Python中的RSA加密和解密
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RSA encryption and decryption in Python
提问by
I need help using RSA encryption and decryption in Python.
我需要在 Python 中使用 RSA 加密和解密的帮助。
I am creating a private/public key pair, encrypting a message with keys and writing message to a file. Then I am reading ciphertext from file and decrypting text using key.
我正在创建一个私钥/公钥对,用密钥加密消息并将消息写入文件。然后我从文件中读取密文并使用密钥解密文本。
I am having trouble with the decryption portion. As you can see in my code below, when I put in decrypted = key.decrypt(message)that the program works, yet the decrypted message is encrypted again. It seems like it is not reading the ciphertext from the file.
我在解密部分遇到了问题。正如您在下面的代码中看到的那样,当我decrypted = key.decrypt(message)输入程序运行时,解密的消息又被加密了。它似乎没有从文件中读取密文。
Can anyone help me write this code so decryption reads ciphertext from file and then uses key to decrypt ciphertext?
谁能帮我写这段代码,以便解密从文件中读取密文,然后使用密钥解密密文?
import Crypto
from Crypto.PublicKey import RSA
from Crypto import Random
random_generator = Random.new().read
key = RSA.generate(1024, random_generator) #generate public and private keys
publickey = key.publickey # pub key export for exchange
encrypted = publickey.encrypt('encrypt this message', 32)
#message to encrypt is in the above line 'encrypt this message'
print 'encrypted message:', encrypted #ciphertext
f = open ('encryption.txt', 'w'w)
f.write(str(encrypted)) #write ciphertext to file
f.close()
#decrypted code below
f = open ('encryption.txt', 'r')
message = f.read()
decrypted = key.decrypt(message)
print 'decrypted', decrypted
f = open ('encryption.txt', 'w')
f.write(str(message))
f.write(str(decrypted))
f.close()
回答by Esdes
In order to make it work you need to convert key from str to tuple before decryption(ast.literal_eval function). Here is fixed code:
为了使其工作,您需要在解密之前将密钥从 str 转换为元组(ast.literal_eval 函数)。这是固定代码:
import Crypto
from Crypto.PublicKey import RSA
from Crypto import Random
import ast
random_generator = Random.new().read
key = RSA.generate(1024, random_generator) #generate pub and priv key
publickey = key.publickey() # pub key export for exchange
encrypted = publickey.encrypt('encrypt this message', 32)
#message to encrypt is in the above line 'encrypt this message'
print 'encrypted message:', encrypted #ciphertext
f = open ('encryption.txt', 'w')
f.write(str(encrypted)) #write ciphertext to file
f.close()
#decrypted code below
f = open('encryption.txt', 'r')
message = f.read()
decrypted = key.decrypt(ast.literal_eval(str(encrypted)))
print 'decrypted', decrypted
f = open ('encryption.txt', 'w')
f.write(str(message))
f.write(str(decrypted))
f.close()
回答by Nick Korolkov
# coding: utf-8
from __future__ import unicode_literals
import base64
import os
import six
from Crypto import Random
from Crypto.PublicKey import RSA
class PublicKeyFileExists(Exception): pass
class RSAEncryption(object):
PRIVATE_KEY_FILE_PATH = None
PUBLIC_KEY_FILE_PATH = None
def encrypt(self, message):
public_key = self._get_public_key()
public_key_object = RSA.importKey(public_key)
random_phrase = 'M'
encrypted_message = public_key_object.encrypt(self._to_format_for_encrypt(message), random_phrase)[0]
# use base64 for save encrypted_message in database without problems with encoding
return base64.b64encode(encrypted_message)
def decrypt(self, encoded_encrypted_message):
encrypted_message = base64.b64decode(encoded_encrypted_message)
private_key = self._get_private_key()
private_key_object = RSA.importKey(private_key)
decrypted_message = private_key_object.decrypt(encrypted_message)
return six.text_type(decrypted_message, encoding='utf8')
def generate_keys(self):
"""Be careful rewrite your keys"""
random_generator = Random.new().read
key = RSA.generate(1024, random_generator)
private, public = key.exportKey(), key.publickey().exportKey()
if os.path.isfile(self.PUBLIC_KEY_FILE_PATH):
raise PublicKeyFileExists('Файл с публичным ключом существует. Удалите ключ')
self.create_directories()
with open(self.PRIVATE_KEY_FILE_PATH, 'w') as private_file:
private_file.write(private)
with open(self.PUBLIC_KEY_FILE_PATH, 'w') as public_file:
public_file.write(public)
return private, public
def create_directories(self, for_private_key=True):
public_key_path = self.PUBLIC_KEY_FILE_PATH.rsplit('/', 1)
if not os.path.exists(public_key_path):
os.makedirs(public_key_path)
if for_private_key:
private_key_path = self.PRIVATE_KEY_FILE_PATH.rsplit('/', 1)
if not os.path.exists(private_key_path):
os.makedirs(private_key_path)
def _get_public_key(self):
"""run generate_keys() before get keys """
with open(self.PUBLIC_KEY_FILE_PATH, 'r') as _file:
return _file.read()
def _get_private_key(self):
"""run generate_keys() before get keys """
with open(self.PRIVATE_KEY_FILE_PATH, 'r') as _file:
return _file.read()
def _to_format_for_encrypt(value):
if isinstance(value, int):
return six.binary_type(value)
for str_type in six.string_types:
if isinstance(value, str_type):
return value.encode('utf8')
if isinstance(value, six.binary_type):
return value
And use
并使用
KEYS_DIRECTORY = settings.SURVEY_DIR_WITH_ENCRYPTED_KEYS
class TestingEncryption(RSAEncryption):
PRIVATE_KEY_FILE_PATH = KEYS_DIRECTORY + 'private.key'
PUBLIC_KEY_FILE_PATH = KEYS_DIRECTORY + 'public.key'
# django/flask
from django.core.files import File
class ProductionEncryption(RSAEncryption):
PUBLIC_KEY_FILE_PATH = settings.SURVEY_DIR_WITH_ENCRYPTED_KEYS + 'public.key'
def _get_private_key(self):
"""run generate_keys() before get keys """
from corportal.utils import global_elements
private_key = global_elements.request.FILES.get('private_key')
if private_key:
private_key_file = File(private_key)
return private_key_file.read()
message = 'Hello мой friend'
encrypted_mes = ProductionEncryption().encrypt(message)
decrypted_mes = ProductionEncryption().decrypt(message)
回答by Anagnostou John
Here is my implementation for python 3 and pycrypto
这是我对 python 3 和 pycrypto 的实现
from Crypto.PublicKey import RSA
key = RSA.generate(4096)
f = open('/home/john/Desktop/my_rsa_public.pem', 'wb')
f.write(key.publickey().exportKey('PEM'))
f.close()
f = open('/home/john/Desktop/my_rsa_private.pem', 'wb')
f.write(key.exportKey('PEM'))
f.close()
f = open('/home/john/Desktop/my_rsa_public.pem', 'rb')
f1 = open('/home/john/Desktop/my_rsa_private.pem', 'rb')
key = RSA.importKey(f.read())
key1 = RSA.importKey(f1.read())
x = key.encrypt(b"dddddd",32)
print(x)
z = key1.decrypt(x)
print(z)
回答by Rajan saha Raju
PKCS#1 OAEP is an asymmetric cipher based on RSA and the OAEP padding
PKCS#1 OAEP 是一种基于 RSA 和 OAEP 填充的非对称密码
from Crypto.PublicKey import RSA
from Crypto import Random
from Crypto.Cipher import PKCS1_OAEP
def rsa_encrypt_decrypt():
key = RSA.generate(2048)
private_key = key.export_key('PEM')
public_key = key.publickey().exportKey('PEM')
message = input('plain text for RSA encryption and decryption:')
message = str.encode(message)
rsa_public_key = RSA.importKey(public_key)
rsa_public_key = PKCS1_OAEP.new(rsa_public_key)
encrypted_text = rsa_public_key.encrypt(message)
#encrypted_text = b64encode(encrypted_text)
print('your encrypted_text is : {}'.format(encrypted_text))
rsa_private_key = RSA.importKey(private_key)
rsa_private_key = PKCS1_OAEP.new(rsa_private_key)
decrypted_text = rsa_private_key.decrypt(encrypted_text)
print('your decrypted_text is : {}'.format(decrypted_text))
回答by AliReza Azizi
You can use simple way for genarate RSA . Use rsa library
您可以使用简单的方法生成 RSA 。使用 rsa 库
pip install rsa
回答by Alessandro
Watch out using Crypto!!!
It is a wonderful library but it has an issue in python3.8 'cause from the library time was removed the attribute clock(). To fix it just modify the source in /usr/lib/python3.8/site-packages/Crypto/Random/_UserFriendlyRNG.pyline 77 changing t = time.clock()int t = time.perf_counter()
小心使用加密货币!!!这是一个很棒的库,但它在 python3.8 中存在问题,因为从库时间中删除了属性 clock()。要修复它,只需修改第/usr/lib/python3.8/site-packages/Crypto/Random/_UserFriendlyRNG.py77 行中的源代码更改t = time.clock()intt = time.perf_counter()
