still not working lol

2024-04-17 21:36:12 +02:00 · 2024-04-17 21:36:12 +02:00 · 39e5df2cfb
commit 39e5df2cfb
parent 3d2610360c
2 changed files with 40 additions and 71 deletions
--- a/main.py
+++ b/main.py
@ -1,44 +1,48 @@
-from utils import generate_secret, coin_toss, H
+import ecpy.curves as curves
-from utils import prime
+import secrets
-from utils import encrypt, decrypt
+import pickle
-from Crypto.Math.Numbers import Integer
+import Crypto.Random
 import Crypto.Cipher.AES
 import Crypto.Protocol.KDF
-def alice_1():
+m0 = b"alice"
-	g = Integer(2)
+m1 = b"bob"
-	a = generate_secret()
+c = False
 	A_secret = pow(g, Integer(int.from_bytes(a)), prime)
 	return A_secret, a
-def bob_1(A_secret):
+q = 224
-	g = Integer(2)
+curve = curves.Curve.get_curve('NIST-P224')
-	b = generate_secret()
+g = curve.generator
 	B_secret = pow(g, Integer.from_bytes(b), prime)
 	coin = coin_toss()
 	if coin:
 		B_secret = A_secret * B_secret
 	return B_secret, b, coin 
-def alice_2(A_secret, B_secret, a, m0, m1):
+def H(p: curves.Point) -> bytes:
-	a = int.from_bytes(a)
+    secret = pickle.dumps((p.x, p.y), protocol=4)
-	k0 = H(str(pow(int(B_secret), a, prime)).encode())
+    salt = Crypto.Random.get_random_bytes(16)
-	k1 = H(str(pow((B_secret // A_secret), a, prime)).encode())
+    key = Crypto.Protocol.KDF.scrypt(secret, salt, 16, N=2**14, r=8, p=1)
-	# Nonce at this point is generated by AES built-in method, not by scrypt
+    return key[:32] # first 32 bytes of generated key
 	e0, e1 = encrypt(k0, m0.encode()), encrypt(k1, m1.encode())
 	return *e0, *e1
-def bob_2(A_secret, b, c, e0, e1, n0, n1):
+def E(key: bytes, message: bytes) -> tuple[bytes, bytes]:
-	kc = H(str(pow(int(A_secret), int.from_bytes(b), prime)).encode())
+    cipher = Crypto.Cipher.AES.new(key, Crypto.Cipher.AES.MODE_CTR)
-	if c:
+    ct = cipher.encrypt(message)
-		return decrypt(e1, n1, kc)
+    return (ct, cipher.nonce)
 	else:
 		return decrypt(e0, n0, kc)
-m0, m1 = "alice", "bob"
+def D(key: bytes, encrypted_with_nonce: tuple[bytes, bytes]) -> bytes:
    ct, nonce = encrypted_with_nonce
    cipher = Crypto.Cipher.AES.new(key, Crypto.Cipher.AES.MODE_CTR, nonce=nonce)
    return cipher.decrypt(ct)
-A, a = alice_1()
+a = 1 + secrets.randbelow(q)
-B, b, c = bob_1(A)
+b = 1 + secrets.randbelow(q)
 e0, n0, e1, n1 = alice_2(A, B, a, m0, m1)
 result = bob_2(A, b, c, e0, e1, n0, n1)
 A = curve.mul_point(a, g)
 B = curve.mul_point(b, g)
 if c:
    B = curve.add_point(A, B)
 k0 = H(curve.mul_point(a, B))
 k1 = H(curve.mul_point(a, curve.sub_point(B, A)))
 e0 = E(k0, m0)
 e1 = E(k1, m1)
 kc = H(curve.mul_point(b, A))
 print(D(kc, e1 if c else e0))
 print(result.decode())
--- a/utils.py
+++ b/utils.py
@ -1,35 +0,0 @@
 from Crypto.PublicKey import ECC
 from Crypto.Protocol.KDF import scrypt
 from Crypto.Random import get_random_bytes
 from Crypto.Cipher import AES
 from secrets import randbelow
 prime = 0xffffffffffffffffffffffffffffffff000000000000000000000001
 def generate_secret(c = 0):
 	# 'DER' format for byte output
        return ECC.generate(curve='NIST P-224').export_key(format='DER')
 def H(secret):
 	# secret should be bytearray[], pref. from generate_secret() function
 	salt = get_random_bytes(16)
 	key = scrypt(bytes(secret), salt, 16, N=2**14, r=8, p=1)
 	return key[:32] # first 32 bytes of generated key
 def coin_toss():
 	x = randbelow(2 ** 64)
 	if x & 1:
 		return False
 	else:
 		return True
 def encrypt(key, data):
 	cipher = AES.new(key, AES.MODE_CTR)
 	ct = cipher.encrypt(data)
 	nonce = cipher.nonce
 	return ct, nonce
 def decrypt(ct, nonce, key):
 	cipher = AES.new(key, AES.MODE_CTR, nonce=nonce)
 	pt = cipher.decrypt(ct)
 	return pt