2023-03-27 07:20:03 -04:00
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/*
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* SPDX-FileCopyrightText: 2023 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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2023-04-11 05:50:41 -04:00
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#include "esp_crypto_lock.h"
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2023-03-27 07:20:03 -04:00
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#include "bignum_impl.h"
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#include "mbedtls/bignum.h"
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2023-09-28 04:44:29 -04:00
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#include "esp_private/esp_crypto_lock_internal.h"
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2023-03-27 07:20:03 -04:00
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#include "hal/mpi_hal.h"
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2023-09-28 04:44:29 -04:00
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#include "hal/mpi_ll.h"
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2023-03-27 07:20:03 -04:00
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void esp_mpi_enable_hardware_hw_op( void )
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{
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esp_crypto_mpi_lock_acquire();
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/* Enable RSA hardware */
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2023-09-28 04:44:29 -04:00
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MPI_RCC_ATOMIC() {
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mpi_ll_enable_bus_clock(true);
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mpi_ll_reset_register();
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}
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2023-03-27 07:20:03 -04:00
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mpi_hal_enable_hardware_hw_op();
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}
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void esp_mpi_disable_hardware_hw_op( void )
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{
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mpi_hal_disable_hardware_hw_op();
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/* Disable RSA hardware */
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MPI_RCC_ATOMIC() {
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mpi_ll_enable_bus_clock(false);
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}
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2023-03-27 07:20:03 -04:00
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esp_crypto_mpi_lock_release();
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}
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size_t esp_mpi_hardware_words(size_t words)
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{
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return mpi_hal_calc_hardware_words(words);
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}
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void esp_mpi_interrupt_enable(bool enable)
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{
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mpi_hal_interrupt_enable(enable);
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}
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void esp_mpi_interrupt_clear(void)
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{
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mpi_hal_clear_interrupt();
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}
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/* Z = (X * Y) mod M */
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void esp_mpi_mul_mpi_mod_hw_op(const mbedtls_mpi *X, const mbedtls_mpi *Y, const mbedtls_mpi *M, const mbedtls_mpi *Rinv, mbedtls_mpi_uint Mprime, size_t num_words)
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{
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#if CONFIG_IDF_TARGET_ESP32
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/* "mode" register loaded with number of 512-bit blocks, minus 1 */
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mpi_hal_set_mode((num_words / 16) - 1);
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#else
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mpi_hal_set_mode(num_words - 1);
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#endif
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/* Load M, X, Rinv, Mprime (Mprime is mod 2^32) */
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mpi_hal_write_to_mem_block(MPI_PARAM_M, 0, M->MBEDTLS_PRIVATE(p), M->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, X->MBEDTLS_PRIVATE(p), X->MBEDTLS_PRIVATE(n), num_words);
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#if !CONFIG_IDF_TARGET_ESP32
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mpi_hal_write_to_mem_block(MPI_PARAM_Y, 0, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), num_words);
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#endif
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mpi_hal_write_to_mem_block(MPI_PARAM_Z, 0, Rinv->MBEDTLS_PRIVATE(p), Rinv->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_m_prime(Mprime);
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#if CONFIG_IDF_TARGET_ESP32
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mpi_hal_start_op(MPI_MULT);
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mpi_hal_wait_op_complete();
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/* execute second stage */
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/* Load Y to X input memory block, rerun */
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_start_op(MPI_MULT);
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#else
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mpi_hal_start_op(MPI_MODMULT);
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#endif
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}
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/* Z = X * Y */
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void esp_mpi_mul_mpi_hw_op(const mbedtls_mpi *X, const mbedtls_mpi *Y, size_t num_words)
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{
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/* Copy X (right-extended) & Y (left-extended) to memory block */
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, X->MBEDTLS_PRIVATE(p), X->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_to_mem_block(MPI_PARAM_Z, num_words * 4, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), num_words);
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/* NB: as Y is left-exte, we don't zero the bottom words_mult words of Y block.
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This is OK for now bec zeroing is done by hardware when we do esp_mpi_acquire_hardware().
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*/
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#if CONFIG_IDF_TARGET_ESP32
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mpi_hal_write_m_prime(0);
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/* "mode" register loaded with number of 512-bit blocks in result,
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plus 7 (for range 9-12). (this is ((N~ / 32) - 1) + 8))
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*/
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mpi_hal_set_mode(((num_words * 2) / 16) + 7);
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#else
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mpi_hal_set_mode(num_words * 2 - 1);
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#endif
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mpi_hal_start_op(MPI_MULT);
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}
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/* Special-case of mbedtls_mpi_mult_mpi(), where we use hardware montgomery mod
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multiplication to calculate an mbedtls_mpi_mult_mpi result where either
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A or B are >2048 bits so can't use the standard multiplication method.
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Result (number of words, based on A bits + B bits) must still be less than 4096 bits.
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This case is simpler than the general case modulo multiply of
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esp_mpi_mul_mpi_mod() because we can control the other arguments:
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* Modulus is chosen with M=(2^num_bits - 1) (ie M=R-1), so output
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* Mprime and Rinv are therefore predictable as follows:
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isn't actually modulo anything.
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Mprime 1
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Rinv 1
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(See RSA Accelerator section in Technical Reference for more about Mprime, Rinv)
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*/
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void esp_mpi_mult_mpi_failover_mod_mult_hw_op(const mbedtls_mpi *X, const mbedtls_mpi *Y, size_t num_words)
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{
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/* M = 2^num_words - 1, so block is entirely FF */
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for (int i = 0; i < num_words; i++) {
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mpi_hal_write_at_offset(MPI_PARAM_M, i * 4, UINT32_MAX);
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}
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/* Mprime = 1 */
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mpi_hal_write_m_prime(1);
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#if CONFIG_IDF_TARGET_ESP32
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/* "mode" register loaded with number of 512-bit blocks, minus 1 */
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mpi_hal_set_mode((num_words / 16) - 1);
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#else
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mpi_hal_set_mode(num_words - 1);
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#endif
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/* Load X & Y */
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, X->MBEDTLS_PRIVATE(p), X->MBEDTLS_PRIVATE(n), num_words);
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#if !CONFIG_IDF_TARGET_ESP32
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mpi_hal_write_to_mem_block(MPI_PARAM_Y, 0, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), num_words);
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#endif
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/* Rinv = 1, write first word */
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mpi_hal_write_rinv(1);
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/* Zero out rest of the Rinv words */
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for (int i = 1; i < num_words; i++) {
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mpi_hal_write_at_offset(MPI_PARAM_Z, i * 4, 0);
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}
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#if CONFIG_IDF_TARGET_ESP32
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mpi_hal_start_op(MPI_MULT);
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mpi_hal_wait_op_complete();
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_start_op(MPI_MULT);
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#else
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mpi_hal_start_op(MPI_MODMULT);
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#endif
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}
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#ifdef ESP_MPI_USE_MONT_EXP
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int esp_mont_hw_op(mbedtls_mpi *Z, const mbedtls_mpi *X, const mbedtls_mpi *Y, const mbedtls_mpi *M, mbedtls_mpi_uint Mprime, size_t hw_words, bool again)
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{
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// Note Z may be the same pointer as X or Y
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int ret = 0;
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// montgomery mult prepare
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if (again == false) {
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mpi_hal_write_to_mem_block(MPI_PARAM_M, 0, M->MBEDTLS_PRIVATE(p), M->MBEDTLS_PRIVATE(n), hw_words);
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mpi_hal_write_m_prime(Mprime);
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mpi_hal_set_mode((hw_words / 16) - 1);
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}
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, X->MBEDTLS_PRIVATE(p), X->MBEDTLS_PRIVATE(n), hw_words);
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mpi_hal_write_to_mem_block(MPI_PARAM_Z, 0, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), hw_words);
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mpi_hal_start_op(MPI_MULT);
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Z->MBEDTLS_PRIVATE(s) = 1; // The sign of Z will be = M->s (but M->s is always 1)
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MBEDTLS_MPI_CHK( mbedtls_mpi_grow(Z, hw_words) );
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/* Read back the result */
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mpi_hal_read_result_hw_op(Z->MBEDTLS_PRIVATE(p), Z->MBEDTLS_PRIVATE(n), hw_words);
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/* from HAC 14.36 - 3. If Z >= M then Z = Z - M */
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if (mbedtls_mpi_cmp_mpi(Z, M) >= 0) {
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MBEDTLS_MPI_CHK(mbedtls_mpi_sub_mpi(Z, Z, M));
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}
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cleanup:
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return ret;
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}
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#else
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/* Z = (X ^ Y) mod M
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*/
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void esp_mpi_exp_mpi_mod_hw_op(const mbedtls_mpi *X, const mbedtls_mpi *Y, const mbedtls_mpi *M, const mbedtls_mpi *Rinv, mbedtls_mpi_uint Mprime, size_t num_words)
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{
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size_t y_bits = mbedtls_mpi_bitlen(Y);
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mpi_hal_set_mode(num_words - 1);
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/* Load M, X, Rinv, Mprime (Mprime is mod 2^32) */
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mpi_hal_write_to_mem_block(MPI_PARAM_X, 0, X->MBEDTLS_PRIVATE(p), X->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_to_mem_block(MPI_PARAM_Y, 0, Y->MBEDTLS_PRIVATE(p), Y->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_to_mem_block(MPI_PARAM_M, 0, M->MBEDTLS_PRIVATE(p), M->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_to_mem_block(MPI_PARAM_Z, 0, Rinv->MBEDTLS_PRIVATE(p), Rinv->MBEDTLS_PRIVATE(n), num_words);
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mpi_hal_write_m_prime(Mprime);
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/* Enable acceleration options */
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mpi_hal_enable_constant_time(false);
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mpi_hal_enable_search(true);
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mpi_hal_set_search_position(y_bits - 1);
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/* Execute first stage montgomery multiplication */
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mpi_hal_start_op(MPI_MODEXP);
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mpi_hal_enable_search(false);
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}
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#endif //ESP_MPI_USE_MONT_EXP
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