gecko/python/PyECC/ecc/eccrypt.py
David Keeler 5bd4392e56 bug 1190603 - import PyECC library r=gps,gerv
Obtained from https://github.com/amintos/PyECC.git
(commit 1bfd3a41410c3650e57d58f7bd016bb0819af250)
2015-08-03 15:17:00 -07:00

66 lines
2.1 KiB
Python

# Elliptic Curve Hybrid Encryption Scheme
#
# COPYRIGHT (c) 2010 by Toni Mattis <solaris@live.de>
#
from curves import get_curve
from elliptic import mulp
from encoding import enc_long
from random import SystemRandom
from Rabbit import Rabbit
# important for cryptographically secure random numbers:
random = SystemRandom()
# Encryption Algorithm:
# ---------------------
# Input: Message M, public key Q
#
# 0. retrieve the group from which Q was generated.
# 1. generate random number k between 1 and the group order.
# 2. compute KG = k * G (where G is the base point of the group).
# 3. compute SG = k * Q (where Q is the public key of the receiver).
# 4. symmetrically encrypt M to M' using SG's x-coordinate as key.
#
# Return: Ciphertext M', temporary key KG
def encrypt(message, qk, encrypter = Rabbit):
'''Encrypt a message using public key qk => (ciphertext, temp. pubkey)'''
bits, q = qk
try:
bits, cn, n, cp, cq, g = get_curve(bits)
if not n:
raise ValueError, "Key size %s not suitable for encryption" % bits
except KeyError:
raise ValueError, "Key size %s not implemented" % bits
k = random.randint(1, n - 1) # temporary private key k
kg = mulp(cp, cq, cn, g, k) # temporary public key k*G
sg = mulp(cp, cq, cn, q, k) # shared secret k*Q = k*d*G
return encrypter(enc_long(sg[0])).encrypt(message), kg
# Decryption Algorithm:
# ---------------------
# Input: Ciphertext M', temporary key KG, private key d
#
# 0. retrieve the group from which d and KG were generated.
# 1. compute SG = q * KG.
# 2. symmetrically decrypt M' to M using SG's x-coordinate as key.
#
# Return: M
def decrypt(message, kg, dk, decrypter = Rabbit):
'''Decrypt a message using temp. public key kg and private key dk'''
bits, d = dk
try:
bits, cn, n, cp, cq, g = get_curve(bits)
except KeyError:
raise ValueError, "Key size %s not implemented" % bits
sg = mulp(cp, cq, cn, kg, d) # shared secret d*(k*G) = k*d*G
return decrypter(enc_long(sg[0])).decrypt(message)