1
0
cuberite-2a/src/PolarSSL++/AesCfb128Encryptor.cpp

69 lines
1.2 KiB
C++
Raw Normal View History

// AesCfb128Encryptor.cpp
// Implements the cAesCfb128Encryptor class encrypting data using AES CFB-128
#include "Globals.h"
#include "AesCfb128Encryptor.h"
cAesCfb128Encryptor::cAesCfb128Encryptor(void) :
m_IVOffset(0),
m_IsValid(false)
{
}
cAesCfb128Encryptor::~cAesCfb128Encryptor()
{
// Clear the leftover in-memory data, so that they can't be accessed by a backdoor
memset(&m_Aes, 0, sizeof(m_Aes));
}
void cAesCfb128Encryptor::Init(const Byte a_Key[16], const Byte a_IV[16])
{
ASSERT(!IsValid()); // Cannot Init twice
ASSERT(m_IVOffset == 0);
memcpy(m_IV, a_IV, 16);
aes_setkey_enc(&m_Aes, a_Key, 128);
m_IsValid = true;
}
void cAesCfb128Encryptor::ProcessData(Byte * a_EncryptedOut, const Byte * a_PlainIn, size_t a_Length)
{
ASSERT(IsValid()); // Must Init() first
// PolarSSL doesn't do AES-CFB8, so we need to implement it ourselves:
for (size_t i = 0; i < a_Length; i++)
{
Byte Buffer[sizeof(m_IV)];
aes_crypt_ecb(&m_Aes, AES_ENCRYPT, m_IV, Buffer);
for (size_t idx = 0; idx < sizeof(m_IV) - 1; idx++)
{
m_IV[idx] = m_IV[idx + 1];
}
a_EncryptedOut[i] = a_PlainIn[i] ^ Buffer[0];
m_IV[sizeof(m_IV) - 1] = a_EncryptedOut[i];
}
}