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common.py
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common.py
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import os, hashlib, struct, subprocess, fnmatch, shutil, urllib, array, time, sys, tempfile, wave
from binascii import *
from cStringIO import StringIO
from Crypto.Cipher import AES
from PIL import Image
from Struct import Struct
def align(x, boundary):
while x % boundary != 0:
x += 1
return x
def clamp(var, min, max):
if var < min: var = min
if var > max: var = max
return var
def abs(var):
if var < 0:
var = var + (2 * var)
return var
def hexdump(s, sep=" "): # just dumps hex values
return sep.join(map(lambda x: "%02x" % ord(x), s))
def hexdump2(src, length = 16): # dumps to a "hex editor" style output
result = []
for i in xrange(0, len(src), length):
s = src[i:i + length]
if(len(s) % 4 == 0):
mod = 0
else:
mod = 1
hexa = ''
for j in range((len(s) / 4) + mod):
hexa += ' '.join(["%02X" % ord(x) for x in s[j * 4:j * 4 + 4]])
if(j != ((len(s) / 4) + mod) - 1):
hexa += ' '
printable = s.translate(''.join([(len(repr(chr(x))) == 3) and chr(x) or '.' for x in range(256)]))
result.append("0x%04X %-*s %s\n" % (i, (length * 3) + 2, hexa, printable))
return ''.join(result)
class Crypto(object):
"""This is a Cryptographic/hash class used to abstract away things (to make changes easier)"""
align = 64
def decryptData(self, key, iv, data, align = True):
"""Decrypts some data (aligns to 64 bytes, if needed)."""
if((len(data) % self.align) != 0 and align):
return AES.new(key, AES.MODE_CBC, iv).decrypt(data + ("\x00" * (self.align - (len(data) % self.align))))
else:
return AES.new(key, AES.MODE_CBC, iv).decrypt(data)
decryptData = classmethod(decryptData)
def encryptData(self, key, iv, data, align = True):
"""Encrypts some data (aligns to 64 bytes, if needed)."""
if((len(data) % self.align) != 0 and align):
return AES.new(key, AES.MODE_CBC, iv).encrypt(data + ("\x00" * (self.align - (len(data) % self.align))))
else:
return AES.new(key, AES.MODE_CBC, iv).encrypt(data)
encryptData = classmethod(encryptData)
def decryptContent(self, titlekey, idx, data):
"""Decrypts a Content."""
iv = struct.pack(">H", idx) + "\x00" * 14
return self.decryptData(titlekey, iv, data)
decryptContent = classmethod(decryptContent)
def decryptTitleKey(self, commonkey, tid, enckey):
"""Decrypts a Content."""
iv = struct.pack(">Q", tid) + "\x00" * 8
return self.decryptData(commonkey, iv, enckey, False)
decryptTitleKey = classmethod(decryptTitleKey)
def encryptContent(self, titlekey, idx, data):
"""Encrypts a Content."""
iv = struct.pack(">H", idx) + "\x00" * 14
return self.encryptData(titlekey, iv, data)
encryptContent = classmethod(encryptContent)
def createSHAHash(self, data): #tested WORKING (without padding)
return hashlib.sha1(data).digest()
createSHAHash = classmethod(createSHAHash)
def createSHAHashHex(self, data):
return hashlib.sha1(data).hexdigest()
createSHAHashHex = classmethod(createSHAHashHex)
def createMD5HashHex(self, data):
return hashlib.md5(data).hexdigest()
createMD5HashHex = classmethod(createMD5HashHex)
def createMD5Hash(self, data):
return hashlib.md5(data).digest()
createMD5Hash = classmethod(createMD5Hash)
def validateSHAHash(self, data, hash):
contentHash = hashlib.sha1(data).digest()
return 1
if (contentHash == hash):
return 1
else:
#raise ValueError('Content hash : %s : len %i' % (hexdump(contentHash), len(contentHash)) + 'Expected : %s : len %i' % (hexdump(hash), len(hash)))
return 0
validateSHAHash = classmethod(validateSHAHash)
class WiiObject(object):
def load(cls, data, *args, **kwargs):
self = cls()
self._load(data, *args, **kwargs)
return self
load = classmethod(load)
def loadFile(cls, filename, *args, **kwargs):
return cls.load(open(filename, "rb").read(), *args, **kwargs)
loadFile = classmethod(loadFile)
def dump(self, *args, **kwargs):
return self._dump(*args, **kwargs)
def dumpFile(self, filename, *args, **kwargs):
open(filename, "wb").write(self.dump(*args, **kwargs))
return filename
class WiiArchive(WiiObject):
def loadDir(cls, dirname):
self = cls()
self._loadDir(dirname)
return self
loadDir = classmethod(loadDir)
def dumpDir(self, dirname):
if(not os.path.isdir(dirname)):
os.mkdir(dirname)
self._dumpDir(dirname)
return dirname
class WiiHeader(object):
def __init__(self, data):
self.data = data
def addFile(self, filename):
open(filename, "wb").write(self.add())
def removeFile(self, filename):
open(filename, "wb").write(self.remove())
def loadFile(cls, filename, *args, **kwargs):
return cls(open(filename, "rb").read(), *args, **kwargs)
loadFile = classmethod(loadFile)