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使用AES-WRAP算法对对称密钥加解密(ArkTS)

从API version 22开始,算法库支持使用该算法进行加密和解密操作。

对应的算法规格请参见AES-WRAP加解密算法规格

加密

  1. 调用cryptoFramework.createSymKeyGeneratorSymKeyGenerator.generateSymKey,生成密钥算法为AES、密钥长度为128位的对称密钥(SymKey)。

    如何生成AES对称密钥,开发者可参考下文示例,并结合对称密钥生成和转换规格:AES随机生成对称密钥理解,参考文档与当前示例可能存在入参差异,请在阅读时注意区分。

  2. 调用cryptoFramework.createCipher,指定字符串参数'AES128-WRAP',创建类型为AES128-WRAP的Cipher实例,用于完成加密操作。

  3. 调用Cipher.init,设置模式为加密(cryptoFramework.CryptoMode.ENCRYPT_MODE),指定加密密钥(SymKey)和对应的加密参数(IvParamsSpec),初始化加密Cipher实例。

  4. 当加密内容长度较短时,可以直接调用 Cipher.doFinal 而无需调用update,以获取加密后的数据。

解密

  1. 调用cryptoFramework.createCipher,指定字符串参数'AES128-WRAP',创建类型为AES128-WRAP的Cipher实例,用于完成解密操作。
  2. 调用Cipher.init,设置模式为解密(cryptoFramework.CryptoMode.DECRYPT_MODE),指定解密密钥(SymKey)和对应的解密参数(IvParamsSpec),初始化解密Cipher实例。
  3. 当解密内容长度较短时,可以省略调用update,直接调用Cipher.doFinal,获取解密后的数据。

  • 异步方法示例:

    import { cryptoFramework } from '@kit.CryptoArchitectureKit';
    import { buffer } from '@kit.ArkTS';

    function generateRandom(len: number) {
      let rand = cryptoFramework.createRandom();
      let generateRandSync = rand.generateRandomSync(len);
      return generateRandSync;
    }

    function genIvParamsSpec() {
      let ivBlob = generateRandom(8);
      let ivParamsSpec: cryptoFramework.IvParamsSpec = {
        algName: 'IvParamsSpec',
        iv: ivBlob
      };
      return ivParamsSpec;
    }
    let iv = genIvParamsSpec();
    // 加密消息。
    async function encryptMessagePromise(symKey: cryptoFramework.SymKey, plainText: cryptoFramework.DataBlob) {
      let cipher = cryptoFramework.createCipher('AES128-WRAP');
      await cipher.init(cryptoFramework.CryptoMode.ENCRYPT_MODE, symKey, iv);
      let cipherData = await cipher.doFinal(plainText);
      return cipherData;
    }
    // 解密消息。
    async function decryptMessagePromise(symKey: cryptoFramework.SymKey, cipherText: cryptoFramework.DataBlob) {
      let decoder = cryptoFramework.createCipher('AES128-WRAP');
      await decoder.init(cryptoFramework.CryptoMode.DECRYPT_MODE, symKey, iv);
      let decryptData = await decoder.doFinal(cipherText);
      return decryptData;
    }

    async function genSymKeyByData(symKeyData: Uint8Array) {
      let symKeyBlob: cryptoFramework.DataBlob = { data: symKeyData };
      let aesGenerator = cryptoFramework.createSymKeyGenerator('AES128');
      let symKey = await aesGenerator.convertKey(symKeyBlob);
      console.info('convertKey result: success.');
      return symKey;
    }

    async function aesWrapTest() {
      try {
        let keyData = new Uint8Array([83, 217, 231, 76, 28, 113, 23, 219, 250, 71, 209, 210, 205, 97, 32, 159]);
        let symKey = await genSymKeyByData(keyData);
        let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(keyData)};
        let encryptText = await encryptMessagePromise(symKey, plainText);
        let decryptText = await decryptMessagePromise(symKey, encryptText);
        if (plainText.data.toString() === decryptText.data.toString()) {
          console.info('decrypt ok.');
          console.info('decrypt plainText: ' + buffer.from(decryptText.data).toString('utf-8'));
        } else {
          console.error('decrypt failed.');
        }
      } catch (error) {
        console.error(`AES Wrap failed: errCode: ${error.code}, message: ${error.message}`);
      }
    }

  • 同步方法示例:

    import { cryptoFramework } from '@kit.CryptoArchitectureKit';
    import { buffer } from '@kit.ArkTS';

    function generateRandom(len: number) {
      let rand = cryptoFramework.createRandom();
      let generateRandSync = rand.generateRandomSync(len);
      return generateRandSync;
    }

    function genIvParamsSpec() {
      let ivBlob = generateRandom(8);
      let ivParamsSpec: cryptoFramework.IvParamsSpec = {
        algName: 'IvParamsSpec',
        iv: ivBlob
      };
      return ivParamsSpec;
    }
    let iv = genIvParamsSpec();
    // 加密消息。
    function encryptMessage(symKey: cryptoFramework.SymKey, plainText: cryptoFramework.DataBlob) {
      let cipher = cryptoFramework.createCipher('AES128-WRAP');
      cipher.initSync(cryptoFramework.CryptoMode.ENCRYPT_MODE, symKey, iv);
      let cipherData = cipher.doFinalSync(plainText);
      return cipherData;
    }
    // 解密消息。
    function decryptMessage(symKey: cryptoFramework.SymKey, cipherText: cryptoFramework.DataBlob) {
      let decoder = cryptoFramework.createCipher('AES128-WRAP');
      decoder.initSync(cryptoFramework.CryptoMode.DECRYPT_MODE, symKey, iv);
      let decryptData = decoder.doFinalSync(cipherText);
      return decryptData;
    }

    function genSymKeyByData(symKeyData: Uint8Array) {
      let symKeyBlob: cryptoFramework.DataBlob = { data: symKeyData };
      let aesGenerator = cryptoFramework.createSymKeyGenerator('AES128');
      let symKey = aesGenerator.convertKeySync(symKeyBlob);
      console.info('convertKeySync result: success.');
      return symKey;
    }

    function main() {
      try {
        let keyData = new Uint8Array([83, 217, 231, 76, 28, 113, 23, 219, 250, 71, 209, 210, 205, 97, 32, 159]);
        let symKey = genSymKeyByData(keyData);
        let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(keyData)};
        let encryptText = encryptMessage(symKey, plainText);
        let decryptText = decryptMessage(symKey, encryptText);
        if (plainText.data.toString() === decryptText.data.toString()) {
          console.info('decrypt ok.');
          console.info('decrypt plainText: ' + buffer.from(decryptText.data).toString('utf-8'));
        } else {
          console.error('decrypt failed.');
        }
      } catch (error) {
        console.error(`AES Wrap failed: errCode: ${error.code}, message: ${error.message}`);
      }
    }