Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Auld | 349 | 100.00% | 1 | 100.00% |
Total | 349 | 1 |
/* SPDX-License-Identifier: MIT */ /* * Copyright © 2019 Intel Corporation */ #ifndef __I915_BUDDY_H__ #define __I915_BUDDY_H__ #include <linux/bitops.h> #include <linux/list.h> struct i915_buddy_block { #define I915_BUDDY_HEADER_OFFSET GENMASK_ULL(63, 12) #define I915_BUDDY_HEADER_STATE GENMASK_ULL(11, 10) #define I915_BUDDY_ALLOCATED (1 << 10) #define I915_BUDDY_FREE (2 << 10) #define I915_BUDDY_SPLIT (3 << 10) #define I915_BUDDY_HEADER_ORDER GENMASK_ULL(9, 0) u64 header; struct i915_buddy_block *left; struct i915_buddy_block *right; struct i915_buddy_block *parent; void *private; /* owned by creator */ /* * While the block is allocated by the user through i915_buddy_alloc*, * the user has ownership of the link, for example to maintain within * a list, if so desired. As soon as the block is freed with * i915_buddy_free* ownership is given back to the mm. */ struct list_head link; struct list_head tmp_link; }; #define I915_BUDDY_MAX_ORDER I915_BUDDY_HEADER_ORDER /* * Binary Buddy System. * * Locking should be handled by the user, a simple mutex around * i915_buddy_alloc* and i915_buddy_free* should suffice. */ struct i915_buddy_mm { /* Maintain a free list for each order. */ struct list_head *free_list; /* * Maintain explicit binary tree(s) to track the allocation of the * address space. This gives us a simple way of finding a buddy block * and performing the potentially recursive merge step when freeing a * block. Nodes are either allocated or free, in which case they will * also exist on the respective free list. */ struct i915_buddy_block **roots; /* * Anything from here is public, and remains static for the lifetime of * the mm. Everything above is considered do-not-touch. */ unsigned int n_roots; unsigned int max_order; /* Must be at least PAGE_SIZE */ u64 chunk_size; u64 size; }; static inline u64 i915_buddy_block_offset(struct i915_buddy_block *block) { return block->header & I915_BUDDY_HEADER_OFFSET; } static inline unsigned int i915_buddy_block_order(struct i915_buddy_block *block) { return block->header & I915_BUDDY_HEADER_ORDER; } static inline unsigned int i915_buddy_block_state(struct i915_buddy_block *block) { return block->header & I915_BUDDY_HEADER_STATE; } static inline bool i915_buddy_block_is_allocated(struct i915_buddy_block *block) { return i915_buddy_block_state(block) == I915_BUDDY_ALLOCATED; } static inline bool i915_buddy_block_is_free(struct i915_buddy_block *block) { return i915_buddy_block_state(block) == I915_BUDDY_FREE; } static inline bool i915_buddy_block_is_split(struct i915_buddy_block *block) { return i915_buddy_block_state(block) == I915_BUDDY_SPLIT; } static inline u64 i915_buddy_block_size(struct i915_buddy_mm *mm, struct i915_buddy_block *block) { return mm->chunk_size << i915_buddy_block_order(block); } int i915_buddy_init(struct i915_buddy_mm *mm, u64 size, u64 chunk_size); void i915_buddy_fini(struct i915_buddy_mm *mm); struct i915_buddy_block * i915_buddy_alloc(struct i915_buddy_mm *mm, unsigned int order); int i915_buddy_alloc_range(struct i915_buddy_mm *mm, struct list_head *blocks, u64 start, u64 size); void i915_buddy_free(struct i915_buddy_mm *mm, struct i915_buddy_block *block); void i915_buddy_free_list(struct i915_buddy_mm *mm, struct list_head *objects); #endif
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