Commit 27cc252b authored by Sergei Golubchik's avatar Sergei Golubchik

simplify my_crypt.cc, remove duplicate code

parent 6a7ee5a5
......@@ -15,317 +15,69 @@
static const int CRYPT_ENCRYPT = 1;
static const int CRYPT_DECRYPT = 0;
class Encrypter {
public:
virtual ~Encrypter() {}
virtual Crypt_result Encrypt(const uchar* plaintext,
int plaintext_size,
uchar* ciphertext,
int* ciphertext_used) = 0;
virtual Crypt_result GetTag(uchar* tag, int tag_size) = 0;
};
class Decrypter {
public:
virtual ~Decrypter() {}
virtual Crypt_result SetTag(const uchar* tag, int tag_size) = 0;
virtual Crypt_result Decrypt(const uchar* ciphertext,
int ciphertext_size,
uchar* plaintext,
int* plaintext_used) = 0;
virtual Crypt_result CheckTag() = 0;
};
class Crypto {
public:
virtual ~Crypto();
Crypt_result Crypt(const uchar* input, int input_size,
uchar* output, int* output_used);
protected:
Crypto();
C_MODE_START
static int do_crypt(const EVP_CIPHER *cipher, int mode,
const uchar* source, uint32 source_length,
uchar* dest, uint32* dest_length,
const unsigned char* key, uint8 key_length,
const unsigned char* iv, uint8 iv_length,
uint noPadding)
{
int res= AES_OPENSSL_ERROR;
EVP_CIPHER_CTX ctx;
};
/* Various crypto implementations */
class Aes128CtrCrypto : public Crypto {
public:
virtual Crypt_result Init(const uchar* key, const uchar* iv,
int iv_size);
protected:
Aes128CtrCrypto() {}
virtual int mode() = 0;
};
class Aes128CtrEncrypter : public Aes128CtrCrypto, public Encrypter {
public:
Aes128CtrEncrypter() {}
virtual Crypt_result Encrypt(const uchar* plaintext,
int plaintext_size,
uchar* ciphertext,
int* ciphertext_used);
virtual Crypt_result GetTag(uchar* tag, int tag_size) {
DBUG_ASSERT(false);
return AES_INVALID;
}
protected:
virtual int mode() {
return CRYPT_ENCRYPT;
}
private:
Aes128CtrEncrypter(const Aes128CtrEncrypter& o);
Aes128CtrEncrypter& operator=(const Aes128CtrEncrypter& o);
};
class Aes128CtrDecrypter : public Aes128CtrCrypto, public Decrypter {
public:
Aes128CtrDecrypter() {}
virtual Crypt_result Decrypt(const uchar* ciphertext,
int ciphertext_size,
uchar* plaintext,
int* plaintext_used);
virtual Crypt_result SetTag(const uchar* tag, int tag_size) {
DBUG_ASSERT(false);
return AES_INVALID;
}
virtual Crypt_result CheckTag() {
DBUG_ASSERT(false);
return AES_INVALID;
}
protected:
virtual int mode() {
return CRYPT_DECRYPT;
}
private:
Aes128CtrDecrypter(const Aes128CtrDecrypter& o);
Aes128CtrDecrypter& operator=(const Aes128CtrDecrypter& o);
};
class Aes128EcbCrypto : public Crypto {
public:
virtual Crypt_result Init(const unsigned char* key);
protected:
Aes128EcbCrypto() {}
virtual int mode() = 0;
};
class Aes128EcbEncrypter : public Aes128EcbCrypto, public Encrypter {
public:
Aes128EcbEncrypter() {}
virtual Crypt_result Encrypt(const unsigned char* plaintext,
int plaintext_size,
unsigned char* ciphertext,
int* ciphertext_used);
virtual Crypt_result GetTag(unsigned char* tag, int tag_size) {
DBUG_ASSERT(false);
return AES_INVALID;
}
protected:
virtual int mode() {
return CRYPT_ENCRYPT;
}
private:
Aes128EcbEncrypter(const Aes128EcbEncrypter& o);
Aes128EcbEncrypter& operator=(const Aes128EcbEncrypter& o);
};
class Aes128EcbDecrypter : public Aes128EcbCrypto, public Decrypter {
public:
Aes128EcbDecrypter() {}
virtual Crypt_result Decrypt(const unsigned char* ciphertext,
int ciphertext_size,
unsigned char* plaintext,
int* plaintext_used);
virtual Crypt_result SetTag(const unsigned char* tag, int tag_size) {
DBUG_ASSERT(false);
return AES_INVALID;
}
virtual Crypt_result CheckTag() {
DBUG_ASSERT(false);
return AES_INVALID;
}
protected:
virtual int mode() {
return CRYPT_DECRYPT;
}
private:
Aes128EcbDecrypter(const Aes128EcbDecrypter& o);
Aes128EcbDecrypter& operator=(const Aes128EcbDecrypter& o);
};
Crypto::~Crypto() {
EVP_CIPHER_CTX_cleanup(&ctx);
}
Crypto::Crypto() {
EVP_CIPHER_CTX_init(&ctx);
}
/*
WARNING: It is allowed to have output == NULL, for special cases like AAD
support in AES GCM. output_used however must never be NULL.
*/
Crypt_result Crypto::Crypt(const uchar* input, int input_size,
uchar* output, int* output_used) {
DBUG_ASSERT(input != NULL);
DBUG_ASSERT(output_used != NULL);
if (!EVP_CipherUpdate(&ctx, output, output_used, input, input_size)) {
return AES_OPENSSL_ERROR;
}
return AES_OK;
}
Crypt_result Aes128CtrCrypto::Init(const uchar* key,
const uchar* iv,
int iv_size) {
if (iv_size != 16) {
DBUG_ASSERT(false);
return AES_BAD_IV;
}
if (!EVP_CipherInit_ex(&ctx, EVP_aes_128_ctr(), NULL, key, iv, mode())) {
return AES_OPENSSL_ERROR;
}
return AES_OK;
}
Crypt_result Aes128CtrEncrypter::Encrypt(const uchar* plaintext,
int plaintext_size,
uchar* ciphertext,
int* ciphertext_used) {
Crypt_result res = Crypt(plaintext, plaintext_size, ciphertext,
ciphertext_used);
DBUG_ASSERT(*ciphertext_used == plaintext_size);
return res;
}
Crypt_result Aes128CtrDecrypter::Decrypt(const uchar* ciphertext,
int ciphertext_size,
uchar* plaintext,
int* plaintext_used) {
Crypt_result res = Crypt(ciphertext, ciphertext_size, plaintext,
plaintext_used);
DBUG_ASSERT(*plaintext_used == ciphertext_size);
return res;
}
Crypt_result Aes128EcbCrypto::Init(const unsigned char* key) {
if (!EVP_CipherInit_ex(&ctx, EVP_aes_128_ecb(), NULL, key, NULL, mode())) {
return AES_OPENSSL_ERROR;
}
return AES_OK;
}
Crypt_result Aes128EcbEncrypter::Encrypt(const unsigned char* plaintext,
int plaintext_size,
unsigned char* ciphertext,
int* ciphertext_used) {
Crypt_result res = Crypt(plaintext, plaintext_size,
ciphertext, ciphertext_used);
DBUG_ASSERT(*ciphertext_used == plaintext_size);
if (!EVP_CipherInit_ex(&ctx, cipher, NULL, key, iv, mode))
goto err;
if (!EVP_CipherUpdate(&ctx, dest, (int*)dest_length, source, source_length))
goto err;
res= AES_OK;
err:
EVP_CIPHER_CTX_cleanup(&ctx);
return res;
}
Crypt_result Aes128EcbDecrypter::Decrypt(const unsigned char* ciphertext,
int ciphertext_size,
unsigned char* plaintext,
int* plaintext_used) {
Crypt_result res = Crypt(ciphertext, ciphertext_size,
plaintext, plaintext_used);
DBUG_ASSERT(*plaintext_used == ciphertext_size);
return res;
}
C_MODE_START
/* Encrypt and decrypt according to Aes128Ctr */
Crypt_result my_aes_encrypt_ctr(const uchar* source, uint32 source_length,
int my_aes_encrypt_ctr(const uchar* source, uint32 source_length,
uchar* dest, uint32* dest_length,
const unsigned char* key, uint8 key_length,
const unsigned char* iv, uint8 iv_length,
uint noPadding)
{
Aes128CtrEncrypter encrypter;
Crypt_result res = encrypter.Init(key, iv, iv_length);
if (res != AES_OK)
return res;
return encrypter.Encrypt(source, source_length, dest, (int*)dest_length);
return do_crypt(EVP_aes_128_ctr(), CRYPT_ENCRYPT, source, source_length,
dest, dest_length, key, key_length, iv, iv_length, noPadding);
}
Crypt_result my_aes_decrypt_ctr(const uchar* source, uint32 source_length,
int my_aes_decrypt_ctr(const uchar* source, uint32 source_length,
uchar* dest, uint32* dest_length,
const unsigned char* key, uint8 key_length,
const unsigned char* iv, uint8 iv_length,
uint noPadding)
{
Aes128CtrDecrypter decrypter;
Crypt_result res = decrypter.Init(key, iv, iv_length);
if (res != AES_OK)
return res;
return decrypter.Decrypt(source, source_length, dest, (int*)dest_length);
return do_crypt(EVP_aes_128_ctr(), CRYPT_DECRYPT, source, source_length,
dest, dest_length, key, key_length, iv, iv_length, noPadding);
}
Crypt_result my_aes_encrypt_ecb(const uchar* source, uint32 source_length,
int my_aes_encrypt_ecb(const uchar* source, uint32 source_length,
uchar* dest, uint32* dest_length,
const unsigned char* key, uint8 key_length,
const unsigned char* iv, uint8 iv_length,
uint noPadding)
{
Aes128EcbEncrypter encrypter;
Crypt_result res = encrypter.Init(key);
if (res != AES_OK)
return res;
return encrypter.Encrypt(source, source_length, dest, (int*)dest_length);
return do_crypt(EVP_aes_128_ecb(), CRYPT_ENCRYPT, source, source_length,
dest, dest_length, key, key_length, iv, iv_length, noPadding);
}
Crypt_result my_aes_decrypt_ecb(const uchar* source, uint32 source_length,
int my_aes_decrypt_ecb(const uchar* source, uint32 source_length,
uchar* dest, uint32* dest_length,
const unsigned char* key, uint8 key_length,
const unsigned char* iv, uint8 iv_length,
uint noPadding)
{
Aes128EcbDecrypter decrypter;
Crypt_result res = decrypter.Init(key);
if (res != AES_OK)
return res;
return decrypter.Decrypt(source, source_length, dest, (int*)dest_length);
return do_crypt(EVP_aes_128_ecb(), CRYPT_DECRYPT, source, source_length,
dest, dest_length, key, key_length, iv, iv_length, noPadding);
}
C_MODE_END
......@@ -338,7 +90,7 @@ C_MODE_END
C_MODE_START
Crypt_result my_random_bytes(uchar* buf, int num)
int my_random_bytes(uchar* buf, int num)
{
TaoCrypt::RandomNumberGenerator rand;
rand.GenerateBlock((TaoCrypt::byte*) buf, num);
......@@ -353,7 +105,7 @@ C_MODE_END
C_MODE_START
Crypt_result my_random_bytes(uchar* buf, int num)
int my_random_bytes(uchar* buf, int num)
{
/*
Unfortunately RAND_bytes manual page does not provide any guarantees
......
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment