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oreos!

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Kenneth Reitz
2011-11-19 15:15:30 -05:00
parent 5a7fbbb00d
commit 43854067d4
4 changed files with 1197 additions and 0 deletions
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requests/packages/oreos/__init__.py
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# -*- coding: utf-8 -*-
from .core import *
requests/packages/oreos/core.py
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# -*- coding: utf-8 -*-
"""
oreos.core
~~~~~~~~~~
The creamy white center.
"""
from .structures import MultiDict
from .monkeys import SimpleCookie
def dict_from_string(s):
"""Returns a MultiDict with Cookies."""
cookies = MultiDict()
c = SimpleCookie()
c.load(s)
for k,v in c.items():
cookies.add(k, v.value)
return cookies
requests/packages/oreos/monkeys.py
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# -*- coding: utf-8 -*-
"""
oreos.monkeys
~~~~~~~~~~~~~
Monkeypatches.
"""
#!/usr/bin/env python
#
####
# Copyright 2000 by Timothy O'Malley <timo@alum.mit.edu>
#
# All Rights Reserved
#
# Permission to use, copy, modify, and distribute this software
# and its documentation for any purpose and without fee is hereby
# granted, provided that the above copyright notice appear in all
# copies and that both that copyright notice and this permission
# notice appear in supporting documentation, and that the name of
# Timothy O'Malley not be used in advertising or publicity
# pertaining to distribution of the software without specific, written
# prior permission.
#
# Timothy O'Malley DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS
# SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
# AND FITNESS, IN NO EVENT SHALL Timothy O'Malley BE LIABLE FOR
# ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
# WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS
# ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
# PERFORMANCE OF THIS SOFTWARE.
#
####
#
# Id: Cookie.py,v 2.29 2000/08/23 05:28:49 timo Exp
# by Timothy O'Malley <timo@alum.mit.edu>
#
# Cookie.py is a Python module for the handling of HTTP
# cookies as a Python dictionary. See RFC 2109 for more
# information on cookies.
#
# The original idea to treat Cookies as a dictionary came from
# Dave Mitchell (davem@magnet.com) in 1995, when he released the
# first version of nscookie.py.
#
####
r"""
Here's a sample session to show how to use this module.
At the moment, this is the only documentation.
The Basics
----------
Importing is easy..
>>> import Cookie
Most of the time you start by creating a cookie. Cookies come in
three flavors, each with slightly different encoding semantics, but
more on that later.
>>> C = Cookie.SimpleCookie()
>>> C = Cookie.SerialCookie()
>>> C = Cookie.SmartCookie()
[Note: Long-time users of Cookie.py will remember using
Cookie.Cookie() to create an Cookie object. Although deprecated, it
is still supported by the code. See the Backward Compatibility notes
for more information.]
Once you've created your Cookie, you can add values just as if it were
a dictionary.
>>> C = Cookie.SmartCookie()
>>> C["fig"] = "newton"
>>> C["sugar"] = "wafer"
>>> C.output()
'Set-Cookie: fig=newton\r\nSet-Cookie: sugar=wafer'
Notice that the printable representation of a Cookie is the
appropriate format for a Set-Cookie: header. This is the
default behavior. You can change the header and printed
attributes by using the .output() function
>>> C = Cookie.SmartCookie()
>>> C["rocky"] = "road"
>>> C["rocky"]["path"] = "/cookie"
>>> print C.output(header="Cookie:")
Cookie: rocky=road; Path=/cookie
>>> print C.output(attrs=[], header="Cookie:")
Cookie: rocky=road
The load() method of a Cookie extracts cookies from a string. In a
CGI script, you would use this method to extract the cookies from the
HTTP_COOKIE environment variable.
>>> C = Cookie.SmartCookie()
>>> C.load("chips=ahoy; vienna=finger")
>>> C.output()
'Set-Cookie: chips=ahoy\r\nSet-Cookie: vienna=finger'
The load() method is darn-tootin smart about identifying cookies
within a string. Escaped quotation marks, nested semicolons, and other
such trickeries do not confuse it.
>>> C = Cookie.SmartCookie()
>>> C.load('keebler="E=everybody; L=\\"Loves\\"; fudge=\\012;";')
>>> print C
Set-Cookie: keebler="E=everybody; L=\"Loves\"; fudge=\012;"
Each element of the Cookie also supports all of the RFC 2109
Cookie attributes. Here's an example which sets the Path
attribute.
>>> C = Cookie.SmartCookie()
>>> C["oreo"] = "doublestuff"
>>> C["oreo"]["path"] = "/"
>>> print C
Set-Cookie: oreo=doublestuff; Path=/
Each dictionary element has a 'value' attribute, which gives you
back the value associated with the key.
>>> C = Cookie.SmartCookie()
>>> C["twix"] = "none for you"
>>> C["twix"].value
'none for you'
A Bit More Advanced
-------------------
As mentioned before, there are three different flavors of Cookie
objects, each with different encoding/decoding semantics. This
section briefly discusses the differences.
SimpleCookie
The SimpleCookie expects that all values should be standard strings.
Just to be sure, SimpleCookie invokes the str() builtin to convert
the value to a string, when the values are set dictionary-style.
>>> C = Cookie.SimpleCookie()
>>> C["number"] = 7
>>> C["string"] = "seven"
>>> C["number"].value
'7'
>>> C["string"].value
'seven'
>>> C.output()
'Set-Cookie: number=7\r\nSet-Cookie: string=seven'
SerialCookie
The SerialCookie expects that all values should be serialized using
cPickle (or pickle, if cPickle isn't available). As a result of
serializing, SerialCookie can save almost any Python object to a
value, and recover the exact same object when the cookie has been
returned. (SerialCookie can yield some strange-looking cookie
values, however.)
>>> C = Cookie.SerialCookie()
>>> C["number"] = 7
>>> C["string"] = "seven"
>>> C["number"].value
7
>>> C["string"].value
'seven'
>>> C.output()
'Set-Cookie: number="I7\\012."\r\nSet-Cookie: string="S\'seven\'\\012p1\\012."'
Be warned, however, if SerialCookie cannot de-serialize a value (because
it isn't a valid pickle'd object), IT WILL RAISE AN EXCEPTION.
SmartCookie
The SmartCookie combines aspects of each of the other two flavors.
When setting a value in a dictionary-fashion, the SmartCookie will
serialize (ala cPickle) the value *if and only if* it isn't a
Python string. String objects are *not* serialized. Similarly,
when the load() method parses out values, it attempts to de-serialize
the value. If it fails, then it fallsback to treating the value
as a string.
>>> C = Cookie.SmartCookie()
>>> C["number"] = 7
>>> C["string"] = "seven"
>>> C["number"].value
7
>>> C["string"].value
'seven'
>>> C.output()
'Set-Cookie: number="I7\\012."\r\nSet-Cookie: string=seven'
Backwards Compatibility
-----------------------
In order to keep compatibilty with earlier versions of Cookie.py,
it is still possible to use Cookie.Cookie() to create a Cookie. In
fact, this simply returns a SmartCookie.
>>> C = Cookie.Cookie()
>>> print C.__class__.__name__
SmartCookie
Finis.
""" #"
# ^
# |----helps out font-lock
#
# Import our required modules
#
import string
try:
from cPickle import dumps, loads
except ImportError:
from pickle import dumps, loads
import re, warnings
__all__ = ["CookieError","BaseCookie","SimpleCookie","SerialCookie",
"SmartCookie","Cookie"]
_nulljoin = ''.join
_semispacejoin = '; '.join
_spacejoin = ' '.join
#
# Define an exception visible to External modules
#
class CookieError(Exception):
pass
# These quoting routines conform to the RFC2109 specification, which in
# turn references the character definitions from RFC2068. They provide
# a two-way quoting algorithm. Any non-text character is translated
# into a 4 character sequence: a forward-slash followed by the
# three-digit octal equivalent of the character. Any '\' or '"' is
# quoted with a preceeding '\' slash.
#
# These are taken from RFC2068 and RFC2109.
# _LegalChars is the list of chars which don't require "'s
# _Translator hash-table for fast quoting
#
_LegalChars = string.ascii_letters + string.digits + "!#$%&'*+-.^_`|~[]_"
_Translator = {
'\000' : '\\000', '\001' : '\\001', '\002' : '\\002',
'\003' : '\\003', '\004' : '\\004', '\005' : '\\005',
'\006' : '\\006', '\007' : '\\007', '\010' : '\\010',
'\011' : '\\011', '\012' : '\\012', '\013' : '\\013',
'\014' : '\\014', '\015' : '\\015', '\016' : '\\016',
'\017' : '\\017', '\020' : '\\020', '\021' : '\\021',
'\022' : '\\022', '\023' : '\\023', '\024' : '\\024',
'\025' : '\\025', '\026' : '\\026', '\027' : '\\027',
'\030' : '\\030', '\031' : '\\031', '\032' : '\\032',
'\033' : '\\033', '\034' : '\\034', '\035' : '\\035',
'\036' : '\\036', '\037' : '\\037',
# Because of the way browsers really handle cookies (as opposed
# to what the RFC says) we also encode , and ;
',' : '\\054', ';' : '\\073',
'"' : '\\"', '\\' : '\\\\',
'\177' : '\\177', '\200' : '\\200', '\201' : '\\201',
'\202' : '\\202', '\203' : '\\203', '\204' : '\\204',
'\205' : '\\205', '\206' : '\\206', '\207' : '\\207',
'\210' : '\\210', '\211' : '\\211', '\212' : '\\212',
'\213' : '\\213', '\214' : '\\214', '\215' : '\\215',
'\216' : '\\216', '\217' : '\\217', '\220' : '\\220',
'\221' : '\\221', '\222' : '\\222', '\223' : '\\223',
'\224' : '\\224', '\225' : '\\225', '\226' : '\\226',
'\227' : '\\227', '\230' : '\\230', '\231' : '\\231',
'\232' : '\\232', '\233' : '\\233', '\234' : '\\234',
'\235' : '\\235', '\236' : '\\236', '\237' : '\\237',
'\240' : '\\240', '\241' : '\\241', '\242' : '\\242',
'\243' : '\\243', '\244' : '\\244', '\245' : '\\245',
'\246' : '\\246', '\247' : '\\247', '\250' : '\\250',
'\251' : '\\251', '\252' : '\\252', '\253' : '\\253',
'\254' : '\\254', '\255' : '\\255', '\256' : '\\256',
'\257' : '\\257', '\260' : '\\260', '\261' : '\\261',
'\262' : '\\262', '\263' : '\\263', '\264' : '\\264',
'\265' : '\\265', '\266' : '\\266', '\267' : '\\267',
'\270' : '\\270', '\271' : '\\271', '\272' : '\\272',
'\273' : '\\273', '\274' : '\\274', '\275' : '\\275',
'\276' : '\\276', '\277' : '\\277', '\300' : '\\300',
'\301' : '\\301', '\302' : '\\302', '\303' : '\\303',
'\304' : '\\304', '\305' : '\\305', '\306' : '\\306',
'\307' : '\\307', '\310' : '\\310', '\311' : '\\311',
'\312' : '\\312', '\313' : '\\313', '\314' : '\\314',
'\315' : '\\315', '\316' : '\\316', '\317' : '\\317',
'\320' : '\\320', '\321' : '\\321', '\322' : '\\322',
'\323' : '\\323', '\324' : '\\324', '\325' : '\\325',
'\326' : '\\326', '\327' : '\\327', '\330' : '\\330',
'\331' : '\\331', '\332' : '\\332', '\333' : '\\333',
'\334' : '\\334', '\335' : '\\335', '\336' : '\\336',
'\337' : '\\337', '\340' : '\\340', '\341' : '\\341',
'\342' : '\\342', '\343' : '\\343', '\344' : '\\344',
'\345' : '\\345', '\346' : '\\346', '\347' : '\\347',
'\350' : '\\350', '\351' : '\\351', '\352' : '\\352',
'\353' : '\\353', '\354' : '\\354', '\355' : '\\355',
'\356' : '\\356', '\357' : '\\357', '\360' : '\\360',
'\361' : '\\361', '\362' : '\\362', '\363' : '\\363',
'\364' : '\\364', '\365' : '\\365', '\366' : '\\366',
'\367' : '\\367', '\370' : '\\370', '\371' : '\\371',
'\372' : '\\372', '\373' : '\\373', '\374' : '\\374',
'\375' : '\\375', '\376' : '\\376', '\377' : '\\377'
}
_idmap = ''.join(chr(x) for x in xrange(256))
def _quote(str, LegalChars=_LegalChars,
idmap=_idmap, translate=string.translate):
#
# If the string does not need to be double-quoted,
# then just return the string. Otherwise, surround
# the string in doublequotes and precede quote (with a \)
# special characters.
#
if "" == translate(str, idmap, LegalChars):
return str
else:
return '"' + _nulljoin( map(_Translator.get, str, str) ) + '"'
# end _quote
_OctalPatt = re.compile(r"\\[0-3][0-7][0-7]")
_QuotePatt = re.compile(r"[\\].")
def _unquote(str):
# If there aren't any doublequotes,
# then there can't be any special characters. See RFC 2109.
if len(str) < 2:
return str
if str[0] != '"' or str[-1] != '"':
return str
# We have to assume that we must decode this string.
# Down to work.
# Remove the "s
str = str[1:-1]
# Check for special sequences. Examples:
# \012 --> \n
# \" --> "
#
i = 0
n = len(str)
res = []
while 0 <= i < n:
Omatch = _OctalPatt.search(str, i)
Qmatch = _QuotePatt.search(str, i)
if not Omatch and not Qmatch: # Neither matched
res.append(str[i:])
break
# else:
j = k = -1
if Omatch: j = Omatch.start(0)
if Qmatch: k = Qmatch.start(0)
if Qmatch and ( not Omatch or k < j ): # QuotePatt matched
res.append(str[i:k])
res.append(str[k+1])
i = k+2
else: # OctalPatt matched
res.append(str[i:j])
res.append( chr( int(str[j+1:j+4], 8) ) )
i = j+4
return _nulljoin(res)
# end _unquote
# The _getdate() routine is used to set the expiration time in
# the cookie's HTTP header. By default, _getdate() returns the
# current time in the appropriate "expires" format for a
# Set-Cookie header. The one optional argument is an offset from
# now, in seconds. For example, an offset of -3600 means "one hour ago".
# The offset may be a floating point number.
#
_weekdayname = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun']
_monthname = [None,
'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun',
'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec']
def _getdate(future=0, weekdayname=_weekdayname, monthname=_monthname):
from time import gmtime, time
now = time()
year, month, day, hh, mm, ss, wd, y, z = gmtime(now + future)
return "%s, %02d-%3s-%4d %02d:%02d:%02d GMT" % \
(weekdayname[wd], day, monthname[month], year, hh, mm, ss)
#
# A class to hold ONE key,value pair.
# In a cookie, each such pair may have several attributes.
# so this class is used to keep the attributes associated
# with the appropriate key,value pair.
# This class also includes a coded_value attribute, which
# is used to hold the network representation of the
# value. This is most useful when Python objects are
# pickled for network transit.
#
class Morsel(dict):
# RFC 2109 lists these attributes as reserved:
# path comment domain
# max-age secure version
#
# For historical reasons, these attributes are also reserved:
# expires
#
# This is an extension from Microsoft:
# httponly
#
# This dictionary provides a mapping from the lowercase
# variant on the left to the appropriate traditional
# formatting on the right.
_reserved = { "expires" : "expires",
"path" : "Path",
"comment" : "Comment",
"domain" : "Domain",
"max-age" : "Max-Age",
"secure" : "secure",
"httponly" : "httponly",
"version" : "Version",
}
def __init__(self):
# Set defaults
self.key = self.value = self.coded_value = None
# Set default attributes
for K in self._reserved:
dict.__setitem__(self, K, "")
# end __init__
def __setitem__(self, K, V):
K = K.lower()
if not K in self._reserved:
raise CookieError("Invalid Attribute %s" % K)
dict.__setitem__(self, K, V)
# end __setitem__
def isReservedKey(self, K):
return K.lower() in self._reserved
# end isReservedKey
def set(self, key, val, coded_val,
LegalChars=_LegalChars,
idmap=_idmap, translate=string.translate):
# First we verify that the key isn't a reserved word
# Second we make sure it only contains legal characters
if key.lower() in self._reserved:
raise CookieError("Attempt to set a reserved key: %s" % key)
if "" != translate(key, idmap, LegalChars):
raise CookieError("Illegal key value: %s" % key)
# It's a good key, so save it.
self.key = key
self.value = val
self.coded_value = coded_val
# end set
def output(self, attrs=None, header = "Set-Cookie:"):
return "%s %s" % ( header, self.OutputString(attrs) )
__str__ = output
def __repr__(self):
return '<%s: %s=%s>' % (self.__class__.__name__,
self.key, repr(self.value) )
def js_output(self, attrs=None):
# Print javascript
return """
<script type="text/javascript">
<!-- begin hiding
document.cookie = \"%s\";
// end hiding -->
</script>
""" % ( self.OutputString(attrs).replace('"',r'\"'), )
# end js_output()
def OutputString(self, attrs=None):
# Build up our result
#
result = []
RA = result.append
# First, the key=value pair
RA("%s=%s" % (self.key, self.coded_value))
# Now add any defined attributes
if attrs is None:
attrs = self._reserved
items = self.items()
items.sort()
for K,V in items:
if V == "": continue
if K not in attrs: continue
if K == "expires" and type(V) == type(1):
RA("%s=%s" % (self._reserved[K], _getdate(V)))
elif K == "max-age" and type(V) == type(1):
RA("%s=%d" % (self._reserved[K], V))
elif K == "secure":
RA(str(self._reserved[K]))
elif K == "httponly":
RA(str(self._reserved[K]))
else:
RA("%s=%s" % (self._reserved[K], V))
# Return the result
return _semispacejoin(result)
# end OutputString
# end Morsel class
#
# Pattern for finding cookie
#
# This used to be strict parsing based on the RFC2109 and RFC2068
# specifications. I have since discovered that MSIE 3.0x doesn't
# follow the character rules outlined in those specs. As a
# result, the parsing rules here are less strict.
#
_LegalCharsPatt = r"[\w\d!#%&'~_`><@,:/\$\*\+\-\.\^\|\)\(\?\}\{\=\[\]\_]"
_CookiePattern = re.compile(
r"(?x)" # This is a Verbose pattern
r"(?P<key>" # Start of group 'key'
""+ _LegalCharsPatt +"+?" # Any word of at least one letter, nongreedy
r")" # End of group 'key'
r"\s*=\s*" # Equal Sign
r"(?P<val>" # Start of group 'val'
r'"(?:[^\\"]|\\.)*"' # Any doublequoted string
r"|" # or
r"\w{3},\s[\w\d-]{9,11}\s[\d:]{8}\sGMT" # Special case for "expires" attr
r"|" # or
""+ _LegalCharsPatt +"*" # Any word or empty string
r")" # End of group 'val'
r"\s*;?" # Probably ending in a semi-colon
)
# At long last, here is the cookie class.
# Using this class is almost just like using a dictionary.
# See this module's docstring for example usage.
#
class BaseCookie(dict):
# A container class for a set of Morsels
#
def value_decode(self, val):
"""real_value, coded_value = value_decode(STRING)
Called prior to setting a cookie's value from the network
representation. The VALUE is the value read from HTTP
header.
Override this function to modify the behavior of cookies.
"""
return val, val
# end value_encode
def value_encode(self, val):
"""real_value, coded_value = value_encode(VALUE)
Called prior to setting a cookie's value from the dictionary
representation. The VALUE is the value being assigned.
Override this function to modify the behavior of cookies.
"""
strval = str(val)
return strval, strval
# end value_encode
def __init__(self, input=None):
if input: self.load(input)
# end __init__
def __set(self, key, real_value, coded_value):
"""Private method for setting a cookie's value"""
M = self.get(key, Morsel())
M.set(key, real_value, coded_value)
dict.__setitem__(self, key, M)
# end __set
def __setitem__(self, key, value):
"""Dictionary style assignment."""
rval, cval = self.value_encode(value)
self.__set(key, rval, cval)
# end __setitem__
def output(self, attrs=None, header="Set-Cookie:", sep="\015\012"):
"""Return a string suitable for HTTP."""
result = []
items = self.items()
items.sort()
for K,V in items:
result.append( V.output(attrs, header) )
return sep.join(result)
# end output
__str__ = output
def __repr__(self):
L = []
items = self.items()
items.sort()
for K,V in items:
L.append( '%s=%s' % (K,repr(V.value) ) )
return '<%s: %s>' % (self.__class__.__name__, _spacejoin(L))
def js_output(self, attrs=None):
"""Return a string suitable for JavaScript."""
result = []
items = self.items()
items.sort()
for K,V in items:
result.append( V.js_output(attrs) )
return _nulljoin(result)
# end js_output
def load(self, rawdata):
"""Load cookies from a string (presumably HTTP_COOKIE) or
from a dictionary. Loading cookies from a dictionary 'd'
is equivalent to calling:
map(Cookie.__setitem__, d.keys(), d.values())
"""
if type(rawdata) == type(""):
self.__ParseString(rawdata)
else:
# self.update() wouldn't call our custom __setitem__
for k, v in rawdata.items():
self[k] = v
return
# end load()
def __ParseString(self, str, patt=_CookiePattern):
i = 0 # Our starting point
n = len(str) # Length of string
M = None # current morsel
while 0 <= i < n:
# Start looking for a cookie
match = patt.search(str, i)
if not match: break # No more cookies
K,V = match.group("key"), match.group("val")
i = match.end(0)
# Parse the key, value in case it's metainfo
if K[0] == "$":
# We ignore attributes which pertain to the cookie
# mechanism as a whole. See RFC 2109.
# (Does anyone care?)
if M:
M[ K[1:] ] = V
elif K.lower() in Morsel._reserved:
if M:
M[ K ] = _unquote(V)
else:
rval, cval = self.value_decode(V)
self.__set(K, rval, cval)
M = self[K]
# end __ParseString
# end BaseCookie class
class SimpleCookie(BaseCookie):
"""SimpleCookie
SimpleCookie supports strings as cookie values. When setting
the value using the dictionary assignment notation, SimpleCookie
calls the builtin str() to convert the value to a string. Values
received from HTTP are kept as strings.
"""
def value_decode(self, val):
return _unquote( val ), val
def value_encode(self, val):
strval = str(val)
return strval, _quote( strval )
# end SimpleCookie
class SerialCookie(BaseCookie):
"""SerialCookie
SerialCookie supports arbitrary objects as cookie values. All
values are serialized (using cPickle) before being sent to the
client. All incoming values are assumed to be valid Pickle
representations. IF AN INCOMING VALUE IS NOT IN A VALID PICKLE
FORMAT, THEN AN EXCEPTION WILL BE RAISED.
Note: Large cookie values add overhead because they must be
retransmitted on every HTTP transaction.
Note: HTTP has a 2k limit on the size of a cookie. This class
does not check for this limit, so be careful!!!
"""
def __init__(self, input=None):
warnings.warn("SerialCookie class is insecure; do not use it",
DeprecationWarning)
BaseCookie.__init__(self, input)
# end __init__
def value_decode(self, val):
# This could raise an exception!
return loads( _unquote(val) ), val
def value_encode(self, val):
return val, _quote( dumps(val) )
# end SerialCookie
class SmartCookie(BaseCookie):
"""SmartCookie
SmartCookie supports arbitrary objects as cookie values. If the
object is a string, then it is quoted. If the object is not a
string, however, then SmartCookie will use cPickle to serialize
the object into a string representation.
Note: Large cookie values add overhead because they must be
retransmitted on every HTTP transaction.
Note: HTTP has a 2k limit on the size of a cookie. This class
does not check for this limit, so be careful!!!
"""
def __init__(self, input=None):
warnings.warn("Cookie/SmartCookie class is insecure; do not use it",
DeprecationWarning)
BaseCookie.__init__(self, input)
# end __init__
def value_decode(self, val):
strval = _unquote(val)
try:
return loads(strval), val
except:
return strval, val
def value_encode(self, val):
if type(val) == type(""):
return val, _quote(val)
else:
return val, _quote( dumps(val) )
# end SmartCookie
###########################################################
# Backwards Compatibility: Don't break any existing code!
# We provide Cookie() as an alias for SmartCookie()
Cookie = SmartCookie
#
###########################################################
def _test():
import doctest, Cookie
return doctest.testmod(Cookie)
if __name__ == "__main__":
_test()
#Local Variables:
#tab-width: 4
#end:
requests/packages/oreos/structures.py
+399
View File
@@ -0,0 +1,399 @@
# -*- coding: utf-8 -*-
"""
oreos.sructures
~~~~~~~~~~~~~~~
The plastic blue packaging.
This is mostly directly stolen from mitsuhiko/werkzeug.
"""
__all__ = ('MultiDict',)
class _Missing(object):
def __repr__(self):
return 'no value'
def __reduce__(self):
return '_missing'
_missing = _Missing()
def iter_multi_items(mapping):
"""Iterates over the items of a mapping yielding keys and values
without dropping any from more complex structures.
"""
if isinstance(mapping, MultiDict):
for item in mapping.iteritems(multi=True):
yield item
elif isinstance(mapping, dict):
for key, value in mapping.iteritems():
if isinstance(value, (tuple, list)):
for value in value:
yield key, value
else:
yield key, value
else:
for item in mapping:
yield item
class TypeConversionDict(dict):
"""Works like a regular dict but the :meth:`get` method can perform
type conversions. :class:`MultiDict` and :class:`CombinedMultiDict`
are subclasses of this class and provide the same feature.
.. versionadded:: 0.5
"""
def get(self, key, default=None, type=None):
"""Return the default value if the requested data doesn't exist.
If `type` is provided and is a callable it should convert the value,
return it or raise a :exc:`ValueError` if that is not possible. In
this case the function will return the default as if the value was not
found:
>>> d = TypeConversionDict(foo='42', bar='blub')
>>> d.get('foo', type=int)
42
>>> d.get('bar', -1, type=int)
-1
:param key: The key to be looked up.
:param default: The default value to be returned if the key can't
be looked up. If not further specified `None` is
returned.
:param type: A callable that is used to cast the value in the
:class:`MultiDict`. If a :exc:`ValueError` is raised
by this callable the default value is returned.
"""
try:
rv = self[key]
if type is not None:
rv = type(rv)
except (KeyError, ValueError):
rv = default
return rv
class MultiDict(TypeConversionDict):
"""A :class:`MultiDict` is a dictionary subclass customized to deal with
multiple values for the same key which is for example used by the parsing
functions in the wrappers. This is necessary because some HTML form
elements pass multiple values for the same key.
:class:`MultiDict` implements all standard dictionary methods.
Internally, it saves all values for a key as a list, but the standard dict
access methods will only return the first value for a key. If you want to
gain access to the other values, too, you have to use the `list` methods as
explained below.
Basic Usage:
>>> d = MultiDict([('a', 'b'), ('a', 'c')])
>>> d
MultiDict([('a', 'b'), ('a', 'c')])
>>> d['a']
'b'
>>> d.getlist('a')
['b', 'c']
>>> 'a' in d
True
It behaves like a normal dict thus all dict functions will only return the
first value when multiple values for one key are found.
From Werkzeug 0.3 onwards, the `KeyError` raised by this class is also a
subclass of the :exc:`~exceptions.BadRequest` HTTP exception and will
render a page for a ``400 BAD REQUEST`` if caught in a catch-all for HTTP
exceptions.
A :class:`MultiDict` can be constructed from an iterable of
``(key, value)`` tuples, a dict, a :class:`MultiDict` or from Werkzeug 0.2
onwards some keyword parameters.
:param mapping: the initial value for the :class:`MultiDict`. Either a
regular dict, an iterable of ``(key, value)`` tuples
or `None`.
"""
def __init__(self, mapping=None):
if isinstance(mapping, MultiDict):
dict.__init__(self, ((k, l[:]) for k, l in mapping.iterlists()))
elif isinstance(mapping, dict):
tmp = {}
for key, value in mapping.iteritems():
if isinstance(value, (tuple, list)):
value = list(value)
else:
value = [value]
tmp[key] = value
dict.__init__(self, tmp)
else:
tmp = {}
for key, value in mapping or ():
tmp.setdefault(key, []).append(value)
dict.__init__(self, tmp)
def __getstate__(self):
return dict(self.lists())
def __setstate__(self, value):
dict.clear(self)
dict.update(self, value)
def __iter__(self):
return self.iterkeys()
def __getitem__(self, key):
"""Return the first data value for this key;
raises KeyError if not found.
:param key: The key to be looked up.
:raise KeyError: if the key does not exist.
"""
if key in self:
return dict.__getitem__(self, key)[0]
raise KeyError(key)
def __setitem__(self, key, value):
"""Like :meth:`add` but removes an existing key first.
:param key: the key for the value.
:param value: the value to set.
"""
dict.__setitem__(self, key, [value])
def add(self, key, value):
"""Adds a new value for the key.
.. versionadded:: 0.6
:param key: the key for the value.
:param value: the value to add.
"""
dict.setdefault(self, key, []).append(value)
def getlist(self, key, type=None):
"""Return the list of items for a given key. If that key is not in the
`MultiDict`, the return value will be an empty list. Just as `get`
`getlist` accepts a `type` parameter. All items will be converted
with the callable defined there.
:param key: The key to be looked up.
:param type: A callable that is used to cast the value in the
:class:`MultiDict`. If a :exc:`ValueError` is raised
by this callable the value will be removed from the list.
:return: a :class:`list` of all the values for the key.
"""
try:
rv = dict.__getitem__(self, key)
except KeyError:
return []
if type is None:
return list(rv)
result = []
for item in rv:
try:
result.append(type(item))
except ValueError:
pass
return result
def setlist(self, key, new_list):
"""Remove the old values for a key and add new ones. Note that the list
you pass the values in will be shallow-copied before it is inserted in
the dictionary.
>>> d = MultiDict()
>>> d.setlist('foo', ['1', '2'])
>>> d['foo']
'1'
>>> d.getlist('foo')
['1', '2']
:param key: The key for which the values are set.
:param new_list: An iterable with the new values for the key. Old values
are removed first.
"""
dict.__setitem__(self, key, list(new_list))
def setdefault(self, key, default=None):
"""Returns the value for the key if it is in the dict, otherwise it
returns `default` and sets that value for `key`.
:param key: The key to be looked up.
:param default: The default value to be returned if the key is not
in the dict. If not further specified it's `None`.
"""
if key not in self:
self[key] = default
else:
default = self[key]
return default
def setlistdefault(self, key, default_list=None):
"""Like `setdefault` but sets multiple values. The list returned
is not a copy, but the list that is actually used internally. This
means that you can put new values into the dict by appending items
to the list:
>>> d = MultiDict({"foo": 1})
>>> d.setlistdefault("foo").extend([2, 3])
>>> d.getlist("foo")
[1, 2, 3]
:param key: The key to be looked up.
:param default: An iterable of default values. It is either copied
(in case it was a list) or converted into a list
before returned.
:return: a :class:`list`
"""
if key not in self:
default_list = list(default_list or ())
dict.__setitem__(self, key, default_list)
else:
default_list = dict.__getitem__(self, key)
return default_list
def items(self, multi=False):
"""Return a list of ``(key, value)`` pairs.
:param multi: If set to `True` the list returned will have a
pair for each value of each key. Otherwise it
will only contain pairs for the first value of
each key.
:return: a :class:`list`
"""
return list(self.iteritems(multi))
def lists(self):
"""Return a list of ``(key, values)`` pairs, where values is the list of
all values associated with the key.
:return: a :class:`list`
"""
return list(self.iterlists())
def values(self):
"""Returns a list of the first value on every key's value list.
:return: a :class:`list`.
"""
return [self[key] for key in self.iterkeys()]
def listvalues(self):
"""Return a list of all values associated with a key. Zipping
:meth:`keys` and this is the same as calling :meth:`lists`:
>>> d = MultiDict({"foo": [1, 2, 3]})
>>> zip(d.keys(), d.listvalues()) == d.lists()
True
:return: a :class:`list`
"""
return list(self.iterlistvalues())
def iteritems(self, multi=False):
"""Like :meth:`items` but returns an iterator."""
for key, values in dict.iteritems(self):
if multi:
for value in values:
yield key, value
else:
yield key, values[0]
def iterlists(self):
"""Like :meth:`items` but returns an iterator."""
for key, values in dict.iteritems(self):
yield key, list(values)
def itervalues(self):
"""Like :meth:`values` but returns an iterator."""
for values in dict.itervalues(self):
yield values[0]
def iterlistvalues(self):
"""Like :meth:`listvalues` but returns an iterator."""
return dict.itervalues(self)
def copy(self):
"""Return a shallow copy of this object."""
return self.__class__(self)
def to_dict(self, flat=True):
"""Return the contents as regular dict. If `flat` is `True` the
returned dict will only have the first item present, if `flat` is
`False` all values will be returned as lists.
:param flat: If set to `False` the dict returned will have lists
with all the values in it. Otherwise it will only
contain the first value for each key.
:return: a :class:`dict`
"""
if flat:
return dict(self.iteritems())
return dict(self.lists())
def update(self, other_dict):
"""update() extends rather than replaces existing key lists."""
for key, value in iter_multi_items(other_dict):
MultiDict.add(self, key, value)
def pop(self, key, default=_missing):
"""Pop the first item for a list on the dict. Afterwards the
key is removed from the dict, so additional values are discarded:
>>> d = MultiDict({"foo": [1, 2, 3]})
>>> d.pop("foo")
1
>>> "foo" in d
False
:param key: the key to pop.
:param default: if provided the value to return if the key was
not in the dictionary.
"""
try:
return dict.pop(self, key)[0]
except KeyError, e:
if default is not _missing:
return default
raise KeyError(str(e))
def popitem(self):
"""Pop an item from the dict."""
try:
item = dict.popitem(self)
return (item[0], item[1][0])
except KeyError, e:
raise KeyError(str(e))
def poplist(self, key):
"""Pop the list for a key from the dict. If the key is not in the dict
an empty list is returned.
.. versionchanged:: 0.5
If the key does no longer exist a list is returned instead of
raising an error.
"""
return dict.pop(self, key, [])
def popitemlist(self):
"""Pop a ``(key, list)`` tuple from the dict."""
try:
return dict.popitem(self)
except KeyError, e:
raise KeyError(str(e))
def __copy__(self):
return self.copy()
def __repr__(self):
return '%s(%r)' % (self.__class__.__name__, self.items(multi=True))