investigating UART crash
Dependencies: mbed LoRaWAN-lib_publishing_testing_UART_bug SingleFrequencyLora
Fork of simple-demo-76_revised_20171113 by
Diff: system/crypto/aes.h
- Revision:
- 1:352f608c3337
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/system/crypto/aes.h Thu Nov 26 12:59:52 2015 +0000 @@ -0,0 +1,160 @@ +/* + --------------------------------------------------------------------------- + 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