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trezor-firmware/crypto/aes/aes.h

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/*
---------------------------------------------------------------------------
Copyright (c) 1998-2013, Brian Gladman, Worcester, UK. All rights reserved.
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The redistribution and use of this software (with or without changes)
is allowed without the payment of fees or royalties provided that:
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source code distributions include the above copyright notice, this
list of conditions and the following disclaimer;
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binary distributions include the above copyright notice, this list
of conditions and the following disclaimer in their documentation.
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This software is provided 'as is' with no explicit or implied warranties
in respect of its operation, including, but not limited to, correctness
and fitness for purpose.
---------------------------------------------------------------------------
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Issue Date: 02/08/2018
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This file contains the definitions required to use AES in C. See aesopt.h
for optimisation details.
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*/
#ifndef _AES_H
#define _AES_H
#include <stdlib.h>
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#include <stdint.h>
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#define VOID_RETURN void
#define INT_RETURN int
#define ALIGN_OFFSET(x,n) (((intptr_t)(x)) & ((n) - 1))
#define ALIGN_FLOOR(x,n) ((uint8_t*)(x) - ( ((intptr_t)(x)) & ((n) - 1)))
#define ALIGN_CEIL(x,n) ((uint8_t*)(x) + (-((intptr_t)(x)) & ((n) - 1)))
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#if defined(__cplusplus)
extern "C"
{
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#endif
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// #define AES_128 /* if a fast 128 bit key scheduler is needed */
// #define AES_192 /* if a fast 192 bit key scheduler is needed */
#define AES_256 /* if a fast 256 bit key scheduler is needed */
// #define AES_VAR /* if variable key size scheduler is needed */
#if 1
# define AES_MODES /* if support is needed for modes in the C code */
#endif /* (these will use AES_NI if it is present) */
#if 0 /* add this to make direct calls to the AES_NI */
# /* implemented CBC and CTR modes available */
# define ADD_AESNI_MODE_CALLS
#endif
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/* The following must also be set in assembler files if being used */
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#define AES_ENCRYPT /* if support for encryption is needed */
#define AES_DECRYPT /* if support for decryption is needed */
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#define AES_BLOCK_SIZE_P2 4 /* AES block size as a power of 2 */
#define AES_BLOCK_SIZE (1 << AES_BLOCK_SIZE_P2) /* AES block size */
#define N_COLS 4 /* the number of columns in the state */
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/* The key schedule length is 11, 13 or 15 16-byte blocks for 128, */
/* 192 or 256-bit keys respectively. That is 176, 208 or 240 bytes */
/* or 44, 52 or 60 32-bit words. */
#if defined( AES_VAR ) || defined( AES_256 )
#define KS_LENGTH 60
#elif defined( AES_192 )
#define KS_LENGTH 52
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#else
#define KS_LENGTH 44
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#endif
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#define AES_RETURN INT_RETURN
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/* the character array 'inf' in the following structures is used */
/* to hold AES context information. This AES code uses cx->inf.b[0] */
/* to hold the number of rounds multiplied by 16. The other three */
/* elements can be used by code that implements additional modes */
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typedef union
{ uint32_t l;
uint8_t b[4];
} aes_inf;
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#ifdef _MSC_VER
# pragma warning( disable : 4324 )
#endif
#if defined(_MSC_VER) && defined(_WIN64)
#define ALIGNED_(x) __declspec(align(x))
#elif defined(__GNUC__) && defined(__x86_64__)
#define ALIGNED_(x) __attribute__ ((aligned(x)))
#else
#define ALIGNED_(x)
#endif
typedef struct ALIGNED_(16)
{ uint32_t ks[KS_LENGTH];
aes_inf inf;
} aes_encrypt_ctx;
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typedef struct ALIGNED_(16)
{ uint32_t ks[KS_LENGTH];
aes_inf inf;
} aes_decrypt_ctx;
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#ifdef _MSC_VER
# pragma warning( default : 4324 )
#endif
/* This routine must be called before first use if non-static */
/* tables are being used */
AES_RETURN aes_init(void);
/* Key lengths in the range 16 <= key_len <= 32 are given in bytes, */
/* those in the range 128 <= key_len <= 256 are given in bits */
#if defined( AES_ENCRYPT )
#if defined( AES_128 ) || defined( AES_VAR)
AES_RETURN aes_encrypt_key128(const unsigned char *key, aes_encrypt_ctx cx[1]);
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#endif
#if defined( AES_192 ) || defined( AES_VAR)
AES_RETURN aes_encrypt_key192(const unsigned char *key, aes_encrypt_ctx cx[1]);
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#endif
#if defined( AES_256 ) || defined( AES_VAR)
AES_RETURN aes_encrypt_key256(const unsigned char *key, aes_encrypt_ctx cx[1]);
#endif
#if defined( AES_VAR )
AES_RETURN aes_encrypt_key(const unsigned char *key, int key_len, aes_encrypt_ctx cx[1]);
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#endif
AES_RETURN aes_encrypt(const unsigned char *in, unsigned char *out, const aes_encrypt_ctx cx[1]);
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#endif
#if defined( AES_DECRYPT )
#if defined( AES_128 ) || defined( AES_VAR)
AES_RETURN aes_decrypt_key128(const unsigned char *key, aes_decrypt_ctx cx[1]);
#endif
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#if defined( AES_192 ) || defined( AES_VAR)
AES_RETURN aes_decrypt_key192(const unsigned char *key, aes_decrypt_ctx cx[1]);
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#endif
#if defined( AES_256 ) || defined( AES_VAR)
AES_RETURN aes_decrypt_key256(const unsigned char *key, aes_decrypt_ctx cx[1]);
#endif
#if defined( AES_VAR )
AES_RETURN aes_decrypt_key(const unsigned char *key, int key_len, aes_decrypt_ctx cx[1]);
#endif
AES_RETURN aes_decrypt(const unsigned char *in, unsigned char *out, const aes_decrypt_ctx cx[1]);
#endif
#if defined( AES_MODES )
/* Multiple calls to the following subroutines for multiple block */
/* ECB, CBC, CFB, OFB and CTR mode encryption can be used to handle */
/* long messages incrementally provided that the context AND the iv */
/* are preserved between all such calls. For the ECB and CBC modes */
/* each individual call within a series of incremental calls must */
/* process only full blocks (i.e. len must be a multiple of 16) but */
/* the CFB, OFB and CTR mode calls can handle multiple incremental */
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/* calls of any length. Each mode is reset when a new AES key is */
/* set but ECB needs no reset and CBC can be reset without setting */
/* a new key by setting a new IV value. To reset CFB, OFB and CTR */
/* without setting the key, aes_mode_reset() must be called and the */
/* IV must be set. NOTE: All these calls update the IV on exit so */
/* this has to be reset if a new operation with the same IV as the */
/* previous one is required (or decryption follows encryption with */
/* the same IV array). */
AES_RETURN aes_test_alignment_detection(unsigned int n);
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AES_RETURN aes_ecb_encrypt(const unsigned char *ibuf, unsigned char *obuf,
int len, const aes_encrypt_ctx cx[1]);
AES_RETURN aes_ecb_decrypt(const unsigned char *ibuf, unsigned char *obuf,
int len, const aes_decrypt_ctx cx[1]);
AES_RETURN aes_cbc_encrypt(const unsigned char *ibuf, unsigned char *obuf,
int len, unsigned char *iv, const aes_encrypt_ctx cx[1]);
AES_RETURN aes_cbc_decrypt(const unsigned char *ibuf, unsigned char *obuf,
int len, unsigned char *iv, const aes_decrypt_ctx cx[1]);
AES_RETURN aes_mode_reset(aes_encrypt_ctx cx[1]);
AES_RETURN aes_cfb_encrypt(const unsigned char *ibuf, unsigned char *obuf,
int len, unsigned char *iv, aes_encrypt_ctx cx[1]);
AES_RETURN aes_cfb_decrypt(const unsigned char *ibuf, unsigned char *obuf,
int len, unsigned char *iv, aes_encrypt_ctx cx[1]);
#define aes_ofb_encrypt aes_ofb_crypt
#define aes_ofb_decrypt aes_ofb_crypt
AES_RETURN aes_ofb_crypt(const unsigned char *ibuf, unsigned char *obuf,
int len, unsigned char *iv, aes_encrypt_ctx cx[1]);
typedef void cbuf_inc(unsigned char *cbuf);
#define aes_ctr_encrypt aes_ctr_crypt
#define aes_ctr_decrypt aes_ctr_crypt
AES_RETURN aes_ctr_crypt(const unsigned char *ibuf, unsigned char *obuf,
int len, unsigned char *cbuf, cbuf_inc ctr_inc, aes_encrypt_ctx cx[1]);
void aes_ctr_cbuf_inc(unsigned char *cbuf);
#endif
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#if defined(__cplusplus)
}
#endif
#endif