drivers/gpu/drm/i915/i915_vma_resource.h - pub/scm/linux/kernel/git/joro/iommu - Git at Google

 /* SPDX-License-Identifier: MIT */
 /*
  * Copyright © 2021 Intel Corporation
  */

 #ifndef __I915_VMA_RESOURCE_H__
 #define __I915_VMA_RESOURCE_H__

 #include <linux/dma-fence.h>
 #include <linux/refcount.h>

 #include "i915_gem.h"
 #include "i915_scatterlist.h"
 #include "i915_sw_fence.h"
 #include "intel_runtime_pm.h"

 struct intel_memory_region;

 struct i915_page_sizes {
 	/**
 	 * The sg mask of the pages sg_table. i.e the mask of
 	 * the lengths for each sg entry.
 	 */
 	unsigned int phys;

 	/**
 	 * The gtt page sizes we are allowed to use given the
 	 * sg mask and the supported page sizes. This will
 	 * express the smallest unit we can use for the whole
 	 * object, as well as the larger sizes we may be able
 	 * to use opportunistically.
 	 */
 	unsigned int sg;
 };

 /**
  * struct i915_vma_bindinfo - Information needed for async bind
  * only but that can be dropped after the bind has taken place.
  * Consider making this a separate argument to the bind_vma
  * op, coalescing with other arguments like vm, stash, cache_level
  * and flags
  * @pages: The pages sg-table.
  * @page_sizes: Page sizes of the pages.
  * @pages_rsgt: Refcounted sg-table when delayed object destruction
  * is supported. May be NULL.
  * @readonly: Whether the vma should be bound read-only.
  * @lmem: Whether the vma points to lmem.
  */
 struct i915_vma_bindinfo {
 	struct sg_table *pages;
 	struct i915_page_sizes page_sizes;
 	struct i915_refct_sgt *pages_rsgt;
 	bool readonly:1;
 	bool lmem:1;
 };

 /**
  * struct i915_vma_resource - Snapshotted unbind information.
  * @unbind_fence: Fence to mark unbinding complete. Note that this fence
  * is not considered published until unbind is scheduled, and as such it
  * is illegal to access this fence before scheduled unbind other than
  * for refcounting.
  * @lock: The @unbind_fence lock.
  * @hold_count: Number of holders blocking the fence from finishing.
  * The vma itself is keeping a hold, which is released when unbind
  * is scheduled.
  * @work: Work struct for deferred unbind work.
  * @chain: Pointer to struct i915_sw_fence used to await dependencies.
  * @rb: Rb node for the vm's pending unbind interval tree.
  * @__subtree_last: Interval tree private member.
  * @wakeref: wakeref.
  * @vm: non-refcounted pointer to the vm. This is for internal use only and
  * this member is cleared after vm_resource unbind.
  * @mr: The memory region of the object pointed to by the vma.
  * @ops: Pointer to the backend i915_vma_ops.
  * @private: Bind backend private info.
  * @start: Offset into the address space of bind range start. Note that
  * this is after any padding that might have been allocated.
  * @node_size: Size of the allocated range manager node with padding
  * subtracted.
  * @vma_size: Bind size.
  * @guard: The size of guard area preceding and trailing the bind.
  * @page_sizes_gtt: Resulting page sizes from the bind operation.
  * @bound_flags: Flags indicating binding status.
  * @allocated: Backend private data. TODO: Should move into @private.
  * @immediate_unbind: Unbind can be done immediately and doesn't need to be
  * deferred to a work item awaiting unsignaled fences. This is a hack.
  * (dma_fence_work uses a fence flag for this, but this seems slightly
  * cleaner).
  * @needs_wakeref: Whether a wakeref is needed during unbind. Since we can't
  * take a wakeref in the dma-fence signalling critical path, it needs to be
  * taken when the unbind is scheduled.
  * @skip_pte_rewrite: During ggtt suspend and vm takedown pte rewriting
  * needs to be skipped for unbind.
  * @tlb: pointer for obj->mm.tlb, if async unbind. Otherwise, NULL
  *
  * The lifetime of a struct i915_vma_resource is from a binding request to
  * the actual possible asynchronous unbind has completed.
  */
 struct i915_vma_resource {
 	struct dma_fence unbind_fence;
 	/* See above for description of the lock. */
 	spinlock_t lock;
 	refcount_t hold_count;
 	struct work_struct work;
 	struct i915_sw_fence chain;
 	struct rb_node rb;
 	u64 __subtree_last;
 	struct i915_address_space *vm;
 	intel_wakeref_t wakeref;

 	/**
 	 * @bi: Information needed for async bind only but that can be dropped
 	 * after the bind has taken place.
 	 *
 	 * Consider making this a separate argument to the bind_vma op,
 	 * coalescing with other arguments like vm, stash, cache_level and flags
 	 */
 	struct i915_vma_bindinfo bi;

 #if IS_ENABLED(CONFIG_DRM_I915_CAPTURE_ERROR)
 	struct intel_memory_region *mr;
 #endif
 	const struct i915_vma_ops *ops;
 	void *private;
 	u64 start;
 	u64 node_size;
 	u64 vma_size;
 	u32 guard;
 	u32 page_sizes_gtt;

 	u32 bound_flags;
 	bool allocated:1;
 	bool immediate_unbind:1;
 	bool needs_wakeref:1;
 	bool skip_pte_rewrite:1;

 	u32 *tlb;
 };

 bool i915_vma_resource_hold(struct i915_vma_resource *vma_res,
 			    bool *lockdep_cookie);

 void i915_vma_resource_unhold(struct i915_vma_resource *vma_res,
 			      bool lockdep_cookie);

 struct i915_vma_resource *i915_vma_resource_alloc(void);

 void i915_vma_resource_free(struct i915_vma_resource *vma_res);

 struct dma_fence *i915_vma_resource_unbind(struct i915_vma_resource *vma_res,
 					   u32 *tlb);

 void __i915_vma_resource_init(struct i915_vma_resource *vma_res);

 /**
  * i915_vma_resource_get - Take a reference on a vma resource
  * @vma_res: The vma resource on which to take a reference.
  *
  * Return: The @vma_res pointer
  */
 static inline struct i915_vma_resource
 *i915_vma_resource_get(struct i915_vma_resource *vma_res)
 {
 	dma_fence_get(&vma_res->unbind_fence);
 	return vma_res;
 }

 /**
  * i915_vma_resource_put - Release a reference to a struct i915_vma_resource
  * @vma_res: The resource
  */
 static inline void i915_vma_resource_put(struct i915_vma_resource *vma_res)
 {
 	dma_fence_put(&vma_res->unbind_fence);
 }

 /**
  * i915_vma_resource_init - Initialize a vma resource.
  * @vma_res: The vma resource to initialize
  * @vm: Pointer to the vm.
  * @pages: The pages sg-table.
  * @page_sizes: Page sizes of the pages.
  * @pages_rsgt: Pointer to a struct i915_refct_sgt of an object with
  * delayed destruction.
  * @readonly: Whether the vma should be bound read-only.
  * @lmem: Whether the vma points to lmem.
  * @mr: The memory region of the object the vma points to.
  * @ops: The backend ops.
  * @private: Bind backend private info.
  * @start: Offset into the address space of bind range start after padding.
  * @node_size: Size of the allocated range manager node minus padding.
  * @size: Bind size.
  * @guard: The size of the guard area preceding and trailing the bind.
  *
  * Initializes a vma resource allocated using i915_vma_resource_alloc().
  * The reason for having separate allocate and initialize function is that
  * initialization may need to be performed from under a lock where
  * allocation is not allowed.
  */
 static inline void i915_vma_resource_init(struct i915_vma_resource *vma_res,
 					  struct i915_address_space *vm,
 					  struct sg_table *pages,
 					  const struct i915_page_sizes *page_sizes,
 					  struct i915_refct_sgt *pages_rsgt,
 					  bool readonly,
 					  bool lmem,
 					  struct intel_memory_region *mr,
 					  const struct i915_vma_ops *ops,
 					  void *private,
 					  u64 start,
 					  u64 node_size,
 					  u64 size,
 					  u32 guard)
 {
 	__i915_vma_resource_init(vma_res);
 	vma_res->vm = vm;
 	vma_res->bi.pages = pages;
 	vma_res->bi.page_sizes = *page_sizes;
 	if (pages_rsgt)
 		vma_res->bi.pages_rsgt = i915_refct_sgt_get(pages_rsgt);
 	vma_res->bi.readonly = readonly;
 	vma_res->bi.lmem = lmem;
 #if IS_ENABLED(CONFIG_DRM_I915_CAPTURE_ERROR)
 	vma_res->mr = mr;
 #endif
 	vma_res->ops = ops;
 	vma_res->private = private;
 	vma_res->start = start;
 	vma_res->node_size = node_size;
 	vma_res->vma_size = size;
 	vma_res->guard = guard;
 }

 static inline void i915_vma_resource_fini(struct i915_vma_resource *vma_res)
 {
 	GEM_BUG_ON(refcount_read(&vma_res->hold_count) != 1);
 	if (vma_res->bi.pages_rsgt)
 		i915_refct_sgt_put(vma_res->bi.pages_rsgt);
 	i915_sw_fence_fini(&vma_res->chain);
 }

 int i915_vma_resource_bind_dep_sync(struct i915_address_space *vm,
 				    u64 first,
 				    u64 last,
 				    bool intr);

 int i915_vma_resource_bind_dep_await(struct i915_address_space *vm,
 				     struct i915_sw_fence *sw_fence,
 				     u64 first,
 				     u64 last,
 				     bool intr,
 				     gfp_t gfp);

 void i915_vma_resource_bind_dep_sync_all(struct i915_address_space *vm);

 void i915_vma_resource_module_exit(void);

 int i915_vma_resource_module_init(void);

 #endif
	/* SPDX-License-Identifier: MIT */
	/*
	* Copyright © 2021 Intel Corporation
	*/

	#ifndef __I915_VMA_RESOURCE_H__
	#define __I915_VMA_RESOURCE_H__

	#include <linux/dma-fence.h>
	#include <linux/refcount.h>

	#include "i915_gem.h"
	#include "i915_scatterlist.h"
	#include "i915_sw_fence.h"
	#include "intel_runtime_pm.h"

	struct intel_memory_region;

	struct i915_page_sizes {
	/**
	* The sg mask of the pages sg_table. i.e the mask of
	* the lengths for each sg entry.
	*/
	unsigned int phys;

	/**
	* The gtt page sizes we are allowed to use given the
	* sg mask and the supported page sizes. This will
	* express the smallest unit we can use for the whole
	* object, as well as the larger sizes we may be able
	* to use opportunistically.
	*/
	unsigned int sg;
	};

	/**
	* struct i915_vma_bindinfo - Information needed for async bind
	* only but that can be dropped after the bind has taken place.
	* Consider making this a separate argument to the bind_vma
	* op, coalescing with other arguments like vm, stash, cache_level
	* and flags
	* @pages: The pages sg-table.
	* @page_sizes: Page sizes of the pages.
	* @pages_rsgt: Refcounted sg-table when delayed object destruction
	* is supported. May be NULL.
	* @readonly: Whether the vma should be bound read-only.
	* @lmem: Whether the vma points to lmem.
	*/
	struct i915_vma_bindinfo {
	struct sg_table *pages;
	struct i915_page_sizes page_sizes;
	struct i915_refct_sgt *pages_rsgt;
	bool readonly:1;
	bool lmem:1;
	};

	/**
	* struct i915_vma_resource - Snapshotted unbind information.
	* @unbind_fence: Fence to mark unbinding complete. Note that this fence
	* is not considered published until unbind is scheduled, and as such it
	* is illegal to access this fence before scheduled unbind other than
	* for refcounting.
	* @lock: The @unbind_fence lock.
	* @hold_count: Number of holders blocking the fence from finishing.
	* The vma itself is keeping a hold, which is released when unbind
	* is scheduled.
	* @work: Work struct for deferred unbind work.
	* @chain: Pointer to struct i915_sw_fence used to await dependencies.
	* @rb: Rb node for the vm's pending unbind interval tree.
	* @__subtree_last: Interval tree private member.
	* @wakeref: wakeref.
	* @vm: non-refcounted pointer to the vm. This is for internal use only and
	* this member is cleared after vm_resource unbind.
	* @mr: The memory region of the object pointed to by the vma.
	* @ops: Pointer to the backend i915_vma_ops.
	* @private: Bind backend private info.
	* @start: Offset into the address space of bind range start. Note that
	* this is after any padding that might have been allocated.
	* @node_size: Size of the allocated range manager node with padding
	* subtracted.
	* @vma_size: Bind size.
	* @guard: The size of guard area preceding and trailing the bind.
	* @page_sizes_gtt: Resulting page sizes from the bind operation.
	* @bound_flags: Flags indicating binding status.
	* @allocated: Backend private data. TODO: Should move into @private.
	* @immediate_unbind: Unbind can be done immediately and doesn't need to be
	* deferred to a work item awaiting unsignaled fences. This is a hack.
	* (dma_fence_work uses a fence flag for this, but this seems slightly
	* cleaner).
	* @needs_wakeref: Whether a wakeref is needed during unbind. Since we can't
	* take a wakeref in the dma-fence signalling critical path, it needs to be
	* taken when the unbind is scheduled.
	* @skip_pte_rewrite: During ggtt suspend and vm takedown pte rewriting
	* needs to be skipped for unbind.
	* @tlb: pointer for obj->mm.tlb, if async unbind. Otherwise, NULL
	*
	* The lifetime of a struct i915_vma_resource is from a binding request to
	* the actual possible asynchronous unbind has completed.
	*/
	struct i915_vma_resource {
	struct dma_fence unbind_fence;
	/* See above for description of the lock. */
	spinlock_t lock;
	refcount_t hold_count;
	struct work_struct work;
	struct i915_sw_fence chain;
	struct rb_node rb;
	u64 __subtree_last;
	struct i915_address_space *vm;
	intel_wakeref_t wakeref;

	/**
	* @bi: Information needed for async bind only but that can be dropped
	* after the bind has taken place.
	*
	* Consider making this a separate argument to the bind_vma op,
	* coalescing with other arguments like vm, stash, cache_level and flags
	*/
	struct i915_vma_bindinfo bi;

	#if IS_ENABLED(CONFIG_DRM_I915_CAPTURE_ERROR)
	struct intel_memory_region *mr;
	#endif
	const struct i915_vma_ops *ops;
	void *private;
	u64 start;
	u64 node_size;
	u64 vma_size;
	u32 guard;
	u32 page_sizes_gtt;

	u32 bound_flags;
	bool allocated:1;
	bool immediate_unbind:1;
	bool needs_wakeref:1;
	bool skip_pte_rewrite:1;

	u32 *tlb;
	};

	bool i915_vma_resource_hold(struct i915_vma_resource *vma_res,
	bool *lockdep_cookie);

	void i915_vma_resource_unhold(struct i915_vma_resource *vma_res,
	bool lockdep_cookie);

	struct i915_vma_resource *i915_vma_resource_alloc(void);

	void i915_vma_resource_free(struct i915_vma_resource *vma_res);

	struct dma_fence i915_vma_resource_unbind(struct i915_vma_resource vma_res,
	u32 *tlb);

	void __i915_vma_resource_init(struct i915_vma_resource *vma_res);

	/**
	* i915_vma_resource_get - Take a reference on a vma resource
	* @vma_res: The vma resource on which to take a reference.
	*
	* Return: The @vma_res pointer
	*/
	static inline struct i915_vma_resource
	i915_vma_resource_get(struct i915_vma_resource vma_res)
	{
	dma_fence_get(&vma_res->unbind_fence);
	return vma_res;
	}

	/**
	* i915_vma_resource_put - Release a reference to a struct i915_vma_resource
	* @vma_res: The resource
	*/
	static inline void i915_vma_resource_put(struct i915_vma_resource *vma_res)
	{
	dma_fence_put(&vma_res->unbind_fence);
	}

	/**
	* i915_vma_resource_init - Initialize a vma resource.
	* @vma_res: The vma resource to initialize
	* @vm: Pointer to the vm.
	* @pages: The pages sg-table.
	* @page_sizes: Page sizes of the pages.
	* @pages_rsgt: Pointer to a struct i915_refct_sgt of an object with
	* delayed destruction.
	* @readonly: Whether the vma should be bound read-only.
	* @lmem: Whether the vma points to lmem.
	* @mr: The memory region of the object the vma points to.
	* @ops: The backend ops.
	* @private: Bind backend private info.
	* @start: Offset into the address space of bind range start after padding.
	* @node_size: Size of the allocated range manager node minus padding.
	* @size: Bind size.
	* @guard: The size of the guard area preceding and trailing the bind.
	*
	* Initializes a vma resource allocated using i915_vma_resource_alloc().
	* The reason for having separate allocate and initialize function is that
	* initialization may need to be performed from under a lock where
	* allocation is not allowed.
	*/
	static inline void i915_vma_resource_init(struct i915_vma_resource *vma_res,
	struct i915_address_space *vm,
	struct sg_table *pages,
	const struct i915_page_sizes *page_sizes,
	struct i915_refct_sgt *pages_rsgt,
	bool readonly,
	bool lmem,
	struct intel_memory_region *mr,
	const struct i915_vma_ops *ops,
	void *private,
	u64 start,
	u64 node_size,
	u64 size,
	u32 guard)
	{
	__i915_vma_resource_init(vma_res);
	vma_res->vm = vm;
	vma_res->bi.pages = pages;
	vma_res->bi.page_sizes = *page_sizes;
	if (pages_rsgt)
	vma_res->bi.pages_rsgt = i915_refct_sgt_get(pages_rsgt);
	vma_res->bi.readonly = readonly;
	vma_res->bi.lmem = lmem;
	#if IS_ENABLED(CONFIG_DRM_I915_CAPTURE_ERROR)
	vma_res->mr = mr;
	#endif
	vma_res->ops = ops;
	vma_res->private = private;
	vma_res->start = start;
	vma_res->node_size = node_size;
	vma_res->vma_size = size;
	vma_res->guard = guard;
	}

	static inline void i915_vma_resource_fini(struct i915_vma_resource *vma_res)
	{
	GEM_BUG_ON(refcount_read(&vma_res->hold_count) != 1);
	if (vma_res->bi.pages_rsgt)
	i915_refct_sgt_put(vma_res->bi.pages_rsgt);
	i915_sw_fence_fini(&vma_res->chain);
	}

	int i915_vma_resource_bind_dep_sync(struct i915_address_space *vm,
	u64 first,
	u64 last,
	bool intr);

	int i915_vma_resource_bind_dep_await(struct i915_address_space *vm,
	struct i915_sw_fence *sw_fence,
	u64 first,
	u64 last,
	bool intr,
	gfp_t gfp);

	void i915_vma_resource_bind_dep_sync_all(struct i915_address_space *vm);

	void i915_vma_resource_module_exit(void);

	int i915_vma_resource_module_init(void);

	#endif