/* * SPDX-FileCopyrightText: 2020-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #include #include #include "soc/hwcrypto_reg.h" #include "hal/aes_types.h" #ifdef __cplusplus extern "C" { #endif /** * @brief State of AES accelerator, busy, idle or done * */ typedef enum { ESP_AES_STATE_IDLE = 0, /* AES accelerator is idle */ ESP_AES_STATE_BUSY, /* Transform in progress */ ESP_AES_STATE_DONE, /* Transform completed */ } esp_aes_state_t; /** * @brief Write the encryption/decryption key to hardware * * @param key Key to be written to the AES hardware * @param key_word_len Number of words in the key * * @return Number of bytes written to hardware, used for fault injection check */ static inline uint8_t aes_ll_write_key(const uint8_t *key, size_t key_word_len) { /* This variable is used for fault injection checks, so marked volatile to avoid optimisation */ volatile uint8_t key_in_hardware = 0; /* Memcpy to avoid potential unaligned access */ uint32_t key_word; for (int i = 0; i < key_word_len; i++) { memcpy(&key_word, key + 4 * i, 4); REG_WRITE(AES_KEY_BASE + i * 4, key_word); key_in_hardware += 4; } return key_in_hardware; } /** * @brief Sets the mode * * @param mode ESP_AES_ENCRYPT = 1, or ESP_AES_DECRYPT = 0 * @param key_bytes Number of bytes in the key */ static inline void aes_ll_set_mode(int mode, uint8_t key_bytes) { const uint32_t MODE_DECRYPT_BIT = 4; unsigned mode_reg_base = (mode == ESP_AES_ENCRYPT) ? 0 : MODE_DECRYPT_BIT; /* See TRM for the mapping between keylength and mode bit */ REG_WRITE(AES_MODE_REG, mode_reg_base + ((key_bytes / 8) - 2)); } /** * @brief Writes message block to AES hardware * * @param input Block to be written */ static inline void aes_ll_write_block(const void *input) { uint32_t input_word; for (int i = 0; i < AES_BLOCK_WORDS; i++) { memcpy(&input_word, (uint8_t*)input + 4 * i, 4); REG_WRITE(AES_TEXT_IN_BASE + i * 4, input_word); } } /** * @brief Read the AES block * * @param output the output of the transform, length = AES_BLOCK_BYTES */ static inline void aes_ll_read_block(void *output) { uint32_t output_word; const size_t REG_WIDTH = sizeof(uint32_t); for (size_t i = 0; i < AES_BLOCK_WORDS; i++) { output_word = REG_READ(AES_TEXT_OUT_BASE + (i * REG_WIDTH)); /* Memcpy to avoid potential unaligned access */ memcpy( (uint8_t*)output + i * 4, &output_word, sizeof(output_word)); } } /** * @brief Starts block transform * */ static inline void aes_ll_start_transform(void) { REG_WRITE(AES_TRIGGER_REG, 1); } /** * @brief Read state of AES accelerator * * @return esp_aes_state_t */ static inline esp_aes_state_t aes_ll_get_state(void) { return REG_READ(AES_STATE_REG); } /** * @brief Set mode of operation * * @note Only used for DMA transforms * * @param mode */ static inline void aes_ll_set_block_mode(esp_aes_mode_t mode) { REG_WRITE(AES_BLOCK_MODE_REG, mode); } /** * @brief Set AES-CTR counter to INC32 * * @note Only affects AES-CTR mode * */ static inline void aes_ll_set_inc(void) { REG_WRITE(AES_INC_SEL_REG, 0); } /** * @brief Release the DMA * */ static inline void aes_ll_dma_exit(void) { REG_WRITE(AES_DMA_EXIT_REG, 0); } /** * @brief Sets the number of blocks to be transformed * * @note Only used for DMA transforms * * @param num_blocks Number of blocks to transform */ static inline void aes_ll_set_num_blocks(size_t num_blocks) { REG_WRITE(AES_BLOCK_NUM_REG, num_blocks); } /* * Write IV to hardware iv registers */ static inline void aes_ll_set_iv(const uint8_t *iv) { uint32_t *reg_addr_buf = (uint32_t *)(AES_IV_BASE); uint32_t iv_word; for (int i = 0; i < IV_WORDS; i++ ) { /* Memcpy to avoid potential unaligned access */ memcpy(&iv_word, iv + 4 * i, sizeof(iv_word)); REG_WRITE(®_addr_buf[i], iv_word); } } /* * Read IV from hardware iv registers */ static inline void aes_ll_read_iv(uint8_t *iv) { uint32_t iv_word; const size_t REG_WIDTH = sizeof(uint32_t); for (size_t i = 0; i < IV_WORDS; i++) { iv_word = REG_READ(AES_IV_BASE + (i * REG_WIDTH)); /* Memcpy to avoid potential unaligned access */ memcpy(iv + i * 4, &iv_word, sizeof(iv_word)); } } /** * @brief Enable or disable DMA mode * * @param enable true to enable, false to disable. */ static inline void aes_ll_dma_enable(bool enable) { REG_WRITE(AES_DMA_ENABLE_REG, enable); } /** * @brief Enable or disable transform completed interrupt * * @param enable true to enable, false to disable. */ static inline void aes_ll_interrupt_enable(bool enable) { REG_WRITE(AES_INT_ENA_REG, enable); } /** * @brief Clears the interrupt * */ static inline void aes_ll_interrupt_clear(void) { REG_WRITE(AES_INT_CLEAR_REG, 1); } #ifdef __cplusplus } #endif