# -*- coding: utf-8 -*- import rsa # rsa加密 def rsaEncrypt(str): # 生成公钥、私钥 (pubkey, privkey) = rsa.newkeys(512) print("pub: ", pubkey) print("priv: ", privkey) # 明文编码格式 content = str.encode('utf-8') # 公钥加密 crypto = rsa.encrypt(content, pubkey) return (crypto, privkey) # rsa解密 def rsaDecrypt(str, pk): # 私钥解密 content = rsa.decrypt(str, pk) con = content.decode('utf-8') return con (a, b) = rsaEncrypt("hello") print('加密后密文:'+ a) content = rsaDecrypt(a, b) print('解密后明文:'+ content)
import rsa # 先生成一对密钥,然后保存.pem格式文件,当然也可以直接使用 (pubkey, privkey) = rsa.newkeys(1024) pub = pubkey.save_pkcs1() pubfile = open('public.pem', 'wb') pubfile.write(pub) pubfile.close() pri = privkey.save_pkcs1() prifile = open('private.pem', 'wb') prifile.write(pri) prifile.close() # load公钥和密钥 message = 'lovesoo.org' with open('public.pem', "rb") as publickfile: p = publickfile.read() pubkey = rsa.PublicKey.load_pkcs1(p) print(pubkey) with open('private.pem', "rb") as privatefile: p = privatefile.read() privkey = rsa.PrivateKey.load_pkcs1(p) print(privkey) # 用公钥加密、再用私钥解密 crypto = rsa.encrypt(message.encode('utf-8'), pubkey) message = rsa.decrypt(crypto, privkey) message = message.decode('utf-8') print (message) # sign 用私钥签名认证、再用公钥验证签名 signature = rsa.sign(message.encode('utf-8'), privkey, 'SHA-1') verify = rsa.verify('lovesoo.org'.encode('utf-8'), signature, pubkey) print(verify)
import Crypto.PublicKey.RSA import Crypto.Random x = Crypto.PublicKey.RSA.generate(2048) # Crypto.PublicKey.RSA.generate(2048, Crypto.Random.new().read) 使用 Crypto.Random.new().read 伪随机数生成器 a = x.exportKey("PEM") # 生成私钥 b = x.publickey().exportKey() # 生成公钥 with open("a.pem", "wb") as x: x.write(a) with open("b.pem", "wb") as x: x.write(b)
import Crypto.PublicKey.RSA with open("a.pem", "rb") as x: xx = Crypto.PublicKey.RSA.importKey(x.read()) b = xx.publickey().exportKey() # 生成公钥 with open("b.pem", "wb") as x: x.write(b) a = xx.exportKey("DER") # 生成 DER 格式的证书 with open("a.der", "wb") as x: x.write(a)
import Crypto.PublicKey.RSA import Crypto.Cipher.PKCS1_v1_5 import Crypto.Random import Crypto.Signature.PKCS1_v1_5 import Crypto.Hash y = b"abcdefg1234567" with open("b.pem", "rb") as x: b = x.read() cipher_public = Crypto.Cipher.PKCS1_v1_5.new(Crypto.PublicKey.RSA.importKey(b)) cipher_text = cipher_public.encrypt(y) # 使用公钥进行加密 with open("a.pem", "rb") as x: a = x.read() # 如果私钥有密码 则使用相应密码 Crypto.PublicKey.RSA.importKey(a, password) cipher_private = Crypto.Cipher.PKCS1_v1_5.new(Crypto.PublicKey.RSA.importKey(a)) text = cipher_private.decrypt(cipher_text, Crypto.Random.new().read) # 使用私钥进行解密 assert text == y # 断言验证 with open("c.pem", "rb") as x: c = x.read() c_rsa = Crypto.PublicKey.RSA.importKey(c) signer = Crypto.Signature.PKCS1_v1_5.new(c_rsa) msg_hash = Crypto.Hash.SHA256.new() msg_hash.update(y) sign = signer.sign(msg_hash) # 使用私钥进行'sha256'签名 with open("d.pem", "rb") as x: d = x.read() d_rsa = Crypto.PublicKey.RSA.importKey(d) verifer = Crypto.Signature.PKCS1_v1_5.new(d_rsa) msg_hash = Crypto.Hash.SHA256.new() msg_hash.update(y) verify = verifer.verify(msg_hash, sign) # 使用公钥验证签名 print(verify)
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