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xupeipei123xupeipei123添加链接
24c94640创建于 2025年3月27日历史提交

使用SM4对称密钥(GCM模式)加解密(ArkTS)

对应的算法规格请查看对称密钥加解密算法规格:SM4

加密

  1. 调用cryptoFramework.createSymKeyGeneratorSymKeyGenerator.generateSymKey,生成密钥算法为SM4、密钥长度为128位的对称密钥(SymKey)。

    如何生成SM4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:SM4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'SM4_128|GCM|PKCS7',创建对称密钥类型为SM4_128、分组模式为GCM、填充模式为PKCS7的Cipher实例,用于完成加密操作。

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

  4. 调用Cipher.update,更新数据(明文)。

    当前单次update长度没有限制,开发者可以根据数据量判断如何调用update。

    • 当数据量较小时,可以在init完成后直接调用doFinal。
    • 当数据量较大时,可以多次调用update,即分段加解密

  5. 调用Cipher.doFinal,获取加密后的数据。

    • 由于已使用update传入数据,此处data传入null。
    • doFinal输出结果可能为null,在访问具体数据前,需要先判断结果是否为null,避免产生异常。

  6. 读取GcmParamsSpec.authTag作为解密的认证信息。 在GCM模式下,需要从加密后的数据中取出末尾16字节,作为解密时初始化的认证信息。示例中authTag恰好为16字节。

解密

  1. 调用cryptoFramework.createCipher,指定字符串参数'SM4_128|GCM|PKCS7',创建对称密钥类型为SM4_128、分组模式为GCM、填充模式为PKCS7的Cipher实例,用于完成解密操作。

  2. 调用Cipher.init,设置模式为解密(CryptoMode.DECRYPT_MODE),指定解密密钥(SymKey)和GCM模式对应的解密参数(GcmParamsSpec),初始化解密Cipher实例。

  3. 调用Cipher.update,更新数据(密文)。

  4. 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 genGcmParamsSpec() {
  let ivBlob = generateRandom(12); // 12 bytes
  let arr = [1, 2, 3, 4, 5, 6, 7, 8]; // 8 bytes
  let dataAad = new Uint8Array(arr);
  let aadBlob: cryptoFramework.DataBlob = { data: dataAad };
  arr = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]; // 16 bytes
  let dataTag = new Uint8Array(arr);
  let tagBlob: cryptoFramework.DataBlob = {
    data: dataTag
  }; 
  // GCM的authTag在加密时从doFinal结果中获取,在解密时填入init函数的params参数中。
  let gcmParamsSpec: cryptoFramework.GcmParamsSpec = {
    iv: ivBlob,
    aad: aadBlob,
    authTag: tagBlob,
    algName: "GcmParamsSpec"
  };
  return gcmParamsSpec;
}

let gcmParams = genGcmParamsSpec();

// 加密消息。
async function encryptMessagePromise(symKey: cryptoFramework.SymKey, plainText: cryptoFramework.DataBlob) {
  let cipher = cryptoFramework.createCipher('SM4_128|GCM|PKCS7');
  await cipher.init(cryptoFramework.CryptoMode.ENCRYPT_MODE, symKey, gcmParams);
  let encryptUpdate = await cipher.update(plainText);
  // gcm模式加密doFinal时传入空,获得tag数据,并更新至gcmParams对象中。
  gcmParams.authTag = await cipher.doFinal(null);
  return encryptUpdate;
}
// 解密消息。
async function decryptMessagePromise(symKey: cryptoFramework.SymKey, cipherText: cryptoFramework.DataBlob) {
  let decoder = cryptoFramework.createCipher('SM4_128|GCM|PKCS7');
  await decoder.init(cryptoFramework.CryptoMode.DECRYPT_MODE, symKey, gcmParams);
  let decryptUpdate = await decoder.update(cipherText);
  // gcm模式解密doFinal时传入空,验证init时传入的tag数据,如果验证失败会抛出异常。
  let decryptData = await decoder.doFinal(null);
  if (decryptData === null) {
    console.info('GCM decrypt success, decryptData is null');
  }
  return decryptUpdate;
}
async function genSymKeyByData(symKeyData: Uint8Array) {
  let symKeyBlob: cryptoFramework.DataBlob = { data: symKeyData };
  let sm4Generator = cryptoFramework.createSymKeyGenerator('SM4_128');
  let symKey = await sm4Generator.convertKey(symKeyBlob);
  console.info('convertKey success');
  return symKey;
}
async function main() {
  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 message = "This is a test";
  let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(message, 'utf-8').buffer) };
  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');
  }
}

  • 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 genGcmParamsSpec() {
  let ivBlob = generateRandom(12); // 12 bytes
  let arr = [1, 2, 3, 4, 5, 6, 7, 8]; // 8 bytes
  let dataAad = new Uint8Array(arr);
  let aadBlob: cryptoFramework.DataBlob = { data: dataAad };
  arr = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]; // 16 bytes
  let dataTag = new Uint8Array(arr);
  let tagBlob: cryptoFramework.DataBlob = {
    data: dataTag
  };
  // GCM的authTag在加密时从doFinal结果中获取,在解密时填入init函数的params参数中。
  let gcmParamsSpec: cryptoFramework.GcmParamsSpec = {
    iv: ivBlob,
    aad: aadBlob,
    authTag: tagBlob,
    algName: "GcmParamsSpec"
  };
  return gcmParamsSpec;
}

let gcmParams = genGcmParamsSpec();

// 加密消息。
function encryptMessage(symKey: cryptoFramework.SymKey, plainText: cryptoFramework.DataBlob) {
  let cipher = cryptoFramework.createCipher('SM4_128|GCM|PKCS7');
  cipher.initSync(cryptoFramework.CryptoMode.ENCRYPT_MODE, symKey, gcmParams);
  let encryptUpdate = cipher.updateSync(plainText);
  // gcm模式加密doFinal时传入空,获得tag数据,并更新至gcmParams对象中。
  gcmParams.authTag = cipher.doFinalSync(null);
  return encryptUpdate;
}
// 解密消息。
function decryptMessage(symKey: cryptoFramework.SymKey, cipherText: cryptoFramework.DataBlob) {
  let decoder = cryptoFramework.createCipher('SM4_128|GCM|PKCS7');
  decoder.initSync(cryptoFramework.CryptoMode.DECRYPT_MODE, symKey, gcmParams);
  let decryptUpdate = decoder.updateSync(cipherText);
  // gcm模式解密doFinal时传入空,验证init时传入的tag数据,如果验证失败会抛出异常。
  let decryptData = decoder.doFinalSync(null);
  if (decryptData === null) {
    console.info('GCM decrypt success, decryptData is null');
  }
  return decryptUpdate;
}
function genSymKeyByData(symKeyData: Uint8Array) {
  let symKeyBlob: cryptoFramework.DataBlob = { data: symKeyData };
  let sm4Generator = cryptoFramework.createSymKeyGenerator('SM4_128');
  let symKey = sm4Generator.convertKeySync(symKeyBlob);
  console.info('convertKeySync success');
  return symKey;
}
function main() {
  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 message = "This is a test";
  let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(message, 'utf-8').buffer) };
  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');
  }
}