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|
/*
* Copyright © 2016 Red Hat.
* Copyright © 2016 Bas Nieuwenhuizen
*
* based in part on anv driver which is:
* Copyright © 2015 Intel Corporation
*
* 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, sublicense,
* 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 NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS 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 TU_PRIVATE_H
#define TU_PRIVATE_H
#include <assert.h>
#include <pthread.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef HAVE_VALGRIND
#include <memcheck.h>
#include <valgrind.h>
#define VG(x) x
#else
#define VG(x) ((void)0)
#endif
#include "c11/threads.h"
#include "main/macros.h"
#include "util/list.h"
#include "util/macros.h"
#include "util/u_atomic.h"
#include "vk_alloc.h"
#include "vk_object.h"
#include "vk_debug_report.h"
#include "wsi_common.h"
#include "drm-uapi/msm_drm.h"
#include "ir3/ir3_compiler.h"
#include "ir3/ir3_shader.h"
#include "adreno_common.xml.h"
#include "adreno_pm4.xml.h"
#include "a6xx.xml.h"
#include "fdl/freedreno_layout.h"
#include "tu_descriptor_set.h"
#include "tu_extensions.h"
#include "tu_util.h"
/* Pre-declarations needed for WSI entrypoints */
struct wl_surface;
struct wl_display;
typedef struct xcb_connection_t xcb_connection_t;
typedef uint32_t xcb_visualid_t;
typedef uint32_t xcb_window_t;
#include <vulkan/vk_android_native_buffer.h>
#include <vulkan/vk_icd.h>
#include <vulkan/vulkan.h>
#include <vulkan/vulkan_intel.h>
#include "tu_entrypoints.h"
#include "vk_format.h"
#define MAX_VBS 32
#define MAX_VERTEX_ATTRIBS 32
#define MAX_RTS 8
#define MAX_VSC_PIPES 32
#define MAX_VIEWPORTS 1
#define MAX_SCISSORS 16
#define MAX_DISCARD_RECTANGLES 4
#define MAX_PUSH_CONSTANTS_SIZE 128
#define MAX_PUSH_DESCRIPTORS 32
#define MAX_DYNAMIC_UNIFORM_BUFFERS 16
#define MAX_DYNAMIC_STORAGE_BUFFERS 8
#define MAX_DYNAMIC_BUFFERS \
(MAX_DYNAMIC_UNIFORM_BUFFERS + MAX_DYNAMIC_STORAGE_BUFFERS)
#define TU_MAX_DRM_DEVICES 8
#define MAX_VIEWS 8
#define MAX_BIND_POINTS 2 /* compute + graphics */
/* The Qualcomm driver exposes 0x20000058 */
#define MAX_STORAGE_BUFFER_RANGE 0x20000000
/* We use ldc for uniform buffer loads, just like the Qualcomm driver, so
* expose the same maximum range.
* TODO: The SIZE bitfield is 15 bits, and in 4-dword units, so the actual
* range might be higher.
*/
#define MAX_UNIFORM_BUFFER_RANGE 0x10000
#define A6XX_TEX_CONST_DWORDS 16
#define A6XX_TEX_SAMP_DWORDS 4
#define tu_printflike(a, b) __attribute__((__format__(__printf__, a, b)))
static inline uint32_t
tu_minify(uint32_t n, uint32_t levels)
{
if (unlikely(n == 0))
return 0;
else
return MAX2(n >> levels, 1);
}
#define for_each_bit(b, dword) \
for (uint32_t __dword = (dword); \
(b) = __builtin_ffs(__dword) - 1, __dword; __dword &= ~(1 << (b)))
#define typed_memcpy(dest, src, count) \
({ \
STATIC_ASSERT(sizeof(*src) == sizeof(*dest)); \
memcpy((dest), (src), (count) * sizeof(*(src))); \
})
#define COND(bool, val) ((bool) ? (val) : 0)
#define BIT(bit) (1u << (bit))
/* Whenever we generate an error, pass it through this function. Useful for
* debugging, where we can break on it. Only call at error site, not when
* propagating errors. Might be useful to plug in a stack trace here.
*/
struct tu_instance;
VkResult
__vk_errorf(struct tu_instance *instance,
VkResult error,
const char *file,
int line,
const char *format,
...);
#define vk_error(instance, error) \
__vk_errorf(instance, error, __FILE__, __LINE__, NULL);
#define vk_errorf(instance, error, format, ...) \
__vk_errorf(instance, error, __FILE__, __LINE__, format, ##__VA_ARGS__);
void
__tu_finishme(const char *file, int line, const char *format, ...)
tu_printflike(3, 4);
void
tu_loge(const char *format, ...) tu_printflike(1, 2);
void
tu_logi(const char *format, ...) tu_printflike(1, 2);
/**
* Print a FINISHME message, including its source location.
*/
#define tu_finishme(format, ...) \
do { \
static bool reported = false; \
if (!reported) { \
__tu_finishme(__FILE__, __LINE__, format, ##__VA_ARGS__); \
reported = true; \
} \
} while (0)
#define tu_stub() \
do { \
tu_finishme("stub %s", __func__); \
} while (0)
void *
tu_lookup_entrypoint_unchecked(const char *name);
void *
tu_lookup_entrypoint_checked(
const char *name,
uint32_t core_version,
const struct tu_instance_extension_table *instance,
const struct tu_device_extension_table *device);
struct tu_physical_device
{
struct vk_object_base base;
struct tu_instance *instance;
char path[20];
char name[VK_MAX_PHYSICAL_DEVICE_NAME_SIZE];
uint8_t driver_uuid[VK_UUID_SIZE];
uint8_t device_uuid[VK_UUID_SIZE];
uint8_t cache_uuid[VK_UUID_SIZE];
struct wsi_device wsi_device;
int local_fd;
int master_fd;
unsigned gpu_id;
uint32_t gmem_size;
uint64_t gmem_base;
uint32_t ccu_offset_gmem;
uint32_t ccu_offset_bypass;
/* alignment for size of tiles */
uint32_t tile_align_w;
#define TILE_ALIGN_H 16
/* gmem store/load granularity */
#define GMEM_ALIGN_W 16
#define GMEM_ALIGN_H 4
struct {
uint32_t PC_UNKNOWN_9805;
uint32_t SP_UNKNOWN_A0F8;
} magic;
int msm_major_version;
int msm_minor_version;
/* This is the drivers on-disk cache used as a fallback as opposed to
* the pipeline cache defined by apps.
*/
struct disk_cache *disk_cache;
struct tu_device_extension_table supported_extensions;
};
enum tu_debug_flags
{
TU_DEBUG_STARTUP = 1 << 0,
TU_DEBUG_NIR = 1 << 1,
TU_DEBUG_IR3 = 1 << 2,
TU_DEBUG_NOBIN = 1 << 3,
TU_DEBUG_SYSMEM = 1 << 4,
TU_DEBUG_FORCEBIN = 1 << 5,
TU_DEBUG_NOUBWC = 1 << 6,
};
struct tu_instance
{
struct vk_object_base base;
VkAllocationCallbacks alloc;
uint32_t api_version;
int physical_device_count;
struct tu_physical_device physical_devices[TU_MAX_DRM_DEVICES];
enum tu_debug_flags debug_flags;
struct vk_debug_report_instance debug_report_callbacks;
struct tu_instance_extension_table enabled_extensions;
};
VkResult
tu_wsi_init(struct tu_physical_device *physical_device);
void
tu_wsi_finish(struct tu_physical_device *physical_device);
bool
tu_instance_extension_supported(const char *name);
uint32_t
tu_physical_device_api_version(struct tu_physical_device *dev);
bool
tu_physical_device_extension_supported(struct tu_physical_device *dev,
const char *name);
struct cache_entry;
struct tu_pipeline_cache
{
struct vk_object_base base;
struct tu_device *device;
pthread_mutex_t mutex;
uint32_t total_size;
uint32_t table_size;
uint32_t kernel_count;
struct cache_entry **hash_table;
bool modified;
VkAllocationCallbacks alloc;
};
struct tu_pipeline_key
{
};
/* queue types */
#define TU_QUEUE_GENERAL 0
#define TU_MAX_QUEUE_FAMILIES 1
struct tu_fence
{
struct vk_object_base base;
struct wsi_fence *fence_wsi;
bool signaled;
int fd;
};
void
tu_fence_init(struct tu_fence *fence, bool signaled);
void
tu_fence_finish(struct tu_fence *fence);
void
tu_fence_update_fd(struct tu_fence *fence, int fd);
void
tu_fence_copy(struct tu_fence *fence, const struct tu_fence *src);
void
tu_fence_signal(struct tu_fence *fence);
void
tu_fence_wait_idle(struct tu_fence *fence);
struct tu_queue
{
struct vk_object_base base;
struct tu_device *device;
uint32_t queue_family_index;
int queue_idx;
VkDeviceQueueCreateFlags flags;
uint32_t msm_queue_id;
struct tu_fence submit_fence;
};
struct tu_bo
{
uint32_t gem_handle;
uint64_t size;
uint64_t iova;
void *map;
};
enum global_shader {
GLOBAL_SH_VS,
GLOBAL_SH_FS_BLIT,
GLOBAL_SH_FS_CLEAR0,
GLOBAL_SH_FS_CLEAR_MAX = GLOBAL_SH_FS_CLEAR0 + MAX_RTS,
GLOBAL_SH_COUNT,
};
/* This struct defines the layout of the global_bo */
struct tu6_global
{
/* 6 bcolor_entry entries, one for each VK_BORDER_COLOR */
uint8_t border_color[128 * 6];
/* clear/blit shaders, all <= 16 instrs (16 instr = 1 instrlen unit) */
instr_t shaders[GLOBAL_SH_COUNT][16];
uint32_t seqno_dummy; /* dummy seqno for CP_EVENT_WRITE */
uint32_t _pad0;
volatile uint32_t vsc_draw_overflow;
uint32_t _pad1;
volatile uint32_t vsc_prim_overflow;
uint32_t _pad2[3];
/* scratch space for VPC_SO[i].FLUSH_BASE_LO/HI, start on 32 byte boundary. */
struct {
uint32_t offset;
uint32_t pad[7];
} flush_base[4];
};
#define gb_offset(member) offsetof(struct tu6_global, member)
#define global_iova(cmd, member) ((cmd)->device->global_bo.iova + gb_offset(member))
void tu_init_clear_blit_shaders(struct tu6_global *global);
/* extra space in vsc draw/prim streams */
#define VSC_PAD 0x40
struct tu_device
{
struct vk_device vk;
struct tu_instance *instance;
struct tu_queue *queues[TU_MAX_QUEUE_FAMILIES];
int queue_count[TU_MAX_QUEUE_FAMILIES];
struct tu_physical_device *physical_device;
int _lost;
struct ir3_compiler *compiler;
/* Backup in-memory cache to be used if the app doesn't provide one */
struct tu_pipeline_cache *mem_cache;
#define MIN_SCRATCH_BO_SIZE_LOG2 12 /* A page */
/* Currently the kernel driver uses a 32-bit GPU address space, but it
* should be impossible to go beyond 48 bits.
*/
struct {
struct tu_bo bo;
mtx_t construct_mtx;
bool initialized;
} scratch_bos[48 - MIN_SCRATCH_BO_SIZE_LOG2];
struct tu_bo global_bo;
struct tu_device_extension_table enabled_extensions;
uint32_t vsc_draw_strm_pitch;
uint32_t vsc_prim_strm_pitch;
mtx_t vsc_pitch_mtx;
};
VkResult _tu_device_set_lost(struct tu_device *device,
const char *file, int line,
const char *msg, ...) PRINTFLIKE(4, 5);
#define tu_device_set_lost(dev, ...) \
_tu_device_set_lost(dev, __FILE__, __LINE__, __VA_ARGS__)
static inline bool
tu_device_is_lost(struct tu_device *device)
{
return unlikely(p_atomic_read(&device->_lost));
}
VkResult
tu_bo_init_new(struct tu_device *dev, struct tu_bo *bo, uint64_t size);
VkResult
tu_bo_init_dmabuf(struct tu_device *dev,
struct tu_bo *bo,
uint64_t size,
int fd);
int
tu_bo_export_dmabuf(struct tu_device *dev, struct tu_bo *bo);
void
tu_bo_finish(struct tu_device *dev, struct tu_bo *bo);
VkResult
tu_bo_map(struct tu_device *dev, struct tu_bo *bo);
/* Get a scratch bo for use inside a command buffer. This will always return
* the same bo given the same size or similar sizes, so only one scratch bo
* can be used at the same time. It's meant for short-lived things where we
* need to write to some piece of memory, read from it, and then immediately
* discard it.
*/
VkResult
tu_get_scratch_bo(struct tu_device *dev, uint64_t size, struct tu_bo **bo);
struct tu_cs_entry
{
/* No ownership */
const struct tu_bo *bo;
uint32_t size;
uint32_t offset;
};
struct tu_cs_memory {
uint32_t *map;
uint64_t iova;
};
struct tu_draw_state {
uint64_t iova : 48;
uint32_t size : 16;
};
enum tu_dynamic_state
{
/* re-use VK_DYNAMIC_STATE_ enums for non-extended dynamic states */
TU_DYNAMIC_STATE_SAMPLE_LOCATIONS = VK_DYNAMIC_STATE_STENCIL_REFERENCE + 1,
TU_DYNAMIC_STATE_COUNT,
};
enum tu_draw_state_group_id
{
TU_DRAW_STATE_PROGRAM,
TU_DRAW_STATE_PROGRAM_BINNING,
TU_DRAW_STATE_TESS,
TU_DRAW_STATE_VB,
TU_DRAW_STATE_VI,
TU_DRAW_STATE_VI_BINNING,
TU_DRAW_STATE_RAST,
TU_DRAW_STATE_DS,
TU_DRAW_STATE_BLEND,
TU_DRAW_STATE_VS_CONST,
TU_DRAW_STATE_HS_CONST,
TU_DRAW_STATE_DS_CONST,
TU_DRAW_STATE_GS_CONST,
TU_DRAW_STATE_FS_CONST,
TU_DRAW_STATE_DESC_SETS,
TU_DRAW_STATE_DESC_SETS_LOAD,
TU_DRAW_STATE_VS_PARAMS,
TU_DRAW_STATE_INPUT_ATTACHMENTS_GMEM,
TU_DRAW_STATE_INPUT_ATTACHMENTS_SYSMEM,
/* dynamic state related draw states */
TU_DRAW_STATE_DYNAMIC,
TU_DRAW_STATE_COUNT = TU_DRAW_STATE_DYNAMIC + TU_DYNAMIC_STATE_COUNT,
};
enum tu_cs_mode
{
/*
* A command stream in TU_CS_MODE_GROW mode grows automatically whenever it
* is full. tu_cs_begin must be called before command packet emission and
* tu_cs_end must be called after.
*
* This mode may create multiple entries internally. The entries must be
* submitted together.
*/
TU_CS_MODE_GROW,
/*
* A command stream in TU_CS_MODE_EXTERNAL mode wraps an external,
* fixed-size buffer. tu_cs_begin and tu_cs_end are optional and have no
* effect on it.
*
* This mode does not create any entry or any BO.
*/
TU_CS_MODE_EXTERNAL,
/*
* A command stream in TU_CS_MODE_SUB_STREAM mode does not support direct
* command packet emission. tu_cs_begin_sub_stream must be called to get a
* sub-stream to emit comamnd packets to. When done with the sub-stream,
* tu_cs_end_sub_stream must be called.
*
* This mode does not create any entry internally.
*/
TU_CS_MODE_SUB_STREAM,
};
struct tu_cs
{
uint32_t *start;
uint32_t *cur;
uint32_t *reserved_end;
uint32_t *end;
struct tu_device *device;
enum tu_cs_mode mode;
uint32_t next_bo_size;
struct tu_cs_entry *entries;
uint32_t entry_count;
uint32_t entry_capacity;
struct tu_bo **bos;
uint32_t bo_count;
uint32_t bo_capacity;
/* state for cond_exec_start/cond_exec_end */
uint32_t cond_flags;
uint32_t *cond_dwords;
};
struct tu_device_memory
{
struct vk_object_base base;
struct tu_bo bo;
VkDeviceSize size;
/* for dedicated allocations */
struct tu_image *image;
struct tu_buffer *buffer;
uint32_t type_index;
void *map;
void *user_ptr;
};
struct tu_descriptor_range
{
uint64_t va;
uint32_t size;
};
struct tu_descriptor_set
{
struct vk_object_base base;
const struct tu_descriptor_set_layout *layout;
struct tu_descriptor_pool *pool;
uint32_t size;
uint64_t va;
uint32_t *mapped_ptr;
uint32_t *dynamic_descriptors;
struct tu_bo *buffers[0];
};
struct tu_push_descriptor_set
{
struct tu_descriptor_set set;
uint32_t capacity;
};
struct tu_descriptor_pool_entry
{
uint32_t offset;
uint32_t size;
struct tu_descriptor_set *set;
};
struct tu_descriptor_pool
{
struct vk_object_base base;
struct tu_bo bo;
uint64_t current_offset;
uint64_t size;
uint8_t *host_memory_base;
uint8_t *host_memory_ptr;
uint8_t *host_memory_end;
uint32_t entry_count;
uint32_t max_entry_count;
struct tu_descriptor_pool_entry entries[0];
};
struct tu_descriptor_update_template_entry
{
VkDescriptorType descriptor_type;
/* The number of descriptors to update */
uint32_t descriptor_count;
/* Into mapped_ptr or dynamic_descriptors, in units of the respective array
*/
uint32_t dst_offset;
/* In dwords. Not valid/used for dynamic descriptors */
uint32_t dst_stride;
uint32_t buffer_offset;
/* Only valid for combined image samplers and samplers */
uint16_t has_sampler;
/* In bytes */
size_t src_offset;
size_t src_stride;
/* For push descriptors */
const uint32_t *immutable_samplers;
};
struct tu_descriptor_update_template
{
struct vk_object_base base;
uint32_t entry_count;
struct tu_descriptor_update_template_entry entry[0];
};
struct tu_buffer
{
struct vk_object_base base;
VkDeviceSize size;
VkBufferUsageFlags usage;
VkBufferCreateFlags flags;
struct tu_bo *bo;
VkDeviceSize bo_offset;
};
static inline uint64_t
tu_buffer_iova(struct tu_buffer *buffer)
{
return buffer->bo->iova + buffer->bo_offset;
}
struct tu_vertex_binding
{
struct tu_buffer *buffer;
VkDeviceSize offset;
};
const char *
tu_get_debug_option_name(int id);
const char *
tu_get_perftest_option_name(int id);
struct tu_descriptor_state
{
struct tu_descriptor_set *sets[MAX_SETS];
uint32_t dynamic_descriptors[MAX_DYNAMIC_BUFFERS * A6XX_TEX_CONST_DWORDS];
};
enum tu_cmd_dirty_bits
{
TU_CMD_DIRTY_VERTEX_BUFFERS = 1 << 2,
TU_CMD_DIRTY_DESC_SETS_LOAD = 1 << 3,
TU_CMD_DIRTY_COMPUTE_DESC_SETS_LOAD = 1 << 4,
TU_CMD_DIRTY_SHADER_CONSTS = 1 << 5,
/* all draw states were disabled and need to be re-enabled: */
TU_CMD_DIRTY_DRAW_STATE = 1 << 7,
};
/* There are only three cache domains we have to care about: the CCU, or
* color cache unit, which is used for color and depth/stencil attachments
* and copy/blit destinations, and is split conceptually into color and depth,
* and the universal cache or UCHE which is used for pretty much everything
* else, except for the CP (uncached) and host. We need to flush whenever data
* crosses these boundaries.
*/
enum tu_cmd_access_mask {
TU_ACCESS_UCHE_READ = 1 << 0,
TU_ACCESS_UCHE_WRITE = 1 << 1,
TU_ACCESS_CCU_COLOR_READ = 1 << 2,
TU_ACCESS_CCU_COLOR_WRITE = 1 << 3,
TU_ACCESS_CCU_DEPTH_READ = 1 << 4,
TU_ACCESS_CCU_DEPTH_WRITE = 1 << 5,
/* Experiments have shown that while it's safe to avoid flushing the CCU
* after each blit/renderpass, it's not safe to assume that subsequent
* lookups with a different attachment state will hit unflushed cache
* entries. That is, the CCU needs to be flushed and possibly invalidated
* when accessing memory with a different attachment state. Writing to an
* attachment under the following conditions after clearing using the
* normal 2d engine path is known to have issues:
*
* - It isn't the 0'th layer.
* - There are more than one attachment, and this isn't the 0'th attachment
* (this seems to also depend on the cpp of the attachments).
*
* Our best guess is that the layer/MRT state is used when computing
* the location of a cache entry in CCU, to avoid conflicts. We assume that
* any access in a renderpass after or before an access by a transfer needs
* a flush/invalidate, and use the _INCOHERENT variants to represent access
* by a transfer.
*/
TU_ACCESS_CCU_COLOR_INCOHERENT_READ = 1 << 6,
TU_ACCESS_CCU_COLOR_INCOHERENT_WRITE = 1 << 7,
TU_ACCESS_CCU_DEPTH_INCOHERENT_READ = 1 << 8,
TU_ACCESS_CCU_DEPTH_INCOHERENT_WRITE = 1 << 9,
TU_ACCESS_SYSMEM_READ = 1 << 10,
TU_ACCESS_SYSMEM_WRITE = 1 << 11,
/* Set if a WFI is required due to data being read by the CP or the 2D
* engine.
*/
TU_ACCESS_WFI_READ = 1 << 12,
TU_ACCESS_READ =
TU_ACCESS_UCHE_READ |
TU_ACCESS_CCU_COLOR_READ |
TU_ACCESS_CCU_DEPTH_READ |
TU_ACCESS_CCU_COLOR_INCOHERENT_READ |
TU_ACCESS_CCU_DEPTH_INCOHERENT_READ |
TU_ACCESS_SYSMEM_READ,
TU_ACCESS_WRITE =
TU_ACCESS_UCHE_WRITE |
TU_ACCESS_CCU_COLOR_WRITE |
TU_ACCESS_CCU_COLOR_INCOHERENT_WRITE |
TU_ACCESS_CCU_DEPTH_WRITE |
TU_ACCESS_CCU_DEPTH_INCOHERENT_WRITE |
TU_ACCESS_SYSMEM_WRITE,
TU_ACCESS_ALL =
TU_ACCESS_READ |
TU_ACCESS_WRITE,
};
enum tu_cmd_flush_bits {
TU_CMD_FLAG_CCU_FLUSH_DEPTH = 1 << 0,
TU_CMD_FLAG_CCU_FLUSH_COLOR = 1 << 1,
TU_CMD_FLAG_CCU_INVALIDATE_DEPTH = 1 << 2,
TU_CMD_FLAG_CCU_INVALIDATE_COLOR = 1 << 3,
TU_CMD_FLAG_CACHE_FLUSH = 1 << 4,
TU_CMD_FLAG_CACHE_INVALIDATE = 1 << 5,
TU_CMD_FLAG_ALL_FLUSH =
TU_CMD_FLAG_CCU_FLUSH_DEPTH |
TU_CMD_FLAG_CCU_FLUSH_COLOR |
TU_CMD_FLAG_CACHE_FLUSH,
TU_CMD_FLAG_ALL_INVALIDATE =
TU_CMD_FLAG_CCU_INVALIDATE_DEPTH |
TU_CMD_FLAG_CCU_INVALIDATE_COLOR |
TU_CMD_FLAG_CACHE_INVALIDATE,
TU_CMD_FLAG_WFI = 1 << 6,
};
/* Changing the CCU from sysmem mode to gmem mode or vice-versa is pretty
* heavy, involving a CCU cache flush/invalidate and a WFI in order to change
* which part of the gmem is used by the CCU. Here we keep track of what the
* state of the CCU.
*/
enum tu_cmd_ccu_state {
TU_CMD_CCU_SYSMEM,
TU_CMD_CCU_GMEM,
TU_CMD_CCU_UNKNOWN,
};
struct tu_cache_state {
/* Caches which must be made available (flushed) eventually if there are
* any users outside that cache domain, and caches which must be
* invalidated eventually if there are any reads.
*/
enum tu_cmd_flush_bits pending_flush_bits;
/* Pending flushes */
enum tu_cmd_flush_bits flush_bits;
};
struct tu_cmd_state
{
uint32_t dirty;
struct tu_pipeline *pipeline;
struct tu_pipeline *compute_pipeline;
/* Vertex buffers */
struct
{
struct tu_buffer *buffers[MAX_VBS];
VkDeviceSize offsets[MAX_VBS];
} vb;
/* for dynamic states that can't be emitted directly */
uint32_t dynamic_stencil_mask;
uint32_t dynamic_stencil_wrmask;
uint32_t dynamic_stencil_ref;
uint32_t dynamic_gras_su_cntl;
/* saved states to re-emit in TU_CMD_DIRTY_DRAW_STATE case */
struct tu_draw_state dynamic_state[TU_DYNAMIC_STATE_COUNT];
struct tu_cs_entry vertex_buffers_ib;
struct tu_cs_entry shader_const_ib[MESA_SHADER_STAGES];
struct tu_cs_entry desc_sets_ib;
struct tu_cs_entry ia_gmem_ib, ia_sysmem_ib;
struct tu_draw_state vs_params;
/* Index buffer */
uint64_t index_va;
uint32_t max_index_count;
uint8_t index_size;
/* because streamout base has to be 32-byte aligned
* there is an extra offset to deal with when it is
* unaligned
*/
uint8_t streamout_offset[IR3_MAX_SO_BUFFERS];
/* Renderpasses are tricky, because we may need to flush differently if
* using sysmem vs. gmem and therefore we have to delay any flushing that
* happens before a renderpass. So we have to have two copies of the flush
* state, one for intra-renderpass flushes (i.e. renderpass dependencies)
* and one for outside a renderpass.
*/
struct tu_cache_state cache;
struct tu_cache_state renderpass_cache;
enum tu_cmd_ccu_state ccu_state;
const struct tu_render_pass *pass;
const struct tu_subpass *subpass;
const struct tu_framebuffer *framebuffer;
VkRect2D render_area;
struct tu_cs_entry tile_store_ib;
bool xfb_used;
};
struct tu_cmd_pool
{
struct vk_object_base base;
VkAllocationCallbacks alloc;
struct list_head cmd_buffers;
struct list_head free_cmd_buffers;
uint32_t queue_family_index;
};
struct tu_cmd_buffer_upload
{
uint8_t *map;
unsigned offset;
uint64_t size;
struct list_head list;
};
enum tu_cmd_buffer_status
{
TU_CMD_BUFFER_STATUS_INVALID,
TU_CMD_BUFFER_STATUS_INITIAL,
TU_CMD_BUFFER_STATUS_RECORDING,
TU_CMD_BUFFER_STATUS_EXECUTABLE,
TU_CMD_BUFFER_STATUS_PENDING,
};
struct tu_bo_list
{
uint32_t count;
uint32_t capacity;
struct drm_msm_gem_submit_bo *bo_infos;
};
#define TU_BO_LIST_FAILED (~0)
void
tu_bo_list_init(struct tu_bo_list *list);
void
tu_bo_list_destroy(struct tu_bo_list *list);
void
tu_bo_list_reset(struct tu_bo_list *list);
uint32_t
tu_bo_list_add(struct tu_bo_list *list,
const struct tu_bo *bo,
uint32_t flags);
VkResult
tu_bo_list_merge(struct tu_bo_list *list, const struct tu_bo_list *other);
struct tu_cmd_buffer
{
struct vk_object_base base;
struct tu_device *device;
struct tu_cmd_pool *pool;
struct list_head pool_link;
VkCommandBufferUsageFlags usage_flags;
VkCommandBufferLevel level;
enum tu_cmd_buffer_status status;
struct tu_cmd_state state;
struct tu_vertex_binding vertex_bindings[MAX_VBS];
uint32_t vertex_bindings_set;
uint32_t queue_family_index;
uint32_t push_constants[MAX_PUSH_CONSTANTS_SIZE / 4];
VkShaderStageFlags push_constant_stages;
struct tu_descriptor_set meta_push_descriptors;
struct tu_descriptor_state descriptors[MAX_BIND_POINTS];
struct tu_cmd_buffer_upload upload;
VkResult record_result;
struct tu_bo_list bo_list;
struct tu_cs cs;
struct tu_cs draw_cs;
struct tu_cs draw_epilogue_cs;
struct tu_cs sub_cs;
bool has_tess;
uint32_t vsc_draw_strm_pitch;
uint32_t vsc_prim_strm_pitch;
};
/* Temporary struct for tracking a register state to be written, used by
* a6xx-pack.h and tu_cs_emit_regs()
*/
struct tu_reg_value {
uint32_t reg;
uint64_t value;
bool is_address;
struct tu_bo *bo;
bool bo_write;
uint32_t bo_offset;
uint32_t bo_shift;
};
void tu_emit_cache_flush_renderpass(struct tu_cmd_buffer *cmd_buffer,
struct tu_cs *cs);
void tu_emit_cache_flush_ccu(struct tu_cmd_buffer *cmd_buffer,
struct tu_cs *cs,
enum tu_cmd_ccu_state ccu_state);
void
tu6_emit_event_write(struct tu_cmd_buffer *cmd,
struct tu_cs *cs,
enum vgt_event_type event);
static inline struct tu_descriptor_state *
tu_get_descriptors_state(struct tu_cmd_buffer *cmd_buffer,
VkPipelineBindPoint bind_point)
{
return &cmd_buffer->descriptors[bind_point];
}
struct tu_event
{
struct vk_object_base base;
struct tu_bo bo;
};
struct tu_shader_module
{
struct vk_object_base base;
unsigned char sha1[20];
uint32_t code_size;
const uint32_t *code[0];
};
struct tu_push_constant_range
{
uint32_t lo;
uint32_t count;
};
struct tu_shader
{
struct ir3_shader *ir3_shader;
struct tu_push_constant_range push_consts;
uint8_t active_desc_sets;
};
struct tu_shader *
tu_shader_create(struct tu_device *dev,
gl_shader_stage stage,
const VkPipelineShaderStageCreateInfo *stage_info,
struct tu_pipeline_layout *layout,
const VkAllocationCallbacks *alloc);
void
tu_shader_destroy(struct tu_device *dev,
struct tu_shader *shader,
const VkAllocationCallbacks *alloc);
struct tu_program_descriptor_linkage
{
struct ir3_const_state const_state;
uint32_t constlen;
struct tu_push_constant_range push_consts;
};
struct tu_pipeline
{
struct vk_object_base base;
struct tu_cs cs;
struct tu_pipeline_layout *layout;
bool need_indirect_descriptor_sets;
VkShaderStageFlags active_stages;
uint32_t active_desc_sets;
/* mask of enabled dynamic states
* if BIT(i) is set, pipeline->dynamic_state[i] is *NOT* used
*/
uint32_t dynamic_state_mask;
struct tu_draw_state dynamic_state[TU_DYNAMIC_STATE_COUNT];
/* gras_su_cntl without line width, used for dynamic line width state */
uint32_t gras_su_cntl;
struct
{
struct tu_cs_entry state_ib;
struct tu_cs_entry binning_state_ib;
struct tu_program_descriptor_linkage link[MESA_SHADER_STAGES];
} program;
struct
{
struct tu_cs_entry state_ib;
} load_state;
struct
{
struct tu_cs_entry state_ib;
struct tu_cs_entry binning_state_ib;
uint32_t bindings_used;
} vi;
struct
{
enum pc_di_primtype primtype;
bool primitive_restart;
} ia;
struct
{
uint32_t patch_type;
uint32_t param_stride;
uint32_t hs_bo_regid;
uint32_t ds_bo_regid;
bool upper_left_domain_origin;
} tess;
struct
{
struct tu_cs_entry state_ib;
} rast;
struct
{
struct tu_cs_entry state_ib;
} ds;
struct
{
struct tu_cs_entry state_ib;
} blend;
struct
{
uint32_t local_size[3];
} compute;
};
void
tu6_emit_viewport(struct tu_cs *cs, const VkViewport *viewport);
void
tu6_emit_scissor(struct tu_cs *cs, const VkRect2D *scissor);
void
tu6_emit_sample_locations(struct tu_cs *cs, const VkSampleLocationsInfoEXT *samp_loc);
void
tu6_emit_depth_bias(struct tu_cs *cs,
float constant_factor,
float clamp,
float slope_factor);
void tu6_emit_msaa(struct tu_cs *cs, VkSampleCountFlagBits samples);
void tu6_emit_window_scissor(struct tu_cs *cs, uint32_t x1, uint32_t y1, uint32_t x2, uint32_t y2);
void tu6_emit_window_offset(struct tu_cs *cs, uint32_t x1, uint32_t y1);
void
tu6_emit_xs_config(struct tu_cs *cs,
gl_shader_stage stage,
const struct ir3_shader_variant *xs,
uint64_t binary_iova);
void
tu6_emit_vpc(struct tu_cs *cs,
const struct ir3_shader_variant *vs,
const struct ir3_shader_variant *hs,
const struct ir3_shader_variant *ds,
const struct ir3_shader_variant *gs,
const struct ir3_shader_variant *fs);
void
tu6_emit_fs_inputs(struct tu_cs *cs, const struct ir3_shader_variant *fs);
struct tu_image_view;
void
tu_resolve_sysmem(struct tu_cmd_buffer *cmd,
struct tu_cs *cs,
struct tu_image_view *src,
struct tu_image_view *dst,
uint32_t layers,
const VkRect2D *rect);
void
tu_clear_sysmem_attachment(struct tu_cmd_buffer *cmd,
struct tu_cs *cs,
uint32_t a,
const VkRenderPassBeginInfo *info);
void
tu_clear_gmem_attachment(struct tu_cmd_buffer *cmd,
struct tu_cs *cs,
uint32_t a,
const VkRenderPassBeginInfo *info);
void
tu_load_gmem_attachment(struct tu_cmd_buffer *cmd,
struct tu_cs *cs,
uint32_t a,
bool force_load);
/* expose this function to be able to emit load without checking LOAD_OP */
void
tu_emit_load_gmem_attachment(struct tu_cmd_buffer *cmd, struct tu_cs *cs, uint32_t a);
/* note: gmem store can also resolve */
void
tu_store_gmem_attachment(struct tu_cmd_buffer *cmd,
struct tu_cs *cs,
uint32_t a,
uint32_t gmem_a);
enum tu_supported_formats {
FMT_VERTEX = 1,
FMT_TEXTURE = 2,
FMT_COLOR = 4,
};
struct tu_native_format
{
enum a6xx_format fmt : 8;
enum a3xx_color_swap swap : 8;
enum a6xx_tile_mode tile_mode : 8;
enum tu_supported_formats supported : 8;
};
struct tu_native_format tu6_format_vtx(VkFormat format);
struct tu_native_format tu6_format_color(VkFormat format, enum a6xx_tile_mode tile_mode);
struct tu_native_format tu6_format_texture(VkFormat format, enum a6xx_tile_mode tile_mode);
static inline enum a6xx_format
tu6_base_format(VkFormat format)
{
/* note: tu6_format_color doesn't care about tiling for .fmt field */
return tu6_format_color(format, TILE6_LINEAR).fmt;
}
struct tu_image
{
struct vk_object_base base;
VkImageType type;
/* The original VkFormat provided by the client. This may not match any
* of the actual surface formats.
*/
VkFormat vk_format;
VkImageAspectFlags aspects;
VkImageUsageFlags usage; /**< Superset of VkImageCreateInfo::usage. */
VkImageTiling tiling; /** VkImageCreateInfo::tiling */
VkImageCreateFlags flags; /** VkImageCreateInfo::flags */
VkExtent3D extent;
uint32_t level_count;
uint32_t layer_count;
VkSampleCountFlagBits samples;
struct fdl_layout layout[3];
uint32_t total_size;
unsigned queue_family_mask;
bool exclusive;
bool shareable;
/* For VK_ANDROID_native_buffer, the WSI image owns the memory, */
VkDeviceMemory owned_memory;
/* Set when bound */
struct tu_bo *bo;
VkDeviceSize bo_offset;
};
static inline uint32_t
tu_get_layerCount(const struct tu_image *image,
const VkImageSubresourceRange *range)
{
return range->layerCount == VK_REMAINING_ARRAY_LAYERS
? image->layer_count - range->baseArrayLayer
: range->layerCount;
}
static inline uint32_t
tu_get_levelCount(const struct tu_image *image,
const VkImageSubresourceRange *range)
{
return range->levelCount == VK_REMAINING_MIP_LEVELS
? image->level_count - range->baseMipLevel
: range->levelCount;
}
struct tu_image_view
{
struct vk_object_base base;
struct tu_image *image; /**< VkImageViewCreateInfo::image */
uint64_t base_addr;
uint64_t ubwc_addr;
uint32_t layer_size;
uint32_t ubwc_layer_size;
/* used to determine if fast gmem store path can be used */
VkExtent2D extent;
bool need_y2_align;
bool ubwc_enabled;
uint32_t descriptor[A6XX_TEX_CONST_DWORDS];
/* Descriptor for use as a storage image as opposed to a sampled image.
* This has a few differences for cube maps (e.g. type).
*/
uint32_t storage_descriptor[A6XX_TEX_CONST_DWORDS];
/* pre-filled register values */
uint32_t PITCH;
uint32_t FLAG_BUFFER_PITCH;
uint32_t RB_MRT_BUF_INFO;
uint32_t SP_FS_MRT_REG;
uint32_t SP_PS_2D_SRC_INFO;
uint32_t SP_PS_2D_SRC_SIZE;
uint32_t RB_2D_DST_INFO;
uint32_t RB_BLIT_DST_INFO;
};
struct tu_sampler_ycbcr_conversion {
struct vk_object_base base;
VkFormat format;
VkSamplerYcbcrModelConversion ycbcr_model;
VkSamplerYcbcrRange ycbcr_range;
VkComponentMapping components;
VkChromaLocation chroma_offsets[2];
VkFilter chroma_filter;
};
struct tu_sampler {
struct vk_object_base base;
uint32_t descriptor[A6XX_TEX_SAMP_DWORDS];
struct tu_sampler_ycbcr_conversion *ycbcr_sampler;
};
void
tu_cs_image_ref(struct tu_cs *cs, const struct tu_image_view *iview, uint32_t layer);
void
tu_cs_image_ref_2d(struct tu_cs *cs, const struct tu_image_view *iview, uint32_t layer, bool src);
void
tu_cs_image_flag_ref(struct tu_cs *cs, const struct tu_image_view *iview, uint32_t layer);
VkResult
tu_image_create(VkDevice _device,
const VkImageCreateInfo *pCreateInfo,
const VkAllocationCallbacks *alloc,
VkImage *pImage,
uint64_t modifier,
const VkSubresourceLayout *plane_layouts);
VkResult
tu_image_from_gralloc(VkDevice device_h,
const VkImageCreateInfo *base_info,
const VkNativeBufferANDROID *gralloc_info,
const VkAllocationCallbacks *alloc,
VkImage *out_image_h);
void
tu_image_view_init(struct tu_image_view *view,
const VkImageViewCreateInfo *pCreateInfo);
struct tu_buffer_view
{
struct vk_object_base base;
uint32_t descriptor[A6XX_TEX_CONST_DWORDS];
struct tu_buffer *buffer;
};
void
tu_buffer_view_init(struct tu_buffer_view *view,
struct tu_device *device,
const VkBufferViewCreateInfo *pCreateInfo);
struct tu_attachment_info
{
struct tu_image_view *attachment;
};
struct tu_framebuffer
{
struct vk_object_base base;
uint32_t width;
uint32_t height;
uint32_t layers;
/* size of the first tile */
VkExtent2D tile0;
/* number of tiles */
VkExtent2D tile_count;
/* size of the first VSC pipe */
VkExtent2D pipe0;
/* number of VSC pipes */
VkExtent2D pipe_count;
/* pipe register values */
uint32_t pipe_config[MAX_VSC_PIPES];
uint32_t pipe_sizes[MAX_VSC_PIPES];
uint32_t attachment_count;
struct tu_attachment_info attachments[0];
};
void
tu_framebuffer_tiling_config(struct tu_framebuffer *fb,
const struct tu_device *device,
const struct tu_render_pass *pass);
struct tu_subpass_barrier {
VkPipelineStageFlags src_stage_mask;
VkAccessFlags src_access_mask;
VkAccessFlags dst_access_mask;
bool incoherent_ccu_color, incoherent_ccu_depth;
};
struct tu_subpass_attachment
{
uint32_t attachment;
};
struct tu_subpass
{
uint32_t input_count;
uint32_t color_count;
struct tu_subpass_attachment *input_attachments;
struct tu_subpass_attachment *color_attachments;
struct tu_subpass_attachment *resolve_attachments;
struct tu_subpass_attachment depth_stencil_attachment;
VkSampleCountFlagBits samples;
uint32_t srgb_cntl;
struct tu_subpass_barrier start_barrier;
};
struct tu_render_pass_attachment
{
VkFormat format;
uint32_t samples;
uint32_t cpp;
VkImageAspectFlags clear_mask;
bool load;
bool store;
int32_t gmem_offset;
};
struct tu_render_pass
{
struct vk_object_base base;
uint32_t attachment_count;
uint32_t subpass_count;
uint32_t gmem_pixels;
uint32_t tile_align_w;
struct tu_subpass_attachment *subpass_attachments;
struct tu_render_pass_attachment *attachments;
struct tu_subpass_barrier end_barrier;
struct tu_subpass subpasses[0];
};
struct tu_query_pool
{
struct vk_object_base base;
VkQueryType type;
uint32_t stride;
uint64_t size;
uint32_t pipeline_statistics;
struct tu_bo bo;
};
enum tu_semaphore_kind
{
TU_SEMAPHORE_NONE,
TU_SEMAPHORE_SYNCOBJ,
};
struct tu_semaphore_part
{
enum tu_semaphore_kind kind;
union {
uint32_t syncobj;
};
};
struct tu_semaphore
{
struct vk_object_base base;
struct tu_semaphore_part permanent;
struct tu_semaphore_part temporary;
};
void
tu_set_descriptor_set(struct tu_cmd_buffer *cmd_buffer,
VkPipelineBindPoint bind_point,
struct tu_descriptor_set *set,
unsigned idx);
void
tu_update_descriptor_sets(struct tu_device *device,
struct tu_cmd_buffer *cmd_buffer,
VkDescriptorSet overrideSet,
uint32_t descriptorWriteCount,
const VkWriteDescriptorSet *pDescriptorWrites,
uint32_t descriptorCopyCount,
const VkCopyDescriptorSet *pDescriptorCopies);
void
tu_update_descriptor_set_with_template(
struct tu_device *device,
struct tu_cmd_buffer *cmd_buffer,
struct tu_descriptor_set *set,
VkDescriptorUpdateTemplate descriptorUpdateTemplate,
const void *pData);
int
tu_drm_get_gpu_id(const struct tu_physical_device *dev, uint32_t *id);
int
tu_drm_get_gmem_size(const struct tu_physical_device *dev, uint32_t *size);
int
tu_drm_get_gmem_base(const struct tu_physical_device *dev, uint64_t *base);
int
tu_drm_submitqueue_new(const struct tu_device *dev,
int priority,
uint32_t *queue_id);
void
tu_drm_submitqueue_close(const struct tu_device *dev, uint32_t queue_id);
uint32_t
tu_gem_new(const struct tu_device *dev, uint64_t size, uint32_t flags);
uint32_t
tu_gem_import_dmabuf(const struct tu_device *dev,
int prime_fd,
uint64_t size);
int
tu_gem_export_dmabuf(const struct tu_device *dev, uint32_t gem_handle);
void
tu_gem_close(const struct tu_device *dev, uint32_t gem_handle);
uint64_t
tu_gem_info_offset(const struct tu_device *dev, uint32_t gem_handle);
uint64_t
tu_gem_info_iova(const struct tu_device *dev, uint32_t gem_handle);
#define TU_DEFINE_HANDLE_CASTS(__tu_type, __VkType) \
\
static inline struct __tu_type *__tu_type##_from_handle(__VkType _handle) \
{ \
return (struct __tu_type *) _handle; \
} \
\
static inline __VkType __tu_type##_to_handle(struct __tu_type *_obj) \
{ \
return (__VkType) _obj; \
}
#define TU_DEFINE_NONDISP_HANDLE_CASTS(__tu_type, __VkType) \
\
static inline struct __tu_type *__tu_type##_from_handle(__VkType _handle) \
{ \
return (struct __tu_type *) (uintptr_t) _handle; \
} \
\
static inline __VkType __tu_type##_to_handle(struct __tu_type *_obj) \
{ \
return (__VkType)(uintptr_t) _obj; \
}
#define TU_FROM_HANDLE(__tu_type, __name, __handle) \
struct __tu_type *__name = __tu_type##_from_handle(__handle)
TU_DEFINE_HANDLE_CASTS(tu_cmd_buffer, VkCommandBuffer)
TU_DEFINE_HANDLE_CASTS(tu_device, VkDevice)
TU_DEFINE_HANDLE_CASTS(tu_instance, VkInstance)
TU_DEFINE_HANDLE_CASTS(tu_physical_device, VkPhysicalDevice)
TU_DEFINE_HANDLE_CASTS(tu_queue, VkQueue)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_cmd_pool, VkCommandPool)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_buffer, VkBuffer)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_buffer_view, VkBufferView)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_descriptor_pool, VkDescriptorPool)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_descriptor_set, VkDescriptorSet)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_descriptor_set_layout,
VkDescriptorSetLayout)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_descriptor_update_template,
VkDescriptorUpdateTemplate)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_device_memory, VkDeviceMemory)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_fence, VkFence)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_event, VkEvent)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_framebuffer, VkFramebuffer)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_image, VkImage)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_image_view, VkImageView);
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_pipeline_cache, VkPipelineCache)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_pipeline, VkPipeline)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_pipeline_layout, VkPipelineLayout)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_query_pool, VkQueryPool)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_render_pass, VkRenderPass)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_sampler, VkSampler)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_sampler_ycbcr_conversion, VkSamplerYcbcrConversion)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_shader_module, VkShaderModule)
TU_DEFINE_NONDISP_HANDLE_CASTS(tu_semaphore, VkSemaphore)
#endif /* TU_PRIVATE_H */
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