esp-idf/components/spi_flash/include/spi_flash_chip_driver.h

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// 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.
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#pragma once
#include "esp_flash.h"
struct esp_flash_t;
typedef struct esp_flash_t esp_flash_t;
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typedef struct spi_flash_chip_t spi_flash_chip_t;
/** @brief SPI flash chip driver definition structure.
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*
* The chip driver structure contains chip-specific pointers to functions to perform SPI flash operations, and some
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* chip-specific numeric values.
*
* @note This is not a public API. These functions are called from the public API (declared in
* esp_flash.h). They assume the caller has already validated arguments and enabled relevant protections
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* (disabling flash cache, prevent concurrent SPI access, etc.)
*
* Do not call chip driver functions directly in other contexts.
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*
* A generic driver for generic chips and its related operations are defined in
* spi_flash_chip_generic.h which can be used as building blocks for written
* new/specific SPI flash chip drivers.
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*
* @note All of these functions may be called with SPI flash cache disabled, so must only ever access IRAM/DRAM/ROM.
*/
struct spi_flash_chip_t {
const char *name; ///< Name of the chip driver
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/* Probe to detect if a supported SPI flash chip is found.
*
* Attempts to configure 'chip' with these operations and probes for a matching SPI flash chip.
*
* Auto-detection of a SPI flash chip calls this function in turn on each registered driver (see esp_flash_registered_flash_drivers).
*
* ID - as read by spi_flash_generic_read_id() - is supplied so each probe
* function doesn't need to unnecessarily read ID, but probe is permitted
* to interrogate flash in any non-destructive way.
*
* It is permissible for the driver to modify the 'chip' structure if probing succeeds (specifically, to assign something to the
* driver_data pointer if that is useful for the driver.)
*
* @return ESP_OK if probing was successful, an error otherwise. Driver may
* assume that returning ESP_OK means it has claimed this chip.
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*/
esp_err_t (*probe)(esp_flash_t *chip, uint32_t flash_id);
esp_err_t (*reset)(esp_flash_t *chip);
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/* Detect SPI flash size
*
* Interrogate the chip to detect its size.
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*/
esp_err_t (*detect_size)(esp_flash_t *chip, uint32_t *size);
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/* Erase the entire chip
Caller has verified the chip is not write protected.
*/
esp_err_t (*erase_chip)(esp_flash_t *chip);
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/* Erase a sector of the chip. Sector size is specified in the 'sector_size' field.
sector_address is an offset in bytes.
Caller has verified that this sector should be non-write-protected.
*/
esp_err_t (*erase_sector)(esp_flash_t *chip, uint32_t sector_address);
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/* Erase a multi-sector block of the chip. Block size is specified in the 'block_erase_size' field.
sector_address is an offset in bytes.
Caller has verified that this block should be non-write-protected.
*/
esp_err_t (*erase_block)(esp_flash_t *chip, uint32_t block_address);
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uint32_t sector_size; /* Sector is minimum erase size */
uint32_t block_erase_size; /* Optimal (fastest) block size for multi-sector erases on this chip */
/* Read the write protect status of the entire chip. */
esp_err_t (*get_chip_write_protect)(esp_flash_t *chip, bool *out_write_protected);
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/* Set the write protect status of the entire chip. */
esp_err_t (*set_chip_write_protect)(esp_flash_t *chip, bool chip_write_protect);
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/* Number of individually write protectable regions on this chip. Range 0-63. */
uint8_t num_protectable_regions;
/* Pointer to an array describing each protectable region. Should have num_protectable_regions elements. */
const esp_flash_region_t *protectable_regions;
/* Get a bitmask describing all protectable regions on the chip. Each bit represents one entry in the
protectable_regions array, ie bit (1<<N) is set then the region at array entry N is write protected. */
esp_err_t (*get_protected_regions)(esp_flash_t *chip, uint64_t *regions);
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/* Set protectable regions on the chip. Each bit represents on entry in the protectable regions array. */
esp_err_t (*set_protected_regions)(esp_flash_t *chip, uint64_t regions);
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/* Read data from the chip.
*
* Before calling this function, the caller will have called chip->drv->set_read_mode(chip) in order to configure the chip's read mode correctly.
*/
esp_err_t (*read)(esp_flash_t *chip, void *buffer, uint32_t address, uint32_t length);
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/* Write any amount of data to the chip.
*/
esp_err_t (*write)(esp_flash_t *chip, const void *buffer, uint32_t address, uint32_t length);
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/* Use the page program command to write data to the chip.
*
* This function is expected to be called by chip->drv->write (if the
* chip->drv->write implementation doesn't call it then it can be left as NULL.)
*
* - The length argument supplied to this function is at most 'page_size' bytes.
*
* - The region between 'address' and 'address + length' will not cross a page_size aligned boundary (the write
* implementation is expected to split such a write into two before calling page_program.)
*/
esp_err_t (*program_page)(esp_flash_t *chip, const void *buffer, uint32_t address, uint32_t length);
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/* Page size as written by the page_program function. Usually 256 bytes. */
uint32_t page_size;
/* Perform an encrypted write to the chip, using internal flash encryption hardware. */
esp_err_t (*write_encrypted)(esp_flash_t *chip, const void *buffer, uint32_t address, uint32_t length);
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/* Wait for the SPI flash chip to be idle (any write operation to be complete.) This function is both called from the higher-level API functions, and from other functions in this structure.
timeout_ms should be a timeout (in milliseconds) before the function returns ESP_ERR_TIMEOUT. This is useful to avoid hanging
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if the chip is otherwise unresponsive (ie returns all 0xFF or similar.)
*/
esp_err_t (*wait_idle)(esp_flash_t *chip, unsigned timeout_ms);
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/* Configure both the SPI host and the chip for the read mode specified in chip->read_mode.
*
* This function is called by the higher-level API before the 'read' function is called.
*
* Can return ESP_ERR_FLASH_UNSUPPORTED_HOST or ESP_ERR_FLASH_UNSUPPORTED_CHIP if the specified mode is unsupported.
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*/
esp_err_t (*set_io_mode)(esp_flash_t *chip);
/*
* Get whether the Quad Enable (QE) is set. (*out_io_mode)=SPI_FLASH_QOUT if
* enabled, otherwise disabled
*/
esp_err_t (*get_io_mode)(esp_flash_t *chip, esp_flash_io_mode_t* out_io_mode);
};
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/* Pointer to an array of pointers to all known drivers for flash chips. This array is used
by esp_flash_init() to detect the flash chip driver, if none is supplied by the caller.
Array is terminated with a NULL pointer.
This pointer can be overwritten with a pointer to a new array, to update the list of known flash chips.
*/
extern const spi_flash_chip_t **esp_flash_registered_chips;