/** * \file * \author Egor Tensin * \date 2015 * \copyright This file is licensed under the terms of the MIT License. * See LICENSE.txt for details. */ #pragma once #include "data.h" #include #ifdef __cplusplus extern "C" { #endif typedef struct { AesNI_Block128 keys[11]; } AesNI_Aes128_RoundKeys; typedef struct { AesNI_Block128 keys[13]; } AesNI_Aes192_RoundKeys; typedef struct { AesNI_Block128 keys[15]; } AesNI_Aes256_RoundKeys; void __fastcall aesni_aes128_expand_key_( AesNI_Block128 key, AesNI_Aes128_RoundKeys* encryption_keys); void __fastcall aesni_aes192_expand_key_( AesNI_Block128 key_lo, AesNI_Block128 key_hi, AesNI_Aes192_RoundKeys* encryption_keys); void __fastcall aesni_aes256_expand_key_( AesNI_Block128 key_lo, AesNI_Block128 key_hi, AesNI_Aes256_RoundKeys* encryption_keys); void __fastcall aesni_aes128_derive_decryption_keys_( const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Aes128_RoundKeys* decryption_keys); void __fastcall aesni_aes192_derive_decryption_keys_( const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Aes192_RoundKeys* decryption_keys); void __fastcall aesni_aes256_derive_decryption_keys_( const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Aes256_RoundKeys* decryption_keys); AesNI_Block128 __fastcall aesni_aes128_encrypt_block_( AesNI_Block128 plaintext, const AesNI_Aes128_RoundKeys*); AesNI_Block128 __fastcall aesni_aes192_encrypt_block_( AesNI_Block128 plaintext, const AesNI_Aes192_RoundKeys*); AesNI_Block128 __fastcall aesni_aes256_encrypt_block_( AesNI_Block128 plaintext, const AesNI_Aes256_RoundKeys*); AesNI_Block128 __fastcall aesni_aes128_decrypt_block_( AesNI_Block128 ciphertext, const AesNI_Aes128_RoundKeys*); AesNI_Block128 __fastcall aesni_aes192_decrypt_block_( AesNI_Block128 ciphertext, const AesNI_Aes192_RoundKeys*); AesNI_Block128 __fastcall aesni_aes256_decrypt_block_( AesNI_Block128 ciphertext, const AesNI_Aes256_RoundKeys*); /** * \brief Expands an AES-128 key into 10 encryption round keys. * * \param[in] key The AES-128 key. * \param[out] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. */ static __inline void __fastcall aesni_aes128_expand_key( AesNI_Block128 key, AesNI_Aes128_RoundKeys* encryption_keys) { assert(encryption_keys); aesni_aes128_expand_key_(key, encryption_keys); } /** * \brief Derives AES-128 decryption round keys from AES-128 encryption round keys. * * \param[in] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. * \param[out] decryption_keys The AES-128 decryption round keys. Must not be `NULL`. */ static __inline void __fastcall aesni_aes128_derive_decryption_keys( const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Aes128_RoundKeys* decryption_keys) { assert(encryption_keys); assert(decryption_keys); aesni_aes128_derive_decryption_keys_(encryption_keys, decryption_keys); } /** * \brief Encrypts a 128-bit block using AES-128 in ECB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ecb( AesNI_Block128 plaintext, const AesNI_Aes128_RoundKeys* encryption_keys) { assert(encryption_keys); return aesni_aes128_encrypt_block_(plaintext, encryption_keys); } /** * \brief Decrypts a 128-bit block using AES-128 in ECB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] decryption_keys The AES-128 decryption round keys. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ecb( AesNI_Block128 ciphertext, const AesNI_Aes128_RoundKeys* decryption_keys) { assert(decryption_keys); return aesni_aes128_decrypt_block_(ciphertext, decryption_keys); } /** * \brief Encrypts a 128-bit block using AES-128 in CBC mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CBC initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_cbc( AesNI_Block128 plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 ciphertext = aesni_aes128_encrypt_block_(aesni_xor_block128(plaintext, init_vector), encryption_keys); *next_init_vector = ciphertext; return ciphertext; } /** * \brief Decrypts a 128-bit block using AES-128 in CBC mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] decryption_keys The AES-128 decryption round keys. Must not be `NULL`. * \param[in] init_vector The CBC initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_cbc( AesNI_Block128 ciphertext, const AesNI_Aes128_RoundKeys* decryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(decryption_keys); assert(next_init_vector); AesNI_Block128 plaintext = aesni_xor_block128(aesni_aes128_decrypt_block_(ciphertext, decryption_keys), init_vector); *next_init_vector = ciphertext; return plaintext; } /** * \brief Encrypts a 128-bit block using AES-128 in CFB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_cfb( AesNI_Block128 plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 ciphertext = aesni_xor_block128(aesni_aes128_encrypt_block_(init_vector, encryption_keys), plaintext); *next_init_vector = ciphertext; return ciphertext; } /** * \brief Decrypts a 128-bit block using AES-128 in CFB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-128 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The CFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_cfb( AesNI_Block128 ciphertext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 plaintext = aesni_xor_block128(aesni_aes128_encrypt_block_(init_vector, encryption_keys), ciphertext); *next_init_vector = ciphertext; return plaintext; } /** * \brief Encrypts a 128-bit block using AES-128 in OFB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. * \param[in] init_vector The OFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ofb( AesNI_Block128 plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 tmp = aesni_aes128_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, plaintext); } /** * \brief Decrypts a 128-bit block using AES-128 in OFB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-128 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The OFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ofb( AesNI_Block128 ciphertext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 tmp = aesni_aes128_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, ciphertext); } /** * \brief Encrypts a 128-bit block using AES-128 in CTR mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-128 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CTR initialization vector. * \param[in] counter The counter, typically incremented between consecutive calls. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ctr( AesNI_Block128 plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, int counter) { assert(encryption_keys); init_vector = aesni_le2be128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); init_vector = aesni_be2le128(init_vector); return aesni_xor_block128(plaintext, aesni_aes128_encrypt_block_(init_vector, encryption_keys)); } /** * \brief Decrypts a 128-bit block using AES-128 in CTR mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-128 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The CTR initialization vector. * \param[in] counter The counter, typically incremented between consecutive calls. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ctr( AesNI_Block128 ciphertext, const AesNI_Aes128_RoundKeys* encryption_keys, AesNI_Block128 init_vector, int counter) { assert(encryption_keys); init_vector = aesni_le2be128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); init_vector = aesni_be2le128(init_vector); return aesni_xor_block128(ciphertext, aesni_aes128_encrypt_block_(init_vector, encryption_keys)); } /** * \brief Expands an AES-192 key into 12 encryption round keys. * * \param[in] key The AES-192 key. * \param[out] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. */ static __inline void __fastcall aesni_aes192_expand_key( AesNI_Block192* key, AesNI_Aes192_RoundKeys* encryption_keys) { assert(key); assert(encryption_keys); aesni_aes192_expand_key_(key->lo, key->hi, encryption_keys); } /** * \brief Derives AES-192 decryption round keys from AES-192 encryption round keys. * * \param[in] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. * \param[out] decryption_keys The AES-192 decryption round keys. Must not be `NULL`. */ static __inline void __fastcall aesni_aes192_derive_decryption_keys( const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Aes192_RoundKeys* decryption_keys) { assert(encryption_keys); assert(decryption_keys); aesni_aes192_derive_decryption_keys_(encryption_keys, decryption_keys); } /** * \brief Encrypts a 128-bit block using AES-192 in ECB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ecb( AesNI_Block128 plaintext, const AesNI_Aes192_RoundKeys* encryption_keys) { assert(encryption_keys); return aesni_aes192_encrypt_block_(plaintext, encryption_keys); } /** * \brief Decrypts a 128-bit block using AES-192 in ECB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] decryption_keys The AES-192 decryption round keys. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ecb( AesNI_Block128 ciphertext, const AesNI_Aes192_RoundKeys* decryption_keys) { assert(decryption_keys); return aesni_aes192_decrypt_block_(ciphertext, decryption_keys); } /** * \brief Encrypts a 128-bit block using AES-192 in CBC mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CBC initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_cbc( AesNI_Block128 plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 ciphertext = aesni_aes192_encrypt_block_(aesni_xor_block128(plaintext, init_vector), encryption_keys); *next_init_vector = ciphertext; return ciphertext; } /** * \brief Decrypts a 128-bit block using AES-192 in CBC mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] decryption_keys The AES-192 decryption round keys. Must not be `NULL`. * \param[in] init_vector The CBC initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_cbc( AesNI_Block128 ciphertext, const AesNI_Aes192_RoundKeys* decryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(decryption_keys); assert(next_init_vector); AesNI_Block128 plaintext = aesni_xor_block128(aesni_aes192_decrypt_block_(ciphertext, decryption_keys), init_vector); *next_init_vector = ciphertext; return plaintext; } /** * \brief Encrypts a 128-bit block using AES-192 in CFB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_cfb( AesNI_Block128 plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 ciphertext = aesni_xor_block128(aesni_aes192_encrypt_block_(init_vector, encryption_keys), plaintext); *next_init_vector = ciphertext; return ciphertext; } /** * \brief Decrypts a 128-bit block using AES-192 in CFB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-192 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The CFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_cfb( AesNI_Block128 ciphertext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 plaintext = aesni_xor_block128(aesni_aes192_encrypt_block_(init_vector, encryption_keys), ciphertext); *next_init_vector = ciphertext; return plaintext; } /** * \brief Encrypts a 128-bit block using AES-192 in OFB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. * \param[in] init_vector The OFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ofb( AesNI_Block128 plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 tmp = aesni_aes192_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, plaintext); } /** * \brief Decrypts a 128-bit block using AES-192 in OFB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-192 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The OFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ofb( AesNI_Block128 ciphertext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 tmp = aesni_aes192_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, ciphertext); } /** * \brief Encrypts a 128-bit block using AES-192 in CTR mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-192 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CTR initialization vector. * \param[in] counter The counter, typically incremented between consecutive calls. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ctr( AesNI_Block128 plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, int counter) { assert(encryption_keys); init_vector = aesni_le2be128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); init_vector = aesni_be2le128(init_vector); return aesni_xor_block128(plaintext, aesni_aes192_encrypt_block_(init_vector, encryption_keys)); } /** * \brief Decrypts a 128-bit block using AES-192 in CTR mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-192 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The CTR initialization vector. * \param[in] counter The counter, typically incremented between consecutive calls. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ctr( AesNI_Block128 ciphertext, const AesNI_Aes192_RoundKeys* encryption_keys, AesNI_Block128 init_vector, int counter) { assert(encryption_keys); init_vector = aesni_le2be128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); init_vector = aesni_be2le128(init_vector); return aesni_xor_block128(ciphertext, aesni_aes192_encrypt_block_(init_vector, encryption_keys)); } /** * \brief Expands an AES-256 key into 14 encryption round keys. * * \param[in] key The AES-256 key. * \param[out] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. */ static __inline void __fastcall aesni_aes256_expand_key( const AesNI_Block256* key, AesNI_Aes256_RoundKeys* encryption_keys) { assert(key); assert(encryption_keys); aesni_aes256_expand_key_(key->lo, key->hi, encryption_keys); } /** * \brief Derives AES-256 decryption round keys from AES-256 encryption round keys. * * \param[in] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. * \param[out] decryption_keys The AES-256 decryption round keys. Must not be `NULL`. */ static __inline void __fastcall aesni_aes256_derive_decryption_keys( const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Aes256_RoundKeys* decryption_keys) { assert(encryption_keys); assert(decryption_keys); aesni_aes256_derive_decryption_keys_(encryption_keys, decryption_keys); } /** * \brief Encrypts a 128-bit block using AES-256 in ECB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ecb( AesNI_Block128 plaintext, const AesNI_Aes256_RoundKeys* encryption_keys) { assert(encryption_keys); return aesni_aes256_encrypt_block_(plaintext, encryption_keys); } /** * \brief Decrypts a 128-bit block using AES-256 in ECB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] decryption_keys The AES-256 decryption round keys. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ecb( AesNI_Block128 ciphertext, const AesNI_Aes256_RoundKeys* decryption_keys) { assert(decryption_keys); return aesni_aes256_decrypt_block_(ciphertext, decryption_keys); } /** * \brief Encrypts a 128-bit block using AES-256 in CBC mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CBC initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_cbc( AesNI_Block128 plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 ciphertext = aesni_aes256_encrypt_block_(aesni_xor_block128(plaintext, init_vector), encryption_keys); *next_init_vector = ciphertext; return ciphertext; } /** * \brief Decrypts a 128-bit block using AES-256 in CBC mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] decryption_keys The AES-256 decryption round keys. Must not be `NULL`. * \param[in] init_vector The CBC initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_cbc( AesNI_Block128 ciphertext, const AesNI_Aes256_RoundKeys* decryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(decryption_keys); assert(next_init_vector); AesNI_Block128 plaintext = aesni_xor_block128(aesni_aes256_decrypt_block_(ciphertext, decryption_keys), init_vector); *next_init_vector = ciphertext; return plaintext; } /** * \brief Encrypts a 128-bit block using AES-256 in CFB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_cfb( AesNI_Block128 plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 ciphertext = aesni_xor_block128(aesni_aes256_encrypt_block_(init_vector, encryption_keys), plaintext); *next_init_vector = ciphertext; return ciphertext; } /** * \brief Decrypts a 128-bit block using AES-256 in CFB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-256 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The CFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_cfb( AesNI_Block128 ciphertext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 plaintext = aesni_xor_block128(aesni_aes256_encrypt_block_(init_vector, encryption_keys), ciphertext); *next_init_vector = ciphertext; return plaintext; } /** * \brief Encrypts a 128-bit block using AES-256 in OFB mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. * \param[in] init_vector The OFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ofb( AesNI_Block128 plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 tmp = aesni_aes256_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, plaintext); } /** * \brief Decrypts a 128-bit block using AES-256 in OFB mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-256 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The OFB initialization vector. * \param[out] next_init_vector The initialization vector to be used for the next call. Must not be `NULL`. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ofb( AesNI_Block128 ciphertext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(encryption_keys); assert(next_init_vector); AesNI_Block128 tmp = aesni_aes256_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, ciphertext); } /** * \brief Encrypts a 128-bit block using AES-256 in CTR mode of operation. * * \param[in] plaintext The plaintext to be encrypted. * \param[in] encryption_keys The AES-256 encryption round keys. Must not be `NULL`. * \param[in] init_vector The CTR initialization vector. * \param[in] counter The counter, typically incremented between consecutive calls. * * \return The encrypted 128-bit ciphertext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ctr( AesNI_Block128 plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, int counter) { assert(encryption_keys); init_vector = aesni_le2be128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); init_vector = aesni_be2le128(init_vector); return aesni_xor_block128(plaintext, aesni_aes256_encrypt_block_(init_vector, encryption_keys)); } /** * \brief Decrypts a 128-bit block using AES-256 in CTR mode of operation. * * \param[in] ciphertext The ciphertext to be decrypted. * \param[in] encryption_keys The AES-256 **encryption** round keys. Must not be `NULL`. * \param[in] init_vector The CTR initialization vector. * \param[in] counter The counter, typically incremented between consecutive calls. * * \return The decrypted 128-bit plaintext. */ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ctr( AesNI_Block128 ciphertext, const AesNI_Aes256_RoundKeys* encryption_keys, AesNI_Block128 init_vector, int counter) { assert(encryption_keys); init_vector = aesni_le2be128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); init_vector = aesni_be2le128(init_vector); return aesni_xor_block128(ciphertext, aesni_aes256_encrypt_block_(init_vector, encryption_keys)); } #ifdef __cplusplus } #endif