src/include/memrange.h - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */
 #ifndef MEMRANGE_H_
 #define MEMRANGE_H_

 #include <device/resource.h>
 #include <stdbool.h>
 #include <stddef.h>

 /* A memranges structure consists of a list of range_entry(s). The structure
  * is exposed so that a memranges can be used on the stack if needed. */
 struct memranges {
 	struct range_entry *entries;
 	/* coreboot doesn't have a free() function. Therefore, keep a cache of
 	 * free'd entries.  */
 	struct range_entry *free_list;
 	/* Alignment(log 2) for base and end addresses of the range. */
 	unsigned char align;
 };

 /* Each region within a memranges structure is represented by a
  * range_entry structure. Use the associated range_entry_(base|end|size|tag)
  * functions to interrogate its properties. i.e. don't rely on one's own
  * interpretation of the fields. */
 struct range_entry {
 	resource_t begin;
 	resource_t end;
 	unsigned long tag;
 	struct range_entry *next;
 };

 /* Initialize a range_entry with inclusive beginning address and exclusive
  * end address along with the appropriate tag. */
 static inline void range_entry_init(struct range_entry *re,
 				resource_t incl_begin, resource_t excl_end,
 				unsigned long tag)
 {
 	re->begin = incl_begin;
 	re->end = excl_end - 1;
 	re->tag = tag;
 	re->next = NULL;
 }

 /* Return inclusive base address of memory range. */
 static inline resource_t range_entry_base(const struct range_entry *r)
 {
 	return r->begin;
 }

 /* Return exclusive end address of memory range. */
 static inline resource_t range_entry_end(const struct range_entry *r)
 {
 	return r->end + 1;
 }

 /* Return size of memory range. */
 static inline resource_t range_entry_size(const struct range_entry *r)
 {
 	return r->end - r->begin + 1;
 }

 static inline unsigned long range_entry_tag(const struct range_entry *r)
 {
 	return r->tag;
 }

 static inline void range_entry_update_tag(struct range_entry *r,
 					  unsigned long new_tag)
 {
 	r->tag = new_tag;
 }

 static inline bool memranges_is_empty(const struct memranges *ranges)
 {
 	return ranges->entries == NULL;
 }

 /* Iterate over each entry in a memranges structure. Ranges cannot
  * be deleted while processing each entry as the list cannot be safely
  * traversed after such an operation.
  * r - range_entry pointer.
  * ranges - memranges pointer */
 #define memranges_each_entry(r, ranges) \
 	for (r = (ranges)->entries; r != NULL; r = r->next)

 /* Initialize memranges structure providing an optional array of range_entry
  * to use as the free list. Additionally, it accepts an align parameter that
  * represents the required alignment(log 2) of addresses. */
 void memranges_init_empty_with_alignment(struct memranges *ranges,
 					 struct range_entry *free,
 					 size_t num_free, unsigned char align);

 /* Initialize and fill a memranges structure according to the
  * mask and match type for all memory resources. Tag each entry with the
  * specified type. Additionally, it accepts an align parameter that
  * represents the required alignment(log 2) of addresses. */
 void memranges_init_with_alignment(struct memranges *ranges,
 		    unsigned long mask, unsigned long match,
 		    unsigned long tag, unsigned char align);

 /* Initialize memranges structure providing an optional array of range_entry
  * to use as the free list. Addresses are default aligned to 4KiB(2^12). */
 #define memranges_init_empty(__ranges, __free, __num_free)	\
 	memranges_init_empty_with_alignment(__ranges, __free, __num_free, 12)

 /* Initialize and fill a memranges structure according to the
  * mask and match type for all memory resources. Tag each entry with the
  * specified type. Addresses are default aligned to 4KiB(2^12). */
 #define memranges_init(__ranges, __mask, __match, __tag)	\
 	memranges_init_with_alignment(__ranges, __mask, __match, __tag, 12)

 /* Clone a memrange. The new memrange has the same entries as the old one. */
 void memranges_clone(struct memranges *newranges, struct memranges *oldranges);

 /* Remove and free all entries within the memranges structure. */
 void memranges_teardown(struct memranges *ranges);

 /* Add memory resources that match with the corresponding mask and match.
  * Each entry will be tagged with the provided tag. e.g.  To populate
  * all cacheable memory resources in the range:
  * memranges_add_resources(range, IORESOURCE_CACHEABLE,
  *                            IORESROUCE_CACHEABLE, my_cacheable_tag); */
 void memranges_add_resources(struct memranges *ranges,
 			     unsigned long mask, unsigned long match,
 			     unsigned long tag);

 /* Add memory resources that match with the corresponding mask and match but
  * also provide filter as additional check. The filter will return non-zero
  * to add the resource or zero to not add the resource. Each entry will be
  * tagged with the provided tag. e.g.  To populate all cacheable memory
  * resources in the range with a filter:
  * memranges_add_resources_filter(range, IORESOURCE_CACHEABLE,
  *                         IORESROUCE_CACHEABLE, my_cacheable_tag, filter); */
 typedef int (*memrange_filter_t)(struct device *dev, struct resource *res);
 void memranges_add_resources_filter(struct memranges *ranges,
 				    unsigned long mask, unsigned long match,
 				    unsigned long tag,
 				    memrange_filter_t filter);

 /* Fill all address ranges up to limit (exclusive) not covered by an entry by
  * inserting new entries with the provided tag. */
 void memranges_fill_holes_up_to(struct memranges *ranges,
 				resource_t limit, unsigned long tag);

 /* Create a hole in the range by deleting/modifying entries that overlap with
  * the region specified by base and size. */
 void memranges_create_hole(struct memranges *ranges,
 			   resource_t base, resource_t size);

 /* Insert a resource to the given memranges.  All existing ranges
  * covered by range specified by base and size will be removed before a
  * new one is added. */
 void memranges_insert(struct memranges *ranges,
 		      resource_t base, resource_t size, unsigned long tag);

 /* Update all entries with old_tag to new_tag. */
 void memranges_update_tag(struct memranges *ranges, unsigned long old_tag,
 			  unsigned long new_tag);

 /* Returns next entry after the provided entry. NULL if r is last. */
 struct range_entry *memranges_next_entry(struct memranges *ranges,
 					 const struct range_entry *r);

 /* Steals memory from the available list in given ranges as per the constraints:
  * limit    = Upper bound for the memory range to steal (Inclusive).
  * size     = Requested size for the stolen memory.
  * align    = Required alignment(log 2) for the starting address of the stolen memory.
  * tag      = Use a range that matches the given tag.
  * from_top = Steal the highest possible range.
  *
  * If the constraints can be satisfied, this function creates a hole in the memrange,
  * writes the base address of that hole to stolen_base and returns true. Otherwise it returns
  * false. */
 bool memranges_steal(struct memranges *ranges, resource_t limit, resource_t size,
 			unsigned char align, unsigned long tag, resource_t *stolen_base,
 			bool from_top);

 #endif /* MEMRANGE_H_ */
	/* SPDX-License-Identifier: GPL-2.0-only */
	#ifndef MEMRANGE_H_
	#define MEMRANGE_H_

	#include <device/resource.h>
	#include <stdbool.h>
	#include <stddef.h>

	/* A memranges structure consists of a list of range_entry(s). The structure
	* is exposed so that a memranges can be used on the stack if needed. */
	struct memranges {
	struct range_entry *entries;
	/* coreboot doesn't have a free() function. Therefore, keep a cache of
	* free'd entries. */
	struct range_entry *free_list;
	/* Alignment(log 2) for base and end addresses of the range. */
	unsigned char align;
	};

	/* Each region within a memranges structure is represented by a
	* range_entry structure. Use the associated range_entry_(base\|end\|size\|tag)
	* functions to interrogate its properties. i.e. don't rely on one's own
	* interpretation of the fields. */
	struct range_entry {
	resource_t begin;
	resource_t end;
	unsigned long tag;
	struct range_entry *next;
	};

	/* Initialize a range_entry with inclusive beginning address and exclusive
	* end address along with the appropriate tag. */
	static inline void range_entry_init(struct range_entry *re,
	resource_t incl_begin, resource_t excl_end,
	unsigned long tag)
	{
	re->begin = incl_begin;
	re->end = excl_end - 1;
	re->tag = tag;
	re->next = NULL;
	}

	/* Return inclusive base address of memory range. */
	static inline resource_t range_entry_base(const struct range_entry *r)
	{
	return r->begin;
	}

	/* Return exclusive end address of memory range. */
	static inline resource_t range_entry_end(const struct range_entry *r)
	{
	return r->end + 1;
	}

	/* Return size of memory range. */
	static inline resource_t range_entry_size(const struct range_entry *r)
	{
	return r->end - r->begin + 1;
	}

	static inline unsigned long range_entry_tag(const struct range_entry *r)
	{
	return r->tag;
	}

	static inline void range_entry_update_tag(struct range_entry *r,
	unsigned long new_tag)
	{
	r->tag = new_tag;
	}

	static inline bool memranges_is_empty(const struct memranges *ranges)
	{
	return ranges->entries == NULL;
	}

	/* Iterate over each entry in a memranges structure. Ranges cannot
	* be deleted while processing each entry as the list cannot be safely
	* traversed after such an operation.
	* r - range_entry pointer.
	* ranges - memranges pointer */
	#define memranges_each_entry(r, ranges) \
	for (r = (ranges)->entries; r != NULL; r = r->next)

	/* Initialize memranges structure providing an optional array of range_entry
	* to use as the free list. Additionally, it accepts an align parameter that
	* represents the required alignment(log 2) of addresses. */
	void memranges_init_empty_with_alignment(struct memranges *ranges,
	struct range_entry *free,
	size_t num_free, unsigned char align);

	/* Initialize and fill a memranges structure according to the
	* mask and match type for all memory resources. Tag each entry with the
	* specified type. Additionally, it accepts an align parameter that
	* represents the required alignment(log 2) of addresses. */
	void memranges_init_with_alignment(struct memranges *ranges,
	unsigned long mask, unsigned long match,
	unsigned long tag, unsigned char align);

	/* Initialize memranges structure providing an optional array of range_entry
	* to use as the free list. Addresses are default aligned to 4KiB(2^12). */
	#define memranges_init_empty(__ranges, __free, __num_free) \
	memranges_init_empty_with_alignment(__ranges, __free, __num_free, 12)

	/* Initialize and fill a memranges structure according to the
	* mask and match type for all memory resources. Tag each entry with the
	* specified type. Addresses are default aligned to 4KiB(2^12). */
	#define memranges_init(__ranges, __mask, __match, __tag) \
	memranges_init_with_alignment(__ranges, __mask, __match, __tag, 12)

	/* Clone a memrange. The new memrange has the same entries as the old one. */
	void memranges_clone(struct memranges newranges, struct memranges oldranges);

	/* Remove and free all entries within the memranges structure. */
	void memranges_teardown(struct memranges *ranges);

	/* Add memory resources that match with the corresponding mask and match.
	* Each entry will be tagged with the provided tag. e.g. To populate
	* all cacheable memory resources in the range:
	* memranges_add_resources(range, IORESOURCE_CACHEABLE,
	* IORESROUCE_CACHEABLE, my_cacheable_tag); */
	void memranges_add_resources(struct memranges *ranges,
	unsigned long mask, unsigned long match,
	unsigned long tag);

	/* Add memory resources that match with the corresponding mask and match but
	* also provide filter as additional check. The filter will return non-zero
	* to add the resource or zero to not add the resource. Each entry will be
	* tagged with the provided tag. e.g. To populate all cacheable memory
	* resources in the range with a filter:
	* memranges_add_resources_filter(range, IORESOURCE_CACHEABLE,
	* IORESROUCE_CACHEABLE, my_cacheable_tag, filter); */
	typedef int (memrange_filter_t)(struct device dev, struct resource *res);
	void memranges_add_resources_filter(struct memranges *ranges,
	unsigned long mask, unsigned long match,
	unsigned long tag,
	memrange_filter_t filter);

	/* Fill all address ranges up to limit (exclusive) not covered by an entry by
	* inserting new entries with the provided tag. */
	void memranges_fill_holes_up_to(struct memranges *ranges,
	resource_t limit, unsigned long tag);

	/* Create a hole in the range by deleting/modifying entries that overlap with
	* the region specified by base and size. */
	void memranges_create_hole(struct memranges *ranges,
	resource_t base, resource_t size);

	/* Insert a resource to the given memranges. All existing ranges
	* covered by range specified by base and size will be removed before a
	* new one is added. */
	void memranges_insert(struct memranges *ranges,
	resource_t base, resource_t size, unsigned long tag);

	/* Update all entries with old_tag to new_tag. */
	void memranges_update_tag(struct memranges *ranges, unsigned long old_tag,
	unsigned long new_tag);

	/* Returns next entry after the provided entry. NULL if r is last. */
	struct range_entry memranges_next_entry(struct memranges ranges,
	const struct range_entry *r);

	/* Steals memory from the available list in given ranges as per the constraints:
	* limit = Upper bound for the memory range to steal (Inclusive).
	* size = Requested size for the stolen memory.
	* align = Required alignment(log 2) for the starting address of the stolen memory.
	* tag = Use a range that matches the given tag.
	* from_top = Steal the highest possible range.
	*
	* If the constraints can be satisfied, this function creates a hole in the memrange,
	* writes the base address of that hole to stolen_base and returns true. Otherwise it returns
	* false. */
	bool memranges_steal(struct memranges *ranges, resource_t limit, resource_t size,
	unsigned char align, unsigned long tag, resource_t *stolen_base,
	bool from_top);

	#endif /* MEMRANGE_H_ */