// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "dbus/values_util.h" #include #include #include #include #include #include #include "base/json/json_writer.h" #include "base/macros.h" #include "base/values.h" #include "dbus/message.h" #include "testing/gtest/include/gtest/gtest.h" namespace dbus { TEST(ValuesUtilTest, PopBasicTypes) { std::unique_ptr response(Response::CreateEmpty()); // Append basic type values. MessageWriter writer(response.get()); const uint8_t kByteValue = 42; writer.AppendByte(kByteValue); const bool kBoolValue = true; writer.AppendBool(kBoolValue); const int16_t kInt16Value = -43; writer.AppendInt16(kInt16Value); const uint16_t kUint16Value = 44; writer.AppendUint16(kUint16Value); const int32_t kInt32Value = -45; writer.AppendInt32(kInt32Value); const uint32_t kUint32Value = 46; writer.AppendUint32(kUint32Value); const int64_t kInt64Value = -47; writer.AppendInt64(kInt64Value); const uint64_t kUint64Value = 48; writer.AppendUint64(kUint64Value); const double kDoubleValue = 4.9; writer.AppendDouble(kDoubleValue); const std::string kStringValue = "fifty"; writer.AppendString(kStringValue); const std::string kEmptyStringValue; writer.AppendString(kEmptyStringValue); const ObjectPath kObjectPathValue("/ObjectPath"); writer.AppendObjectPath(kObjectPathValue); MessageReader reader(response.get()); std::unique_ptr value; std::unique_ptr expected_value; // Pop a byte. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kByteValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a bool. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kBoolValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop an int16_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kInt16Value)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a uint16_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kUint16Value)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop an int32_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kInt32Value)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a uint32_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(static_cast(kUint32Value))); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop an int64_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(static_cast(kInt64Value))); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a uint64_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(static_cast(kUint64Value))); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a double. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kDoubleValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a string. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kStringValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop an empty string. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kEmptyStringValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop an object path. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kObjectPathValue.value())); EXPECT_TRUE(value->Equals(expected_value.get())); } TEST(ValuesUtilTest, PopVariant) { std::unique_ptr response(Response::CreateEmpty()); // Append variant values. MessageWriter writer(response.get()); const bool kBoolValue = true; writer.AppendVariantOfBool(kBoolValue); const int32_t kInt32Value = -45; writer.AppendVariantOfInt32(kInt32Value); const double kDoubleValue = 4.9; writer.AppendVariantOfDouble(kDoubleValue); const std::string kStringValue = "fifty"; writer.AppendVariantOfString(kStringValue); MessageReader reader(response.get()); std::unique_ptr value; std::unique_ptr expected_value; // Pop a bool. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kBoolValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop an int32_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kInt32Value)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a double. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kDoubleValue)); EXPECT_TRUE(value->Equals(expected_value.get())); // Pop a string. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(kStringValue)); EXPECT_TRUE(value->Equals(expected_value.get())); } // Pop extremely large integers which cannot be precisely represented in // double. TEST(ValuesUtilTest, PopExtremelyLargeIntegers) { std::unique_ptr response(Response::CreateEmpty()); // Append large integers. MessageWriter writer(response.get()); const int64_t kInt64Value = -123456789012345689LL; writer.AppendInt64(kInt64Value); const uint64_t kUint64Value = 9876543210987654321ULL; writer.AppendUint64(kUint64Value); MessageReader reader(response.get()); std::unique_ptr value; std::unique_ptr expected_value; double double_value = 0; // Pop an int64_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(static_cast(kInt64Value))); EXPECT_TRUE(value->Equals(expected_value.get())); ASSERT_TRUE(value->GetAsDouble(&double_value)); EXPECT_NE(kInt64Value, static_cast(double_value)); // Pop a uint64_t. value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); expected_value.reset(new base::Value(static_cast(kUint64Value))); EXPECT_TRUE(value->Equals(expected_value.get())); ASSERT_TRUE(value->GetAsDouble(&double_value)); EXPECT_NE(kUint64Value, static_cast(double_value)); } TEST(ValuesUtilTest, PopIntArray) { std::unique_ptr response(Response::CreateEmpty()); // Append an int32_t array. MessageWriter writer(response.get()); MessageWriter sub_writer(nullptr); std::vector data; data.push_back(0); data.push_back(1); data.push_back(2); writer.OpenArray("i", &sub_writer); for (size_t i = 0; i != data.size(); ++i) sub_writer.AppendInt32(data[i]); writer.CloseContainer(&sub_writer); // Create the expected value. std::unique_ptr list_value(new base::ListValue); for (size_t i = 0; i != data.size(); ++i) list_value->AppendInteger(data[i]); // Pop an int32_t array. MessageReader reader(response.get()); std::unique_ptr value(PopDataAsValue(&reader)); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(list_value.get())); } TEST(ValuesUtilTest, PopStringArray) { std::unique_ptr response(Response::CreateEmpty()); // Append a string array. MessageWriter writer(response.get()); MessageWriter sub_writer(nullptr); std::vector data; data.push_back("Dreamlifter"); data.push_back("Beluga"); data.push_back("Mriya"); writer.AppendArrayOfStrings(data); // Create the expected value. std::unique_ptr list_value(new base::ListValue); for (size_t i = 0; i != data.size(); ++i) list_value->AppendString(data[i]); // Pop a string array. MessageReader reader(response.get()); std::unique_ptr value(PopDataAsValue(&reader)); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(list_value.get())); } TEST(ValuesUtilTest, PopStruct) { std::unique_ptr response(Response::CreateEmpty()); // Append a struct. MessageWriter writer(response.get()); MessageWriter sub_writer(nullptr); writer.OpenStruct(&sub_writer); const bool kBoolValue = true; sub_writer.AppendBool(kBoolValue); const int32_t kInt32Value = -123; sub_writer.AppendInt32(kInt32Value); const double kDoubleValue = 1.23; sub_writer.AppendDouble(kDoubleValue); const std::string kStringValue = "one two three"; sub_writer.AppendString(kStringValue); writer.CloseContainer(&sub_writer); // Create the expected value. base::ListValue list_value; list_value.AppendBoolean(kBoolValue); list_value.AppendInteger(kInt32Value); list_value.AppendDouble(kDoubleValue); list_value.AppendString(kStringValue); // Pop a struct. MessageReader reader(response.get()); std::unique_ptr value(PopDataAsValue(&reader)); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&list_value)); } TEST(ValuesUtilTest, PopStringToVariantDictionary) { std::unique_ptr response(Response::CreateEmpty()); // Append a dictionary. MessageWriter writer(response.get()); MessageWriter sub_writer(nullptr); MessageWriter entry_writer(nullptr); writer.OpenArray("{sv}", &sub_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey1 = "one"; entry_writer.AppendString(kKey1); const bool kBoolValue = true; entry_writer.AppendVariantOfBool(kBoolValue); sub_writer.CloseContainer(&entry_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey2 = "two"; entry_writer.AppendString(kKey2); const int32_t kInt32Value = -45; entry_writer.AppendVariantOfInt32(kInt32Value); sub_writer.CloseContainer(&entry_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey3 = "three"; entry_writer.AppendString(kKey3); const double kDoubleValue = 4.9; entry_writer.AppendVariantOfDouble(kDoubleValue); sub_writer.CloseContainer(&entry_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey4 = "four"; entry_writer.AppendString(kKey4); const std::string kStringValue = "fifty"; entry_writer.AppendVariantOfString(kStringValue); sub_writer.CloseContainer(&entry_writer); writer.CloseContainer(&sub_writer); // Create the expected value. base::DictionaryValue dictionary_value; dictionary_value.SetBoolean(kKey1, kBoolValue); dictionary_value.SetInteger(kKey2, kInt32Value); dictionary_value.SetDouble(kKey3, kDoubleValue); dictionary_value.SetString(kKey4, kStringValue); // Pop a dictinoary. MessageReader reader(response.get()); std::unique_ptr value(PopDataAsValue(&reader)); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&dictionary_value)); } TEST(ValuesUtilTest, PopDictionaryWithDottedStringKey) { std::unique_ptr response(Response::CreateEmpty()); // Append a dictionary. MessageWriter writer(response.get()); MessageWriter sub_writer(nullptr); MessageWriter entry_writer(nullptr); writer.OpenArray("{sv}", &sub_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey1 = "www.example.com"; // String including dots. entry_writer.AppendString(kKey1); const bool kBoolValue = true; entry_writer.AppendVariantOfBool(kBoolValue); sub_writer.CloseContainer(&entry_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey2 = ".example"; // String starting with a dot. entry_writer.AppendString(kKey2); const int32_t kInt32Value = -45; entry_writer.AppendVariantOfInt32(kInt32Value); sub_writer.CloseContainer(&entry_writer); sub_writer.OpenDictEntry(&entry_writer); const std::string kKey3 = "example."; // String ending with a dot. entry_writer.AppendString(kKey3); const double kDoubleValue = 4.9; entry_writer.AppendVariantOfDouble(kDoubleValue); sub_writer.CloseContainer(&entry_writer); writer.CloseContainer(&sub_writer); // Create the expected value. base::DictionaryValue dictionary_value; dictionary_value.SetKey(kKey1, base::Value(kBoolValue)); dictionary_value.SetKey(kKey2, base::Value(kInt32Value)); dictionary_value.SetKey(kKey3, base::Value(kDoubleValue)); // Pop a dictinoary. MessageReader reader(response.get()); std::unique_ptr value(PopDataAsValue(&reader)); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&dictionary_value)); } TEST(ValuesUtilTest, PopDoubleToIntDictionary) { // Create test data. const int32_t kValues[] = {0, 1, 1, 2, 3, 5, 8, 13, 21}; const std::vector values(kValues, kValues + arraysize(kValues)); std::vector keys(values.size()); for (size_t i = 0; i != values.size(); ++i) keys[i] = std::sqrt(values[i]); // Append a dictionary. std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); MessageWriter sub_writer(nullptr); writer.OpenArray("{di}", &sub_writer); for (size_t i = 0; i != values.size(); ++i) { MessageWriter entry_writer(nullptr); sub_writer.OpenDictEntry(&entry_writer); entry_writer.AppendDouble(keys[i]); entry_writer.AppendInt32(values[i]); sub_writer.CloseContainer(&entry_writer); } writer.CloseContainer(&sub_writer); // Create the expected value. base::DictionaryValue dictionary_value; for (size_t i = 0; i != values.size(); ++i) { std::string key_string; base::JSONWriter::Write(base::Value(keys[i]), &key_string); dictionary_value.SetKey(key_string, base::Value(values[i])); } // Pop a dictionary. MessageReader reader(response.get()); std::unique_ptr value(PopDataAsValue(&reader)); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&dictionary_value)); } TEST(ValuesUtilTest, AppendBasicTypes) { const base::Value kBoolValue(false); const base::Value kIntegerValue(42); const base::Value kDoubleValue(4.2); const base::Value kStringValue("string"); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendBasicTypeValueData(&writer, kBoolValue); AppendBasicTypeValueData(&writer, kIntegerValue); AppendBasicTypeValueData(&writer, kDoubleValue); AppendBasicTypeValueData(&writer, kStringValue); MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kBoolValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kIntegerValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kDoubleValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kStringValue)); } TEST(ValuesUtilTest, AppendBasicTypesAsVariant) { const base::Value kBoolValue(false); const base::Value kIntegerValue(42); const base::Value kDoubleValue(4.2); const base::Value kStringValue("string"); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendBasicTypeValueDataAsVariant(&writer, kBoolValue); AppendBasicTypeValueDataAsVariant(&writer, kIntegerValue); AppendBasicTypeValueDataAsVariant(&writer, kDoubleValue); AppendBasicTypeValueDataAsVariant(&writer, kStringValue); MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kBoolValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kIntegerValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kDoubleValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kStringValue)); } TEST(ValuesUtilTest, AppendValueDataBasicTypes) { const base::Value kBoolValue(false); const base::Value kIntegerValue(42); const base::Value kDoubleValue(4.2); const base::Value kStringValue("string"); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendValueData(&writer, kBoolValue); AppendValueData(&writer, kIntegerValue); AppendValueData(&writer, kDoubleValue); AppendValueData(&writer, kStringValue); MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kBoolValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kIntegerValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kDoubleValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kStringValue)); } TEST(ValuesUtilTest, AppendValueDataAsVariantBasicTypes) { const base::Value kBoolValue(false); const base::Value kIntegerValue(42); const base::Value kDoubleValue(4.2); const base::Value kStringValue("string"); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendValueDataAsVariant(&writer, kBoolValue); AppendValueDataAsVariant(&writer, kIntegerValue); AppendValueDataAsVariant(&writer, kDoubleValue); AppendValueDataAsVariant(&writer, kStringValue); MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kBoolValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kIntegerValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kDoubleValue)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&kStringValue)); } TEST(ValuesUtilTest, AppendDictionary) { // Set up the input dictionary. const std::string kKey1 = "one"; const std::string kKey2 = "two"; const std::string kKey3 = "three"; const std::string kKey4 = "four"; const std::string kKey5 = "five"; const std::string kKey6 = "six"; const bool kBoolValue = true; const int32_t kInt32Value = -45; const double kDoubleValue = 4.9; const std::string kStringValue = "fifty"; auto list_value = std::make_unique(); list_value->AppendBoolean(kBoolValue); list_value->AppendInteger(kInt32Value); auto dictionary_value = std::make_unique(); dictionary_value->SetBoolean(kKey1, kBoolValue); dictionary_value->SetInteger(kKey2, kDoubleValue); base::DictionaryValue test_dictionary; test_dictionary.SetBoolean(kKey1, kBoolValue); test_dictionary.SetInteger(kKey2, kInt32Value); test_dictionary.SetDouble(kKey3, kDoubleValue); test_dictionary.SetString(kKey4, kStringValue); test_dictionary.Set(kKey5, std::move(list_value)); test_dictionary.Set(kKey6, std::move(dictionary_value)); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendValueData(&writer, test_dictionary); base::Value int_value(kInt32Value); AppendValueData(&writer, int_value); // Read the data. MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&test_dictionary)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&int_value)); } TEST(ValuesUtilTest, AppendDictionaryAsVariant) { // Set up the input dictionary. const std::string kKey1 = "one"; const std::string kKey2 = "two"; const std::string kKey3 = "three"; const std::string kKey4 = "four"; const std::string kKey5 = "five"; const std::string kKey6 = "six"; const bool kBoolValue = true; const int32_t kInt32Value = -45; const double kDoubleValue = 4.9; const std::string kStringValue = "fifty"; auto list_value = std::make_unique(); list_value->AppendBoolean(kBoolValue); list_value->AppendInteger(kInt32Value); auto dictionary_value = std::make_unique(); dictionary_value->SetBoolean(kKey1, kBoolValue); dictionary_value->SetInteger(kKey2, kDoubleValue); base::DictionaryValue test_dictionary; test_dictionary.SetBoolean(kKey1, kBoolValue); test_dictionary.SetInteger(kKey2, kInt32Value); test_dictionary.SetDouble(kKey3, kDoubleValue); test_dictionary.SetString(kKey4, kStringValue); test_dictionary.Set(kKey5, std::move(list_value)); test_dictionary.Set(kKey6, std::move(dictionary_value)); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendValueDataAsVariant(&writer, test_dictionary); base::Value int_value(kInt32Value); AppendValueData(&writer, int_value); // Read the data. MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&test_dictionary)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&int_value)); } TEST(ValuesUtilTest, AppendList) { // Set up the input list. const std::string kKey1 = "one"; const std::string kKey2 = "two"; const bool kBoolValue = true; const int32_t kInt32Value = -45; const double kDoubleValue = 4.9; const std::string kStringValue = "fifty"; std::unique_ptr list_value(new base::ListValue()); list_value->AppendBoolean(kBoolValue); list_value->AppendInteger(kInt32Value); std::unique_ptr dictionary_value( new base::DictionaryValue()); dictionary_value->SetBoolean(kKey1, kBoolValue); dictionary_value->SetInteger(kKey2, kDoubleValue); base::ListValue test_list; test_list.AppendBoolean(kBoolValue); test_list.AppendInteger(kInt32Value); test_list.AppendDouble(kDoubleValue); test_list.AppendString(kStringValue); test_list.Append(std::move(list_value)); test_list.Append(std::move(dictionary_value)); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendValueData(&writer, test_list); base::Value int_value(kInt32Value); AppendValueData(&writer, int_value); // Read the data. MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&test_list)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&int_value)); } TEST(ValuesUtilTest, AppendListAsVariant) { // Set up the input list. const std::string kKey1 = "one"; const std::string kKey2 = "two"; const bool kBoolValue = true; const int32_t kInt32Value = -45; const double kDoubleValue = 4.9; const std::string kStringValue = "fifty"; std::unique_ptr list_value(new base::ListValue()); list_value->AppendBoolean(kBoolValue); list_value->AppendInteger(kInt32Value); std::unique_ptr dictionary_value( new base::DictionaryValue()); dictionary_value->SetBoolean(kKey1, kBoolValue); dictionary_value->SetInteger(kKey2, kDoubleValue); base::ListValue test_list; test_list.AppendBoolean(kBoolValue); test_list.AppendInteger(kInt32Value); test_list.AppendDouble(kDoubleValue); test_list.AppendString(kStringValue); test_list.Append(std::move(list_value)); test_list.Append(std::move(dictionary_value)); std::unique_ptr response(Response::CreateEmpty()); MessageWriter writer(response.get()); AppendValueDataAsVariant(&writer, test_list); base::Value int_value(kInt32Value); AppendValueData(&writer, int_value); // Read the data. MessageReader reader(response.get()); std::unique_ptr value; value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&test_list)); value = PopDataAsValue(&reader); ASSERT_NE(nullptr, value); EXPECT_TRUE(value->Equals(&int_value)); } } // namespace dbus