/** * \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 "raw.h" #include #ifdef __cplusplus extern "C" { #endif static __inline void __fastcall aesni_expand_key_schedule128( AesNI_Block128 key, AesNI_KeySchedule128* key_schedule) { assert(key_schedule); aesni_raw_expand_key_schedule128(key, key_schedule); } static __inline void __fastcall aesni_invert_key_schedule128( AesNI_KeySchedule128* key_schedule, AesNI_KeySchedule128* inverted_schedule) { assert(key_schedule); assert(inverted_schedule); aesni_raw_invert_key_schedule128(key_schedule, inverted_schedule); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ecb128( AesNI_Block128 plain, AesNI_KeySchedule128* key_schedule) { assert(key_schedule); return aesni_raw_encrypt_block128(plain, key_schedule); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ecb128( AesNI_Block128 cipher, AesNI_KeySchedule128* inverted_schedule) { assert(inverted_schedule); return aesni_raw_decrypt_block128(cipher, inverted_schedule); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_cbc128( AesNI_Block128 plain, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 cipher = aesni_raw_encrypt_block128(_mm_xor_si128(plain, init_vector), key_schedule); *next_init_vector = cipher; return cipher; } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_cbc128( AesNI_Block128 cipher, AesNI_KeySchedule128* inverted_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(inverted_schedule); assert(next_init_vector); AesNI_Block128 plain = _mm_xor_si128(aesni_raw_decrypt_block128(cipher, inverted_schedule), init_vector); *next_init_vector = cipher; return plain; } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_cfb128( AesNI_Block128 plain, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 cipher = _mm_xor_si128(aesni_raw_encrypt_block128(init_vector, key_schedule), plain); *next_init_vector = cipher; return cipher; } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_cfb128( AesNI_Block128 cipher, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 plain = _mm_xor_si128(aesni_raw_encrypt_block128(init_vector, key_schedule), cipher); *next_init_vector = cipher; return plain; } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ofb128( AesNI_Block128 plain, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 tmp = aesni_raw_encrypt_block128(init_vector, key_schedule); *next_init_vector = tmp; return _mm_xor_si128(tmp, plain); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ofb128( AesNI_Block128 cipher, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 tmp = aesni_raw_encrypt_block128(init_vector, key_schedule); *next_init_vector = tmp; return _mm_xor_si128(tmp, cipher); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ctr128( AesNI_Block128 plain, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, int counter) { assert(key_schedule); 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 _mm_xor_si128(plain, aesni_raw_encrypt_block128(init_vector, key_schedule)); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ctr128( AesNI_Block128 cipher, AesNI_KeySchedule128* key_schedule, AesNI_Block128 init_vector, int counter) { assert(key_schedule); 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 _mm_xor_si128(cipher, aesni_raw_encrypt_block128(init_vector, key_schedule)); } static __inline void __fastcall aesni_expand_key_schedule192( AesNI_Block192* key, AesNI_KeySchedule192* key_schedule) { assert(key); assert(key_schedule); aesni_raw_expand_key_schedule192(key->lo, key->hi, key_schedule); } static __inline void __fastcall aesni_invert_key_schedule192( AesNI_KeySchedule192* key_schedule, AesNI_KeySchedule192* inverted_schedule) { assert(key_schedule); assert(inverted_schedule); aesni_raw_invert_key_schedule192(key_schedule, inverted_schedule); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ecb192( AesNI_Block128 plain, AesNI_KeySchedule192* key_schedule) { assert(key_schedule); return aesni_raw_encrypt_block192(plain, key_schedule); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ecb192( AesNI_Block128 cipher, AesNI_KeySchedule192* inverted_schedule) { assert(inverted_schedule); return aesni_raw_decrypt_block192(cipher, inverted_schedule); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_cbc192( AesNI_Block128 plain, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 cipher = aesni_raw_encrypt_block192(_mm_xor_si128(plain, init_vector), key_schedule); *next_init_vector = cipher; return cipher; } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_cbc192( AesNI_Block128 cipher, AesNI_KeySchedule192* inverted_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(inverted_schedule); assert(next_init_vector); AesNI_Block128 plain = _mm_xor_si128(aesni_raw_decrypt_block192(cipher, inverted_schedule), init_vector); *next_init_vector = cipher; return plain; } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_cfb192( AesNI_Block128 plain, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 cipher = _mm_xor_si128(aesni_raw_encrypt_block192(init_vector, key_schedule), plain); *next_init_vector = cipher; return cipher; } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_cfb192( AesNI_Block128 cipher, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 plain = _mm_xor_si128(aesni_raw_encrypt_block192(init_vector, key_schedule), cipher); *next_init_vector = cipher; return plain; } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ofb192( AesNI_Block128 plain, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 tmp = aesni_raw_encrypt_block192(init_vector, key_schedule); *next_init_vector = tmp; return _mm_xor_si128(tmp, plain); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ofb192( AesNI_Block128 cipher, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 tmp = aesni_raw_encrypt_block192(init_vector, key_schedule); *next_init_vector = tmp; return _mm_xor_si128(tmp, cipher); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ctr192( AesNI_Block128 plain, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, int counter) { assert(key_schedule); 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 _mm_xor_si128(plain, aesni_raw_encrypt_block192(init_vector, key_schedule)); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ctr192( AesNI_Block128 cipher, AesNI_KeySchedule192* key_schedule, AesNI_Block128 init_vector, int counter) { assert(key_schedule); 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 _mm_xor_si128(cipher, aesni_raw_encrypt_block192(init_vector, key_schedule)); } static __inline void __fastcall aesni_expand_key_schedule256( AesNI_Block256* key, AesNI_KeySchedule256* key_schedule) { assert(key); assert(key_schedule); aesni_raw_expand_key_schedule256(key->lo, key->hi, key_schedule); } static __inline void __fastcall aesni_invert_key_schedule256( AesNI_KeySchedule256* key_schedule, AesNI_KeySchedule256* inverted_schedule) { assert(key_schedule); assert(inverted_schedule); aesni_raw_invert_key_schedule256(key_schedule, inverted_schedule); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ecb256( AesNI_Block128 plain, AesNI_KeySchedule256* key_schedule) { assert(key_schedule); return aesni_raw_encrypt_block256(plain, key_schedule); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ecb256( AesNI_Block128 cipher, AesNI_KeySchedule256* inverted_schedule) { assert(inverted_schedule); return aesni_raw_decrypt_block256(cipher, inverted_schedule); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_cbc256( AesNI_Block128 plain, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 cipher = aesni_raw_encrypt_block256(_mm_xor_si128(plain, init_vector), key_schedule); *next_init_vector = cipher; return cipher; } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_cbc256( AesNI_Block128 cipher, AesNI_KeySchedule256* inverted_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(inverted_schedule); assert(next_init_vector); AesNI_Block128 plain = _mm_xor_si128(aesni_raw_decrypt_block256(cipher, inverted_schedule), init_vector); *next_init_vector = cipher; return plain; } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_cfb256( AesNI_Block128 plain, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 cipher = _mm_xor_si128(aesni_raw_encrypt_block256(init_vector, key_schedule), plain); *next_init_vector = cipher; return cipher; } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_cfb256( AesNI_Block128 cipher, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 plain = _mm_xor_si128(aesni_raw_encrypt_block256(init_vector, key_schedule), cipher); *next_init_vector = cipher; return plain; } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ofb256( AesNI_Block128 plain, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 tmp = aesni_raw_encrypt_block256(init_vector, key_schedule); *next_init_vector = tmp; return _mm_xor_si128(tmp, plain); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ofb256( AesNI_Block128 cipher, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, AesNI_Block128* next_init_vector) { assert(key_schedule); assert(next_init_vector); AesNI_Block128 tmp = aesni_raw_encrypt_block256(init_vector, key_schedule); *next_init_vector = tmp; return _mm_xor_si128(tmp, cipher); } static __inline AesNI_Block128 __fastcall aesni_encrypt_block_ctr256( AesNI_Block128 plain, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, int counter) { assert(key_schedule); 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 _mm_xor_si128(plain, aesni_raw_encrypt_block256(init_vector, key_schedule)); } static __inline AesNI_Block128 __fastcall aesni_decrypt_block_ctr256( AesNI_Block128 cipher, AesNI_KeySchedule256* key_schedule, AesNI_Block128 init_vector, int counter) { assert(key_schedule); 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 _mm_xor_si128(cipher, aesni_raw_encrypt_block256(init_vector, key_schedule)); } #ifdef __cplusplus } #endif