# @system.cipher (Cipher Algorithm)
> **NOTE**
>
> - The initial APIs of this module are supported since API version 3. Newly added APIs will be marked with a superscript to indicate their earliest API version.
>- The APIs provided by this module are deprecated since API version 9. You are advised to use [@ohos.security.cryptoFramework Cipher](js-apis-cryptoFramework.md#cipher).
## Modules to Import
```js
import cipher from '@system.cipher';
```
## CipherResponse
Defines the response to the cipher interface called.
**System capability**: SystemCapability.Security.Cipher
| Name| Type | Readable| Writable|Description |
| ------ | ------ | ---- | ---- | ------------ |
| text | string | Yes | No | Response content.|
## CipherRsaOptions
Defines the input parameters of **cipher.rsa()**.
**System capability**: SystemCapability.Security.Cipher
| Name | Type | Mandatory| Description |
| -------------- | ------------------------------------ | ---- | ------------------------------------------------------------ |
| action | string | Yes | Action to perform. The options are as follows:<br>1. **encrypt**: Encrypts data.<br>2. **decrypt**: Decrypts data.|
| text | string | Yes | Text to be encrypted or decrypted.<br> The text to be encrypted must be a common text and cannot exceed the length calculated based on the formula (keySize/8 - 66). **keySize** indicates the key length. <br>For example, if the key length is 1024 bytes, the text cannot exceed 62 bytes (1024/8 - 66 = 62). The text to be decrypted must be a binary value encoded in Base64. The default format is used for Base64 encoding. |
| key | string | Yes | RSA key. It is a public key in encryption and a private key in decryption. |
| transformation | string | No | RSA padding. The default value is **RSA/None/OAEPWithSHA256AndMGF1Padding**.|
| success | (data: [CipherResponse](#cipherresponse)) => void | No | Called when data is encrypted or decrypted successfully. |
| fail | (data: string, code: number) => void | No | Called when data fails to be encrypted or decrypted. |
| complete | () => void | No | Called when the execution is complete. |
## CipherAesOptions
Defines the input parameters of **cipher.aes()**.
**System capability**: SystemCapability.Security.Cipher
| Name | Type | Mandatory| Description |
| -------------- | ------------------------------------ | ---- | ------------------------------------------------------------ |
| action | string | Yes | Action to perform. The options are as follows:<br>1. **encrypt**: Encrypts data.<br>2. **decrypt**: Decrypts data.|
| text | string | Yes | Text to be encrypted or decrypted.<br> The text to be encrypted must be common text. The text to be decrypted must be a binary value encoded in Base64. The default format is used for Base64 encoding.|
| key | string | Yes | Key used for encryption or decryption. It is a Base64 encoded string.|
| transformation | string | No | Encryption mode and padding of the AES algorithm. The default value is **AES/CBC/PKCS5Padding**. |
| iv | string | No | Initialization vector (IV) for AES-based encryption and decryption. The value is a string encoded in Base64. The default value is the key value.|
| ivOffset | string | No | Offset of the IV for AES-based encryption and decryption. The default value is **0**, which is the only value supported. |
| ivLen | string | No | Length of the IV, in bytes. This field is reserved. The default value is **16**, which is the only value supported.|
| success | (data: [CipherResponse](#cipherresponse)) => void | No | Called when data is encrypted or decrypted successfully. |
| fail | (data: string, code: number) => void | No | Called when data fails to be encrypted or decrypted. |
| complete | () => void | No | Called when the execution is complete. |
## cipher.rsa
rsa(options: CipherRsaOptions): void
Encrypts or decrypts data using RSA.
**System capability**: SystemCapability.Security.Cipher
**Parameters**
| Name| Type| Mandatory| Description|
| -------- | -------- | -------- | -------- |
| options | [CipherRsaOptions](#cipherrsaoptions) | Yes| Parameters set for RSA encryption or decryption.|
**Example**
```js
export default {
rsa() {
cipher.rsa({
// Encrypt data.
action: 'encrypt',
// Text to be encrypted.
text: 'hello',
// Base64-encoded public key used for encryption.
key:
'MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQCx414QSP3RsYWYzf9mkBMiBAXo\n' +
'6S7Lpva1fKlcuVxjoFC1iMnzD4mC0uiL4k5MNi43J64c7dbqi3qAJjdAtuwQ6NZJ\n' +
'+Enz0RzmVFh/4yk6lmqRzuEFQqhQqSZzaLq6sq2N2G0Sv2Xl3sLvqAfe2HNm2oBw\n' +
'jBpApTJ3TeneOo6Z5QIDAQAB',
success: function(data) {
console.log(`handling success:${data.text}`);
},
fail: function(data, code) {
console.log(`### cipher.rsa encrypt fail ### ${code}:${data}`);
},
complete: function() {
console.log(`operation complete!`);
}
});
cipher.rsa({
// Decrypt data.
action: 'decrypt',
// Text to be decrypted, which is binary text encoded in Base64. The decrypted text is "hello".
text:
'EPeCFPib6ayKbA0M6oSywARvFZ8dFYfjQv3nY8ikZGtS9UHq2sLPvAfpeIzggSiCxqbWeCftP1XQ\n' +
'Sa+jEpzFlT1qoSTunBbrYzugPTajIJDTg6R1IRsF/J+mmakn0POVPvi4jCo9wqavB324Bx0Wipnc\n' +
'EU5WO0oBHo5l4x6dTpU=',
// Base64-encoded private key used for decryption.
key:
'MIICXgIBAAKBgQCx414QSP3RsYWYzf9mkBMiBAXo6S7Lpva1fKlcuVxjoFC1iMnz\n' +
'D4mC0uiL4k5MNi43J64c7dbqi3qAJjdAtuwQ6NZJ+Enz0RzmVFh/4yk6lmqRzuEF\n' +
'QqhQqSZzaLq6sq2N2G0Sv2Xl3sLvqAfe2HNm2oBwjBpApTJ3TeneOo6Z5QIDAQAB\n' +
'AoGBAKPNtoRQcklxqo+2wQP0j2m3Qqnib1DggjVEgb/8f/LNYQSI3U2QdROemryU\n' +
'u3y6N3xacZ359PktTrRKfH5+8ohmHGhIuPAnefp6bLvAFUcl4t1xm74Cow62Kyw3\n' +
'aSbmuTG98dxPA1sXD0jiprdtsq2wQ9CoKNyY7/d/pKoqxNuBAkEA4GytZ60NCTj9\n' +
'w24jACFeko5YqCFY/TTLoc4SQvWtFMnimRPclLZhtUIK0P8dib71UFedx+AxklgL\n' +
'A5gjcfo+2QJBAMrqiwyCh3OQ5DhyRPDwt87x1/jg5fy4hhete2ufSf2FoQCVqO+w\n' +
'PKoljdXmJeS6rGgzGibstuHLrP3tcIho4+0CQD3ZFWzF/xq0jxKlrpWhnJuNCRfE\n' +
'oO6e9yNvVA8J/5oEDSOcmqSNIp4+RhbUx8InUxnCG6Ryv5aSFu71pYcKrPkCQQCL\n' +
'RUGcm3ZGTnslduB0knNF+V2ndwzDUQ7P74UXT+PjurTPhujFYiuxCEd6ORVnEOzG\n' +
'M9TORIgdH8MjIbWsGnndAkEAw9yURDaorE8IYPLF2IEn09g1uzvWPs3phDb6smVx\n' +
'8GfqIdUNf+aCG5TZK/kXBF1sqcsi7jXMAf4jBlejVbSVZg==',
success: function(data) {
console.log(`handling success:${data.text}`);
},
fail: function(data, code) {
console.log(`### cipher.rsa encrypt fail ### ${code}:${data}`);
},
complete: function() {
console.log(`operation complete!`);
}
});
}
}
```
## cipher.aes
aes(options: CipherAesOptions): void
Encrypts or decrypts data using AES.
**System capability**: SystemCapability.Security.Cipher
**Parameters**
| Name| Type| Mandatory| Description|
| -------- | -------- | -------- | -------- |
| options | [CipherAesOptions](#cipheraesoptions) | Yes| Parameters set for AES encryption or decryption.|
**Example**
```js
export default {
aes() {
cipher.aes({
// Encrypt data.
action: 'encrypt',
// Text to be encrypted.
text: 'hello',
// Base64-encoded key.
key: 'NDM5Qjk2UjAzMEE0NzVCRjlFMkQwQkVGOFc1NkM1QkQ=',
transformation: 'AES/CBC/PKCS5Padding',
ivOffset: '0',
ivLen: '16',
success: function(data) {
console.log(`handling success:${data.text}`);
},
fail: function(data, code) {
console.log(`### cipher.rsa encrypt fail ### ${code}:${data}`);
},
complete: function() {
console.log(`operation complete!`);
}
});
cipher.aes({
// Decrypt data.
action: 'decrypt',
// Text to be decrypted, which is binary text encoded in Base64.
text: '1o0kf2HXwLxHkSh5W5NhzA==',
// Base64-encoded key.
key: 'NDM5Qjk2UjAzMEE0NzVCRjlFMkQwQkVGOFc1NkM1QkQ=',
transformation: 'AES/CBC/PKCS5Padding',
ivOffset: '0',
ivLen: '16',
success: function(data) {
console.log(`handling success:${data.text}`);
},
fail: function(data, code) {
console.log(`### cipher.aes encrypt fail ### ${code}:${data}`);
},
complete: function() {
console.log(`operation complete!`);
}
});
}
}
```