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/*
* Copyright 2003 Tungsten Graphics, Inc., Cedar Park, Texas.
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sub license, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
* IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS BE LIABLE FOR
* ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
*/
#ifndef _UAPI_I915_DRM_H_
#define _UAPI_I915_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.
*/
/**
* DOC: uevents generated by i915 on it's device node
*
* I915_L3_PARITY_UEVENT - Generated when the driver receives a parity mismatch
* event from the gpu l3 cache. Additional information supplied is ROW,
* BANK, SUBBANK, SLICE of the affected cacheline. Userspace should keep
* track of these events and if a specific cache-line seems to have a
* persistent error remap it with the l3 remapping tool supplied in
* intel-gpu-tools. The value supplied with the event is always 1.
*
* I915_ERROR_UEVENT - Generated upon error detection, currently only via
* hangcheck. The error detection event is a good indicator of when things
* began to go badly. The value supplied with the event is a 1 upon error
* detection, and a 0 upon reset completion, signifying no more error
* exists. NOTE: Disabling hangcheck or reset via module parameter will
* cause the related events to not be seen.
*
* I915_RESET_UEVENT - Event is generated just before an attempt to reset the
* GPU. The value supplied with the event is always 1. NOTE: Disable
* reset via module parameter will cause this event to not be seen.
*/
#define I915_L3_PARITY_UEVENT "L3_PARITY_ERROR"
#define I915_ERROR_UEVENT "ERROR"
#define I915_RESET_UEVENT "RESET"
/**
* struct i915_user_extension - Base class for defining a chain of extensions
*
* 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 i915_user_extension ext3 {
* .next_extension = 0, // end
* .name = ...,
* };
* struct i915_user_extension ext2 {
* .next_extension = (uintptr_t)&ext3,
* .name = ...,
* };
* struct i915_user_extension ext1 {
* .next_extension = (uintptr_t)&ext2,
* .name = ...,
* };
*
* Typically the struct i915_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 i915_user_extension {
/**
* @next_extension:
*
* Pointer to the next struct i915_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 i915_user_extension.
*/
__u32 name;
/**
* @flags: MBZ
*
* All undefined bits must be zero.
*/
__u32 flags;
/**
* @rsvd: MBZ
*
* Reserved for future use; must be zero.
*/
__u32 rsvd[4];
};
/*
* MOCS indexes used for GPU surfaces, defining the cacheability of the
* surface data and the coherency for this data wrt. CPU vs. GPU accesses.
*/
enum i915_mocs_table_index {
/*
* Not cached anywhere, coherency between CPU and GPU accesses is
* guaranteed.
*/
I915_MOCS_UNCACHED,
/*
* Cacheability and coherency controlled by the kernel automatically
* based on the DRM_I915_GEM_SET_CACHING IOCTL setting and the current
* usage of the surface (used for display scanout or not).
*/
I915_MOCS_PTE,
/*
* Cached in all GPU caches available on the platform.
* Coherency between CPU and GPU accesses to the surface is not
* guaranteed without extra synchronization.
*/
I915_MOCS_CACHED,
};
/**
* enum drm_i915_gem_engine_class - uapi engine type enumeration
*
* Different engines serve different roles, and there may be more than one
* engine serving each role. This enum provides a classification of the role
* of the engine, which may be used when requesting operations to be performed
* on a certain subset of engines, or for providing information about that
* group.
*/
enum drm_i915_gem_engine_class {
/**
* @I915_ENGINE_CLASS_RENDER:
*
* Render engines support instructions used for 3D, Compute (GPGPU),
* and programmable media workloads. These instructions fetch data and
* dispatch individual work items to threads that operate in parallel.
* The threads run small programs (called "kernels" or "shaders") on
* the GPU's execution units (EUs).
*/
I915_ENGINE_CLASS_RENDER = 0,
/**
* @I915_ENGINE_CLASS_COPY:
*
* Copy engines (also referred to as "blitters") support instructions
* that move blocks of data from one location in memory to another,
* or that fill a specified location of memory with fixed data.
* Copy engines can perform pre-defined logical or bitwise operations
* on the source, destination, or pattern data.
*/
I915_ENGINE_CLASS_COPY = 1,
/**
* @I915_ENGINE_CLASS_VIDEO:
*
* Video engines (also referred to as "bit stream decode" (BSD) or
* "vdbox") support instructions that perform fixed-function media
* decode and encode.
*/
I915_ENGINE_CLASS_VIDEO = 2,
/**
* @I915_ENGINE_CLASS_VIDEO_ENHANCE:
*
* Video enhancement engines (also referred to as "vebox") support
* instructions related to image enhancement.
*/
I915_ENGINE_CLASS_VIDEO_ENHANCE = 3,
/**
* @I915_ENGINE_CLASS_COMPUTE:
*
* Compute engines support a subset of the instructions available
* on render engines: compute engines support Compute (GPGPU) and
* programmable media workloads, but do not support the 3D pipeline.
*/
I915_ENGINE_CLASS_COMPUTE = 4,
/* Values in this enum should be kept compact. */
/**
* @I915_ENGINE_CLASS_INVALID:
*
* Placeholder value to represent an invalid engine class assignment.
*/
I915_ENGINE_CLASS_INVALID = -1
};
/**
* struct i915_engine_class_instance - Engine class/instance identifier
*
* There may be more than one engine fulfilling any role within the system.
* Each engine of a class is given a unique instance number and therefore
* any engine can be specified by its class:instance tuplet. APIs that allow
* access to any engine in the system will use struct i915_engine_class_instance
* for this identification.
*/
struct i915_engine_class_instance {
/**
* @engine_class:
*
* Engine class from enum drm_i915_gem_engine_class
*/
__u16 engine_class;
#define I915_ENGINE_CLASS_INVALID_NONE -1
#define I915_ENGINE_CLASS_INVALID_VIRTUAL -2
/**
* @engine_instance:
*
* Engine instance.
*/
__u16 engine_instance;
};
/**
* DOC: perf_events exposed by i915 through /sys/bus/event_sources/drivers/i915
*
*/
enum drm_i915_pmu_engine_sample {
I915_SAMPLE_BUSY = 0,
I915_SAMPLE_WAIT = 1,
I915_SAMPLE_SEMA = 2
};
#define I915_PMU_SAMPLE_BITS (4)
#define I915_PMU_SAMPLE_MASK (0xf)
#define I915_PMU_SAMPLE_INSTANCE_BITS (8)
#define I915_PMU_CLASS_SHIFT \
(I915_PMU_SAMPLE_BITS + I915_PMU_SAMPLE_INSTANCE_BITS)
#define __I915_PMU_ENGINE(class, instance, sample) \
((class) << I915_PMU_CLASS_SHIFT | \
(instance) << I915_PMU_SAMPLE_BITS | \
(sample))
#define I915_PMU_ENGINE_BUSY(class, instance) \
__I915_PMU_ENGINE(class, instance, I915_SAMPLE_BUSY)
#define I915_PMU_ENGINE_WAIT(class, instance) \
__I915_PMU_ENGINE(class, instance, I915_SAMPLE_WAIT)
#define I915_PMU_ENGINE_SEMA(class, instance) \
__I915_PMU_ENGINE(class, instance, I915_SAMPLE_SEMA)
#define __I915_PMU_OTHER(x) (__I915_PMU_ENGINE(0xff, 0xff, 0xf) + 1 + (x))
#define I915_PMU_ACTUAL_FREQUENCY __I915_PMU_OTHER(0)
#define I915_PMU_REQUESTED_FREQUENCY __I915_PMU_OTHER(1)
#define I915_PMU_INTERRUPTS __I915_PMU_OTHER(2)
#define I915_PMU_RC6_RESIDENCY __I915_PMU_OTHER(3)
#define I915_PMU_SOFTWARE_GT_AWAKE_TIME __I915_PMU_OTHER(4)
#define I915_PMU_LAST /* Deprecated - do not use */ I915_PMU_RC6_RESIDENCY
/* Each region is a minimum of 16k, and there are at most 255 of them.
*/
#define I915_NR_TEX_REGIONS 255 /* table size 2k - maximum due to use
* of chars for next/prev indices */
#define I915_LOG_MIN_TEX_REGION_SIZE 14
typedef struct _drm_i915_init {
enum {
I915_INIT_DMA = 0x01,
I915_CLEANUP_DMA = 0x02,
I915_RESUME_DMA = 0x03
} func;
unsigned int mmio_offset;
int sarea_priv_offset;
unsigned int ring_start;
unsigned int ring_end;
unsigned int ring_size;
unsigned int front_offset;
unsigned int back_offset;
unsigned int depth_offset;
unsigned int w;
unsigned int h;
unsigned int pitch;
unsigned int pitch_bits;
unsigned int back_pitch;
unsigned int depth_pitch;
unsigned int cpp;
unsigned int chipset;
} drm_i915_init_t;
typedef struct _drm_i915_sarea {
struct drm_tex_region texList[I915_NR_TEX_REGIONS + 1];
int last_upload; /* last time texture was uploaded */
int last_enqueue; /* last time a buffer was enqueued */
int last_dispatch; /* age of the most recently dispatched buffer */
int ctxOwner; /* last context to upload state */
int texAge;
int pf_enabled; /* is pageflipping allowed? */
int pf_active;
int pf_current_page; /* which buffer is being displayed? */
int perf_boxes; /* performance boxes to be displayed */
int width, height; /* screen size in pixels */
drm_handle_t front_handle;
int front_offset;
int front_size;
drm_handle_t back_handle;
int back_offset;
int back_size;
drm_handle_t depth_handle;
int depth_offset;
int depth_size;
drm_handle_t tex_handle;
int tex_offset;
int tex_size;
int log_tex_granularity;
int pitch;
int rotation; /* 0, 90, 180 or 270 */
int rotated_offset;
int rotated_size;
int rotated_pitch;
int virtualX, virtualY;
unsigned int front_tiled;
unsigned int back_tiled;
unsigned int depth_tiled;
unsigned int rotated_tiled;
unsigned int rotated2_tiled;
int pipeA_x;
int pipeA_y;
int pipeA_w;
int pipeA_h;
int pipeB_x;
int pipeB_y;
int pipeB_w;
int pipeB_h;
/* fill out some space for old userspace triple buffer */
drm_handle_t unused_handle;
__u32 unused1, unused2, unused3;
/* buffer object handles for static buffers. May change
* over the lifetime of the client.
*/
__u32 front_bo_handle;
__u32 back_bo_handle;
__u32 unused_bo_handle;
__u32 depth_bo_handle;
} drm_i915_sarea_t;
/* due to userspace building against these headers we need some compat here */
#define planeA_x pipeA_x
#define planeA_y pipeA_y
#define planeA_w pipeA_w
#define planeA_h pipeA_h
#define planeB_x pipeB_x
#define planeB_y pipeB_y
#define planeB_w pipeB_w
#define planeB_h pipeB_h
/* Flags for perf_boxes
*/
#define I915_BOX_RING_EMPTY 0x1
#define I915_BOX_FLIP 0x2
#define I915_BOX_WAIT 0x4
#define I915_BOX_TEXTURE_LOAD 0x8
#define I915_BOX_LOST_CONTEXT 0x10
/*
* i915 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_I915_INIT 0x00
#define DRM_I915_FLUSH 0x01
#define DRM_I915_FLIP 0x02
#define DRM_I915_BATCHBUFFER 0x03
#define DRM_I915_IRQ_EMIT 0x04
#define DRM_I915_IRQ_WAIT 0x05
#define DRM_I915_GETPARAM 0x06
#define DRM_I915_SETPARAM 0x07
#define DRM_I915_ALLOC 0x08
#define DRM_I915_FREE 0x09
#define DRM_I915_INIT_HEAP 0x0a
#define DRM_I915_CMDBUFFER 0x0b
#define DRM_I915_DESTROY_HEAP 0x0c
#define DRM_I915_SET_VBLANK_PIPE 0x0d
#define DRM_I915_GET_VBLANK_PIPE 0x0e
#define DRM_I915_VBLANK_SWAP 0x0f
#define DRM_I915_HWS_ADDR 0x11
#define DRM_I915_GEM_INIT 0x13
#define DRM_I915_GEM_EXECBUFFER 0x14
#define DRM_I915_GEM_PIN 0x15
#define DRM_I915_GEM_UNPIN 0x16
#define DRM_I915_GEM_BUSY 0x17
#define DRM_I915_GEM_THROTTLE 0x18
#define DRM_I915_GEM_ENTERVT 0x19
#define DRM_I915_GEM_LEAVEVT 0x1a
#define DRM_I915_GEM_CREATE 0x1b
#define DRM_I915_GEM_PREAD 0x1c
#define DRM_I915_GEM_PWRITE 0x1d
#define DRM_I915_GEM_MMAP 0x1e
#define DRM_I915_GEM_SET_DOMAIN 0x1f
#define DRM_I915_GEM_SW_FINISH 0x20
#define DRM_I915_GEM_SET_TILING 0x21
#define DRM_I915_GEM_GET_TILING 0x22
#define DRM_I915_GEM_GET_APERTURE 0x23
#define DRM_I915_GEM_MMAP_GTT 0x24
#define DRM_I915_GET_PIPE_FROM_CRTC_ID 0x25
#define DRM_I915_GEM_MADVISE 0x26
#define DRM_I915_OVERLAY_PUT_IMAGE 0x27
#define DRM_I915_OVERLAY_ATTRS 0x28
#define DRM_I915_GEM_EXECBUFFER2 0x29
#define DRM_I915_GEM_EXECBUFFER2_WR DRM_I915_GEM_EXECBUFFER2
#define DRM_I915_GET_SPRITE_COLORKEY 0x2a
#define DRM_I915_SET_SPRITE_COLORKEY 0x2b
#define DRM_I915_GEM_WAIT 0x2c
#define DRM_I915_GEM_CONTEXT_CREATE 0x2d
#define DRM_I915_GEM_CONTEXT_DESTROY 0x2e
#define DRM_I915_GEM_SET_CACHING 0x2f
#define DRM_I915_GEM_GET_CACHING 0x30
#define DRM_I915_REG_READ 0x31
#define DRM_I915_GET_RESET_STATS 0x32
#define DRM_I915_GEM_USERPTR 0x33
#define DRM_I915_GEM_CONTEXT_GETPARAM 0x34
#define DRM_I915_GEM_CONTEXT_SETPARAM 0x35
#define DRM_I915_PERF_OPEN 0x36
#define DRM_I915_PERF_ADD_CONFIG 0x37
#define DRM_I915_PERF_REMOVE_CONFIG 0x38
#define DRM_I915_QUERY 0x39
#define DRM_I915_GEM_VM_CREATE 0x3a
#define DRM_I915_GEM_VM_DESTROY 0x3b
#define DRM_I915_GEM_CREATE_EXT 0x3c
/* Must be kept compact -- no holes */
#define DRM_IOCTL_I915_INIT DRM_IOW( DRM_COMMAND_BASE + DRM_I915_INIT, drm_i915_init_t)
#define DRM_IOCTL_I915_FLUSH DRM_IO ( DRM_COMMAND_BASE + DRM_I915_FLUSH)
#define DRM_IOCTL_I915_FLIP DRM_IO ( DRM_COMMAND_BASE + DRM_I915_FLIP)
#define DRM_IOCTL_I915_BATCHBUFFER DRM_IOW( DRM_COMMAND_BASE + DRM_I915_BATCHBUFFER, drm_i915_batchbuffer_t)
#define DRM_IOCTL_I915_IRQ_EMIT DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_IRQ_EMIT, drm_i915_irq_emit_t)
#define DRM_IOCTL_I915_IRQ_WAIT DRM_IOW( DRM_COMMAND_BASE + DRM_I915_IRQ_WAIT, drm_i915_irq_wait_t)
#define DRM_IOCTL_I915_GETPARAM DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GETPARAM, drm_i915_getparam_t)
#define DRM_IOCTL_I915_SETPARAM DRM_IOW( DRM_COMMAND_BASE + DRM_I915_SETPARAM, drm_i915_setparam_t)
#define DRM_IOCTL_I915_ALLOC DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_ALLOC, drm_i915_mem_alloc_t)
#define DRM_IOCTL_I915_FREE DRM_IOW( DRM_COMMAND_BASE + DRM_I915_FREE, drm_i915_mem_free_t)
#define DRM_IOCTL_I915_INIT_HEAP DRM_IOW( DRM_COMMAND_BASE + DRM_I915_INIT_HEAP, drm_i915_mem_init_heap_t)
#define DRM_IOCTL_I915_CMDBUFFER DRM_IOW( DRM_COMMAND_BASE + DRM_I915_CMDBUFFER, drm_i915_cmdbuffer_t)
#define DRM_IOCTL_I915_DESTROY_HEAP DRM_IOW( DRM_COMMAND_BASE + DRM_I915_DESTROY_HEAP, drm_i915_mem_destroy_heap_t)
#define DRM_IOCTL_I915_SET_VBLANK_PIPE DRM_IOW( DRM_COMMAND_BASE + DRM_I915_SET_VBLANK_PIPE, drm_i915_vblank_pipe_t)
#define DRM_IOCTL_I915_GET_VBLANK_PIPE DRM_IOR( DRM_COMMAND_BASE + DRM_I915_GET_VBLANK_PIPE, drm_i915_vblank_pipe_t)
#define DRM_IOCTL_I915_VBLANK_SWAP DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_VBLANK_SWAP, drm_i915_vblank_swap_t)
#define DRM_IOCTL_I915_HWS_ADDR DRM_IOW(DRM_COMMAND_BASE + DRM_I915_HWS_ADDR, struct drm_i915_gem_init)
#define DRM_IOCTL_I915_GEM_INIT DRM_IOW(DRM_COMMAND_BASE + DRM_I915_GEM_INIT, struct drm_i915_gem_init)
#define DRM_IOCTL_I915_GEM_EXECBUFFER DRM_IOW(DRM_COMMAND_BASE + DRM_I915_GEM_EXECBUFFER, struct drm_i915_gem_execbuffer)
#define DRM_IOCTL_I915_GEM_EXECBUFFER2 DRM_IOW(DRM_COMMAND_BASE + DRM_I915_GEM_EXECBUFFER2, struct drm_i915_gem_execbuffer2)
#define DRM_IOCTL_I915_GEM_EXECBUFFER2_WR DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_EXECBUFFER2_WR, struct drm_i915_gem_execbuffer2)
#define DRM_IOCTL_I915_GEM_PIN DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_PIN, struct drm_i915_gem_pin)
#define DRM_IOCTL_I915_GEM_UNPIN DRM_IOW(DRM_COMMAND_BASE + DRM_I915_GEM_UNPIN, struct drm_i915_gem_unpin)
#define DRM_IOCTL_I915_GEM_BUSY DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_BUSY, struct drm_i915_gem_busy)
#define DRM_IOCTL_I915_GEM_SET_CACHING DRM_IOW(DRM_COMMAND_BASE + DRM_I915_GEM_SET_CACHING, struct drm_i915_gem_caching)
#define DRM_IOCTL_I915_GEM_GET_CACHING DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_GET_CACHING, struct drm_i915_gem_caching)
#define DRM_IOCTL_I915_GEM_THROTTLE DRM_IO ( DRM_COMMAND_BASE + DRM_I915_GEM_THROTTLE)
#define DRM_IOCTL_I915_GEM_ENTERVT DRM_IO(DRM_COMMAND_BASE + DRM_I915_GEM_ENTERVT)
#define DRM_IOCTL_I915_GEM_LEAVEVT DRM_IO(DRM_COMMAND_BASE + DRM_I915_GEM_LEAVEVT)
#define DRM_IOCTL_I915_GEM_CREATE DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_CREATE, struct drm_i915_gem_create)
#define DRM_IOCTL_I915_GEM_CREATE_EXT DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_CREATE_EXT, struct drm_i915_gem_create_ext)
#define DRM_IOCTL_I915_GEM_PREAD DRM_IOW (DRM_COMMAND_BASE + DRM_I915_GEM_PREAD, struct drm_i915_gem_pread)
#define DRM_IOCTL_I915_GEM_PWRITE DRM_IOW (DRM_COMMAND_BASE + DRM_I915_GEM_PWRITE, struct drm_i915_gem_pwrite)
#define DRM_IOCTL_I915_GEM_MMAP DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_MMAP, struct drm_i915_gem_mmap)
#define DRM_IOCTL_I915_GEM_MMAP_GTT DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_MMAP_GTT, struct drm_i915_gem_mmap_gtt)
#define DRM_IOCTL_I915_GEM_MMAP_OFFSET DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_MMAP_GTT, struct drm_i915_gem_mmap_offset)
#define DRM_IOCTL_I915_GEM_SET_DOMAIN DRM_IOW (DRM_COMMAND_BASE + DRM_I915_GEM_SET_DOMAIN, struct drm_i915_gem_set_domain)
#define DRM_IOCTL_I915_GEM_SW_FINISH DRM_IOW (DRM_COMMAND_BASE + DRM_I915_GEM_SW_FINISH, struct drm_i915_gem_sw_finish)
#define DRM_IOCTL_I915_GEM_SET_TILING DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_SET_TILING, struct drm_i915_gem_set_tiling)
#define DRM_IOCTL_I915_GEM_GET_TILING DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_GET_TILING, struct drm_i915_gem_get_tiling)
#define DRM_IOCTL_I915_GEM_GET_APERTURE DRM_IOR (DRM_COMMAND_BASE + DRM_I915_GEM_GET_APERTURE, struct drm_i915_gem_get_aperture)
#define DRM_IOCTL_I915_GET_PIPE_FROM_CRTC_ID DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GET_PIPE_FROM_CRTC_ID, struct drm_i915_get_pipe_from_crtc_id)
#define DRM_IOCTL_I915_GEM_MADVISE DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_MADVISE, struct drm_i915_gem_madvise)
#define DRM_IOCTL_I915_OVERLAY_PUT_IMAGE DRM_IOW(DRM_COMMAND_BASE + DRM_I915_OVERLAY_PUT_IMAGE, struct drm_intel_overlay_put_image)
#define DRM_IOCTL_I915_OVERLAY_ATTRS DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_OVERLAY_ATTRS, struct drm_intel_overlay_attrs)
#define DRM_IOCTL_I915_SET_SPRITE_COLORKEY DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_SET_SPRITE_COLORKEY, struct drm_intel_sprite_colorkey)
#define DRM_IOCTL_I915_GET_SPRITE_COLORKEY DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GET_SPRITE_COLORKEY, struct drm_intel_sprite_colorkey)
#define DRM_IOCTL_I915_GEM_WAIT DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_WAIT, struct drm_i915_gem_wait)
#define DRM_IOCTL_I915_GEM_CONTEXT_CREATE DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_CONTEXT_CREATE, struct drm_i915_gem_context_create)
#define DRM_IOCTL_I915_GEM_CONTEXT_CREATE_EXT DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_CONTEXT_CREATE, struct drm_i915_gem_context_create_ext)
#define DRM_IOCTL_I915_GEM_CONTEXT_DESTROY DRM_IOW (DRM_COMMAND_BASE + DRM_I915_GEM_CONTEXT_DESTROY, struct drm_i915_gem_context_destroy)
#define DRM_IOCTL_I915_REG_READ DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_REG_READ, struct drm_i915_reg_read)
#define DRM_IOCTL_I915_GET_RESET_STATS DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GET_RESET_STATS, struct drm_i915_reset_stats)
#define DRM_IOCTL_I915_GEM_USERPTR DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_USERPTR, struct drm_i915_gem_userptr)
#define DRM_IOCTL_I915_GEM_CONTEXT_GETPARAM DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_CONTEXT_GETPARAM, struct drm_i915_gem_context_param)
#define DRM_IOCTL_I915_GEM_CONTEXT_SETPARAM DRM_IOWR (DRM_COMMAND_BASE + DRM_I915_GEM_CONTEXT_SETPARAM, struct drm_i915_gem_context_param)
#define DRM_IOCTL_I915_PERF_OPEN DRM_IOW(DRM_COMMAND_BASE + DRM_I915_PERF_OPEN, struct drm_i915_perf_open_param)
#define DRM_IOCTL_I915_PERF_ADD_CONFIG DRM_IOW(DRM_COMMAND_BASE + DRM_I915_PERF_ADD_CONFIG, struct drm_i915_perf_oa_config)
#define DRM_IOCTL_I915_PERF_REMOVE_CONFIG DRM_IOW(DRM_COMMAND_BASE + DRM_I915_PERF_REMOVE_CONFIG, __u64)
#define DRM_IOCTL_I915_QUERY DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_QUERY, struct drm_i915_query)
#define DRM_IOCTL_I915_GEM_VM_CREATE DRM_IOWR(DRM_COMMAND_BASE + DRM_I915_GEM_VM_CREATE, struct drm_i915_gem_vm_control)
#define DRM_IOCTL_I915_GEM_VM_DESTROY DRM_IOW (DRM_COMMAND_BASE + DRM_I915_GEM_VM_DESTROY, struct drm_i915_gem_vm_control)
/* Allow drivers to submit batchbuffers directly to hardware, relying
* on the security mechanisms provided by hardware.
*/
typedef struct drm_i915_batchbuffer {
int start; /* agp offset */
int used; /* nr bytes in use */
int DR1; /* hw flags for GFX_OP_DRAWRECT_INFO */
int DR4; /* window origin for GFX_OP_DRAWRECT_INFO */
int num_cliprects; /* mulitpass with multiple cliprects? */
struct drm_clip_rect __user *cliprects; /* pointer to userspace cliprects */
} drm_i915_batchbuffer_t;
/* As above, but pass a pointer to userspace buffer which can be
* validated by the kernel prior to sending to hardware.
*/
typedef struct _drm_i915_cmdbuffer {
char __user *buf; /* pointer to userspace command buffer */
int sz; /* nr bytes in buf */
int DR1; /* hw flags for GFX_OP_DRAWRECT_INFO */
int DR4; /* window origin for GFX_OP_DRAWRECT_INFO */
int num_cliprects; /* mulitpass with multiple cliprects? */
struct drm_clip_rect __user *cliprects; /* pointer to userspace cliprects */
} drm_i915_cmdbuffer_t;
/* Userspace can request & wait on irq's:
*/
typedef struct drm_i915_irq_emit {
int __user *irq_seq;
} drm_i915_irq_emit_t;
typedef struct drm_i915_irq_wait {
int irq_seq;
} drm_i915_irq_wait_t;
/*
* Different modes of per-process Graphics Translation Table,
* see I915_PARAM_HAS_ALIASING_PPGTT
*/
#define I915_GEM_PPGTT_NONE 0
#define I915_GEM_PPGTT_ALIASING 1
#define I915_GEM_PPGTT_FULL 2
/* Ioctl to query kernel params:
*/
#define I915_PARAM_IRQ_ACTIVE 1
#define I915_PARAM_ALLOW_BATCHBUFFER 2
#define I915_PARAM_LAST_DISPATCH 3
#define I915_PARAM_CHIPSET_ID 4
#define I915_PARAM_HAS_GEM 5
#define I915_PARAM_NUM_FENCES_AVAIL 6
#define I915_PARAM_HAS_OVERLAY 7
#define I915_PARAM_HAS_PAGEFLIPPING 8
#define I915_PARAM_HAS_EXECBUF2 9
#define I915_PARAM_HAS_BSD 10
#define I915_PARAM_HAS_BLT 11
#define I915_PARAM_HAS_RELAXED_FENCING 12
#define I915_PARAM_HAS_COHERENT_RINGS 13
#define I915_PARAM_HAS_EXEC_CONSTANTS 14
#define I915_PARAM_HAS_RELAXED_DELTA 15
#define I915_PARAM_HAS_GEN7_SOL_RESET 16
#define I915_PARAM_HAS_LLC 17
#define I915_PARAM_HAS_ALIASING_PPGTT 18
#define I915_PARAM_HAS_WAIT_TIMEOUT 19
#define I915_PARAM_HAS_SEMAPHORES 20
#define I915_PARAM_HAS_PRIME_VMAP_FLUSH 21
#define I915_PARAM_HAS_VEBOX 22
#define I915_PARAM_HAS_SECURE_BATCHES 23
#define I915_PARAM_HAS_PINNED_BATCHES 24
#define I915_PARAM_HAS_EXEC_NO_RELOC 25
#define I915_PARAM_HAS_EXEC_HANDLE_LUT 26
#define I915_PARAM_HAS_WT 27
#define I915_PARAM_CMD_PARSER_VERSION 28
#define I915_PARAM_HAS_COHERENT_PHYS_GTT 29
#define I915_PARAM_MMAP_VERSION 30
#define I915_PARAM_HAS_BSD2 31
#define I915_PARAM_REVISION 32
#define I915_PARAM_SUBSLICE_TOTAL 33
#define I915_PARAM_EU_TOTAL 34
#define I915_PARAM_HAS_GPU_RESET 35
#define I915_PARAM_HAS_RESOURCE_STREAMER 36
#define I915_PARAM_HAS_EXEC_SOFTPIN 37
#define I915_PARAM_HAS_POOLED_EU 38
#define I915_PARAM_MIN_EU_IN_POOL 39
#define I915_PARAM_MMAP_GTT_VERSION 40
/*
* Query whether DRM_I915_GEM_EXECBUFFER2 supports user defined execution
* priorities and the driver will attempt to execute batches in priority order.
* The param returns a capability bitmask, nonzero implies that the scheduler
* is enabled, with different features present according to the mask.
*
* The initial priority for each batch is supplied by the context and is
* controlled via I915_CONTEXT_PARAM_PRIORITY.
*/
#define I915_PARAM_HAS_SCHEDULER 41
#define I915_SCHEDULER_CAP_ENABLED (1ul << 0)
#define I915_SCHEDULER_CAP_PRIORITY (1ul << 1)
#define I915_SCHEDULER_CAP_PREEMPTION (1ul << 2)
#define I915_SCHEDULER_CAP_SEMAPHORES (1ul << 3)
#define I915_SCHEDULER_CAP_ENGINE_BUSY_STATS (1ul << 4)
/*
* Indicates the 2k user priority levels are statically mapped into 3 buckets as
* follows:
*
* -1k to -1 Low priority
* 0 Normal priority
* 1 to 1k Highest priority
*/
#define I915_SCHEDULER_CAP_STATIC_PRIORITY_MAP (1ul << 5)
#define I915_PARAM_HUC_STATUS 42
/* Query whether DRM_I915_GEM_EXECBUFFER2 supports the ability to opt-out of
* synchronisation with implicit fencing on individual objects.
* See EXEC_OBJECT_ASYNC.
*/
#define I915_PARAM_HAS_EXEC_ASYNC 43
/* Query whether DRM_I915_GEM_EXECBUFFER2 supports explicit fence support -
* both being able to pass in a sync_file fd to wait upon before executing,
* and being able to return a new sync_file fd that is signaled when the
* current request is complete. See I915_EXEC_FENCE_IN and I915_EXEC_FENCE_OUT.
*/
#define I915_PARAM_HAS_EXEC_FENCE 44
/* Query whether DRM_I915_GEM_EXECBUFFER2 supports the ability to capture
* user specified bufffers for post-mortem debugging of GPU hangs. See
* EXEC_OBJECT_CAPTURE.
*/
#define I915_PARAM_HAS_EXEC_CAPTURE 45
#define I915_PARAM_SLICE_MASK 46
/* Assuming it's uniform for each slice, this queries the mask of subslices
* per-slice for this system.
*/
#define I915_PARAM_SUBSLICE_MASK 47
/*
* Query whether DRM_I915_GEM_EXECBUFFER2 supports supplying the batch buffer
* as the first execobject as opposed to the last. See I915_EXEC_BATCH_FIRST.
*/
#define I915_PARAM_HAS_EXEC_BATCH_FIRST 48
/* Query whether DRM_I915_GEM_EXECBUFFER2 supports supplying an array of
* drm_i915_gem_exec_fence structures. See I915_EXEC_FENCE_ARRAY.
*/
#define I915_PARAM_HAS_EXEC_FENCE_ARRAY 49
/*
* Query whether every context (both per-file default and user created) is
* isolated (insofar as HW supports). If this parameter is not true, then
* freshly created contexts may inherit values from an existing context,
* rather than default HW values. If true, it also ensures (insofar as HW
* supports) that all state set by this context will not leak to any other
* context.
*
* As not every engine across every gen support contexts, the returned
* value reports the support of context isolation for individual engines by
* returning a bitmask of each engine class set to true if that class supports
* isolation.
*/
#define I915_PARAM_HAS_CONTEXT_ISOLATION 50
/* Frequency of the command streamer timestamps given by the *_TIMESTAMP
* registers. This used to be fixed per platform but from CNL onwards, this
* might vary depending on the parts.
*/
#define I915_PARAM_CS_TIMESTAMP_FREQUENCY 51
/*
* Once upon a time we supposed that writes through the GGTT would be
* immediately in physical memory (once flushed out of the CPU path). However,
* on a few different processors and chipsets, this is not necessarily the case
* as the writes appear to be buffered internally. Thus a read of the backing
* storage (physical memory) via a different path (with different physical tags
* to the indirect write via the GGTT) will see stale values from before
* the GGTT write. Inside the kernel, we can for the most part keep track of
* the different read/write domains in use (e.g. set-domain), but the assumption
* of coherency is baked into the ABI, hence reporting its true state in this
* parameter.
*
* Reports true when writes via mmap_gtt are immediately visible following an
* lfence to flush the WCB.
*
* Reports false when writes via mmap_gtt are indeterminately delayed in an in
* internal buffer and are _not_ immediately visible to third parties accessing
* directly via mmap_cpu/mmap_wc. Use of mmap_gtt as part of an IPC
* communications channel when reporting false is strongly disadvised.
*/
#define I915_PARAM_MMAP_GTT_COHERENT 52
/*
* Query whether DRM_I915_GEM_EXECBUFFER2 supports coordination of parallel
* execution through use of explicit fence support.
* See I915_EXEC_FENCE_OUT and I915_EXEC_FENCE_SUBMIT.
*/
#define I915_PARAM_HAS_EXEC_SUBMIT_FENCE 53
/*
* Revision of the i915-perf uAPI. The value returned helps determine what
* i915-perf features are available. See drm_i915_perf_property_id.
*/
#define I915_PARAM_PERF_REVISION 54
/* Query whether DRM_I915_GEM_EXECBUFFER2 supports supplying an array of
* timeline syncobj through drm_i915_gem_execbuffer_ext_timeline_fences. See
* I915_EXEC_USE_EXTENSIONS.
*/
#define I915_PARAM_HAS_EXEC_TIMELINE_FENCES 55
/* Query if the kernel supports the I915_USERPTR_PROBE flag. */
#define I915_PARAM_HAS_USERPTR_PROBE 56
/* Must be kept compact -- no holes and well documented */
typedef struct drm_i915_getparam {
__s32 param;
/*
* WARNING: Using pointers instead of fixed-size u64 means we need to write
* compat32 code. Don't repeat this mistake.
*/
int __user *value;
} drm_i915_getparam_t;
/* Ioctl to set kernel params:
*/
#define I915_SETPARAM_USE_MI_BATCHBUFFER_START 1
#define I915_SETPARAM_TEX_LRU_LOG_GRANULARITY 2
#define I915_SETPARAM_ALLOW_BATCHBUFFER 3
#define I915_SETPARAM_NUM_USED_FENCES 4
/* Must be kept compact -- no holes */
typedef struct drm_i915_setparam {
int param;
int value;
} drm_i915_setparam_t;
/* A memory manager for regions of shared memory:
*/
#define I915_MEM_REGION_AGP 1
typedef struct drm_i915_mem_alloc {
int region;
int alignment;
int size;
int __user *region_offset; /* offset from start of fb or agp */
} drm_i915_mem_alloc_t;
typedef struct drm_i915_mem_free {
int region;
int region_offset;
} drm_i915_mem_free_t;
typedef struct drm_i915_mem_init_heap {
int region;
int size;
int start;
} drm_i915_mem_init_heap_t;
/* Allow memory manager to be torn down and re-initialized (eg on
* rotate):
*/
typedef struct drm_i915_mem_destroy_heap {
int region;
} drm_i915_mem_destroy_heap_t;
/* Allow X server to configure which pipes to monitor for vblank signals
*/
#define DRM_I915_VBLANK_PIPE_A 1
#define DRM_I915_VBLANK_PIPE_B 2
typedef struct drm_i915_vblank_pipe {
int pipe;
} drm_i915_vblank_pipe_t;
/* Schedule buffer swap at given vertical blank:
*/
typedef struct drm_i915_vblank_swap {
drm_drawable_t drawable;
enum drm_vblank_seq_type seqtype;
unsigned int sequence;
} drm_i915_vblank_swap_t;
typedef struct drm_i915_hws_addr {
__u64 addr;
} drm_i915_hws_addr_t;
struct drm_i915_gem_init {
/**
* Beginning offset in the GTT to be managed by the DRM memory
* manager.
*/
__u64 gtt_start;
/**
* Ending offset in the GTT to be managed by the DRM memory
* manager.
*/
__u64 gtt_end;
};
struct drm_i915_gem_create {
/**
* Requested size for the object.
*
* The (page-aligned) allocated size for the object will be returned.
*/
__u64 size;
/**
* Returned handle for the object.
*
* Object handles are nonzero.
*/
__u32 handle;
__u32 pad;
};
struct drm_i915_gem_pread {
/** Handle for the object being read. */
__u32 handle;
__u32 pad;
/** Offset into the object to read from */
__u64 offset;
/** Length of data to read */
__u64 size;
/**
* Pointer to write the data into.
*
* This is a fixed-size type for 32/64 compatibility.
*/
__u64 data_ptr;
};
struct drm_i915_gem_pwrite {
/** Handle for the object being written to. */
__u32 handle;
__u32 pad;
/** Offset into the object to write to */
__u64 offset;
/** Length of data to write */
__u64 size;
/**
* Pointer to read the data from.
*
* This is a fixed-size type for 32/64 compatibility.
*/
__u64 data_ptr;
};
struct drm_i915_gem_mmap {
/** Handle for the object being mapped. */
__u32 handle;
__u32 pad;
/** Offset in the object to map. */
__u64 offset;
/**
* Length of data to map.
*
* The value will be page-aligned.
*/
__u64 size;
/**
* Returned pointer the data was mapped at.
*
* This is a fixed-size type for 32/64 compatibility.
*/
__u64 addr_ptr;
/**
* Flags for extended behaviour.
*
* Added in version 2.
*/
__u64 flags;
#define I915_MMAP_WC 0x1
};
struct drm_i915_gem_mmap_gtt {
/** Handle for the object being mapped. */
__u32 handle;
__u32 pad;
/**
* Fake offset to use for subsequent mmap call
*
* This is a fixed-size type for 32/64 compatibility.
*/
__u64 offset;
};
/**
* struct drm_i915_gem_mmap_offset - Retrieve an offset so we can mmap this buffer object.
*
* This struct is passed as argument to the `DRM_IOCTL_I915_GEM_MMAP_OFFSET` ioctl,
* and is used to retrieve the fake offset to mmap an object specified by &handle.
*
* The legacy way of using `DRM_IOCTL_I915_GEM_MMAP` is removed on gen12+.
* `DRM_IOCTL_I915_GEM_MMAP_GTT` is an older supported alias to this struct, but will behave
* as setting the &extensions to 0, and &flags to `I915_MMAP_OFFSET_GTT`.
*/
struct drm_i915_gem_mmap_offset {
/** @handle: Handle for the object being mapped. */
__u32 handle;
/** @pad: Must be zero */
__u32 pad;
/**
* @offset: The fake offset to use for subsequent mmap call
*
* This is a fixed-size type for 32/64 compatibility.
*/
__u64 offset;
/**
* @flags: Flags for extended behaviour.
*
* It is mandatory that one of the `MMAP_OFFSET` types
* should be included:
*
* - `I915_MMAP_OFFSET_GTT`: Use mmap with the object bound to GTT. (Write-Combined)
* - `I915_MMAP_OFFSET_WC`: Use Write-Combined caching.
* - `I915_MMAP_OFFSET_WB`: Use Write-Back caching.
* - `I915_MMAP_OFFSET_FIXED`: Use object placement to determine caching.
*
* On devices with local memory `I915_MMAP_OFFSET_FIXED` is the only valid
* type. On devices without local memory, this caching mode is invalid.
*
* As caching mode when specifying `I915_MMAP_OFFSET_FIXED`, WC or WB will
* be used, depending on the object placement on creation. WB will be used
* when the object can only exist in system memory, WC otherwise.
*/
__u64 flags;
#define I915_MMAP_OFFSET_GTT 0
#define I915_MMAP_OFFSET_WC 1
#define I915_MMAP_OFFSET_WB 2
#define I915_MMAP_OFFSET_UC 3
#define I915_MMAP_OFFSET_FIXED 4
/**
* @extensions: Zero-terminated chain of extensions.
*
* No current extensions defined; mbz.
*/
__u64 extensions;
};
/**
* struct drm_i915_gem_set_domain - Adjust the objects write or read domain, in
* preparation for accessing the pages via some CPU domain.
*
* Specifying a new write or read domain will flush the object out of the
* previous domain(if required), before then updating the objects domain
* tracking with the new domain.
*
* Note this might involve waiting for the object first if it is still active on
* the GPU.
*
* Supported values for @read_domains and @write_domain:
*
* - I915_GEM_DOMAIN_WC: Uncached write-combined domain
* - I915_GEM_DOMAIN_CPU: CPU cache domain
* - I915_GEM_DOMAIN_GTT: Mappable aperture domain
*
* All other domains are rejected.
*
* Note that for discrete, starting from DG1, this is no longer supported, and
* is instead rejected. On such platforms the CPU domain is effectively static,
* where we also only support a single &drm_i915_gem_mmap_offset cache mode,
* which can't be set explicitly and instead depends on the object placements,
* as per the below.
*
* Implicit caching rules, starting from DG1:
*
* - If any of the object placements (see &drm_i915_gem_create_ext_memory_regions)
* contain I915_MEMORY_CLASS_DEVICE then the object will be allocated and
* mapped as write-combined only.
*
* - Everything else is always allocated and mapped as write-back, with the
* guarantee that everything is also coherent with the GPU.
*
* Note that this is likely to change in the future again, where we might need
* more flexibility on future devices, so making this all explicit as part of a
* new &drm_i915_gem_create_ext extension is probable.
*/
struct drm_i915_gem_set_domain {
/** @handle: Handle for the object. */
__u32 handle;
/** @read_domains: New read domains. */
__u32 read_domains;
/**
* @write_domain: New write domain.
*
* Note that having something in the write domain implies it's in the
* read domain, and only that read domain.
*/
__u32 write_domain;
};
struct drm_i915_gem_sw_finish {
/** Handle for the object */
__u32 handle;
};
struct drm_i915_gem_relocation_entry {
/**
* Handle of the buffer being pointed to by this relocation entry.
*
* It's appealing to make this be an index into the mm_validate_entry
* list to refer to the buffer, but this allows the driver to create
* a relocation list for state buffers and not re-write it per
* exec using the buffer.
*/
__u32 target_handle;
/**
* Value to be added to the offset of the target buffer to make up
* the relocation entry.
*/
__u32 delta;
/** Offset in the buffer the relocation entry will be written into */
__u64 offset;
/**
* Offset value of the target buffer that the relocation entry was last
* written as.
*
* If the buffer has the same offset as last time, we can skip syncing
* and writing the relocation. This value is written back out by
* the execbuffer ioctl when the relocation is written.
*/
__u64 presumed_offset;
/**
* Target memory domains read by this operation.
*/
__u32 read_domains;
/**
* Target memory domains written by this operation.
*
* Note that only one domain may be written by the whole
* execbuffer operation, so that where there are conflicts,
* the application will get -EINVAL back.
*/
__u32 write_domain;
};
/** @{
* Intel memory domains
*
* Most of these just align with the various caches in
* the system and are used to flush and invalidate as
* objects end up cached in different domains.
*/
/** CPU cache */
#define I915_GEM_DOMAIN_CPU 0x00000001
/** Render cache, used by 2D and 3D drawing */
#define I915_GEM_DOMAIN_RENDER 0x00000002
/** Sampler cache, used by texture engine */
#define I915_GEM_DOMAIN_SAMPLER 0x00000004
/** Command queue, used to load batch buffers */
#define I915_GEM_DOMAIN_COMMAND 0x00000008
/** Instruction cache, used by shader programs */
#define I915_GEM_DOMAIN_INSTRUCTION 0x00000010
/** Vertex address cache */
#define I915_GEM_DOMAIN_VERTEX 0x00000020
/** GTT domain - aperture and scanout */
#define I915_GEM_DOMAIN_GTT 0x00000040
/** WC domain - uncached access */
#define I915_GEM_DOMAIN_WC 0x00000080
/** @} */
struct drm_i915_gem_exec_object {
/**
* User's handle for a buffer to be bound into the GTT for this
* operation.
*/
__u32 handle;
/** Number of relocations to be performed on this buffer */
__u32 relocation_count;
/**
* Pointer to array of struct drm_i915_gem_relocation_entry containing
* the relocations to be performed in this buffer.
*/
__u64 relocs_ptr;
/** Required alignment in graphics aperture */
__u64 alignment;
/**
* Returned value of the updated offset of the object, for future
* presumed_offset writes.
*/
__u64 offset;
};
/* DRM_IOCTL_I915_GEM_EXECBUFFER was removed in Linux 5.13 */
struct drm_i915_gem_execbuffer {
/**
* List of buffers to be validated with their relocations to be
* performend on them.
*
* This is a pointer to an array of struct drm_i915_gem_validate_entry.
*
* These buffers must be listed in an order such that all relocations
* a buffer is performing refer to buffers that have already appeared
* in the validate list.
*/
__u64 buffers_ptr;
__u32 buffer_count;
/** Offset in the batchbuffer to start execution from. */
__u32 batch_start_offset;
/** Bytes used in batchbuffer from batch_start_offset */
__u32 batch_len;
__u32 DR1;
__u32 DR4;
__u32 num_cliprects;
/** This is a struct drm_clip_rect *cliprects */
__u64 cliprects_ptr;
};
struct drm_i915_gem_exec_object2 {
/**
* User's handle for a buffer to be bound into the GTT for this
* operation.
*/
__u32 handle;
/** Number of relocations to be performed on this buffer */
__u32 relocation_count;
/**
* Pointer to array of struct drm_i915_gem_relocation_entry containing
* the relocations to be performed in this buffer.
*/
__u64 relocs_ptr;
/** Required alignment in graphics aperture */
__u64 alignment;
/**
* When the EXEC_OBJECT_PINNED flag is specified this is populated by
* the user with the GTT offset at which this object will be pinned.
*
* When the I915_EXEC_NO_RELOC flag is specified this must contain the
* presumed_offset of the object.
*
* During execbuffer2 the kernel populates it with the value of the
* current GTT offset of the object, for future presumed_offset writes.
*
* See struct drm_i915_gem_create_ext for the rules when dealing with
* alignment restrictions with I915_MEMORY_CLASS_DEVICE, on devices with
* minimum page sizes, like DG2.
*/
__u64 offset;
#define EXEC_OBJECT_NEEDS_FENCE (1<<0)
#define EXEC_OBJECT_NEEDS_GTT (1<<1)
#define EXEC_OBJECT_WRITE (1<<2)
#define EXEC_OBJECT_SUPPORTS_48B_ADDRESS (1<<3)
#define EXEC_OBJECT_PINNED (1<<4)
#define EXEC_OBJECT_PAD_TO_SIZE (1<<5)
/* The kernel implicitly tracks GPU activity on all GEM objects, and
* synchronises operations with outstanding rendering. This includes
* rendering on other devices if exported via dma-buf. However, sometimes
* this tracking is too coarse and the user knows better. For example,
* if the object is split into non-overlapping ranges shared between different
* clients or engines (i.e. suballocating objects), the implicit tracking
* by kernel assumes that each operation affects the whole object rather
* than an individual range, causing needless synchronisation between clients.
* The kernel will also forgo any CPU cache flushes prior to rendering from
* the object as the client is expected to be also handling such domain
* tracking.
*
* The kernel maintains the implicit tracking in order to manage resources
* used by the GPU - this flag only disables the synchronisation prior to
* rendering with this object in this execbuf.
*
* Opting out of implicit synhronisation requires the user to do its own
* explicit tracking to avoid rendering corruption. See, for example,
* I915_PARAM_HAS_EXEC_FENCE to order execbufs and execute them asynchronously.
*/
#define EXEC_OBJECT_ASYNC (1<<6)
/* Request that the contents of this execobject be copied into the error
* state upon a GPU hang involving this batch for post-mortem debugging.
* These buffers are recorded in no particular order as "user" in
* /sys/class/drm/cardN/error. Query I915_PARAM_HAS_EXEC_CAPTURE to see
* if the kernel supports this flag.
*/
#define EXEC_OBJECT_CAPTURE (1<<7)
/* All remaining bits are MBZ and RESERVED FOR FUTURE USE */
#define __EXEC_OBJECT_UNKNOWN_FLAGS -(EXEC_OBJECT_CAPTURE<<1)
__u64 flags;
union {
__u64 rsvd1;
__u64 pad_to_size;
};
__u64 rsvd2;
};
struct drm_i915_gem_exec_fence {
/**
* User's handle for a drm_syncobj to wait on or signal.
*/
__u32 handle;
#define I915_EXEC_FENCE_WAIT (1<<0)
#define I915_EXEC_FENCE_SIGNAL (1<<1)
#define __I915_EXEC_FENCE_UNKNOWN_FLAGS (-(I915_EXEC_FENCE_SIGNAL << 1))
__u32 flags;
};
/*
* See drm_i915_gem_execbuffer_ext_timeline_fences.
*/
#define DRM_I915_GEM_EXECBUFFER_EXT_TIMELINE_FENCES 0
/*
* This structure describes an array of drm_syncobj and associated points for
* timeline variants of drm_syncobj. It is invalid to append this structure to
* the execbuf if I915_EXEC_FENCE_ARRAY is set.
*/
struct drm_i915_gem_execbuffer_ext_timeline_fences {
struct i915_user_extension base;
/**
* Number of element in the handles_ptr & value_ptr arrays.
*/
__u64 fence_count;
/**
* Pointer to an array of struct drm_i915_gem_exec_fence of length
* fence_count.
*/
__u64 handles_ptr;
/**
* Pointer to an array of u64 values of length fence_count. Values
* must be 0 for a binary drm_syncobj. A Value of 0 for a timeline
* drm_syncobj is invalid as it turns a drm_syncobj into a binary one.
*/
__u64 values_ptr;
};
struct drm_i915_gem_execbuffer2 {
/**
* List of gem_exec_object2 structs
*/
__u64 buffers_ptr;
__u32 buffer_count;
/** Offset in the batchbuffer to start execution from. */
__u32 batch_start_offset;
/** Bytes used in batchbuffer from batch_start_offset */
__u32 batch_len;
__u32 DR1;
__u32 DR4;
__u32 num_cliprects;
/**
* This is a struct drm_clip_rect *cliprects if I915_EXEC_FENCE_ARRAY
* & I915_EXEC_USE_EXTENSIONS are not set.
*
* If I915_EXEC_FENCE_ARRAY is set, then this is a pointer to an array
* of struct drm_i915_gem_exec_fence and num_cliprects is the length
* of the array.
*
* If I915_EXEC_USE_EXTENSIONS is set, then this is a pointer to a
* single struct i915_user_extension and num_cliprects is 0.
*/
__u64 cliprects_ptr;
#define I915_EXEC_RING_MASK (0x3f)
#define I915_EXEC_DEFAULT (0<<0)
#define I915_EXEC_RENDER (1<<0)
#define I915_EXEC_BSD (2<<0)
#define I915_EXEC_BLT (3<<0)
#define I915_EXEC_VEBOX (4<<0)
/* Used for switching the constants addressing mode on gen4+ RENDER ring.
* Gen6+ only supports relative addressing to dynamic state (default) and
* absolute addressing.
*
* These flags are ignored for the BSD and BLT rings.
*/
#define I915_EXEC_CONSTANTS_MASK (3<<6)
#define I915_EXEC_CONSTANTS_REL_GENERAL (0<<6) /* default */
#define I915_EXEC_CONSTANTS_ABSOLUTE (1<<6)
#define I915_EXEC_CONSTANTS_REL_SURFACE (2<<6) /* gen4/5 only */
__u64 flags;
__u64 rsvd1; /* now used for context info */
__u64 rsvd2;
};
/** Resets the SO write offset registers for transform feedback on gen7. */
#define I915_EXEC_GEN7_SOL_RESET (1<<8)
/** Request a privileged ("secure") batch buffer. Note only available for
* DRM_ROOT_ONLY | DRM_MASTER processes.
*/
#define I915_EXEC_SECURE (1<<9)
/** Inform the kernel that the batch is and will always be pinned. This
* negates the requirement for a workaround to be performed to avoid
* an incoherent CS (such as can be found on 830/845). If this flag is
* not passed, the kernel will endeavour to make sure the batch is
* coherent with the CS before execution. If this flag is passed,
* userspace assumes the responsibility for ensuring the same.
*/
#define I915_EXEC_IS_PINNED (1<<10)
/** Provide a hint to the kernel that the command stream and auxiliary
* state buffers already holds the correct presumed addresses and so the
* relocation process may be skipped if no buffers need to be moved in
* preparation for the execbuffer.
*/
#define I915_EXEC_NO_RELOC (1<<11)
/** Use the reloc.handle as an index into the exec object array rather
* than as the per-file handle.
*/
#define I915_EXEC_HANDLE_LUT (1<<12)
/** Used for switching BSD rings on the platforms with two BSD rings */
#define I915_EXEC_BSD_SHIFT (13)
#define I915_EXEC_BSD_MASK (3 << I915_EXEC_BSD_SHIFT)
/* default ping-pong mode */
#define I915_EXEC_BSD_DEFAULT (0 << I915_EXEC_BSD_SHIFT)
#define I915_EXEC_BSD_RING1 (1 << I915_EXEC_BSD_SHIFT)
#define I915_EXEC_BSD_RING2 (2 << I915_EXEC_BSD_SHIFT)
/** Tell the kernel that the batchbuffer is processed by
* the resource streamer.
*/
#define I915_EXEC_RESOURCE_STREAMER (1<<15)
/* Setting I915_EXEC_FENCE_IN implies that lower_32_bits(rsvd2) represent
* a sync_file fd to wait upon (in a nonblocking manner) prior to executing
* the batch.
*
* Returns -EINVAL if the sync_file fd cannot be found.
*/
#define I915_EXEC_FENCE_IN (1<<16)
/* Setting I915_EXEC_FENCE_OUT causes the ioctl to return a sync_file fd
* in the upper_32_bits(rsvd2) upon success. Ownership of the fd is given
* to the caller, and it should be close() after use. (The fd is a regular
* file descriptor and will be cleaned up on process termination. It holds
* a reference to the request, but nothing else.)
*
* The sync_file fd can be combined with other sync_file and passed either
* to execbuf using I915_EXEC_FENCE_IN, to atomic KMS ioctls (so that a flip
* will only occur after this request completes), or to other devices.
*
* Using I915_EXEC_FENCE_OUT requires use of
* DRM_IOCTL_I915_GEM_EXECBUFFER2_WR ioctl so that the result is written
* back to userspace. Failure to do so will cause the out-fence to always
* be reported as zero, and the real fence fd to be leaked.
*/
#define I915_EXEC_FENCE_OUT (1<<17)
/*
* Traditionally the execbuf ioctl has only considered the final element in
* the execobject[] to be the executable batch. Often though, the client
* will known the batch object prior to construction and being able to place
* it into the execobject[] array first can simplify the relocation tracking.
* Setting I915_EXEC_BATCH_FIRST tells execbuf to use element 0 of the
* execobject[] as the * batch instead (the default is to use the last
* element).
*/
#define I915_EXEC_BATCH_FIRST (1<<18)
/* Setting I915_FENCE_ARRAY implies that num_cliprects and cliprects_ptr
* define an array of i915_gem_exec_fence structures which specify a set of
* dma fences to wait upon or signal.
*/
#define I915_EXEC_FENCE_ARRAY (1<<19)
/*
* Setting I915_EXEC_FENCE_SUBMIT implies that lower_32_bits(rsvd2) represent
* a sync_file fd to wait upon (in a nonblocking manner) prior to executing
* the batch.
*
* Returns -EINVAL if the sync_file fd cannot be found.
*/
#define I915_EXEC_FENCE_SUBMIT (1 << 20)
/*
* Setting I915_EXEC_USE_EXTENSIONS implies that
* drm_i915_gem_execbuffer2.cliprects_ptr is treated as a pointer to an linked
* list of i915_user_extension. Each i915_user_extension node is the base of a
* larger structure. The list of supported structures are listed in the
* drm_i915_gem_execbuffer_ext enum.
*/
#define I915_EXEC_USE_EXTENSIONS (1 << 21)
#define __I915_EXEC_UNKNOWN_FLAGS (-(I915_EXEC_USE_EXTENSIONS << 1))
#define I915_EXEC_CONTEXT_ID_MASK (0xffffffff)
#define i915_execbuffer2_set_context_id(eb2, context) \
(eb2).rsvd1 = context & I915_EXEC_CONTEXT_ID_MASK
#define i915_execbuffer2_get_context_id(eb2) \
((eb2).rsvd1 & I915_EXEC_CONTEXT_ID_MASK)
struct drm_i915_gem_pin {
/** Handle of the buffer to be pinned. */
__u32 handle;
__u32 pad;
/** alignment required within the aperture */
__u64 alignment;
/** Returned GTT offset of the buffer. */
__u64 offset;
};
struct drm_i915_gem_unpin {
/** Handle of the buffer to be unpinned. */
__u32 handle;
__u32 pad;
};
struct drm_i915_gem_busy {
/** Handle of the buffer to check for busy */
__u32 handle;
/** Return busy status
*
* A return of 0 implies that the object is idle (after
* having flushed any pending activity), and a non-zero return that
* the object is still in-flight on the GPU. (The GPU has not yet
* signaled completion for all pending requests that reference the
* object.) An object is guaranteed to become idle eventually (so
* long as no new GPU commands are executed upon it). Due to the
* asynchronous nature of the hardware, an object reported
* as busy may become idle before the ioctl is completed.
*
* Furthermore, if the object is busy, which engine is busy is only
* provided as a guide and only indirectly by reporting its class
* (there may be more than one engine in each class). There are race
* conditions which prevent the report of which engines are busy from
* being always accurate. However, the converse is not true. If the
* object is idle, the result of the ioctl, that all engines are idle,
* is accurate.
*
* The returned dword is split into two fields to indicate both
* the engine classess on which the object is being read, and the
* engine class on which it is currently being written (if any).
*
* The low word (bits 0:15) indicate if the object is being written
* to by any engine (there can only be one, as the GEM implicit
* synchronisation rules force writes to be serialised). Only the
* engine class (offset by 1, I915_ENGINE_CLASS_RENDER is reported as
* 1 not 0 etc) for the last write is reported.
*
* The high word (bits 16:31) are a bitmask of which engines classes
* are currently reading from the object. Multiple engines may be
* reading from the object simultaneously.
*
* The value of each engine class is the same as specified in the
* I915_CONTEXT_PARAM_ENGINES context parameter and via perf, i.e.
* I915_ENGINE_CLASS_RENDER, I915_ENGINE_CLASS_COPY, etc.
* Some hardware may have parallel execution engines, e.g. multiple
* media engines, which are mapped to the same class identifier and so
* are not separately reported for busyness.
*
* Caveat emptor:
* Only the boolean result of this query is reliable; that is whether
* the object is idle or busy. The report of which engines are busy
* should be only used as a heuristic.
*/
__u32 busy;
};
/**
* struct drm_i915_gem_caching - Set or get the caching for given object
* handle.
*
* Allow userspace to control the GTT caching bits for a given object when the
* object is later mapped through the ppGTT(or GGTT on older platforms lacking
* ppGTT support, or if the object is used for scanout). Note that this might
* require unbinding the object from the GTT first, if its current caching value
* doesn't match.
*
* Note that this all changes on discrete platforms, starting from DG1, the
* set/get caching is no longer supported, and is now rejected. Instead the CPU
* caching attributes(WB vs WC) will become an immutable creation time property
* for the object, along with the GTT caching level. For now we don't expose any
* new uAPI for this, instead on DG1 this is all implicit, although this largely
* shouldn't matter since DG1 is coherent by default(without any way of
* controlling it).
*
* Implicit caching rules, starting from DG1:
*
* - If any of the object placements (see &drm_i915_gem_create_ext_memory_regions)
* contain I915_MEMORY_CLASS_DEVICE then the object will be allocated and
* mapped as write-combined only.
*
* - Everything else is always allocated and mapped as write-back, with the
* guarantee that everything is also coherent with the GPU.
*
* Note that this is likely to change in the future again, where we might need
* more flexibility on future devices, so making this all explicit as part of a
* new &drm_i915_gem_create_ext extension is probable.
*
* Side note: Part of the reason for this is that changing the at-allocation-time CPU
* caching attributes for the pages might be required(and is expensive) if we
* need to then CPU map the pages later with different caching attributes. This
* inconsistent caching behaviour, while supported on x86, is not universally
* supported on other architectures. So for simplicity we opt for setting
* everything at creation time, whilst also making it immutable, on discrete
* platforms.
*/
struct drm_i915_gem_caching {
/**
* @handle: Handle of the buffer to set/get the caching level.
*/
__u32 handle;
/**
* @caching: The GTT caching level to apply or possible return value.
*
* The supported @caching values:
*
* I915_CACHING_NONE:
*
* GPU access is not coherent with CPU caches. Default for machines
* without an LLC. This means manual flushing might be needed, if we
* want GPU access to be coherent.
*
* I915_CACHING_CACHED:
*
* GPU access is coherent with CPU caches and furthermore the data is
* cached in last-level caches shared between CPU cores and the GPU GT.
*
* I915_CACHING_DISPLAY:
*
* Special GPU caching mode which is coherent with the scanout engines.
* Transparently falls back to I915_CACHING_NONE on platforms where no
* special cache mode (like write-through or gfdt flushing) is
* available. The kernel automatically sets this mode when using a
* buffer as a scanout target. Userspace can manually set this mode to
* avoid a costly stall and clflush in the hotpath of drawing the first
* frame.
*/
#define I915_CACHING_NONE 0
#define I915_CACHING_CACHED 1
#define I915_CACHING_DISPLAY 2
__u32 caching;
};
#define I915_TILING_NONE 0
#define I915_TILING_X 1
#define I915_TILING_Y 2
/*
* Do not add new tiling types here. The I915_TILING_* values are for
* de-tiling fence registers that no longer exist on modern platforms. Although
* the hardware may support new types of tiling in general (e.g., Tile4), we
* do not need to add them to the uapi that is specific to now-defunct ioctls.
*/
#define I915_TILING_LAST I915_TILING_Y
#define I915_BIT_6_SWIZZLE_NONE 0
#define I915_BIT_6_SWIZZLE_9 1
#define I915_BIT_6_SWIZZLE_9_10 2
#define I915_BIT_6_SWIZZLE_9_11 3
#define I915_BIT_6_SWIZZLE_9_10_11 4
/* Not seen by userland */
#define I915_BIT_6_SWIZZLE_UNKNOWN 5
/* Seen by userland. */
#define I915_BIT_6_SWIZZLE_9_17 6
#define I915_BIT_6_SWIZZLE_9_10_17 7
struct drm_i915_gem_set_tiling {
/** Handle of the buffer to have its tiling state updated */
__u32 handle;
/**
* Tiling mode for the object (I915_TILING_NONE, I915_TILING_X,
* I915_TILING_Y).
*
* This value is to be set on request, and will be updated by the
* kernel on successful return with the actual chosen tiling layout.
*
* The tiling mode may be demoted to I915_TILING_NONE when the system
* has bit 6 swizzling that can't be managed correctly by GEM.
*
* Buffer contents become undefined when changing tiling_mode.
*/
__u32 tiling_mode;
/**
* Stride in bytes for the object when in I915_TILING_X or
* I915_TILING_Y.
*/
__u32 stride;
/**
* Returned address bit 6 swizzling required for CPU access through
* mmap mapping.
*/
__u32 swizzle_mode;
};
struct drm_i915_gem_get_tiling {
/** Handle of the buffer to get tiling state for. */
__u32 handle;
/**
* Current tiling mode for the object (I915_TILING_NONE, I915_TILING_X,
* I915_TILING_Y).
*/
__u32 tiling_mode;
/**
* Returned address bit 6 swizzling required for CPU access through
* mmap mapping.
*/
__u32 swizzle_mode;
/**
* Returned address bit 6 swizzling required for CPU access through
* mmap mapping whilst bound.
*/
__u32 phys_swizzle_mode;
};
struct drm_i915_gem_get_aperture {
/** Total size of the aperture used by i915_gem_execbuffer, in bytes */
__u64 aper_size;
/**
* Available space in the aperture used by i915_gem_execbuffer, in
* bytes
*/
__u64 aper_available_size;
};
struct drm_i915_get_pipe_from_crtc_id {
/** ID of CRTC being requested **/
__u32 crtc_id;
/** pipe of requested CRTC **/
__u32 pipe;
};
#define I915_MADV_WILLNEED 0
#define I915_MADV_DONTNEED 1
#define __I915_MADV_PURGED 2 /* internal state */
struct drm_i915_gem_madvise {
/** Handle of the buffer to change the backing store advice */
__u32 handle;
/* Advice: either the buffer will be needed again in the near future,
* or wont be and could be discarded under memory pressure.
*/
__u32 madv;
/** Whether the backing store still exists. */
__u32 retained;
};
/* flags */
#define I915_OVERLAY_TYPE_MASK 0xff
#define I915_OVERLAY_YUV_PLANAR 0x01
#define I915_OVERLAY_YUV_PACKED 0x02
#define I915_OVERLAY_RGB 0x03
#define I915_OVERLAY_DEPTH_MASK 0xff00
#define I915_OVERLAY_RGB24 0x1000
#define I915_OVERLAY_RGB16 0x2000
#define I915_OVERLAY_RGB15 0x3000
#define I915_OVERLAY_YUV422 0x0100
#define I915_OVERLAY_YUV411 0x0200
#define I915_OVERLAY_YUV420 0x0300
#define I915_OVERLAY_YUV410 0x0400
#define I915_OVERLAY_SWAP_MASK 0xff0000
#define I915_OVERLAY_NO_SWAP 0x000000
#define I915_OVERLAY_UV_SWAP 0x010000
#define I915_OVERLAY_Y_SWAP 0x020000
#define I915_OVERLAY_Y_AND_UV_SWAP 0x030000
#define I915_OVERLAY_FLAGS_MASK 0xff000000
#define I915_OVERLAY_ENABLE 0x01000000
struct drm_intel_overlay_put_image {
/* various flags and src format description */
__u32 flags;
/* source picture description */
__u32 bo_handle;
/* stride values and offsets are in bytes, buffer relative */
__u16 stride_Y; /* stride for packed formats */
__u16 stride_UV;
__u32 offset_Y; /* offset for packet formats */
__u32 offset_U;
__u32 offset_V;
/* in pixels */
__u16 src_width;
__u16 src_height;
/* to compensate the scaling factors for partially covered surfaces */
__u16 src_scan_width;
__u16 src_scan_height;
/* output crtc description */
__u32 crtc_id;
__u16 dst_x;
__u16 dst_y;
__u16 dst_width;
__u16 dst_height;
};
/* flags */
#define I915_OVERLAY_UPDATE_ATTRS (1<<0)
#define I915_OVERLAY_UPDATE_GAMMA (1<<1)
#define I915_OVERLAY_DISABLE_DEST_COLORKEY (1<<2)
struct drm_intel_overlay_attrs {
__u32 flags;
__u32 color_key;
__s32 brightness;
__u32 contrast;
__u32 saturation;
__u32 gamma0;
__u32 gamma1;
__u32 gamma2;
__u32 gamma3;
__u32 gamma4;
__u32 gamma5;
};
/*
* Intel sprite handling
*
* Color keying works with a min/mask/max tuple. Both source and destination
* color keying is allowed.
*
* Source keying:
* Sprite pixels within the min & max values, masked against the color channels
* specified in the mask field, will be transparent. All other pixels will
* be displayed on top of the primary plane. For RGB surfaces, only the min
* and mask fields will be used; ranged compares are not allowed.
*
* Destination keying:
* Primary plane pixels that match the min value, masked against the color
* channels specified in the mask field, will be replaced by corresponding
* pixels from the sprite plane.
*
* Note that source & destination keying are exclusive; only one can be
* active on a given plane.
*/
#define I915_SET_COLORKEY_NONE (1<<0) /* Deprecated. Instead set
* flags==0 to disable colorkeying.
*/
#define I915_SET_COLORKEY_DESTINATION (1<<1)
#define I915_SET_COLORKEY_SOURCE (1<<2)
struct drm_intel_sprite_colorkey {
__u32 plane_id;
__u32 min_value;
__u32 channel_mask;
__u32 max_value;
__u32 flags;
};
struct drm_i915_gem_wait {
/** Handle of BO we shall wait on */
__u32 bo_handle;
__u32 flags;
/** Number of nanoseconds to wait, Returns time remaining. */
__s64 timeout_ns;
};
struct drm_i915_gem_context_create {
__u32 ctx_id; /* output: id of new context*/
__u32 pad;
};
struct drm_i915_gem_context_create_ext {
__u32 ctx_id; /* output: id of new context*/
__u32 flags;
#define I915_CONTEXT_CREATE_FLAGS_USE_EXTENSIONS (1u << 0)
#define I915_CONTEXT_CREATE_FLAGS_SINGLE_TIMELINE (1u << 1)
#define I915_CONTEXT_CREATE_FLAGS_UNKNOWN \
(-(I915_CONTEXT_CREATE_FLAGS_SINGLE_TIMELINE << 1))
__u64 extensions;
};
struct drm_i915_gem_context_param {
__u32 ctx_id;
__u32 size;
__u64 param;
#define I915_CONTEXT_PARAM_BAN_PERIOD 0x1
/* I915_CONTEXT_PARAM_NO_ZEROMAP has been removed. On the off chance
* someone somewhere has attempted to use it, never re-use this context
* param number.
*/
#define I915_CONTEXT_PARAM_NO_ZEROMAP 0x2
#define I915_CONTEXT_PARAM_GTT_SIZE 0x3
#define I915_CONTEXT_PARAM_NO_ERROR_CAPTURE 0x4
#define I915_CONTEXT_PARAM_BANNABLE 0x5
#define I915_CONTEXT_PARAM_PRIORITY 0x6
#define I915_CONTEXT_MAX_USER_PRIORITY 1023 /* inclusive */
#define I915_CONTEXT_DEFAULT_PRIORITY 0
#define I915_CONTEXT_MIN_USER_PRIORITY -1023 /* inclusive */
/*
* When using the following param, value should be a pointer to
* drm_i915_gem_context_param_sseu.
*/
#define I915_CONTEXT_PARAM_SSEU 0x7
/*
* Not all clients may want to attempt automatic recover of a context after
* a hang (for example, some clients may only submit very small incremental
* batches relying on known logical state of previous batches which will never
* recover correctly and each attempt will hang), and so would prefer that
* the context is forever banned instead.
*
* If set to false (0), after a reset, subsequent (and in flight) rendering
* from this context is discarded, and the client will need to create a new
* context to use instead.
*
* If set to true (1), the kernel will automatically attempt to recover the
* context by skipping the hanging batch and executing the next batch starting
* from the default context state (discarding the incomplete logical context
* state lost due to the reset).
*
* On creation, all new contexts are marked as recoverable.
*/
#define I915_CONTEXT_PARAM_RECOVERABLE 0x8
/*
* The id of the associated virtual memory address space (ppGTT) of
* this context. Can be retrieved and passed to another context
* (on the same fd) for both to use the same ppGTT and so share
* address layouts, and avoid reloading the page tables on context
* switches between themselves.
*
* See DRM_I915_GEM_VM_CREATE and DRM_I915_GEM_VM_DESTROY.
*/
#define I915_CONTEXT_PARAM_VM 0x9
/*
* I915_CONTEXT_PARAM_ENGINES:
*
* Bind this context to operate on this subset of available engines. Henceforth,
* the I915_EXEC_RING selector for DRM_IOCTL_I915_GEM_EXECBUFFER2 operates as
* an index into this array of engines; I915_EXEC_DEFAULT selecting engine[0]
* and upwards. Slots 0...N are filled in using the specified (class, instance).
* Use
* engine_class: I915_ENGINE_CLASS_INVALID,
* engine_instance: I915_ENGINE_CLASS_INVALID_NONE
* to specify a gap in the array that can be filled in later, e.g. by a
* virtual engine used for load balancing.
*
* Setting the number of engines bound to the context to 0, by passing a zero
* sized argument, will revert back to default settings.
*
* See struct i915_context_param_engines.
*
* Extensions:
* i915_context_engines_load_balance (I915_CONTEXT_ENGINES_EXT_LOAD_BALANCE)
* i915_context_engines_bond (I915_CONTEXT_ENGINES_EXT_BOND)
* i915_context_engines_parallel_submit (I915_CONTEXT_ENGINES_EXT_PARALLEL_SUBMIT)
*/
#define I915_CONTEXT_PARAM_ENGINES 0xa
/*
* I915_CONTEXT_PARAM_PERSISTENCE:
*
* Allow the context and active rendering to survive the process until
* completion. Persistence allows fire-and-forget clients to queue up a
* bunch of work, hand the output over to a display server and then quit.
* If the context is marked as not persistent, upon closing (either via
* an explicit DRM_I915_GEM_CONTEXT_DESTROY or implicitly from file closure
* or process termination), the context and any outstanding requests will be
* cancelled (and exported fences for cancelled requests marked as -EIO).
*
* By default, new contexts allow persistence.
*/
#define I915_CONTEXT_PARAM_PERSISTENCE 0xb
/* This API has been removed. On the off chance someone somewhere has
* attempted to use it, never re-use this context param number.
*/
#define I915_CONTEXT_PARAM_RINGSIZE 0xc
/*
* I915_CONTEXT_PARAM_PROTECTED_CONTENT:
*
* Mark that the context makes use of protected content, which will result
* in the context being invalidated when the protected content session is.
* Given that the protected content session is killed on suspend, the device
* is kept awake for the lifetime of a protected context, so the user should
* make sure to dispose of them once done.
* This flag can only be set at context creation time and, when set to true,
* must be preceded by an explicit setting of I915_CONTEXT_PARAM_RECOVERABLE
* to false. This flag can't be set to true in conjunction with setting the
* I915_CONTEXT_PARAM_BANNABLE flag to false. Creation example:
*
* .. code-block:: C
*
* struct drm_i915_gem_context_create_ext_setparam p_protected = {
* .base = {
* .name = I915_CONTEXT_CREATE_EXT_SETPARAM,
* },
* .param = {
* .param = I915_CONTEXT_PARAM_PROTECTED_CONTENT,
* .value = 1,
* }
* };
* struct drm_i915_gem_context_create_ext_setparam p_norecover = {
* .base = {
* .name = I915_CONTEXT_CREATE_EXT_SETPARAM,
* .next_extension = to_user_pointer(&p_protected),
* },
* .param = {
* .param = I915_CONTEXT_PARAM_RECOVERABLE,
* .value = 0,
* }
* };
* struct drm_i915_gem_context_create_ext create = {
* .flags = I915_CONTEXT_CREATE_FLAGS_USE_EXTENSIONS,
* .extensions = to_user_pointer(&p_norecover);
* };
*
* ctx_id = gem_context_create_ext(drm_fd, &create);
*
* In addition to the normal failure cases, setting this flag during context
* creation can result in the following errors:
*
* -ENODEV: feature not available
* -EPERM: trying to mark a recoverable or not bannable context as protected
*/
#define I915_CONTEXT_PARAM_PROTECTED_CONTENT 0xd
/* Must be kept compact -- no holes and well documented */
__u64 value;
};
/*
* Context SSEU programming
*
* It may be necessary for either functional or performance reason to configure
* a context to run with a reduced number of SSEU (where SSEU stands for Slice/
* Sub-slice/EU).
*
* This is done by configuring SSEU configuration using the below
* @struct drm_i915_gem_context_param_sseu for every supported engine which
* userspace intends to use.
*
* Not all GPUs or engines support this functionality in which case an error
* code -ENODEV will be returned.
*
* Also, flexibility of possible SSEU configuration permutations varies between
* GPU generations and software imposed limitations. Requesting such a
* combination will return an error code of -EINVAL.
*
* NOTE: When perf/OA is active the context's SSEU configuration is ignored in
* favour of a single global setting.
*/
struct drm_i915_gem_context_param_sseu {
/*
* Engine class & instance to be configured or queried.
*/
struct i915_engine_class_instance engine;
/*
* Unknown flags must be cleared to zero.
*/
__u32 flags;
#define I915_CONTEXT_SSEU_FLAG_ENGINE_INDEX (1u << 0)
/*
* Mask of slices to enable for the context. Valid values are a subset
* of the bitmask value returned for I915_PARAM_SLICE_MASK.
*/
__u64 slice_mask;
/*
* Mask of subslices to enable for the context. Valid values are a
* subset of the bitmask value return by I915_PARAM_SUBSLICE_MASK.
*/
__u64 subslice_mask;
/*
* Minimum/Maximum number of EUs to enable per subslice for the
* context. min_eus_per_subslice must be inferior or equal to
* max_eus_per_subslice.
*/
__u16 min_eus_per_subslice;
__u16 max_eus_per_subslice;
/*
* Unused for now. Must be cleared to zero.
*/
__u32 rsvd;
};
/**
* DOC: Virtual Engine uAPI
*
* Virtual engine is a concept where userspace is able to configure a set of
* physical engines, submit a batch buffer, and let the driver execute it on any
* engine from the set as it sees fit.
*
* This is primarily useful on parts which have multiple instances of a same
* class engine, like for example GT3+ Skylake parts with their two VCS engines.
*
* For instance userspace can enumerate all engines of a certain class using the
* previously described `Engine Discovery uAPI`_. After that userspace can
* create a GEM context with a placeholder slot for the virtual engine (using
* `I915_ENGINE_CLASS_INVALID` and `I915_ENGINE_CLASS_INVALID_NONE` for class
* and instance respectively) and finally using the
* `I915_CONTEXT_ENGINES_EXT_LOAD_BALANCE` extension place a virtual engine in
* the same reserved slot.
*
* Example of creating a virtual engine and submitting a batch buffer to it:
*
* .. code-block:: C
*
* I915_DEFINE_CONTEXT_ENGINES_LOAD_BALANCE(virtual, 2) = {
* .base.name = I915_CONTEXT_ENGINES_EXT_LOAD_BALANCE,
* .engine_index = 0, // Place this virtual engine into engine map slot 0
* .num_siblings = 2,
* .engines = { { I915_ENGINE_CLASS_VIDEO, 0 },
* { I915_ENGINE_CLASS_VIDEO, 1 }, },
* };
* I915_DEFINE_CONTEXT_PARAM_ENGINES(engines, 1) = {
* .engines = { { I915_ENGINE_CLASS_INVALID,
* I915_ENGINE_CLASS_INVALID_NONE } },
* .extensions = to_user_pointer(&virtual), // Chains after load_balance extension
* };
* struct drm_i915_gem_context_create_ext_setparam p_engines = {
* .base = {
* .name = I915_CONTEXT_CREATE_EXT_SETPARAM,
* },
* .param = {
* .param = I915_CONTEXT_PARAM_ENGINES,
* .value = to_user_pointer(&engines),
* .size = sizeof(engines),
* },
* };
* struct drm_i915_gem_context_create_ext create = {
* .flags = I915_CONTEXT_CREATE_FLAGS_USE_EXTENSIONS,
* .extensions = to_user_pointer(&p_engines);
* };
*
* ctx_id = gem_context_create_ext(drm_fd, &create);
*
* // Now we have created a GEM context with its engine map containing a
* // single virtual engine. Submissions to this slot can go either to
* // vcs0 or vcs1, depending on the load balancing algorithm used inside
* // the driver. The load balancing is dynamic from one batch buffer to
* // another and transparent to userspace.
*
* ...
* execbuf.rsvd1 = ctx_id;
* execbuf.flags = 0; // Submits to index 0 which is the virtual engine
* gem_execbuf(drm_fd, &execbuf);
*/
/*
* i915_context_engines_load_balance:
*
* Enable load balancing across this set of engines.
*
* Into the I915_EXEC_DEFAULT slot [0], a virtual engine is created that when
* used will proxy the execbuffer request onto one of the set of engines
* in such a way as to distribute the load evenly across the set.
*
* The set of engines must be compatible (e.g. the same HW class) as they
* will share the same logical GPU context and ring.
*
* To intermix rendering with the virtual engine and direct rendering onto
* the backing engines (bypassing the load balancing proxy), the context must
* be defined to use a single timeline for all engines.
*/
struct i915_context_engines_load_balance {
struct i915_user_extension base;
__u16 engine_index;
__u16 num_siblings;
__u32 flags; /* all undefined flags must be zero */
__u64 mbz64; /* reserved for future use; must be zero */
struct i915_engine_class_instance engines[];
} __attribute__((packed));
#define I915_DEFINE_CONTEXT_ENGINES_LOAD_BALANCE(name__, N__) struct { \
struct i915_user_extension base; \
__u16 engine_index; \
__u16 num_siblings; \
__u32 flags; \
__u64 mbz64; \
struct i915_engine_class_instance engines[N__]; \
} __attribute__((packed)) name__
/*
* i915_context_engines_bond:
*
* Constructed bonded pairs for execution within a virtual engine.
*
* All engines are equal, but some are more equal than others. Given
* the distribution of resources in the HW, it may be preferable to run
* a request on a given subset of engines in parallel to a request on a
* specific engine. We enable this selection of engines within a virtual
* engine by specifying bonding pairs, for any given master engine we will
* only execute on one of the corresponding siblings within the virtual engine.
*
* To execute a request in parallel on the master engine and a sibling requires
* coordination with a I915_EXEC_FENCE_SUBMIT.
*/
struct i915_context_engines_bond {
struct i915_user_extension base;
struct i915_engine_class_instance master;
__u16 virtual_index; /* index of virtual engine in ctx->engines[] */
__u16 num_bonds;
__u64 flags; /* all undefined flags must be zero */
__u64 mbz64[4]; /* reserved for future use; must be zero */
struct i915_engine_class_instance engines[];
} __attribute__((packed));
#define I915_DEFINE_CONTEXT_ENGINES_BOND(name__, N__) struct { \
struct i915_user_extension base; \
struct i915_engine_class_instance master; \
__u16 virtual_index; \
__u16 num_bonds; \
__u64 flags; \
__u64 mbz64[4]; \
struct i915_engine_class_instance engines[N__]; \
} __attribute__((packed)) name__
/**
* struct i915_context_engines_parallel_submit - Configure engine for
* parallel submission.
*
* Setup a slot in the context engine map to allow multiple BBs to be submitted
* in a single execbuf IOCTL. Those BBs will then be scheduled to run on the GPU
* in parallel. Multiple hardware contexts are created internally in the i915 to
* run these BBs. Once a slot is configured for N BBs only N BBs can be
* submitted in each execbuf IOCTL and this is implicit behavior e.g. The user
* doesn't tell the execbuf IOCTL there are N BBs, the execbuf IOCTL knows how
* many BBs there are based on the slot's configuration. The N BBs are the last
* N buffer objects or first N if I915_EXEC_BATCH_FIRST is set.
*
* The default placement behavior is to create implicit bonds between each
* context if each context maps to more than 1 physical engine (e.g. context is
* a virtual engine). Also we only allow contexts of same engine class and these
* contexts must be in logically contiguous order. Examples of the placement
* behavior are described below. Lastly, the default is to not allow BBs to be
* preempted mid-batch. Rather insert coordinated preemption points on all
* hardware contexts between each set of BBs. Flags could be added in the future
* to change both of these default behaviors.
*
* Returns -EINVAL if hardware context placement configuration is invalid or if
* the placement configuration isn't supported on the platform / submission
* interface.
* Returns -ENODEV if extension isn't supported on the platform / submission
* interface.
*
* .. code-block:: none
*
* Examples syntax:
* CS[X] = generic engine of same class, logical instance X
* INVALID = I915_ENGINE_CLASS_INVALID, I915_ENGINE_CLASS_INVALID_NONE
*
* Example 1 pseudo code:
* set_engines(INVALID)
* set_parallel(engine_index=0, width=2, num_siblings=1,
* engines=CS[0],CS[1])
*
* Results in the following valid placement:
* CS[0], CS[1]
*
* Example 2 pseudo code:
* set_engines(INVALID)
* set_parallel(engine_index=0, width=2, num_siblings=2,
* engines=CS[0],CS[2],CS[1],CS[3])
*
* Results in the following valid placements:
* CS[0], CS[1]
* CS[2], CS[3]
*
* This can be thought of as two virtual engines, each containing two
* engines thereby making a 2D array. However, there are bonds tying the
* entries together and placing restrictions on how they can be scheduled.
* Specifically, the scheduler can choose only vertical columns from the 2D
* array. That is, CS[0] is bonded to CS[1] and CS[2] to CS[3]. So if the
* scheduler wants to submit to CS[0], it must also choose CS[1] and vice
* versa. Same for CS[2] requires also using CS[3].
* VE[0] = CS[0], CS[2]
* VE[1] = CS[1], CS[3]
*
* Example 3 pseudo code:
* set_engines(INVALID)
* set_parallel(engine_index=0, width=2, num_siblings=2,
* engines=CS[0],CS[1],CS[1],CS[3])
*
* Results in the following valid and invalid placements:
* CS[0], CS[1]
* CS[1], CS[3] - Not logically contiguous, return -EINVAL
*/
struct i915_context_engines_parallel_submit {
/**
* @base: base user extension.
*/
struct i915_user_extension base;
/**
* @engine_index: slot for parallel engine
*/
__u16 engine_index;
/**
* @width: number of contexts per parallel engine or in other words the
* number of batches in each submission
*/
__u16 width;
/**
* @num_siblings: number of siblings per context or in other words the
* number of possible placements for each submission
*/
__u16 num_siblings;
/**
* @mbz16: reserved for future use; must be zero
*/
__u16 mbz16;
/**
* @flags: all undefined flags must be zero, currently not defined flags
*/
__u64 flags;
/**
* @mbz64: reserved for future use; must be zero
*/
__u64 mbz64[3];
/**
* @engines: 2-d array of engine instances to configure parallel engine
*
* length = width (i) * num_siblings (j)
* index = j + i * num_siblings
*/
struct i915_engine_class_instance engines[];
} __packed;
#define I915_DEFINE_CONTEXT_ENGINES_PARALLEL_SUBMIT(name__, N__) struct { \
struct i915_user_extension base; \
__u16 engine_index; \
__u16 width; \
__u16 num_siblings; \
__u16 mbz16; \
__u64 flags; \
__u64 mbz64[3]; \
struct i915_engine_class_instance engines[N__]; \
} __attribute__((packed)) name__
/**
* DOC: Context Engine Map uAPI
*
* Context engine map is a new way of addressing engines when submitting batch-
* buffers, replacing the existing way of using identifiers like `I915_EXEC_BLT`
* inside the flags field of `struct drm_i915_gem_execbuffer2`.
*
* To use it created GEM contexts need to be configured with a list of engines
* the user is intending to submit to. This is accomplished using the
* `I915_CONTEXT_PARAM_ENGINES` parameter and `struct
* i915_context_param_engines`.
*
* For such contexts the `I915_EXEC_RING_MASK` field becomes an index into the
* configured map.
*
* Example of creating such context and submitting against it:
*
* .. code-block:: C
*
* I915_DEFINE_CONTEXT_PARAM_ENGINES(engines, 2) = {
* .engines = { { I915_ENGINE_CLASS_RENDER, 0 },
* { I915_ENGINE_CLASS_COPY, 0 } }
* };
* struct drm_i915_gem_context_create_ext_setparam p_engines = {
* .base = {
* .name = I915_CONTEXT_CREATE_EXT_SETPARAM,
* },
* .param = {
* .param = I915_CONTEXT_PARAM_ENGINES,
* .value = to_user_pointer(&engines),
* .size = sizeof(engines),
* },
* };
* struct drm_i915_gem_context_create_ext create = {
* .flags = I915_CONTEXT_CREATE_FLAGS_USE_EXTENSIONS,
* .extensions = to_user_pointer(&p_engines);
* };
*
* ctx_id = gem_context_create_ext(drm_fd, &create);
*
* // We have now created a GEM context with two engines in the map:
* // Index 0 points to rcs0 while index 1 points to bcs0. Other engines
* // will not be accessible from this context.
*
* ...
* execbuf.rsvd1 = ctx_id;
* execbuf.flags = 0; // Submits to index 0, which is rcs0 for this context
* gem_execbuf(drm_fd, &execbuf);
*
* ...
* execbuf.rsvd1 = ctx_id;
* execbuf.flags = 1; // Submits to index 0, which is bcs0 for this context
* gem_execbuf(drm_fd, &execbuf);
*/
struct i915_context_param_engines {
__u64 extensions; /* linked chain of extension blocks, 0 terminates */
#define I915_CONTEXT_ENGINES_EXT_LOAD_BALANCE 0 /* see i915_context_engines_load_balance */
#define I915_CONTEXT_ENGINES_EXT_BOND 1 /* see i915_context_engines_bond */
#define I915_CONTEXT_ENGINES_EXT_PARALLEL_SUBMIT 2 /* see i915_context_engines_parallel_submit */
struct i915_engine_class_instance engines[0];
} __attribute__((packed));
#define I915_DEFINE_CONTEXT_PARAM_ENGINES(name__, N__) struct { \
__u64 extensions; \
struct i915_engine_class_instance engines[N__]; \
} __attribute__((packed)) name__
struct drm_i915_gem_context_create_ext_setparam {
#define I915_CONTEXT_CREATE_EXT_SETPARAM 0
struct i915_user_extension base;
struct drm_i915_gem_context_param param;
};
/* This API has been removed. On the off chance someone somewhere has
* attempted to use it, never re-use this extension number.
*/
#define I915_CONTEXT_CREATE_EXT_CLONE 1
struct drm_i915_gem_context_destroy {
__u32 ctx_id;
__u32 pad;
};
/*
* DRM_I915_GEM_VM_CREATE -
*
* Create a new virtual memory address space (ppGTT) for use within a context
* on the same file. Extensions can be provided to configure exactly how the
* address space is setup upon creation.
*
* The id of new VM (bound to the fd) for use with I915_CONTEXT_PARAM_VM is
* returned in the outparam @id.
*
* No flags are defined, with all bits reserved and must be zero.
*
* An extension chain maybe provided, starting with @extensions, and terminated
* by the @next_extension being 0. Currently, no extensions are defined.
*
* DRM_I915_GEM_VM_DESTROY -
*
* Destroys a previously created VM id, specified in @id.
*
* No extensions or flags are allowed currently, and so must be zero.
*/
struct drm_i915_gem_vm_control {
__u64 extensions;
__u32 flags;
__u32 vm_id;
};
struct drm_i915_reg_read {
/*
* Register offset.
* For 64bit wide registers where the upper 32bits don't immediately
* follow the lower 32bits, the offset of the lower 32bits must
* be specified
*/
__u64 offset;
#define I915_REG_READ_8B_WA (1ul << 0)
__u64 val; /* Return value */
};
/* Known registers:
*
* Render engine timestamp - 0x2358 + 64bit - gen7+
* - Note this register returns an invalid value if using the default
* single instruction 8byte read, in order to workaround that pass
* flag I915_REG_READ_8B_WA in offset field.
*
*/
struct drm_i915_reset_stats {
__u32 ctx_id;
__u32 flags;
/* All resets since boot/module reload, for all contexts */
__u32 reset_count;
/* Number of batches lost when active in GPU, for this context */
__u32 batch_active;
/* Number of batches lost pending for execution, for this context */
__u32 batch_pending;
__u32 pad;
};
/**
* struct drm_i915_gem_userptr - Create GEM object from user allocated memory.
*
* Userptr objects have several restrictions on what ioctls can be used with the
* object handle.
*/
struct drm_i915_gem_userptr {
/**
* @user_ptr: The pointer to the allocated memory.
*
* Needs to be aligned to PAGE_SIZE.
*/
__u64 user_ptr;
/**
* @user_size:
*
* The size in bytes for the allocated memory. This will also become the
* object size.
*
* Needs to be aligned to PAGE_SIZE, and should be at least PAGE_SIZE,
* or larger.
*/
__u64 user_size;
/**
* @flags:
*
* Supported flags:
*
* I915_USERPTR_READ_ONLY:
*
* Mark the object as readonly, this also means GPU access can only be
* readonly. This is only supported on HW which supports readonly access
* through the GTT. If the HW can't support readonly access, an error is
* returned.
*
* I915_USERPTR_PROBE:
*
* Probe the provided @user_ptr range and validate that the @user_ptr is
* indeed pointing to normal memory and that the range is also valid.
* For example if some garbage address is given to the kernel, then this
* should complain.
*
* Returns -EFAULT if the probe failed.
*
* Note that this doesn't populate the backing pages, and also doesn't
* guarantee that the object will remain valid when the object is
* eventually used.
*
* The kernel supports this feature if I915_PARAM_HAS_USERPTR_PROBE
* returns a non-zero value.
*
* I915_USERPTR_UNSYNCHRONIZED:
*
* NOT USED. Setting this flag will result in an error.
*/
__u32 flags;
#define I915_USERPTR_READ_ONLY 0x1
#define I915_USERPTR_PROBE 0x2
#define I915_USERPTR_UNSYNCHRONIZED 0x80000000
/**
* @handle: Returned handle for the object.
*
* Object handles are nonzero.
*/
__u32 handle;
};
enum drm_i915_oa_format {
I915_OA_FORMAT_A13 = 1, /* HSW only */
I915_OA_FORMAT_A29, /* HSW only */
I915_OA_FORMAT_A13_B8_C8, /* HSW only */
I915_OA_FORMAT_B4_C8, /* HSW only */
I915_OA_FORMAT_A45_B8_C8, /* HSW only */
I915_OA_FORMAT_B4_C8_A16, /* HSW only */
I915_OA_FORMAT_C4_B8, /* HSW+ */
/* Gen8+ */
I915_OA_FORMAT_A12,
I915_OA_FORMAT_A12_B8_C8,
I915_OA_FORMAT_A32u40_A4u32_B8_C8,
I915_OA_FORMAT_MAX /* non-ABI */
};
enum drm_i915_perf_property_id {
/**
* Open the stream for a specific context handle (as used with
* execbuffer2). A stream opened for a specific context this way
* won't typically require root privileges.
*
* This property is available in perf revision 1.
*/
DRM_I915_PERF_PROP_CTX_HANDLE = 1,
/**
* A value of 1 requests the inclusion of raw OA unit reports as
* part of stream samples.
*
* This property is available in perf revision 1.
*/
DRM_I915_PERF_PROP_SAMPLE_OA,
/**
* The value specifies which set of OA unit metrics should be
* configured, defining the contents of any OA unit reports.
*
* This property is available in perf revision 1.
*/
DRM_I915_PERF_PROP_OA_METRICS_SET,
/**
* The value specifies the size and layout of OA unit reports.
*
* This property is available in perf revision 1.
*/
DRM_I915_PERF_PROP_OA_FORMAT,
/**
* Specifying this property implicitly requests periodic OA unit
* sampling and (at least on Haswell) the sampling frequency is derived
* from this exponent as follows:
*
* 80ns * 2^(period_exponent + 1)
*
* This property is available in perf revision 1.
*/
DRM_I915_PERF_PROP_OA_EXPONENT,
/**
* Specifying this property is only valid when specify a context to
* filter with DRM_I915_PERF_PROP_CTX_HANDLE. Specifying this property
* will hold preemption of the particular context we want to gather
* performance data about. The execbuf2 submissions must include a
* drm_i915_gem_execbuffer_ext_perf parameter for this to apply.
*
* This property is available in perf revision 3.
*/
DRM_I915_PERF_PROP_HOLD_PREEMPTION,
/**
* Specifying this pins all contexts to the specified SSEU power
* configuration for the duration of the recording.
*
* This parameter's value is a pointer to a struct
* drm_i915_gem_context_param_sseu.
*
* This property is available in perf revision 4.
*/
DRM_I915_PERF_PROP_GLOBAL_SSEU,
/**
* This optional parameter specifies the timer interval in nanoseconds
* at which the i915 driver will check the OA buffer for available data.
* Minimum allowed value is 100 microseconds. A default value is used by
* the driver if this parameter is not specified. Note that larger timer
* values will reduce cpu consumption during OA perf captures. However,
* excessively large values would potentially result in OA buffer
* overwrites as captures reach end of the OA buffer.
*
* This property is available in perf revision 5.
*/
DRM_I915_PERF_PROP_POLL_OA_PERIOD,
DRM_I915_PERF_PROP_MAX /* non-ABI */
};
struct drm_i915_perf_open_param {
__u32 flags;
#define I915_PERF_FLAG_FD_CLOEXEC (1<<0)
#define I915_PERF_FLAG_FD_NONBLOCK (1<<1)
#define I915_PERF_FLAG_DISABLED (1<<2)
/** The number of u64 (id, value) pairs */
__u32 num_properties;
/**
* Pointer to array of u64 (id, value) pairs configuring the stream
* to open.
*/
__u64 properties_ptr;
};
/*
* Enable data capture for a stream that was either opened in a disabled state
* via I915_PERF_FLAG_DISABLED or was later disabled via
* I915_PERF_IOCTL_DISABLE.
*
* It is intended to be cheaper to disable and enable a stream than it may be
* to close and re-open a stream with the same configuration.
*
* It's undefined whether any pending data for the stream will be lost.
*
* This ioctl is available in perf revision 1.
*/
#define I915_PERF_IOCTL_ENABLE _IO('i', 0x0)
/*
* Disable data capture for a stream.
*
* It is an error to try and read a stream that is disabled.
*
* This ioctl is available in perf revision 1.
*/
#define I915_PERF_IOCTL_DISABLE _IO('i', 0x1)
/*
* Change metrics_set captured by a stream.
*
* If the stream is bound to a specific context, the configuration change
* will performed inline with that context such that it takes effect before
* the next execbuf submission.
*
* Returns the previously bound metrics set id, or a negative error code.
*
* This ioctl is available in perf revision 2.
*/
#define I915_PERF_IOCTL_CONFIG _IO('i', 0x2)
/*
* Common to all i915 perf records
*/
struct drm_i915_perf_record_header {
__u32 type;
__u16 pad;
__u16 size;
};
enum drm_i915_perf_record_type {
/**
* Samples are the work horse record type whose contents are extensible
* and defined when opening an i915 perf stream based on the given
* properties.
*
* Boolean properties following the naming convention
* DRM_I915_PERF_SAMPLE_xyz_PROP request the inclusion of 'xyz' data in
* every sample.
*
* The order of these sample properties given by userspace has no
* affect on the ordering of data within a sample. The order is
* documented here.
*
* struct {
* struct drm_i915_perf_record_header header;
*
* { u32 oa_report[]; } && DRM_I915_PERF_PROP_SAMPLE_OA
* };
*/
DRM_I915_PERF_RECORD_SAMPLE = 1,
/*
* Indicates that one or more OA reports were not written by the
* hardware. This can happen for example if an MI_REPORT_PERF_COUNT
* command collides with periodic sampling - which would be more likely
* at higher sampling frequencies.
*/
DRM_I915_PERF_RECORD_OA_REPORT_LOST = 2,
/**
* An error occurred that resulted in all pending OA reports being lost.
*/
DRM_I915_PERF_RECORD_OA_BUFFER_LOST = 3,
DRM_I915_PERF_RECORD_MAX /* non-ABI */
};
/**
* struct drm_i915_perf_oa_config
*
* Structure to upload perf dynamic configuration into the kernel.
*/
struct drm_i915_perf_oa_config {
/**
* @uuid:
*
* String formatted like "%\08x-%\04x-%\04x-%\04x-%\012x"
*/
char uuid[36];
/**
* @n_mux_regs:
*
* Number of mux regs in &mux_regs_ptr.
*/
__u32 n_mux_regs;
/**
* @n_boolean_regs:
*
* Number of boolean regs in &boolean_regs_ptr.
*/
__u32 n_boolean_regs;
/**
* @n_flex_regs:
*
* Number of flex regs in &flex_regs_ptr.
*/
__u32 n_flex_regs;
/**
* @mux_regs_ptr:
*
* Pointer to tuples of u32 values (register address, value) for mux
* registers. Expected length of buffer is (2 * sizeof(u32) *
* &n_mux_regs).
*/
__u64 mux_regs_ptr;
/**
* @boolean_regs_ptr:
*
* Pointer to tuples of u32 values (register address, value) for mux
* registers. Expected length of buffer is (2 * sizeof(u32) *
* &n_boolean_regs).
*/
__u64 boolean_regs_ptr;
/**
* @flex_regs_ptr:
*
* Pointer to tuples of u32 values (register address, value) for mux
* registers. Expected length of buffer is (2 * sizeof(u32) *
* &n_flex_regs).
*/
__u64 flex_regs_ptr;
};
/**
* struct drm_i915_query_item - An individual query for the kernel to process.
*
* The behaviour is determined by the @query_id. Note that exactly what
* @data_ptr is also depends on the specific @query_id.
*/
struct drm_i915_query_item {
/**
* @query_id:
*
* The id for this query. Currently accepted query IDs are:
* - %DRM_I915_QUERY_TOPOLOGY_INFO (see struct drm_i915_query_topology_info)
* - %DRM_I915_QUERY_ENGINE_INFO (see struct drm_i915_engine_info)
* - %DRM_I915_QUERY_PERF_CONFIG (see struct drm_i915_query_perf_config)
* - %DRM_I915_QUERY_MEMORY_REGIONS (see struct drm_i915_query_memory_regions)
* - %DRM_I915_QUERY_HWCONFIG_BLOB (see `GuC HWCONFIG blob uAPI`)
* - %DRM_I915_QUERY_GEOMETRY_SUBSLICES (see struct drm_i915_query_topology_info)
*/
__u64 query_id;
#define DRM_I915_QUERY_TOPOLOGY_INFO 1
#define DRM_I915_QUERY_ENGINE_INFO 2
#define DRM_I915_QUERY_PERF_CONFIG 3
#define DRM_I915_QUERY_MEMORY_REGIONS 4
#define DRM_I915_QUERY_HWCONFIG_BLOB 5
#define DRM_I915_QUERY_GEOMETRY_SUBSLICES 6
/* Must be kept compact -- no holes and well documented */
/**
* @length:
*
* When set to zero by userspace, this is filled with the size of the
* data to be written at the @data_ptr pointer. The kernel sets this
* value to a negative value to signal an error on a particular query
* item.
*/
__s32 length;
/**
* @flags:
*
* When &query_id == %DRM_I915_QUERY_TOPOLOGY_INFO, must be 0.
*
* When &query_id == %DRM_I915_QUERY_PERF_CONFIG, must be one of the
* following:
*
* - %DRM_I915_QUERY_PERF_CONFIG_LIST
* - %DRM_I915_QUERY_PERF_CONFIG_DATA_FOR_UUID
* - %DRM_I915_QUERY_PERF_CONFIG_FOR_UUID
*
* When &query_id == %DRM_I915_QUERY_GEOMETRY_SUBSLICES must contain
* a struct i915_engine_class_instance that references a render engine.
*/
__u32 flags;
#define DRM_I915_QUERY_PERF_CONFIG_LIST 1
#define DRM_I915_QUERY_PERF_CONFIG_DATA_FOR_UUID 2
#define DRM_I915_QUERY_PERF_CONFIG_DATA_FOR_ID 3
/**
* @data_ptr:
*
* Data will be written at the location pointed by @data_ptr when the
* value of @length matches the length of the data to be written by the
* kernel.
*/
__u64 data_ptr;
};
/**
* struct drm_i915_query - Supply an array of struct drm_i915_query_item for the
* kernel to fill out.
*
* Note that this is generally a two step process for each struct
* drm_i915_query_item in the array:
*
* 1. Call the DRM_IOCTL_I915_QUERY, giving it our array of struct
* drm_i915_query_item, with &drm_i915_query_item.length set to zero. The
* kernel will then fill in the size, in bytes, which tells userspace how
* memory it needs to allocate for the blob(say for an array of properties).
*
* 2. Next we call DRM_IOCTL_I915_QUERY again, this time with the
* &drm_i915_query_item.data_ptr equal to our newly allocated blob. Note that
* the &drm_i915_query_item.length should still be the same as what the
* kernel previously set. At this point the kernel can fill in the blob.
*
* Note that for some query items it can make sense for userspace to just pass
* in a buffer/blob equal to or larger than the required size. In this case only
* a single ioctl call is needed. For some smaller query items this can work
* quite well.
*
*/
struct drm_i915_query {
/** @num_items: The number of elements in the @items_ptr array */
__u32 num_items;
/**
* @flags: Unused for now. Must be cleared to zero.
*/
__u32 flags;
/**
* @items_ptr:
*
* Pointer to an array of struct drm_i915_query_item. The number of
* array elements is @num_items.
*/
__u64 items_ptr;
};
/**
* struct drm_i915_query_topology_info
*
* Describes slice/subslice/EU information queried by
* %DRM_I915_QUERY_TOPOLOGY_INFO
*/
struct drm_i915_query_topology_info {
/**
* @flags:
*
* Unused for now. Must be cleared to zero.
*/
__u16 flags;
/**
* @max_slices:
*
* The number of bits used to express the slice mask.
*/
__u16 max_slices;
/**
* @max_subslices:
*
* The number of bits used to express the subslice mask.
*/
__u16 max_subslices;
/**
* @max_eus_per_subslice:
*
* The number of bits in the EU mask that correspond to a single
* subslice's EUs.
*/
__u16 max_eus_per_subslice;
/**
* @subslice_offset:
*
* Offset in data[] at which the subslice masks are stored.
*/
__u16 subslice_offset;
/**
* @subslice_stride:
*
* Stride at which each of the subslice masks for each slice are
* stored.
*/
__u16 subslice_stride;
/**
* @eu_offset:
*
* Offset in data[] at which the EU masks are stored.
*/
__u16 eu_offset;
/**
* @eu_stride:
*
* Stride at which each of the EU masks for each subslice are stored.
*/
__u16 eu_stride;
/**
* @data:
*
* Contains 3 pieces of information :
*
* - The slice mask with one bit per slice telling whether a slice is
* available. The availability of slice X can be queried with the
* following formula :
*
* .. code:: c
*
* (data[X / 8] >> (X % 8)) & 1
*
* Starting with Xe_HP platforms, Intel hardware no longer has
* traditional slices so i915 will always report a single slice
* (hardcoded slicemask = 0x1) which contains all of the platform's
* subslices. I.e., the mask here does not reflect any of the newer
* hardware concepts such as "gslices" or "cslices" since userspace
* is capable of inferring those from the subslice mask.
*
* - The subslice mask for each slice with one bit per subslice telling
* whether a subslice is available. Starting with Gen12 we use the
* term "subslice" to refer to what the hardware documentation
* describes as a "dual-subslices." The availability of subslice Y
* in slice X can be queried with the following formula :
*
* .. code:: c
*
* (data[subslice_offset + X * subslice_stride + Y / 8] >> (Y % 8)) & 1
*
* - The EU mask for each subslice in each slice, with one bit per EU
* telling whether an EU is available. The availability of EU Z in
* subslice Y in slice X can be queried with the following formula :
*
* .. code:: c
*
* (data[eu_offset +
* (X * max_subslices + Y) * eu_stride +
* Z / 8
* ] >> (Z % 8)) & 1
*/
__u8 data[];
};
/**
* DOC: Engine Discovery uAPI
*
* Engine discovery uAPI is a way of enumerating physical engines present in a
* GPU associated with an open i915 DRM file descriptor. This supersedes the old
* way of using `DRM_IOCTL_I915_GETPARAM` and engine identifiers like
* `I915_PARAM_HAS_BLT`.
*
* The need for this interface came starting with Icelake and newer GPUs, which
* started to establish a pattern of having multiple engines of a same class,
* where not all instances were always completely functionally equivalent.
*
* Entry point for this uapi is `DRM_IOCTL_I915_QUERY` with the
* `DRM_I915_QUERY_ENGINE_INFO` as the queried item id.
*
* Example for getting the list of engines:
*
* .. code-block:: C
*
* struct drm_i915_query_engine_info *info;
* struct drm_i915_query_item item = {
* .query_id = DRM_I915_QUERY_ENGINE_INFO;
* };
* struct drm_i915_query query = {
* .num_items = 1,
* .items_ptr = (uintptr_t)&item,
* };
* int err, i;
*
* // First query the size of the blob we need, this needs to be large
* // enough to hold our array of engines. The kernel will fill out the
* // item.length for us, which is the number of bytes we need.
* //
* // Alternatively a large buffer can be allocated straight away enabling
* // querying in one pass, in which case item.length should contain the
* // length of the provided buffer.
* err = ioctl(fd, DRM_IOCTL_I915_QUERY, &query);
* if (err) ...
*
* info = calloc(1, item.length);
* // Now that we allocated the required number of bytes, we call the ioctl
* // again, this time with the data_ptr pointing to our newly allocated
* // blob, which the kernel can then populate with info on all engines.
* item.data_ptr = (uintptr_t)&info,
*
* err = ioctl(fd, DRM_IOCTL_I915_QUERY, &query);
* if (err) ...
*
* // We can now access each engine in the array
* for (i = 0; i < info->num_engines; i++) {
* struct drm_i915_engine_info einfo = info->engines[i];
* u16 class = einfo.engine.class;
* u16 instance = einfo.engine.instance;
* ....
* }
*
* free(info);
*
* Each of the enumerated engines, apart from being defined by its class and
* instance (see `struct i915_engine_class_instance`), also can have flags and
* capabilities defined as documented in i915_drm.h.
*
* For instance video engines which support HEVC encoding will have the
* `I915_VIDEO_CLASS_CAPABILITY_HEVC` capability bit set.
*
* Engine discovery only fully comes to its own when combined with the new way
* of addressing engines when submitting batch buffers using contexts with
* engine maps configured.
*/
/**
* struct drm_i915_engine_info
*
* Describes one engine and it's capabilities as known to the driver.
*/
struct drm_i915_engine_info {
/** @engine: Engine class and instance. */
struct i915_engine_class_instance engine;
/** @rsvd0: Reserved field. */
__u32 rsvd0;
/** @flags: Engine flags. */
__u64 flags;
#define I915_ENGINE_INFO_HAS_LOGICAL_INSTANCE (1 << 0)
/** @capabilities: Capabilities of this engine. */
__u64 capabilities;
#define I915_VIDEO_CLASS_CAPABILITY_HEVC (1 << 0)
#define I915_VIDEO_AND_ENHANCE_CLASS_CAPABILITY_SFC (1 << 1)
/** @logical_instance: Logical instance of engine */
__u16 logical_instance;
/** @rsvd1: Reserved fields. */
__u16 rsvd1[3];
/** @rsvd2: Reserved fields. */
__u64 rsvd2[3];
};
/**
* struct drm_i915_query_engine_info
*
* Engine info query enumerates all engines known to the driver by filling in
* an array of struct drm_i915_engine_info structures.
*/
struct drm_i915_query_engine_info {
/** @num_engines: Number of struct drm_i915_engine_info structs following. */
__u32 num_engines;
/** @rsvd: MBZ */
__u32 rsvd[3];
/** @engines: Marker for drm_i915_engine_info structures. */
struct drm_i915_engine_info engines[];
};
/**
* struct drm_i915_query_perf_config
*
* Data written by the kernel with query %DRM_I915_QUERY_PERF_CONFIG and
* %DRM_I915_QUERY_GEOMETRY_SUBSLICES.
*/
struct drm_i915_query_perf_config {
union {
/**
* @n_configs:
*
* When &drm_i915_query_item.flags ==
* %DRM_I915_QUERY_PERF_CONFIG_LIST, i915 sets this fields to
* the number of configurations available.
*/
__u64 n_configs;
/**
* @config:
*
* When &drm_i915_query_item.flags ==
* %DRM_I915_QUERY_PERF_CONFIG_DATA_FOR_ID, i915 will use the
* value in this field as configuration identifier to decide
* what data to write into config_ptr.
*/
__u64 config;
/**
* @uuid:
*
* When &drm_i915_query_item.flags ==
* %DRM_I915_QUERY_PERF_CONFIG_DATA_FOR_UUID, i915 will use the
* value in this field as configuration identifier to decide
* what data to write into config_ptr.
*
* String formatted like "%08x-%04x-%04x-%04x-%012x"
*/
char uuid[36];
};
/**
* @flags:
*
* Unused for now. Must be cleared to zero.
*/
__u32 flags;
/**
* @data:
*
* When &drm_i915_query_item.flags == %DRM_I915_QUERY_PERF_CONFIG_LIST,
* i915 will write an array of __u64 of configuration identifiers.
*
* When &drm_i915_query_item.flags == %DRM_I915_QUERY_PERF_CONFIG_DATA,
* i915 will write a struct drm_i915_perf_oa_config. If the following
* fields of struct drm_i915_perf_oa_config are not set to 0, i915 will
* write into the associated pointers the values of submitted when the
* configuration was created :
*
* - &drm_i915_perf_oa_config.n_mux_regs
* - &drm_i915_perf_oa_config.n_boolean_regs
* - &drm_i915_perf_oa_config.n_flex_regs
*/
__u8 data[];
};
/**
* enum drm_i915_gem_memory_class - Supported memory classes
*/
enum drm_i915_gem_memory_class {
/** @I915_MEMORY_CLASS_SYSTEM: System memory */
I915_MEMORY_CLASS_SYSTEM = 0,
/** @I915_MEMORY_CLASS_DEVICE: Device local-memory */
I915_MEMORY_CLASS_DEVICE,
};
/**
* struct drm_i915_gem_memory_class_instance - Identify particular memory region
*/
struct drm_i915_gem_memory_class_instance {
/** @memory_class: See enum drm_i915_gem_memory_class */
__u16 memory_class;
/** @memory_instance: Which instance */
__u16 memory_instance;
};
/**
* struct drm_i915_memory_region_info - Describes one region as known to the
* driver.
*
* Note that we reserve some stuff here for potential future work. As an example
* we might want expose the capabilities for a given region, which could include
* things like if the region is CPU mappable/accessible, what are the supported
* mapping types etc.
*
* Note that to extend struct drm_i915_memory_region_info and struct
* drm_i915_query_memory_regions in the future the plan is to do the following:
*
* .. code-block:: C
*
* struct drm_i915_memory_region_info {
* struct drm_i915_gem_memory_class_instance region;
* union {
* __u32 rsvd0;
* __u32 new_thing1;
* };
* ...
* union {
* __u64 rsvd1[8];
* struct {
* __u64 new_thing2;
* __u64 new_thing3;
* ...
* };
* };
* };
*
* With this things should remain source compatible between versions for
* userspace, even as we add new fields.
*
* Note this is using both struct drm_i915_query_item and struct drm_i915_query.
* For this new query we are adding the new query id DRM_I915_QUERY_MEMORY_REGIONS
* at &drm_i915_query_item.query_id.
*/
struct drm_i915_memory_region_info {
/** @region: The class:instance pair encoding */
struct drm_i915_gem_memory_class_instance region;
/** @rsvd0: MBZ */
__u32 rsvd0;
/** @probed_size: Memory probed by the driver (-1 = unknown) */
__u64 probed_size;
/** @unallocated_size: Estimate of memory remaining (-1 = unknown) */
__u64 unallocated_size;
/** @rsvd1: MBZ */
__u64 rsvd1[8];
};
/**
* struct drm_i915_query_memory_regions
*
* The region info query enumerates all regions known to the driver by filling
* in an array of struct drm_i915_memory_region_info structures.
*
* Example for getting the list of supported regions:
*
* .. code-block:: C
*
* struct drm_i915_query_memory_regions *info;
* struct drm_i915_query_item item = {
* .query_id = DRM_I915_QUERY_MEMORY_REGIONS;
* };
* struct drm_i915_query query = {
* .num_items = 1,
* .items_ptr = (uintptr_t)&item,
* };
* int err, i;
*
* // First query the size of the blob we need, this needs to be large
* // enough to hold our array of regions. The kernel will fill out the
* // item.length for us, which is the number of bytes we need.
* err = ioctl(fd, DRM_IOCTL_I915_QUERY, &query);
* if (err) ...
*
* info = calloc(1, item.length);
* // Now that we allocated the required number of bytes, we call the ioctl
* // again, this time with the data_ptr pointing to our newly allocated
* // blob, which the kernel can then populate with the all the region info.
* item.data_ptr = (uintptr_t)&info,
*
* err = ioctl(fd, DRM_IOCTL_I915_QUERY, &query);
* if (err) ...
*
* // We can now access each region in the array
* for (i = 0; i < info->num_regions; i++) {
* struct drm_i915_memory_region_info mr = info->regions[i];
* u16 class = mr.region.class;
* u16 instance = mr.region.instance;
*
* ....
* }
*
* free(info);
*/
struct drm_i915_query_memory_regions {
/** @num_regions: Number of supported regions */
__u32 num_regions;
/** @rsvd: MBZ */
__u32 rsvd[3];
/** @regions: Info about each supported region */
struct drm_i915_memory_region_info regions[];
};
/**
* DOC: GuC HWCONFIG blob uAPI
*
* The GuC produces a blob with information about the current device.
* i915 reads this blob from GuC and makes it available via this uAPI.
*
* The format and meaning of the blob content are documented in the
* Programmer's Reference Manual.
*/
/**
* struct drm_i915_gem_create_ext - Existing gem_create behaviour, with added
* extension support using struct i915_user_extension.
*
* Note that in the future we want to have our buffer flags here, at least for
* the stuff that is immutable. Previously we would have two ioctls, one to
* create the object with gem_create, and another to apply various parameters,
* however this creates some ambiguity for the params which are considered
* immutable. Also in general we're phasing out the various SET/GET ioctls.
*/
struct drm_i915_gem_create_ext {
/**
* @size: Requested size for the object.
*
* The (page-aligned) allocated size for the object will be returned.
*
*
* DG2 64K min page size implications:
*
* On discrete platforms, starting from DG2, we have to contend with GTT
* page size restrictions when dealing with I915_MEMORY_CLASS_DEVICE
* objects. Specifically the hardware only supports 64K or larger GTT
* page sizes for such memory. The kernel will already ensure that all
* I915_MEMORY_CLASS_DEVICE memory is allocated using 64K or larger page
* sizes underneath.
*
* Note that the returned size here will always reflect any required
* rounding up done by the kernel, i.e 4K will now become 64K on devices
* such as DG2.
*
* Special DG2 GTT address alignment requirement:
*
* The GTT alignment will also need to be at least 2M for such objects.
*
* Note that due to how the hardware implements 64K GTT page support, we
* have some further complications:
*
* 1) The entire PDE (which covers a 2MB virtual address range), must
* contain only 64K PTEs, i.e mixing 4K and 64K PTEs in the same
* PDE is forbidden by the hardware.
*
* 2) We still need to support 4K PTEs for I915_MEMORY_CLASS_SYSTEM
* objects.
*
* To keep things simple for userland, we mandate that any GTT mappings
* must be aligned to and rounded up to 2MB. The kernel will internally
* pad them out to the next 2MB boundary. As this only wastes virtual
* address space and avoids userland having to copy any needlessly
* complicated PDE sharing scheme (coloring) and only affects DG2, this
* is deemed to be a good compromise.
*/
__u64 size;
/**
* @handle: Returned handle for the object.
*
* Object handles are nonzero.
*/
__u32 handle;
/** @flags: MBZ */
__u32 flags;
/**
* @extensions: The chain of extensions to apply to this object.
*
* This will be useful in the future when we need to support several
* different extensions, and we need to apply more than one when
* creating the object. See struct i915_user_extension.
*
* If we don't supply any extensions then we get the same old gem_create
* behaviour.
*
* For I915_GEM_CREATE_EXT_MEMORY_REGIONS usage see
* struct drm_i915_gem_create_ext_memory_regions.
*
* For I915_GEM_CREATE_EXT_PROTECTED_CONTENT usage see
* struct drm_i915_gem_create_ext_protected_content.
*/
#define I915_GEM_CREATE_EXT_MEMORY_REGIONS 0
#define I915_GEM_CREATE_EXT_PROTECTED_CONTENT 1
__u64 extensions;
};
/**
* struct drm_i915_gem_create_ext_memory_regions - The
* I915_GEM_CREATE_EXT_MEMORY_REGIONS extension.
*
* Set the object with the desired set of placements/regions in priority
* order. Each entry must be unique and supported by the device.
*
* This is provided as an array of struct drm_i915_gem_memory_class_instance, or
* an equivalent layout of class:instance pair encodings. See struct
* drm_i915_query_memory_regions and DRM_I915_QUERY_MEMORY_REGIONS for how to
* query the supported regions for a device.
*
* As an example, on discrete devices, if we wish to set the placement as
* device local-memory we can do something like:
*
* .. code-block:: C
*
* struct drm_i915_gem_memory_class_instance region_lmem = {
* .memory_class = I915_MEMORY_CLASS_DEVICE,
* .memory_instance = 0,
* };
* struct drm_i915_gem_create_ext_memory_regions regions = {
* .base = { .name = I915_GEM_CREATE_EXT_MEMORY_REGIONS },
* .regions = (uintptr_t)®ion_lmem,
* .num_regions = 1,
* };
* struct drm_i915_gem_create_ext create_ext = {
* .size = 16 * PAGE_SIZE,
* .extensions = (uintptr_t)®ions,
* };
*
* int err = ioctl(fd, DRM_IOCTL_I915_GEM_CREATE_EXT, &create_ext);
* if (err) ...
*
* At which point we get the object handle in &drm_i915_gem_create_ext.handle,
* along with the final object size in &drm_i915_gem_create_ext.size, which
* should account for any rounding up, if required.
*/
struct drm_i915_gem_create_ext_memory_regions {
/** @base: Extension link. See struct i915_user_extension. */
struct i915_user_extension base;
/** @pad: MBZ */
__u32 pad;
/** @num_regions: Number of elements in the @regions array. */
__u32 num_regions;
/**
* @regions: The regions/placements array.
*
* An array of struct drm_i915_gem_memory_class_instance.
*/
__u64 regions;
};
/**
* struct drm_i915_gem_create_ext_protected_content - The
* I915_OBJECT_PARAM_PROTECTED_CONTENT extension.
*
* If this extension is provided, buffer contents are expected to be protected
* by PXP encryption and require decryption for scan out and processing. This
* is only possible on platforms that have PXP enabled, on all other scenarios
* using this extension will cause the ioctl to fail and return -ENODEV. The
* flags parameter is reserved for future expansion and must currently be set
* to zero.
*
* The buffer contents are considered invalid after a PXP session teardown.
*
* The encryption is guaranteed to be processed correctly only if the object
* is submitted with a context created using the
* I915_CONTEXT_PARAM_PROTECTED_CONTENT flag. This will also enable extra checks
* at submission time on the validity of the objects involved.
*
* Below is an example on how to create a protected object:
*
* .. code-block:: C
*
* struct drm_i915_gem_create_ext_protected_content protected_ext = {
* .base = { .name = I915_GEM_CREATE_EXT_PROTECTED_CONTENT },
* .flags = 0,
* };
* struct drm_i915_gem_create_ext create_ext = {
* .size = PAGE_SIZE,
* .extensions = (uintptr_t)&protected_ext,
* };
*
* int err = ioctl(fd, DRM_IOCTL_I915_GEM_CREATE_EXT, &create_ext);
* if (err) ...
*/
struct drm_i915_gem_create_ext_protected_content {
/** @base: Extension link. See struct i915_user_extension. */
struct i915_user_extension base;
/** @flags: reserved for future usage, currently MBZ */
__u32 flags;
};
/* ID of the protected content session managed by i915 when PXP is active */
#define I915_PROTECTED_CONTENT_DEFAULT_SESSION 0xf
#if defined(__cplusplus)
}
#endif
#endif /* _UAPI_I915_DRM_H_ */
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