick(self, master, testing=False):
        """
            testing: Disables actual replay for testing.
        """
        if self.flows and not self.current:
            n = self.flows.pop(0)
            n.request.reply = controller.DummyReply()
            n.request.client_conn = None
            self.current = master.handle_request(n.request)
            if not testing and not self.current.response:
                master.replay_request(self.current) # pragma: no cover
            elif self.current.response:
                master.handle_response(self.current.response)


class ServerPlaybackState:
    def __init__(self, headers, flows, exit, nopop):
        """
            headers: Case-insensitive list of request headers that should be
            included in request-response matching.
        """
        self.headers, self.exit, self.nopop = headers, exit, nopop
        self.fmap = {}
        for i in flows:
            if i.response:
                l = self.fmap.setdefault(self._hash(i), [])
                l.append(i)

    def count(self):
        return sum(len(i) for i in self.fmap.values())

    def _hash(self, flow):
        """
            Calculates a loose hash of the flow request.
        """
        r = flow.request
        key = [
            str(r.host),
            str(r.port),
            str(r.scheme),
            str(r.method),
            str(r.path),
            str(r.content),
        ]
        if self.headers:
            hdrs = []
            for i in self.headers:
                v = r.headers[i]
                # Slightly subtle: we need to convert everything to strings
                # to prevent a mismatch between unicode/non-unicode.
                v = [str(x) for x in v]
                hdrs.append((i, v))
            key.append(repr(hdrs))
        return hashlib.sha256(repr(key)).digest()

    def next_flow(self, request):
        """
            Returns the next flow object, or None if no matching flow was
            found.
        """
        l = self.fmap.get(self._hash(request))
        if not l:
            return None

        if self.nopop:
            return l[0]
        else:
            return l.pop(0)



class StickyCookieState:
    def __init__(self, flt):
        """
            flt: Compiled filter.
        """
        self.jar = {}
        self.flt = flt

    def ckey(self, m, f):
        """
            Returns a (domain, port, path) tuple.
        """
        return (
            m["domain"] or f.request.host,
            f.request.port,
            m["path"] or "/"
        )

    def domain_match(self, a, b):
        if cookielib.domain_match(a, b):
            return True
        elif cookielib.domain_match(a, b.strip(".")):
            return True
        return False

    def handle_response(self, f):
        for i in f.response.headers["set-cookie"]:
            # FIXME: We now know that Cookie.py screws up some cookies with
            # valid RFC 822/1123 datetime specifications for expiry. Sigh.
            c = Cookie.SimpleCookie(str(i))
            m = c.values()[0]
            k = self.ckey(m, f)
            if self.domain_match(f.request.host, k[0]):
                self.jar[self.ckey(m, f)] = m

    def handle_request(self, f):
        l = []
        if f.match(self.flt):
            for i in self.jar.keys():
                match = [
                    self.domain_match(f.request.host, i[0]),
                    f.request.port == i[1],
                    f.request.path.startswith(i[2])
                ]
                if all(match):
                    l.append(self.jar[i].output(header="").strip())
        if l:
            f.request.stickycookie = True
            f.request.headers["cookie"] = l


class StickyAuthState:
    def __init__(self, flt):
        """
            flt: Compiled filter.
        """
        self.flt = flt
        self.hosts = {}

    def handle_request(self, f):
        if "authorization" in f.request.headers:
            self.hosts[f.request.host] = f.request.headers["authorization"]
        elif f.match(self.flt):
            if f.request.host in self.hosts:
                f.request.headers["authorization"] = self.hosts[f.request.host]


class Flow:
    """
        A Flow is a collection of objects representing a single HTTP
        transaction. The main attributes are:

            request: Request object
            response: Response object
            error: Error object

        Note that it's possible for a Flow to have both a response and an error
        object. This might happen, for instance, when a response was received
        from the server, but there was an error sending it back to the client.

        The following additional attributes are exposed:

            intercepting: Is this flow currently being intercepted?
    """
    def __init__(self, request):
        self.request = request
        self.response, self.error = None, None
        self.intercepting = False
        self._backup = None

    def copy(self):
        rc = self.request.copy()
        f = Flow(rc)
        if self.response:
            f.response = self.response.copy()
            f.response.request = rc
        if self.error:
            f.error = self.error.copy()
            f.error.request = rc
        return f

    @classmethod
    def _from_state(klass, state):
        f = klass(None)
        f._load_state(state)
        return f

    def _get_state(self):
        d = 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,
            version = version.IVERSION
        )
        return d

    def _load_state(self, state):
        if self.request:
            self.request._load_state(state["request"])
        else:
            self.request = Request._from_state(state["request"])

        if state["response"]:
            if self.response:
                self.response._load_state(state["response"])
            else:
                self.response = Response._from_state(self.request, state["response"])
        else:
            self.response = None

        if state["error"]:
            if self.error:
                self.error._load_state(state["error"])
            else:
                self.error = Error._from_state(self.request, state["error"])
        else:
            self.error = None

    def modified(self):
        """
            Has this Flow been modified?
        """
        # FIXME: Save a serialization in backup, compare current with
        # backup to detect if flow has _really_ been modified.
        if self._backup:
            return True
        else:
            return False

    def backup(self, force=False):
        """
            Save a backup of this Flow, which can be reverted to using a
            call to .revert().
        """
        if not self._backup:
            self._backup = self._get_state()

    def revert(self):
        """
            Revert to the last backed up state.
        """
        if self._backup:
            self._load_state(self._backup)
            self._backup = None

    def match(self, f):
        """
            Match this flow against a compiled filter expression. Returns True
            if matched, False if not.

            If f is a string, it will be compiled as a filter expression. If
            the expression is invalid, ValueError is raised.
        """
        if isinstance(f, basestring):
            f = filt.parse(f)
            if not f:
                raise ValueError("Invalid filter expression.")
        if f:
            return f(self)
        return True

    def kill(self, master):
        """
            Kill this request.
        """
        self.error = Error(self.request, "Connection killed")
        self.error.reply = controller.DummyReply()
        if self.request and not self.request.reply.acked:
            self.request.reply(proxy.KILL)
        elif self.response and not self.response.reply.acked:
            self.response.reply(proxy.KILL)
        master.handle_error(self.error)
        self.intercepting = False

    def intercept(self):
        """
            Intercept this Flow. Processing will stop until accept_intercept is
            called.
        """
        self.intercepting = True

    def accept_intercept(self):
        """
            Continue with the flow - called after an intercept().
        """
        if self.request:
            if not self.request.reply.acked:
                self.request.reply()
            elif self.response and not self.response.reply.acked:
                self.response.reply()
            self.intercepting = False

    def replace(self, pattern, repl, *args, **kwargs):
        """
            Replaces a regular expression pattern with repl in all parts of the
            flow. Encoded content will be decoded before replacement, and
            re-encoded afterwards.

            Returns the number of replacements made.
        """
        c = self.request.replace(pattern, repl, *args, **kwargs)
        if self.response:
            c += self.response.replace(pattern, repl, *args, **kwargs)
        if self.error:
            c += self.error.replace(pattern, repl, *args, **kwargs)
        return c


class State(object):
    def __init__(self):
        self._flow_map = {}
        self._flow_list = []
        self.view = []

        # These are compiled filt expressions:
        self._limit = None
        self.intercept = None
        self._limit_txt = None

    @property
    def limit_txt(self):
        return self._limit_txt

    def flow_count(self):
        return len(self._flow_map)

    def index(self, f):
        return self._flow_list.index(f)

    def active_flow_count(self):
        c = 0
        for i in self._flow_list:
            if not i.response and not i.error:
                c += 1
        return c

    def add_request(self, req):
        """
            Add a request to the state. Returns the matching flow.
        """
        f = Flow(req)
        self._flow_list.append(f)
        self._flow_map[req] = f
        assert len(self._flow_list) == len(self._flow_map)
        if f.match(self._limit):
            self.view.append(f)
        return f

    def add_response(self, resp):
        """
            Add a response to the state. Returns the matching flow.
        """
        f = self._flow_map.get(resp.flow)
        if not f:
            return False
        f.response = resp
        if f.match(self._limit) and not f in self.view:
            self.view.append(f)
        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.request)
        if not f:
            return None
        f.error = err
        if f.match(self._limit) and not f in self.view:
            self.view.append(f)
        return f

    def load_flows(self, flows):
        self._flow_list.extend(flows)
        for i in flows:
            self._flow_map[i.request] = i
        self.recalculate_view()

    def set_limit(self, txt):
        if txt:
            f = filt.parse(txt)
            if not f:
                return "Invalid filter expression."
            self._limit = f
            self._limit_txt = txt
        else:
            self._limit = None
            self._limit_txt = None
        self.recalculate_view()

    def set_intercept(self, txt):
        if txt:
            f = filt.parse(txt)
            if not f:
                return "Invalid filter expression."
            self.intercept = f
            self.intercept_txt = txt
        else:
            self.intercept = None
            self.intercept_txt = None

    def recalculate_view(self):
        if self._limit:
            self.view = [i for i in self._flow_list if i.match(self._limit)]
        else:
            self.view = self._flow_list[:]

    def delete_flow(self, f):
        if f.request in self._flow_map:
            del self._flow_map[f.request]
        self._flow_list.remove(f)
        if f in self.view:
            self.view.remove(f)
        return True

    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 revert(self, f):
        f.revert()

    def killall(self, master):
        for i in self._flow_list:
            i.kill(master)


class FlowMaster(controller.Master):
    def __init__(self, server, state):
        controller.Master.__init__(self, server)
        self.state = state
        self.server_playback = None
        self.client_playback = None
        self.kill_nonreplay = False
        self.scripts = []
        self.pause_scripts = False

        self.stickycookie_state = False
        self.stickycookie_txt = None

        self.stickyauth_state = False
        self.stickyauth_txt = None

        self.anticache = False
        self.anticomp = False
        self.refresh_server_playback = False
        self.replacehooks = ReplaceHooks()
        self.setheaders = SetHeaders()

        self.stream = None
        self.apps = AppRegistry()

    def start_app(self, host, port, external):
        if not external:
            self.apps.add(
                app.mapp,
                host,
                port
            )
        else:
            threading.Thread(target=app.mapp.run,kwargs={
                "use_reloader": False,
                "host": host,
                "port": port}).start()

    def add_event(self, e, level="info"):
        """
            level: info, error
        """
        pass

    def unload_scripts(self):
        for s in self.scripts[:]:
            s.unload()
            self.scripts.remove(s)

    def load_script(self, command):
        """
            Loads a script. Returns an error description if something went
            wrong.
        """
        try:
            s = script.Script(command, self)
        except script.ScriptError, v:
            return v.args[0]
        self.scripts.append(s)

    def run_single_script_hook(self, script, name, *args, **kwargs):
        if script and not self.pause_scripts:
            ret = script.run(name, *args, **kwargs)
            if not ret[0] and ret[1]:
                e = "Script error:\n" + ret[1][1]
                self.add_event(e, "error")

    def run_script_hook(self, name, *args, **kwargs):
        for script in self.scripts:
            self.run_single_script_hook(script, name, *args, **kwargs)

    def set_stickycookie(self, txt):
        if txt:
            flt = filt.parse(txt)
            if not flt:
                return "Invalid filter expression."
            self.stickycookie_state = StickyCookieState(flt)
            self.stickycookie_txt = txt
        else:
            self.stickycookie_state = None
            self.stickycookie_txt = None

    def set_stickyauth(self, txt):
        if txt:
            flt = filt.parse(txt)
            if not flt:
                return "Invalid filter expression."
            self.stickyauth_state = StickyAuthState(flt)
            self.stickyauth_txt = txt
        else:
            self.stickyauth_state = None
            self.stickyauth_txt = None

    def start_client_playback(self, flows, exit):
        """
            flows: List of flows.
        """
        self.client_playback = ClientPlaybackState(flows, exit)

    def stop_client_playback(self):
        self.client_playback = None

    def start_server_playback(self, flows, kill, headers, exit, nopop):
        """
            flows: List of flows.
            kill: Boolean, should we kill requests not part of the replay?
        """
        self.server_playback = ServerPlaybackState(headers, flows, exit, nopop)
        self.kill_nonreplay = kill

    def stop_server_playback(self):
        if self.server_playback.exit:
            self.shutdown()
        self.server_playback = None

    def do_server_playback(self, flow):
        """
            This method should be called by child classes in the handle_request
            handler. Returns True if playback has taken place, None if not.
        """
        if self.server_playback:
            rflow = self.server_playback.next_flow(flow)
            if not rflow:
                return None
            response = Response._from_state(flow.request, rflow.response._get_state())
            response._set_replay()
            flow.response = response
            if self.refresh_server_playback:
                response.refresh()
            flow.request.reply(response)
            if self.server_playback.count() == 0:
                self.stop_server_playback()
            return True
        return None

    def tick(self, q):
        if self.client_playback:
            e = [
                self.client_playback.done(),
                self.client_playback.exit,
                self.state.active_flow_count() == 0
            ]
            if all(e):
                self.shutdown()
            self.client_playback.tick(self)

        return controller.Master.tick(self, q)

    def duplicate_flow(self, f):
        return self.load_flow(f.copy())

    def load_flow(self, f):
        """
            Loads a flow, and returns a new flow object.
        """
        if f.request:
            f.request.reply = controller.DummyReply()
            fr = self.handle_request(f.request)
        if f.response:
            f.response.reply = controller.DummyReply()
            self.handle_response(f.response)
        if f.error:
            f.error.reply = controller.DummyReply()
            self.handle_error(f.error)
        return fr

    def load_flows(self, fr):
        """
            Load flows from a FlowReader object.
        """
        for i in fr.stream():
            self.load_flow(i)

    def process_new_request(self, f):
        if self.stickycookie_state:
            self.stickycookie_state.handle_request(f)
        if self.stickyauth_state:
            self.stickyauth_state.handle_request(f)

        if self.anticache:
            f.request.anticache()
        if self.anticomp:
            f.request.anticomp()

        if self.server_playback:
            pb = self.do_server_playback(f)
            if not pb:
                if self.kill_nonreplay:
                    f.kill(self)
                else:
                    f.request.reply()

    def process_new_response(self, f):
        if self.stickycookie_state:
            self.stickycookie_state.handle_response(f)

    def replay_request(self, f, block=False):
        """
            Returns None if successful, or error message if not.
        """
        if f.intercepting:
            return "Can't replay while intercepting..."
        if f.request.content == CONTENT_MISSING:
            return "Can't replay request with missing content..."
        if f.request:
            f.request._set_replay()
            if f.request.content:
                f.request.headers["Content-Length"] = [str(len(f.request.content))]
            f.response = None
            f.error = None
            self.process_new_request(f)
            rt = proxy.RequestReplayThread(
                    self.server.config,
                    f,
                    self.masterq,
                )
            rt.start() # pragma: no cover
            if block:
                rt.join()

    def handle_clientconnect(self, cc):
        self.run_script_hook("clientconnect", cc)
        cc.reply()

    def handle_clientdisconnect(self, r):
        self.run_script_hook("clientdisconnect", r)
        r.reply()

    def handle_serverconnection(self, sc):
        # To unify the mitmproxy script API, we call the script hook
        # "serverconnect" rather than "serverconnection".  As things are handled
        # differently in libmproxy (ClientConnect + ClientDisconnect vs
        # ServerConnection class), there is no "serverdisonnect" event at the
        # moment.
        self.run_script_hook("serverconnect", sc)
        sc.reply()

    def handle_error(self, r):
        f = self.state.add_error(r)
        if f:
            self.run_script_hook("error", f)
        if self.client_playback:
            self.client_playback.clear(f)
        r.reply()
        return f

    def handle_request(self, r):
        if False and r.is_live(): # FIXME
            app = self.apps.get(r)
            if app:
                # FIXME: for the tcp proxy, use flow.client_conn.wfile
                err = app.serve(r, r.wfile, **{"mitmproxy.master": self})
                if err:
                    self.add_event("Error in wsgi app. %s"%err, "error")
                r.reply(proxy.KILL)
                return
        f = self.state.add_request(r)
        self.replacehooks.run(f)
        self.setheaders.run(f)
        self.run_script_hook("request", f)
        self.process_new_request(f)
        return f

    def handle_response(self, r):
        f = self.state.add_response(r)
        if f:
            self.replacehooks.run(f)
            self.setheaders.run(f)
            self.run_script_hook("response", f)
            if self.client_playback:
                self.client_playback.clear(f)
            self.process_new_response(f)
            if self.stream:
                self.stream.add(f)
        else:
            r.reply()
        return f

    def shutdown(self):
        self.unload_scripts()
        controller.Master.shutdown(self)
        if self.stream:
            for i in self.state._flow_list:
                if not i.response:
                    self.stream.add(i)
            self.stop_stream()

    def start_stream(self, fp, filt):
        self.stream = FilteredFlowWriter(fp, filt)

    def stop_stream(self):
        self.stream.fo.close()
        self.stream = None



class FlowWriter:
    def __init__(self, fo):
        self.fo = fo

    def add(self, flow):
        d = flow._get_state()
        tnetstring.dump(d, self.fo)


class FlowReadError(Exception):
    @property
    def strerror(self):
        return self.args[0]


class FlowReader:
    def __init__(self, fo):
        self.fo = fo

    def stream(self):
        """
            Yields Flow objects from the dump.
        """
        off = 0
        try:
            while 1:
                data = tnetstring.load(self.fo)
                if tuple(data["version"][:2]) != version.IVERSION[:2]:
                    v = ".".join(str(i) for i in data["version"])
                    raise FlowReadError("Incompatible serialized data version: %s"%v)
                off = self.fo.tell()
                yield Flow._from_state(data)
        except ValueError, v:
            # Error is due to EOF
            if self.fo.tell() == off and self.fo.read() == '':
                return
            raise FlowReadError("Invalid data format.")


class FilteredFlowWriter:
    def __init__(self, fo, filt):
        self.fo = fo
        self.filt = filt

    def add(self, f):
        if self.filt and not f.match(self.filt):
            return
        d = f._get_state()
        tnetstring.dump(d, self.fo)