加解密(C/C++)

以AES 256密鑰為例，完成加解密。具體的場景介紹及支持的算法規(guī)格。

在CMake腳本中鏈接相關動態(tài)庫

target_link_libraries(entry PUBLIC libhuks_ndk.z.so)

開發(fā)步驟

生成密鑰

1. 指定密鑰別名。
2. 初始化密鑰屬性集。
3. 調用OH_Huks_GenerateKeyItem生成密鑰)。
4. 開發(fā)前請熟悉鴻蒙開發(fā)指導文檔 ：[gitee.com/li-shizhen-skin/harmony-os/blob/master/README.md]

除此之外，開發(fā)者也可以參考[密鑰導入]，導入已有的密鑰。

加密

1. 獲取密鑰別名。
2. 獲取待加密的數(shù)據(jù)。
3. 調用[OH_Huks_InitParamSet]指定算法參數(shù)配置。 在下方示例中，使用算法AES進行加密時，必須要選擇其對應分組模式以及填充模式，用例中選取的分組模式為CBC、填充模式為PKCS7，此時必須要填參數(shù)IV。
4. 調用[OH_Huks_InitSession]初始化密鑰會話，并獲取會話的句柄handle。
5. 調用[OH_Huks_FinishSession]結束密鑰會話，獲取加密后的密文。

解密

1. 獲取密鑰別名。
2. 獲取待解密的密文。
3. 調用[OH_Huks_InitParamSet]指定算法參數(shù)配置。 在下方示例中，使用算法AES進行解密時，必須要選擇其對應分組模式以及填充模式，用例中選取的分組模式為CBC、填充模式為PKCS7，此時必須要填參數(shù)IV。
4. 調用[OH_Huks_InitSession]初始化密鑰會話，并獲取會話的句柄handle。
5. 調用[OH_Huks_FinishSession]結束密鑰會話，獲取解密后的數(shù)據(jù)。
6. HarmonyOS與OpenHarmony鴻蒙文檔籽料：mau123789是v直接拿

刪除密鑰

當密鑰廢棄不用時，需要調用OH_Huks_DeleteKeyItem刪除密鑰。

#include "huks/native_huks_api.h"
#include "huks/native_huks_param.h"
#include < string.h >
OH_Huks_Result InitParamSet(
    struct OH_Huks_ParamSet **paramSet,
    const struct OH_Huks_Param *params,
    uint32_t paramCount)
{
    OH_Huks_Result ret = OH_Huks_InitParamSet(paramSet);
    if (ret.errorCode != OH_HUKS_SUCCESS) {
        return ret;
    }
    ret = OH_Huks_AddParams(*paramSet, params, paramCount);
    if (ret.errorCode != OH_HUKS_SUCCESS) {
        OH_Huks_FreeParamSet(paramSet);
        return ret;
    }
    ret = OH_Huks_BuildParamSet(paramSet);
    if (ret.errorCode != OH_HUKS_SUCCESS) {
        OH_Huks_FreeParamSet(paramSet);
        return ret;
    }
    return ret;
}
static const uint32_t IV_SIZE = 16;
static uint8_t IV[IV_SIZE] = { 0 }; // this is a test value, for real use the iv should be different every time
static struct OH_Huks_Param g_genEncDecParams[] = {
    {
        .tag = OH_HUKS_TAG_ALGORITHM,
        .uint32Param = OH_HUKS_ALG_AES
    }, {
        .tag = OH_HUKS_TAG_PURPOSE,
        .uint32Param = OH_HUKS_KEY_PURPOSE_ENCRYPT | OH_HUKS_KEY_PURPOSE_DECRYPT
    }, {
        .tag = OH_HUKS_TAG_KEY_SIZE,
        .uint32Param = OH_HUKS_AES_KEY_SIZE_256
    }, {
        .tag = OH_HUKS_TAG_PADDING,
        .uint32Param = OH_HUKS_PADDING_NONE
    }, {
        .tag = OH_HUKS_TAG_BLOCK_MODE,
        .uint32Param = OH_HUKS_MODE_CBC
    }
};
static struct OH_Huks_Param g_encryptParams[] = {
    {
        .tag = OH_HUKS_TAG_ALGORITHM,
        .uint32Param = OH_HUKS_ALG_AES
    }, {
        .tag = OH_HUKS_TAG_PURPOSE,
        .uint32Param = OH_HUKS_KEY_PURPOSE_ENCRYPT
    }, {
        .tag = OH_HUKS_TAG_KEY_SIZE,
        .uint32Param = OH_HUKS_AES_KEY_SIZE_256
    }, {
        .tag = OH_HUKS_TAG_PADDING,
        .uint32Param = OH_HUKS_PADDING_NONE
    }, {
        .tag = OH_HUKS_TAG_BLOCK_MODE,
        .uint32Param = OH_HUKS_MODE_CBC
    }, {
        .tag = OH_HUKS_TAG_IV,
        .blob = {
            .size = IV_SIZE,
            .data = (uint8_t *)IV // this is a test value, for real use the iv should be different every time 
        }
    }
};
static struct OH_Huks_Param g_decryptParams[] = {
    {
        .tag = OH_HUKS_TAG_ALGORITHM,
        .uint32Param = OH_HUKS_ALG_AES
    }, {
        .tag = OH_HUKS_TAG_PURPOSE,
        .uint32Param = OH_HUKS_KEY_PURPOSE_DECRYPT
    }, {
        .tag = OH_HUKS_TAG_KEY_SIZE,
        .uint32Param = OH_HUKS_AES_KEY_SIZE_256
    }, {
        .tag = OH_HUKS_TAG_PADDING,
        .uint32Param = OH_HUKS_PADDING_NONE
    }, {
        .tag = OH_HUKS_TAG_BLOCK_MODE,
        .uint32Param = OH_HUKS_MODE_CBC
    }, {
        .tag = OH_HUKS_TAG_IV,
        .blob = {
            .size = IV_SIZE,
            .data = (uint8_t *)IV // this is a test value, for real use the iv should be different every time 
        }
    }
};
static const uint32_t AES_COMMON_SIZE = 1024;
OH_Huks_Result HksAesCipherTestEncrypt(
        const struct OH_Huks_Blob *keyAlias,
        const struct OH_Huks_ParamSet *encryptParamSet, const struct OH_Huks_Blob *inData, struct OH_Huks_Blob *cipherText)
{
    uint8_t handleE[sizeof(uint64_t)] = {0};
    struct OH_Huks_Blob handleEncrypt = {sizeof(uint64_t), handleE};
    OH_Huks_Result ret = OH_Huks_InitSession(keyAlias, encryptParamSet, &handleEncrypt, nullptr);
    if (ret.errorCode != OH_HUKS_SUCCESS) {
        return ret;
    }
    ret = OH_Huks_FinishSession(&handleEncrypt, encryptParamSet, inData, cipherText);
    return ret;
}
OH_Huks_Result HksAesCipherTestDecrypt(
    const struct OH_Huks_Blob *keyAlias,
    const struct OH_Huks_ParamSet *decryptParamSet, const struct OH_Huks_Blob *cipherText, struct OH_Huks_Blob *plainText,
    const struct OH_Huks_Blob *inData)
{
    uint8_t handleD[sizeof(uint64_t)] = {0};
    struct OH_Huks_Blob handleDecrypt = {sizeof(uint64_t), handleD};
    OH_Huks_Result ret = OH_Huks_InitSession(keyAlias, decryptParamSet, &handleDecrypt, nullptr);
    if (ret.errorCode != OH_HUKS_SUCCESS) {
        return ret;
    }
    ret = OH_Huks_FinishSession(&handleDecrypt, decryptParamSet, cipherText, plainText);
    return ret;
}
static napi_value EncDecKey(napi_env env, napi_callback_info info)
{
    char tmpKeyAlias[] = "test_enc_dec";
    struct OH_Huks_Blob keyAlias = { (uint32_t)strlen(tmpKeyAlias), (uint8_t *)tmpKeyAlias };
    struct OH_Huks_ParamSet *genParamSet = nullptr;
    struct OH_Huks_ParamSet *encryptParamSet = nullptr;
    struct OH_Huks_ParamSet *decryptParamSet = nullptr;
    OH_Huks_Result ohResult;
    do {
        /* 1. Generate Key */
        /*
        * 模擬生成密鑰場景
        * 1.1. 確定密鑰別名
        */
        /*
        * 1.2. 獲取生成密鑰算法參數(shù)配置
        */
        ohResult = InitParamSet(&genParamSet, g_genEncDecParams, sizeof(g_genEncDecParams) / sizeof(OH_Huks_Param));
        if (ohResult.errorCode != OH_HUKS_SUCCESS) {
            break;
        }
        /*
        * 1.3. 調用generateKeyItem
        */
        ohResult = OH_Huks_GenerateKeyItem(&keyAlias, genParamSet, nullptr);
        if (ohResult.errorCode != OH_HUKS_SUCCESS) {
            break;
        }
        /* 2. Encrypt */
        /*
        * 模擬加密場景
        * 2.1. 獲取密鑰別名
        */
        /*
        * 2.2. 獲取待加密的數(shù)據(jù)
        */
        /*
        * 2.3. 獲取加密算法參數(shù)配置
        */
        ohResult = InitParamSet(&encryptParamSet, g_encryptParams, sizeof(g_encryptParams) / sizeof(OH_Huks_Param));
        if (ohResult.errorCode != OH_HUKS_SUCCESS) {
            break;
        }
        char tmpInData[] = "AES_ECB_INDATA_1";
        struct OH_Huks_Blob inData = { (uint32_t)strlen(tmpInData), (uint8_t *)tmpInData };
        uint8_t cipher[AES_COMMON_SIZE] = {0};
        struct OH_Huks_Blob cipherText = {AES_COMMON_SIZE, cipher};
        /*
        * 2.4. 調用initSession獲取handle
        */
        /*
        * 2.5. 調用finishSession獲取加密后的密文
        */
        ohResult = HksAesCipherTestEncrypt(&keyAlias, encryptParamSet, &inData, &cipherText);
        if (ohResult.errorCode != OH_HUKS_SUCCESS) {
            break;
        }
        /* 3. Decrypt */
        /*
        * 模擬解密場景
        * 3.1. 獲取密鑰別名
        */
        /*
        * 3.2. 獲取待解密的密文
        */
        /*
        * 3.3. 獲取解密算法參數(shù)配置
        */
        ohResult = InitParamSet(&decryptParamSet, g_decryptParams, sizeof(g_decryptParams) / sizeof(OH_Huks_Param));
        if (ohResult.errorCode != OH_HUKS_SUCCESS) {
            break;
        }
        uint8_t plain[AES_COMMON_SIZE] = {0};
        struct OH_Huks_Blob plainText = {AES_COMMON_SIZE, plain};
        /*
        * 3.4. 調用initSession獲取handle
        */
        /*
        * 3.5. 調用finishSession獲取解密后的數(shù)據(jù)
        */
        ohResult = HksAesCipherTestDecrypt(&keyAlias, decryptParamSet, &cipherText, &plainText, &inData);
    } while (0);
    /* 4. Delete Key */
    /*
    * 模擬刪除密鑰場景
    * 4.1. 獲取密鑰別名
    */
    /*
    * 4.2. 調用deleteKeyItem刪除密鑰    
    */
    (void)OH_Huks_DeleteKeyItem(&keyAlias, genParamSet);
        
    OH_Huks_FreeParamSet(&genParamSet);
    OH_Huks_FreeParamSet(&encryptParamSet);
    OH_Huks_FreeParamSet(&decryptParamSet);
    
    napi_value ret;
    napi_create_int32(env, ohResult.errorCode, &ret);
    return ret;
}

審核編輯 黃宇