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- """
- XTEA Block Encryption Algorithm
- Author: Paul Chakravarti (paul_dot_chakravarti_at_gmail_dot_com)
- License: Public Domain
- """
-
- def get_key():
- # Encryption key is datetime of creation of DocType, DocType"
- import webnotes
- return webnotes.conn.sql("select creation from tabDocType where name='DocType'")[0][0].strftime('%Y%m%d%H%M%s')[:16]
-
- def encrypt(data, encryption_key = None):
- if not encryption_key:
- encryption_key = get_key()
- return crypt(encryption_key, data).encode('hex')
-
- def decrypt(data, encryption_key = None):
- if not encryption_key:
- encryption_key = get_key()
- return crypt(encryption_key, data.decode('hex'))
-
- def crypt(key,data,iv='\00\00\00\00\00\00\00\00',n=32):
- def keygen(key,iv,n):
- while True:
- iv = xtea_encrypt(key,iv,n)
- for k in iv:
- yield ord(k)
- xor = [ chr(x^y) for (x,y) in zip(map(ord,data),keygen(key,iv,n)) ]
- return "".join(xor)
-
- def xtea_encrypt(key,block,n=32,endian="!"):
- import struct
- v0,v1 = struct.unpack(endian+"2L",block)
- k = struct.unpack(endian+"4L",key)
- sum,delta,mask = 0L,0x9e3779b9L,0xffffffffL
- for round in range(n):
- v0 = (v0 + (((v1<<4 ^ v1>>5) + v1) ^ (sum + k[sum & 3]))) & mask
- sum = (sum + delta) & mask
- v1 = (v1 + (((v0<<4 ^ v0>>5) + v0) ^ (sum + k[sum>>11 & 3]))) & mask
- return struct.pack(endian+"2L",v0,v1)
-
- def xtea_decrypt(key,block,n=32,endian="!"):
- import struct
-
- v0,v1 = struct.unpack(endian+"2L",block)
- k = struct.unpack(endian+"4L",key)
- delta,mask = 0x9e3779b9L,0xffffffffL
- sum = (delta * n) & mask
- for round in range(n):
- v1 = (v1 - (((v0<<4 ^ v0>>5) + v0) ^ (sum + k[sum>>11 & 3]))) & mask
- sum = (sum - delta) & mask
- v0 = (v0 - (((v1<<4 ^ v1>>5) + v1) ^ (sum + k[sum & 3]))) & mask
- return struct.pack(endian+"2L",v0,v1)
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