HarmonyOS应用开发-签名验签功能应该如许实现?_鸿蒙开发接口加签名(1)
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[*]签名(Promise方式)
[*]@param algName 签名算法
[*]@param plainDataBlob 数据原文
[*]@param rsaKeyPair 密钥
[*]@returns
*/
function signPromise(algName: string, plainDataBlob: cryptoFramework.DataBlob,
keyPair: cryptoFramework.KeyPair): Promise<cryptoFramework.DataBlob> {
return new Promise((resolve, reject) => {
let signer = cryptoFramework.createSign(algName);
let cipherText: cryptoFramework.DataBlob;
signer.init(keyPair.priKey)
.then(() => {
return signer.sign(plainDataBlob);
})
.then((updateOutput) => {
cipherText = updateOutput;
resolve(cipherText);
})
.catch((error: BusinessError) => reject(error));
});
}
验签功能:
/**
[*]验签(Promise方式)
[*]@param algName 验签算法
[*]@param plainDataBlob 数据原文
[*]@param signDataBlob 签名数据
[*]@param rsaKeyPair 密钥
[*]@returns 验签结果
*/
function verifyPromise(algName: string, plainDataBlob: cryptoFramework.DataBlob,
signDataBlob: cryptoFramework.DataBlob, keyPair: cryptoFramework.KeyPair): Promise {
return new Promise((resolve, reject) => {
let verify = cryptoFramework.createVerify(algName);
verify.init(keyPair.pubKey)
.then(() => {
return verify.verify(plainDataBlob, signDataBlob);
})
.then((res) => {
resolve(res);
})
.catch((error: BusinessError) => reject(error));
});
}
## 3 完整示例代码
import cryptoFramework from ‘@ohos.security.cryptoFramework’;
import { BusinessError } from ‘@ohos.base’;
import Logger from ‘…/utils/Logger’;
import util from ‘@ohos.util’;
const TAG = ‘’;
// 生成的密钥
let key: cryptoFramework.KeyPair;
@Entry
@Component
struct SignaturePage {
@State message: string = ‘你好’;
signBase64: string = “”;
// 密钥算法
// algName: string = ‘RSA2048|PRIMES_2’;
algName: string = ‘SM2_256’;
// 签名算法
// signAlgName: string = ‘RSA2048|PKCS1|SHA256’;
signAlgName: string = ‘SM2_256|SM3’;
build() {
Row() {
Column({ space: 12 }) {
Text(this.message)
.fontSize(30)
Button('生成秘钥').onClick(() => {
let array = stringToUint8Array(this.message);
let str = uint8ArrayToString(array);
Logger.info(TAG, "str: " + str);
generateKeyPromise(this.algName).then((keyPair: cryptoFramework.KeyPair) => {
key = keyPair;
Logger.info(TAG, "生成秘钥了")
let that = new util.Base64Helper();
let pubKeyBase64 = that.encodeToStringSync(keyPair.pubKey.getEncoded().data);
Logger.info(TAG, "generateKey success, pubKeyBase64: " + pubKeyBase64);
let priKeyBase64 = that.encodeToStringSync(keyPair.priKey.getEncoded().data);
Logger.info(TAG, "generateKey success, priKeyBase64: " + priKeyBase64);
// 根据指定的非对称密钥二进制数据,生成KeyPair对象
let generator = cryptoFramework.createAsyKeyGenerator(this.algName);
// 公钥
let pubKeyUint8Array = keyPair.pubKey.getEncoded().data
let pubKeyBlob: cryptoFramework.DataBlob = { data: pubKeyUint8Array };
// 私钥
let priKeyUint8Array = keyPair.priKey.getEncoded().data
let priKeyBlob: cryptoFramework.DataBlob = { data: priKeyUint8Array };
// 生成KeyPair对象
generator.convertKey(pubKeyBlob, priKeyBlob, (err, keyPair) => {
if (err) {
AlertDialog.show({ message: 'Convert keyPair fail' });
return;
}
AlertDialog.show({ message: 'Convert keyPair success' });
let pubKeyBase64 = that.encodeToStringSync(keyPair.pubKey.getEncoded().data);
Logger.info(TAG, "rsaGenerator.convertKey success, pubKeyBase64: " + pubKeyBase64);
let priKeyBase64 = that.encodeToStringSync(keyPair.priKey.getEncoded().data);
Logger.info(TAG, "generateKey success, priKeyBase64: " + priKeyBase64);
})
}).catch((error: BusinessError) => {
Logger.error(TAG, 'Error:' + error);
});
});
Button('签名').onClick(() => {
let input: cryptoFramework.DataBlob = { data: stringToUint8Array(this.message) };
signPromise(this.signAlgName, input, key).then((data: cryptoFramework.DataBlob) => {
Logger.info(TAG, "签名成功了")
AlertDialog.show({ message: 'signPromise success' });
// 签名后的数据转化为base64
let base64 = new util.Base64Helper();
this.signBase64 = base64.encodeToStringSync(data.data);
Logger.info(TAG, "signBase64:" + this.signBase64);
}).catch((error: BusinessError) => {
Logger.error(TAG, 'Error:' + error);
});
});
Button('验签').onClick(() => {
// 签名后的数据从base64转化为dataBlob
let base64 = new util.Base64Helper();
let uint8Array = base64.decodeSync(this.signBase64);
let dataBlob: cryptoFramework.DataBlob = { data: uint8Array };
let input: cryptoFramework.DataBlob = { data: stringToUint8Array(this.message) };
verifyPromise(this.signAlgName, input, dataBlob, key).then((data: boolean) => {
Logger.info(TAG, "验签成功了,结果为:" + data)
AlertDialog.show({ message: 'verifyPromise result: ' + data });
}).catch((error: BusinessError) => {
Logger.error(TAG, 'Error:' + error);
});
});
}
.width('100%')
}
.height('100%')
}
}
// 可明白的字符串转成字节流
function stringToUint8Array(str: string): Uint8Array {
let textEncoder = new util.TextEncoder(“utf-8”);
return textEncoder.encodeInto(str);
}
// 字节流转成可明白的字符串
function uint8ArrayToString(array: Uint8Array) {
let textDecoder = util.TextDecoder.create(‘utf-8’, { ignoreBOM: true })
return textDecoder.decodeWithStream(array);
}
/**
[*] 生成非对称密钥对
[*] @param algName 密钥算法
[*] @returns 密钥
*/
function generateKeyPromise(algName: string): Promise<cryptoFramework.KeyPair> {
return new Promise((resolve, reject) => {
let rsaGenerator = cryptoFramework.createAsyKeyGenerator(algName);
let keyGenPromise = rsaGenerator.generateKeyPair();
keyGenPromise.then(key => resolve(key))
.catch((error: BusinessError) => reject(error));
});
let rsaGenerator = cryptoFramework.createAsyKeyGenerator(algName);
let keyGenPromise = rsaGenerator.generateKeyPair();
keyGenPromise.then(key => resolve(key))
.catch((error: BusinessError) => reject(error));
});
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