pc/sdp_serializer_unittest.cc - src - Git at Google

 /*
  *  Copyright 2018 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "pc/sdp_serializer.h"

 #include <map>
 #include <string>
 #include <utility>
 #include <vector>

 #include "rtc_base/gunit.h"

 using cricket::RidDescription;
 using cricket::RidDirection;
 using cricket::SimulcastDescription;
 using cricket::SimulcastLayer;
 using cricket::SimulcastLayerList;
 using ::testing::TestWithParam;
 using ::testing::ValuesIn;

 namespace webrtc {

 namespace {
 // Checks that two vectors have the same objects in the same order.
 template <typename TElement>
 void ExpectEqual(const std::vector<TElement>& expected,
                  const std::vector<TElement>& actual) {
   ASSERT_EQ(expected.size(), actual.size());
   for (size_t i = 0; i < expected.size(); i++) {
     EXPECT_EQ(expected[i], actual[i]) << "Vectors differ at element " << i;
   }
 }

 // Template specialization for vectors of SimulcastLayer objects.
 template <>
 void ExpectEqual(const std::vector<SimulcastLayer>& expected,
                  const std::vector<SimulcastLayer>& actual) {
   EXPECT_EQ(expected.size(), actual.size());
   for (size_t i = 0; i < expected.size(); i++) {
     EXPECT_EQ(expected[i].rid, actual[i].rid);
     EXPECT_EQ(expected[i].is_paused, actual[i].is_paused);
   }
 }

 // Checks that two maps have the same key-value pairs.
 // Even though a map is technically ordered, the order semantics are not
 // tested because having the same key-set in both maps implies that they
 // are ordered the same because the template enforces that they have the
 // same Key-Comparer type.
 template <typename TKey, typename TValue>
 void ExpectEqual(const std::map<TKey, TValue>& expected,
                  const std::map<TKey, TValue>& actual) {
   typedef typename std::map<TKey, TValue>::const_iterator const_iterator;
   ASSERT_EQ(expected.size(), actual.size());
   // Maps have unique keys, so if size is equal, it is enough to check
   // that all the keys (and values) from one map exist in the other.
   for (const std::pair<TKey, TValue>& pair : expected) {
     const_iterator iter = actual.find(pair.first);
     EXPECT_NE(iter, actual.end()) << "Key: " << pair.first << " not found";
     EXPECT_EQ(pair.second, iter->second);
   }
 }

 // Checks that the two SimulcastLayerLists are equal.
 void ExpectEqual(const SimulcastLayerList& expected,
                  const SimulcastLayerList& actual) {
   EXPECT_EQ(expected.size(), actual.size());
   for (size_t i = 0; i < expected.size(); i++) {
     ExpectEqual(expected[i], actual[i]);
   }
 }

 // Checks that the two SimulcastDescriptions are equal.
 void ExpectEqual(const SimulcastDescription& expected,
                  const SimulcastDescription& actual) {
   ExpectEqual(expected.send_layers(), actual.send_layers());
   ExpectEqual(expected.receive_layers(), actual.receive_layers());
 }

 // Checks that the two RidDescriptions are equal.
 void ExpectEqual(const RidDescription& expected, const RidDescription& actual) {
   EXPECT_EQ(expected.rid, actual.rid);
   EXPECT_EQ(expected.direction, actual.direction);
   ExpectEqual(expected.payload_types, actual.payload_types);
   ExpectEqual(expected.restrictions, actual.restrictions);
 }
 }  // namespace

 class SimulcastSdpSerializerTest : public TestWithParam<const char*> {
  public:
   // Runs a test for deserializing Simulcast.
   // |str| - The serialized Simulcast to parse.
   // |expected| - The expected output Simulcast to compare to.
   void TestDeserialization(const std::string& str,
                            const SimulcastDescription& expected) const {
     SdpSerializer deserializer;
     auto result = deserializer.DeserializeSimulcastDescription(str);
     EXPECT_TRUE(result.ok());
     ExpectEqual(expected, result.value());
   }

   // Runs a test for serializing Simulcast.
   // |simulcast| - The Simulcast to serialize.
   // |expected| - The expected output string to compare to.
   void TestSerialization(const SimulcastDescription& simulcast,
                          const std::string& expected) const {
     SdpSerializer serializer;
     auto result = serializer.SerializeSimulcastDescription(simulcast);
     EXPECT_EQ(expected, result);
   }
 };

 // Test Cases

 // Test simple deserialization with no alternative streams.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_SimpleCaseNoAlternatives) {
   std::string simulcast_str = "send 1;2 recv 3;4";
   SimulcastDescription expected;
   expected.send_layers().AddLayer(SimulcastLayer("1", false));
   expected.send_layers().AddLayer(SimulcastLayer("2", false));
   expected.receive_layers().AddLayer(SimulcastLayer("3", false));
   expected.receive_layers().AddLayer(SimulcastLayer("4", false));
   TestDeserialization(simulcast_str, expected);
 }

 // Test simulcast deserialization with alternative streams.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_SimpleCaseWithAlternatives) {
   std::string simulcast_str = "send 1,5;2,6 recv 3,7;4,8";
   SimulcastDescription expected;
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("1", false), SimulcastLayer("5", false)});
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", false), SimulcastLayer("6", false)});
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("3", false), SimulcastLayer("7", false)});
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("4", false), SimulcastLayer("8", false)});
   TestDeserialization(simulcast_str, expected);
 }

 // Test simulcast deserialization when only some streams have alternatives.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_WithSomeAlternatives) {
   std::string simulcast_str = "send 1;2,6 recv 3,7;4";
   SimulcastDescription expected;
   expected.send_layers().AddLayer(SimulcastLayer("1", false));
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", false), SimulcastLayer("6", false)});
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("3", false), SimulcastLayer("7", false)});
   expected.receive_layers().AddLayer(SimulcastLayer("4", false));
   TestDeserialization(simulcast_str, expected);
 }

 // Test simulcast deserialization when only send streams are specified.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_OnlySendStreams) {
   std::string simulcast_str = "send 1;2,6;3,7;4";
   SimulcastDescription expected;
   expected.send_layers().AddLayer(SimulcastLayer("1", false));
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", false), SimulcastLayer("6", false)});
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("3", false), SimulcastLayer("7", false)});
   expected.send_layers().AddLayer(SimulcastLayer("4", false));
   TestDeserialization(simulcast_str, expected);
 }

 // Test simulcast deserialization when only receive streams are specified.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_OnlyReceiveStreams) {
   std::string simulcast_str = "recv 1;2,6;3,7;4";
   SimulcastDescription expected;
   expected.receive_layers().AddLayer(SimulcastLayer("1", false));
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", false), SimulcastLayer("6", false)});
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("3", false), SimulcastLayer("7", false)});
   expected.receive_layers().AddLayer(SimulcastLayer("4", false));
   TestDeserialization(simulcast_str, expected);
 }

 // Test simulcast deserialization with receive streams before send streams.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_SendReceiveReversed) {
   std::string simulcast_str = "recv 1;2,6 send 3,7;4";
   SimulcastDescription expected;
   expected.receive_layers().AddLayer(SimulcastLayer("1", false));
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", false), SimulcastLayer("6", false)});
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("3", false), SimulcastLayer("7", false)});
   expected.send_layers().AddLayer(SimulcastLayer("4", false));
   TestDeserialization(simulcast_str, expected);
 }

 // Test simulcast deserialization with some streams set to paused state.
 TEST_F(SimulcastSdpSerializerTest, Deserialize_PausedStreams) {
   std::string simulcast_str = "recv 1;~2,6 send 3,7;~4";
   SimulcastDescription expected;
   expected.receive_layers().AddLayer(SimulcastLayer("1", false));
   expected.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", true), SimulcastLayer("6", false)});
   expected.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("3", false), SimulcastLayer("7", false)});
   expected.send_layers().AddLayer(SimulcastLayer("4", true));
   TestDeserialization(simulcast_str, expected);
 }

 // Parameterized negative test case for deserialization with invalid inputs.
 TEST_P(SimulcastSdpSerializerTest, SimulcastDeserializationFailed) {
   SdpSerializer deserializer;
   auto result = deserializer.DeserializeSimulcastDescription(GetParam());
   EXPECT_FALSE(result.ok());
 }

 // The malformed Simulcast inputs to use in the negative test case.
 const char* kSimulcastMalformedStrings[] = {
     "send ",
     "recv ",
     "recv 1 send",
     "receive 1",
     "recv 1;~2,6 recv 3,7;~4",
     "send 1;~2,6 send 3,7;~4",
     "send ~;~2,6",
     "send 1; ;~2,6",
     "send 1,;~2,6",
     "recv 1 send 2 3",
     "",
 };

 INSTANTIATE_TEST_SUITE_P(SimulcastDeserializationErrors,
                          SimulcastSdpSerializerTest,
                          ValuesIn(kSimulcastMalformedStrings));

 // Test a simple serialization scenario.
 TEST_F(SimulcastSdpSerializerTest, Serialize_SimpleCase) {
   SimulcastDescription simulcast;
   simulcast.send_layers().AddLayer(SimulcastLayer("1", false));
   simulcast.receive_layers().AddLayer(SimulcastLayer("2", false));
   TestSerialization(simulcast, "send 1 recv 2");
 }

 // Test serialization with only send streams.
 TEST_F(SimulcastSdpSerializerTest, Serialize_OnlySend) {
   SimulcastDescription simulcast;
   simulcast.send_layers().AddLayer(SimulcastLayer("1", false));
   simulcast.send_layers().AddLayer(SimulcastLayer("2", false));
   TestSerialization(simulcast, "send 1;2");
 }

 // Test serialization with only receive streams
 TEST_F(SimulcastSdpSerializerTest, Serialize_OnlyReceive) {
   SimulcastDescription simulcast;
   simulcast.receive_layers().AddLayer(SimulcastLayer("1", false));
   simulcast.receive_layers().AddLayer(SimulcastLayer("2", false));
   TestSerialization(simulcast, "recv 1;2");
 }

 // Test a complex serialization with multiple streams, alternatives and states.
 TEST_F(SimulcastSdpSerializerTest, Serialize_ComplexSerialization) {
   SimulcastDescription simulcast;
   simulcast.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("2", false), SimulcastLayer("1", true)});
   simulcast.send_layers().AddLayerWithAlternatives(
       {SimulcastLayer("4", false), SimulcastLayer("3", false)});

   simulcast.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("6", false), SimulcastLayer("7", false)});
   simulcast.receive_layers().AddLayer(SimulcastLayer("8", true));
   simulcast.receive_layers().AddLayerWithAlternatives(
       {SimulcastLayer("9", false), SimulcastLayer("10", true),
        SimulcastLayer("11", false)});
   TestSerialization(simulcast, "send 2,~1;4,3 recv 6,7;~8;9,~10,11");
 }

 class RidDescriptionSdpSerializerTest : public TestWithParam<const char*> {
  public:
   // Runs a test for deserializing Rid Descriptions.
   // |str| - The serialized Rid Description to parse.
   // |expected| - The expected output RidDescription to compare to.
   void TestDeserialization(const std::string& str,
                            const RidDescription& expected) const {
     SdpSerializer deserializer;
     auto result = deserializer.DeserializeRidDescription(str);
     EXPECT_TRUE(result.ok());
     ExpectEqual(expected, result.value());
   }

   // Runs a test for serializing RidDescriptions.
   // |rid_description| - The RidDescription to serialize.
   // |expected| - The expected output string to compare to.
   void TestSerialization(const RidDescription& rid_description,
                          const std::string& expected) const {
     SdpSerializer serializer;
     auto result = serializer.SerializeRidDescription(rid_description);
     EXPECT_EQ(expected, result);
   }
 };

 // Test serialization for RidDescription that only specifies send.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_OnlyDirectionSend) {
   RidDescription rid_description("1", RidDirection::kSend);
   TestSerialization(rid_description, "1 send");
 }

 // Test serialization for RidDescription that only specifies receive.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_OnlyDirectionReceive) {
   RidDescription rid_description("2", RidDirection::kReceive);
   TestSerialization(rid_description, "2 recv");
 }

 // Test serialization for RidDescription with format list.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_FormatList) {
   RidDescription rid_description("3", RidDirection::kSend);
   rid_description.payload_types = {102, 101};
   TestSerialization(rid_description, "3 send pt=102,101");
 }

 // Test serialization for RidDescription with format list.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_FormatListSingleFormat) {
   RidDescription rid_description("4", RidDirection::kReceive);
   rid_description.payload_types = {100};
   TestSerialization(rid_description, "4 recv pt=100");
 }

 // Test serialization for RidDescription with restriction list.
 // Note: restriction list will be sorted because it is stored in a map.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_AttributeList) {
   RidDescription rid_description("5", RidDirection::kSend);
   rid_description.restrictions["max-width"] = "1280";
   rid_description.restrictions["max-height"] = "720";
   TestSerialization(rid_description, "5 send max-height=720;max-width=1280");
 }

 // Test serialization for RidDescription with format list and attribute list.
 // Note: restriction list will be sorted because it is stored in a map.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_FormatAndAttributeList) {
   RidDescription rid_description("6", RidDirection::kSend);
   rid_description.payload_types = {103, 104};
   rid_description.restrictions["max-mbps"] = "108000";
   rid_description.restrictions["max-br"] = "64000";
   TestSerialization(rid_description,
                     "6 send pt=103,104;max-br=64000;max-mbps=108000");
 }

 // Test serialization for attribute list that has key with no value.
 // Note: restriction list will be sorted because it is stored in a map.
 TEST_F(RidDescriptionSdpSerializerTest, Serialize_RestrictionWithoutValue) {
   RidDescription rid_description("7", RidDirection::kReceive);
   rid_description.payload_types = {103};
   rid_description.restrictions["max-width"] = "1280";
   rid_description.restrictions["max-height"] = "720";
   rid_description.restrictions["max-myval"] = "";
   TestSerialization(rid_description,
                     "7 recv pt=103;max-height=720;max-myval;max-width=1280");
 }

 // Test simulcast deserialization with simple send stream.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_SimpleSendCase) {
   RidDescription rid_description("1", RidDirection::kSend);
   TestDeserialization("1 send", rid_description);
 }

 // Test simulcast deserialization with simple receive stream.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_SimpleReceiveCase) {
   RidDescription rid_description("2", RidDirection::kReceive);
   TestDeserialization("2 recv", rid_description);
 }

 // Test simulcast deserialization with single format.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithFormat) {
   RidDescription rid_description("3", RidDirection::kSend);
   rid_description.payload_types = {101};
   TestDeserialization("3 send pt=101", rid_description);
 }

 // Test simulcast deserialization with multiple formats.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithMultipleFormats) {
   RidDescription rid_description("4", RidDirection::kSend);
   rid_description.payload_types = {103, 104, 101, 102};
   TestDeserialization("4 send pt=103,104,101,102", rid_description);
 }

 // Test simulcast deserialization with restriction.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithRestriction) {
   RidDescription rid_description("5", RidDirection::kReceive);
   rid_description.restrictions["max-height"] = "720";
   TestDeserialization("5 recv max-height=720", rid_description);
 }

 // Test simulcast deserialization with multiple restrictions.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithMultipleRestrictions) {
   RidDescription rid_description("6", RidDirection::kReceive);
   rid_description.restrictions["max-height"] = "720";
   rid_description.restrictions["max-width"] = "1920";
   rid_description.restrictions["max-fr"] = "60";
   rid_description.restrictions["max-bps"] = "14000";
   TestDeserialization(
       "6 recv max-height=720;max-width=1920;max-bps=14000;max-fr=60",
       rid_description);
 }

 // Test simulcast deserialization with custom (non-standard) restriction.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithCustomRestrictions) {
   RidDescription rid_description("7", RidDirection::kSend);
   rid_description.restrictions["foo"] = "bar";
   rid_description.restrictions["max-height"] = "720";
   TestDeserialization("7 send max-height=720;foo=bar", rid_description);
 }

 // Test simulcast deserialization with multiple formats and restrictions.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithFormatAndRestrictions) {
   RidDescription rid_description("8", RidDirection::kSend);
   rid_description.payload_types = {104, 103};
   rid_description.restrictions["max-height"] = "720";
   rid_description.restrictions["max-width"] = "1920";
   TestDeserialization("8 send pt=104,103;max-height=720;max-width=1920",
                       rid_description);
 }

 // Test simulcast deserialization with restriction that has no value.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_RestrictionHasNoValue) {
   RidDescription rid_description("9", RidDirection::kReceive);
   rid_description.payload_types = {104};
   rid_description.restrictions["max-height"];
   rid_description.restrictions["max-width"] = "1920";
   TestDeserialization("9 recv pt=104;max-height;max-width=1920",
                       rid_description);
 }

 // Add this test to explicitly indicate that this is not an error.
 // The following string "1 send recv" looks malformed because it specifies
 // two directions, but in fact, the recv can be interpreted as a parameter
 // without a value. While such a use case is dubious, the input string is
 // not malformed.
 TEST_F(RidDescriptionSdpSerializerTest, Deserialize_AmbiguousCase) {
   RidDescription rid_description("1", RidDirection::kSend);
   rid_description.restrictions["recv"];  // No value.
   TestDeserialization("1 send recv", rid_description);
 }

 // Parameterized negative test case for deserialization with invalid inputs.
 TEST_P(RidDescriptionSdpSerializerTest, RidDescriptionDeserializationFailed) {
   SdpSerializer deserializer;
   auto result = deserializer.DeserializeRidDescription(GetParam());
   EXPECT_FALSE(result.ok());
 }

 // The malformed Rid Description inputs to use in the negative test case.
 const char* kRidDescriptionMalformedStrings[] = {
     "1",
     "recv",
     "send",
     "recv 1",
     "send 1",
     "1 receive",
     "one direction",
     "1 send pt=1 max-width=720",  // The ' ' should be ';' in restriction list.
     "1 recv ;",
     "1 recv =",
     "1 recv a=b=c",
     "1 send max-width=720;pt=101",  // pt= should appear first.
     "1 send pt=101;pt=102",
     "1 send pt=101,101",
     "1 recv max-width=720;max-width=720",
     "1 send pt=",
     "1 send pt=abc",
     "1 recv ;;",
     "~1 recv",
     "1$2 send",
     "1=2 send",
     "1* send",
 };

 INSTANTIATE_TEST_SUITE_P(RidDescriptionDeserializationErrors,
                          RidDescriptionSdpSerializerTest,
                          ValuesIn(kRidDescriptionMalformedStrings));

 }  // namespace webrtc
	/*
	* Copyright 2018 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "pc/sdp_serializer.h"

	#include <map>
	#include <string>
	#include <utility>
	#include <vector>

	#include "rtc_base/gunit.h"

	using cricket::RidDescription;
	using cricket::RidDirection;
	using cricket::SimulcastDescription;
	using cricket::SimulcastLayer;
	using cricket::SimulcastLayerList;
	using ::testing::TestWithParam;
	using ::testing::ValuesIn;

	namespace webrtc {

	namespace {
	// Checks that two vectors have the same objects in the same order.
	template <typename TElement>
	void ExpectEqual(const std::vector<TElement>& expected,
	const std::vector<TElement>& actual) {
	ASSERT_EQ(expected.size(), actual.size());
	for (size_t i = 0; i < expected.size(); i++) {
	EXPECT_EQ(expected[i], actual[i]) << "Vectors differ at element " << i;
	}
	}

	// Template specialization for vectors of SimulcastLayer objects.
	template <>
	void ExpectEqual(const std::vector<SimulcastLayer>& expected,
	const std::vector<SimulcastLayer>& actual) {
	EXPECT_EQ(expected.size(), actual.size());
	for (size_t i = 0; i < expected.size(); i++) {
	EXPECT_EQ(expected[i].rid, actual[i].rid);
	EXPECT_EQ(expected[i].is_paused, actual[i].is_paused);
	}
	}

	// Checks that two maps have the same key-value pairs.
	// Even though a map is technically ordered, the order semantics are not
	// tested because having the same key-set in both maps implies that they
	// are ordered the same because the template enforces that they have the
	// same Key-Comparer type.
	template <typename TKey, typename TValue>
	void ExpectEqual(const std::map<TKey, TValue>& expected,
	const std::map<TKey, TValue>& actual) {
	typedef typename std::map<TKey, TValue>::const_iterator const_iterator;
	ASSERT_EQ(expected.size(), actual.size());
	// Maps have unique keys, so if size is equal, it is enough to check
	// that all the keys (and values) from one map exist in the other.
	for (const std::pair<TKey, TValue>& pair : expected) {
	const_iterator iter = actual.find(pair.first);
	EXPECT_NE(iter, actual.end()) << "Key: " << pair.first << " not found";
	EXPECT_EQ(pair.second, iter->second);
	}
	}

	// Checks that the two SimulcastLayerLists are equal.
	void ExpectEqual(const SimulcastLayerList& expected,
	const SimulcastLayerList& actual) {
	EXPECT_EQ(expected.size(), actual.size());
	for (size_t i = 0; i < expected.size(); i++) {
	ExpectEqual(expected[i], actual[i]);
	}
	}

	// Checks that the two SimulcastDescriptions are equal.
	void ExpectEqual(const SimulcastDescription& expected,
	const SimulcastDescription& actual) {
	ExpectEqual(expected.send_layers(), actual.send_layers());
	ExpectEqual(expected.receive_layers(), actual.receive_layers());
	}

	// Checks that the two RidDescriptions are equal.
	void ExpectEqual(const RidDescription& expected, const RidDescription& actual) {
	EXPECT_EQ(expected.rid, actual.rid);
	EXPECT_EQ(expected.direction, actual.direction);
	ExpectEqual(expected.payload_types, actual.payload_types);
	ExpectEqual(expected.restrictions, actual.restrictions);
	}
	} // namespace

	class SimulcastSdpSerializerTest : public TestWithParam<const char*> {
	public:
	// Runs a test for deserializing Simulcast.
	// \|str\| - The serialized Simulcast to parse.
	// \|expected\| - The expected output Simulcast to compare to.
	void TestDeserialization(const std::string& str,
	const SimulcastDescription& expected) const {
	SdpSerializer deserializer;
	auto result = deserializer.DeserializeSimulcastDescription(str);
	EXPECT_TRUE(result.ok());
	ExpectEqual(expected, result.value());
	}

	// Runs a test for serializing Simulcast.
	// \|simulcast\| - The Simulcast to serialize.
	// \|expected\| - The expected output string to compare to.
	void TestSerialization(const SimulcastDescription& simulcast,
	const std::string& expected) const {
	SdpSerializer serializer;
	auto result = serializer.SerializeSimulcastDescription(simulcast);
	EXPECT_EQ(expected, result);
	}
	};

	// Test Cases

	// Test simple deserialization with no alternative streams.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_SimpleCaseNoAlternatives) {
	std::string simulcast_str = "send 1;2 recv 3;4";
	SimulcastDescription expected;
	expected.send_layers().AddLayer(SimulcastLayer("1", false));
	expected.send_layers().AddLayer(SimulcastLayer("2", false));
	expected.receive_layers().AddLayer(SimulcastLayer("3", false));
	expected.receive_layers().AddLayer(SimulcastLayer("4", false));
	TestDeserialization(simulcast_str, expected);
	}

	// Test simulcast deserialization with alternative streams.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_SimpleCaseWithAlternatives) {
	std::string simulcast_str = "send 1,5;2,6 recv 3,7;4,8";
	SimulcastDescription expected;
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("1", false), SimulcastLayer("5", false)});
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", false), SimulcastLayer("6", false)});
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("3", false), SimulcastLayer("7", false)});
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("4", false), SimulcastLayer("8", false)});
	TestDeserialization(simulcast_str, expected);
	}

	// Test simulcast deserialization when only some streams have alternatives.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_WithSomeAlternatives) {
	std::string simulcast_str = "send 1;2,6 recv 3,7;4";
	SimulcastDescription expected;
	expected.send_layers().AddLayer(SimulcastLayer("1", false));
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", false), SimulcastLayer("6", false)});
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("3", false), SimulcastLayer("7", false)});
	expected.receive_layers().AddLayer(SimulcastLayer("4", false));
	TestDeserialization(simulcast_str, expected);
	}

	// Test simulcast deserialization when only send streams are specified.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_OnlySendStreams) {
	std::string simulcast_str = "send 1;2,6;3,7;4";
	SimulcastDescription expected;
	expected.send_layers().AddLayer(SimulcastLayer("1", false));
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", false), SimulcastLayer("6", false)});
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("3", false), SimulcastLayer("7", false)});
	expected.send_layers().AddLayer(SimulcastLayer("4", false));
	TestDeserialization(simulcast_str, expected);
	}

	// Test simulcast deserialization when only receive streams are specified.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_OnlyReceiveStreams) {
	std::string simulcast_str = "recv 1;2,6;3,7;4";
	SimulcastDescription expected;
	expected.receive_layers().AddLayer(SimulcastLayer("1", false));
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", false), SimulcastLayer("6", false)});
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("3", false), SimulcastLayer("7", false)});
	expected.receive_layers().AddLayer(SimulcastLayer("4", false));
	TestDeserialization(simulcast_str, expected);
	}

	// Test simulcast deserialization with receive streams before send streams.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_SendReceiveReversed) {
	std::string simulcast_str = "recv 1;2,6 send 3,7;4";
	SimulcastDescription expected;
	expected.receive_layers().AddLayer(SimulcastLayer("1", false));
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", false), SimulcastLayer("6", false)});
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("3", false), SimulcastLayer("7", false)});
	expected.send_layers().AddLayer(SimulcastLayer("4", false));
	TestDeserialization(simulcast_str, expected);
	}

	// Test simulcast deserialization with some streams set to paused state.
	TEST_F(SimulcastSdpSerializerTest, Deserialize_PausedStreams) {
	std::string simulcast_str = "recv 1;~2,6 send 3,7;~4";
	SimulcastDescription expected;
	expected.receive_layers().AddLayer(SimulcastLayer("1", false));
	expected.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", true), SimulcastLayer("6", false)});
	expected.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("3", false), SimulcastLayer("7", false)});
	expected.send_layers().AddLayer(SimulcastLayer("4", true));
	TestDeserialization(simulcast_str, expected);
	}

	// Parameterized negative test case for deserialization with invalid inputs.
	TEST_P(SimulcastSdpSerializerTest, SimulcastDeserializationFailed) {
	SdpSerializer deserializer;
	auto result = deserializer.DeserializeSimulcastDescription(GetParam());
	EXPECT_FALSE(result.ok());
	}

	// The malformed Simulcast inputs to use in the negative test case.
	const char* kSimulcastMalformedStrings[] = {
	"send ",
	"recv ",
	"recv 1 send",
	"receive 1",
	"recv 1;~2,6 recv 3,7;~4",
	"send 1;~2,6 send 3,7;~4",
	"send ~;~2,6",
	"send 1; ;~2,6",
	"send 1,;~2,6",
	"recv 1 send 2 3",
	"",
	};

	INSTANTIATE_TEST_SUITE_P(SimulcastDeserializationErrors,
	SimulcastSdpSerializerTest,
	ValuesIn(kSimulcastMalformedStrings));

	// Test a simple serialization scenario.
	TEST_F(SimulcastSdpSerializerTest, Serialize_SimpleCase) {
	SimulcastDescription simulcast;
	simulcast.send_layers().AddLayer(SimulcastLayer("1", false));
	simulcast.receive_layers().AddLayer(SimulcastLayer("2", false));
	TestSerialization(simulcast, "send 1 recv 2");
	}

	// Test serialization with only send streams.
	TEST_F(SimulcastSdpSerializerTest, Serialize_OnlySend) {
	SimulcastDescription simulcast;
	simulcast.send_layers().AddLayer(SimulcastLayer("1", false));
	simulcast.send_layers().AddLayer(SimulcastLayer("2", false));
	TestSerialization(simulcast, "send 1;2");
	}

	// Test serialization with only receive streams
	TEST_F(SimulcastSdpSerializerTest, Serialize_OnlyReceive) {
	SimulcastDescription simulcast;
	simulcast.receive_layers().AddLayer(SimulcastLayer("1", false));
	simulcast.receive_layers().AddLayer(SimulcastLayer("2", false));
	TestSerialization(simulcast, "recv 1;2");
	}

	// Test a complex serialization with multiple streams, alternatives and states.
	TEST_F(SimulcastSdpSerializerTest, Serialize_ComplexSerialization) {
	SimulcastDescription simulcast;
	simulcast.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("2", false), SimulcastLayer("1", true)});
	simulcast.send_layers().AddLayerWithAlternatives(
	{SimulcastLayer("4", false), SimulcastLayer("3", false)});

	simulcast.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("6", false), SimulcastLayer("7", false)});
	simulcast.receive_layers().AddLayer(SimulcastLayer("8", true));
	simulcast.receive_layers().AddLayerWithAlternatives(
	{SimulcastLayer("9", false), SimulcastLayer("10", true),
	SimulcastLayer("11", false)});
	TestSerialization(simulcast, "send 2,~1;4,3 recv 6,7;~8;9,~10,11");
	}

	class RidDescriptionSdpSerializerTest : public TestWithParam<const char*> {
	public:
	// Runs a test for deserializing Rid Descriptions.
	// \|str\| - The serialized Rid Description to parse.
	// \|expected\| - The expected output RidDescription to compare to.
	void TestDeserialization(const std::string& str,
	const RidDescription& expected) const {
	SdpSerializer deserializer;
	auto result = deserializer.DeserializeRidDescription(str);
	EXPECT_TRUE(result.ok());
	ExpectEqual(expected, result.value());
	}

	// Runs a test for serializing RidDescriptions.
	// \|rid_description\| - The RidDescription to serialize.
	// \|expected\| - The expected output string to compare to.
	void TestSerialization(const RidDescription& rid_description,
	const std::string& expected) const {
	SdpSerializer serializer;
	auto result = serializer.SerializeRidDescription(rid_description);
	EXPECT_EQ(expected, result);
	}
	};

	// Test serialization for RidDescription that only specifies send.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_OnlyDirectionSend) {
	RidDescription rid_description("1", RidDirection::kSend);
	TestSerialization(rid_description, "1 send");
	}

	// Test serialization for RidDescription that only specifies receive.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_OnlyDirectionReceive) {
	RidDescription rid_description("2", RidDirection::kReceive);
	TestSerialization(rid_description, "2 recv");
	}

	// Test serialization for RidDescription with format list.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_FormatList) {
	RidDescription rid_description("3", RidDirection::kSend);
	rid_description.payload_types = {102, 101};
	TestSerialization(rid_description, "3 send pt=102,101");
	}

	// Test serialization for RidDescription with format list.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_FormatListSingleFormat) {
	RidDescription rid_description("4", RidDirection::kReceive);
	rid_description.payload_types = {100};
	TestSerialization(rid_description, "4 recv pt=100");
	}

	// Test serialization for RidDescription with restriction list.
	// Note: restriction list will be sorted because it is stored in a map.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_AttributeList) {
	RidDescription rid_description("5", RidDirection::kSend);
	rid_description.restrictions["max-width"] = "1280";
	rid_description.restrictions["max-height"] = "720";
	TestSerialization(rid_description, "5 send max-height=720;max-width=1280");
	}

	// Test serialization for RidDescription with format list and attribute list.
	// Note: restriction list will be sorted because it is stored in a map.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_FormatAndAttributeList) {
	RidDescription rid_description("6", RidDirection::kSend);
	rid_description.payload_types = {103, 104};
	rid_description.restrictions["max-mbps"] = "108000";
	rid_description.restrictions["max-br"] = "64000";
	TestSerialization(rid_description,
	"6 send pt=103,104;max-br=64000;max-mbps=108000");
	}

	// Test serialization for attribute list that has key with no value.
	// Note: restriction list will be sorted because it is stored in a map.
	TEST_F(RidDescriptionSdpSerializerTest, Serialize_RestrictionWithoutValue) {
	RidDescription rid_description("7", RidDirection::kReceive);
	rid_description.payload_types = {103};
	rid_description.restrictions["max-width"] = "1280";
	rid_description.restrictions["max-height"] = "720";
	rid_description.restrictions["max-myval"] = "";
	TestSerialization(rid_description,
	"7 recv pt=103;max-height=720;max-myval;max-width=1280");
	}

	// Test simulcast deserialization with simple send stream.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_SimpleSendCase) {
	RidDescription rid_description("1", RidDirection::kSend);
	TestDeserialization("1 send", rid_description);
	}

	// Test simulcast deserialization with simple receive stream.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_SimpleReceiveCase) {
	RidDescription rid_description("2", RidDirection::kReceive);
	TestDeserialization("2 recv", rid_description);
	}

	// Test simulcast deserialization with single format.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithFormat) {
	RidDescription rid_description("3", RidDirection::kSend);
	rid_description.payload_types = {101};
	TestDeserialization("3 send pt=101", rid_description);
	}

	// Test simulcast deserialization with multiple formats.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithMultipleFormats) {
	RidDescription rid_description("4", RidDirection::kSend);
	rid_description.payload_types = {103, 104, 101, 102};
	TestDeserialization("4 send pt=103,104,101,102", rid_description);
	}

	// Test simulcast deserialization with restriction.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithRestriction) {
	RidDescription rid_description("5", RidDirection::kReceive);
	rid_description.restrictions["max-height"] = "720";
	TestDeserialization("5 recv max-height=720", rid_description);
	}

	// Test simulcast deserialization with multiple restrictions.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithMultipleRestrictions) {
	RidDescription rid_description("6", RidDirection::kReceive);
	rid_description.restrictions["max-height"] = "720";
	rid_description.restrictions["max-width"] = "1920";
	rid_description.restrictions["max-fr"] = "60";
	rid_description.restrictions["max-bps"] = "14000";
	TestDeserialization(
	"6 recv max-height=720;max-width=1920;max-bps=14000;max-fr=60",
	rid_description);
	}

	// Test simulcast deserialization with custom (non-standard) restriction.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithCustomRestrictions) {
	RidDescription rid_description("7", RidDirection::kSend);
	rid_description.restrictions["foo"] = "bar";
	rid_description.restrictions["max-height"] = "720";
	TestDeserialization("7 send max-height=720;foo=bar", rid_description);
	}

	// Test simulcast deserialization with multiple formats and restrictions.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_WithFormatAndRestrictions) {
	RidDescription rid_description("8", RidDirection::kSend);
	rid_description.payload_types = {104, 103};
	rid_description.restrictions["max-height"] = "720";
	rid_description.restrictions["max-width"] = "1920";
	TestDeserialization("8 send pt=104,103;max-height=720;max-width=1920",
	rid_description);
	}

	// Test simulcast deserialization with restriction that has no value.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_RestrictionHasNoValue) {
	RidDescription rid_description("9", RidDirection::kReceive);
	rid_description.payload_types = {104};
	rid_description.restrictions["max-height"];
	rid_description.restrictions["max-width"] = "1920";
	TestDeserialization("9 recv pt=104;max-height;max-width=1920",
	rid_description);
	}

	// Add this test to explicitly indicate that this is not an error.
	// The following string "1 send recv" looks malformed because it specifies
	// two directions, but in fact, the recv can be interpreted as a parameter
	// without a value. While such a use case is dubious, the input string is
	// not malformed.
	TEST_F(RidDescriptionSdpSerializerTest, Deserialize_AmbiguousCase) {
	RidDescription rid_description("1", RidDirection::kSend);
	rid_description.restrictions["recv"]; // No value.
	TestDeserialization("1 send recv", rid_description);
	}

	// Parameterized negative test case for deserialization with invalid inputs.
	TEST_P(RidDescriptionSdpSerializerTest, RidDescriptionDeserializationFailed) {
	SdpSerializer deserializer;
	auto result = deserializer.DeserializeRidDescription(GetParam());
	EXPECT_FALSE(result.ok());
	}

	// The malformed Rid Description inputs to use in the negative test case.
	const char* kRidDescriptionMalformedStrings[] = {
	"1",
	"recv",
	"send",
	"recv 1",
	"send 1",
	"1 receive",
	"one direction",
	"1 send pt=1 max-width=720", // The ' ' should be ';' in restriction list.
	"1 recv ;",
	"1 recv =",
	"1 recv a=b=c",
	"1 send max-width=720;pt=101", // pt= should appear first.
	"1 send pt=101;pt=102",
	"1 send pt=101,101",
	"1 recv max-width=720;max-width=720",
	"1 send pt=",
	"1 send pt=abc",
	"1 recv ;;",
	"~1 recv",
	"1$2 send",
	"1=2 send",
	"1* send",
	};

	INSTANTIATE_TEST_SUITE_P(RidDescriptionDeserializationErrors,
	RidDescriptionSdpSerializerTest,
	ValuesIn(kRidDescriptionMalformedStrings));

	} // namespace webrtc