/* * Copyright (C) 2011 The Android Open Source Project * * 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 "android-base/stringprintf.h" #include "arch/instruction_set_features.h" #include "art_method-inl.h" #include "base/enums.h" #include "base/unix_file/fd_file.h" #include "class_linker.h" #include "common_compiler_test.h" #include "compiled_method.h" #include "compiler.h" #include "debug/method_debug_info.h" #include "dex/quick_compiler_callbacks.h" #include "dex/verification_results.h" #include "driver/compiler_driver.h" #include "driver/compiler_options.h" #include "elf_writer.h" #include "elf_writer_quick.h" #include "entrypoints/quick/quick_entrypoints.h" #include "linker/buffered_output_stream.h" #include "linker/file_output_stream.h" #include "linker/multi_oat_relative_patcher.h" #include "linker/vector_output_stream.h" #include "mirror/class-inl.h" #include "mirror/object-inl.h" #include "mirror/object_array-inl.h" #include "oat_file-inl.h" #include "oat_writer.h" #include "scoped_thread_state_change-inl.h" #include "utils/test_dex_file_builder.h" namespace art { NO_RETURN static void Usage(const char* fmt, ...) { va_list ap; va_start(ap, fmt); std::string error; android::base::StringAppendV(&error, fmt, ap); LOG(FATAL) << error; va_end(ap); UNREACHABLE(); } class OatTest : public CommonCompilerTest { protected: static const bool kCompile = false; // DISABLED_ due to the time to compile libcore void CheckMethod(ArtMethod* method, const OatFile::OatMethod& oat_method, const DexFile& dex_file) REQUIRES_SHARED(Locks::mutator_lock_) { const CompiledMethod* compiled_method = compiler_driver_->GetCompiledMethod(MethodReference(&dex_file, method->GetDexMethodIndex())); if (compiled_method == nullptr) { EXPECT_TRUE(oat_method.GetQuickCode() == nullptr) << method->PrettyMethod() << " " << oat_method.GetQuickCode(); EXPECT_EQ(oat_method.GetFrameSizeInBytes(), 0U); EXPECT_EQ(oat_method.GetCoreSpillMask(), 0U); EXPECT_EQ(oat_method.GetFpSpillMask(), 0U); } else { const void* quick_oat_code = oat_method.GetQuickCode(); EXPECT_TRUE(quick_oat_code != nullptr) << method->PrettyMethod(); EXPECT_EQ(oat_method.GetFrameSizeInBytes(), compiled_method->GetFrameSizeInBytes()); EXPECT_EQ(oat_method.GetCoreSpillMask(), compiled_method->GetCoreSpillMask()); EXPECT_EQ(oat_method.GetFpSpillMask(), compiled_method->GetFpSpillMask()); uintptr_t oat_code_aligned = RoundDown(reinterpret_cast(quick_oat_code), 2); quick_oat_code = reinterpret_cast(oat_code_aligned); ArrayRef quick_code = compiled_method->GetQuickCode(); EXPECT_FALSE(quick_code.empty()); size_t code_size = quick_code.size() * sizeof(quick_code[0]); EXPECT_EQ(0, memcmp(quick_oat_code, &quick_code[0], code_size)) << method->PrettyMethod() << " " << code_size; CHECK_EQ(0, memcmp(quick_oat_code, &quick_code[0], code_size)); } } void SetupCompiler(Compiler::Kind compiler_kind, InstructionSet insn_set, const std::vector& compiler_options, /*out*/std::string* error_msg) { ASSERT_TRUE(error_msg != nullptr); insn_features_ = InstructionSetFeatures::FromVariant(insn_set, "default", error_msg); ASSERT_TRUE(insn_features_ != nullptr) << error_msg; compiler_options_.reset(new CompilerOptions); for (const std::string& option : compiler_options) { compiler_options_->ParseCompilerOption(option, Usage); } verification_results_.reset(new VerificationResults(compiler_options_.get())); callbacks_.reset(new QuickCompilerCallbacks(verification_results_.get(), CompilerCallbacks::CallbackMode::kCompileApp)); Runtime::Current()->SetCompilerCallbacks(callbacks_.get()); timer_.reset(new CumulativeLogger("Compilation times")); compiler_driver_.reset(new CompilerDriver(compiler_options_.get(), verification_results_.get(), compiler_kind, insn_set, insn_features_.get(), /* image_classes */ nullptr, /* compiled_classes */ nullptr, /* compiled_methods */ nullptr, /* thread_count */ 2, /* dump_stats */ true, /* dump_passes */ true, timer_.get(), /* swap_fd */ -1, /* profile_compilation_info */ nullptr)); } bool WriteElf(File* vdex_file, File* oat_file, const std::vector& dex_files, SafeMap& key_value_store, bool verify) { TimingLogger timings("WriteElf", false, false); OatWriter oat_writer(/*compiling_boot_image*/false, &timings, /*profile_compilation_info*/nullptr); for (const DexFile* dex_file : dex_files) { ArrayRef raw_dex_file( reinterpret_cast(&dex_file->GetHeader()), dex_file->GetHeader().file_size_); if (!oat_writer.AddRawDexFileSource(raw_dex_file, dex_file->GetLocation().c_str(), dex_file->GetLocationChecksum())) { return false; } } return DoWriteElf(vdex_file, oat_file, oat_writer, key_value_store, verify); } bool WriteElf(File* vdex_file, File* oat_file, const std::vector& dex_filenames, SafeMap& key_value_store, bool verify, ProfileCompilationInfo* profile_compilation_info) { TimingLogger timings("WriteElf", false, false); OatWriter oat_writer(/*compiling_boot_image*/false, &timings, profile_compilation_info); for (const char* dex_filename : dex_filenames) { if (!oat_writer.AddDexFileSource(dex_filename, dex_filename)) { return false; } } return DoWriteElf(vdex_file, oat_file, oat_writer, key_value_store, verify); } bool WriteElf(File* vdex_file, File* oat_file, File&& zip_fd, const char* location, SafeMap& key_value_store, bool verify) { TimingLogger timings("WriteElf", false, false); OatWriter oat_writer(/*compiling_boot_image*/false, &timings, /*profile_compilation_info*/nullptr); if (!oat_writer.AddZippedDexFilesSource(std::move(zip_fd), location)) { return false; } return DoWriteElf(vdex_file, oat_file, oat_writer, key_value_store, verify); } bool DoWriteElf(File* vdex_file, File* oat_file, OatWriter& oat_writer, SafeMap& key_value_store, bool verify) { std::unique_ptr elf_writer = CreateElfWriterQuick( compiler_driver_->GetInstructionSet(), compiler_driver_->GetInstructionSetFeatures(), &compiler_driver_->GetCompilerOptions(), oat_file); elf_writer->Start(); OutputStream* oat_rodata = elf_writer->StartRoData(); std::unique_ptr opened_dex_files_map; std::vector> opened_dex_files; if (!oat_writer.WriteAndOpenDexFiles(kIsVdexEnabled ? vdex_file : oat_file, oat_rodata, compiler_driver_->GetInstructionSet(), compiler_driver_->GetInstructionSetFeatures(), &key_value_store, verify, /* update_input_vdex */ false, &opened_dex_files_map, &opened_dex_files)) { return false; } Runtime* runtime = Runtime::Current(); ClassLinker* const class_linker = runtime->GetClassLinker(); std::vector dex_files; for (const std::unique_ptr& dex_file : opened_dex_files) { dex_files.push_back(dex_file.get()); ScopedObjectAccess soa(Thread::Current()); class_linker->RegisterDexFile(*dex_file, nullptr); } linker::MultiOatRelativePatcher patcher(compiler_driver_->GetInstructionSet(), instruction_set_features_.get()); oat_writer.Initialize(compiler_driver_.get(), nullptr, dex_files); oat_writer.PrepareLayout(&patcher); size_t rodata_size = oat_writer.GetOatHeader().GetExecutableOffset(); size_t text_size = oat_writer.GetOatSize() - rodata_size; elf_writer->PrepareDynamicSection(rodata_size, text_size, oat_writer.GetBssSize(), oat_writer.GetBssRootsOffset()); if (kIsVdexEnabled) { std::unique_ptr vdex_out( MakeUnique(MakeUnique(vdex_file))); if (!oat_writer.WriteVerifierDeps(vdex_out.get(), nullptr)) { return false; } if (!oat_writer.WriteChecksumsAndVdexHeader(vdex_out.get())) { return false; } } if (!oat_writer.WriteRodata(oat_rodata)) { return false; } elf_writer->EndRoData(oat_rodata); OutputStream* text = elf_writer->StartText(); if (!oat_writer.WriteCode(text)) { return false; } elf_writer->EndText(text); if (!oat_writer.WriteHeader(elf_writer->GetStream(), 42U, 4096U, 0)) { return false; } elf_writer->WriteDynamicSection(); elf_writer->WriteDebugInfo(oat_writer.GetMethodDebugInfo()); if (!elf_writer->End()) { return false; } opened_dex_files_maps_.emplace_back(std::move(opened_dex_files_map)); for (std::unique_ptr& dex_file : opened_dex_files) { opened_dex_files_.emplace_back(dex_file.release()); } return true; } void TestDexFileInput(bool verify, bool low_4gb, bool use_profile); void TestZipFileInput(bool verify); void TestZipFileInputWithEmptyDex(); std::unique_ptr insn_features_; std::unique_ptr callbacks_; std::vector> opened_dex_files_maps_; std::vector> opened_dex_files_; }; class ZipBuilder { public: explicit ZipBuilder(File* zip_file) : zip_file_(zip_file) { } bool AddFile(const char* location, const void* data, size_t size) { off_t offset = lseek(zip_file_->Fd(), 0, SEEK_CUR); if (offset == static_cast(-1)) { return false; } ZipFileHeader file_header; file_header.crc32 = crc32(0u, reinterpret_cast(data), size); file_header.compressed_size = size; file_header.uncompressed_size = size; file_header.filename_length = strlen(location); if (!zip_file_->WriteFully(&file_header, sizeof(file_header)) || !zip_file_->WriteFully(location, file_header.filename_length) || !zip_file_->WriteFully(data, size)) { return false; } CentralDirectoryFileHeader cdfh; cdfh.crc32 = file_header.crc32; cdfh.compressed_size = size; cdfh.uncompressed_size = size; cdfh.filename_length = file_header.filename_length; cdfh.relative_offset_of_local_file_header = offset; file_data_.push_back(FileData { cdfh, location }); return true; } bool Finish() { off_t offset = lseek(zip_file_->Fd(), 0, SEEK_CUR); if (offset == static_cast(-1)) { return false; } size_t central_directory_size = 0u; for (const FileData& file_data : file_data_) { if (!zip_file_->WriteFully(&file_data.cdfh, sizeof(file_data.cdfh)) || !zip_file_->WriteFully(file_data.location, file_data.cdfh.filename_length)) { return false; } central_directory_size += sizeof(file_data.cdfh) + file_data.cdfh.filename_length; } EndOfCentralDirectoryRecord eocd_record; eocd_record.number_of_central_directory_records_on_this_disk = file_data_.size(); eocd_record.total_number_of_central_directory_records = file_data_.size(); eocd_record.size_of_central_directory = central_directory_size; eocd_record.offset_of_start_of_central_directory = offset; return zip_file_->WriteFully(&eocd_record, sizeof(eocd_record)) && zip_file_->Flush() == 0; } private: struct PACKED(1) ZipFileHeader { uint32_t signature = 0x04034b50; uint16_t version_needed_to_extract = 10; uint16_t general_purpose_bit_flag = 0; uint16_t compression_method = 0; // 0 = store only. uint16_t file_last_modification_time = 0u; uint16_t file_last_modification_date = 0u; uint32_t crc32; uint32_t compressed_size; uint32_t uncompressed_size; uint16_t filename_length; uint16_t extra_field_length = 0u; // No extra fields. }; struct PACKED(1) CentralDirectoryFileHeader { uint32_t signature = 0x02014b50; uint16_t version_made_by = 10; uint16_t version_needed_to_extract = 10; uint16_t general_purpose_bit_flag = 0; uint16_t compression_method = 0; // 0 = store only. uint16_t file_last_modification_time = 0u; uint16_t file_last_modification_date = 0u; uint32_t crc32; uint32_t compressed_size; uint32_t uncompressed_size; uint16_t filename_length; uint16_t extra_field_length = 0u; // No extra fields. uint16_t file_comment_length = 0u; // No file comment. uint16_t disk_number_where_file_starts = 0u; uint16_t internal_file_attributes = 0u; uint32_t external_file_attributes = 0u; uint32_t relative_offset_of_local_file_header; }; struct PACKED(1) EndOfCentralDirectoryRecord { uint32_t signature = 0x06054b50; uint16_t number_of_this_disk = 0u; uint16_t disk_where_central_directory_starts = 0u; uint16_t number_of_central_directory_records_on_this_disk; uint16_t total_number_of_central_directory_records; uint32_t size_of_central_directory; uint32_t offset_of_start_of_central_directory; uint16_t comment_length = 0u; // No file comment. }; struct FileData { CentralDirectoryFileHeader cdfh; const char* location; }; File* zip_file_; std::vector file_data_; }; TEST_F(OatTest, WriteRead) { TimingLogger timings("OatTest::WriteRead", false, false); ClassLinker* class_linker = Runtime::Current()->GetClassLinker(); // TODO: make selectable. Compiler::Kind compiler_kind = Compiler::kQuick; InstructionSet insn_set = kIsTargetBuild ? kThumb2 : kX86; std::string error_msg; SetupCompiler(compiler_kind, insn_set, std::vector(), /*out*/ &error_msg); jobject class_loader = nullptr; if (kCompile) { TimingLogger timings2("OatTest::WriteRead", false, false); compiler_driver_->SetDexFilesForOatFile(class_linker->GetBootClassPath()); compiler_driver_->CompileAll( class_loader, class_linker->GetBootClassPath(), /* verifier_deps */ nullptr, &timings2); } ScratchFile tmp_oat, tmp_vdex(tmp_oat, ".vdex"); SafeMap key_value_store; key_value_store.Put(OatHeader::kImageLocationKey, "lue.art"); bool success = WriteElf(tmp_vdex.GetFile(), tmp_oat.GetFile(), class_linker->GetBootClassPath(), key_value_store, false); ASSERT_TRUE(success); if (kCompile) { // OatWriter strips the code, regenerate to compare compiler_driver_->CompileAll( class_loader, class_linker->GetBootClassPath(), /* verifier_deps */ nullptr, &timings); } std::unique_ptr oat_file(OatFile::Open(tmp_oat.GetFilename(), tmp_oat.GetFilename(), nullptr, nullptr, false, /*low_4gb*/true, nullptr, &error_msg)); ASSERT_TRUE(oat_file.get() != nullptr) << error_msg; const OatHeader& oat_header = oat_file->GetOatHeader(); ASSERT_TRUE(oat_header.IsValid()); ASSERT_EQ(class_linker->GetBootClassPath().size(), oat_header.GetDexFileCount()); // core ASSERT_EQ(42U, oat_header.GetImageFileLocationOatChecksum()); ASSERT_EQ(4096U, oat_header.GetImageFileLocationOatDataBegin()); ASSERT_EQ("lue.art", std::string(oat_header.GetStoreValueByKey(OatHeader::kImageLocationKey))); ASSERT_TRUE(java_lang_dex_file_ != nullptr); const DexFile& dex_file = *java_lang_dex_file_; uint32_t dex_file_checksum = dex_file.GetLocationChecksum(); const OatFile::OatDexFile* oat_dex_file = oat_file->GetOatDexFile(dex_file.GetLocation().c_str(), &dex_file_checksum); ASSERT_TRUE(oat_dex_file != nullptr); CHECK_EQ(dex_file.GetLocationChecksum(), oat_dex_file->GetDexFileLocationChecksum()); ScopedObjectAccess soa(Thread::Current()); auto pointer_size = class_linker->GetImagePointerSize(); for (size_t i = 0; i < dex_file.NumClassDefs(); i++) { const DexFile::ClassDef& class_def = dex_file.GetClassDef(i); const uint8_t* class_data = dex_file.GetClassData(class_def); size_t num_virtual_methods = 0; if (class_data != nullptr) { ClassDataItemIterator it(dex_file, class_data); num_virtual_methods = it.NumVirtualMethods(); } const char* descriptor = dex_file.GetClassDescriptor(class_def); mirror::Class* klass = class_linker->FindClass(soa.Self(), descriptor, ScopedNullHandle()); const OatFile::OatClass oat_class = oat_dex_file->GetOatClass(i); CHECK_EQ(mirror::Class::Status::kStatusNotReady, oat_class.GetStatus()) << descriptor; CHECK_EQ(kCompile ? OatClassType::kOatClassAllCompiled : OatClassType::kOatClassNoneCompiled, oat_class.GetType()) << descriptor; size_t method_index = 0; for (auto& m : klass->GetDirectMethods(pointer_size)) { CheckMethod(&m, oat_class.GetOatMethod(method_index), dex_file); ++method_index; } size_t visited_virtuals = 0; // TODO We should also check copied methods in this test. for (auto& m : klass->GetDeclaredVirtualMethods(pointer_size)) { if (!klass->IsInterface()) { EXPECT_FALSE(m.IsCopied()); } CheckMethod(&m, oat_class.GetOatMethod(method_index), dex_file); ++method_index; ++visited_virtuals; } EXPECT_EQ(visited_virtuals, num_virtual_methods); } } TEST_F(OatTest, OatHeaderSizeCheck) { // If this test is failing and you have to update these constants, // it is time to update OatHeader::kOatVersion EXPECT_EQ(72U, sizeof(OatHeader)); EXPECT_EQ(4U, sizeof(OatMethodOffsets)); EXPECT_EQ(24U, sizeof(OatQuickMethodHeader)); EXPECT_EQ(161 * static_cast(GetInstructionSetPointerSize(kRuntimeISA)), sizeof(QuickEntryPoints)); } TEST_F(OatTest, OatHeaderIsValid) { InstructionSet insn_set = kX86; std::string error_msg; std::unique_ptr insn_features( InstructionSetFeatures::FromVariant(insn_set, "default", &error_msg)); ASSERT_TRUE(insn_features.get() != nullptr) << error_msg; std::unique_ptr oat_header(OatHeader::Create(insn_set, insn_features.get(), 0u, nullptr)); ASSERT_NE(oat_header.get(), nullptr); ASSERT_TRUE(oat_header->IsValid()); char* magic = const_cast(oat_header->GetMagic()); strcpy(magic, ""); // bad magic ASSERT_FALSE(oat_header->IsValid()); strcpy(magic, "oat\n000"); // bad version ASSERT_FALSE(oat_header->IsValid()); } TEST_F(OatTest, EmptyTextSection) { TimingLogger timings("OatTest::EmptyTextSection", false, false); // TODO: make selectable. Compiler::Kind compiler_kind = Compiler::kQuick; InstructionSet insn_set = kRuntimeISA; if (insn_set == kArm) insn_set = kThumb2; std::string error_msg; std::vector compiler_options; compiler_options.push_back("--compiler-filter=extract"); SetupCompiler(compiler_kind, insn_set, compiler_options, /*out*/ &error_msg); jobject class_loader; { ScopedObjectAccess soa(Thread::Current()); class_loader = LoadDex("Main"); } ASSERT_TRUE(class_loader != nullptr); std::vector dex_files = GetDexFiles(class_loader); ASSERT_TRUE(!dex_files.empty()); ClassLinker* const class_linker = Runtime::Current()->GetClassLinker(); for (const DexFile* dex_file : dex_files) { ScopedObjectAccess soa(Thread::Current()); class_linker->RegisterDexFile(*dex_file, soa.Decode(class_loader).Ptr()); } compiler_driver_->SetDexFilesForOatFile(dex_files); compiler_driver_->CompileAll(class_loader, dex_files, /* verifier_deps */ nullptr, &timings); ScratchFile tmp_oat, tmp_vdex(tmp_oat, ".vdex"); SafeMap key_value_store; key_value_store.Put(OatHeader::kImageLocationKey, "test.art"); bool success = WriteElf(tmp_vdex.GetFile(), tmp_oat.GetFile(), dex_files, key_value_store, false); ASSERT_TRUE(success); std::unique_ptr oat_file(OatFile::Open(tmp_oat.GetFilename(), tmp_oat.GetFilename(), nullptr, nullptr, false, /*low_4gb*/false, nullptr, &error_msg)); ASSERT_TRUE(oat_file != nullptr); EXPECT_LT(static_cast(oat_file->Size()), static_cast(tmp_oat.GetFile()->GetLength())); } static void MaybeModifyDexFileToFail(bool verify, std::unique_ptr& data) { // If in verify mode (= fail the verifier mode), make sure we fail early. We'll fail already // because of the missing map, but that may lead to out of bounds reads. if (verify) { const_cast(&data->GetHeader())->checksum_++; } } void OatTest::TestDexFileInput(bool verify, bool low_4gb, bool use_profile) { TimingLogger timings("OatTest::DexFileInput", false, false); std::vector input_filenames; ScratchFile dex_file1; TestDexFileBuilder builder1; builder1.AddField("Lsome.TestClass;", "int", "someField"); builder1.AddMethod("Lsome.TestClass;", "()I", "foo"); std::unique_ptr dex_file1_data = builder1.Build(dex_file1.GetFilename()); MaybeModifyDexFileToFail(verify, dex_file1_data); bool success = dex_file1.GetFile()->WriteFully(&dex_file1_data->GetHeader(), dex_file1_data->GetHeader().file_size_); ASSERT_TRUE(success); success = dex_file1.GetFile()->Flush() == 0; ASSERT_TRUE(success); input_filenames.push_back(dex_file1.GetFilename().c_str()); ScratchFile dex_file2; TestDexFileBuilder builder2; builder2.AddField("Land.AnotherTestClass;", "boolean", "someOtherField"); builder2.AddMethod("Land.AnotherTestClass;", "()J", "bar"); std::unique_ptr dex_file2_data = builder2.Build(dex_file2.GetFilename()); MaybeModifyDexFileToFail(verify, dex_file2_data); success = dex_file2.GetFile()->WriteFully(&dex_file2_data->GetHeader(), dex_file2_data->GetHeader().file_size_); ASSERT_TRUE(success); success = dex_file2.GetFile()->Flush() == 0; ASSERT_TRUE(success); input_filenames.push_back(dex_file2.GetFilename().c_str()); ScratchFile oat_file, vdex_file(oat_file, ".vdex"); SafeMap key_value_store; key_value_store.Put(OatHeader::kImageLocationKey, "test.art"); std::unique_ptr profile_compilation_info(use_profile ? new ProfileCompilationInfo() : nullptr); success = WriteElf(vdex_file.GetFile(), oat_file.GetFile(), input_filenames, key_value_store, verify, profile_compilation_info.get()); // In verify mode, we expect failure. if (verify) { ASSERT_FALSE(success); return; } ASSERT_TRUE(success); std::string error_msg; std::unique_ptr opened_oat_file(OatFile::Open(oat_file.GetFilename(), oat_file.GetFilename(), nullptr, nullptr, false, low_4gb, nullptr, &error_msg)); if (low_4gb) { uintptr_t begin = reinterpret_cast(opened_oat_file->Begin()); EXPECT_EQ(begin, static_cast(begin)); } ASSERT_TRUE(opened_oat_file != nullptr); ASSERT_EQ(2u, opened_oat_file->GetOatDexFiles().size()); std::unique_ptr opened_dex_file1 = opened_oat_file->GetOatDexFiles()[0]->OpenDexFile(&error_msg); std::unique_ptr opened_dex_file2 = opened_oat_file->GetOatDexFiles()[1]->OpenDexFile(&error_msg); ASSERT_EQ(dex_file1_data->GetHeader().file_size_, opened_dex_file1->GetHeader().file_size_); ASSERT_EQ(0, memcmp(&dex_file1_data->GetHeader(), &opened_dex_file1->GetHeader(), dex_file1_data->GetHeader().file_size_)); ASSERT_EQ(dex_file1_data->GetLocation(), opened_dex_file1->GetLocation()); ASSERT_EQ(dex_file2_data->GetHeader().file_size_, opened_dex_file2->GetHeader().file_size_); ASSERT_EQ(0, memcmp(&dex_file2_data->GetHeader(), &opened_dex_file2->GetHeader(), dex_file2_data->GetHeader().file_size_)); ASSERT_EQ(dex_file2_data->GetLocation(), opened_dex_file2->GetLocation()); } TEST_F(OatTest, DexFileInputCheckOutput) { TestDexFileInput(/*verify*/false, /*low_4gb*/false, /*use_profile*/false); } TEST_F(OatTest, DexFileInputCheckOutputLow4GB) { TestDexFileInput(/*verify*/false, /*low_4gb*/true, /*use_profile*/false); } TEST_F(OatTest, DexFileInputCheckVerifier) { TestDexFileInput(/*verify*/true, /*low_4gb*/false, /*use_profile*/false); } TEST_F(OatTest, DexFileFailsVerifierWithLayout) { TestDexFileInput(/*verify*/true, /*low_4gb*/false, /*use_profile*/true); } void OatTest::TestZipFileInput(bool verify) { TimingLogger timings("OatTest::DexFileInput", false, false); ScratchFile zip_file; ZipBuilder zip_builder(zip_file.GetFile()); ScratchFile dex_file1; TestDexFileBuilder builder1; builder1.AddField("Lsome.TestClass;", "long", "someField"); builder1.AddMethod("Lsome.TestClass;", "()D", "foo"); std::unique_ptr dex_file1_data = builder1.Build(dex_file1.GetFilename()); MaybeModifyDexFileToFail(verify, dex_file1_data); bool success = dex_file1.GetFile()->WriteFully(&dex_file1_data->GetHeader(), dex_file1_data->GetHeader().file_size_); ASSERT_TRUE(success); success = dex_file1.GetFile()->Flush() == 0; ASSERT_TRUE(success); success = zip_builder.AddFile("classes.dex", &dex_file1_data->GetHeader(), dex_file1_data->GetHeader().file_size_); ASSERT_TRUE(success); ScratchFile dex_file2; TestDexFileBuilder builder2; builder2.AddField("Land.AnotherTestClass;", "boolean", "someOtherField"); builder2.AddMethod("Land.AnotherTestClass;", "()J", "bar"); std::unique_ptr dex_file2_data = builder2.Build(dex_file2.GetFilename()); MaybeModifyDexFileToFail(verify, dex_file2_data); success = dex_file2.GetFile()->WriteFully(&dex_file2_data->GetHeader(), dex_file2_data->GetHeader().file_size_); ASSERT_TRUE(success); success = dex_file2.GetFile()->Flush() == 0; ASSERT_TRUE(success); success = zip_builder.AddFile("classes2.dex", &dex_file2_data->GetHeader(), dex_file2_data->GetHeader().file_size_); ASSERT_TRUE(success); success = zip_builder.Finish(); ASSERT_TRUE(success) << strerror(errno); SafeMap key_value_store; key_value_store.Put(OatHeader::kImageLocationKey, "test.art"); { // Test using the AddDexFileSource() interface with the zip file. std::vector input_filenames { zip_file.GetFilename().c_str() }; // NOLINT [readability/braces] [4] ScratchFile oat_file, vdex_file(oat_file, ".vdex"); success = WriteElf(vdex_file.GetFile(), oat_file.GetFile(), input_filenames, key_value_store, verify, /*profile_compilation_info*/nullptr); if (verify) { ASSERT_FALSE(success); } else { ASSERT_TRUE(success); std::string error_msg; std::unique_ptr opened_oat_file(OatFile::Open(oat_file.GetFilename(), oat_file.GetFilename(), nullptr, nullptr, false, /*low_4gb*/false, nullptr, &error_msg)); ASSERT_TRUE(opened_oat_file != nullptr); ASSERT_EQ(2u, opened_oat_file->GetOatDexFiles().size()); std::unique_ptr opened_dex_file1 = opened_oat_file->GetOatDexFiles()[0]->OpenDexFile(&error_msg); std::unique_ptr opened_dex_file2 = opened_oat_file->GetOatDexFiles()[1]->OpenDexFile(&error_msg); ASSERT_EQ(dex_file1_data->GetHeader().file_size_, opened_dex_file1->GetHeader().file_size_); ASSERT_EQ(0, memcmp(&dex_file1_data->GetHeader(), &opened_dex_file1->GetHeader(), dex_file1_data->GetHeader().file_size_)); ASSERT_EQ(DexFile::GetMultiDexLocation(0, zip_file.GetFilename().c_str()), opened_dex_file1->GetLocation()); ASSERT_EQ(dex_file2_data->GetHeader().file_size_, opened_dex_file2->GetHeader().file_size_); ASSERT_EQ(0, memcmp(&dex_file2_data->GetHeader(), &opened_dex_file2->GetHeader(), dex_file2_data->GetHeader().file_size_)); ASSERT_EQ(DexFile::GetMultiDexLocation(1, zip_file.GetFilename().c_str()), opened_dex_file2->GetLocation()); } } { // Test using the AddZipDexFileSource() interface with the zip file handle. File zip_fd(dup(zip_file.GetFd()), /* check_usage */ false); ASSERT_NE(-1, zip_fd.Fd()); ScratchFile oat_file, vdex_file(oat_file, ".vdex"); success = WriteElf(vdex_file.GetFile(), oat_file.GetFile(), std::move(zip_fd), zip_file.GetFilename().c_str(), key_value_store, verify); if (verify) { ASSERT_FALSE(success); } else { ASSERT_TRUE(success); std::string error_msg; std::unique_ptr opened_oat_file(OatFile::Open(oat_file.GetFilename(), oat_file.GetFilename(), nullptr, nullptr, false, /*low_4gb*/false, nullptr, &error_msg)); ASSERT_TRUE(opened_oat_file != nullptr); ASSERT_EQ(2u, opened_oat_file->GetOatDexFiles().size()); std::unique_ptr opened_dex_file1 = opened_oat_file->GetOatDexFiles()[0]->OpenDexFile(&error_msg); std::unique_ptr opened_dex_file2 = opened_oat_file->GetOatDexFiles()[1]->OpenDexFile(&error_msg); ASSERT_EQ(dex_file1_data->GetHeader().file_size_, opened_dex_file1->GetHeader().file_size_); ASSERT_EQ(0, memcmp(&dex_file1_data->GetHeader(), &opened_dex_file1->GetHeader(), dex_file1_data->GetHeader().file_size_)); ASSERT_EQ(DexFile::GetMultiDexLocation(0, zip_file.GetFilename().c_str()), opened_dex_file1->GetLocation()); ASSERT_EQ(dex_file2_data->GetHeader().file_size_, opened_dex_file2->GetHeader().file_size_); ASSERT_EQ(0, memcmp(&dex_file2_data->GetHeader(), &opened_dex_file2->GetHeader(), dex_file2_data->GetHeader().file_size_)); ASSERT_EQ(DexFile::GetMultiDexLocation(1, zip_file.GetFilename().c_str()), opened_dex_file2->GetLocation()); } } } TEST_F(OatTest, ZipFileInputCheckOutput) { TestZipFileInput(false); } TEST_F(OatTest, ZipFileInputCheckVerifier) { TestZipFileInput(true); } void OatTest::TestZipFileInputWithEmptyDex() { ScratchFile zip_file; ZipBuilder zip_builder(zip_file.GetFile()); bool success = zip_builder.AddFile("classes.dex", nullptr, 0); ASSERT_TRUE(success); success = zip_builder.Finish(); ASSERT_TRUE(success) << strerror(errno); SafeMap key_value_store; key_value_store.Put(OatHeader::kImageLocationKey, "test.art"); std::vector input_filenames { zip_file.GetFilename().c_str() }; // NOLINT [readability/braces] [4] ScratchFile oat_file, vdex_file(oat_file, ".vdex"); std::unique_ptr profile_compilation_info(new ProfileCompilationInfo()); success = WriteElf(vdex_file.GetFile(), oat_file.GetFile(), input_filenames, key_value_store, /*verify*/false, profile_compilation_info.get()); ASSERT_FALSE(success); } TEST_F(OatTest, ZipFileInputWithEmptyDex) { TestZipFileInputWithEmptyDex(); } TEST_F(OatTest, UpdateChecksum) { InstructionSet insn_set = kX86; std::string error_msg; std::unique_ptr insn_features( InstructionSetFeatures::FromVariant(insn_set, "default", &error_msg)); ASSERT_TRUE(insn_features.get() != nullptr) << error_msg; std::unique_ptr oat_header(OatHeader::Create(insn_set, insn_features.get(), 0u, nullptr)); // The starting adler32 value is 1. EXPECT_EQ(1U, oat_header->GetChecksum()); oat_header->UpdateChecksum(OatHeader::kOatMagic, sizeof(OatHeader::kOatMagic)); EXPECT_EQ(64291151U, oat_header->GetChecksum()); // Make sure that null data does not reset the checksum. oat_header->UpdateChecksum(nullptr, 0); EXPECT_EQ(64291151U, oat_header->GetChecksum()); oat_header->UpdateChecksum(OatHeader::kOatMagic, sizeof(OatHeader::kOatMagic)); EXPECT_EQ(216138397U, oat_header->GetChecksum()); } } // namespace art