423 lines
14 KiB
C++
423 lines
14 KiB
C++
// Copyright 2021 The Tint Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "fuzzers/tint_common_fuzzer.h"
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#include <cassert>
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#include <cstring>
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#include <fstream>
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#include <memory>
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#include <sstream>
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#include <string>
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#include <utility>
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#include <vector>
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#if TINT_BUILD_SPV_READER
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#include "spirv-tools/libspirv.hpp"
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#endif // TINT_BUILD_SPV_READER
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#include "src/ast/module.h"
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#include "src/diagnostic/formatter.h"
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#include "src/program.h"
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#include "src/utils/hash.h"
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namespace tint {
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namespace fuzzers {
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namespace {
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[[noreturn]] void FatalError(const tint::diag::List& diags,
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const std::string& msg = "") {
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auto printer = tint::diag::Printer::create(stderr, true);
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if (!msg.empty()) {
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printer->write(msg + "\n", {diag::Color::kRed, true});
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}
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tint::diag::Formatter().format(diags, printer.get());
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__builtin_trap();
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}
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[[noreturn]] void TintInternalCompilerErrorReporter(
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const tint::diag::List& diagnostics) {
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FatalError(diagnostics);
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}
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transform::VertexAttributeDescriptor GenerateVertexAttributeDescriptor(
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DataBuilder* b) {
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transform::VertexAttributeDescriptor desc{};
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desc.format = b->enum_class<transform::VertexFormat>(
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static_cast<uint8_t>(transform::VertexFormat::kLastEntry) + 1);
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desc.offset = b->build<uint32_t>();
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desc.shader_location = b->build<uint32_t>();
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return desc;
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}
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transform::VertexBufferLayoutDescriptor GenerateVertexBufferLayoutDescriptor(
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DataBuilder* b) {
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transform::VertexBufferLayoutDescriptor desc;
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desc.array_stride = b->build<uint32_t>();
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desc.step_mode = b->enum_class<transform::VertexStepMode>(
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static_cast<uint8_t>(transform::VertexStepMode::kLastEntry) + 1);
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desc.attributes = b->vector(GenerateVertexAttributeDescriptor);
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return desc;
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}
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bool SPIRVToolsValidationCheck(const tint::Program& program,
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const std::vector<uint32_t>& spirv) {
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spvtools::SpirvTools tools(SPV_ENV_VULKAN_1_1);
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const tint::diag::List& diags = program.Diagnostics();
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tools.SetMessageConsumer([diags](spv_message_level_t, const char*,
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const spv_position_t& pos, const char* msg) {
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std::stringstream out;
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out << "Unexpected spirv-val error:\n"
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<< (pos.line + 1) << ":" << (pos.column + 1) << ": " << msg
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<< std::endl;
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auto printer = tint::diag::Printer::create(stderr, true);
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printer->write(out.str(), {diag::Color::kYellow, false});
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tint::diag::Formatter().format(diags, printer.get());
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});
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return tools.Validate(spirv.data(), spirv.size(),
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spvtools::ValidatorOptions());
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}
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} // namespace
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DataBuilder::DataBuilder(const uint8_t* data, size_t size)
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: generator_(RandomGenerator::CalculateSeed(data, size)) {}
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std::string DataBuilder::string() {
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auto count = build<uint8_t>();
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if (count == 0) {
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return "";
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}
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std::vector<uint8_t> source(count);
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build(source.data(), count);
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return std::string(source.begin(), source.end());
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}
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void DataBuilder::build(void* out, size_t n) {
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assert(out != nullptr && "|out| cannot be nullptr");
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assert(n > 0 && "|n| must be > 0");
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generator_.GetNBytes(reinterpret_cast<uint8_t*>(out), n);
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}
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void GenerateBindingRemapperInputs(DataBuilder* b,
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tint::transform::DataMap* inputs) {
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struct Config {
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uint8_t old_group;
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uint8_t old_binding;
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uint8_t new_group;
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uint8_t new_binding;
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ast::Access new_access;
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};
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std::vector<Config> configs = b->vector<Config>();
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transform::BindingRemapper::BindingPoints binding_points;
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transform::BindingRemapper::AccessControls accesses;
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for (const auto& config : configs) {
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binding_points[{config.old_binding, config.old_group}] = {
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config.new_binding, config.new_group};
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accesses[{config.old_binding, config.old_group}] = config.new_access;
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}
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inputs->Add<transform::BindingRemapper::Remappings>(binding_points, accesses);
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}
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void GenerateFirstIndexOffsetInputs(DataBuilder* b,
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tint::transform::DataMap* inputs) {
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struct Config {
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uint32_t group;
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uint32_t binding;
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};
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Config config = b->build<Config>();
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inputs->Add<tint::transform::FirstIndexOffset::BindingPoint>(config.binding,
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config.group);
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}
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void GenerateSingleEntryPointInputs(DataBuilder* b,
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tint::transform::DataMap* inputs) {
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std::string input = b->string();
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transform::SingleEntryPoint::Config cfg(input);
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inputs->Add<transform::SingleEntryPoint::Config>(cfg);
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}
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void GenerateVertexPullingInputs(DataBuilder* b,
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tint::transform::DataMap* inputs) {
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transform::VertexPulling::Config cfg;
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cfg.entry_point_name = b->string();
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cfg.vertex_state = b->vector(GenerateVertexBufferLayoutDescriptor);
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cfg.pulling_group = b->build<uint32_t>();
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inputs->Add<transform::VertexPulling::Config>(cfg);
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}
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void GenerateSpirvOptions(DataBuilder* b, writer::spirv::Options* options) {
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*options = b->build<writer::spirv::Options>();
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}
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void GenerateWgslOptions(DataBuilder* b, writer::wgsl::Options* options) {
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*options = b->build<writer::wgsl::Options>();
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}
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void GenerateHlslOptions(DataBuilder* b, writer::hlsl::Options* options) {
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*options = b->build<writer::hlsl::Options>();
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}
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void GenerateMslOptions(DataBuilder* b, writer::msl::Options* options) {
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*options = b->build<writer::msl::Options>();
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}
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CommonFuzzer::CommonFuzzer(InputFormat input, OutputFormat output)
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: input_(input),
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output_(output),
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transform_manager_(nullptr),
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inspector_enabled_(false) {}
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CommonFuzzer::~CommonFuzzer() = default;
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int CommonFuzzer::Run(const uint8_t* data, size_t size) {
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tint::SetInternalCompilerErrorReporter(&TintInternalCompilerErrorReporter);
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Program program;
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#if TINT_BUILD_SPV_READER
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std::vector<uint32_t> spirv_input(size / sizeof(uint32_t));
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#endif // TINT_BUILD_SPV_READER
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#if TINT_BUILD_WGSL_READER || TINT_BUILD_SPV_READER
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auto dump_input_data = [&](auto& content, const char* extension) {
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size_t hash = utils::Hash(content);
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auto filename = "fuzzer_input_" + std::to_string(hash) + extension; //
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std::ofstream fout(filename, std::ios::binary);
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fout.write(reinterpret_cast<const char*>(data),
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static_cast<std::streamsize>(size));
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std::cout << "Dumped input data to " << filename << std::endl;
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};
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#endif
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switch (input_) {
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#if TINT_BUILD_WGSL_READER
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case InputFormat::kWGSL: {
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// Clear any existing diagnostics, as these will hold pointers to file_,
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// which we are about to release.
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diagnostics_ = {};
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std::string str(reinterpret_cast<const char*>(data), size);
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file_ = std::make_unique<Source::File>("test.wgsl", str);
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if (dump_input_) {
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dump_input_data(str, ".wgsl");
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}
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program = reader::wgsl::Parse(file_.get());
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break;
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}
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#endif // TINT_BUILD_WGSL_READER
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#if TINT_BUILD_SPV_READER
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case InputFormat::kSpv: {
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// `spirv_input` has been initialized with the capacity to store `size /
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// sizeof(uint32_t)` uint32_t values. If `size` is not a multiple of
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// sizeof(uint32_t) then not all of `data` can be copied into
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// `spirv_input`, and any trailing bytes are discarded.
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std::memcpy(spirv_input.data(), data,
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spirv_input.size() * sizeof(uint32_t));
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if (spirv_input.empty()) {
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return 0;
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}
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if (dump_input_) {
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dump_input_data(spirv_input, ".spv");
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}
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program = reader::spirv::Parse(spirv_input);
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break;
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}
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#endif // TINT_BUILD_SPV_READER
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default:
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return 0;
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}
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if (output_ == OutputFormat::kNone) {
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return 0;
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}
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if (!program.IsValid()) {
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diagnostics_ = program.Diagnostics();
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return 0;
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}
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#if TINT_BUILD_SPV_READER
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if (input_ == InputFormat::kSpv &&
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!SPIRVToolsValidationCheck(program, spirv_input)) {
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FatalError(program.Diagnostics(),
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"Fuzzing detected invalid input spirv not being caught by Tint");
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}
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#endif // TINT_BUILD_SPV_READER
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if (inspector_enabled_) {
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inspector::Inspector inspector(&program);
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auto entry_points = inspector.GetEntryPoints();
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector, inspector.error());
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return 0;
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}
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for (auto& ep : entry_points) {
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auto remapped_name = inspector.GetRemappedNameForEntryPoint(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto constant_ids = inspector.GetConstantIDs();
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto uniform_bindings =
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inspector.GetUniformBufferResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto storage_bindings =
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inspector.GetStorageBufferResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto readonly_bindings =
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inspector.GetReadOnlyStorageBufferResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto sampler_bindings = inspector.GetSamplerResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto comparison_sampler_bindings =
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inspector.GetComparisonSamplerResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto sampled_texture_bindings =
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inspector.GetSampledTextureResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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auto multisampled_texture_bindings =
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inspector.GetMultisampledTextureResourceBindings(ep.name);
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if (inspector.has_error()) {
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diagnostics_.add_error(tint::diag::System::Inspector,
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inspector.error());
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return 0;
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}
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}
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}
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if (transform_manager_) {
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auto out = transform_manager_->Run(&program, transform_inputs_);
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if (!out.program.IsValid()) {
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// Transforms can produce error messages for bad input.
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// Catch ICEs and errors from non transform systems.
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for (const auto& diag : out.program.Diagnostics()) {
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if (diag.severity > diag::Severity::Error ||
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diag.system != diag::System::Transform) {
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FatalError(out.program.Diagnostics(),
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"Fuzzing detected valid input program being transformed "
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"into an invalid output program");
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}
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}
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}
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program = std::move(out.program);
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}
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switch (output_) {
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case OutputFormat::kWGSL: {
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#if TINT_BUILD_WGSL_WRITER
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auto result = writer::wgsl::Generate(&program, options_wgsl_);
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generated_wgsl_ = std::move(result.wgsl);
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if (!result.success) {
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FatalError(program.Diagnostics(),
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"WGSL writer failed: " + result.error);
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}
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#endif // TINT_BUILD_WGSL_WRITER
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break;
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}
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case OutputFormat::kSpv: {
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#if TINT_BUILD_SPV_WRITER
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auto result = writer::spirv::Generate(&program, options_spirv_);
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generated_spirv_ = std::move(result.spirv);
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if (!result.success) {
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FatalError(program.Diagnostics(),
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"SPIR-V writer failed: " + result.error);
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}
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if (!SPIRVToolsValidationCheck(program, generated_spirv_)) {
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FatalError(program.Diagnostics(),
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"Fuzzing detected invalid spirv being emitted by Tint");
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}
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#endif // TINT_BUILD_SPV_WRITER
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break;
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}
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case OutputFormat::kHLSL: {
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#if TINT_BUILD_HLSL_WRITER
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auto result = writer::hlsl::Generate(&program, options_hlsl_);
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generated_hlsl_ = std::move(result.hlsl);
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if (!result.success) {
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FatalError(program.Diagnostics(),
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"HLSL writer failed: " + result.error);
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}
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#endif // TINT_BUILD_HLSL_WRITER
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break;
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}
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case OutputFormat::kMSL: {
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#if TINT_BUILD_MSL_WRITER
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auto result = writer::msl::Generate(&program, options_msl_);
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generated_msl_ = std::move(result.msl);
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if (!result.success) {
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FatalError(program.Diagnostics(), "MSL writer failed: " + result.error);
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}
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#endif // TINT_BUILD_MSL_WRITER
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break;
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}
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case OutputFormat::kNone:
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break;
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}
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return 0;
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}
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} // namespace fuzzers
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} // namespace tint
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