// Copyright 2015-2019 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 #include #include "esp_flash.h" #include "spi_flash_chip_driver.h" /* * The 'chip_generic' SPI flash operations are a lowest common subset of SPI * flash commands, that work across most chips. * * These can be used as-is via the esp_flash_common_chip_driver chip_drv, or * they can be used as "base chip_drv" functions when creating a new * spi_flash_host_driver_t chip_drv structure. * * All of the functions in this header are internal functions, not part of a * public API. See esp_flash.h for the public API. */ /** * @brief Generic probe function * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param flash_id expected manufacture id. * * @return ESP_OK if the id read from chip->drv_read_id matches (always). */ esp_err_t spi_flash_chip_generic_probe(esp_flash_t *chip, uint32_t flash_id); /** * @brief Generic reset function * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * * @return ESP_OK if sending success, or error code passed from ``common_command`` or ``wait_idle`` functions of host driver. */ esp_err_t spi_flash_chip_generic_reset(esp_flash_t *chip); /** * @brief Generic size detection function * * Tries to detect the size of chip by using the lower 4 bits of the chip->drv->read_id result = N, and assuming size is 2 ^ N. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param size Output of the detected size * * @return * - ESP_OK if success * - ESP_ERR_FLASH_UNSUPPORTED_CHIP if the manufacturer id is not correct, which may means an error in the reading * - or other error passed from the ``read_id`` function of host driver */ esp_err_t spi_flash_chip_generic_detect_size(esp_flash_t *chip, uint32_t *size); /** * @brief Erase chip by using the generic erase chip command. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * * @return * - ESP_OK if success * - or other error passed from the ``set_write_protect``, ``wait_idle`` or ``erase_chip`` function of host driver */ esp_err_t spi_flash_chip_generic_erase_chip(esp_flash_t *chip); /** * @brief Erase sector by using the generic sector erase command. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param start_address Start address of the sector to erase * * @return * - ESP_OK if success * - or other error passed from the ``set_write_protect``, ``wait_idle`` or ``erase_sector`` function of host driver */ esp_err_t spi_flash_chip_generic_erase_sector(esp_flash_t *chip, uint32_t start_address); /** * @brief Erase block by the generic 64KB block erase command * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param start_address Start address of the block to erase * * @return * - ESP_OK if success * - or other error passed from the ``set_write_protect``, ``wait_idle`` or ``erase_block`` function of host driver */ esp_err_t spi_flash_chip_generic_erase_block(esp_flash_t *chip, uint32_t start_address); /** * @brief Read from flash by using a read command that matches the programmed * read mode. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param buffer Buffer to hold the data read from flash * @param address Start address of the data on the flash * @param length Length to read * * @return always ESP_OK currently */ esp_err_t spi_flash_chip_generic_read(esp_flash_t *chip, void *buffer, uint32_t address, uint32_t length); /** * @brief Perform a page program using the page program command. * * @note Length of each call should not excced the limitation in * ``chip->host->max_write_bytes``. This function is called in * ``spi_flash_chip_generic_write`` recursively until the whole page is * programmed. Strongly suggest to call ``spi_flash_chip_generic_write`` * instead. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param buffer Buffer holding the data to program * @param address Start address to write to flash * @param length Length to write, no longer than ``chip->host->max_write_bytes``. * * @return * - ESP_OK if success * - or other error passed from the ``wait_idle`` or ``program_page`` function of host driver */ esp_err_t spi_flash_chip_generic_page_program(esp_flash_t *chip, const void *buffer, uint32_t address, uint32_t length); /** * @brief Perform a generic write. Split the write buffer into page program * operations, and call chip->chip_drv->page-program() for each. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param buffer Buffer holding the data to program * @param address Start address to write to flash * @param length Length to write * * @return * - ESP_OK if success * - or other error passed from the ``wait_idle`` or ``program_page`` function of host driver */ esp_err_t spi_flash_chip_generic_write(esp_flash_t *chip, const void *buffer, uint32_t address, uint32_t length); /** * @brief Perform a write using on-chip flash encryption. Not implemented yet. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param buffer Buffer holding the data to program * @param address Start address to write to flash * @param length Length to write * * @return always ESP_ERR_FLASH_UNSUPPORTED_HOST. */ esp_err_t spi_flash_chip_generic_write_encrypted(esp_flash_t *chip, const void *buffer, uint32_t address, uint32_t length); /** * @brief Send the write enable or write disable command and verify the expected bit (1) in * the status register is set. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param write_protect true to enable write protection, false to send write enable. * * @return * - ESP_OK if success * - or other error passed from the ``wait_idle``, ``read_status`` or * ``set_write_protect`` function of host driver */ esp_err_t spi_flash_chip_generic_set_write_protect(esp_flash_t *chip, bool write_protect); /** * @brief Check whether WEL (write enable latch) bit is set in the Status Register read from RDSR. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param out_write_protect Output of whether the write protect is set. * * @return * - ESP_OK if success * - or other error passed from the ``read_status`` function of host driver */ esp_err_t spi_flash_chip_generic_get_write_protect(esp_flash_t *chip, bool *out_write_protect); /** * @brief Read flash status via the RDSR command and wait for bit 0 (write in * progress bit) to be cleared. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param timeout_us Time to wait before timeout, in us. * * @return * - ESP_OK if success * - ESP_ERR_TIMEOUT if not idle before timeout * - or other error passed from the ``wait_idle`` or ``read_status`` function of host driver */ esp_err_t spi_flash_chip_generic_wait_idle(esp_flash_t *chip, uint32_t timeout_us); /** * @brief Set the specified SPI read mode according to the data in the chip * context. Set quad enable status register bit if needed. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * * @return * - ESP_OK if success * - ESP_ERR_TIMEOUT if not idle before timeout * - or other error passed from the ``set_write_protect`` or ``common_command`` function of host driver */ esp_err_t spi_flash_chip_generic_set_io_mode(esp_flash_t *chip); /** * Get whether the Quad Enable (QE) is set. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * @param out_quad_mode Pointer to store the output mode. * - SPI_FLASH_QOUT: QE is enabled * - otherwise: QE is disabled * * @return * - ESP_OK if success * - or other error passed from the ``common_command`` function of host driver */ esp_err_t spi_flash_chip_generic_get_io_mode(esp_flash_t *chip, esp_flash_io_mode_t* out_quad_mode); /** * Generic SPI flash chip_drv, uses all the above functions for its operations. * In default autodetection, this is used as a catchall if a more specific * chip_drv is not found. */ extern const spi_flash_chip_t esp_flash_chip_generic; /******************************************************************************* * Utilities *******************************************************************************/ /** * @brief Wait for the SPI host hardware state machine to be idle. * * This isn't a flash chip_drv operation, but it's called by * spi_flash_chip_generic_wait_idle() and may be useful when implementing * alternative drivers. * * timeout_us will be decremented if the function needs to wait until the host hardware is idle. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * * @return * - ESP_OK if success * - ESP_ERR_TIMEOUT if not idle before timeout * - or other error passed from the ``set_write_protect`` or ``common_command`` function of host driver */ esp_err_t spi_flash_generic_wait_host_idle(esp_flash_t *chip, uint32_t *timeout_us); /// Function pointer type for reading status register with QE bit. typedef esp_err_t (*esp_flash_rdsr_func_t)(esp_flash_t* chip, uint32_t* out_sr); /** * Use RDSR2 (35H) to read bit 15-8 of the SR, and RDSR (05H) to read bit 7-0. * * @param chip Pointer to SPI flash chip to use. * @param out_sr Pointer to buffer to hold the status register, 16 bits. * * @return ESP_OK if success, otherwise error code passed from the * `common_command` function of the host driver. */ esp_err_t spi_flash_common_read_status_16b_rdsr_rdsr2(esp_flash_t* chip, uint32_t* out_sr); /** * Use RDSR2 (35H) to read bit 15-8 of the SR. * * @param chip Pointer to SPI flash chip to use. * @param out_sr Pointer to buffer to hold the status register, 8 bits. * * @return ESP_OK if success, otherwise error code passed from the * `common_command` function of the host driver. */ esp_err_t spi_flash_common_read_status_8b_rdsr2(esp_flash_t* chip, uint32_t* out_sr); /** * Use RDSR (05H) to read bit 7-0 of the SR. * * @param chip Pointer to SPI flash chip to use. * @param out_sr Pointer to buffer to hold the status register, 8 bits. * * @return ESP_OK if success, otherwise error code passed from the * `common_command` function of the host driver. */ esp_err_t spi_flash_common_read_status_8b_rdsr(esp_flash_t* chip, uint32_t* out_sr); /// Function pointer type for writing status register with QE bit. typedef esp_err_t (*esp_flash_wrsr_func_t)(esp_flash_t* chip, uint32_t sr); /** * Use WRSR (01H) to write bit 7-0 of the SR. * * @param chip Pointer to SPI flash chip to use. * @param sr Value of the status register to write, 8 bits. * * @return ESP_OK if success, otherwise error code passed from the * `common_command` function of the host driver. */ esp_err_t spi_flash_common_write_status_8b_wrsr(esp_flash_t* chip, uint32_t sr); /** * Use WRSR (01H) to write bit 15-0 of the SR. * * @param chip Pointer to SPI flash chip to use. * @param sr Value of the status register to write, 16 bits. * * @return ESP_OK if success, otherwise error code passed from the * `common_command` function of the host driver. */ esp_err_t spi_flash_common_write_status_16b_wrsr(esp_flash_t* chip, uint32_t sr); /** * Use WRSR2 (31H) to write bit 15-8 of the SR. * * @param chip Pointer to SPI flash chip to use. * @param sr Value of the status register to write, 8 bits. * * @return ESP_OK if success, otherwise error code passed from the * `common_command` function of the host driver. */ esp_err_t spi_flash_common_write_status_8b_wrsr2(esp_flash_t* chip, uint32_t sr); /** * @brief Utility function for set_read_mode chip_drv function. If required, * set and check the QE bit in the flash chip to enable the QIO/QOUT mode. * * Most chip QE enable follows a common pattern, though commands to read/write * the status register may be different, as well as the position of QE bit. * * Registers to actually do Quad transtions and command to be sent in reading * should also be configured via * spi_flash_chip_generic_config_host_io_mode(). * * Note that the bit length and qe position of wrsr_func, rdsr_func and * qe_sr_bit should be consistent. * * @param chip Pointer to SPI flash chip to use. * @param wrsr_func Function pointer for writing the status register * @param rdsr_func Function pointer for reading the status register * @param qe_sr_bit status with the qe bit only. * * @return always ESP_OK (currently). */ esp_err_t spi_flash_common_set_io_mode(esp_flash_t *chip, esp_flash_wrsr_func_t wrsr_func, esp_flash_rdsr_func_t rdsr_func, uint32_t qe_sr_bit); /** * @brief Configure the host registers to use the specified read mode set in * the ``chip->read_mode``. * * Usually called in chip_drv read() functions before actual reading * transactions. Also prepare the command to be sent in read functions. * * @param chip Pointer to SPI flash chip to use. If NULL, esp_flash_default_chip is substituted. * * @return * - ESP_OK if success * - ESP_ERR_FLASH_NOT_INITIALISED if chip not initialized properly * - or other error passed from the ``configure_host_mode`` function of host driver */ esp_err_t spi_flash_chip_generic_config_host_io_mode(esp_flash_t *chip);