标签:获取 -o openssl article sse pair 公钥加密 oid ssl
openssl里面有很多用于摘要哈希、加密解密的算法,方便集成于工程项目,被广泛应用于网络报文中的安全传输和认证。下面以md5,sha256,des,rsa几个典型的api简单使用作为例子。
算法介绍
md5:https://en.wikipedia.org/wiki/MD5
sha256:https://en.wikipedia.org/wiki/SHA-2
des: https://en.wikipedia.org/wiki/Data_Encryption_Standard
rsa: https://en.wikipedia.org/wiki/RSA_(cryptosystem)
工程配置
以windows下为例
- 编译openssl库,得到头文件include和链接库lib和dll
- 配置包含头文件目录和库目录
- 工程中设置链接指定的lib:fenbieshlibssl.lib,libcrypto.lib
- 将对应的dll拷贝到exe执行目录:libcrypto-1_1.dll, libssl-1_1.dll
linux下同理
代码
- #include <iostream>
- #include <cassert>
- #include <string>
- #include <vector>
- #include "openssl/md5.h"
- #include "openssl/sha.h"
- #include "openssl/des.h"
- #include "openssl/rsa.h"
- #include "openssl/pem.h"
-
- void md5(const std::string &srcStr, std::string &encodedStr, std::string &encodedHexStr)
- {
-
- unsigned char mdStr[33] = {0};
- MD5((const unsigned char *)srcStr.c_str(), srcStr.length(), mdStr);
-
-
- encodedStr = std::string((const char *)mdStr);
-
- char buf[65] = {0};
- char tmp[3] = {0};
- for (int i = 0; i < 32; i++)
- {
- sprintf(tmp, "%02x", mdStr[i]);
- strcat(buf, tmp);
- }
- buf[32] = ‘\0‘;
- encodedHexStr = std::string(buf);
- }
-
- void sha256(const std::string &srcStr, std::string &encodedStr, std::string &encodedHexStr)
- {
-
- unsigned char mdStr[33] = {0};
- SHA256((const unsigned char *)srcStr.c_str(), srcStr.length(), mdStr);
-
-
- encodedStr = std::string((const char *)mdStr);
-
- char buf[65] = {0};
- char tmp[3] = {0};
- for (int i = 0; i < 32; i++)
- {
- sprintf(tmp, "%02x", mdStr[i]);
- strcat(buf, tmp);
- }
- buf[32] = ‘\0‘;
- encodedHexStr = std::string(buf);
- }
-
- std::string des_encrypt(const std::string &clearText, const std::string &key)
- {
- std::string cipherText;
-
- DES_cblock keyEncrypt;
- memset(keyEncrypt, 0, 8);
-
-
- if (key.length() <= 8)
- memcpy(keyEncrypt, key.c_str(), key.length());
- else
- memcpy(keyEncrypt, key.c_str(), 8);
-
-
- DES_key_schedule keySchedule;
- DES_set_key_unchecked(&keyEncrypt, &keySchedule);
-
-
- const_DES_cblock inputText;
- DES_cblock outputText;
- std::vector<unsigned char> vecCiphertext;
- unsigned char tmp[8];
-
- for (int i = 0; i < clearText.length() / 8; i++)
- {
- memcpy(inputText, clearText.c_str() + i * 8, 8);
- DES_ecb_encrypt(&inputText, &outputText, &keySchedule, DES_ENCRYPT);
- memcpy(tmp, outputText, 8);
-
- for (int j = 0; j < 8; j++)
- vecCiphertext.push_back(tmp[j]);
- }
-
- if (clearText.length() % 8 != 0)
- {
- int tmp1 = clearText.length() / 8 * 8;
- int tmp2 = clearText.length() - tmp1;
- memset(inputText, 0, 8);
- memcpy(inputText, clearText.c_str() + tmp1, tmp2);
-
- DES_ecb_encrypt(&inputText, &outputText, &keySchedule, DES_ENCRYPT);
- memcpy(tmp, outputText, 8);
-
- for (int j = 0; j < 8; j++)
- vecCiphertext.push_back(tmp[j]);
- }
-
- cipherText.clear();
- cipherText.assign(vecCiphertext.begin(), vecCiphertext.end());
-
- return cipherText;
- }
-
- std::string des_decrypt(const std::string &cipherText, const std::string &key)
- {
- std::string clearText;
-
- DES_cblock keyEncrypt;
- memset(keyEncrypt, 0, 8);
-
- if (key.length() <= 8)
- memcpy(keyEncrypt, key.c_str(), key.length());
- else
- memcpy(keyEncrypt, key.c_str(), 8);
-
- DES_key_schedule keySchedule;
- DES_set_key_unchecked(&keyEncrypt, &keySchedule);
-
- const_DES_cblock inputText;
- DES_cblock outputText;
- std::vector<unsigned char> vecCleartext;
- unsigned char tmp[8];
-
- for (int i = 0; i < cipherText.length() / 8; i++)
- {
- memcpy(inputText, cipherText.c_str() + i * 8, 8);
- DES_ecb_encrypt(&inputText, &outputText, &keySchedule, DES_DECRYPT);
- memcpy(tmp, outputText, 8);
-
- for (int j = 0; j < 8; j++)
- vecCleartext.push_back(tmp[j]);
- }
-
- if (cipherText.length() % 8 != 0)
- {
- int tmp1 = cipherText.length() / 8 * 8;
- int tmp2 = cipherText.length() - tmp1;
- memset(inputText, 0, 8);
- memcpy(inputText, cipherText.c_str() + tmp1, tmp2);
-
- DES_ecb_encrypt(&inputText, &outputText, &keySchedule, DES_DECRYPT);
- memcpy(tmp, outputText, 8);
-
- for (int j = 0; j < 8; j++)
- vecCleartext.push_back(tmp[j]);
- }
-
- clearText.clear();
- clearText.assign(vecCleartext.begin(), vecCleartext.end());
-
- return clearText;
- }
-
-
- #define KEY_LENGTH 2048 // 密钥长度
- #define PUB_KEY_FILE "pubkey.pem" // 公钥路径
- #define PRI_KEY_FILE "prikey.pem" // 私钥路径
-
- void generateRSAKey(std::string strKey[2])
- {
-
- size_t pri_len;
- size_t pub_len;
- char *pri_key = NULL;
- char *pub_key = NULL;
-
-
- RSA *keypair = RSA_generate_key(KEY_LENGTH, RSA_3, NULL, NULL);
-
- BIO *pri = BIO_new(BIO_s_mem());
- BIO *pub = BIO_new(BIO_s_mem());
-
- PEM_write_bio_RSAPrivateKey(pri, keypair, NULL, NULL, 0, NULL, NULL);
- PEM_write_bio_RSAPublicKey(pub, keypair);
-
-
- pri_len = BIO_pending(pri);
- pub_len = BIO_pending(pub);
-
-
- pri_key = (char *)malloc(pri_len + 1);
- pub_key = (char *)malloc(pub_len + 1);
-
- BIO_read(pri, pri_key, pri_len);
- BIO_read(pub, pub_key, pub_len);
-
- pri_key[pri_len] = ‘\0‘;
- pub_key[pub_len] = ‘\0‘;
-
-
- strKey[0] = pub_key;
- strKey[1] = pri_key;
-
-
- FILE *pubFile = fopen(PUB_KEY_FILE, "w");
- if (pubFile == NULL)
- {
- assert(false);
- return;
- }
- fputs(pub_key, pubFile);
- fclose(pubFile);
-
- FILE *priFile = fopen(PRI_KEY_FILE, "w");
- if (priFile == NULL)
- {
- assert(false);
- return;
- }
- fputs(pri_key, priFile);
- fclose(priFile);
-
-
- RSA_free(keypair);
- BIO_free_all(pub);
- BIO_free_all(pri);
-
- free(pri_key);
- free(pub_key);
- }
-
-
- std::string rsa_pub_encrypt(const std::string &clearText, const std::string &pubKey)
- {
- std::string strRet;
- RSA *rsa = NULL;
- BIO *keybio = BIO_new_mem_buf((unsigned char *)pubKey.c_str(), -1);
-
-
-
-
- RSA* pRSAPublicKey = RSA_new();
- rsa = PEM_read_bio_RSAPublicKey(keybio, &rsa, NULL, NULL);
-
- int len = RSA_size(rsa);
- char *encryptedText = (char *)malloc(len + 1);
- memset(encryptedText, 0, len + 1);
-
-
- int ret = RSA_public_encrypt(clearText.length(), (const unsigned char*)clearText.c_str(), (unsigned char*)encryptedText, rsa, RSA_PKCS1_PADDING);
- if (ret >= 0)
- strRet = std::string(encryptedText, ret);
-
-
- free(encryptedText);
- BIO_free_all(keybio);
- RSA_free(rsa);
-
- return strRet;
- }
-
- std::string rsa_pri_decrypt(const std::string &cipherText, const std::string &priKey)
- {
- std::string strRet;
- RSA *rsa = RSA_new();
- BIO *keybio;
- keybio = BIO_new_mem_buf((unsigned char *)priKey.c_str(), -1);
-
-
-
-
-
- rsa = PEM_read_bio_RSAPrivateKey(keybio, &rsa, NULL, NULL);
-
- int len = RSA_size(rsa);
- char *decryptedText = (char *)malloc(len + 1);
- memset(decryptedText, 0, len + 1);
-
-
- int ret = RSA_private_decrypt(cipherText.length(), (const unsigned char*)cipherText.c_str(), (unsigned char*)decryptedText, rsa, RSA_PKCS1_PADDING);
- if (ret >= 0)
- strRet = std::string(decryptedText, ret);
-
-
- free(decryptedText);
- BIO_free_all(keybio);
- RSA_free(rsa);
-
- return strRet;
- }
-
- int main(int argc, char **argv)
- {
-
- std::string srcText = "this is an example";
-
- std::string encryptText;
- std::string encryptHexText;
- std::string decryptText;
-
- std::cout << "=== 原始明文 ===" << std::endl;
- std::cout << srcText << std::endl;
-
-
- std::cout << "=== md5哈希 ===" << std::endl;
- md5(srcText, encryptText, encryptHexText);
- std::cout << "摘要字符: " << encryptText << std::endl;
- std::cout << "摘要串: " << encryptHexText << std::endl;
-
-
- std::cout << "=== sha256哈希 ===" << std::endl;
- sha256(srcText, encryptText, encryptHexText);
- std::cout << "摘要字符: " << encryptText << std::endl;
- std::cout << "摘要串: " << encryptHexText << std::endl;
-
-
- std::cout << "=== des加解密 ===" << std::endl;
- std::string desKey = "12345";
- encryptText = des_encrypt(srcText, desKey);
- std::cout << "加密字符: " << std::endl;
- std::cout << encryptText << std::endl;
- decryptText = des_decrypt(encryptText, desKey);
- std::cout << "解密字符: " << std::endl;
- std::cout << decryptText << std::endl;
-
-
- std::cout << "=== rsa加解密 ===" << std::endl;
- std::string key[2];
- generateRSAKey(key);
- std::cout << "公钥: " << std::endl;
- std::cout << key[0] << std::endl;
- std::cout << "私钥: " << std::endl;
- std::cout << key[1] << std::endl;
- encryptText = rsa_pub_encrypt(srcText, key[0]);
- std::cout << "加密字符: " << std::endl;
- std::cout << encryptText << std::endl;
- decryptText = rsa_pri_decrypt(encryptText, key[1]);
- std::cout << "解密字符: " << std::endl;
- std::cout << decryptText << std::endl;
-
- system("pause");
- return 0;
- }
运行结果
- === 原始明文 ===
- this is an example
-
- === md5哈希 ===
- 摘要字符: 乵驥!範
- 摘要串: 9202816dabaaf34bb106a10421b9a0d0
- === sha256哈希 ===
- 摘要字符: 訪X5衽鄁媫j/醢?17?P?4膡zD
- 摘要串: d44c035835f1c5e0668b7d186a2ff5b0
- === des加解密 ===
- 加密字符:
- ?/灲取鮋t8:夽U錺?说
- 解密字符:
- this is an example
-
- === rsa加解密 ===
- 公钥:
- -----BEGIN RSA PUBLIC KEY-----
- MIIBCAKCAQEA59WESdYbPsD6cYATooC4ebClTpvbTsu3X29Ha0g31kW3AmLR2zLj
- hMvdWjUhhVuM7xBoh3Ufoyj4jTGHVhunFfbzxNrt1Nb64N95bZH8e9u6LjJYqh4e
- sNoFknG+McjoSLNqGW9Yd8ejKH1Ju6C9SBUcC43XbB3XdC2matgV1zTsKhqjuywm
- gVN9DZdo2TlZkqsvOHC23rbQ+lP09rpQJ/RI4NQSnCUBqQxErCN85trcWRj1zyJA
- WaBZSvKh7J5RJcrC2ByMDmL7jrDDZl7YEolyW93SSc4xTE9Dr20OXznXNDsfQc9r
- RQHBri8Aqsu4WW3tHSBRmjW5kxFMxS4qxwIBAw==
- -----END RSA PUBLIC KEY-----
-
- 私钥:
- -----BEGIN RSA PRIVATE KEY-----
- MIIEowIBAAKCAQEA59WESdYbPsD6cYATooC4ebClTpvbTsu3X29Ha0g31kW3AmLR
- 2zLjhMvdWjUhhVuM7xBoh3Ufoyj4jTGHVhunFfbzxNrt1Nb64N95bZH8e9u6LjJY
- qh4esNoFknG+McjoSLNqGW9Yd8ejKH1Ju6C9SBUcC43XbB3XdC2matgV1zTsKhqj
- uywmgVN9DZdo2TlZkqsvOHC23rbQ+lP09rpQJ/RI4NQSnCUBqQxErCN85trcWRj1
- zyJAWaBZSvKh7J5RJcrC2ByMDmL7jrDDZl7YEolyW93SSc4xTE9Dr20OXznXNDsf
- Qc9rRQHBri8Aqsu4WW3tHSBRmjW5kxFMxS4qxwIBAwKCAQEAmo5YMTlnfytRoQAN
- FwB6+8sY3xKSNIfPlPTaR4V6jtkkrEHhPMyXrd0+PCNrrj0In2BFr6NqbMX7CMuv
- jr0aDqSigzyejeSnQJT7nmFS/T0myXblxr6/IJFZDEvUITCa2yJGu5+QT9psxajb
- 0mso2ri9XQk6SBPk+B5u8eVj5Myt4tqpWL0DEEDzwfhihs+uEGM7g6bPvQBI4JXu
- 8uxfSRUkpyZ5s1koEhqj+RCguksPzSWO/Ut2Sd60iOUMRhya2aEbAyRTtfhsXja3
- 4NMWjXorJ0SRkryM1iLJvVWkhkcr2vShH9rm9qz16BkrkI9/9Yx++GNNr6VU/p/+
- Waa8CwKBgQD4m0ryXi6rCqazdCICGoZJGzaljApOZ1rWOiotM9TekaYE7tZ2NDAT
- eytiCzxvs4/+1Jt5XzdGJ035VJKSai/n2ZzAq1YYtVHy5CG2olmeFtwaIWU18m2s
- RjHQf/FiscVB4XdKrHjh3gLgSB8MWMDg/krisxT86HNyp1UE2jZv+QKBgQDuuoez
- V+H23ktb9oDS9HuLXt+wZuww29uNb0jhVoLiqK6M90Pl2u8yErjsq04cG9pF0MUl
- 8/nIw4RRKQh9GUOBBbxZqA/1yBxmHTz48siYJ3YXf5HB+0WxxOlEk3s05AnTilTi
- 5Y4u9Ptwieoy+TOXatBL9XZgKkpHbcxKZH2gvwKBgQClvNyhlB8cscR3osFWvFmG
- EiRuXVw0ROc5fBweIo3ptm6t9I75eCAM/MeWsihKd7VUjbz7lM+EGjP7jbcMRsqa
- kRMrHOQQeOFMmBZ5wZEUDz1mwO4j9vPILsvgVUuXIS4r66TccvtBPqyVhWoIOytA
- qYdBzLiomvehxONYkXmf+wKBgQCfJwUiOpaklDI9TwCMov0HlJUgRJ115+ezn4Xr
- jwHscHRd+i1D50ohYdCdx4loEpGD4INuoqaF162LcLBTZi0Arn2RGrVOhWhEE337
- TIW6xPlk/7aBUi52g0Ytt6d4mAaNBuNB7l7J+KegW/F3UM0PnIrdTk7qxtwvnogx
- mFPAfwKBgAEuRGqF2Q9bNu/r0OufeFxsYm0zFvWBIxbq3DxPYRtzfhiQMeTOzl1g
- 5rowAtb/w1SusGAZ4/lEUZoBgzV+8fr+rpx3eavVCmcXBVjDi9B5nNLIXWkcoEQG
- G/4ZwXUr5kyTBktL6mIBVNJ8dJUQo8xyxK0GjfWhlsk5t/Zu8tmK
- -----END RSA PRIVATE KEY-----
-
- 加密字符:
- 佷篒?z_&欗霐嗪K赸;J╄[i9?S絑?て晄p?[hD∞51鱠,k|1裡郿 犓鈪鑒?饞w2?`vlu
- L<萿囂?圖L潥?O0佲y▃飕E堿^桮??,e鉀煯ACsJ挈R聡-鳊帔!eQC乥+1\(齀
- я盈Xj饮[o6覾羂≯傁澓
- 解密字符:
- this is an example
注:
(1)在读取公钥文件时,PEM_read_RSA_PUBKEY()函数和PEM_read_RSAPublicKEY()的疑惑。有时候为什么读取私钥文件用的PEM_read_RSAPrivateKey(),针对上述openssl命令生成的公钥文件,在读取其内容时用对称的PEM_read_RSAPublicKEY()接口却会报错,必须要用PEM_read_RSA_PUBKEY()才可以。
RSA PUBLIC KEY和PUBLIC KEY的两种公钥文件其存储方式是不一样的,PEM_read_RSAPublicKEY()只能读取RSA PUBLIC KEY开头形式的公钥文件(用函数生成的);而PEM_read_RSA_PUBKEY()只能读取PUBLIC KEY开头格式的公钥文件(用命令行生成),所以公钥私钥读取函数一定要跟生成的密钥对的格式对应起来。
(2)公钥加密和私钥解密, 私钥加密公钥解密 这两种都可以使用
(3)一般加密之后的字符串因为编码跟中文对应不上所以是乱码,在很多场合选择用十六进制串输出
(4)实际的工程应用中读取密钥对需要加安全验证
(5)用纯代码不依赖openssl库也是可以自己实现这些加解密算法的,搞清楚原理就行
http://blog.csdn.net/u012234115/article/details/72762045
C/C++使用openssl进行摘要和加密解密(md5, sha256, des, rsa)
标签:获取 -o openssl article sse pair 公钥加密 oid ssl
原文地址:http://www.cnblogs.com/findumars/p/7252839.html