drivers/gpu/drm/xe/xe_vm.h - linux - Git at Google

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

 #ifndef _XE_VM_H_
 #define _XE_VM_H_

 #include "xe_assert.h"
 #include "xe_bo_types.h"
 #include "xe_macros.h"
 #include "xe_map.h"
 #include "xe_vm_types.h"

 struct drm_device;
 struct drm_printer;
 struct drm_file;

 struct ttm_buffer_object;

 struct dma_fence;

 struct xe_exec_queue;
 struct xe_file;
 struct xe_sync_entry;
 struct xe_svm_range;
 struct drm_exec;

 struct xe_vm *xe_vm_create(struct xe_device *xe, u32 flags, struct xe_file *xef);

 struct xe_vm *xe_vm_lookup(struct xe_file *xef, u32 id);
 int xe_vma_cmp_vma_cb(const void *key, const struct rb_node *node);

 static inline struct xe_vm *xe_vm_get(struct xe_vm *vm)
 {
 	drm_gpuvm_get(&vm->gpuvm);
 	return vm;
 }

 static inline void xe_vm_put(struct xe_vm *vm)
 {
 	drm_gpuvm_put(&vm->gpuvm);
 }

 int xe_vm_lock(struct xe_vm *vm, bool intr);

 void xe_vm_unlock(struct xe_vm *vm);

 static inline bool xe_vm_is_closed(struct xe_vm *vm)
 {
 	/* Only guaranteed not to change when vm->lock is held */
 	return !vm->size;
 }

 static inline bool xe_vm_is_banned(struct xe_vm *vm)
 {
 	return vm->flags & XE_VM_FLAG_BANNED;
 }

 static inline bool xe_vm_is_closed_or_banned(struct xe_vm *vm)
 {
 	lockdep_assert_held(&vm->lock);
 	return xe_vm_is_closed(vm) || xe_vm_is_banned(vm);
 }

 struct xe_vma *
 xe_vm_find_overlapping_vma(struct xe_vm *vm, u64 start, u64 range);

 /**
  * xe_vm_has_scratch() - Whether the vm is configured for scratch PTEs
  * @vm: The vm
  *
  * Return: whether the vm populates unmapped areas with scratch PTEs
  */
 static inline bool xe_vm_has_scratch(const struct xe_vm *vm)
 {
 	return vm->flags & XE_VM_FLAG_SCRATCH_PAGE;
 }

 /**
  * gpuvm_to_vm() - Return the embedding xe_vm from a struct drm_gpuvm pointer
  * @gpuvm: The struct drm_gpuvm pointer
  *
  * Return: Pointer to the embedding struct xe_vm.
  */
 static inline struct xe_vm *gpuvm_to_vm(struct drm_gpuvm *gpuvm)
 {
 	return container_of(gpuvm, struct xe_vm, gpuvm);
 }

 static inline struct xe_vm *gpuva_to_vm(struct drm_gpuva *gpuva)
 {
 	return gpuvm_to_vm(gpuva->vm);
 }

 static inline struct xe_vma *gpuva_to_vma(struct drm_gpuva *gpuva)
 {
 	return container_of(gpuva, struct xe_vma, gpuva);
 }

 static inline struct xe_vma_op *gpuva_op_to_vma_op(struct drm_gpuva_op *op)
 {
 	return container_of(op, struct xe_vma_op, base);
 }

 /**
  * DOC: Provide accessors for vma members to facilitate easy change of
  * implementation.
  */
 static inline u64 xe_vma_start(struct xe_vma *vma)
 {
 	return vma->gpuva.va.addr;
 }

 static inline u64 xe_vma_size(struct xe_vma *vma)
 {
 	return vma->gpuva.va.range;
 }

 static inline u64 xe_vma_end(struct xe_vma *vma)
 {
 	return xe_vma_start(vma) + xe_vma_size(vma);
 }

 static inline u64 xe_vma_bo_offset(struct xe_vma *vma)
 {
 	return vma->gpuva.gem.offset;
 }

 static inline struct xe_bo *xe_vma_bo(struct xe_vma *vma)
 {
 	return !vma->gpuva.gem.obj ? NULL :
 		container_of(vma->gpuva.gem.obj, struct xe_bo, ttm.base);
 }

 static inline struct xe_vm *xe_vma_vm(struct xe_vma *vma)
 {
 	return container_of(vma->gpuva.vm, struct xe_vm, gpuvm);
 }

 static inline bool xe_vma_read_only(struct xe_vma *vma)
 {
 	return vma->gpuva.flags & XE_VMA_READ_ONLY;
 }

 static inline u64 xe_vma_userptr(struct xe_vma *vma)
 {
 	return vma->gpuva.gem.offset;
 }

 static inline bool xe_vma_is_null(struct xe_vma *vma)
 {
 	return vma->gpuva.flags & DRM_GPUVA_SPARSE;
 }

 static inline bool xe_vma_is_cpu_addr_mirror(struct xe_vma *vma)
 {
 	return vma->gpuva.flags & XE_VMA_SYSTEM_ALLOCATOR;
 }

 static inline bool xe_vma_has_no_bo(struct xe_vma *vma)
 {
 	return !xe_vma_bo(vma);
 }

 static inline bool xe_vma_is_userptr(struct xe_vma *vma)
 {
 	return xe_vma_has_no_bo(vma) && !xe_vma_is_null(vma) &&
 		!xe_vma_is_cpu_addr_mirror(vma);
 }

 struct xe_vma *xe_vm_find_vma_by_addr(struct xe_vm *vm, u64 page_addr);

 /**
  * to_userptr_vma() - Return a pointer to an embedding userptr vma
  * @vma: Pointer to the embedded struct xe_vma
  *
  * Return: Pointer to the embedding userptr vma
  */
 static inline struct xe_userptr_vma *to_userptr_vma(struct xe_vma *vma)
 {
 	xe_assert(xe_vma_vm(vma)->xe, xe_vma_is_userptr(vma));
 	return container_of(vma, struct xe_userptr_vma, vma);
 }

 u64 xe_vm_pdp4_descriptor(struct xe_vm *vm, struct xe_tile *tile);

 int xe_vm_create_ioctl(struct drm_device *dev, void *data,
 		       struct drm_file *file);
 int xe_vm_destroy_ioctl(struct drm_device *dev, void *data,
 			struct drm_file *file);
 int xe_vm_bind_ioctl(struct drm_device *dev, void *data,
 		     struct drm_file *file);

 void xe_vm_close_and_put(struct xe_vm *vm);

 static inline bool xe_vm_in_fault_mode(struct xe_vm *vm)
 {
 	return vm->flags & XE_VM_FLAG_FAULT_MODE;
 }

 static inline bool xe_vm_in_lr_mode(struct xe_vm *vm)
 {
 	return vm->flags & XE_VM_FLAG_LR_MODE;
 }

 static inline bool xe_vm_in_preempt_fence_mode(struct xe_vm *vm)
 {
 	return xe_vm_in_lr_mode(vm) && !xe_vm_in_fault_mode(vm);
 }

 int xe_vm_add_compute_exec_queue(struct xe_vm *vm, struct xe_exec_queue *q);
 void xe_vm_remove_compute_exec_queue(struct xe_vm *vm, struct xe_exec_queue *q);

 int xe_vm_userptr_pin(struct xe_vm *vm);

 int __xe_vm_userptr_needs_repin(struct xe_vm *vm);

 int xe_vm_userptr_check_repin(struct xe_vm *vm);

 int xe_vm_rebind(struct xe_vm *vm, bool rebind_worker);
 struct dma_fence *xe_vma_rebind(struct xe_vm *vm, struct xe_vma *vma,
 				u8 tile_mask);
 struct dma_fence *xe_vm_range_rebind(struct xe_vm *vm,
 				     struct xe_vma *vma,
 				     struct xe_svm_range *range,
 				     u8 tile_mask);
 struct dma_fence *xe_vm_range_unbind(struct xe_vm *vm,
 				     struct xe_svm_range *range);

 int xe_vm_range_tilemask_tlb_invalidation(struct xe_vm *vm, u64 start,
 					  u64 end, u8 tile_mask);

 int xe_vm_invalidate_vma(struct xe_vma *vma);

 int xe_vm_validate_protected(struct xe_vm *vm);

 static inline void xe_vm_queue_rebind_worker(struct xe_vm *vm)
 {
 	xe_assert(vm->xe, xe_vm_in_preempt_fence_mode(vm));
 	queue_work(vm->xe->ordered_wq, &vm->preempt.rebind_work);
 }

 /**
  * xe_vm_reactivate_rebind() - Reactivate the rebind functionality on compute
  * vms.
  * @vm: The vm.
  *
  * If the rebind functionality on a compute vm was disabled due
  * to nothing to execute. Reactivate it and run the rebind worker.
  * This function should be called after submitting a batch to a compute vm.
  */
 static inline void xe_vm_reactivate_rebind(struct xe_vm *vm)
 {
 	if (xe_vm_in_preempt_fence_mode(vm) && vm->preempt.rebind_deactivated) {
 		vm->preempt.rebind_deactivated = false;
 		xe_vm_queue_rebind_worker(vm);
 	}
 }

 int xe_vma_userptr_pin_pages(struct xe_userptr_vma *uvma);

 int xe_vma_userptr_check_repin(struct xe_userptr_vma *uvma);

 bool xe_vm_validate_should_retry(struct drm_exec *exec, int err, ktime_t *end);

 int xe_vm_lock_vma(struct drm_exec *exec, struct xe_vma *vma);

 int xe_vm_validate_rebind(struct xe_vm *vm, struct drm_exec *exec,
 			  unsigned int num_fences);

 struct dma_fence *xe_vm_bind_kernel_bo(struct xe_vm *vm, struct xe_bo *bo,
 				       struct xe_exec_queue *q, u64 addr,
 				       enum xe_cache_level cache_lvl);

 /**
  * xe_vm_resv() - Return's the vm's reservation object
  * @vm: The vm
  *
  * Return: Pointer to the vm's reservation object.
  */
 static inline struct dma_resv *xe_vm_resv(struct xe_vm *vm)
 {
 	return drm_gpuvm_resv(&vm->gpuvm);
 }

 void xe_vm_kill(struct xe_vm *vm, bool unlocked);

 /**
  * xe_vm_assert_held(vm) - Assert that the vm's reservation object is held.
  * @vm: The vm
  */
 #define xe_vm_assert_held(vm) dma_resv_assert_held(xe_vm_resv(vm))

 #if IS_ENABLED(CONFIG_DRM_XE_DEBUG_VM)
 #define vm_dbg drm_dbg
 #else
 __printf(2, 3)
 static inline void vm_dbg(const struct drm_device *dev,
 			  const char *format, ...)
 { /* noop */ }
 #endif

 struct xe_vm_snapshot *xe_vm_snapshot_capture(struct xe_vm *vm);
 void xe_vm_snapshot_capture_delayed(struct xe_vm_snapshot *snap);
 void xe_vm_snapshot_print(struct xe_vm_snapshot *snap, struct drm_printer *p);
 void xe_vm_snapshot_free(struct xe_vm_snapshot *snap);

 /**
  * xe_vm_set_validating() - Register this task as currently making bos resident
  * @allow_res_evict: Allow eviction of buffer objects bound to @vm when
  * validating.
  * @vm: Pointer to the vm or NULL.
  *
  * Register this task as currently making bos resident for the vm. Intended
  * to avoid eviction by the same task of shared bos bound to the vm.
  * Call with the vm's resv lock held.
  *
  * Return: A pin cookie that should be used for xe_vm_clear_validating().
  */
 static inline struct pin_cookie xe_vm_set_validating(struct xe_vm *vm,
 						     bool allow_res_evict)
 {
 	struct pin_cookie cookie = {};

 	if (vm && !allow_res_evict) {
 		xe_vm_assert_held(vm);
 		cookie = lockdep_pin_lock(&xe_vm_resv(vm)->lock.base);
 		/* Pairs with READ_ONCE in xe_vm_is_validating() */
 		WRITE_ONCE(vm->validating, current);
 	}

 	return cookie;
 }

 /**
  * xe_vm_clear_validating() - Unregister this task as currently making bos resident
  * @vm: Pointer to the vm or NULL
  * @allow_res_evict: Eviction from @vm was allowed. Must be set to the same
  * value as for xe_vm_set_validation().
  * @cookie: Cookie obtained from xe_vm_set_validating().
  *
  * Register this task as currently making bos resident for the vm. Intended
  * to avoid eviction by the same task of shared bos bound to the vm.
  * Call with the vm's resv lock held.
  */
 static inline void xe_vm_clear_validating(struct xe_vm *vm, bool allow_res_evict,
 					  struct pin_cookie cookie)
 {
 	if (vm && !allow_res_evict) {
 		lockdep_unpin_lock(&xe_vm_resv(vm)->lock.base, cookie);
 		/* Pairs with READ_ONCE in xe_vm_is_validating() */
 		WRITE_ONCE(vm->validating, NULL);
 	}
 }

 /**
  * xe_vm_is_validating() - Whether bos bound to the vm are currently being made resident
  * by the current task.
  * @vm: Pointer to the vm.
  *
  * If this function returns %true, we should be in a vm resv locked region, since
  * the current process is the same task that called xe_vm_set_validating().
  * The function asserts that that's indeed the case.
  *
  * Return: %true if the task is currently making bos resident, %false otherwise.
  */
 static inline bool xe_vm_is_validating(struct xe_vm *vm)
 {
 	/* Pairs with WRITE_ONCE in xe_vm_is_validating() */
 	if (READ_ONCE(vm->validating) == current) {
 		xe_vm_assert_held(vm);
 		return true;
 	}
 	return false;
 }

 /**
  * xe_vm_has_valid_gpu_mapping() - Advisory helper to check if VMA or SVM range has
  * a valid GPU mapping
  * @tile: The tile which the GPU mapping belongs to
  * @tile_present: Tile present mask
  * @tile_invalidated: Tile invalidated mask
  *
  * The READ_ONCEs pair with WRITE_ONCEs in either the TLB invalidation paths
  * (xe_vm.c, xe_svm.c) or the binding paths (xe_pt.c). These are not reliable
  * without the notifier lock in userptr or SVM cases, and not reliable without
  * the BO dma-resv lock in the BO case. As such, they should only be used in
  * opportunistic cases (e.g., skipping a page fault fix or not skipping a TLB
  * invalidation) where it is harmless.
  *
  * Return: True is there are valid GPU pages, False otherwise
  */
 #define xe_vm_has_valid_gpu_mapping(tile, tile_present, tile_invalidated)	\
 	((READ_ONCE(tile_present) & ~READ_ONCE(tile_invalidated)) & BIT((tile)->id))

 #if IS_ENABLED(CONFIG_DRM_XE_USERPTR_INVAL_INJECT)
 void xe_vma_userptr_force_invalidate(struct xe_userptr_vma *uvma);
 #else
 static inline void xe_vma_userptr_force_invalidate(struct xe_userptr_vma *uvma)
 {
 }
 #endif
 #endif
	/* SPDX-License-Identifier: MIT */
	/*
	* Copyright © 2021 Intel Corporation
	*/

	#ifndef _XE_VM_H_
	#define _XE_VM_H_

	#include "xe_assert.h"
	#include "xe_bo_types.h"
	#include "xe_macros.h"
	#include "xe_map.h"
	#include "xe_vm_types.h"

	struct drm_device;
	struct drm_printer;
	struct drm_file;

	struct ttm_buffer_object;

	struct dma_fence;

	struct xe_exec_queue;
	struct xe_file;
	struct xe_sync_entry;
	struct xe_svm_range;
	struct drm_exec;

	struct xe_vm xe_vm_create(struct xe_device xe, u32 flags, struct xe_file *xef);

	struct xe_vm xe_vm_lookup(struct xe_file xef, u32 id);
	int xe_vma_cmp_vma_cb(const void key, const struct rb_node node);

	static inline struct xe_vm xe_vm_get(struct xe_vm vm)
	{
	drm_gpuvm_get(&vm->gpuvm);
	return vm;
	}

	static inline void xe_vm_put(struct xe_vm *vm)
	{
	drm_gpuvm_put(&vm->gpuvm);
	}

	int xe_vm_lock(struct xe_vm *vm, bool intr);

	void xe_vm_unlock(struct xe_vm *vm);

	static inline bool xe_vm_is_closed(struct xe_vm *vm)
	{
	/* Only guaranteed not to change when vm->lock is held */
	return !vm->size;
	}

	static inline bool xe_vm_is_banned(struct xe_vm *vm)
	{
	return vm->flags & XE_VM_FLAG_BANNED;
	}

	static inline bool xe_vm_is_closed_or_banned(struct xe_vm *vm)
	{
	lockdep_assert_held(&vm->lock);
	return xe_vm_is_closed(vm) \|\| xe_vm_is_banned(vm);
	}

	struct xe_vma *
	xe_vm_find_overlapping_vma(struct xe_vm *vm, u64 start, u64 range);

	/**
	* xe_vm_has_scratch() - Whether the vm is configured for scratch PTEs
	* @vm: The vm
	*
	* Return: whether the vm populates unmapped areas with scratch PTEs
	*/
	static inline bool xe_vm_has_scratch(const struct xe_vm *vm)
	{
	return vm->flags & XE_VM_FLAG_SCRATCH_PAGE;
	}

	/**
	* gpuvm_to_vm() - Return the embedding xe_vm from a struct drm_gpuvm pointer
	* @gpuvm: The struct drm_gpuvm pointer
	*
	* Return: Pointer to the embedding struct xe_vm.
	*/
	static inline struct xe_vm gpuvm_to_vm(struct drm_gpuvm gpuvm)
	{
	return container_of(gpuvm, struct xe_vm, gpuvm);
	}

	static inline struct xe_vm gpuva_to_vm(struct drm_gpuva gpuva)
	{
	return gpuvm_to_vm(gpuva->vm);
	}

	static inline struct xe_vma gpuva_to_vma(struct drm_gpuva gpuva)
	{
	return container_of(gpuva, struct xe_vma, gpuva);
	}

	static inline struct xe_vma_op gpuva_op_to_vma_op(struct drm_gpuva_op op)
	{
	return container_of(op, struct xe_vma_op, base);
	}

	/**
	* DOC: Provide accessors for vma members to facilitate easy change of
	* implementation.
	*/
	static inline u64 xe_vma_start(struct xe_vma *vma)
	{
	return vma->gpuva.va.addr;
	}

	static inline u64 xe_vma_size(struct xe_vma *vma)
	{
	return vma->gpuva.va.range;
	}

	static inline u64 xe_vma_end(struct xe_vma *vma)
	{
	return xe_vma_start(vma) + xe_vma_size(vma);
	}

	static inline u64 xe_vma_bo_offset(struct xe_vma *vma)
	{
	return vma->gpuva.gem.offset;
	}

	static inline struct xe_bo xe_vma_bo(struct xe_vma vma)
	{
	return !vma->gpuva.gem.obj ? NULL :
	container_of(vma->gpuva.gem.obj, struct xe_bo, ttm.base);
	}

	static inline struct xe_vm xe_vma_vm(struct xe_vma vma)
	{
	return container_of(vma->gpuva.vm, struct xe_vm, gpuvm);
	}

	static inline bool xe_vma_read_only(struct xe_vma *vma)
	{
	return vma->gpuva.flags & XE_VMA_READ_ONLY;
	}

	static inline u64 xe_vma_userptr(struct xe_vma *vma)
	{
	return vma->gpuva.gem.offset;
	}

	static inline bool xe_vma_is_null(struct xe_vma *vma)
	{
	return vma->gpuva.flags & DRM_GPUVA_SPARSE;
	}

	static inline bool xe_vma_is_cpu_addr_mirror(struct xe_vma *vma)
	{
	return vma->gpuva.flags & XE_VMA_SYSTEM_ALLOCATOR;
	}

	static inline bool xe_vma_has_no_bo(struct xe_vma *vma)
	{
	return !xe_vma_bo(vma);
	}

	static inline bool xe_vma_is_userptr(struct xe_vma *vma)
	{
	return xe_vma_has_no_bo(vma) && !xe_vma_is_null(vma) &&
	!xe_vma_is_cpu_addr_mirror(vma);
	}

	struct xe_vma xe_vm_find_vma_by_addr(struct xe_vm vm, u64 page_addr);

	/**
	* to_userptr_vma() - Return a pointer to an embedding userptr vma
	* @vma: Pointer to the embedded struct xe_vma
	*
	* Return: Pointer to the embedding userptr vma
	*/
	static inline struct xe_userptr_vma to_userptr_vma(struct xe_vma vma)
	{
	xe_assert(xe_vma_vm(vma)->xe, xe_vma_is_userptr(vma));
	return container_of(vma, struct xe_userptr_vma, vma);
	}

	u64 xe_vm_pdp4_descriptor(struct xe_vm vm, struct xe_tile tile);

	int xe_vm_create_ioctl(struct drm_device dev, void data,
	struct drm_file *file);
	int xe_vm_destroy_ioctl(struct drm_device dev, void data,
	struct drm_file *file);
	int xe_vm_bind_ioctl(struct drm_device dev, void data,
	struct drm_file *file);

	void xe_vm_close_and_put(struct xe_vm *vm);

	static inline bool xe_vm_in_fault_mode(struct xe_vm *vm)
	{
	return vm->flags & XE_VM_FLAG_FAULT_MODE;
	}

	static inline bool xe_vm_in_lr_mode(struct xe_vm *vm)
	{
	return vm->flags & XE_VM_FLAG_LR_MODE;
	}

	static inline bool xe_vm_in_preempt_fence_mode(struct xe_vm *vm)
	{
	return xe_vm_in_lr_mode(vm) && !xe_vm_in_fault_mode(vm);
	}

	int xe_vm_add_compute_exec_queue(struct xe_vm vm, struct xe_exec_queue q);
	void xe_vm_remove_compute_exec_queue(struct xe_vm vm, struct xe_exec_queue q);

	int xe_vm_userptr_pin(struct xe_vm *vm);

	int __xe_vm_userptr_needs_repin(struct xe_vm *vm);

	int xe_vm_userptr_check_repin(struct xe_vm *vm);

	int xe_vm_rebind(struct xe_vm *vm, bool rebind_worker);
	struct dma_fence xe_vma_rebind(struct xe_vm vm, struct xe_vma *vma,
	u8 tile_mask);
	struct dma_fence xe_vm_range_rebind(struct xe_vm vm,
	struct xe_vma *vma,
	struct xe_svm_range *range,
	u8 tile_mask);
	struct dma_fence xe_vm_range_unbind(struct xe_vm vm,
	struct xe_svm_range *range);

	int xe_vm_range_tilemask_tlb_invalidation(struct xe_vm *vm, u64 start,
	u64 end, u8 tile_mask);

	int xe_vm_invalidate_vma(struct xe_vma *vma);

	int xe_vm_validate_protected(struct xe_vm *vm);

	static inline void xe_vm_queue_rebind_worker(struct xe_vm *vm)
	{
	xe_assert(vm->xe, xe_vm_in_preempt_fence_mode(vm));
	queue_work(vm->xe->ordered_wq, &vm->preempt.rebind_work);
	}

	/**
	* xe_vm_reactivate_rebind() - Reactivate the rebind functionality on compute
	* vms.
	* @vm: The vm.
	*
	* If the rebind functionality on a compute vm was disabled due
	* to nothing to execute. Reactivate it and run the rebind worker.
	* This function should be called after submitting a batch to a compute vm.
	*/
	static inline void xe_vm_reactivate_rebind(struct xe_vm *vm)
	{
	if (xe_vm_in_preempt_fence_mode(vm) && vm->preempt.rebind_deactivated) {
	vm->preempt.rebind_deactivated = false;
	xe_vm_queue_rebind_worker(vm);
	}
	}

	int xe_vma_userptr_pin_pages(struct xe_userptr_vma *uvma);

	int xe_vma_userptr_check_repin(struct xe_userptr_vma *uvma);

	bool xe_vm_validate_should_retry(struct drm_exec exec, int err, ktime_t end);

	int xe_vm_lock_vma(struct drm_exec exec, struct xe_vma vma);

	int xe_vm_validate_rebind(struct xe_vm vm, struct drm_exec exec,
	unsigned int num_fences);

	struct dma_fence xe_vm_bind_kernel_bo(struct xe_vm vm, struct xe_bo *bo,
	struct xe_exec_queue *q, u64 addr,
	enum xe_cache_level cache_lvl);

	/**
	* xe_vm_resv() - Return's the vm's reservation object
	* @vm: The vm
	*
	* Return: Pointer to the vm's reservation object.
	*/
	static inline struct dma_resv xe_vm_resv(struct xe_vm vm)
	{
	return drm_gpuvm_resv(&vm->gpuvm);
	}

	void xe_vm_kill(struct xe_vm *vm, bool unlocked);

	/**
	* xe_vm_assert_held(vm) - Assert that the vm's reservation object is held.
	* @vm: The vm
	*/
	#define xe_vm_assert_held(vm) dma_resv_assert_held(xe_vm_resv(vm))

	#if IS_ENABLED(CONFIG_DRM_XE_DEBUG_VM)
	#define vm_dbg drm_dbg
	#else
	__printf(2, 3)
	static inline void vm_dbg(const struct drm_device *dev,
	const char *format, ...)
	{ /* noop */ }
	#endif

	struct xe_vm_snapshot xe_vm_snapshot_capture(struct xe_vm vm);
	void xe_vm_snapshot_capture_delayed(struct xe_vm_snapshot *snap);
	void xe_vm_snapshot_print(struct xe_vm_snapshot snap, struct drm_printer p);
	void xe_vm_snapshot_free(struct xe_vm_snapshot *snap);

	/**
	* xe_vm_set_validating() - Register this task as currently making bos resident
	* @allow_res_evict: Allow eviction of buffer objects bound to @vm when
	* validating.
	* @vm: Pointer to the vm or NULL.
	*
	* Register this task as currently making bos resident for the vm. Intended
	* to avoid eviction by the same task of shared bos bound to the vm.
	* Call with the vm's resv lock held.
	*
	* Return: A pin cookie that should be used for xe_vm_clear_validating().
	*/
	static inline struct pin_cookie xe_vm_set_validating(struct xe_vm *vm,
	bool allow_res_evict)
	{
	struct pin_cookie cookie = {};

	if (vm && !allow_res_evict) {
	xe_vm_assert_held(vm);
	cookie = lockdep_pin_lock(&xe_vm_resv(vm)->lock.base);
	/* Pairs with READ_ONCE in xe_vm_is_validating() */
	WRITE_ONCE(vm->validating, current);
	}

	return cookie;
	}

	/**
	* xe_vm_clear_validating() - Unregister this task as currently making bos resident
	* @vm: Pointer to the vm or NULL
	* @allow_res_evict: Eviction from @vm was allowed. Must be set to the same
	* value as for xe_vm_set_validation().
	* @cookie: Cookie obtained from xe_vm_set_validating().
	*
	* Register this task as currently making bos resident for the vm. Intended
	* to avoid eviction by the same task of shared bos bound to the vm.
	* Call with the vm's resv lock held.
	*/
	static inline void xe_vm_clear_validating(struct xe_vm *vm, bool allow_res_evict,
	struct pin_cookie cookie)
	{
	if (vm && !allow_res_evict) {
	lockdep_unpin_lock(&xe_vm_resv(vm)->lock.base, cookie);
	/* Pairs with READ_ONCE in xe_vm_is_validating() */
	WRITE_ONCE(vm->validating, NULL);
	}
	}

	/**
	* xe_vm_is_validating() - Whether bos bound to the vm are currently being made resident
	* by the current task.
	* @vm: Pointer to the vm.
	*
	* If this function returns %true, we should be in a vm resv locked region, since
	* the current process is the same task that called xe_vm_set_validating().
	* The function asserts that that's indeed the case.
	*
	* Return: %true if the task is currently making bos resident, %false otherwise.
	*/
	static inline bool xe_vm_is_validating(struct xe_vm *vm)
	{
	/* Pairs with WRITE_ONCE in xe_vm_is_validating() */
	if (READ_ONCE(vm->validating) == current) {
	xe_vm_assert_held(vm);
	return true;
	}
	return false;
	}

	/**
	* xe_vm_has_valid_gpu_mapping() - Advisory helper to check if VMA or SVM range has
	* a valid GPU mapping
	* @tile: The tile which the GPU mapping belongs to
	* @tile_present: Tile present mask
	* @tile_invalidated: Tile invalidated mask
	*
	* The READ_ONCEs pair with WRITE_ONCEs in either the TLB invalidation paths
	* (xe_vm.c, xe_svm.c) or the binding paths (xe_pt.c). These are not reliable
	* without the notifier lock in userptr or SVM cases, and not reliable without
	* the BO dma-resv lock in the BO case. As such, they should only be used in
	* opportunistic cases (e.g., skipping a page fault fix or not skipping a TLB
	* invalidation) where it is harmless.
	*
	* Return: True is there are valid GPU pages, False otherwise
	*/
	#define xe_vm_has_valid_gpu_mapping(tile, tile_present, tile_invalidated) \
	((READ_ONCE(tile_present) & ~READ_ONCE(tile_invalidated)) & BIT((tile)->id))

	#if IS_ENABLED(CONFIG_DRM_XE_USERPTR_INVAL_INJECT)
	void xe_vma_userptr_force_invalidate(struct xe_userptr_vma *uvma);
	#else
	static inline void xe_vma_userptr_force_invalidate(struct xe_userptr_vma *uvma)
	{
	}
	#endif
	#endif