tools/aapt2/proto/TableProtoSerializer_test.cpp - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2016 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 "proto/ProtoSerialize.h"

 #include "ResourceTable.h"
 #include "test/Test.h"

 using ::google::protobuf::io::StringOutputStream;
 using ::testing::Eq;
 using ::testing::NotNull;
 using ::testing::SizeIs;

 namespace aapt {

 TEST(TableProtoSerializer, SerializeSinglePackage) {
   std::unique_ptr<IAaptContext> context = test::ContextBuilder().Build();
   std::unique_ptr<ResourceTable> table =
       test::ResourceTableBuilder()
           .SetPackageId("com.app.a", 0x7f)
           .AddFileReference("com.app.a:layout/main", ResourceId(0x7f020000), "res/layout/main.xml")
           .AddReference("com.app.a:layout/other", ResourceId(0x7f020001), "com.app.a:layout/main")
           .AddString("com.app.a:string/text", {}, "hi")
           .AddValue("com.app.a:id/foo", {}, util::make_unique<Id>())
           .SetSymbolState("com.app.a:bool/foo", {}, SymbolState::kUndefined, true /*allow_new*/)
           .Build();

   Symbol public_symbol;
   public_symbol.state = SymbolState::kPublic;
   ASSERT_TRUE(table->SetSymbolState(test::ParseNameOrDie("com.app.a:layout/main"),
                                     ResourceId(0x7f020000), public_symbol,
                                     context->GetDiagnostics()));

   Id* id = test::GetValue<Id>(table.get(), "com.app.a:id/foo");
   ASSERT_THAT(id, NotNull());

   // Make a plural.
   std::unique_ptr<Plural> plural = util::make_unique<Plural>();
   plural->values[Plural::One] = util::make_unique<String>(table->string_pool.MakeRef("one"));
   ASSERT_TRUE(table->AddResource(test::ParseNameOrDie("com.app.a:plurals/hey"),
                                  ConfigDescription{}, {}, std::move(plural),
                                  context->GetDiagnostics()));

   // Make a styled string.
   StyleString style_string;
   style_string.str = "hello";
   style_string.spans.push_back(Span{"b", 0u, 4u});
   ASSERT_TRUE(
       table->AddResource(test::ParseNameOrDie("com.app.a:string/styled"), ConfigDescription{}, {},
                          util::make_unique<StyledString>(table->string_pool.MakeRef(style_string)),
                          context->GetDiagnostics()));

   // Make a resource with different products.
   ASSERT_TRUE(table->AddResource(
       test::ParseNameOrDie("com.app.a:integer/one"),
       test::ParseConfigOrDie("land"), {},
       test::BuildPrimitive(android::Res_value::TYPE_INT_DEC, 123u),
       context->GetDiagnostics()));
   ASSERT_TRUE(table->AddResource(
       test::ParseNameOrDie("com.app.a:integer/one"),
       test::ParseConfigOrDie("land"), "tablet",
       test::BuildPrimitive(android::Res_value::TYPE_INT_DEC, 321u),
       context->GetDiagnostics()));

   // Make a reference with both resource name and resource ID.
   // The reference should point to a resource outside of this table to test that both name and id
   // get serialized.
   Reference expected_ref;
   expected_ref.name = test::ParseNameOrDie("android:layout/main");
   expected_ref.id = ResourceId(0x01020000);
   ASSERT_TRUE(table->AddResource(test::ParseNameOrDie("com.app.a:layout/abc"),
                                  ConfigDescription::DefaultConfig(), {},
                                  util::make_unique<Reference>(expected_ref),
                                  context->GetDiagnostics()));

   std::unique_ptr<pb::ResourceTable> pb_table = SerializeTableToPb(table.get());
   ASSERT_THAT(pb_table, NotNull());

   std::unique_ptr<ResourceTable> new_table = DeserializeTableFromPb(
       *pb_table, Source{"test"}, context->GetDiagnostics());
   ASSERT_THAT(new_table, NotNull());

   Id* new_id = test::GetValue<Id>(new_table.get(), "com.app.a:id/foo");
   ASSERT_THAT(new_id, NotNull());
   EXPECT_THAT(new_id->IsWeak(), Eq(id->IsWeak()));

   Maybe<ResourceTable::SearchResult> result =
       new_table->FindResource(test::ParseNameOrDie("com.app.a:layout/main"));
   ASSERT_TRUE(result);

   EXPECT_THAT(result.value().type->symbol_status.state, Eq(SymbolState::kPublic));
   EXPECT_THAT(result.value().entry->symbol_status.state, Eq(SymbolState::kPublic));

   result = new_table->FindResource(test::ParseNameOrDie("com.app.a:bool/foo"));
   ASSERT_TRUE(result);
   EXPECT_THAT(result.value().entry->symbol_status.state, Eq(SymbolState::kUndefined));
   EXPECT_TRUE(result.value().entry->symbol_status.allow_new);

   // Find the product-dependent values
   BinaryPrimitive* prim = test::GetValueForConfigAndProduct<BinaryPrimitive>(
       new_table.get(), "com.app.a:integer/one", test::ParseConfigOrDie("land"), "");
   ASSERT_THAT(prim, NotNull());
   EXPECT_THAT(prim->value.data, Eq(123u));

   prim = test::GetValueForConfigAndProduct<BinaryPrimitive>(
       new_table.get(), "com.app.a:integer/one", test::ParseConfigOrDie("land"), "tablet");
   ASSERT_THAT(prim, NotNull());
   EXPECT_THAT(prim->value.data, Eq(321u));

   Reference* actual_ref = test::GetValue<Reference>(new_table.get(), "com.app.a:layout/abc");
   ASSERT_THAT(actual_ref, NotNull());
   ASSERT_TRUE(actual_ref->name);
   ASSERT_TRUE(actual_ref->id);
   EXPECT_THAT(*actual_ref, Eq(expected_ref));

   StyledString* actual_styled_str =
       test::GetValue<StyledString>(new_table.get(), "com.app.a:string/styled");
   ASSERT_THAT(actual_styled_str, NotNull());
   EXPECT_THAT(actual_styled_str->value->value, Eq("hello"));
   ASSERT_THAT(actual_styled_str->value->spans, SizeIs(1u));
   EXPECT_THAT(*actual_styled_str->value->spans[0].name, Eq("b"));
   EXPECT_THAT(actual_styled_str->value->spans[0].first_char, Eq(0u));
   EXPECT_THAT(actual_styled_str->value->spans[0].last_char, Eq(4u));
 }

 TEST(TableProtoSerializer, SerializeFileHeader) {
   std::unique_ptr<IAaptContext> context = test::ContextBuilder().Build();

   ResourceFile f;
   f.config = test::ParseConfigOrDie("hdpi-v9");
   f.name = test::ParseNameOrDie("com.app.a:layout/main");
   f.source.path = "res/layout-hdpi-v9/main.xml";
   f.exported_symbols.push_back(
       SourcedResourceName{test::ParseNameOrDie("id/unchecked"), 23u});

   const std::string expected_data1 = "123";
   const std::string expected_data2 = "1234";

   std::string output_str;
   {
     std::unique_ptr<pb::internal::CompiledFile> pb_file1 = SerializeCompiledFileToPb(f);

     f.name.entry = "__" + f.name.entry + "$0";
     std::unique_ptr<pb::internal::CompiledFile> pb_file2 = SerializeCompiledFileToPb(f);

     StringOutputStream out_stream(&output_str);
     CompiledFileOutputStream out_file_stream(&out_stream);
     out_file_stream.WriteLittleEndian32(2);
     out_file_stream.WriteCompiledFile(pb_file1.get());
     out_file_stream.WriteData(expected_data1.data(), expected_data1.size());
     out_file_stream.WriteCompiledFile(pb_file2.get());
     out_file_stream.WriteData(expected_data2.data(), expected_data2.size());
     ASSERT_FALSE(out_file_stream.HadError());
   }

   CompiledFileInputStream in_file_stream(output_str.data(), output_str.size());
   uint32_t num_files = 0;
   ASSERT_TRUE(in_file_stream.ReadLittleEndian32(&num_files));
   ASSERT_EQ(2u, num_files);

   // Read the first compiled file.

   pb::internal::CompiledFile new_pb_file;
   ASSERT_TRUE(in_file_stream.ReadCompiledFile(&new_pb_file));

   std::unique_ptr<ResourceFile> file = DeserializeCompiledFileFromPb(
       new_pb_file, Source("test"), context->GetDiagnostics());
   ASSERT_THAT(file, NotNull());

   uint64_t offset, len;
   ASSERT_TRUE(in_file_stream.ReadDataMetaData(&offset, &len));

   std::string actual_data(output_str.data() + offset, len);
   EXPECT_EQ(expected_data1, actual_data);

   // Expect the data to be aligned.
   EXPECT_EQ(0u, offset & 0x03);

   ASSERT_EQ(1u, file->exported_symbols.size());
   EXPECT_EQ(test::ParseNameOrDie("id/unchecked"), file->exported_symbols[0].name);

   // Read the second compiled file.

   ASSERT_TRUE(in_file_stream.ReadCompiledFile(&new_pb_file));

   file = DeserializeCompiledFileFromPb(new_pb_file, Source("test"), context->GetDiagnostics());
   ASSERT_THAT(file, NotNull());

   ASSERT_TRUE(in_file_stream.ReadDataMetaData(&offset, &len));

   actual_data = std::string(output_str.data() + offset, len);
   EXPECT_EQ(expected_data2, actual_data);

   // Expect the data to be aligned.
   EXPECT_EQ(0u, offset & 0x03);
 }

 TEST(TableProtoSerializer, DeserializeCorruptHeaderSafely) {
   ResourceFile f;
   std::unique_ptr<pb::internal::CompiledFile> pb_file = SerializeCompiledFileToPb(f);

   const std::string expected_data = "1234";

   std::string output_str;
   {
     StringOutputStream out_stream(&output_str);
     CompiledFileOutputStream out_file_stream(&out_stream);
     out_file_stream.WriteLittleEndian32(1);
     out_file_stream.WriteCompiledFile(pb_file.get());
     out_file_stream.WriteData(expected_data.data(), expected_data.size());
     ASSERT_FALSE(out_file_stream.HadError());
   }

   output_str[4] = 0xff;

   CompiledFileInputStream in_file_stream(output_str.data(), output_str.size());

   uint32_t num_files = 0;
   EXPECT_TRUE(in_file_stream.ReadLittleEndian32(&num_files));
   EXPECT_EQ(1u, num_files);

   pb::internal::CompiledFile new_pb_file;
   EXPECT_FALSE(in_file_stream.ReadCompiledFile(&new_pb_file));

   uint64_t offset, len;
   EXPECT_FALSE(in_file_stream.ReadDataMetaData(&offset, &len));
 }

 }  // namespace aapt
	/*
	* Copyright (C) 2016 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 "proto/ProtoSerialize.h"

	#include "ResourceTable.h"
	#include "test/Test.h"

	using ::google::protobuf::io::StringOutputStream;
	using ::testing::Eq;
	using ::testing::NotNull;
	using ::testing::SizeIs;

	namespace aapt {

	TEST(TableProtoSerializer, SerializeSinglePackage) {
	std::unique_ptr<IAaptContext> context = test::ContextBuilder().Build();
	std::unique_ptr<ResourceTable> table =
	test::ResourceTableBuilder()
	.SetPackageId("com.app.a", 0x7f)
	.AddFileReference("com.app.a:layout/main", ResourceId(0x7f020000), "res/layout/main.xml")
	.AddReference("com.app.a:layout/other", ResourceId(0x7f020001), "com.app.a:layout/main")
	.AddString("com.app.a:string/text", {}, "hi")
	.AddValue("com.app.a:id/foo", {}, util::make_unique<Id>())
	.SetSymbolState("com.app.a:bool/foo", {}, SymbolState::kUndefined, true /allow_new/)
	.Build();

	Symbol public_symbol;
	public_symbol.state = SymbolState::kPublic;
	ASSERT_TRUE(table->SetSymbolState(test::ParseNameOrDie("com.app.a:layout/main"),
	ResourceId(0x7f020000), public_symbol,
	context->GetDiagnostics()));

	Id* id = test::GetValue<Id>(table.get(), "com.app.a:id/foo");
	ASSERT_THAT(id, NotNull());

	// Make a plural.
	std::unique_ptr<Plural> plural = util::make_unique<Plural>();
	plural->values[Plural::One] = util::make_unique<String>(table->string_pool.MakeRef("one"));
	ASSERT_TRUE(table->AddResource(test::ParseNameOrDie("com.app.a:plurals/hey"),
	ConfigDescription{}, {}, std::move(plural),
	context->GetDiagnostics()));

	// Make a styled string.
	StyleString style_string;
	style_string.str = "hello";
	style_string.spans.push_back(Span{"b", 0u, 4u});
	ASSERT_TRUE(
	table->AddResource(test::ParseNameOrDie("com.app.a:string/styled"), ConfigDescription{}, {},
	util::make_unique<StyledString>(table->string_pool.MakeRef(style_string)),
	context->GetDiagnostics()));

	// Make a resource with different products.
	ASSERT_TRUE(table->AddResource(
	test::ParseNameOrDie("com.app.a:integer/one"),
	test::ParseConfigOrDie("land"), {},
	test::BuildPrimitive(android::Res_value::TYPE_INT_DEC, 123u),
	context->GetDiagnostics()));
	ASSERT_TRUE(table->AddResource(
	test::ParseNameOrDie("com.app.a:integer/one"),
	test::ParseConfigOrDie("land"), "tablet",
	test::BuildPrimitive(android::Res_value::TYPE_INT_DEC, 321u),
	context->GetDiagnostics()));

	// Make a reference with both resource name and resource ID.
	// The reference should point to a resource outside of this table to test that both name and id
	// get serialized.
	Reference expected_ref;
	expected_ref.name = test::ParseNameOrDie("android:layout/main");
	expected_ref.id = ResourceId(0x01020000);
	ASSERT_TRUE(table->AddResource(test::ParseNameOrDie("com.app.a:layout/abc"),
	ConfigDescription::DefaultConfig(), {},
	util::make_unique<Reference>(expected_ref),
	context->GetDiagnostics()));

	std::unique_ptr<pb::ResourceTable> pb_table = SerializeTableToPb(table.get());
	ASSERT_THAT(pb_table, NotNull());

	std::unique_ptr<ResourceTable> new_table = DeserializeTableFromPb(
	*pb_table, Source{"test"}, context->GetDiagnostics());
	ASSERT_THAT(new_table, NotNull());

	Id* new_id = test::GetValue<Id>(new_table.get(), "com.app.a:id/foo");
	ASSERT_THAT(new_id, NotNull());
	EXPECT_THAT(new_id->IsWeak(), Eq(id->IsWeak()));

	Maybe<ResourceTable::SearchResult> result =
	new_table->FindResource(test::ParseNameOrDie("com.app.a:layout/main"));
	ASSERT_TRUE(result);

	EXPECT_THAT(result.value().type->symbol_status.state, Eq(SymbolState::kPublic));
	EXPECT_THAT(result.value().entry->symbol_status.state, Eq(SymbolState::kPublic));

	result = new_table->FindResource(test::ParseNameOrDie("com.app.a:bool/foo"));
	ASSERT_TRUE(result);
	EXPECT_THAT(result.value().entry->symbol_status.state, Eq(SymbolState::kUndefined));
	EXPECT_TRUE(result.value().entry->symbol_status.allow_new);

	// Find the product-dependent values
	BinaryPrimitive* prim = test::GetValueForConfigAndProduct<BinaryPrimitive>(
	new_table.get(), "com.app.a:integer/one", test::ParseConfigOrDie("land"), "");
	ASSERT_THAT(prim, NotNull());
	EXPECT_THAT(prim->value.data, Eq(123u));

	prim = test::GetValueForConfigAndProduct<BinaryPrimitive>(
	new_table.get(), "com.app.a:integer/one", test::ParseConfigOrDie("land"), "tablet");
	ASSERT_THAT(prim, NotNull());
	EXPECT_THAT(prim->value.data, Eq(321u));

	Reference* actual_ref = test::GetValue<Reference>(new_table.get(), "com.app.a:layout/abc");
	ASSERT_THAT(actual_ref, NotNull());
	ASSERT_TRUE(actual_ref->name);
	ASSERT_TRUE(actual_ref->id);
	EXPECT_THAT(*actual_ref, Eq(expected_ref));

	StyledString* actual_styled_str =
	test::GetValue<StyledString>(new_table.get(), "com.app.a:string/styled");
	ASSERT_THAT(actual_styled_str, NotNull());
	EXPECT_THAT(actual_styled_str->value->value, Eq("hello"));
	ASSERT_THAT(actual_styled_str->value->spans, SizeIs(1u));
	EXPECT_THAT(*actual_styled_str->value->spans[0].name, Eq("b"));
	EXPECT_THAT(actual_styled_str->value->spans[0].first_char, Eq(0u));
	EXPECT_THAT(actual_styled_str->value->spans[0].last_char, Eq(4u));
	}

	TEST(TableProtoSerializer, SerializeFileHeader) {
	std::unique_ptr<IAaptContext> context = test::ContextBuilder().Build();

	ResourceFile f;
	f.config = test::ParseConfigOrDie("hdpi-v9");
	f.name = test::ParseNameOrDie("com.app.a:layout/main");
	f.source.path = "res/layout-hdpi-v9/main.xml";
	f.exported_symbols.push_back(
	SourcedResourceName{test::ParseNameOrDie("id/unchecked"), 23u});

	const std::string expected_data1 = "123";
	const std::string expected_data2 = "1234";

	std::string output_str;
	{
	std::unique_ptr<pb::internal::CompiledFile> pb_file1 = SerializeCompiledFileToPb(f);

	f.name.entry = "__" + f.name.entry + "$0";
	std::unique_ptr<pb::internal::CompiledFile> pb_file2 = SerializeCompiledFileToPb(f);

	StringOutputStream out_stream(&output_str);
	CompiledFileOutputStream out_file_stream(&out_stream);
	out_file_stream.WriteLittleEndian32(2);
	out_file_stream.WriteCompiledFile(pb_file1.get());
	out_file_stream.WriteData(expected_data1.data(), expected_data1.size());
	out_file_stream.WriteCompiledFile(pb_file2.get());
	out_file_stream.WriteData(expected_data2.data(), expected_data2.size());
	ASSERT_FALSE(out_file_stream.HadError());
	}

	CompiledFileInputStream in_file_stream(output_str.data(), output_str.size());
	uint32_t num_files = 0;
	ASSERT_TRUE(in_file_stream.ReadLittleEndian32(&num_files));
	ASSERT_EQ(2u, num_files);

	// Read the first compiled file.

	pb::internal::CompiledFile new_pb_file;
	ASSERT_TRUE(in_file_stream.ReadCompiledFile(&new_pb_file));

	std::unique_ptr<ResourceFile> file = DeserializeCompiledFileFromPb(
	new_pb_file, Source("test"), context->GetDiagnostics());
	ASSERT_THAT(file, NotNull());

	uint64_t offset, len;
	ASSERT_TRUE(in_file_stream.ReadDataMetaData(&offset, &len));

	std::string actual_data(output_str.data() + offset, len);
	EXPECT_EQ(expected_data1, actual_data);

	// Expect the data to be aligned.
	EXPECT_EQ(0u, offset & 0x03);

	ASSERT_EQ(1u, file->exported_symbols.size());
	EXPECT_EQ(test::ParseNameOrDie("id/unchecked"), file->exported_symbols[0].name);

	// Read the second compiled file.

	ASSERT_TRUE(in_file_stream.ReadCompiledFile(&new_pb_file));

	file = DeserializeCompiledFileFromPb(new_pb_file, Source("test"), context->GetDiagnostics());
	ASSERT_THAT(file, NotNull());

	ASSERT_TRUE(in_file_stream.ReadDataMetaData(&offset, &len));

	actual_data = std::string(output_str.data() + offset, len);
	EXPECT_EQ(expected_data2, actual_data);

	// Expect the data to be aligned.
	EXPECT_EQ(0u, offset & 0x03);
	}

	TEST(TableProtoSerializer, DeserializeCorruptHeaderSafely) {
	ResourceFile f;
	std::unique_ptr<pb::internal::CompiledFile> pb_file = SerializeCompiledFileToPb(f);

	const std::string expected_data = "1234";

	std::string output_str;
	{
	StringOutputStream out_stream(&output_str);
	CompiledFileOutputStream out_file_stream(&out_stream);
	out_file_stream.WriteLittleEndian32(1);
	out_file_stream.WriteCompiledFile(pb_file.get());
	out_file_stream.WriteData(expected_data.data(), expected_data.size());
	ASSERT_FALSE(out_file_stream.HadError());
	}

	output_str[4] = 0xff;

	CompiledFileInputStream in_file_stream(output_str.data(), output_str.size());

	uint32_t num_files = 0;
	EXPECT_TRUE(in_file_stream.ReadLittleEndian32(&num_files));
	EXPECT_EQ(1u, num_files);

	pb::internal::CompiledFile new_pb_file;
	EXPECT_FALSE(in_file_stream.ReadCompiledFile(&new_pb_file));

	uint64_t offset, len;
	EXPECT_FALSE(in_file_stream.ReadDataMetaData(&offset, &len));
	}

	} // namespace aapt