Ejemplo n.º 1
0
def main():
    p = remote("challenge.nahamcon.com", 32535)
    #p = process("./dice_roll.py")

    print("Running...")
    rc = RandCrack()
    p.recvuntil("3. Guess the dice (test)")

    for i in range(624):
        p.sendline(b'2')  # payload sent as byte

        random_number = p.recvuntil("3. Guess the dice (test)")  # return bytes
        random_number = random_number.decode().split('\n')
        random_number = int(random_number[3])

        rc.submit(random_number)  # submitting the generated random numbers

    p.sendline(b'3')
    p.recvuntil(
        "Guess the dice roll to win a flag! What will the sum total be?")

    predicted_number = rc.predict_getrandbits(
        32
    )  # predicting the next number based on the 624 numbers submitted above
    p.sendline(str(predicted_number))  # payload sent as string
    print("predicted number:", predicted_number)

    flag = p.recvuntil("3. Guess the dice (test)")  # return bytes
    flag = flag.decode().split('\n')[2]
    print(flag)
Ejemplo n.º 2
0
def crack():
    # gather 624 * 32 bits
    from randcrack import RandCrack
    rc = RandCrack()

    # 19.5 * 1024 == 624 * 32
    # means 10 rounds is enough to predict
    for i in xrange(10):
        p_rand, q_rand = crack_pq()
        if i == 9:
            # enough bits
            crack_rand(p_rand, rc)
            crack_rand(q_rand, rc, 512)

            print('predicted high bits of q:\n %X' %
                  (rc.predict_getrandbits(512)))
            print('received q:\n %X' % (q_rand))
            break

        crack_rand(p_rand, rc)
        crack_rand(q_rand, rc)

    p_base = rc.predict_getrandbits(1024)
    q_base = rc.predict_getrandbits(1024)

    p = gen_prime(p_base)
    q = gen_prime(q_base)

    return p, q
Ejemplo n.º 3
0
def test_predict_random():
    random.seed(time.time())

    cracker = RandCrack()

    for i in range(624):
        cracker.submit(random.randint(0, 4294967294))
    assert sum([random.random() == cracker.predict_random() for _ in range(1000)]) >= 980
def get_aesIV():
    rc = RandCrack()
    for i in range(156):
        x = get_IV()
        for j in range(4):
            rc.submit(x % (2**32))
            x = x >> 32
    return rc
Ejemplo n.º 5
0
def test_predict_first_1000_close():
    random.seed(time.time())

    cracker = RandCrack()

    for i in range(624):
        cracker.submit(random.randint(0, 4294967294))

    assert sum([random.getrandbits(32) == cracker.predict_getrandbits(32) for _ in range(1000)]) >= 980
Ejemplo n.º 6
0
    def __init__(self,output) -> None:
        self.rc = RandCrack()
        S = []
        for ot in output:
            tmp = []
            if len(bin(ot)[2:]) % 32 != 0:
                b ='0'*(32 - (len(bin(ot)[2:]) % 32)) + bin(ot)[2:]
            else:
                b = bin(ot)[2:]
            for i in range(0,len(b),32):
                tmp.append(int(b[i:i+32],2))
            S = S + tmp[::-1]

        for i in S[:624]:
            self.rc.submit(i)
Ejemplo n.º 7
0
def getNonces():
    rc = RandCrack()
    scripts = '<script></script>' * (628 // 4)
    r = s.post('https://naas.2019.chall.actf.co/nonceify', data=scripts)
    r = json.loads(r.text)

    nonces = re.findall(r'''nonce-([^']+)''', r["csp"])
    nonces = map(lambda x: int(binascii.hexlify(b64decode(x)), 16), nonces)
    for nonce in nonces:
        n = nonce
        try:
            while n > 0:
                rc.submit(n % (1 << 32))
                n = n >> 32
        except:
            print("{}, {}".format(nonce, rc.predict_getrandbits(128)))
    scripts = ''
    for i in range(0, 16):
        next_nonce = convert(rc.predict_getrandbits(128))
        scripts += '''<script nonce="{}">{}</script>'''.format(
            next_nonce, payload)
    r = s.post('https://paste.2019.chall.actf.co', data={"paste": scripts})

    s.post('https://paste.2019.chall.actf.co/report', json={"url": r.url})
    print(r.text, r.url)
Ejemplo n.º 8
0
class MyRandCrack:
    rc =  RandCrack()

    def __init__(self,output) -> None:
        self.rc = RandCrack()
        S = []
        for ot in output:
            tmp = []
            if len(bin(ot)[2:]) % 32 != 0:
                b ='0'*(32 - (len(bin(ot)[2:]) % 32)) + bin(ot)[2:]
            else:
                b = bin(ot)[2:]
            for i in range(0,len(b),32):
                tmp.append(int(b[i:i+32],2))
            S = S + tmp[::-1]

        for i in S[:624]:
            self.rc.submit(i)

    def rc_getrandbits(self,bits):
        return self.rc.predict_getrandbits(bits)
    def rc_randint(self,a,b):
        return self.rc.predict_randint(a,b)
    def rc_randrange(self,a,b):
        return self.rc.predict_randrange(a,b)
def test_submit_not_enough():
    random.seed(time.time())

    cracker = RandCrack()

    for i in range(623):
        cracker.submit(random.randint(0, 4294967294))

    with pytest.raises(ValueError):
        cracker.predict_randint(0, 1)
def test_submit_too_much():
    random.seed(time.time())

    cracker = RandCrack()

    for i in range(624):
        cracker.submit(random.randint(0, 4294967294))

    with pytest.raises(ValueError):
        cracker.submit(random.randint(0, 4294967294))
Ejemplo n.º 11
0
import socket
import struct
import json
import time
import random
from randcrack import RandCrack
from tqdm import tqdm
rc = RandCrack()

TCP_IP = 'challenge.nahamcon.com'
TCP_PORT = 31784
BUFFER_SIZE = 4096
MESSAGE = "Hello, World!"

s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((TCP_IP, TCP_PORT))


def recvall_header(sock):
    BUFF_SIZE = 256  # 4 KiB
    data = b''
    while True:
        part = sock.recv(BUFF_SIZE)
        data += part
        if b"> " in part:
            break
    return data


data = recvall_header(s)
# print(data.decode())
Ejemplo n.º 12
0
from pwntools import *
from randcrack import RandCrack

r = remote('challenge.nahamcon.com', port)
print(r.recvline())

# set seed
r.send(b'1\r\n')
print(r.recvline())

# get samples
rc = RandCrack()
for i in range(624):
    r.send(b'2\r\n')
    sample = r.recvline()
    rc.submit(sample)

# predict next number
prediction = rc.predict_getrandbits(32)

r.send(b'3\r\n')
print(r.recvline())
r.send('{prediction}\r\n'.encode('ascii'))
print(r.recvline())
Ejemplo n.º 13
0
from randcrack import RandCrack

rc = RandCrack()

with open("robo_numbers_list.txt") as file:
    for line in file:
        line = line[:3] + line[4:7] + line[8:]
        num = int(line) - (1 << 31)
        rc.submit(num)

with open("secret.enc", "rb") as file:
    print("".join([chr(c ^ rc.predict_getrandbits(8)) for c in file.read()]))
Ejemplo n.º 14
0
pk = [0, 0]
ct = [0, 0]
pk[0] = kkk[0][1:-1].split(',')
for i in range(len(pk[0])):
    pk[0][i] = int(pk[0][i])
pk[1] = kkk[1][1:-1].split(',')
for i in range(len(pk[1])):
    pk[1][i] = int(pk[1][i])
ct[0] = kkk[2][1:-1].split(',')
for i in range(len(ct[0])):
    ct[0][i] = int(ct[0][i])
ct[1] = kkk[3][1:-1].split(',')
for i in range(len(ct[1])):
    ct[1][i] = int(ct[1][i])
print(len(pk[0]))
rc = RandCrack()

S(con, b'1')
print(R(con).decode())
for _ in range(312):
    S(con, b'1')
    resp = R(con).decode()
    # print(resp)
    num = re.findall('my number is (.*)', resp)[0]
    r = bin(int(num))[2:].zfill(64)
    r1 = r[:32]
    r2 = r[32:]
    rc.submit(int(r2, 2))
    rc.submit(int(r1, 2))

num = 0
Ejemplo n.º 15
0
from randcrack import RandCrack
rc = RandCrack()

f = open("./poker.py", 'rb').read()
cards = {}
for i in range(13):
    cards[f[f.index(b'SPADES')+10+4*i: f.index(b'SPADES')+14+4*i]] = i
    cards[f[f.index(b'HEARTS')+10+4*i: f.index(b'HEARTS')+14+4*i]] = 13+i
    cards[f[f.index(b'DIAMONDS')+12+4*i: f.index(b'DIAMONDS')+16+4*i]] = 26+i
    cards[f[f.index(b'CLUBS')+9+4*i: f.index(b'CLUBS')+13+4*i]] = 39+i
sorted(cards)

def deal_card(shuffle):
    deal = []
    deck = [i for i in range(52)]
    while shuffle > 0:
        deal.append(deck.pop(shuffle % len(deck)))
        shuffle //= len(deck) + 1
    while len(deal) < 25:
        deal += [deck.pop(0)]
    return deal

MD = 7407396657496428903767538970656768000000
g = open("./cards.22.07.16.txt", 'rb').read()
rands = []
for i in range(750):
    deck = [i for i in range(52)]
    rand = 0
    deals = []
    for j in range(25):
        card = cards[g[g.index(b'\xf0'):g.index(b'\xf0')+4]]
Ejemplo n.º 16
0
import random
from pwn import *
from randcrack import RandCrack
import zlib

rc = RandCrack()

p = 'POST /regen HTTP/1.1\r\n\
Host: tasks.open.kksctf.ru:20007\r\n\
Connection: keep-alive\r\n\
Content-Length: 17\r\n\
Cache-Control: max-age=0\r\n\
Origin: http://tasks.open.kksctf.ru:20007\r\n\
Upgrade-Insecure-Requests: 1\r\n\
Content-Type: application/x-www-form-urlencoded\r\n\
User-Agent: Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/79.0.3945.88 Safari/537.36\r\n\
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,image/apng,*/*;q=0.8,application/signed-exchange;v=b3;q=0.9\r\n\
Referer: http://tasks.open.kksctf.ru:20007/regen\r\n\
Accept-Encoding: gzip, deflate\r\n\
Accept-Language: zh-TW,zh;q=0.9,en-US;q=0.8,en;q=0.7,zh-CN;q=0.6,ja;q=0.5\r\n\
Cookie: PHPSESSID=481943c7014681051f83f0ab3df052f7; session=eyJ1aWQiOiJDamo5NWZ4c0tobktHT2ZHK3hqRFh3PT0ifQ.Xgg7Ow.bCqGLOuPAk6uADACGSZ8w6Ol-DE\r\n\
\r\n\
login=golem&otp=1\r\n'
bseed = zlib.crc32("golem".encode())
for i in range(624):
    r = remote("tasks.open.kksctf.ru", 20007)
    r.send(p)
    r.recvuntil(b'your new seed ')
    q = int(r.recvuntil(b' '))-bseed
    print(i, q)
    rc.submit(q)
Ejemplo n.º 17
0
HOST = '103.152.242.172'
PORT = 7070


def getSphinx(n):
    r.sendlineafter('[>] ', str(n))
    r.recvlines(2)
    out = r.recvline(0)
    if 'sphinx!' in out:
        return 'found'
    return int(out.split()[-1])


r = remote(HOST, PORT)

rc = RandCrack()

for n in range(1, 1338):
    rand = getSphinx(n)
    if rand == 'found':
        break
    if n < 625:
        rc.submit(rand)
    else:
        predict = rc.predict_getrandbits(32)

predict = rc.predict_getrandbits(32)
print 'PREDICT: ' + str(predict)
r.sendlineafter('[>]', str(predict))
# technofair{1s_this_even_crypt0graphy?}
Ejemplo n.º 18
0
import socket
from randcrack import RandCrack

sock = socket.socket()
sock.connect(('task.pase.ca', 24028))
sock.recv(10000)
sock.send(b'2\n')
sock.recv(1000)
sock.send(b'b33_1_4m_b3333\n')
sock.recv(200)
sock.send(b'1\n')
sock.recv(500)

states = []
rc = RandCrack()
for i in range(624):
    sock.send(b'$\n')
    sock.recv(100)
    sock.send(b'a\n')
    data = sock.recv(100)
    state = int(''.join(data.split(b'\n')[0].decode('ascii').split('|')), 16)
    rc.submit(state)
win = bytes(hex(rc.predict_getrandbits(32))[2:].encode('ascii'))
sock.send(b'$\n')
sock.recv(100)
sock.send(win + b'\n')
data = sock.recv(1024)
print(data.split(b'\n')[-2])
Ejemplo n.º 19
0
import random, time
from randcrack import RandCrack
from pwn import *

# random.seed(time.time())

rc = RandCrack()

# for i in range(624):
# 	rc.submit(random.getrandbits(32))

# print("Random result: {}\nCracker result: {}"
# 	.format(random.randrange(0, 4294967295), rc.predict_randrange(0, 4294967295)))





# Global vars
################################################################
host 		= args['RHOST'] or "challenge.nahamcon.com"   # passed as arguments or hardcode
port 		= args['RPORT'] or "31784"        # passed as arguments or hardcode
# user 		= args['USER']  or ''
# password 	= args['PASS']  or ''
# binary		= args['BIN']   or './path/to/binary'

conn = remote(host, port)

for i in range(624):
    print(i)
    conn.sendline('2')
Ejemplo n.º 20
0
from pwn import *
from randcrack import RandCrack

rc = RandCrack()

p = remote('task.pase.ca', 24028)
# p = process(['python', 'casino.py'])

print(p.recv())
p.write('2\n')
print(p.recv())
p.write('b33_1_4m_b3333\n')
print(p.recv())

p.write('1\n')
print(p.recv())
for i in range(624):
    p.write('$\n')
    print(p.recv())
    p.write('ff\n')
    result = p.recv().split('\n')
    print(result)
    data = result[0].replace('|', '')
    rc.submit(int(data, 16))
    print(int(data, 16))

print("feeding done")

prediction = rc.predict_getrandbits(32)
print("predicted %x" % prediction)
p.write('$\n')
Ejemplo n.º 21
0
from pwn import *
from randcrack import RandCrack
import socket

s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

s.connect(("challenge.nahamcon.com", 32535))

answer = s.recv(1024)
print answer

rc = RandCrack()
s.send("2\r\n")
num = s.recv(128)
split = num.split()

for i in range(624):
    s.send("2\r\n")
    num = s.recv(128)
    split = num.split()
    print '[' + str(i) + '] ' + split[6]
    rc.submit(int(split[6]))

#str(rc.predict_getrandbits(32))

s.send("3\r\n")
print s.recv(128)
s.send(str(rc.predict_getrandbits(32)) + '\r\n')
resp = s.recv(1024)
print resp
Ejemplo n.º 22
0
import random, time
from randcrack import RandCrack

random.seed(0)
first_random_is = "{0:b}".format(random.randrange(16**32))

random_bits_string = first_random_is
while len(random_bits_string) <= (624 * 32):
    random_bits_string = "{0:b}".format(random.randrange(
        0, 16**32)) + random_bits_string  # 128~ bits each round

print("Total random bits generated: ", len(random_bits_string), ", ",
      len(random_bits_string) - (624 * 32), "More than needed")

bit32_random_array = []
while len(random_bits_string) >= 32:
    bit32_random_array.append(bin(int(random_bits_string[-32:], 2)))
    random_bits_string = random_bits_string[:-32]
bit32_random_array.append(bin(int(random_bits_string, 2)))

print(bit32_random_array)

rc = RandCrack()
for i in range(624):
    print("Submiting", bin(int(bit32_random_array[i], 2)))
    rc.submit(int(bit32_random_array[i], 2))
    bit32_random_array[i] = ""

bit32_random_array = list(filter(None, bit32_random_array))
print(bit32_random_array)
Ejemplo n.º 23
0
import random, time, socket
from randcrack import RandCrack

sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.connect(('chal.noxale.com', 5115))

sock.send(b'0'*(16*624))

rc = RandCrack()
for i in range(624):
    read = 0
    while read < 34:
        read += len(sock.recv(34-read))
    read, resp = 0, b''
    while read < 37:
        resp += sock.recv(37-read)
        read += len(resp)
    resp = int(resp[20:-1])

    print('- {}'.format(resp))
    rc.submit(resp)

guess = rc.predict_getrandbits(32)
print('+ {}'.format(guess))
sock.send(str(guess).rjust(16, '0').encode('utf-8'))

read = 0
while read < 34:
    read += len(sock.recv(34-read))

print(sock.recv(1024).decode('utf-8'))
Ejemplo n.º 24
0
print("Number of random bits is = ", len(random_bits_string))
print("LEN IS:",len(first_random_is))
print(first_random_is)
print(bin(int(first_random_is,2)))
print(random_bits_string)
# random_bits = bin(int(random_bits_string,2))
# print(random_bits)


# first32 = random_bits[len(random_bits) - 32:]
bit32_random_array = []
while len(random_bits_string) >= 32:
    bit32_random_array.append(bin(int(random_bits_string[- 32:],2)))
    random_bits_string = random_bits_string[:-32]

rc = RandCrack()
for i in range(624):
    rc.submit(random_bits_string[i])
    random_bits_string[i] = 0



    # print(i)
# print(bit32_random_array)
# print(len(bit32_random_array))


# 0b11100011111001110000011010000010110000100000100101001100101011000110001010011111011011111011111011011000001011000000011111001101
#

# >>> random.seed(0)
Ejemplo n.º 25
0
from pwn import *
from randcrack import RandCrack

rc = RandCrack()

r = remote("twistwislittlestar.fword.wtf", 4445)
#p.interactive()

for i in range(3):
    r.recvuntil("Random Number is : ")
    n = int(r.recvline().strip())
    print(n)
    rc.submit(n)


def get_n():
    r.recvuntil("Your Prediction For the next one : ")
    r.sendline("0")
    r.recvuntil("The number was : ")
    n = int(r.recvline().strip())
    print(n)
    return n


for i in range(624 - 3):
    rc.submit(get_n())

for _ in range(20):
    r.sendline(str(rc.predict_getrandbits(32)))

r.interactive()
Ejemplo n.º 26
0
from z3 import *
from socket import socket
from randcrack import RandCrack

ALPHA = "BCDGPTVZ"
rc = RandCrack()

s = socket()
s.connect(("misc.hsctf.com", 9988))
data = recvuntil(s, b"letters are being said.\n").decode()
lines = data.split('\n')[8:-2]
assert len(lines) == 216

for i in range(8, 216): #Need exactly 624 integers out of 648, so skip the 8*3=24 first
    v1 = BitVec("v1", 32)
    v2 = BitVec("v2", 32)
    v3 = BitVec("v3", 32)
    results = list(map(ALPHA.index, lines[i]))
    z = Solver()
    z.add((v2 >> 0x1F & 0x1 | v3 >> 0x0 & 0x3) == results[0])
    z.add((v1 >> 0x09 & 0x7) == results[1])
    z.add((v3 >> 0x05 & 0x7) == results[2])
    z.add((v3 >> 0x08 & 0x7) == results[3])
    z.add((v1 >> 0x15 & 0x7) == results[4])
    z.add((v1 >> 0x06 & 0x7) == results[5])
    z.add((v3 >> 0x1D & 0x7) == results[6])
    z.add((v1 >> 0x1B & 0x7) == results[7])
    z.add((v2 >> 0x04 & 0x7) == results[8])
    z.add((v2 >> 0x0D & 0x7) == results[9])
    z.add((v2 >> 0x0A & 0x7) == results[10])
    z.add((v3 >> 0x1A & 0x7) == results[11])
Ejemplo n.º 27
0
#!/usr/bin/env python3

import random
import os
from randcrack import RandCrack

rc = RandCrack()

dice_bits = 32
#flag = open('flag.txt').read()


for i in range(624):
	rc.submit(random.getrandbits(32))

print("Random result: {}\nCracker result: {}".format(random.getrandbits(32), rc.predict_getrandbits(32)))
Ejemplo n.º 28
0
    key_loc = result.index(b"The key was ") + 12
    key = int(result[key_loc:key_loc + 32], 16)
    iv_loc = result.index(b"you were curious ") + 17
    iv = int(result[iv_loc:iv_loc + 32], 16)
    # print(iv)
    # print(key)
    # iv = random.getrandbits(128).to_bytes(16, 'big').hex()
    # key = random.getrandbits(128).to_bytes(16, 'big').hex()
    # iv = int(iv, 16)
    # key = int(key, 16)
    return iv, key


# Submit required numbers to crack random gen
random.seed(time.time())
rc = RandCrack()
for i in range(624 // 8):
    print("Getting key set", i)
    iv, key = gen_iv_and_key()

    # num = int.from_bytes(iv, byteorder='big')
    num = iv
    num1 = num >> 96
    num2 = (num >> 64) % (1 << 32)
    num3 = (num >> 32) % (1 << 32)
    num4 = (num) % (1 << 32)
    rc.submit(num4)
    rc.submit(num3)
    rc.submit(num2)
    rc.submit(num1)
    # num = int.from_bytes(key, byteorder='big')
Ejemplo n.º 29
0
def main():
    # Generate placeholder image with hidden data which generates a QR code of 444x444
    # Was useful for size information, formats etc. Not really needed
    qr = qrcode.QRCode(
        version=1,
        error_correction=qrcode.constants.ERROR_CORRECT_L,
        box_size=12,
        border=4,
    )
    qr.add_data("ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ")
    qr.make(fit=True)
    img = qr.make_image(fill_color="black", back_color="white")
    m, n = img.size

    # load share 2
    share2 = Image.open('share2.png')

    # Calculate randomness bitstream from last 624 * 32 bits of padding
    # We know the last 48 * 444 pixels were white, so can deduce random bits used from only share2.png
    bitstream = []
    for idx in range(48 * 444):
        i, j = idx // n + 444 - 48, idx % n
        if share2.getpixel((2 * j, 2 * i)):
            bitstream.append(0)
        else:
            bitstream.append(1)
    bitstream = "".join([str(x) for x in bitstream])

    # Load bitstream, and use cracker to simulate mersene twister state
    rc = RandCrack()

    # As getrandbits Generates sets of 32 bit integers, and puts the first ones generated at the end of the sequence of bits,
    # we need to invert the sequence so we give the last bits (the first generated) to randcracker in the right order
    splitstream = wrap((bitstream), 32)
    splitstream.reverse()

    # Seed the mersene twister cracker with 624 32 bit integers
    for i in range(624):
        val = int(splitstream[i], 2)
        rc.submit(val)

    # Predict randomness for all remaining pixels in source image
    newlist = bin(rc.predict_getrandbits(444 * 444))[2:].zfill(444 * 444)

    # Add the calculated randomness back onto the end of the approximated randomness
    splitstream2 = newlist[-(444 * 444 -
                             (32 * 624)):] + bitstream[-(32 * 624):]

    # Given the known randomness, we can reconstruct the original image from share2.png
    original = []
    for k in range(444 * 444):
        # l = k + 444*444 - 1 % (444*444)
        i, j = k // n, k % n
        if share2.getpixel((2 * j, 2 * i)):
            if int(splitstream2[k]):
                original.append(0)
            else:
                original.append(255)
        else:
            if int(splitstream2[k]):
                original.append(255)
            else:
                original.append(0)

    # Save the resulting data back into an image
    res = Image.new("L", img.size, 255)
    res.putdata(original)
    res.save('result3.png')
Ejemplo n.º 30
0
import requests as r
import zlib
import crypto
import re
from randcrack import RandCrack
import sys

rc = RandCrack()
r0 = re.compile(r"seed (\d+) and first password (\d+)")
r1 = re.compile(r"and first password (\d+)")
bu = "http://127.0.0.1:20007/"
bname = "exploit_" + sys.argv[1] + "_name_{0}"
s = r.Session()

for i in range(0, 624):
    try:
        d0 = s.post(bu + "register", data={"login": bname.format(i)})
    except r.exceptions.ConnectionError:
        d0 = s.post(bu + "register", data={"login": bname.format(i)})
    if "exists" in d0.text:
        print("watafack")
        exit(1)

    rd0 = r0.search(d0.text)
    if not rd0:
        print("watafack 1")
        print(d0.text)
        exit(1)

    seed = int(rd0.group(1))
    pasw = int(rd0.group(2))