mitmproxy/libmproxy/flow.py

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2012-02-23 02:52:01 +00:00
# Copyright (C) 2012 Aldo Cortesi
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
This module provides more sophisticated flow tracking. These match requests
with their responses, and provide filtering and interception facilities.
"""
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import hashlib, Cookie, cookielib, copy, re, urlparse, os
import time, urllib
import tnetstring, filt, script, utils, encoding, proxy
from email.utils import parsedate_tz, formatdate, mktime_tz
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from netlib import odict, http, certutils
import controller, version
HDR_FORM_URLENCODED = "application/x-www-form-urlencoded"
CONTENT_MISSING = 0
ODict = odict.ODict
ODictCaseless = odict.ODictCaseless
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
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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 ScriptContext:
def __init__(self, master):
self._master = master
def log(self, *args, **kwargs):
"""
Logs an event.
How this is handled depends on the front-end. mitmdump will display
events if the eventlog flag ("-e") was passed. mitmproxy sends
output to the eventlog for display ("v" keyboard shortcut).
"""
self._master.add_event(*args, **kwargs)
def duplicate_flow(self, f):
"""
Returns a duplicate of the specified flow. The flow is also
injected into the current state, and is ready for editing, replay,
etc.
"""
self._master.pause_scripts = True
f = self._master.duplicate_flow(f)
self._master.pause_scripts = False
return f
def replay_request(self, f):
"""
Replay the request on the current flow. The response will be added
to the flow object.
"""
self._master.replay_request(f)
class decoded(object):
"""
A context manager that decodes a request, response or error, and then
re-encodes it with the same encoding after execution of the block.
Example:
with decoded(request):
request.content = request.content.replace("foo", "bar")
"""
def __init__(self, o):
self.o = o
ce = o.headers.get_first("content-encoding")
if ce in encoding.ENCODINGS:
self.ce = ce
else:
self.ce = None
def __enter__(self):
if self.ce:
self.o.decode()
def __exit__(self, type, value, tb):
if self.ce:
self.o.encode(self.ce)
class StateObject:
def __eq__(self, other):
try:
return self._get_state() == other._get_state()
except AttributeError:
return False
class HTTPMsg(StateObject):
def get_decoded_content(self):
"""
Returns the decoded content based on the current Content-Encoding header.
Doesn't change the message iteself or its headers.
"""
ce = self.headers.get_first("content-encoding")
if not self.content or ce not in encoding.ENCODINGS:
return self.content
return encoding.decode(ce, self.content)
def decode(self):
"""
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Decodes content based on the current Content-Encoding header, then
removes the header. If there is no Content-Encoding header, no
action is taken.
"""
ce = self.headers.get_first("content-encoding")
if not self.content or ce not in encoding.ENCODINGS:
return
self.content = encoding.decode(
ce,
self.content
)
del self.headers["content-encoding"]
def encode(self, e):
"""
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Encodes content with the encoding e, where e is "gzip", "deflate"
or "identity".
"""
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# FIXME: Error if there's an existing encoding header?
self.content = encoding.encode(e, self.content)
self.headers["content-encoding"] = [e]
def size(self, **kwargs):
"""
Size in bytes of a fully rendered message, including headers and
HTTP lead-in.
"""
hl = len(self._assemble_head(**kwargs))
if self.content:
return hl + len(self.content)
else:
return hl
def get_content_type(self):
return self.headers.get_first("content-type")
def get_transmitted_size(self):
# FIXME: this is inprecise in case chunking is used
# (we should count the chunking headers)
if not self.content:
return 0
return len(self.content)
class Request(HTTPMsg):
"""
An HTTP request.
Exposes the following attributes:
client_conn: ClientConnect object, or None if this is a replay.
headers: ODictCaseless 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.
scheme: URL scheme (http/https)
host: Host portion of the URL
port: Destination port
path: Path portion of the URL
timestamp_start: Seconds since the epoch signifying request transmission started
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method: HTTP method
timestamp_end: Seconds since the epoch signifying request transmission ended
"""
def __init__(self, client_conn, httpversion, host, port, scheme, method, path, headers, content, timestamp_start=None, timestamp_end=None):
assert isinstance(headers, ODictCaseless)
self.client_conn = client_conn
self.httpversion = httpversion
self.host, self.port, self.scheme = host, port, scheme
self.method, self.path, self.headers, self.content = method, path, headers, content
self.timestamp_start = timestamp_start or utils.timestamp()
self.timestamp_end = max(timestamp_end or utils.timestamp(), timestamp_start)
self.close = False
# Have this request's cookies been modified by sticky cookies or auth?
self.stickycookie = False
self.stickyauth = False
def anticache(self):
"""
Modifies this request to remove headers that might produce a cached
response. That is, we remove ETags and If-Modified-Since headers.
"""
delheaders = [
"if-modified-since",
"if-none-match",
]
for i in delheaders:
del self.headers[i]
def anticomp(self):
"""
Modifies this request to remove headers that will compress the
resource's data.
"""
self.headers["accept-encoding"] = ["identity"]
def constrain_encoding(self):
"""
Limits the permissible Accept-Encoding values, based on what we can
decode appropriately.
"""
if self.headers["accept-encoding"]:
self.headers["accept-encoding"] = [', '.join(
e for e in encoding.ENCODINGS if e in self.headers["accept-encoding"][0]
)]
def _set_replay(self):
self.client_conn = None
def is_replay(self):
"""
Is this request a replay?
"""
if self.client_conn:
return False
else:
return True
def _load_state(self, state):
if state["client_conn"]:
if self.client_conn:
self.client_conn._load_state(state["client_conn"])
else:
self.client_conn = ClientConnect._from_state(state["client_conn"])
else:
self.client_conn = None
self.host = state["host"]
self.port = state["port"]
self.scheme = state["scheme"]
self.method = state["method"]
self.path = state["path"]
self.headers = ODictCaseless._from_state(state["headers"])
self.content = state["content"]
self.timestamp_start = state["timestamp_start"]
self.timestamp_end = state["timestamp_end"]
def _get_state(self):
return dict(
client_conn = self.client_conn._get_state() if self.client_conn else None,
httpversion = self.httpversion,
host = self.host,
port = self.port,
scheme = self.scheme,
method = self.method,
path = self.path,
headers = self.headers._get_state(),
content = self.content,
timestamp_start = self.timestamp_start,
timestamp_end = self.timestamp_end
)
@classmethod
def _from_state(klass, state):
return klass(
ClientConnect._from_state(state["client_conn"]),
tuple(state["httpversion"]),
str(state["host"]),
state["port"],
str(state["scheme"]),
str(state["method"]),
str(state["path"]),
ODictCaseless._from_state(state["headers"]),
state["content"],
state["timestamp_start"],
state["timestamp_end"],
)
def __hash__(self):
return id(self)
def copy(self):
c = copy.copy(self)
c.headers = self.headers.copy()
return c
def get_form_urlencoded(self):
"""
Retrieves the URL-encoded form data, returning an ODict object.
Returns an empty ODict if there is no data or the content-type
indicates non-form data.
"""
if self.content and self.headers.in_any("content-type", HDR_FORM_URLENCODED, True):
return ODict(utils.urldecode(self.content))
return ODict([])
def set_form_urlencoded(self, odict):
"""
Sets the body to the URL-encoded form data, and adds the
appropriate content-type header. Note that this will destory the
existing body if there is one.
"""
# FIXME: If there's an existing content-type header indicating a
# url-encoded form, leave it alone.
self.headers["Content-Type"] = [HDR_FORM_URLENCODED]
self.content = utils.urlencode(odict.lst)
def get_path_components(self):
"""
Returns the path components of the URL as a list of strings.
Components are unquoted.
"""
_, _, path, _, _, _ = urlparse.urlparse(self.get_url())
return [urllib.unquote(i) for i in path.split("/") if i]
def set_path_components(self, lst):
"""
Takes a list of strings, and sets the path component of the URL.
Components are quoted.
"""
lst = [urllib.quote(i, safe="") for i in lst]
path = "/" + "/".join(lst)
scheme, netloc, _, params, query, fragment = urlparse.urlparse(self.get_url())
self.set_url(urlparse.urlunparse([scheme, netloc, path, params, query, fragment]))
def get_query(self):
"""
Gets the request query string. Returns an ODict object.
"""
_, _, _, _, query, _ = urlparse.urlparse(self.get_url())
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if query:
return ODict(utils.urldecode(query))
return ODict([])
def set_query(self, odict):
"""
Takes an ODict object, and sets the request query string.
"""
scheme, netloc, path, params, _, fragment = urlparse.urlparse(self.get_url())
query = utils.urlencode(odict.lst)
self.set_url(urlparse.urlunparse([scheme, netloc, path, params, query, fragment]))
def get_url(self):
"""
Returns a URL string, constructed from the Request's URL compnents.
"""
return utils.unparse_url(self.scheme, self.host.encode("idna"), self.port, self.path).encode('ascii')
def set_url(self, url):
"""
Parses a URL specification, and updates the Request's information
accordingly.
Returns False if the URL was invalid, True if the request succeeded.
"""
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parts = http.parse_url(url)
if not parts:
return False
self.scheme, self.host, self.port, self.path = parts
return True
def get_cookies(self):
cookie_headers = self.headers.get("cookie")
if not cookie_headers:
return None
cookies = []
for header in cookie_headers:
pairs = [pair.partition("=") for pair in header.split(';')]
cookies.extend((pair[0],(pair[2],{})) for pair in pairs)
return dict(cookies)
def get_header_size(self):
FMT = '%s %s HTTP/%s.%s\r\n%s\r\n'
assembled_header = FMT % (
self.method,
self.path,
self.httpversion[0],
self.httpversion[1],
str(self.headers)
)
return len(assembled_header)
def _assemble_head(self, proxy=False):
FMT = '%s %s HTTP/%s.%s\r\n%s\r\n'
FMT_PROXY = '%s %s://%s:%s%s HTTP/%s.%s\r\n%s\r\n'
headers = self.headers.copy()
utils.del_all(
headers,
[
'proxy-connection',
'keep-alive',
'connection',
'transfer-encoding'
]
)
if not 'host' in headers:
headers["host"] = [utils.hostport(self.scheme, self.host, self.port)]
content = self.content
if content:
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headers["content-length"] = [str(len(content))]
else:
content = ""
if self.close:
headers["connection"] = ["close"]
if not proxy:
return FMT % (
self.method,
self.path,
self.httpversion[0],
self.httpversion[1],
str(headers)
)
else:
return FMT_PROXY % (
self.method,
self.scheme,
self.host,
self.port,
self.path,
self.httpversion[0],
self.httpversion[1],
str(headers)
)
def _assemble(self, _proxy = False):
"""
Assembles the request for transmission to the server. 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(_proxy)
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 request. 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)
self.path, pc = utils.safe_subn(pattern, repl, self.path, *args, **kwargs)
c += pc
c += self.headers.replace(pattern, repl, *args, **kwargs)
return c
class Response(HTTPMsg):
"""
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 = max(timestamp_end or utils.timestamp(), timestamp_start)
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))]
proto = "HTTP/%s.%s %s %s"%(self.httpversion[0], self.httpversion[1], self.code, str(self.msg))
data = (proto, str(headers))
return FMT%data
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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?
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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.requestcount = 0
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self.error = None
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 = 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
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class ClientPlaybackState:
def __init__(self, flows, exit):
self.flows, self.exit = flows, exit
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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
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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:
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n = self.flows.pop(0)
n.request.client_conn = None
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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)
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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)
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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:
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"""
A Flow is a collection of objects representing a single HTTP
transaction. The main attributes are:
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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
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def copy(self):
rc = self.request.copy()
f = Flow(rc)
if self.response:
f.response = self.response.copy()
f.response.request = rc
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if self.error:
f.error = self.error.copy()
f.error.request = rc
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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):
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"""
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):
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"""
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):
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"""
Revert to the last backed up state.
"""
if self._backup:
self._load_state(self._backup)
self._backup = None
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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.
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"""
if isinstance(f, basestring):
f = filt.parse(f)
if not f:
raise ValueError("Invalid filter expression.")
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if f:
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return f(self)
return True
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def kill(self, master):
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"""
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)
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master.handle_error(self.error)
self.intercepting = False
def intercept(self):
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"""
Intercept this Flow. Processing will stop until accept_intercept is
called.
"""
self.intercepting = True
def accept_intercept(self):
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"""
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
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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.request)
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.
"""
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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.match(self._limit):
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.script = None
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()
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self.stream = None
def add_event(self, e, level="info"):
"""
level: info, error
"""
pass
def get_script(self, path):
"""
Returns an (error, script) tuple.
"""
s = script.Script(path, ScriptContext(self))
try:
s.load()
except script.ScriptError, v:
return (v.args[0], None)
ret = s.run("start")
if not ret[0] and ret[1]:
return ("Error in script start:\n\n" + ret[1][1], None)
return (None, s)
def load_script(self, path):
"""
Loads a script. Returns an error description if something went
wrong. If path is None, the current script is terminated.
"""
if path is None:
self.run_script_hook("done")
self.script = None
else:
r = self.get_script(path)
if r[0]:
return r[0]
else:
if self.script:
self.run_script_hook("done")
self.script = r[1]
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()
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self.client_playback.tick(self)
return controller.Master.tick(self, q)
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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.
"""
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if f.request:
f.request.reply = controller.DummyReply()
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fr = self.handle_request(f.request)
if f.response:
f.response.reply = controller.DummyReply()
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self.handle_response(f.response)
if f.error:
f.error.reply = controller.DummyReply()
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self.handle_error(f.error)
return fr
def load_flows(self, fr):
"""
Load flows from a FlowReader object.
"""
for i in fr.stream():
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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 run_script_hook(self, name, *args, **kwargs):
if self.script and not self.pause_scripts:
ret = self.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 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_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):
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:
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self.replacehooks.run(f)
self.setheaders.run(f)
self.run_script_hook("response", f)
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if self.client_playback:
self.client_playback.clear(f)
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self.process_new_response(f)
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if self.stream:
self.stream.add(f)
else:
r.reply()
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return f
def shutdown(self):
if self.script:
self.load_script(None)
controller.Master.shutdown(self)
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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):
self.stream = FlowWriter(fp)
def stop_stream(self):
self.stream.fo.close()
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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)
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if tuple(data["version"]) != version.IVERSION:
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.")