// Copyright 2017-2018 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #pragma once #ifdef __cplusplus extern "C" { #endif #include #include "esp_err.h" #include "esp_log.h" #include "soc/soc_caps.h" #include "sdkconfig.h" #if CONFIG_IDF_TARGET_ESP32 #include "esp32/esp_efuse.h" #elif CONFIG_IDF_TARGET_ESP32S2 #include "esp32s2/esp_efuse.h" #elif CONFIG_IDF_TARGET_ESP32S3 #include "esp32s3/esp_efuse.h" #elif CONFIG_IDF_TARGET_ESP32C3 #include "esp32c3/esp_efuse.h" #endif #define ESP_ERR_EFUSE 0x1600 /*!< Base error code for efuse api. */ #define ESP_OK_EFUSE_CNT (ESP_ERR_EFUSE + 0x01) /*!< OK the required number of bits is set. */ #define ESP_ERR_EFUSE_CNT_IS_FULL (ESP_ERR_EFUSE + 0x02) /*!< Error field is full. */ #define ESP_ERR_EFUSE_REPEATED_PROG (ESP_ERR_EFUSE + 0x03) /*!< Error repeated programming of programmed bits is strictly forbidden. */ #define ESP_ERR_CODING (ESP_ERR_EFUSE + 0x04) /*!< Error while a encoding operation. */ #define ESP_ERR_NOT_ENOUGH_UNUSED_KEY_BLOCKS (ESP_ERR_EFUSE + 0x05) /*!< Error not enough unused key blocks available */ /** * @brief Type definition for an eFuse field */ typedef struct { esp_efuse_block_t efuse_block: 8; /**< Block of eFuse */ uint8_t bit_start; /**< Start bit [0..255] */ uint16_t bit_count; /**< Length of bit field [1..-]*/ } esp_efuse_desc_t; /** * @brief Reads bits from EFUSE field and writes it into an array. * * The number of read bits will be limited to the minimum value * from the description of the bits in "field" structure or "dst_size_bits" required size. * Use "esp_efuse_get_field_size()" function to determine the length of the field. * * @note Please note that reading in the batch mode does not show uncommitted changes. * * @param[in] field A pointer to the structure describing the fields of efuse. * @param[out] dst A pointer to array that will contain the result of reading. * @param[in] dst_size_bits The number of bits required to read. * If the requested number of bits is greater than the field, * the number will be limited to the field size. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. */ esp_err_t esp_efuse_read_field_blob(const esp_efuse_desc_t* field[], void* dst, size_t dst_size_bits); /** * @brief Read a single bit eFuse field as a boolean value. * * @note The value must exist and must be a single bit wide. If there is any possibility of an error * in the provided arguments, call esp_efuse_read_field_blob() and check the returned value instead. * * @note If assertions are enabled and the parameter is invalid, execution will abort * @note Please note that reading in the batch mode does not show uncommitted changes. * * @param[in] field A pointer to the structure describing the fields of efuse. * @return * - true: The field parameter is valid and the bit is set. * - false: The bit is not set, or the parameter is invalid and assertions are disabled. * */ bool esp_efuse_read_field_bit(const esp_efuse_desc_t *field[]); /** * @brief Reads bits from EFUSE field and returns number of bits programmed as "1". * * If the bits are set not sequentially, they will still be counted. * @note Please note that reading in the batch mode does not show uncommitted changes. * * @param[in] field A pointer to the structure describing the fields of efuse. * @param[out] out_cnt A pointer that will contain the number of programmed as "1" bits. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. */ esp_err_t esp_efuse_read_field_cnt(const esp_efuse_desc_t* field[], size_t* out_cnt); /** * @brief Writes array to EFUSE field. * * The number of write bits will be limited to the minimum value * from the description of the bits in "field" structure or "src_size_bits" required size. * Use "esp_efuse_get_field_size()" function to determine the length of the field. * After the function is completed, the writing registers are cleared. * @param[in] field A pointer to the structure describing the fields of efuse. * @param[in] src A pointer to array that contains the data for writing. * @param[in] src_size_bits The number of bits required to write. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_write_field_blob(const esp_efuse_desc_t* field[], const void* src, size_t src_size_bits); /** * @brief Writes a required count of bits as "1" to EFUSE field. * * If there are no free bits in the field to set the required number of bits to "1", * ESP_ERR_EFUSE_CNT_IS_FULL error is returned, the field will not be partially recorded. * After the function is completed, the writing registers are cleared. * @param[in] field A pointer to the structure describing the fields of efuse. * @param[in] cnt Required number of programmed as "1" bits. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_CNT_IS_FULL: Not all requested cnt bits is set. */ esp_err_t esp_efuse_write_field_cnt(const esp_efuse_desc_t* field[], size_t cnt); /** * @brief Write a single bit eFuse field to 1 * * For use with eFuse fields that are a single bit. This function will write the bit to value 1 if * it is not already set, or does nothing if the bit is already set. * * This is equivalent to calling esp_efuse_write_field_cnt() with the cnt parameter equal to 1, * except that it will return ESP_OK if the field is already set to 1. * * @param[in] field Pointer to the structure describing the efuse field. * * @return * - ESP_OK: The operation was successfully completed, or the bit was already set to value 1. * - ESP_ERR_INVALID_ARG: Error in the passed arugments, including if the efuse field is not 1 bit wide. */ esp_err_t esp_efuse_write_field_bit(const esp_efuse_desc_t* field[]); /** * @brief Sets a write protection for the whole block. * * After that, it is impossible to write to this block. * The write protection does not apply to block 0. * @param[in] blk Block number of eFuse. (EFUSE_BLK1, EFUSE_BLK2 and EFUSE_BLK3) * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_CNT_IS_FULL: Not all requested cnt bits is set. * - ESP_ERR_NOT_SUPPORTED: The block does not support this command. */ esp_err_t esp_efuse_set_write_protect(esp_efuse_block_t blk); /** * @brief Sets a read protection for the whole block. * * After that, it is impossible to read from this block. * The read protection does not apply to block 0. * @param[in] blk Block number of eFuse. (EFUSE_BLK1, EFUSE_BLK2 and EFUSE_BLK3) * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_CNT_IS_FULL: Not all requested cnt bits is set. * - ESP_ERR_NOT_SUPPORTED: The block does not support this command. */ esp_err_t esp_efuse_set_read_protect(esp_efuse_block_t blk); /** * @brief Returns the number of bits used by field. * * @param[in] field A pointer to the structure describing the fields of efuse. * * @return Returns the number of bits used by field. */ int esp_efuse_get_field_size(const esp_efuse_desc_t* field[]); /** * @brief Returns value of efuse register. * * This is a thread-safe implementation. * Example: EFUSE_BLK2_RDATA3_REG where (blk=2, num_reg=3) * @note Please note that reading in the batch mode does not show uncommitted changes. * * @param[in] blk Block number of eFuse. * @param[in] num_reg The register number in the block. * * @return Value of register */ uint32_t esp_efuse_read_reg(esp_efuse_block_t blk, unsigned int num_reg); /** * @brief Write value to efuse register. * * Apply a coding scheme if necessary. * This is a thread-safe implementation. * Example: EFUSE_BLK3_WDATA0_REG where (blk=3, num_reg=0) * @param[in] blk Block number of eFuse. * @param[in] num_reg The register number in the block. * @param[in] val Value to write. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. */ esp_err_t esp_efuse_write_reg(esp_efuse_block_t blk, unsigned int num_reg, uint32_t val); /** * @brief Return efuse coding scheme for blocks. * * Note: The coding scheme is applicable only to 1, 2 and 3 blocks. For 0 block, the coding scheme is always ``NONE``. * * @param[in] blk Block number of eFuse. * @return Return efuse coding scheme for blocks */ esp_efuse_coding_scheme_t esp_efuse_get_coding_scheme(esp_efuse_block_t blk); /** * @brief Read key to efuse block starting at the offset and the required size. * * @note Please note that reading in the batch mode does not show uncommitted changes. * * @param[in] blk Block number of eFuse. * @param[in] dst_key A pointer to array that will contain the result of reading. * @param[in] offset_in_bits Start bit in block. * @param[in] size_bits The number of bits required to read. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_read_block(esp_efuse_block_t blk, void* dst_key, size_t offset_in_bits, size_t size_bits); /** * @brief Write key to efuse block starting at the offset and the required size. * * @param[in] blk Block number of eFuse. * @param[in] src_key A pointer to array that contains the key for writing. * @param[in] offset_in_bits Start bit in block. * @param[in] size_bits The number of bits required to write. * * @return * - ESP_OK: The operation was successfully completed. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits */ esp_err_t esp_efuse_write_block(esp_efuse_block_t blk, const void* src_key, size_t offset_in_bits, size_t size_bits); /** * @brief Returns chip version from efuse * * @return chip version */ uint8_t esp_efuse_get_chip_ver(void); /** * @brief Returns chip package from efuse * * @return chip package */ uint32_t esp_efuse_get_pkg_ver(void); /** * @brief Permanently update values written to the efuse write registers * * After updating EFUSE_BLKx_WDATAx_REG registers with new values to * write, call this function to permanently write them to efuse. * * @note Setting bits in efuse is permanent, they cannot be unset. * * @note Due to this restriction you don't need to copy values to * Efuse write registers from the matching read registers, bits which * are set in the read register but unset in the matching write * register will be unchanged when new values are burned. * * @note This function is not threadsafe, if calling code updates * efuse values from multiple tasks then this is caller's * responsibility to serialise. * * After burning new efuses, the read registers are updated to match * the new efuse values. */ void esp_efuse_burn_new_values(void); /** * @brief Reset efuse write registers * * Efuse write registers are written to zero, to negate * any changes that have been staged here. * * @note This function is not threadsafe, if calling code updates * efuse values from multiple tasks then this is caller's * responsibility to serialise. */ void esp_efuse_reset(void); #ifdef CONFIG_IDF_TARGET_ESP32 /** * @brief Disable BASIC ROM Console via efuse * * By default, if booting from flash fails the ESP32 will boot a * BASIC console in ROM. * * Call this function (from bootloader or app) to permanently disable the console on this chip. * */ void esp_efuse_disable_basic_rom_console(void); #endif /** * @brief Disable ROM Download Mode via eFuse * * Permanently disables the ROM Download Mode feature. Once disabled, if the SoC is booted with * strapping pins set for ROM Download Mode then an error is printed instead. * * @note Not all SoCs support this option. An error will be returned if called on an ESP32 * with a silicon revision lower than 3, as these revisions do not support this option. * * @note If ROM Download Mode is already disabled, this function does nothing and returns success. * * @return * - ESP_OK If the eFuse was successfully burned, or had already been burned. * - ESP_ERR_NOT_SUPPORTED (ESP32 only) This SoC is not capable of disabling UART download mode * - ESP_ERR_INVALID_STATE (ESP32 only) This eFuse is write protected and cannot be written */ esp_err_t esp_efuse_disable_rom_download_mode(void); #if SOC_SUPPORTS_SECURE_DL_MODE /** * @brief Switch ROM Download Mode to Secure Download mode via eFuse * * Permanently enables Secure Download mode. This mode limits the use of ROM Download Mode functions * to simple flash read, write and erase operations, plus a command to return a summary of currently * enabled security features. * * @note If Secure Download mode is already enabled, this function does nothing and returns success. * * @note Disabling the ROM Download Mode also disables Secure Download Mode. * * @return * - ESP_OK If the eFuse was successfully burned, or had already been burned. * - ESP_ERR_INVALID_STATE ROM Download Mode has been disabled via eFuse, so Secure Download mode is unavailable. */ esp_err_t esp_efuse_enable_rom_secure_download_mode(void); #endif /** * @brief Write random data to efuse key block write registers * * @note Caller is responsible for ensuring efuse * block is empty and not write protected, before calling. * * @note Behaviour depends on coding scheme: a 256-bit key is * generated and written for Coding Scheme "None", a 192-bit key * is generated, extended to 256-bits by the Coding Scheme, * and then writtten for 3/4 Coding Scheme. * * @note This function does not burn the new values, caller should * call esp_efuse_burn_new_values() when ready to do this. * * @param blk_wdata0_reg Address of the first data write register * in the block */ void esp_efuse_write_random_key(uint32_t blk_wdata0_reg); /** * @brief Return secure_version from efuse field. * @return Secure version from efuse field */ uint32_t esp_efuse_read_secure_version(void); /** * @brief Check secure_version from app and secure_version and from efuse field. * * @param secure_version Secure version from app. * @return * - True: If version of app is equal or more then secure_version from efuse. */ bool esp_efuse_check_secure_version(uint32_t secure_version); /** * @brief Write efuse field by secure_version value. * * Update the secure_version value is available if the coding scheme is None. * Note: Do not use this function in your applications. This function is called as part of the other API. * * @param[in] secure_version Secure version from app. * @return * - ESP_OK: Successful. * - ESP_FAIL: secure version of app cannot be set to efuse field. * - ESP_ERR_NOT_SUPPORTED: Anti rollback is not supported with the 3/4 and Repeat coding scheme. */ esp_err_t esp_efuse_update_secure_version(uint32_t secure_version); /** * @brief Initializes variables: offset and size to simulate the work of an eFuse. * * Note: To simulate the work of an eFuse need to set CONFIG_BOOTLOADER_EFUSE_SECURE_VERSION_EMULATE option * and to add in the partition.csv file a line `efuse_em, data, efuse, , 0x2000,`. * * @param[in] offset The starting address of the partition where the eFuse data will be located. * @param[in] size The size of the partition. */ void esp_efuse_init(uint32_t offset, uint32_t size); /** * @brief Set the batch mode of writing fields. * * This mode allows you to write the fields in the batch mode when need to burn several efuses at one time. * To enable batch mode call begin() then perform as usually the necessary operations * read and write and at the end call commit() to actually burn all written efuses. * The batch mode can be used nested. The commit will be done by the last commit() function. * The number of begin() functions should be equal to the number of commit() functions. * * @note Please note that reading in the batch mode does not show uncommitted changes. * * Note: If batch mode is enabled by the first task, at this time the second task cannot write/read efuses. * The second task will wait for the first task to complete the batch operation. * * \code{c} * // Example of using the batch writing mode. * * // set the batch writing mode * esp_efuse_batch_write_begin(); * * // use any writing functions as usual * esp_efuse_write_field_blob(ESP_EFUSE_...); * esp_efuse_write_field_cnt(ESP_EFUSE_...); * esp_efuse_set_write_protect(EFUSE_BLKx); * esp_efuse_write_reg(EFUSE_BLKx, ...); * esp_efuse_write_block(EFUSE_BLKx, ...); * esp_efuse_write(ESP_EFUSE_1, 3); // ESP_EFUSE_1 == 1, here we write a new value = 3. The changes will be burn by the commit() function. * esp_efuse_read_...(ESP_EFUSE_1); // this function returns ESP_EFUSE_1 == 1 because uncommitted changes are not readable, it will be available only after commit. * ... * * // esp_efuse_batch_write APIs can be called recursively. * esp_efuse_batch_write_begin(); * esp_efuse_set_write_protect(EFUSE_BLKx); * esp_efuse_batch_write_commit(); // the burn will be skipped here, it will be done in the last commit(). * * ... * * // Write all of these fields to the efuse registers * esp_efuse_batch_write_commit(); * esp_efuse_read_...(ESP_EFUSE_1); // this function returns ESP_EFUSE_1 == 3. * * \endcode * * @return * - ESP_OK: Successful. */ esp_err_t esp_efuse_batch_write_begin(void); /** * @brief Reset the batch mode of writing fields. * * It will reset the batch writing mode and any written changes. * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_STATE: Tha batch mode was not set. */ esp_err_t esp_efuse_batch_write_cancel(void); /** * @brief Writes all prepared data for the batch mode. * * Must be called to ensure changes are written to the efuse registers. * After this the batch writing mode will be reset. * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_STATE: The deferred writing mode was not set. */ esp_err_t esp_efuse_batch_write_commit(void); #ifndef CONFIG_IDF_TARGET_ESP32 /** * @brief Type of key purpose */ typedef enum { ESP_EFUSE_KEY_PURPOSE_USER = 0, ESP_EFUSE_KEY_PURPOSE_RESERVED = 1, ESP_EFUSE_KEY_PURPOSE_XTS_AES_256_KEY_1 = 2, ESP_EFUSE_KEY_PURPOSE_XTS_AES_256_KEY_2 = 3, ESP_EFUSE_KEY_PURPOSE_XTS_AES_128_KEY = 4, ESP_EFUSE_KEY_PURPOSE_HMAC_DOWN_ALL = 5, ESP_EFUSE_KEY_PURPOSE_HMAC_DOWN_JTAG = 6, ESP_EFUSE_KEY_PURPOSE_HMAC_DOWN_DIGITAL_SIGNATURE = 7, ESP_EFUSE_KEY_PURPOSE_HMAC_UP = 8, ESP_EFUSE_KEY_PURPOSE_SECURE_BOOT_DIGEST0 = 9, ESP_EFUSE_KEY_PURPOSE_SECURE_BOOT_DIGEST1 = 10, ESP_EFUSE_KEY_PURPOSE_SECURE_BOOT_DIGEST2 = 11, ESP_EFUSE_KEY_PURPOSE_MAX, } esp_efuse_purpose_t; /** * @brief Returns a pointer to a key purpose for an efuse key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * To get the value of this field use esp_efuse_read_field_blob() or esp_efuse_get_key_purpose(). * * @return Pointer: If Successful returns a pointer to the corresponding efuse field otherwise NULL. */ const esp_efuse_desc_t **esp_efuse_get_purpose_field(esp_efuse_block_t block); /** * @brief Returns a pointer to a key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return Pointer: If Successful returns a pointer to the corresponding efuse field otherwise NULL. */ const esp_efuse_desc_t** esp_efuse_get_key(esp_efuse_block_t block); /** * @brief Returns a read protection for the key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return True: The key block is read protected * False: The key block is readable. */ bool esp_efuse_get_key_dis_read(esp_efuse_block_t block); /** * @brief Sets a read protection for the key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_set_key_dis_read(esp_efuse_block_t block); /** * @brief Returns a write protection for the key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return True: The key block is write protected * False: The key block is writeable. */ bool esp_efuse_get_key_dis_write(esp_efuse_block_t block); /** * @brief Sets a write protection for the key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_set_key_dis_write(esp_efuse_block_t block); /** * @brief Returns the current purpose set for an efuse key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return * - Value: If Successful, it returns the value of the purpose related to the given key block. * - ESP_EFUSE_KEY_PURPOSE_MAX: Otherwise. */ esp_efuse_purpose_t esp_efuse_get_key_purpose(esp_efuse_block_t block); /** * @brief Sets a key purpose for an efuse key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * @param[in] purpose Key purpose. * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_set_key_purpose(esp_efuse_block_t block, esp_efuse_purpose_t purpose); /** * @brief Returns a write protection of the key purpose field for an efuse key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return True: The key purpose is write protected. * False: The key purpose is writeable. */ bool esp_efuse_get_keypurpose_dis_write(esp_efuse_block_t block); /** * @brief Sets a write protection of the key purpose field for an efuse key block. * * @param[in] block A key block in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_set_keypurpose_dis_write(esp_efuse_block_t block); /** * @brief Find a key block with the particular purpose set. * * @param[in] purpose Purpose to search for. * @param[out] block Pointer in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX which will be set to the key block if found. * Can be NULL, if only need to test the key block exists. * * @return * - True: If found, * - False: If not found (value at block pointer is unchanged). */ bool esp_efuse_find_purpose(esp_efuse_purpose_t purpose, esp_efuse_block_t *block); /** * @brief Search for an unused key block and return the first one found. * * See esp_efuse_key_block_unused for a description of an unused key block. * * @return First unused key block, or EFUSE_BLK_KEY_MAX if no unused key block is found. */ esp_efuse_block_t esp_efuse_find_unused_key_block(void); /** * @brief Return the number of unused efuse key blocks in the range EFUSE_BLK_KEY0..EFUSE_BLK_KEY_MAX */ unsigned esp_efuse_count_unused_key_blocks(void); /** * @brief Returns true if the key block is unused, false otherwise. * * An unused key block is all zero content, not read or write protected, * and has purpose 0 (ESP_EFUSE_KEY_PURPOSE_USER) * * @param block key block to check. * * @return * - True if key block is unused, * - False if key block is used or the specified block index is not a key block. */ bool esp_efuse_key_block_unused(esp_efuse_block_t block); /** * @brief Returns the status of the Secure Boot public key digest revocation bit. * * @param[in] num_digest The number of digest in range 0..2 * * @return * - True: If key digest is revoked, * - False; If key digest is not revoked. */ bool esp_efuse_get_digest_revoke(unsigned num_digest); /** * @brief Sets the Secure Boot public key digest revocation bit. * * @param[in] num_digest The number of digest in range 0..2 * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_set_digest_revoke(unsigned num_digest); /** * @brief Returns a write protection of the Secure Boot public key digest revocation bit. * * @param[in] num_digest The number of digest in range 0..2 * * @return True: The revocation bit is write protected. * False: The revocation bit is writeable. */ bool esp_efuse_get_write_protect_of_digest_revoke(unsigned num_digest); /** * @brief Sets a write protection of the Secure Boot public key digest revocation bit. * * @param[in] num_digest The number of digest in range 0..2 * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_set_write_protect_of_digest_revoke(unsigned num_digest); /** * @brief Program a block of key data to an efuse block * * The burn of a key, protection bits, and a purpose happens in batch mode. * * @param[in] block Block to read purpose for. Must be in range EFUSE_BLK_KEY0 to EFUSE_BLK_KEY_MAX. Key block must be unused (esp_efuse_key_block_unused). * @param[in] purpose Purpose to set for this key. Purpose must be already unset. * @param[in] key Pointer to data to write. * @param[in] key_size_bytes Bytes length of data to write. * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_INVALID_STATE: Error in efuses state, unused block not found. * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_write_key(esp_efuse_block_t block, esp_efuse_purpose_t purpose, const void *key, size_t key_size_bytes); /** * @brief Program keys to unused efuse blocks * * The burn of keys, protection bits, and purposes happens in batch mode. * * @param[in] purposes Array of purposes (purpose[number_of_keys]). * @param[in] keys Array of keys (uint8_t keys[number_of_keys][32]). Each key is 32 bytes long. * @param[in] number_of_keys The number of keys to write (up to 6 keys). * * @return * - ESP_OK: Successful. * - ESP_ERR_INVALID_ARG: Error in the passed arguments. * - ESP_ERR_INVALID_STATE: Error in efuses state, unused block not found. * - ESP_ERR_NOT_ENOUGH_UNUSED_KEY_BLOCKS: Error not enough unused key blocks available * - ESP_ERR_EFUSE_REPEATED_PROG: Error repeated programming of programmed bits is strictly forbidden. * - ESP_ERR_CODING: Error range of data does not match the coding scheme. */ esp_err_t esp_efuse_write_keys(esp_efuse_purpose_t purposes[], uint8_t keys[][32], unsigned number_of_keys); #endif // not CONFIG_IDF_TARGET_ESP32 #ifdef __cplusplus } #endif