# 使用RSA非对称密钥分段加解密 对应的算法规格请查看[非对称密钥加解密算法规格:RSA](crypto-asym-encrypt-decrypt-spec.md#rsa)。 **加密** 1. 调用[cryptoFramework.createAsyKeyGenerator](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreateasykeygenerator)、[AsyKeyGenerator.generateKeyPair](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#generatekeypair-1),生成RSA密钥类型为RSA1024、素数个数为2(不填默认)的非对称密钥对(KeyPair)。KeyPair对象中包括公钥PubKey、私钥PriKey。 如何生成RSA非对称密钥对,开发者可参考下文示例,并结合[非对称密钥生成和转换规格:RSA](crypto-asym-key-generation-conversion-spec.md#rsa)和[随机生成非对称密钥对](crypto-generate-asym-key-pair-randomly.md)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](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreatecipher),指定字符串参数'RSA1024|PKCS1',创建非对称密钥类型为RSA1024、填充模式为PKCS1的Cipher实例,用于完成加解密操作。 3. 调用[Cipher.init](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#init-1),设置模式为加密(CryptoMode.ENCRYPT_MODE),指定加密密钥(KeyPair.PubKey),初始化加密Cipher实例。 4. 多次调用[Cipher.doFinal](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#dofinal-1),传入明文,获取加密后的数据。 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。 此处将明文按64个字节一组拆分,多次加密。使用1024位密钥,每次将生成128字节密文。 **解密** 1. 由于RSA算法的Cipher实例不支持重复init操作,需要调用[cryptoFramework.createCipher](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreatecipher),重新生成Cipher实例。 2. 调用[Cipher.init](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#init-1),设置模式为解密(CryptoMode.DECRYPT_MODE),指定解密密钥(KeyPair.PriKey)初始化解密Cipher实例。PKCS1模式无加密参数,直接传入null。 3. 多次调用[Cipher.doFinal](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#dofinal-1),传入密文,获取解密后的数据。 - 异步方法示例: ```ts import { cryptoFramework } from '@kit.CryptoArchitectureKit'; import { buffer } from '@kit.ArkTS'; // 分段加密消息 async function rsaEncryptBySegment(pubKey: cryptoFramework.PubKey, plainText: cryptoFramework.DataBlob) { let cipher = cryptoFramework.createCipher('RSA1024|PKCS1'); await cipher.init(cryptoFramework.CryptoMode.ENCRYPT_MODE, pubKey, null); let plainTextSplitLen = 64; let cipherText = new Uint8Array(); for (let i = 0; i < plainText.data.length; i += plainTextSplitLen ) { let updateMessage = plainText.data.subarray(i, i + plainTextSplitLen ); let updateMessageBlob: cryptoFramework.DataBlob = { data: updateMessage }; // 将原文按64字符进行拆分,循环调用doFinal进行加密,使用1024bit密钥时,每次加密生成128字节长度的密文 let updateOutput = await cipher.doFinal(updateMessageBlob); let mergeText = new Uint8Array(cipherText.length + updateOutput.data.length); mergeText.set(cipherText); mergeText.set(updateOutput.data, cipherText.length); cipherText = mergeText; } let cipherBlob: cryptoFramework.DataBlob = { data: cipherText }; return cipherBlob; } // 分段解密消息 async function rsaDecryptBySegment(priKey: cryptoFramework.PriKey, cipherText: cryptoFramework.DataBlob) { let decoder = cryptoFramework.createCipher('RSA1024|PKCS1'); await decoder.init(cryptoFramework.CryptoMode.DECRYPT_MODE, priKey, null); let cipherTextSplitLen = 128; // RSA密钥每次加密生成的密文字节长度计算方式:密钥位数/8 let decryptText = new Uint8Array(); for (let i = 0; i < cipherText.data.length; i += cipherTextSplitLen) { let updateMessage = cipherText.data.subarray(i, i + cipherTextSplitLen); let updateMessageBlob: cryptoFramework.DataBlob = { data: updateMessage }; // 将密文按128字节进行拆分解密,得到原文后进行拼接 let updateOutput = await decoder.doFinal(updateMessageBlob); let mergeText = new Uint8Array(decryptText.length + updateOutput.data.length); mergeText.set(decryptText); mergeText.set(updateOutput.data, decryptText.length); decryptText = mergeText; } let decryptBlob: cryptoFramework.DataBlob = { data: decryptText }; return decryptBlob; } async function rsaEncryptLongMessage() { let message = "This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!"; let asyKeyGenerator = cryptoFramework.createAsyKeyGenerator("RSA1024"); // 创建非对称密钥生成器对象 let keyPair = await asyKeyGenerator.generateKeyPair(); // 随机生成RSA密钥 let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(message, 'utf-8').buffer) }; let encryptText = await rsaEncryptBySegment(keyPair.pubKey, plainText); let decryptText = await rsaDecryptBySegment(keyPair.priKey, 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: ```ts import { cryptoFramework } from '@kit.CryptoArchitectureKit'; import { buffer } from '@kit.ArkTS'; // 分段加密消息 function rsaEncryptBySegment(pubKey: cryptoFramework.PubKey, plainText: cryptoFramework.DataBlob) { let cipher = cryptoFramework.createCipher('RSA1024|PKCS1'); cipher.initSync(cryptoFramework.CryptoMode.ENCRYPT_MODE, pubKey, null); let plainTextSplitLen = 64; let cipherText = new Uint8Array(); for (let i = 0; i < plainText.data.length; i += plainTextSplitLen ) { let updateMessage = plainText.data.subarray(i, i + plainTextSplitLen ); let updateMessageBlob: cryptoFramework.DataBlob = { data: updateMessage }; // 将原文按64字符进行拆分,循环调用doFinal进行加密,使用1024bit密钥时,每次加密生成128字节长度的密文 let updateOutput = cipher.doFinalSync(updateMessageBlob); let mergeText = new Uint8Array(cipherText.length + updateOutput.data.length); mergeText.set(cipherText); mergeText.set(updateOutput.data, cipherText.length); cipherText = mergeText; } let cipherBlob: cryptoFramework.DataBlob = { data: cipherText }; return cipherBlob; } // 分段解密消息 function rsaDecryptBySegment(priKey: cryptoFramework.PriKey, cipherText: cryptoFramework.DataBlob) { let decoder = cryptoFramework.createCipher('RSA1024|PKCS1'); decoder.initSync(cryptoFramework.CryptoMode.DECRYPT_MODE, priKey, null); let cipherTextSplitLen = 128; // RSA密钥每次加密生成的密文字节长度计算方式:密钥位数/8 let decryptText = new Uint8Array(); for (let i = 0; i < cipherText.data.length; i += cipherTextSplitLen) { let updateMessage = cipherText.data.subarray(i, i + cipherTextSplitLen); let updateMessageBlob: cryptoFramework.DataBlob = { data: updateMessage }; // 将密文按128字节进行拆分解密,得到原文后进行拼接 let updateOutput = decoder.doFinalSync(updateMessageBlob); let mergeText = new Uint8Array(decryptText.length + updateOutput.data.length); mergeText.set(decryptText); mergeText.set(updateOutput.data, decryptText.length); decryptText = mergeText; } let decryptBlob: cryptoFramework.DataBlob = { data: decryptText }; return decryptBlob; } function main() { let message = "This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!" + "This is a long plainTest! This is a long plainTest! This is a long plainTest! This is a long plainTest!"; let asyKeyGenerator = cryptoFramework.createAsyKeyGenerator("RSA1024"); // 创建非对称密钥生成器对象 let keyPair = asyKeyGenerator.generateKeyPairSync(); // 随机生成RSA密钥 let plainText: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(message, 'utf-8').buffer) }; let encryptText = rsaEncryptBySegment(keyPair.pubKey, plainText); let decryptText = rsaDecryptBySegment(keyPair.priKey, 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'); } } ```