fuzzers/tint_common_fuzzer.cc - tint - Git at Google

 // 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 <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #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<const uint8_t*>(*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<Config> 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<transform::BindingRemapper::Remappings>(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<tint::transform::FirstIndexOffset::BindingPoint>(config.binding,
                                                                config.group);

   return true;
 }

 bool ExtractSingleEntryPointInputs(const uint8_t** data,
                                    size_t* size,
                                    tint::transform::DataMap* inputs) {
   if ((*size) < sizeof(uint8_t)) {
     return false;
   }

   auto count = *reinterpret_cast<const uint8_t*>(*data);
   (*data) += sizeof(uint8_t);
   (*size) -= sizeof(uint8_t);

   if ((*size) < count) {
     return false;
   }

   auto* c = reinterpret_cast<const char*>(*data);
   std::string input(c, c + count);

   (*data) += count * sizeof(char);
   (*size) -= count * sizeof(char);

   transform::SingleEntryPoint::Config cfg(input);
   inputs->Add<transform::SingleEntryPoint::Config>(cfg);

   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<Source::File> file;
 #endif  // TINT_BUILD_WGSL_READER

   switch (input_) {
 #if TINT_BUILD_WGSL_READER
     case InputFormat::kWGSL: {
       std::string str(reinterpret_cast<const char*>(data), size);

       file = std::make_unique<Source::File>("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<const uint32_t*>(data);
       std::vector<uint32_t> 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::Writer> writer;

   switch (output_) {
     case OutputFormat::kWGSL:
 #if TINT_BUILD_WGSL_WRITER
       writer = std::make_unique<writer::wgsl::Generator>(&program);
 #endif  // TINT_BUILD_WGSL_WRITER
       break;
     case OutputFormat::kSpv:
 #if TINT_BUILD_SPV_WRITER
       writer = std::make_unique<writer::spirv::Generator>(&program);
 #endif  // TINT_BUILD_SPV_WRITER
       break;
     case OutputFormat::kHLSL:
 #if TINT_BUILD_HLSL_WRITER
       writer = std::make_unique<writer::hlsl::Generator>(&program);
 #endif  // TINT_BUILD_HLSL_WRITER
       break;
     case OutputFormat::kMSL:
 #if TINT_BUILD_MSL_WRITER
       writer = std::make_unique<writer::msl::Generator>(&program);
 #endif  // TINT_BUILD_MSL_WRITER
       break;
     case OutputFormat::kNone:
       break;
   }

   if (writer) {
     writer->Generate();
   }

   return 0;
 }

 }  // namespace fuzzers
 }  // namespace tint
	// 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 <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#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<const uint8_t>(*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<Config> 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<transform::BindingRemapper::Remappings>(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<tint::transform::FirstIndexOffset::BindingPoint>(config.binding,
	config.group);

	return true;
	}

	bool ExtractSingleEntryPointInputs(const uint8_t** data,
	size_t* size,
	tint::transform::DataMap* inputs) {
	if ((*size) < sizeof(uint8_t)) {
	return false;
	}

	auto count = reinterpret_cast<const uint8_t>(*data);
	(*data) += sizeof(uint8_t);
	(*size) -= sizeof(uint8_t);

	if ((*size) < count) {
	return false;
	}

	auto* c = reinterpret_cast<const char>(data);
	std::string input(c, c + count);

	(data) += count sizeof(char);
	(size) -= count sizeof(char);

	transform::SingleEntryPoint::Config cfg(input);
	inputs->Add<transform::SingleEntryPoint::Config>(cfg);

	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<Source::File> file;
	#endif // TINT_BUILD_WGSL_READER

	switch (input_) {
	#if TINT_BUILD_WGSL_READER
	case InputFormat::kWGSL: {
	std::string str(reinterpret_cast<const char*>(data), size);

	file = std::make_unique<Source::File>("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<const uint32_t*>(data);
	std::vector<uint32_t> 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::Writer> writer;

	switch (output_) {
	case OutputFormat::kWGSL:
	#if TINT_BUILD_WGSL_WRITER
	writer = std::make_unique<writer::wgsl::Generator>(&program);
	#endif // TINT_BUILD_WGSL_WRITER
	break;
	case OutputFormat::kSpv:
	#if TINT_BUILD_SPV_WRITER
	writer = std::make_unique<writer::spirv::Generator>(&program);
	#endif // TINT_BUILD_SPV_WRITER
	break;
	case OutputFormat::kHLSL:
	#if TINT_BUILD_HLSL_WRITER
	writer = std::make_unique<writer::hlsl::Generator>(&program);
	#endif // TINT_BUILD_HLSL_WRITER
	break;
	case OutputFormat::kMSL:
	#if TINT_BUILD_MSL_WRITER
	writer = std::make_unique<writer::msl::Generator>(&program);
	#endif // TINT_BUILD_MSL_WRITER
	break;
	case OutputFormat::kNone:
	break;
	}

	if (writer) {
	writer->Generate();
	}

	return 0;
	}

	} // namespace fuzzers
	} // namespace tint