MCUX CLNS
MCUX Crypto Library Normal Secure
mcuxClEls_Hash_Sha256_One_Block_example.c

Example of SHA2-256 hashing using the ELS (CLNS component mcuxClEls)

/*--------------------------------------------------------------------------*/
/* Copyright 2020, 2022-2023 NXP */
/* */
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#include <mcuxClEls.h> // Interface to the entire mcuxClEls component
#include <mcuxClCore_FunctionIdentifiers.h> // Code flow protection
#include <mcuxClCore_Examples.h>
#include <mcuxClExample_ELS_Helper.h>
static uint8_t const sha256_padded_input[MCUXCLELS_HASH_BLOCK_SIZE_SHA_256] = {0x61U, 0x62U, 0x63U, 0x80U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00u, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x00U,
0x00U, 0x00U, 0x00U, 0x18U};
static uint8_t sha256_reference_digest[MCUXCLELS_HASH_OUTPUT_SIZE_SHA_256] = {0xBAU, 0x78U, 0x16U, 0xBFU,
0x8FU, 0x01U, 0xCFU, 0xEAU,
0x41U, 0x41U, 0x40U, 0xDEU,
0x5DU, 0xAEU, 0x22U, 0x23U,
0xB0U, 0x03U, 0x61U, 0xA3U,
0x96U, 0x17U, 0x7AU, 0x9CU,
0xB4U, 0x10U, 0xFFU, 0x61U,
0xF2U, 0x00U, 0x15U, 0xADU};
static uint8_t sha2_256_digest[MCUXCLELS_HASH_STATE_SIZE_SHA_256]; // MCUXCLELS_HASH_STATE_SIZE_SHA_256 has to be used as the mcuxClEls_Hash_Async do not perform the truncation of the hash state.
MCUXCLEXAMPLE_FUNCTION(mcuxClEls_Hash_Sha256_One_Block_example)
{
if(!mcuxClExample_Els_Init(MCUXCLELS_RESET_DO_NOT_CANCEL))
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
mcuxClEls_HashOption_t hash_options = {0U}; // Initialize a new configuration for the planned mcuxClEls_Hash_Async operation.
hash_options.bits.hashini = MCUXCLELS_HASH_INIT_ENABLE; // Configure that the mcuxClEls_Hash_Async operation shall initialized with the standard IV (Initialization Vector).
hash_options.bits.hashoe = MCUXCLELS_HASH_OUTPUT_ENABLE; // Configure the mcuxClEls_Hash_Async operation so that the hash digest is moved into memory at the end of the operation.
hash_options.bits.hashmd = MCUXCLELS_HASH_MODE_SHA_256; // Configure the mcuxClEls_Hash_Async operation so that the Sha2-256 algorithm is used.
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(result, token, mcuxClEls_Hash_Async( // Perform the hashing.
hash_options, // Set the prepared configuration.
sha256_padded_input, sizeof(sha256_padded_input), // Set the data to be hashed. Note that this data's length is a multiple of the block length, so no padding is required
sha2_256_digest // Output buffer, which the operation will write the hash digest to.
));
// mcuxClEls_Hash_Async is a flow-protected function: Check the protection token and the return value
{
return MCUXCLEXAMPLE_STATUS_ERROR; // Expect that no error occurred, meaning that the mcuxClEls_Hash_Async operation was started.
}
MCUX_CSSL_FP_FUNCTION_CALL_BEGIN(result, token, mcuxClEls_WaitForOperation(MCUXCLELS_ERROR_FLAGS_CLEAR)); // Wait for the mcuxClEls_Hash_Async operation to complete.
// mcuxClEls_WaitForOperation is a flow-protected function: Check the protection token and the return value
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
for (size_t i = 0; i < sizeof(sha256_reference_digest); i++)
{
{
return MCUXCLEXAMPLE_STATUS_ERROR; // Expect that the resulting hash digest matches our expected output
}
}
if(!mcuxClExample_Els_Disable())
{
return MCUXCLEXAMPLE_STATUS_ERROR;
}
return MCUXCLEXAMPLE_STATUS_OK;
}