1# 使用RSA非对称密钥(PKCS1_OAEP模式)加解密
2
3
4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)。
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6
7**加密**
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9
101. 调用[cryptoFramework.createAsyKeyGeneratorBySpec](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreateasykeygeneratorbyspec10)、[AsyKeyGeneratorBySpec.generateKeyPair](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#generatekeypair-3),指定密钥参数,生成RSA非对称密钥对(KeyPair)。
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12   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[指定密钥参数生成非对称密钥对](crypto-generate-asym-key-pair-from-key-spec.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。
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142. 调用[cryptoFramework.createCipher](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#cryptoframeworkcreatecipher),指定字符串参数'RSA2048|PKCS1_OAEP|SHA256|MGF1_SHA1',创建非对称密钥类型为RSA2048、填充模式为PKCS1_OAEP、摘要算法为SHA256、掩码摘要为MGF1_SHA1的RSA密钥的Cipher实例,用于完成加解密操作。
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163. 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。
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18   非对称密钥无加密参数,直接传入null。
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204. 在调用Cipher.doFinal前,调用[Cipher.setCipherSpec](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#setcipherspec10)设置PKCS1_OAEP填充参数pSource。调用[Cipher.getCipherSpec](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#getcipherspec10)可获得OAEP相关参数。
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225. 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。
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24
25**解密**
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281. 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。
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302. 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。
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323. 在调用Cipher.doFinal前,调用[Cipher.setCipherSpec](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#setcipherspec10)设置PKCS1_OAEP填充参数pSource,此处需要和加密时设置的保持一致。调用[Cipher.getCipherSpec](../../reference/apis-crypto-architecture-kit/js-apis-cryptoFramework.md#getcipherspec10)可获得OAEP相关参数。
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344. 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。
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36
37- 异步方法示例:
38
39  ```ts
40  import { cryptoFramework } from '@kit.CryptoArchitectureKit';
41  import { buffer } from '@kit.ArkTS';
42  // 根据密钥参数属性构造RSA非对称密钥对密钥参数
43  function genRsaKeyPairSpec(nIn: bigint, eIn: bigint, dIn: bigint) {
44    let rsaCommSpec: cryptoFramework.RSACommonParamsSpec = {
45      n: nIn,
46      algName: "RSA",
47      specType: cryptoFramework.AsyKeySpecType.COMMON_PARAMS_SPEC
48    };
49    let rsaKeyPairSpec: cryptoFramework.RSAKeyPairSpec = {
50      params: rsaCommSpec,
51      sk: dIn,
52      pk: eIn,
53      algName: "RSA",
54      specType: cryptoFramework.AsyKeySpecType.KEY_PAIR_SPEC
55    };
56    return rsaKeyPairSpec;
57  }
58  // 生成RSA2048密钥对参数
59  function genRsa2048KeyPairSpec(): cryptoFramework.RSAKeyPairSpec {
60    let nIn = BigInt("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");
61    let eIn = BigInt("0x010001");
62    let dIn = BigInt("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");
63    return genRsaKeyPairSpec(nIn, eIn, dIn);
64  }
65  async function rsaUseSpecDecryptOAEPPromise() {
66    let plan = "This is a test";
67    // 获得RSA密钥对密钥参数对象
68    let rsaKeyPairSpec = genRsa2048KeyPairSpec();
69    // 根据RSA密钥对参数生成RSA密钥对
70    let rsaGeneratorSpec = cryptoFramework.createAsyKeyGeneratorBySpec(rsaKeyPairSpec);
71    let cipher = cryptoFramework.createCipher("RSA2048|PKCS1_OAEP|SHA256|MGF1_SHA1");
72    let decoder = cryptoFramework.createCipher("RSA2048|PKCS1_OAEP|SHA256|MGF1_SHA1");
73    // RSA加解密PKCS1-OAEP模式填充字节流P
74    let pSource = new Uint8Array([1, 2, 3, 4]);
75    let input: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(plan, 'utf-8').buffer) };
76    // 生成密钥对
77    let keyPair = await rsaGeneratorSpec.generateKeyPair();
78    // 进行加密操作初始化
79    await cipher.init(cryptoFramework.CryptoMode.ENCRYPT_MODE, keyPair.pubKey, null);
80    // get和set操作可以放在Cipher对象init之后,此处对cipher进行set和get操作
81    cipher.setCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR, pSource);
82    let retP = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR);
83    // 比较get出来的P字节流与set进去的P字节流是否一致
84    if (retP.toString() != pSource.toString()) {
85      console.error("error init pSource" + retP);
86    } else {
87      console.info("pSource changed ==" + retP);
88    }
89    // 进行OAEP其他参数的get操作
90    let md = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MD_NAME_STR);
91    console.info("md == " + md);
92    let mgf = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF_NAME_STR);
93    console.info("mgf == " + mgf);
94    let mgf1Md = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_MD_STR);
95    console.info("mgf1Md == " + mgf1Md);
96    let cipherDataBlob = await cipher.doFinal(input);
97    // get和set操作可以放在Cipher对象init之前,且与init之后等价,此处对decoder进行set和get操作
98    decoder.setCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR, pSource);
99    retP = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR);
100    // 比较get出来的P字节流与set进去的P字节流是否一致
101    if (retP.toString() != pSource.toString()) {
102      console.error("error init pSource" + retP);
103    } else {
104      console.info("pSource changed ==" + retP);
105    }
106    // 进行OAEP其他参数的get操作
107    md = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MD_NAME_STR);
108    console.info("md == " + md);
109    mgf = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF_NAME_STR);
110    console.info("mgf == " + mgf);
111    mgf1Md = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_MD_STR);
112    console.info("mgf1Md == " + mgf1Md);
113    // 初始化解密操作
114    await decoder.init(cryptoFramework.CryptoMode.DECRYPT_MODE, keyPair.priKey, null);
115    let decodeData = await decoder.doFinal(cipherDataBlob);
116    // 解密成功
117    if (decodeData.data.toString() === input.data.toString()) {
118      console.info("oaep decrypt success");
119    } else {
120      console.error("oaep decrypt fail");
121    }
122  }
123  ```
124
125- 同步方法示例:
126
127  ```ts
128  import { cryptoFramework } from '@kit.CryptoArchitectureKit';
129  import { buffer } from '@kit.ArkTS';
130  // 根据密钥参数属性构造RSA非对称密钥对密钥参数
131  function genRsaKeyPairSpec(nIn: bigint, eIn: bigint, dIn: bigint) {
132    let rsaCommSpec: cryptoFramework.RSACommonParamsSpec = {
133      n: nIn,
134      algName: "RSA",
135      specType: cryptoFramework.AsyKeySpecType.COMMON_PARAMS_SPEC
136    };
137    let rsaKeyPairSpec: cryptoFramework.RSAKeyPairSpec = {
138      params: rsaCommSpec,
139      sk: dIn,
140      pk: eIn,
141      algName: "RSA",
142      specType: cryptoFramework.AsyKeySpecType.KEY_PAIR_SPEC
143    };
144    return rsaKeyPairSpec;
145  }
146  // 生成RSA2048密钥对参数
147  function genRsa2048KeyPairSpec(): cryptoFramework.RSAKeyPairSpec {
148    let nIn = BigInt("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");
149    let eIn = BigInt("0x010001");
150    let dIn = BigInt("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");
151    return genRsaKeyPairSpec(nIn, eIn, dIn);
152  }
153  function main() {
154    let plan = "This is a test";
155    // 获得RSA密钥对密钥参数对象
156    let rsaKeyPairSpec = genRsa2048KeyPairSpec();
157    // 根据RSA密钥对参数生成RSA密钥对
158    let rsaGeneratorSpec = cryptoFramework.createAsyKeyGeneratorBySpec(rsaKeyPairSpec);
159    let cipher = cryptoFramework.createCipher("RSA2048|PKCS1_OAEP|SHA256|MGF1_SHA1");
160    let decoder = cryptoFramework.createCipher("RSA2048|PKCS1_OAEP|SHA256|MGF1_SHA1");
161    // RSA加解密PKCS1-OAEP模式填充字节流P
162    let pSource = new Uint8Array([1, 2, 3, 4]);
163    let input: cryptoFramework.DataBlob = { data: new Uint8Array(buffer.from(plan, 'utf-8').buffer) };
164    // 生成密钥对
165    let keyPair = rsaGeneratorSpec.generateKeyPairSync();
166    // 进行加密操作初始化
167    cipher.initSync(cryptoFramework.CryptoMode.ENCRYPT_MODE, keyPair.pubKey, null);
168    // get和set操作可以放在Cipher对象init之后,此处对cipher进行set和get操作
169    cipher.setCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR, pSource);
170    let retP = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR);
171    // 比较get出来的P字节流与set进去的P字节流是否一致
172    if (retP.toString() != pSource.toString()) {
173      console.error("error init pSource" + retP);
174    } else {
175      console.info("pSource changed ==" + retP);
176    }
177    // 进行OAEP其他参数的get操作
178    let md = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MD_NAME_STR);
179    console.info("md == " + md);
180    let mgf = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF_NAME_STR);
181    console.info("mgf == " + mgf);
182    let mgf1Md = cipher.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_MD_STR);
183    console.info("mgf1Md == " + mgf1Md);
184    let cipherDataBlob = cipher.doFinalSync(input);
185    // get和set操作可以放在Cipher对象init之前,且与init之后等价,此处对decoder进行set和get操作
186    decoder.setCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR, pSource);
187    retP = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_PSRC_UINT8ARR);
188    // 比较get出来的P字节流与set进去的P字节流是否一致
189    if (retP.toString() != pSource.toString()) {
190      console.error("error init pSource" + retP);
191    } else {
192      console.info("pSource changed ==" + retP);
193    }
194    // 进行OAEP其他参数的get操作
195    md = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MD_NAME_STR);
196    console.info("md == " + md);
197    mgf = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF_NAME_STR);
198    console.info("mgf == " + mgf);
199    mgf1Md = decoder.getCipherSpec(cryptoFramework.CipherSpecItem.OAEP_MGF1_MD_STR);
200    console.info("mgf1Md == " + mgf1Md);
201    // 初始化解密操作
202    decoder.initSync(cryptoFramework.CryptoMode.DECRYPT_MODE, keyPair.priKey, null);
203    let decodeData = decoder.doFinalSync(cipherDataBlob);
204    // 解密成功
205    if (decodeData.data.toString() === input.data.toString()) {
206      console.info("oaep decrypt success");
207    } else {
208      console.error("oaep decrypt fail");
209    }
210  }
211  ```