/** * aes解密 * @param * @param content 密文 * @return */ public static String AESDncode(String appkey, String content) { try { // 1.构造密钥生成器,指定为AES算法,不区分大小写 KeyGenerator keygen = KeyGenerator.getInstance("AES"); // 2.根据ecnodeRules规则初始化密钥生成器 SecureRandom secureRandom = SecureRandom.getInstance("SHA1PRNG"); secureRandom.setSeed(appkey.getBytes()); // 生成一个128位的随机源,根据传入的字节数组 keygen.init(128, secureRandom); // 3.产生原始对称密钥 SecretKey original_key = keygen.generateKey(); // 4.获得原始对称密钥的字节数组 byte[] raw = original_key.getEncoded(); // 5.根据字节数组生成AES密钥 SecretKey key = new SecretKeySpec(raw, "AES"); // 6.根据指定算法AES自成密码器 Cipher cipher = Cipher.getInstance("AES"); // 7.初始化密码器,第一个参数为加密(Encrypt_mode)或者解密(Decrypt_mode)操作,第二个参数为使用的KEY cipher.init(Cipher.DECRYPT_MODE, key); // 8.将加密并编码后的内容解码成字节数组 byte[] byte_content = new BASE64Decoder().decodeBuffer(content); /* * 解密 */ byte[] byte_decode = cipher.doFinal(byte_content); String AES_decode = new String(byte_decode, "utf-8"); return AES_decode; } catch (Exception e) { e.printStackTrace(); } // 如果有错就返加nulll return null; }
import base64 import hashlib from Crypto.Cipher import AES as _AES class AES: def __init__(self, key: str): """Init aes object used by encrypt or decrypt. AES/ECB/PKCS5Padding same as aes in java default. """ self.aes = _AES.new(self.get_sha1prng_key(key), _AES.MODE_ECB) @staticmethod def get_sha1prng_key(key: str) -> bytes: """encrypt key with SHA1PRNG. same as java AES crypto key generator SHA1PRNG. SecureRandom secureRandom = SecureRandom.getInstance("SHA1PRNG" ); secureRandom.setSeed(decryptKey.getBytes()); keygen.init(128, secureRandom); :param string key: original key. :return bytes: encrypt key with SHA1PRNG, 128 bits or 16 long bytes. """ signature: bytes = hashlib.sha1(key.encode()).digest() signature: bytes = hashlib.sha1(signature).digest() return signature[:16] @staticmethod def padding(s: str) -> str: """Padding PKCS5""" pad_num: int = 16 - len(s) % 16 return s + pad_num * chr(pad_num) @staticmethod def unpadding(s): """Unpadding PKCS5""" padding_num: int = ord(s[-1]) return s[: -padding_num] def encrypt_to_bytes(self, content_str): """From string encrypt to bytes ciphertext. """ content_bytes = self.padding(content_str).encode() ciphertext_bytes = self.aes.encrypt(content_bytes) return ciphertext_bytes def encrypt_to_base64(self, content_str): """From string encrypt to base64 ciphertext. """ ciphertext_bytes = self.encrypt_to_bytes(content_str) ciphertext_bs64 = base64.b64encode(ciphertext_bytes).decode() return ciphertext_bs64 def decrypt_from_bytes(self, ciphertext_bytes): """From bytes ciphertext decrypt to string. """ content_bytes = self.aes.decrypt(ciphertext_bytes) content_str = self.unpadding(content_bytes.decode()) return content_str def decrypt_from_base64(self, ciphertext_bs64): """From base64 ciphertext decrypt to string. """ ciphertext_bytes = base64.b64decode(ciphertext_bs64) content_str = self.decrypt_from_bytes(ciphertext_bytes) return content_str def encrypt_to_bytes(content_str, encrypt_key: str): """From string encrypt to bytes ciphertext. """ aes: AES = AES(encrypt_key) ciphertext_bytes = aes.encrypt_to_bytes(content_str) return ciphertext_bytes def encrypt_to_base64(content_str, encrypt_key: str) -> str: """From string encrypt to base64 ciphertext. """ aes: AES = AES(encrypt_key) ciphertext_bs64 = aes.encrypt_to_base64(content_str) return ciphertext_bs64 def decrypt_from_bytes(ciphertext_bytes, decrypt_key: str) -> str: """From bytes ciphertext decrypt to string. """ aes: AES = AES(decrypt_key) content_str = aes.decrypt_from_bytes(ciphertext_bytes) return content_str def decrypt_from_base64(ciphertext_bs64, decrypt_key: str) -> str: """From base64 ciphertext decrypt to string. """ aes: AES = AES(decrypt_key) content_str = aes.decrypt_from_base64(ciphertext_bs64) return content_str if __name__ == "__main__": key = "57bf1661-3aad-4786-89a2-e187b38966ea" ct = "uafBlgURdmIJtSSe5Li/V1mByS3XZrpjXL+F/FCJmmro1bczVkVuHBBGcIk+Msi6hRSdCyJGZ+ox\nRHEA/QL0WjNXqw0BhgXE6oWYe/d0o3w=" ret = decrypt_from_base64(ct, key) print(ret)
测试可行!!!