Difference between revisions of "Sage Sandbox"

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Line 9: Line 9:
 
while i:
  
while i:
 
l[0:0]=chr(i&0xff)
  
l[0:0]=chr(i&0xff)
i=i>>8
 +
i>>=8
 
return ''.join(l)
  
return ''.join(l)
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
Line 20: Line 20:
 
while i:
  
while i:
 
l.append(chr(i&0xff))
  
l.append(chr(i&0xff))
i=i>>8
 +
i>>=8
 
return ''.join(l[::-1])
  
return ''.join(l[::-1])
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
Line 36: Line 36:
 
import math
  
import math
 
def long2string(i):
  
def long2string(i):
return binascii.unhexlify('%0*x' % (int(math.ceil(math.log(i,2)/8)*2) , i))
 +
return ('%0*x' % (int(math.ceil(math.log(i,2)/8)*2) , i)).decode('hex')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#4.77 µs per loop
  
#4.77 µs per loop
Line 43: Line 43:
 
###################################################################################
  
###################################################################################
 
def long2string(i):
  
def long2string(i):
return binascii.unhexlify('%0*x' % (len(hex(i)) & -2 , i)).lstrip('\x00')
 +
return ('%0*x' % (len(hex(i)) & -2 , i)).decode('hex').lstrip('\x00')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#3.64 µs per loop
  
#3.64 µs per loop
Line 49: Line 49:
 
#3.78 µs per loop
  
#3.78 µs per loop
 
###################################################################################
  
###################################################################################
binascii.unhexlify('%0*x' % (32 , 123456789012345678901234))
 +
('%0*x' % (2 * 16 , 123456789012345678901234)).decode('hex')
 
#2.06 µs per loop
  
#2.06 µs per loop
binascii.unhexlify('%0*x' % (32 , 1234567890123456789012345))
 +
('%0*x' % (2 * 16 , 1234567890123456789012345)).decode('hex')
 
#2.01 µs per loop
  
#2.01 µs per loop
#Ok if you want fixed length buffer, e.g. 32 bytes
 +
#Ok if you want fixed length buffer, e.g. 16 bytes
 
###################################################################################
  
###################################################################################
 
def long2string(i):
  
def long2string(i):
Line 59: Line 59:
 
if len(s) % 2:
  
if len(s) % 2:
 
s='0'+s
  
s='0'+s
return binascii.unhexlify(s)
 +
return s.decode('hex')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#2.88 µs per loop
  
#2.88 µs per loop
Line 67: Line 67:
 
def long2string(i):
  
def long2string(i):
 
s='0'+hex(long(i))[2:-1]
  
s='0'+hex(long(i))[2:-1]
return binascii.unhexlify(s[len(s) % 2:])
 +
return s[len(s) % 2:].decode('hex')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#3.04 µs per loop
  
#3.04 µs per loop
Line 77: Line 77:
 
if len(s) % 2:
  
if len(s) % 2:
 
s='0'+s
  
s='0'+s
return binascii.unhexlify(s)
 +
return s.decode('hex')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#2.75 µs per loop
  
#2.75 µs per loop
Line 86: Line 86:
 
def long2string(i):
  
def long2string(i):
 
s='0'+hex(i)[2:-1]
  
s='0'+hex(i)[2:-1]
return binascii.unhexlify(s[len(s) % 2:])
 +
return s[len(s) % 2:].decode('hex')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#2.66 µs per loop
  
#2.66 µs per loop
Line 96: Line 96:
 
if len(s) % 2:
  
if len(s) % 2:
 
s='0'+s
  
s='0'+s
return binascii.unhexlify(s)
 +
return s.decode('hex')
 
long2string(123456789012345678901234)
  
long2string(123456789012345678901234)
 
#2.42 µs per loop
  
#2.42 µs per loop
Line 103: Line 103:
 
###################################################################################
  
###################################################################################
 
# There is still room ;-)
  
# There is still room ;-)
  +
'1a249b1f10a06c96aff2'.decode('hex')
binascii.unhexlify('1a249b1f10a06c96aff2')
  
 
#990 ns per loop
  
#990 ns per loop
 
###################################################################################
  
###################################################################################
Line 116: Line 116:
 
###################################################################################
  
###################################################################################
 
int('\x01\x05n\x0f6\xa6D=\xe2\xdfy'.encode('hex'),16)
  
int('\x01\x05n\x0f6\xa6D=\xe2\xdfy'.encode('hex'),16)
#3.15 µs per loop
  
###################################################################################
  
int(binascii.hexlify('\x01\x05n\x0f6\xa6D=\xe2\xdfy'),16)
  
 
#1.64 µs per loop
  
#1.64 µs per loop
 
###################################################################################
  
###################################################################################
long(binascii.hexlify('\x01\x05n\x0f6\xa6D=\xe2\xdfy'),16)
 +
long('\x01\x05n\x0f6\xa6D=\xe2\xdfy'.encode('hex'),16)
 
#1.38 µs per loop
  
#1.38 µs per loop
 
</source>
  
</source>
  +
  +
==Learning Python==
  +
Some code to make some padding functions available. The code is used as a way to learn python, so it contains things that don't make sense or could be done better.
  +
  +
{{#fileanchor: helper.py}}
  +
<source lang=python>
  +
from __future__ import division #http://www.python.org/dev/peps/pep-0238/
  +
import math
  +
  +
def roundUp (n, p):
  +
"""Round an integer up to the nearest multiple
  +
  +
A given integer n will be round up to the nearest multiple of p
  +
  +
Example:
  +
>>> roundUp(13,8)
  +
16
  +
"""
  +
return int(math.ceil(n/p)*p)
  +
#return (n+p)/p*p
  +
</source>
  +
Download code: [{{#filelink: helper.py}} helper.py]
  +
  +
{{#fileanchor: padding.py}}
  +
<source lang=python>
  +
import random
  +
  +
import sys
  +
from optparse import OptionParser
  +
  +
try:
  +
import helper
  +
except ImportError:
  +
print 'ERROR: helper.py should be placed in the same location as padding.py'
  +
raise ImportError
  +
  +
class BlockOperator:
  +
"""Class for BlockOperator
  +
  +
Only holds a variable blocksize. Class only exist for testing purpose.
  +
"""
  +
  +
def __init__(self, bs=8):
  +
self.blockSize = bs
  +
  +
class Padding(BlockOperator):
  +
"""Class for padding functions
  +
  +
Inherits from the BlockOperator class
  +
  +
padding info here: http://en.wikipedia.org/wiki/Padding_(cryptography)
  +
  +
Example:
  +
from padding import *
  +
padder = Padding()
  +
padded = padder.pad('test','bitpadding)
  +
padder.unpad(padded,'bitpadding)
  +
  +
After changing the source:
  +
del padder
  +
del Padding
  +
from padding import *
  +
"""
  +
  +
def pad (self, toPad, algo):
  +
#private function has to be accessed by it's public name when using getattr...
  +
return getattr(self,"_%(classname)s__%(algo)s" % {'classname':self.__class__.__name__,'algo':algo})(toPad)
  +
  +
def unpad (self, padded, algo):
  +
#there is no switch statement in python
  +
#discussion with alternatives: http://simonwillison.net/2004/May/7/switch/
  +
if algo == 'bitPadding':
  +
return self.__bitPadding_unpad(padded)
  +
elif algo == 'zerosPadding':
  +
return self.__zerosPadding_unpad(padded)
  +
elif algo == 'PKCS7':
  +
return self.__PKCS7_unpad(padded)
  +
elif algo == 'ANSI_X923':
  +
return self.__ANSI_X923_unpad(padded)
  +
elif algo == 'ISO_10126':
  +
return self.__ISO_10126_unpad(padded)
  +
raise NotImplementedError()
  +
  +
def __bitPadding (self, toPad ):
  +
padded = toPad + '\x80' + '\x00'*(self.blockSize - len(toPad)%self.blockSize -1)
  +
return padded
  +
  +
def __bitPadding_unpad (self, padded ):
  +
if padded.rstrip('\x00')[-1] == '\x80':
  +
return padded.rstrip('\x00')[:-1]
  +
else:
  +
return padded
  +
  +
def __zerosPadding (self, toPad ):
  +
totalLength = helper.roundUp(len(toPad),self.blockSize)
  +
return toPad.ljust(totalLength,'\x00')
  +
  +
  +
def __zerosPadding_unpad (self, padded ):
  +
return padded.rstrip('\x00')
  +
  +
def __PKCS7 (self, toPad ):
  +
"""Pad a binary string
  +
  +
Input:
  +
toPad: binary string to be padded
  +
self.blockSize: the padded result will be a multiple of the self.blockSize(default=8)
  +
Output:
  +
return a binary string
  +
"""
  +
  +
pattern = self.blockSize - len(toPad)%self.blockSize
  +
patternstring = chr(pattern)
  +
amount = self.blockSize - len(toPad)%self.blockSize
  +
pad = patternstring * amount
  +
return toPad + pad
  +
  +
def __PKCS7_unpad (self, padded ):
  +
pattern = padded[-1]
  +
length = ord(pattern)
  +
#check if the bytes to be removed are all the same pattern
  +
if padded.endswith(pattern*length):
  +
return padded[:-length]
  +
else:
  +
return padded
  +
print 'error: padding pattern not recognized'
  +
  +
def __ANSI_X923 (self, toPad ):
  +
bytesToPad = self.blockSize - len(toPad)%self.blockSize
  +
pattern = '\x00'*(bytesToPad -1) + chr(bytesToPad)
  +
return toPad + pattern
  +
  +
def __ANSI_X923_unpad (self, padded ):
  +
length = ord(padded[-1])
  +
#check if the bytes to be removed are all zero
  +
if padded.count('\x00',-length,-1) == length - 1:
  +
return padded[:-length]
  +
else:
  +
print 'error: padding pattern not recognized %s' % padded.count('\x00',-length,-1)
  +
return unpadded
  +
  +
def __ISO_10126 (self, toPad):
  +
bytesToPad = self.blockSize - len(toPad)%self.blockSize
  +
pattern1 = ''.join(chr(random.randrange(256)) for x in range(bytesToPad-1))
  +
pattern2 = chr(bytesToPad)
  +
return toPad + pattern1 + pattern2
  +
  +
def __ISO_10126_unpad (self, padded):
  +
return padded[:-ord(padded[-1])]
  +
  +
def main():
  +
usage = "usage: %prog [options] [texttopad]"
  +
parser = OptionParser(usage=usage)
  +
parser.add_option("-b", "--blocksize", dest='blocksize', default=8, help="specify the bloksize", type='int')
  +
(options, args) = parser.parse_args()
  +
  +
if len(args) > 1:
  +
parser.error("Program takes maximum 1 argument")
  +
  +
try:
  +
testbench(args[0].decode('string_escape'),options.blocksize)
  +
except IndexError:
  +
testbench(blocksize=options.blocksize)
  +
  +
def testbench(toPad='test',blocksize=8):
  +
testbench = ('bitPadding','zerosPadding','PKCS7','ANSI_X923','ISO_10126')
  +
padder = Padding(blocksize)
  +
print "String to be padded: %r, with length %i\n" % (toPad,len(toPad))
  +
for test in testbench:
  +
padded = padder.pad(toPad,'%s'%test)
  +
print "padded: %r" % padded
  +
unpadded = padder.unpad(padded,'%s'%test)
  +
print "unpadded: %r" % unpadded
  +
if unpadded == toPad:
  +
print "%s test OK!\n" % test
  +
else:
  +
print "%s test not OK!\n" % test
  +
  +
  +
if __name__ == "__main__":
  +
main()
  +
</source>
  +
Download code: [{{#filelink: padding.py}} padding.py]

Latest revision as of 12:18, 18 July 2011

Back to SAGE & cryptology

Helper functions

Conversion from int or long to raw string and back is discussed on the Python bug tracking list but since the problem is not yet solved, let's see how to make our own helper functions in a clean and fast way: (measures with %timeit of ipython) 

###############################  long2string  ########################################
def long2string(i):
	l=[]
	while i:
		l[0:0]=chr(i&0xff)
		i>>=8
	return ''.join(l)
long2string(123456789012345678901234)
#46 µs per loop
long2string(1234567890123456789012345)
#51.8 µs per loop
###################################################################################
def long2string(i):
	l=[]
	while i:
		l.append(chr(i&0xff))
		i>>=8
	return ''.join(l[::-1])
long2string(123456789012345678901234)
#15.1 µs per loop
long2string(1234567890123456789012345)
#16.4 µs per loop
###################################################################################
def long2string(i): 
        return ''.join([chr(i>>j & 0xFF) for j in range(int(math.log(i,2)//8)<<3,-1,-8)])
long2string(123456789012345678901234)
#15.5 µs per loop
long2string(1234567890123456789012345)
#16.7 µs per loop
###################################################################################
import math
def long2string(i):
	return ('%0*x' % (int(math.ceil(math.log(i,2)/8)*2) , i)).decode('hex')
long2string(123456789012345678901234)
#4.77 µs per loop
long2string(1234567890123456789012345)
#4.83 µs per loop
###################################################################################
def long2string(i):
	return ('%0*x' % (len(hex(i)) & -2 , i)).decode('hex').lstrip('\x00')
long2string(123456789012345678901234)
#3.64 µs per loop
long2string(1234567890123456789012345)
#3.78 µs per loop
###################################################################################
('%0*x' % (2 * 16 , 123456789012345678901234)).decode('hex')
#2.06 µs per loop
('%0*x' % (2 * 16 , 1234567890123456789012345)).decode('hex')
#2.01 µs per loop
#Ok if you want fixed length buffer, e.g. 16 bytes
###################################################################################
def long2string(i):
    s=hex(i)[2:].rstrip('L')
    if len(s) % 2:
        s='0'+s
    return s.decode('hex')
long2string(123456789012345678901234)
#2.88 µs per loop
long2string(1234567890123456789012345)
#3.22 µs per loop
###################################################################################
def long2string(i):
    s='0'+hex(long(i))[2:-1]
    return s[len(s) % 2:].decode('hex')
long2string(123456789012345678901234)
#3.04 µs per loop
long2string(1234567890123456789012345)
#3.03 µs per loop
###################################################################################
def long2string(i):
    s=hex(long(i))[2:-1]
    if len(s) % 2:
        s='0'+s
    return s.decode('hex')
long2string(123456789012345678901234)
#2.75 µs per loop
long2string(1234567890123456789012345)
#3.06 µs per loop
###################################################################################
#If we are sure our argument is a long we can remove the cast in the 2 previous codes:
def long2string(i):
    s='0'+hex(i)[2:-1]
    return s[len(s) % 2:].decode('hex')
long2string(123456789012345678901234)
#2.66 µs per loop
long2string(1234567890123456789012345)
#2.62 µs per loop
###################################################################################
def long2string(i):
    s=hex(i)[2:-1]
    if len(s) % 2:
        s='0'+s
    return s.decode('hex')
long2string(123456789012345678901234)
#2.42 µs per loop
long2string(1234567890123456789012345)
#2.76 µs per loop
###################################################################################
# There is still room ;-)
'1a249b1f10a06c96aff2'.decode('hex')
#990 ns per loop
###################################################################################
###############################  string2long  ########################################
def string2long(s):
	i=0
	for c in s:
		i=(i<<8)+ord(c)
	return i
string2long('\x01\x05n\x0f6\xa6D=\xe2\xdfy')
#8.91 µs per loop
###################################################################################
int('\x01\x05n\x0f6\xa6D=\xe2\xdfy'.encode('hex'),16)
#1.64 µs per loop
###################################################################################
long('\x01\x05n\x0f6\xa6D=\xe2\xdfy'.encode('hex'),16)
#1.38 µs per loop

Learning Python

Some code to make some padding functions available. The code is used as a way to learn python, so it contains things that don't make sense or could be done better.

{{#fileanchor: helper.py}} 

from __future__ import division #http://www.python.org/dev/peps/pep-0238/
import math

def roundUp (n, p):
	"""Round an integer up to the nearest multiple

	A given integer n will be round up to the nearest multiple of p

	Example:
	>>> roundUp(13,8)
	    16
	"""
	return int(math.ceil(n/p)*p)
	#return (n+p)/p*p

Download code: [{{#filelink: helper.py}} helper.py]

{{#fileanchor: padding.py}} 

import random

import sys
from optparse import OptionParser

try:
	import helper
except ImportError:
	print 'ERROR: helper.py should be placed in the same location as padding.py'
	raise ImportError

class BlockOperator:
	"""Class for BlockOperator

	Only holds a variable blocksize. Class only exist for testing purpose.
	"""

	def __init__(self, bs=8):
		self.blockSize = bs

class Padding(BlockOperator):
	"""Class for padding functions

	Inherits from the BlockOperator class

	padding info here: http://en.wikipedia.org/wiki/Padding_(cryptography)

	Example:
		from padding import *
		padder = Padding()
		padded = padder.pad('test','bitpadding)
		padder.unpad(padded,'bitpadding)

	After changing the source:
		del padder
		del Padding
		from padding import *
	"""		

	def pad (self, toPad, algo):
		#private function has to be accessed by it's public name when using getattr...
		return getattr(self,"_%(classname)s__%(algo)s" % {'classname':self.__class__.__name__,'algo':algo})(toPad) 

	def unpad (self, padded, algo):
		#there is no switch statement in python
		#discussion with alternatives: http://simonwillison.net/2004/May/7/switch/
		if algo == 'bitPadding':
			return self.__bitPadding_unpad(padded)
		elif algo == 'zerosPadding':
			return self.__zerosPadding_unpad(padded)
		elif algo == 'PKCS7':
			return self.__PKCS7_unpad(padded)
		elif algo == 'ANSI_X923':
			return self.__ANSI_X923_unpad(padded)
		elif algo == 'ISO_10126':
			return self.__ISO_10126_unpad(padded)
		raise NotImplementedError()

	def __bitPadding (self, toPad ):
		padded = toPad + '\x80' + '\x00'*(self.blockSize - len(toPad)%self.blockSize -1)
		return padded

	def __bitPadding_unpad (self, padded ):
		if padded.rstrip('\x00')[-1] == '\x80':
			return padded.rstrip('\x00')[:-1]
		else:
			return padded

	def __zerosPadding (self, toPad ):
		totalLength = helper.roundUp(len(toPad),self.blockSize)
		return toPad.ljust(totalLength,'\x00')
		

	def __zerosPadding_unpad (self, padded ):
		return padded.rstrip('\x00')		

	def __PKCS7 (self, toPad ):
		"""Pad a binary string

		Input:
			toPad: binary string to be padded
			self.blockSize: the padded result will be a multiple of the self.blockSize(default=8)
		Output:
			return a binary string
		"""

		pattern = self.blockSize - len(toPad)%self.blockSize
		patternstring = chr(pattern)		
		amount = self.blockSize - len(toPad)%self.blockSize
		pad = patternstring * amount
		return toPad + pad

	def __PKCS7_unpad (self, padded ):
		pattern = padded[-1]
		length = ord(pattern)
		#check if the bytes to be removed are all the same pattern
		if padded.endswith(pattern*length):
			return padded[:-length]
		else:
			return padded
			print 'error: padding pattern not recognized'

	def __ANSI_X923 (self, toPad ):
		bytesToPad = self.blockSize - len(toPad)%self.blockSize
		pattern = '\x00'*(bytesToPad -1) + chr(bytesToPad)
		return toPad + pattern

	def __ANSI_X923_unpad (self, padded ):
		length = ord(padded[-1])
		#check if the bytes to be removed are all zero
		if padded.count('\x00',-length,-1) == length - 1:
			return padded[:-length]
		else:
			print 'error: padding pattern not recognized %s' % padded.count('\x00',-length,-1)
			return unpadded

	def __ISO_10126 (self, toPad):
		bytesToPad = self.blockSize - len(toPad)%self.blockSize
		pattern1 = ''.join(chr(random.randrange(256)) for x in range(bytesToPad-1))
		pattern2 = chr(bytesToPad)
		return toPad + pattern1 + pattern2

	def __ISO_10126_unpad (self, padded):
		return padded[:-ord(padded[-1])]

def main():
	usage = "usage: %prog [options] [texttopad]"
	parser = OptionParser(usage=usage)
	parser.add_option("-b", "--blocksize", dest='blocksize', default=8, help="specify the bloksize", type='int')
	(options, args) = parser.parse_args()
	
	if len(args) > 1:
		parser.error("Program takes maximum 1 argument")

	try:
		testbench(args[0].decode('string_escape'),options.blocksize)
	except IndexError:
		testbench(blocksize=options.blocksize)

def testbench(toPad='test',blocksize=8):
	testbench = ('bitPadding','zerosPadding','PKCS7','ANSI_X923','ISO_10126')
	padder = Padding(blocksize)
	print "String to be padded: %r, with length %i\n" % (toPad,len(toPad))
	for test in testbench:
		padded = padder.pad(toPad,'%s'%test)
		print "padded: %r" % padded
		unpadded = padder.unpad(padded,'%s'%test)
		print "unpadded: %r" % unpadded
		if unpadded == toPad:
			print "%s test OK!\n" % test
		else:
			print "%s test not OK!\n" % test


if __name__ == "__main__":
	main()

Download code: [{{#filelink: padding.py}} padding.py]

Retrieved from "https://wiki.yobi.be/index.php?title=Sage_Sandbox&oldid=7178"