esp-idf/components/hal/test_apps/crypto/main/mpi/test_mpi.c

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/*
* SPDX-FileCopyrightText: 2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Unlicense OR CC0-1.0
*/
#include <stdio.h>
#include <string.h>
#include "esp_private/esp_crypto_lock_internal.h"
#include "esp_log.h"
#include "esp_heap_caps.h"
#include "memory_checks.h"
#include "unity_fixture.h"
#if CONFIG_IDF_TARGET_ESP32
#define ESP_MPI_USE_MONT_EXP
#endif
#include "hal/mpi_hal.h"
#include "hal/mpi_ll.h"
#include "mpi_params.h"
#define _DEBUG_ 0
static void esp_mpi_enable_hardware_hw_op( void )
{
/* Enable RSA hardware */
MPI_RCC_ATOMIC() {
mpi_ll_enable_bus_clock(true);
mpi_ll_reset_register();
}
mpi_hal_enable_hardware_hw_op();
}
static void esp_mpi_disable_hardware_hw_op( void )
{
mpi_hal_disable_hardware_hw_op();
/* Disable RSA hardware */
MPI_RCC_ATOMIC() {
mpi_ll_enable_bus_clock(false);
}
}
static void mpi_mul_mpi_mod_hw_op(void)
{
esp_mpi_enable_hardware_hw_op();
for(int i = 0; i < TEST_CASES_NUM; i++){
#if CONFIG_IDF_TARGET_ESP32
mpi_hal_set_mode((test_cases_num_words[i] / 16) - 1);
#else
mpi_hal_set_mode(test_cases_num_words[i] - 1);
#endif
/* Load M, X, Rinv, Mprime (Mprime is mod 2^32) */
mpi_hal_write_to_mem_block(MPI_PARAM_M, 0, test_cases_M_p[i], test_cases_M_n[i], test_cases_num_words[i]);
mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, test_cases_X_p[i], test_cases_X_n[i], test_cases_num_words[i]);
#if !CONFIG_IDF_TARGET_ESP32
mpi_hal_write_to_mem_block(MPI_PARAM_Y, 0, test_cases_Y_p[i], test_cases_Y_n[i], test_cases_num_words[i]);
#endif
mpi_hal_write_to_mem_block(MPI_PARAM_Z, 0, test_cases_Rinv_p[i], test_cases_Rinv_n[i], test_cases_num_words[i]);
mpi_hal_write_m_prime(test_cases_Mprime[i]);
#if CONFIG_IDF_TARGET_ESP32
mpi_hal_start_op(MPI_MULT);
mpi_hal_wait_op_complete();
/* execute second stage */
/* Load Y to X input memory block, rerun */
mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, test_cases_Y_p[i], test_cases_Y_n[i], test_cases_num_words[i]);
mpi_hal_start_op(MPI_MULT);
#else
mpi_hal_start_op(MPI_MODMULT);
#endif
uint32_t* Z_p = (uint32_t*)heap_caps_calloc(test_cases_Z_words[i], sizeof(uint32_t), MALLOC_CAP_INTERNAL);
mpi_hal_read_result_hw_op(Z_p, test_cases_Z_words[i], test_cases_Z_words[i]);
printf("Test Case %d: ", i+1);
#if _DEBUG_
printf("\n");
ESP_LOG_BUFFER_HEX("Expected Z:", test_cases_Z_p[i], test_cases_Z_words[i]*4);
ESP_LOG_BUFFER_HEX("Got Z:", Z_p, test_cases_Z_words[i]*4);
#endif
TEST_ASSERT_EQUAL_HEX32_ARRAY_MESSAGE(test_cases_Z_p[i], Z_p, test_cases_Z_words[i], "Result");
printf("PASS\n");
heap_caps_free(Z_p);
}
esp_mpi_disable_hardware_hw_op();
}
static void mpi_exp_mpi_mod_hw_op(void)
{
for (int i = 0; i < EXP_TEST_CASES_NUM; i++) {
if (i == 14 || i == 16 || i == 18 || i == 22) // cases when Y == 0 (in Z = X ^ Y mod M) should be handled in the software level
continue;
#ifdef ESP_MPI_USE_MONT_EXP // CONFIG_IDF_TARGET_ESP32
printf("Support for montgomery exponentiation to be added.\n");
break;
#else
esp_mpi_enable_hardware_hw_op();
mpi_hal_set_mode(exp_test_cases_num_words[i] - 1);
mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, exp_test_cases_X_p[i], exp_test_cases_X_n[i], exp_test_cases_num_words[i]);
mpi_hal_write_to_mem_block(MPI_PARAM_Y, 0, exp_test_cases_Y_p[i], exp_test_cases_Y_n[i], exp_test_cases_num_words[i]);
mpi_hal_write_to_mem_block(MPI_PARAM_M, 0, exp_test_cases_M_p[i], exp_test_cases_M_n[i], exp_test_cases_num_words[i]);
mpi_hal_write_to_mem_block(MPI_PARAM_Z, 0, exp_test_cases_Rinv_p[i], exp_test_cases_Rinv_n[i], exp_test_cases_num_words[i]);
mpi_hal_write_m_prime(exp_test_cases_Mprime[i]);
/* Enable acceleration options */
mpi_hal_enable_constant_time(false);
mpi_hal_enable_search(true);
mpi_hal_set_search_position(exp_test_cases_y_bits[i] - 1);
/* Execute first stage montgomery multiplication */
mpi_hal_start_op(MPI_MODEXP);
mpi_hal_enable_search(false);
#endif
uint32_t* Z_p = (uint32_t*)heap_caps_calloc(exp_test_cases_m_words[i], sizeof(uint32_t), MALLOC_CAP_INTERNAL);
/* Read back the result */
mpi_hal_read_result_hw_op(Z_p, exp_test_cases_m_words[i], exp_test_cases_m_words[i]);
esp_mpi_disable_hardware_hw_op();
printf("Test Case %d: ", i+1);
#if _DEBUG_
printf("\n");
ESP_LOG_BUFFER_HEX("Expected Z:", test_cases_Z_p[i], test_cases_Z_words[i]*4);
ESP_LOG_BUFFER_HEX("Got Z:", Z_p, test_cases_Z_words[i]*4);
#endif
TEST_ASSERT_EQUAL_HEX32_ARRAY_MESSAGE(exp_test_cases_Z_p[i], Z_p, exp_test_cases_m_words[i], "Result");
printf("PASS\n");
heap_caps_free(Z_p);
}
}
TEST_GROUP(mpi);
TEST_SETUP(mpi)
{
test_utils_record_free_mem();
TEST_ESP_OK(test_utils_set_leak_level(0, ESP_LEAK_TYPE_CRITICAL, ESP_COMP_LEAK_GENERAL));
}
TEST_TEAR_DOWN(mpi)
{
test_utils_finish_and_evaluate_leaks(test_utils_get_leak_level(ESP_LEAK_TYPE_WARNING, ESP_COMP_LEAK_ALL),
test_utils_get_leak_level(ESP_LEAK_TYPE_CRITICAL, ESP_COMP_LEAK_ALL));
}
TEST(mpi, mpi_multiplication)
{
mpi_mul_mpi_mod_hw_op();
}
TEST(mpi, mpi_exponentiation)
{
mpi_exp_mpi_mod_hw_op();
}
TEST_GROUP_RUNNER(mpi)
{
RUN_TEST_CASE(mpi, mpi_multiplication);
RUN_TEST_CASE(mpi, mpi_exponentiation);
}