drivers/gpu/drm/xe/xe_pt_walk.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0-only
 /*
  * Copyright © 2022 Intel Corporation
  */
 #include "xe_pt_walk.h"

 /**
  * DOC: GPU page-table tree walking.
  * The utilities in this file are similar to the CPU page-table walk
  * utilities in mm/pagewalk.c. The main difference is that we distinguish
  * the various levels of a page-table tree with an unsigned integer rather
  * than by name. 0 is the lowest level, and page-tables with level 0 can
  * not be directories pointing to lower levels, whereas all other levels
  * can. The user of the utilities determines the highest level.
  *
  * Nomenclature:
  * Each struct xe_ptw, regardless of level is referred to as a page table, and
  * multiple page tables typically form a page table tree with page tables at
  * intermediate levels being page directories pointing at page tables at lower
  * levels. A shared page table for a given address range is a page-table which
  * is neither fully within nor fully outside the address range and that can
  * thus be shared by two or more address ranges.
  *
  * Please keep this code generic so that it can used as a drm-wide page-
  * table walker should other drivers find use for it.
  */
 static u64 xe_pt_addr_end(u64 addr, u64 end, unsigned int level,
 			  const struct xe_pt_walk *walk)
 {
 	u64 size = 1ull << walk->shifts[level];
 	u64 tmp = round_up(addr + 1, size);

 	return min_t(u64, tmp, end);
 }

 static bool xe_pt_next(pgoff_t *offset, u64 *addr, u64 next, u64 end,
 		       unsigned int level, const struct xe_pt_walk *walk)
 {
 	pgoff_t step = 1;

 	/* Shared pt walk skips to the last pagetable */
 	if (unlikely(walk->shared_pt_mode)) {
 		unsigned int shift = walk->shifts[level];
 		u64 skip_to = round_down(end, 1ull << shift);

 		if (skip_to > next) {
 			step += (skip_to - next) >> shift;
 			next = skip_to;
 		}
 	}

 	*addr = next;
 	*offset += step;

 	return next != end;
 }

 /**
  * xe_pt_walk_range() - Walk a range of a gpu page table tree with callbacks
  * for each page-table entry in all levels.
  * @parent: The root page table for walk start.
  * @level: The root page table level.
  * @addr: Virtual address start.
  * @end: Virtual address end + 1.
  * @walk: Walk info.
  *
  * Similar to the CPU page-table walker, this is a helper to walk
  * a gpu page table and call a provided callback function for each entry.
  *
  * Return: 0 on success, negative error code on error. The error is
  * propagated from the callback and on error the walk is terminated.
  */
 int xe_pt_walk_range(struct xe_ptw *parent, unsigned int level,
 		     u64 addr, u64 end, struct xe_pt_walk *walk)
 {
 	pgoff_t offset = xe_pt_offset(addr, level, walk);
 	struct xe_ptw **entries = parent->children ? parent->children : NULL;
 	const struct xe_pt_walk_ops *ops = walk->ops;
 	enum page_walk_action action;
 	struct xe_ptw *child;
 	int err = 0;
 	u64 next;

 	do {
 		next = xe_pt_addr_end(addr, end, level, walk);
 		if (walk->shared_pt_mode && xe_pt_covers(addr, next, level,
 							 walk))
 			continue;
 again:
 		action = ACTION_SUBTREE;
 		child = entries ? entries[offset] : NULL;
 		err = ops->pt_entry(parent, offset, level, addr, next,
 				    &child, &action, walk);
 		if (err)
 			break;

 		/* Probably not needed yet for gpu pagetable walk. */
 		if (unlikely(action == ACTION_AGAIN))
 			goto again;

 		if (likely(!level || !child || action == ACTION_CONTINUE))
 			continue;

 		err = xe_pt_walk_range(child, level - 1, addr, next, walk);

 		if (!err && ops->pt_post_descend)
 			err = ops->pt_post_descend(parent, offset, level, addr,
 						   next, &child, &action, walk);
 		if (err)
 			break;

 	} while (xe_pt_next(&offset, &addr, next, end, level, walk));

 	return err;
 }

 /**
  * xe_pt_walk_shared() - Walk shared page tables of a page-table tree.
  * @parent: Root page table directory.
  * @level: Level of the root.
  * @addr: Start address.
  * @end: Last address + 1.
  * @walk: Walk info.
  *
  * This function is similar to xe_pt_walk_range() but it skips page tables
  * that are private to the range. Since the root (or @parent) page table is
  * typically also a shared page table this function is different in that it
  * calls the pt_entry callback and the post_descend callback also for the
  * root. The root can be detected in the callbacks by checking whether
  * parent == *child.
  * Walking only the shared page tables is common for unbind-type operations
  * where the page-table entries for an address range are cleared or detached
  * from the main page-table tree.
  *
  * Return: 0 on success, negative error code on error: If a callback
  * returns an error, the walk will be terminated and the error returned by
  * this function.
  */
 int xe_pt_walk_shared(struct xe_ptw *parent, unsigned int level,
 		      u64 addr, u64 end, struct xe_pt_walk *walk)
 {
 	const struct xe_pt_walk_ops *ops = walk->ops;
 	enum page_walk_action action = ACTION_SUBTREE;
 	struct xe_ptw *child = parent;
 	int err;

 	walk->shared_pt_mode = true;
 	err = walk->ops->pt_entry(parent, 0, level + 1, addr, end,
 				  &child, &action, walk);

 	if (err || action != ACTION_SUBTREE)
 		return err;

 	err = xe_pt_walk_range(parent, level, addr, end, walk);
 	if (!err && ops->pt_post_descend) {
 		err = ops->pt_post_descend(parent, 0, level + 1, addr, end,
 					   &child, &action, walk);
 	}
 	return err;
 }
	// SPDX-License-Identifier: GPL-2.0-only
	/*
	* Copyright © 2022 Intel Corporation
	*/
	#include "xe_pt_walk.h"

	/**
	* DOC: GPU page-table tree walking.
	* The utilities in this file are similar to the CPU page-table walk
	* utilities in mm/pagewalk.c. The main difference is that we distinguish
	* the various levels of a page-table tree with an unsigned integer rather
	* than by name. 0 is the lowest level, and page-tables with level 0 can
	* not be directories pointing to lower levels, whereas all other levels
	* can. The user of the utilities determines the highest level.
	*
	* Nomenclature:
	* Each struct xe_ptw, regardless of level is referred to as a page table, and
	* multiple page tables typically form a page table tree with page tables at
	* intermediate levels being page directories pointing at page tables at lower
	* levels. A shared page table for a given address range is a page-table which
	* is neither fully within nor fully outside the address range and that can
	* thus be shared by two or more address ranges.
	*
	* Please keep this code generic so that it can used as a drm-wide page-
	* table walker should other drivers find use for it.
	*/
	static u64 xe_pt_addr_end(u64 addr, u64 end, unsigned int level,
	const struct xe_pt_walk *walk)
	{
	u64 size = 1ull << walk->shifts[level];
	u64 tmp = round_up(addr + 1, size);

	return min_t(u64, tmp, end);
	}

	static bool xe_pt_next(pgoff_t offset, u64 addr, u64 next, u64 end,
	unsigned int level, const struct xe_pt_walk *walk)
	{
	pgoff_t step = 1;

	/* Shared pt walk skips to the last pagetable */
	if (unlikely(walk->shared_pt_mode)) {
	unsigned int shift = walk->shifts[level];
	u64 skip_to = round_down(end, 1ull << shift);

	if (skip_to > next) {
	step += (skip_to - next) >> shift;
	next = skip_to;
	}
	}

	*addr = next;
	*offset += step;

	return next != end;
	}

	/**
	* xe_pt_walk_range() - Walk a range of a gpu page table tree with callbacks
	* for each page-table entry in all levels.
	* @parent: The root page table for walk start.
	* @level: The root page table level.
	* @addr: Virtual address start.
	* @end: Virtual address end + 1.
	* @walk: Walk info.
	*
	* Similar to the CPU page-table walker, this is a helper to walk
	* a gpu page table and call a provided callback function for each entry.
	*
	* Return: 0 on success, negative error code on error. The error is
	* propagated from the callback and on error the walk is terminated.
	*/
	int xe_pt_walk_range(struct xe_ptw *parent, unsigned int level,
	u64 addr, u64 end, struct xe_pt_walk *walk)
	{
	pgoff_t offset = xe_pt_offset(addr, level, walk);
	struct xe_ptw **entries = parent->children ? parent->children : NULL;
	const struct xe_pt_walk_ops *ops = walk->ops;
	enum page_walk_action action;
	struct xe_ptw *child;
	int err = 0;
	u64 next;

	do {
	next = xe_pt_addr_end(addr, end, level, walk);
	if (walk->shared_pt_mode && xe_pt_covers(addr, next, level,
	walk))
	continue;
	again:
	action = ACTION_SUBTREE;
	child = entries ? entries[offset] : NULL;
	err = ops->pt_entry(parent, offset, level, addr, next,
	&child, &action, walk);
	if (err)
	break;

	/* Probably not needed yet for gpu pagetable walk. */
	if (unlikely(action == ACTION_AGAIN))
	goto again;

	if (likely(!level \|\| !child \|\| action == ACTION_CONTINUE))
	continue;

	err = xe_pt_walk_range(child, level - 1, addr, next, walk);

	if (!err && ops->pt_post_descend)
	err = ops->pt_post_descend(parent, offset, level, addr,
	next, &child, &action, walk);
	if (err)
	break;

	} while (xe_pt_next(&offset, &addr, next, end, level, walk));

	return err;
	}

	/**
	* xe_pt_walk_shared() - Walk shared page tables of a page-table tree.
	* @parent: Root page table directory.
	* @level: Level of the root.
	* @addr: Start address.
	* @end: Last address + 1.
	* @walk: Walk info.
	*
	* This function is similar to xe_pt_walk_range() but it skips page tables
	* that are private to the range. Since the root (or @parent) page table is
	* typically also a shared page table this function is different in that it
	* calls the pt_entry callback and the post_descend callback also for the
	* root. The root can be detected in the callbacks by checking whether
	* parent == *child.
	* Walking only the shared page tables is common for unbind-type operations
	* where the page-table entries for an address range are cleared or detached
	* from the main page-table tree.
	*
	* Return: 0 on success, negative error code on error: If a callback
	* returns an error, the walk will be terminated and the error returned by
	* this function.
	*/
	int xe_pt_walk_shared(struct xe_ptw *parent, unsigned int level,
	u64 addr, u64 end, struct xe_pt_walk *walk)
	{
	const struct xe_pt_walk_ops *ops = walk->ops;
	enum page_walk_action action = ACTION_SUBTREE;
	struct xe_ptw *child = parent;
	int err;

	walk->shared_pt_mode = true;
	err = walk->ops->pt_entry(parent, 0, level + 1, addr, end,
	&child, &action, walk);

	if (err \|\| action != ACTION_SUBTREE)
	return err;

	err = xe_pt_walk_range(parent, level, addr, end, walk);
	if (!err && ops->pt_post_descend) {
	err = ops->pt_post_descend(parent, 0, level + 1, addr, end,
	&child, &action, walk);
	}
	return err;
	}