Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Brost | 590 | 99.49% | 1 | 33.33% |
Thomas Hellstrom | 3 | 0.51% | 2 | 66.67% |
Total | 593 | 3 |
// 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; }
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