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|
/*
* Copyright © 2017 Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
/**
* @file iris_resolve.c
*
* This file handles resolve tracking for main and auxiliary surfaces.
*
* It also handles our cache tracking. We have sets for the render cache,
* depth cache, and so on. If a BO is in a cache's set, then it may have
* data in that cache. The helpers take care of emitting flushes for
* render-to-texture, format reinterpretation issues, and other situations.
*/
#include "util/hash_table.h"
#include "util/set.h"
#include "iris_context.h"
/**
* Disable auxiliary buffers if a renderbuffer is also bound as a texture
* or shader image. This causes a self-dependency, where both rendering
* and sampling may concurrently read or write the CCS buffer, causing
* incorrect pixels.
*/
static bool
disable_rb_aux_buffer(struct iris_context *ice,
bool *draw_aux_buffer_disabled,
struct iris_resource *tex_res,
unsigned min_level, unsigned num_levels,
const char *usage)
{
struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;
bool found = false;
/* We only need to worry about color compression and fast clears. */
if (tex_res->aux.usage != ISL_AUX_USAGE_CCS_D &&
tex_res->aux.usage != ISL_AUX_USAGE_CCS_E)
return false;
for (unsigned i = 0; i < cso_fb->nr_cbufs; i++) {
struct iris_surface *surf = (void *) cso_fb->cbufs[i];
if (!surf)
continue;
struct iris_resource *rb_res = (void *) surf->base.texture;
if (rb_res->bo == tex_res->bo &&
surf->base.u.tex.level >= min_level &&
surf->base.u.tex.level < min_level + num_levels) {
found = draw_aux_buffer_disabled[i] = true;
}
}
if (found) {
perf_debug(&ice->dbg,
"Disabling CCS because a renderbuffer is also bound %s.\n",
usage);
}
return found;
}
static void
resolve_sampler_views(struct iris_context *ice,
struct iris_batch *batch,
struct iris_shader_state *shs,
bool *draw_aux_buffer_disabled,
bool consider_framebuffer)
{
uint32_t views = shs->bound_sampler_views;
unsigned astc5x5_wa_bits = 0; // XXX: actual tracking
while (views) {
const int i = u_bit_scan(&views);
struct iris_sampler_view *isv = shs->textures[i];
struct iris_resource *res = (void *) isv->base.texture;
if (res->base.target != PIPE_BUFFER) {
if (consider_framebuffer) {
disable_rb_aux_buffer(ice, draw_aux_buffer_disabled,
res, isv->view.base_level, isv->view.levels,
"for sampling");
}
iris_resource_prepare_texture(ice, batch, res, isv->view.format,
isv->view.base_level, isv->view.levels,
isv->view.base_array_layer,
isv->view.array_len,
astc5x5_wa_bits);
}
iris_cache_flush_for_read(batch, res->bo);
}
}
static void
resolve_image_views(struct iris_context *ice,
struct iris_batch *batch,
struct iris_shader_state *shs,
bool *draw_aux_buffer_disabled,
bool consider_framebuffer)
{
uint32_t views = shs->bound_image_views;
while (views) {
const int i = u_bit_scan(&views);
struct iris_resource *res = (void *) shs->image[i].res;
if (res->base.target != PIPE_BUFFER) {
if (consider_framebuffer) {
disable_rb_aux_buffer(ice, draw_aux_buffer_disabled,
res, 0, ~0, "as a shader image");
}
iris_resource_prepare_image(ice, batch, res);
}
iris_cache_flush_for_read(batch, res->bo);
}
}
/**
* \brief Resolve buffers before drawing.
*
* Resolve the depth buffer's HiZ buffer, resolve the depth buffer of each
* enabled depth texture, and flush the render cache for any dirty textures.
*/
void
iris_predraw_resolve_inputs(struct iris_context *ice,
struct iris_batch *batch,
bool *draw_aux_buffer_disabled,
gl_shader_stage stage,
bool consider_framebuffer)
{
struct iris_shader_state *shs = &ice->state.shaders[stage];
uint64_t dirty = (IRIS_DIRTY_BINDINGS_VS << stage) |
(consider_framebuffer ? IRIS_DIRTY_BINDINGS_FS : 0);
if (ice->state.dirty & dirty) {
resolve_sampler_views(ice, batch, shs, draw_aux_buffer_disabled,
consider_framebuffer);
resolve_image_views(ice, batch, shs, draw_aux_buffer_disabled,
consider_framebuffer);
}
// XXX: ASTC hacks
}
void
iris_predraw_resolve_framebuffer(struct iris_context *ice,
struct iris_batch *batch,
bool *draw_aux_buffer_disabled)
{
struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;
if (ice->state.dirty & IRIS_DIRTY_DEPTH_BUFFER) {
struct pipe_surface *zs_surf = cso_fb->zsbuf;
if (zs_surf) {
struct iris_resource *z_res, *s_res;
iris_get_depth_stencil_resources(zs_surf->texture, &z_res, &s_res);
unsigned num_layers =
zs_surf->u.tex.last_layer - zs_surf->u.tex.first_layer + 1;
if (z_res) {
iris_resource_prepare_depth(ice, batch, z_res,
zs_surf->u.tex.level,
zs_surf->u.tex.first_layer,
num_layers);
iris_cache_flush_for_depth(batch, z_res->bo);
}
if (s_res) {
iris_cache_flush_for_depth(batch, s_res->bo);
}
}
}
if (ice->state.dirty & (IRIS_DIRTY_BINDINGS_FS | IRIS_DIRTY_BLEND_STATE)) {
for (unsigned i = 0; i < cso_fb->nr_cbufs; i++) {
struct iris_surface *surf = (void *) cso_fb->cbufs[i];
if (!surf)
continue;
struct iris_resource *res = (void *) surf->base.texture;
enum isl_aux_usage aux_usage =
iris_resource_render_aux_usage(ice, res, surf->view.format,
ice->state.blend_enables & (1u << i),
draw_aux_buffer_disabled[i]);
if (ice->state.draw_aux_usage[i] != aux_usage) {
ice->state.draw_aux_usage[i] = aux_usage;
/* XXX: Need to track which bindings to make dirty */
ice->state.dirty |= IRIS_ALL_DIRTY_BINDINGS;
}
iris_resource_prepare_render(ice, batch, res, surf->view.base_level,
surf->view.base_array_layer,
surf->view.array_len,
aux_usage);
iris_cache_flush_for_render(batch, res->bo, surf->view.format,
aux_usage);
}
}
}
/**
* \brief Call this after drawing to mark which buffers need resolving
*
* If the depth buffer was written to and if it has an accompanying HiZ
* buffer, then mark that it needs a depth resolve.
*
* If the color buffer is a multisample window system buffer, then
* mark that it needs a downsample.
*
* Also mark any render targets which will be textured as needing a render
* cache flush.
*/
void
iris_postdraw_update_resolve_tracking(struct iris_context *ice,
struct iris_batch *batch)
{
struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;
// XXX: front buffer drawing?
bool may_have_resolved_depth =
ice->state.dirty & (IRIS_DIRTY_DEPTH_BUFFER |
IRIS_DIRTY_WM_DEPTH_STENCIL);
struct pipe_surface *zs_surf = cso_fb->zsbuf;
if (zs_surf) {
struct iris_resource *z_res, *s_res;
iris_get_depth_stencil_resources(zs_surf->texture, &z_res, &s_res);
unsigned num_layers =
zs_surf->u.tex.last_layer - zs_surf->u.tex.first_layer + 1;
if (z_res) {
if (may_have_resolved_depth) {
iris_resource_finish_depth(ice, z_res, zs_surf->u.tex.level,
zs_surf->u.tex.first_layer, num_layers,
ice->state.depth_writes_enabled);
}
if (ice->state.depth_writes_enabled)
iris_depth_cache_add_bo(batch, z_res->bo);
}
if (s_res) {
if (may_have_resolved_depth) {
iris_resource_finish_write(ice, s_res, zs_surf->u.tex.level,
zs_surf->u.tex.first_layer, num_layers,
ISL_AUX_USAGE_NONE);
}
if (ice->state.stencil_writes_enabled)
iris_depth_cache_add_bo(batch, s_res->bo);
}
}
bool may_have_resolved_color =
ice->state.dirty & (IRIS_DIRTY_BINDINGS_FS | IRIS_DIRTY_BLEND_STATE);
for (unsigned i = 0; i < cso_fb->nr_cbufs; i++) {
struct iris_surface *surf = (void *) cso_fb->cbufs[i];
if (!surf)
continue;
struct iris_resource *res = (void *) surf->base.texture;
enum isl_aux_usage aux_usage = ice->state.draw_aux_usage[i];
iris_render_cache_add_bo(batch, res->bo, surf->view.format,
aux_usage);
if (may_have_resolved_color) {
union pipe_surface_desc *desc = &surf->base.u;
unsigned num_layers =
desc->tex.last_layer - desc->tex.first_layer + 1;
iris_resource_finish_render(ice, res, desc->tex.level,
desc->tex.first_layer, num_layers,
aux_usage);
}
}
}
/**
* Clear the cache-tracking sets.
*/
void
iris_cache_sets_clear(struct iris_batch *batch)
{
hash_table_foreach(batch->cache.render, render_entry)
_mesa_hash_table_remove(batch->cache.render, render_entry);
set_foreach(batch->cache.depth, depth_entry)
_mesa_set_remove(batch->cache.depth, depth_entry);
}
/**
* Emits an appropriate flush for a BO if it has been rendered to within the
* same batchbuffer as a read that's about to be emitted.
*
* The GPU has separate, incoherent caches for the render cache and the
* sampler cache, along with other caches. Usually data in the different
* caches don't interact (e.g. we don't render to our driver-generated
* immediate constant data), but for render-to-texture in FBOs we definitely
* do. When a batchbuffer is flushed, the kernel will ensure that everything
* necessary is flushed before another use of that BO, but for reuse from
* different caches within a batchbuffer, it's all our responsibility.
*/
void
iris_flush_depth_and_render_caches(struct iris_batch *batch)
{
iris_emit_pipe_control_flush(batch,
PIPE_CONTROL_DEPTH_CACHE_FLUSH |
PIPE_CONTROL_RENDER_TARGET_FLUSH |
PIPE_CONTROL_CS_STALL);
iris_emit_pipe_control_flush(batch,
PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE |
PIPE_CONTROL_CONST_CACHE_INVALIDATE);
iris_cache_sets_clear(batch);
}
void
iris_cache_flush_for_read(struct iris_batch *batch,
struct iris_bo *bo)
{
if (_mesa_hash_table_search_pre_hashed(batch->cache.render, bo->hash, bo) ||
_mesa_set_search_pre_hashed(batch->cache.depth, bo->hash, bo))
iris_flush_depth_and_render_caches(batch);
}
static void *
format_aux_tuple(enum isl_format format, enum isl_aux_usage aux_usage)
{
return (void *)(uintptr_t)((uint32_t)format << 8 | aux_usage);
}
void
iris_cache_flush_for_render(struct iris_batch *batch,
struct iris_bo *bo,
enum isl_format format,
enum isl_aux_usage aux_usage)
{
if (_mesa_set_search_pre_hashed(batch->cache.depth, bo->hash, bo))
iris_flush_depth_and_render_caches(batch);
/* Check to see if this bo has been used by a previous rendering operation
* but with a different format or aux usage. If it has, flush the render
* cache so we ensure that it's only in there with one format or aux usage
* at a time.
*
* Even though it's not obvious, this can easily happen in practice.
* Suppose a client is blending on a surface with sRGB encode enabled on
* gen9. This implies that you get AUX_USAGE_CCS_D at best. If the client
* then disables sRGB decode and continues blending we will flip on
* AUX_USAGE_CCS_E without doing any sort of resolve in-between (this is
* perfectly valid since CCS_E is a subset of CCS_D). However, this means
* that we have fragments in-flight which are rendering with UNORM+CCS_E
* and other fragments in-flight with SRGB+CCS_D on the same surface at the
* same time and the pixel scoreboard and color blender are trying to sort
* it all out. This ends badly (i.e. GPU hangs).
*
* To date, we have never observed GPU hangs or even corruption to be
* associated with switching the format, only the aux usage. However,
* there are comments in various docs which indicate that the render cache
* isn't 100% resilient to format changes. We may as well be conservative
* and flush on format changes too. We can always relax this later if we
* find it to be a performance problem.
*/
struct hash_entry *entry =
_mesa_hash_table_search_pre_hashed(batch->cache.render, bo->hash, bo);
if (entry && entry->data != format_aux_tuple(format, aux_usage))
iris_flush_depth_and_render_caches(batch);
}
void
iris_render_cache_add_bo(struct iris_batch *batch,
struct iris_bo *bo,
enum isl_format format,
enum isl_aux_usage aux_usage)
{
#ifndef NDEBUG
struct hash_entry *entry =
_mesa_hash_table_search_pre_hashed(batch->cache.render, bo->hash, bo);
if (entry) {
/* Otherwise, someone didn't do a flush_for_render and that would be
* very bad indeed.
*/
assert(entry->data == format_aux_tuple(format, aux_usage));
}
#endif
_mesa_hash_table_insert_pre_hashed(batch->cache.render, bo->hash, bo,
format_aux_tuple(format, aux_usage));
}
void
iris_cache_flush_for_depth(struct iris_batch *batch,
struct iris_bo *bo)
{
if (_mesa_hash_table_search_pre_hashed(batch->cache.render, bo->hash, bo))
iris_flush_depth_and_render_caches(batch);
}
void
iris_depth_cache_add_bo(struct iris_batch *batch, struct iris_bo *bo)
{
_mesa_set_add_pre_hashed(batch->cache.depth, bo->hash, bo);
}
static void
iris_resolve_color(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
unsigned level, unsigned layer,
enum isl_aux_op resolve_op)
{
//DBG("%s to mt %p level %u layer %u\n", __FUNCTION__, mt, level, layer);
struct blorp_surf surf;
iris_blorp_surf_for_resource(&ice->vtbl, &surf, &res->base, res->aux.usage,
level, true);
iris_batch_maybe_flush(batch, 1500);
/* Ivybridge PRM Vol 2, Part 1, "11.7 MCS Buffer for Render Target(s)":
*
* "Any transition from any value in {Clear, Render, Resolve} to a
* different value in {Clear, Render, Resolve} requires end of pipe
* synchronization."
*
* In other words, fast clear ops are not properly synchronized with
* other drawing. We need to use a PIPE_CONTROL to ensure that the
* contents of the previous draw hit the render target before we resolve
* and again afterwards to ensure that the resolve is complete before we
* do any more regular drawing.
*/
iris_emit_end_of_pipe_sync(batch, PIPE_CONTROL_RENDER_TARGET_FLUSH);
struct blorp_batch blorp_batch;
blorp_batch_init(&ice->blorp, &blorp_batch, batch, 0);
blorp_ccs_resolve(&blorp_batch, &surf, level, layer, 1,
isl_format_srgb_to_linear(res->surf.format),
resolve_op);
blorp_batch_finish(&blorp_batch);
/* See comment above */
iris_emit_end_of_pipe_sync(batch, PIPE_CONTROL_RENDER_TARGET_FLUSH);
}
static void
iris_mcs_partial_resolve(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
uint32_t start_layer,
uint32_t num_layers)
{
//DBG("%s to mt %p layers %u-%u\n", __FUNCTION__, mt,
//start_layer, start_layer + num_layers - 1);
assert(res->aux.usage == ISL_AUX_USAGE_MCS);
struct blorp_surf surf;
iris_blorp_surf_for_resource(&ice->vtbl, &surf, &res->base, res->aux.usage,
0, true);
struct blorp_batch blorp_batch;
blorp_batch_init(&ice->blorp, &blorp_batch, batch, 0);
blorp_mcs_partial_resolve(&blorp_batch, &surf, res->surf.format,
start_layer, num_layers);
blorp_batch_finish(&blorp_batch);
}
/**
* Return true if the format that will be used to access the resource is
* CCS_E-compatible with the resource's linear/non-sRGB format.
*
* Why use the linear format? Well, although the resourcemay be specified
* with an sRGB format, the usage of that color space/format can be toggled.
* Since our HW tends to support more linear formats than sRGB ones, we use
* this format variant for check for CCS_E compatibility.
*/
static bool
format_ccs_e_compat_with_resource(const struct gen_device_info *devinfo,
const struct iris_resource *res,
enum isl_format access_format)
{
assert(res->aux.usage == ISL_AUX_USAGE_CCS_E);
enum isl_format isl_format = isl_format_srgb_to_linear(res->surf.format);
return isl_formats_are_ccs_e_compatible(devinfo, isl_format, access_format);
}
static bool
sample_with_hiz(const struct gen_device_info *devinfo,
const struct iris_resource *res)
{
if (!devinfo->has_sample_with_hiz)
return false;
if (res->aux.usage != ISL_AUX_USAGE_HIZ)
return false;
/* It seems the hardware won't fallback to the depth buffer if some of the
* mipmap levels aren't available in the HiZ buffer. So we need all levels
* of the texture to be HiZ enabled.
*/
for (unsigned level = 0; level < res->surf.levels; ++level) {
if (!iris_resource_level_has_hiz(res, level))
return false;
}
/* If compressed multisampling is enabled, then we use it for the auxiliary
* buffer instead.
*
* From the BDW PRM (Volume 2d: Command Reference: Structures
* RENDER_SURFACE_STATE.AuxiliarySurfaceMode):
*
* "If this field is set to AUX_HIZ, Number of Multisamples must be
* MULTISAMPLECOUNT_1, and Surface Type cannot be SURFTYPE_3D.
*
* There is no such blurb for 1D textures, but there is sufficient evidence
* that this is broken on SKL+.
*/
// XXX: i965 disables this for arrays too, is that reasonable?
return res->surf.samples == 1 && res->surf.dim == ISL_SURF_DIM_2D;
}
/**
* Perform a HiZ or depth resolve operation.
*
* For an overview of HiZ ops, see the following sections of the Sandy Bridge
* PRM, Volume 1, Part 2:
* - 7.5.3.1 Depth Buffer Clear
* - 7.5.3.2 Depth Buffer Resolve
* - 7.5.3.3 Hierarchical Depth Buffer Resolve
*/
void
iris_hiz_exec(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
unsigned int level, unsigned int start_layer,
unsigned int num_layers, enum isl_aux_op op,
bool update_clear_depth)
{
assert(iris_resource_level_has_hiz(res, level));
assert(op != ISL_AUX_OP_NONE);
UNUSED const char *name = NULL;
switch (op) {
case ISL_AUX_OP_FULL_RESOLVE:
name = "depth resolve";
break;
case ISL_AUX_OP_AMBIGUATE:
name = "hiz ambiguate";
break;
case ISL_AUX_OP_FAST_CLEAR:
name = "depth clear";
break;
case ISL_AUX_OP_PARTIAL_RESOLVE:
case ISL_AUX_OP_NONE:
unreachable("Invalid HiZ op");
}
//DBG("%s %s to mt %p level %d layers %d-%d\n",
//__func__, name, mt, level, start_layer, start_layer + num_layers - 1);
/* The following stalls and flushes are only documented to be required
* for HiZ clear operations. However, they also seem to be required for
* resolve operations.
*
* From the Ivybridge PRM, volume 2, "Depth Buffer Clear":
*
* "If other rendering operations have preceded this clear, a
* PIPE_CONTROL with depth cache flush enabled, Depth Stall bit
* enabled must be issued before the rectangle primitive used for
* the depth buffer clear operation."
*
* Same applies for Gen8 and Gen9.
*
* In addition, from the Ivybridge PRM, volume 2, 1.10.4.1
* PIPE_CONTROL, Depth Cache Flush Enable:
*
* "This bit must not be set when Depth Stall Enable bit is set in
* this packet."
*
* This is confirmed to hold for real, Haswell gets immediate gpu hangs.
*
* Therefore issue two pipe control flushes, one for cache flush and
* another for depth stall.
*/
iris_emit_pipe_control_flush(batch,
PIPE_CONTROL_DEPTH_CACHE_FLUSH |
PIPE_CONTROL_CS_STALL);
iris_emit_pipe_control_flush(batch, PIPE_CONTROL_DEPTH_STALL);
assert(res->aux.usage == ISL_AUX_USAGE_HIZ && res->aux.bo);
iris_batch_maybe_flush(batch, 1500);
struct blorp_surf surf;
iris_blorp_surf_for_resource(&ice->vtbl, &surf, &res->base,
ISL_AUX_USAGE_HIZ, level, true);
struct blorp_batch blorp_batch;
enum blorp_batch_flags flags = 0;
flags |= update_clear_depth ? 0 : BLORP_BATCH_NO_UPDATE_CLEAR_COLOR;
blorp_batch_init(&ice->blorp, &blorp_batch, batch, flags);
blorp_hiz_op(&blorp_batch, &surf, level, start_layer, num_layers, op);
blorp_batch_finish(&blorp_batch);
/* The following stalls and flushes are only documented to be required
* for HiZ clear operations. However, they also seem to be required for
* resolve operations.
*
* From the Broadwell PRM, volume 7, "Depth Buffer Clear":
*
* "Depth buffer clear pass using any of the methods (WM_STATE,
* 3DSTATE_WM or 3DSTATE_WM_HZ_OP) must be followed by a
* PIPE_CONTROL command with DEPTH_STALL bit and Depth FLUSH bits
* "set" before starting to render. DepthStall and DepthFlush are
* not needed between consecutive depth clear passes nor is it
* required if the depth clear pass was done with
* 'full_surf_clear' bit set in the 3DSTATE_WM_HZ_OP."
*
* TODO: Such as the spec says, this could be conditional.
*/
iris_emit_pipe_control_flush(batch,
PIPE_CONTROL_DEPTH_CACHE_FLUSH |
PIPE_CONTROL_DEPTH_STALL);
}
/**
* Does the resource's slice have hiz enabled?
*/
bool
iris_resource_level_has_hiz(const struct iris_resource *res, uint32_t level)
{
iris_resource_check_level_layer(res, level, 0);
return res->aux.has_hiz & 1 << level;
}
/** \brief Assert that the level and layer are valid for the resource. */
void
iris_resource_check_level_layer(UNUSED const struct iris_resource *res,
UNUSED uint32_t level, UNUSED uint32_t layer)
{
assert(level < res->surf.levels);
assert(layer < util_num_layers(&res->base, level));
}
static inline uint32_t
miptree_level_range_length(const struct iris_resource *res,
uint32_t start_level, uint32_t num_levels)
{
assert(start_level < res->surf.levels);
if (num_levels == INTEL_REMAINING_LAYERS)
num_levels = res->surf.levels;
/* Check for overflow */
assert(start_level + num_levels >= start_level);
assert(start_level + num_levels <= res->surf.levels);
return num_levels;
}
static inline uint32_t
miptree_layer_range_length(const struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t num_layers)
{
assert(level <= res->base.last_level);
const uint32_t total_num_layers = iris_get_num_logical_layers(res, level);
assert(start_layer < total_num_layers);
if (num_layers == INTEL_REMAINING_LAYERS)
num_layers = total_num_layers - start_layer;
/* Check for overflow */
assert(start_layer + num_layers >= start_layer);
assert(start_layer + num_layers <= total_num_layers);
return num_layers;
}
static bool
has_color_unresolved(const struct iris_resource *res,
unsigned start_level, unsigned num_levels,
unsigned start_layer, unsigned num_layers)
{
if (!res->aux.bo)
return false;
/* Clamp the level range to fit the resource */
num_levels = miptree_level_range_length(res, start_level, num_levels);
for (uint32_t l = 0; l < num_levels; l++) {
const uint32_t level = start_level + l;
const uint32_t level_layers =
miptree_layer_range_length(res, level, start_layer, num_layers);
for (unsigned a = 0; a < level_layers; a++) {
enum isl_aux_state aux_state =
iris_resource_get_aux_state(res, level, start_layer + a);
assert(aux_state != ISL_AUX_STATE_AUX_INVALID);
if (aux_state != ISL_AUX_STATE_PASS_THROUGH)
return true;
}
}
return false;
}
static enum isl_aux_op
get_ccs_d_resolve_op(enum isl_aux_state aux_state,
enum isl_aux_usage aux_usage,
bool fast_clear_supported)
{
assert(aux_usage == ISL_AUX_USAGE_NONE || aux_usage == ISL_AUX_USAGE_CCS_D);
const bool ccs_supported = aux_usage == ISL_AUX_USAGE_CCS_D;
assert(ccs_supported == fast_clear_supported);
switch (aux_state) {
case ISL_AUX_STATE_CLEAR:
case ISL_AUX_STATE_PARTIAL_CLEAR:
if (!ccs_supported)
return ISL_AUX_OP_FULL_RESOLVE;
else
return ISL_AUX_OP_NONE;
case ISL_AUX_STATE_PASS_THROUGH:
return ISL_AUX_OP_NONE;
case ISL_AUX_STATE_RESOLVED:
case ISL_AUX_STATE_AUX_INVALID:
case ISL_AUX_STATE_COMPRESSED_CLEAR:
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
break;
}
unreachable("Invalid aux state for CCS_D");
}
static enum isl_aux_op
get_ccs_e_resolve_op(enum isl_aux_state aux_state,
enum isl_aux_usage aux_usage,
bool fast_clear_supported)
{
/* CCS_E surfaces can be accessed as CCS_D if we're careful. */
assert(aux_usage == ISL_AUX_USAGE_NONE ||
aux_usage == ISL_AUX_USAGE_CCS_D ||
aux_usage == ISL_AUX_USAGE_CCS_E);
if (aux_usage == ISL_AUX_USAGE_CCS_D)
assert(fast_clear_supported);
switch (aux_state) {
case ISL_AUX_STATE_CLEAR:
case ISL_AUX_STATE_PARTIAL_CLEAR:
if (fast_clear_supported)
return ISL_AUX_OP_NONE;
else if (aux_usage == ISL_AUX_USAGE_CCS_E)
return ISL_AUX_OP_PARTIAL_RESOLVE;
else
return ISL_AUX_OP_FULL_RESOLVE;
case ISL_AUX_STATE_COMPRESSED_CLEAR:
if (aux_usage != ISL_AUX_USAGE_CCS_E)
return ISL_AUX_OP_FULL_RESOLVE;
else if (!fast_clear_supported)
return ISL_AUX_OP_PARTIAL_RESOLVE;
else
return ISL_AUX_OP_NONE;
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
if (aux_usage != ISL_AUX_USAGE_CCS_E)
return ISL_AUX_OP_FULL_RESOLVE;
else
return ISL_AUX_OP_NONE;
case ISL_AUX_STATE_PASS_THROUGH:
return ISL_AUX_OP_NONE;
case ISL_AUX_STATE_RESOLVED:
case ISL_AUX_STATE_AUX_INVALID:
break;
}
unreachable("Invalid aux state for CCS_E");
}
static void
iris_resource_prepare_ccs_access(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
uint32_t level, uint32_t layer,
enum isl_aux_usage aux_usage,
bool fast_clear_supported)
{
enum isl_aux_state aux_state = iris_resource_get_aux_state(res, level, layer);
enum isl_aux_op resolve_op;
if (res->aux.usage == ISL_AUX_USAGE_CCS_E) {
resolve_op = get_ccs_e_resolve_op(aux_state, aux_usage,
fast_clear_supported);
} else {
assert(res->aux.usage == ISL_AUX_USAGE_CCS_D);
resolve_op = get_ccs_d_resolve_op(aux_state, aux_usage,
fast_clear_supported);
}
if (resolve_op != ISL_AUX_OP_NONE) {
iris_resolve_color(ice, batch, res, level, layer, resolve_op);
switch (resolve_op) {
case ISL_AUX_OP_FULL_RESOLVE:
/* The CCS full resolve operation destroys the CCS and sets it to the
* pass-through state. (You can also think of this as being both a
* resolve and an ambiguate in one operation.)
*/
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_PASS_THROUGH);
break;
case ISL_AUX_OP_PARTIAL_RESOLVE:
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_COMPRESSED_NO_CLEAR);
break;
default:
unreachable("Invalid resolve op");
}
}
}
static void
iris_resource_finish_ccs_write(struct iris_context *ice,
struct iris_resource *res,
uint32_t level, uint32_t layer,
enum isl_aux_usage aux_usage)
{
assert(aux_usage == ISL_AUX_USAGE_NONE ||
aux_usage == ISL_AUX_USAGE_CCS_D ||
aux_usage == ISL_AUX_USAGE_CCS_E);
enum isl_aux_state aux_state =
iris_resource_get_aux_state(res, level, layer);
if (res->aux.usage == ISL_AUX_USAGE_CCS_E) {
switch (aux_state) {
case ISL_AUX_STATE_CLEAR:
case ISL_AUX_STATE_PARTIAL_CLEAR:
assert(aux_usage == ISL_AUX_USAGE_CCS_E ||
aux_usage == ISL_AUX_USAGE_CCS_D);
if (aux_usage == ISL_AUX_USAGE_CCS_E) {
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_COMPRESSED_CLEAR);
} else if (aux_state != ISL_AUX_STATE_PARTIAL_CLEAR) {
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_PARTIAL_CLEAR);
}
break;
case ISL_AUX_STATE_COMPRESSED_CLEAR:
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
assert(aux_usage == ISL_AUX_USAGE_CCS_E);
break; /* Nothing to do */
case ISL_AUX_STATE_PASS_THROUGH:
if (aux_usage == ISL_AUX_USAGE_CCS_E) {
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_COMPRESSED_NO_CLEAR);
} else {
/* Nothing to do */
}
break;
case ISL_AUX_STATE_RESOLVED:
case ISL_AUX_STATE_AUX_INVALID:
unreachable("Invalid aux state for CCS_E");
}
} else {
assert(res->aux.usage == ISL_AUX_USAGE_CCS_D);
/* CCS_D is a bit simpler */
switch (aux_state) {
case ISL_AUX_STATE_CLEAR:
assert(aux_usage == ISL_AUX_USAGE_CCS_D);
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_PARTIAL_CLEAR);
break;
case ISL_AUX_STATE_PARTIAL_CLEAR:
assert(aux_usage == ISL_AUX_USAGE_CCS_D);
break; /* Nothing to do */
case ISL_AUX_STATE_PASS_THROUGH:
/* Nothing to do */
break;
case ISL_AUX_STATE_COMPRESSED_CLEAR:
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
case ISL_AUX_STATE_RESOLVED:
case ISL_AUX_STATE_AUX_INVALID:
unreachable("Invalid aux state for CCS_D");
}
}
}
static void
iris_resource_prepare_mcs_access(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
uint32_t layer,
enum isl_aux_usage aux_usage,
bool fast_clear_supported)
{
assert(aux_usage == ISL_AUX_USAGE_MCS);
switch (iris_resource_get_aux_state(res, 0, layer)) {
case ISL_AUX_STATE_CLEAR:
case ISL_AUX_STATE_COMPRESSED_CLEAR:
if (!fast_clear_supported) {
iris_mcs_partial_resolve(ice, batch, res, layer, 1);
iris_resource_set_aux_state(ice, res, 0, layer, 1,
ISL_AUX_STATE_COMPRESSED_NO_CLEAR);
}
break;
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
break; /* Nothing to do */
case ISL_AUX_STATE_RESOLVED:
case ISL_AUX_STATE_PASS_THROUGH:
case ISL_AUX_STATE_AUX_INVALID:
case ISL_AUX_STATE_PARTIAL_CLEAR:
unreachable("Invalid aux state for MCS");
}
}
static void
iris_resource_finish_mcs_write(struct iris_context *ice,
struct iris_resource *res,
uint32_t layer,
enum isl_aux_usage aux_usage)
{
assert(aux_usage == ISL_AUX_USAGE_MCS);
switch (iris_resource_get_aux_state(res, 0, layer)) {
case ISL_AUX_STATE_CLEAR:
iris_resource_set_aux_state(ice, res, 0, layer, 1,
ISL_AUX_STATE_COMPRESSED_CLEAR);
break;
case ISL_AUX_STATE_COMPRESSED_CLEAR:
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
break; /* Nothing to do */
case ISL_AUX_STATE_RESOLVED:
case ISL_AUX_STATE_PASS_THROUGH:
case ISL_AUX_STATE_AUX_INVALID:
case ISL_AUX_STATE_PARTIAL_CLEAR:
unreachable("Invalid aux state for MCS");
}
}
static void
iris_resource_prepare_hiz_access(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
uint32_t level, uint32_t layer,
enum isl_aux_usage aux_usage,
bool fast_clear_supported)
{
assert(aux_usage == ISL_AUX_USAGE_NONE || aux_usage == ISL_AUX_USAGE_HIZ);
enum isl_aux_op hiz_op = ISL_AUX_OP_NONE;
switch (iris_resource_get_aux_state(res, level, layer)) {
case ISL_AUX_STATE_CLEAR:
case ISL_AUX_STATE_COMPRESSED_CLEAR:
if (aux_usage != ISL_AUX_USAGE_HIZ || !fast_clear_supported)
hiz_op = ISL_AUX_OP_FULL_RESOLVE;
break;
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
if (aux_usage != ISL_AUX_USAGE_HIZ)
hiz_op = ISL_AUX_OP_FULL_RESOLVE;
break;
case ISL_AUX_STATE_PASS_THROUGH:
case ISL_AUX_STATE_RESOLVED:
break;
case ISL_AUX_STATE_AUX_INVALID:
if (aux_usage == ISL_AUX_USAGE_HIZ)
hiz_op = ISL_AUX_OP_AMBIGUATE;
break;
case ISL_AUX_STATE_PARTIAL_CLEAR:
unreachable("Invalid HiZ state");
}
if (hiz_op != ISL_AUX_OP_NONE) {
iris_hiz_exec(ice, batch, res, level, layer, 1, hiz_op, false);
switch (hiz_op) {
case ISL_AUX_OP_FULL_RESOLVE:
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_RESOLVED);
break;
case ISL_AUX_OP_AMBIGUATE:
/* The HiZ resolve operation is actually an ambiguate */
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_PASS_THROUGH);
break;
default:
unreachable("Invalid HiZ op");
}
}
}
static void
iris_resource_finish_hiz_write(struct iris_context *ice,
struct iris_resource *res,
uint32_t level, uint32_t layer,
enum isl_aux_usage aux_usage)
{
assert(aux_usage == ISL_AUX_USAGE_NONE || aux_usage == ISL_AUX_USAGE_HIZ);
switch (iris_resource_get_aux_state(res, level, layer)) {
case ISL_AUX_STATE_CLEAR:
assert(aux_usage == ISL_AUX_USAGE_HIZ);
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_COMPRESSED_CLEAR);
break;
case ISL_AUX_STATE_COMPRESSED_NO_CLEAR:
case ISL_AUX_STATE_COMPRESSED_CLEAR:
assert(aux_usage == ISL_AUX_USAGE_HIZ);
break; /* Nothing to do */
case ISL_AUX_STATE_RESOLVED:
if (aux_usage == ISL_AUX_USAGE_HIZ) {
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_COMPRESSED_NO_CLEAR);
} else {
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_AUX_INVALID);
}
break;
case ISL_AUX_STATE_PASS_THROUGH:
if (aux_usage == ISL_AUX_USAGE_HIZ) {
iris_resource_set_aux_state(ice, res, level, layer, 1,
ISL_AUX_STATE_COMPRESSED_NO_CLEAR);
}
break;
case ISL_AUX_STATE_AUX_INVALID:
assert(aux_usage != ISL_AUX_USAGE_HIZ);
break;
case ISL_AUX_STATE_PARTIAL_CLEAR:
unreachable("Invalid HiZ state");
}
}
void
iris_resource_prepare_access(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
uint32_t start_level, uint32_t num_levels,
uint32_t start_layer, uint32_t num_layers,
enum isl_aux_usage aux_usage,
bool fast_clear_supported)
{
num_levels = miptree_level_range_length(res, start_level, num_levels);
switch (res->aux.usage) {
case ISL_AUX_USAGE_NONE:
/* Nothing to do */
break;
case ISL_AUX_USAGE_MCS:
assert(start_level == 0 && num_levels == 1);
const uint32_t level_layers =
miptree_layer_range_length(res, 0, start_layer, num_layers);
for (uint32_t a = 0; a < level_layers; a++) {
iris_resource_prepare_mcs_access(ice, batch, res, start_layer + a,
aux_usage, fast_clear_supported);
}
break;
case ISL_AUX_USAGE_CCS_D:
case ISL_AUX_USAGE_CCS_E:
for (uint32_t l = 0; l < num_levels; l++) {
const uint32_t level = start_level + l;
const uint32_t level_layers =
miptree_layer_range_length(res, level, start_layer, num_layers);
for (uint32_t a = 0; a < level_layers; a++) {
iris_resource_prepare_ccs_access(ice, batch, res, level,
start_layer + a,
aux_usage, fast_clear_supported);
}
}
break;
case ISL_AUX_USAGE_HIZ:
for (uint32_t l = 0; l < num_levels; l++) {
const uint32_t level = start_level + l;
if (!iris_resource_level_has_hiz(res, level))
continue;
const uint32_t level_layers =
miptree_layer_range_length(res, level, start_layer, num_layers);
for (uint32_t a = 0; a < level_layers; a++) {
iris_resource_prepare_hiz_access(ice, batch, res, level,
start_layer + a, aux_usage,
fast_clear_supported);
}
}
break;
default:
unreachable("Invalid aux usage");
}
}
void
iris_resource_finish_write(struct iris_context *ice,
struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t num_layers,
enum isl_aux_usage aux_usage)
{
num_layers = miptree_layer_range_length(res, level, start_layer, num_layers);
switch (res->aux.usage) {
case ISL_AUX_USAGE_NONE:
break;
case ISL_AUX_USAGE_MCS:
for (uint32_t a = 0; a < num_layers; a++) {
iris_resource_finish_mcs_write(ice, res, start_layer + a,
aux_usage);
}
break;
case ISL_AUX_USAGE_CCS_D:
case ISL_AUX_USAGE_CCS_E:
for (uint32_t a = 0; a < num_layers; a++) {
iris_resource_finish_ccs_write(ice, res, level, start_layer + a,
aux_usage);
}
break;
case ISL_AUX_USAGE_HIZ:
if (!iris_resource_level_has_hiz(res, level))
return;
for (uint32_t a = 0; a < num_layers; a++) {
iris_resource_finish_hiz_write(ice, res, level, start_layer + a,
aux_usage);
}
break;
default:
unreachable("Invavlid aux usage");
}
}
enum isl_aux_state
iris_resource_get_aux_state(const struct iris_resource *res,
uint32_t level, uint32_t layer)
{
iris_resource_check_level_layer(res, level, layer);
if (res->surf.usage & ISL_SURF_USAGE_DEPTH_BIT) {
assert(iris_resource_level_has_hiz(res, level));
} else if (res->surf.usage & ISL_SURF_USAGE_STENCIL_BIT) {
unreachable("Cannot get aux state for stencil");
} else {
assert(res->surf.samples == 1 ||
res->surf.msaa_layout == ISL_MSAA_LAYOUT_ARRAY);
}
return res->aux.state[level][layer];
}
void
iris_resource_set_aux_state(struct iris_context *ice,
struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t num_layers,
enum isl_aux_state aux_state)
{
num_layers = miptree_layer_range_length(res, level, start_layer, num_layers);
if (res->surf.usage & ISL_SURF_USAGE_DEPTH_BIT) {
assert(iris_resource_level_has_hiz(res, level));
} else if (res->surf.usage & ISL_SURF_USAGE_STENCIL_BIT) {
unreachable("Cannot set aux state for stencil");
} else {
assert(res->surf.samples == 1 ||
res->surf.msaa_layout == ISL_MSAA_LAYOUT_ARRAY);
}
for (unsigned a = 0; a < num_layers; a++) {
if (res->aux.state[level][start_layer + a] != aux_state) {
res->aux.state[level][start_layer + a] = aux_state;
/* XXX: Need to track which bindings to make dirty */
ice->state.dirty |= IRIS_ALL_DIRTY_BINDINGS;
}
}
}
/* On Gen9 color buffers may be compressed by the hardware (lossless
* compression). There are, however, format restrictions and care needs to be
* taken that the sampler engine is capable for re-interpreting a buffer with
* format different the buffer was originally written with.
*
* For example, SRGB formats are not compressible and the sampler engine isn't
* capable of treating RGBA_UNORM as SRGB_ALPHA. In such a case the underlying
* color buffer needs to be resolved so that the sampling surface can be
* sampled as non-compressed (i.e., without the auxiliary MCS buffer being
* set).
*/
static bool
can_texture_with_ccs(const struct gen_device_info *devinfo,
struct pipe_debug_callback *dbg,
const struct iris_resource *res,
enum isl_format view_format)
{
if (res->aux.usage != ISL_AUX_USAGE_CCS_E)
return false;
if (!format_ccs_e_compat_with_resource(devinfo, res, view_format)) {
const struct isl_format_layout *res_fmtl =
isl_format_get_layout(res->surf.format);
const struct isl_format_layout *view_fmtl =
isl_format_get_layout(view_format);
perf_debug(dbg, "Incompatible sampling format (%s) for CCS (%s)\n",
view_fmtl->name, res_fmtl->name);
return false;
}
return true;
}
enum isl_aux_usage
iris_resource_texture_aux_usage(struct iris_context *ice,
const struct iris_resource *res,
enum isl_format view_format,
enum gen9_astc5x5_wa_tex_type astc5x5_wa_bits)
{
struct iris_screen *screen = (void *) ice->ctx.screen;
struct gen_device_info *devinfo = &screen->devinfo;
assert(devinfo->gen == 9 || astc5x5_wa_bits == 0);
/* On gen9, ASTC 5x5 textures cannot live in the sampler cache along side
* CCS or HiZ compressed textures. See gen9_apply_astc5x5_wa_flush() for
* details.
*/
if ((astc5x5_wa_bits & GEN9_ASTC5X5_WA_TEX_TYPE_ASTC5x5) &&
res->aux.usage != ISL_AUX_USAGE_MCS)
return ISL_AUX_USAGE_NONE;
switch (res->aux.usage) {
case ISL_AUX_USAGE_HIZ:
if (sample_with_hiz(devinfo, res))
return ISL_AUX_USAGE_HIZ;
break;
case ISL_AUX_USAGE_MCS:
return ISL_AUX_USAGE_MCS;
case ISL_AUX_USAGE_CCS_D:
case ISL_AUX_USAGE_CCS_E:
/* If we don't have any unresolved color, report an aux usage of
* ISL_AUX_USAGE_NONE. This way, texturing won't even look at the
* aux surface and we can save some bandwidth.
*/
if (!has_color_unresolved(res, 0, INTEL_REMAINING_LEVELS,
0, INTEL_REMAINING_LAYERS))
return ISL_AUX_USAGE_NONE;
if (can_texture_with_ccs(devinfo, &ice->dbg, res, view_format))
return ISL_AUX_USAGE_CCS_E;
break;
default:
break;
}
return ISL_AUX_USAGE_NONE;
}
static bool
isl_formats_are_fast_clear_compatible(enum isl_format a, enum isl_format b)
{
/* On gen8 and earlier, the hardware was only capable of handling 0/1 clear
* values so sRGB curve application was a no-op for all fast-clearable
* formats.
*
* On gen9+, the hardware supports arbitrary clear values. For sRGB clear
* values, the hardware interprets the floats, not as what would be
* returned from the sampler (or written by the shader), but as being
* between format conversion and sRGB curve application. This means that
* we can switch between sRGB and UNORM without having to whack the clear
* color.
*/
return isl_format_srgb_to_linear(a) == isl_format_srgb_to_linear(b);
}
void
iris_resource_prepare_texture(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res,
enum isl_format view_format,
uint32_t start_level, uint32_t num_levels,
uint32_t start_layer, uint32_t num_layers,
enum gen9_astc5x5_wa_tex_type astc5x5_wa_bits)
{
enum isl_aux_usage aux_usage =
iris_resource_texture_aux_usage(ice, res, view_format, astc5x5_wa_bits);
bool clear_supported = aux_usage != ISL_AUX_USAGE_NONE;
/* Clear color is specified as ints or floats and the conversion is done by
* the sampler. If we have a texture view, we would have to perform the
* clear color conversion manually. Just disable clear color.
*/
if (!isl_formats_are_fast_clear_compatible(res->surf.format, view_format))
clear_supported = false;
iris_resource_prepare_access(ice, batch, res, start_level, num_levels,
start_layer, num_layers,
aux_usage, clear_supported);
}
void
iris_resource_prepare_image(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res)
{
/* The data port doesn't understand any compression */
iris_resource_prepare_access(ice, batch, res, 0, INTEL_REMAINING_LEVELS,
0, INTEL_REMAINING_LAYERS,
ISL_AUX_USAGE_NONE, false);
}
enum isl_aux_usage
iris_resource_render_aux_usage(struct iris_context *ice,
struct iris_resource *res,
enum isl_format render_format,
bool blend_enabled,
bool draw_aux_disabled)
{
struct iris_screen *screen = (void *) ice->ctx.screen;
struct gen_device_info *devinfo = &screen->devinfo;
if (draw_aux_disabled)
return ISL_AUX_USAGE_NONE;
switch (res->aux.usage) {
case ISL_AUX_USAGE_MCS:
return ISL_AUX_USAGE_MCS;
case ISL_AUX_USAGE_CCS_D:
case ISL_AUX_USAGE_CCS_E:
/* Gen9+ hardware technically supports non-0/1 clear colors with sRGB
* formats. However, there are issues with blending where it doesn't
* properly apply the sRGB curve to the clear color when blending.
*/
if (devinfo->gen >= 9 && blend_enabled &&
isl_format_is_srgb(render_format) &&
!isl_color_value_is_zero_one(res->aux.clear_color, render_format))
return ISL_AUX_USAGE_NONE;
if (res->aux.usage == ISL_AUX_USAGE_CCS_E &&
format_ccs_e_compat_with_resource(devinfo, res, render_format))
return ISL_AUX_USAGE_CCS_E;
/* Otherwise, we have to fall back to CCS_D */
return ISL_AUX_USAGE_CCS_D;
default:
return ISL_AUX_USAGE_NONE;
}
}
void
iris_resource_prepare_render(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t layer_count,
enum isl_aux_usage aux_usage)
{
iris_resource_prepare_access(ice, batch, res, level, 1, start_layer,
layer_count, aux_usage,
aux_usage != ISL_AUX_USAGE_NONE);
}
void
iris_resource_finish_render(struct iris_context *ice,
struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t layer_count,
enum isl_aux_usage aux_usage)
{
iris_resource_finish_write(ice, res, level, start_layer, layer_count,
aux_usage);
}
void
iris_resource_prepare_depth(struct iris_context *ice,
struct iris_batch *batch,
struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t layer_count)
{
iris_resource_prepare_access(ice, batch, res, level, 1, start_layer,
layer_count, res->aux.usage, !!res->aux.bo);
}
void
iris_resource_finish_depth(struct iris_context *ice,
struct iris_resource *res, uint32_t level,
uint32_t start_layer, uint32_t layer_count,
bool depth_written)
{
if (depth_written) {
iris_resource_finish_write(ice, res, level, start_layer, layer_count,
res->aux.usage);
}
}
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