今天这里讨论的是对称加密中的AES加密(这里)。
高级加密标准(AES,Advanced Encryption Standard)为最常见的对称加密算法(微信小程序加密传输就是用这个加密算法的)。对称加密算法也就是加密和解密用相同的密钥,具体的加密流程如下:图:
关于AES加密算法的更多介绍可以参照: 这里
AES加密方式有五种:ECB, CBC, CTR, CFB, OFB从安全性角度推荐CBC加密方法,本文介绍了CBC,ECB两种加密方法的python实现。
1、python 在 Linux下使用AES时要安装的是pycrypto模块,安装方法很简单:
pip install pycrypto2、关于CBC加密和ECB加密。
CBC加密需要一个十六位的key(密钥)和一个十六位iv(偏移量)
ECB加密不需要iv(偏移量)
CBC加密:
#!/usr/bin/python
# -*- coding: utf-8 -*-
from Crypto.Cipher import AES
from binascii import b2a_hex, a2b_hex
mykey='fN8WkT2DQJQa7aR0'
# 如果text不足16位的倍数就用空格补足为16位
def add_to_16(text):
if len(text.encode('utf-8')) % 16:
add = 16 - (len(text.encode('utf-8')) % 16)
else:
add = 0
text = text + ('\0' * add)
return text.encode('utf-8')
# 加密函数
def encrypt(text):
key = mykey.encode('utf-8')
mode = AES.MODE_CBC
iv = b'qqqqqqqqqqqqqqqq'
text = add_to_16(text)
cryptos = AES.new(key, mode, iv)
cipher_text = cryptos.encrypt(text)
# 因为AES加密问题,所以这里转为16进制字符串
return b2a_hex(cipher_text)
# 解密后,去掉补足的空格用strip() 去掉
def decrypt(text):
#key = '9999999999999999'.encode('utf-8')
key = mykey.encode('utf-8')
iv = b'qqqqqqqqqqqqqqqq'
mode = AES.MODE_CBC
cryptos = AES.new(key, mode, iv)
plain_text = cryptos.decrypt(a2b_hex(text))
return bytes.decode(plain_text).rstrip('\0')
mystr="hello world!"
if __name__ == '__main__':
#e = encrypt("hello world") # 加密
e = encrypt(mystr) # 加密
d = decrypt(e) # 解密
print("加密:", e)
print("解密:", d)ECB加密:
#!/usr/bin/python
# -*- coding: utf-8 -*-
from Crypto.Cipher import AES
from binascii import b2a_hex, a2b_hex
mykey='fN8WkT2DQJQa7aR0'
"""
ECB没有偏移量
"""
from Crypto.Cipher import AES
from binascii import b2a_hex, a2b_hex
def add_to_16(text):
if len(text.encode('utf-8')) % 16:
add = 16 - (len(text.encode('utf-8')) % 16)
else:
add = 0
text = text + ('\0' * add)
return text.encode('utf-8')
# 加密函数
def encrypt(text):
mykey = '9999999999999999'.encode('utf-8')
mode = AES.MODE_ECB
text = add_to_16(text)
cryptos = AES.new(mykey, mode)
cipher_text = cryptos.encrypt(text)
return b2a_hex(cipher_text)
# 解密后,去掉补足的空格用strip() 去掉
def decrypt(text):
mykey = '9999999999999999'.encode('utf-8')
mode = AES.MODE_ECB
cryptor = AES.new(mykey, mode)
plain_text = cryptor.decrypt(a2b_hex(text))
return bytes.decode(plain_text).rstrip('\0')
mystr = "hello world!"
if __name__ == '__main__':
e = encrypt(mystr) # 加密
d = decrypt(e) # 解密
print("加密:", e)
print("解密:", d)