/**
* \file
* \author Egor Tensin <Egor.Tensin@gmail.com>
* \date 2015
* \copyright This file is licensed under the terms of the MIT License.
* See LICENSE.txt for details.
*
* \brief Declares necessary data structures (for blocks, keys, etc.) and
* auxiliary I/O functions.
*/
#pragma once
#include "error.h"
/**
* \defgroup aesni_data Data
* \brief Data structures and I/O functions
* \ingroup aesni
* \{
*/
#include <emmintrin.h>
#include <tmmintrin.h>
#ifdef __cplusplus
extern "C"
{
#endif
/**
* \brief Represents a 128-bit block.
*/
typedef __m128i AesNI_Block128;
/**
* \brief Loads a 128-bit block from a memory location.
*
* \param[in] src The pointer to a memory location. Must not be `NULL`.
* \return The loaded 128-bit block.
*/
static __inline AesNI_Block128 aesni_load_block128(const void* src)
{
return _mm_loadu_si128((AesNI_Block128*) src);
}
/**
* \brief Loads a 128-bit block from a 16-byte aligned memory location.
*
* \param[in] src The pointer to a 16-byte aligned memory location. Must not be
* `NULL`.
* \return The loaded 128-bit block.
*/
static __inline AesNI_Block128 aesni_load_block128_aligned(const void* src)
{
return _mm_load_si128((AesNI_Block128*) src);
}
/**
* \brief Stores a 128-bit block in a memory location.
*
* \param[out] dest The pointer to a memory location. Must not be `NULL`.
* \param[in] block The block to be stored.
*/
static __inline void __fastcall aesni_store_block128(
void* dest, AesNI_Block128 block)
{
_mm_storeu_si128((AesNI_Block128*) dest, block);
}
/**
* \brief Stores a 128-bit block in a 16-byte aligned memory location.
*
* \param[out] dest The pointer to a 16-byte aligned memory location. Must not
* be `NULL`.
* \param[in] block The block to be stored.
*/
static __inline void __fastcall aesni_store_block128_aligned(
void* dest, AesNI_Block128 block)
{
_mm_store_si128((AesNI_Block128*) dest, block);
}
/**
* \brief Builds a 128-bit block from four 4-byte values.
*
* Builds a 128-bit block like this:
*
* * dest[127:96] = hi3
* * dest[95:64] = hi2
* * dest[63:32] = lo1
* * dest[31:0] = lo0
*
* \param[in] hi3 The most significant 4-byte value.
* \param[in] hi2 The more significant 4-byte value.
* \param[in] lo1 The less significant 4-byte value.
* \param[in] lo0 The least significant 4-byte value.
* \return The built 128-bit block.
*/
static __inline AesNI_Block128 __fastcall aesni_make_block128(
int hi3, int hi2, int lo1, int lo0)
{
return _mm_set_epi32(hi3, hi2, lo1, lo0);
}
/**
* \brief Represents a 192-bit block.
*/
typedef struct
{
AesNI_Block128 hi; ///< The most significant 64 bits.
AesNI_Block128 lo; ///< The least significant 128 bits.
}
AesNI_Block192;
/**
* \brief Builds a 192-bit block from six 4-byte values.
*
* Builds a 192-bit block like this:
*
* * dest[191:160] = hi5
* * dest[159:128] = hi4
* * dest[127:96] = lo3
* * dest[95:64] = lo2
* * dest[63:32] = lo1
* * dest[31:0] = lo0
*
* \param[in] hi5 The most significant 4-byte value (bits 160--191).
* \param[in] hi4 The more significant 4-byte value (bits 128--159).
* \param[in] lo3 The 4-byte value to be stored in bits 96--127.
* \param[in] lo2 The 4-byte value to be stored in bits 64--95.
* \param[in] lo1 The less significant 4-byte value (bits 32--63).
* \param[in] lo0 The least significant 4-byte value (bits 0--31).
* \return The built 192-bit block.
*/
static __inline AesNI_Block192 __fastcall aesni_make_block192(
int hi5, int hi4, int lo3, int lo2, int lo1, int lo0)
{
AesNI_Block192 result;
result.hi = aesni_make_block128(0, 0, hi5, hi4);
result.lo = aesni_make_block128(lo3, lo2, lo1, lo0);
return result;
}
/**
* \brief Represents a 256-bit block.
*/
typedef struct
{
AesNI_Block128 hi; ///< The most significant 128 bits.
AesNI_Block128 lo; ///< The least significant 128 bits.
}
AesNI_Block256;
/**
* \brief Builds a 256-bit block from eight 4-byte values.
*
* Builds a 256-bit block like this:
*
* * dest[255:224] = hi7
* * dest[223:192] = hi6
* * dest[191:160] = hi5
* * dest[159:128] = hi4
* * dest[127:96] = lo3
* * dest[95:64] = lo2
* * dest[63:32] = lo1
* * dest[31:0] = lo0
*
* \param[in] hi7 The 4-byte value to be stored in bits 224--255.
* \param[in] hi6 The 4-byte value to be stored in bits 192--223.
* \param[in] hi5 The 4-byte value to be stored in bits 160--191.
* \param[in] hi4 The 4-byte value to be stored in bits 128--159.
* \param[in] lo3 The 4-byte value to be stored in bits 96--127.
* \param[in] lo2 The 4-byte value to be stored in bits 64--95.
* \param[in] lo1 The 4-byte value to be stored in bits 32--63.
* \param[in] lo0 The 4-byte value to be stored in bits 0--31.
* \return The built 256-bit block.
*/
static __inline AesNI_Block256 __fastcall aesni_make_block256(
int hi7, int hi6, int hi5, int hi4, int lo3, int lo2, int lo1, int lo0)
{
AesNI_Block256 result;
result.hi = aesni_make_block128(hi7, hi6, hi5, hi4);
result.lo = aesni_make_block128(lo3, lo2, lo1, lo0);
return result;
}
typedef struct
{
AesNI_Block128 keys[11];
}
AesNI_KeySchedule128;
typedef struct
{
AesNI_Block128 keys[13];
}
AesNI_KeySchedule192;
typedef struct
{
AesNI_Block128 keys[15];
}
AesNI_KeySchedule256;
static __inline AesNI_Block128 __fastcall aesni_reverse_byte_order128(AesNI_Block128 block)
{
return _mm_shuffle_epi8(block, aesni_make_block128(0x00010203, 0x04050607, 0x08090a0b, 0x0c0d0e0f));
}
static __inline AesNI_Block128 __fastcall aesni_le2be128(AesNI_Block128 block)
{
return aesni_reverse_byte_order128(block);
}
static __inline AesNI_Block128 __fastcall aesni_be2le128(AesNI_Block128 block)
{
return aesni_reverse_byte_order128(block);
}
typedef struct { char str[33]; } AesNI_BlockString128;
typedef struct { char str[49]; } AesNI_BlockString192;
typedef struct { char str[65]; } AesNI_BlockString256;
AesNI_BlockString128 aesni_format_block128(AesNI_Block128*);
AesNI_BlockString192 aesni_format_block192(AesNI_Block192*);
AesNI_BlockString256 aesni_format_block256(AesNI_Block256*);
typedef struct { char str[49]; } AesNI_BlockMatrixString128;
typedef struct { char str[73]; } AesNI_BlockMatrixString192;
typedef struct { char str[97]; } AesNI_BlockMatrixString256;
AesNI_BlockMatrixString128 aesni_format_block128_as_matrix(AesNI_Block128*);
AesNI_BlockMatrixString192 aesni_format_block192_as_matrix(AesNI_Block192*);
AesNI_BlockMatrixString256 aesni_format_block256_as_matrix(AesNI_Block256*);
void aesni_print_block128(AesNI_Block128*);
void aesni_print_block192(AesNI_Block192*);
void aesni_print_block256(AesNI_Block256*);
void aesni_print_block128_as_matrix(AesNI_Block128*);
void aesni_print_block192_as_matrix(AesNI_Block192*);
void aesni_print_block256_as_matrix(AesNI_Block256*);
AesNI_StatusCode aesni_parse_block128(
AesNI_Block128* dest,
const char* src,
AesNI_ErrorDetails* err_details);
AesNI_StatusCode aesni_parse_block192(
AesNI_Block192* dest,
const char* src,
AesNI_ErrorDetails* err_details);
/**
* \brief Parses a 256-bit block, from the least significant to the most significant byte.
*
* The block is parsed from a hexadecimal number represented using the big endian notation.
*
* The source string may optionally start with "0x" or "0X".
* Then 64 characters in the range [0-9a-fA-F] must follow.
*
* \param[out] dest The pointer to the parsed block. Must not be `NULL`.
* \param[in] src The pointer to the source C string. Must not be `NULL`.
* \param[out] err_details The error details structure.
* \retval AESNI_SUCCESS If parsed successfully.
* \retval AESNI_NULL_ARGUMENT_ERROR If either `dest` or `src` is `NULL`.
* \retval AESNI_PARSE_ERROR If `src` couldn't be parsed as a valid 256-bit block.
* \sa aesni_error_handling.
*/
AesNI_StatusCode aesni_parse_block256(
AesNI_Block256* dest,
const char* src,
AesNI_ErrorDetails* err_details);
#ifdef __cplusplus
}
#endif
/**
* \}
*/