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- /* SPDX-License-Identifier: MIT */
- /*
- * Copyright © 2023 Intel Corporation
- */
- #ifndef _UAPI_XE_DRM_H_
- #define _UAPI_XE_DRM_H_
- #include "drm.h"
- #if defined(__cplusplus)
- extern "C" {
- #endif
- /*
- * Please note that modifications to all structs defined here are
- * subject to backwards-compatibility constraints.
- * Sections in this file are organized as follows:
- * 1. IOCTL definition
- * 2. Extension definition and helper structs
- * 3. IOCTL's Query structs in the order of the Query's entries.
- * 4. The rest of IOCTL structs in the order of IOCTL declaration.
- */
- /**
- * DOC: Xe Device Block Diagram
- *
- * The diagram below represents a high-level simplification of a discrete
- * GPU supported by the Xe driver. It shows some device components which
- * are necessary to understand this API, as well as how their relations
- * to each other. This diagram does not represent real hardware::
- *
- * ┌──────────────────────────────────────────────────────────────────┐
- * │ ┌──────────────────────────────────────────────────┐ ┌─────────┐ │
- * │ │ ┌───────────────────────┐ ┌─────┐ │ │ ┌─────┐ │ │
- * │ │ │ VRAM0 ├───┤ ... │ │ │ │VRAM1│ │ │
- * │ │ └───────────┬───────────┘ └─GT1─┘ │ │ └──┬──┘ │ │
- * │ │ ┌──────────────────┴───────────────────────────┐ │ │ ┌──┴──┐ │ │
- * │ │ │ ┌─────────────────────┐ ┌─────────────────┐ │ │ │ │ │ │ │
- * │ │ │ │ ┌──┐ ┌──┐ ┌──┐ ┌──┐ │ │ ┌─────┐ ┌─────┐ │ │ │ │ │ │ │ │
- * │ │ │ │ │EU│ │EU│ │EU│ │EU│ │ │ │RCS0 │ │BCS0 │ │ │ │ │ │ │ │ │
- * │ │ │ │ └──┘ └──┘ └──┘ └──┘ │ │ └─────┘ └─────┘ │ │ │ │ │ │ │ │
- * │ │ │ │ ┌──┐ ┌──┐ ┌──┐ ┌──┐ │ │ ┌─────┐ ┌─────┐ │ │ │ │ │ │ │ │
- * │ │ │ │ │EU│ │EU│ │EU│ │EU│ │ │ │VCS0 │ │VCS1 │ │ │ │ │ │ │ │ │
- * │ │ │ │ └──┘ └──┘ └──┘ └──┘ │ │ └─────┘ └─────┘ │ │ │ │ │ │ │ │
- * │ │ │ │ ┌──┐ ┌──┐ ┌──┐ ┌──┐ │ │ ┌─────┐ ┌─────┐ │ │ │ │ │ │ │ │
- * │ │ │ │ │EU│ │EU│ │EU│ │EU│ │ │ │VECS0│ │VECS1│ │ │ │ │ │ ... │ │ │
- * │ │ │ │ └──┘ └──┘ └──┘ └──┘ │ │ └─────┘ └─────┘ │ │ │ │ │ │ │ │
- * │ │ │ │ ┌──┐ ┌──┐ ┌──┐ ┌──┐ │ │ ┌─────┐ ┌─────┐ │ │ │ │ │ │ │ │
- * │ │ │ │ │EU│ │EU│ │EU│ │EU│ │ │ │CCS0 │ │CCS1 │ │ │ │ │ │ │ │ │
- * │ │ │ │ └──┘ └──┘ └──┘ └──┘ │ │ └─────┘ └─────┘ │ │ │ │ │ │ │ │
- * │ │ │ └─────────DSS─────────┘ │ ┌─────┐ ┌─────┐ │ │ │ │ │ │ │ │
- * │ │ │ │ │CCS2 │ │CCS3 │ │ │ │ │ │ │ │ │
- * │ │ │ ┌─────┐ ┌─────┐ ┌─────┐ │ └─────┘ └─────┘ │ │ │ │ │ │ │ │
- * │ │ │ │ ... │ │ ... │ │ ... │ │ │ │ │ │ │ │ │ │
- * │ │ │ └─DSS─┘ └─DSS─┘ └─DSS─┘ └─────Engines─────┘ │ │ │ │ │ │ │
- * │ │ └───────────────────────────GT0────────────────┘ │ │ └─GT2─┘ │ │
- * │ └────────────────────────────Tile0─────────────────┘ └─ Tile1──┘ │
- * └─────────────────────────────Device0───────┬──────────────────────┘
- * │
- * ───────────────────────┴────────── PCI bus
- */
- /**
- * DOC: Xe uAPI Overview
- *
- * This section aims to describe the Xe's IOCTL entries, its structs, and other
- * Xe related uAPI such as uevents and PMU (Platform Monitoring Unit) related
- * entries and usage.
- *
- * List of supported IOCTLs:
- * - &DRM_IOCTL_XE_DEVICE_QUERY
- * - &DRM_IOCTL_XE_GEM_CREATE
- * - &DRM_IOCTL_XE_GEM_MMAP_OFFSET
- * - &DRM_IOCTL_XE_VM_CREATE
- * - &DRM_IOCTL_XE_VM_DESTROY
- * - &DRM_IOCTL_XE_VM_BIND
- * - &DRM_IOCTL_XE_EXEC_QUEUE_CREATE
- * - &DRM_IOCTL_XE_EXEC_QUEUE_DESTROY
- * - &DRM_IOCTL_XE_EXEC_QUEUE_GET_PROPERTY
- * - &DRM_IOCTL_XE_EXEC
- * - &DRM_IOCTL_XE_WAIT_USER_FENCE
- * - &DRM_IOCTL_XE_OBSERVATION
- * - &DRM_IOCTL_XE_MADVISE
- * - &DRM_IOCTL_XE_VM_QUERY_MEM_RANGE_ATTRS
- */
- /*
- * xe specific ioctls.
- *
- * The device specific ioctl range is [DRM_COMMAND_BASE, DRM_COMMAND_END) ie
- * [0x40, 0xa0) (a0 is excluded). The numbers below are defined as offset
- * against DRM_COMMAND_BASE and should be between [0x0, 0x60).
- */
- #define DRM_XE_DEVICE_QUERY 0x00
- #define DRM_XE_GEM_CREATE 0x01
- #define DRM_XE_GEM_MMAP_OFFSET 0x02
- #define DRM_XE_VM_CREATE 0x03
- #define DRM_XE_VM_DESTROY 0x04
- #define DRM_XE_VM_BIND 0x05
- #define DRM_XE_EXEC_QUEUE_CREATE 0x06
- #define DRM_XE_EXEC_QUEUE_DESTROY 0x07
- #define DRM_XE_EXEC_QUEUE_GET_PROPERTY 0x08
- #define DRM_XE_EXEC 0x09
- #define DRM_XE_WAIT_USER_FENCE 0x0a
- #define DRM_XE_OBSERVATION 0x0b
- #define DRM_XE_MADVISE 0x0c
- #define DRM_XE_VM_QUERY_MEM_RANGE_ATTRS 0x0d
- #define DRM_XE_EXEC_QUEUE_SET_PROPERTY 0x0e
- /* Must be kept compact -- no holes */
- #define DRM_IOCTL_XE_DEVICE_QUERY DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_DEVICE_QUERY, struct drm_xe_device_query)
- #define DRM_IOCTL_XE_GEM_CREATE DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_GEM_CREATE, struct drm_xe_gem_create)
- #define DRM_IOCTL_XE_GEM_MMAP_OFFSET DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_GEM_MMAP_OFFSET, struct drm_xe_gem_mmap_offset)
- #define DRM_IOCTL_XE_VM_CREATE DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_VM_CREATE, struct drm_xe_vm_create)
- #define DRM_IOCTL_XE_VM_DESTROY DRM_IOW(DRM_COMMAND_BASE + DRM_XE_VM_DESTROY, struct drm_xe_vm_destroy)
- #define DRM_IOCTL_XE_VM_BIND DRM_IOW(DRM_COMMAND_BASE + DRM_XE_VM_BIND, struct drm_xe_vm_bind)
- #define DRM_IOCTL_XE_EXEC_QUEUE_CREATE DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_EXEC_QUEUE_CREATE, struct drm_xe_exec_queue_create)
- #define DRM_IOCTL_XE_EXEC_QUEUE_DESTROY DRM_IOW(DRM_COMMAND_BASE + DRM_XE_EXEC_QUEUE_DESTROY, struct drm_xe_exec_queue_destroy)
- #define DRM_IOCTL_XE_EXEC_QUEUE_GET_PROPERTY DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_EXEC_QUEUE_GET_PROPERTY, struct drm_xe_exec_queue_get_property)
- #define DRM_IOCTL_XE_EXEC DRM_IOW(DRM_COMMAND_BASE + DRM_XE_EXEC, struct drm_xe_exec)
- #define DRM_IOCTL_XE_WAIT_USER_FENCE DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_WAIT_USER_FENCE, struct drm_xe_wait_user_fence)
- #define DRM_IOCTL_XE_OBSERVATION DRM_IOW(DRM_COMMAND_BASE + DRM_XE_OBSERVATION, struct drm_xe_observation_param)
- #define DRM_IOCTL_XE_MADVISE DRM_IOW(DRM_COMMAND_BASE + DRM_XE_MADVISE, struct drm_xe_madvise)
- #define DRM_IOCTL_XE_VM_QUERY_MEM_RANGE_ATTRS DRM_IOWR(DRM_COMMAND_BASE + DRM_XE_VM_QUERY_MEM_RANGE_ATTRS, struct drm_xe_vm_query_mem_range_attr)
- #define DRM_IOCTL_XE_EXEC_QUEUE_SET_PROPERTY DRM_IOW(DRM_COMMAND_BASE + DRM_XE_EXEC_QUEUE_SET_PROPERTY, struct drm_xe_exec_queue_set_property)
- /**
- * DOC: Xe IOCTL Extensions
- *
- * Before detailing the IOCTLs and its structs, it is important to highlight
- * that every IOCTL in Xe is extensible.
- *
- * Many interfaces need to grow over time. In most cases we can simply
- * extend the struct and have userspace pass in more data. Another option,
- * as demonstrated by Vulkan's approach to providing extensions for forward
- * and backward compatibility, is to use a list of optional structs to
- * provide those extra details.
- *
- * The key advantage to using an extension chain is that it allows us to
- * redefine the interface more easily than an ever growing struct of
- * increasing complexity, and for large parts of that interface to be
- * entirely optional. The downside is more pointer chasing; chasing across
- * the __user boundary with pointers encapsulated inside u64.
- *
- * Example chaining:
- *
- * .. code-block:: C
- *
- * struct drm_xe_user_extension ext3 {
- * .next_extension = 0, // end
- * .name = ...,
- * };
- * struct drm_xe_user_extension ext2 {
- * .next_extension = (uintptr_t)&ext3,
- * .name = ...,
- * };
- * struct drm_xe_user_extension ext1 {
- * .next_extension = (uintptr_t)&ext2,
- * .name = ...,
- * };
- *
- * Typically the struct drm_xe_user_extension would be embedded in some uAPI
- * struct, and in this case we would feed it the head of the chain(i.e ext1),
- * which would then apply all of the above extensions.
- */
- /**
- * struct drm_xe_user_extension - Base class for defining a chain of extensions
- */
- struct drm_xe_user_extension {
- /**
- * @next_extension:
- *
- * Pointer to the next struct drm_xe_user_extension, or zero if the end.
- */
- __u64 next_extension;
- /**
- * @name: Name of the extension.
- *
- * Note that the name here is just some integer.
- *
- * Also note that the name space for this is not global for the whole
- * driver, but rather its scope/meaning is limited to the specific piece
- * of uAPI which has embedded the struct drm_xe_user_extension.
- */
- __u32 name;
- /**
- * @pad: MBZ
- *
- * All undefined bits must be zero.
- */
- __u32 pad;
- };
- /**
- * struct drm_xe_ext_set_property - Generic set property extension
- *
- * A generic struct that allows any of the Xe's IOCTL to be extended
- * with a set_property operation.
- */
- struct drm_xe_ext_set_property {
- /** @base: base user extension */
- struct drm_xe_user_extension base;
- /** @property: property to set */
- __u32 property;
- /** @pad: MBZ */
- __u32 pad;
- union {
- /** @value: property value */
- __u64 value;
- /** @ptr: pointer to user value */
- __u64 ptr;
- };
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_engine_class_instance - instance of an engine class
- *
- * It is returned as part of the @drm_xe_engine, but it also is used as
- * the input of engine selection for both @drm_xe_exec_queue_create and
- * @drm_xe_query_engine_cycles
- *
- * The @engine_class can be:
- * - %DRM_XE_ENGINE_CLASS_RENDER
- * - %DRM_XE_ENGINE_CLASS_COPY
- * - %DRM_XE_ENGINE_CLASS_VIDEO_DECODE
- * - %DRM_XE_ENGINE_CLASS_VIDEO_ENHANCE
- * - %DRM_XE_ENGINE_CLASS_COMPUTE
- * - %DRM_XE_ENGINE_CLASS_VM_BIND - Kernel only classes (not actual
- * hardware engine class). Used for creating ordered queues of VM
- * bind operations.
- */
- struct drm_xe_engine_class_instance {
- #define DRM_XE_ENGINE_CLASS_RENDER 0
- #define DRM_XE_ENGINE_CLASS_COPY 1
- #define DRM_XE_ENGINE_CLASS_VIDEO_DECODE 2
- #define DRM_XE_ENGINE_CLASS_VIDEO_ENHANCE 3
- #define DRM_XE_ENGINE_CLASS_COMPUTE 4
- #define DRM_XE_ENGINE_CLASS_VM_BIND 5
- /** @engine_class: engine class id */
- __u16 engine_class;
- /** @engine_instance: engine instance id */
- __u16 engine_instance;
- /** @gt_id: Unique ID of this GT within the PCI Device */
- __u16 gt_id;
- /** @pad: MBZ */
- __u16 pad;
- };
- /**
- * struct drm_xe_engine - describe hardware engine
- */
- struct drm_xe_engine {
- /** @instance: The @drm_xe_engine_class_instance */
- struct drm_xe_engine_class_instance instance;
- /** @reserved: Reserved */
- __u64 reserved[3];
- };
- /**
- * struct drm_xe_query_engines - describe engines
- *
- * If a query is made with a struct @drm_xe_device_query where .query
- * is equal to %DRM_XE_DEVICE_QUERY_ENGINES, then the reply uses an array of
- * struct @drm_xe_query_engines in .data.
- */
- struct drm_xe_query_engines {
- /** @num_engines: number of engines returned in @engines */
- __u32 num_engines;
- /** @pad: MBZ */
- __u32 pad;
- /** @engines: The returned engines for this device */
- struct drm_xe_engine engines[];
- };
- /**
- * enum drm_xe_memory_class - Supported memory classes.
- */
- enum drm_xe_memory_class {
- /** @DRM_XE_MEM_REGION_CLASS_SYSMEM: Represents system memory. */
- DRM_XE_MEM_REGION_CLASS_SYSMEM = 0,
- /**
- * @DRM_XE_MEM_REGION_CLASS_VRAM: On discrete platforms, this
- * represents the memory that is local to the device, which we
- * call VRAM. Not valid on integrated platforms.
- */
- DRM_XE_MEM_REGION_CLASS_VRAM
- };
- /**
- * struct drm_xe_mem_region - Describes some region as known to
- * the driver.
- */
- struct drm_xe_mem_region {
- /**
- * @mem_class: The memory class describing this region.
- *
- * See enum drm_xe_memory_class for supported values.
- */
- __u16 mem_class;
- /**
- * @instance: The unique ID for this region, which serves as the
- * index in the placement bitmask used as argument for
- * &DRM_IOCTL_XE_GEM_CREATE
- */
- __u16 instance;
- /**
- * @min_page_size: Min page-size in bytes for this region.
- *
- * When the kernel allocates memory for this region, the
- * underlying pages will be at least @min_page_size in size.
- * Buffer objects with an allowable placement in this region must be
- * created with a size aligned to this value.
- * GPU virtual address mappings of (parts of) buffer objects that
- * may be placed in this region must also have their GPU virtual
- * address and range aligned to this value.
- * Affected IOCTLS will return %-EINVAL if alignment restrictions are
- * not met.
- */
- __u32 min_page_size;
- /**
- * @total_size: The usable size in bytes for this region.
- */
- __u64 total_size;
- /**
- * @used: Estimate of the memory used in bytes for this region.
- *
- * Requires CAP_PERFMON or CAP_SYS_ADMIN to get reliable
- * accounting. Without this the value here will always equal
- * zero.
- */
- __u64 used;
- /**
- * @cpu_visible_size: How much of this region can be CPU
- * accessed, in bytes.
- *
- * This will always be <= @total_size, and the remainder (if
- * any) will not be CPU accessible. If the CPU accessible part
- * is smaller than @total_size then this is referred to as a
- * small BAR system.
- *
- * On systems without small BAR (full BAR), the probed_size will
- * always equal the @total_size, since all of it will be CPU
- * accessible.
- *
- * Note this is only tracked for DRM_XE_MEM_REGION_CLASS_VRAM
- * regions (for other types the value here will always equal
- * zero).
- */
- __u64 cpu_visible_size;
- /**
- * @cpu_visible_used: Estimate of CPU visible memory used, in
- * bytes.
- *
- * Requires CAP_PERFMON or CAP_SYS_ADMIN to get reliable
- * accounting. Without this the value here will always equal
- * zero. Note this is only currently tracked for
- * DRM_XE_MEM_REGION_CLASS_VRAM regions (for other types the value
- * here will always be zero).
- */
- __u64 cpu_visible_used;
- /** @reserved: Reserved */
- __u64 reserved[6];
- };
- /**
- * struct drm_xe_query_mem_regions - describe memory regions
- *
- * If a query is made with a struct drm_xe_device_query where .query
- * is equal to DRM_XE_DEVICE_QUERY_MEM_REGIONS, then the reply uses
- * struct drm_xe_query_mem_regions in .data.
- */
- struct drm_xe_query_mem_regions {
- /** @num_mem_regions: number of memory regions returned in @mem_regions */
- __u32 num_mem_regions;
- /** @pad: MBZ */
- __u32 pad;
- /** @mem_regions: The returned memory regions for this device */
- struct drm_xe_mem_region mem_regions[];
- };
- /**
- * struct drm_xe_query_config - describe the device configuration
- *
- * If a query is made with a struct drm_xe_device_query where .query
- * is equal to DRM_XE_DEVICE_QUERY_CONFIG, then the reply uses
- * struct drm_xe_query_config in .data.
- *
- * The index in @info can be:
- * - %DRM_XE_QUERY_CONFIG_REV_AND_DEVICE_ID - Device ID (lower 16 bits)
- * and the device revision (next 8 bits)
- * - %DRM_XE_QUERY_CONFIG_FLAGS - Flags describing the device
- * configuration, see list below
- *
- * - %DRM_XE_QUERY_CONFIG_FLAG_HAS_VRAM - Flag is set if the device
- * has usable VRAM
- * - %DRM_XE_QUERY_CONFIG_FLAG_HAS_LOW_LATENCY - Flag is set if the device
- * has low latency hint support
- * - %DRM_XE_QUERY_CONFIG_FLAG_HAS_CPU_ADDR_MIRROR - Flag is set if the
- * device has CPU address mirroring support
- * - %DRM_XE_QUERY_CONFIG_FLAG_HAS_NO_COMPRESSION_HINT - Flag is set if the
- * device supports the userspace hint %DRM_XE_GEM_CREATE_FLAG_NO_COMPRESSION.
- * This is exposed only on Xe2+.
- * - %DRM_XE_QUERY_CONFIG_MIN_ALIGNMENT - Minimal memory alignment
- * required by this device, typically SZ_4K or SZ_64K
- * - %DRM_XE_QUERY_CONFIG_VA_BITS - Maximum bits of a virtual address
- * - %DRM_XE_QUERY_CONFIG_MAX_EXEC_QUEUE_PRIORITY - Value of the highest
- * available exec queue priority
- */
- struct drm_xe_query_config {
- /** @num_params: number of parameters returned in info */
- __u32 num_params;
- /** @pad: MBZ */
- __u32 pad;
- #define DRM_XE_QUERY_CONFIG_REV_AND_DEVICE_ID 0
- #define DRM_XE_QUERY_CONFIG_FLAGS 1
- #define DRM_XE_QUERY_CONFIG_FLAG_HAS_VRAM (1 << 0)
- #define DRM_XE_QUERY_CONFIG_FLAG_HAS_LOW_LATENCY (1 << 1)
- #define DRM_XE_QUERY_CONFIG_FLAG_HAS_CPU_ADDR_MIRROR (1 << 2)
- #define DRM_XE_QUERY_CONFIG_FLAG_HAS_NO_COMPRESSION_HINT (1 << 3)
- #define DRM_XE_QUERY_CONFIG_MIN_ALIGNMENT 2
- #define DRM_XE_QUERY_CONFIG_VA_BITS 3
- #define DRM_XE_QUERY_CONFIG_MAX_EXEC_QUEUE_PRIORITY 4
- /** @info: array of elements containing the config info */
- __u64 info[];
- };
- /**
- * struct drm_xe_gt - describe an individual GT.
- *
- * To be used with drm_xe_query_gt_list, which will return a list with all the
- * existing GT individual descriptions.
- * Graphics Technology (GT) is a subset of a GPU/tile that is responsible for
- * implementing graphics and/or media operations.
- *
- * The index in @type can be:
- * - %DRM_XE_QUERY_GT_TYPE_MAIN
- * - %DRM_XE_QUERY_GT_TYPE_MEDIA
- */
- struct drm_xe_gt {
- #define DRM_XE_QUERY_GT_TYPE_MAIN 0
- #define DRM_XE_QUERY_GT_TYPE_MEDIA 1
- /** @type: GT type: Main or Media */
- __u16 type;
- /** @tile_id: Tile ID where this GT lives (Information only) */
- __u16 tile_id;
- /** @gt_id: Unique ID of this GT within the PCI Device */
- __u16 gt_id;
- /** @pad: MBZ */
- __u16 pad[3];
- /** @reference_clock: A clock frequency for timestamp */
- __u32 reference_clock;
- /**
- * @near_mem_regions: Bit mask of instances from
- * drm_xe_query_mem_regions that are nearest to the current engines
- * of this GT.
- * Each index in this mask refers directly to the struct
- * drm_xe_query_mem_regions' instance, no assumptions should
- * be made about order. The type of each region is described
- * by struct drm_xe_query_mem_regions' mem_class.
- */
- __u64 near_mem_regions;
- /**
- * @far_mem_regions: Bit mask of instances from
- * drm_xe_query_mem_regions that are far from the engines of this GT.
- * In general, they have extra indirections when compared to the
- * @near_mem_regions. For a discrete device this could mean system
- * memory and memory living in a different tile.
- * Each index in this mask refers directly to the struct
- * drm_xe_query_mem_regions' instance, no assumptions should
- * be made about order. The type of each region is described
- * by struct drm_xe_query_mem_regions' mem_class.
- */
- __u64 far_mem_regions;
- /** @ip_ver_major: Graphics/media IP major version on GMD_ID platforms */
- __u16 ip_ver_major;
- /** @ip_ver_minor: Graphics/media IP minor version on GMD_ID platforms */
- __u16 ip_ver_minor;
- /** @ip_ver_rev: Graphics/media IP revision version on GMD_ID platforms */
- __u16 ip_ver_rev;
- /** @pad2: MBZ */
- __u16 pad2;
- /** @reserved: Reserved */
- __u64 reserved[7];
- };
- /**
- * struct drm_xe_query_gt_list - A list with GT description items.
- *
- * If a query is made with a struct drm_xe_device_query where .query
- * is equal to DRM_XE_DEVICE_QUERY_GT_LIST, then the reply uses struct
- * drm_xe_query_gt_list in .data.
- */
- struct drm_xe_query_gt_list {
- /** @num_gt: number of GT items returned in gt_list */
- __u32 num_gt;
- /** @pad: MBZ */
- __u32 pad;
- /** @gt_list: The GT list returned for this device */
- struct drm_xe_gt gt_list[];
- };
- /**
- * struct drm_xe_query_topology_mask - describe the topology mask of a GT
- *
- * This is the hardware topology which reflects the internal physical
- * structure of the GPU.
- *
- * If a query is made with a struct drm_xe_device_query where .query
- * is equal to DRM_XE_DEVICE_QUERY_GT_TOPOLOGY, then the reply uses
- * struct drm_xe_query_topology_mask in .data.
- *
- * The @type can be:
- * - %DRM_XE_TOPO_DSS_GEOMETRY - To query the mask of Dual Sub Slices
- * (DSS) available for geometry operations. For example a query response
- * containing the following in mask:
- * ``DSS_GEOMETRY ff ff ff ff 00 00 00 00``
- * means 32 DSS are available for geometry.
- * - %DRM_XE_TOPO_DSS_COMPUTE - To query the mask of Dual Sub Slices
- * (DSS) available for compute operations. For example a query response
- * containing the following in mask:
- * ``DSS_COMPUTE ff ff ff ff 00 00 00 00``
- * means 32 DSS are available for compute.
- * - %DRM_XE_TOPO_L3_BANK - To query the mask of enabled L3 banks. This type
- * may be omitted if the driver is unable to query the mask from the
- * hardware.
- * - %DRM_XE_TOPO_EU_PER_DSS - To query the mask of Execution Units (EU)
- * available per Dual Sub Slices (DSS). For example a query response
- * containing the following in mask:
- * ``EU_PER_DSS ff ff 00 00 00 00 00 00``
- * means each DSS has 16 SIMD8 EUs. This type may be omitted if device
- * doesn't have SIMD8 EUs.
- * - %DRM_XE_TOPO_SIMD16_EU_PER_DSS - To query the mask of SIMD16 Execution
- * Units (EU) available per Dual Sub Slices (DSS). For example a query
- * response containing the following in mask:
- * ``SIMD16_EU_PER_DSS ff ff 00 00 00 00 00 00``
- * means each DSS has 16 SIMD16 EUs. This type may be omitted if device
- * doesn't have SIMD16 EUs.
- */
- struct drm_xe_query_topology_mask {
- /** @gt_id: GT ID the mask is associated with */
- __u16 gt_id;
- #define DRM_XE_TOPO_DSS_GEOMETRY 1
- #define DRM_XE_TOPO_DSS_COMPUTE 2
- #define DRM_XE_TOPO_L3_BANK 3
- #define DRM_XE_TOPO_EU_PER_DSS 4
- #define DRM_XE_TOPO_SIMD16_EU_PER_DSS 5
- /** @type: type of mask */
- __u16 type;
- /** @num_bytes: number of bytes in requested mask */
- __u32 num_bytes;
- /** @mask: little-endian mask of @num_bytes */
- __u8 mask[];
- };
- /**
- * struct drm_xe_query_engine_cycles - correlate CPU and GPU timestamps
- *
- * If a query is made with a struct drm_xe_device_query where .query is equal to
- * DRM_XE_DEVICE_QUERY_ENGINE_CYCLES, then the reply uses struct drm_xe_query_engine_cycles
- * in .data. struct drm_xe_query_engine_cycles is allocated by the user and
- * .data points to this allocated structure.
- *
- * The query returns the engine cycles, which along with GT's @reference_clock,
- * can be used to calculate the engine timestamp. In addition the
- * query returns a set of cpu timestamps that indicate when the command
- * streamer cycle count was captured.
- */
- struct drm_xe_query_engine_cycles {
- /**
- * @eci: This is input by the user and is the engine for which command
- * streamer cycles is queried.
- */
- struct drm_xe_engine_class_instance eci;
- /**
- * @clockid: This is input by the user and is the reference clock id for
- * CPU timestamp. For definition, see clock_gettime(2) and
- * perf_event_open(2). Supported clock ids are CLOCK_MONOTONIC,
- * CLOCK_MONOTONIC_RAW, CLOCK_REALTIME, CLOCK_BOOTTIME, CLOCK_TAI.
- */
- __s32 clockid;
- /** @width: Width of the engine cycle counter in bits. */
- __u32 width;
- /**
- * @engine_cycles: Engine cycles as read from its register
- * at 0x358 offset.
- */
- __u64 engine_cycles;
- /**
- * @cpu_timestamp: CPU timestamp in ns. The timestamp is captured before
- * reading the engine_cycles register using the reference clockid set by the
- * user.
- */
- __u64 cpu_timestamp;
- /**
- * @cpu_delta: Time delta in ns captured around reading the lower dword
- * of the engine_cycles register.
- */
- __u64 cpu_delta;
- };
- /**
- * struct drm_xe_query_uc_fw_version - query a micro-controller firmware version
- *
- * Given a uc_type this will return the branch, major, minor and patch version
- * of the micro-controller firmware.
- */
- struct drm_xe_query_uc_fw_version {
- /** @uc_type: The micro-controller type to query firmware version */
- #define XE_QUERY_UC_TYPE_GUC_SUBMISSION 0
- #define XE_QUERY_UC_TYPE_HUC 1
- __u16 uc_type;
- /** @pad: MBZ */
- __u16 pad;
- /** @branch_ver: branch uc fw version */
- __u32 branch_ver;
- /** @major_ver: major uc fw version */
- __u32 major_ver;
- /** @minor_ver: minor uc fw version */
- __u32 minor_ver;
- /** @patch_ver: patch uc fw version */
- __u32 patch_ver;
- /** @pad2: MBZ */
- __u32 pad2;
- /** @reserved: Reserved */
- __u64 reserved;
- };
- /**
- * struct drm_xe_query_pxp_status - query if PXP is ready
- *
- * If PXP is enabled and no fatal error has occurred, the status will be set to
- * one of the following values:
- * 0: PXP init still in progress
- * 1: PXP init complete
- *
- * If PXP is not enabled or something has gone wrong, the query will be failed
- * with one of the following error codes:
- * -ENODEV: PXP not supported or disabled;
- * -EIO: fatal error occurred during init, so PXP will never be enabled;
- * -EINVAL: incorrect value provided as part of the query;
- * -EFAULT: error copying the memory between kernel and userspace.
- *
- * The status can only be 0 in the first few seconds after driver load. If
- * everything works as expected, the status will transition to init complete in
- * less than 1 second, while in case of errors the driver might take longer to
- * start returning an error code, but it should still take less than 10 seconds.
- *
- * The supported session type bitmask is based on the values in
- * enum drm_xe_pxp_session_type. TYPE_NONE is always supported and therefore
- * is not reported in the bitmask.
- *
- */
- struct drm_xe_query_pxp_status {
- /** @status: current PXP status */
- __u32 status;
- /** @supported_session_types: bitmask of supported PXP session types */
- __u32 supported_session_types;
- };
- /**
- * struct drm_xe_device_query - Input of &DRM_IOCTL_XE_DEVICE_QUERY - main
- * structure to query device information
- *
- * The user selects the type of data to query among DRM_XE_DEVICE_QUERY_*
- * and sets the value in the query member. This determines the type of
- * the structure provided by the driver in data, among struct drm_xe_query_*.
- *
- * The @query can be:
- * - %DRM_XE_DEVICE_QUERY_ENGINES
- * - %DRM_XE_DEVICE_QUERY_MEM_REGIONS
- * - %DRM_XE_DEVICE_QUERY_CONFIG
- * - %DRM_XE_DEVICE_QUERY_GT_LIST
- * - %DRM_XE_DEVICE_QUERY_HWCONFIG - Query type to retrieve the hardware
- * configuration of the device such as information on slices, memory,
- * caches, and so on. It is provided as a table of key / value
- * attributes.
- * - %DRM_XE_DEVICE_QUERY_GT_TOPOLOGY
- * - %DRM_XE_DEVICE_QUERY_ENGINE_CYCLES
- * - %DRM_XE_DEVICE_QUERY_PXP_STATUS
- *
- * If size is set to 0, the driver fills it with the required size for
- * the requested type of data to query. If size is equal to the required
- * size, the queried information is copied into data. If size is set to
- * a value different from 0 and different from the required size, the
- * IOCTL call returns -EINVAL.
- *
- * For example the following code snippet allows retrieving and printing
- * information about the device engines with DRM_XE_DEVICE_QUERY_ENGINES:
- *
- * .. code-block:: C
- *
- * struct drm_xe_query_engines *engines;
- * struct drm_xe_device_query query = {
- * .extensions = 0,
- * .query = DRM_XE_DEVICE_QUERY_ENGINES,
- * .size = 0,
- * .data = 0,
- * };
- * ioctl(fd, DRM_IOCTL_XE_DEVICE_QUERY, &query);
- * engines = malloc(query.size);
- * query.data = (uintptr_t)engines;
- * ioctl(fd, DRM_IOCTL_XE_DEVICE_QUERY, &query);
- * for (int i = 0; i < engines->num_engines; i++) {
- * printf("Engine %d: %s\n", i,
- * engines->engines[i].instance.engine_class ==
- * DRM_XE_ENGINE_CLASS_RENDER ? "RENDER":
- * engines->engines[i].instance.engine_class ==
- * DRM_XE_ENGINE_CLASS_COPY ? "COPY":
- * engines->engines[i].instance.engine_class ==
- * DRM_XE_ENGINE_CLASS_VIDEO_DECODE ? "VIDEO_DECODE":
- * engines->engines[i].instance.engine_class ==
- * DRM_XE_ENGINE_CLASS_VIDEO_ENHANCE ? "VIDEO_ENHANCE":
- * engines->engines[i].instance.engine_class ==
- * DRM_XE_ENGINE_CLASS_COMPUTE ? "COMPUTE":
- * "UNKNOWN");
- * }
- * free(engines);
- */
- struct drm_xe_device_query {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- #define DRM_XE_DEVICE_QUERY_ENGINES 0
- #define DRM_XE_DEVICE_QUERY_MEM_REGIONS 1
- #define DRM_XE_DEVICE_QUERY_CONFIG 2
- #define DRM_XE_DEVICE_QUERY_GT_LIST 3
- #define DRM_XE_DEVICE_QUERY_HWCONFIG 4
- #define DRM_XE_DEVICE_QUERY_GT_TOPOLOGY 5
- #define DRM_XE_DEVICE_QUERY_ENGINE_CYCLES 6
- #define DRM_XE_DEVICE_QUERY_UC_FW_VERSION 7
- #define DRM_XE_DEVICE_QUERY_OA_UNITS 8
- #define DRM_XE_DEVICE_QUERY_PXP_STATUS 9
- #define DRM_XE_DEVICE_QUERY_EU_STALL 10
- /** @query: The type of data to query */
- __u32 query;
- /** @size: Size of the queried data */
- __u32 size;
- /** @data: Queried data is placed here */
- __u64 data;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_gem_create - Input of &DRM_IOCTL_XE_GEM_CREATE - A structure for
- * gem creation
- *
- * The @flags can be:
- * - %DRM_XE_GEM_CREATE_FLAG_DEFER_BACKING - Modify the GEM object
- * allocation strategy by deferring physical memory allocation
- * until the object is either bound to a virtual memory region via
- * VM_BIND or accessed by the CPU. As a result, no backing memory is
- * reserved at the time of GEM object creation.
- * - %DRM_XE_GEM_CREATE_FLAG_SCANOUT - Indicates that the GEM object is
- * intended for scanout via the display engine. When set, kernel ensures
- * that the allocation is placed in a memory region compatible with the
- * display engine requirements. This may impose restrictions on tiling,
- * alignment, and memory placement to guarantee proper display functionality.
- * - %DRM_XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM - When using VRAM as a
- * possible placement, ensure that the corresponding VRAM allocation
- * will always use the CPU accessible part of VRAM. This is important
- * for small-bar systems (on full-bar systems this gets turned into a
- * noop).
- * Note1: System memory can be used as an extra placement if the kernel
- * should spill the allocation to system memory, if space can't be made
- * available in the CPU accessible part of VRAM (giving the same
- * behaviour as the i915 interface, see
- * I915_GEM_CREATE_EXT_FLAG_NEEDS_CPU_ACCESS).
- * Note2: For clear-color CCS surfaces the kernel needs to read the
- * clear-color value stored in the buffer, and on discrete platforms we
- * need to use VRAM for display surfaces, therefore the kernel requires
- * setting this flag for such objects, otherwise an error is thrown on
- * small-bar systems.
- * - %DRM_XE_GEM_CREATE_FLAG_NO_COMPRESSION - Allows userspace to
- * hint that compression (CCS) should be disabled for the buffer being
- * created. This can avoid unnecessary memory operations and CCS state
- * management.
- * On pre-Xe2 platforms, this flag is currently rejected as compression
- * control is not supported via PAT index. On Xe2+ platforms, compression
- * is controlled via PAT entries. If this flag is set, the driver will reject
- * any VM bind that requests a PAT index enabling compression for this BO.
- * Note: On dGPU platforms, there is currently no change in behavior with
- * this flag, but future improvements may leverage it. The current benefit is
- * primarily applicable to iGPU platforms.
- *
- * @cpu_caching supports the following values:
- * - %DRM_XE_GEM_CPU_CACHING_WB - Allocate the pages with write-back
- * caching. On iGPU this can't be used for scanout surfaces. Currently
- * not allowed for objects placed in VRAM.
- * - %DRM_XE_GEM_CPU_CACHING_WC - Allocate the pages as write-combined. This
- * is uncached. Scanout surfaces should likely use this. All objects
- * that can be placed in VRAM must use this.
- *
- * This ioctl supports setting the following properties via the
- * %DRM_XE_GEM_CREATE_EXTENSION_SET_PROPERTY extension, which uses the
- * generic @drm_xe_ext_set_property struct:
- *
- * - %DRM_XE_GEM_CREATE_SET_PROPERTY_PXP_TYPE - set the type of PXP session
- * this object will be used with. Valid values are listed in enum
- * drm_xe_pxp_session_type. %DRM_XE_PXP_TYPE_NONE is the default behavior, so
- * there is no need to explicitly set that. Objects used with session of type
- * %DRM_XE_PXP_TYPE_HWDRM will be marked as invalid if a PXP invalidation
- * event occurs after their creation. Attempting to flip an invalid object
- * will cause a black frame to be displayed instead. Submissions with invalid
- * objects mapped in the VM will be rejected.
- */
- struct drm_xe_gem_create {
- #define DRM_XE_GEM_CREATE_EXTENSION_SET_PROPERTY 0
- #define DRM_XE_GEM_CREATE_SET_PROPERTY_PXP_TYPE 0
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /**
- * @size: Size of the object to be created, must match region
- * (system or vram) minimum alignment (&min_page_size).
- */
- __u64 size;
- /**
- * @placement: A mask of memory instances of where BO can be placed.
- * Each index in this mask refers directly to the struct
- * drm_xe_query_mem_regions' instance, no assumptions should
- * be made about order. The type of each region is described
- * by struct drm_xe_query_mem_regions' mem_class.
- */
- __u32 placement;
- #define DRM_XE_GEM_CREATE_FLAG_DEFER_BACKING (1 << 0)
- #define DRM_XE_GEM_CREATE_FLAG_SCANOUT (1 << 1)
- #define DRM_XE_GEM_CREATE_FLAG_NEEDS_VISIBLE_VRAM (1 << 2)
- #define DRM_XE_GEM_CREATE_FLAG_NO_COMPRESSION (1 << 3)
- /**
- * @flags: Flags, currently a mask of memory instances of where BO can
- * be placed
- */
- __u32 flags;
- /**
- * @vm_id: Attached VM, if any
- *
- * If a VM is specified, this BO must:
- *
- * 1. Only ever be bound to that VM.
- * 2. Cannot be exported as a PRIME fd.
- */
- __u32 vm_id;
- /**
- * @handle: Returned handle for the object.
- *
- * Object handles are nonzero.
- */
- __u32 handle;
- #define DRM_XE_GEM_CPU_CACHING_WB 1
- #define DRM_XE_GEM_CPU_CACHING_WC 2
- /**
- * @cpu_caching: The CPU caching mode to select for this object. If
- * mmaping the object the mode selected here will also be used. The
- * exception is when mapping system memory (including data evicted
- * to system) on discrete GPUs. The caching mode selected will
- * then be overridden to DRM_XE_GEM_CPU_CACHING_WB, and coherency
- * between GPU- and CPU is guaranteed. The caching mode of
- * existing CPU-mappings will be updated transparently to
- * user-space clients.
- */
- __u16 cpu_caching;
- /** @pad: MBZ */
- __u16 pad[3];
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_gem_mmap_offset - Input of &DRM_IOCTL_XE_GEM_MMAP_OFFSET
- *
- * The @flags can be:
- * - %DRM_XE_MMAP_OFFSET_FLAG_PCI_BARRIER - For user to query special offset
- * for use in mmap ioctl. Writing to the returned mmap address will generate a
- * PCI memory barrier with low overhead (avoiding IOCTL call as well as writing
- * to VRAM which would also add overhead), acting like an MI_MEM_FENCE
- * instruction.
- *
- * Note: The mmap size can be at most 4K, due to HW limitations. As a result
- * this interface is only supported on CPU architectures that support 4K page
- * size. The mmap_offset ioctl will detect this and gracefully return an
- * error, where userspace is expected to have a different fallback method for
- * triggering a barrier.
- *
- * Roughly the usage would be as follows:
- *
- * .. code-block:: C
- *
- * struct drm_xe_gem_mmap_offset mmo = {
- * .handle = 0, // must be set to 0
- * .flags = DRM_XE_MMAP_OFFSET_FLAG_PCI_BARRIER,
- * };
- *
- * err = ioctl(fd, DRM_IOCTL_XE_GEM_MMAP_OFFSET, &mmo);
- * map = mmap(NULL, size, PROT_WRITE, MAP_SHARED, fd, mmo.offset);
- * map[i] = 0xdeadbeaf; // issue barrier
- */
- struct drm_xe_gem_mmap_offset {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @handle: Handle for the object being mapped. */
- __u32 handle;
- #define DRM_XE_MMAP_OFFSET_FLAG_PCI_BARRIER (1 << 0)
- /** @flags: Flags */
- __u32 flags;
- /** @offset: The fake offset to use for subsequent mmap call */
- __u64 offset;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_vm_create - Input of &DRM_IOCTL_XE_VM_CREATE
- *
- * The @flags can be:
- * - %DRM_XE_VM_CREATE_FLAG_SCRATCH_PAGE - Map the whole virtual address
- * space of the VM to scratch page. A vm_bind would overwrite the scratch
- * page mapping. This flag is mutually exclusive with the
- * %DRM_XE_VM_CREATE_FLAG_FAULT_MODE flag, with an exception of on x2 and
- * xe3 platform.
- * - %DRM_XE_VM_CREATE_FLAG_LR_MODE - An LR, or Long Running VM accepts
- * exec submissions to its exec_queues that don't have an upper time
- * limit on the job execution time. But exec submissions to these
- * don't allow any of the sync types DRM_XE_SYNC_TYPE_SYNCOBJ,
- * DRM_XE_SYNC_TYPE_TIMELINE_SYNCOBJ, used as out-syncobjs, that is,
- * together with sync flag DRM_XE_SYNC_FLAG_SIGNAL.
- * LR VMs can be created in recoverable page-fault mode using
- * DRM_XE_VM_CREATE_FLAG_FAULT_MODE, if the device supports it.
- * If that flag is omitted, the UMD can not rely on the slightly
- * different per-VM overcommit semantics that are enabled by
- * DRM_XE_VM_CREATE_FLAG_FAULT_MODE (see below), but KMD may
- * still enable recoverable pagefaults if supported by the device.
- * - %DRM_XE_VM_CREATE_FLAG_FAULT_MODE - Requires also
- * DRM_XE_VM_CREATE_FLAG_LR_MODE. It allows memory to be allocated on
- * demand when accessed, and also allows per-VM overcommit of memory.
- * The xe driver internally uses recoverable pagefaults to implement
- * this.
- */
- struct drm_xe_vm_create {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- #define DRM_XE_VM_CREATE_FLAG_SCRATCH_PAGE (1 << 0)
- #define DRM_XE_VM_CREATE_FLAG_LR_MODE (1 << 1)
- #define DRM_XE_VM_CREATE_FLAG_FAULT_MODE (1 << 2)
- /** @flags: Flags */
- __u32 flags;
- /** @vm_id: Returned VM ID */
- __u32 vm_id;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_vm_destroy - Input of &DRM_IOCTL_XE_VM_DESTROY
- */
- struct drm_xe_vm_destroy {
- /** @vm_id: VM ID */
- __u32 vm_id;
- /** @pad: MBZ */
- __u32 pad;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_vm_bind_op - run bind operations
- *
- * The @op can be:
- * - %DRM_XE_VM_BIND_OP_MAP
- * - %DRM_XE_VM_BIND_OP_UNMAP
- * - %DRM_XE_VM_BIND_OP_MAP_USERPTR
- * - %DRM_XE_VM_BIND_OP_UNMAP_ALL
- * - %DRM_XE_VM_BIND_OP_PREFETCH
- *
- * and the @flags can be:
- * - %DRM_XE_VM_BIND_FLAG_READONLY - Setup the page tables as read-only
- * to ensure write protection
- * - %DRM_XE_VM_BIND_FLAG_IMMEDIATE - On a faulting VM, do the
- * MAP operation immediately rather than deferring the MAP to the page
- * fault handler. This is implied on a non-faulting VM as there is no
- * fault handler to defer to.
- * - %DRM_XE_VM_BIND_FLAG_NULL - When the NULL flag is set, the page
- * tables are setup with a special bit which indicates writes are
- * dropped and all reads return zero. In the future, the NULL flags
- * will only be valid for DRM_XE_VM_BIND_OP_MAP operations, the BO
- * handle MBZ, and the BO offset MBZ. This flag is intended to
- * implement VK sparse bindings.
- * - %DRM_XE_VM_BIND_FLAG_CHECK_PXP - If the object is encrypted via PXP,
- * reject the binding if the encryption key is no longer valid. This
- * flag has no effect on BOs that are not marked as using PXP.
- * - %DRM_XE_VM_BIND_FLAG_CPU_ADDR_MIRROR - When the CPU address mirror flag is
- * set, no mappings are created rather the range is reserved for CPU address
- * mirroring which will be populated on GPU page faults or prefetches. Only
- * valid on VMs with DRM_XE_VM_CREATE_FLAG_FAULT_MODE set. The CPU address
- * mirror flag are only valid for DRM_XE_VM_BIND_OP_MAP operations, the BO
- * handle MBZ, and the BO offset MBZ.
- * - %DRM_XE_VM_BIND_FLAG_MADVISE_AUTORESET - Can be used in combination with
- * %DRM_XE_VM_BIND_FLAG_CPU_ADDR_MIRROR to reset madvises when the underlying
- * CPU address space range is unmapped (typically with munmap(2) or brk(2)).
- * The madvise values set with &DRM_IOCTL_XE_MADVISE are reset to the values
- * that were present immediately after the &DRM_IOCTL_XE_VM_BIND.
- * The reset GPU virtual address range is the intersection of the range bound
- * using &DRM_IOCTL_XE_VM_BIND and the virtual CPU address space range
- * unmapped.
- * This functionality is present to mimic the behaviour of CPU address space
- * madvises set using madvise(2), which are typically reset on unmap.
- * Note: free(3) may or may not call munmap(2) and/or brk(2), and may thus
- * not invoke autoreset. Neither will stack variables going out of scope.
- * Therefore it's recommended to always explicitly reset the madvises when
- * freeing the memory backing a region used in a &DRM_IOCTL_XE_MADVISE call.
- *
- * The @prefetch_mem_region_instance for %DRM_XE_VM_BIND_OP_PREFETCH can also be:
- * - %DRM_XE_CONSULT_MEM_ADVISE_PREF_LOC, which ensures prefetching occurs in
- * the memory region advised by madvise.
- */
- struct drm_xe_vm_bind_op {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /**
- * @obj: GEM object to operate on, MBZ for MAP_USERPTR, MBZ for UNMAP
- */
- __u32 obj;
- /**
- * @pat_index: The platform defined @pat_index to use for this mapping.
- * The index basically maps to some predefined memory attributes,
- * including things like caching, coherency, compression etc. The exact
- * meaning of the pat_index is platform specific and defined in the
- * Bspec and PRMs. When the KMD sets up the binding the index here is
- * encoded into the ppGTT PTE.
- *
- * For coherency the @pat_index needs to be at least 1way coherent when
- * drm_xe_gem_create.cpu_caching is DRM_XE_GEM_CPU_CACHING_WB. The KMD
- * will extract the coherency mode from the @pat_index and reject if
- * there is a mismatch (see note below for pre-MTL platforms).
- *
- * Note: On pre-MTL platforms there is only a caching mode and no
- * explicit coherency mode, but on such hardware there is always a
- * shared-LLC (or is dgpu) so all GT memory accesses are coherent with
- * CPU caches even with the caching mode set as uncached. It's only the
- * display engine that is incoherent (on dgpu it must be in VRAM which
- * is always mapped as WC on the CPU). However to keep the uapi somewhat
- * consistent with newer platforms the KMD groups the different cache
- * levels into the following coherency buckets on all pre-MTL platforms:
- *
- * ppGTT UC -> COH_NONE
- * ppGTT WC -> COH_NONE
- * ppGTT WT -> COH_NONE
- * ppGTT WB -> COH_AT_LEAST_1WAY
- *
- * In practice UC/WC/WT should only ever used for scanout surfaces on
- * such platforms (or perhaps in general for dma-buf if shared with
- * another device) since it is only the display engine that is actually
- * incoherent. Everything else should typically use WB given that we
- * have a shared-LLC. On MTL+ this completely changes and the HW
- * defines the coherency mode as part of the @pat_index, where
- * incoherent GT access is possible.
- *
- * Note: For userptr and externally imported dma-buf the kernel expects
- * either 1WAY or 2WAY for the @pat_index.
- *
- * For DRM_XE_VM_BIND_FLAG_NULL bindings there are no KMD restrictions
- * on the @pat_index. For such mappings there is no actual memory being
- * mapped (the address in the PTE is invalid), so the various PAT memory
- * attributes likely do not apply. Simply leaving as zero is one
- * option (still a valid pat_index). Same applies to
- * DRM_XE_VM_BIND_FLAG_CPU_ADDR_MIRROR bindings as for such mapping
- * there is no actual memory being mapped.
- */
- __u16 pat_index;
- /** @pad: MBZ */
- __u16 pad;
- union {
- /**
- * @obj_offset: Offset into the object, MBZ for CLEAR_RANGE,
- * ignored for unbind
- */
- __u64 obj_offset;
- /** @userptr: user pointer to bind on */
- __u64 userptr;
- /**
- * @cpu_addr_mirror_offset: Offset from GPU @addr to create
- * CPU address mirror mappings. MBZ with current level of
- * support (e.g. 1 to 1 mapping between GPU and CPU mappings
- * only supported).
- */
- __s64 cpu_addr_mirror_offset;
- };
- /**
- * @range: Number of bytes from the object to bind to addr, MBZ for UNMAP_ALL
- */
- __u64 range;
- /** @addr: Address to operate on, MBZ for UNMAP_ALL */
- __u64 addr;
- #define DRM_XE_VM_BIND_OP_MAP 0x0
- #define DRM_XE_VM_BIND_OP_UNMAP 0x1
- #define DRM_XE_VM_BIND_OP_MAP_USERPTR 0x2
- #define DRM_XE_VM_BIND_OP_UNMAP_ALL 0x3
- #define DRM_XE_VM_BIND_OP_PREFETCH 0x4
- /** @op: Bind operation to perform */
- __u32 op;
- #define DRM_XE_VM_BIND_FLAG_READONLY (1 << 0)
- #define DRM_XE_VM_BIND_FLAG_IMMEDIATE (1 << 1)
- #define DRM_XE_VM_BIND_FLAG_NULL (1 << 2)
- #define DRM_XE_VM_BIND_FLAG_DUMPABLE (1 << 3)
- #define DRM_XE_VM_BIND_FLAG_CHECK_PXP (1 << 4)
- #define DRM_XE_VM_BIND_FLAG_CPU_ADDR_MIRROR (1 << 5)
- #define DRM_XE_VM_BIND_FLAG_MADVISE_AUTORESET (1 << 6)
- /** @flags: Bind flags */
- __u32 flags;
- #define DRM_XE_CONSULT_MEM_ADVISE_PREF_LOC -1
- /**
- * @prefetch_mem_region_instance: Memory region to prefetch VMA to.
- * It is a region instance, not a mask.
- * To be used only with %DRM_XE_VM_BIND_OP_PREFETCH operation.
- */
- __u32 prefetch_mem_region_instance;
- /** @pad2: MBZ */
- __u32 pad2;
- /** @reserved: Reserved */
- __u64 reserved[3];
- };
- /**
- * struct drm_xe_vm_bind - Input of &DRM_IOCTL_XE_VM_BIND
- *
- * Below is an example of a minimal use of @drm_xe_vm_bind to
- * asynchronously bind the buffer `data` at address `BIND_ADDRESS` to
- * illustrate `userptr`. It can be synchronized by using the example
- * provided for @drm_xe_sync.
- *
- * .. code-block:: C
- *
- * data = aligned_alloc(ALIGNMENT, BO_SIZE);
- * struct drm_xe_vm_bind bind = {
- * .vm_id = vm,
- * .num_binds = 1,
- * .bind.obj = 0,
- * .bind.obj_offset = to_user_pointer(data),
- * .bind.range = BO_SIZE,
- * .bind.addr = BIND_ADDRESS,
- * .bind.op = DRM_XE_VM_BIND_OP_MAP_USERPTR,
- * .bind.flags = 0,
- * .num_syncs = 1,
- * .syncs = &sync,
- * .exec_queue_id = 0,
- * };
- * ioctl(fd, DRM_IOCTL_XE_VM_BIND, &bind);
- *
- */
- struct drm_xe_vm_bind {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @vm_id: The ID of the VM to bind to */
- __u32 vm_id;
- /**
- * @exec_queue_id: exec_queue_id, must be of class DRM_XE_ENGINE_CLASS_VM_BIND
- * and exec queue must have same vm_id. If zero, the default VM bind engine
- * is used.
- */
- __u32 exec_queue_id;
- /** @pad: MBZ */
- __u32 pad;
- /** @num_binds: number of binds in this IOCTL */
- __u32 num_binds;
- union {
- /** @bind: used if num_binds == 1 */
- struct drm_xe_vm_bind_op bind;
- /**
- * @vector_of_binds: userptr to array of struct
- * drm_xe_vm_bind_op if num_binds > 1
- */
- __u64 vector_of_binds;
- };
- /** @pad2: MBZ */
- __u32 pad2;
- /** @num_syncs: amount of syncs to wait on */
- __u32 num_syncs;
- /** @syncs: pointer to struct drm_xe_sync array */
- __u64 syncs;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_exec_queue_create - Input of &DRM_IOCTL_XE_EXEC_QUEUE_CREATE
- *
- * This ioctl supports setting the following properties via the
- * %DRM_XE_EXEC_QUEUE_EXTENSION_SET_PROPERTY extension, which uses the
- * generic @drm_xe_ext_set_property struct:
- *
- * - %DRM_XE_EXEC_QUEUE_SET_PROPERTY_PRIORITY - set the queue priority.
- * CAP_SYS_NICE is required to set a value above normal.
- * - %DRM_XE_EXEC_QUEUE_SET_PROPERTY_TIMESLICE - set the queue timeslice
- * duration in microseconds.
- * - %DRM_XE_EXEC_QUEUE_SET_PROPERTY_PXP_TYPE - set the type of PXP session
- * this queue will be used with. Valid values are listed in enum
- * drm_xe_pxp_session_type. %DRM_XE_PXP_TYPE_NONE is the default behavior, so
- * there is no need to explicitly set that. When a queue of type
- * %DRM_XE_PXP_TYPE_HWDRM is created, the PXP default HWDRM session
- * (%XE_PXP_HWDRM_DEFAULT_SESSION) will be started, if isn't already running.
- * The user is expected to query the PXP status via the query ioctl (see
- * %DRM_XE_DEVICE_QUERY_PXP_STATUS) and to wait for PXP to be ready before
- * attempting to create a queue with this property. When a queue is created
- * before PXP is ready, the ioctl will return -EBUSY if init is still in
- * progress or -EIO if init failed.
- * Given that going into a power-saving state kills PXP HWDRM sessions,
- * runtime PM will be blocked while queues of this type are alive.
- * All PXP queues will be killed if a PXP invalidation event occurs.
- * - %DRM_XE_EXEC_QUEUE_SET_PROPERTY_MULTI_GROUP - Create a multi-queue group
- * or add secondary queues to a multi-queue group.
- * If the extension's 'value' field has %DRM_XE_MULTI_GROUP_CREATE flag set,
- * then a new multi-queue group is created with this queue as the primary queue
- * (Q0). Otherwise, the queue gets added to the multi-queue group whose primary
- * queue's exec_queue_id is specified in the lower 32 bits of the 'value' field.
- * All the other non-relevant bits of extension's 'value' field while adding the
- * primary or the secondary queues of the group must be set to 0.
- * - %DRM_XE_EXEC_QUEUE_SET_PROPERTY_MULTI_QUEUE_PRIORITY - Set the queue
- * priority within the multi-queue group. Current valid priority values are 0–2
- * (default is 1), with higher values indicating higher priority.
- *
- * The example below shows how to use @drm_xe_exec_queue_create to create
- * a simple exec_queue (no parallel submission) of class
- * &DRM_XE_ENGINE_CLASS_RENDER.
- *
- * .. code-block:: C
- *
- * struct drm_xe_engine_class_instance instance = {
- * .engine_class = DRM_XE_ENGINE_CLASS_RENDER,
- * };
- * struct drm_xe_exec_queue_create exec_queue_create = {
- * .extensions = 0,
- * .vm_id = vm,
- * .num_bb_per_exec = 1,
- * .num_eng_per_bb = 1,
- * .instances = to_user_pointer(&instance),
- * };
- * ioctl(fd, DRM_IOCTL_XE_EXEC_QUEUE_CREATE, &exec_queue_create);
- *
- * Allow users to provide a hint to kernel for cases demanding low latency
- * profile. Please note it will have impact on power consumption. User can
- * indicate low latency hint with flag while creating exec queue as
- * mentioned below,
- *
- * struct drm_xe_exec_queue_create exec_queue_create = {
- * .flags = DRM_XE_EXEC_QUEUE_LOW_LATENCY_HINT,
- * .extensions = 0,
- * .vm_id = vm,
- * .num_bb_per_exec = 1,
- * .num_eng_per_bb = 1,
- * .instances = to_user_pointer(&instance),
- * };
- * ioctl(fd, DRM_IOCTL_XE_EXEC_QUEUE_CREATE, &exec_queue_create);
- *
- */
- struct drm_xe_exec_queue_create {
- #define DRM_XE_EXEC_QUEUE_EXTENSION_SET_PROPERTY 0
- #define DRM_XE_EXEC_QUEUE_SET_PROPERTY_PRIORITY 0
- #define DRM_XE_EXEC_QUEUE_SET_PROPERTY_TIMESLICE 1
- #define DRM_XE_EXEC_QUEUE_SET_PROPERTY_PXP_TYPE 2
- #define DRM_XE_EXEC_QUEUE_SET_HANG_REPLAY_STATE 3
- #define DRM_XE_EXEC_QUEUE_SET_PROPERTY_MULTI_GROUP 4
- #define DRM_XE_MULTI_GROUP_CREATE (1ull << 63)
- #define DRM_XE_EXEC_QUEUE_SET_PROPERTY_MULTI_QUEUE_PRIORITY 5
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @width: submission width (number BB per exec) for this exec queue */
- __u16 width;
- /** @num_placements: number of valid placements for this exec queue */
- __u16 num_placements;
- /** @vm_id: VM to use for this exec queue */
- __u32 vm_id;
- #define DRM_XE_EXEC_QUEUE_LOW_LATENCY_HINT (1 << 0)
- /** @flags: flags to use for this exec queue */
- __u32 flags;
- /** @exec_queue_id: Returned exec queue ID */
- __u32 exec_queue_id;
- /**
- * @instances: user pointer to a 2-d array of struct
- * drm_xe_engine_class_instance
- *
- * length = width (i) * num_placements (j)
- * index = j + i * width
- */
- __u64 instances;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_exec_queue_destroy - Input of &DRM_IOCTL_XE_EXEC_QUEUE_DESTROY
- */
- struct drm_xe_exec_queue_destroy {
- /** @exec_queue_id: Exec queue ID */
- __u32 exec_queue_id;
- /** @pad: MBZ */
- __u32 pad;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_exec_queue_get_property - Input of &DRM_IOCTL_XE_EXEC_QUEUE_GET_PROPERTY
- *
- * The @property can be:
- * - %DRM_XE_EXEC_QUEUE_GET_PROPERTY_BAN
- */
- struct drm_xe_exec_queue_get_property {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @exec_queue_id: Exec queue ID */
- __u32 exec_queue_id;
- #define DRM_XE_EXEC_QUEUE_GET_PROPERTY_BAN 0
- /** @property: property to get */
- __u32 property;
- /** @value: property value */
- __u64 value;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_sync - sync object
- *
- * The @type can be:
- * - %DRM_XE_SYNC_TYPE_SYNCOBJ
- * - %DRM_XE_SYNC_TYPE_TIMELINE_SYNCOBJ
- * - %DRM_XE_SYNC_TYPE_USER_FENCE
- *
- * and the @flags can be:
- * - %DRM_XE_SYNC_FLAG_SIGNAL
- *
- * A minimal use of @drm_xe_sync looks like this:
- *
- * .. code-block:: C
- *
- * struct drm_xe_sync sync = {
- * .flags = DRM_XE_SYNC_FLAG_SIGNAL,
- * .type = DRM_XE_SYNC_TYPE_SYNCOBJ,
- * };
- * struct drm_syncobj_create syncobj_create = { 0 };
- * ioctl(fd, DRM_IOCTL_SYNCOBJ_CREATE, &syncobj_create);
- * sync.handle = syncobj_create.handle;
- * ...
- * use of &sync in drm_xe_exec or drm_xe_vm_bind
- * ...
- * struct drm_syncobj_wait wait = {
- * .handles = &sync.handle,
- * .timeout_nsec = INT64_MAX,
- * .count_handles = 1,
- * .flags = 0,
- * .first_signaled = 0,
- * .pad = 0,
- * };
- * ioctl(fd, DRM_IOCTL_SYNCOBJ_WAIT, &wait);
- */
- struct drm_xe_sync {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- #define DRM_XE_SYNC_TYPE_SYNCOBJ 0x0
- #define DRM_XE_SYNC_TYPE_TIMELINE_SYNCOBJ 0x1
- #define DRM_XE_SYNC_TYPE_USER_FENCE 0x2
- /** @type: Type of the this sync object */
- __u32 type;
- #define DRM_XE_SYNC_FLAG_SIGNAL (1 << 0)
- /** @flags: Sync Flags */
- __u32 flags;
- union {
- /** @handle: Handle for the object */
- __u32 handle;
- /**
- * @addr: Address of user fence. When sync is passed in via exec
- * IOCTL this is a GPU address in the VM. When sync passed in via
- * VM bind IOCTL this is a user pointer. In either case, it is
- * the users responsibility that this address is present and
- * mapped when the user fence is signalled. Must be qword
- * aligned.
- */
- __u64 addr;
- };
- /**
- * @timeline_value: Input for the timeline sync object. Needs to be
- * different than 0 when used with %DRM_XE_SYNC_TYPE_TIMELINE_SYNCOBJ.
- */
- __u64 timeline_value;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_exec - Input of &DRM_IOCTL_XE_EXEC
- *
- * This is an example to use @drm_xe_exec for execution of the object
- * at BIND_ADDRESS (see example in @drm_xe_vm_bind) by an exec_queue
- * (see example in @drm_xe_exec_queue_create). It can be synchronized
- * by using the example provided for @drm_xe_sync.
- *
- * .. code-block:: C
- *
- * struct drm_xe_exec exec = {
- * .exec_queue_id = exec_queue,
- * .syncs = &sync,
- * .num_syncs = 1,
- * .address = BIND_ADDRESS,
- * .num_batch_buffer = 1,
- * };
- * ioctl(fd, DRM_IOCTL_XE_EXEC, &exec);
- *
- */
- struct drm_xe_exec {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @exec_queue_id: Exec queue ID for the batch buffer */
- __u32 exec_queue_id;
- #define DRM_XE_MAX_SYNCS 1024
- /** @num_syncs: Amount of struct drm_xe_sync in array. */
- __u32 num_syncs;
- /** @syncs: Pointer to struct drm_xe_sync array. */
- __u64 syncs;
- /**
- * @address: address of batch buffer if num_batch_buffer == 1 or an
- * array of batch buffer addresses
- */
- __u64 address;
- /**
- * @num_batch_buffer: number of batch buffer in this exec, must match
- * the width of the engine
- */
- __u16 num_batch_buffer;
- /** @pad: MBZ */
- __u16 pad[3];
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_wait_user_fence - Input of &DRM_IOCTL_XE_WAIT_USER_FENCE
- *
- * Wait on user fence, XE will wake-up on every HW engine interrupt in the
- * instances list and check if user fence is complete::
- *
- * (*addr & MASK) OP (VALUE & MASK)
- *
- * Returns to user on user fence completion or timeout.
- *
- * The @op can be:
- * - %DRM_XE_UFENCE_WAIT_OP_EQ
- * - %DRM_XE_UFENCE_WAIT_OP_NEQ
- * - %DRM_XE_UFENCE_WAIT_OP_GT
- * - %DRM_XE_UFENCE_WAIT_OP_GTE
- * - %DRM_XE_UFENCE_WAIT_OP_LT
- * - %DRM_XE_UFENCE_WAIT_OP_LTE
- *
- * and the @flags can be:
- * - %DRM_XE_UFENCE_WAIT_FLAG_ABSTIME
- * - %DRM_XE_UFENCE_WAIT_FLAG_SOFT_OP
- *
- * The @mask values can be for example:
- * - 0xffu for u8
- * - 0xffffu for u16
- * - 0xffffffffu for u32
- * - 0xffffffffffffffffu for u64
- */
- struct drm_xe_wait_user_fence {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /**
- * @addr: user pointer address to wait on, must qword aligned
- */
- __u64 addr;
- #define DRM_XE_UFENCE_WAIT_OP_EQ 0x0
- #define DRM_XE_UFENCE_WAIT_OP_NEQ 0x1
- #define DRM_XE_UFENCE_WAIT_OP_GT 0x2
- #define DRM_XE_UFENCE_WAIT_OP_GTE 0x3
- #define DRM_XE_UFENCE_WAIT_OP_LT 0x4
- #define DRM_XE_UFENCE_WAIT_OP_LTE 0x5
- /** @op: wait operation (type of comparison) */
- __u16 op;
- #define DRM_XE_UFENCE_WAIT_FLAG_ABSTIME (1 << 0)
- /** @flags: wait flags */
- __u16 flags;
- /** @pad: MBZ */
- __u32 pad;
- /** @value: compare value */
- __u64 value;
- /** @mask: comparison mask */
- __u64 mask;
- /**
- * @timeout: how long to wait before bailing, value in nanoseconds.
- * Without DRM_XE_UFENCE_WAIT_FLAG_ABSTIME flag set (relative timeout)
- * it contains timeout expressed in nanoseconds to wait (fence will
- * expire at now() + timeout).
- * When DRM_XE_UFENCE_WAIT_FLAG_ABSTIME flat is set (absolute timeout) wait
- * will end at timeout (uses system MONOTONIC_CLOCK).
- * Passing negative timeout leads to neverending wait.
- *
- * On relative timeout this value is updated with timeout left
- * (for restarting the call in case of signal delivery).
- * On absolute timeout this value stays intact (restarted call still
- * expire at the same point of time).
- */
- __s64 timeout;
- /** @exec_queue_id: exec_queue_id returned from xe_exec_queue_create_ioctl */
- __u32 exec_queue_id;
- /** @pad2: MBZ */
- __u32 pad2;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * enum drm_xe_observation_type - Observation stream types
- */
- enum drm_xe_observation_type {
- /** @DRM_XE_OBSERVATION_TYPE_OA: OA observation stream type */
- DRM_XE_OBSERVATION_TYPE_OA,
- /** @DRM_XE_OBSERVATION_TYPE_EU_STALL: EU stall sampling observation stream type */
- DRM_XE_OBSERVATION_TYPE_EU_STALL,
- };
- /**
- * enum drm_xe_observation_op - Observation stream ops
- */
- enum drm_xe_observation_op {
- /** @DRM_XE_OBSERVATION_OP_STREAM_OPEN: Open an observation stream */
- DRM_XE_OBSERVATION_OP_STREAM_OPEN,
- /** @DRM_XE_OBSERVATION_OP_ADD_CONFIG: Add observation stream config */
- DRM_XE_OBSERVATION_OP_ADD_CONFIG,
- /** @DRM_XE_OBSERVATION_OP_REMOVE_CONFIG: Remove observation stream config */
- DRM_XE_OBSERVATION_OP_REMOVE_CONFIG,
- };
- /**
- * struct drm_xe_observation_param - Input of &DRM_XE_OBSERVATION
- *
- * The observation layer enables multiplexing observation streams of
- * multiple types. The actual params for a particular stream operation are
- * supplied via the @param pointer (use __copy_from_user to get these
- * params).
- */
- struct drm_xe_observation_param {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @observation_type: observation stream type, of enum @drm_xe_observation_type */
- __u64 observation_type;
- /** @observation_op: observation stream op, of enum @drm_xe_observation_op */
- __u64 observation_op;
- /** @param: Pointer to actual stream params */
- __u64 param;
- };
- /**
- * enum drm_xe_observation_ioctls - Observation stream fd ioctl's
- *
- * Information exchanged between userspace and kernel for observation fd
- * ioctl's is stream type specific
- */
- enum drm_xe_observation_ioctls {
- /** @DRM_XE_OBSERVATION_IOCTL_ENABLE: Enable data capture for an observation stream */
- DRM_XE_OBSERVATION_IOCTL_ENABLE = _IO('i', 0x0),
- /** @DRM_XE_OBSERVATION_IOCTL_DISABLE: Disable data capture for a observation stream */
- DRM_XE_OBSERVATION_IOCTL_DISABLE = _IO('i', 0x1),
- /** @DRM_XE_OBSERVATION_IOCTL_CONFIG: Change observation stream configuration */
- DRM_XE_OBSERVATION_IOCTL_CONFIG = _IO('i', 0x2),
- /** @DRM_XE_OBSERVATION_IOCTL_STATUS: Return observation stream status */
- DRM_XE_OBSERVATION_IOCTL_STATUS = _IO('i', 0x3),
- /** @DRM_XE_OBSERVATION_IOCTL_INFO: Return observation stream info */
- DRM_XE_OBSERVATION_IOCTL_INFO = _IO('i', 0x4),
- };
- /**
- * enum drm_xe_oa_unit_type - OA unit types
- */
- enum drm_xe_oa_unit_type {
- /**
- * @DRM_XE_OA_UNIT_TYPE_OAG: OAG OA unit. OAR/OAC are considered
- * sub-types of OAG. For OAR/OAC, use OAG.
- */
- DRM_XE_OA_UNIT_TYPE_OAG,
- /** @DRM_XE_OA_UNIT_TYPE_OAM: OAM OA unit */
- DRM_XE_OA_UNIT_TYPE_OAM,
- /** @DRM_XE_OA_UNIT_TYPE_OAM_SAG: OAM_SAG OA unit */
- DRM_XE_OA_UNIT_TYPE_OAM_SAG,
- /** @DRM_XE_OA_UNIT_TYPE_MERT: MERT OA unit */
- DRM_XE_OA_UNIT_TYPE_MERT,
- };
- /**
- * struct drm_xe_oa_unit - describe OA unit
- */
- struct drm_xe_oa_unit {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @oa_unit_id: OA unit ID */
- __u32 oa_unit_id;
- /** @oa_unit_type: OA unit type of @drm_xe_oa_unit_type */
- __u32 oa_unit_type;
- /** @capabilities: OA capabilities bit-mask */
- __u64 capabilities;
- #define DRM_XE_OA_CAPS_BASE (1 << 0)
- #define DRM_XE_OA_CAPS_SYNCS (1 << 1)
- #define DRM_XE_OA_CAPS_OA_BUFFER_SIZE (1 << 2)
- #define DRM_XE_OA_CAPS_WAIT_NUM_REPORTS (1 << 3)
- #define DRM_XE_OA_CAPS_OAM (1 << 4)
- #define DRM_XE_OA_CAPS_OA_UNIT_GT_ID (1 << 5)
- /** @oa_timestamp_freq: OA timestamp freq */
- __u64 oa_timestamp_freq;
- /** @gt_id: gt id for this OA unit */
- __u16 gt_id;
- /** @reserved1: MBZ */
- __u16 reserved1[3];
- /** @reserved: MBZ */
- __u64 reserved[3];
- /** @num_engines: number of engines in @eci array */
- __u64 num_engines;
- /** @eci: engines attached to this OA unit */
- struct drm_xe_engine_class_instance eci[];
- };
- /**
- * struct drm_xe_query_oa_units - describe OA units
- *
- * If a query is made with a struct drm_xe_device_query where .query
- * is equal to DRM_XE_DEVICE_QUERY_OA_UNITS, then the reply uses struct
- * drm_xe_query_oa_units in .data.
- *
- * OA unit properties for all OA units can be accessed using a code block
- * such as the one below:
- *
- * .. code-block:: C
- *
- * struct drm_xe_query_oa_units *qoa;
- * struct drm_xe_oa_unit *oau;
- * u8 *poau;
- *
- * // malloc qoa and issue DRM_XE_DEVICE_QUERY_OA_UNITS. Then:
- * poau = (u8 *)&qoa->oa_units[0];
- * for (int i = 0; i < qoa->num_oa_units; i++) {
- * oau = (struct drm_xe_oa_unit *)poau;
- * // Access 'struct drm_xe_oa_unit' fields here
- * poau += sizeof(*oau) + oau->num_engines * sizeof(oau->eci[0]);
- * }
- */
- struct drm_xe_query_oa_units {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @num_oa_units: number of OA units returned in oau[] */
- __u32 num_oa_units;
- /** @pad: MBZ */
- __u32 pad;
- /**
- * @oa_units: struct @drm_xe_oa_unit array returned for this device.
- * Written below as a u64 array to avoid problems with nested flexible
- * arrays with some compilers
- */
- __u64 oa_units[];
- };
- /**
- * enum drm_xe_oa_format_type - OA format types as specified in PRM/Bspec
- * 52198/60942
- */
- enum drm_xe_oa_format_type {
- /** @DRM_XE_OA_FMT_TYPE_OAG: OAG report format */
- DRM_XE_OA_FMT_TYPE_OAG,
- /** @DRM_XE_OA_FMT_TYPE_OAR: OAR report format */
- DRM_XE_OA_FMT_TYPE_OAR,
- /** @DRM_XE_OA_FMT_TYPE_OAM: OAM report format */
- DRM_XE_OA_FMT_TYPE_OAM,
- /** @DRM_XE_OA_FMT_TYPE_OAC: OAC report format */
- DRM_XE_OA_FMT_TYPE_OAC,
- /** @DRM_XE_OA_FMT_TYPE_OAM_MPEC: OAM SAMEDIA or OAM MPEC report format */
- DRM_XE_OA_FMT_TYPE_OAM_MPEC,
- /** @DRM_XE_OA_FMT_TYPE_PEC: PEC report format */
- DRM_XE_OA_FMT_TYPE_PEC,
- };
- /**
- * enum drm_xe_oa_property_id - OA stream property id's
- *
- * Stream params are specified as a chain of @drm_xe_ext_set_property
- * struct's, with @property values from enum @drm_xe_oa_property_id and
- * @drm_xe_user_extension base.name set to @DRM_XE_OA_EXTENSION_SET_PROPERTY.
- * @param field in struct @drm_xe_observation_param points to the first
- * @drm_xe_ext_set_property struct.
- *
- * Exactly the same mechanism is also used for stream reconfiguration using the
- * @DRM_XE_OBSERVATION_IOCTL_CONFIG observation stream fd ioctl, though only a
- * subset of properties below can be specified for stream reconfiguration.
- */
- enum drm_xe_oa_property_id {
- #define DRM_XE_OA_EXTENSION_SET_PROPERTY 0
- /**
- * @DRM_XE_OA_PROPERTY_OA_UNIT_ID: ID of the OA unit on which to open
- * the OA stream, see @oa_unit_id in 'struct
- * drm_xe_query_oa_units'. Defaults to 0 if not provided.
- */
- DRM_XE_OA_PROPERTY_OA_UNIT_ID = 1,
- /**
- * @DRM_XE_OA_PROPERTY_SAMPLE_OA: A value of 1 requests inclusion of raw
- * OA unit reports or stream samples in a global buffer attached to an
- * OA unit.
- */
- DRM_XE_OA_PROPERTY_SAMPLE_OA,
- /**
- * @DRM_XE_OA_PROPERTY_OA_METRIC_SET: OA metrics defining contents of OA
- * reports, previously added via @DRM_XE_OBSERVATION_OP_ADD_CONFIG.
- */
- DRM_XE_OA_PROPERTY_OA_METRIC_SET,
- /** @DRM_XE_OA_PROPERTY_OA_FORMAT: OA counter report format */
- DRM_XE_OA_PROPERTY_OA_FORMAT,
- /*
- * OA_FORMAT's are specified the same way as in PRM/Bspec 52198/60942,
- * in terms of the following quantities: a. enum @drm_xe_oa_format_type
- * b. Counter select c. Counter size and d. BC report. Also refer to the
- * oa_formats array in drivers/gpu/drm/xe/xe_oa.c.
- */
- #define DRM_XE_OA_FORMAT_MASK_FMT_TYPE (0xffu << 0)
- #define DRM_XE_OA_FORMAT_MASK_COUNTER_SEL (0xffu << 8)
- #define DRM_XE_OA_FORMAT_MASK_COUNTER_SIZE (0xffu << 16)
- #define DRM_XE_OA_FORMAT_MASK_BC_REPORT (0xffu << 24)
- /**
- * @DRM_XE_OA_PROPERTY_OA_PERIOD_EXPONENT: Requests periodic OA unit
- * sampling with sampling frequency proportional to 2^(period_exponent + 1)
- */
- DRM_XE_OA_PROPERTY_OA_PERIOD_EXPONENT,
- /**
- * @DRM_XE_OA_PROPERTY_OA_DISABLED: A value of 1 will open the OA
- * stream in a DISABLED state (see @DRM_XE_OBSERVATION_IOCTL_ENABLE).
- */
- DRM_XE_OA_PROPERTY_OA_DISABLED,
- /**
- * @DRM_XE_OA_PROPERTY_EXEC_QUEUE_ID: Open the stream for a specific
- * @exec_queue_id. OA queries can be executed on this exec queue.
- */
- DRM_XE_OA_PROPERTY_EXEC_QUEUE_ID,
- /**
- * @DRM_XE_OA_PROPERTY_OA_ENGINE_INSTANCE: Optional engine instance to
- * pass along with @DRM_XE_OA_PROPERTY_EXEC_QUEUE_ID or will default to 0.
- */
- DRM_XE_OA_PROPERTY_OA_ENGINE_INSTANCE,
- /**
- * @DRM_XE_OA_PROPERTY_NO_PREEMPT: Allow preemption and timeslicing
- * to be disabled for the stream exec queue.
- */
- DRM_XE_OA_PROPERTY_NO_PREEMPT,
- /**
- * @DRM_XE_OA_PROPERTY_NUM_SYNCS: Number of syncs in the sync array
- * specified in @DRM_XE_OA_PROPERTY_SYNCS
- */
- DRM_XE_OA_PROPERTY_NUM_SYNCS,
- /**
- * @DRM_XE_OA_PROPERTY_SYNCS: Pointer to struct @drm_xe_sync array
- * with array size specified via @DRM_XE_OA_PROPERTY_NUM_SYNCS. OA
- * configuration will wait till input fences signal. Output fences
- * will signal after the new OA configuration takes effect. For
- * @DRM_XE_SYNC_TYPE_USER_FENCE, @addr is a user pointer, similar
- * to the VM bind case.
- */
- DRM_XE_OA_PROPERTY_SYNCS,
- /**
- * @DRM_XE_OA_PROPERTY_OA_BUFFER_SIZE: Size of OA buffer to be
- * allocated by the driver in bytes. Supported sizes are powers of
- * 2 from 128 KiB to 128 MiB. When not specified, a 16 MiB OA
- * buffer is allocated by default.
- */
- DRM_XE_OA_PROPERTY_OA_BUFFER_SIZE,
- /**
- * @DRM_XE_OA_PROPERTY_WAIT_NUM_REPORTS: Number of reports to wait
- * for before unblocking poll or read
- */
- DRM_XE_OA_PROPERTY_WAIT_NUM_REPORTS,
- };
- /**
- * struct drm_xe_oa_config - OA metric configuration
- *
- * Multiple OA configs can be added using @DRM_XE_OBSERVATION_OP_ADD_CONFIG. A
- * particular config can be specified when opening an OA stream using
- * @DRM_XE_OA_PROPERTY_OA_METRIC_SET property.
- */
- struct drm_xe_oa_config {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @uuid: String formatted like "%\08x-%\04x-%\04x-%\04x-%\012x" */
- char uuid[36];
- /** @n_regs: Number of regs in @regs_ptr */
- __u32 n_regs;
- /**
- * @regs_ptr: Pointer to (register address, value) pairs for OA config
- * registers. Expected length of buffer is: (2 * sizeof(u32) * @n_regs).
- */
- __u64 regs_ptr;
- };
- /**
- * struct drm_xe_oa_stream_status - OA stream status returned from
- * @DRM_XE_OBSERVATION_IOCTL_STATUS observation stream fd ioctl. Userspace can
- * call the ioctl to query stream status in response to EIO errno from
- * observation fd read().
- */
- struct drm_xe_oa_stream_status {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @oa_status: OA stream status (see Bspec 46717/61226) */
- __u64 oa_status;
- #define DRM_XE_OASTATUS_MMIO_TRG_Q_FULL (1 << 3)
- #define DRM_XE_OASTATUS_COUNTER_OVERFLOW (1 << 2)
- #define DRM_XE_OASTATUS_BUFFER_OVERFLOW (1 << 1)
- #define DRM_XE_OASTATUS_REPORT_LOST (1 << 0)
- /** @reserved: reserved for future use */
- __u64 reserved[3];
- };
- /**
- * struct drm_xe_oa_stream_info - OA stream info returned from
- * @DRM_XE_OBSERVATION_IOCTL_INFO observation stream fd ioctl
- */
- struct drm_xe_oa_stream_info {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @oa_buf_size: OA buffer size */
- __u64 oa_buf_size;
- /** @reserved: reserved for future use */
- __u64 reserved[3];
- };
- /**
- * enum drm_xe_pxp_session_type - Supported PXP session types.
- *
- * We currently only support HWDRM sessions, which are used for protected
- * content that ends up being displayed, but the HW supports multiple types, so
- * we might extend support in the future.
- */
- enum drm_xe_pxp_session_type {
- /** @DRM_XE_PXP_TYPE_NONE: PXP not used */
- DRM_XE_PXP_TYPE_NONE = 0,
- /**
- * @DRM_XE_PXP_TYPE_HWDRM: HWDRM sessions are used for content that ends
- * up on the display.
- */
- DRM_XE_PXP_TYPE_HWDRM = 1,
- };
- /* ID of the protected content session managed by Xe when PXP is active */
- #define DRM_XE_PXP_HWDRM_DEFAULT_SESSION 0xf
- /**
- * enum drm_xe_eu_stall_property_id - EU stall sampling input property ids.
- *
- * These properties are passed to the driver at open as a chain of
- * @drm_xe_ext_set_property structures with @property set to these
- * properties' enums and @value set to the corresponding values of these
- * properties. @drm_xe_user_extension base.name should be set to
- * @DRM_XE_EU_STALL_EXTENSION_SET_PROPERTY.
- *
- * With the file descriptor obtained from open, user space must enable
- * the EU stall stream fd with @DRM_XE_OBSERVATION_IOCTL_ENABLE before
- * calling read(). EIO errno from read() indicates HW dropped data
- * due to full buffer.
- */
- enum drm_xe_eu_stall_property_id {
- #define DRM_XE_EU_STALL_EXTENSION_SET_PROPERTY 0
- /**
- * @DRM_XE_EU_STALL_PROP_GT_ID: @gt_id of the GT on which
- * EU stall data will be captured.
- */
- DRM_XE_EU_STALL_PROP_GT_ID = 1,
- /**
- * @DRM_XE_EU_STALL_PROP_SAMPLE_RATE: Sampling rate in
- * GPU cycles from @sampling_rates in struct @drm_xe_query_eu_stall
- */
- DRM_XE_EU_STALL_PROP_SAMPLE_RATE,
- /**
- * @DRM_XE_EU_STALL_PROP_WAIT_NUM_REPORTS: Minimum number of
- * EU stall data reports to be present in the kernel buffer
- * before unblocking a blocked poll or read.
- */
- DRM_XE_EU_STALL_PROP_WAIT_NUM_REPORTS,
- };
- /**
- * struct drm_xe_query_eu_stall - Information about EU stall sampling.
- *
- * If a query is made with a struct @drm_xe_device_query where .query
- * is equal to @DRM_XE_DEVICE_QUERY_EU_STALL, then the reply uses
- * struct @drm_xe_query_eu_stall in .data.
- */
- struct drm_xe_query_eu_stall {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @capabilities: EU stall capabilities bit-mask */
- __u64 capabilities;
- #define DRM_XE_EU_STALL_CAPS_BASE (1 << 0)
- /** @record_size: size of each EU stall data record */
- __u64 record_size;
- /** @per_xecore_buf_size: internal per XeCore buffer size */
- __u64 per_xecore_buf_size;
- /** @reserved: Reserved */
- __u64 reserved[5];
- /** @num_sampling_rates: Number of sampling rates in @sampling_rates array */
- __u64 num_sampling_rates;
- /**
- * @sampling_rates: Flexible array of sampling rates
- * sorted in the fastest to slowest order.
- * Sampling rates are specified in GPU clock cycles.
- */
- __u64 sampling_rates[];
- };
- /**
- * struct drm_xe_madvise - Input of &DRM_IOCTL_XE_MADVISE
- *
- * This structure is used to set memory attributes for a virtual address range
- * in a VM. The type of attribute is specified by @type, and the corresponding
- * union member is used to provide additional parameters for @type.
- *
- * Supported attribute types:
- * - DRM_XE_MEM_RANGE_ATTR_PREFERRED_LOC: Set preferred memory location.
- * - DRM_XE_MEM_RANGE_ATTR_ATOMIC: Set atomic access policy.
- * - DRM_XE_MEM_RANGE_ATTR_PAT: Set page attribute table index.
- *
- * Example:
- *
- * .. code-block:: C
- *
- * struct drm_xe_madvise madvise = {
- * .vm_id = vm_id,
- * .start = 0x100000,
- * .range = 0x2000,
- * .type = DRM_XE_MEM_RANGE_ATTR_ATOMIC,
- * .atomic_val = DRM_XE_ATOMIC_DEVICE,
- * };
- *
- * ioctl(fd, DRM_IOCTL_XE_MADVISE, &madvise);
- *
- */
- struct drm_xe_madvise {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @start: start of the virtual address range */
- __u64 start;
- /** @range: size of the virtual address range */
- __u64 range;
- /** @vm_id: vm_id of the virtual range */
- __u32 vm_id;
- #define DRM_XE_MEM_RANGE_ATTR_PREFERRED_LOC 0
- #define DRM_XE_MEM_RANGE_ATTR_ATOMIC 1
- #define DRM_XE_MEM_RANGE_ATTR_PAT 2
- /** @type: type of attribute */
- __u32 type;
- union {
- /**
- * @preferred_mem_loc: preferred memory location
- *
- * Used when @type == DRM_XE_MEM_RANGE_ATTR_PREFERRED_LOC
- *
- * Supported values for @preferred_mem_loc.devmem_fd:
- * - DRM_XE_PREFERRED_LOC_DEFAULT_DEVICE: set vram of fault tile as preferred loc
- * - DRM_XE_PREFERRED_LOC_DEFAULT_SYSTEM: set smem as preferred loc
- *
- * Supported values for @preferred_mem_loc.migration_policy:
- * - DRM_XE_MIGRATE_ALL_PAGES
- * - DRM_XE_MIGRATE_ONLY_SYSTEM_PAGES
- */
- struct {
- #define DRM_XE_PREFERRED_LOC_DEFAULT_DEVICE 0
- #define DRM_XE_PREFERRED_LOC_DEFAULT_SYSTEM -1
- /**
- * @preferred_mem_loc.devmem_fd:
- * Device file-descriptor of the device where the
- * preferred memory is located, or one of the
- * above special values. Please also see
- * @preferred_mem_loc.region_instance below.
- */
- __u32 devmem_fd;
- #define DRM_XE_MIGRATE_ALL_PAGES 0
- #define DRM_XE_MIGRATE_ONLY_SYSTEM_PAGES 1
- /** @preferred_mem_loc.migration_policy: Page migration policy */
- __u16 migration_policy;
- /**
- * @preferred_mem_loc.region_instance : Region instance.
- * MBZ if @devmem_fd <= &DRM_XE_PREFERRED_LOC_DEFAULT_DEVICE.
- * Otherwise should point to the desired device
- * VRAM instance of the device indicated by
- * @preferred_mem_loc.devmem_fd.
- */
- __u16 region_instance;
- /** @preferred_mem_loc.reserved : Reserved */
- __u64 reserved;
- } preferred_mem_loc;
- /**
- * @atomic: Atomic access policy
- *
- * Used when @type == DRM_XE_MEM_RANGE_ATTR_ATOMIC.
- *
- * Supported values for @atomic.val:
- * - DRM_XE_ATOMIC_UNDEFINED: Undefined or default behaviour.
- * Support both GPU and CPU atomic operations for system allocator.
- * Support GPU atomic operations for normal(bo) allocator.
- * - DRM_XE_ATOMIC_DEVICE: Support GPU atomic operations.
- * - DRM_XE_ATOMIC_GLOBAL: Support both GPU and CPU atomic operations.
- * - DRM_XE_ATOMIC_CPU: Support CPU atomic only, no GPU atomics supported.
- */
- struct {
- #define DRM_XE_ATOMIC_UNDEFINED 0
- #define DRM_XE_ATOMIC_DEVICE 1
- #define DRM_XE_ATOMIC_GLOBAL 2
- #define DRM_XE_ATOMIC_CPU 3
- /** @atomic.val: value of atomic operation */
- __u32 val;
- /** @atomic.pad: MBZ */
- __u32 pad;
- /** @atomic.reserved: Reserved */
- __u64 reserved;
- } atomic;
- /**
- * @pat_index: Page attribute table index
- *
- * Used when @type == DRM_XE_MEM_RANGE_ATTR_PAT.
- */
- struct {
- /** @pat_index.val: PAT index value */
- __u32 val;
- /** @pat_index.pad: MBZ */
- __u32 pad;
- /** @pat_index.reserved: Reserved */
- __u64 reserved;
- } pat_index;
- };
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_mem_range_attr - Output of &DRM_IOCTL_XE_VM_QUERY_MEM_RANGES_ATTRS
- *
- * This structure is provided by userspace and filled by KMD in response to the
- * DRM_IOCTL_XE_VM_QUERY_MEM_RANGES_ATTRS ioctl. It describes memory attributes of
- * a memory ranges within a user specified address range in a VM.
- *
- * The structure includes information such as atomic access policy,
- * page attribute table (PAT) index, and preferred memory location.
- * Userspace allocates an array of these structures and passes a pointer to the
- * ioctl to retrieve attributes for each memory ranges
- *
- * @extensions: Pointer to the first extension struct, if any
- * @start: Start address of the memory range
- * @end: End address of the virtual memory range
- *
- */
- struct drm_xe_mem_range_attr {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @start: start of the memory range */
- __u64 start;
- /** @end: end of the memory range */
- __u64 end;
- /** @preferred_mem_loc: preferred memory location */
- struct {
- /** @preferred_mem_loc.devmem_fd: fd for preferred loc */
- __u32 devmem_fd;
- /** @preferred_mem_loc.migration_policy: Page migration policy */
- __u32 migration_policy;
- } preferred_mem_loc;
- /** @atomic: Atomic access policy */
- struct {
- /** @atomic.val: atomic attribute */
- __u32 val;
- /** @atomic.reserved: Reserved */
- __u32 reserved;
- } atomic;
- /** @pat_index: Page attribute table index */
- struct {
- /** @pat_index.val: PAT index */
- __u32 val;
- /** @pat_index.reserved: Reserved */
- __u32 reserved;
- } pat_index;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_vm_query_mem_range_attr - Input of &DRM_IOCTL_XE_VM_QUERY_MEM_ATTRIBUTES
- *
- * This structure is used to query memory attributes of memory regions
- * within a user specified address range in a VM. It provides detailed
- * information about each memory range, including atomic access policy,
- * page attribute table (PAT) index, and preferred memory location.
- *
- * Userspace first calls the ioctl with @num_mem_ranges = 0,
- * @sizeof_mem_ranges_attr = 0 and @vector_of_vma_mem_attr = NULL to retrieve
- * the number of memory regions and size of each memory range attribute.
- * Then, it allocates a buffer of that size and calls the ioctl again to fill
- * the buffer with memory range attributes.
- *
- * If second call fails with -ENOSPC, it means memory ranges changed between
- * first call and now, retry IOCTL again with @num_mem_ranges = 0,
- * @sizeof_mem_ranges_attr = 0 and @vector_of_vma_mem_attr = NULL followed by
- * Second ioctl call.
- *
- * Example:
- *
- * .. code-block:: C
- *
- * struct drm_xe_vm_query_mem_range_attr query = {
- * .vm_id = vm_id,
- * .start = 0x100000,
- * .range = 0x2000,
- * };
- *
- * // First ioctl call to get num of mem regions and sizeof each attribute
- * ioctl(fd, DRM_IOCTL_XE_VM_QUERY_MEM_RANGE_ATTRS, &query);
- *
- * // Allocate buffer for the memory region attributes
- * void *ptr = malloc(query.num_mem_ranges * query.sizeof_mem_range_attr);
- * void *ptr_start = ptr;
- *
- * query.vector_of_mem_attr = (uintptr_t)ptr;
- *
- * // Second ioctl call to actually fill the memory attributes
- * ioctl(fd, DRM_IOCTL_XE_VM_QUERY_MEM_RANGE_ATTRS, &query);
- *
- * // Iterate over the returned memory region attributes
- * for (unsigned int i = 0; i < query.num_mem_ranges; ++i) {
- * struct drm_xe_mem_range_attr *attr = (struct drm_xe_mem_range_attr *)ptr;
- *
- * // Do something with attr
- *
- * // Move pointer by one entry
- * ptr += query.sizeof_mem_range_attr;
- * }
- *
- * free(ptr_start);
- */
- struct drm_xe_vm_query_mem_range_attr {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @vm_id: vm_id of the virtual range */
- __u32 vm_id;
- /** @num_mem_ranges: number of mem_ranges in range */
- __u32 num_mem_ranges;
- /** @start: start of the virtual address range */
- __u64 start;
- /** @range: size of the virtual address range */
- __u64 range;
- /** @sizeof_mem_range_attr: size of struct drm_xe_mem_range_attr */
- __u64 sizeof_mem_range_attr;
- /** @vector_of_mem_attr: userptr to array of struct drm_xe_mem_range_attr */
- __u64 vector_of_mem_attr;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- /**
- * struct drm_xe_exec_queue_set_property - exec queue set property
- *
- * Sets execution queue properties dynamically.
- * Currently only %DRM_XE_EXEC_QUEUE_SET_PROPERTY_MULTI_QUEUE_PRIORITY
- * property can be dynamically set.
- */
- struct drm_xe_exec_queue_set_property {
- /** @extensions: Pointer to the first extension struct, if any */
- __u64 extensions;
- /** @exec_queue_id: Exec queue ID */
- __u32 exec_queue_id;
- /** @property: property to set */
- __u32 property;
- /** @value: property value */
- __u64 value;
- /** @reserved: Reserved */
- __u64 reserved[2];
- };
- #if defined(__cplusplus)
- }
- #endif
- #endif /* _UAPI_XE_DRM_H_ */
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