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https://github.com/mgeeky/Penetration-Testing-Tools.git
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312 lines
12 KiB
Python
312 lines
12 KiB
Python
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#!/usr/bin/python
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#
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# Padding Oracle test-cases generator.
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# Mariusz B. / mgeeky, 2016
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# v0.2
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#
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# Simple utility that aids the penetration tester when manually testing Padding Oracle condition
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# of a target cryptosystem, by generating set of test cases to fed the cryptosystem with.
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#
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# Script that takes from input an encoded cipher text, tries to detect applied encoding, decodes the cipher
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# and then generates all the possible, reasonable cipher text transformations to be used while manually
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# testing for Padding Oracle condition of cryptosystem. The output of this script will be hundreds of
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# encoded values to be used in manual application testing approaches, like sending requests.
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#
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# One of possible scenarios and ways to use the below script could be the following:
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# - clone the following repo: https://github.com/GDSSecurity/PaddingOracleDemos
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# - launch pador.py which is an example of application vulnerable to Padding Oracle
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# - then by using `curl http://localhost:5000/echo?cipher=<ciphertext>` we are going to manually
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# test for Padding Oracle outcomes. The case of returning something not being a 'decryption error'
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# result would be considered padding-hit, therefore vulnerability proof.
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#
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# This script could be then launched to generate every possible test case of second to the last block
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# being filled with specially tailored values (like vector of zeros with last byte ranging from 0-255)
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# and then used in some kind of local http proxy (burp/zap) or http client like (curl/wget).
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#
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# Such example usage look like:
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#
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#---------------------------------------------
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# bash$ x=0 ; for i in $(./padding-oracle-tests.py 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308ed2382fb0a54f3a2954bfebe0a04dd4d6); \
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# do curl -s http://host:5000/echo?cipher=$i | grep -qv 'error' && printf "Byte: 0x%02x not generated decryption error.\n" $x ; x=$((x+1)); done
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#
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# [?] Data resembles block cipher with block size = 16
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# [?] Data resembles block cipher with block size = 8
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#
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# Generated in total: 512 test cases for 8, 16 block sizes.
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# Byte: 0x87 not generated decryption error.
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#---------------------------------------------
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#
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# There the script took at it's first parameter the hex encoded parameter, used it to feed test cases generator and resulted with 512
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# test cases varying with the last byte of the second to the last block:
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# (...)
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# 484b850123a04baf15df9be14e87369b000000000000000000000000000000fad2382fb0a54f3a2954bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369b000000000000000000000000000000fbd2382fb0a54f3a2954bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369b000000000000000000000000000000fcd2382fb0a54f3a2954bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369b000000000000000000000000000000fdd2382fb0a54f3a2954bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369b000000000000000000000000000000fed2382fb0a54f3a2954bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369b000000000000000000000000000000ffd2382fb0a54f3a2954bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000054bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000154bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000254bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000354bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000454bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000554bfebe0a04dd4d6
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# 484b850123a04baf15df9be14e87369bc59ca16e1f3645ef53cc6a4d9d87308e000000000000000654bfebe0a04dd4d6
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# (...)
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#
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# At the end, those values were used in for loop to launch for every entry a curl client with request to the Padding Oracle.
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# The 0x87 byte that was catched was the only one that has not generated a 'decryption error' outcome from the request, resulting
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# in improperly decrypted plain-text from attacker-controled cipher text.
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#
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import re
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import sys
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import urllib
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import binascii as ba
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import base64
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# Flip this variable when your input data is not being properly processed.
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DEBUG = False
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def info(txt):
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sys.stderr.write(txt + '\n')
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def warning(txt):
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info('[?] ' + txt)
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def error(txt):
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info('[!] ' + txt)
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def dbg(txt):
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if DEBUG:
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info('[dbg] '+txt)
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# or maybe:
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# class PaddingOracleTestCasesWithVaryingSecondToTheLastBlockGenerator
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class PaddingOracleTestCasesGenerator:
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NONE = 0
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B64URL = 1
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B64STD = 2
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HEXENC = 3
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data = ''
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offset = 0
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encoding = NONE
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blocksizes = set()
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urlencoded = False
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def __init__(self, data, blocksize=0):
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self.data = data
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len_before = len(data)
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self.encoding = self.detect_encoding()
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self.data = self.decode(data)
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if blocksize != 0:
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assert blocksize % 8 == 0, "Blocksize must be divisible by 8"
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self.blocksizes = [blocksize,]
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else:
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self.detect_blocksize()
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self.data_evaluation(len_before)
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def data_evaluation(self, len_before):
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def entropy(txt):
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import math
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from collections import Counter
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p, lns = Counter(txt), float(len(txt))
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return -sum( count / lns * math.log(count/lns, 2) for count in p.values())
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e = entropy(self.data)
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warning('Data size before and after decoding: %d -> %d' % (len_before, len(self.data)))
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warning('Data entropy: %.6f' % entropy(self.data))
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if e < 5.0:
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info('\tData does not look random, not likely to deal with block cipher.')
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elif e >= 5.0 and e < 7.0:
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info('\tData only resembles random stream, hardly to be dealing with block cipher.')
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else:
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info('\tHigh likelihood of dealing with block cipher. That\'s good.')
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if self.offset != 0:
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warning('Data structure not resembles block cipher.')
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warning('Proceeding with sliding window of %d bytes in the beginning and at the end\n' % self.offset)
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else:
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warning('Data resembles block cipher with block size = %d' % max(self.blocksizes))
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def detect_encoding(self):
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b64url = '^[a-zA-Z0-9_\-]+={0,2}$'
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b64std = '^[a-zA-Z0-9\+\/]+={0,2}$'
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hexenc1 = '^[0-9a-f]+$'
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hexenc2 = '^[0-9A-F]+$'
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data = self.data
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if re.search('%[0-9a-f]{2}', self.data, re.I) != None:
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dbg('Sample is url-encoded.')
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data = urllib.unquote_plus(data)
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self.urlencoded = True
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if (re.match(hexenc1, data) or re.match(hexenc2, data)) and len(data) % 2 == 0:
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dbg('Hex encoding detected.')
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return self.HEXENC
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if re.match(b64url, data):
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dbg('Base64url encoding detected.')
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return self.B64URL
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if re.match(b64std, data):
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dbg('Standard Base64 encoding detected.')
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return self.B64STD
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error('Warning: Could not detect data encoding. Going with plain data.')
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return self.NONE
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def detect_blocksize(self):
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sizes = [32, 16, 8] # Correspondigly: 256, 128, 64 bits
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self.offset = len(self.data) % 8
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datalen = len(self.data) - self.offset
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for s in sizes:
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if datalen % s == 0 and datalen / s >= 2:
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self.blocksizes.add(s)
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if not len(self.blocksizes):
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if datalen >= 32:
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self.blocksizes.add(16)
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if datalen >= 16:
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self.blocksizes.add(8)
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if not len(self.blocksizes):
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raise Exception("Could not detect data's blocksize automatically.")
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def encode(self, data):
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def _enc(data):
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if self.encoding == PaddingOracleTestCasesGenerator.B64URL:
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return base64.urlsafe_b64encode(data)
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elif self.encoding == PaddingOracleTestCasesGenerator.B64STD:
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return base64.b64encode(data)
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elif self.encoding == PaddingOracleTestCasesGenerator.HEXENC:
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return ba.hexlify(data).strip()
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else:
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return data
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enc = _enc(data)
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if self.urlencoded:
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return urllib.quote_plus(enc)
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else:
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return enc
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def decode(self, data):
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def _decode(self, data):
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if self.urlencoded:
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data = urllib.unquote_plus(data)
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if self.encoding == PaddingOracleTestCasesGenerator.B64URL:
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return base64.urlsafe_b64decode(data)
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elif self.encoding == PaddingOracleTestCasesGenerator.B64STD:
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return base64.b64decode(data)
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elif self.encoding == PaddingOracleTestCasesGenerator.HEXENC:
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return ba.unhexlify(data).strip()
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else:
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return data
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dbg("Hex dump of data before decoding:\n" + hex_dump(data))
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decoded = _decode(self, data)
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dbg("Hex dump of data after decoding:\n" + hex_dump(decoded))
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return decoded
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def construct_second_to_last_block(self, data, blocksize, value, offset=0):
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assert len(data) >= 2 * blocksize, "Too short data to operate on it with given blocksize."
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assert abs(offset) < blocksize, "Incorrect offset was specified. Out-of-bounds access."
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# Null vector with the last byte set to iterated value.
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block = '0' * (2*(blocksize-1)) + '%02x' % value
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if offset >= 0:
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# datadata<rest>
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return data[:-2*blocksize-offset] + ba.unhexlify(block) + data[-blocksize-offset:]
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else:
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# <rest>datadata
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return data[-offset:-2*blocksize] + ba.unhexlify(block) + data[-blocksize:]
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def generate_test_cases(self):
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cases = []
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data = self.data
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for size in self.blocksizes:
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dbg("Now generating test cases of %d blocksize." % size)
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for byte in range(256):
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# No offset
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cases.append(self.encode(self.construct_second_to_last_block(data, size, byte)))
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if self.offset != 0:
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cases.append(self.encode(self.construct_second_to_last_block(data, size, byte, self.offset)))
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cases.append(self.encode(self.construct_second_to_last_block(data, size, byte, -self.offset)))
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return cases
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def hex_dump(data):
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s = ''
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n = 0
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lines = []
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if len(data) == 0:
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return '<empty>'
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for i in range(0, len(data), 16):
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line = ''
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line += '%04x | ' % (i)
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n += 16
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for j in range(n-16, n):
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if j >= len(data): break
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line += '%02x ' % ord(data[j])
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line += ' ' * (3 * 16 + 7 - len(line)) + ' | '
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for j in range(n-16, n):
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if j >= len(data): break
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c = data[j] if not (ord(data[j]) < 0x20 or ord(data[j]) > 0x7e) else '.'
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line += '%c' % c
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lines.append(line)
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return '\n'.join(lines)
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def main():
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info('\n\tPadding Oracle test-cases generator')
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info('\tMariusz B. / mgeeky, 2016\n')
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if len(sys.argv) < 2:
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warning('usage: padding-oracle-tests.py <data> [blocksize]')
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sys.exit(0)
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data = sys.argv[1].strip()
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bsize = int(sys.argv[2]) if len(sys.argv) > 2 else 0
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try:
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tester = PaddingOracleTestCasesGenerator(data, bsize)
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except Exception as e:
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error(str(e))
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return False
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s = hex_dump(tester.data)
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info('Decoded data:\n%s\n' % s)
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cases = tester.generate_test_cases()
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for case in cases:
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if DEBUG:
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dbg('...' + case[-48:])
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else:
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print case
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info('\n[+] Generated in total: %d test cases for %s block sizes.' \
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% (len(cases), ', '.join([str(e) for e in sorted(tester.blocksizes)])))
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if __name__ == '__main__':
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main()
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