1*b7893ccfSSadaf Ebrahimi /* Copyright (c) 2015-2019 The Khronos Group Inc.
2*b7893ccfSSadaf Ebrahimi * Copyright (c) 2015-2019 Valve Corporation
3*b7893ccfSSadaf Ebrahimi * Copyright (c) 2015-2019 LunarG, Inc.
4*b7893ccfSSadaf Ebrahimi * Copyright (C) 2015-2019 Google Inc.
5*b7893ccfSSadaf Ebrahimi *
6*b7893ccfSSadaf Ebrahimi * Licensed under the Apache License, Version 2.0 (the "License");
7*b7893ccfSSadaf Ebrahimi * you may not use this file except in compliance with the License.
8*b7893ccfSSadaf Ebrahimi * You may obtain a copy of the License at
9*b7893ccfSSadaf Ebrahimi *
10*b7893ccfSSadaf Ebrahimi * http://www.apache.org/licenses/LICENSE-2.0
11*b7893ccfSSadaf Ebrahimi *
12*b7893ccfSSadaf Ebrahimi * Unless required by applicable law or agreed to in writing, software
13*b7893ccfSSadaf Ebrahimi * distributed under the License is distributed on an "AS IS" BASIS,
14*b7893ccfSSadaf Ebrahimi * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
15*b7893ccfSSadaf Ebrahimi * See the License for the specific language governing permissions and
16*b7893ccfSSadaf Ebrahimi * limitations under the License.
17*b7893ccfSSadaf Ebrahimi *
18*b7893ccfSSadaf Ebrahimi * Author: Tobin Ehlis <[email protected]>
19*b7893ccfSSadaf Ebrahimi * John Zulauf <[email protected]>
20*b7893ccfSSadaf Ebrahimi */
21*b7893ccfSSadaf Ebrahimi
22*b7893ccfSSadaf Ebrahimi // Allow use of STL min and max functions in Windows
23*b7893ccfSSadaf Ebrahimi #define NOMINMAX
24*b7893ccfSSadaf Ebrahimi
25*b7893ccfSSadaf Ebrahimi #include "chassis.h"
26*b7893ccfSSadaf Ebrahimi #include "core_validation_error_enums.h"
27*b7893ccfSSadaf Ebrahimi #include "core_validation.h"
28*b7893ccfSSadaf Ebrahimi #include "descriptor_sets.h"
29*b7893ccfSSadaf Ebrahimi #include "hash_vk_types.h"
30*b7893ccfSSadaf Ebrahimi #include "vk_enum_string_helper.h"
31*b7893ccfSSadaf Ebrahimi #include "vk_safe_struct.h"
32*b7893ccfSSadaf Ebrahimi #include "vk_typemap_helper.h"
33*b7893ccfSSadaf Ebrahimi #include "buffer_validation.h"
34*b7893ccfSSadaf Ebrahimi #include <sstream>
35*b7893ccfSSadaf Ebrahimi #include <algorithm>
36*b7893ccfSSadaf Ebrahimi #include <array>
37*b7893ccfSSadaf Ebrahimi #include <memory>
38*b7893ccfSSadaf Ebrahimi
39*b7893ccfSSadaf Ebrahimi // ExtendedBinding collects a VkDescriptorSetLayoutBinding and any extended
40*b7893ccfSSadaf Ebrahimi // state that comes from a different array/structure so they can stay together
41*b7893ccfSSadaf Ebrahimi // while being sorted by binding number.
42*b7893ccfSSadaf Ebrahimi struct ExtendedBinding {
ExtendedBindingExtendedBinding43*b7893ccfSSadaf Ebrahimi ExtendedBinding(const VkDescriptorSetLayoutBinding *l, VkDescriptorBindingFlagsEXT f) : layout_binding(l), binding_flags(f) {}
44*b7893ccfSSadaf Ebrahimi
45*b7893ccfSSadaf Ebrahimi const VkDescriptorSetLayoutBinding *layout_binding;
46*b7893ccfSSadaf Ebrahimi VkDescriptorBindingFlagsEXT binding_flags;
47*b7893ccfSSadaf Ebrahimi };
48*b7893ccfSSadaf Ebrahimi
49*b7893ccfSSadaf Ebrahimi struct BindingNumCmp {
operator ()BindingNumCmp50*b7893ccfSSadaf Ebrahimi bool operator()(const ExtendedBinding &a, const ExtendedBinding &b) const {
51*b7893ccfSSadaf Ebrahimi return a.layout_binding->binding < b.layout_binding->binding;
52*b7893ccfSSadaf Ebrahimi }
53*b7893ccfSSadaf Ebrahimi };
54*b7893ccfSSadaf Ebrahimi
55*b7893ccfSSadaf Ebrahimi using DescriptorSet = cvdescriptorset::DescriptorSet;
56*b7893ccfSSadaf Ebrahimi using DescriptorSetLayout = cvdescriptorset::DescriptorSetLayout;
57*b7893ccfSSadaf Ebrahimi using DescriptorSetLayoutDef = cvdescriptorset::DescriptorSetLayoutDef;
58*b7893ccfSSadaf Ebrahimi using DescriptorSetLayoutId = cvdescriptorset::DescriptorSetLayoutId;
59*b7893ccfSSadaf Ebrahimi
60*b7893ccfSSadaf Ebrahimi // Canonical dictionary of DescriptorSetLayoutDef (without any handle/device specific information)
61*b7893ccfSSadaf Ebrahimi cvdescriptorset::DescriptorSetLayoutDict descriptor_set_layout_dict;
62*b7893ccfSSadaf Ebrahimi
GetCanonicalId(const VkDescriptorSetLayoutCreateInfo * p_create_info)63*b7893ccfSSadaf Ebrahimi DescriptorSetLayoutId GetCanonicalId(const VkDescriptorSetLayoutCreateInfo *p_create_info) {
64*b7893ccfSSadaf Ebrahimi return descriptor_set_layout_dict.look_up(DescriptorSetLayoutDef(p_create_info));
65*b7893ccfSSadaf Ebrahimi }
66*b7893ccfSSadaf Ebrahimi
67*b7893ccfSSadaf Ebrahimi // Construct DescriptorSetLayout instance from given create info
68*b7893ccfSSadaf Ebrahimi // Proactively reserve and resize as possible, as the reallocation was visible in profiling
DescriptorSetLayoutDef(const VkDescriptorSetLayoutCreateInfo * p_create_info)69*b7893ccfSSadaf Ebrahimi cvdescriptorset::DescriptorSetLayoutDef::DescriptorSetLayoutDef(const VkDescriptorSetLayoutCreateInfo *p_create_info)
70*b7893ccfSSadaf Ebrahimi : flags_(p_create_info->flags), binding_count_(0), descriptor_count_(0), dynamic_descriptor_count_(0) {
71*b7893ccfSSadaf Ebrahimi const auto *flags_create_info = lvl_find_in_chain<VkDescriptorSetLayoutBindingFlagsCreateInfoEXT>(p_create_info->pNext);
72*b7893ccfSSadaf Ebrahimi
73*b7893ccfSSadaf Ebrahimi binding_type_stats_ = {0, 0, 0};
74*b7893ccfSSadaf Ebrahimi std::set<ExtendedBinding, BindingNumCmp> sorted_bindings;
75*b7893ccfSSadaf Ebrahimi const uint32_t input_bindings_count = p_create_info->bindingCount;
76*b7893ccfSSadaf Ebrahimi // Sort the input bindings in binding number order, eliminating duplicates
77*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < input_bindings_count; i++) {
78*b7893ccfSSadaf Ebrahimi VkDescriptorBindingFlagsEXT flags = 0;
79*b7893ccfSSadaf Ebrahimi if (flags_create_info && flags_create_info->bindingCount == p_create_info->bindingCount) {
80*b7893ccfSSadaf Ebrahimi flags = flags_create_info->pBindingFlags[i];
81*b7893ccfSSadaf Ebrahimi }
82*b7893ccfSSadaf Ebrahimi sorted_bindings.insert(ExtendedBinding(p_create_info->pBindings + i, flags));
83*b7893ccfSSadaf Ebrahimi }
84*b7893ccfSSadaf Ebrahimi
85*b7893ccfSSadaf Ebrahimi // Store the create info in the sorted order from above
86*b7893ccfSSadaf Ebrahimi std::map<uint32_t, uint32_t> binding_to_dyn_count;
87*b7893ccfSSadaf Ebrahimi uint32_t index = 0;
88*b7893ccfSSadaf Ebrahimi binding_count_ = static_cast<uint32_t>(sorted_bindings.size());
89*b7893ccfSSadaf Ebrahimi bindings_.reserve(binding_count_);
90*b7893ccfSSadaf Ebrahimi binding_flags_.reserve(binding_count_);
91*b7893ccfSSadaf Ebrahimi binding_to_index_map_.reserve(binding_count_);
92*b7893ccfSSadaf Ebrahimi for (auto input_binding : sorted_bindings) {
93*b7893ccfSSadaf Ebrahimi // Add to binding and map, s.t. it is robust to invalid duplication of binding_num
94*b7893ccfSSadaf Ebrahimi const auto binding_num = input_binding.layout_binding->binding;
95*b7893ccfSSadaf Ebrahimi binding_to_index_map_[binding_num] = index++;
96*b7893ccfSSadaf Ebrahimi bindings_.emplace_back(input_binding.layout_binding);
97*b7893ccfSSadaf Ebrahimi auto &binding_info = bindings_.back();
98*b7893ccfSSadaf Ebrahimi binding_flags_.emplace_back(input_binding.binding_flags);
99*b7893ccfSSadaf Ebrahimi
100*b7893ccfSSadaf Ebrahimi descriptor_count_ += binding_info.descriptorCount;
101*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorCount > 0) {
102*b7893ccfSSadaf Ebrahimi non_empty_bindings_.insert(binding_num);
103*b7893ccfSSadaf Ebrahimi }
104*b7893ccfSSadaf Ebrahimi
105*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC ||
106*b7893ccfSSadaf Ebrahimi binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC) {
107*b7893ccfSSadaf Ebrahimi binding_to_dyn_count[binding_num] = binding_info.descriptorCount;
108*b7893ccfSSadaf Ebrahimi dynamic_descriptor_count_ += binding_info.descriptorCount;
109*b7893ccfSSadaf Ebrahimi binding_type_stats_.dynamic_buffer_count++;
110*b7893ccfSSadaf Ebrahimi } else if ((binding_info.descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER) ||
111*b7893ccfSSadaf Ebrahimi (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER)) {
112*b7893ccfSSadaf Ebrahimi binding_type_stats_.non_dynamic_buffer_count++;
113*b7893ccfSSadaf Ebrahimi } else {
114*b7893ccfSSadaf Ebrahimi binding_type_stats_.image_sampler_count++;
115*b7893ccfSSadaf Ebrahimi }
116*b7893ccfSSadaf Ebrahimi }
117*b7893ccfSSadaf Ebrahimi assert(bindings_.size() == binding_count_);
118*b7893ccfSSadaf Ebrahimi assert(binding_flags_.size() == binding_count_);
119*b7893ccfSSadaf Ebrahimi uint32_t global_index = 0;
120*b7893ccfSSadaf Ebrahimi global_index_range_.reserve(binding_count_);
121*b7893ccfSSadaf Ebrahimi // Vector order is finalized so build vectors of descriptors and dynamic offsets by binding index
122*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < binding_count_; ++i) {
123*b7893ccfSSadaf Ebrahimi auto final_index = global_index + bindings_[i].descriptorCount;
124*b7893ccfSSadaf Ebrahimi global_index_range_.emplace_back(global_index, final_index);
125*b7893ccfSSadaf Ebrahimi global_index = final_index;
126*b7893ccfSSadaf Ebrahimi }
127*b7893ccfSSadaf Ebrahimi
128*b7893ccfSSadaf Ebrahimi // Now create dyn offset array mapping for any dynamic descriptors
129*b7893ccfSSadaf Ebrahimi uint32_t dyn_array_idx = 0;
130*b7893ccfSSadaf Ebrahimi binding_to_dynamic_array_idx_map_.reserve(binding_to_dyn_count.size());
131*b7893ccfSSadaf Ebrahimi for (const auto &bc_pair : binding_to_dyn_count) {
132*b7893ccfSSadaf Ebrahimi binding_to_dynamic_array_idx_map_[bc_pair.first] = dyn_array_idx;
133*b7893ccfSSadaf Ebrahimi dyn_array_idx += bc_pair.second;
134*b7893ccfSSadaf Ebrahimi }
135*b7893ccfSSadaf Ebrahimi }
136*b7893ccfSSadaf Ebrahimi
hash() const137*b7893ccfSSadaf Ebrahimi size_t cvdescriptorset::DescriptorSetLayoutDef::hash() const {
138*b7893ccfSSadaf Ebrahimi hash_util::HashCombiner hc;
139*b7893ccfSSadaf Ebrahimi hc << flags_;
140*b7893ccfSSadaf Ebrahimi hc.Combine(bindings_);
141*b7893ccfSSadaf Ebrahimi hc.Combine(binding_flags_);
142*b7893ccfSSadaf Ebrahimi return hc.Value();
143*b7893ccfSSadaf Ebrahimi }
144*b7893ccfSSadaf Ebrahimi //
145*b7893ccfSSadaf Ebrahimi
146*b7893ccfSSadaf Ebrahimi // Return valid index or "end" i.e. binding_count_;
147*b7893ccfSSadaf Ebrahimi // The asserts in "Get" are reduced to the set where no valid answer(like null or 0) could be given
148*b7893ccfSSadaf Ebrahimi // Common code for all binding lookups.
GetIndexFromBinding(uint32_t binding) const149*b7893ccfSSadaf Ebrahimi uint32_t cvdescriptorset::DescriptorSetLayoutDef::GetIndexFromBinding(uint32_t binding) const {
150*b7893ccfSSadaf Ebrahimi const auto &bi_itr = binding_to_index_map_.find(binding);
151*b7893ccfSSadaf Ebrahimi if (bi_itr != binding_to_index_map_.cend()) return bi_itr->second;
152*b7893ccfSSadaf Ebrahimi return GetBindingCount();
153*b7893ccfSSadaf Ebrahimi }
GetDescriptorSetLayoutBindingPtrFromIndex(const uint32_t index) const154*b7893ccfSSadaf Ebrahimi VkDescriptorSetLayoutBinding const *cvdescriptorset::DescriptorSetLayoutDef::GetDescriptorSetLayoutBindingPtrFromIndex(
155*b7893ccfSSadaf Ebrahimi const uint32_t index) const {
156*b7893ccfSSadaf Ebrahimi if (index >= bindings_.size()) return nullptr;
157*b7893ccfSSadaf Ebrahimi return bindings_[index].ptr();
158*b7893ccfSSadaf Ebrahimi }
159*b7893ccfSSadaf Ebrahimi // Return descriptorCount for given index, 0 if index is unavailable
GetDescriptorCountFromIndex(const uint32_t index) const160*b7893ccfSSadaf Ebrahimi uint32_t cvdescriptorset::DescriptorSetLayoutDef::GetDescriptorCountFromIndex(const uint32_t index) const {
161*b7893ccfSSadaf Ebrahimi if (index >= bindings_.size()) return 0;
162*b7893ccfSSadaf Ebrahimi return bindings_[index].descriptorCount;
163*b7893ccfSSadaf Ebrahimi }
164*b7893ccfSSadaf Ebrahimi // For the given index, return descriptorType
GetTypeFromIndex(const uint32_t index) const165*b7893ccfSSadaf Ebrahimi VkDescriptorType cvdescriptorset::DescriptorSetLayoutDef::GetTypeFromIndex(const uint32_t index) const {
166*b7893ccfSSadaf Ebrahimi assert(index < bindings_.size());
167*b7893ccfSSadaf Ebrahimi if (index < bindings_.size()) return bindings_[index].descriptorType;
168*b7893ccfSSadaf Ebrahimi return VK_DESCRIPTOR_TYPE_MAX_ENUM;
169*b7893ccfSSadaf Ebrahimi }
170*b7893ccfSSadaf Ebrahimi // For the given index, return stageFlags
GetStageFlagsFromIndex(const uint32_t index) const171*b7893ccfSSadaf Ebrahimi VkShaderStageFlags cvdescriptorset::DescriptorSetLayoutDef::GetStageFlagsFromIndex(const uint32_t index) const {
172*b7893ccfSSadaf Ebrahimi assert(index < bindings_.size());
173*b7893ccfSSadaf Ebrahimi if (index < bindings_.size()) return bindings_[index].stageFlags;
174*b7893ccfSSadaf Ebrahimi return VkShaderStageFlags(0);
175*b7893ccfSSadaf Ebrahimi }
176*b7893ccfSSadaf Ebrahimi // Return binding flags for given index, 0 if index is unavailable
GetDescriptorBindingFlagsFromIndex(const uint32_t index) const177*b7893ccfSSadaf Ebrahimi VkDescriptorBindingFlagsEXT cvdescriptorset::DescriptorSetLayoutDef::GetDescriptorBindingFlagsFromIndex(
178*b7893ccfSSadaf Ebrahimi const uint32_t index) const {
179*b7893ccfSSadaf Ebrahimi if (index >= binding_flags_.size()) return 0;
180*b7893ccfSSadaf Ebrahimi return binding_flags_[index];
181*b7893ccfSSadaf Ebrahimi }
182*b7893ccfSSadaf Ebrahimi
GetGlobalIndexRangeFromIndex(uint32_t index) const183*b7893ccfSSadaf Ebrahimi const cvdescriptorset::IndexRange &cvdescriptorset::DescriptorSetLayoutDef::GetGlobalIndexRangeFromIndex(uint32_t index) const {
184*b7893ccfSSadaf Ebrahimi const static IndexRange kInvalidRange = {0xFFFFFFFF, 0xFFFFFFFF};
185*b7893ccfSSadaf Ebrahimi if (index >= binding_flags_.size()) return kInvalidRange;
186*b7893ccfSSadaf Ebrahimi return global_index_range_[index];
187*b7893ccfSSadaf Ebrahimi }
188*b7893ccfSSadaf Ebrahimi
189*b7893ccfSSadaf Ebrahimi // For the given binding, return the global index range (half open)
190*b7893ccfSSadaf Ebrahimi // As start and end are often needed in pairs, get both with a single lookup.
GetGlobalIndexRangeFromBinding(const uint32_t binding) const191*b7893ccfSSadaf Ebrahimi const cvdescriptorset::IndexRange &cvdescriptorset::DescriptorSetLayoutDef::GetGlobalIndexRangeFromBinding(
192*b7893ccfSSadaf Ebrahimi const uint32_t binding) const {
193*b7893ccfSSadaf Ebrahimi uint32_t index = GetIndexFromBinding(binding);
194*b7893ccfSSadaf Ebrahimi return GetGlobalIndexRangeFromIndex(index);
195*b7893ccfSSadaf Ebrahimi }
196*b7893ccfSSadaf Ebrahimi
197*b7893ccfSSadaf Ebrahimi // For given binding, return ptr to ImmutableSampler array
GetImmutableSamplerPtrFromBinding(const uint32_t binding) const198*b7893ccfSSadaf Ebrahimi VkSampler const *cvdescriptorset::DescriptorSetLayoutDef::GetImmutableSamplerPtrFromBinding(const uint32_t binding) const {
199*b7893ccfSSadaf Ebrahimi const auto &bi_itr = binding_to_index_map_.find(binding);
200*b7893ccfSSadaf Ebrahimi if (bi_itr != binding_to_index_map_.end()) {
201*b7893ccfSSadaf Ebrahimi return bindings_[bi_itr->second].pImmutableSamplers;
202*b7893ccfSSadaf Ebrahimi }
203*b7893ccfSSadaf Ebrahimi return nullptr;
204*b7893ccfSSadaf Ebrahimi }
205*b7893ccfSSadaf Ebrahimi // Move to next valid binding having a non-zero binding count
GetNextValidBinding(const uint32_t binding) const206*b7893ccfSSadaf Ebrahimi uint32_t cvdescriptorset::DescriptorSetLayoutDef::GetNextValidBinding(const uint32_t binding) const {
207*b7893ccfSSadaf Ebrahimi auto it = non_empty_bindings_.upper_bound(binding);
208*b7893ccfSSadaf Ebrahimi assert(it != non_empty_bindings_.cend());
209*b7893ccfSSadaf Ebrahimi if (it != non_empty_bindings_.cend()) return *it;
210*b7893ccfSSadaf Ebrahimi return GetMaxBinding() + 1;
211*b7893ccfSSadaf Ebrahimi }
212*b7893ccfSSadaf Ebrahimi // For given index, return ptr to ImmutableSampler array
GetImmutableSamplerPtrFromIndex(const uint32_t index) const213*b7893ccfSSadaf Ebrahimi VkSampler const *cvdescriptorset::DescriptorSetLayoutDef::GetImmutableSamplerPtrFromIndex(const uint32_t index) const {
214*b7893ccfSSadaf Ebrahimi if (index < bindings_.size()) {
215*b7893ccfSSadaf Ebrahimi return bindings_[index].pImmutableSamplers;
216*b7893ccfSSadaf Ebrahimi }
217*b7893ccfSSadaf Ebrahimi return nullptr;
218*b7893ccfSSadaf Ebrahimi }
219*b7893ccfSSadaf Ebrahimi
220*b7893ccfSSadaf Ebrahimi // If our layout is compatible with rh_ds_layout, return true.
IsCompatible(DescriptorSetLayout const * rh_ds_layout) const221*b7893ccfSSadaf Ebrahimi bool cvdescriptorset::DescriptorSetLayout::IsCompatible(DescriptorSetLayout const *rh_ds_layout) const {
222*b7893ccfSSadaf Ebrahimi bool compatible = (this == rh_ds_layout) || (GetLayoutDef() == rh_ds_layout->GetLayoutDef());
223*b7893ccfSSadaf Ebrahimi return compatible;
224*b7893ccfSSadaf Ebrahimi }
225*b7893ccfSSadaf Ebrahimi // If our layout is compatible with rh_ds_layout, return true,
226*b7893ccfSSadaf Ebrahimi // else return false and fill in error_msg will description of what causes incompatibility
VerifySetLayoutCompatibility(DescriptorSetLayout const * lh_ds_layout,DescriptorSetLayout const * rh_ds_layout,std::string * error_msg)227*b7893ccfSSadaf Ebrahimi bool cvdescriptorset::VerifySetLayoutCompatibility(DescriptorSetLayout const *lh_ds_layout, DescriptorSetLayout const *rh_ds_layout,
228*b7893ccfSSadaf Ebrahimi std::string *error_msg) {
229*b7893ccfSSadaf Ebrahimi // Short circuit the detailed check.
230*b7893ccfSSadaf Ebrahimi if (lh_ds_layout->IsCompatible(rh_ds_layout)) return true;
231*b7893ccfSSadaf Ebrahimi
232*b7893ccfSSadaf Ebrahimi // Do a detailed compatibility check of this lhs def (referenced by lh_ds_layout), vs. the rhs (layout and def)
233*b7893ccfSSadaf Ebrahimi // Should only be run if trivial accept has failed, and in that context should return false.
234*b7893ccfSSadaf Ebrahimi VkDescriptorSetLayout lh_dsl_handle = lh_ds_layout->GetDescriptorSetLayout();
235*b7893ccfSSadaf Ebrahimi VkDescriptorSetLayout rh_dsl_handle = rh_ds_layout->GetDescriptorSetLayout();
236*b7893ccfSSadaf Ebrahimi DescriptorSetLayoutDef const *lh_ds_layout_def = lh_ds_layout->GetLayoutDef();
237*b7893ccfSSadaf Ebrahimi DescriptorSetLayoutDef const *rh_ds_layout_def = rh_ds_layout->GetLayoutDef();
238*b7893ccfSSadaf Ebrahimi
239*b7893ccfSSadaf Ebrahimi // Check descriptor counts
240*b7893ccfSSadaf Ebrahimi if (lh_ds_layout_def->GetTotalDescriptorCount() != rh_ds_layout_def->GetTotalDescriptorCount()) {
241*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
242*b7893ccfSSadaf Ebrahimi error_str << "DescriptorSetLayout " << lh_dsl_handle << " has " << lh_ds_layout_def->GetTotalDescriptorCount()
243*b7893ccfSSadaf Ebrahimi << " descriptors, but DescriptorSetLayout " << rh_dsl_handle << ", which comes from pipelineLayout, has "
244*b7893ccfSSadaf Ebrahimi << rh_ds_layout_def->GetTotalDescriptorCount() << " descriptors.";
245*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
246*b7893ccfSSadaf Ebrahimi return false; // trivial fail case
247*b7893ccfSSadaf Ebrahimi }
248*b7893ccfSSadaf Ebrahimi
249*b7893ccfSSadaf Ebrahimi // Descriptor counts match so need to go through bindings one-by-one
250*b7893ccfSSadaf Ebrahimi // and verify that type and stageFlags match
251*b7893ccfSSadaf Ebrahimi for (const auto &binding : lh_ds_layout_def->GetBindings()) {
252*b7893ccfSSadaf Ebrahimi // TODO : Do we also need to check immutable samplers?
253*b7893ccfSSadaf Ebrahimi // VkDescriptorSetLayoutBinding *rh_binding;
254*b7893ccfSSadaf Ebrahimi if (binding.descriptorCount != rh_ds_layout_def->GetDescriptorCountFromBinding(binding.binding)) {
255*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
256*b7893ccfSSadaf Ebrahimi error_str << "Binding " << binding.binding << " for DescriptorSetLayout " << lh_dsl_handle
257*b7893ccfSSadaf Ebrahimi << " has a descriptorCount of " << binding.descriptorCount << " but binding " << binding.binding
258*b7893ccfSSadaf Ebrahimi << " for DescriptorSetLayout " << rh_dsl_handle
259*b7893ccfSSadaf Ebrahimi << ", which comes from pipelineLayout, has a descriptorCount of "
260*b7893ccfSSadaf Ebrahimi << rh_ds_layout_def->GetDescriptorCountFromBinding(binding.binding);
261*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
262*b7893ccfSSadaf Ebrahimi return false;
263*b7893ccfSSadaf Ebrahimi } else if (binding.descriptorType != rh_ds_layout_def->GetTypeFromBinding(binding.binding)) {
264*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
265*b7893ccfSSadaf Ebrahimi error_str << "Binding " << binding.binding << " for DescriptorSetLayout " << lh_dsl_handle << " is type '"
266*b7893ccfSSadaf Ebrahimi << string_VkDescriptorType(binding.descriptorType) << "' but binding " << binding.binding
267*b7893ccfSSadaf Ebrahimi << " for DescriptorSetLayout " << rh_dsl_handle << ", which comes from pipelineLayout, is type '"
268*b7893ccfSSadaf Ebrahimi << string_VkDescriptorType(rh_ds_layout_def->GetTypeFromBinding(binding.binding)) << "'";
269*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
270*b7893ccfSSadaf Ebrahimi return false;
271*b7893ccfSSadaf Ebrahimi } else if (binding.stageFlags != rh_ds_layout_def->GetStageFlagsFromBinding(binding.binding)) {
272*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
273*b7893ccfSSadaf Ebrahimi error_str << "Binding " << binding.binding << " for DescriptorSetLayout " << lh_dsl_handle << " has stageFlags "
274*b7893ccfSSadaf Ebrahimi << binding.stageFlags << " but binding " << binding.binding << " for DescriptorSetLayout " << rh_dsl_handle
275*b7893ccfSSadaf Ebrahimi << ", which comes from pipelineLayout, has stageFlags "
276*b7893ccfSSadaf Ebrahimi << rh_ds_layout_def->GetStageFlagsFromBinding(binding.binding);
277*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
278*b7893ccfSSadaf Ebrahimi return false;
279*b7893ccfSSadaf Ebrahimi }
280*b7893ccfSSadaf Ebrahimi }
281*b7893ccfSSadaf Ebrahimi // No detailed check should succeed if the trivial check failed -- or the dictionary has failed somehow.
282*b7893ccfSSadaf Ebrahimi bool compatible = true;
283*b7893ccfSSadaf Ebrahimi assert(!compatible);
284*b7893ccfSSadaf Ebrahimi return compatible;
285*b7893ccfSSadaf Ebrahimi }
286*b7893ccfSSadaf Ebrahimi
IsNextBindingConsistent(const uint32_t binding) const287*b7893ccfSSadaf Ebrahimi bool cvdescriptorset::DescriptorSetLayoutDef::IsNextBindingConsistent(const uint32_t binding) const {
288*b7893ccfSSadaf Ebrahimi if (!binding_to_index_map_.count(binding + 1)) return false;
289*b7893ccfSSadaf Ebrahimi auto const &bi_itr = binding_to_index_map_.find(binding);
290*b7893ccfSSadaf Ebrahimi if (bi_itr != binding_to_index_map_.end()) {
291*b7893ccfSSadaf Ebrahimi const auto &next_bi_itr = binding_to_index_map_.find(binding + 1);
292*b7893ccfSSadaf Ebrahimi if (next_bi_itr != binding_to_index_map_.end()) {
293*b7893ccfSSadaf Ebrahimi auto type = bindings_[bi_itr->second].descriptorType;
294*b7893ccfSSadaf Ebrahimi auto stage_flags = bindings_[bi_itr->second].stageFlags;
295*b7893ccfSSadaf Ebrahimi auto immut_samp = bindings_[bi_itr->second].pImmutableSamplers ? true : false;
296*b7893ccfSSadaf Ebrahimi auto flags = binding_flags_[bi_itr->second];
297*b7893ccfSSadaf Ebrahimi if ((type != bindings_[next_bi_itr->second].descriptorType) ||
298*b7893ccfSSadaf Ebrahimi (stage_flags != bindings_[next_bi_itr->second].stageFlags) ||
299*b7893ccfSSadaf Ebrahimi (immut_samp != (bindings_[next_bi_itr->second].pImmutableSamplers ? true : false)) ||
300*b7893ccfSSadaf Ebrahimi (flags != binding_flags_[next_bi_itr->second])) {
301*b7893ccfSSadaf Ebrahimi return false;
302*b7893ccfSSadaf Ebrahimi }
303*b7893ccfSSadaf Ebrahimi return true;
304*b7893ccfSSadaf Ebrahimi }
305*b7893ccfSSadaf Ebrahimi }
306*b7893ccfSSadaf Ebrahimi return false;
307*b7893ccfSSadaf Ebrahimi }
308*b7893ccfSSadaf Ebrahimi
309*b7893ccfSSadaf Ebrahimi // The DescriptorSetLayout stores the per handle data for a descriptor set layout, and references the common defintion for the
310*b7893ccfSSadaf Ebrahimi // handle invariant portion
DescriptorSetLayout(const VkDescriptorSetLayoutCreateInfo * p_create_info,const VkDescriptorSetLayout layout)311*b7893ccfSSadaf Ebrahimi cvdescriptorset::DescriptorSetLayout::DescriptorSetLayout(const VkDescriptorSetLayoutCreateInfo *p_create_info,
312*b7893ccfSSadaf Ebrahimi const VkDescriptorSetLayout layout)
313*b7893ccfSSadaf Ebrahimi : layout_(layout), layout_destroyed_(false), layout_id_(GetCanonicalId(p_create_info)) {}
314*b7893ccfSSadaf Ebrahimi
315*b7893ccfSSadaf Ebrahimi // Validate descriptor set layout create info
ValidateDescriptorSetLayoutCreateInfo(const debug_report_data * report_data,const VkDescriptorSetLayoutCreateInfo * create_info,const bool push_descriptor_ext,const uint32_t max_push_descriptors,const bool descriptor_indexing_ext,const VkPhysicalDeviceDescriptorIndexingFeaturesEXT * descriptor_indexing_features,const VkPhysicalDeviceInlineUniformBlockFeaturesEXT * inline_uniform_block_features,const VkPhysicalDeviceInlineUniformBlockPropertiesEXT * inline_uniform_block_props,const DeviceExtensions * device_extensions)316*b7893ccfSSadaf Ebrahimi bool cvdescriptorset::ValidateDescriptorSetLayoutCreateInfo(
317*b7893ccfSSadaf Ebrahimi const debug_report_data *report_data, const VkDescriptorSetLayoutCreateInfo *create_info, const bool push_descriptor_ext,
318*b7893ccfSSadaf Ebrahimi const uint32_t max_push_descriptors, const bool descriptor_indexing_ext,
319*b7893ccfSSadaf Ebrahimi const VkPhysicalDeviceDescriptorIndexingFeaturesEXT *descriptor_indexing_features,
320*b7893ccfSSadaf Ebrahimi const VkPhysicalDeviceInlineUniformBlockFeaturesEXT *inline_uniform_block_features,
321*b7893ccfSSadaf Ebrahimi const VkPhysicalDeviceInlineUniformBlockPropertiesEXT *inline_uniform_block_props, const DeviceExtensions *device_extensions) {
322*b7893ccfSSadaf Ebrahimi bool skip = false;
323*b7893ccfSSadaf Ebrahimi std::unordered_set<uint32_t> bindings;
324*b7893ccfSSadaf Ebrahimi uint64_t total_descriptors = 0;
325*b7893ccfSSadaf Ebrahimi
326*b7893ccfSSadaf Ebrahimi const auto *flags_create_info = lvl_find_in_chain<VkDescriptorSetLayoutBindingFlagsCreateInfoEXT>(create_info->pNext);
327*b7893ccfSSadaf Ebrahimi
328*b7893ccfSSadaf Ebrahimi const bool push_descriptor_set = !!(create_info->flags & VK_DESCRIPTOR_SET_LAYOUT_CREATE_PUSH_DESCRIPTOR_BIT_KHR);
329*b7893ccfSSadaf Ebrahimi if (push_descriptor_set && !push_descriptor_ext) {
330*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
331*b7893ccfSSadaf Ebrahimi kVUID_Core_DrawState_ExtensionNotEnabled,
332*b7893ccfSSadaf Ebrahimi "Attempted to use %s in %s but its required extension %s has not been enabled.\n",
333*b7893ccfSSadaf Ebrahimi "VK_DESCRIPTOR_SET_LAYOUT_CREATE_PUSH_DESCRIPTOR_BIT_KHR", "VkDescriptorSetLayoutCreateInfo::flags",
334*b7893ccfSSadaf Ebrahimi VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME);
335*b7893ccfSSadaf Ebrahimi }
336*b7893ccfSSadaf Ebrahimi
337*b7893ccfSSadaf Ebrahimi const bool update_after_bind_set = !!(create_info->flags & VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT);
338*b7893ccfSSadaf Ebrahimi if (update_after_bind_set && !descriptor_indexing_ext) {
339*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
340*b7893ccfSSadaf Ebrahimi kVUID_Core_DrawState_ExtensionNotEnabled,
341*b7893ccfSSadaf Ebrahimi "Attemped to use %s in %s but its required extension %s has not been enabled.\n",
342*b7893ccfSSadaf Ebrahimi "VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT", "VkDescriptorSetLayoutCreateInfo::flags",
343*b7893ccfSSadaf Ebrahimi VK_EXT_DESCRIPTOR_INDEXING_EXTENSION_NAME);
344*b7893ccfSSadaf Ebrahimi }
345*b7893ccfSSadaf Ebrahimi
346*b7893ccfSSadaf Ebrahimi auto valid_type = [push_descriptor_set](const VkDescriptorType type) {
347*b7893ccfSSadaf Ebrahimi return !push_descriptor_set ||
348*b7893ccfSSadaf Ebrahimi ((type != VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC) && (type != VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC) &&
349*b7893ccfSSadaf Ebrahimi (type != VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT));
350*b7893ccfSSadaf Ebrahimi };
351*b7893ccfSSadaf Ebrahimi
352*b7893ccfSSadaf Ebrahimi uint32_t max_binding = 0;
353*b7893ccfSSadaf Ebrahimi
354*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < create_info->bindingCount; ++i) {
355*b7893ccfSSadaf Ebrahimi const auto &binding_info = create_info->pBindings[i];
356*b7893ccfSSadaf Ebrahimi max_binding = std::max(max_binding, binding_info.binding);
357*b7893ccfSSadaf Ebrahimi
358*b7893ccfSSadaf Ebrahimi if (!bindings.insert(binding_info.binding).second) {
359*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
360*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutCreateInfo-binding-00279",
361*b7893ccfSSadaf Ebrahimi "duplicated binding number in VkDescriptorSetLayoutBinding.");
362*b7893ccfSSadaf Ebrahimi }
363*b7893ccfSSadaf Ebrahimi if (!valid_type(binding_info.descriptorType)) {
364*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
365*b7893ccfSSadaf Ebrahimi (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT)
366*b7893ccfSSadaf Ebrahimi ? "VUID-VkDescriptorSetLayoutCreateInfo-flags-02208"
367*b7893ccfSSadaf Ebrahimi : "VUID-VkDescriptorSetLayoutCreateInfo-flags-00280",
368*b7893ccfSSadaf Ebrahimi "invalid type %s ,for push descriptors in VkDescriptorSetLayoutBinding entry %" PRIu32 ".",
369*b7893ccfSSadaf Ebrahimi string_VkDescriptorType(binding_info.descriptorType), i);
370*b7893ccfSSadaf Ebrahimi }
371*b7893ccfSSadaf Ebrahimi
372*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT) {
373*b7893ccfSSadaf Ebrahimi if (!device_extensions->vk_ext_inline_uniform_block) {
374*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DEVICE_EXT, 0,
375*b7893ccfSSadaf Ebrahimi "UNASSIGNED-Extension not enabled",
376*b7893ccfSSadaf Ebrahimi "Creating VkDescriptorSetLayout with descriptor type VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT "
377*b7893ccfSSadaf Ebrahimi "but extension %s is missing",
378*b7893ccfSSadaf Ebrahimi VK_EXT_INLINE_UNIFORM_BLOCK_EXTENSION_NAME);
379*b7893ccfSSadaf Ebrahimi } else {
380*b7893ccfSSadaf Ebrahimi if ((binding_info.descriptorCount % 4) != 0) {
381*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
382*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBinding-descriptorType-02209",
383*b7893ccfSSadaf Ebrahimi "descriptorCount =(%" PRIu32 ") must be a multiple of 4", binding_info.descriptorCount);
384*b7893ccfSSadaf Ebrahimi }
385*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorCount > inline_uniform_block_props->maxInlineUniformBlockSize) {
386*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
387*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBinding-descriptorType-02210",
388*b7893ccfSSadaf Ebrahimi "descriptorCount =(%" PRIu32 ") must be less than or equal to maxInlineUniformBlockSize",
389*b7893ccfSSadaf Ebrahimi binding_info.descriptorCount);
390*b7893ccfSSadaf Ebrahimi }
391*b7893ccfSSadaf Ebrahimi }
392*b7893ccfSSadaf Ebrahimi }
393*b7893ccfSSadaf Ebrahimi
394*b7893ccfSSadaf Ebrahimi total_descriptors += binding_info.descriptorCount;
395*b7893ccfSSadaf Ebrahimi }
396*b7893ccfSSadaf Ebrahimi
397*b7893ccfSSadaf Ebrahimi if (flags_create_info) {
398*b7893ccfSSadaf Ebrahimi if (flags_create_info->bindingCount != 0 && flags_create_info->bindingCount != create_info->bindingCount) {
399*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
400*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-bindingCount-03002",
401*b7893ccfSSadaf Ebrahimi "VkDescriptorSetLayoutCreateInfo::bindingCount (%d) != "
402*b7893ccfSSadaf Ebrahimi "VkDescriptorSetLayoutBindingFlagsCreateInfoEXT::bindingCount (%d)",
403*b7893ccfSSadaf Ebrahimi create_info->bindingCount, flags_create_info->bindingCount);
404*b7893ccfSSadaf Ebrahimi }
405*b7893ccfSSadaf Ebrahimi
406*b7893ccfSSadaf Ebrahimi if (flags_create_info->bindingCount == create_info->bindingCount) {
407*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < create_info->bindingCount; ++i) {
408*b7893ccfSSadaf Ebrahimi const auto &binding_info = create_info->pBindings[i];
409*b7893ccfSSadaf Ebrahimi
410*b7893ccfSSadaf Ebrahimi if (flags_create_info->pBindingFlags[i] & VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT) {
411*b7893ccfSSadaf Ebrahimi if (!update_after_bind_set) {
412*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
413*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutCreateInfo-flags-03000",
414*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
415*b7893ccfSSadaf Ebrahimi }
416*b7893ccfSSadaf Ebrahimi
417*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER &&
418*b7893ccfSSadaf Ebrahimi !descriptor_indexing_features->descriptorBindingUniformBufferUpdateAfterBind) {
419*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
420*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
421*b7893ccfSSadaf Ebrahimi "descriptorBindingUniformBufferUpdateAfterBind-03005",
422*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
423*b7893ccfSSadaf Ebrahimi }
424*b7893ccfSSadaf Ebrahimi if ((binding_info.descriptorType == VK_DESCRIPTOR_TYPE_SAMPLER ||
425*b7893ccfSSadaf Ebrahimi binding_info.descriptorType == VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER ||
426*b7893ccfSSadaf Ebrahimi binding_info.descriptorType == VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE) &&
427*b7893ccfSSadaf Ebrahimi !descriptor_indexing_features->descriptorBindingSampledImageUpdateAfterBind) {
428*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
429*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
430*b7893ccfSSadaf Ebrahimi "descriptorBindingSampledImageUpdateAfterBind-03006",
431*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
432*b7893ccfSSadaf Ebrahimi }
433*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_IMAGE &&
434*b7893ccfSSadaf Ebrahimi !descriptor_indexing_features->descriptorBindingStorageImageUpdateAfterBind) {
435*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
436*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
437*b7893ccfSSadaf Ebrahimi "descriptorBindingStorageImageUpdateAfterBind-03007",
438*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
439*b7893ccfSSadaf Ebrahimi }
440*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER &&
441*b7893ccfSSadaf Ebrahimi !descriptor_indexing_features->descriptorBindingStorageBufferUpdateAfterBind) {
442*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
443*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
444*b7893ccfSSadaf Ebrahimi "descriptorBindingStorageBufferUpdateAfterBind-03008",
445*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
446*b7893ccfSSadaf Ebrahimi }
447*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER &&
448*b7893ccfSSadaf Ebrahimi !descriptor_indexing_features->descriptorBindingUniformTexelBufferUpdateAfterBind) {
449*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
450*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
451*b7893ccfSSadaf Ebrahimi "descriptorBindingUniformTexelBufferUpdateAfterBind-03009",
452*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
453*b7893ccfSSadaf Ebrahimi }
454*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER &&
455*b7893ccfSSadaf Ebrahimi !descriptor_indexing_features->descriptorBindingStorageTexelBufferUpdateAfterBind) {
456*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
457*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
458*b7893ccfSSadaf Ebrahimi "descriptorBindingStorageTexelBufferUpdateAfterBind-03010",
459*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
460*b7893ccfSSadaf Ebrahimi }
461*b7893ccfSSadaf Ebrahimi if ((binding_info.descriptorType == VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT ||
462*b7893ccfSSadaf Ebrahimi binding_info.descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC ||
463*b7893ccfSSadaf Ebrahimi binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC)) {
464*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
465*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-None-03011",
466*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
467*b7893ccfSSadaf Ebrahimi }
468*b7893ccfSSadaf Ebrahimi
469*b7893ccfSSadaf Ebrahimi if (binding_info.descriptorType == VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT &&
470*b7893ccfSSadaf Ebrahimi !inline_uniform_block_features->descriptorBindingInlineUniformBlockUpdateAfterBind) {
471*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
472*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-"
473*b7893ccfSSadaf Ebrahimi "descriptorBindingInlineUniformBlockUpdateAfterBind-02211",
474*b7893ccfSSadaf Ebrahimi "Invalid flags (VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT) for "
475*b7893ccfSSadaf Ebrahimi "VkDescriptorSetLayoutBinding entry %" PRIu32
476*b7893ccfSSadaf Ebrahimi " with descriptorBindingInlineUniformBlockUpdateAfterBind not enabled",
477*b7893ccfSSadaf Ebrahimi i);
478*b7893ccfSSadaf Ebrahimi }
479*b7893ccfSSadaf Ebrahimi }
480*b7893ccfSSadaf Ebrahimi
481*b7893ccfSSadaf Ebrahimi if (flags_create_info->pBindingFlags[i] & VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT) {
482*b7893ccfSSadaf Ebrahimi if (!descriptor_indexing_features->descriptorBindingUpdateUnusedWhilePending) {
483*b7893ccfSSadaf Ebrahimi skip |= log_msg(
484*b7893ccfSSadaf Ebrahimi report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
485*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-descriptorBindingUpdateUnusedWhilePending-03012",
486*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
487*b7893ccfSSadaf Ebrahimi }
488*b7893ccfSSadaf Ebrahimi }
489*b7893ccfSSadaf Ebrahimi
490*b7893ccfSSadaf Ebrahimi if (flags_create_info->pBindingFlags[i] & VK_DESCRIPTOR_BINDING_PARTIALLY_BOUND_BIT_EXT) {
491*b7893ccfSSadaf Ebrahimi if (!descriptor_indexing_features->descriptorBindingPartiallyBound) {
492*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
493*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-descriptorBindingPartiallyBound-03013",
494*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
495*b7893ccfSSadaf Ebrahimi }
496*b7893ccfSSadaf Ebrahimi }
497*b7893ccfSSadaf Ebrahimi
498*b7893ccfSSadaf Ebrahimi if (flags_create_info->pBindingFlags[i] & VK_DESCRIPTOR_BINDING_VARIABLE_DESCRIPTOR_COUNT_BIT_EXT) {
499*b7893ccfSSadaf Ebrahimi if (binding_info.binding != max_binding) {
500*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
501*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-pBindingFlags-03004",
502*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
503*b7893ccfSSadaf Ebrahimi }
504*b7893ccfSSadaf Ebrahimi
505*b7893ccfSSadaf Ebrahimi if (!descriptor_indexing_features->descriptorBindingVariableDescriptorCount) {
506*b7893ccfSSadaf Ebrahimi skip |= log_msg(
507*b7893ccfSSadaf Ebrahimi report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
508*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-descriptorBindingVariableDescriptorCount-03014",
509*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
510*b7893ccfSSadaf Ebrahimi }
511*b7893ccfSSadaf Ebrahimi if ((binding_info.descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC ||
512*b7893ccfSSadaf Ebrahimi binding_info.descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC)) {
513*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
514*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-pBindingFlags-03015",
515*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
516*b7893ccfSSadaf Ebrahimi }
517*b7893ccfSSadaf Ebrahimi }
518*b7893ccfSSadaf Ebrahimi
519*b7893ccfSSadaf Ebrahimi if (push_descriptor_set &&
520*b7893ccfSSadaf Ebrahimi (flags_create_info->pBindingFlags[i] &
521*b7893ccfSSadaf Ebrahimi (VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT | VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT |
522*b7893ccfSSadaf Ebrahimi VK_DESCRIPTOR_BINDING_VARIABLE_DESCRIPTOR_COUNT_BIT_EXT))) {
523*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
524*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutBindingFlagsCreateInfoEXT-flags-03003",
525*b7893ccfSSadaf Ebrahimi "Invalid flags for VkDescriptorSetLayoutBinding entry %" PRIu32, i);
526*b7893ccfSSadaf Ebrahimi }
527*b7893ccfSSadaf Ebrahimi }
528*b7893ccfSSadaf Ebrahimi }
529*b7893ccfSSadaf Ebrahimi }
530*b7893ccfSSadaf Ebrahimi
531*b7893ccfSSadaf Ebrahimi if ((push_descriptor_set) && (total_descriptors > max_push_descriptors)) {
532*b7893ccfSSadaf Ebrahimi const char *undefined = push_descriptor_ext ? "" : " -- undefined";
533*b7893ccfSSadaf Ebrahimi skip |=
534*b7893ccfSSadaf Ebrahimi log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT, 0,
535*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetLayoutCreateInfo-flags-00281",
536*b7893ccfSSadaf Ebrahimi "for push descriptor, total descriptor count in layout (%" PRIu64
537*b7893ccfSSadaf Ebrahimi ") must not be greater than VkPhysicalDevicePushDescriptorPropertiesKHR::maxPushDescriptors (%" PRIu32 "%s).",
538*b7893ccfSSadaf Ebrahimi total_descriptors, max_push_descriptors, undefined);
539*b7893ccfSSadaf Ebrahimi }
540*b7893ccfSSadaf Ebrahimi
541*b7893ccfSSadaf Ebrahimi return skip;
542*b7893ccfSSadaf Ebrahimi }
543*b7893ccfSSadaf Ebrahimi
AllocateDescriptorSetsData(uint32_t count)544*b7893ccfSSadaf Ebrahimi cvdescriptorset::AllocateDescriptorSetsData::AllocateDescriptorSetsData(uint32_t count)
545*b7893ccfSSadaf Ebrahimi : required_descriptors_by_type{}, layout_nodes(count, nullptr) {}
546*b7893ccfSSadaf Ebrahimi
DescriptorSet(const VkDescriptorSet set,const VkDescriptorPool pool,const std::shared_ptr<DescriptorSetLayout const> & layout,uint32_t variable_count,cvdescriptorset::DescriptorSet::StateTracker * state_data)547*b7893ccfSSadaf Ebrahimi cvdescriptorset::DescriptorSet::DescriptorSet(const VkDescriptorSet set, const VkDescriptorPool pool,
548*b7893ccfSSadaf Ebrahimi const std::shared_ptr<DescriptorSetLayout const> &layout, uint32_t variable_count,
549*b7893ccfSSadaf Ebrahimi cvdescriptorset::DescriptorSet::StateTracker *state_data)
550*b7893ccfSSadaf Ebrahimi : some_update_(false),
551*b7893ccfSSadaf Ebrahimi set_(set),
552*b7893ccfSSadaf Ebrahimi pool_state_(nullptr),
553*b7893ccfSSadaf Ebrahimi p_layout_(layout),
554*b7893ccfSSadaf Ebrahimi state_data_(state_data),
555*b7893ccfSSadaf Ebrahimi variable_count_(variable_count),
556*b7893ccfSSadaf Ebrahimi change_count_(0) {
557*b7893ccfSSadaf Ebrahimi pool_state_ = state_data->GetDescriptorPoolState(pool);
558*b7893ccfSSadaf Ebrahimi // Foreach binding, create default descriptors of given type
559*b7893ccfSSadaf Ebrahimi descriptors_.reserve(p_layout_->GetTotalDescriptorCount());
560*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < p_layout_->GetBindingCount(); ++i) {
561*b7893ccfSSadaf Ebrahimi auto type = p_layout_->GetTypeFromIndex(i);
562*b7893ccfSSadaf Ebrahimi switch (type) {
563*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLER: {
564*b7893ccfSSadaf Ebrahimi auto immut_sampler = p_layout_->GetImmutableSamplerPtrFromIndex(i);
565*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di) {
566*b7893ccfSSadaf Ebrahimi if (immut_sampler) {
567*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new SamplerDescriptor(immut_sampler + di));
568*b7893ccfSSadaf Ebrahimi some_update_ = true; // Immutable samplers are updated at creation
569*b7893ccfSSadaf Ebrahimi } else
570*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new SamplerDescriptor(nullptr));
571*b7893ccfSSadaf Ebrahimi }
572*b7893ccfSSadaf Ebrahimi break;
573*b7893ccfSSadaf Ebrahimi }
574*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER: {
575*b7893ccfSSadaf Ebrahimi auto immut = p_layout_->GetImmutableSamplerPtrFromIndex(i);
576*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di) {
577*b7893ccfSSadaf Ebrahimi if (immut) {
578*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new ImageSamplerDescriptor(immut + di));
579*b7893ccfSSadaf Ebrahimi some_update_ = true; // Immutable samplers are updated at creation
580*b7893ccfSSadaf Ebrahimi } else
581*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new ImageSamplerDescriptor(nullptr));
582*b7893ccfSSadaf Ebrahimi }
583*b7893ccfSSadaf Ebrahimi break;
584*b7893ccfSSadaf Ebrahimi }
585*b7893ccfSSadaf Ebrahimi // ImageDescriptors
586*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE:
587*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT:
588*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE:
589*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di)
590*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new ImageDescriptor(type));
591*b7893ccfSSadaf Ebrahimi break;
592*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER:
593*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER:
594*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di)
595*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new TexelDescriptor(type));
596*b7893ccfSSadaf Ebrahimi break;
597*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER:
598*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC:
599*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER:
600*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC:
601*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di)
602*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new BufferDescriptor(type));
603*b7893ccfSSadaf Ebrahimi break;
604*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT:
605*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di)
606*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new InlineUniformDescriptor(type));
607*b7893ccfSSadaf Ebrahimi break;
608*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_ACCELERATION_STRUCTURE_NV:
609*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < p_layout_->GetDescriptorCountFromIndex(i); ++di)
610*b7893ccfSSadaf Ebrahimi descriptors_.emplace_back(new AccelerationStructureDescriptor(type));
611*b7893ccfSSadaf Ebrahimi break;
612*b7893ccfSSadaf Ebrahimi default:
613*b7893ccfSSadaf Ebrahimi assert(0); // Bad descriptor type specified
614*b7893ccfSSadaf Ebrahimi break;
615*b7893ccfSSadaf Ebrahimi }
616*b7893ccfSSadaf Ebrahimi }
617*b7893ccfSSadaf Ebrahimi }
618*b7893ccfSSadaf Ebrahimi
~DescriptorSet()619*b7893ccfSSadaf Ebrahimi cvdescriptorset::DescriptorSet::~DescriptorSet() { InvalidateBoundCmdBuffers(); }
620*b7893ccfSSadaf Ebrahimi
StringDescriptorReqViewType(descriptor_req req)621*b7893ccfSSadaf Ebrahimi static std::string StringDescriptorReqViewType(descriptor_req req) {
622*b7893ccfSSadaf Ebrahimi std::string result("");
623*b7893ccfSSadaf Ebrahimi for (unsigned i = 0; i <= VK_IMAGE_VIEW_TYPE_END_RANGE; i++) {
624*b7893ccfSSadaf Ebrahimi if (req & (1 << i)) {
625*b7893ccfSSadaf Ebrahimi if (result.size()) result += ", ";
626*b7893ccfSSadaf Ebrahimi result += string_VkImageViewType(VkImageViewType(i));
627*b7893ccfSSadaf Ebrahimi }
628*b7893ccfSSadaf Ebrahimi }
629*b7893ccfSSadaf Ebrahimi
630*b7893ccfSSadaf Ebrahimi if (!result.size()) result = "(none)";
631*b7893ccfSSadaf Ebrahimi
632*b7893ccfSSadaf Ebrahimi return result;
633*b7893ccfSSadaf Ebrahimi }
634*b7893ccfSSadaf Ebrahimi
StringDescriptorReqComponentType(descriptor_req req)635*b7893ccfSSadaf Ebrahimi static char const *StringDescriptorReqComponentType(descriptor_req req) {
636*b7893ccfSSadaf Ebrahimi if (req & DESCRIPTOR_REQ_COMPONENT_TYPE_SINT) return "SINT";
637*b7893ccfSSadaf Ebrahimi if (req & DESCRIPTOR_REQ_COMPONENT_TYPE_UINT) return "UINT";
638*b7893ccfSSadaf Ebrahimi if (req & DESCRIPTOR_REQ_COMPONENT_TYPE_FLOAT) return "FLOAT";
639*b7893ccfSSadaf Ebrahimi return "(none)";
640*b7893ccfSSadaf Ebrahimi }
641*b7893ccfSSadaf Ebrahimi
DescriptorRequirementsBitsFromFormat(VkFormat fmt)642*b7893ccfSSadaf Ebrahimi unsigned DescriptorRequirementsBitsFromFormat(VkFormat fmt) {
643*b7893ccfSSadaf Ebrahimi if (FormatIsSInt(fmt)) return DESCRIPTOR_REQ_COMPONENT_TYPE_SINT;
644*b7893ccfSSadaf Ebrahimi if (FormatIsUInt(fmt)) return DESCRIPTOR_REQ_COMPONENT_TYPE_UINT;
645*b7893ccfSSadaf Ebrahimi if (FormatIsDepthAndStencil(fmt)) return DESCRIPTOR_REQ_COMPONENT_TYPE_FLOAT | DESCRIPTOR_REQ_COMPONENT_TYPE_UINT;
646*b7893ccfSSadaf Ebrahimi if (fmt == VK_FORMAT_UNDEFINED) return 0;
647*b7893ccfSSadaf Ebrahimi // everything else -- UNORM/SNORM/FLOAT/USCALED/SSCALED is all float in the shader.
648*b7893ccfSSadaf Ebrahimi return DESCRIPTOR_REQ_COMPONENT_TYPE_FLOAT;
649*b7893ccfSSadaf Ebrahimi }
650*b7893ccfSSadaf Ebrahimi
651*b7893ccfSSadaf Ebrahimi // Validate that the state of this set is appropriate for the given bindings and dynamic_offsets at Draw time
652*b7893ccfSSadaf Ebrahimi // This includes validating that all descriptors in the given bindings are updated,
653*b7893ccfSSadaf Ebrahimi // that any update buffers are valid, and that any dynamic offsets are within the bounds of their buffers.
654*b7893ccfSSadaf Ebrahimi // Return true if state is acceptable, or false and write an error message into error string
ValidateDrawState(const DescriptorSet * descriptor_set,const std::map<uint32_t,descriptor_req> & bindings,const std::vector<uint32_t> & dynamic_offsets,const CMD_BUFFER_STATE * cb_node,const char * caller,std::string * error) const655*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateDrawState(const DescriptorSet *descriptor_set, const std::map<uint32_t, descriptor_req> &bindings,
656*b7893ccfSSadaf Ebrahimi const std::vector<uint32_t> &dynamic_offsets, const CMD_BUFFER_STATE *cb_node,
657*b7893ccfSSadaf Ebrahimi const char *caller, std::string *error) const {
658*b7893ccfSSadaf Ebrahimi using DescriptorClass = cvdescriptorset::DescriptorClass;
659*b7893ccfSSadaf Ebrahimi using BufferDescriptor = cvdescriptorset::BufferDescriptor;
660*b7893ccfSSadaf Ebrahimi using ImageDescriptor = cvdescriptorset::ImageDescriptor;
661*b7893ccfSSadaf Ebrahimi using ImageSamplerDescriptor = cvdescriptorset::ImageSamplerDescriptor;
662*b7893ccfSSadaf Ebrahimi using SamplerDescriptor = cvdescriptorset::SamplerDescriptor;
663*b7893ccfSSadaf Ebrahimi using TexelDescriptor = cvdescriptorset::TexelDescriptor;
664*b7893ccfSSadaf Ebrahimi for (auto binding_pair : bindings) {
665*b7893ccfSSadaf Ebrahimi auto binding = binding_pair.first;
666*b7893ccfSSadaf Ebrahimi DescriptorSetLayout::ConstBindingIterator binding_it(descriptor_set->GetLayout().get(), binding);
667*b7893ccfSSadaf Ebrahimi if (binding_it.AtEnd()) { // End at construction is the condition for an invalid binding.
668*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
669*b7893ccfSSadaf Ebrahimi error_str << "Attempting to validate DrawState for binding #" << binding
670*b7893ccfSSadaf Ebrahimi << " which is an invalid binding for this descriptor set.";
671*b7893ccfSSadaf Ebrahimi *error = error_str.str();
672*b7893ccfSSadaf Ebrahimi return false;
673*b7893ccfSSadaf Ebrahimi }
674*b7893ccfSSadaf Ebrahimi
675*b7893ccfSSadaf Ebrahimi if (binding_it.GetDescriptorBindingFlags() &
676*b7893ccfSSadaf Ebrahimi (VK_DESCRIPTOR_BINDING_PARTIALLY_BOUND_BIT_EXT | VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT)) {
677*b7893ccfSSadaf Ebrahimi // Can't validate the descriptor because it may not have been updated,
678*b7893ccfSSadaf Ebrahimi // or the view could have been destroyed
679*b7893ccfSSadaf Ebrahimi continue;
680*b7893ccfSSadaf Ebrahimi }
681*b7893ccfSSadaf Ebrahimi
682*b7893ccfSSadaf Ebrahimi // Copy the range, the end range is subject to update based on variable length descriptor arrays.
683*b7893ccfSSadaf Ebrahimi cvdescriptorset::IndexRange index_range = binding_it.GetGlobalIndexRange();
684*b7893ccfSSadaf Ebrahimi auto array_idx = 0; // Track array idx if we're dealing with array descriptors
685*b7893ccfSSadaf Ebrahimi
686*b7893ccfSSadaf Ebrahimi if (binding_it.IsVariableDescriptorCount()) {
687*b7893ccfSSadaf Ebrahimi // Only validate the first N descriptors if it uses variable_count
688*b7893ccfSSadaf Ebrahimi index_range.end = index_range.start + descriptor_set->GetVariableDescriptorCount();
689*b7893ccfSSadaf Ebrahimi }
690*b7893ccfSSadaf Ebrahimi
691*b7893ccfSSadaf Ebrahimi for (uint32_t i = index_range.start; i < index_range.end; ++i, ++array_idx) {
692*b7893ccfSSadaf Ebrahimi uint32_t index = i - index_range.start;
693*b7893ccfSSadaf Ebrahimi const auto *descriptor = descriptor_set->GetDescriptorFromGlobalIndex(i);
694*b7893ccfSSadaf Ebrahimi
695*b7893ccfSSadaf Ebrahimi if (descriptor->GetClass() == DescriptorClass::InlineUniform) {
696*b7893ccfSSadaf Ebrahimi // Can't validate the descriptor because it may not have been updated.
697*b7893ccfSSadaf Ebrahimi continue;
698*b7893ccfSSadaf Ebrahimi } else if (!descriptor->updated) {
699*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
700*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index
701*b7893ccfSSadaf Ebrahimi << " is being used in draw but has never been updated via vkUpdateDescriptorSets() or a similar call.";
702*b7893ccfSSadaf Ebrahimi *error = error_str.str();
703*b7893ccfSSadaf Ebrahimi return false;
704*b7893ccfSSadaf Ebrahimi } else {
705*b7893ccfSSadaf Ebrahimi auto descriptor_class = descriptor->GetClass();
706*b7893ccfSSadaf Ebrahimi if (descriptor_class == DescriptorClass::GeneralBuffer) {
707*b7893ccfSSadaf Ebrahimi // Verify that buffers are valid
708*b7893ccfSSadaf Ebrahimi auto buffer = static_cast<const BufferDescriptor *>(descriptor)->GetBuffer();
709*b7893ccfSSadaf Ebrahimi auto buffer_node = GetBufferState(buffer);
710*b7893ccfSSadaf Ebrahimi if (!buffer_node) {
711*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
712*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " references invalid buffer "
713*b7893ccfSSadaf Ebrahimi << buffer << ".";
714*b7893ccfSSadaf Ebrahimi *error = error_str.str();
715*b7893ccfSSadaf Ebrahimi return false;
716*b7893ccfSSadaf Ebrahimi } else if (!buffer_node->sparse) {
717*b7893ccfSSadaf Ebrahimi for (auto mem_binding : buffer_node->GetBoundMemory()) {
718*b7893ccfSSadaf Ebrahimi if (!GetDevMemState(mem_binding)) {
719*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
720*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " uses buffer " << buffer
721*b7893ccfSSadaf Ebrahimi << " that references invalid memory " << mem_binding << ".";
722*b7893ccfSSadaf Ebrahimi *error = error_str.str();
723*b7893ccfSSadaf Ebrahimi return false;
724*b7893ccfSSadaf Ebrahimi }
725*b7893ccfSSadaf Ebrahimi }
726*b7893ccfSSadaf Ebrahimi }
727*b7893ccfSSadaf Ebrahimi if (descriptor->IsDynamic()) {
728*b7893ccfSSadaf Ebrahimi // Validate that dynamic offsets are within the buffer
729*b7893ccfSSadaf Ebrahimi auto buffer_size = buffer_node->createInfo.size;
730*b7893ccfSSadaf Ebrahimi auto range = static_cast<const BufferDescriptor *>(descriptor)->GetRange();
731*b7893ccfSSadaf Ebrahimi auto desc_offset = static_cast<const BufferDescriptor *>(descriptor)->GetOffset();
732*b7893ccfSSadaf Ebrahimi auto dyn_offset = dynamic_offsets[binding_it.GetDynamicOffsetIndex() + array_idx];
733*b7893ccfSSadaf Ebrahimi if (VK_WHOLE_SIZE == range) {
734*b7893ccfSSadaf Ebrahimi if ((dyn_offset + desc_offset) > buffer_size) {
735*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
736*b7893ccfSSadaf Ebrahimi error_str << "Dynamic descriptor in binding #" << binding << " index " << index << " uses buffer "
737*b7893ccfSSadaf Ebrahimi << buffer << " with update range of VK_WHOLE_SIZE has dynamic offset " << dyn_offset
738*b7893ccfSSadaf Ebrahimi << " combined with offset " << desc_offset << " that oversteps the buffer size of "
739*b7893ccfSSadaf Ebrahimi << buffer_size << ".";
740*b7893ccfSSadaf Ebrahimi *error = error_str.str();
741*b7893ccfSSadaf Ebrahimi return false;
742*b7893ccfSSadaf Ebrahimi }
743*b7893ccfSSadaf Ebrahimi } else {
744*b7893ccfSSadaf Ebrahimi if ((dyn_offset + desc_offset + range) > buffer_size) {
745*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
746*b7893ccfSSadaf Ebrahimi error_str << "Dynamic descriptor in binding #" << binding << " index " << index << " uses buffer "
747*b7893ccfSSadaf Ebrahimi << buffer << " with dynamic offset " << dyn_offset << " combined with offset "
748*b7893ccfSSadaf Ebrahimi << desc_offset << " and range " << range << " that oversteps the buffer size of "
749*b7893ccfSSadaf Ebrahimi << buffer_size << ".";
750*b7893ccfSSadaf Ebrahimi *error = error_str.str();
751*b7893ccfSSadaf Ebrahimi return false;
752*b7893ccfSSadaf Ebrahimi }
753*b7893ccfSSadaf Ebrahimi }
754*b7893ccfSSadaf Ebrahimi }
755*b7893ccfSSadaf Ebrahimi } else if (descriptor_class == DescriptorClass::ImageSampler || descriptor_class == DescriptorClass::Image) {
756*b7893ccfSSadaf Ebrahimi VkImageView image_view;
757*b7893ccfSSadaf Ebrahimi VkImageLayout image_layout;
758*b7893ccfSSadaf Ebrahimi if (descriptor_class == DescriptorClass::ImageSampler) {
759*b7893ccfSSadaf Ebrahimi image_view = static_cast<const ImageSamplerDescriptor *>(descriptor)->GetImageView();
760*b7893ccfSSadaf Ebrahimi image_layout = static_cast<const ImageSamplerDescriptor *>(descriptor)->GetImageLayout();
761*b7893ccfSSadaf Ebrahimi } else {
762*b7893ccfSSadaf Ebrahimi image_view = static_cast<const ImageDescriptor *>(descriptor)->GetImageView();
763*b7893ccfSSadaf Ebrahimi image_layout = static_cast<const ImageDescriptor *>(descriptor)->GetImageLayout();
764*b7893ccfSSadaf Ebrahimi }
765*b7893ccfSSadaf Ebrahimi auto reqs = binding_pair.second;
766*b7893ccfSSadaf Ebrahimi
767*b7893ccfSSadaf Ebrahimi auto image_view_state = GetImageViewState(image_view);
768*b7893ccfSSadaf Ebrahimi if (nullptr == image_view_state) {
769*b7893ccfSSadaf Ebrahimi // Image view must have been destroyed since initial update. Could potentially flag the descriptor
770*b7893ccfSSadaf Ebrahimi // as "invalid" (updated = false) at DestroyImageView() time and detect this error at bind time
771*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
772*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " is using imageView "
773*b7893ccfSSadaf Ebrahimi << report_data->FormatHandle(image_view).c_str() << " that has been destroyed.";
774*b7893ccfSSadaf Ebrahimi *error = error_str.str();
775*b7893ccfSSadaf Ebrahimi return false;
776*b7893ccfSSadaf Ebrahimi }
777*b7893ccfSSadaf Ebrahimi const auto &image_view_ci = image_view_state->create_info;
778*b7893ccfSSadaf Ebrahimi
779*b7893ccfSSadaf Ebrahimi if (reqs & DESCRIPTOR_REQ_ALL_VIEW_TYPE_BITS) {
780*b7893ccfSSadaf Ebrahimi if (~reqs & (1 << image_view_ci.viewType)) {
781*b7893ccfSSadaf Ebrahimi // bad view type
782*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
783*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index
784*b7893ccfSSadaf Ebrahimi << " requires an image view of type " << StringDescriptorReqViewType(reqs) << " but got "
785*b7893ccfSSadaf Ebrahimi << string_VkImageViewType(image_view_ci.viewType) << ".";
786*b7893ccfSSadaf Ebrahimi *error = error_str.str();
787*b7893ccfSSadaf Ebrahimi return false;
788*b7893ccfSSadaf Ebrahimi }
789*b7893ccfSSadaf Ebrahimi
790*b7893ccfSSadaf Ebrahimi if (!(reqs & image_view_state->descriptor_format_bits)) {
791*b7893ccfSSadaf Ebrahimi // bad component type
792*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
793*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " requires "
794*b7893ccfSSadaf Ebrahimi << StringDescriptorReqComponentType(reqs)
795*b7893ccfSSadaf Ebrahimi << " component type, but bound descriptor format is " << string_VkFormat(image_view_ci.format)
796*b7893ccfSSadaf Ebrahimi << ".";
797*b7893ccfSSadaf Ebrahimi *error = error_str.str();
798*b7893ccfSSadaf Ebrahimi return false;
799*b7893ccfSSadaf Ebrahimi }
800*b7893ccfSSadaf Ebrahimi }
801*b7893ccfSSadaf Ebrahimi
802*b7893ccfSSadaf Ebrahimi if (!disabled.image_layout_validation) {
803*b7893ccfSSadaf Ebrahimi auto image_node = GetImageState(image_view_ci.image);
804*b7893ccfSSadaf Ebrahimi assert(image_node);
805*b7893ccfSSadaf Ebrahimi // Verify Image Layout
806*b7893ccfSSadaf Ebrahimi // No "invalid layout" VUID required for this call, since the optimal_layout parameter is UNDEFINED.
807*b7893ccfSSadaf Ebrahimi bool hit_error = false;
808*b7893ccfSSadaf Ebrahimi VerifyImageLayout(cb_node, image_node, image_view_state->normalized_subresource_range,
809*b7893ccfSSadaf Ebrahimi image_view_ci.subresourceRange.aspectMask, image_layout, VK_IMAGE_LAYOUT_UNDEFINED,
810*b7893ccfSSadaf Ebrahimi caller, kVUIDUndefined, "VUID-VkDescriptorImageInfo-imageLayout-00344", &hit_error);
811*b7893ccfSSadaf Ebrahimi if (hit_error) {
812*b7893ccfSSadaf Ebrahimi *error =
813*b7893ccfSSadaf Ebrahimi "Image layout specified at vkUpdateDescriptorSet* or vkCmdPushDescriptorSet* time "
814*b7893ccfSSadaf Ebrahimi "doesn't match actual image layout at time descriptor is used. See previous error callback for "
815*b7893ccfSSadaf Ebrahimi "specific details.";
816*b7893ccfSSadaf Ebrahimi return false;
817*b7893ccfSSadaf Ebrahimi }
818*b7893ccfSSadaf Ebrahimi }
819*b7893ccfSSadaf Ebrahimi
820*b7893ccfSSadaf Ebrahimi // Verify Sample counts
821*b7893ccfSSadaf Ebrahimi if ((reqs & DESCRIPTOR_REQ_SINGLE_SAMPLE) && image_view_state->samples != VK_SAMPLE_COUNT_1_BIT) {
822*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
823*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index
824*b7893ccfSSadaf Ebrahimi << " requires bound image to have VK_SAMPLE_COUNT_1_BIT but got "
825*b7893ccfSSadaf Ebrahimi << string_VkSampleCountFlagBits(image_view_state->samples) << ".";
826*b7893ccfSSadaf Ebrahimi *error = error_str.str();
827*b7893ccfSSadaf Ebrahimi return false;
828*b7893ccfSSadaf Ebrahimi }
829*b7893ccfSSadaf Ebrahimi if ((reqs & DESCRIPTOR_REQ_MULTI_SAMPLE) && image_view_state->samples == VK_SAMPLE_COUNT_1_BIT) {
830*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
831*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index
832*b7893ccfSSadaf Ebrahimi << " requires bound image to have multiple samples, but got VK_SAMPLE_COUNT_1_BIT.";
833*b7893ccfSSadaf Ebrahimi *error = error_str.str();
834*b7893ccfSSadaf Ebrahimi return false;
835*b7893ccfSSadaf Ebrahimi }
836*b7893ccfSSadaf Ebrahimi } else if (descriptor_class == DescriptorClass::TexelBuffer) {
837*b7893ccfSSadaf Ebrahimi auto texel_buffer = static_cast<const TexelDescriptor *>(descriptor);
838*b7893ccfSSadaf Ebrahimi auto buffer_view = GetBufferViewState(texel_buffer->GetBufferView());
839*b7893ccfSSadaf Ebrahimi
840*b7893ccfSSadaf Ebrahimi if (nullptr == buffer_view) {
841*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
842*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " is using bufferView "
843*b7893ccfSSadaf Ebrahimi << buffer_view << " that has been destroyed.";
844*b7893ccfSSadaf Ebrahimi *error = error_str.str();
845*b7893ccfSSadaf Ebrahimi return false;
846*b7893ccfSSadaf Ebrahimi }
847*b7893ccfSSadaf Ebrahimi auto buffer = buffer_view->create_info.buffer;
848*b7893ccfSSadaf Ebrahimi auto buffer_state = GetBufferState(buffer);
849*b7893ccfSSadaf Ebrahimi if (!buffer_state) {
850*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
851*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " is using buffer "
852*b7893ccfSSadaf Ebrahimi << buffer_state << " that has been destroyed.";
853*b7893ccfSSadaf Ebrahimi *error = error_str.str();
854*b7893ccfSSadaf Ebrahimi return false;
855*b7893ccfSSadaf Ebrahimi }
856*b7893ccfSSadaf Ebrahimi auto reqs = binding_pair.second;
857*b7893ccfSSadaf Ebrahimi auto format_bits = DescriptorRequirementsBitsFromFormat(buffer_view->create_info.format);
858*b7893ccfSSadaf Ebrahimi
859*b7893ccfSSadaf Ebrahimi if (!(reqs & format_bits)) {
860*b7893ccfSSadaf Ebrahimi // bad component type
861*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
862*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " requires "
863*b7893ccfSSadaf Ebrahimi << StringDescriptorReqComponentType(reqs) << " component type, but bound descriptor format is "
864*b7893ccfSSadaf Ebrahimi << string_VkFormat(buffer_view->create_info.format) << ".";
865*b7893ccfSSadaf Ebrahimi *error = error_str.str();
866*b7893ccfSSadaf Ebrahimi return false;
867*b7893ccfSSadaf Ebrahimi }
868*b7893ccfSSadaf Ebrahimi }
869*b7893ccfSSadaf Ebrahimi if (descriptor_class == DescriptorClass::ImageSampler || descriptor_class == DescriptorClass::PlainSampler) {
870*b7893ccfSSadaf Ebrahimi // Verify Sampler still valid
871*b7893ccfSSadaf Ebrahimi VkSampler sampler;
872*b7893ccfSSadaf Ebrahimi if (descriptor_class == DescriptorClass::ImageSampler) {
873*b7893ccfSSadaf Ebrahimi sampler = static_cast<const ImageSamplerDescriptor *>(descriptor)->GetSampler();
874*b7893ccfSSadaf Ebrahimi } else {
875*b7893ccfSSadaf Ebrahimi sampler = static_cast<const SamplerDescriptor *>(descriptor)->GetSampler();
876*b7893ccfSSadaf Ebrahimi }
877*b7893ccfSSadaf Ebrahimi if (!ValidateSampler(sampler)) {
878*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
879*b7893ccfSSadaf Ebrahimi error_str << "Descriptor in binding #" << binding << " index " << index << " is using sampler " << sampler
880*b7893ccfSSadaf Ebrahimi << " that has been destroyed.";
881*b7893ccfSSadaf Ebrahimi *error = error_str.str();
882*b7893ccfSSadaf Ebrahimi return false;
883*b7893ccfSSadaf Ebrahimi } else {
884*b7893ccfSSadaf Ebrahimi const SAMPLER_STATE *sampler_state = GetSamplerState(sampler);
885*b7893ccfSSadaf Ebrahimi if (sampler_state->samplerConversion && !descriptor->IsImmutableSampler()) {
886*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
887*b7893ccfSSadaf Ebrahimi error_str << "sampler (" << sampler << ") in the descriptor set (" << descriptor_set->GetSet()
888*b7893ccfSSadaf Ebrahimi << ") contains a YCBCR conversion (" << sampler_state->samplerConversion
889*b7893ccfSSadaf Ebrahimi << ") , then the sampler MUST also exists as an immutable sampler.";
890*b7893ccfSSadaf Ebrahimi *error = error_str.str();
891*b7893ccfSSadaf Ebrahimi }
892*b7893ccfSSadaf Ebrahimi }
893*b7893ccfSSadaf Ebrahimi }
894*b7893ccfSSadaf Ebrahimi }
895*b7893ccfSSadaf Ebrahimi }
896*b7893ccfSSadaf Ebrahimi }
897*b7893ccfSSadaf Ebrahimi return true;
898*b7893ccfSSadaf Ebrahimi }
899*b7893ccfSSadaf Ebrahimi
900*b7893ccfSSadaf Ebrahimi // Set is being deleted or updates so invalidate all bound cmd buffers
InvalidateBoundCmdBuffers()901*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::InvalidateBoundCmdBuffers() {
902*b7893ccfSSadaf Ebrahimi state_data_->InvalidateCommandBuffers(cb_bindings, VulkanTypedHandle(set_, kVulkanObjectTypeDescriptorSet));
903*b7893ccfSSadaf Ebrahimi }
904*b7893ccfSSadaf Ebrahimi
905*b7893ccfSSadaf Ebrahimi // Loop through the write updates to do for a push descriptor set, ignoring dstSet
PerformPushDescriptorsUpdate(uint32_t write_count,const VkWriteDescriptorSet * p_wds)906*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::PerformPushDescriptorsUpdate(uint32_t write_count, const VkWriteDescriptorSet *p_wds) {
907*b7893ccfSSadaf Ebrahimi assert(IsPushDescriptor());
908*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < write_count; i++) {
909*b7893ccfSSadaf Ebrahimi PerformWriteUpdate(&p_wds[i]);
910*b7893ccfSSadaf Ebrahimi }
911*b7893ccfSSadaf Ebrahimi }
912*b7893ccfSSadaf Ebrahimi
913*b7893ccfSSadaf Ebrahimi // Perform write update in given update struct
PerformWriteUpdate(const VkWriteDescriptorSet * update)914*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::PerformWriteUpdate(const VkWriteDescriptorSet *update) {
915*b7893ccfSSadaf Ebrahimi // Perform update on a per-binding basis as consecutive updates roll over to next binding
916*b7893ccfSSadaf Ebrahimi auto descriptors_remaining = update->descriptorCount;
917*b7893ccfSSadaf Ebrahimi auto binding_being_updated = update->dstBinding;
918*b7893ccfSSadaf Ebrahimi auto offset = update->dstArrayElement;
919*b7893ccfSSadaf Ebrahimi uint32_t update_index = 0;
920*b7893ccfSSadaf Ebrahimi while (descriptors_remaining) {
921*b7893ccfSSadaf Ebrahimi uint32_t update_count = std::min(descriptors_remaining, GetDescriptorCountFromBinding(binding_being_updated));
922*b7893ccfSSadaf Ebrahimi auto global_idx = p_layout_->GetGlobalIndexRangeFromBinding(binding_being_updated).start + offset;
923*b7893ccfSSadaf Ebrahimi // Loop over the updates for a single binding at a time
924*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update_count; ++di, ++update_index) {
925*b7893ccfSSadaf Ebrahimi descriptors_[global_idx + di]->WriteUpdate(update, update_index);
926*b7893ccfSSadaf Ebrahimi }
927*b7893ccfSSadaf Ebrahimi // Roll over to next binding in case of consecutive update
928*b7893ccfSSadaf Ebrahimi descriptors_remaining -= update_count;
929*b7893ccfSSadaf Ebrahimi offset = 0;
930*b7893ccfSSadaf Ebrahimi binding_being_updated++;
931*b7893ccfSSadaf Ebrahimi }
932*b7893ccfSSadaf Ebrahimi if (update->descriptorCount) {
933*b7893ccfSSadaf Ebrahimi some_update_ = true;
934*b7893ccfSSadaf Ebrahimi change_count_++;
935*b7893ccfSSadaf Ebrahimi }
936*b7893ccfSSadaf Ebrahimi
937*b7893ccfSSadaf Ebrahimi if (!(p_layout_->GetDescriptorBindingFlagsFromBinding(update->dstBinding) &
938*b7893ccfSSadaf Ebrahimi (VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT | VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT))) {
939*b7893ccfSSadaf Ebrahimi InvalidateBoundCmdBuffers();
940*b7893ccfSSadaf Ebrahimi }
941*b7893ccfSSadaf Ebrahimi }
942*b7893ccfSSadaf Ebrahimi // Validate Copy update
ValidateCopyUpdate(const VkCopyDescriptorSet * update,const DescriptorSet * dst_set,const DescriptorSet * src_set,const char * func_name,std::string * error_code,std::string * error_msg)943*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateCopyUpdate(const VkCopyDescriptorSet *update, const DescriptorSet *dst_set, const DescriptorSet *src_set,
944*b7893ccfSSadaf Ebrahimi const char *func_name, std::string *error_code, std::string *error_msg) {
945*b7893ccfSSadaf Ebrahimi auto dst_layout = dst_set->GetLayout();
946*b7893ccfSSadaf Ebrahimi auto src_layout = src_set->GetLayout();
947*b7893ccfSSadaf Ebrahimi
948*b7893ccfSSadaf Ebrahimi // Verify dst layout still valid
949*b7893ccfSSadaf Ebrahimi if (dst_layout->IsDestroyed()) {
950*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-dstSet-parameter";
951*b7893ccfSSadaf Ebrahimi string_sprintf(error_msg,
952*b7893ccfSSadaf Ebrahimi "Cannot call %s to perform copy update on dstSet %s"
953*b7893ccfSSadaf Ebrahimi " created with destroyed %s.",
954*b7893ccfSSadaf Ebrahimi func_name, report_data->FormatHandle(dst_set->GetSet()).c_str(),
955*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(dst_layout->GetDescriptorSetLayout()).c_str());
956*b7893ccfSSadaf Ebrahimi return false;
957*b7893ccfSSadaf Ebrahimi }
958*b7893ccfSSadaf Ebrahimi
959*b7893ccfSSadaf Ebrahimi // Verify src layout still valid
960*b7893ccfSSadaf Ebrahimi if (src_layout->IsDestroyed()) {
961*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcSet-parameter";
962*b7893ccfSSadaf Ebrahimi string_sprintf(error_msg,
963*b7893ccfSSadaf Ebrahimi "Cannot call %s to perform copy update of dstSet %s"
964*b7893ccfSSadaf Ebrahimi " from srcSet %s"
965*b7893ccfSSadaf Ebrahimi " created with destroyed %s.",
966*b7893ccfSSadaf Ebrahimi func_name, report_data->FormatHandle(dst_set->GetSet()).c_str(),
967*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(src_set->GetSet()).c_str(),
968*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(src_layout->GetDescriptorSetLayout()).c_str());
969*b7893ccfSSadaf Ebrahimi return false;
970*b7893ccfSSadaf Ebrahimi }
971*b7893ccfSSadaf Ebrahimi
972*b7893ccfSSadaf Ebrahimi if (!dst_layout->HasBinding(update->dstBinding)) {
973*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-dstBinding-00347";
974*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
975*b7893ccfSSadaf Ebrahimi error_str << "DescriptorSet " << dst_set->GetSet() << " does not have copy update dest binding of " << update->dstBinding;
976*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
977*b7893ccfSSadaf Ebrahimi return false;
978*b7893ccfSSadaf Ebrahimi }
979*b7893ccfSSadaf Ebrahimi if (!src_set->HasBinding(update->srcBinding)) {
980*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcBinding-00345";
981*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
982*b7893ccfSSadaf Ebrahimi error_str << "DescriptorSet " << dst_set->GetSet() << " does not have copy update src binding of " << update->srcBinding;
983*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
984*b7893ccfSSadaf Ebrahimi return false;
985*b7893ccfSSadaf Ebrahimi }
986*b7893ccfSSadaf Ebrahimi // Verify idle ds
987*b7893ccfSSadaf Ebrahimi if (dst_set->in_use.load() &&
988*b7893ccfSSadaf Ebrahimi !(dst_layout->GetDescriptorBindingFlagsFromBinding(update->dstBinding) &
989*b7893ccfSSadaf Ebrahimi (VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT | VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT))) {
990*b7893ccfSSadaf Ebrahimi // TODO : Re-using Free Idle error code, need copy update idle error code
991*b7893ccfSSadaf Ebrahimi *error_code = "VUID-vkFreeDescriptorSets-pDescriptorSets-00309";
992*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
993*b7893ccfSSadaf Ebrahimi error_str << "Cannot call " << func_name << " to perform copy update on descriptor set " << dst_set->GetSet()
994*b7893ccfSSadaf Ebrahimi << " that is in use by a command buffer";
995*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
996*b7893ccfSSadaf Ebrahimi return false;
997*b7893ccfSSadaf Ebrahimi }
998*b7893ccfSSadaf Ebrahimi // src & dst set bindings are valid
999*b7893ccfSSadaf Ebrahimi // Check bounds of src & dst
1000*b7893ccfSSadaf Ebrahimi auto src_start_idx = src_set->GetGlobalIndexRangeFromBinding(update->srcBinding).start + update->srcArrayElement;
1001*b7893ccfSSadaf Ebrahimi if ((src_start_idx + update->descriptorCount) > src_set->GetTotalDescriptorCount()) {
1002*b7893ccfSSadaf Ebrahimi // SRC update out of bounds
1003*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcArrayElement-00346";
1004*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1005*b7893ccfSSadaf Ebrahimi error_str << "Attempting copy update from descriptorSet " << update->srcSet << " binding#" << update->srcBinding
1006*b7893ccfSSadaf Ebrahimi << " with offset index of " << src_set->GetGlobalIndexRangeFromBinding(update->srcBinding).start
1007*b7893ccfSSadaf Ebrahimi << " plus update array offset of " << update->srcArrayElement << " and update of " << update->descriptorCount
1008*b7893ccfSSadaf Ebrahimi << " descriptors oversteps total number of descriptors in set: " << src_set->GetTotalDescriptorCount();
1009*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1010*b7893ccfSSadaf Ebrahimi return false;
1011*b7893ccfSSadaf Ebrahimi }
1012*b7893ccfSSadaf Ebrahimi auto dst_start_idx = dst_layout->GetGlobalIndexRangeFromBinding(update->dstBinding).start + update->dstArrayElement;
1013*b7893ccfSSadaf Ebrahimi if ((dst_start_idx + update->descriptorCount) > dst_layout->GetTotalDescriptorCount()) {
1014*b7893ccfSSadaf Ebrahimi // DST update out of bounds
1015*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-dstArrayElement-00348";
1016*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1017*b7893ccfSSadaf Ebrahimi error_str << "Attempting copy update to descriptorSet " << dst_set->GetSet() << " binding#" << update->dstBinding
1018*b7893ccfSSadaf Ebrahimi << " with offset index of " << dst_layout->GetGlobalIndexRangeFromBinding(update->dstBinding).start
1019*b7893ccfSSadaf Ebrahimi << " plus update array offset of " << update->dstArrayElement << " and update of " << update->descriptorCount
1020*b7893ccfSSadaf Ebrahimi << " descriptors oversteps total number of descriptors in set: " << dst_layout->GetTotalDescriptorCount();
1021*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1022*b7893ccfSSadaf Ebrahimi return false;
1023*b7893ccfSSadaf Ebrahimi }
1024*b7893ccfSSadaf Ebrahimi // Check that types match
1025*b7893ccfSSadaf Ebrahimi // TODO : Base default error case going from here is "VUID-VkAcquireNextImageInfoKHR-semaphore-parameter"2ba which covers all
1026*b7893ccfSSadaf Ebrahimi // consistency issues, need more fine-grained error codes
1027*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcSet-00349";
1028*b7893ccfSSadaf Ebrahimi auto src_type = src_set->GetTypeFromBinding(update->srcBinding);
1029*b7893ccfSSadaf Ebrahimi auto dst_type = dst_layout->GetTypeFromBinding(update->dstBinding);
1030*b7893ccfSSadaf Ebrahimi if (src_type != dst_type) {
1031*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1032*b7893ccfSSadaf Ebrahimi error_str << "Attempting copy update to descriptorSet " << dst_set->GetSet() << " binding #" << update->dstBinding
1033*b7893ccfSSadaf Ebrahimi << " with type " << string_VkDescriptorType(dst_type) << " from descriptorSet " << src_set->GetSet()
1034*b7893ccfSSadaf Ebrahimi << " binding #" << update->srcBinding << " with type " << string_VkDescriptorType(src_type)
1035*b7893ccfSSadaf Ebrahimi << ". Types do not match";
1036*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1037*b7893ccfSSadaf Ebrahimi return false;
1038*b7893ccfSSadaf Ebrahimi }
1039*b7893ccfSSadaf Ebrahimi // Verify consistency of src & dst bindings if update crosses binding boundaries
1040*b7893ccfSSadaf Ebrahimi if ((!VerifyUpdateConsistency(DescriptorSetLayout::ConstBindingIterator(src_layout.get(), update->srcBinding),
1041*b7893ccfSSadaf Ebrahimi update->srcArrayElement, update->descriptorCount, "copy update from", src_set->GetSet(),
1042*b7893ccfSSadaf Ebrahimi error_msg)) ||
1043*b7893ccfSSadaf Ebrahimi (!VerifyUpdateConsistency(DescriptorSetLayout::ConstBindingIterator(dst_layout.get(), update->dstBinding),
1044*b7893ccfSSadaf Ebrahimi update->dstArrayElement, update->descriptorCount, "copy update to", dst_set->GetSet(),
1045*b7893ccfSSadaf Ebrahimi error_msg))) {
1046*b7893ccfSSadaf Ebrahimi return false;
1047*b7893ccfSSadaf Ebrahimi }
1048*b7893ccfSSadaf Ebrahimi
1049*b7893ccfSSadaf Ebrahimi if ((src_layout->GetCreateFlags() & VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT) &&
1050*b7893ccfSSadaf Ebrahimi !(dst_layout->GetCreateFlags() & VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT)) {
1051*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcSet-01918";
1052*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1053*b7893ccfSSadaf Ebrahimi error_str << "If pname:srcSet's (" << update->srcSet
1054*b7893ccfSSadaf Ebrahimi << ") layout was created with the "
1055*b7893ccfSSadaf Ebrahimi "ename:VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT flag "
1056*b7893ccfSSadaf Ebrahimi "set, then pname:dstSet's ("
1057*b7893ccfSSadaf Ebrahimi << update->dstSet
1058*b7893ccfSSadaf Ebrahimi << ") layout must: also have been created with the "
1059*b7893ccfSSadaf Ebrahimi "ename:VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT flag set";
1060*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1061*b7893ccfSSadaf Ebrahimi return false;
1062*b7893ccfSSadaf Ebrahimi }
1063*b7893ccfSSadaf Ebrahimi
1064*b7893ccfSSadaf Ebrahimi if (!(src_layout->GetCreateFlags() & VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT) &&
1065*b7893ccfSSadaf Ebrahimi (dst_layout->GetCreateFlags() & VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT)) {
1066*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcSet-01919";
1067*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1068*b7893ccfSSadaf Ebrahimi error_str << "If pname:srcSet's (" << update->srcSet
1069*b7893ccfSSadaf Ebrahimi << ") layout was created without the "
1070*b7893ccfSSadaf Ebrahimi "ename:VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT flag "
1071*b7893ccfSSadaf Ebrahimi "set, then pname:dstSet's ("
1072*b7893ccfSSadaf Ebrahimi << update->dstSet
1073*b7893ccfSSadaf Ebrahimi << ") layout must: also have been created without the "
1074*b7893ccfSSadaf Ebrahimi "ename:VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT flag set";
1075*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1076*b7893ccfSSadaf Ebrahimi return false;
1077*b7893ccfSSadaf Ebrahimi }
1078*b7893ccfSSadaf Ebrahimi
1079*b7893ccfSSadaf Ebrahimi if ((src_set->GetPoolState()->createInfo.flags & VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT) &&
1080*b7893ccfSSadaf Ebrahimi !(dst_set->GetPoolState()->createInfo.flags & VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT)) {
1081*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcSet-01920";
1082*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1083*b7893ccfSSadaf Ebrahimi error_str << "If the descriptor pool from which pname:srcSet (" << update->srcSet
1084*b7893ccfSSadaf Ebrahimi << ") was allocated was created "
1085*b7893ccfSSadaf Ebrahimi "with the ename:VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT flag "
1086*b7893ccfSSadaf Ebrahimi "set, then the descriptor pool from which pname:dstSet ("
1087*b7893ccfSSadaf Ebrahimi << update->dstSet
1088*b7893ccfSSadaf Ebrahimi << ") was allocated must: "
1089*b7893ccfSSadaf Ebrahimi "also have been created with the ename:VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT flag set";
1090*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1091*b7893ccfSSadaf Ebrahimi return false;
1092*b7893ccfSSadaf Ebrahimi }
1093*b7893ccfSSadaf Ebrahimi
1094*b7893ccfSSadaf Ebrahimi if (!(src_set->GetPoolState()->createInfo.flags & VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT) &&
1095*b7893ccfSSadaf Ebrahimi (dst_set->GetPoolState()->createInfo.flags & VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT)) {
1096*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcSet-01921";
1097*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1098*b7893ccfSSadaf Ebrahimi error_str << "If the descriptor pool from which pname:srcSet (" << update->srcSet
1099*b7893ccfSSadaf Ebrahimi << ") was allocated was created "
1100*b7893ccfSSadaf Ebrahimi "without the ename:VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT flag "
1101*b7893ccfSSadaf Ebrahimi "set, then the descriptor pool from which pname:dstSet ("
1102*b7893ccfSSadaf Ebrahimi << update->dstSet
1103*b7893ccfSSadaf Ebrahimi << ") was allocated must: "
1104*b7893ccfSSadaf Ebrahimi "also have been created without the ename:VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT flag set";
1105*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1106*b7893ccfSSadaf Ebrahimi return false;
1107*b7893ccfSSadaf Ebrahimi }
1108*b7893ccfSSadaf Ebrahimi
1109*b7893ccfSSadaf Ebrahimi if (src_type == VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT) {
1110*b7893ccfSSadaf Ebrahimi if ((update->srcArrayElement % 4) != 0) {
1111*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcBinding-02223";
1112*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1113*b7893ccfSSadaf Ebrahimi error_str << "Attempting copy update to VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT binding with "
1114*b7893ccfSSadaf Ebrahimi << "srcArrayElement " << update->srcArrayElement << " not a multiple of 4";
1115*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1116*b7893ccfSSadaf Ebrahimi return false;
1117*b7893ccfSSadaf Ebrahimi }
1118*b7893ccfSSadaf Ebrahimi if ((update->dstArrayElement % 4) != 0) {
1119*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-dstBinding-02224";
1120*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1121*b7893ccfSSadaf Ebrahimi error_str << "Attempting copy update to VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT binding with "
1122*b7893ccfSSadaf Ebrahimi << "dstArrayElement " << update->dstArrayElement << " not a multiple of 4";
1123*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1124*b7893ccfSSadaf Ebrahimi return false;
1125*b7893ccfSSadaf Ebrahimi }
1126*b7893ccfSSadaf Ebrahimi if ((update->descriptorCount % 4) != 0) {
1127*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkCopyDescriptorSet-srcBinding-02225";
1128*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1129*b7893ccfSSadaf Ebrahimi error_str << "Attempting copy update to VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT binding with "
1130*b7893ccfSSadaf Ebrahimi << "descriptorCount " << update->descriptorCount << " not a multiple of 4";
1131*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1132*b7893ccfSSadaf Ebrahimi return false;
1133*b7893ccfSSadaf Ebrahimi }
1134*b7893ccfSSadaf Ebrahimi }
1135*b7893ccfSSadaf Ebrahimi
1136*b7893ccfSSadaf Ebrahimi // Update parameters all look good and descriptor updated so verify update contents
1137*b7893ccfSSadaf Ebrahimi if (!VerifyCopyUpdateContents(update, src_set, src_type, src_start_idx, func_name, error_code, error_msg)) return false;
1138*b7893ccfSSadaf Ebrahimi
1139*b7893ccfSSadaf Ebrahimi // All checks passed so update is good
1140*b7893ccfSSadaf Ebrahimi return true;
1141*b7893ccfSSadaf Ebrahimi }
1142*b7893ccfSSadaf Ebrahimi // Perform Copy update
PerformCopyUpdate(const VkCopyDescriptorSet * update,const DescriptorSet * src_set)1143*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::PerformCopyUpdate(const VkCopyDescriptorSet *update, const DescriptorSet *src_set) {
1144*b7893ccfSSadaf Ebrahimi auto src_start_idx = src_set->GetGlobalIndexRangeFromBinding(update->srcBinding).start + update->srcArrayElement;
1145*b7893ccfSSadaf Ebrahimi auto dst_start_idx = p_layout_->GetGlobalIndexRangeFromBinding(update->dstBinding).start + update->dstArrayElement;
1146*b7893ccfSSadaf Ebrahimi // Update parameters all look good so perform update
1147*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
1148*b7893ccfSSadaf Ebrahimi auto src = src_set->descriptors_[src_start_idx + di].get();
1149*b7893ccfSSadaf Ebrahimi auto dst = descriptors_[dst_start_idx + di].get();
1150*b7893ccfSSadaf Ebrahimi if (src->updated) {
1151*b7893ccfSSadaf Ebrahimi dst->CopyUpdate(src);
1152*b7893ccfSSadaf Ebrahimi some_update_ = true;
1153*b7893ccfSSadaf Ebrahimi change_count_++;
1154*b7893ccfSSadaf Ebrahimi } else {
1155*b7893ccfSSadaf Ebrahimi dst->updated = false;
1156*b7893ccfSSadaf Ebrahimi }
1157*b7893ccfSSadaf Ebrahimi }
1158*b7893ccfSSadaf Ebrahimi
1159*b7893ccfSSadaf Ebrahimi if (!(p_layout_->GetDescriptorBindingFlagsFromBinding(update->dstBinding) &
1160*b7893ccfSSadaf Ebrahimi (VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT | VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT))) {
1161*b7893ccfSSadaf Ebrahimi InvalidateBoundCmdBuffers();
1162*b7893ccfSSadaf Ebrahimi }
1163*b7893ccfSSadaf Ebrahimi }
1164*b7893ccfSSadaf Ebrahimi
1165*b7893ccfSSadaf Ebrahimi // Update the drawing state for the affected descriptors.
1166*b7893ccfSSadaf Ebrahimi // Set cb_node to this set and this set to cb_node.
1167*b7893ccfSSadaf Ebrahimi // Add the bindings of the descriptor
1168*b7893ccfSSadaf Ebrahimi // Set the layout based on the current descriptor layout (will mask subsequent layer mismatch errors)
1169*b7893ccfSSadaf Ebrahimi // TODO: Modify the UpdateDrawState virtural functions to *only* set initial layout and not change layouts
1170*b7893ccfSSadaf Ebrahimi // Prereq: This should be called for a set that has been confirmed to be active for the given cb_node, meaning it's going
1171*b7893ccfSSadaf Ebrahimi // to be used in a draw by the given cb_node
UpdateDrawState(ValidationStateTracker * device_data,CMD_BUFFER_STATE * cb_node,const std::map<uint32_t,descriptor_req> & binding_req_map)1172*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::UpdateDrawState(ValidationStateTracker *device_data, CMD_BUFFER_STATE *cb_node,
1173*b7893ccfSSadaf Ebrahimi const std::map<uint32_t, descriptor_req> &binding_req_map) {
1174*b7893ccfSSadaf Ebrahimi if (!device_data->disabled.command_buffer_state) {
1175*b7893ccfSSadaf Ebrahimi // bind cb to this descriptor set
1176*b7893ccfSSadaf Ebrahimi // Add bindings for descriptor set, the set's pool, and individual objects in the set
1177*b7893ccfSSadaf Ebrahimi auto inserted = cb_node->object_bindings.emplace(set_, kVulkanObjectTypeDescriptorSet);
1178*b7893ccfSSadaf Ebrahimi if (inserted.second) {
1179*b7893ccfSSadaf Ebrahimi cb_bindings.insert(cb_node);
1180*b7893ccfSSadaf Ebrahimi auto inserted2 = cb_node->object_bindings.emplace(pool_state_->pool, kVulkanObjectTypeDescriptorPool);
1181*b7893ccfSSadaf Ebrahimi if (inserted2.second) {
1182*b7893ccfSSadaf Ebrahimi pool_state_->cb_bindings.insert(cb_node);
1183*b7893ccfSSadaf Ebrahimi }
1184*b7893ccfSSadaf Ebrahimi }
1185*b7893ccfSSadaf Ebrahimi }
1186*b7893ccfSSadaf Ebrahimi
1187*b7893ccfSSadaf Ebrahimi // Descriptor UpdateDrawState functions do two things - associate resources to the command buffer,
1188*b7893ccfSSadaf Ebrahimi // and call image layout validation callbacks. If both are disabled, skip the entire loop.
1189*b7893ccfSSadaf Ebrahimi if (device_data->disabled.command_buffer_state && device_data->disabled.image_layout_validation) {
1190*b7893ccfSSadaf Ebrahimi return;
1191*b7893ccfSSadaf Ebrahimi }
1192*b7893ccfSSadaf Ebrahimi
1193*b7893ccfSSadaf Ebrahimi // For the active slots, use set# to look up descriptorSet from boundDescriptorSets, and bind all of that descriptor set's
1194*b7893ccfSSadaf Ebrahimi // resources
1195*b7893ccfSSadaf Ebrahimi for (auto binding_req_pair : binding_req_map) {
1196*b7893ccfSSadaf Ebrahimi auto binding = binding_req_pair.first;
1197*b7893ccfSSadaf Ebrahimi // We aren't validating descriptors created with PARTIALLY_BOUND or UPDATE_AFTER_BIND, so don't record state
1198*b7893ccfSSadaf Ebrahimi if (p_layout_->GetDescriptorBindingFlagsFromBinding(binding) &
1199*b7893ccfSSadaf Ebrahimi (VK_DESCRIPTOR_BINDING_PARTIALLY_BOUND_BIT_EXT | VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT)) {
1200*b7893ccfSSadaf Ebrahimi continue;
1201*b7893ccfSSadaf Ebrahimi }
1202*b7893ccfSSadaf Ebrahimi auto range = p_layout_->GetGlobalIndexRangeFromBinding(binding);
1203*b7893ccfSSadaf Ebrahimi for (uint32_t i = range.start; i < range.end; ++i) {
1204*b7893ccfSSadaf Ebrahimi descriptors_[i]->UpdateDrawState(device_data, cb_node);
1205*b7893ccfSSadaf Ebrahimi }
1206*b7893ccfSSadaf Ebrahimi }
1207*b7893ccfSSadaf Ebrahimi }
1208*b7893ccfSSadaf Ebrahimi
FilterOneBindingReq(const BindingReqMap::value_type & binding_req_pair,BindingReqMap * out_req,const TrackedBindings & bindings,uint32_t limit)1209*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::FilterOneBindingReq(const BindingReqMap::value_type &binding_req_pair, BindingReqMap *out_req,
1210*b7893ccfSSadaf Ebrahimi const TrackedBindings &bindings, uint32_t limit) {
1211*b7893ccfSSadaf Ebrahimi if (bindings.size() < limit) {
1212*b7893ccfSSadaf Ebrahimi const auto it = bindings.find(binding_req_pair.first);
1213*b7893ccfSSadaf Ebrahimi if (it == bindings.cend()) out_req->emplace(binding_req_pair);
1214*b7893ccfSSadaf Ebrahimi }
1215*b7893ccfSSadaf Ebrahimi }
1216*b7893ccfSSadaf Ebrahimi
FilterBindingReqs(const CMD_BUFFER_STATE & cb_state,const PIPELINE_STATE & pipeline,const BindingReqMap & in_req,BindingReqMap * out_req) const1217*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::FilterBindingReqs(const CMD_BUFFER_STATE &cb_state, const PIPELINE_STATE &pipeline,
1218*b7893ccfSSadaf Ebrahimi const BindingReqMap &in_req, BindingReqMap *out_req) const {
1219*b7893ccfSSadaf Ebrahimi // For const cleanliness we have to find in the maps...
1220*b7893ccfSSadaf Ebrahimi const auto validated_it = cached_validation_.find(&cb_state);
1221*b7893ccfSSadaf Ebrahimi if (validated_it == cached_validation_.cend()) {
1222*b7893ccfSSadaf Ebrahimi // We have nothing validated, copy in to out
1223*b7893ccfSSadaf Ebrahimi for (const auto &binding_req_pair : in_req) {
1224*b7893ccfSSadaf Ebrahimi out_req->emplace(binding_req_pair);
1225*b7893ccfSSadaf Ebrahimi }
1226*b7893ccfSSadaf Ebrahimi return;
1227*b7893ccfSSadaf Ebrahimi }
1228*b7893ccfSSadaf Ebrahimi const auto &validated = validated_it->second;
1229*b7893ccfSSadaf Ebrahimi
1230*b7893ccfSSadaf Ebrahimi const auto image_sample_version_it = validated.image_samplers.find(&pipeline);
1231*b7893ccfSSadaf Ebrahimi const VersionedBindings *image_sample_version = nullptr;
1232*b7893ccfSSadaf Ebrahimi if (image_sample_version_it != validated.image_samplers.cend()) {
1233*b7893ccfSSadaf Ebrahimi image_sample_version = &(image_sample_version_it->second);
1234*b7893ccfSSadaf Ebrahimi }
1235*b7893ccfSSadaf Ebrahimi const auto &dynamic_buffers = validated.dynamic_buffers;
1236*b7893ccfSSadaf Ebrahimi const auto &non_dynamic_buffers = validated.non_dynamic_buffers;
1237*b7893ccfSSadaf Ebrahimi const auto &stats = p_layout_->GetBindingTypeStats();
1238*b7893ccfSSadaf Ebrahimi for (const auto &binding_req_pair : in_req) {
1239*b7893ccfSSadaf Ebrahimi auto binding = binding_req_pair.first;
1240*b7893ccfSSadaf Ebrahimi VkDescriptorSetLayoutBinding const *layout_binding = p_layout_->GetDescriptorSetLayoutBindingPtrFromBinding(binding);
1241*b7893ccfSSadaf Ebrahimi if (!layout_binding) {
1242*b7893ccfSSadaf Ebrahimi continue;
1243*b7893ccfSSadaf Ebrahimi }
1244*b7893ccfSSadaf Ebrahimi // Caching criteria differs per type.
1245*b7893ccfSSadaf Ebrahimi // If image_layout have changed , the image descriptors need to be validated against them.
1246*b7893ccfSSadaf Ebrahimi if ((layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC) ||
1247*b7893ccfSSadaf Ebrahimi (layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC)) {
1248*b7893ccfSSadaf Ebrahimi FilterOneBindingReq(binding_req_pair, out_req, dynamic_buffers, stats.dynamic_buffer_count);
1249*b7893ccfSSadaf Ebrahimi } else if ((layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER) ||
1250*b7893ccfSSadaf Ebrahimi (layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER)) {
1251*b7893ccfSSadaf Ebrahimi FilterOneBindingReq(binding_req_pair, out_req, non_dynamic_buffers, stats.non_dynamic_buffer_count);
1252*b7893ccfSSadaf Ebrahimi } else {
1253*b7893ccfSSadaf Ebrahimi // This is rather crude, as the changed layouts may not impact the bound descriptors,
1254*b7893ccfSSadaf Ebrahimi // but the simple "versioning" is a simple "dirt" test.
1255*b7893ccfSSadaf Ebrahimi bool stale = true;
1256*b7893ccfSSadaf Ebrahimi if (image_sample_version) {
1257*b7893ccfSSadaf Ebrahimi const auto version_it = image_sample_version->find(binding);
1258*b7893ccfSSadaf Ebrahimi if (version_it != image_sample_version->cend() && (version_it->second == cb_state.image_layout_change_count)) {
1259*b7893ccfSSadaf Ebrahimi stale = false;
1260*b7893ccfSSadaf Ebrahimi }
1261*b7893ccfSSadaf Ebrahimi }
1262*b7893ccfSSadaf Ebrahimi if (stale) {
1263*b7893ccfSSadaf Ebrahimi out_req->emplace(binding_req_pair);
1264*b7893ccfSSadaf Ebrahimi }
1265*b7893ccfSSadaf Ebrahimi }
1266*b7893ccfSSadaf Ebrahimi }
1267*b7893ccfSSadaf Ebrahimi }
1268*b7893ccfSSadaf Ebrahimi
UpdateValidationCache(const CMD_BUFFER_STATE & cb_state,const PIPELINE_STATE & pipeline,const BindingReqMap & updated_bindings)1269*b7893ccfSSadaf Ebrahimi void cvdescriptorset::DescriptorSet::UpdateValidationCache(const CMD_BUFFER_STATE &cb_state, const PIPELINE_STATE &pipeline,
1270*b7893ccfSSadaf Ebrahimi const BindingReqMap &updated_bindings) {
1271*b7893ccfSSadaf Ebrahimi // For const cleanliness we have to find in the maps...
1272*b7893ccfSSadaf Ebrahimi auto &validated = cached_validation_[&cb_state];
1273*b7893ccfSSadaf Ebrahimi
1274*b7893ccfSSadaf Ebrahimi auto &image_sample_version = validated.image_samplers[&pipeline];
1275*b7893ccfSSadaf Ebrahimi auto &dynamic_buffers = validated.dynamic_buffers;
1276*b7893ccfSSadaf Ebrahimi auto &non_dynamic_buffers = validated.non_dynamic_buffers;
1277*b7893ccfSSadaf Ebrahimi for (const auto &binding_req_pair : updated_bindings) {
1278*b7893ccfSSadaf Ebrahimi auto binding = binding_req_pair.first;
1279*b7893ccfSSadaf Ebrahimi VkDescriptorSetLayoutBinding const *layout_binding = p_layout_->GetDescriptorSetLayoutBindingPtrFromBinding(binding);
1280*b7893ccfSSadaf Ebrahimi if (!layout_binding) {
1281*b7893ccfSSadaf Ebrahimi continue;
1282*b7893ccfSSadaf Ebrahimi }
1283*b7893ccfSSadaf Ebrahimi // Caching criteria differs per type.
1284*b7893ccfSSadaf Ebrahimi if ((layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC) ||
1285*b7893ccfSSadaf Ebrahimi (layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC)) {
1286*b7893ccfSSadaf Ebrahimi dynamic_buffers.emplace(binding);
1287*b7893ccfSSadaf Ebrahimi } else if ((layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER) ||
1288*b7893ccfSSadaf Ebrahimi (layout_binding->descriptorType == VK_DESCRIPTOR_TYPE_STORAGE_BUFFER)) {
1289*b7893ccfSSadaf Ebrahimi non_dynamic_buffers.emplace(binding);
1290*b7893ccfSSadaf Ebrahimi } else {
1291*b7893ccfSSadaf Ebrahimi // Save the layout change version...
1292*b7893ccfSSadaf Ebrahimi image_sample_version[binding] = cb_state.image_layout_change_count;
1293*b7893ccfSSadaf Ebrahimi }
1294*b7893ccfSSadaf Ebrahimi }
1295*b7893ccfSSadaf Ebrahimi }
1296*b7893ccfSSadaf Ebrahimi
SamplerDescriptor(const VkSampler * immut)1297*b7893ccfSSadaf Ebrahimi cvdescriptorset::SamplerDescriptor::SamplerDescriptor(const VkSampler *immut) : sampler_(VK_NULL_HANDLE), immutable_(false) {
1298*b7893ccfSSadaf Ebrahimi updated = false;
1299*b7893ccfSSadaf Ebrahimi descriptor_class = PlainSampler;
1300*b7893ccfSSadaf Ebrahimi if (immut) {
1301*b7893ccfSSadaf Ebrahimi sampler_ = *immut;
1302*b7893ccfSSadaf Ebrahimi immutable_ = true;
1303*b7893ccfSSadaf Ebrahimi updated = true;
1304*b7893ccfSSadaf Ebrahimi }
1305*b7893ccfSSadaf Ebrahimi }
1306*b7893ccfSSadaf Ebrahimi // Validate given sampler. Currently this only checks to make sure it exists in the samplerMap
ValidateSampler(const VkSampler sampler) const1307*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateSampler(const VkSampler sampler) const { return (GetSamplerState(sampler) != nullptr); }
1308*b7893ccfSSadaf Ebrahimi
ValidateImageUpdate(VkImageView image_view,VkImageLayout image_layout,VkDescriptorType type,const char * func_name,std::string * error_code,std::string * error_msg)1309*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateImageUpdate(VkImageView image_view, VkImageLayout image_layout, VkDescriptorType type,
1310*b7893ccfSSadaf Ebrahimi const char *func_name, std::string *error_code, std::string *error_msg) {
1311*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00326";
1312*b7893ccfSSadaf Ebrahimi auto iv_state = GetImageViewState(image_view);
1313*b7893ccfSSadaf Ebrahimi assert(iv_state);
1314*b7893ccfSSadaf Ebrahimi
1315*b7893ccfSSadaf Ebrahimi // Note that when an imageview is created, we validated that memory is bound so no need to re-check here
1316*b7893ccfSSadaf Ebrahimi // Validate that imageLayout is compatible with aspect_mask and image format
1317*b7893ccfSSadaf Ebrahimi // and validate that image usage bits are correct for given usage
1318*b7893ccfSSadaf Ebrahimi VkImageAspectFlags aspect_mask = iv_state->create_info.subresourceRange.aspectMask;
1319*b7893ccfSSadaf Ebrahimi VkImage image = iv_state->create_info.image;
1320*b7893ccfSSadaf Ebrahimi VkFormat format = VK_FORMAT_MAX_ENUM;
1321*b7893ccfSSadaf Ebrahimi VkImageUsageFlags usage = 0;
1322*b7893ccfSSadaf Ebrahimi auto image_node = GetImageState(image);
1323*b7893ccfSSadaf Ebrahimi assert(image_node);
1324*b7893ccfSSadaf Ebrahimi
1325*b7893ccfSSadaf Ebrahimi format = image_node->createInfo.format;
1326*b7893ccfSSadaf Ebrahimi usage = image_node->createInfo.usage;
1327*b7893ccfSSadaf Ebrahimi // Validate that memory is bound to image
1328*b7893ccfSSadaf Ebrahimi // TODO: This should have its own valid usage id apart from 2524 which is from CreateImageView case. The only
1329*b7893ccfSSadaf Ebrahimi // the error here occurs is if memory bound to a created imageView has been freed.
1330*b7893ccfSSadaf Ebrahimi if (ValidateMemoryIsBoundToImage(image_node, func_name, "VUID-VkImageViewCreateInfo-image-01020")) {
1331*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkImageViewCreateInfo-image-01020";
1332*b7893ccfSSadaf Ebrahimi *error_msg = "No memory bound to image.";
1333*b7893ccfSSadaf Ebrahimi return false;
1334*b7893ccfSSadaf Ebrahimi }
1335*b7893ccfSSadaf Ebrahimi
1336*b7893ccfSSadaf Ebrahimi // KHR_maintenance1 allows rendering into 2D or 2DArray views which slice a 3D image,
1337*b7893ccfSSadaf Ebrahimi // but not binding them to descriptor sets.
1338*b7893ccfSSadaf Ebrahimi if (image_node->createInfo.imageType == VK_IMAGE_TYPE_3D && (iv_state->create_info.viewType == VK_IMAGE_VIEW_TYPE_2D ||
1339*b7893ccfSSadaf Ebrahimi iv_state->create_info.viewType == VK_IMAGE_VIEW_TYPE_2D_ARRAY)) {
1340*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkDescriptorImageInfo-imageView-00343";
1341*b7893ccfSSadaf Ebrahimi *error_msg = "ImageView must not be a 2D or 2DArray view of a 3D image";
1342*b7893ccfSSadaf Ebrahimi return false;
1343*b7893ccfSSadaf Ebrahimi }
1344*b7893ccfSSadaf Ebrahimi
1345*b7893ccfSSadaf Ebrahimi // TODO : The various image aspect and format checks here are based on general spec language in 11.5 Image Views section under
1346*b7893ccfSSadaf Ebrahimi // vkCreateImageView(). What's the best way to create unique id for these cases?
1347*b7893ccfSSadaf Ebrahimi *error_code = "UNASSIGNED-CoreValidation-DrawState-InvalidImageView";
1348*b7893ccfSSadaf Ebrahimi bool ds = FormatIsDepthOrStencil(format);
1349*b7893ccfSSadaf Ebrahimi switch (image_layout) {
1350*b7893ccfSSadaf Ebrahimi case VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL:
1351*b7893ccfSSadaf Ebrahimi // Only Color bit must be set
1352*b7893ccfSSadaf Ebrahimi if ((aspect_mask & VK_IMAGE_ASPECT_COLOR_BIT) != VK_IMAGE_ASPECT_COLOR_BIT) {
1353*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1354*b7893ccfSSadaf Ebrahimi error_str
1355*b7893ccfSSadaf Ebrahimi << "ImageView (" << report_data->FormatHandle(image_view).c_str()
1356*b7893ccfSSadaf Ebrahimi << ") uses layout VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL but does not have VK_IMAGE_ASPECT_COLOR_BIT set.";
1357*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1358*b7893ccfSSadaf Ebrahimi return false;
1359*b7893ccfSSadaf Ebrahimi }
1360*b7893ccfSSadaf Ebrahimi // format must NOT be DS
1361*b7893ccfSSadaf Ebrahimi if (ds) {
1362*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1363*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str()
1364*b7893ccfSSadaf Ebrahimi << ") uses layout VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL but the image format is "
1365*b7893ccfSSadaf Ebrahimi << string_VkFormat(format) << " which is not a color format.";
1366*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1367*b7893ccfSSadaf Ebrahimi return false;
1368*b7893ccfSSadaf Ebrahimi }
1369*b7893ccfSSadaf Ebrahimi break;
1370*b7893ccfSSadaf Ebrahimi case VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL:
1371*b7893ccfSSadaf Ebrahimi case VK_IMAGE_LAYOUT_DEPTH_STENCIL_READ_ONLY_OPTIMAL:
1372*b7893ccfSSadaf Ebrahimi // Depth or stencil bit must be set, but both must NOT be set
1373*b7893ccfSSadaf Ebrahimi if (aspect_mask & VK_IMAGE_ASPECT_DEPTH_BIT) {
1374*b7893ccfSSadaf Ebrahimi if (aspect_mask & VK_IMAGE_ASPECT_STENCIL_BIT) {
1375*b7893ccfSSadaf Ebrahimi // both must NOT be set
1376*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1377*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str()
1378*b7893ccfSSadaf Ebrahimi << ") has both STENCIL and DEPTH aspects set";
1379*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1380*b7893ccfSSadaf Ebrahimi return false;
1381*b7893ccfSSadaf Ebrahimi }
1382*b7893ccfSSadaf Ebrahimi } else if (!(aspect_mask & VK_IMAGE_ASPECT_STENCIL_BIT)) {
1383*b7893ccfSSadaf Ebrahimi // Neither were set
1384*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1385*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str() << ") has layout "
1386*b7893ccfSSadaf Ebrahimi << string_VkImageLayout(image_layout) << " but does not have STENCIL or DEPTH aspects set";
1387*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1388*b7893ccfSSadaf Ebrahimi return false;
1389*b7893ccfSSadaf Ebrahimi }
1390*b7893ccfSSadaf Ebrahimi // format must be DS
1391*b7893ccfSSadaf Ebrahimi if (!ds) {
1392*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1393*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str() << ") has layout "
1394*b7893ccfSSadaf Ebrahimi << string_VkImageLayout(image_layout) << " but the image format is " << string_VkFormat(format)
1395*b7893ccfSSadaf Ebrahimi << " which is not a depth/stencil format.";
1396*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1397*b7893ccfSSadaf Ebrahimi return false;
1398*b7893ccfSSadaf Ebrahimi }
1399*b7893ccfSSadaf Ebrahimi break;
1400*b7893ccfSSadaf Ebrahimi default:
1401*b7893ccfSSadaf Ebrahimi // For other layouts if the source is depth/stencil image, both aspect bits must not be set
1402*b7893ccfSSadaf Ebrahimi if (ds) {
1403*b7893ccfSSadaf Ebrahimi if (aspect_mask & VK_IMAGE_ASPECT_DEPTH_BIT) {
1404*b7893ccfSSadaf Ebrahimi if (aspect_mask & VK_IMAGE_ASPECT_STENCIL_BIT) {
1405*b7893ccfSSadaf Ebrahimi // both must NOT be set
1406*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1407*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str() << ") has layout "
1408*b7893ccfSSadaf Ebrahimi << string_VkImageLayout(image_layout) << " and is using depth/stencil image of format "
1409*b7893ccfSSadaf Ebrahimi << string_VkFormat(format)
1410*b7893ccfSSadaf Ebrahimi << " but it has both STENCIL and DEPTH aspects set, which is illegal. When using a depth/stencil "
1411*b7893ccfSSadaf Ebrahimi "image in a descriptor set, please only set either VK_IMAGE_ASPECT_DEPTH_BIT or "
1412*b7893ccfSSadaf Ebrahimi "VK_IMAGE_ASPECT_STENCIL_BIT depending on whether it will be used for depth reads or stencil "
1413*b7893ccfSSadaf Ebrahimi "reads respectively.";
1414*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkDescriptorImageInfo-imageView-01976";
1415*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1416*b7893ccfSSadaf Ebrahimi return false;
1417*b7893ccfSSadaf Ebrahimi }
1418*b7893ccfSSadaf Ebrahimi }
1419*b7893ccfSSadaf Ebrahimi }
1420*b7893ccfSSadaf Ebrahimi break;
1421*b7893ccfSSadaf Ebrahimi }
1422*b7893ccfSSadaf Ebrahimi // Now validate that usage flags are correctly set for given type of update
1423*b7893ccfSSadaf Ebrahimi // As we're switching per-type, if any type has specific layout requirements, check those here as well
1424*b7893ccfSSadaf Ebrahimi // TODO : The various image usage bit requirements are in general spec language for VkImageUsageFlags bit block in 11.3 Images
1425*b7893ccfSSadaf Ebrahimi // under vkCreateImage()
1426*b7893ccfSSadaf Ebrahimi // TODO : Need to also validate case "VUID-VkWriteDescriptorSet-descriptorType-00336" where STORAGE_IMAGE & INPUT_ATTACH types
1427*b7893ccfSSadaf Ebrahimi // must have been created with identify swizzle
1428*b7893ccfSSadaf Ebrahimi const char *error_usage_bit = nullptr;
1429*b7893ccfSSadaf Ebrahimi switch (type) {
1430*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE:
1431*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER: {
1432*b7893ccfSSadaf Ebrahimi if (!(usage & VK_IMAGE_USAGE_SAMPLED_BIT)) {
1433*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_IMAGE_USAGE_SAMPLED_BIT";
1434*b7893ccfSSadaf Ebrahimi }
1435*b7893ccfSSadaf Ebrahimi break;
1436*b7893ccfSSadaf Ebrahimi }
1437*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE: {
1438*b7893ccfSSadaf Ebrahimi if (!(usage & VK_IMAGE_USAGE_STORAGE_BIT)) {
1439*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_IMAGE_USAGE_STORAGE_BIT";
1440*b7893ccfSSadaf Ebrahimi } else if (VK_IMAGE_LAYOUT_GENERAL != image_layout) {
1441*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1442*b7893ccfSSadaf Ebrahimi // TODO : Need to create custom enum error codes for these cases
1443*b7893ccfSSadaf Ebrahimi if (image_node->shared_presentable) {
1444*b7893ccfSSadaf Ebrahimi if (VK_IMAGE_LAYOUT_SHARED_PRESENT_KHR != image_layout) {
1445*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str()
1446*b7893ccfSSadaf Ebrahimi << ") of VK_DESCRIPTOR_TYPE_STORAGE_IMAGE type with a front-buffered image is being updated with "
1447*b7893ccfSSadaf Ebrahimi "layout "
1448*b7893ccfSSadaf Ebrahimi << string_VkImageLayout(image_layout)
1449*b7893ccfSSadaf Ebrahimi << " but according to spec section 13.1 Descriptor Types, 'Front-buffered images that report "
1450*b7893ccfSSadaf Ebrahimi "support for VK_FORMAT_FEATURE_STORAGE_IMAGE_BIT must be in the "
1451*b7893ccfSSadaf Ebrahimi "VK_IMAGE_LAYOUT_SHARED_PRESENT_KHR layout.'";
1452*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1453*b7893ccfSSadaf Ebrahimi return false;
1454*b7893ccfSSadaf Ebrahimi }
1455*b7893ccfSSadaf Ebrahimi } else if (VK_IMAGE_LAYOUT_GENERAL != image_layout) {
1456*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str()
1457*b7893ccfSSadaf Ebrahimi << ") of VK_DESCRIPTOR_TYPE_STORAGE_IMAGE type is being updated with layout "
1458*b7893ccfSSadaf Ebrahimi << string_VkImageLayout(image_layout)
1459*b7893ccfSSadaf Ebrahimi << " but according to spec section 13.1 Descriptor Types, 'Load and store operations on storage "
1460*b7893ccfSSadaf Ebrahimi "images can only be done on images in VK_IMAGE_LAYOUT_GENERAL layout.'";
1461*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1462*b7893ccfSSadaf Ebrahimi return false;
1463*b7893ccfSSadaf Ebrahimi }
1464*b7893ccfSSadaf Ebrahimi }
1465*b7893ccfSSadaf Ebrahimi break;
1466*b7893ccfSSadaf Ebrahimi }
1467*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT: {
1468*b7893ccfSSadaf Ebrahimi if (!(usage & VK_IMAGE_USAGE_INPUT_ATTACHMENT_BIT)) {
1469*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_IMAGE_USAGE_INPUT_ATTACHMENT_BIT";
1470*b7893ccfSSadaf Ebrahimi }
1471*b7893ccfSSadaf Ebrahimi break;
1472*b7893ccfSSadaf Ebrahimi }
1473*b7893ccfSSadaf Ebrahimi default:
1474*b7893ccfSSadaf Ebrahimi break;
1475*b7893ccfSSadaf Ebrahimi }
1476*b7893ccfSSadaf Ebrahimi if (error_usage_bit) {
1477*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1478*b7893ccfSSadaf Ebrahimi error_str << "ImageView (" << report_data->FormatHandle(image_view).c_str() << ") with usage mask " << std::hex
1479*b7893ccfSSadaf Ebrahimi << std::showbase << usage << " being used for a descriptor update of type " << string_VkDescriptorType(type)
1480*b7893ccfSSadaf Ebrahimi << " does not have " << error_usage_bit << " set.";
1481*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1482*b7893ccfSSadaf Ebrahimi return false;
1483*b7893ccfSSadaf Ebrahimi }
1484*b7893ccfSSadaf Ebrahimi
1485*b7893ccfSSadaf Ebrahimi if ((type == VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE) || (type == VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER)) {
1486*b7893ccfSSadaf Ebrahimi // Test that the layout is compatible with the descriptorType for the two sampled image types
1487*b7893ccfSSadaf Ebrahimi const static std::array<VkImageLayout, 3> valid_layouts = {
1488*b7893ccfSSadaf Ebrahimi {VK_IMAGE_LAYOUT_DEPTH_STENCIL_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_GENERAL}};
1489*b7893ccfSSadaf Ebrahimi
1490*b7893ccfSSadaf Ebrahimi struct ExtensionLayout {
1491*b7893ccfSSadaf Ebrahimi VkImageLayout layout;
1492*b7893ccfSSadaf Ebrahimi bool DeviceExtensions::*extension;
1493*b7893ccfSSadaf Ebrahimi };
1494*b7893ccfSSadaf Ebrahimi
1495*b7893ccfSSadaf Ebrahimi const static std::array<ExtensionLayout, 3> extended_layouts{
1496*b7893ccfSSadaf Ebrahimi {// Note double brace req'd for aggregate initialization
1497*b7893ccfSSadaf Ebrahimi {VK_IMAGE_LAYOUT_SHARED_PRESENT_KHR, &DeviceExtensions::vk_khr_shared_presentable_image},
1498*b7893ccfSSadaf Ebrahimi {VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_STENCIL_ATTACHMENT_OPTIMAL, &DeviceExtensions::vk_khr_maintenance2},
1499*b7893ccfSSadaf Ebrahimi {VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_STENCIL_READ_ONLY_OPTIMAL, &DeviceExtensions::vk_khr_maintenance2}}};
1500*b7893ccfSSadaf Ebrahimi auto is_layout = [image_layout, this](const ExtensionLayout &ext_layout) {
1501*b7893ccfSSadaf Ebrahimi return device_extensions.*(ext_layout.extension) && (ext_layout.layout == image_layout);
1502*b7893ccfSSadaf Ebrahimi };
1503*b7893ccfSSadaf Ebrahimi
1504*b7893ccfSSadaf Ebrahimi bool valid_layout = (std::find(valid_layouts.cbegin(), valid_layouts.cend(), image_layout) != valid_layouts.cend()) ||
1505*b7893ccfSSadaf Ebrahimi std::any_of(extended_layouts.cbegin(), extended_layouts.cend(), is_layout);
1506*b7893ccfSSadaf Ebrahimi
1507*b7893ccfSSadaf Ebrahimi if (!valid_layout) {
1508*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-01403";
1509*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1510*b7893ccfSSadaf Ebrahimi error_str << "Descriptor update with descriptorType " << string_VkDescriptorType(type)
1511*b7893ccfSSadaf Ebrahimi << " is being updated with invalid imageLayout " << string_VkImageLayout(image_layout) << " for image "
1512*b7893ccfSSadaf Ebrahimi << report_data->FormatHandle(image).c_str() << " in imageView "
1513*b7893ccfSSadaf Ebrahimi << report_data->FormatHandle(image_view).c_str()
1514*b7893ccfSSadaf Ebrahimi << ". Allowed layouts are: VK_IMAGE_LAYOUT_DEPTH_STENCIL_READ_ONLY_OPTIMAL, "
1515*b7893ccfSSadaf Ebrahimi << "VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_GENERAL";
1516*b7893ccfSSadaf Ebrahimi for (auto &ext_layout : extended_layouts) {
1517*b7893ccfSSadaf Ebrahimi if (device_extensions.*(ext_layout.extension)) {
1518*b7893ccfSSadaf Ebrahimi error_str << ", " << string_VkImageLayout(ext_layout.layout);
1519*b7893ccfSSadaf Ebrahimi }
1520*b7893ccfSSadaf Ebrahimi }
1521*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1522*b7893ccfSSadaf Ebrahimi return false;
1523*b7893ccfSSadaf Ebrahimi }
1524*b7893ccfSSadaf Ebrahimi }
1525*b7893ccfSSadaf Ebrahimi
1526*b7893ccfSSadaf Ebrahimi return true;
1527*b7893ccfSSadaf Ebrahimi }
1528*b7893ccfSSadaf Ebrahimi
WriteUpdate(const VkWriteDescriptorSet * update,const uint32_t index)1529*b7893ccfSSadaf Ebrahimi void cvdescriptorset::SamplerDescriptor::WriteUpdate(const VkWriteDescriptorSet *update, const uint32_t index) {
1530*b7893ccfSSadaf Ebrahimi if (!immutable_) {
1531*b7893ccfSSadaf Ebrahimi sampler_ = update->pImageInfo[index].sampler;
1532*b7893ccfSSadaf Ebrahimi }
1533*b7893ccfSSadaf Ebrahimi updated = true;
1534*b7893ccfSSadaf Ebrahimi }
1535*b7893ccfSSadaf Ebrahimi
CopyUpdate(const Descriptor * src)1536*b7893ccfSSadaf Ebrahimi void cvdescriptorset::SamplerDescriptor::CopyUpdate(const Descriptor *src) {
1537*b7893ccfSSadaf Ebrahimi if (!immutable_) {
1538*b7893ccfSSadaf Ebrahimi auto update_sampler = static_cast<const SamplerDescriptor *>(src)->sampler_;
1539*b7893ccfSSadaf Ebrahimi sampler_ = update_sampler;
1540*b7893ccfSSadaf Ebrahimi }
1541*b7893ccfSSadaf Ebrahimi updated = true;
1542*b7893ccfSSadaf Ebrahimi }
1543*b7893ccfSSadaf Ebrahimi
UpdateDrawState(ValidationStateTracker * dev_data,CMD_BUFFER_STATE * cb_node)1544*b7893ccfSSadaf Ebrahimi void cvdescriptorset::SamplerDescriptor::UpdateDrawState(ValidationStateTracker *dev_data, CMD_BUFFER_STATE *cb_node) {
1545*b7893ccfSSadaf Ebrahimi if (!immutable_) {
1546*b7893ccfSSadaf Ebrahimi auto sampler_state = dev_data->GetSamplerState(sampler_);
1547*b7893ccfSSadaf Ebrahimi if (sampler_state) dev_data->AddCommandBufferBindingSampler(cb_node, sampler_state);
1548*b7893ccfSSadaf Ebrahimi }
1549*b7893ccfSSadaf Ebrahimi }
1550*b7893ccfSSadaf Ebrahimi
ImageSamplerDescriptor(const VkSampler * immut)1551*b7893ccfSSadaf Ebrahimi cvdescriptorset::ImageSamplerDescriptor::ImageSamplerDescriptor(const VkSampler *immut)
1552*b7893ccfSSadaf Ebrahimi : sampler_(VK_NULL_HANDLE), immutable_(false), image_view_(VK_NULL_HANDLE), image_layout_(VK_IMAGE_LAYOUT_UNDEFINED) {
1553*b7893ccfSSadaf Ebrahimi updated = false;
1554*b7893ccfSSadaf Ebrahimi descriptor_class = ImageSampler;
1555*b7893ccfSSadaf Ebrahimi if (immut) {
1556*b7893ccfSSadaf Ebrahimi sampler_ = *immut;
1557*b7893ccfSSadaf Ebrahimi immutable_ = true;
1558*b7893ccfSSadaf Ebrahimi }
1559*b7893ccfSSadaf Ebrahimi }
1560*b7893ccfSSadaf Ebrahimi
WriteUpdate(const VkWriteDescriptorSet * update,const uint32_t index)1561*b7893ccfSSadaf Ebrahimi void cvdescriptorset::ImageSamplerDescriptor::WriteUpdate(const VkWriteDescriptorSet *update, const uint32_t index) {
1562*b7893ccfSSadaf Ebrahimi updated = true;
1563*b7893ccfSSadaf Ebrahimi const auto &image_info = update->pImageInfo[index];
1564*b7893ccfSSadaf Ebrahimi if (!immutable_) {
1565*b7893ccfSSadaf Ebrahimi sampler_ = image_info.sampler;
1566*b7893ccfSSadaf Ebrahimi }
1567*b7893ccfSSadaf Ebrahimi image_view_ = image_info.imageView;
1568*b7893ccfSSadaf Ebrahimi image_layout_ = image_info.imageLayout;
1569*b7893ccfSSadaf Ebrahimi }
1570*b7893ccfSSadaf Ebrahimi
CopyUpdate(const Descriptor * src)1571*b7893ccfSSadaf Ebrahimi void cvdescriptorset::ImageSamplerDescriptor::CopyUpdate(const Descriptor *src) {
1572*b7893ccfSSadaf Ebrahimi if (!immutable_) {
1573*b7893ccfSSadaf Ebrahimi auto update_sampler = static_cast<const ImageSamplerDescriptor *>(src)->sampler_;
1574*b7893ccfSSadaf Ebrahimi sampler_ = update_sampler;
1575*b7893ccfSSadaf Ebrahimi }
1576*b7893ccfSSadaf Ebrahimi auto image_view = static_cast<const ImageSamplerDescriptor *>(src)->image_view_;
1577*b7893ccfSSadaf Ebrahimi auto image_layout = static_cast<const ImageSamplerDescriptor *>(src)->image_layout_;
1578*b7893ccfSSadaf Ebrahimi updated = true;
1579*b7893ccfSSadaf Ebrahimi image_view_ = image_view;
1580*b7893ccfSSadaf Ebrahimi image_layout_ = image_layout;
1581*b7893ccfSSadaf Ebrahimi }
1582*b7893ccfSSadaf Ebrahimi
UpdateDrawState(ValidationStateTracker * dev_data,CMD_BUFFER_STATE * cb_node)1583*b7893ccfSSadaf Ebrahimi void cvdescriptorset::ImageSamplerDescriptor::UpdateDrawState(ValidationStateTracker *dev_data, CMD_BUFFER_STATE *cb_node) {
1584*b7893ccfSSadaf Ebrahimi // First add binding for any non-immutable sampler
1585*b7893ccfSSadaf Ebrahimi if (!immutable_) {
1586*b7893ccfSSadaf Ebrahimi auto sampler_state = dev_data->GetSamplerState(sampler_);
1587*b7893ccfSSadaf Ebrahimi if (sampler_state) dev_data->AddCommandBufferBindingSampler(cb_node, sampler_state);
1588*b7893ccfSSadaf Ebrahimi }
1589*b7893ccfSSadaf Ebrahimi // Add binding for image
1590*b7893ccfSSadaf Ebrahimi auto iv_state = dev_data->GetImageViewState(image_view_);
1591*b7893ccfSSadaf Ebrahimi if (iv_state) {
1592*b7893ccfSSadaf Ebrahimi dev_data->AddCommandBufferBindingImageView(cb_node, iv_state);
1593*b7893ccfSSadaf Ebrahimi dev_data->CallSetImageViewInitialLayoutCallback(cb_node, *iv_state, image_layout_);
1594*b7893ccfSSadaf Ebrahimi }
1595*b7893ccfSSadaf Ebrahimi }
1596*b7893ccfSSadaf Ebrahimi
ImageDescriptor(const VkDescriptorType type)1597*b7893ccfSSadaf Ebrahimi cvdescriptorset::ImageDescriptor::ImageDescriptor(const VkDescriptorType type)
1598*b7893ccfSSadaf Ebrahimi : storage_(false), image_view_(VK_NULL_HANDLE), image_layout_(VK_IMAGE_LAYOUT_UNDEFINED) {
1599*b7893ccfSSadaf Ebrahimi updated = false;
1600*b7893ccfSSadaf Ebrahimi descriptor_class = Image;
1601*b7893ccfSSadaf Ebrahimi if (VK_DESCRIPTOR_TYPE_STORAGE_IMAGE == type) storage_ = true;
1602*b7893ccfSSadaf Ebrahimi }
1603*b7893ccfSSadaf Ebrahimi
WriteUpdate(const VkWriteDescriptorSet * update,const uint32_t index)1604*b7893ccfSSadaf Ebrahimi void cvdescriptorset::ImageDescriptor::WriteUpdate(const VkWriteDescriptorSet *update, const uint32_t index) {
1605*b7893ccfSSadaf Ebrahimi updated = true;
1606*b7893ccfSSadaf Ebrahimi const auto &image_info = update->pImageInfo[index];
1607*b7893ccfSSadaf Ebrahimi image_view_ = image_info.imageView;
1608*b7893ccfSSadaf Ebrahimi image_layout_ = image_info.imageLayout;
1609*b7893ccfSSadaf Ebrahimi }
1610*b7893ccfSSadaf Ebrahimi
CopyUpdate(const Descriptor * src)1611*b7893ccfSSadaf Ebrahimi void cvdescriptorset::ImageDescriptor::CopyUpdate(const Descriptor *src) {
1612*b7893ccfSSadaf Ebrahimi auto image_view = static_cast<const ImageDescriptor *>(src)->image_view_;
1613*b7893ccfSSadaf Ebrahimi auto image_layout = static_cast<const ImageDescriptor *>(src)->image_layout_;
1614*b7893ccfSSadaf Ebrahimi updated = true;
1615*b7893ccfSSadaf Ebrahimi image_view_ = image_view;
1616*b7893ccfSSadaf Ebrahimi image_layout_ = image_layout;
1617*b7893ccfSSadaf Ebrahimi }
1618*b7893ccfSSadaf Ebrahimi
UpdateDrawState(ValidationStateTracker * dev_data,CMD_BUFFER_STATE * cb_node)1619*b7893ccfSSadaf Ebrahimi void cvdescriptorset::ImageDescriptor::UpdateDrawState(ValidationStateTracker *dev_data, CMD_BUFFER_STATE *cb_node) {
1620*b7893ccfSSadaf Ebrahimi // Add binding for image
1621*b7893ccfSSadaf Ebrahimi auto iv_state = dev_data->GetImageViewState(image_view_);
1622*b7893ccfSSadaf Ebrahimi if (iv_state) {
1623*b7893ccfSSadaf Ebrahimi dev_data->AddCommandBufferBindingImageView(cb_node, iv_state);
1624*b7893ccfSSadaf Ebrahimi dev_data->CallSetImageViewInitialLayoutCallback(cb_node, *iv_state, image_layout_);
1625*b7893ccfSSadaf Ebrahimi }
1626*b7893ccfSSadaf Ebrahimi }
1627*b7893ccfSSadaf Ebrahimi
BufferDescriptor(const VkDescriptorType type)1628*b7893ccfSSadaf Ebrahimi cvdescriptorset::BufferDescriptor::BufferDescriptor(const VkDescriptorType type)
1629*b7893ccfSSadaf Ebrahimi : storage_(false), dynamic_(false), buffer_(VK_NULL_HANDLE), offset_(0), range_(0) {
1630*b7893ccfSSadaf Ebrahimi updated = false;
1631*b7893ccfSSadaf Ebrahimi descriptor_class = GeneralBuffer;
1632*b7893ccfSSadaf Ebrahimi if (VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC == type) {
1633*b7893ccfSSadaf Ebrahimi dynamic_ = true;
1634*b7893ccfSSadaf Ebrahimi } else if (VK_DESCRIPTOR_TYPE_STORAGE_BUFFER == type) {
1635*b7893ccfSSadaf Ebrahimi storage_ = true;
1636*b7893ccfSSadaf Ebrahimi } else if (VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC == type) {
1637*b7893ccfSSadaf Ebrahimi dynamic_ = true;
1638*b7893ccfSSadaf Ebrahimi storage_ = true;
1639*b7893ccfSSadaf Ebrahimi }
1640*b7893ccfSSadaf Ebrahimi }
WriteUpdate(const VkWriteDescriptorSet * update,const uint32_t index)1641*b7893ccfSSadaf Ebrahimi void cvdescriptorset::BufferDescriptor::WriteUpdate(const VkWriteDescriptorSet *update, const uint32_t index) {
1642*b7893ccfSSadaf Ebrahimi updated = true;
1643*b7893ccfSSadaf Ebrahimi const auto &buffer_info = update->pBufferInfo[index];
1644*b7893ccfSSadaf Ebrahimi buffer_ = buffer_info.buffer;
1645*b7893ccfSSadaf Ebrahimi offset_ = buffer_info.offset;
1646*b7893ccfSSadaf Ebrahimi range_ = buffer_info.range;
1647*b7893ccfSSadaf Ebrahimi }
1648*b7893ccfSSadaf Ebrahimi
CopyUpdate(const Descriptor * src)1649*b7893ccfSSadaf Ebrahimi void cvdescriptorset::BufferDescriptor::CopyUpdate(const Descriptor *src) {
1650*b7893ccfSSadaf Ebrahimi auto buff_desc = static_cast<const BufferDescriptor *>(src);
1651*b7893ccfSSadaf Ebrahimi updated = true;
1652*b7893ccfSSadaf Ebrahimi buffer_ = buff_desc->buffer_;
1653*b7893ccfSSadaf Ebrahimi offset_ = buff_desc->offset_;
1654*b7893ccfSSadaf Ebrahimi range_ = buff_desc->range_;
1655*b7893ccfSSadaf Ebrahimi }
1656*b7893ccfSSadaf Ebrahimi
UpdateDrawState(ValidationStateTracker * dev_data,CMD_BUFFER_STATE * cb_node)1657*b7893ccfSSadaf Ebrahimi void cvdescriptorset::BufferDescriptor::UpdateDrawState(ValidationStateTracker *dev_data, CMD_BUFFER_STATE *cb_node) {
1658*b7893ccfSSadaf Ebrahimi auto buffer_node = dev_data->GetBufferState(buffer_);
1659*b7893ccfSSadaf Ebrahimi if (buffer_node) dev_data->AddCommandBufferBindingBuffer(cb_node, buffer_node);
1660*b7893ccfSSadaf Ebrahimi }
1661*b7893ccfSSadaf Ebrahimi
TexelDescriptor(const VkDescriptorType type)1662*b7893ccfSSadaf Ebrahimi cvdescriptorset::TexelDescriptor::TexelDescriptor(const VkDescriptorType type) : buffer_view_(VK_NULL_HANDLE), storage_(false) {
1663*b7893ccfSSadaf Ebrahimi updated = false;
1664*b7893ccfSSadaf Ebrahimi descriptor_class = TexelBuffer;
1665*b7893ccfSSadaf Ebrahimi if (VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER == type) storage_ = true;
1666*b7893ccfSSadaf Ebrahimi }
1667*b7893ccfSSadaf Ebrahimi
WriteUpdate(const VkWriteDescriptorSet * update,const uint32_t index)1668*b7893ccfSSadaf Ebrahimi void cvdescriptorset::TexelDescriptor::WriteUpdate(const VkWriteDescriptorSet *update, const uint32_t index) {
1669*b7893ccfSSadaf Ebrahimi updated = true;
1670*b7893ccfSSadaf Ebrahimi buffer_view_ = update->pTexelBufferView[index];
1671*b7893ccfSSadaf Ebrahimi }
1672*b7893ccfSSadaf Ebrahimi
CopyUpdate(const Descriptor * src)1673*b7893ccfSSadaf Ebrahimi void cvdescriptorset::TexelDescriptor::CopyUpdate(const Descriptor *src) {
1674*b7893ccfSSadaf Ebrahimi updated = true;
1675*b7893ccfSSadaf Ebrahimi buffer_view_ = static_cast<const TexelDescriptor *>(src)->buffer_view_;
1676*b7893ccfSSadaf Ebrahimi }
1677*b7893ccfSSadaf Ebrahimi
UpdateDrawState(ValidationStateTracker * dev_data,CMD_BUFFER_STATE * cb_node)1678*b7893ccfSSadaf Ebrahimi void cvdescriptorset::TexelDescriptor::UpdateDrawState(ValidationStateTracker *dev_data, CMD_BUFFER_STATE *cb_node) {
1679*b7893ccfSSadaf Ebrahimi auto bv_state = dev_data->GetBufferViewState(buffer_view_);
1680*b7893ccfSSadaf Ebrahimi if (bv_state) {
1681*b7893ccfSSadaf Ebrahimi dev_data->AddCommandBufferBindingBufferView(cb_node, bv_state);
1682*b7893ccfSSadaf Ebrahimi }
1683*b7893ccfSSadaf Ebrahimi }
1684*b7893ccfSSadaf Ebrahimi
1685*b7893ccfSSadaf Ebrahimi // This is a helper function that iterates over a set of Write and Copy updates, pulls the DescriptorSet* for updated
1686*b7893ccfSSadaf Ebrahimi // sets, and then calls their respective Validate[Write|Copy]Update functions.
1687*b7893ccfSSadaf Ebrahimi // If the update hits an issue for which the callback returns "true", meaning that the call down the chain should
1688*b7893ccfSSadaf Ebrahimi // be skipped, then true is returned.
1689*b7893ccfSSadaf Ebrahimi // If there is no issue with the update, then false is returned.
ValidateUpdateDescriptorSets(uint32_t write_count,const VkWriteDescriptorSet * p_wds,uint32_t copy_count,const VkCopyDescriptorSet * p_cds,const char * func_name)1690*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateUpdateDescriptorSets(uint32_t write_count, const VkWriteDescriptorSet *p_wds, uint32_t copy_count,
1691*b7893ccfSSadaf Ebrahimi const VkCopyDescriptorSet *p_cds, const char *func_name) {
1692*b7893ccfSSadaf Ebrahimi bool skip = false;
1693*b7893ccfSSadaf Ebrahimi // Validate Write updates
1694*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < write_count; i++) {
1695*b7893ccfSSadaf Ebrahimi auto dest_set = p_wds[i].dstSet;
1696*b7893ccfSSadaf Ebrahimi auto set_node = GetSetNode(dest_set);
1697*b7893ccfSSadaf Ebrahimi if (!set_node) {
1698*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_EXT,
1699*b7893ccfSSadaf Ebrahimi HandleToUint64(dest_set), kVUID_Core_DrawState_InvalidDescriptorSet,
1700*b7893ccfSSadaf Ebrahimi "Cannot call %s on %s that has not been allocated.", func_name,
1701*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(dest_set).c_str());
1702*b7893ccfSSadaf Ebrahimi } else {
1703*b7893ccfSSadaf Ebrahimi std::string error_code;
1704*b7893ccfSSadaf Ebrahimi std::string error_str;
1705*b7893ccfSSadaf Ebrahimi if (!ValidateWriteUpdate(set_node, &p_wds[i], func_name, &error_code, &error_str)) {
1706*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_EXT,
1707*b7893ccfSSadaf Ebrahimi HandleToUint64(dest_set), error_code, "%s failed write update validation for %s with error: %s.",
1708*b7893ccfSSadaf Ebrahimi func_name, report_data->FormatHandle(dest_set).c_str(), error_str.c_str());
1709*b7893ccfSSadaf Ebrahimi }
1710*b7893ccfSSadaf Ebrahimi }
1711*b7893ccfSSadaf Ebrahimi }
1712*b7893ccfSSadaf Ebrahimi // Now validate copy updates
1713*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < copy_count; ++i) {
1714*b7893ccfSSadaf Ebrahimi auto dst_set = p_cds[i].dstSet;
1715*b7893ccfSSadaf Ebrahimi auto src_set = p_cds[i].srcSet;
1716*b7893ccfSSadaf Ebrahimi auto src_node = GetSetNode(src_set);
1717*b7893ccfSSadaf Ebrahimi auto dst_node = GetSetNode(dst_set);
1718*b7893ccfSSadaf Ebrahimi // Object_tracker verifies that src & dest descriptor set are valid
1719*b7893ccfSSadaf Ebrahimi assert(src_node);
1720*b7893ccfSSadaf Ebrahimi assert(dst_node);
1721*b7893ccfSSadaf Ebrahimi std::string error_code;
1722*b7893ccfSSadaf Ebrahimi std::string error_str;
1723*b7893ccfSSadaf Ebrahimi if (!ValidateCopyUpdate(&p_cds[i], dst_node, src_node, func_name, &error_code, &error_str)) {
1724*b7893ccfSSadaf Ebrahimi skip |=
1725*b7893ccfSSadaf Ebrahimi log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_EXT,
1726*b7893ccfSSadaf Ebrahimi HandleToUint64(dst_set), error_code, "%s failed copy update from %s to %s with error: %s.", func_name,
1727*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(src_set).c_str(), report_data->FormatHandle(dst_set).c_str(), error_str.c_str());
1728*b7893ccfSSadaf Ebrahimi }
1729*b7893ccfSSadaf Ebrahimi }
1730*b7893ccfSSadaf Ebrahimi return skip;
1731*b7893ccfSSadaf Ebrahimi }
1732*b7893ccfSSadaf Ebrahimi // This is a helper function that iterates over a set of Write and Copy updates, pulls the DescriptorSet* for updated
1733*b7893ccfSSadaf Ebrahimi // sets, and then calls their respective Perform[Write|Copy]Update functions.
1734*b7893ccfSSadaf Ebrahimi // Prerequisite : ValidateUpdateDescriptorSets() should be called and return "false" prior to calling PerformUpdateDescriptorSets()
1735*b7893ccfSSadaf Ebrahimi // with the same set of updates.
1736*b7893ccfSSadaf Ebrahimi // This is split from the validate code to allow validation prior to calling down the chain, and then update after
1737*b7893ccfSSadaf Ebrahimi // calling down the chain.
PerformUpdateDescriptorSets(ValidationStateTracker * dev_data,uint32_t write_count,const VkWriteDescriptorSet * p_wds,uint32_t copy_count,const VkCopyDescriptorSet * p_cds)1738*b7893ccfSSadaf Ebrahimi void cvdescriptorset::PerformUpdateDescriptorSets(ValidationStateTracker *dev_data, uint32_t write_count,
1739*b7893ccfSSadaf Ebrahimi const VkWriteDescriptorSet *p_wds, uint32_t copy_count,
1740*b7893ccfSSadaf Ebrahimi const VkCopyDescriptorSet *p_cds) {
1741*b7893ccfSSadaf Ebrahimi // Write updates first
1742*b7893ccfSSadaf Ebrahimi uint32_t i = 0;
1743*b7893ccfSSadaf Ebrahimi for (i = 0; i < write_count; ++i) {
1744*b7893ccfSSadaf Ebrahimi auto dest_set = p_wds[i].dstSet;
1745*b7893ccfSSadaf Ebrahimi auto set_node = dev_data->GetSetNode(dest_set);
1746*b7893ccfSSadaf Ebrahimi if (set_node) {
1747*b7893ccfSSadaf Ebrahimi set_node->PerformWriteUpdate(&p_wds[i]);
1748*b7893ccfSSadaf Ebrahimi }
1749*b7893ccfSSadaf Ebrahimi }
1750*b7893ccfSSadaf Ebrahimi // Now copy updates
1751*b7893ccfSSadaf Ebrahimi for (i = 0; i < copy_count; ++i) {
1752*b7893ccfSSadaf Ebrahimi auto dst_set = p_cds[i].dstSet;
1753*b7893ccfSSadaf Ebrahimi auto src_set = p_cds[i].srcSet;
1754*b7893ccfSSadaf Ebrahimi auto src_node = dev_data->GetSetNode(src_set);
1755*b7893ccfSSadaf Ebrahimi auto dst_node = dev_data->GetSetNode(dst_set);
1756*b7893ccfSSadaf Ebrahimi if (src_node && dst_node) {
1757*b7893ccfSSadaf Ebrahimi dst_node->PerformCopyUpdate(&p_cds[i], src_node);
1758*b7893ccfSSadaf Ebrahimi }
1759*b7893ccfSSadaf Ebrahimi }
1760*b7893ccfSSadaf Ebrahimi }
1761*b7893ccfSSadaf Ebrahimi
DecodedTemplateUpdate(const ValidationStateTracker * device_data,VkDescriptorSet descriptorSet,const TEMPLATE_STATE * template_state,const void * pData,VkDescriptorSetLayout push_layout)1762*b7893ccfSSadaf Ebrahimi cvdescriptorset::DecodedTemplateUpdate::DecodedTemplateUpdate(const ValidationStateTracker *device_data,
1763*b7893ccfSSadaf Ebrahimi VkDescriptorSet descriptorSet, const TEMPLATE_STATE *template_state,
1764*b7893ccfSSadaf Ebrahimi const void *pData, VkDescriptorSetLayout push_layout) {
1765*b7893ccfSSadaf Ebrahimi auto const &create_info = template_state->create_info;
1766*b7893ccfSSadaf Ebrahimi inline_infos.resize(create_info.descriptorUpdateEntryCount); // Make sure we have one if we need it
1767*b7893ccfSSadaf Ebrahimi desc_writes.reserve(create_info.descriptorUpdateEntryCount); // emplaced, so reserved without initialization
1768*b7893ccfSSadaf Ebrahimi VkDescriptorSetLayout effective_dsl = create_info.templateType == VK_DESCRIPTOR_UPDATE_TEMPLATE_TYPE_DESCRIPTOR_SET
1769*b7893ccfSSadaf Ebrahimi ? create_info.descriptorSetLayout
1770*b7893ccfSSadaf Ebrahimi : push_layout;
1771*b7893ccfSSadaf Ebrahimi auto layout_obj = GetDescriptorSetLayout(device_data, effective_dsl);
1772*b7893ccfSSadaf Ebrahimi
1773*b7893ccfSSadaf Ebrahimi // Create a WriteDescriptorSet struct for each template update entry
1774*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < create_info.descriptorUpdateEntryCount; i++) {
1775*b7893ccfSSadaf Ebrahimi auto binding_count = layout_obj->GetDescriptorCountFromBinding(create_info.pDescriptorUpdateEntries[i].dstBinding);
1776*b7893ccfSSadaf Ebrahimi auto binding_being_updated = create_info.pDescriptorUpdateEntries[i].dstBinding;
1777*b7893ccfSSadaf Ebrahimi auto dst_array_element = create_info.pDescriptorUpdateEntries[i].dstArrayElement;
1778*b7893ccfSSadaf Ebrahimi
1779*b7893ccfSSadaf Ebrahimi desc_writes.reserve(desc_writes.size() + create_info.pDescriptorUpdateEntries[i].descriptorCount);
1780*b7893ccfSSadaf Ebrahimi for (uint32_t j = 0; j < create_info.pDescriptorUpdateEntries[i].descriptorCount; j++) {
1781*b7893ccfSSadaf Ebrahimi desc_writes.emplace_back();
1782*b7893ccfSSadaf Ebrahimi auto &write_entry = desc_writes.back();
1783*b7893ccfSSadaf Ebrahimi
1784*b7893ccfSSadaf Ebrahimi size_t offset = create_info.pDescriptorUpdateEntries[i].offset + j * create_info.pDescriptorUpdateEntries[i].stride;
1785*b7893ccfSSadaf Ebrahimi char *update_entry = (char *)(pData) + offset;
1786*b7893ccfSSadaf Ebrahimi
1787*b7893ccfSSadaf Ebrahimi if (dst_array_element >= binding_count) {
1788*b7893ccfSSadaf Ebrahimi dst_array_element = 0;
1789*b7893ccfSSadaf Ebrahimi binding_being_updated = layout_obj->GetNextValidBinding(binding_being_updated);
1790*b7893ccfSSadaf Ebrahimi }
1791*b7893ccfSSadaf Ebrahimi
1792*b7893ccfSSadaf Ebrahimi write_entry.sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET;
1793*b7893ccfSSadaf Ebrahimi write_entry.pNext = NULL;
1794*b7893ccfSSadaf Ebrahimi write_entry.dstSet = descriptorSet;
1795*b7893ccfSSadaf Ebrahimi write_entry.dstBinding = binding_being_updated;
1796*b7893ccfSSadaf Ebrahimi write_entry.dstArrayElement = dst_array_element;
1797*b7893ccfSSadaf Ebrahimi write_entry.descriptorCount = 1;
1798*b7893ccfSSadaf Ebrahimi write_entry.descriptorType = create_info.pDescriptorUpdateEntries[i].descriptorType;
1799*b7893ccfSSadaf Ebrahimi
1800*b7893ccfSSadaf Ebrahimi switch (create_info.pDescriptorUpdateEntries[i].descriptorType) {
1801*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLER:
1802*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER:
1803*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE:
1804*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE:
1805*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT:
1806*b7893ccfSSadaf Ebrahimi write_entry.pImageInfo = reinterpret_cast<VkDescriptorImageInfo *>(update_entry);
1807*b7893ccfSSadaf Ebrahimi break;
1808*b7893ccfSSadaf Ebrahimi
1809*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER:
1810*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER:
1811*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC:
1812*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC:
1813*b7893ccfSSadaf Ebrahimi write_entry.pBufferInfo = reinterpret_cast<VkDescriptorBufferInfo *>(update_entry);
1814*b7893ccfSSadaf Ebrahimi break;
1815*b7893ccfSSadaf Ebrahimi
1816*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER:
1817*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER:
1818*b7893ccfSSadaf Ebrahimi write_entry.pTexelBufferView = reinterpret_cast<VkBufferView *>(update_entry);
1819*b7893ccfSSadaf Ebrahimi break;
1820*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT: {
1821*b7893ccfSSadaf Ebrahimi VkWriteDescriptorSetInlineUniformBlockEXT *inline_info = &inline_infos[i];
1822*b7893ccfSSadaf Ebrahimi inline_info->sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_INLINE_UNIFORM_BLOCK_EXT;
1823*b7893ccfSSadaf Ebrahimi inline_info->pNext = nullptr;
1824*b7893ccfSSadaf Ebrahimi inline_info->dataSize = create_info.pDescriptorUpdateEntries[i].descriptorCount;
1825*b7893ccfSSadaf Ebrahimi inline_info->pData = update_entry;
1826*b7893ccfSSadaf Ebrahimi write_entry.pNext = inline_info;
1827*b7893ccfSSadaf Ebrahimi // descriptorCount must match the dataSize member of the VkWriteDescriptorSetInlineUniformBlockEXT structure
1828*b7893ccfSSadaf Ebrahimi write_entry.descriptorCount = inline_info->dataSize;
1829*b7893ccfSSadaf Ebrahimi // skip the rest of the array, they just represent bytes in the update
1830*b7893ccfSSadaf Ebrahimi j = create_info.pDescriptorUpdateEntries[i].descriptorCount;
1831*b7893ccfSSadaf Ebrahimi break;
1832*b7893ccfSSadaf Ebrahimi }
1833*b7893ccfSSadaf Ebrahimi default:
1834*b7893ccfSSadaf Ebrahimi assert(0);
1835*b7893ccfSSadaf Ebrahimi break;
1836*b7893ccfSSadaf Ebrahimi }
1837*b7893ccfSSadaf Ebrahimi dst_array_element++;
1838*b7893ccfSSadaf Ebrahimi }
1839*b7893ccfSSadaf Ebrahimi }
1840*b7893ccfSSadaf Ebrahimi }
1841*b7893ccfSSadaf Ebrahimi // These helper functions carry out the validate and record descriptor updates peformed via update templates. They decode
1842*b7893ccfSSadaf Ebrahimi // the templatized data and leverage the non-template UpdateDescriptor helper functions.
ValidateUpdateDescriptorSetsWithTemplateKHR(VkDescriptorSet descriptorSet,const TEMPLATE_STATE * template_state,const void * pData)1843*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateUpdateDescriptorSetsWithTemplateKHR(VkDescriptorSet descriptorSet, const TEMPLATE_STATE *template_state,
1844*b7893ccfSSadaf Ebrahimi const void *pData) {
1845*b7893ccfSSadaf Ebrahimi // Translate the templated update into a normal update for validation...
1846*b7893ccfSSadaf Ebrahimi cvdescriptorset::DecodedTemplateUpdate decoded_update(this, descriptorSet, template_state, pData);
1847*b7893ccfSSadaf Ebrahimi return ValidateUpdateDescriptorSets(static_cast<uint32_t>(decoded_update.desc_writes.size()), decoded_update.desc_writes.data(),
1848*b7893ccfSSadaf Ebrahimi 0, NULL, "vkUpdateDescriptorSetWithTemplate()");
1849*b7893ccfSSadaf Ebrahimi }
1850*b7893ccfSSadaf Ebrahimi
PerformUpdateDescriptorSetsWithTemplateKHR(VkDescriptorSet descriptorSet,const TEMPLATE_STATE * template_state,const void * pData)1851*b7893ccfSSadaf Ebrahimi void ValidationStateTracker::PerformUpdateDescriptorSetsWithTemplateKHR(VkDescriptorSet descriptorSet,
1852*b7893ccfSSadaf Ebrahimi const TEMPLATE_STATE *template_state, const void *pData) {
1853*b7893ccfSSadaf Ebrahimi // Translate the templated update into a normal update for validation...
1854*b7893ccfSSadaf Ebrahimi cvdescriptorset::DecodedTemplateUpdate decoded_update(this, descriptorSet, template_state, pData);
1855*b7893ccfSSadaf Ebrahimi cvdescriptorset::PerformUpdateDescriptorSets(this, static_cast<uint32_t>(decoded_update.desc_writes.size()),
1856*b7893ccfSSadaf Ebrahimi decoded_update.desc_writes.data(), 0, NULL);
1857*b7893ccfSSadaf Ebrahimi }
1858*b7893ccfSSadaf Ebrahimi
StringifySetAndLayout() const1859*b7893ccfSSadaf Ebrahimi std::string cvdescriptorset::DescriptorSet::StringifySetAndLayout() const {
1860*b7893ccfSSadaf Ebrahimi std::string out;
1861*b7893ccfSSadaf Ebrahimi auto layout_handle = p_layout_->GetDescriptorSetLayout();
1862*b7893ccfSSadaf Ebrahimi if (IsPushDescriptor()) {
1863*b7893ccfSSadaf Ebrahimi string_sprintf(&out, "Push Descriptors defined with VkDescriptorSetLayout %s",
1864*b7893ccfSSadaf Ebrahimi state_data_->report_data->FormatHandle(layout_handle).c_str());
1865*b7893ccfSSadaf Ebrahimi } else {
1866*b7893ccfSSadaf Ebrahimi string_sprintf(&out, "VkDescriptorSet %s allocated with VkDescriptorSetLayout %s",
1867*b7893ccfSSadaf Ebrahimi state_data_->report_data->FormatHandle(set_).c_str(),
1868*b7893ccfSSadaf Ebrahimi state_data_->report_data->FormatHandle(layout_handle).c_str());
1869*b7893ccfSSadaf Ebrahimi }
1870*b7893ccfSSadaf Ebrahimi return out;
1871*b7893ccfSSadaf Ebrahimi };
1872*b7893ccfSSadaf Ebrahimi
1873*b7893ccfSSadaf Ebrahimi // Loop through the write updates to validate for a push descriptor set, ignoring dstSet
ValidatePushDescriptorsUpdate(const DescriptorSet * push_set,uint32_t write_count,const VkWriteDescriptorSet * p_wds,const char * func_name)1874*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidatePushDescriptorsUpdate(const DescriptorSet *push_set, uint32_t write_count,
1875*b7893ccfSSadaf Ebrahimi const VkWriteDescriptorSet *p_wds, const char *func_name) {
1876*b7893ccfSSadaf Ebrahimi assert(push_set->IsPushDescriptor());
1877*b7893ccfSSadaf Ebrahimi bool skip = false;
1878*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < write_count; i++) {
1879*b7893ccfSSadaf Ebrahimi std::string error_code;
1880*b7893ccfSSadaf Ebrahimi std::string error_str;
1881*b7893ccfSSadaf Ebrahimi if (!ValidateWriteUpdate(push_set, &p_wds[i], func_name, &error_code, &error_str)) {
1882*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT,
1883*b7893ccfSSadaf Ebrahimi HandleToUint64(push_set->GetDescriptorSetLayout()), error_code, "%s failed update validation: %s.",
1884*b7893ccfSSadaf Ebrahimi func_name, error_str.c_str());
1885*b7893ccfSSadaf Ebrahimi }
1886*b7893ccfSSadaf Ebrahimi }
1887*b7893ccfSSadaf Ebrahimi return skip;
1888*b7893ccfSSadaf Ebrahimi }
1889*b7893ccfSSadaf Ebrahimi
1890*b7893ccfSSadaf Ebrahimi // For the given buffer, verify that its creation parameters are appropriate for the given type
1891*b7893ccfSSadaf Ebrahimi // If there's an error, update the error_msg string with details and return false, else return true
ValidateBufferUsage(BUFFER_STATE const * buffer_node,VkDescriptorType type,std::string * error_code,std::string * error_msg)1892*b7893ccfSSadaf Ebrahimi bool cvdescriptorset::ValidateBufferUsage(BUFFER_STATE const *buffer_node, VkDescriptorType type, std::string *error_code,
1893*b7893ccfSSadaf Ebrahimi std::string *error_msg) {
1894*b7893ccfSSadaf Ebrahimi // Verify that usage bits set correctly for given type
1895*b7893ccfSSadaf Ebrahimi auto usage = buffer_node->createInfo.usage;
1896*b7893ccfSSadaf Ebrahimi const char *error_usage_bit = nullptr;
1897*b7893ccfSSadaf Ebrahimi switch (type) {
1898*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER:
1899*b7893ccfSSadaf Ebrahimi if (!(usage & VK_BUFFER_USAGE_UNIFORM_TEXEL_BUFFER_BIT)) {
1900*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00334";
1901*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_BUFFER_USAGE_UNIFORM_TEXEL_BUFFER_BIT";
1902*b7893ccfSSadaf Ebrahimi }
1903*b7893ccfSSadaf Ebrahimi break;
1904*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER:
1905*b7893ccfSSadaf Ebrahimi if (!(usage & VK_BUFFER_USAGE_STORAGE_TEXEL_BUFFER_BIT)) {
1906*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00335";
1907*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_BUFFER_USAGE_STORAGE_TEXEL_BUFFER_BIT";
1908*b7893ccfSSadaf Ebrahimi }
1909*b7893ccfSSadaf Ebrahimi break;
1910*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER:
1911*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC:
1912*b7893ccfSSadaf Ebrahimi if (!(usage & VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT)) {
1913*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00330";
1914*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT";
1915*b7893ccfSSadaf Ebrahimi }
1916*b7893ccfSSadaf Ebrahimi break;
1917*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER:
1918*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC:
1919*b7893ccfSSadaf Ebrahimi if (!(usage & VK_BUFFER_USAGE_STORAGE_BUFFER_BIT)) {
1920*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00331";
1921*b7893ccfSSadaf Ebrahimi error_usage_bit = "VK_BUFFER_USAGE_STORAGE_BUFFER_BIT";
1922*b7893ccfSSadaf Ebrahimi }
1923*b7893ccfSSadaf Ebrahimi break;
1924*b7893ccfSSadaf Ebrahimi default:
1925*b7893ccfSSadaf Ebrahimi break;
1926*b7893ccfSSadaf Ebrahimi }
1927*b7893ccfSSadaf Ebrahimi if (error_usage_bit) {
1928*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1929*b7893ccfSSadaf Ebrahimi error_str << "Buffer (" << buffer_node->buffer << ") with usage mask " << std::hex << std::showbase << usage
1930*b7893ccfSSadaf Ebrahimi << " being used for a descriptor update of type " << string_VkDescriptorType(type) << " does not have "
1931*b7893ccfSSadaf Ebrahimi << error_usage_bit << " set.";
1932*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1933*b7893ccfSSadaf Ebrahimi return false;
1934*b7893ccfSSadaf Ebrahimi }
1935*b7893ccfSSadaf Ebrahimi return true;
1936*b7893ccfSSadaf Ebrahimi }
1937*b7893ccfSSadaf Ebrahimi // For buffer descriptor updates, verify the buffer usage and VkDescriptorBufferInfo struct which includes:
1938*b7893ccfSSadaf Ebrahimi // 1. buffer is valid
1939*b7893ccfSSadaf Ebrahimi // 2. buffer was created with correct usage flags
1940*b7893ccfSSadaf Ebrahimi // 3. offset is less than buffer size
1941*b7893ccfSSadaf Ebrahimi // 4. range is either VK_WHOLE_SIZE or falls in (0, (buffer size - offset)]
1942*b7893ccfSSadaf Ebrahimi // 5. range and offset are within the device's limits
1943*b7893ccfSSadaf Ebrahimi // If there's an error, update the error_msg string with details and return false, else return true
ValidateBufferUpdate(VkDescriptorBufferInfo const * buffer_info,VkDescriptorType type,const char * func_name,std::string * error_code,std::string * error_msg)1944*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateBufferUpdate(VkDescriptorBufferInfo const *buffer_info, VkDescriptorType type, const char *func_name,
1945*b7893ccfSSadaf Ebrahimi std::string *error_code, std::string *error_msg) {
1946*b7893ccfSSadaf Ebrahimi // First make sure that buffer is valid
1947*b7893ccfSSadaf Ebrahimi auto buffer_node = GetBufferState(buffer_info->buffer);
1948*b7893ccfSSadaf Ebrahimi // Any invalid buffer should already be caught by object_tracker
1949*b7893ccfSSadaf Ebrahimi assert(buffer_node);
1950*b7893ccfSSadaf Ebrahimi if (ValidateMemoryIsBoundToBuffer(buffer_node, func_name, "VUID-VkWriteDescriptorSet-descriptorType-00329")) {
1951*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00329";
1952*b7893ccfSSadaf Ebrahimi *error_msg = "No memory bound to buffer.";
1953*b7893ccfSSadaf Ebrahimi return false;
1954*b7893ccfSSadaf Ebrahimi }
1955*b7893ccfSSadaf Ebrahimi // Verify usage bits
1956*b7893ccfSSadaf Ebrahimi if (!cvdescriptorset::ValidateBufferUsage(buffer_node, type, error_code, error_msg)) {
1957*b7893ccfSSadaf Ebrahimi // error_msg will have been updated by ValidateBufferUsage()
1958*b7893ccfSSadaf Ebrahimi return false;
1959*b7893ccfSSadaf Ebrahimi }
1960*b7893ccfSSadaf Ebrahimi // offset must be less than buffer size
1961*b7893ccfSSadaf Ebrahimi if (buffer_info->offset >= buffer_node->createInfo.size) {
1962*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkDescriptorBufferInfo-offset-00340";
1963*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1964*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo offset of " << buffer_info->offset << " is greater than or equal to buffer "
1965*b7893ccfSSadaf Ebrahimi << buffer_node->buffer << " size of " << buffer_node->createInfo.size;
1966*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1967*b7893ccfSSadaf Ebrahimi return false;
1968*b7893ccfSSadaf Ebrahimi }
1969*b7893ccfSSadaf Ebrahimi if (buffer_info->range != VK_WHOLE_SIZE) {
1970*b7893ccfSSadaf Ebrahimi // Range must be VK_WHOLE_SIZE or > 0
1971*b7893ccfSSadaf Ebrahimi if (!buffer_info->range) {
1972*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkDescriptorBufferInfo-range-00341";
1973*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1974*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo range is not VK_WHOLE_SIZE and is zero, which is not allowed.";
1975*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1976*b7893ccfSSadaf Ebrahimi return false;
1977*b7893ccfSSadaf Ebrahimi }
1978*b7893ccfSSadaf Ebrahimi // Range must be VK_WHOLE_SIZE or <= (buffer size - offset)
1979*b7893ccfSSadaf Ebrahimi if (buffer_info->range > (buffer_node->createInfo.size - buffer_info->offset)) {
1980*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkDescriptorBufferInfo-range-00342";
1981*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1982*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo range is " << buffer_info->range << " which is greater than buffer size ("
1983*b7893ccfSSadaf Ebrahimi << buffer_node->createInfo.size << ") minus requested offset of " << buffer_info->offset;
1984*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1985*b7893ccfSSadaf Ebrahimi return false;
1986*b7893ccfSSadaf Ebrahimi }
1987*b7893ccfSSadaf Ebrahimi }
1988*b7893ccfSSadaf Ebrahimi // Check buffer update sizes against device limits
1989*b7893ccfSSadaf Ebrahimi const auto &limits = phys_dev_props.limits;
1990*b7893ccfSSadaf Ebrahimi if (VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER == type || VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC == type) {
1991*b7893ccfSSadaf Ebrahimi auto max_ub_range = limits.maxUniformBufferRange;
1992*b7893ccfSSadaf Ebrahimi if (buffer_info->range != VK_WHOLE_SIZE && buffer_info->range > max_ub_range) {
1993*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00332";
1994*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
1995*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo range is " << buffer_info->range
1996*b7893ccfSSadaf Ebrahimi << " which is greater than this device's maxUniformBufferRange (" << max_ub_range << ")";
1997*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
1998*b7893ccfSSadaf Ebrahimi return false;
1999*b7893ccfSSadaf Ebrahimi } else if (buffer_info->range == VK_WHOLE_SIZE && (buffer_node->createInfo.size - buffer_info->offset) > max_ub_range) {
2000*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00332";
2001*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2002*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo range is VK_WHOLE_SIZE but effective range "
2003*b7893ccfSSadaf Ebrahimi << "(" << (buffer_node->createInfo.size - buffer_info->offset) << ") is greater than this device's "
2004*b7893ccfSSadaf Ebrahimi << "maxUniformBufferRange (" << max_ub_range << ")";
2005*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2006*b7893ccfSSadaf Ebrahimi return false;
2007*b7893ccfSSadaf Ebrahimi }
2008*b7893ccfSSadaf Ebrahimi } else if (VK_DESCRIPTOR_TYPE_STORAGE_BUFFER == type || VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC == type) {
2009*b7893ccfSSadaf Ebrahimi auto max_sb_range = limits.maxStorageBufferRange;
2010*b7893ccfSSadaf Ebrahimi if (buffer_info->range != VK_WHOLE_SIZE && buffer_info->range > max_sb_range) {
2011*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00333";
2012*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2013*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo range is " << buffer_info->range
2014*b7893ccfSSadaf Ebrahimi << " which is greater than this device's maxStorageBufferRange (" << max_sb_range << ")";
2015*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2016*b7893ccfSSadaf Ebrahimi return false;
2017*b7893ccfSSadaf Ebrahimi } else if (buffer_info->range == VK_WHOLE_SIZE && (buffer_node->createInfo.size - buffer_info->offset) > max_sb_range) {
2018*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00333";
2019*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2020*b7893ccfSSadaf Ebrahimi error_str << "VkDescriptorBufferInfo range is VK_WHOLE_SIZE but effective range "
2021*b7893ccfSSadaf Ebrahimi << "(" << (buffer_node->createInfo.size - buffer_info->offset) << ") is greater than this device's "
2022*b7893ccfSSadaf Ebrahimi << "maxStorageBufferRange (" << max_sb_range << ")";
2023*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2024*b7893ccfSSadaf Ebrahimi return false;
2025*b7893ccfSSadaf Ebrahimi }
2026*b7893ccfSSadaf Ebrahimi }
2027*b7893ccfSSadaf Ebrahimi return true;
2028*b7893ccfSSadaf Ebrahimi }
2029*b7893ccfSSadaf Ebrahimi // Verify that the contents of the update are ok, but don't perform actual update
VerifyCopyUpdateContents(const VkCopyDescriptorSet * update,const DescriptorSet * src_set,VkDescriptorType type,uint32_t index,const char * func_name,std::string * error_code,std::string * error_msg)2030*b7893ccfSSadaf Ebrahimi bool CoreChecks::VerifyCopyUpdateContents(const VkCopyDescriptorSet *update, const DescriptorSet *src_set, VkDescriptorType type,
2031*b7893ccfSSadaf Ebrahimi uint32_t index, const char *func_name, std::string *error_code, std::string *error_msg) {
2032*b7893ccfSSadaf Ebrahimi // Note : Repurposing some Write update error codes here as specific details aren't called out for copy updates like they are
2033*b7893ccfSSadaf Ebrahimi // for write updates
2034*b7893ccfSSadaf Ebrahimi using DescriptorClass = cvdescriptorset::DescriptorClass;
2035*b7893ccfSSadaf Ebrahimi using BufferDescriptor = cvdescriptorset::BufferDescriptor;
2036*b7893ccfSSadaf Ebrahimi using ImageDescriptor = cvdescriptorset::ImageDescriptor;
2037*b7893ccfSSadaf Ebrahimi using ImageSamplerDescriptor = cvdescriptorset::ImageSamplerDescriptor;
2038*b7893ccfSSadaf Ebrahimi using SamplerDescriptor = cvdescriptorset::SamplerDescriptor;
2039*b7893ccfSSadaf Ebrahimi using TexelDescriptor = cvdescriptorset::TexelDescriptor;
2040*b7893ccfSSadaf Ebrahimi
2041*b7893ccfSSadaf Ebrahimi auto device_data = this;
2042*b7893ccfSSadaf Ebrahimi switch (src_set->GetDescriptorFromGlobalIndex(index)->descriptor_class) {
2043*b7893ccfSSadaf Ebrahimi case DescriptorClass::PlainSampler: {
2044*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2045*b7893ccfSSadaf Ebrahimi const auto src_desc = src_set->GetDescriptorFromGlobalIndex(index + di);
2046*b7893ccfSSadaf Ebrahimi if (!src_desc->updated) continue;
2047*b7893ccfSSadaf Ebrahimi if (!src_desc->IsImmutableSampler()) {
2048*b7893ccfSSadaf Ebrahimi auto update_sampler = static_cast<const SamplerDescriptor *>(src_desc)->GetSampler();
2049*b7893ccfSSadaf Ebrahimi if (!ValidateSampler(update_sampler)) {
2050*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00325";
2051*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2052*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to sampler descriptor with invalid sampler: " << update_sampler << ".";
2053*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2054*b7893ccfSSadaf Ebrahimi return false;
2055*b7893ccfSSadaf Ebrahimi }
2056*b7893ccfSSadaf Ebrahimi } else {
2057*b7893ccfSSadaf Ebrahimi // TODO : Warn here
2058*b7893ccfSSadaf Ebrahimi }
2059*b7893ccfSSadaf Ebrahimi }
2060*b7893ccfSSadaf Ebrahimi break;
2061*b7893ccfSSadaf Ebrahimi }
2062*b7893ccfSSadaf Ebrahimi case DescriptorClass::ImageSampler: {
2063*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2064*b7893ccfSSadaf Ebrahimi const auto src_desc = src_set->GetDescriptorFromGlobalIndex(index + di);
2065*b7893ccfSSadaf Ebrahimi if (!src_desc->updated) continue;
2066*b7893ccfSSadaf Ebrahimi auto img_samp_desc = static_cast<const ImageSamplerDescriptor *>(src_desc);
2067*b7893ccfSSadaf Ebrahimi // First validate sampler
2068*b7893ccfSSadaf Ebrahimi if (!img_samp_desc->IsImmutableSampler()) {
2069*b7893ccfSSadaf Ebrahimi auto update_sampler = img_samp_desc->GetSampler();
2070*b7893ccfSSadaf Ebrahimi if (!ValidateSampler(update_sampler)) {
2071*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00325";
2072*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2073*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to sampler descriptor with invalid sampler: " << update_sampler << ".";
2074*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2075*b7893ccfSSadaf Ebrahimi return false;
2076*b7893ccfSSadaf Ebrahimi }
2077*b7893ccfSSadaf Ebrahimi } else {
2078*b7893ccfSSadaf Ebrahimi // TODO : Warn here
2079*b7893ccfSSadaf Ebrahimi }
2080*b7893ccfSSadaf Ebrahimi // Validate image
2081*b7893ccfSSadaf Ebrahimi auto image_view = img_samp_desc->GetImageView();
2082*b7893ccfSSadaf Ebrahimi auto image_layout = img_samp_desc->GetImageLayout();
2083*b7893ccfSSadaf Ebrahimi if (!ValidateImageUpdate(image_view, image_layout, type, func_name, error_code, error_msg)) {
2084*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2085*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to combined image sampler descriptor failed due to: " << error_msg->c_str();
2086*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2087*b7893ccfSSadaf Ebrahimi return false;
2088*b7893ccfSSadaf Ebrahimi }
2089*b7893ccfSSadaf Ebrahimi }
2090*b7893ccfSSadaf Ebrahimi break;
2091*b7893ccfSSadaf Ebrahimi }
2092*b7893ccfSSadaf Ebrahimi case DescriptorClass::Image: {
2093*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2094*b7893ccfSSadaf Ebrahimi const auto src_desc = src_set->GetDescriptorFromGlobalIndex(index + di);
2095*b7893ccfSSadaf Ebrahimi if (!src_desc->updated) continue;
2096*b7893ccfSSadaf Ebrahimi auto img_desc = static_cast<const ImageDescriptor *>(src_desc);
2097*b7893ccfSSadaf Ebrahimi auto image_view = img_desc->GetImageView();
2098*b7893ccfSSadaf Ebrahimi auto image_layout = img_desc->GetImageLayout();
2099*b7893ccfSSadaf Ebrahimi if (!ValidateImageUpdate(image_view, image_layout, type, func_name, error_code, error_msg)) {
2100*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2101*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to image descriptor failed due to: " << error_msg->c_str();
2102*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2103*b7893ccfSSadaf Ebrahimi return false;
2104*b7893ccfSSadaf Ebrahimi }
2105*b7893ccfSSadaf Ebrahimi }
2106*b7893ccfSSadaf Ebrahimi break;
2107*b7893ccfSSadaf Ebrahimi }
2108*b7893ccfSSadaf Ebrahimi case DescriptorClass::TexelBuffer: {
2109*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2110*b7893ccfSSadaf Ebrahimi const auto src_desc = src_set->GetDescriptorFromGlobalIndex(index + di);
2111*b7893ccfSSadaf Ebrahimi if (!src_desc->updated) continue;
2112*b7893ccfSSadaf Ebrahimi auto buffer_view = static_cast<const TexelDescriptor *>(src_desc)->GetBufferView();
2113*b7893ccfSSadaf Ebrahimi auto bv_state = device_data->GetBufferViewState(buffer_view);
2114*b7893ccfSSadaf Ebrahimi if (!bv_state) {
2115*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00323";
2116*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2117*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to texel buffer descriptor with invalid buffer view: " << buffer_view;
2118*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2119*b7893ccfSSadaf Ebrahimi return false;
2120*b7893ccfSSadaf Ebrahimi }
2121*b7893ccfSSadaf Ebrahimi auto buffer = bv_state->create_info.buffer;
2122*b7893ccfSSadaf Ebrahimi if (!cvdescriptorset::ValidateBufferUsage(GetBufferState(buffer), type, error_code, error_msg)) {
2123*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2124*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to texel buffer descriptor failed due to: " << error_msg->c_str();
2125*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2126*b7893ccfSSadaf Ebrahimi return false;
2127*b7893ccfSSadaf Ebrahimi }
2128*b7893ccfSSadaf Ebrahimi }
2129*b7893ccfSSadaf Ebrahimi break;
2130*b7893ccfSSadaf Ebrahimi }
2131*b7893ccfSSadaf Ebrahimi case DescriptorClass::GeneralBuffer: {
2132*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2133*b7893ccfSSadaf Ebrahimi const auto src_desc = src_set->GetDescriptorFromGlobalIndex(index + di);
2134*b7893ccfSSadaf Ebrahimi if (!src_desc->updated) continue;
2135*b7893ccfSSadaf Ebrahimi auto buffer = static_cast<const BufferDescriptor *>(src_desc)->GetBuffer();
2136*b7893ccfSSadaf Ebrahimi if (!cvdescriptorset::ValidateBufferUsage(GetBufferState(buffer), type, error_code, error_msg)) {
2137*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2138*b7893ccfSSadaf Ebrahimi error_str << "Attempted copy update to buffer descriptor failed due to: " << error_msg->c_str();
2139*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2140*b7893ccfSSadaf Ebrahimi return false;
2141*b7893ccfSSadaf Ebrahimi }
2142*b7893ccfSSadaf Ebrahimi }
2143*b7893ccfSSadaf Ebrahimi break;
2144*b7893ccfSSadaf Ebrahimi }
2145*b7893ccfSSadaf Ebrahimi case DescriptorClass::InlineUniform:
2146*b7893ccfSSadaf Ebrahimi case DescriptorClass::AccelerationStructure:
2147*b7893ccfSSadaf Ebrahimi break;
2148*b7893ccfSSadaf Ebrahimi default:
2149*b7893ccfSSadaf Ebrahimi assert(0); // We've already verified update type so should never get here
2150*b7893ccfSSadaf Ebrahimi break;
2151*b7893ccfSSadaf Ebrahimi }
2152*b7893ccfSSadaf Ebrahimi // All checks passed so update contents are good
2153*b7893ccfSSadaf Ebrahimi return true;
2154*b7893ccfSSadaf Ebrahimi }
2155*b7893ccfSSadaf Ebrahimi // Update the common AllocateDescriptorSetsData
UpdateAllocateDescriptorSetsData(const VkDescriptorSetAllocateInfo * p_alloc_info,cvdescriptorset::AllocateDescriptorSetsData * ds_data)2156*b7893ccfSSadaf Ebrahimi void CoreChecks::UpdateAllocateDescriptorSetsData(const VkDescriptorSetAllocateInfo *p_alloc_info,
2157*b7893ccfSSadaf Ebrahimi cvdescriptorset::AllocateDescriptorSetsData *ds_data) {
2158*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < p_alloc_info->descriptorSetCount; i++) {
2159*b7893ccfSSadaf Ebrahimi auto layout = GetDescriptorSetLayout(this, p_alloc_info->pSetLayouts[i]);
2160*b7893ccfSSadaf Ebrahimi if (layout) {
2161*b7893ccfSSadaf Ebrahimi ds_data->layout_nodes[i] = layout;
2162*b7893ccfSSadaf Ebrahimi // Count total descriptors required per type
2163*b7893ccfSSadaf Ebrahimi for (uint32_t j = 0; j < layout->GetBindingCount(); ++j) {
2164*b7893ccfSSadaf Ebrahimi const auto &binding_layout = layout->GetDescriptorSetLayoutBindingPtrFromIndex(j);
2165*b7893ccfSSadaf Ebrahimi uint32_t typeIndex = static_cast<uint32_t>(binding_layout->descriptorType);
2166*b7893ccfSSadaf Ebrahimi ds_data->required_descriptors_by_type[typeIndex] += binding_layout->descriptorCount;
2167*b7893ccfSSadaf Ebrahimi }
2168*b7893ccfSSadaf Ebrahimi }
2169*b7893ccfSSadaf Ebrahimi // Any unknown layouts will be flagged as errors during ValidateAllocateDescriptorSets() call
2170*b7893ccfSSadaf Ebrahimi }
2171*b7893ccfSSadaf Ebrahimi }
2172*b7893ccfSSadaf Ebrahimi // Verify that the state at allocate time is correct, but don't actually allocate the sets yet
ValidateAllocateDescriptorSets(const VkDescriptorSetAllocateInfo * p_alloc_info,const cvdescriptorset::AllocateDescriptorSetsData * ds_data)2173*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateAllocateDescriptorSets(const VkDescriptorSetAllocateInfo *p_alloc_info,
2174*b7893ccfSSadaf Ebrahimi const cvdescriptorset::AllocateDescriptorSetsData *ds_data) {
2175*b7893ccfSSadaf Ebrahimi bool skip = false;
2176*b7893ccfSSadaf Ebrahimi auto pool_state = GetDescriptorPoolState(p_alloc_info->descriptorPool);
2177*b7893ccfSSadaf Ebrahimi
2178*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < p_alloc_info->descriptorSetCount; i++) {
2179*b7893ccfSSadaf Ebrahimi auto layout = GetDescriptorSetLayout(this, p_alloc_info->pSetLayouts[i]);
2180*b7893ccfSSadaf Ebrahimi if (layout) { // nullptr layout indicates no valid layout handle for this device, validated/logged in object_tracker
2181*b7893ccfSSadaf Ebrahimi if (layout->IsPushDescriptor()) {
2182*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT,
2183*b7893ccfSSadaf Ebrahimi HandleToUint64(p_alloc_info->pSetLayouts[i]), "VUID-VkDescriptorSetAllocateInfo-pSetLayouts-00308",
2184*b7893ccfSSadaf Ebrahimi "%s specified at pSetLayouts[%" PRIu32
2185*b7893ccfSSadaf Ebrahimi "] in vkAllocateDescriptorSets() was created with invalid flag %s set.",
2186*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(p_alloc_info->pSetLayouts[i]).c_str(), i,
2187*b7893ccfSSadaf Ebrahimi "VK_DESCRIPTOR_SET_LAYOUT_CREATE_PUSH_DESCRIPTOR_BIT_KHR");
2188*b7893ccfSSadaf Ebrahimi }
2189*b7893ccfSSadaf Ebrahimi if (layout->GetCreateFlags() & VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT &&
2190*b7893ccfSSadaf Ebrahimi !(pool_state->createInfo.flags & VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT)) {
2191*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT,
2192*b7893ccfSSadaf Ebrahimi 0, "VUID-VkDescriptorSetAllocateInfo-pSetLayouts-03044",
2193*b7893ccfSSadaf Ebrahimi "Descriptor set layout create flags and pool create flags mismatch for index (%d)", i);
2194*b7893ccfSSadaf Ebrahimi }
2195*b7893ccfSSadaf Ebrahimi }
2196*b7893ccfSSadaf Ebrahimi }
2197*b7893ccfSSadaf Ebrahimi if (!device_extensions.vk_khr_maintenance1) {
2198*b7893ccfSSadaf Ebrahimi // Track number of descriptorSets allowable in this pool
2199*b7893ccfSSadaf Ebrahimi if (pool_state->availableSets < p_alloc_info->descriptorSetCount) {
2200*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_POOL_EXT,
2201*b7893ccfSSadaf Ebrahimi HandleToUint64(pool_state->pool), "VUID-VkDescriptorSetAllocateInfo-descriptorSetCount-00306",
2202*b7893ccfSSadaf Ebrahimi "Unable to allocate %u descriptorSets from %s"
2203*b7893ccfSSadaf Ebrahimi ". This pool only has %d descriptorSets remaining.",
2204*b7893ccfSSadaf Ebrahimi p_alloc_info->descriptorSetCount, report_data->FormatHandle(pool_state->pool).c_str(),
2205*b7893ccfSSadaf Ebrahimi pool_state->availableSets);
2206*b7893ccfSSadaf Ebrahimi }
2207*b7893ccfSSadaf Ebrahimi // Determine whether descriptor counts are satisfiable
2208*b7893ccfSSadaf Ebrahimi for (auto it = ds_data->required_descriptors_by_type.begin(); it != ds_data->required_descriptors_by_type.end(); ++it) {
2209*b7893ccfSSadaf Ebrahimi if (ds_data->required_descriptors_by_type.at(it->first) > pool_state->availableDescriptorTypeCount[it->first]) {
2210*b7893ccfSSadaf Ebrahimi skip |= log_msg(
2211*b7893ccfSSadaf Ebrahimi report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_POOL_EXT,
2212*b7893ccfSSadaf Ebrahimi HandleToUint64(pool_state->pool), "VUID-VkDescriptorSetAllocateInfo-descriptorPool-00307",
2213*b7893ccfSSadaf Ebrahimi "Unable to allocate %u descriptors of type %s from %s"
2214*b7893ccfSSadaf Ebrahimi ". This pool only has %d descriptors of this type remaining.",
2215*b7893ccfSSadaf Ebrahimi ds_data->required_descriptors_by_type.at(it->first), string_VkDescriptorType(VkDescriptorType(it->first)),
2216*b7893ccfSSadaf Ebrahimi report_data->FormatHandle(pool_state->pool).c_str(), pool_state->availableDescriptorTypeCount[it->first]);
2217*b7893ccfSSadaf Ebrahimi }
2218*b7893ccfSSadaf Ebrahimi }
2219*b7893ccfSSadaf Ebrahimi }
2220*b7893ccfSSadaf Ebrahimi
2221*b7893ccfSSadaf Ebrahimi const auto *count_allocate_info = lvl_find_in_chain<VkDescriptorSetVariableDescriptorCountAllocateInfoEXT>(p_alloc_info->pNext);
2222*b7893ccfSSadaf Ebrahimi
2223*b7893ccfSSadaf Ebrahimi if (count_allocate_info) {
2224*b7893ccfSSadaf Ebrahimi if (count_allocate_info->descriptorSetCount != 0 &&
2225*b7893ccfSSadaf Ebrahimi count_allocate_info->descriptorSetCount != p_alloc_info->descriptorSetCount) {
2226*b7893ccfSSadaf Ebrahimi skip |= log_msg(report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT, 0,
2227*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetVariableDescriptorCountAllocateInfoEXT-descriptorSetCount-03045",
2228*b7893ccfSSadaf Ebrahimi "VkDescriptorSetAllocateInfo::descriptorSetCount (%d) != "
2229*b7893ccfSSadaf Ebrahimi "VkDescriptorSetVariableDescriptorCountAllocateInfoEXT::descriptorSetCount (%d)",
2230*b7893ccfSSadaf Ebrahimi p_alloc_info->descriptorSetCount, count_allocate_info->descriptorSetCount);
2231*b7893ccfSSadaf Ebrahimi }
2232*b7893ccfSSadaf Ebrahimi if (count_allocate_info->descriptorSetCount == p_alloc_info->descriptorSetCount) {
2233*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < p_alloc_info->descriptorSetCount; i++) {
2234*b7893ccfSSadaf Ebrahimi auto layout = GetDescriptorSetLayout(this, p_alloc_info->pSetLayouts[i]);
2235*b7893ccfSSadaf Ebrahimi if (count_allocate_info->pDescriptorCounts[i] > layout->GetDescriptorCountFromBinding(layout->GetMaxBinding())) {
2236*b7893ccfSSadaf Ebrahimi skip |= log_msg(
2237*b7893ccfSSadaf Ebrahimi report_data, VK_DEBUG_REPORT_ERROR_BIT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT, 0,
2238*b7893ccfSSadaf Ebrahimi "VUID-VkDescriptorSetVariableDescriptorCountAllocateInfoEXT-pSetLayouts-03046",
2239*b7893ccfSSadaf Ebrahimi "pDescriptorCounts[%d] = (%d), binding's descriptorCount = (%d)", i,
2240*b7893ccfSSadaf Ebrahimi count_allocate_info->pDescriptorCounts[i], layout->GetDescriptorCountFromBinding(layout->GetMaxBinding()));
2241*b7893ccfSSadaf Ebrahimi }
2242*b7893ccfSSadaf Ebrahimi }
2243*b7893ccfSSadaf Ebrahimi }
2244*b7893ccfSSadaf Ebrahimi }
2245*b7893ccfSSadaf Ebrahimi
2246*b7893ccfSSadaf Ebrahimi return skip;
2247*b7893ccfSSadaf Ebrahimi }
2248*b7893ccfSSadaf Ebrahimi // Decrement allocated sets from the pool and insert new sets into set_map
PerformAllocateDescriptorSets(const VkDescriptorSetAllocateInfo * p_alloc_info,const VkDescriptorSet * descriptor_sets,const cvdescriptorset::AllocateDescriptorSetsData * ds_data)2249*b7893ccfSSadaf Ebrahimi void ValidationStateTracker::PerformAllocateDescriptorSets(const VkDescriptorSetAllocateInfo *p_alloc_info,
2250*b7893ccfSSadaf Ebrahimi const VkDescriptorSet *descriptor_sets,
2251*b7893ccfSSadaf Ebrahimi const cvdescriptorset::AllocateDescriptorSetsData *ds_data) {
2252*b7893ccfSSadaf Ebrahimi auto pool_state = descriptorPoolMap[p_alloc_info->descriptorPool].get();
2253*b7893ccfSSadaf Ebrahimi // Account for sets and individual descriptors allocated from pool
2254*b7893ccfSSadaf Ebrahimi pool_state->availableSets -= p_alloc_info->descriptorSetCount;
2255*b7893ccfSSadaf Ebrahimi for (auto it = ds_data->required_descriptors_by_type.begin(); it != ds_data->required_descriptors_by_type.end(); ++it) {
2256*b7893ccfSSadaf Ebrahimi pool_state->availableDescriptorTypeCount[it->first] -= ds_data->required_descriptors_by_type.at(it->first);
2257*b7893ccfSSadaf Ebrahimi }
2258*b7893ccfSSadaf Ebrahimi
2259*b7893ccfSSadaf Ebrahimi const auto *variable_count_info = lvl_find_in_chain<VkDescriptorSetVariableDescriptorCountAllocateInfoEXT>(p_alloc_info->pNext);
2260*b7893ccfSSadaf Ebrahimi bool variable_count_valid = variable_count_info && variable_count_info->descriptorSetCount == p_alloc_info->descriptorSetCount;
2261*b7893ccfSSadaf Ebrahimi
2262*b7893ccfSSadaf Ebrahimi // Create tracking object for each descriptor set; insert into global map and the pool's set.
2263*b7893ccfSSadaf Ebrahimi for (uint32_t i = 0; i < p_alloc_info->descriptorSetCount; i++) {
2264*b7893ccfSSadaf Ebrahimi uint32_t variable_count = variable_count_valid ? variable_count_info->pDescriptorCounts[i] : 0;
2265*b7893ccfSSadaf Ebrahimi
2266*b7893ccfSSadaf Ebrahimi std::unique_ptr<cvdescriptorset::DescriptorSet> new_ds(new cvdescriptorset::DescriptorSet(
2267*b7893ccfSSadaf Ebrahimi descriptor_sets[i], p_alloc_info->descriptorPool, ds_data->layout_nodes[i], variable_count, this));
2268*b7893ccfSSadaf Ebrahimi pool_state->sets.insert(new_ds.get());
2269*b7893ccfSSadaf Ebrahimi new_ds->in_use.store(0);
2270*b7893ccfSSadaf Ebrahimi setMap[descriptor_sets[i]] = std::move(new_ds);
2271*b7893ccfSSadaf Ebrahimi }
2272*b7893ccfSSadaf Ebrahimi }
2273*b7893ccfSSadaf Ebrahimi
FilteredMap(const CMD_BUFFER_STATE & cb_state,const PIPELINE_STATE & pipeline)2274*b7893ccfSSadaf Ebrahimi const BindingReqMap &cvdescriptorset::PrefilterBindRequestMap::FilteredMap(const CMD_BUFFER_STATE &cb_state,
2275*b7893ccfSSadaf Ebrahimi const PIPELINE_STATE &pipeline) {
2276*b7893ccfSSadaf Ebrahimi if (IsManyDescriptors()) {
2277*b7893ccfSSadaf Ebrahimi filtered_map_.reset(new std::map<uint32_t, descriptor_req>());
2278*b7893ccfSSadaf Ebrahimi descriptor_set_.FilterBindingReqs(cb_state, pipeline, orig_map_, filtered_map_.get());
2279*b7893ccfSSadaf Ebrahimi return *filtered_map_;
2280*b7893ccfSSadaf Ebrahimi }
2281*b7893ccfSSadaf Ebrahimi return orig_map_;
2282*b7893ccfSSadaf Ebrahimi }
2283*b7893ccfSSadaf Ebrahimi
2284*b7893ccfSSadaf Ebrahimi // Starting at offset descriptor of given binding, parse over update_count
2285*b7893ccfSSadaf Ebrahimi // descriptor updates and verify that for any binding boundaries that are crossed, the next binding(s) are all consistent
2286*b7893ccfSSadaf Ebrahimi // Consistency means that their type, stage flags, and whether or not they use immutable samplers matches
2287*b7893ccfSSadaf Ebrahimi // If so, return true. If not, fill in error_msg and return false
VerifyUpdateConsistency(DescriptorSetLayout::ConstBindingIterator current_binding,uint32_t offset,uint32_t update_count,const char * type,const VkDescriptorSet set,std::string * error_msg)2288*b7893ccfSSadaf Ebrahimi bool cvdescriptorset::VerifyUpdateConsistency(DescriptorSetLayout::ConstBindingIterator current_binding, uint32_t offset,
2289*b7893ccfSSadaf Ebrahimi uint32_t update_count, const char *type, const VkDescriptorSet set,
2290*b7893ccfSSadaf Ebrahimi std::string *error_msg) {
2291*b7893ccfSSadaf Ebrahimi // Verify consecutive bindings match (if needed)
2292*b7893ccfSSadaf Ebrahimi auto orig_binding = current_binding;
2293*b7893ccfSSadaf Ebrahimi // Track count of descriptors in the current_bindings that are remaining to be updated
2294*b7893ccfSSadaf Ebrahimi auto binding_remaining = current_binding.GetDescriptorCount();
2295*b7893ccfSSadaf Ebrahimi // First, it's legal to offset beyond your own binding so handle that case
2296*b7893ccfSSadaf Ebrahimi // Really this is just searching for the binding in which the update begins and adjusting offset accordingly
2297*b7893ccfSSadaf Ebrahimi while (offset >= binding_remaining && !current_binding.AtEnd()) {
2298*b7893ccfSSadaf Ebrahimi // Advance to next binding, decrement offset by binding size
2299*b7893ccfSSadaf Ebrahimi offset -= binding_remaining;
2300*b7893ccfSSadaf Ebrahimi ++current_binding;
2301*b7893ccfSSadaf Ebrahimi binding_remaining = current_binding.GetDescriptorCount(); // Accessors are safe if AtEnd
2302*b7893ccfSSadaf Ebrahimi }
2303*b7893ccfSSadaf Ebrahimi assert(!current_binding.AtEnd()); // As written assumes range check has been made before calling
2304*b7893ccfSSadaf Ebrahimi binding_remaining -= offset;
2305*b7893ccfSSadaf Ebrahimi while (update_count > binding_remaining) { // While our updates overstep current binding
2306*b7893ccfSSadaf Ebrahimi // Verify next consecutive binding matches type, stage flags & immutable sampler use
2307*b7893ccfSSadaf Ebrahimi auto next_binding = current_binding.Next();
2308*b7893ccfSSadaf Ebrahimi if (!current_binding.IsConsistent(next_binding)) {
2309*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2310*b7893ccfSSadaf Ebrahimi error_str << "Attempting " << type;
2311*b7893ccfSSadaf Ebrahimi if (current_binding.Layout()->IsPushDescriptor()) {
2312*b7893ccfSSadaf Ebrahimi error_str << " push descriptors";
2313*b7893ccfSSadaf Ebrahimi } else {
2314*b7893ccfSSadaf Ebrahimi error_str << " descriptor set " << set;
2315*b7893ccfSSadaf Ebrahimi }
2316*b7893ccfSSadaf Ebrahimi error_str << " binding #" << orig_binding.Binding() << " with #" << update_count
2317*b7893ccfSSadaf Ebrahimi << " descriptors being updated but this update oversteps the bounds of this binding and the next binding is "
2318*b7893ccfSSadaf Ebrahimi "not consistent with current binding so this update is invalid.";
2319*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2320*b7893ccfSSadaf Ebrahimi return false;
2321*b7893ccfSSadaf Ebrahimi }
2322*b7893ccfSSadaf Ebrahimi current_binding = next_binding;
2323*b7893ccfSSadaf Ebrahimi // For sake of this check consider the bindings updated and grab count for next binding
2324*b7893ccfSSadaf Ebrahimi update_count -= binding_remaining;
2325*b7893ccfSSadaf Ebrahimi binding_remaining = current_binding.GetDescriptorCount();
2326*b7893ccfSSadaf Ebrahimi }
2327*b7893ccfSSadaf Ebrahimi return true;
2328*b7893ccfSSadaf Ebrahimi }
2329*b7893ccfSSadaf Ebrahimi
2330*b7893ccfSSadaf Ebrahimi // Validate the state for a given write update but don't actually perform the update
2331*b7893ccfSSadaf Ebrahimi // If an error would occur for this update, return false and fill in details in error_msg string
ValidateWriteUpdate(const DescriptorSet * dest_set,const VkWriteDescriptorSet * update,const char * func_name,std::string * error_code,std::string * error_msg)2332*b7893ccfSSadaf Ebrahimi bool CoreChecks::ValidateWriteUpdate(const DescriptorSet *dest_set, const VkWriteDescriptorSet *update, const char *func_name,
2333*b7893ccfSSadaf Ebrahimi std::string *error_code, std::string *error_msg) {
2334*b7893ccfSSadaf Ebrahimi const auto dest_layout = dest_set->GetLayout();
2335*b7893ccfSSadaf Ebrahimi
2336*b7893ccfSSadaf Ebrahimi // Verify dst layout still valid
2337*b7893ccfSSadaf Ebrahimi if (dest_layout->IsDestroyed()) {
2338*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-dstSet-00320";
2339*b7893ccfSSadaf Ebrahimi string_sprintf(error_msg, "Cannot call %s to perform write update on %s which has been destroyed", func_name,
2340*b7893ccfSSadaf Ebrahimi dest_set->StringifySetAndLayout().c_str());
2341*b7893ccfSSadaf Ebrahimi return false;
2342*b7893ccfSSadaf Ebrahimi }
2343*b7893ccfSSadaf Ebrahimi // Verify dst binding exists
2344*b7893ccfSSadaf Ebrahimi if (!dest_layout->HasBinding(update->dstBinding)) {
2345*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-dstBinding-00315";
2346*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2347*b7893ccfSSadaf Ebrahimi error_str << dest_set->StringifySetAndLayout() << " does not have binding " << update->dstBinding;
2348*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2349*b7893ccfSSadaf Ebrahimi return false;
2350*b7893ccfSSadaf Ebrahimi }
2351*b7893ccfSSadaf Ebrahimi
2352*b7893ccfSSadaf Ebrahimi DescriptorSetLayout::ConstBindingIterator dest(dest_layout.get(), update->dstBinding);
2353*b7893ccfSSadaf Ebrahimi // Make sure binding isn't empty
2354*b7893ccfSSadaf Ebrahimi if (0 == dest.GetDescriptorCount()) {
2355*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-dstBinding-00316";
2356*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2357*b7893ccfSSadaf Ebrahimi error_str << dest_set->StringifySetAndLayout() << " cannot updated binding " << update->dstBinding
2358*b7893ccfSSadaf Ebrahimi << " that has 0 descriptors";
2359*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2360*b7893ccfSSadaf Ebrahimi return false;
2361*b7893ccfSSadaf Ebrahimi }
2362*b7893ccfSSadaf Ebrahimi
2363*b7893ccfSSadaf Ebrahimi // Verify idle ds
2364*b7893ccfSSadaf Ebrahimi if (dest_set->in_use.load() && !(dest.GetDescriptorBindingFlags() & (VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT |
2365*b7893ccfSSadaf Ebrahimi VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT))) {
2366*b7893ccfSSadaf Ebrahimi // TODO : Re-using Free Idle error code, need write update idle error code
2367*b7893ccfSSadaf Ebrahimi *error_code = "VUID-vkFreeDescriptorSets-pDescriptorSets-00309";
2368*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2369*b7893ccfSSadaf Ebrahimi error_str << "Cannot call " << func_name << " to perform write update on " << dest_set->StringifySetAndLayout()
2370*b7893ccfSSadaf Ebrahimi << " that is in use by a command buffer";
2371*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2372*b7893ccfSSadaf Ebrahimi return false;
2373*b7893ccfSSadaf Ebrahimi }
2374*b7893ccfSSadaf Ebrahimi // We know that binding is valid, verify update and do update on each descriptor
2375*b7893ccfSSadaf Ebrahimi auto start_idx = dest.GetGlobalIndexRange().start + update->dstArrayElement;
2376*b7893ccfSSadaf Ebrahimi auto type = dest.GetType();
2377*b7893ccfSSadaf Ebrahimi if (type != update->descriptorType) {
2378*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00319";
2379*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2380*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #" << update->dstBinding
2381*b7893ccfSSadaf Ebrahimi << " with type " << string_VkDescriptorType(type) << " but update type is "
2382*b7893ccfSSadaf Ebrahimi << string_VkDescriptorType(update->descriptorType);
2383*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2384*b7893ccfSSadaf Ebrahimi return false;
2385*b7893ccfSSadaf Ebrahimi }
2386*b7893ccfSSadaf Ebrahimi auto total_descriptors = dest_layout->GetTotalDescriptorCount();
2387*b7893ccfSSadaf Ebrahimi if (update->descriptorCount > (total_descriptors - start_idx)) {
2388*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-dstArrayElement-00321";
2389*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2390*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #" << update->dstBinding
2391*b7893ccfSSadaf Ebrahimi << " with " << total_descriptors - start_idx
2392*b7893ccfSSadaf Ebrahimi << " descriptors in that binding and all successive bindings of the set, but update of "
2393*b7893ccfSSadaf Ebrahimi << update->descriptorCount << " descriptors combined with update array element offset of "
2394*b7893ccfSSadaf Ebrahimi << update->dstArrayElement << " oversteps the available number of consecutive descriptors";
2395*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2396*b7893ccfSSadaf Ebrahimi return false;
2397*b7893ccfSSadaf Ebrahimi }
2398*b7893ccfSSadaf Ebrahimi if (type == VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT) {
2399*b7893ccfSSadaf Ebrahimi if ((update->dstArrayElement % 4) != 0) {
2400*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-02219";
2401*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2402*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #" << update->dstBinding
2403*b7893ccfSSadaf Ebrahimi << " with "
2404*b7893ccfSSadaf Ebrahimi << "dstArrayElement " << update->dstArrayElement << " not a multiple of 4";
2405*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2406*b7893ccfSSadaf Ebrahimi return false;
2407*b7893ccfSSadaf Ebrahimi }
2408*b7893ccfSSadaf Ebrahimi if ((update->descriptorCount % 4) != 0) {
2409*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-02220";
2410*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2411*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #" << update->dstBinding
2412*b7893ccfSSadaf Ebrahimi << " with "
2413*b7893ccfSSadaf Ebrahimi << "descriptorCount " << update->descriptorCount << " not a multiple of 4";
2414*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2415*b7893ccfSSadaf Ebrahimi return false;
2416*b7893ccfSSadaf Ebrahimi }
2417*b7893ccfSSadaf Ebrahimi const auto *write_inline_info = lvl_find_in_chain<VkWriteDescriptorSetInlineUniformBlockEXT>(update->pNext);
2418*b7893ccfSSadaf Ebrahimi if (!write_inline_info || write_inline_info->dataSize != update->descriptorCount) {
2419*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-02221";
2420*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2421*b7893ccfSSadaf Ebrahimi if (!write_inline_info) {
2422*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #"
2423*b7893ccfSSadaf Ebrahimi << update->dstBinding << " with "
2424*b7893ccfSSadaf Ebrahimi << "VkWriteDescriptorSetInlineUniformBlockEXT missing";
2425*b7893ccfSSadaf Ebrahimi } else {
2426*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #"
2427*b7893ccfSSadaf Ebrahimi << update->dstBinding << " with "
2428*b7893ccfSSadaf Ebrahimi << "VkWriteDescriptorSetInlineUniformBlockEXT dataSize " << write_inline_info->dataSize
2429*b7893ccfSSadaf Ebrahimi << " not equal to "
2430*b7893ccfSSadaf Ebrahimi << "VkWriteDescriptorSet descriptorCount " << update->descriptorCount;
2431*b7893ccfSSadaf Ebrahimi }
2432*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2433*b7893ccfSSadaf Ebrahimi return false;
2434*b7893ccfSSadaf Ebrahimi }
2435*b7893ccfSSadaf Ebrahimi // This error is probably unreachable due to the previous two errors
2436*b7893ccfSSadaf Ebrahimi if (write_inline_info && (write_inline_info->dataSize % 4) != 0) {
2437*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSetInlineUniformBlockEXT-dataSize-02222";
2438*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2439*b7893ccfSSadaf Ebrahimi error_str << "Attempting write update to " << dest_set->StringifySetAndLayout() << " binding #" << update->dstBinding
2440*b7893ccfSSadaf Ebrahimi << " with "
2441*b7893ccfSSadaf Ebrahimi << "VkWriteDescriptorSetInlineUniformBlockEXT dataSize " << write_inline_info->dataSize
2442*b7893ccfSSadaf Ebrahimi << " not a multiple of 4";
2443*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2444*b7893ccfSSadaf Ebrahimi return false;
2445*b7893ccfSSadaf Ebrahimi }
2446*b7893ccfSSadaf Ebrahimi }
2447*b7893ccfSSadaf Ebrahimi // Verify consecutive bindings match (if needed)
2448*b7893ccfSSadaf Ebrahimi if (!VerifyUpdateConsistency(DescriptorSetLayout::ConstBindingIterator(dest_layout.get(), update->dstBinding),
2449*b7893ccfSSadaf Ebrahimi update->dstArrayElement, update->descriptorCount, "write update to", dest_set->GetSet(),
2450*b7893ccfSSadaf Ebrahimi error_msg)) {
2451*b7893ccfSSadaf Ebrahimi // TODO : Should break out "consecutive binding updates" language into valid usage statements
2452*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-dstArrayElement-00321";
2453*b7893ccfSSadaf Ebrahimi return false;
2454*b7893ccfSSadaf Ebrahimi }
2455*b7893ccfSSadaf Ebrahimi // Update is within bounds and consistent so last step is to validate update contents
2456*b7893ccfSSadaf Ebrahimi if (!VerifyWriteUpdateContents(dest_set, update, start_idx, func_name, error_code, error_msg)) {
2457*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2458*b7893ccfSSadaf Ebrahimi error_str << "Write update to " << dest_set->StringifySetAndLayout() << " binding #" << update->dstBinding
2459*b7893ccfSSadaf Ebrahimi << " failed with error message: " << error_msg->c_str();
2460*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2461*b7893ccfSSadaf Ebrahimi return false;
2462*b7893ccfSSadaf Ebrahimi }
2463*b7893ccfSSadaf Ebrahimi // All checks passed, update is clean
2464*b7893ccfSSadaf Ebrahimi return true;
2465*b7893ccfSSadaf Ebrahimi }
2466*b7893ccfSSadaf Ebrahimi
2467*b7893ccfSSadaf Ebrahimi // Verify that the contents of the update are ok, but don't perform actual update
VerifyWriteUpdateContents(const DescriptorSet * dest_set,const VkWriteDescriptorSet * update,const uint32_t index,const char * func_name,std::string * error_code,std::string * error_msg)2468*b7893ccfSSadaf Ebrahimi bool CoreChecks::VerifyWriteUpdateContents(const DescriptorSet *dest_set, const VkWriteDescriptorSet *update, const uint32_t index,
2469*b7893ccfSSadaf Ebrahimi const char *func_name, std::string *error_code, std::string *error_msg) {
2470*b7893ccfSSadaf Ebrahimi using ImageSamplerDescriptor = cvdescriptorset::ImageSamplerDescriptor;
2471*b7893ccfSSadaf Ebrahimi using SamplerDescriptor = cvdescriptorset::SamplerDescriptor;
2472*b7893ccfSSadaf Ebrahimi
2473*b7893ccfSSadaf Ebrahimi switch (update->descriptorType) {
2474*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER: {
2475*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2476*b7893ccfSSadaf Ebrahimi // Validate image
2477*b7893ccfSSadaf Ebrahimi auto image_view = update->pImageInfo[di].imageView;
2478*b7893ccfSSadaf Ebrahimi auto image_layout = update->pImageInfo[di].imageLayout;
2479*b7893ccfSSadaf Ebrahimi if (!ValidateImageUpdate(image_view, image_layout, update->descriptorType, func_name, error_code, error_msg)) {
2480*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2481*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to combined image sampler descriptor failed due to: "
2482*b7893ccfSSadaf Ebrahimi << error_msg->c_str();
2483*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2484*b7893ccfSSadaf Ebrahimi return false;
2485*b7893ccfSSadaf Ebrahimi }
2486*b7893ccfSSadaf Ebrahimi if (device_extensions.vk_khr_sampler_ycbcr_conversion) {
2487*b7893ccfSSadaf Ebrahimi ImageSamplerDescriptor *desc = (ImageSamplerDescriptor *)dest_set->GetDescriptorFromGlobalIndex(index + di);
2488*b7893ccfSSadaf Ebrahimi if (desc->IsImmutableSampler()) {
2489*b7893ccfSSadaf Ebrahimi auto sampler_state = GetSamplerState(desc->GetSampler());
2490*b7893ccfSSadaf Ebrahimi auto iv_state = GetImageViewState(image_view);
2491*b7893ccfSSadaf Ebrahimi if (iv_state && sampler_state) {
2492*b7893ccfSSadaf Ebrahimi if (iv_state->samplerConversion != sampler_state->samplerConversion) {
2493*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-01948";
2494*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2495*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to combined image sampler and image view and sampler ycbcr "
2496*b7893ccfSSadaf Ebrahimi "conversions are not identical, sampler: "
2497*b7893ccfSSadaf Ebrahimi << desc->GetSampler() << " image view: " << iv_state->image_view << ".";
2498*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2499*b7893ccfSSadaf Ebrahimi return false;
2500*b7893ccfSSadaf Ebrahimi }
2501*b7893ccfSSadaf Ebrahimi }
2502*b7893ccfSSadaf Ebrahimi } else {
2503*b7893ccfSSadaf Ebrahimi auto iv_state = GetImageViewState(image_view);
2504*b7893ccfSSadaf Ebrahimi if (iv_state && (iv_state->samplerConversion != VK_NULL_HANDLE)) {
2505*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-02738";
2506*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2507*b7893ccfSSadaf Ebrahimi error_str << "Because dstSet (" << update->dstSet << ") is bound to image view ("
2508*b7893ccfSSadaf Ebrahimi << iv_state->image_view
2509*b7893ccfSSadaf Ebrahimi << ") that includes a YCBCR conversion, it must have been allocated with a layout that "
2510*b7893ccfSSadaf Ebrahimi "includes an immutable sampler.";
2511*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2512*b7893ccfSSadaf Ebrahimi return false;
2513*b7893ccfSSadaf Ebrahimi }
2514*b7893ccfSSadaf Ebrahimi }
2515*b7893ccfSSadaf Ebrahimi }
2516*b7893ccfSSadaf Ebrahimi }
2517*b7893ccfSSadaf Ebrahimi }
2518*b7893ccfSSadaf Ebrahimi // fall through
2519*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLER: {
2520*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2521*b7893ccfSSadaf Ebrahimi SamplerDescriptor *desc = (SamplerDescriptor *)dest_set->GetDescriptorFromGlobalIndex(index + di);
2522*b7893ccfSSadaf Ebrahimi if (!desc->IsImmutableSampler()) {
2523*b7893ccfSSadaf Ebrahimi if (!ValidateSampler(update->pImageInfo[di].sampler)) {
2524*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00325";
2525*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2526*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to sampler descriptor with invalid sampler: "
2527*b7893ccfSSadaf Ebrahimi << update->pImageInfo[di].sampler << ".";
2528*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2529*b7893ccfSSadaf Ebrahimi return false;
2530*b7893ccfSSadaf Ebrahimi }
2531*b7893ccfSSadaf Ebrahimi } else {
2532*b7893ccfSSadaf Ebrahimi // TODO : Warn here
2533*b7893ccfSSadaf Ebrahimi }
2534*b7893ccfSSadaf Ebrahimi }
2535*b7893ccfSSadaf Ebrahimi break;
2536*b7893ccfSSadaf Ebrahimi }
2537*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE:
2538*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT:
2539*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE: {
2540*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2541*b7893ccfSSadaf Ebrahimi auto image_view = update->pImageInfo[di].imageView;
2542*b7893ccfSSadaf Ebrahimi auto image_layout = update->pImageInfo[di].imageLayout;
2543*b7893ccfSSadaf Ebrahimi if (!ValidateImageUpdate(image_view, image_layout, update->descriptorType, func_name, error_code, error_msg)) {
2544*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2545*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to image descriptor failed due to: " << error_msg->c_str();
2546*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2547*b7893ccfSSadaf Ebrahimi return false;
2548*b7893ccfSSadaf Ebrahimi }
2549*b7893ccfSSadaf Ebrahimi }
2550*b7893ccfSSadaf Ebrahimi break;
2551*b7893ccfSSadaf Ebrahimi }
2552*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER:
2553*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER: {
2554*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2555*b7893ccfSSadaf Ebrahimi auto buffer_view = update->pTexelBufferView[di];
2556*b7893ccfSSadaf Ebrahimi auto bv_state = GetBufferViewState(buffer_view);
2557*b7893ccfSSadaf Ebrahimi if (!bv_state) {
2558*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00323";
2559*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2560*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to texel buffer descriptor with invalid buffer view: " << buffer_view;
2561*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2562*b7893ccfSSadaf Ebrahimi return false;
2563*b7893ccfSSadaf Ebrahimi }
2564*b7893ccfSSadaf Ebrahimi auto buffer = bv_state->create_info.buffer;
2565*b7893ccfSSadaf Ebrahimi auto buffer_state = GetBufferState(buffer);
2566*b7893ccfSSadaf Ebrahimi // Verify that buffer underlying the view hasn't been destroyed prematurely
2567*b7893ccfSSadaf Ebrahimi if (!buffer_state) {
2568*b7893ccfSSadaf Ebrahimi *error_code = "VUID-VkWriteDescriptorSet-descriptorType-00323";
2569*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2570*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to texel buffer descriptor failed because underlying buffer (" << buffer
2571*b7893ccfSSadaf Ebrahimi << ") has been destroyed: " << error_msg->c_str();
2572*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2573*b7893ccfSSadaf Ebrahimi return false;
2574*b7893ccfSSadaf Ebrahimi } else if (!cvdescriptorset::ValidateBufferUsage(buffer_state, update->descriptorType, error_code, error_msg)) {
2575*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2576*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to texel buffer descriptor failed due to: " << error_msg->c_str();
2577*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2578*b7893ccfSSadaf Ebrahimi return false;
2579*b7893ccfSSadaf Ebrahimi }
2580*b7893ccfSSadaf Ebrahimi }
2581*b7893ccfSSadaf Ebrahimi break;
2582*b7893ccfSSadaf Ebrahimi }
2583*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER:
2584*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC:
2585*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER:
2586*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC: {
2587*b7893ccfSSadaf Ebrahimi for (uint32_t di = 0; di < update->descriptorCount; ++di) {
2588*b7893ccfSSadaf Ebrahimi if (!ValidateBufferUpdate(update->pBufferInfo + di, update->descriptorType, func_name, error_code, error_msg)) {
2589*b7893ccfSSadaf Ebrahimi std::stringstream error_str;
2590*b7893ccfSSadaf Ebrahimi error_str << "Attempted write update to buffer descriptor failed due to: " << error_msg->c_str();
2591*b7893ccfSSadaf Ebrahimi *error_msg = error_str.str();
2592*b7893ccfSSadaf Ebrahimi return false;
2593*b7893ccfSSadaf Ebrahimi }
2594*b7893ccfSSadaf Ebrahimi }
2595*b7893ccfSSadaf Ebrahimi break;
2596*b7893ccfSSadaf Ebrahimi }
2597*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT:
2598*b7893ccfSSadaf Ebrahimi break;
2599*b7893ccfSSadaf Ebrahimi case VK_DESCRIPTOR_TYPE_ACCELERATION_STRUCTURE_NV:
2600*b7893ccfSSadaf Ebrahimi // XXX TODO
2601*b7893ccfSSadaf Ebrahimi break;
2602*b7893ccfSSadaf Ebrahimi default:
2603*b7893ccfSSadaf Ebrahimi assert(0); // We've already verified update type so should never get here
2604*b7893ccfSSadaf Ebrahimi break;
2605*b7893ccfSSadaf Ebrahimi }
2606*b7893ccfSSadaf Ebrahimi // All checks passed so update contents are good
2607*b7893ccfSSadaf Ebrahimi return true;
2608*b7893ccfSSadaf Ebrahimi }
2609