我很无聊并且在openSSL周围编写了一个包装器,以便用更少的工作来进行AES加密。如果我这样做:
http://pastebin.com/V1eqz4jp(ivec = 0)
一切正常,但默认的ivec都是0,这有一些安全问题。因为无论如何我将数据作为字符串传回,我想,为什么不生成一个随机的ivec并将其粘贴到前面,当我解密字符串时将其取回?出于某种原因,它不起作用。
String is: 0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF
Encrypting..
���l%%1u���B!
�����`pN)�ɶ���[l�ӏ��{�Q�?�2�/�HԵ�y"�=Z�Cu����l%%1u���B!
Decrypting..
String is: �%���G*�5J�0��0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF
老实说,我不知道出了什么问题。也许是一些愚蠢的错误,或者我错过了一些关于AES的事情?
以下是代码:(编辑将Steve Jessop的解决方案纳入我的第一个问题)
/*!
* Simple AES
* Brendan Long
* March 29, 2010
*
* Simplified encryption and decryption using OpenSSL's AES library.
* Remember to compile with -lcrypto and link against the library
* g++ (your stuff) -lcrypto simpleAes.cpp (or simpleAes.o)
*
* Implementation note: Using the default ivec (0) is not secure. For
* the full security that AES offers, use a different
* ivec each time (it does not need to be secret,
* just different.
*
* This code is released into the public domain. Yada yada..
* Read this for details: http://creativecommons.org/licenses/publicdomain/
*
* If for some reason public domain isn't good enough, you may use, alter,
* distribute or do anything else you want with this code with no restrictions.
*/
#include <openssl/aes.h>
#include <iostream>
#include <stdlib.h>
#include <time.h>
bool seed = true;
/*!
* Encrypts a string using AES with a 256 bit key
* Note: If the key is less than 32 bytes, it will be null padded.
* If the key is greater than 32 bytes, it will be truncated
* \param in The string to encrypt
* \param key The key to encrypt with
* \return The encrypted data
*/
std::string aes_encrypt(std::string in, std::string key){
// Seed the random number generator once
if(seed){
srand( (unsigned int) time(NULL));
seed = false;
}
// Generate a random ivec
unsigned char ivec[16];
for(int i=0; i<16; i++){
ivec[i] = (unsigned char) rand();
}
// Round up to AES_BLOCK_SIZE
size_t textLength = ((in.length() / AES_BLOCK_SIZE) + 1) * AES_BLOCK_SIZE;
// Always pad the key to 32 bits.. because we can
if(key.length() < 32){
key.append(32 - key.length(), '\0');
}
// Get some space ready for the output
unsigned char *output = new unsigned char[textLength];
// Generate a key
AES_KEY *aesKey = new AES_KEY;
AES_set_encrypt_key((unsigned char*)key.c_str(), 256, aesKey);
// Encrypt the data
AES_cbc_encrypt((unsigned char*)in.c_str(), output, in.length() + 1, aesKey, ivec, AES_ENCRYPT);
// Make the data into a string
std::string ret((char*) output, textLength);
// Add the ivec to the front
ret = std::string((char*)ivec, 16) + ret;
// Clean up
delete output;
delete aesKey;
return ret;
}
/*!
* Decrypts a string using AES with a 256 bit key
* Note: If the key is less than 32 bytes, it will be null padded.
* If the key is greater than 32 bytes, it will be truncated
* \param in The string to decrypt
* \param key The key to decrypt with
* \return The decrypted data
*/
std::string aes_decrypt(std::string in, std::string key){
// Get the ivec from the front
unsigned char ivec[16];
for(int i=0;i<16; i++){
ivec[i] = in[i];
}
in = in.substr(16);
// Always pad the key to 32 bits.. because we can
if(key.length() < 32){
key.append(32 - key.length(), '\0');
}
// Create some space for output
unsigned char *output = new unsigned char[in.length()];
// Generate a key
AES_KEY *aesKey = new AES_KEY;
AES_set_decrypt_key((unsigned char*)key.c_str(), 256, aesKey); // key length is in bits, so 32 * 8 = 256
// Decrypt the data
AES_cbc_encrypt((unsigned char*)in.c_str(), output, in.length(), aesKey, ivec, AES_DECRYPT);
// Make the output into a string
std::string ret((char*) output);
// Clean up
delete output;
delete aesKey;
return ret;
}
答案 0 :(得分:3)
在加密之前,您应该将ivec [16]保存到'output'中。 就是这样......
我还想补充一点,使用char *代替字符串会更简单。
答案 1 :(得分:2)
这一行错了:
std::string ret((char*) output);
解密数据没有nul终结符,因为您加密了in.length()个字节。这说明了最后的垃圾,但不是开头的垃圾。可能还有其他问题。
答案 2 :(得分:1)
我的一位朋友发现了这个问题。我这样做:
ivec ivec 问题是第2步改变了ivec的内容。我基本上是在字符串的开头存储随机数。解决方案是添加:
unsigned char ivec[16];
// set ivec to random numbers
std::string ivecString((char*) ivec, 16);
// encrypt data
return ivecString + encryptedData;
答案 3 :(得分:0)
通常,除非执行其他步骤(例如Base 64编码输出),否则不能将加密阶段的输出视为字符串。任何输出字节都可以是nul。