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/*
* SPDX-License-Identifier: MIT
*
* Copyright © 2016 Intel Corporation
*/
#ifndef __I915_GEM_OBJECT_TYPES_H__
#define __I915_GEM_OBJECT_TYPES_H__
#include <linux/mmu_notifier.h>
#include <drm/drm_gem.h>
#include <drm/ttm/ttm_bo_api.h>
#include <uapi/drm/i915_drm.h>
#include "i915_active.h"
#include "i915_selftest.h"
struct drm_i915_gem_object;
struct intel_fronbuffer;
struct intel_memory_region;
/*
* struct i915_lut_handle tracks the fast lookups from handle to vma used
* for execbuf. Although we use a radixtree for that mapping, in order to
* remove them as the object or context is closed, we need a secondary list
* and a translation entry (i915_lut_handle).
*/
struct i915_lut_handle {
struct list_head obj_link;
struct i915_gem_context *ctx;
u32 handle;
};
struct drm_i915_gem_object_ops {
unsigned int flags;
#define I915_GEM_OBJECT_IS_SHRINKABLE BIT(1)
#define I915_GEM_OBJECT_IS_PROXY BIT(2)
#define I915_GEM_OBJECT_NO_MMAP BIT(3)
/* Interface between the GEM object and its backing storage.
* get_pages() is called once prior to the use of the associated set
* of pages before to binding them into the GTT, and put_pages() is
* called after we no longer need them. As we expect there to be
* associated cost with migrating pages between the backing storage
* and making them available for the GPU (e.g. clflush), we may hold
* onto the pages after they are no longer referenced by the GPU
* in case they may be used again shortly (for example migrating the
* pages to a different memory domain within the GTT). put_pages()
* will therefore most likely be called when the object itself is
* being released or under memory pressure (where we attempt to
* reap pages for the shrinker).
*/
int (*get_pages)(struct drm_i915_gem_object *obj);
void (*put_pages)(struct drm_i915_gem_object *obj,
struct sg_table *pages);
void (*truncate)(struct drm_i915_gem_object *obj);
void (*writeback)(struct drm_i915_gem_object *obj);
int (*pread)(struct drm_i915_gem_object *obj,
const struct drm_i915_gem_pread *arg);
int (*pwrite)(struct drm_i915_gem_object *obj,
const struct drm_i915_gem_pwrite *arg);
u64 (*mmap_offset)(struct drm_i915_gem_object *obj);
int (*dmabuf_export)(struct drm_i915_gem_object *obj);
/**
* adjust_lru - notify that the madvise value was updated
* @obj: The gem object
*
* The madvise value may have been updated, or object was recently
* referenced so act accordingly (Perhaps changing an LRU list etc).
*/
void (*adjust_lru)(struct drm_i915_gem_object *obj);
/**
* delayed_free - Override the default delayed free implementation
*/
void (*delayed_free)(struct drm_i915_gem_object *obj);
/**
* migrate - Migrate object to a different region either for
* pinning or for as long as the object lock is held.
*/
int (*migrate)(struct drm_i915_gem_object *obj,
struct intel_memory_region *mr);
void (*release)(struct drm_i915_gem_object *obj);
const struct vm_operations_struct *mmap_ops;
const char *name; /* friendly name for debug, e.g. lockdep classes */
};
enum i915_map_type {
I915_MAP_WB = 0,
I915_MAP_WC,
#define I915_MAP_OVERRIDE BIT(31)
I915_MAP_FORCE_WB = I915_MAP_WB | I915_MAP_OVERRIDE,
I915_MAP_FORCE_WC = I915_MAP_WC | I915_MAP_OVERRIDE,
};
enum i915_mmap_type {
I915_MMAP_TYPE_GTT = 0,
I915_MMAP_TYPE_WC,
I915_MMAP_TYPE_WB,
I915_MMAP_TYPE_UC,
};
struct i915_mmap_offset {
struct drm_vma_offset_node vma_node;
struct drm_i915_gem_object *obj;
enum i915_mmap_type mmap_type;
struct rb_node offset;
};
struct i915_gem_object_page_iter {
struct scatterlist *sg_pos;
unsigned int sg_idx; /* in pages, but 32bit eek! */
struct radix_tree_root radix;
struct mutex lock; /* protects this cache */
};
struct drm_i915_gem_object {
/*
* We might have reason to revisit the below since it wastes
* a lot of space for non-ttm gem objects.
* In any case, always use the accessors for the ttm_buffer_object
* when accessing it.
*/
union {
struct drm_gem_object base;
struct ttm_buffer_object __do_not_access;
};
const struct drm_i915_gem_object_ops *ops;
struct {
/**
* @vma.lock: protect the list/tree of vmas
*/
spinlock_t lock;
/**
* @vma.list: List of VMAs backed by this object
*
* The VMA on this list are ordered by type, all GGTT vma are
* placed at the head and all ppGTT vma are placed at the tail.
* The different types of GGTT vma are unordered between
* themselves, use the @vma.tree (which has a defined order
* between all VMA) to quickly find an exact match.
*/
struct list_head list;
/**
* @vma.tree: Ordered tree of VMAs backed by this object
*
* All VMA created for this object are placed in the @vma.tree
* for fast retrieval via a binary search in
* i915_vma_instance(). They are also added to @vma.list for
* easy iteration.
*/
struct rb_root tree;
} vma;
/**
* @lut_list: List of vma lookup entries in use for this object.
*
* If this object is closed, we need to remove all of its VMA from
* the fast lookup index in associated contexts; @lut_list provides
* this translation from object to context->handles_vma.
*/
struct list_head lut_list;
spinlock_t lut_lock; /* guards lut_list */
/**
* @obj_link: Link into @i915_gem_ww_ctx.obj_list
*
* When we lock this object through i915_gem_object_lock() with a
* context, we add it to the list to ensure we can unlock everything
* when i915_gem_ww_ctx_backoff() or i915_gem_ww_ctx_fini() are called.
*/
struct list_head obj_link;
/**
* @shared_resv_from: The object shares the resv from this vm.
*/
struct i915_address_space *shares_resv_from;
union {
struct rcu_head rcu;
struct llist_node freed;
};
/**
* Whether the object is currently in the GGTT mmap.
*/
unsigned int userfault_count;
struct list_head userfault_link;
struct {
spinlock_t lock; /* Protects access to mmo offsets */
struct rb_root offsets;
} mmo;
I915_SELFTEST_DECLARE(struct list_head st_link);
unsigned long flags;
#define I915_BO_ALLOC_CONTIGUOUS BIT(0)
#define I915_BO_ALLOC_VOLATILE BIT(1)
#define I915_BO_ALLOC_CPU_CLEAR BIT(2)
#define I915_BO_ALLOC_USER BIT(3)
#define I915_BO_ALLOC_FLAGS (I915_BO_ALLOC_CONTIGUOUS | \
I915_BO_ALLOC_VOLATILE | \
I915_BO_ALLOC_CPU_CLEAR | \
I915_BO_ALLOC_USER)
#define I915_BO_READONLY BIT(4)
#define I915_TILING_QUIRK_BIT 5 /* unknown swizzling; do not release! */
/**
* @mem_flags - Mutable placement-related flags
*
* These are flags that indicate specifics of the memory region
* the object is currently in. As such they are only stable
* either under the object lock or if the object is pinned.
*/
unsigned int mem_flags;
#define I915_BO_FLAG_STRUCT_PAGE BIT(0) /* Object backed by struct pages */
#define I915_BO_FLAG_IOMEM BIT(1) /* Object backed by IO memory */
/*
* Is the object to be mapped as read-only to the GPU
* Only honoured if hardware has relevant pte bit
*/
unsigned int cache_level:3;
unsigned int cache_coherent:2;
#define I915_BO_CACHE_COHERENT_FOR_READ BIT(0)
#define I915_BO_CACHE_COHERENT_FOR_WRITE BIT(1)
unsigned int cache_dirty:1;
/**
* @read_domains: Read memory domains.
*
* These monitor which caches contain read/write data related to the
* object. When transitioning from one set of domains to another,
* the driver is called to ensure that caches are suitably flushed and
* invalidated.
*/
u16 read_domains;
/**
* @write_domain: Corresponding unique write memory domain.
*/
u16 write_domain;
struct intel_frontbuffer __rcu *frontbuffer;
/** Current tiling stride for the object, if it's tiled. */
unsigned int tiling_and_stride;
#define FENCE_MINIMUM_STRIDE 128 /* See i915_tiling_ok() */
#define TILING_MASK (FENCE_MINIMUM_STRIDE - 1)
#define STRIDE_MASK (~TILING_MASK)
struct {
/*
* Protects the pages and their use. Do not use directly, but
* instead go through the pin/unpin interfaces.
*/
atomic_t pages_pin_count;
atomic_t shrink_pin;
/**
* Priority list of potential placements for this object.
*/
struct intel_memory_region **placements;
int n_placements;
/**
* Memory region for this object.
*/
struct intel_memory_region *region;
/**
* Memory manager resource allocated for this object. Only
* needed for the mock region.
*/
struct ttm_resource *res;
/**
* Element within memory_region->objects or region->purgeable
* if the object is marked as DONTNEED. Access is protected by
* region->obj_lock.
*/
struct list_head region_link;
struct sg_table *pages;
void *mapping;
struct i915_page_sizes {
/**
* The sg mask of the pages sg_table. i.e the mask of
* 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;
/**
* The actual gtt page size usage. Since we can have
* multiple vma associated with this object we need to
* prevent any trampling of state, hence a copy of this
* struct also lives in each vma, therefore the gtt
* value here should only be read/write through the vma.
*/
unsigned int gtt;
} page_sizes;
I915_SELFTEST_DECLARE(unsigned int page_mask);
struct i915_gem_object_page_iter get_page;
struct i915_gem_object_page_iter get_dma_page;
/**
* Element within i915->mm.unbound_list or i915->mm.bound_list,
* locked by i915->mm.obj_lock.
*/
struct list_head link;
/**
* Advice: are the backing pages purgeable?
*/
unsigned int madv:2;
/**
* This is set if the object has been written to since the
* pages were last acquired.
*/
bool dirty:1;
} mm;
struct {
struct sg_table *cached_io_st;
struct i915_gem_object_page_iter get_io_page;
bool created:1;
} ttm;
/** Record of address bit 17 of each page at last unbind. */
unsigned long *bit_17;
union {
#ifdef CONFIG_MMU_NOTIFIER
struct i915_gem_userptr {
uintptr_t ptr;
unsigned long notifier_seq;
struct mmu_interval_notifier notifier;
struct page **pvec;
int page_ref;
} userptr;
#endif
struct drm_mm_node *stolen;
unsigned long scratch;
u64 encode;
void *gvt_info;
};
};
static inline struct drm_i915_gem_object *
to_intel_bo(struct drm_gem_object *gem)
{
/* Assert that to_intel_bo(NULL) == NULL */
BUILD_BUG_ON(offsetof(struct drm_i915_gem_object, base));
return container_of(gem, struct drm_i915_gem_object, base);
}
#endif
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