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|
/*
* Copyright 2010 Jerome Glisse <glisse@freedesktop.org>
*
* 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 "si_pipe.h"
#include "si_public.h"
#include "si_shader_internal.h"
#include "sid.h"
#include "radeon/radeon_uvd.h"
#include "util/hash_table.h"
#include "util/u_log.h"
#include "util/u_memory.h"
#include "util/u_suballoc.h"
#include "util/u_tests.h"
#include "util/xmlconfig.h"
#include "vl/vl_decoder.h"
#include "../ddebug/dd_util.h"
/*
* pipe_context
*/
static void si_destroy_context(struct pipe_context *context)
{
struct si_context *sctx = (struct si_context *)context;
int i;
/* Unreference the framebuffer normally to disable related logic
* properly.
*/
struct pipe_framebuffer_state fb = {};
if (context->set_framebuffer_state)
context->set_framebuffer_state(context, &fb);
si_release_all_descriptors(sctx);
pipe_resource_reference(&sctx->esgs_ring, NULL);
pipe_resource_reference(&sctx->gsvs_ring, NULL);
pipe_resource_reference(&sctx->tf_ring, NULL);
pipe_resource_reference(&sctx->tess_offchip_ring, NULL);
pipe_resource_reference(&sctx->null_const_buf.buffer, NULL);
r600_resource_reference(&sctx->border_color_buffer, NULL);
free(sctx->border_color_table);
r600_resource_reference(&sctx->scratch_buffer, NULL);
r600_resource_reference(&sctx->compute_scratch_buffer, NULL);
r600_resource_reference(&sctx->wait_mem_scratch, NULL);
si_pm4_free_state(sctx, sctx->init_config, ~0);
if (sctx->init_config_gs_rings)
si_pm4_free_state(sctx, sctx->init_config_gs_rings, ~0);
for (i = 0; i < ARRAY_SIZE(sctx->vgt_shader_config); i++)
si_pm4_delete_state(sctx, vgt_shader_config, sctx->vgt_shader_config[i]);
if (sctx->fixed_func_tcs_shader.cso)
sctx->b.b.delete_tcs_state(&sctx->b.b, sctx->fixed_func_tcs_shader.cso);
if (sctx->custom_dsa_flush)
sctx->b.b.delete_depth_stencil_alpha_state(&sctx->b.b, sctx->custom_dsa_flush);
if (sctx->custom_blend_resolve)
sctx->b.b.delete_blend_state(&sctx->b.b, sctx->custom_blend_resolve);
if (sctx->custom_blend_fmask_decompress)
sctx->b.b.delete_blend_state(&sctx->b.b, sctx->custom_blend_fmask_decompress);
if (sctx->custom_blend_eliminate_fastclear)
sctx->b.b.delete_blend_state(&sctx->b.b, sctx->custom_blend_eliminate_fastclear);
if (sctx->custom_blend_dcc_decompress)
sctx->b.b.delete_blend_state(&sctx->b.b, sctx->custom_blend_dcc_decompress);
if (sctx->vs_blit_pos)
sctx->b.b.delete_vs_state(&sctx->b.b, sctx->vs_blit_pos);
if (sctx->vs_blit_pos_layered)
sctx->b.b.delete_vs_state(&sctx->b.b, sctx->vs_blit_pos_layered);
if (sctx->vs_blit_color)
sctx->b.b.delete_vs_state(&sctx->b.b, sctx->vs_blit_color);
if (sctx->vs_blit_color_layered)
sctx->b.b.delete_vs_state(&sctx->b.b, sctx->vs_blit_color_layered);
if (sctx->vs_blit_texcoord)
sctx->b.b.delete_vs_state(&sctx->b.b, sctx->vs_blit_texcoord);
if (sctx->blitter)
util_blitter_destroy(sctx->blitter);
si_common_context_cleanup(&sctx->b);
LLVMDisposeTargetMachine(sctx->tm);
si_saved_cs_reference(&sctx->current_saved_cs, NULL);
_mesa_hash_table_destroy(sctx->tex_handles, NULL);
_mesa_hash_table_destroy(sctx->img_handles, NULL);
util_dynarray_fini(&sctx->resident_tex_handles);
util_dynarray_fini(&sctx->resident_img_handles);
util_dynarray_fini(&sctx->resident_tex_needs_color_decompress);
util_dynarray_fini(&sctx->resident_img_needs_color_decompress);
util_dynarray_fini(&sctx->resident_tex_needs_depth_decompress);
FREE(sctx);
}
static enum pipe_reset_status
si_amdgpu_get_reset_status(struct pipe_context *ctx)
{
struct si_context *sctx = (struct si_context *)ctx;
return sctx->b.ws->ctx_query_reset_status(sctx->b.ctx);
}
/* Apitrace profiling:
* 1) qapitrace : Tools -> Profile: Measure CPU & GPU times
* 2) In the middle panel, zoom in (mouse wheel) on some bad draw call
* and remember its number.
* 3) In Mesa, enable queries and performance counters around that draw
* call and print the results.
* 4) glretrace --benchmark --markers ..
*/
static void si_emit_string_marker(struct pipe_context *ctx,
const char *string, int len)
{
struct si_context *sctx = (struct si_context *)ctx;
dd_parse_apitrace_marker(string, len, &sctx->apitrace_call_number);
if (sctx->b.log)
u_log_printf(sctx->b.log, "\nString marker: %*s\n", len, string);
}
static LLVMTargetMachineRef
si_create_llvm_target_machine(struct si_screen *sscreen)
{
enum ac_target_machine_options tm_options =
(sscreen->b.debug_flags & DBG(SI_SCHED) ? AC_TM_SISCHED : 0) |
(sscreen->b.chip_class >= GFX9 ? AC_TM_FORCE_ENABLE_XNACK : 0) |
(sscreen->b.chip_class < GFX9 ? AC_TM_FORCE_DISABLE_XNACK : 0) |
(!sscreen->llvm_has_working_vgpr_indexing ? AC_TM_PROMOTE_ALLOCA_TO_SCRATCH : 0);
return ac_create_target_machine(sscreen->b.family, tm_options);
}
static void si_set_debug_callback(struct pipe_context *ctx,
const struct pipe_debug_callback *cb)
{
struct si_context *sctx = (struct si_context *)ctx;
struct si_screen *screen = sctx->screen;
util_queue_finish(&screen->shader_compiler_queue);
util_queue_finish(&screen->shader_compiler_queue_low_priority);
if (cb)
sctx->debug = *cb;
else
memset(&sctx->debug, 0, sizeof(sctx->debug));
}
static void si_set_log_context(struct pipe_context *ctx,
struct u_log_context *log)
{
struct si_context *sctx = (struct si_context *)ctx;
sctx->b.log = log;
if (log)
u_log_add_auto_logger(log, si_auto_log_cs, sctx);
}
static struct pipe_context *si_create_context(struct pipe_screen *screen,
unsigned flags)
{
struct si_context *sctx = CALLOC_STRUCT(si_context);
struct si_screen* sscreen = (struct si_screen *)screen;
struct radeon_winsys *ws = sscreen->b.ws;
int shader, i;
if (!sctx)
return NULL;
if (flags & PIPE_CONTEXT_DEBUG)
sscreen->record_llvm_ir = true; /* racy but not critical */
sctx->b.b.screen = screen; /* this must be set first */
sctx->b.b.priv = NULL;
sctx->b.b.destroy = si_destroy_context;
sctx->b.b.emit_string_marker = si_emit_string_marker;
sctx->b.b.set_debug_callback = si_set_debug_callback;
sctx->b.b.set_log_context = si_set_log_context;
sctx->b.set_atom_dirty = (void *)si_set_atom_dirty;
sctx->screen = sscreen; /* Easy accessing of screen/winsys. */
sctx->is_debug = (flags & PIPE_CONTEXT_DEBUG) != 0;
if (!si_common_context_init(&sctx->b, &sscreen->b, flags))
goto fail;
if (sscreen->b.info.drm_major == 3)
sctx->b.b.get_device_reset_status = si_amdgpu_get_reset_status;
si_init_clear_functions(sctx);
si_init_blit_functions(sctx);
si_init_compute_functions(sctx);
si_init_cp_dma_functions(sctx);
si_init_debug_functions(sctx);
si_init_msaa_functions(sctx);
si_init_streamout_functions(sctx);
if (sscreen->b.info.has_hw_decode) {
sctx->b.b.create_video_codec = si_uvd_create_decoder;
sctx->b.b.create_video_buffer = si_video_buffer_create;
} else {
sctx->b.b.create_video_codec = vl_create_decoder;
sctx->b.b.create_video_buffer = vl_video_buffer_create;
}
sctx->b.gfx.cs = ws->cs_create(sctx->b.ctx, RING_GFX,
si_context_gfx_flush, sctx);
sctx->b.gfx.flush = si_context_gfx_flush;
/* Border colors. */
sctx->border_color_table = malloc(SI_MAX_BORDER_COLORS *
sizeof(*sctx->border_color_table));
if (!sctx->border_color_table)
goto fail;
sctx->border_color_buffer = (struct r600_resource*)
pipe_buffer_create(screen, 0, PIPE_USAGE_DEFAULT,
SI_MAX_BORDER_COLORS *
sizeof(*sctx->border_color_table));
if (!sctx->border_color_buffer)
goto fail;
sctx->border_color_map =
ws->buffer_map(sctx->border_color_buffer->buf,
NULL, PIPE_TRANSFER_WRITE);
if (!sctx->border_color_map)
goto fail;
si_init_all_descriptors(sctx);
si_init_fence_functions(sctx);
si_init_state_functions(sctx);
si_init_shader_functions(sctx);
si_init_viewport_functions(sctx);
si_init_ia_multi_vgt_param_table(sctx);
if (sctx->b.chip_class >= CIK)
cik_init_sdma_functions(sctx);
else
si_init_dma_functions(sctx);
if (sscreen->b.debug_flags & DBG(FORCE_DMA))
sctx->b.b.resource_copy_region = sctx->b.dma_copy;
sctx->blitter = util_blitter_create(&sctx->b.b);
if (sctx->blitter == NULL)
goto fail;
sctx->blitter->draw_rectangle = si_draw_rectangle;
sctx->blitter->skip_viewport_restore = true;
sctx->sample_mask.sample_mask = 0xffff;
/* these must be last */
si_begin_new_cs(sctx);
if (sctx->b.chip_class >= GFX9) {
sctx->wait_mem_scratch = (struct r600_resource*)
pipe_buffer_create(screen, 0, PIPE_USAGE_DEFAULT, 4);
if (!sctx->wait_mem_scratch)
goto fail;
/* Initialize the memory. */
struct radeon_winsys_cs *cs = sctx->b.gfx.cs;
radeon_emit(cs, PKT3(PKT3_WRITE_DATA, 3, 0));
radeon_emit(cs, S_370_DST_SEL(V_370_MEMORY_SYNC) |
S_370_WR_CONFIRM(1) |
S_370_ENGINE_SEL(V_370_ME));
radeon_emit(cs, sctx->wait_mem_scratch->gpu_address);
radeon_emit(cs, sctx->wait_mem_scratch->gpu_address >> 32);
radeon_emit(cs, sctx->wait_mem_number);
}
/* CIK cannot unbind a constant buffer (S_BUFFER_LOAD doesn't skip loads
* if NUM_RECORDS == 0). We need to use a dummy buffer instead. */
if (sctx->b.chip_class == CIK) {
sctx->null_const_buf.buffer =
si_aligned_buffer_create(screen,
R600_RESOURCE_FLAG_UNMAPPABLE,
PIPE_USAGE_DEFAULT, 16,
sctx->screen->b.info.tcc_cache_line_size);
if (!sctx->null_const_buf.buffer)
goto fail;
sctx->null_const_buf.buffer_size = sctx->null_const_buf.buffer->width0;
for (shader = 0; shader < SI_NUM_SHADERS; shader++) {
for (i = 0; i < SI_NUM_CONST_BUFFERS; i++) {
sctx->b.b.set_constant_buffer(&sctx->b.b, shader, i,
&sctx->null_const_buf);
}
}
si_set_rw_buffer(sctx, SI_HS_CONST_DEFAULT_TESS_LEVELS,
&sctx->null_const_buf);
si_set_rw_buffer(sctx, SI_VS_CONST_INSTANCE_DIVISORS,
&sctx->null_const_buf);
si_set_rw_buffer(sctx, SI_VS_CONST_CLIP_PLANES,
&sctx->null_const_buf);
si_set_rw_buffer(sctx, SI_PS_CONST_POLY_STIPPLE,
&sctx->null_const_buf);
si_set_rw_buffer(sctx, SI_PS_CONST_SAMPLE_POSITIONS,
&sctx->null_const_buf);
/* Clear the NULL constant buffer, because loads should return zeros. */
si_clear_buffer(&sctx->b.b, sctx->null_const_buf.buffer, 0,
sctx->null_const_buf.buffer->width0, 0,
R600_COHERENCY_SHADER);
}
uint64_t max_threads_per_block;
screen->get_compute_param(screen, PIPE_SHADER_IR_TGSI,
PIPE_COMPUTE_CAP_MAX_THREADS_PER_BLOCK,
&max_threads_per_block);
/* The maximum number of scratch waves. Scratch space isn't divided
* evenly between CUs. The number is only a function of the number of CUs.
* We can decrease the constant to decrease the scratch buffer size.
*
* sctx->scratch_waves must be >= the maximum posible size of
* 1 threadgroup, so that the hw doesn't hang from being unable
* to start any.
*
* The recommended value is 4 per CU at most. Higher numbers don't
* bring much benefit, but they still occupy chip resources (think
* async compute). I've seen ~2% performance difference between 4 and 32.
*/
sctx->scratch_waves = MAX2(32 * sscreen->b.info.num_good_compute_units,
max_threads_per_block / 64);
sctx->tm = si_create_llvm_target_machine(sscreen);
/* Bindless handles. */
sctx->tex_handles = _mesa_hash_table_create(NULL, _mesa_hash_pointer,
_mesa_key_pointer_equal);
sctx->img_handles = _mesa_hash_table_create(NULL, _mesa_hash_pointer,
_mesa_key_pointer_equal);
util_dynarray_init(&sctx->resident_tex_handles, NULL);
util_dynarray_init(&sctx->resident_img_handles, NULL);
util_dynarray_init(&sctx->resident_tex_needs_color_decompress, NULL);
util_dynarray_init(&sctx->resident_img_needs_color_decompress, NULL);
util_dynarray_init(&sctx->resident_tex_needs_depth_decompress, NULL);
return &sctx->b.b;
fail:
fprintf(stderr, "radeonsi: Failed to create a context.\n");
si_destroy_context(&sctx->b.b);
return NULL;
}
static struct pipe_context *si_pipe_create_context(struct pipe_screen *screen,
void *priv, unsigned flags)
{
struct si_screen *sscreen = (struct si_screen *)screen;
struct pipe_context *ctx;
if (sscreen->b.debug_flags & DBG(CHECK_VM))
flags |= PIPE_CONTEXT_DEBUG;
ctx = si_create_context(screen, flags);
if (!(flags & PIPE_CONTEXT_PREFER_THREADED))
return ctx;
/* Clover (compute-only) is unsupported. */
if (flags & PIPE_CONTEXT_COMPUTE_ONLY)
return ctx;
/* When shaders are logged to stderr, asynchronous compilation is
* disabled too. */
if (sscreen->b.debug_flags & DBG_ALL_SHADERS)
return ctx;
/* Use asynchronous flushes only on amdgpu, since the radeon
* implementation for fence_server_sync is incomplete. */
return threaded_context_create(ctx, &sscreen->b.pool_transfers,
si_replace_buffer_storage,
sscreen->b.info.drm_major >= 3 ? si_create_fence : NULL,
&((struct si_context*)ctx)->b.tc);
}
/*
* pipe_screen
*/
static void si_destroy_screen(struct pipe_screen* pscreen)
{
struct si_screen *sscreen = (struct si_screen *)pscreen;
struct si_shader_part *parts[] = {
sscreen->vs_prologs,
sscreen->tcs_epilogs,
sscreen->gs_prologs,
sscreen->ps_prologs,
sscreen->ps_epilogs
};
unsigned i;
if (!sscreen->b.ws->unref(sscreen->b.ws))
return;
util_queue_destroy(&sscreen->shader_compiler_queue);
util_queue_destroy(&sscreen->shader_compiler_queue_low_priority);
for (i = 0; i < ARRAY_SIZE(sscreen->tm); i++)
if (sscreen->tm[i])
LLVMDisposeTargetMachine(sscreen->tm[i]);
for (i = 0; i < ARRAY_SIZE(sscreen->tm_low_priority); i++)
if (sscreen->tm_low_priority[i])
LLVMDisposeTargetMachine(sscreen->tm_low_priority[i]);
/* Free shader parts. */
for (i = 0; i < ARRAY_SIZE(parts); i++) {
while (parts[i]) {
struct si_shader_part *part = parts[i];
parts[i] = part->next;
si_radeon_shader_binary_clean(&part->binary);
FREE(part);
}
}
mtx_destroy(&sscreen->shader_parts_mutex);
si_destroy_shader_cache(sscreen);
si_destroy_common_screen(&sscreen->b);
}
static bool si_init_gs_info(struct si_screen *sscreen)
{
/* gs_table_depth is not used by GFX9 */
if (sscreen->b.chip_class >= GFX9)
return true;
switch (sscreen->b.family) {
case CHIP_OLAND:
case CHIP_HAINAN:
case CHIP_KAVERI:
case CHIP_KABINI:
case CHIP_MULLINS:
case CHIP_ICELAND:
case CHIP_CARRIZO:
case CHIP_STONEY:
sscreen->gs_table_depth = 16;
return true;
case CHIP_TAHITI:
case CHIP_PITCAIRN:
case CHIP_VERDE:
case CHIP_BONAIRE:
case CHIP_HAWAII:
case CHIP_TONGA:
case CHIP_FIJI:
case CHIP_POLARIS10:
case CHIP_POLARIS11:
case CHIP_POLARIS12:
sscreen->gs_table_depth = 32;
return true;
default:
return false;
}
}
static void si_handle_env_var_force_family(struct si_screen *sscreen)
{
const char *family = debug_get_option("SI_FORCE_FAMILY", NULL);
unsigned i;
if (!family)
return;
for (i = CHIP_TAHITI; i < CHIP_LAST; i++) {
if (!strcmp(family, ac_get_llvm_processor_name(i))) {
/* Override family and chip_class. */
sscreen->b.family = sscreen->b.info.family = i;
if (i >= CHIP_VEGA10)
sscreen->b.chip_class = sscreen->b.info.chip_class = GFX9;
else if (i >= CHIP_TONGA)
sscreen->b.chip_class = sscreen->b.info.chip_class = VI;
else if (i >= CHIP_BONAIRE)
sscreen->b.chip_class = sscreen->b.info.chip_class = CIK;
else
sscreen->b.chip_class = sscreen->b.info.chip_class = SI;
/* Don't submit any IBs. */
setenv("RADEON_NOOP", "1", 1);
return;
}
}
fprintf(stderr, "radeonsi: Unknown family: %s\n", family);
exit(1);
}
static void si_test_vmfault(struct si_screen *sscreen)
{
struct pipe_context *ctx = sscreen->b.aux_context;
struct si_context *sctx = (struct si_context *)ctx;
struct pipe_resource *buf =
pipe_buffer_create(&sscreen->b.b, 0, PIPE_USAGE_DEFAULT, 64);
if (!buf) {
puts("Buffer allocation failed.");
exit(1);
}
r600_resource(buf)->gpu_address = 0; /* cause a VM fault */
if (sscreen->b.debug_flags & DBG(TEST_VMFAULT_CP)) {
si_copy_buffer(sctx, buf, buf, 0, 4, 4, 0);
ctx->flush(ctx, NULL, 0);
puts("VM fault test: CP - done.");
}
if (sscreen->b.debug_flags & DBG(TEST_VMFAULT_SDMA)) {
sctx->b.dma_clear_buffer(ctx, buf, 0, 4, 0);
ctx->flush(ctx, NULL, 0);
puts("VM fault test: SDMA - done.");
}
if (sscreen->b.debug_flags & DBG(TEST_VMFAULT_SHADER)) {
util_test_constant_buffer(ctx, buf);
puts("VM fault test: Shader - done.");
}
exit(0);
}
static void si_disk_cache_create(struct si_screen *sscreen)
{
/* Don't use the cache if shader dumping is enabled. */
if (sscreen->b.debug_flags & DBG_ALL_SHADERS)
return;
/* TODO: remove this once gallium supports a nir cache */
if (sscreen->b.debug_flags & DBG(NIR))
return;
uint32_t mesa_timestamp;
if (disk_cache_get_function_timestamp(si_disk_cache_create,
&mesa_timestamp)) {
char *timestamp_str;
int res = -1;
uint32_t llvm_timestamp;
if (disk_cache_get_function_timestamp(LLVMInitializeAMDGPUTargetInfo,
&llvm_timestamp)) {
res = asprintf(×tamp_str, "%u_%u",
mesa_timestamp, llvm_timestamp);
}
if (res != -1) {
/* These flags affect shader compilation. */
uint64_t shader_debug_flags =
sscreen->b.debug_flags &
(DBG(FS_CORRECT_DERIVS_AFTER_KILL) |
DBG(SI_SCHED) |
DBG(UNSAFE_MATH));
sscreen->b.disk_shader_cache =
disk_cache_create(si_get_family_name(sscreen),
timestamp_str,
shader_debug_flags);
free(timestamp_str);
}
}
}
struct pipe_screen *radeonsi_screen_create(struct radeon_winsys *ws,
const struct pipe_screen_config *config)
{
struct si_screen *sscreen = CALLOC_STRUCT(si_screen);
unsigned num_threads, num_compiler_threads, num_compiler_threads_lowprio, i;
if (!sscreen) {
return NULL;
}
sscreen->b.ws = ws;
ws->query_info(ws, &sscreen->b.info);
sscreen->b.family = sscreen->b.info.family;
sscreen->b.chip_class = sscreen->b.info.chip_class;
/* Set functions first. */
sscreen->b.b.context_create = si_pipe_create_context;
sscreen->b.b.destroy = si_destroy_screen;
sscreen->b.b.resource_create = si_resource_create_common;
si_init_screen_get_functions(sscreen);
si_init_screen_fence_functions(sscreen);
si_init_screen_state_functions(sscreen);
/* Set these flags in debug_flags early, so that the shader cache takes
* them into account.
*/
if (driQueryOptionb(config->options,
"glsl_correct_derivatives_after_discard"))
sscreen->b.debug_flags |= DBG(FS_CORRECT_DERIVS_AFTER_KILL);
if (driQueryOptionb(config->options, "radeonsi_enable_sisched"))
sscreen->b.debug_flags |= DBG(SI_SCHED);
if (!si_common_screen_init(&sscreen->b, ws) ||
!si_init_gs_info(sscreen) ||
!si_init_shader_cache(sscreen)) {
FREE(sscreen);
return NULL;
}
si_disk_cache_create(sscreen);
/* Only enable as many threads as we have target machines, but at most
* the number of CPUs - 1 if there is more than one.
*/
num_threads = sysconf(_SC_NPROCESSORS_ONLN);
num_threads = MAX2(1, num_threads - 1);
num_compiler_threads = MIN2(num_threads, ARRAY_SIZE(sscreen->tm));
num_compiler_threads_lowprio =
MIN2(num_threads, ARRAY_SIZE(sscreen->tm_low_priority));
if (!util_queue_init(&sscreen->shader_compiler_queue, "si_shader",
32, num_compiler_threads,
UTIL_QUEUE_INIT_RESIZE_IF_FULL)) {
si_destroy_shader_cache(sscreen);
FREE(sscreen);
return NULL;
}
if (!util_queue_init(&sscreen->shader_compiler_queue_low_priority,
"si_shader_low",
32, num_compiler_threads_lowprio,
UTIL_QUEUE_INIT_RESIZE_IF_FULL |
UTIL_QUEUE_INIT_USE_MINIMUM_PRIORITY)) {
si_destroy_shader_cache(sscreen);
FREE(sscreen);
return NULL;
}
si_handle_env_var_force_family(sscreen);
if (!debug_get_bool_option("RADEON_DISABLE_PERFCOUNTERS", false))
si_init_perfcounters(sscreen);
/* Hawaii has a bug with offchip buffers > 256 that can be worked
* around by setting 4K granularity.
*/
sscreen->tess_offchip_block_dw_size =
sscreen->b.family == CHIP_HAWAII ? 4096 : 8192;
/* The mere presense of CLEAR_STATE in the IB causes random GPU hangs
* on SI. */
sscreen->has_clear_state = sscreen->b.chip_class >= CIK;
sscreen->has_distributed_tess =
sscreen->b.chip_class >= VI &&
sscreen->b.info.max_se >= 2;
sscreen->has_draw_indirect_multi =
(sscreen->b.family >= CHIP_POLARIS10) ||
(sscreen->b.chip_class == VI &&
sscreen->b.info.pfp_fw_version >= 121 &&
sscreen->b.info.me_fw_version >= 87) ||
(sscreen->b.chip_class == CIK &&
sscreen->b.info.pfp_fw_version >= 211 &&
sscreen->b.info.me_fw_version >= 173) ||
(sscreen->b.chip_class == SI &&
sscreen->b.info.pfp_fw_version >= 79 &&
sscreen->b.info.me_fw_version >= 142);
sscreen->has_out_of_order_rast = sscreen->b.chip_class >= VI &&
sscreen->b.info.max_se >= 2 &&
!(sscreen->b.debug_flags & DBG(NO_OUT_OF_ORDER));
sscreen->assume_no_z_fights =
driQueryOptionb(config->options, "radeonsi_assume_no_z_fights");
sscreen->commutative_blend_add =
driQueryOptionb(config->options, "radeonsi_commutative_blend_add");
sscreen->clear_db_cache_before_clear =
driQueryOptionb(config->options, "radeonsi_clear_db_cache_before_clear");
sscreen->has_msaa_sample_loc_bug = (sscreen->b.family >= CHIP_POLARIS10 &&
sscreen->b.family <= CHIP_POLARIS12) ||
sscreen->b.family == CHIP_VEGA10 ||
sscreen->b.family == CHIP_RAVEN;
sscreen->has_ls_vgpr_init_bug = sscreen->b.family == CHIP_VEGA10 ||
sscreen->b.family == CHIP_RAVEN;
if (sscreen->b.debug_flags & DBG(DPBB)) {
sscreen->dpbb_allowed = true;
} else {
/* Only enable primitive binning on Raven by default. */
sscreen->dpbb_allowed = sscreen->b.family == CHIP_RAVEN &&
!(sscreen->b.debug_flags & DBG(NO_DPBB));
}
if (sscreen->b.debug_flags & DBG(DFSM)) {
sscreen->dfsm_allowed = sscreen->dpbb_allowed;
} else {
sscreen->dfsm_allowed = sscreen->dpbb_allowed &&
!(sscreen->b.debug_flags & DBG(NO_DFSM));
}
/* While it would be nice not to have this flag, we are constrained
* by the reality that LLVM 5.0 doesn't have working VGPR indexing
* on GFX9.
*/
sscreen->llvm_has_working_vgpr_indexing = sscreen->b.chip_class <= VI;
/* Some chips have RB+ registers, but don't support RB+. Those must
* always disable it.
*/
if (sscreen->b.family == CHIP_STONEY ||
sscreen->b.chip_class >= GFX9) {
sscreen->b.has_rbplus = true;
sscreen->b.rbplus_allowed =
!(sscreen->b.debug_flags & DBG(NO_RB_PLUS)) &&
(sscreen->b.family == CHIP_STONEY ||
sscreen->b.family == CHIP_RAVEN);
}
sscreen->b.dcc_msaa_allowed =
!(sscreen->b.debug_flags & DBG(NO_DCC_MSAA)) &&
(sscreen->b.debug_flags & DBG(DCC_MSAA) ||
sscreen->b.chip_class == VI);
(void) mtx_init(&sscreen->shader_parts_mutex, mtx_plain);
sscreen->use_monolithic_shaders =
(sscreen->b.debug_flags & DBG(MONOLITHIC_SHADERS)) != 0;
sscreen->b.barrier_flags.cp_to_L2 = SI_CONTEXT_INV_SMEM_L1 |
SI_CONTEXT_INV_VMEM_L1;
if (sscreen->b.chip_class <= VI) {
sscreen->b.barrier_flags.cp_to_L2 |= SI_CONTEXT_INV_GLOBAL_L2;
sscreen->b.barrier_flags.L2_to_cp |= SI_CONTEXT_WRITEBACK_GLOBAL_L2;
}
sscreen->b.barrier_flags.compute_to_L2 = SI_CONTEXT_CS_PARTIAL_FLUSH;
if (debug_get_bool_option("RADEON_DUMP_SHADERS", false))
sscreen->b.debug_flags |= DBG_ALL_SHADERS;
for (i = 0; i < num_compiler_threads; i++)
sscreen->tm[i] = si_create_llvm_target_machine(sscreen);
for (i = 0; i < num_compiler_threads_lowprio; i++)
sscreen->tm_low_priority[i] = si_create_llvm_target_machine(sscreen);
/* Create the auxiliary context. This must be done last. */
sscreen->b.aux_context = si_create_context(&sscreen->b.b, 0);
if (sscreen->b.debug_flags & DBG(TEST_DMA))
si_test_dma(sscreen);
if (sscreen->b.debug_flags & (DBG(TEST_VMFAULT_CP) |
DBG(TEST_VMFAULT_SDMA) |
DBG(TEST_VMFAULT_SHADER)))
si_test_vmfault(sscreen);
return &sscreen->b.b;
}
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