/* * Copyright (C) 2015 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 "flatten/TableFlattener.h" #include "android-base/stringprintf.h" #include "ResourceUtils.h" #include "SdkConstants.h" #include "test/Test.h" #include "unflatten/BinaryResourceParser.h" #include "util/Util.h" using namespace android; namespace aapt { class TableFlattenerTest : public ::testing::Test { public: void SetUp() override { context_ = test::ContextBuilder() .SetCompilationPackage("com.app.test") .SetPackageId(0x7f) .Build(); } ::testing::AssertionResult Flatten(IAaptContext* context, const TableFlattenerOptions& options, ResourceTable* table, std::string* out_content) { BigBuffer buffer(1024); TableFlattener flattener(options, &buffer); if (!flattener.Consume(context, table)) { return ::testing::AssertionFailure() << "failed to flatten ResourceTable"; } *out_content = buffer.to_string(); return ::testing::AssertionSuccess(); } ::testing::AssertionResult Flatten(IAaptContext* context, const TableFlattenerOptions& options, ResourceTable* table, ResTable* out_table) { std::string content; auto result = Flatten(context, options, table, &content); if (!result) { return result; } if (out_table->add(content.data(), content.size(), 1, true) != NO_ERROR) { return ::testing::AssertionFailure() << "flattened ResTable is corrupt"; } return ::testing::AssertionSuccess(); } ::testing::AssertionResult Flatten(IAaptContext* context, const TableFlattenerOptions& options, ResourceTable* table, ResourceTable* out_table) { std::string content; auto result = Flatten(context, options, table, &content); if (!result) { return result; } BinaryResourceParser parser(context, out_table, {}, content.data(), content.size()); if (!parser.Parse()) { return ::testing::AssertionFailure() << "flattened ResTable is corrupt"; } return ::testing::AssertionSuccess(); } ::testing::AssertionResult Exists(ResTable* table, const StringPiece& expected_name, const ResourceId& expected_id, const ConfigDescription& expected_config, const uint8_t expected_data_type, const uint32_t expected_data, const uint32_t expected_spec_flags) { const ResourceName expected_res_name = test::ParseNameOrDie(expected_name); table->setParameters(&expected_config); ResTable_config config; Res_value val; uint32_t spec_flags; if (table->getResource(expected_id.id, &val, false, 0, &spec_flags, &config) < 0) { return ::testing::AssertionFailure() << "could not find resource with"; } if (expected_data_type != val.dataType) { return ::testing::AssertionFailure() << "expected data type " << std::hex << (int)expected_data_type << " but got data type " << (int)val.dataType << std::dec << " instead"; } if (expected_data != val.data) { return ::testing::AssertionFailure() << "expected data " << std::hex << expected_data << " but got data " << val.data << std::dec << " instead"; } if (expected_spec_flags != spec_flags) { return ::testing::AssertionFailure() << "expected specFlags " << std::hex << expected_spec_flags << " but got specFlags " << spec_flags << std::dec << " instead"; } ResTable::resource_name actual_name; if (!table->getResourceName(expected_id.id, false, &actual_name)) { return ::testing::AssertionFailure() << "failed to find resource name"; } Maybe resName = ResourceUtils::ToResourceName(actual_name); if (!resName) { return ::testing::AssertionFailure() << "expected name '" << expected_res_name << "' but got '" << StringPiece16(actual_name.package, actual_name.packageLen) << ":" << StringPiece16(actual_name.type, actual_name.typeLen) << "/" << StringPiece16(actual_name.name, actual_name.nameLen) << "'"; } if (expected_config != config) { return ::testing::AssertionFailure() << "expected config '" << expected_config << "' but got '" << ConfigDescription(config) << "'"; } return ::testing::AssertionSuccess(); } protected: std::unique_ptr context_; }; TEST_F(TableFlattenerTest, FlattenFullyLinkedTable) { std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId("com.app.test", 0x7f) .AddSimple("com.app.test:id/one", ResourceId(0x7f020000)) .AddSimple("com.app.test:id/two", ResourceId(0x7f020001)) .AddValue("com.app.test:id/three", ResourceId(0x7f020002), test::BuildReference("com.app.test:id/one", ResourceId(0x7f020000))) .AddValue("com.app.test:integer/one", ResourceId(0x7f030000), util::make_unique( uint8_t(Res_value::TYPE_INT_DEC), 1u)) .AddValue("com.app.test:integer/one", test::ParseConfigOrDie("v1"), ResourceId(0x7f030000), util::make_unique( uint8_t(Res_value::TYPE_INT_DEC), 2u)) .AddString("com.app.test:string/test", ResourceId(0x7f040000), "foo") .AddString("com.app.test:layout/bar", ResourceId(0x7f050000), "res/layout/bar.xml") .Build(); ResTable res_table; ASSERT_TRUE(Flatten(context_.get(), {}, table.get(), &res_table)); EXPECT_TRUE(Exists(&res_table, "com.app.test:id/one", ResourceId(0x7f020000), {}, Res_value::TYPE_INT_BOOLEAN, 0u, 0u)); EXPECT_TRUE(Exists(&res_table, "com.app.test:id/two", ResourceId(0x7f020001), {}, Res_value::TYPE_INT_BOOLEAN, 0u, 0u)); EXPECT_TRUE(Exists(&res_table, "com.app.test:id/three", ResourceId(0x7f020002), {}, Res_value::TYPE_REFERENCE, 0x7f020000u, 0u)); EXPECT_TRUE(Exists(&res_table, "com.app.test:integer/one", ResourceId(0x7f030000), {}, Res_value::TYPE_INT_DEC, 1u, ResTable_config::CONFIG_VERSION)); EXPECT_TRUE(Exists(&res_table, "com.app.test:integer/one", ResourceId(0x7f030000), test::ParseConfigOrDie("v1"), Res_value::TYPE_INT_DEC, 2u, ResTable_config::CONFIG_VERSION)); std::u16string foo_str = u"foo"; ssize_t idx = res_table.getTableStringBlock(0)->indexOfString(foo_str.data(), foo_str.size()); ASSERT_GE(idx, 0); EXPECT_TRUE(Exists(&res_table, "com.app.test:string/test", ResourceId(0x7f040000), {}, Res_value::TYPE_STRING, (uint32_t)idx, 0u)); std::u16string bar_path = u"res/layout/bar.xml"; idx = res_table.getTableStringBlock(0)->indexOfString(bar_path.data(), bar_path.size()); ASSERT_GE(idx, 0); EXPECT_TRUE(Exists(&res_table, "com.app.test:layout/bar", ResourceId(0x7f050000), {}, Res_value::TYPE_STRING, (uint32_t)idx, 0u)); } TEST_F(TableFlattenerTest, FlattenEntriesWithGapsInIds) { std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId("com.app.test", 0x7f) .AddSimple("com.app.test:id/one", ResourceId(0x7f020001)) .AddSimple("com.app.test:id/three", ResourceId(0x7f020003)) .Build(); ResTable res_table; ASSERT_TRUE(Flatten(context_.get(), {}, table.get(), &res_table)); EXPECT_TRUE(Exists(&res_table, "com.app.test:id/one", ResourceId(0x7f020001), {}, Res_value::TYPE_INT_BOOLEAN, 0u, 0u)); EXPECT_TRUE(Exists(&res_table, "com.app.test:id/three", ResourceId(0x7f020003), {}, Res_value::TYPE_INT_BOOLEAN, 0u, 0u)); } TEST_F(TableFlattenerTest, FlattenMinMaxAttributes) { Attribute attr(false); attr.type_mask = android::ResTable_map::TYPE_INTEGER; attr.min_int = 10; attr.max_int = 23; std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId("android", 0x01) .AddValue("android:attr/foo", ResourceId(0x01010000), util::make_unique(attr)) .Build(); ResourceTable result; ASSERT_TRUE(Flatten(context_.get(), {}, table.get(), &result)); Attribute* actualAttr = test::GetValue(&result, "android:attr/foo"); ASSERT_NE(nullptr, actualAttr); EXPECT_EQ(attr.IsWeak(), actualAttr->IsWeak()); EXPECT_EQ(attr.type_mask, actualAttr->type_mask); EXPECT_EQ(attr.min_int, actualAttr->min_int); EXPECT_EQ(attr.max_int, actualAttr->max_int); } static std::unique_ptr BuildTableWithSparseEntries( IAaptContext* context, const ConfigDescription& sparse_config, float load) { std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId(context->GetCompilationPackage(), context->GetPackageId()) .Build(); // Add regular entries. int stride = static_cast(1.0f / load); for (int i = 0; i < 100; i++) { const ResourceName name = test::ParseNameOrDie( base::StringPrintf("%s:string/foo_%d", context->GetCompilationPackage().data(), i)); const ResourceId resid(context->GetPackageId(), 0x02, static_cast(i)); const auto value = util::make_unique(Res_value::TYPE_INT_DEC, static_cast(i)); CHECK(table->AddResource(name, resid, ConfigDescription::DefaultConfig(), "", std::unique_ptr(value->Clone(nullptr)), context->GetDiagnostics())); // Every few entries, write out a sparse_config value. This will give us the desired load. if (i % stride == 0) { CHECK(table->AddResource(name, resid, sparse_config, "", std::unique_ptr(value->Clone(nullptr)), context->GetDiagnostics())); } } return table; } TEST_F(TableFlattenerTest, FlattenSparseEntryWithMinSdkO) { std::unique_ptr context = test::ContextBuilder() .SetCompilationPackage("android") .SetPackageId(0x01) .SetMinSdkVersion(SDK_O) .Build(); const ConfigDescription sparse_config = test::ParseConfigOrDie("en-rGB"); auto table_in = BuildTableWithSparseEntries(context.get(), sparse_config, 0.25f); TableFlattenerOptions options; options.use_sparse_entries = true; std::string no_sparse_contents; ASSERT_TRUE(Flatten(context.get(), {}, table_in.get(), &no_sparse_contents)); std::string sparse_contents; ASSERT_TRUE(Flatten(context.get(), options, table_in.get(), &sparse_contents)); EXPECT_GT(no_sparse_contents.size(), sparse_contents.size()); // Attempt to parse the sparse contents. ResourceTable sparse_table; BinaryResourceParser parser(context.get(), &sparse_table, Source("test.arsc"), sparse_contents.data(), sparse_contents.size()); ASSERT_TRUE(parser.Parse()); auto value = test::GetValueForConfig(&sparse_table, "android:string/foo_0", sparse_config); ASSERT_NE(nullptr, value); EXPECT_EQ(0u, value->value.data); ASSERT_EQ(nullptr, test::GetValueForConfig(&sparse_table, "android:string/foo_1", sparse_config)); value = test::GetValueForConfig(&sparse_table, "android:string/foo_4", sparse_config); ASSERT_NE(nullptr, value); EXPECT_EQ(4u, value->value.data); } TEST_F(TableFlattenerTest, FlattenSparseEntryWithConfigSdkVersionO) { std::unique_ptr context = test::ContextBuilder() .SetCompilationPackage("android") .SetPackageId(0x01) .SetMinSdkVersion(SDK_LOLLIPOP) .Build(); const ConfigDescription sparse_config = test::ParseConfigOrDie("en-rGB-v26"); auto table_in = BuildTableWithSparseEntries(context.get(), sparse_config, 0.25f); TableFlattenerOptions options; options.use_sparse_entries = true; std::string no_sparse_contents; ASSERT_TRUE(Flatten(context.get(), {}, table_in.get(), &no_sparse_contents)); std::string sparse_contents; ASSERT_TRUE(Flatten(context.get(), options, table_in.get(), &sparse_contents)); EXPECT_GT(no_sparse_contents.size(), sparse_contents.size()); } TEST_F(TableFlattenerTest, DoNotUseSparseEntryForDenseConfig) { std::unique_ptr context = test::ContextBuilder() .SetCompilationPackage("android") .SetPackageId(0x01) .SetMinSdkVersion(SDK_O) .Build(); const ConfigDescription sparse_config = test::ParseConfigOrDie("en-rGB"); auto table_in = BuildTableWithSparseEntries(context.get(), sparse_config, 0.80f); TableFlattenerOptions options; options.use_sparse_entries = true; std::string no_sparse_contents; ASSERT_TRUE(Flatten(context.get(), {}, table_in.get(), &no_sparse_contents)); std::string sparse_contents; ASSERT_TRUE(Flatten(context.get(), options, table_in.get(), &sparse_contents)); EXPECT_EQ(no_sparse_contents.size(), sparse_contents.size()); } TEST_F(TableFlattenerTest, FlattenSharedLibrary) { std::unique_ptr context = test::ContextBuilder().SetCompilationPackage("lib").SetPackageId(0x00).Build(); std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId("lib", 0x00) .AddValue("lib:id/foo", ResourceId(0x00010000), util::make_unique()) .Build(); ResourceTable result; ASSERT_TRUE(Flatten(context.get(), {}, table.get(), &result)); Maybe search_result = result.FindResource(test::ParseNameOrDie("lib:id/foo")); AAPT_ASSERT_TRUE(search_result); EXPECT_EQ(0x00u, search_result.value().package->id.value()); auto iter = result.included_packages_.find(0x00); ASSERT_NE(result.included_packages_.end(), iter); EXPECT_EQ("lib", iter->second); } TEST_F(TableFlattenerTest, FlattenTableReferencingSharedLibraries) { std::unique_ptr context = test::ContextBuilder().SetCompilationPackage("app").SetPackageId(0x7f).Build(); std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId("app", 0x7f) .AddValue("app:id/foo", ResourceId(0x7f010000), test::BuildReference("lib_one:id/foo", ResourceId(0x02010000))) .AddValue("app:id/bar", ResourceId(0x7f010001), test::BuildReference("lib_two:id/bar", ResourceId(0x03010000))) .Build(); table->included_packages_[0x02] = "lib_one"; table->included_packages_[0x03] = "lib_two"; ResTable result; ASSERT_TRUE(Flatten(context.get(), {}, table.get(), &result)); const DynamicRefTable* dynamic_ref_table = result.getDynamicRefTableForCookie(1); ASSERT_NE(nullptr, dynamic_ref_table); const KeyedVector& entries = dynamic_ref_table->entries(); ssize_t idx = entries.indexOfKey(android::String16("lib_one")); ASSERT_GE(idx, 0); EXPECT_EQ(0x02u, entries.valueAt(idx)); idx = entries.indexOfKey(android::String16("lib_two")); ASSERT_GE(idx, 0); EXPECT_EQ(0x03u, entries.valueAt(idx)); } TEST_F(TableFlattenerTest, PackageWithNonStandardIdHasDynamicRefTable) { std::unique_ptr context = test::ContextBuilder().SetCompilationPackage("app").SetPackageId(0x80).Build(); std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId("app", 0x80) .AddSimple("app:id/foo", ResourceId(0x80010000)) .Build(); ResTable result; ASSERT_TRUE(Flatten(context.get(), {}, table.get(), &result)); const DynamicRefTable* dynamic_ref_table = result.getDynamicRefTableForCookie(1); ASSERT_NE(nullptr, dynamic_ref_table); const KeyedVector& entries = dynamic_ref_table->entries(); ssize_t idx = entries.indexOfKey(android::String16("app")); ASSERT_GE(idx, 0); EXPECT_EQ(0x80u, entries.valueAt(idx)); } TEST_F(TableFlattenerTest, LongPackageNameIsTruncated) { std::string kPackageName(256, 'F'); std::unique_ptr context = test::ContextBuilder().SetCompilationPackage(kPackageName).SetPackageId(0x7f).Build(); std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId(kPackageName, 0x7f) .AddSimple(kPackageName + ":id/foo", ResourceId(0x7f010000)) .Build(); ResTable result; ASSERT_TRUE(Flatten(context.get(), {}, table.get(), &result)); ASSERT_EQ(1u, result.getBasePackageCount()); EXPECT_EQ(127u, result.getBasePackageName(0).size()); } TEST_F(TableFlattenerTest, LongSharedLibraryPackageNameIsIllegal) { std::string kPackageName(256, 'F'); std::unique_ptr context = test::ContextBuilder() .SetCompilationPackage(kPackageName) .SetPackageId(0x7f) .SetPackageType(PackageType::kSharedLib) .Build(); std::unique_ptr table = test::ResourceTableBuilder() .SetPackageId(kPackageName, 0x7f) .AddSimple(kPackageName + ":id/foo", ResourceId(0x7f010000)) .Build(); ResTable result; ASSERT_FALSE(Flatten(context.get(), {}, table.get(), &result)); } } // namespace aapt