【问题标题】:unable to decrypt data in Node which is encrypted in Java using AES-GCM-256无法解密使用 AES-GCM-256 在 Java 中加密的 Node 中的数据
【发布时间】:2020-01-27 12:44:25
【问题描述】:

我正在尝试在 node.js 中创建一个 API,它解密使用 AES-GCM-256 算法创建的输入,我在 JAVA 中使用相同的算法来加密代码,但我无法解密它使用 node.js

我尝试了很多方法,但我可能卡在标签部分并且我收到错误“不支持的状态或无法验证数据”

我的 Java 代码:

import java.security.SecureRandom;
import java.util.Arrays;
import java.util.Base64;
import javax.crypto.Cipher;
import javax.crypto.KeyGenerator;
import javax.crypto.SecretKey;
import javax.crypto.spec.GCMParameterSpec;
import javax.crypto.spec.SecretKeySpec;
​
public class AES256GCMAlgo {
​
​
        static String plainText = "This is a plain text which need to be encrypted by Java AES 256 GCM Encryption Algorithm";
        public static final int AES_KEY_SIZE = 256;
        public static final int GCM_IV_LENGTH = 12;
        public static final int GCM_TAG_LENGTH = 16;
​
        public static void main(String[] args) throws Exception
        {
            KeyGenerator keyGenerator = KeyGenerator.getInstance("AES");
            keyGenerator.init(AES_KEY_SIZE);
​
            // Generate Key
            SecretKey key = keyGenerator.generateKey();
            byte[] IV = new byte[GCM_IV_LENGTH];
            SecureRandom random = new SecureRandom();
            random.nextBytes(IV);
​
            byte[] encoded = key.getEncoded();
            String output = Base64.getEncoder().withoutPadding().encodeToString(encoded);
            System.out.println("Keep it secret, keep it safe! " + output);
​
​
            String ivoutput = Base64.getEncoder().withoutPadding().encodeToString(IV);
            System.out.println("Keep ivoutput secret, keep it safe! " + ivoutput);
​
            System.out.println("Original Text : " + plainText);
​
            byte[] cipherText = encrypt(plainText.getBytes(), key, IV);
​
            byte[] tagVal = Arrays.copyOfRange(cipherText, cipherText.length - (128 / Byte.SIZE), cipherText.length);
​
            System.out.println("Encrypted Text : " + Base64.getEncoder().encodeToString(cipherText));
​
            System.out.println("Tag Text : " + Base64.getEncoder().encodeToString(tagVal));
​
​
            String input = output ;
            byte[] deencoded = Base64.getDecoder().decode(output);
            SecretKey aesKey = new SecretKeySpec(deencoded, "AES");
​
            String ivinput = ivoutput;
            byte[] ivdeencoded = Base64.getDecoder().decode(ivinput);
​
            String decryptedText = decrypt(cipherText, aesKey, ivdeencoded);
            System.out.println("DeCrypted Text : " + decryptedText);
        }
​
        public static byte[] encrypt(byte[] plaintext, SecretKey key, byte[] IV) throws Exception
        {
            // Get Cipher Instance
            Cipher cipher = Cipher.getInstance("AES/GCM/NoPadding");
​
            // Create SecretKeySpec
            SecretKeySpec keySpec = new SecretKeySpec(key.getEncoded(), "AES");
​
            // Create GCMParameterSpec
            GCMParameterSpec gcmParameterSpec = new GCMParameterSpec(GCM_TAG_LENGTH * 8, IV);
​
            // Initialize Cipher for ENCRYPT_MODE
            cipher.init(Cipher.ENCRYPT_MODE, keySpec, gcmParameterSpec);
​
            // Perform Encryption
            byte[] cipherText = cipher.doFinal(plaintext);
​
​
​
            return cipherText;
        }
​
        public static String decrypt(byte[] cipherText, SecretKey key, byte[] IV) throws Exception
        {
            // Get Cipher Instance
            Cipher cipher = Cipher.getInstance("AES/GCM/NoPadding");
​
            // Create SecretKeySpec
            SecretKeySpec keySpec = new SecretKeySpec(key.getEncoded(), "AES");
​
            // Create GCMParameterSpec
            GCMParameterSpec gcmParameterSpec = new GCMParameterSpec(GCM_TAG_LENGTH * 8, IV);
​
            // Initialize Cipher for DECRYPT_MODE
            cipher.init(Cipher.DECRYPT_MODE, keySpec, gcmParameterSpec);
​
            // Perform Decryption
            byte[] decryptedText = cipher.doFinal(cipherText);
​
            return new String(decryptedText);
        }
    }

我的 Node.js 代码

const crypto = require('crypto');
// input created by running above program in java
const ed = 'OGtANbvTLY6Cme2VNAxsiIhBLLwl29oVX7zC5DGmmq4hU/VqNKaGQuSp1Q8liQ94cW/B96OJoJJ2r67jRlQFI4qHCTWFU2qQ8QaNj6WehdVLsf5mDK2aMYjc/vXd1ha/cElMBzFaIp9g==='
const key = 'HuzPEZgzqKOo8VwlnYhNUaPWTWSVDRQ2bMtY6aJAp8I'
const iv = 'kg5ILA0826hrew5w'
const tag = 'jc/vXd1ha/cElMBzFaIp9g==' // last 16 bytes extracted in java

function decrypt(encrypted, ik, iiv, it) {
  let bData = Buffer.from(encrypted, 'base64');
  // console.log(bData.length,bData.length - 64)
  let tag1 = Buffer.from(tag, 'base64');
  // let tag1 = bData.slice((bData.length - 16),bData.length) // also tried slicing last 16 bytes of buffer
  console.log('00000000',tag1.length)
  let iv1 = Buffer.from(iiv, 'base64');
  let key1 = new Buffer(ik, 'base64');
  console.log('aaaaaaaaa')
  let decipher = crypto.createDecipheriv('aes-256-gcm', key1, iv1)
  console.log('bbbbbbbbbbbbb')
  decipher.setAuthTag(tag1);
  console.log('ccccccc')
  let dec = decipher.update(encrypted, 'binary', 'utf8')
  dec += decipher.final('utf8');
  return dec;
}

console.log('devryptedddddd',decrypt(ed,key,iv,tag))

我应该在 node.js 的控制台中收到“这是需要通过 Java AES 256 GCM 加密算法加密的纯文本”,但我收到“不支持状态或无法验证数据”错误。 请帮忙。

【问题讨论】:

    标签: java node.js aes-gcm


    【解决方案1】:

    您使用的“ed”不是该纯文本、密钥和 IV 的 Java 代码的输出。我得到的值是base64

    OGtANbvTLY6Cme2VNAxsiIhBLLwl29oVX7zC5DGmmq4hU/VqNKaGQuSp1Q8liQ94cW/B96OJoJJ2r67jRlQFI4qHCTWFU2qQ8QaNj6WehdVLsf5mDK2aMY3P713dYWv3BJTAcxWiKfY=
    

    (最后 22 个字符不同)。但是该值不是在 nodejs 中使用的正确值; Java 加密将 GCM 标记作为密文的最后 N 个字节返回,并且您正确地将其从那里复制到一个单独的变量中,但是您没有将它从密文中删除。在 nodejs 中使用的正确密文是 base64:

    OGtANbvTLY6Cme2VNAxsiIhBLLwl29oVX7zC5DGmmq4hU/VqNKaGQuSp1Q8liQ94cW/B96OJoJJ2r67jRlQFI4qHCTWFU2qQ8QaNj6WehdVLsf5mDK2aMQ==
    

    (短 20 个字符,最后 3 个字符不同)。

    最后,您的 nodejs 执行 bData = Buffer.from(encrypted, 'base64') 但随后忽略 bData 并执行 decipher.update(encrypted, 'binary', 'utf8') -- 使用 base64 字符串作为二进制文件,但事实并非如此。有了这两个变化:

    const crypto = require('crypto');
    
    const ed = 'OGtANbvTLY6Cme2VNAxsiIhBLLwl29oVX7zC5DGmmq4hU/VqNKaGQuSp1Q8liQ94cW/B96OJoJJ2r67jRlQFI4qHCTWFU2qQ8QaNj6WehdVLsf5mDK2aMQ=='
    const key = 'HuzPEZgzqKOo8VwlnYhNUaPWTWSVDRQ2bMtY6aJAp8I'
    const iv = 'kg5ILA0826hrew5w'
    const tag = 'jc/vXd1ha/cElMBzFaIp9g==' // last 16 bytes extracted in java
    
    function decrypt(encrypted, ik, iiv, it) {
      let bData = Buffer.from(encrypted, 'base64');
      let tag1 = Buffer.from(tag, 'base64');
      let iv1 = Buffer.from(iiv, 'base64');
      let key1 = new Buffer(ik, 'base64');
      let decipher = crypto.createDecipheriv('aes-256-gcm', key1, iv1)
      decipher.setAuthTag(tag1);
      let dec = decipher.update(bData, 'utf8')
      dec += decipher.final('utf8');
      return dec;
    }
    console.log(decrypt(ed,key,iv,tag))
    

    我得到了正确的输出,但也警告new Buffer()(用于key1)已被弃用; Buffer.from 用于其他变量现在是首选。

    【讨论】:

      猜你喜欢
      • 2020-07-03
      • 1970-01-01
      • 2021-03-05
      • 1970-01-01
      • 2021-06-04
      • 1970-01-01
      • 2022-10-16
      • 1970-01-01
      • 2017-10-21
      相关资源
      最近更新 更多