drivers/mm/mm_drv_common.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2021 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_DRIVERS_SYSTEM_MM_DRV_COMMON_H_
 #define ZEPHYR_DRIVERS_SYSTEM_MM_DRV_COMMON_H_

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

 #include <zephyr/drivers/mm/system_mm.h>

 extern struct k_spinlock sys_mm_drv_common_lock;

 /**
  * @brief Get the flags of mapped virtual address.
  *
  * The function queries the translation tables to find the flags of
  * a mapped virtual address. This is used internally for remapping.
  *
  * Behavior when providing unaligned address is undefined, this
  * is assumed to be page aligned.
  *
  * @param      virt  Page-aligned virtual address
  * @param[out] flags flags of mapped virtual address
  *
  * @retval 0 if mapping is found and valid
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if virtual address is not mapped
  */
 int sys_mm_drv_page_flag_get(void *virt, uint32_t *flags);

 /**
  * @brief Test if address is page-aligned
  *
  * @param addr address to be tested
  *
  * @retval true if page-aligned
  * @retval false if not page-aligned
  */
 static inline bool sys_mm_drv_is_addr_aligned(uintptr_t addr)
 {
 	return ((addr & (CONFIG_MM_DRV_PAGE_SIZE - 1)) == 0U);
 }

 /**
  * @brief Test if address is page-aligned
  *
  * @param addr address to be tested
  *
  * @retval true if page-aligned
  * @retval false if not page-aligned
  */
 static inline bool sys_mm_drv_is_virt_addr_aligned(void *virt)
 {
 	return sys_mm_drv_is_addr_aligned(POINTER_TO_UINT(virt));
 }

 /**
  * @brief Test if size is page-aligned
  *
  * @param addr size to be tested
  *
  * @retval true if page-aligned
  * @retval false if not page-aligned
  */
 static inline bool sys_mm_drv_is_size_aligned(size_t size)
 {
 	if ((size & (CONFIG_MM_DRV_PAGE_SIZE - 1)) == 0U) {
 		return true;
 	} else {
 		return false;
 	}
 }

 /**
  * @brief Test if all physical addresses in array are page-aligned
  *
  * @param addr Array of physical addresses
  * @param cnt Number of elements in the array
  *
  * @retval true if all are page-aligned
  * @retval false if at least one is not page-aligned
  */
 bool sys_mm_drv_is_addr_array_aligned(uintptr_t *addr, size_t cnt);

 /**
  * @brief Test if the virtual memory region is mapped
  *
  * @param virt Page-aligned base virtual address
  * @param size Size of the virtual memory region
  *
  * @retval true if all pages in the region are mapped
  * @retval false if at least one page is not mapped
  */
 bool sys_mm_drv_is_virt_region_mapped(void *virt, size_t size);

 /**
  * @brief Test if the virtual memory region is unmapped
  *
  * @param virt Page-aligned base virtual address
  * @param size Size of the virtual memory region
  *
  * @retval true if all pages in the region are unmapped
  * @retval false if at least one page is mapped
  */
 bool sys_mm_drv_is_virt_region_unmapped(void *virt, size_t size);

 /**
  * @brief Simple implementation of sys_mm_drv_map_region()
  *
  * This provides a simple implementation for sys_mm_drv_map_region()
  * which is marked as a weak alias to sys_mm_drv_map_region().
  *
  * Drivers do not have to implement their own sys_mm_drv_map_region()
  * if this works for them. Or they can override sys_mm_drv_map_region()
  * and call sys_mm_drv_simple_map_region() with some pre-processing done.
  * Or the drivers can implement their own sys_mm_drv_map_region(), then
  * this function will not be used.
  *
  * @see sys_mm_drv_map_region
  *
  * @param virt Page-aligned destination virtual address to map
  * @param phys Page-aligned source physical address to map
  * @param size Page-aligned size of the mapped memory region in bytes
  * @param flags Caching, access and control flags, see SYS_MM_MEM_* macros
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if any virtual addresses have already been mapped
  */
 int sys_mm_drv_simple_map_region(void *virt, uintptr_t phys,
 				 size_t size, uint32_t flags);

 /**
  * @brief Simple implementation of sys_mm_drv_map_array()
  *
  * This provides a simple implementation for sys_mm_drv_map_array()
  * which is marked as a weak alias to sys_mm_drv_map_array().
  *
  * Drivers do not have to implement their own sys_mm_drv_map_array()
  * if this works for them. Or they can override sys_mm_drv_map_array()
  * and call sys_mm_drv_simple_map_array() with some pre-processing done.
  * Or the drivers can implement their own sys_mm_drv_map_array(), then
  * this function will not be used.
  *
  * @see sys_mm_drv_map_array
  *
  * @param virt Page-aligned destination virtual address to map
  * @param phys Array of pge-aligned source physical address to map
  * @param cnt Number of elements in the physical page array
  * @param flags Caching, access and control flags, see SYS_MM_MEM_* macros
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if any virtual addresses have already been mapped
  */
 int sys_mm_drv_simple_map_array(void *virt, uintptr_t *phys,
 				size_t cnt, uint32_t flags);

 /**
  * @brief Simple implementation of sys_mm_drv_unmap_region()
  *
  * This provides a simple implementation for sys_mm_drv_unmap_region()
  * which is marked as a weak alias to sys_mm_drv_unmap_region().
  *
  * Drivers do not have to implement their own sys_mm_drv_unmap_region()
  * if this works for them. Or they can override sys_mm_drv_unmap_region()
  * and call sys_mm_drv_simple_unmap_region() with some pre-processing done.
  * Or the drivers can implement their own sys_mm_drv_unmap_region(), then
  * this function will not be used.
  *
  * @see sys_mm_drv_unmap_region
  *
  * @param virt Page-aligned base virtual address to un-map
  * @param size Page-aligned region size
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if virtual addresses have already been mapped
  */
 int sys_mm_drv_simple_unmap_region(void *virt, size_t size);

 /**
  * @brief Simple implementation of sys_mm_drv_remap_region()
  *
  * This provides a simple implementation for sys_mm_drv_remap_region()
  * which is marked as a weak alias to sys_mm_drv_remap_region().
  *
  * Drivers do not have to implement their own sys_mm_drv_remap_region()
  * if this works for them. Or they can override sys_mm_drv_remap_region()
  * and call sys_mm_drv_simple_remap_region() with some pre-processing done.
  * Or the drivers can implement their own sys_mm_drv_remap_region(), then
  * this function will not be used.
  *
  * @see sys_mm_drv_remap_region
  *
  * @param virt_old Page-aligned base virtual address of existing memory
  * @param size Page-aligned size of the mapped memory region in bytes
  * @param virt_new Page-aligned base virtual address to which to remap
  *                 the memory
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if old virtual addresses are not all mapped or
  *                 new virtual addresses are not all unmapped
  */
 int sys_mm_drv_simple_remap_region(void *virt_old, size_t size,
 				   void *virt_new);

 /**
  * @brief Simple implementation of sys_mm_drv_move_region()
  *
  * This provides a simple implementation for sys_mm_drv_move_region()
  * which is marked as a weak alias to sys_mm_drv_move_region().
  *
  * Drivers do not have to implement their own sys_mm_drv_move_region()
  * if this works for them. Or they can override sys_mm_drv_move_region()
  * and call sys_mm_drv_simple_move_region() with some pre-processing done.
  * Or the drivers can implement their own sys_mm_drv_move_region(), then
  * this function will not be used.
  *
  * @see sys_mm_drv_move_region
  *
  * @param virt_old Page-aligned base virtual address of existing memory
  * @param size Page-aligned size of the mapped memory region in bytes
  * @param virt_new Page-aligned base virtual address to which to map
  *                 new physical pages
  * @param phys_new Page-aligned base physical address to contain
  *                 the moved memory
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if old virtual addresses are not all mapped or
  *                 new virtual addresses are not all unmapped
  */
 int sys_mm_drv_simple_move_region(void *virt_old, size_t size,
 				  void *virt_new, uintptr_t phys_new);

 /**
  * @brief Simple implementation of sys_mm_drv_move_array()
  *
  * This provides a simple implementation for sys_mm_drv_move_array()
  * which is marked as a weak alias to sys_mm_drv_move_array().
  *
  * Drivers do not have to implement their own sys_mm_drv_move_array()
  * if this works for them. Or they can override sys_mm_drv_move_array()
  * and call sys_mm_drv_simple_move_array() with some pre-processing done.
  * Or the drivers can implement their own sys_mm_drv_move_array(), then
  * this function will not be used.
  *
  * @see sys_mm_drv_move_array
  *
  * @param virt_old Page-aligned base virtual address of existing memory
  * @param size Page-aligned size of the mapped memory region in bytes
  * @param virt_new Page-aligned base virtual address to which to map
  *                 new physical pages
  * @param phys_new Array of page-aligned physical address to contain
  *                 the moved memory
  * @param phys_cnt Number of elements in the physical page array
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if old virtual addresses are not all mapped or
  *                 new virtual addresses are not all unmapped
  */
 int sys_mm_drv_simple_move_array(void *virt_old, size_t size,
 				 void *virt_new,
 				 uintptr_t *phys_new, size_t phys_cnt);

 /**
  * @brief Update memory region flags
  *
  * This changes the attributes of physical memory which is already
  * mapped to a virtual address. This is useful when use case of
  * specific memory region  changes.
  * E.g. when the library/module code is copied to the memory then
  * it needs to be read-write and after it has already
  * been copied and library/module code is ready to be executed then
  * attributes need to be changed to read-only/executable.
  * Calling this API must not cause losing memory contents.
  *
  * @param virt Page-aligned virtual address to be updated
  * @param size Page-aligned size of the mapped memory region in bytes
  * @param flags Caching, access and control flags, see SYS_MM_MEM_* macros
  *
  * @retval 0 if successful
  * @retval -EINVAL if invalid arguments are provided
  * @retval -EFAULT if virtual addresses is not mapped
  */

 int sys_mm_drv_simple_update_region_flags(void *virt, size_t size, uint32_t flags);

 #endif /* ZEPHYR_DRIVERS_SYSTEM_MM_DRV_COMMON_H_ */
	/*
	* Copyright (c) 2021 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_DRIVERS_SYSTEM_MM_DRV_COMMON_H_
	#define ZEPHYR_DRIVERS_SYSTEM_MM_DRV_COMMON_H_

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

	#include <zephyr/drivers/mm/system_mm.h>

	extern struct k_spinlock sys_mm_drv_common_lock;

	/**
	* @brief Get the flags of mapped virtual address.
	*
	* The function queries the translation tables to find the flags of
	* a mapped virtual address. This is used internally for remapping.
	*
	* Behavior when providing unaligned address is undefined, this
	* is assumed to be page aligned.
	*
	* @param virt Page-aligned virtual address
	* @param[out] flags flags of mapped virtual address
	*
	* @retval 0 if mapping is found and valid
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if virtual address is not mapped
	*/
	int sys_mm_drv_page_flag_get(void virt, uint32_t flags);

	/**
	* @brief Test if address is page-aligned
	*
	* @param addr address to be tested
	*
	* @retval true if page-aligned
	* @retval false if not page-aligned
	*/
	static inline bool sys_mm_drv_is_addr_aligned(uintptr_t addr)
	{
	return ((addr & (CONFIG_MM_DRV_PAGE_SIZE - 1)) == 0U);
	}

	/**
	* @brief Test if address is page-aligned
	*
	* @param addr address to be tested
	*
	* @retval true if page-aligned
	* @retval false if not page-aligned
	*/
	static inline bool sys_mm_drv_is_virt_addr_aligned(void *virt)
	{
	return sys_mm_drv_is_addr_aligned(POINTER_TO_UINT(virt));
	}

	/**
	* @brief Test if size is page-aligned
	*
	* @param addr size to be tested
	*
	* @retval true if page-aligned
	* @retval false if not page-aligned
	*/
	static inline bool sys_mm_drv_is_size_aligned(size_t size)
	{
	if ((size & (CONFIG_MM_DRV_PAGE_SIZE - 1)) == 0U) {
	return true;
	} else {
	return false;
	}
	}

	/**
	* @brief Test if all physical addresses in array are page-aligned
	*
	* @param addr Array of physical addresses
	* @param cnt Number of elements in the array
	*
	* @retval true if all are page-aligned
	* @retval false if at least one is not page-aligned
	*/
	bool sys_mm_drv_is_addr_array_aligned(uintptr_t *addr, size_t cnt);

	/**
	* @brief Test if the virtual memory region is mapped
	*
	* @param virt Page-aligned base virtual address
	* @param size Size of the virtual memory region
	*
	* @retval true if all pages in the region are mapped
	* @retval false if at least one page is not mapped
	*/
	bool sys_mm_drv_is_virt_region_mapped(void *virt, size_t size);

	/**
	* @brief Test if the virtual memory region is unmapped
	*
	* @param virt Page-aligned base virtual address
	* @param size Size of the virtual memory region
	*
	* @retval true if all pages in the region are unmapped
	* @retval false if at least one page is mapped
	*/
	bool sys_mm_drv_is_virt_region_unmapped(void *virt, size_t size);

	/**
	* @brief Simple implementation of sys_mm_drv_map_region()
	*
	* This provides a simple implementation for sys_mm_drv_map_region()
	* which is marked as a weak alias to sys_mm_drv_map_region().
	*
	* Drivers do not have to implement their own sys_mm_drv_map_region()
	* if this works for them. Or they can override sys_mm_drv_map_region()
	* and call sys_mm_drv_simple_map_region() with some pre-processing done.
	* Or the drivers can implement their own sys_mm_drv_map_region(), then
	* this function will not be used.
	*
	* @see sys_mm_drv_map_region
	*
	* @param virt Page-aligned destination virtual address to map
	* @param phys Page-aligned source physical address to map
	* @param size Page-aligned size of the mapped memory region in bytes
	* @param flags Caching, access and control flags, see SYS_MM_MEM_* macros
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if any virtual addresses have already been mapped
	*/
	int sys_mm_drv_simple_map_region(void *virt, uintptr_t phys,
	size_t size, uint32_t flags);

	/**
	* @brief Simple implementation of sys_mm_drv_map_array()
	*
	* This provides a simple implementation for sys_mm_drv_map_array()
	* which is marked as a weak alias to sys_mm_drv_map_array().
	*
	* Drivers do not have to implement their own sys_mm_drv_map_array()
	* if this works for them. Or they can override sys_mm_drv_map_array()
	* and call sys_mm_drv_simple_map_array() with some pre-processing done.
	* Or the drivers can implement their own sys_mm_drv_map_array(), then
	* this function will not be used.
	*
	* @see sys_mm_drv_map_array
	*
	* @param virt Page-aligned destination virtual address to map
	* @param phys Array of pge-aligned source physical address to map
	* @param cnt Number of elements in the physical page array
	* @param flags Caching, access and control flags, see SYS_MM_MEM_* macros
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if any virtual addresses have already been mapped
	*/
	int sys_mm_drv_simple_map_array(void virt, uintptr_t phys,
	size_t cnt, uint32_t flags);

	/**
	* @brief Simple implementation of sys_mm_drv_unmap_region()
	*
	* This provides a simple implementation for sys_mm_drv_unmap_region()
	* which is marked as a weak alias to sys_mm_drv_unmap_region().
	*
	* Drivers do not have to implement their own sys_mm_drv_unmap_region()
	* if this works for them. Or they can override sys_mm_drv_unmap_region()
	* and call sys_mm_drv_simple_unmap_region() with some pre-processing done.
	* Or the drivers can implement their own sys_mm_drv_unmap_region(), then
	* this function will not be used.
	*
	* @see sys_mm_drv_unmap_region
	*
	* @param virt Page-aligned base virtual address to un-map
	* @param size Page-aligned region size
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if virtual addresses have already been mapped
	*/
	int sys_mm_drv_simple_unmap_region(void *virt, size_t size);

	/**
	* @brief Simple implementation of sys_mm_drv_remap_region()
	*
	* This provides a simple implementation for sys_mm_drv_remap_region()
	* which is marked as a weak alias to sys_mm_drv_remap_region().
	*
	* Drivers do not have to implement their own sys_mm_drv_remap_region()
	* if this works for them. Or they can override sys_mm_drv_remap_region()
	* and call sys_mm_drv_simple_remap_region() with some pre-processing done.
	* Or the drivers can implement their own sys_mm_drv_remap_region(), then
	* this function will not be used.
	*
	* @see sys_mm_drv_remap_region
	*
	* @param virt_old Page-aligned base virtual address of existing memory
	* @param size Page-aligned size of the mapped memory region in bytes
	* @param virt_new Page-aligned base virtual address to which to remap
	* the memory
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if old virtual addresses are not all mapped or
	* new virtual addresses are not all unmapped
	*/
	int sys_mm_drv_simple_remap_region(void *virt_old, size_t size,
	void *virt_new);

	/**
	* @brief Simple implementation of sys_mm_drv_move_region()
	*
	* This provides a simple implementation for sys_mm_drv_move_region()
	* which is marked as a weak alias to sys_mm_drv_move_region().
	*
	* Drivers do not have to implement their own sys_mm_drv_move_region()
	* if this works for them. Or they can override sys_mm_drv_move_region()
	* and call sys_mm_drv_simple_move_region() with some pre-processing done.
	* Or the drivers can implement their own sys_mm_drv_move_region(), then
	* this function will not be used.
	*
	* @see sys_mm_drv_move_region
	*
	* @param virt_old Page-aligned base virtual address of existing memory
	* @param size Page-aligned size of the mapped memory region in bytes
	* @param virt_new Page-aligned base virtual address to which to map
	* new physical pages
	* @param phys_new Page-aligned base physical address to contain
	* the moved memory
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if old virtual addresses are not all mapped or
	* new virtual addresses are not all unmapped
	*/
	int sys_mm_drv_simple_move_region(void *virt_old, size_t size,
	void *virt_new, uintptr_t phys_new);

	/**
	* @brief Simple implementation of sys_mm_drv_move_array()
	*
	* This provides a simple implementation for sys_mm_drv_move_array()
	* which is marked as a weak alias to sys_mm_drv_move_array().
	*
	* Drivers do not have to implement their own sys_mm_drv_move_array()
	* if this works for them. Or they can override sys_mm_drv_move_array()
	* and call sys_mm_drv_simple_move_array() with some pre-processing done.
	* Or the drivers can implement their own sys_mm_drv_move_array(), then
	* this function will not be used.
	*
	* @see sys_mm_drv_move_array
	*
	* @param virt_old Page-aligned base virtual address of existing memory
	* @param size Page-aligned size of the mapped memory region in bytes
	* @param virt_new Page-aligned base virtual address to which to map
	* new physical pages
	* @param phys_new Array of page-aligned physical address to contain
	* the moved memory
	* @param phys_cnt Number of elements in the physical page array
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if old virtual addresses are not all mapped or
	* new virtual addresses are not all unmapped
	*/
	int sys_mm_drv_simple_move_array(void *virt_old, size_t size,
	void *virt_new,
	uintptr_t *phys_new, size_t phys_cnt);

	/**
	* @brief Update memory region flags
	*
	* This changes the attributes of physical memory which is already
	* mapped to a virtual address. This is useful when use case of
	* specific memory region changes.
	* E.g. when the library/module code is copied to the memory then
	* it needs to be read-write and after it has already
	* been copied and library/module code is ready to be executed then
	* attributes need to be changed to read-only/executable.
	* Calling this API must not cause losing memory contents.
	*
	* @param virt Page-aligned virtual address to be updated
	* @param size Page-aligned size of the mapped memory region in bytes
	* @param flags Caching, access and control flags, see SYS_MM_MEM_* macros
	*
	* @retval 0 if successful
	* @retval -EINVAL if invalid arguments are provided
	* @retval -EFAULT if virtual addresses is not mapped
	*/

	int sys_mm_drv_simple_update_region_flags(void *virt, size_t size, uint32_t flags);

	#endif /* ZEPHYR_DRIVERS_SYSTEM_MM_DRV_COMMON_H_ */