aes-cbc-ebc的加密解密

from Cryptodome.Cipher import AES
from binascii import a2b_base64, b2a_base64
import base64

'''
ECB没有偏移量
'''
KEY = '9' * 16


def pad(text):
    '''给text补'''
    mod = len(text.encode('utf8')) % 16
    if mod:
        add = 16 - mod
    else:
        add = 0

    text = text + '' * add
    return text.encode('utf8')


def unpad(plain_text):
    return plain_text.decode('utf8').rstrip('')


def encrypt(text):
    text = pad(text)  # 补齐
    mode = AES.MODE_ECB
    aes = AES.new(key=bytes(KEY, 'utf8'), mode=mode)
    cipher_text = aes.encrypt(text)
    return b2a_base64(cipher_text, newline=False)


def decrypt(text):
    mode = AES.MODE_ECB
    aes = AES.new(key=KEY.encode('utf8'), mode=mode)
    plain_text = aes.decrypt(a2b_base64(text))
    return unpad(plain_text)


if __name__ == '__main__':
    e = encrypt('1' * 17)
    print(e)
    d = decrypt(e)
    print(d)

from Cryptodome.Cipher import AES
from binascii import b2a_base64, a2b_base64
from hashlib import md5
from Cryptodome import Random
import base64


'''
CBC
'''
KEY = ('9' * 16).encode('utf8')
IV = ('1' * 8).encode('utf8')
MODE = AES.MODE_CBC


def pad(text):
    '''给text补'''
    mod = len(text.encode('utf8')) % 16
    if mod:
        add = 16 - mod
    else:
        add = 0

    text = text + '' * add
    return text.encode('utf8')


def pad1(bt):
    mod = len(bt) % 16
    if mod:
        add = 16 - mod
    else:
        add = 0

    text = bt + b'' * add
    return text


def unpad(plain_text):
    return plain_text.decode('utf8').rstrip('')


def bytes_to_key(data, salt, output=48):
    # extended from https://gist.github.com/gsakkis/4546068
    assert len(salt) == 8, len(salt)
    data += salt
    key = md5(data).digest()
    final_key = key
    while len(final_key) < output:
        key = md5(key + data).digest()
        final_key += key
    return final_key[:output]


def simple_encrype(text):
    aes = AES.new(key=KEY, mode=MODE, iv=IV)
    return b2a_base64(aes.encrypt(pad(text)), newline=False)


def simple_decrypt(encrypted):
    aes = AES.new(key=KEY, mode=MODE, iv=IV)
    return unpad(aes.decrypt(a2b_base64(encrypted)))


def encrype(text):
    salt = Random.new().read(8)  # 随机生成8字节的盐
    key_iv = bytes_to_key(KEY, salt, 32 + 16)
    key = key_iv[:32]
    iv = key_iv[32:]
    aes = AES.new(key=key, mode=MODE, iv=iv)
    return base64.b64encode(salt + aes.encrypt(pad(text)))  # 注意前8位


def decrypt(encrypted):
    encrypted_data = base64.b64decode(encrypted)
    salt = encrypted_data[:8]
    key_iv = bytes_to_key(KEY, salt, 32 + 16)
    key = key_iv[:32]
    iv = key_iv[32:]
    aes = AES.new(key, MODE, iv)
    return unpad(aes.decrypt(encrypted_data[8:]))  # 前8位是salt


if __name__ == '__main__':
    e = encrype('Hello World')
    print(e)
    d = decrypt(e)
    print(d)

    # # bytes_to_key实例
    # salt = Random.new().read(8)
    #
    # key_iv = bytes_to_key(KEY, salt)
    # key = key_iv[:32]
    # iv = key_iv[32:]
    # print(key_iv)
    # print(key)
    # print(iv)