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path: root/src/gallium/drivers/radeonsi/si_get.c
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/*
 * Copyright 2017 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.
 */

#include "compiler/nir/nir.h"
#include "radeon/radeon_uvd_enc.h"
#include "radeon/radeon_vce.h"
#include "radeon/radeon_video.h"
#include "si_pipe.h"
#include "util/u_screen.h"
#include "util/u_video.h"
#include "vl/vl_decoder.h"
#include "vl/vl_video_buffer.h"
#include <sys/utsname.h>

static const char *si_get_vendor(struct pipe_screen *pscreen)
{
   /* Don't change this. Games such as Alien Isolation are broken if this
    * returns "Advanced Micro Devices, Inc."
    */
   return "X.Org";
}

static const char *si_get_device_vendor(struct pipe_screen *pscreen)
{
   return "AMD";
}

static int si_get_param(struct pipe_screen *pscreen, enum pipe_cap param)
{
   struct si_screen *sscreen = (struct si_screen *)pscreen;

   switch (param) {
   /* Supported features (boolean caps). */
   case PIPE_CAP_ACCELERATED:
   case PIPE_CAP_MAX_DUAL_SOURCE_RENDER_TARGETS:
   case PIPE_CAP_ANISOTROPIC_FILTER:
   case PIPE_CAP_POINT_SPRITE:
   case PIPE_CAP_OCCLUSION_QUERY:
   case PIPE_CAP_TEXTURE_MIRROR_CLAMP:
   case PIPE_CAP_TEXTURE_SHADOW_LOD:
   case PIPE_CAP_TEXTURE_MIRROR_CLAMP_TO_EDGE:
   case PIPE_CAP_BLEND_EQUATION_SEPARATE:
   case PIPE_CAP_TEXTURE_SWIZZLE:
   case PIPE_CAP_DEPTH_CLIP_DISABLE:
   case PIPE_CAP_DEPTH_CLIP_DISABLE_SEPARATE:
   case PIPE_CAP_SHADER_STENCIL_EXPORT:
   case PIPE_CAP_VERTEX_ELEMENT_INSTANCE_DIVISOR:
   case PIPE_CAP_MIXED_COLORBUFFER_FORMATS:
   case PIPE_CAP_TGSI_FS_COORD_ORIGIN_UPPER_LEFT:
   case PIPE_CAP_TGSI_FS_COORD_PIXEL_CENTER_HALF_INTEGER:
   case PIPE_CAP_TGSI_FS_COORD_PIXEL_CENTER_INTEGER:
   case PIPE_CAP_FRAGMENT_SHADER_TEXTURE_LOD:
   case PIPE_CAP_FRAGMENT_SHADER_DERIVATIVES:
   case PIPE_CAP_VERTEX_SHADER_SATURATE:
   case PIPE_CAP_SEAMLESS_CUBE_MAP:
   case PIPE_CAP_PRIMITIVE_RESTART:
   case PIPE_CAP_PRIMITIVE_RESTART_FIXED_INDEX:
   case PIPE_CAP_CONDITIONAL_RENDER:
   case PIPE_CAP_TEXTURE_BARRIER:
   case PIPE_CAP_INDEP_BLEND_ENABLE:
   case PIPE_CAP_INDEP_BLEND_FUNC:
   case PIPE_CAP_SEAMLESS_CUBE_MAP_PER_TEXTURE:
   case PIPE_CAP_VERTEX_COLOR_UNCLAMPED:
   case PIPE_CAP_START_INSTANCE:
   case PIPE_CAP_NPOT_TEXTURES:
   case PIPE_CAP_MIXED_FRAMEBUFFER_SIZES:
   case PIPE_CAP_MIXED_COLOR_DEPTH_BITS:
   case PIPE_CAP_VERTEX_COLOR_CLAMPED:
   case PIPE_CAP_FRAGMENT_COLOR_CLAMPED:
   case PIPE_CAP_PREFER_BLIT_BASED_TEXTURE_TRANSFER:
   case PIPE_CAP_TGSI_INSTANCEID:
   case PIPE_CAP_COMPUTE:
   case PIPE_CAP_TEXTURE_BUFFER_OBJECTS:
   case PIPE_CAP_TGSI_VS_LAYER_VIEWPORT:
   case PIPE_CAP_QUERY_PIPELINE_STATISTICS:
   case PIPE_CAP_BUFFER_MAP_PERSISTENT_COHERENT:
   case PIPE_CAP_CUBE_MAP_ARRAY:
   case PIPE_CAP_SAMPLE_SHADING:
   case PIPE_CAP_DRAW_INDIRECT:
   case PIPE_CAP_CLIP_HALFZ:
   case PIPE_CAP_TGSI_VS_WINDOW_SPACE_POSITION:
   case PIPE_CAP_POLYGON_OFFSET_CLAMP:
   case PIPE_CAP_MULTISAMPLE_Z_RESOLVE:
   case PIPE_CAP_QUADS_FOLLOW_PROVOKING_VERTEX_CONVENTION:
   case PIPE_CAP_TGSI_TEXCOORD:
   case PIPE_CAP_TGSI_FS_FINE_DERIVATIVE:
   case PIPE_CAP_CONDITIONAL_RENDER_INVERTED:
   case PIPE_CAP_TEXTURE_FLOAT_LINEAR:
   case PIPE_CAP_TEXTURE_HALF_FLOAT_LINEAR:
   case PIPE_CAP_SHAREABLE_SHADERS:
   case PIPE_CAP_DEPTH_BOUNDS_TEST:
   case PIPE_CAP_SAMPLER_VIEW_TARGET:
   case PIPE_CAP_TEXTURE_QUERY_LOD:
   case PIPE_CAP_TEXTURE_GATHER_SM5:
   case PIPE_CAP_TGSI_TXQS:
   case PIPE_CAP_FORCE_PERSAMPLE_INTERP:
   case PIPE_CAP_COPY_BETWEEN_COMPRESSED_AND_PLAIN_FORMATS:
   case PIPE_CAP_TGSI_FS_POSITION_IS_SYSVAL:
   case PIPE_CAP_TGSI_FS_FACE_IS_INTEGER_SYSVAL:
   case PIPE_CAP_INVALIDATE_BUFFER:
   case PIPE_CAP_SURFACE_REINTERPRET_BLOCKS:
   case PIPE_CAP_QUERY_BUFFER_OBJECT:
   case PIPE_CAP_QUERY_MEMORY_INFO:
   case PIPE_CAP_TGSI_PACK_HALF_FLOAT:
   case PIPE_CAP_FRAMEBUFFER_NO_ATTACHMENT:
   case PIPE_CAP_ROBUST_BUFFER_ACCESS_BEHAVIOR:
   case PIPE_CAP_GENERATE_MIPMAP:
   case PIPE_CAP_POLYGON_OFFSET_UNITS_UNSCALED:
   case PIPE_CAP_STRING_MARKER:
   case PIPE_CAP_CLEAR_TEXTURE:
   case PIPE_CAP_CULL_DISTANCE:
   case PIPE_CAP_TGSI_ARRAY_COMPONENTS:
   case PIPE_CAP_TGSI_CAN_READ_OUTPUTS:
   case PIPE_CAP_GLSL_OPTIMIZE_CONSERVATIVELY:
   case PIPE_CAP_STREAM_OUTPUT_PAUSE_RESUME:
   case PIPE_CAP_STREAM_OUTPUT_INTERLEAVE_BUFFERS:
   case PIPE_CAP_DOUBLES:
   case PIPE_CAP_TGSI_TEX_TXF_LZ:
   case PIPE_CAP_TGSI_TES_LAYER_VIEWPORT:
   case PIPE_CAP_BINDLESS_TEXTURE:
   case PIPE_CAP_QUERY_TIMESTAMP:
   case PIPE_CAP_QUERY_TIME_ELAPSED:
   case PIPE_CAP_NIR_SAMPLERS_AS_DEREF:
   case PIPE_CAP_MEMOBJ:
   case PIPE_CAP_LOAD_CONSTBUF:
   case PIPE_CAP_INT64:
   case PIPE_CAP_INT64_DIVMOD:
   case PIPE_CAP_TGSI_CLOCK:
   case PIPE_CAP_CAN_BIND_CONST_BUFFER_AS_VERTEX:
   case PIPE_CAP_ALLOW_MAPPED_BUFFERS_DURING_EXECUTION:
   case PIPE_CAP_SIGNED_VERTEX_BUFFER_OFFSET:
   case PIPE_CAP_TGSI_BALLOT:
   case PIPE_CAP_TGSI_VOTE:
   case PIPE_CAP_FBFETCH:
   case PIPE_CAP_COMPUTE_GRID_INFO_LAST_BLOCK:
   case PIPE_CAP_IMAGE_LOAD_FORMATTED:
   case PIPE_CAP_PREFER_COMPUTE_FOR_MULTIMEDIA:
   case PIPE_CAP_TGSI_DIV:
   case PIPE_CAP_PACKED_UNIFORMS:
   case PIPE_CAP_SHADER_SAMPLES_IDENTICAL:
   case PIPE_CAP_GL_SPIRV:
   case PIPE_CAP_DRAW_INFO_START_WITH_USER_INDICES:
   case PIPE_CAP_ALPHA_TO_COVERAGE_DITHER_CONTROL:
   case PIPE_CAP_MAP_UNSYNCHRONIZED_THREAD_SAFE:
      return 1;

   case PIPE_CAP_GLSL_ZERO_INIT:
      return 2;

   case PIPE_CAP_QUERY_SO_OVERFLOW:
      return !sscreen->use_ngg_streamout;

   case PIPE_CAP_POST_DEPTH_COVERAGE:
      return sscreen->info.chip_class >= GFX10;

   case PIPE_CAP_GRAPHICS:
      return sscreen->info.has_graphics;

   case PIPE_CAP_RESOURCE_FROM_USER_MEMORY:
      return !SI_BIG_ENDIAN && sscreen->info.has_userptr;

   case PIPE_CAP_DEVICE_RESET_STATUS_QUERY:
      return sscreen->info.has_gpu_reset_status_query;

   case PIPE_CAP_TEXTURE_MULTISAMPLE:
      return sscreen->info.has_2d_tiling;

   case PIPE_CAP_MIN_MAP_BUFFER_ALIGNMENT:
      return SI_MAP_BUFFER_ALIGNMENT;

   case PIPE_CAP_CONSTANT_BUFFER_OFFSET_ALIGNMENT:
   case PIPE_CAP_TEXTURE_BUFFER_OFFSET_ALIGNMENT:
   case PIPE_CAP_MAX_TEXTURE_GATHER_COMPONENTS:
   case PIPE_CAP_MAX_STREAM_OUTPUT_BUFFERS:
   case PIPE_CAP_MAX_VERTEX_STREAMS:
   case PIPE_CAP_SHADER_BUFFER_OFFSET_ALIGNMENT:
   case PIPE_CAP_MAX_WINDOW_RECTANGLES:
      return 4;

   case PIPE_CAP_GLSL_FEATURE_LEVEL:
   case PIPE_CAP_GLSL_FEATURE_LEVEL_COMPATIBILITY:
      if (!sscreen->info.has_indirect_compute_dispatch)
         return 420;
      return 460;

   case PIPE_CAP_MAX_TEXTURE_UPLOAD_MEMORY_BUDGET:
      /* Optimal number for good TexSubImage performance on Polaris10. */
      return 64 * 1024 * 1024;

   case PIPE_CAP_GL_BEGIN_END_BUFFER_SIZE:
      return 4096 * 1024;

   case PIPE_CAP_MAX_TEXTURE_BUFFER_SIZE:
   case PIPE_CAP_MAX_SHADER_BUFFER_SIZE:
      /* Align it down to 256 bytes. I've chosen the number randomly. */
      return ROUND_DOWN_TO(MIN2(sscreen->info.max_alloc_size, INT_MAX), 256);

   case PIPE_CAP_VERTEX_BUFFER_OFFSET_4BYTE_ALIGNED_ONLY:
   case PIPE_CAP_VERTEX_BUFFER_STRIDE_4BYTE_ALIGNED_ONLY:
   case PIPE_CAP_VERTEX_ELEMENT_SRC_OFFSET_4BYTE_ALIGNED_ONLY:
      return LLVM_VERSION_MAJOR < 9 && !sscreen->info.has_unaligned_shader_loads;

   case PIPE_CAP_SPARSE_BUFFER_PAGE_SIZE:
      return sscreen->info.has_sparse_vm_mappings ? RADEON_SPARSE_PAGE_SIZE : 0;

   case PIPE_CAP_UMA:
   case PIPE_CAP_PREFER_IMM_ARRAYS_AS_CONSTBUF:
      return 0;

   case PIPE_CAP_FENCE_SIGNAL:
      return sscreen->info.has_syncobj;

   case PIPE_CAP_CONSTBUF0_FLAGS:
      return SI_RESOURCE_FLAG_32BIT;

   case PIPE_CAP_NATIVE_FENCE_FD:
      return sscreen->info.has_fence_to_handle;

   case PIPE_CAP_DRAW_PARAMETERS:
   case PIPE_CAP_MULTI_DRAW_INDIRECT:
   case PIPE_CAP_MULTI_DRAW_INDIRECT_PARAMS:
      return sscreen->has_draw_indirect_multi;

   case PIPE_CAP_MAX_SHADER_PATCH_VARYINGS:
      return 30;

   case PIPE_CAP_MAX_VARYINGS:
      return 32;

   case PIPE_CAP_TEXTURE_BORDER_COLOR_QUIRK:
      return sscreen->info.chip_class <= GFX8 ? PIPE_QUIRK_TEXTURE_BORDER_COLOR_SWIZZLE_R600 : 0;

   /* Stream output. */
   case PIPE_CAP_MAX_STREAM_OUTPUT_SEPARATE_COMPONENTS:
   case PIPE_CAP_MAX_STREAM_OUTPUT_INTERLEAVED_COMPONENTS:
      return 32 * 4;

   /* Geometry shader output. */
   case PIPE_CAP_MAX_GEOMETRY_OUTPUT_VERTICES:
      /* gfx9 has to report 256 to make piglit/gs-max-output pass.
       * gfx8 and earlier can do 1024.
       */
      return 256;
   case PIPE_CAP_MAX_GEOMETRY_TOTAL_OUTPUT_COMPONENTS:
      return 4095;
   case PIPE_CAP_MAX_GS_INVOCATIONS:
      /* Even though the hw supports more, we officially wanna expose only 32. */
      return 32;

   case PIPE_CAP_MAX_VERTEX_ATTRIB_STRIDE:
      return 2048;

   /* Texturing. */
   case PIPE_CAP_MAX_TEXTURE_2D_SIZE:
      return 16384;
   case PIPE_CAP_MAX_TEXTURE_CUBE_LEVELS:
      return 15; /* 16384 */
   case PIPE_CAP_MAX_TEXTURE_3D_LEVELS:
      if (sscreen->info.chip_class >= GFX10)
         return 14;
      /* textures support 8192, but layered rendering supports 2048 */
      return 12;
   case PIPE_CAP_MAX_TEXTURE_ARRAY_LAYERS:
      if (sscreen->info.chip_class >= GFX10)
         return 8192;
      /* textures support 8192, but layered rendering supports 2048 */
      return 2048;

   /* Viewports and render targets. */
   case PIPE_CAP_MAX_VIEWPORTS:
      return SI_MAX_VIEWPORTS;
   case PIPE_CAP_VIEWPORT_SUBPIXEL_BITS:
   case PIPE_CAP_RASTERIZER_SUBPIXEL_BITS:
   case PIPE_CAP_MAX_RENDER_TARGETS:
      return 8;
   case PIPE_CAP_FRAMEBUFFER_MSAA_CONSTRAINTS:
      return sscreen->info.has_eqaa_surface_allocator ? 2 : 0;

   case PIPE_CAP_MIN_TEXTURE_GATHER_OFFSET:
   case PIPE_CAP_MIN_TEXEL_OFFSET:
      return -32;

   case PIPE_CAP_MAX_TEXTURE_GATHER_OFFSET:
   case PIPE_CAP_MAX_TEXEL_OFFSET:
      return 31;

   case PIPE_CAP_ENDIANNESS:
      return PIPE_ENDIAN_LITTLE;

   case PIPE_CAP_VENDOR_ID:
      return ATI_VENDOR_ID;
   case PIPE_CAP_DEVICE_ID:
      return sscreen->info.pci_id;
   case PIPE_CAP_VIDEO_MEMORY:
      return sscreen->info.vram_size >> 20;
   case PIPE_CAP_PCI_GROUP:
      return sscreen->info.pci_domain;
   case PIPE_CAP_PCI_BUS:
      return sscreen->info.pci_bus;
   case PIPE_CAP_PCI_DEVICE:
      return sscreen->info.pci_dev;
   case PIPE_CAP_PCI_FUNCTION:
      return sscreen->info.pci_func;
   case PIPE_CAP_TGSI_ATOMINC_WRAP:
      return LLVM_VERSION_MAJOR >= 10;

   default:
      return u_pipe_screen_get_param_defaults(pscreen, param);
   }
}

static float si_get_paramf(struct pipe_screen *pscreen, enum pipe_capf param)
{
   switch (param) {
   case PIPE_CAPF_MAX_LINE_WIDTH:
   case PIPE_CAPF_MAX_LINE_WIDTH_AA:
      /* This depends on the quant mode, though the precise interactions
       * are unknown. */
      return 2048;
   case PIPE_CAPF_MAX_POINT_WIDTH:
   case PIPE_CAPF_MAX_POINT_WIDTH_AA:
      return SI_MAX_POINT_SIZE;
   case PIPE_CAPF_MAX_TEXTURE_ANISOTROPY:
      return 16.0f;
   case PIPE_CAPF_MAX_TEXTURE_LOD_BIAS:
      return 16.0f;
   case PIPE_CAPF_MIN_CONSERVATIVE_RASTER_DILATE:
   case PIPE_CAPF_MAX_CONSERVATIVE_RASTER_DILATE:
   case PIPE_CAPF_CONSERVATIVE_RASTER_DILATE_GRANULARITY:
      return 0.0f;
   }
   return 0.0f;
}

static int si_get_shader_param(struct pipe_screen *pscreen, enum pipe_shader_type shader,
                               enum pipe_shader_cap param)
{
   struct si_screen *sscreen = (struct si_screen *)pscreen;

   switch (shader) {
   case PIPE_SHADER_FRAGMENT:
   case PIPE_SHADER_VERTEX:
   case PIPE_SHADER_GEOMETRY:
   case PIPE_SHADER_TESS_CTRL:
   case PIPE_SHADER_TESS_EVAL:
      break;
   case PIPE_SHADER_COMPUTE:
      switch (param) {
      case PIPE_SHADER_CAP_SUPPORTED_IRS: {
         int ir = 1 << PIPE_SHADER_IR_NATIVE;

         if (sscreen->info.has_indirect_compute_dispatch)
            ir |= 1 << PIPE_SHADER_IR_NIR;

         return ir;
      }
      default:
         /* If compute shaders don't require a special value
          * for this cap, we can return the same value we
          * do for other shader types. */
         break;
      }
      break;
   default:
      return 0;
   }

   switch (param) {
   /* Shader limits. */
   case PIPE_SHADER_CAP_MAX_INSTRUCTIONS:
   case PIPE_SHADER_CAP_MAX_ALU_INSTRUCTIONS:
   case PIPE_SHADER_CAP_MAX_TEX_INSTRUCTIONS:
   case PIPE_SHADER_CAP_MAX_TEX_INDIRECTIONS:
   case PIPE_SHADER_CAP_MAX_CONTROL_FLOW_DEPTH:
      return 16384;
   case PIPE_SHADER_CAP_MAX_INPUTS:
      return shader == PIPE_SHADER_VERTEX ? SI_MAX_ATTRIBS : 32;
   case PIPE_SHADER_CAP_MAX_OUTPUTS:
      return shader == PIPE_SHADER_FRAGMENT ? 8 : 32;
   case PIPE_SHADER_CAP_MAX_TEMPS:
      return 256; /* Max native temporaries. */
   case PIPE_SHADER_CAP_MAX_CONST_BUFFER_SIZE:
      return si_get_param(pscreen, PIPE_CAP_MAX_SHADER_BUFFER_SIZE);
   case PIPE_SHADER_CAP_MAX_CONST_BUFFERS:
      return SI_NUM_CONST_BUFFERS;
   case PIPE_SHADER_CAP_MAX_TEXTURE_SAMPLERS:
   case PIPE_SHADER_CAP_MAX_SAMPLER_VIEWS:
      return SI_NUM_SAMPLERS;
   case PIPE_SHADER_CAP_MAX_SHADER_BUFFERS:
      return SI_NUM_SHADER_BUFFERS;
   case PIPE_SHADER_CAP_MAX_SHADER_IMAGES:
      return SI_NUM_IMAGES;
   case PIPE_SHADER_CAP_MAX_UNROLL_ITERATIONS_HINT:
      return 0;
   case PIPE_SHADER_CAP_PREFERRED_IR:
      return PIPE_SHADER_IR_NIR;
   case PIPE_SHADER_CAP_LOWER_IF_THRESHOLD:
      return 4;

   /* Supported boolean features. */
   case PIPE_SHADER_CAP_TGSI_CONT_SUPPORTED:
   case PIPE_SHADER_CAP_TGSI_SQRT_SUPPORTED:
   case PIPE_SHADER_CAP_INDIRECT_TEMP_ADDR:
   case PIPE_SHADER_CAP_INDIRECT_CONST_ADDR:
   case PIPE_SHADER_CAP_INTEGERS:
   case PIPE_SHADER_CAP_INT64_ATOMICS:
   case PIPE_SHADER_CAP_TGSI_FMA_SUPPORTED:
   case PIPE_SHADER_CAP_TGSI_ANY_INOUT_DECL_RANGE:
   case PIPE_SHADER_CAP_TGSI_SKIP_MERGE_REGISTERS:
   case PIPE_SHADER_CAP_TGSI_DROUND_SUPPORTED:
   case PIPE_SHADER_CAP_TGSI_LDEXP_SUPPORTED:
   case PIPE_SHADER_CAP_TGSI_DFRACEXP_DLDEXP_SUPPORTED:
      return 1;

   case PIPE_SHADER_CAP_INDIRECT_INPUT_ADDR:
      /* TODO: Indirect indexing of GS inputs is unimplemented. */
      if (shader == PIPE_SHADER_GEOMETRY)
         return 0;

      if (shader == PIPE_SHADER_VERTEX && !sscreen->llvm_has_working_vgpr_indexing)
         return 0;

      /* TCS and TES load inputs directly from LDS or offchip
       * memory, so indirect indexing is always supported.
       * PS has to support indirect indexing, because we can't
       * lower that to TEMPs for INTERP instructions.
       */
      return 1;

   case PIPE_SHADER_CAP_INDIRECT_OUTPUT_ADDR:
      return sscreen->llvm_has_working_vgpr_indexing ||
             /* TCS stores outputs directly to memory. */
             shader == PIPE_SHADER_TESS_CTRL;

   /* Unsupported boolean features. */
   case PIPE_SHADER_CAP_FP16:
   case PIPE_SHADER_CAP_FP16_DERIVATIVES:
   case PIPE_SHADER_CAP_INT16:
   case PIPE_SHADER_CAP_SUBROUTINES:
   case PIPE_SHADER_CAP_SUPPORTED_IRS:
   case PIPE_SHADER_CAP_MAX_HW_ATOMIC_COUNTERS:
   case PIPE_SHADER_CAP_MAX_HW_ATOMIC_COUNTER_BUFFERS:
      return 0;
   }
   return 0;
}

static const struct nir_shader_compiler_options nir_options = {
   .lower_scmp = true,
   .lower_flrp32 = true,
   .lower_flrp64 = true,
   .lower_fsat = true,
   .lower_fdiv = true,
   .lower_bitfield_insert_to_bitfield_select = true,
   .lower_bitfield_extract = true,
   .lower_sub = true,
   .fuse_ffma = true,
   .lower_fmod = true,
   .lower_pack_snorm_4x8 = true,
   .lower_pack_unorm_4x8 = true,
   .lower_unpack_snorm_2x16 = true,
   .lower_unpack_snorm_4x8 = true,
   .lower_unpack_unorm_2x16 = true,
   .lower_unpack_unorm_4x8 = true,
   .lower_extract_byte = true,
   .lower_extract_word = true,
   .lower_rotate = true,
   .lower_to_scalar = true,
   .optimize_sample_mask_in = true,
   .max_unroll_iterations = 32,
   .use_interpolated_input_intrinsics = true,
};

static const void *si_get_compiler_options(struct pipe_screen *screen, enum pipe_shader_ir ir,
                                           enum pipe_shader_type shader)
{
   assert(ir == PIPE_SHADER_IR_NIR);
   return &nir_options;
}

static void si_get_driver_uuid(struct pipe_screen *pscreen, char *uuid)
{
   ac_compute_driver_uuid(uuid, PIPE_UUID_SIZE);
}

static void si_get_device_uuid(struct pipe_screen *pscreen, char *uuid)
{
   struct si_screen *sscreen = (struct si_screen *)pscreen;

   ac_compute_device_uuid(&sscreen->info, uuid, PIPE_UUID_SIZE);
}

static const char *si_get_name(struct pipe_screen *pscreen)
{
   struct si_screen *sscreen = (struct si_screen *)pscreen;

   return sscreen->renderer_string;
}

static int si_get_video_param_no_decode(struct pipe_screen *screen, enum pipe_video_profile profile,
                                        enum pipe_video_entrypoint entrypoint,
                                        enum pipe_video_cap param)
{
   switch (param) {
   case PIPE_VIDEO_CAP_SUPPORTED:
      return vl_profile_supported(screen, profile, entrypoint);
   case PIPE_VIDEO_CAP_NPOT_TEXTURES:
      return 1;
   case PIPE_VIDEO_CAP_MAX_WIDTH:
   case PIPE_VIDEO_CAP_MAX_HEIGHT:
      return vl_video_buffer_max_size(screen);
   case PIPE_VIDEO_CAP_PREFERED_FORMAT:
      return PIPE_FORMAT_NV12;
   case PIPE_VIDEO_CAP_PREFERS_INTERLACED:
      return false;
   case PIPE_VIDEO_CAP_SUPPORTS_INTERLACED:
      return false;
   case PIPE_VIDEO_CAP_SUPPORTS_PROGRESSIVE:
      return true;
   case PIPE_VIDEO_CAP_MAX_LEVEL:
      return vl_level_supported(screen, profile);
   default:
      return 0;
   }
}

static int si_get_video_param(struct pipe_screen *screen, enum pipe_video_profile profile,
                              enum pipe_video_entrypoint entrypoint, enum pipe_video_cap param)
{
   struct si_screen *sscreen = (struct si_screen *)screen;
   enum pipe_video_format codec = u_reduce_video_profile(profile);

   if (entrypoint == PIPE_VIDEO_ENTRYPOINT_ENCODE) {
      switch (param) {
      case PIPE_VIDEO_CAP_SUPPORTED:
         return (
            (codec == PIPE_VIDEO_FORMAT_MPEG4_AVC &&
             (sscreen->info.family >= CHIP_RAVEN || si_vce_is_fw_version_supported(sscreen))) ||
            (profile == PIPE_VIDEO_PROFILE_HEVC_MAIN &&
             (sscreen->info.family >= CHIP_RAVEN || si_radeon_uvd_enc_supported(sscreen))) ||
            (profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10 && sscreen->info.family >= CHIP_RENOIR));
      case PIPE_VIDEO_CAP_NPOT_TEXTURES:
         return 1;
      case PIPE_VIDEO_CAP_MAX_WIDTH:
         return (sscreen->info.family < CHIP_TONGA) ? 2048 : 4096;
      case PIPE_VIDEO_CAP_MAX_HEIGHT:
         return (sscreen->info.family < CHIP_TONGA) ? 1152 : 2304;
      case PIPE_VIDEO_CAP_PREFERED_FORMAT:
         return PIPE_FORMAT_NV12;
      case PIPE_VIDEO_CAP_PREFERS_INTERLACED:
         return false;
      case PIPE_VIDEO_CAP_SUPPORTS_INTERLACED:
         return false;
      case PIPE_VIDEO_CAP_SUPPORTS_PROGRESSIVE:
         return true;
      case PIPE_VIDEO_CAP_STACKED_FRAMES:
         return (sscreen->info.family < CHIP_TONGA) ? 1 : 2;
      default:
         return 0;
      }
   }

   switch (param) {
   case PIPE_VIDEO_CAP_SUPPORTED:
      switch (codec) {
      case PIPE_VIDEO_FORMAT_MPEG12:
         return profile != PIPE_VIDEO_PROFILE_MPEG1;
      case PIPE_VIDEO_FORMAT_MPEG4:
         return 1;
      case PIPE_VIDEO_FORMAT_MPEG4_AVC:
         if ((sscreen->info.family == CHIP_POLARIS10 || sscreen->info.family == CHIP_POLARIS11) &&
             sscreen->info.uvd_fw_version < UVD_FW_1_66_16) {
            RVID_ERR("POLARIS10/11 firmware version need to be updated.\n");
            return false;
         }
         return true;
      case PIPE_VIDEO_FORMAT_VC1:
         return true;
      case PIPE_VIDEO_FORMAT_HEVC:
         /* Carrizo only supports HEVC Main */
         if (sscreen->info.family >= CHIP_STONEY)
            return (profile == PIPE_VIDEO_PROFILE_HEVC_MAIN ||
                    profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10);
         else if (sscreen->info.family >= CHIP_CARRIZO)
            return profile == PIPE_VIDEO_PROFILE_HEVC_MAIN;
         return false;
      case PIPE_VIDEO_FORMAT_JPEG:
         if (sscreen->info.family >= CHIP_RAVEN)
            return true;
         if (sscreen->info.family < CHIP_CARRIZO || sscreen->info.family >= CHIP_VEGA10)
            return false;
         if (!(sscreen->info.is_amdgpu && sscreen->info.drm_minor >= 19)) {
            RVID_ERR("No MJPEG support for the kernel version\n");
            return false;
         }
         return true;
      case PIPE_VIDEO_FORMAT_VP9:
         if (sscreen->info.family < CHIP_RAVEN)
            return false;
         return true;
      default:
         return false;
      }
   case PIPE_VIDEO_CAP_NPOT_TEXTURES:
      return 1;
   case PIPE_VIDEO_CAP_MAX_WIDTH:
      switch (codec) {
      case PIPE_VIDEO_FORMAT_HEVC:
      case PIPE_VIDEO_FORMAT_VP9:
         return (sscreen->info.family < CHIP_RENOIR)
                   ? ((sscreen->info.family < CHIP_TONGA) ? 2048 : 4096)
                   : 8192;
      default:
         return (sscreen->info.family < CHIP_TONGA) ? 2048 : 4096;
      }
   case PIPE_VIDEO_CAP_MAX_HEIGHT:
      switch (codec) {
      case PIPE_VIDEO_FORMAT_HEVC:
      case PIPE_VIDEO_FORMAT_VP9:
         return (sscreen->info.family < CHIP_RENOIR)
                   ? ((sscreen->info.family < CHIP_TONGA) ? 1152 : 4096)
                   : 4352;
      default:
         return (sscreen->info.family < CHIP_TONGA) ? 1152 : 4096;
      }
   case PIPE_VIDEO_CAP_PREFERED_FORMAT:
      if (profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10)
         return PIPE_FORMAT_P010;
      else if (profile == PIPE_VIDEO_PROFILE_VP9_PROFILE2)
         return PIPE_FORMAT_P016;
      else
         return PIPE_FORMAT_NV12;

   case PIPE_VIDEO_CAP_PREFERS_INTERLACED:
   case PIPE_VIDEO_CAP_SUPPORTS_INTERLACED: {
      enum pipe_video_format format = u_reduce_video_profile(profile);

      if (format == PIPE_VIDEO_FORMAT_HEVC)
         return false; // The firmware doesn't support interlaced HEVC.
      else if (format == PIPE_VIDEO_FORMAT_JPEG)
         return false;
      else if (format == PIPE_VIDEO_FORMAT_VP9)
         return false;
      return true;
   }
   case PIPE_VIDEO_CAP_SUPPORTS_PROGRESSIVE:
      return true;
   case PIPE_VIDEO_CAP_MAX_LEVEL:
      switch (profile) {
      case PIPE_VIDEO_PROFILE_MPEG1:
         return 0;
      case PIPE_VIDEO_PROFILE_MPEG2_SIMPLE:
      case PIPE_VIDEO_PROFILE_MPEG2_MAIN:
         return 3;
      case PIPE_VIDEO_PROFILE_MPEG4_SIMPLE:
         return 3;
      case PIPE_VIDEO_PROFILE_MPEG4_ADVANCED_SIMPLE:
         return 5;
      case PIPE_VIDEO_PROFILE_VC1_SIMPLE:
         return 1;
      case PIPE_VIDEO_PROFILE_VC1_MAIN:
         return 2;
      case PIPE_VIDEO_PROFILE_VC1_ADVANCED:
         return 4;
      case PIPE_VIDEO_PROFILE_MPEG4_AVC_BASELINE:
      case PIPE_VIDEO_PROFILE_MPEG4_AVC_MAIN:
      case PIPE_VIDEO_PROFILE_MPEG4_AVC_HIGH:
         return (sscreen->info.family < CHIP_TONGA) ? 41 : 52;
      case PIPE_VIDEO_PROFILE_HEVC_MAIN:
      case PIPE_VIDEO_PROFILE_HEVC_MAIN_10:
         return 186;
      default:
         return 0;
      }
   default:
      return 0;
   }
}

static bool si_vid_is_format_supported(struct pipe_screen *screen, enum pipe_format format,
                                       enum pipe_video_profile profile,
                                       enum pipe_video_entrypoint entrypoint)
{
   /* HEVC 10 bit decoding should use P010 instead of NV12 if possible */
   if (profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10)
      return (format == PIPE_FORMAT_NV12) || (format == PIPE_FORMAT_P010) ||
             (format == PIPE_FORMAT_P016);

   /* Vp9 profile 2 supports 10 bit decoding using P016 */
   if (profile == PIPE_VIDEO_PROFILE_VP9_PROFILE2)
      return format == PIPE_FORMAT_P016;

   /* we can only handle this one with UVD */
   if (profile != PIPE_VIDEO_PROFILE_UNKNOWN)
      return format == PIPE_FORMAT_NV12;

   return vl_video_buffer_is_format_supported(screen, format, profile, entrypoint);
}

static unsigned get_max_threads_per_block(struct si_screen *screen, enum pipe_shader_ir ir_type)
{
   if (ir_type == PIPE_SHADER_IR_NATIVE)
      return 256;

   /* LLVM 10 only supports 1024 threads per block. */
   return 1024;
}

static int si_get_compute_param(struct pipe_screen *screen, enum pipe_shader_ir ir_type,
                                enum pipe_compute_cap param, void *ret)
{
   struct si_screen *sscreen = (struct si_screen *)screen;

   // TODO: select these params by asic
   switch (param) {
   case PIPE_COMPUTE_CAP_IR_TARGET: {
      const char *gpu, *triple;

      triple = "amdgcn-mesa-mesa3d";
      gpu = ac_get_llvm_processor_name(sscreen->info.family);
      if (ret) {
         sprintf(ret, "%s-%s", gpu, triple);
      }
      /* +2 for dash and terminating NIL byte */
      return (strlen(triple) + strlen(gpu) + 2) * sizeof(char);
   }
   case PIPE_COMPUTE_CAP_GRID_DIMENSION:
      if (ret) {
         uint64_t *grid_dimension = ret;
         grid_dimension[0] = 3;
      }
      return 1 * sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_GRID_SIZE:
      if (ret) {
         uint64_t *grid_size = ret;
         grid_size[0] = 65535;
         grid_size[1] = 65535;
         grid_size[2] = 65535;
      }
      return 3 * sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_BLOCK_SIZE:
      if (ret) {
         uint64_t *block_size = ret;
         unsigned threads_per_block = get_max_threads_per_block(sscreen, ir_type);
         block_size[0] = threads_per_block;
         block_size[1] = threads_per_block;
         block_size[2] = threads_per_block;
      }
      return 3 * sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_THREADS_PER_BLOCK:
      if (ret) {
         uint64_t *max_threads_per_block = ret;
         *max_threads_per_block = get_max_threads_per_block(sscreen, ir_type);
      }
      return sizeof(uint64_t);
   case PIPE_COMPUTE_CAP_ADDRESS_BITS:
      if (ret) {
         uint32_t *address_bits = ret;
         address_bits[0] = 64;
      }
      return 1 * sizeof(uint32_t);

   case PIPE_COMPUTE_CAP_MAX_GLOBAL_SIZE:
      if (ret) {
         uint64_t *max_global_size = ret;
         uint64_t max_mem_alloc_size;

         si_get_compute_param(screen, ir_type, PIPE_COMPUTE_CAP_MAX_MEM_ALLOC_SIZE,
                              &max_mem_alloc_size);

         /* In OpenCL, the MAX_MEM_ALLOC_SIZE must be at least
          * 1/4 of the MAX_GLOBAL_SIZE.  Since the
          * MAX_MEM_ALLOC_SIZE is fixed for older kernels,
          * make sure we never report more than
          * 4 * MAX_MEM_ALLOC_SIZE.
          */
         *max_global_size =
            MIN2(4 * max_mem_alloc_size, MAX2(sscreen->info.gart_size, sscreen->info.vram_size));
      }
      return sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_LOCAL_SIZE:
      if (ret) {
         uint64_t *max_local_size = ret;
         /* Value reported by the closed source driver. */
         *max_local_size = 32768;
      }
      return sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_INPUT_SIZE:
      if (ret) {
         uint64_t *max_input_size = ret;
         /* Value reported by the closed source driver. */
         *max_input_size = 1024;
      }
      return sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_MEM_ALLOC_SIZE:
      if (ret) {
         uint64_t *max_mem_alloc_size = ret;

         *max_mem_alloc_size = sscreen->info.max_alloc_size;
      }
      return sizeof(uint64_t);

   case PIPE_COMPUTE_CAP_MAX_CLOCK_FREQUENCY:
      if (ret) {
         uint32_t *max_clock_frequency = ret;
         *max_clock_frequency = sscreen->info.max_shader_clock;
      }
      return sizeof(uint32_t);

   case PIPE_COMPUTE_CAP_MAX_COMPUTE_UNITS:
      if (ret) {
         uint32_t *max_compute_units = ret;
         *max_compute_units = sscreen->info.num_good_compute_units;
      }
      return sizeof(uint32_t);

   case PIPE_COMPUTE_CAP_IMAGES_SUPPORTED:
      if (ret) {
         uint32_t *images_supported = ret;
         *images_supported = 0;
      }
      return sizeof(uint32_t);
   case PIPE_COMPUTE_CAP_MAX_PRIVATE_SIZE:
      break; /* unused */
   case PIPE_COMPUTE_CAP_SUBGROUP_SIZE:
      if (ret) {
         uint32_t *subgroup_size = ret;
         *subgroup_size = sscreen->compute_wave_size;
      }
      return sizeof(uint32_t);
   case PIPE_COMPUTE_CAP_MAX_VARIABLE_THREADS_PER_BLOCK:
      if (ret) {
         uint64_t *max_variable_threads_per_block = ret;
         if (ir_type == PIPE_SHADER_IR_NATIVE)
            *max_variable_threads_per_block = 0;
         else
            *max_variable_threads_per_block = SI_MAX_VARIABLE_THREADS_PER_BLOCK;
      }
      return sizeof(uint64_t);
   }

   fprintf(stderr, "unknown PIPE_COMPUTE_CAP %d\n", param);
   return 0;
}

static uint64_t si_get_timestamp(struct pipe_screen *screen)
{
   struct si_screen *sscreen = (struct si_screen *)screen;

   return 1000000 * sscreen->ws->query_value(sscreen->ws, RADEON_TIMESTAMP) /
          sscreen->info.clock_crystal_freq;
}

static void si_query_memory_info(struct pipe_screen *screen, struct pipe_memory_info *info)
{
   struct si_screen *sscreen = (struct si_screen *)screen;
   struct radeon_winsys *ws = sscreen->ws;
   unsigned vram_usage, gtt_usage;

   info->total_device_memory = sscreen->info.vram_size / 1024;
   info->total_staging_memory = sscreen->info.gart_size / 1024;

   /* The real TTM memory usage is somewhat random, because:
    *
    * 1) TTM delays freeing memory, because it can only free it after
    *    fences expire.
    *
    * 2) The memory usage can be really low if big VRAM evictions are
    *    taking place, but the real usage is well above the size of VRAM.
    *
    * Instead, return statistics of this process.
    */
   vram_usage = ws->query_value(ws, RADEON_VRAM_USAGE) / 1024;
   gtt_usage = ws->query_value(ws, RADEON_GTT_USAGE) / 1024;

   info->avail_device_memory =
      vram_usage <= info->total_device_memory ? info->total_device_memory - vram_usage : 0;
   info->avail_staging_memory =
      gtt_usage <= info->total_staging_memory ? info->total_staging_memory - gtt_usage : 0;

   info->device_memory_evicted = ws->query_value(ws, RADEON_NUM_BYTES_MOVED) / 1024;

   if (sscreen->info.is_amdgpu && sscreen->info.drm_minor >= 4)
      info->nr_device_memory_evictions = ws->query_value(ws, RADEON_NUM_EVICTIONS);
   else
      /* Just return the number of evicted 64KB pages. */
      info->nr_device_memory_evictions = info->device_memory_evicted / 64;
}

static struct disk_cache *si_get_disk_shader_cache(struct pipe_screen *pscreen)
{
   struct si_screen *sscreen = (struct si_screen *)pscreen;

   return sscreen->disk_shader_cache;
}

static void si_init_renderer_string(struct si_screen *sscreen)
{
   char first_name[256], second_name[32] = {}, kernel_version[128] = {};
   struct utsname uname_data;

   if (sscreen->info.marketing_name) {
      snprintf(first_name, sizeof(first_name), "%s", sscreen->info.marketing_name);
      snprintf(second_name, sizeof(second_name), "%s, ", sscreen->info.name);
   } else {
      snprintf(first_name, sizeof(first_name), "AMD %s", sscreen->info.name);
   }

   if (uname(&uname_data) == 0)
      snprintf(kernel_version, sizeof(kernel_version), ", %s", uname_data.release);

   snprintf(sscreen->renderer_string, sizeof(sscreen->renderer_string),
            "%s (%sDRM %i.%i.%i%s, LLVM " MESA_LLVM_VERSION_STRING ")", first_name, second_name,
            sscreen->info.drm_major, sscreen->info.drm_minor, sscreen->info.drm_patchlevel,
            kernel_version);
}

void si_init_screen_get_functions(struct si_screen *sscreen)
{
   sscreen->b.get_name = si_get_name;
   sscreen->b.get_vendor = si_get_vendor;
   sscreen->b.get_device_vendor = si_get_device_vendor;
   sscreen->b.get_param = si_get_param;
   sscreen->b.get_paramf = si_get_paramf;
   sscreen->b.get_compute_param = si_get_compute_param;
   sscreen->b.get_timestamp = si_get_timestamp;
   sscreen->b.get_shader_param = si_get_shader_param;
   sscreen->b.get_compiler_options = si_get_compiler_options;
   sscreen->b.get_device_uuid = si_get_device_uuid;
   sscreen->b.get_driver_uuid = si_get_driver_uuid;
   sscreen->b.query_memory_info = si_query_memory_info;
   sscreen->b.get_disk_shader_cache = si_get_disk_shader_cache;

   if (sscreen->info.has_hw_decode) {
      sscreen->b.get_video_param = si_get_video_param;
      sscreen->b.is_video_format_supported = si_vid_is_format_supported;
   } else {
      sscreen->b.get_video_param = si_get_video_param_no_decode;
      sscreen->b.is_video_format_supported = vl_video_buffer_is_format_supported;
   }

   si_init_renderer_string(sscreen);
}