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|
/*
* Copyright 2010 Jerome Glisse <glisse@freedesktop.org>
* Copyright 2018 Advanced Micro Devices, Inc.
* 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
* on 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
* THE AUTHOR(S) AND/OR THEIR 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 SI_PIPE_H
#define SI_PIPE_H
#include "si_shader.h"
#include "si_state.h"
#include "util/u_dynarray.h"
#include "util/u_idalloc.h"
#include "util/u_threaded_context.h"
#ifdef PIPE_ARCH_BIG_ENDIAN
#define SI_BIG_ENDIAN 1
#else
#define SI_BIG_ENDIAN 0
#endif
#define ATI_VENDOR_ID 0x1002
#define SI_NOT_QUERY 0xffffffff
/* The base vertex and primitive restart can be any number, but we must pick
* one which will mean "unknown" for the purpose of state tracking and
* the number shouldn't be a commonly-used one. */
#define SI_BASE_VERTEX_UNKNOWN INT_MIN
#define SI_RESTART_INDEX_UNKNOWN INT_MIN
#define SI_NUM_SMOOTH_AA_SAMPLES 8
#define SI_GS_PER_ES 128
/* Alignment for optimal CP DMA performance. */
#define SI_CPDMA_ALIGNMENT 32
/* Pipeline & streamout query controls. */
#define SI_CONTEXT_START_PIPELINE_STATS (1 << 0)
#define SI_CONTEXT_STOP_PIPELINE_STATS (1 << 1)
#define SI_CONTEXT_FLUSH_FOR_RENDER_COND (1 << 2)
/* Instruction cache. */
#define SI_CONTEXT_INV_ICACHE (1 << 3)
/* SMEM L1, other names: KCACHE, constant cache, DCACHE, data cache */
#define SI_CONTEXT_INV_SMEM_L1 (1 << 4)
/* VMEM L1 can optionally be bypassed (GLC=1). Other names: TC L1 */
#define SI_CONTEXT_INV_VMEM_L1 (1 << 5)
/* Used by everything except CB/DB, can be bypassed (SLC=1). Other names: TC L2 */
#define SI_CONTEXT_INV_GLOBAL_L2 (1 << 6)
/* Write dirty L2 lines back to memory (shader and CP DMA stores), but don't
* invalidate L2. SI-CIK can't do it, so they will do complete invalidation. */
#define SI_CONTEXT_WRITEBACK_GLOBAL_L2 (1 << 7)
/* Writeback & invalidate the L2 metadata cache. It can only be coupled with
* a CB or DB flush. */
#define SI_CONTEXT_INV_L2_METADATA (1 << 8)
/* Framebuffer caches. */
#define SI_CONTEXT_FLUSH_AND_INV_DB (1 << 9)
#define SI_CONTEXT_FLUSH_AND_INV_DB_META (1 << 10)
#define SI_CONTEXT_FLUSH_AND_INV_CB (1 << 11)
/* Engine synchronization. */
#define SI_CONTEXT_VS_PARTIAL_FLUSH (1 << 12)
#define SI_CONTEXT_PS_PARTIAL_FLUSH (1 << 13)
#define SI_CONTEXT_CS_PARTIAL_FLUSH (1 << 14)
#define SI_CONTEXT_VGT_FLUSH (1 << 15)
#define SI_CONTEXT_VGT_STREAMOUT_SYNC (1 << 16)
#define SI_PREFETCH_VBO_DESCRIPTORS (1 << 0)
#define SI_PREFETCH_LS (1 << 1)
#define SI_PREFETCH_HS (1 << 2)
#define SI_PREFETCH_ES (1 << 3)
#define SI_PREFETCH_GS (1 << 4)
#define SI_PREFETCH_VS (1 << 5)
#define SI_PREFETCH_PS (1 << 6)
#define SI_MAX_BORDER_COLORS 4096
#define SI_MAX_VIEWPORTS 16
#define SIX_BITS 0x3F
#define SI_MAP_BUFFER_ALIGNMENT 64
#define SI_MAX_VARIABLE_THREADS_PER_BLOCK 1024
#define SI_RESOURCE_FLAG_TRANSFER (PIPE_RESOURCE_FLAG_DRV_PRIV << 0)
#define SI_RESOURCE_FLAG_FLUSHED_DEPTH (PIPE_RESOURCE_FLAG_DRV_PRIV << 1)
#define SI_RESOURCE_FLAG_FORCE_TILING (PIPE_RESOURCE_FLAG_DRV_PRIV << 2)
#define SI_RESOURCE_FLAG_DISABLE_DCC (PIPE_RESOURCE_FLAG_DRV_PRIV << 3)
#define SI_RESOURCE_FLAG_UNMAPPABLE (PIPE_RESOURCE_FLAG_DRV_PRIV << 4)
#define SI_RESOURCE_FLAG_READ_ONLY (PIPE_RESOURCE_FLAG_DRV_PRIV << 5)
#define SI_RESOURCE_FLAG_32BIT (PIPE_RESOURCE_FLAG_DRV_PRIV << 6)
/* Debug flags. */
enum {
/* Shader logging options: */
DBG_VS = PIPE_SHADER_VERTEX,
DBG_PS = PIPE_SHADER_FRAGMENT,
DBG_GS = PIPE_SHADER_GEOMETRY,
DBG_TCS = PIPE_SHADER_TESS_CTRL,
DBG_TES = PIPE_SHADER_TESS_EVAL,
DBG_CS = PIPE_SHADER_COMPUTE,
DBG_NO_IR,
DBG_NO_TGSI,
DBG_NO_ASM,
DBG_PREOPT_IR,
/* Shader compiler options the shader cache should be aware of: */
DBG_FS_CORRECT_DERIVS_AFTER_KILL,
DBG_UNSAFE_MATH,
DBG_SI_SCHED,
DBG_GISEL,
/* Shader compiler options (with no effect on the shader cache): */
DBG_CHECK_IR,
DBG_NIR,
DBG_MONOLITHIC_SHADERS,
DBG_NO_OPT_VARIANT,
/* Information logging options: */
DBG_INFO,
DBG_TEX,
DBG_COMPUTE,
DBG_VM,
/* Driver options: */
DBG_FORCE_DMA,
DBG_NO_ASYNC_DMA,
DBG_NO_WC,
DBG_CHECK_VM,
DBG_RESERVE_VMID,
DBG_ZERO_VRAM,
/* 3D engine options: */
DBG_SWITCH_ON_EOP,
DBG_NO_OUT_OF_ORDER,
DBG_NO_DPBB,
DBG_NO_DFSM,
DBG_DPBB,
DBG_DFSM,
DBG_NO_HYPERZ,
DBG_NO_RB_PLUS,
DBG_NO_2D_TILING,
DBG_NO_TILING,
DBG_NO_DCC,
DBG_NO_DCC_CLEAR,
DBG_NO_DCC_FB,
DBG_NO_DCC_MSAA,
DBG_NO_FMASK,
/* Tests: */
DBG_TEST_DMA,
DBG_TEST_VMFAULT_CP,
DBG_TEST_VMFAULT_SDMA,
DBG_TEST_VMFAULT_SHADER,
DBG_TEST_CLEARBUF_PERF,
};
#define DBG_ALL_SHADERS (((1 << (DBG_CS + 1)) - 1))
#define DBG(name) (1ull << DBG_##name)
struct si_compute;
struct hash_table;
struct u_suballocator;
/* Only 32-bit buffer allocations are supported, gallium doesn't support more
* at the moment.
*/
struct r600_resource {
struct threaded_resource b;
/* Winsys objects. */
struct pb_buffer *buf;
uint64_t gpu_address;
/* Memory usage if the buffer placement is optimal. */
uint64_t vram_usage;
uint64_t gart_usage;
/* Resource properties. */
uint64_t bo_size;
unsigned bo_alignment;
enum radeon_bo_domain domains;
enum radeon_bo_flag flags;
unsigned bind_history;
int max_forced_staging_uploads;
/* The buffer range which is initialized (with a write transfer,
* streamout, DMA, or as a random access target). The rest of
* the buffer is considered invalid and can be mapped unsynchronized.
*
* This allows unsychronized mapping of a buffer range which hasn't
* been used yet. It's for applications which forget to use
* the unsynchronized map flag and expect the driver to figure it out.
*/
struct util_range valid_buffer_range;
/* For buffers only. This indicates that a write operation has been
* performed by TC L2, but the cache hasn't been flushed.
* Any hw block which doesn't use or bypasses TC L2 should check this
* flag and flush the cache before using the buffer.
*
* For example, TC L2 must be flushed if a buffer which has been
* modified by a shader store instruction is about to be used as
* an index buffer. The reason is that VGT DMA index fetching doesn't
* use TC L2.
*/
bool TC_L2_dirty;
/* Whether this resource is referenced by bindless handles. */
bool texture_handle_allocated;
bool image_handle_allocated;
/* Whether the resource has been exported via resource_get_handle. */
unsigned external_usage; /* PIPE_HANDLE_USAGE_* */
};
struct si_transfer {
struct threaded_transfer b;
struct r600_resource *staging;
unsigned offset;
};
struct si_texture {
struct r600_resource buffer;
struct radeon_surf surface;
uint64_t size;
struct si_texture *flushed_depth_texture;
/* Colorbuffer compression and fast clear. */
uint64_t fmask_offset;
uint64_t cmask_offset;
uint64_t cmask_base_address_reg;
struct r600_resource *cmask_buffer;
uint64_t dcc_offset; /* 0 = disabled */
unsigned cb_color_info; /* fast clear enable bit */
unsigned color_clear_value[2];
unsigned last_msaa_resolve_target_micro_mode;
unsigned num_level0_transfers;
/* Depth buffer compression and fast clear. */
uint64_t htile_offset;
float depth_clear_value;
uint16_t dirty_level_mask; /* each bit says if that mipmap is compressed */
uint16_t stencil_dirty_level_mask; /* each bit says if that mipmap is compressed */
enum pipe_format db_render_format:16;
uint8_t stencil_clear_value;
bool tc_compatible_htile:1;
bool depth_cleared:1; /* if it was cleared at least once */
bool stencil_cleared:1; /* if it was cleared at least once */
bool upgraded_depth:1; /* upgraded from unorm to Z32_FLOAT */
bool is_depth:1;
bool db_compatible:1;
bool can_sample_z:1;
bool can_sample_s:1;
/* We need to track DCC dirtiness, because st/dri usually calls
* flush_resource twice per frame (not a bug) and we don't wanna
* decompress DCC twice. Also, the dirty tracking must be done even
* if DCC isn't used, because it's required by the DCC usage analysis
* for a possible future enablement.
*/
bool separate_dcc_dirty:1;
/* Statistics gathering for the DCC enablement heuristic. */
bool dcc_gather_statistics:1;
/* Counter that should be non-zero if the texture is bound to a
* framebuffer.
*/
unsigned framebuffers_bound;
/* Whether the texture is a displayable back buffer and needs DCC
* decompression, which is expensive. Therefore, it's enabled only
* if statistics suggest that it will pay off and it's allocated
* separately. It can't be bound as a sampler by apps. Limited to
* target == 2D and last_level == 0. If enabled, dcc_offset contains
* the absolute GPUVM address, not the relative one.
*/
struct r600_resource *dcc_separate_buffer;
/* When DCC is temporarily disabled, the separate buffer is here. */
struct r600_resource *last_dcc_separate_buffer;
/* Estimate of how much this color buffer is written to in units of
* full-screen draws: ps_invocations / (width * height)
* Shader kills, late Z, and blending with trivial discards make it
* inaccurate (we need to count CB updates, not PS invocations).
*/
unsigned ps_draw_ratio;
/* The number of clears since the last DCC usage analysis. */
unsigned num_slow_clears;
};
struct si_surface {
struct pipe_surface base;
/* These can vary with block-compressed textures. */
uint16_t width0;
uint16_t height0;
bool color_initialized:1;
bool depth_initialized:1;
/* Misc. color flags. */
bool color_is_int8:1;
bool color_is_int10:1;
bool dcc_incompatible:1;
/* Color registers. */
unsigned cb_color_info;
unsigned cb_color_view;
unsigned cb_color_attrib;
unsigned cb_color_attrib2; /* GFX9 and later */
unsigned cb_dcc_control; /* VI and later */
unsigned spi_shader_col_format:8; /* no blending, no alpha-to-coverage. */
unsigned spi_shader_col_format_alpha:8; /* alpha-to-coverage */
unsigned spi_shader_col_format_blend:8; /* blending without alpha. */
unsigned spi_shader_col_format_blend_alpha:8; /* blending with alpha. */
/* DB registers. */
uint64_t db_depth_base; /* DB_Z_READ/WRITE_BASE */
uint64_t db_stencil_base;
uint64_t db_htile_data_base;
unsigned db_depth_info;
unsigned db_z_info;
unsigned db_z_info2; /* GFX9+ */
unsigned db_depth_view;
unsigned db_depth_size;
unsigned db_depth_slice;
unsigned db_stencil_info;
unsigned db_stencil_info2; /* GFX9+ */
unsigned db_htile_surface;
};
struct si_mmio_counter {
unsigned busy;
unsigned idle;
};
union si_mmio_counters {
struct {
/* For global GPU load including SDMA. */
struct si_mmio_counter gpu;
/* GRBM_STATUS */
struct si_mmio_counter spi;
struct si_mmio_counter gui;
struct si_mmio_counter ta;
struct si_mmio_counter gds;
struct si_mmio_counter vgt;
struct si_mmio_counter ia;
struct si_mmio_counter sx;
struct si_mmio_counter wd;
struct si_mmio_counter bci;
struct si_mmio_counter sc;
struct si_mmio_counter pa;
struct si_mmio_counter db;
struct si_mmio_counter cp;
struct si_mmio_counter cb;
/* SRBM_STATUS2 */
struct si_mmio_counter sdma;
/* CP_STAT */
struct si_mmio_counter pfp;
struct si_mmio_counter meq;
struct si_mmio_counter me;
struct si_mmio_counter surf_sync;
struct si_mmio_counter cp_dma;
struct si_mmio_counter scratch_ram;
} named;
unsigned array[0];
};
struct si_memory_object {
struct pipe_memory_object b;
struct pb_buffer *buf;
uint32_t stride;
};
/* Saved CS data for debugging features. */
struct radeon_saved_cs {
uint32_t *ib;
unsigned num_dw;
struct radeon_bo_list_item *bo_list;
unsigned bo_count;
};
struct si_screen {
struct pipe_screen b;
struct radeon_winsys *ws;
struct disk_cache *disk_shader_cache;
struct radeon_info info;
uint64_t debug_flags;
char renderer_string[183];
unsigned gs_table_depth;
unsigned tess_offchip_block_dw_size;
unsigned tess_offchip_ring_size;
unsigned tess_factor_ring_size;
unsigned vgt_hs_offchip_param;
unsigned eqaa_force_coverage_samples;
unsigned eqaa_force_z_samples;
unsigned eqaa_force_color_samples;
bool has_clear_state;
bool has_distributed_tess;
bool has_draw_indirect_multi;
bool has_out_of_order_rast;
bool assume_no_z_fights;
bool commutative_blend_add;
bool clear_db_cache_before_clear;
bool has_msaa_sample_loc_bug;
bool has_ls_vgpr_init_bug;
bool dpbb_allowed;
bool dfsm_allowed;
bool llvm_has_working_vgpr_indexing;
/* Whether shaders are monolithic (1-part) or separate (3-part). */
bool use_monolithic_shaders;
bool record_llvm_ir;
bool has_rbplus; /* if RB+ registers exist */
bool rbplus_allowed; /* if RB+ is allowed */
bool dcc_msaa_allowed;
bool cpdma_prefetch_writes_memory;
struct slab_parent_pool pool_transfers;
/* Texture filter settings. */
int force_aniso; /* -1 = disabled */
/* Auxiliary context. Mainly used to initialize resources.
* It must be locked prior to using and flushed before unlocking. */
struct pipe_context *aux_context;
mtx_t aux_context_lock;
/* This must be in the screen, because UE4 uses one context for
* compilation and another one for rendering.
*/
unsigned num_compilations;
/* Along with ST_DEBUG=precompile, this should show if applications
* are loading shaders on demand. This is a monotonic counter.
*/
unsigned num_shaders_created;
unsigned num_shader_cache_hits;
/* GPU load thread. */
mtx_t gpu_load_mutex;
thrd_t gpu_load_thread;
union si_mmio_counters mmio_counters;
volatile unsigned gpu_load_stop_thread; /* bool */
/* Performance counters. */
struct si_perfcounters *perfcounters;
/* If pipe_screen wants to recompute and re-emit the framebuffer,
* sampler, and image states of all contexts, it should atomically
* increment this.
*
* Each context will compare this with its own last known value of
* the counter before drawing and re-emit the states accordingly.
*/
unsigned dirty_tex_counter;
/* Atomically increment this counter when an existing texture's
* metadata is enabled or disabled in a way that requires changing
* contexts' compressed texture binding masks.
*/
unsigned compressed_colortex_counter;
struct {
/* Context flags to set so that all writes from earlier jobs
* in the CP are seen by L2 clients.
*/
unsigned cp_to_L2;
/* Context flags to set so that all writes from earlier jobs
* that end in L2 are seen by CP.
*/
unsigned L2_to_cp;
} barrier_flags;
mtx_t shader_parts_mutex;
struct si_shader_part *vs_prologs;
struct si_shader_part *tcs_epilogs;
struct si_shader_part *gs_prologs;
struct si_shader_part *ps_prologs;
struct si_shader_part *ps_epilogs;
/* Shader cache in memory.
*
* Design & limitations:
* - The shader cache is per screen (= per process), never saved to
* disk, and skips redundant shader compilations from TGSI to bytecode.
* - It can only be used with one-variant-per-shader support, in which
* case only the main (typically middle) part of shaders is cached.
* - Only VS, TCS, TES, PS are cached, out of which only the hw VS
* variants of VS and TES are cached, so LS and ES aren't.
* - GS and CS aren't cached, but it's certainly possible to cache
* those as well.
*/
mtx_t shader_cache_mutex;
struct hash_table *shader_cache;
/* Shader compiler queue for multithreaded compilation. */
struct util_queue shader_compiler_queue;
/* Use at most 3 normal compiler threads on quadcore and better.
* Hyperthreaded CPUs report the number of threads, but we want
* the number of cores. We only need this many threads for shader-db. */
struct ac_llvm_compiler compiler[24]; /* used by the queue only */
struct util_queue shader_compiler_queue_low_priority;
/* Use at most 2 low priority threads on quadcore and better.
* We want to minimize the impact on multithreaded Mesa. */
struct ac_llvm_compiler compiler_lowp[10];
};
struct si_blend_color {
struct pipe_blend_color state;
bool any_nonzeros;
};
struct si_sampler_view {
struct pipe_sampler_view base;
/* [0..7] = image descriptor
* [4..7] = buffer descriptor */
uint32_t state[8];
uint32_t fmask_state[8];
const struct legacy_surf_level *base_level_info;
ubyte base_level;
ubyte block_width;
bool is_stencil_sampler;
bool is_integer;
bool dcc_incompatible;
};
#define SI_SAMPLER_STATE_MAGIC 0x34f1c35a
struct si_sampler_state {
#ifdef DEBUG
unsigned magic;
#endif
uint32_t val[4];
uint32_t integer_val[4];
uint32_t upgraded_depth_val[4];
};
struct si_cs_shader_state {
struct si_compute *program;
struct si_compute *emitted_program;
unsigned offset;
bool initialized;
bool uses_scratch;
};
struct si_samplers {
struct pipe_sampler_view *views[SI_NUM_SAMPLERS];
struct si_sampler_state *sampler_states[SI_NUM_SAMPLERS];
/* The i-th bit is set if that element is enabled (non-NULL resource). */
unsigned enabled_mask;
uint32_t needs_depth_decompress_mask;
uint32_t needs_color_decompress_mask;
};
struct si_images {
struct pipe_image_view views[SI_NUM_IMAGES];
uint32_t needs_color_decompress_mask;
unsigned enabled_mask;
};
struct si_framebuffer {
struct pipe_framebuffer_state state;
unsigned colorbuf_enabled_4bit;
unsigned spi_shader_col_format;
unsigned spi_shader_col_format_alpha;
unsigned spi_shader_col_format_blend;
unsigned spi_shader_col_format_blend_alpha;
ubyte nr_samples:5; /* at most 16xAA */
ubyte log_samples:3; /* at most 4 = 16xAA */
ubyte nr_color_samples; /* at most 8xAA */
ubyte compressed_cb_mask;
ubyte uncompressed_cb_mask;
ubyte color_is_int8;
ubyte color_is_int10;
ubyte dirty_cbufs;
bool dirty_zsbuf;
bool any_dst_linear;
bool CB_has_shader_readable_metadata;
bool DB_has_shader_readable_metadata;
};
struct si_signed_scissor {
int minx;
int miny;
int maxx;
int maxy;
};
struct si_scissors {
unsigned dirty_mask;
struct pipe_scissor_state states[SI_MAX_VIEWPORTS];
};
struct si_viewports {
unsigned dirty_mask;
unsigned depth_range_dirty_mask;
struct pipe_viewport_state states[SI_MAX_VIEWPORTS];
struct si_signed_scissor as_scissor[SI_MAX_VIEWPORTS];
};
struct si_clip_state {
struct pipe_clip_state state;
bool any_nonzeros;
};
struct si_streamout_target {
struct pipe_stream_output_target b;
/* The buffer where BUFFER_FILLED_SIZE is stored. */
struct r600_resource *buf_filled_size;
unsigned buf_filled_size_offset;
bool buf_filled_size_valid;
unsigned stride_in_dw;
};
struct si_streamout {
bool begin_emitted;
unsigned enabled_mask;
unsigned num_targets;
struct si_streamout_target *targets[PIPE_MAX_SO_BUFFERS];
unsigned append_bitmask;
bool suspended;
/* External state which comes from the vertex shader,
* it must be set explicitly when binding a shader. */
uint16_t *stride_in_dw;
unsigned enabled_stream_buffers_mask; /* stream0 buffers0-3 in 4 LSB */
/* The state of VGT_STRMOUT_BUFFER_(CONFIG|EN). */
unsigned hw_enabled_mask;
/* The state of VGT_STRMOUT_(CONFIG|EN). */
bool streamout_enabled;
bool prims_gen_query_enabled;
int num_prims_gen_queries;
};
/* A shader state consists of the shader selector, which is a constant state
* object shared by multiple contexts and shouldn't be modified, and
* the current shader variant selected for this context.
*/
struct si_shader_ctx_state {
struct si_shader_selector *cso;
struct si_shader *current;
};
#define SI_NUM_VGT_PARAM_KEY_BITS 12
#define SI_NUM_VGT_PARAM_STATES (1 << SI_NUM_VGT_PARAM_KEY_BITS)
/* The IA_MULTI_VGT_PARAM key used to index the table of precomputed values.
* Some fields are set by state-change calls, most are set by draw_vbo.
*/
union si_vgt_param_key {
struct {
#ifdef PIPE_ARCH_LITTLE_ENDIAN
unsigned prim:4;
unsigned uses_instancing:1;
unsigned multi_instances_smaller_than_primgroup:1;
unsigned primitive_restart:1;
unsigned count_from_stream_output:1;
unsigned line_stipple_enabled:1;
unsigned uses_tess:1;
unsigned tess_uses_prim_id:1;
unsigned uses_gs:1;
unsigned _pad:32 - SI_NUM_VGT_PARAM_KEY_BITS;
#else /* PIPE_ARCH_BIG_ENDIAN */
unsigned _pad:32 - SI_NUM_VGT_PARAM_KEY_BITS;
unsigned uses_gs:1;
unsigned tess_uses_prim_id:1;
unsigned uses_tess:1;
unsigned line_stipple_enabled:1;
unsigned count_from_stream_output:1;
unsigned primitive_restart:1;
unsigned multi_instances_smaller_than_primgroup:1;
unsigned uses_instancing:1;
unsigned prim:4;
#endif
} u;
uint32_t index;
};
struct si_texture_handle
{
unsigned desc_slot;
bool desc_dirty;
struct pipe_sampler_view *view;
struct si_sampler_state sstate;
};
struct si_image_handle
{
unsigned desc_slot;
bool desc_dirty;
struct pipe_image_view view;
};
struct si_saved_cs {
struct pipe_reference reference;
struct si_context *ctx;
struct radeon_saved_cs gfx;
struct r600_resource *trace_buf;
unsigned trace_id;
unsigned gfx_last_dw;
bool flushed;
int64_t time_flush;
};
struct si_context {
struct pipe_context b; /* base class */
enum radeon_family family;
enum chip_class chip_class;
struct radeon_winsys *ws;
struct radeon_winsys_ctx *ctx;
struct radeon_cmdbuf *gfx_cs;
struct radeon_cmdbuf *dma_cs;
struct pipe_fence_handle *last_gfx_fence;
struct pipe_fence_handle *last_sdma_fence;
struct r600_resource *eop_bug_scratch;
struct u_upload_mgr *cached_gtt_allocator;
struct threaded_context *tc;
struct u_suballocator *allocator_zeroed_memory;
struct slab_child_pool pool_transfers;
struct slab_child_pool pool_transfers_unsync; /* for threaded_context */
struct pipe_device_reset_callback device_reset_callback;
struct u_log_context *log;
void *query_result_shader;
struct blitter_context *blitter;
void *custom_dsa_flush;
void *custom_blend_resolve;
void *custom_blend_fmask_decompress;
void *custom_blend_eliminate_fastclear;
void *custom_blend_dcc_decompress;
void *vs_blit_pos;
void *vs_blit_pos_layered;
void *vs_blit_color;
void *vs_blit_color_layered;
void *vs_blit_texcoord;
struct si_screen *screen;
struct pipe_debug_callback debug;
struct ac_llvm_compiler compiler; /* only non-threaded compilation */
struct si_shader_ctx_state fixed_func_tcs_shader;
struct r600_resource *wait_mem_scratch;
unsigned wait_mem_number;
uint16_t prefetch_L2_mask;
bool gfx_flush_in_progress:1;
bool gfx_last_ib_is_busy:1;
bool compute_is_busy:1;
unsigned num_gfx_cs_flushes;
unsigned initial_gfx_cs_size;
unsigned gpu_reset_counter;
unsigned last_dirty_tex_counter;
unsigned last_compressed_colortex_counter;
unsigned last_num_draw_calls;
unsigned flags; /* flush flags */
/* Current unaccounted memory usage. */
uint64_t vram;
uint64_t gtt;
/* Atoms (direct states). */
union si_state_atoms atoms;
unsigned dirty_atoms; /* mask */
/* PM4 states (precomputed immutable states) */
unsigned dirty_states;
union si_state queued;
union si_state emitted;
/* Atom declarations. */
struct si_framebuffer framebuffer;
unsigned sample_locs_num_samples;
uint16_t sample_mask;
unsigned last_cb_target_mask;
struct si_blend_color blend_color;
struct si_clip_state clip_state;
struct si_shader_data shader_pointers;
struct si_stencil_ref stencil_ref;
struct si_scissors scissors;
struct si_streamout streamout;
struct si_viewports viewports;
unsigned num_window_rectangles;
bool window_rectangles_include;
struct pipe_scissor_state window_rectangles[4];
/* Precomputed states. */
struct si_pm4_state *init_config;
struct si_pm4_state *init_config_gs_rings;
bool init_config_has_vgt_flush;
struct si_pm4_state *vgt_shader_config[4];
/* shaders */
struct si_shader_ctx_state ps_shader;
struct si_shader_ctx_state gs_shader;
struct si_shader_ctx_state vs_shader;
struct si_shader_ctx_state tcs_shader;
struct si_shader_ctx_state tes_shader;
struct si_cs_shader_state cs_shader_state;
/* shader information */
struct si_vertex_elements *vertex_elements;
unsigned sprite_coord_enable;
bool flatshade;
bool do_update_shaders;
/* vertex buffer descriptors */
uint32_t *vb_descriptors_gpu_list;
struct r600_resource *vb_descriptors_buffer;
unsigned vb_descriptors_offset;
/* shader descriptors */
struct si_descriptors descriptors[SI_NUM_DESCS];
unsigned descriptors_dirty;
unsigned shader_pointers_dirty;
unsigned shader_needs_decompress_mask;
struct si_buffer_resources rw_buffers;
struct si_buffer_resources const_and_shader_buffers[SI_NUM_SHADERS];
struct si_samplers samplers[SI_NUM_SHADERS];
struct si_images images[SI_NUM_SHADERS];
/* other shader resources */
struct pipe_constant_buffer null_const_buf; /* used for set_constant_buffer(NULL) on CIK */
struct pipe_resource *esgs_ring;
struct pipe_resource *gsvs_ring;
struct pipe_resource *tess_rings;
union pipe_color_union *border_color_table; /* in CPU memory, any endian */
struct r600_resource *border_color_buffer;
union pipe_color_union *border_color_map; /* in VRAM (slow access), little endian */
unsigned border_color_count;
unsigned num_vs_blit_sgprs;
uint32_t vs_blit_sh_data[SI_VS_BLIT_SGPRS_POS_TEXCOORD];
/* Vertex and index buffers. */
bool vertex_buffers_dirty;
bool vertex_buffer_pointer_dirty;
struct pipe_vertex_buffer vertex_buffer[SI_NUM_VERTEX_BUFFERS];
/* MSAA config state. */
int ps_iter_samples;
bool ps_uses_fbfetch;
bool smoothing_enabled;
/* DB render state. */
unsigned ps_db_shader_control;
unsigned dbcb_copy_sample;
bool dbcb_depth_copy_enabled:1;
bool dbcb_stencil_copy_enabled:1;
bool db_flush_depth_inplace:1;
bool db_flush_stencil_inplace:1;
bool db_depth_clear:1;
bool db_depth_disable_expclear:1;
bool db_stencil_clear:1;
bool db_stencil_disable_expclear:1;
bool occlusion_queries_disabled:1;
bool generate_mipmap_for_depth:1;
/* Emitted draw state. */
bool gs_tri_strip_adj_fix:1;
bool ls_vgpr_fix:1;
int last_index_size;
int last_base_vertex;
int last_start_instance;
int last_drawid;
int last_sh_base_reg;
int last_primitive_restart_en;
int last_restart_index;
int last_prim;
int last_multi_vgt_param;
int last_rast_prim;
unsigned last_sc_line_stipple;
unsigned current_vs_state;
unsigned last_vs_state;
enum pipe_prim_type current_rast_prim; /* primitive type after TES, GS */
/* Scratch buffer */
struct r600_resource *scratch_buffer;
unsigned scratch_waves;
unsigned spi_tmpring_size;
struct r600_resource *compute_scratch_buffer;
/* Emitted derived tessellation state. */
/* Local shader (VS), or HS if LS-HS are merged. */
struct si_shader *last_ls;
struct si_shader_selector *last_tcs;
int last_num_tcs_input_cp;
int last_tes_sh_base;
bool last_tess_uses_primid;
unsigned last_num_patches;
int last_ls_hs_config;
/* Debug state. */
bool is_debug;
struct si_saved_cs *current_saved_cs;
uint64_t dmesg_timestamp;
unsigned apitrace_call_number;
/* Other state */
bool need_check_render_feedback;
bool decompression_enabled;
bool dpbb_force_off;
bool vs_writes_viewport_index;
bool vs_disables_clipping_viewport;
/* Precomputed IA_MULTI_VGT_PARAM */
union si_vgt_param_key ia_multi_vgt_param_key;
unsigned ia_multi_vgt_param[SI_NUM_VGT_PARAM_STATES];
/* Bindless descriptors. */
struct si_descriptors bindless_descriptors;
struct util_idalloc bindless_used_slots;
unsigned num_bindless_descriptors;
bool bindless_descriptors_dirty;
bool graphics_bindless_pointer_dirty;
bool compute_bindless_pointer_dirty;
/* Allocated bindless handles */
struct hash_table *tex_handles;
struct hash_table *img_handles;
/* Resident bindless handles */
struct util_dynarray resident_tex_handles;
struct util_dynarray resident_img_handles;
/* Resident bindless handles which need decompression */
struct util_dynarray resident_tex_needs_color_decompress;
struct util_dynarray resident_img_needs_color_decompress;
struct util_dynarray resident_tex_needs_depth_decompress;
/* Bindless state */
bool uses_bindless_samplers;
bool uses_bindless_images;
/* MSAA sample locations.
* The first index is the sample index.
* The second index is the coordinate: X, Y. */
float sample_locations_1x[1][2];
float sample_locations_2x[2][2];
float sample_locations_4x[4][2];
float sample_locations_8x[8][2];
float sample_locations_16x[16][2];
/* Misc stats. */
unsigned num_draw_calls;
unsigned num_decompress_calls;
unsigned num_mrt_draw_calls;
unsigned num_prim_restart_calls;
unsigned num_spill_draw_calls;
unsigned num_compute_calls;
unsigned num_spill_compute_calls;
unsigned num_dma_calls;
unsigned num_cp_dma_calls;
unsigned num_vs_flushes;
unsigned num_ps_flushes;
unsigned num_cs_flushes;
unsigned num_cb_cache_flushes;
unsigned num_db_cache_flushes;
unsigned num_L2_invalidates;
unsigned num_L2_writebacks;
unsigned num_resident_handles;
uint64_t num_alloc_tex_transfer_bytes;
unsigned last_tex_ps_draw_ratio; /* for query */
/* Queries. */
/* Maintain the list of active queries for pausing between IBs. */
int num_occlusion_queries;
int num_perfect_occlusion_queries;
struct list_head active_queries;
unsigned num_cs_dw_queries_suspend;
/* Render condition. */
struct pipe_query *render_cond;
unsigned render_cond_mode;
bool render_cond_invert;
bool render_cond_force_off; /* for u_blitter */
/* Statistics gathering for the DCC enablement heuristic. It can't be
* in si_texture because si_texture can be shared by multiple
* contexts. This is for back buffers only. We shouldn't get too many
* of those.
*
* X11 DRI3 rotates among a finite set of back buffers. They should
* all fit in this array. If they don't, separate DCC might never be
* enabled by DCC stat gathering.
*/
struct {
struct si_texture *tex;
/* Query queue: 0 = usually active, 1 = waiting, 2 = readback. */
struct pipe_query *ps_stats[3];
/* If all slots are used and another slot is needed,
* the least recently used slot is evicted based on this. */
int64_t last_use_timestamp;
bool query_active;
} dcc_stats[5];
/* Copy one resource to another using async DMA. */
void (*dma_copy)(struct pipe_context *ctx,
struct pipe_resource *dst,
unsigned dst_level,
unsigned dst_x, unsigned dst_y, unsigned dst_z,
struct pipe_resource *src,
unsigned src_level,
const struct pipe_box *src_box);
void (*dma_clear_buffer)(struct si_context *sctx, struct pipe_resource *dst,
uint64_t offset, uint64_t size, unsigned value);
struct si_tracked_regs tracked_regs;
};
/* cik_sdma.c */
void cik_init_sdma_functions(struct si_context *sctx);
/* si_blit.c */
enum si_blitter_op /* bitmask */
{
SI_SAVE_TEXTURES = 1,
SI_SAVE_FRAMEBUFFER = 2,
SI_SAVE_FRAGMENT_STATE = 4,
SI_DISABLE_RENDER_COND = 8,
};
void si_blitter_begin(struct si_context *sctx, enum si_blitter_op op);
void si_blitter_end(struct si_context *sctx);
void si_init_blit_functions(struct si_context *sctx);
void si_decompress_textures(struct si_context *sctx, unsigned shader_mask);
void si_resource_copy_region(struct pipe_context *ctx,
struct pipe_resource *dst,
unsigned dst_level,
unsigned dstx, unsigned dsty, unsigned dstz,
struct pipe_resource *src,
unsigned src_level,
const struct pipe_box *src_box);
void si_decompress_dcc(struct si_context *sctx, struct si_texture *tex);
void si_blit_decompress_depth(struct pipe_context *ctx,
struct si_texture *texture,
struct si_texture *staging,
unsigned first_level, unsigned last_level,
unsigned first_layer, unsigned last_layer,
unsigned first_sample, unsigned last_sample);
/* si_buffer.c */
bool si_rings_is_buffer_referenced(struct si_context *sctx,
struct pb_buffer *buf,
enum radeon_bo_usage usage);
void *si_buffer_map_sync_with_rings(struct si_context *sctx,
struct r600_resource *resource,
unsigned usage);
void si_init_resource_fields(struct si_screen *sscreen,
struct r600_resource *res,
uint64_t size, unsigned alignment);
bool si_alloc_resource(struct si_screen *sscreen,
struct r600_resource *res);
struct pipe_resource *pipe_aligned_buffer_create(struct pipe_screen *screen,
unsigned flags, unsigned usage,
unsigned size, unsigned alignment);
struct r600_resource *si_aligned_buffer_create(struct pipe_screen *screen,
unsigned flags, unsigned usage,
unsigned size, unsigned alignment);
void si_replace_buffer_storage(struct pipe_context *ctx,
struct pipe_resource *dst,
struct pipe_resource *src);
void si_init_screen_buffer_functions(struct si_screen *sscreen);
void si_init_buffer_functions(struct si_context *sctx);
/* si_clear.c */
enum pipe_format si_simplify_cb_format(enum pipe_format format);
bool vi_alpha_is_on_msb(enum pipe_format format);
void vi_dcc_clear_level(struct si_context *sctx,
struct si_texture *tex,
unsigned level, unsigned clear_value);
void si_init_clear_functions(struct si_context *sctx);
/* si_cp_dma.c */
#define SI_CPDMA_SKIP_CHECK_CS_SPACE (1 << 0) /* don't call need_cs_space */
#define SI_CPDMA_SKIP_SYNC_AFTER (1 << 1) /* don't wait for DMA after the copy */
#define SI_CPDMA_SKIP_SYNC_BEFORE (1 << 2) /* don't wait for DMA before the copy (RAW hazards) */
#define SI_CPDMA_SKIP_GFX_SYNC (1 << 3) /* don't flush caches and don't wait for PS/CS */
#define SI_CPDMA_SKIP_BO_LIST_UPDATE (1 << 4) /* don't update the BO list */
#define SI_CPDMA_SKIP_ALL (SI_CPDMA_SKIP_CHECK_CS_SPACE | \
SI_CPDMA_SKIP_SYNC_AFTER | \
SI_CPDMA_SKIP_SYNC_BEFORE | \
SI_CPDMA_SKIP_GFX_SYNC | \
SI_CPDMA_SKIP_BO_LIST_UPDATE)
enum si_cache_policy {
L2_BYPASS,
L2_LRU, /* same as SLC=0 */
};
enum si_coherency {
SI_COHERENCY_NONE, /* no cache flushes needed */
SI_COHERENCY_SHADER,
SI_COHERENCY_CB_META,
};
void si_cp_dma_wait_for_idle(struct si_context *sctx);
void si_cp_dma_clear_buffer(struct si_context *sctx, struct pipe_resource *dst,
uint64_t offset, uint64_t size, unsigned value,
enum si_coherency coher,
enum si_cache_policy cache_policy);
void si_clear_buffer(struct si_context *sctx, struct pipe_resource *dst,
uint64_t offset, uint64_t size, unsigned value,
enum si_coherency coher);
void si_copy_buffer(struct si_context *sctx,
struct pipe_resource *dst, struct pipe_resource *src,
uint64_t dst_offset, uint64_t src_offset, unsigned size,
unsigned user_flags);
void cik_prefetch_TC_L2_async(struct si_context *sctx, struct pipe_resource *buf,
uint64_t offset, unsigned size);
void cik_emit_prefetch_L2(struct si_context *sctx, bool vertex_stage_only);
void si_init_cp_dma_functions(struct si_context *sctx);
/* si_debug.c */
void si_save_cs(struct radeon_winsys *ws, struct radeon_cmdbuf *cs,
struct radeon_saved_cs *saved, bool get_buffer_list);
void si_clear_saved_cs(struct radeon_saved_cs *saved);
void si_destroy_saved_cs(struct si_saved_cs *scs);
void si_auto_log_cs(void *data, struct u_log_context *log);
void si_log_hw_flush(struct si_context *sctx);
void si_log_draw_state(struct si_context *sctx, struct u_log_context *log);
void si_log_compute_state(struct si_context *sctx, struct u_log_context *log);
void si_init_debug_functions(struct si_context *sctx);
void si_check_vm_faults(struct si_context *sctx,
struct radeon_saved_cs *saved, enum ring_type ring);
bool si_replace_shader(unsigned num, struct ac_shader_binary *binary);
/* si_dma.c */
void si_init_dma_functions(struct si_context *sctx);
/* si_dma_cs.c */
void si_need_dma_space(struct si_context *ctx, unsigned num_dw,
struct r600_resource *dst, struct r600_resource *src);
void si_flush_dma_cs(struct si_context *ctx, unsigned flags,
struct pipe_fence_handle **fence);
void si_screen_clear_buffer(struct si_screen *sscreen, struct pipe_resource *dst,
uint64_t offset, uint64_t size, unsigned value);
/* si_fence.c */
void si_gfx_write_event_eop(struct si_context *ctx,
unsigned event, unsigned event_flags,
unsigned data_sel,
struct r600_resource *buf, uint64_t va,
uint32_t new_fence, unsigned query_type);
unsigned si_gfx_write_fence_dwords(struct si_screen *screen);
void si_gfx_wait_fence(struct si_context *ctx,
uint64_t va, uint32_t ref, uint32_t mask);
void si_init_fence_functions(struct si_context *ctx);
void si_init_screen_fence_functions(struct si_screen *screen);
struct pipe_fence_handle *si_create_fence(struct pipe_context *ctx,
struct tc_unflushed_batch_token *tc_token);
/* si_get.c */
const char *si_get_family_name(const struct si_screen *sscreen);
void si_init_screen_get_functions(struct si_screen *sscreen);
/* si_gfx_cs.c */
void si_flush_gfx_cs(struct si_context *ctx, unsigned flags,
struct pipe_fence_handle **fence);
void si_begin_new_gfx_cs(struct si_context *ctx);
void si_need_gfx_cs_space(struct si_context *ctx);
/* r600_gpu_load.c */
void si_gpu_load_kill_thread(struct si_screen *sscreen);
uint64_t si_begin_counter(struct si_screen *sscreen, unsigned type);
unsigned si_end_counter(struct si_screen *sscreen, unsigned type,
uint64_t begin);
/* si_compute.c */
void si_init_compute_functions(struct si_context *sctx);
/* r600_perfcounters.c */
void si_perfcounters_destroy(struct si_screen *sscreen);
/* si_perfcounters.c */
void si_init_perfcounters(struct si_screen *screen);
/* si_pipe.c */
bool si_check_device_reset(struct si_context *sctx);
/* si_query.c */
void si_init_screen_query_functions(struct si_screen *sscreen);
void si_init_query_functions(struct si_context *sctx);
void si_suspend_queries(struct si_context *sctx);
void si_resume_queries(struct si_context *sctx);
/* si_shaderlib_tgsi.c */
void *si_get_blitter_vs(struct si_context *sctx, enum blitter_attrib_type type,
unsigned num_layers);
void *si_create_fixed_func_tcs(struct si_context *sctx);
void *si_create_query_result_cs(struct si_context *sctx);
/* si_test_dma.c */
void si_test_dma(struct si_screen *sscreen);
/* si_test_clearbuffer.c */
void si_test_clearbuffer_perf(struct si_screen *sscreen);
/* si_uvd.c */
struct pipe_video_codec *si_uvd_create_decoder(struct pipe_context *context,
const struct pipe_video_codec *templ);
struct pipe_video_buffer *si_video_buffer_create(struct pipe_context *pipe,
const struct pipe_video_buffer *tmpl);
/* si_viewport.c */
void si_update_vs_viewport_state(struct si_context *ctx);
void si_init_viewport_functions(struct si_context *ctx);
/* si_texture.c */
bool si_prepare_for_dma_blit(struct si_context *sctx,
struct si_texture *dst,
unsigned dst_level, unsigned dstx,
unsigned dsty, unsigned dstz,
struct si_texture *src,
unsigned src_level,
const struct pipe_box *src_box);
void si_eliminate_fast_color_clear(struct si_context *sctx,
struct si_texture *tex);
void si_texture_discard_cmask(struct si_screen *sscreen,
struct si_texture *tex);
bool si_init_flushed_depth_texture(struct pipe_context *ctx,
struct pipe_resource *texture,
struct si_texture **staging);
void si_print_texture_info(struct si_screen *sscreen,
struct si_texture *tex, struct u_log_context *log);
struct pipe_resource *si_texture_create(struct pipe_screen *screen,
const struct pipe_resource *templ);
bool vi_dcc_formats_compatible(enum pipe_format format1,
enum pipe_format format2);
bool vi_dcc_formats_are_incompatible(struct pipe_resource *tex,
unsigned level,
enum pipe_format view_format);
void vi_disable_dcc_if_incompatible_format(struct si_context *sctx,
struct pipe_resource *tex,
unsigned level,
enum pipe_format view_format);
struct pipe_surface *si_create_surface_custom(struct pipe_context *pipe,
struct pipe_resource *texture,
const struct pipe_surface *templ,
unsigned width0, unsigned height0,
unsigned width, unsigned height);
unsigned si_translate_colorswap(enum pipe_format format, bool do_endian_swap);
void vi_separate_dcc_try_enable(struct si_context *sctx,
struct si_texture *tex);
void vi_separate_dcc_start_query(struct si_context *sctx,
struct si_texture *tex);
void vi_separate_dcc_stop_query(struct si_context *sctx,
struct si_texture *tex);
void vi_separate_dcc_process_and_reset_stats(struct pipe_context *ctx,
struct si_texture *tex);
bool si_texture_disable_dcc(struct si_context *sctx,
struct si_texture *tex);
void si_init_screen_texture_functions(struct si_screen *sscreen);
void si_init_context_texture_functions(struct si_context *sctx);
/*
* common helpers
*/
static inline struct r600_resource *r600_resource(struct pipe_resource *r)
{
return (struct r600_resource*)r;
}
static inline void
r600_resource_reference(struct r600_resource **ptr, struct r600_resource *res)
{
pipe_resource_reference((struct pipe_resource **)ptr,
(struct pipe_resource *)res);
}
static inline void
si_texture_reference(struct si_texture **ptr, struct si_texture *res)
{
pipe_resource_reference((struct pipe_resource **)ptr, &res->buffer.b.b);
}
static inline bool
vi_dcc_enabled(struct si_texture *tex, unsigned level)
{
return tex->dcc_offset && level < tex->surface.num_dcc_levels;
}
static inline unsigned
si_tile_mode_index(struct si_texture *tex, unsigned level, bool stencil)
{
if (stencil)
return tex->surface.u.legacy.stencil_tiling_index[level];
else
return tex->surface.u.legacy.tiling_index[level];
}
static inline void
si_context_add_resource_size(struct si_context *sctx, struct pipe_resource *r)
{
if (r) {
/* Add memory usage for need_gfx_cs_space */
sctx->vram += r600_resource(r)->vram_usage;
sctx->gtt += r600_resource(r)->gart_usage;
}
}
static inline void
si_invalidate_draw_sh_constants(struct si_context *sctx)
{
sctx->last_base_vertex = SI_BASE_VERTEX_UNKNOWN;
}
static inline unsigned
si_get_atom_bit(struct si_context *sctx, struct si_atom *atom)
{
return 1 << (atom - sctx->atoms.array);
}
static inline void
si_set_atom_dirty(struct si_context *sctx, struct si_atom *atom, bool dirty)
{
unsigned bit = si_get_atom_bit(sctx, atom);
if (dirty)
sctx->dirty_atoms |= bit;
else
sctx->dirty_atoms &= ~bit;
}
static inline bool
si_is_atom_dirty(struct si_context *sctx, struct si_atom *atom)
{
return (sctx->dirty_atoms & si_get_atom_bit(sctx, atom)) != 0;
}
static inline void
si_mark_atom_dirty(struct si_context *sctx, struct si_atom *atom)
{
si_set_atom_dirty(sctx, atom, true);
}
static inline struct si_shader_ctx_state *si_get_vs(struct si_context *sctx)
{
if (sctx->gs_shader.cso)
return &sctx->gs_shader;
if (sctx->tes_shader.cso)
return &sctx->tes_shader;
return &sctx->vs_shader;
}
static inline struct tgsi_shader_info *si_get_vs_info(struct si_context *sctx)
{
struct si_shader_ctx_state *vs = si_get_vs(sctx);
return vs->cso ? &vs->cso->info : NULL;
}
static inline struct si_shader* si_get_vs_state(struct si_context *sctx)
{
if (sctx->gs_shader.cso)
return sctx->gs_shader.cso->gs_copy_shader;
struct si_shader_ctx_state *vs = si_get_vs(sctx);
return vs->current ? vs->current : NULL;
}
static inline bool si_can_dump_shader(struct si_screen *sscreen,
unsigned processor)
{
return sscreen->debug_flags & (1 << processor);
}
static inline bool si_get_strmout_en(struct si_context *sctx)
{
return sctx->streamout.streamout_enabled ||
sctx->streamout.prims_gen_query_enabled;
}
static inline unsigned
si_optimal_tcc_alignment(struct si_context *sctx, unsigned upload_size)
{
unsigned alignment, tcc_cache_line_size;
/* If the upload size is less than the cache line size (e.g. 16, 32),
* the whole thing will fit into a cache line if we align it to its size.
* The idea is that multiple small uploads can share a cache line.
* If the upload size is greater, align it to the cache line size.
*/
alignment = util_next_power_of_two(upload_size);
tcc_cache_line_size = sctx->screen->info.tcc_cache_line_size;
return MIN2(alignment, tcc_cache_line_size);
}
static inline void
si_saved_cs_reference(struct si_saved_cs **dst, struct si_saved_cs *src)
{
if (pipe_reference(&(*dst)->reference, &src->reference))
si_destroy_saved_cs(*dst);
*dst = src;
}
static inline void
si_make_CB_shader_coherent(struct si_context *sctx, unsigned num_samples,
bool shaders_read_metadata)
{
sctx->flags |= SI_CONTEXT_FLUSH_AND_INV_CB |
SI_CONTEXT_INV_VMEM_L1;
if (sctx->chip_class >= GFX9) {
/* Single-sample color is coherent with shaders on GFX9, but
* L2 metadata must be flushed if shaders read metadata.
* (DCC, CMASK).
*/
if (num_samples >= 2)
sctx->flags |= SI_CONTEXT_INV_GLOBAL_L2;
else if (shaders_read_metadata)
sctx->flags |= SI_CONTEXT_INV_L2_METADATA;
} else {
/* SI-CI-VI */
sctx->flags |= SI_CONTEXT_INV_GLOBAL_L2;
}
}
static inline void
si_make_DB_shader_coherent(struct si_context *sctx, unsigned num_samples,
bool include_stencil, bool shaders_read_metadata)
{
sctx->flags |= SI_CONTEXT_FLUSH_AND_INV_DB |
SI_CONTEXT_INV_VMEM_L1;
if (sctx->chip_class >= GFX9) {
/* Single-sample depth (not stencil) is coherent with shaders
* on GFX9, but L2 metadata must be flushed if shaders read
* metadata.
*/
if (num_samples >= 2 || include_stencil)
sctx->flags |= SI_CONTEXT_INV_GLOBAL_L2;
else if (shaders_read_metadata)
sctx->flags |= SI_CONTEXT_INV_L2_METADATA;
} else {
/* SI-CI-VI */
sctx->flags |= SI_CONTEXT_INV_GLOBAL_L2;
}
}
static inline bool
si_can_sample_zs(struct si_texture *tex, bool stencil_sampler)
{
return (stencil_sampler && tex->can_sample_s) ||
(!stencil_sampler && tex->can_sample_z);
}
static inline bool
si_htile_enabled(struct si_texture *tex, unsigned level)
{
return tex->htile_offset && level == 0;
}
static inline bool
vi_tc_compat_htile_enabled(struct si_texture *tex, unsigned level)
{
assert(!tex->tc_compatible_htile || tex->htile_offset);
return tex->tc_compatible_htile && level == 0;
}
static inline unsigned si_get_ps_iter_samples(struct si_context *sctx)
{
if (sctx->ps_uses_fbfetch)
return sctx->framebuffer.nr_color_samples;
return MIN2(sctx->ps_iter_samples, sctx->framebuffer.nr_color_samples);
}
static inline unsigned si_get_total_colormask(struct si_context *sctx)
{
if (sctx->queued.named.rasterizer->rasterizer_discard)
return 0;
struct si_shader_selector *ps = sctx->ps_shader.cso;
if (!ps)
return 0;
unsigned colormask = sctx->framebuffer.colorbuf_enabled_4bit &
sctx->queued.named.blend->cb_target_mask;
if (!ps->info.properties[TGSI_PROPERTY_FS_COLOR0_WRITES_ALL_CBUFS])
colormask &= ps->colors_written_4bit;
else if (!ps->colors_written_4bit)
colormask = 0; /* color0 writes all cbufs, but it's not written */
return colormask;
}
#define UTIL_ALL_PRIM_LINE_MODES ((1 << PIPE_PRIM_LINES) | \
(1 << PIPE_PRIM_LINE_LOOP) | \
(1 << PIPE_PRIM_LINE_STRIP) | \
(1 << PIPE_PRIM_LINES_ADJACENCY) | \
(1 << PIPE_PRIM_LINE_STRIP_ADJACENCY))
static inline bool util_prim_is_lines(unsigned prim)
{
return ((1 << prim) & UTIL_ALL_PRIM_LINE_MODES) != 0;
}
static inline bool util_prim_is_points_or_lines(unsigned prim)
{
return ((1 << prim) & (UTIL_ALL_PRIM_LINE_MODES |
(1 << PIPE_PRIM_POINTS))) != 0;
}
/**
* Return true if there is enough memory in VRAM and GTT for the buffers
* added so far.
*
* \param vram VRAM memory size not added to the buffer list yet
* \param gtt GTT memory size not added to the buffer list yet
*/
static inline bool
radeon_cs_memory_below_limit(struct si_screen *screen,
struct radeon_cmdbuf *cs,
uint64_t vram, uint64_t gtt)
{
vram += cs->used_vram;
gtt += cs->used_gart;
/* Anything that goes above the VRAM size should go to GTT. */
if (vram > screen->info.vram_size)
gtt += vram - screen->info.vram_size;
/* Now we just need to check if we have enough GTT. */
return gtt < screen->info.gart_size * 0.7;
}
/**
* Add a buffer to the buffer list for the given command stream (CS).
*
* All buffers used by a CS must be added to the list. This tells the kernel
* driver which buffers are used by GPU commands. Other buffers can
* be swapped out (not accessible) during execution.
*
* The buffer list becomes empty after every context flush and must be
* rebuilt.
*/
static inline void radeon_add_to_buffer_list(struct si_context *sctx,
struct radeon_cmdbuf *cs,
struct r600_resource *rbo,
enum radeon_bo_usage usage,
enum radeon_bo_priority priority)
{
assert(usage);
sctx->ws->cs_add_buffer(
cs, rbo->buf,
(enum radeon_bo_usage)(usage | RADEON_USAGE_SYNCHRONIZED),
rbo->domains, priority);
}
/**
* Same as above, but also checks memory usage and flushes the context
* accordingly.
*
* When this SHOULD NOT be used:
*
* - if si_context_add_resource_size has been called for the buffer
* followed by *_need_cs_space for checking the memory usage
*
* - if si_need_dma_space has been called for the buffer
*
* - when emitting state packets and draw packets (because preceding packets
* can't be re-emitted at that point)
*
* - if shader resource "enabled_mask" is not up-to-date or there is
* a different constraint disallowing a context flush
*/
static inline void
radeon_add_to_gfx_buffer_list_check_mem(struct si_context *sctx,
struct r600_resource *rbo,
enum radeon_bo_usage usage,
enum radeon_bo_priority priority,
bool check_mem)
{
if (check_mem &&
!radeon_cs_memory_below_limit(sctx->screen, sctx->gfx_cs,
sctx->vram + rbo->vram_usage,
sctx->gtt + rbo->gart_usage))
si_flush_gfx_cs(sctx, RADEON_FLUSH_ASYNC_START_NEXT_GFX_IB_NOW, NULL);
radeon_add_to_buffer_list(sctx, sctx->gfx_cs, rbo, usage, priority);
}
#define PRINT_ERR(fmt, args...) \
fprintf(stderr, "EE %s:%d %s - " fmt, __FILE__, __LINE__, __func__, ##args)
#endif
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