shell/platform/linux/fl_binary_codec_test.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2013 The Flutter 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 "flutter/shell/platform/linux/public/flutter_linux/fl_binary_codec.h"
 #include "flutter/shell/platform/linux/testing/fl_test.h"
 #include "gtest/gtest.h"

 // Encodes a message using a FlBinaryCodec. Return a hex string with the encoded
 // binary output.
 static gchar* encode_message(FlValue* value) {
   g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();
   g_autoptr(GError) error = nullptr;
   g_autoptr(GBytes) message =
       fl_message_codec_encode_message(FL_MESSAGE_CODEC(codec), value, &error);
   EXPECT_NE(message, nullptr);
   EXPECT_EQ(error, nullptr);

   return bytes_to_hex_string(message);
 }

 // Encodes a message using a FlBinaryCodec. Expect the given error.
 static void encode_message_error(FlValue* value, GQuark domain, int code) {
   g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();
   g_autoptr(GError) error = nullptr;
   g_autoptr(GBytes) message =
       fl_message_codec_encode_message(FL_MESSAGE_CODEC(codec), value, &error);
   EXPECT_EQ(message, nullptr);
   EXPECT_TRUE(g_error_matches(error, domain, code));
 }

 // Decodes a message using a FlBinaryCodec. The binary data is given in the form
 // of a hex string.
 static FlValue* decode_message(const char* hex_string) {
   g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();
   g_autoptr(GBytes) data = hex_string_to_bytes(hex_string);
   g_autoptr(GError) error = nullptr;
   g_autoptr(FlValue) value =
       fl_message_codec_decode_message(FL_MESSAGE_CODEC(codec), data, &error);
   EXPECT_EQ(error, nullptr);
   EXPECT_NE(value, nullptr);
   return fl_value_ref(value);
 }

 TEST(FlBinaryCodecTest, EncodeData) {
   uint8_t data[] = {0x00, 0x01, 0x02, 0xFD, 0xFE, 0xFF};
   g_autoptr(FlValue) value = fl_value_new_uint8_list(data, 6);
   g_autofree gchar* hex_string = encode_message(value);
   EXPECT_STREQ(hex_string, "000102fdfeff");
 }

 TEST(FlBinaryCodecTest, EncodeEmpty) {
   g_autoptr(FlValue) value = fl_value_new_uint8_list(nullptr, 0);
   g_autofree gchar* hex_string = encode_message(value);
   EXPECT_STREQ(hex_string, "");
 }

 TEST(FlBinaryCodecTest, EncodeNullptr) {
   encode_message_error(nullptr, FL_MESSAGE_CODEC_ERROR,
                        FL_MESSAGE_CODEC_ERROR_UNSUPPORTED_TYPE);
 }

 TEST(FlBinaryCodecTest, EncodeUnknownType) {
   g_autoptr(FlValue) value = fl_value_new_null();
   encode_message_error(value, FL_MESSAGE_CODEC_ERROR,
                        FL_MESSAGE_CODEC_ERROR_UNSUPPORTED_TYPE);
 }

 TEST(FlBinaryCodecTest, DecodeData) {
   g_autoptr(FlValue) value = decode_message("000102fdfeff");
   ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_UINT8_LIST);
   ASSERT_EQ(fl_value_get_length(value), static_cast<size_t>(6));
   EXPECT_EQ(fl_value_get_uint8_list(value)[0], 0x00);
   EXPECT_EQ(fl_value_get_uint8_list(value)[1], 0x01);
   EXPECT_EQ(fl_value_get_uint8_list(value)[2], 0x02);
   EXPECT_EQ(fl_value_get_uint8_list(value)[3], 0xFD);
   EXPECT_EQ(fl_value_get_uint8_list(value)[4], 0xFE);
   EXPECT_EQ(fl_value_get_uint8_list(value)[5], 0xFF);
 }

 TEST(FlBinaryCodecTest, DecodeEmpty) {
   g_autoptr(FlValue) value = decode_message("");
   ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_UINT8_LIST);
   ASSERT_EQ(fl_value_get_length(value), static_cast<size_t>(0));
 }

 TEST(FlBinaryCodecTest, EncodeDecode) {
   g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();

   uint8_t data[] = {0x00, 0x01, 0x02, 0xFD, 0xFE, 0xFF};
   g_autoptr(FlValue) input = fl_value_new_uint8_list(data, 6);

   g_autoptr(GError) error = nullptr;
   g_autoptr(GBytes) message =
       fl_message_codec_encode_message(FL_MESSAGE_CODEC(codec), input, &error);
   EXPECT_NE(message, nullptr);
   EXPECT_EQ(error, nullptr);

   g_autoptr(FlValue) output =
       fl_message_codec_decode_message(FL_MESSAGE_CODEC(codec), message, &error);
   EXPECT_EQ(error, nullptr);
   EXPECT_NE(output, nullptr);

   ASSERT_TRUE(fl_value_equal(input, output));
 }
	// Copyright 2013 The Flutter 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 "flutter/shell/platform/linux/public/flutter_linux/fl_binary_codec.h"
	#include "flutter/shell/platform/linux/testing/fl_test.h"
	#include "gtest/gtest.h"

	// Encodes a message using a FlBinaryCodec. Return a hex string with the encoded
	// binary output.
	static gchar* encode_message(FlValue* value) {
	g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();
	g_autoptr(GError) error = nullptr;
	g_autoptr(GBytes) message =
	fl_message_codec_encode_message(FL_MESSAGE_CODEC(codec), value, &error);
	EXPECT_NE(message, nullptr);
	EXPECT_EQ(error, nullptr);

	return bytes_to_hex_string(message);
	}

	// Encodes a message using a FlBinaryCodec. Expect the given error.
	static void encode_message_error(FlValue* value, GQuark domain, int code) {
	g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();
	g_autoptr(GError) error = nullptr;
	g_autoptr(GBytes) message =
	fl_message_codec_encode_message(FL_MESSAGE_CODEC(codec), value, &error);
	EXPECT_EQ(message, nullptr);
	EXPECT_TRUE(g_error_matches(error, domain, code));
	}

	// Decodes a message using a FlBinaryCodec. The binary data is given in the form
	// of a hex string.
	static FlValue* decode_message(const char* hex_string) {
	g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();
	g_autoptr(GBytes) data = hex_string_to_bytes(hex_string);
	g_autoptr(GError) error = nullptr;
	g_autoptr(FlValue) value =
	fl_message_codec_decode_message(FL_MESSAGE_CODEC(codec), data, &error);
	EXPECT_EQ(error, nullptr);
	EXPECT_NE(value, nullptr);
	return fl_value_ref(value);
	}

	TEST(FlBinaryCodecTest, EncodeData) {
	uint8_t data[] = {0x00, 0x01, 0x02, 0xFD, 0xFE, 0xFF};
	g_autoptr(FlValue) value = fl_value_new_uint8_list(data, 6);
	g_autofree gchar* hex_string = encode_message(value);
	EXPECT_STREQ(hex_string, "000102fdfeff");
	}

	TEST(FlBinaryCodecTest, EncodeEmpty) {
	g_autoptr(FlValue) value = fl_value_new_uint8_list(nullptr, 0);
	g_autofree gchar* hex_string = encode_message(value);
	EXPECT_STREQ(hex_string, "");
	}

	TEST(FlBinaryCodecTest, EncodeNullptr) {
	encode_message_error(nullptr, FL_MESSAGE_CODEC_ERROR,
	FL_MESSAGE_CODEC_ERROR_UNSUPPORTED_TYPE);
	}

	TEST(FlBinaryCodecTest, EncodeUnknownType) {
	g_autoptr(FlValue) value = fl_value_new_null();
	encode_message_error(value, FL_MESSAGE_CODEC_ERROR,
	FL_MESSAGE_CODEC_ERROR_UNSUPPORTED_TYPE);
	}

	TEST(FlBinaryCodecTest, DecodeData) {
	g_autoptr(FlValue) value = decode_message("000102fdfeff");
	ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_UINT8_LIST);
	ASSERT_EQ(fl_value_get_length(value), static_cast<size_t>(6));
	EXPECT_EQ(fl_value_get_uint8_list(value)[0], 0x00);
	EXPECT_EQ(fl_value_get_uint8_list(value)[1], 0x01);
	EXPECT_EQ(fl_value_get_uint8_list(value)[2], 0x02);
	EXPECT_EQ(fl_value_get_uint8_list(value)[3], 0xFD);
	EXPECT_EQ(fl_value_get_uint8_list(value)[4], 0xFE);
	EXPECT_EQ(fl_value_get_uint8_list(value)[5], 0xFF);
	}

	TEST(FlBinaryCodecTest, DecodeEmpty) {
	g_autoptr(FlValue) value = decode_message("");
	ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_UINT8_LIST);
	ASSERT_EQ(fl_value_get_length(value), static_cast<size_t>(0));
	}

	TEST(FlBinaryCodecTest, EncodeDecode) {
	g_autoptr(FlBinaryCodec) codec = fl_binary_codec_new();

	uint8_t data[] = {0x00, 0x01, 0x02, 0xFD, 0xFE, 0xFF};
	g_autoptr(FlValue) input = fl_value_new_uint8_list(data, 6);

	g_autoptr(GError) error = nullptr;
	g_autoptr(GBytes) message =
	fl_message_codec_encode_message(FL_MESSAGE_CODEC(codec), input, &error);
	EXPECT_NE(message, nullptr);
	EXPECT_EQ(error, nullptr);

	g_autoptr(FlValue) output =
	fl_message_codec_decode_message(FL_MESSAGE_CODEC(codec), message, &error);
	EXPECT_EQ(error, nullptr);
	EXPECT_NE(output, nullptr);

	ASSERT_TRUE(fl_value_equal(input, output));
	}