drivers/flash/soc_flash_nrf.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2020 Nordic Semiconductor ASA
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef __SOC_FLASH_NRF_H__
 #define __SOC_FLASH_NRF_H__

 #include <zephyr/kernel.h>
 #include <soc.h>

 #define FLASH_OP_DONE    (0) /* 0 for compliance with the driver API. */
 #define FLASH_OP_ONGOING  1

 struct flash_context {
 	uint32_t data_addr;  /* Address of data to write. */
 	uint32_t flash_addr; /* Address of flash to write or erase. */
 	uint32_t len;        /* Size of data to write or erase [B]. */
 #ifndef CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE
 	uint8_t  enable_time_limit; /* set execution limited to the execution
 				     * window.
 				     */
 #endif /* !CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE */
 #if defined(CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE)
 	uint32_t flash_addr_next;
 #endif /* CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE */
 }; /*< Context type for f. @ref write_op @ref erase_op */

 #ifndef CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE

 #if defined(CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE)
 /* The timeout is multiplied by 1.5 because switching tasks may take
  * significant portion of time.
  */
 #define FLASH_TIMEOUT_MS ((FLASH_PAGE_ERASE_MAX_TIME_US) * \
 			  (FLASH_PAGE_MAX_CNT) / 1000 * 15 / 10)
 #else

 #define FLASH_TIMEOUT_MS ((FLASH_PAGE_ERASE_MAX_TIME_US) * \
 			  (FLASH_PAGE_MAX_CNT) / 1000)
 #endif /* CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE */

 /**
  * @defgroup nrf_flash_sync sync backend API
  *
  * API declared below contains prototypes of function which shall be
  * implemented by the synchronization backend.
  * @{
  */

 /**
  * Callback which executes the flash operation.
  *
  * @param context pointer to flash_context structure.
  * @retval @ref FLASH_OP_DONE once operation was done, @ref FLASH_OP_ONGOING if
  *         operation needs more time for execution and a negative error code if
  *         operation was aborted.
  */
 typedef int (*flash_op_handler_t) (void *context);

 struct flash_op_desc {
 	flash_op_handler_t handler;
 	struct flash_context *context; /* [in,out] */
 };

 /**
  * Synchronization backend driver initialization procedure.
  *
  * This will be run within flash driver initialization
  */
 int nrf_flash_sync_init(void);

 /**
  * Set synchronization context for synchronous operations.
  *
  * This function set backend's internal context for expected timing parameter.
  *
  * @param duration Duration of the execution window [us]
  */
 void nrf_flash_sync_set_context(uint32_t duration);

 /**
  * Check if the operation need to be run synchronous with radio.
  *
  * @retval True if operation need to be run synchronously, otherwise False
  */
 bool nrf_flash_sync_is_required(void);

 /**
  * Execute the flash operation synchronously along the radio operations.
  *
  * Function executes callbacks op_desc->handler() in execution windows according
  * to timing settings requested by nrf_flash_sync_set_context().
  * This routine need to be called the handler as many time as it returns
  * FLASH_OP_ONGOING, however an operation timeout should be implemented.
  * When the handler() returns FLASH_OP_DONE or an error code, no further
  * execution windows are needed so function should return as the handler()
  * finished its operation.
  *
  * @retval 0 if op_desc->handler() was executed and finished its operation
  * successfully. Otherwise (handler returned error, timeout, couldn't schedule
  * execution...) a negative error code.
  *
  *                              execution window
  *            Driver task           task
  *                  |                 |
  *                  |                 |
  * nrf_flash_sync_  #                 |
  * set_context()    #                 |
  *                  |                 |
  *                  |                 |
  * call nrf_flash_  #                 |
  * sync_exe()       #                 |
  *                  #---------------->|
  *                  |                 |
  *                  |                 # execution window 0
  *                  |                 # call flash_op_handler_t handler()
  *                  |                 #
  *                  |                 #
  *                  |                 # flash_op_handler_t handler() return
  *                  |                 #         FLASH_OP_ONGOING
  *                  |                 # {backend request/allow
  *                  |                 |  the next execution window}
  *                  .                 .
  *                  .                 .
  *                  .                 .
  *                  |                 |
  *                  |                 # execution window N
  *                  |                 # call flash_op_handler_t handler()
  *                  |                 #
  *                  |                 #
  *                  |                 #
  *                  |                 # flash_op_handler_t handler() returns
  *                  |                 #         FLASH_OP_DONE
  *                  |<----------------# {backend transfer execution
  *                  #                 |  to the driver back}
  * nrf_flash_       #                 |
  * sync_exe()       |                 |
  * return           |                 |
  */
 int nrf_flash_sync_exe(struct flash_op_desc *op_desc);

 /**
  * @}
  */

 /**
  * @defgroup nrf_flash_sync_timing sync timing backend API
  * @ingroup nrf_flash_sync
  * @{
  *
  * API which is used by nrf flash driver for check where execution fill in
  * the execution window.
  *
  * API is used as follows:
  * begin of execution window
  * call flash_op_handler_t handler()
  *   nrf_flash_sync_get_timestamp_begin()
  *   [does some chunk of work]
  *   nrf_flash_sync_check_time_limit() == false
  *   [does some chunk of work]
  *   nrf_flash_sync_check_time_limit() == false
  *   [does some chunk of work]
  *   ...
  *   nrf_flash_sync_check_time_limit() == true
  *   [preserve work context for next execution window]
  * return form flash_op_handler_t handler()
  * [return from execution window]
  * end of execution window
  */

 /**
  * Get timestamp and store it in synchronization backend
  * context data as operation beginning time reference.
  * This timestamp will be used by @ref nrf_flash_sync_check_time_limit()
  * as the execution window begin reference.
  */
 void nrf_flash_sync_get_timestamp_begin(void);

 /**
  * Estimate whether next iteration will fit in time constraints.
  * This function fetch current timestamp and compare it with the operation
  * beginning timestamp reference stored by
  * @ref nrf_flash_sync_get_timestamp_begin() in the synchronization backend
  * context data.
  *
  * @param iteration iteration number.
  * @retval true if estimated time excess, false otherwise.
  */
 bool nrf_flash_sync_check_time_limit(uint32_t iteration);

 /**
  * @}
  */

 #endif /* !CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE */
 #endif /* !__SOC_FLASH_NRF_H__ */
	/*
	* Copyright (c) 2020 Nordic Semiconductor ASA
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef __SOC_FLASH_NRF_H__
	#define __SOC_FLASH_NRF_H__

	#include <zephyr/kernel.h>
	#include <soc.h>

	#define FLASH_OP_DONE (0) /* 0 for compliance with the driver API. */
	#define FLASH_OP_ONGOING 1

	struct flash_context {
	uint32_t data_addr; /* Address of data to write. */
	uint32_t flash_addr; /* Address of flash to write or erase. */
	uint32_t len; /* Size of data to write or erase [B]. */
	#ifndef CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE
	uint8_t enable_time_limit; /* set execution limited to the execution
	* window.
	*/
	#endif /* !CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE */
	#if defined(CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE)
	uint32_t flash_addr_next;
	#endif /* CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE */
	}; /< Context type for f. @ref write_op @ref erase_op /

	#ifndef CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE

	#if defined(CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE)
	/* The timeout is multiplied by 1.5 because switching tasks may take
	* significant portion of time.
	*/
	#define FLASH_TIMEOUT_MS ((FLASH_PAGE_ERASE_MAX_TIME_US) * \
	(FLASH_PAGE_MAX_CNT) / 1000 * 15 / 10)
	#else

	#define FLASH_TIMEOUT_MS ((FLASH_PAGE_ERASE_MAX_TIME_US) * \
	(FLASH_PAGE_MAX_CNT) / 1000)
	#endif /* CONFIG_SOC_FLASH_NRF_PARTIAL_ERASE */

	/**
	* @defgroup nrf_flash_sync sync backend API
	*
	* API declared below contains prototypes of function which shall be
	* implemented by the synchronization backend.
	* @{
	*/

	/**
	* Callback which executes the flash operation.
	*
	* @param context pointer to flash_context structure.
	* @retval @ref FLASH_OP_DONE once operation was done, @ref FLASH_OP_ONGOING if
	* operation needs more time for execution and a negative error code if
	* operation was aborted.
	*/
	typedef int (flash_op_handler_t) (void context);

	struct flash_op_desc {
	flash_op_handler_t handler;
	struct flash_context context; / [in,out] */
	};

	/**
	* Synchronization backend driver initialization procedure.
	*
	* This will be run within flash driver initialization
	*/
	int nrf_flash_sync_init(void);

	/**
	* Set synchronization context for synchronous operations.
	*
	* This function set backend's internal context for expected timing parameter.
	*
	* @param duration Duration of the execution window [us]
	*/
	void nrf_flash_sync_set_context(uint32_t duration);

	/**
	* Check if the operation need to be run synchronous with radio.
	*
	* @retval True if operation need to be run synchronously, otherwise False
	*/
	bool nrf_flash_sync_is_required(void);

	/**
	* Execute the flash operation synchronously along the radio operations.
	*
	* Function executes callbacks op_desc->handler() in execution windows according
	* to timing settings requested by nrf_flash_sync_set_context().
	* This routine need to be called the handler as many time as it returns
	* FLASH_OP_ONGOING, however an operation timeout should be implemented.
	* When the handler() returns FLASH_OP_DONE or an error code, no further
	* execution windows are needed so function should return as the handler()
	* finished its operation.
	*
	* @retval 0 if op_desc->handler() was executed and finished its operation
	* successfully. Otherwise (handler returned error, timeout, couldn't schedule
	* execution...) a negative error code.
	*
	* execution window
	* Driver task task
	* \| \|
	* \| \|
	* nrf_flash_sync_ # \|
	* set_context() # \|
	* \| \|
	* \| \|
	* call nrf_flash_ # \|
	* sync_exe() # \|
	* #---------------->\|
	* \| \|
	* \| # execution window 0
	* \| # call flash_op_handler_t handler()
	* \| #
	* \| #
	* \| # flash_op_handler_t handler() return
	* \| # FLASH_OP_ONGOING
	* \| # {backend request/allow
	* \| \| the next execution window}
	* . .
	* . .
	* . .
	* \| \|
	* \| # execution window N
	* \| # call flash_op_handler_t handler()
	* \| #
	* \| #
	* \| #
	* \| # flash_op_handler_t handler() returns
	* \| # FLASH_OP_DONE
	* \|<----------------# {backend transfer execution
	* # \| to the driver back}
	* nrf_flash_ # \|
	* sync_exe() \| \|
	* return \| \|
	*/
	int nrf_flash_sync_exe(struct flash_op_desc *op_desc);

	/**
	* @}
	*/

	/**
	* @defgroup nrf_flash_sync_timing sync timing backend API
	* @ingroup nrf_flash_sync
	* @{
	*
	* API which is used by nrf flash driver for check where execution fill in
	* the execution window.
	*
	* API is used as follows:
	* begin of execution window
	* call flash_op_handler_t handler()
	* nrf_flash_sync_get_timestamp_begin()
	* [does some chunk of work]
	* nrf_flash_sync_check_time_limit() == false
	* [does some chunk of work]
	* nrf_flash_sync_check_time_limit() == false
	* [does some chunk of work]
	* ...
	* nrf_flash_sync_check_time_limit() == true
	* [preserve work context for next execution window]
	* return form flash_op_handler_t handler()
	* [return from execution window]
	* end of execution window
	*/

	/**
	* Get timestamp and store it in synchronization backend
	* context data as operation beginning time reference.
	* This timestamp will be used by @ref nrf_flash_sync_check_time_limit()
	* as the execution window begin reference.
	*/
	void nrf_flash_sync_get_timestamp_begin(void);

	/**
	* Estimate whether next iteration will fit in time constraints.
	* This function fetch current timestamp and compare it with the operation
	* beginning timestamp reference stored by
	* @ref nrf_flash_sync_get_timestamp_begin() in the synchronization backend
	* context data.
	*
	* @param iteration iteration number.
	* @retval true if estimated time excess, false otherwise.
	*/
	bool nrf_flash_sync_check_time_limit(uint32_t iteration);

	/**
	* @}
	*/

	#endif /* !CONFIG_SOC_FLASH_NRF_RADIO_SYNC_NONE */
	#endif /* !__SOC_FLASH_NRF_H__ */