xref: /docs/en/application-dev/security/CryptoArchitectureKit/crypto-rsa-asym-encrypt-decrypt-pkcs1.md

# Encryption and Decryption with an RSA Asymmetric Key Pair (PKCS1)


For details about the algorithm specifications, see [RSA](crypto-asym-encrypt-decrypt-spec.md#rsa).


**Encryption**


1. Use [cryptoFramework.createAsyKeyGenerator](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreateasykeygenerator) and [AsyKeyGenerator.generateKeyPair](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#generatekeypair-1) to generate a 1024-bit RSA asymmetric key pair (**KeyPair**) with two primes. The **KeyPair** object includes a public key (**PubKey**) and a private key (**PriKey**).

   In addition to the example in this topic, [RSA](crypto-asym-key-generation-conversion-spec.md#rsa) and [Randomly Generating an Asymmetric Key Pair](crypto-generate-asym-key-pair-randomly.md) may help you better understand how to generate an RSA asymmetric key pair. Note that the input parameters in the reference documents may be different from those in the example below.

2. Use [cryptoFramework.createCipher](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreatecipher) with the string parameter **'RSA1024|PKCS1'** to create a **Cipher** instance for encryption. The key type is **RSA1024**, and the padding mode is **PKCS1**.

3. Use [Cipher.init](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#init-1) to initialize the **Cipher** instance. In **Cipher.init**, set **opMode** to **CryptoMode.ENCRYPT_MODE** (encryption) and **key** to **KeyPair.PubKey** (the key used for encryption).

   No encryption parameter is required for asymmetric key pairs. Therefore, pass in **null** in **params**.

4. Use [Cipher.doFinal](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#dofinal-1) to pass in the plaintext and encrypt it.

   - The output of **doFinal** may be **null**. To avoid exceptions, always check whether the result is **null** before accessing specific data.
   - If the data to be encrypted is considerably long, you can call **doFinal()** multiple times to [pass in and encrypt the data by segment](crypto-rsa-asym-encrypt-decrypt-by-segment.md).


**Decryption**


1. If RSA is used, the **Cipher** instance cannot be initialized repeatedly. Use [cryptoFramework.createCipher](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreatecipher) to create a new **Cipher** instance.

2. Use [Cipher.init](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#init-1) to initialize the **Cipher** instance. In **Cipher.init**, set **opMode** to **CryptoMode.DECRYPT_MODE** (decryption) and **key** to **KeyPair.PriKey** (the key used for decryption). When PKCS1 mode is used, pass in **null** in **params**.

3. Use [Cipher.doFinal](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#dofinal-1) to pass in the ciphertext and decrypt it.


  ```ts
  import cryptoFramework from '@ohos.security.cryptoFramework';
  import buffer from '@ohos.buffer';
  // Encrypt the message.
  async function encryptMessagePromise(publicKey: cryptoFramework.PubKey, plainText: cryptoFramework.DataBlob) {
    let cipher = cryptoFramework.createCipher('RSA1024|PKCS1');
    await cipher.init(cryptoFramework.CryptoMode.ENCRYPT_MODE, publicKey, null);
    let encryptData = await cipher.doFinal(plainText);
    return encryptData;
  }
  // Decrypt the message.
  async function decryptMessagePromise(privateKey: cryptoFramework.PriKey, cipherText: cryptoFramework.DataBlob) {
    let decoder = cryptoFramework.createCipher('RSA1024|PKCS1');
    await decoder.init(cryptoFramework.CryptoMode.DECRYPT_MODE, privateKey, null);
    let decryptData = await decoder.doFinal(cipherText);
    return decryptData;
  }
  // Generates an RSA key pair.
  async function genKeyPairByData(pubKeyData: Uint8Array, priKeyData: Uint8Array) {
    let pubKeyBlob: cryptoFramework.DataBlob = { data: pubKeyData };
    let priKeyBlob: cryptoFramework.DataBlob = { data: priKeyData };
    let rsaGenerator = cryptoFramework.createAsyKeyGenerator('RSA1024');
    let keyPair = await rsaGenerator.convertKey(pubKeyBlob, priKeyBlob);
    console.info('convertKey success');
    return keyPair;
  }
  async function main() {
    let pkData = new Uint8Array([48, 129, 159, 48, 13, 6, 9, 42, 134, 72, 134, 247, 13, 1, 1, 1, 5, 0, 3, 129, 141, 0, 48, 129, 137, 2, 129, 129, 0, 197, 64, 10, 198, 14, 110, 65, 92, 206, 35, 28, 123, 153, 24, 134, 255, 145, 74, 42, 173, 40, 215, 146, 58, 143, 46, 10, 195, 154, 160, 69, 196, 220, 152, 179, 44, 111, 200, 84, 78, 215, 73, 210, 181, 12, 29, 70, 68, 36, 135, 153, 89, 230, 202, 130, 212, 111, 243, 234, 92, 131, 62, 145, 50, 73, 48, 104, 245, 46, 70, 45, 157, 147, 143, 140, 162, 156, 216, 220, 49, 121, 142, 194, 33, 223, 201, 0, 16, 163, 210, 240, 118, 92, 147, 121, 220, 17, 114, 24, 52, 125, 135, 176, 88, 21, 83, 86, 17, 156, 88, 250, 48, 79, 86, 128, 248, 105, 208, 133, 140, 13, 153, 164, 191, 136, 164, 44, 53, 2, 3, 1, 0, 1]);
    let skData = new Uint8Array([48, 130, 2, 119, 2, 1, 0, 48, 13, 6, 9, 42, 134, 72, 134, 247, 13, 1, 1, 1, 5, 0, 4, 130, 2, 97, 48, 130, 2, 93, 2, 1, 0, 2, 129, 129, 0, 197, 64, 10, 198, 14, 110, 65, 92, 206, 35, 28, 123, 153, 24, 134, 255, 145, 74, 42, 173, 40, 215, 146, 58, 143, 46, 10, 195, 154, 160, 69, 196, 220, 152, 179, 44, 111, 200, 84, 78, 215, 73, 210, 181, 12, 29, 70, 68, 36, 135, 153, 89, 230, 202, 130, 212, 111, 243, 234, 92, 131, 62, 145, 50, 73, 48, 104, 245, 46, 70, 45, 157, 147, 143, 140, 162, 156, 216, 220, 49, 121, 142, 194, 33, 223, 201, 0, 16, 163, 210, 240, 118, 92, 147, 121, 220, 17, 114, 24, 52, 125, 135, 176, 88, 21, 83, 86, 17, 156, 88, 250, 48, 79, 86, 128, 248, 105, 208, 133, 140, 13, 153, 164, 191, 136, 164, 44, 53, 2, 3, 1, 0, 1, 2, 129, 128, 70, 75, 184, 139, 53, 1, 94, 17, 240, 244, 218, 101, 193, 253, 215, 190, 164, 204, 197, 192, 200, 89, 107, 39, 171, 119, 65, 38, 204, 168, 105, 180, 234, 217, 16, 161, 185, 132, 175, 103, 25, 154, 153, 153, 36, 36, 26, 178, 150, 66, 45, 8, 185, 19, 90, 228, 210, 177, 30, 200, 177, 141, 78, 184, 248, 59, 113, 154, 145, 73, 160, 24, 73, 157, 86, 207, 186, 32, 95, 200, 106, 252, 107, 69, 170, 193, 216, 196, 181, 142, 74, 203, 15, 18, 89, 228, 152, 19, 239, 21, 233, 98, 121, 214, 57, 187, 111, 239, 223, 248, 199, 70, 223, 108, 108, 113, 234, 144, 155, 95, 246, 144, 244, 122, 39, 55, 127, 81, 2, 65, 0, 246, 96, 188, 0, 0, 104, 221, 105, 139, 144, 63, 175, 209, 87, 179, 162, 88, 192, 99, 82, 125, 53, 54, 48, 70, 245, 239, 37, 15, 242, 247, 84, 115, 187, 196, 95, 156, 40, 165, 60, 64, 102, 13, 229, 243, 2, 149, 0, 232, 226, 221, 192, 95, 11, 12, 208, 5, 181, 98, 62, 210, 190, 141, 235, 2, 65, 0, 204, 244, 34, 10, 105, 80, 76, 116, 163, 35, 231, 168, 187, 206, 189, 101, 215, 103, 80, 115, 86, 11, 34, 127, 203, 114, 84, 188, 121, 174, 169, 31, 142, 2, 182, 27, 140, 225, 157, 227, 71, 98, 15, 203, 187, 213, 5, 190, 20, 121, 8, 30, 193, 100, 232, 101, 141, 8, 124, 20, 29, 78, 6, 95, 2, 65, 0, 204, 43, 225, 224, 6, 118, 224, 117, 100, 200, 199, 94, 70, 23, 109, 175, 173, 232, 208, 230, 61, 8, 105, 189, 156, 48, 150, 91, 154, 89, 248, 136, 173, 215, 254, 166, 84, 220, 130, 1, 234, 68, 40, 100, 84, 251, 224, 202, 254, 51, 115, 28, 198, 38, 124, 25, 175, 129, 94, 199, 61, 17, 216, 189, 2, 64, 72, 230, 129, 129, 48, 138, 134, 87, 106, 123, 231, 247, 165, 173, 216, 194, 115, 198, 228, 223, 209, 120, 46, 114, 68, 92, 75, 117, 170, 214, 140, 131, 147, 208, 181, 19, 193, 157, 178, 186, 87, 246, 178, 101, 166, 79, 20, 54, 211, 51, 101, 199, 2, 197, 48, 192, 134, 84, 193, 69, 170, 82, 201, 131, 2, 65, 0, 213, 165, 55, 166, 131, 210, 195, 56, 250, 147, 195, 61, 205, 208, 189, 185, 40, 52, 50, 119, 137, 23, 246, 46, 220, 108, 52, 23, 152, 154, 94, 32, 144, 195, 184, 249, 21, 168, 12, 57, 222, 18, 60, 117, 81, 157, 72, 30, 155, 190, 165, 242, 228, 139, 240, 184, 145, 170, 103, 210, 160, 161, 135, 13]);
    let keyPair = await genKeyPairByData(pkData, skData);
    let pubKey = keyPair.pubKey;
    let priKey = keyPair.priKey;
    let message = 'This is a test';
    // Decode the string into a Uint8Array in UTF-8 format.
    let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(message, 'utf-8').buffer) };
    let encryptText = await encryptMessagePromise(pubKey, plainText);
    let decryptText = await decryptMessagePromise(priKey, encryptText);
    if (plainText.data.toString() === decryptText.data.toString()) {
      console.info('decrypt ok');
      // Encode the Uint8Array into a string in UTF-8 format.
      let messageDecrypted = buffer.from(decryptText.data).toString('utf-8');
      console.info('decrypted result string:' + messageDecrypted);
    } else {
      console.error('decrypt failed');
    }
  }
}
```