diff options
Diffstat (limited to 'include/aesni')
-rw-r--r-- | include/aesni/aes.h | 422 | ||||
-rw-r--r-- | include/aesni/box_aes.h | 2 | ||||
-rw-r--r-- | include/aesni/box_data.h | 8 | ||||
-rw-r--r-- | include/aesni/data.h | 149 |
4 files changed, 275 insertions, 306 deletions
diff --git a/include/aesni/aes.h b/include/aesni/aes.h index 6e11b0c..c4429eb 100644 --- a/include/aesni/aes.h +++ b/include/aesni/aes.h @@ -17,6 +17,122 @@ extern "C" { #endif +typedef AesNI_Block128 AesNI_Aes_Block; + +typedef struct +{ + AesNI_Aes_Block key; +} +AesNI_Aes128_Key; + +typedef struct +{ + AesNI_Aes_Block hi; + AesNI_Aes_Block lo; +} +AesNI_Aes192_Key; + +typedef struct +{ + AesNI_Aes_Block hi; + AesNI_Aes_Block lo; +} +AesNI_Aes256_Key; + +static __inline void aesni_aes_make_block(AesNI_Aes_Block* dest, int hi3, int hi2, int lo1, int lo0) +{ + *dest = aesni_make_block128(hi3, hi2, lo1, lo0); +} + +static __inline void aesni_aes128_make_key(AesNI_Aes128_Key* dest, int hi3, int hi2, int lo1, int lo0) +{ + dest->key = aesni_make_block128(hi3, hi2, lo1, lo0); +} + +static __inline void aesni_aes192_make_key(AesNI_Aes192_Key* dest, int hi5, int hi4, int lo3, int lo2, int lo1, int lo0) +{ + dest->hi = aesni_make_block128(0, 0, hi5, hi4); + dest->lo = aesni_make_block128(lo3, lo2, lo1, lo0); +} + +static __inline void aesni_aes256_make_key(AesNI_Aes256_Key* dest, int hi7, int hi6, int hi5, int hi4, int lo3, int lo2, int lo1, int lo0) +{ + dest->hi = aesni_make_block128(hi7, hi6, hi5, hi4); + dest->lo = aesni_make_block128(lo3, lo2, lo1, lo0); +} + +typedef struct { char str[33]; } AesNI_Aes_BlockString; +typedef struct { char str[49]; } AesNI_Aes_BlockMatrixString; + +AesNI_StatusCode aesni_aes_format_block( + AesNI_Aes_BlockString*, + const AesNI_Aes_Block*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes_format_block_as_matrix( + AesNI_Aes_BlockMatrixString*, + const AesNI_Aes_Block*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes_print_block( + const AesNI_Aes_Block*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes_print_block_as_matrix( + const AesNI_Aes_Block*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes_parse_block( + AesNI_Aes_Block* dest, + const char* src, + AesNI_ErrorDetails* err_details); + +typedef AesNI_Aes_BlockString AesNI_Aes128_KeyString; +typedef struct { char str[49]; } AesNI_Aes192_KeyString; +typedef struct { char str[65]; } AesNI_Aes256_KeyString; + +AesNI_StatusCode aesni_aes128_format_key( + AesNI_Aes128_KeyString*, + const AesNI_Aes128_Key*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes192_format_key( + AesNI_Aes192_KeyString*, + const AesNI_Aes192_Key*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes256_format_key( + AesNI_Aes256_KeyString*, + const AesNI_Aes256_Key*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes128_print_key( + const AesNI_Aes128_Key*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes192_print_key( + const AesNI_Aes192_Key*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes256_print_key( + const AesNI_Aes256_Key*, + AesNI_ErrorDetails*); + +AesNI_StatusCode aesni_aes128_parse_key( + AesNI_Aes128_Key* dest, + const char* src, + AesNI_ErrorDetails* err_details); + +AesNI_StatusCode aesni_aes192_parse_key( + AesNI_Aes192_Key* dest, + const char* src, + AesNI_ErrorDetails* err_details); + +AesNI_StatusCode aesni_aes256_parse_key( + AesNI_Aes256_Key* dest, + const char* src, + AesNI_ErrorDetails* err_details); + typedef struct { AesNI_Block128 keys[11]; @@ -36,17 +152,17 @@ typedef struct AesNI_Aes256_RoundKeys; void __fastcall aesni_aes128_expand_key_( - AesNI_Block128 key, + AesNI_Aes_Block key, AesNI_Aes128_RoundKeys* encryption_keys); void __fastcall aesni_aes192_expand_key_( - AesNI_Block128 key_lo, - AesNI_Block128 key_hi, + AesNI_Aes_Block key_lo, + AesNI_Aes_Block key_hi, AesNI_Aes192_RoundKeys* encryption_keys); void __fastcall aesni_aes256_expand_key_( - AesNI_Block128 key_lo, - AesNI_Block128 key_hi, + AesNI_Aes_Block key_lo, + AesNI_Aes_Block key_hi, AesNI_Aes256_RoundKeys* encryption_keys); void __fastcall aesni_aes128_derive_decryption_keys_( @@ -61,28 +177,28 @@ 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, +AesNI_Aes_Block __fastcall aesni_aes128_encrypt_block_( + AesNI_Aes_Block plaintext, const AesNI_Aes128_RoundKeys*); -AesNI_Block128 __fastcall aesni_aes192_encrypt_block_( - AesNI_Block128 plaintext, +AesNI_Aes_Block __fastcall aesni_aes192_encrypt_block_( + AesNI_Aes_Block plaintext, const AesNI_Aes192_RoundKeys*); -AesNI_Block128 __fastcall aesni_aes256_encrypt_block_( - AesNI_Block128 plaintext, +AesNI_Aes_Block __fastcall aesni_aes256_encrypt_block_( + AesNI_Aes_Block plaintext, const AesNI_Aes256_RoundKeys*); -AesNI_Block128 __fastcall aesni_aes128_decrypt_block_( - AesNI_Block128 ciphertext, +AesNI_Aes_Block __fastcall aesni_aes128_decrypt_block_( + AesNI_Aes_Block ciphertext, const AesNI_Aes128_RoundKeys*); -AesNI_Block128 __fastcall aesni_aes192_decrypt_block_( - AesNI_Block128 ciphertext, +AesNI_Aes_Block __fastcall aesni_aes192_decrypt_block_( + AesNI_Aes_Block ciphertext, const AesNI_Aes192_RoundKeys*); -AesNI_Block128 __fastcall aesni_aes256_decrypt_block_( - AesNI_Block128 ciphertext, +AesNI_Aes_Block __fastcall aesni_aes256_decrypt_block_( + AesNI_Aes_Block ciphertext, const AesNI_Aes256_RoundKeys*); /** @@ -92,12 +208,12 @@ AesNI_Block128 __fastcall aesni_aes256_decrypt_block_( * \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, + const AesNI_Aes128_Key* key, AesNI_Aes128_RoundKeys* encryption_keys) { assert(encryption_keys); - aesni_aes128_expand_key_(key, encryption_keys); + aesni_aes128_expand_key_(key->key, encryption_keys); } /** @@ -124,8 +240,8 @@ static __inline void __fastcall aesni_aes128_derive_decryption_keys( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ecb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_encrypt_block_ecb( + AesNI_Aes_Block plaintext, const AesNI_Aes128_RoundKeys* encryption_keys) { assert(encryption_keys); @@ -141,8 +257,8 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ecb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ecb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_decrypt_block_ecb( + AesNI_Aes_Block ciphertext, const AesNI_Aes128_RoundKeys* decryption_keys) { assert(decryption_keys); @@ -160,16 +276,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ecb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_cbc( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_encrypt_block_cbc( + AesNI_Aes_Block plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block ciphertext = aesni_aes128_encrypt_block_(aesni_xor_block128(plaintext, init_vector), encryption_keys); *next_init_vector = ciphertext; return ciphertext; } @@ -184,16 +300,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_cbc( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_cbc( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_decrypt_block_cbc( + AesNI_Aes_Block ciphertext, const AesNI_Aes128_RoundKeys* decryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block plaintext = aesni_xor_block128(aesni_aes128_decrypt_block_(ciphertext, decryption_keys), init_vector); *next_init_vector = ciphertext; return plaintext; } @@ -208,16 +324,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_cbc( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_cfb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_encrypt_block_cfb( + AesNI_Aes_Block plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block ciphertext = aesni_xor_block128(aesni_aes128_encrypt_block_(init_vector, encryption_keys), plaintext); *next_init_vector = ciphertext; return ciphertext; } @@ -232,16 +348,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_cfb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_cfb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_decrypt_block_cfb( + AesNI_Aes_Block ciphertext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block plaintext = aesni_xor_block128(aesni_aes128_encrypt_block_(init_vector, encryption_keys), ciphertext); *next_init_vector = ciphertext; return plaintext; } @@ -256,16 +372,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_cfb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ofb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_encrypt_block_ofb( + AesNI_Aes_Block plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* next_init_vector) { assert(encryption_keys); assert(next_init_vector); - AesNI_Block128 tmp = aesni_aes128_encrypt_block_(init_vector, encryption_keys); + AesNI_Aes_Block tmp = aesni_aes128_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, plaintext); } @@ -280,16 +396,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ofb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ofb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_decrypt_block_ofb( + AesNI_Aes_Block ciphertext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* next_init_vector) { assert(encryption_keys); assert(next_init_vector); - AesNI_Block128 tmp = aesni_aes128_encrypt_block_(init_vector, encryption_keys); + AesNI_Aes_Block tmp = aesni_aes128_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, ciphertext); } @@ -304,17 +420,17 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ofb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ctr( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_encrypt_block_ctr( + AesNI_Aes_Block plaintext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, + AesNI_Aes_Block init_vector, int counter) { assert(encryption_keys); - init_vector = aesni_le2be128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); - init_vector = aesni_be2le128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); return aesni_xor_block128(plaintext, aesni_aes128_encrypt_block_(init_vector, encryption_keys)); } @@ -329,17 +445,17 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_encrypt_block_ctr( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ctr( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes128_decrypt_block_ctr( + AesNI_Aes_Block ciphertext, const AesNI_Aes128_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, + AesNI_Aes_Block init_vector, int counter) { assert(encryption_keys); - init_vector = aesni_le2be128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); - init_vector = aesni_be2le128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); return aesni_xor_block128(ciphertext, aesni_aes128_encrypt_block_(init_vector, encryption_keys)); } @@ -351,7 +467,7 @@ static __inline AesNI_Block128 __fastcall aesni_aes128_decrypt_block_ctr( * \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, + const AesNI_Aes192_Key* key, AesNI_Aes192_RoundKeys* encryption_keys) { assert(key); @@ -384,8 +500,8 @@ static __inline void __fastcall aesni_aes192_derive_decryption_keys( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ecb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_encrypt_block_ecb( + AesNI_Aes_Block plaintext, const AesNI_Aes192_RoundKeys* encryption_keys) { assert(encryption_keys); @@ -401,8 +517,8 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ecb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ecb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_decrypt_block_ecb( + AesNI_Aes_Block ciphertext, const AesNI_Aes192_RoundKeys* decryption_keys) { assert(decryption_keys); @@ -420,16 +536,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ecb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_cbc( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_encrypt_block_cbc( + AesNI_Aes_Block plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block ciphertext = aesni_aes192_encrypt_block_(aesni_xor_block128(plaintext, init_vector), encryption_keys); *next_init_vector = ciphertext; return ciphertext; } @@ -444,16 +560,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_cbc( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_cbc( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_decrypt_block_cbc( + AesNI_Aes_Block ciphertext, const AesNI_Aes192_RoundKeys* decryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block plaintext = aesni_xor_block128(aesni_aes192_decrypt_block_(ciphertext, decryption_keys), init_vector); *next_init_vector = ciphertext; return plaintext; } @@ -468,16 +584,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_cbc( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_cfb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_encrypt_block_cfb( + AesNI_Aes_Block plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block ciphertext = aesni_xor_block128(aesni_aes192_encrypt_block_(init_vector, encryption_keys), plaintext); *next_init_vector = ciphertext; return ciphertext; } @@ -492,16 +608,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_cfb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_cfb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_decrypt_block_cfb( + AesNI_Aes_Block ciphertext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block plaintext = aesni_xor_block128(aesni_aes192_encrypt_block_(init_vector, encryption_keys), ciphertext); *next_init_vector = ciphertext; return plaintext; } @@ -516,16 +632,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_cfb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ofb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_encrypt_block_ofb( + AesNI_Aes_Block plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* next_init_vector) { assert(encryption_keys); assert(next_init_vector); - AesNI_Block128 tmp = aesni_aes192_encrypt_block_(init_vector, encryption_keys); + AesNI_Aes_Block tmp = aesni_aes192_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, plaintext); } @@ -540,16 +656,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ofb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ofb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_decrypt_block_ofb( + AesNI_Aes_Block ciphertext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* next_init_vector) { assert(encryption_keys); assert(next_init_vector); - AesNI_Block128 tmp = aesni_aes192_encrypt_block_(init_vector, encryption_keys); + AesNI_Aes_Block tmp = aesni_aes192_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, ciphertext); } @@ -564,17 +680,17 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ofb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ctr( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_encrypt_block_ctr( + AesNI_Aes_Block plaintext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, + AesNI_Aes_Block init_vector, int counter) { assert(encryption_keys); - init_vector = aesni_le2be128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); - init_vector = aesni_be2le128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); return aesni_xor_block128(plaintext, aesni_aes192_encrypt_block_(init_vector, encryption_keys)); } @@ -589,17 +705,17 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_encrypt_block_ctr( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ctr( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes192_decrypt_block_ctr( + AesNI_Aes_Block ciphertext, const AesNI_Aes192_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, + AesNI_Aes_Block init_vector, int counter) { assert(encryption_keys); - init_vector = aesni_le2be128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); - init_vector = aesni_be2le128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); return aesni_xor_block128(ciphertext, aesni_aes192_encrypt_block_(init_vector, encryption_keys)); } @@ -611,7 +727,7 @@ static __inline AesNI_Block128 __fastcall aesni_aes192_decrypt_block_ctr( * \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, + const AesNI_Aes256_Key* key, AesNI_Aes256_RoundKeys* encryption_keys) { assert(key); @@ -644,8 +760,8 @@ static __inline void __fastcall aesni_aes256_derive_decryption_keys( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ecb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_encrypt_block_ecb( + AesNI_Aes_Block plaintext, const AesNI_Aes256_RoundKeys* encryption_keys) { assert(encryption_keys); @@ -661,8 +777,8 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ecb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ecb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_decrypt_block_ecb( + AesNI_Aes_Block ciphertext, const AesNI_Aes256_RoundKeys* decryption_keys) { assert(decryption_keys); @@ -680,16 +796,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ecb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_cbc( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_encrypt_block_cbc( + AesNI_Aes_Block plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block ciphertext = aesni_aes256_encrypt_block_(aesni_xor_block128(plaintext, init_vector), encryption_keys); *next_init_vector = ciphertext; return ciphertext; } @@ -704,16 +820,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_cbc( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_cbc( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_decrypt_block_cbc( + AesNI_Aes_Block ciphertext, const AesNI_Aes256_RoundKeys* decryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block plaintext = aesni_xor_block128(aesni_aes256_decrypt_block_(ciphertext, decryption_keys), init_vector); *next_init_vector = ciphertext; return plaintext; } @@ -728,16 +844,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_cbc( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_cfb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_encrypt_block_cfb( + AesNI_Aes_Block plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block ciphertext = aesni_xor_block128(aesni_aes256_encrypt_block_(init_vector, encryption_keys), plaintext); *next_init_vector = ciphertext; return ciphertext; } @@ -752,16 +868,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_cfb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_cfb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_decrypt_block_cfb( + AesNI_Aes_Block ciphertext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* 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); + AesNI_Aes_Block plaintext = aesni_xor_block128(aesni_aes256_encrypt_block_(init_vector, encryption_keys), ciphertext); *next_init_vector = ciphertext; return plaintext; } @@ -776,16 +892,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_cfb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ofb( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_encrypt_block_ofb( + AesNI_Aes_Block plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* next_init_vector) { assert(encryption_keys); assert(next_init_vector); - AesNI_Block128 tmp = aesni_aes256_encrypt_block_(init_vector, encryption_keys); + AesNI_Aes_Block tmp = aesni_aes256_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, plaintext); } @@ -800,16 +916,16 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ofb( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ofb( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_decrypt_block_ofb( + AesNI_Aes_Block ciphertext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, - AesNI_Block128* next_init_vector) + AesNI_Aes_Block init_vector, + AesNI_Aes_Block* next_init_vector) { assert(encryption_keys); assert(next_init_vector); - AesNI_Block128 tmp = aesni_aes256_encrypt_block_(init_vector, encryption_keys); + AesNI_Aes_Block tmp = aesni_aes256_encrypt_block_(init_vector, encryption_keys); *next_init_vector = tmp; return aesni_xor_block128(tmp, ciphertext); } @@ -824,17 +940,17 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ofb( * * \return The encrypted 128-bit ciphertext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ctr( - AesNI_Block128 plaintext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_encrypt_block_ctr( + AesNI_Aes_Block plaintext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, + AesNI_Aes_Block init_vector, int counter) { assert(encryption_keys); - init_vector = aesni_le2be128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); - init_vector = aesni_be2le128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); return aesni_xor_block128(plaintext, aesni_aes256_encrypt_block_(init_vector, encryption_keys)); } @@ -849,17 +965,17 @@ static __inline AesNI_Block128 __fastcall aesni_aes256_encrypt_block_ctr( * * \return The decrypted 128-bit plaintext. */ -static __inline AesNI_Block128 __fastcall aesni_aes256_decrypt_block_ctr( - AesNI_Block128 ciphertext, +static __inline AesNI_Aes_Block __fastcall aesni_aes256_decrypt_block_ctr( + AesNI_Aes_Block ciphertext, const AesNI_Aes256_RoundKeys* encryption_keys, - AesNI_Block128 init_vector, + AesNI_Aes_Block init_vector, int counter) { assert(encryption_keys); - init_vector = aesni_le2be128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); init_vector = _mm_add_epi32(init_vector, aesni_make_block128(0, 0, 0, counter)); - init_vector = aesni_be2le128(init_vector); + init_vector = aesni_reverse_bytes_block128(init_vector); return aesni_xor_block128(ciphertext, aesni_aes256_encrypt_block_(init_vector, encryption_keys)); } diff --git a/include/aesni/box_aes.h b/include/aesni/box_aes.h index 391f13e..98de721 100644 --- a/include/aesni/box_aes.h +++ b/include/aesni/box_aes.h @@ -25,7 +25,7 @@ static __inline AesNI_StatusCode aesni_box_derive_params_aes128( AesNI_ErrorDetails* err_details) { aesni_aes128_expand_key_( - algorithm_params->aes128_key, + algorithm_params->aes128_key.key, &encrypt_params->aes128_encryption_keys); aesni_aes128_derive_decryption_keys_( &encrypt_params->aes128_encryption_keys, diff --git a/include/aesni/box_data.h b/include/aesni/box_data.h index 160cf34..732f714 100644 --- a/include/aesni/box_data.h +++ b/include/aesni/box_data.h @@ -17,9 +17,9 @@ extern "C" typedef union { - AesNI_Block128 aes128_key; - AesNI_Block192 aes192_key; - AesNI_Block256 aes256_key; + AesNI_Aes128_Key aes128_key; + AesNI_Aes192_Key aes192_key; + AesNI_Aes256_Key aes256_key; } AesNI_BoxAlgorithmParams; @@ -59,7 +59,7 @@ AesNI_BoxDecryptionParams; typedef union { - AesNI_Block128 aes_block; + AesNI_Aes_Block aes_block; } AesNI_BoxBlock; diff --git a/include/aesni/data.h b/include/aesni/data.h index a6dc71f..381a32a 100644 --- a/include/aesni/data.h +++ b/include/aesni/data.h @@ -122,158 +122,11 @@ static __inline AesNI_Block128 __fastcall aesni_make_block128( 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; -} - -static __inline AesNI_Block128 __fastcall aesni_reverse_byte_order128(AesNI_Block128 block) +static __inline AesNI_Block128 __fastcall aesni_reverse_bytes_block128(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_StatusCode aesni_format_block128(AesNI_BlockString128*, const AesNI_Block128*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_format_block192(AesNI_BlockString192*, const AesNI_Block192*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_format_block256(AesNI_BlockString256*, const AesNI_Block256*, AesNI_ErrorDetails*); - -typedef struct { char str[49]; } AesNI_BlockMatrixString128; -typedef struct { char str[73]; } AesNI_BlockMatrixString192; -typedef struct { char str[97]; } AesNI_BlockMatrixString256; - -AesNI_StatusCode aesni_format_block128_as_matrix(AesNI_BlockMatrixString128*, const AesNI_Block128*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_format_block192_as_matrix(AesNI_BlockMatrixString192*, const AesNI_Block192*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_format_block256_as_matrix(AesNI_BlockMatrixString256*, const AesNI_Block256*, AesNI_ErrorDetails*); - -AesNI_StatusCode aesni_print_block128(const AesNI_Block128*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_print_block192(const AesNI_Block192*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_print_block256(const AesNI_Block256*, AesNI_ErrorDetails*); - -AesNI_StatusCode aesni_print_block128_as_matrix(const AesNI_Block128*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_print_block192_as_matrix(const AesNI_Block192*, AesNI_ErrorDetails*); -AesNI_StatusCode aesni_print_block256_as_matrix(const AesNI_Block256*, AesNI_ErrorDetails*); - -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 |