CRYPTO(已解决3/4)
ezRSA
题目描述:一个简单的RSA
from Crypto.Util.number import *
from secret import flag
m=bytes_to_long(flag)
p=getPrime(1024)
q=getPrime(1024)
n=p*q
phi=(p-1)*(q-1)
e=0x10001
c=pow(m,e,n)
leak1=pow(p,q,n)
leak2=pow(q,p,n)
print(f'leak1={leak1}')
print(f'leak2={leak2}')
print(f'c={c}')
"""
leak1=149127170073611271968182576751290331559018441805725310426095412837589227670757540743929865853650399839102838431507200744724939659463200158012469676979987696419050900842798225665861812331113632892438742724202916416060266581590169063867688299288985734104127632232175657352697898383441323477450658179727728908669
leak2=116122992714670915381309916967490436489020001172880644167179915467021794892927977272080596641785569119134259037522388335198043152206150259103485574558816424740204736215551933482583941959994625356581201054534529395781744338631021423703171146456663432955843598548122593308782245220792018716508538497402576709461
c=10529481867532520034258056773864074017027019578041866245400647840230251661652999709715919620810933437191661180003295923273655675729588558899592524235622728816065501918076120812236580344991140980991532347991252705288633014913479970610056845543523591324177567061948922552275235486615514913932125436543991642607028689762693617305246716492783116813070355512606971626645594961850567586340389705821314842096465631886812281289843132258131809773797777049358789182212570606252509790830994263132020094153646296793522975632191912463919898988349282284972919932761952603379733234575351624039162440021940592552768579639977713099971
"""我的解答:
根据题目关系式我们可以写出:
leak1 = pq mod q
leak2 = qp mod p
根据费马小定理:
ap−1 ≡ 1 mod p
推出:
leak1 = p
leak2 = q
exp:
import gmpy2
from Crypto.Util.number import *
p=149127170073611271968182576751290331559018441805725310426095412837589227670757540743929865853650399839102838431507200744724939659463200158012469676979987696419050900842798225665861812331113632892438742724202916416060266581590169063867688299288985734104127632232175657352697898383441323477450658179727728908669
q=116122992714670915381309916967490436489020001172880644167179915467021794892927977272080596641785569119134259037522388335198043152206150259103485574558816424740204736215551933482583941959994625356581201054534529395781744338631021423703171146456663432955843598548122593308782245220792018716508538497402576709461
c= 10529481867532520034258056773864074017027019578041866245400647840230251661652999709715919620810933437191661180003295923273655675729588558899592524235622728816065501918076120812236580344991140980991532347991252705288633014913479970610056845543523591324177567061948922552275235486615514913932125436543991642607028689762693617305246716492783116813070355512606971626645594961850567586340389705821314842096465631886812281289843132258131809773797777049358789182212570606252509790830994263132020094153646296793522975632191912463919898988349282284972919932761952603379733234575351624039162440021940592552768579639977713099971
e = 65537
n = p*q
phi = (p-1) * (q-1)
d = gmpy2.invert(e, phi)
m = pow(c, d, n)
print(long_to_bytes(m))
#hgame{F3rmat_l1tt1e_the0rem_is_th3_bas1s}ezMath
题目描述:一个简单的数学题
from Crypto.Util.number import *
from Crypto.Cipher import AES
import random,string
from secret import flag,y,x
def pad(x):
return x+b'\x00'*(16-len(x)%16)
def encrypt(KEY):
cipher= AES.new(KEY,AES.MODE_ECB)
encrypted =cipher.encrypt(flag)
return encrypted
D = 114514
assert x**2 - D * y**2 == 1
flag=pad(flag)
key=pad(long_to_bytes(y))[:16]
enc=encrypt(key)
print(f'enc={enc}')
#enc=b"\xce\xf1\x94\x84\xe9m\x88\x04\xcb\x9ad\x9e\x08b\xbf\x8b\xd3\r\xe2\x81\x17g\x9c\xd7\x10\x19\x1a\xa6\xc3\x9d\xde\xe7\xe0h\xed/\x00\x95tz)1\\\t8:\xb1,U\xfe\xdec\xf2h\xab`\xe5'\x93\xf8\xde\xb2\x9a\x9a"我的解答:
考点:佩尔方程
解方程得到y,然后AES即可。
exp:
# sage
from Crypto.Util.number import *
from Crypto.Cipher import AES
a = 1
b = 114514
enc=b"\xce\xf1\x94\x84\xe9m\x88\x04\xcb\x9ad\x9e\x08b\xbf\x8b\xd3\r\xe2\x81\x17g\x9c\xd7\x10\x19\x1a\xa6\xc3\x9d\xde\xe7\xe0h\xed/\x00\x95tz)1\\\t8:\xb1,U\xfe\xdec\xf2h\xab`\xe5'\x93\xf8\xde\xb2\x9a\x9a"
numTry = 1500
def solve_pell(N, numTry):
cf = continued_fraction(sqrt(N))
for i in range(numTry):
denom = cf.denominator(i)
numer = cf.numerator(i)
if numer^2 - N * denom^2 == 1:
return numer, denom
return None, None
def pad(x):
return x+b'\x00'*(16-len(x)%16)
N = b//a
x,y = solve_pell(N,numTry)
print(y)
key = pad(long_to_bytes(y))[:16]
cipher = AES.new(key,AES.MODE_ECB)
flag = cipher.decrypt(enc)
print(flag)
# hgame{G0od!_Yo3_k1ow_C0ntinued_Fra3ti0ns!!!!!!!}ezPRNG
题目描述:一个简单的随机数
from Crypto.Util.number import *
import uuid
def PRNG(R,mask):
nextR = (R << 1) & 0xffffffff
i=(R&mask)&0xffffffff
nextbit=0
while i!=0:
nextbit^=(i%2)
i=i//2
nextR^=nextbit
return (nextR,nextbit)
R=str(uuid.uuid4())
flag='hgame{'+R+'}'
print(flag)
R=R.replace('-','')
Rlist=[int(R[i*8:i*8+8],16) for i in range(4)]
mask=0b10001001000010000100010010001001
output=[]
for i in range(4):
R=Rlist[i]
out=''
for _ in range(1000):
(R,nextbit)=PRNG(R,mask)
out+=str(nextbit)
output.append(out)
print(f'output={output}')
#output=['1111110110111011110000101011010001000111111001111110100101000011110111111100010000111110110111100001001000101101011110111100010010100000011111101101110101011010111000000011110000100011101111011011000100101100110100101110001010001101101110000010001000111100101010010110110111101110011011001011111011010101011000011011000111011011111001101010111100101100110001011010010101110011101001100111000011110111000001101110000001111100000100000101111100010110111001110011010000011011110110011000001101011111111010110011010111010101001000010011110110011110110101011110111010011010010110111111010011101000110101111101111000110011111110010110000100100100101101010101110010101001101010101011110111010011101110000100101111010110101111110001111111110010000000001110011100100001011111110100111011000101001101001110010010001100011000001101000111010010000101101111101011000000101000001110001011001010010001000011000000100010010010010111010011111111011100100100100101111111001110000111110110001111001111100101001001100010', '0010000000001010111100001100011101111101111000100100111010101110010110011001011110101100011101010000001100000110000000011000000110101111111011100100110111011010000100011111000111001000101001110010110010001000110010101011110011101000011111101101011000011110001101011111000110111000011000110011100100101100111100000100100101111001011101110001011011111111011010100010111011000010010101110110100000110100000100010101000010111101001000011000000000111010010101010111101101011111011001000101000100011001100101010110110001010010001010110111011011111101011100111001101111111111010011101111010010011110011111110100110011111110110001000111100010111000101111000011011011111101110101110100111000011100001010110111100011001011010011010111000110101100110100011101101011101000111011000100110110001100110101010110010011011110000111110100111101110000100010000111100010111000010000010001111110110100001000110110100100110110010110111010011111101011110000011101010100110101011110000110101110111011010110110000010000110001', '1110110110010001011100111110111110111001111101010011001111100100001000111001101011010100010111110101110101111010111100101100010011001001011101000101011000110111000010000101001000100111010110001010000111110110111000011001100010001101000010001111111100000101111000100101000000001001001001101110000100111001110001001011010111111010111101101101001110111010111110110011001000010001010100010010110110101011100000101111100100110011110001001001111100101111001111011011010111001001111010001100110001100001100000110000011111010100101111000000101011111010000111110000101111100010000010010111010110100101010101001111100101011100011001001011000101010101001101100010110000010001110011110011100111000110101010111010011010000001100001011000011101101000000011111000101111101011110011000011011000100100110111010011001111101100101100011000101001110101111001000010110010111101110110010101101000000101001011000000001110001110000100000001001111100011010011000000011011101111101001111110001011101100000010001001010011000001', '0001101010101010100001001001100010000101010100001010001000100011101100110001001100001001110000110100010101111010110111001101011011101110000011001000100100101000011011101000111001001010011100010001010110111011100100111110111001010010111010100000100111110101110010010110100001000010010001101111001110100010001011101100111011101011101100100101011010101000101001000101110011011111110110011111111100000000011100000010011000110001000110101010001011000010101000110000101001110101010111011010010111011001010011100010101001100110000110101100010000100110101110100001101001011011110011100110011001010110100101010111110110111100000111010001111101110000000000111011011101000011001010010111001110111000100111011110100101000100011011101100011111000101110110110111111001111000000011100011000010000101001011001101110101000010101001000100110010000101001111100101000001011011010011110001101000001101111010100101001100010100000111000011110101010100011011001110001011110111010111011010101101100000110000001010010101111011']我的解答:
题目参考:2018-CISCN-oldStreamgame
#对mask提取出相与有效位1
mask = '10001001000010000100010010001001'
for i in range(len(mask)):
if int(mask[i]) == 1:
print(i, end=' ')
#0 4 7 12 17 21 24 28 31
#恢复R
output=['1111110110111011110000101011010001000111111001111110100101000011110111111100010000111110110111100001001000101101011110111100010010100000011111101101110101011010111000000011110000100011101111011011000100101100110100101110001010001101101110000010001000111100101010010110110111101110011011001011111011010101011000011011000111011011111001101010111100101100110001011010010101110011101001100111000011110111000001101110000001111100000100000101111100010110111001110011010000011011110110011000001101011111111010110011010111010101001000010011110110011110110101011110111010011010010110111111010011101000110101111101111000110011111110010110000100100100101101010101110010101001101010101011110111010011101110000100101111010110101111110001111111110010000000001110011100100001011111110100111011000101001101001110010010001100011000001101000111010010000101101111101011000000101000001110001011001010010001000011000000100010010010010111010011111111011100100100100101111111001110000111110110001111001111100101001001100010', '0010000000001010111100001100011101111101111000100100111010101110010110011001011110101100011101010000001100000110000000011000000110101111111011100100110111011010000100011111000111001000101001110010110010001000110010101011110011101000011111101101011000011110001101011111000110111000011000110011100100101100111100000100100101111001011101110001011011111111011010100010111011000010010101110110100000110100000100010101000010111101001000011000000000111010010101010111101101011111011001000101000100011001100101010110110001010010001010110111011011111101011100111001101111111111010011101111010010011110011111110100110011111110110001000111100010111000101111000011011011111101110101110100111000011100001010110111100011001011010011010111000110101100110100011101101011101000111011000100110110001100110101010110010011011110000111110100111101110000100010000111100010111000010000010001111110110100001000110110100100110110010110111010011111101011110000011101010100110101011110000110101110111011010110110000010000110001', '1110110110010001011100111110111110111001111101010011001111100100001000111001101011010100010111110101110101111010111100101100010011001001011101000101011000110111000010000101001000100111010110001010000111110110111000011001100010001101000010001111111100000101111000100101000000001001001001101110000100111001110001001011010111111010111101101101001110111010111110110011001000010001010100010010110110101011100000101111100100110011110001001001111100101111001111011011010111001001111010001100110001100001100000110000011111010100101111000000101011111010000111110000101111100010000010010111010110100101010101001111100101011100011001001011000101010101001101100010110000010001110011110011100111000110101010111010011010000001100001011000011101101000000011111000101111101011110011000011011000100100110111010011001111101100101100011000101001110101111001000010110010111101110110010101101000000101001011000000001110001110000100000001001111100011010011000000011011101111101001111110001011101100000010001001010011000001', '0001101010101010100001001001100010000101010100001010001000100011101100110001001100001001110000110100010101111010110111001101011011101110000011001000100100101000011011101000111001001010011100010001010110111011100100111110111001010010111010100000100111110101110010010110100001000010010001101111001110100010001011101100111011101011101100100101011010101000101001000101110011011111110110011111111100000000011100000010011000110001000110101010001011000010101000110000101001110101010111011010010111011001010011100010101001100110000110101100010000100110101110100001101001011011110011100110011001010110100101010111110110111100000111010001111101110000000000111011011101000011001010010111001110111000100111011110100101000100011011101100011111000101110110110111111001111000000011100011000010000101001011001101110101000010101001000100110010000101001111100101000001011011010011110001101000001101111010100101001100010100000111000011110101010100011011001110001011110111010111011010101101100000110000001010010101111011']
flag = ''
for i in range(4):
nextbits = output[i]
R = []
for _ in range(32): #每次恢复1bit 一共是32bit 因为与0xffffffff 起到限制位数的作用
temp = '0' + ''.join(R) + nextbits[:(32-1-len(R))] #补全32位 第一个为猜测位0 第二个为已知R位 第三个为nextbit填充位
print(temp)
#进行猜测校验判断
if(int(temp[0]) ^ int(temp[4]) ^ int(temp[7]) ^ int(temp[12]) ^ int(temp[17]) ^ int(temp[21]) ^ int(temp[24]) ^ int(temp[28]) ^ int(temp[31]) == int(nextbits[32-1-len(R)])):
#猜测成功则填充0
R.insert(0, '0') #在第0位插入0
else:
R.insert(0, '1')
R = ''.join(R)
R = hex(int(R,2))[2:] #进制转换
flag += R
print(flag)
#fbbbee823f434f919337907880e4191a
#hgame{fbbbee82-3f43-4f91-9337-907880e4191a}最后结果根据UUID固定格式来写
MISC(全)
SignIn
换个方式签个到
flag格式:'hgame\{[A-Z_]+\}'
我的解答:
提示说换个视角,看着像拉伸过的图片。试着还原回去看看
放到Word里面编辑
hgame{WOW_GREAT_YOU_SEE_IT_WONDERFUL}
来自星尘的问候
一个即将发售的游戏的主角薇^3带来了一条消息。这段消息隐藏在加密的图片里
但即使解开了图片的六位弱加密,看到的也是一张迷惑的图片。
也许游戏的官网上有这种文字的记录?
补充:flag格式为`hgame\{[a-z0-9_]+\}`
我的解答:
steghide隐写,密码是123456
得到一个压缩包,解压里面有一张图片
根据题目提示可知该图中的文字为游戏中的字体,然后搜索发现是来自星尘的异星字体,对照表:https://my1l.github.io/Ctrl/CtrlAstr.html
hgame{welc0me!}
simple_attack
怎么解开这个压缩包呢?
我的解答:
附件里面有一张图片和一个压缩包,发现此压缩包中的图片与压缩包外的图片是一致的,一眼丁真,明文攻击
将图片进行压缩(使用bandzip进行压缩)然后与压缩包一起放入爆破工具进行明文攻击即可
得到
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希儿希儿希尔
Ch405是一名忠实的希儿厨,于是他出了一道这样的题,不过他似乎忘了这个加密的名字不是希儿了(x虽然经常有人叫错
补充:
图片打不开是正常现象,需要修复
最终得到的大写字母请用hgame{}包裹
我的解答:
宽高爆破
foremost分离文件得到密文
CVOCRJGMKLDJGBQIUIVXHEYLPNWR
根据题目名字希儿希儿想到希尔密码,但需要key才行。
图片放到随波逐流解出
RGB:KEY:[[8 7][3 8]]
然后希尔解码:http://www.practicalcryptography.com/ciphers/hill-cipher/
disappearintheseaofbutterfly
hgame{DISAPPEARINTHESEAOFBUTTERFLY}
签到
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