// Copyright (c) 2011 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/message.h" #include "base/basictypes.h" #include "base/logging.h" #include "testing/gtest/include/gtest/gtest.h" // Test that a byte can be properly written and read. We only have this // test for byte, as repeating this for other basic types is too redundant. TEST(MessageTest, AppendAndPopByte) { dbus::Message message; message.reset_raw_message(dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL)); dbus::MessageWriter writer(&message); writer.AppendByte(123); // The input is 123. dbus::MessageReader reader(&message); ASSERT_TRUE(reader.HasMoreData()); // Should have data to read. ASSERT_EQ(dbus::Message::BYTE, reader.GetDataType()); bool bool_value = false; // Should fail as the type is not bool here. ASSERT_FALSE(reader.PopBool(&bool_value)); uint8 byte_value = 0; ASSERT_TRUE(reader.PopByte(&byte_value)); EXPECT_EQ(123, byte_value); // Should match with the input. ASSERT_FALSE(reader.HasMoreData()); // Should not have more data to read. // Try to get another byte. Should fail. ASSERT_FALSE(reader.PopByte(&byte_value)); } // Check all basic types can be properly written and read. TEST(MessageTest, AppendAndPopBasicDataTypes) { dbus::Message message; message.reset_raw_message(dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL)); dbus::MessageWriter writer(&message); // Append 0, 1, 2, 3, 4, 5, 6, 7, 8, "string", "/object/path". writer.AppendByte(0); writer.AppendBool(true); writer.AppendInt16(2); writer.AppendUint16(3); writer.AppendInt32(4); writer.AppendUint32(5); writer.AppendInt64(6); writer.AppendUint64(7); writer.AppendDouble(8.0); writer.AppendString("string"); writer.AppendObjectPath("/object/path"); uint8 byte_value = 0; bool bool_value = false; int16 int16_value = 0; uint16 uint16_value = 0; int32 int32_value = 0; uint32 uint32_value = 0; int64 int64_value = 0; uint64 uint64_value = 0; double double_value = 0; std::string string_value; std::string object_path_value; dbus::MessageReader reader(&message); ASSERT_TRUE(reader.HasMoreData()); ASSERT_TRUE(reader.PopByte(&byte_value)); ASSERT_TRUE(reader.PopBool(&bool_value)); ASSERT_TRUE(reader.PopInt16(&int16_value)); ASSERT_TRUE(reader.PopUint16(&uint16_value)); ASSERT_TRUE(reader.PopInt32(&int32_value)); ASSERT_TRUE(reader.PopUint32(&uint32_value)); ASSERT_TRUE(reader.PopInt64(&int64_value)); ASSERT_TRUE(reader.PopUint64(&uint64_value)); ASSERT_TRUE(reader.PopDouble(&double_value)); ASSERT_TRUE(reader.PopString(&string_value)); ASSERT_TRUE(reader.PopObjectPath(&object_path_value)); ASSERT_FALSE(reader.HasMoreData()); // 0, 1, 2, 3, 4, 5, 6, 7, 8, "string", "/object/path" should be returned. EXPECT_EQ(0, byte_value); EXPECT_EQ(true, bool_value); EXPECT_EQ(2, int16_value); EXPECT_EQ(3U, uint16_value); EXPECT_EQ(4, int32_value); EXPECT_EQ(5U, uint32_value); EXPECT_EQ(6, int64_value); EXPECT_EQ(7U, uint64_value); EXPECT_DOUBLE_EQ(8.0, double_value); EXPECT_EQ("string", string_value); EXPECT_EQ("/object/path", object_path_value); } // Check all variant types can be properly written and read. TEST(MessageTest, AppendAndPopVariantDataTypes) { dbus::Message message; message.reset_raw_message(dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL)); dbus::MessageWriter writer(&message); // Append 0, 1, 2, 3, 4, 5, 6, 7, 8, "string", "/object/path". writer.AppendVariantOfByte(0); writer.AppendVariantOfBool(true); writer.AppendVariantOfInt16(2); writer.AppendVariantOfUint16(3); writer.AppendVariantOfInt32(4); writer.AppendVariantOfUint32(5); writer.AppendVariantOfInt64(6); writer.AppendVariantOfUint64(7); writer.AppendVariantOfDouble(8.0); writer.AppendVariantOfString("string"); writer.AppendVariantOfObjectPath("/object/path"); uint8 byte_value = 0; bool bool_value = false; int16 int16_value = 0; uint16 uint16_value = 0; int32 int32_value = 0; uint32 uint32_value = 0; int64 int64_value = 0; uint64 uint64_value = 0; double double_value = 0; std::string string_value; std::string object_path_value; dbus::MessageReader reader(&message); ASSERT_TRUE(reader.HasMoreData()); ASSERT_TRUE(reader.PopVariantOfByte(&byte_value)); ASSERT_TRUE(reader.PopVariantOfBool(&bool_value)); ASSERT_TRUE(reader.PopVariantOfInt16(&int16_value)); ASSERT_TRUE(reader.PopVariantOfUint16(&uint16_value)); ASSERT_TRUE(reader.PopVariantOfInt32(&int32_value)); ASSERT_TRUE(reader.PopVariantOfUint32(&uint32_value)); ASSERT_TRUE(reader.PopVariantOfInt64(&int64_value)); ASSERT_TRUE(reader.PopVariantOfUint64(&uint64_value)); ASSERT_TRUE(reader.PopVariantOfDouble(&double_value)); ASSERT_TRUE(reader.PopVariantOfString(&string_value)); ASSERT_TRUE(reader.PopVariantOfObjectPath(&object_path_value)); ASSERT_FALSE(reader.HasMoreData()); // 0, 1, 2, 3, 4, 5, 6, 7, 8, "string", "/object/path" should be returned. EXPECT_EQ(0, byte_value); EXPECT_EQ(true, bool_value); EXPECT_EQ(2, int16_value); EXPECT_EQ(3U, uint16_value); EXPECT_EQ(4, int32_value); EXPECT_EQ(5U, uint32_value); EXPECT_EQ(6, int64_value); EXPECT_EQ(7U, uint64_value); EXPECT_DOUBLE_EQ(8.0, double_value); EXPECT_EQ("string", string_value); EXPECT_EQ("/object/path", object_path_value); } TEST(MessageTest, ArrayOfBytes) { dbus::Message message; message.reset_raw_message(dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL)); dbus::MessageWriter writer(&message); std::vector bytes; bytes.push_back(1); bytes.push_back(2); bytes.push_back(3); writer.AppendArrayOfBytes(bytes.data(), bytes.size()); dbus::MessageReader reader(&message); uint8* output_bytes = NULL; size_t length = 0; ASSERT_TRUE(reader.PopArrayOfBytes(&output_bytes, &length)); ASSERT_FALSE(reader.HasMoreData()); ASSERT_EQ(3U, length); ASSERT_EQ(1, output_bytes[0]); ASSERT_EQ(2, output_bytes[1]); ASSERT_EQ(3, output_bytes[2]); } // Test that an array can be properly written and read. We only have this // test for array, as repeating this for other container types is too // redundant. TEST(MessageTest, OpenArrayAndPopArray) { dbus::Message message; message.reset_raw_message(dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL)); dbus::MessageWriter writer(&message); dbus::MessageWriter array_writer(&message); writer.OpenArray("s", &array_writer); // Open an array of strings. array_writer.AppendString("foo"); array_writer.AppendString("bar"); array_writer.AppendString("baz"); writer.CloseContainer(&array_writer); dbus::MessageReader reader(&message); ASSERT_EQ(dbus::Message::ARRAY, reader.GetDataType()); dbus::MessageReader array_reader(&message); ASSERT_TRUE(reader.PopArray(&array_reader)); ASSERT_FALSE(reader.HasMoreData()); // Should not have more data to read. std::string string_value; ASSERT_TRUE(array_reader.PopString(&string_value)); EXPECT_EQ("foo", string_value); ASSERT_TRUE(array_reader.PopString(&string_value)); EXPECT_EQ("bar", string_value); ASSERT_TRUE(array_reader.PopString(&string_value)); EXPECT_EQ("baz", string_value); // Should not have more data to read. ASSERT_FALSE(array_reader.HasMoreData()); } // Create a complex message using array, struct, variant, dict entry, and // make sure it can be read properly. TEST(MessageTest, CreateComplexMessageAndReadIt) { dbus::Message message; message.reset_raw_message(dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL)); dbus::MessageWriter writer(&message); { dbus::MessageWriter array_writer(&message); // Open an array of variants. writer.OpenArray("v", &array_writer); { // The first value in the array. { dbus::MessageWriter variant_writer(&message); // Open a variant of a boolean. array_writer.OpenVariant("b", &variant_writer); variant_writer.AppendBool(true); array_writer.CloseContainer(&variant_writer); } // The second value in the array. { dbus::MessageWriter variant_writer(&message); // Open a variant of a struct that contains a string and an int32. array_writer.OpenVariant("(si)", &variant_writer); { dbus::MessageWriter struct_writer(&message); variant_writer.OpenStruct(&struct_writer); struct_writer.AppendString("string"); struct_writer.AppendInt32(123); variant_writer.CloseContainer(&struct_writer); } array_writer.CloseContainer(&variant_writer); } // The third value in the array. { dbus::MessageWriter variant_writer(&message); // Open a variant of an array of string-to-int64 dict entries. array_writer.OpenVariant("a{sx}", &variant_writer); { // Opens an array of string-to-int64 dict entries. dbus::MessageWriter dict_array_writer(&message); variant_writer.OpenArray("{sx}", &dict_array_writer); { // Opens a string-to-int64 dict entries. dbus::MessageWriter dict_entry_writer(&message); dict_array_writer.OpenDictEntry(&dict_entry_writer); dict_entry_writer.AppendString("foo"); dict_entry_writer.AppendInt64(GG_INT64_C(1234567890123456789)); dict_array_writer.CloseContainer(&dict_entry_writer); } variant_writer.CloseContainer(&dict_array_writer); } array_writer.CloseContainer(&variant_writer); } } writer.CloseContainer(&array_writer); } // What we have created looks like this: EXPECT_EQ("signature: av\n" "\n" "array [\n" " variant bool true\n" " variant struct {\n" " string \"string\"\n" " int32 123\n" " }\n" " variant array [\n" " dict entry {\n" " string \"foo\"\n" " int64 1234567890123456789\n" " }\n" " ]\n" "]\n", message.ToString()); dbus::MessageReader reader(&message); dbus::MessageReader array_reader(&message); ASSERT_TRUE(reader.PopArray(&array_reader)); // The first value in the array. bool bool_value = false; ASSERT_TRUE(array_reader.PopVariantOfBool(&bool_value)); EXPECT_EQ(true, bool_value); // The second value in the array. { dbus::MessageReader variant_reader(&message); ASSERT_TRUE(array_reader.PopVariant(&variant_reader)); { dbus::MessageReader struct_reader(&message); ASSERT_TRUE(variant_reader.PopStruct(&struct_reader)); std::string string_value; ASSERT_TRUE(struct_reader.PopString(&string_value)); EXPECT_EQ("string", string_value); int32 int32_value = 0; ASSERT_TRUE(struct_reader.PopInt32(&int32_value)); EXPECT_EQ(123, int32_value); ASSERT_FALSE(struct_reader.HasMoreData()); } ASSERT_FALSE(variant_reader.HasMoreData()); } // The third value in the array. { dbus::MessageReader variant_reader(&message); ASSERT_TRUE(array_reader.PopVariant(&variant_reader)); { dbus::MessageReader dict_array_reader(&message); ASSERT_TRUE(variant_reader.PopArray(&dict_array_reader)); { dbus::MessageReader dict_entry_reader(&message); ASSERT_TRUE(dict_array_reader.PopDictEntry(&dict_entry_reader)); std::string string_value; ASSERT_TRUE(dict_entry_reader.PopString(&string_value)); EXPECT_EQ("foo", string_value); int64 int64_value = 0; ASSERT_TRUE(dict_entry_reader.PopInt64(&int64_value)); EXPECT_EQ(GG_INT64_C(1234567890123456789), int64_value); } ASSERT_FALSE(dict_array_reader.HasMoreData()); } ASSERT_FALSE(variant_reader.HasMoreData()); } ASSERT_FALSE(array_reader.HasMoreData()); ASSERT_FALSE(reader.HasMoreData()); } TEST(MessageTest, Message) { dbus::Message message; EXPECT_TRUE(message.raw_message() == NULL); EXPECT_EQ(dbus::Message::MESSAGE_INVALID, message.GetMessageType()); } TEST(MessageTest, MethodCall) { dbus::MethodCall method_call("com.example.Interface", "SomeMethod"); EXPECT_TRUE(method_call.raw_message() != NULL); EXPECT_EQ(dbus::Message::MESSAGE_METHOD_CALL, method_call.GetMessageType()); method_call.SetServiceName("com.example.Service"); method_call.SetObjectPath("/com/example/Object"); dbus::MessageWriter writer(&method_call); writer.AppendString("payload"); EXPECT_EQ("destination: com.example.Service\n" "path: /com/example/Object\n" "interface: com.example.Interface\n" "member: SomeMethod\n" "signature: s\n" "\n" "string \"payload\"\n", method_call.ToString()); } TEST(MessageTest, Response) { dbus::Response response; EXPECT_TRUE(response.raw_message() == NULL); response.reset_raw_message( dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_RETURN)); EXPECT_EQ(dbus::Message::MESSAGE_METHOD_RETURN, response.GetMessageType()); } TEST(MessageTest, ToString_EmptyMessage) { dbus::Message message; EXPECT_EQ("", message.ToString()); }