原题
import gmpy2
import random
import binascii
from hashlib import sha256
from sympy import nextprime
from Crypto.Cipher import AES
from Crypto.Util.Padding import pad
from Crypto.Util.number import long_to_bytes
from FLAG import flag
#flag = 'wdflag{123}'
def victory_encrypt(plaintext, key):
key = key.upper()
key_length = len(key)
plaintext = plaintext.upper()
ciphertext = ''
for i, char in enumerate(plaintext):
if char.isalpha():
shift = ord(key[i % key_length]) - ord('A')
encrypted_char = chr((ord(char) - ord('A') + shift) % 26 + ord('A'))
ciphertext += encrypted_char
else:
ciphertext += char
return ciphertext
victory_key = "WANGDINGCUP"
victory_encrypted_flag = victory_encrypt(flag, victory_key)
p = 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f
a = 0
b = 7
xG = 0x79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798
yG = 0x483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8
G = (xG, yG)
n = 0xfffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141
h = 1
zero = (0,0)
dA = nextprime(random.randint(0, n))
if dA > n:
print("warning!!")
def addition(t1, t2):
if t1 == zero:
return t2
if t2 == zero:
return t2
(m1, n1) = t1
(m2, n2) = t2
if m1 == m2:
if n1 == 0 or n1 != n2:
return zero
else:
k = (3 * m1 * m1 + a) % p * gmpy2.invert(2 * n1 , p) % p
else:
k = (n2 - n1 + p) % p * gmpy2.invert((m2 - m1 + p) % p, p) % p
m3 = (k * k % p - m1 - m2 + p * 2) % p
n3 = (k * (m1 - m3) % p - n1 + p) % p
return (int(m3),int(n3))
def multiplication(x, k):
ans = zero
t = 1
while(t <= k):
if (k &t )>0:
ans = addition(ans, x)
x = addition(x, x)
t <<= 1
return ans
def getrs(z, k):
(xp, yp) = P
r = xp
s = (z + r * dA % n) % n * gmpy2.invert(k, n) % n
return r,s
z1 = random.randint(0, p)
z2 = random.randint(0, p)
k = random.randint(0, n)
P = multiplication(G, k)
hA = multiplication(G, dA)
r1, s1 = getrs(z1, k)
r2, s2 = getrs(z2, k)
print("r1 = {}".format(r1))
print("r2 = {}".format(r2))
print("s1 = {}".format(s1))
print("s2 = {}".format(s2))
print("z1 = {}".format(z1))
print("z2 = {}".format(z2))
key = sha256(long_to_bytes(dA)).digest()
cipher = AES.new(key, AES.MODE_CBC)
iv = cipher.iv
encrypted_flag = cipher.encrypt(pad(victory_encrypted_flag.encode(), AES.block_size))
encrypted_flag_hex = binascii.hexlify(iv + encrypted_flag).decode('utf-8')
print("Encrypted flag (AES in CBC mode, hex):", encrypted_flag_hex)
# output
# r1 = 86806104739558095745988469033305523200538774705708894815836887970976487278764
# r2 = 86806104739558095745988469033305523200538774705708894815836887970976487278764
# s1 = 93400851884262731807098055393482657423555590196362184363643455285862566867372
# s2 = 58741027521216057788923508334695668250013849866589902683641825341545919891746
# z1 = 47591695289461307212638536234394543297527537576682980326526736956079807805586
# z2 = 97911075901954715147720917205165523174582665086645698292621371632896283314804
# ('Encrypted flag (AES in CBC mode, hex):', u'86cd24e2914c0c4d9b87bea34005a98bd8587d14cae71909b917679d3328304e7915e6ba4cad1096faa4a85bc52f8056d3f21ef09516be8a5160f1b338a6b936')
2024/11/2大约 5 分钟