Simple LoRaWAN Demo (SX1272 Radio)
Dependencies: mbed LoRaWAN-lib SX1272Lib
Fork of LoRaWAN-demo-72 by
system/crypto/aes.h
- Committer:
- mluis
- Date:
- 2016-01-07
- Revision:
- 0:45496a70a8a5
File content as of revision 0:45496a70a8a5:
/* --------------------------------------------------------------------------- Copyright (c) 1998-2008, Brian Gladman, Worcester, UK. All rights reserved. LICENSE TERMS The redistribution and use of this software (with or without changes) is allowed without the payment of fees or royalties provided that: 1. source code distributions include the above copyright notice, this list of conditions and the following disclaimer; 2. binary distributions include the above copyright notice, this list of conditions and the following disclaimer in their documentation; 3. the name of the copyright holder is not used to endorse products built using this software without specific written permission. DISCLAIMER This software is provided 'as is' with no explicit or implied warranties in respect of its properties, including, but not limited to, correctness and/or fitness for purpose. --------------------------------------------------------------------------- Issue 09/09/2006 This is an AES implementation that uses only 8-bit byte operations on the cipher state. */ #ifndef AES_H #define AES_H #if 1 # define AES_ENC_PREKEYED /* AES encryption with a precomputed key schedule */ #endif #if 0 # define AES_DEC_PREKEYED /* AES decryption with a precomputed key schedule */ #endif #if 0 # define AES_ENC_128_OTFK /* AES encryption with 'on the fly' 128 bit keying */ #endif #if 0 # define AES_DEC_128_OTFK /* AES decryption with 'on the fly' 128 bit keying */ #endif #if 0 # define AES_ENC_256_OTFK /* AES encryption with 'on the fly' 256 bit keying */ #endif #if 0 # define AES_DEC_256_OTFK /* AES decryption with 'on the fly' 256 bit keying */ #endif #define N_ROW 4 #define N_COL 4 #define N_BLOCK (N_ROW * N_COL) #define N_MAX_ROUNDS 14 typedef uint8_t return_type; /* Warning: The key length for 256 bit keys overflows a byte (see comment below) */ typedef uint8_t length_type; typedef struct { uint8_t ksch[(N_MAX_ROUNDS + 1) * N_BLOCK]; uint8_t rnd; } aes_context; /* The following calls are for a precomputed key schedule NOTE: If the length_type used for the key length is an unsigned 8-bit character, a key length of 256 bits must be entered as a length in bytes (valid inputs are hence 128, 192, 16, 24 and 32). */ #if defined( AES_ENC_PREKEYED ) || defined( AES_DEC_PREKEYED ) return_type aes_set_key( const uint8_t key[], length_type keylen, aes_context ctx[1] ); #endif #if defined( AES_ENC_PREKEYED ) return_type aes_encrypt( const uint8_t in[N_BLOCK], uint8_t out[N_BLOCK], const aes_context ctx[1] ); return_type aes_cbc_encrypt( const uint8_t *in, uint8_t *out, int32_t n_block, uint8_t iv[N_BLOCK], const aes_context ctx[1] ); #endif #if defined( AES_DEC_PREKEYED ) return_type aes_decrypt( const uint8_t in[N_BLOCK], uint8_t out[N_BLOCK], const aes_context ctx[1] ); return_type aes_cbc_decrypt( const uint8_t *in, uint8_t *out, int32_t n_block, uint8_t iv[N_BLOCK], const aes_context ctx[1] ); #endif /* The following calls are for 'on the fly' keying. In this case the encryption and decryption keys are different. The encryption subroutines take a key in an array of bytes in key[L] where L is 16, 24 or 32 bytes for key lengths of 128, 192, and 256 bits respectively. They then encrypts the input data, in[] with this key and put the reult in the output array out[]. In addition, the second key array, o_key[L], is used to output the key that is needed by the decryption subroutine to reverse the encryption operation. The two key arrays can be the same array but in this case the original key will be overwritten. In the same way, the decryption subroutines output keys that can be used to reverse their effect when used for encryption. Only 128 and 256 bit keys are supported in these 'on the fly' modes. */ #if defined( AES_ENC_128_OTFK ) void aes_encrypt_128( const uint8_t in[N_BLOCK], uint8_t out[N_BLOCK], const uint8_t key[N_BLOCK], uint8_t o_key[N_BLOCK] ); #endif #if defined( AES_DEC_128_OTFK ) void aes_decrypt_128( const uint8_t in[N_BLOCK], uint8_t out[N_BLOCK], const uint8_t key[N_BLOCK], uint8_t o_key[N_BLOCK] ); #endif #if defined( AES_ENC_256_OTFK ) void aes_encrypt_256( const uint8_t in[N_BLOCK], uint8_t out[N_BLOCK], const uint8_t key[2 * N_BLOCK], uint8_t o_key[2 * N_BLOCK] ); #endif #if defined( AES_DEC_256_OTFK ) void aes_decrypt_256( const uint8_t in[N_BLOCK], uint8_t out[N_BLOCK], const uint8_t key[2 * N_BLOCK], uint8_t o_key[2 * N_BLOCK] ); #endif #endif