// Copyright 2021 The Tint Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "fuzzers/tint_common_fuzzer.h" #include #include #include #include #include "src/ast/module.h" #include "src/program.h" #include "src/program_builder.h" namespace tint { namespace fuzzers { [[noreturn]] void TintInternalCompilerErrorReporter( const tint::diag::List& diagnostics) { auto printer = tint::diag::Printer::create(stderr, true); tint::diag::Formatter{}.format(diagnostics, printer.get()); __builtin_trap(); } bool ExtractBindingRemapperInputs(const uint8_t** data, size_t* size, tint::transform::DataMap* inputs) { if ((*size) < sizeof(uint8_t)) { return false; } auto count = *reinterpret_cast(*data); (*data) += sizeof(uint8_t); (*size) -= sizeof(uint8_t); struct Config { uint32_t old_group; uint32_t old_binding; uint32_t new_group; uint32_t new_binding; ast::AccessControl::Access new_ac; }; if ((*size) < count * sizeof(Config)) { return false; } std::vector configs(count); memcpy(configs.data(), *data, count * sizeof(Config)); (*data) += count * sizeof(Config); (*size) -= count * sizeof(Config); transform::BindingRemapper::BindingPoints binding_points; transform::BindingRemapper::AccessControls access_controls; for (const auto& config : configs) { binding_points[{config.old_binding, config.old_group}] = { config.new_binding, config.new_group}; access_controls[{config.old_binding, config.old_group}] = config.new_ac; } inputs->Add(binding_points, access_controls); return true; } bool ExtractFirstIndexOffsetInputs(const uint8_t** data, size_t* size, tint::transform::DataMap* inputs) { struct Config { uint32_t group; uint32_t binding; }; if ((*size) < sizeof(Config)) { return false; } Config config; memcpy(&config, data, sizeof(config)); (*data) += sizeof(Config); (*size) -= sizeof(Config); inputs->Add(config.binding, config.group); return true; } CommonFuzzer::CommonFuzzer(InputFormat input, OutputFormat output) : input_(input), output_(output), transform_manager_(nullptr), inspector_enabled_(false) {} CommonFuzzer::~CommonFuzzer() = default; int CommonFuzzer::Run(const uint8_t* data, size_t size) { tint::SetInternalCompilerErrorReporter(&TintInternalCompilerErrorReporter); Program program; #if TINT_BUILD_WGSL_READER std::unique_ptr file; #endif // TINT_BUILD_WGSL_READER switch (input_) { #if TINT_BUILD_WGSL_READER case InputFormat::kWGSL: { std::string str(reinterpret_cast(data), size); file = std::make_unique("test.wgsl", str); program = reader::wgsl::Parse(file.get()); break; } #endif // TINT_BUILD_WGSL_READER #if TINT_BUILD_SPV_READER case InputFormat::kSpv: { size_t sizeInU32 = size / sizeof(uint32_t); const uint32_t* u32Data = reinterpret_cast(data); std::vector input(u32Data, u32Data + sizeInU32); if (input.size() != 0) { program = reader::spirv::Parse(input); } break; } #endif // TINT_BUILD_WGSL_READER default: return 0; } if (output_ == OutputFormat::kNone) { return 0; } if (!program.IsValid()) { return 0; } if (inspector_enabled_) { inspector::Inspector inspector(&program); auto entry_points = inspector.GetEntryPoints(); if (inspector.has_error()) { return 0; } for (auto& ep : entry_points) { auto remapped_name = inspector.GetRemappedNameForEntryPoint(ep.name); if (inspector.has_error()) { return 0; } auto constant_ids = inspector.GetConstantIDs(); if (inspector.has_error()) { return 0; } auto uniform_bindings = inspector.GetUniformBufferResourceBindings(ep.name); if (inspector.has_error()) { return 0; } auto storage_bindings = inspector.GetStorageBufferResourceBindings(ep.name); if (inspector.has_error()) { return 0; } auto readonly_bindings = inspector.GetReadOnlyStorageBufferResourceBindings(ep.name); if (inspector.has_error()) { return 0; } auto sampler_bindings = inspector.GetSamplerResourceBindings(ep.name); if (inspector.has_error()) { return 0; } auto comparison_sampler_bindings = inspector.GetComparisonSamplerResourceBindings(ep.name); if (inspector.has_error()) { return 0; } auto sampled_texture_bindings = inspector.GetSampledTextureResourceBindings(ep.name); if (inspector.has_error()) { return 0; } auto multisampled_texture_bindings = inspector.GetMultisampledTextureResourceBindings(ep.name); if (inspector.has_error()) { return 0; } } } if (transform_manager_) { auto out = transform_manager_->Run(&program, transform_inputs_); if (!out.program.IsValid()) { return 0; } program = std::move(out.program); } std::unique_ptr writer; switch (output_) { case OutputFormat::kWGSL: #if TINT_BUILD_WGSL_WRITER writer = std::make_unique(&program); #endif // TINT_BUILD_WGSL_WRITER break; case OutputFormat::kSpv: #if TINT_BUILD_SPV_WRITER writer = std::make_unique(&program); #endif // TINT_BUILD_SPV_WRITER break; case OutputFormat::kHLSL: #if TINT_BUILD_HLSL_WRITER writer = std::make_unique(&program); #endif // TINT_BUILD_HLSL_WRITER break; case OutputFormat::kMSL: #if TINT_BUILD_MSL_WRITER writer = std::make_unique(&program); #endif // TINT_BUILD_MSL_WRITER break; case OutputFormat::kNone: break; } if (writer) { writer->Generate(); } return 0; } } // namespace fuzzers } // namespace tint