subsys/storage/flash_map/flash_map.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2017 Nordic Semiconductor ASA
  * Copyright (c) 2015 Runtime Inc
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <zephyr/types.h>
 #include <stddef.h>
 #include <sys/types.h>
 #include <device.h>
 #include <flash_map.h>
 #include <flash.h>
 #include <soc.h>
 #include <init.h>

 #if defined(CONFIG_FLASH_PAGE_LAYOUT)
 struct layout_data {
 	u32_t area_idx;
 	u32_t area_off;
 	u32_t area_len;
 	void *ret;        /* struct flash_area* or struct flash_sector* */
 	u32_t ret_idx;
 	u32_t ret_len;
 	int status;
 };
 #endif /* CONFIG_FLASH_PAGE_LAYOUT */

 struct driver_map_entry {
 	u8_t id;
 	const char * const name;
 };

 static const struct driver_map_entry  flash_drivers_map[] = {
 #ifdef FLASH_DEV_NAME /* SoC embedded flash driver */
 	{SOC_FLASH_0_ID, FLASH_DEV_NAME},
 #endif
 #ifdef CONFIG_SPI_FLASH_W25QXXDV
 	{SPI_FLASH_0_ID, CONFIG_SPI_FLASH_W25QXXDV_DRV_NAME},
 #endif
 };

 const struct flash_area *flash_map;
 extern const int flash_map_entries;
 static struct device *flash_dev[ARRAY_SIZE(flash_drivers_map)];

 static struct flash_area const *get_flash_area_from_id(int idx)
 {
 	for (int i = 0; i < flash_map_entries; i++) {
 		if (flash_map[i].fa_id == idx) {
 			return &flash_map[i];
 		}
 	}

 	return NULL;
 }

 int flash_area_open(u8_t id, const struct flash_area **fap)
 {
 	const struct flash_area *area;

 	if (flash_map == NULL) {
 		return -EACCES;
 	}

 	area = get_flash_area_from_id(id);
 	if (area == NULL) {
 		return -ENOENT;
 	}

 	*fap = area;
 	return 0;
 }

 void flash_area_close(const struct flash_area *fa)
 {
 	/* nothing to do for now */
 }

 static struct device *get_flash_dev_from_id(u8_t id)
 {
 	for (unsigned int i = 0; i < ARRAY_SIZE(flash_drivers_map); i++) {
 		if (flash_drivers_map[i].id == id) {
 			return flash_dev[i];
 		}
 	}

 	k_panic();
 }

 static inline bool is_in_flash_area_bounds(const struct flash_area *fa,
 					   off_t off, size_t len)
 {
 	return (off <= fa->fa_size && off + len <= fa->fa_size);
 }

 #if defined(CONFIG_FLASH_PAGE_LAYOUT)
 /*
  * Check if a flash_page_foreach() callback should exit early, due to
  * one of the following conditions:
  *
  * - The flash page described by "info" is before the area of interest
  *   described in "data"
  * - The flash page is after the end of the area
  * - There are too many flash pages on the device to fit in the array
  *   held in data->ret. In this case, data->status is set to -ENOMEM.
  *
  * The value to return to flash_page_foreach() is stored in
  * "bail_value" if the callback should exit early.
  */
 static bool should_bail(const struct flash_pages_info *info,
 						struct layout_data *data,
 						bool *bail_value)
 {
 	if (info->start_offset < data->area_off) {
 		*bail_value = true;
 		return true;
 	} else if (info->start_offset >= data->area_off + data->area_len) {
 		*bail_value = false;
 		return true;
 	} else if (data->ret_idx >= data->ret_len) {
 		data->status = -ENOMEM;
 		*bail_value = false;
 		return true;
 	}

 	return false;
 }

 /*
  * Generic page layout discovery routine. This is kept separate to
  * support both the deprecated flash_area_to_sectors() and the current
  * flash_area_get_sectors(). A lot of this can be inlined once
  * flash_area_to_sectors() is removed.
  */
 static int flash_area_layout(int idx, u32_t *cnt, void *ret,
 flash_page_cb cb, struct layout_data *cb_data)
 {
 	struct device *flash_dev;

 	cb_data->area_idx = idx;

 	const struct flash_area *fa;

 	fa = get_flash_area_from_id(idx);
 	if (fa == NULL) {
 		return -EINVAL;
 	}

 	cb_data->area_idx = idx;
 	cb_data->area_off = fa->fa_off;
 	cb_data->area_len = fa->fa_size;

 	cb_data->ret = ret;
 	cb_data->ret_idx = 0;
 	cb_data->ret_len = *cnt;
 	cb_data->status = 0;

 	flash_dev = get_flash_dev_from_id(fa->fa_device_id);

 	flash_page_foreach(flash_dev, cb, cb_data);

 	if (cb_data->status == 0) {
 		*cnt = cb_data->ret_idx;
 	}

 	return cb_data->status;
 }

 static bool get_sectors_cb(const struct flash_pages_info *info, void *datav)
 {
 	struct layout_data *data = datav;
 	struct flash_sector *ret = data->ret;
 	bool bail;

 	if (should_bail(info, data, &bail)) {
 		return bail;
 	}

 	ret[data->ret_idx].fs_off = info->start_offset - data->area_off;
 	ret[data->ret_idx].fs_size = info->size;
 	data->ret_idx++;

 	return true;
 }

 int flash_area_get_sectors(int idx, u32_t *cnt, struct flash_sector *ret)
 {
 	struct layout_data data;

 	return flash_area_layout(idx, cnt, ret, get_sectors_cb, &data);
 }
 #endif /* CONFIG_FLASH_PAGE_LAYOUT */

 int flash_area_read(const struct flash_area *fa, off_t off, void *dst,
 		    size_t len)
 {
 	struct device *dev;

 	if (!is_in_flash_area_bounds(fa, off, len)) {
 		return -1;
 	}

 	dev = get_flash_dev_from_id(fa->fa_device_id);

 	return flash_read(dev, fa->fa_off + off, dst, len);
 }

 int flash_area_write(const struct flash_area *fa, off_t off, const void *src,
 		     size_t len)
 {
 	struct device *flash_dev;
 	int rc;

 	if (!is_in_flash_area_bounds(fa, off, len)) {
 		return -1;
 	}

 	flash_dev = get_flash_dev_from_id(fa->fa_device_id);

 	rc = flash_write_protection_set(flash_dev, false);
 	if (rc) {
 		return rc;
 	}

 	rc = flash_write(flash_dev, fa->fa_off + off, (void *)src, len);

 	/* Ignore errors here - this does not affect write operation */
 	(void) flash_write_protection_set(flash_dev, true);

 	return rc;
 }

 int flash_area_erase(const struct flash_area *fa, off_t off, size_t len)
 {
 	struct device *flash_dev;
 	int rc;

 	if (!is_in_flash_area_bounds(fa, off, len)) {
 		return -1;
 	}

 	flash_dev = get_flash_dev_from_id(fa->fa_device_id);

 	rc = flash_write_protection_set(flash_dev, false);
 	if (rc) {
 		return rc;
 	}

 	rc = flash_erase(flash_dev, fa->fa_off + off, len);

 	/* Ignore errors here - this does not affect write operation */
 	(void) flash_write_protection_set(flash_dev, true);

 	return rc;
 }

 u8_t flash_area_align(const struct flash_area *fa)
 {
 	struct device *dev;

 	dev = get_flash_dev_from_id(fa->fa_device_id);

 	return flash_get_write_block_size(dev);
 }

 static int flash_map_init(struct device *dev)
 {
 	unsigned int i;

 	for (i = 0; i < ARRAY_SIZE(flash_dev); i++) {
 		flash_dev[i] = device_get_binding(flash_drivers_map[i].name);
 	}

 	return 0;
 }

 SYS_INIT(flash_map_init, APPLICATION, CONFIG_APPLICATION_INIT_PRIORITY);
	/*
	* Copyright (c) 2017 Nordic Semiconductor ASA
	* Copyright (c) 2015 Runtime Inc
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <zephyr/types.h>
	#include <stddef.h>
	#include <sys/types.h>
	#include <device.h>
	#include <flash_map.h>
	#include <flash.h>
	#include <soc.h>
	#include <init.h>

	#if defined(CONFIG_FLASH_PAGE_LAYOUT)
	struct layout_data {
	u32_t area_idx;
	u32_t area_off;
	u32_t area_len;
	void ret; / struct flash_area* or struct flash_sector* */
	u32_t ret_idx;
	u32_t ret_len;
	int status;
	};
	#endif /* CONFIG_FLASH_PAGE_LAYOUT */

	struct driver_map_entry {
	u8_t id;
	const char * const name;
	};

	static const struct driver_map_entry flash_drivers_map[] = {
	#ifdef FLASH_DEV_NAME /* SoC embedded flash driver */
	{SOC_FLASH_0_ID, FLASH_DEV_NAME},
	#endif
	#ifdef CONFIG_SPI_FLASH_W25QXXDV
	{SPI_FLASH_0_ID, CONFIG_SPI_FLASH_W25QXXDV_DRV_NAME},
	#endif
	};

	const struct flash_area *flash_map;
	extern const int flash_map_entries;
	static struct device *flash_dev[ARRAY_SIZE(flash_drivers_map)];

	static struct flash_area const *get_flash_area_from_id(int idx)
	{
	for (int i = 0; i < flash_map_entries; i++) {
	if (flash_map[i].fa_id == idx) {
	return &flash_map[i];
	}
	}

	return NULL;
	}

	int flash_area_open(u8_t id, const struct flash_area **fap)
	{
	const struct flash_area *area;

	if (flash_map == NULL) {
	return -EACCES;
	}

	area = get_flash_area_from_id(id);
	if (area == NULL) {
	return -ENOENT;
	}

	*fap = area;
	return 0;
	}

	void flash_area_close(const struct flash_area *fa)
	{
	/* nothing to do for now */
	}

	static struct device *get_flash_dev_from_id(u8_t id)
	{
	for (unsigned int i = 0; i < ARRAY_SIZE(flash_drivers_map); i++) {
	if (flash_drivers_map[i].id == id) {
	return flash_dev[i];
	}
	}

	k_panic();
	}

	static inline bool is_in_flash_area_bounds(const struct flash_area *fa,
	off_t off, size_t len)
	{
	return (off <= fa->fa_size && off + len <= fa->fa_size);
	}

	#if defined(CONFIG_FLASH_PAGE_LAYOUT)
	/*
	* Check if a flash_page_foreach() callback should exit early, due to
	* one of the following conditions:
	*
	* - The flash page described by "info" is before the area of interest
	* described in "data"
	* - The flash page is after the end of the area
	* - There are too many flash pages on the device to fit in the array
	* held in data->ret. In this case, data->status is set to -ENOMEM.
	*
	* The value to return to flash_page_foreach() is stored in
	* "bail_value" if the callback should exit early.
	*/
	static bool should_bail(const struct flash_pages_info *info,
	struct layout_data *data,
	bool *bail_value)
	{
	if (info->start_offset < data->area_off) {
	*bail_value = true;
	return true;
	} else if (info->start_offset >= data->area_off + data->area_len) {
	*bail_value = false;
	return true;
	} else if (data->ret_idx >= data->ret_len) {
	data->status = -ENOMEM;
	*bail_value = false;
	return true;
	}

	return false;
	}

	/*
	* Generic page layout discovery routine. This is kept separate to
	* support both the deprecated flash_area_to_sectors() and the current
	* flash_area_get_sectors(). A lot of this can be inlined once
	* flash_area_to_sectors() is removed.
	*/
	static int flash_area_layout(int idx, u32_t cnt, void ret,
	flash_page_cb cb, struct layout_data *cb_data)
	{
	struct device *flash_dev;

	cb_data->area_idx = idx;

	const struct flash_area *fa;

	fa = get_flash_area_from_id(idx);
	if (fa == NULL) {
	return -EINVAL;
	}

	cb_data->area_idx = idx;
	cb_data->area_off = fa->fa_off;
	cb_data->area_len = fa->fa_size;

	cb_data->ret = ret;
	cb_data->ret_idx = 0;
	cb_data->ret_len = *cnt;
	cb_data->status = 0;

	flash_dev = get_flash_dev_from_id(fa->fa_device_id);

	flash_page_foreach(flash_dev, cb, cb_data);

	if (cb_data->status == 0) {
	*cnt = cb_data->ret_idx;
	}

	return cb_data->status;
	}

	static bool get_sectors_cb(const struct flash_pages_info info, void datav)
	{
	struct layout_data *data = datav;
	struct flash_sector *ret = data->ret;
	bool bail;

	if (should_bail(info, data, &bail)) {
	return bail;
	}

	ret[data->ret_idx].fs_off = info->start_offset - data->area_off;
	ret[data->ret_idx].fs_size = info->size;
	data->ret_idx++;

	return true;
	}

	int flash_area_get_sectors(int idx, u32_t cnt, struct flash_sector ret)
	{
	struct layout_data data;

	return flash_area_layout(idx, cnt, ret, get_sectors_cb, &data);
	}
	#endif /* CONFIG_FLASH_PAGE_LAYOUT */

	int flash_area_read(const struct flash_area fa, off_t off, void dst,
	size_t len)
	{
	struct device *dev;

	if (!is_in_flash_area_bounds(fa, off, len)) {
	return -1;
	}

	dev = get_flash_dev_from_id(fa->fa_device_id);

	return flash_read(dev, fa->fa_off + off, dst, len);
	}

	int flash_area_write(const struct flash_area fa, off_t off, const void src,
	size_t len)
	{
	struct device *flash_dev;
	int rc;

	if (!is_in_flash_area_bounds(fa, off, len)) {
	return -1;
	}

	flash_dev = get_flash_dev_from_id(fa->fa_device_id);

	rc = flash_write_protection_set(flash_dev, false);
	if (rc) {
	return rc;
	}

	rc = flash_write(flash_dev, fa->fa_off + off, (void *)src, len);

	/* Ignore errors here - this does not affect write operation */
	(void) flash_write_protection_set(flash_dev, true);

	return rc;
	}

	int flash_area_erase(const struct flash_area *fa, off_t off, size_t len)
	{
	struct device *flash_dev;
	int rc;

	if (!is_in_flash_area_bounds(fa, off, len)) {
	return -1;
	}

	flash_dev = get_flash_dev_from_id(fa->fa_device_id);

	rc = flash_write_protection_set(flash_dev, false);
	if (rc) {
	return rc;
	}

	rc = flash_erase(flash_dev, fa->fa_off + off, len);

	/* Ignore errors here - this does not affect write operation */
	(void) flash_write_protection_set(flash_dev, true);

	return rc;
	}

	u8_t flash_area_align(const struct flash_area *fa)
	{
	struct device *dev;

	dev = get_flash_dev_from_id(fa->fa_device_id);

	return flash_get_write_block_size(dev);
	}

	static int flash_map_init(struct device *dev)
	{
	unsigned int i;

	for (i = 0; i < ARRAY_SIZE(flash_dev); i++) {
	flash_dev[i] = device_get_binding(flash_drivers_map[i].name);
	}

	return 0;
	}

	SYS_INIT(flash_map_init, APPLICATION, CONFIG_APPLICATION_INIT_PRIORITY);