media/base/codec_unittest.cc - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2009 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 "webrtc/media/base/codec.h"
 #include "webrtc/rtc_base/gunit.h"

 using cricket::AudioCodec;
 using cricket::Codec;
 using cricket::DataCodec;
 using cricket::FeedbackParam;
 using cricket::VideoCodec;
 using cricket::kCodecParamAssociatedPayloadType;
 using cricket::kCodecParamMaxBitrate;
 using cricket::kCodecParamMinBitrate;

 class TestCodec : public Codec {
  public:
   TestCodec(int id, const std::string name, int clockrate)
       : Codec(id, name, clockrate) {}
   TestCodec() : Codec() {}
   TestCodec(const TestCodec& c) : Codec(c) {}
 };

 TEST(CodecTest, TestCodecOperators) {
   TestCodec c0(96, "D", 1000);
   c0.SetParam("a", 1);

   TestCodec c1 = c0;
   EXPECT_TRUE(c1 == c0);

   int param_value0;
   int param_value1;
   EXPECT_TRUE(c0.GetParam("a", &param_value0));
   EXPECT_TRUE(c1.GetParam("a", &param_value1));
   EXPECT_EQ(param_value0, param_value1);

   c1.id = 86;
   EXPECT_TRUE(c0 != c1);

   c1 = c0;
   c1.name = "x";
   EXPECT_TRUE(c0 != c1);

   c1 = c0;
   c1.clockrate = 2000;
   EXPECT_TRUE(c0 != c1);

   c1 = c0;
   c1.SetParam("a", 2);
   EXPECT_TRUE(c0 != c1);

   TestCodec c5;
   TestCodec c6(0, "", 0);
   EXPECT_TRUE(c5 == c6);
 }

 TEST(CodecTest, TestAudioCodecOperators) {
   AudioCodec c0(96, "A", 44100, 20000, 2);
   AudioCodec c1(95, "A", 44100, 20000, 2);
   AudioCodec c2(96, "x", 44100, 20000, 2);
   AudioCodec c3(96, "A", 48000, 20000, 2);
   AudioCodec c4(96, "A", 44100, 10000, 2);
   AudioCodec c5(96, "A", 44100, 20000, 1);
   EXPECT_NE(c0, c1);
   EXPECT_NE(c0, c2);
   EXPECT_NE(c0, c3);
   EXPECT_NE(c0, c4);
   EXPECT_NE(c0, c5);

   AudioCodec c7;
   AudioCodec c8(0, "", 0, 0, 0);
   AudioCodec c9 = c0;
   EXPECT_EQ(c8, c7);
   EXPECT_NE(c9, c7);
   EXPECT_EQ(c9, c0);

   AudioCodec c10(c0);
   AudioCodec c11(c0);
   AudioCodec c12(c0);
   AudioCodec c13(c0);
   c10.params["x"] = "abc";
   c11.params["x"] = "def";
   c12.params["y"] = "abc";
   c13.params["x"] = "abc";
   EXPECT_NE(c10, c0);
   EXPECT_NE(c11, c0);
   EXPECT_NE(c11, c10);
   EXPECT_NE(c12, c0);
   EXPECT_NE(c12, c10);
   EXPECT_NE(c12, c11);
   EXPECT_EQ(c13, c10);
 }

 TEST(CodecTest, TestAudioCodecMatches) {
   // Test a codec with a static payload type.
   AudioCodec c0(95, "A", 44100, 20000, 1);
   EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 44100, 20000, 1)));
   EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 44100, 20000, 0)));
   EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 44100, 0, 0)));
   EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 0, 0, 0)));
   EXPECT_FALSE(c0.Matches(AudioCodec(96, "", 44100, 20000, 1)));
   EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 55100, 20000, 1)));
   EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 44100, 30000, 1)));
   EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 44100, 20000, 2)));
   EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 55100, 30000, 2)));

   // Test a codec with a dynamic payload type.
   AudioCodec c1(96, "A", 44100, 20000, 1);
   EXPECT_TRUE(c1.Matches(AudioCodec(96, "A", 0, 0, 0)));
   EXPECT_TRUE(c1.Matches(AudioCodec(97, "A", 0, 0, 0)));
   EXPECT_TRUE(c1.Matches(AudioCodec(96, "a", 0, 0, 0)));
   EXPECT_TRUE(c1.Matches(AudioCodec(97, "a", 0, 0, 0)));
   EXPECT_FALSE(c1.Matches(AudioCodec(95, "A", 0, 0, 0)));
   EXPECT_FALSE(c1.Matches(AudioCodec(96, "", 44100, 20000, 2)));
   EXPECT_FALSE(c1.Matches(AudioCodec(96, "A", 55100, 30000, 1)));

   // Test a codec with a dynamic payload type, and auto bitrate.
   AudioCodec c2(97, "A", 16000, 0, 1);
   // Use default bitrate.
   EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, 0, 1)));
   EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, 0, 0)));
   // Use explicit bitrate.
   EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, 32000, 1)));
   // Backward compatibility with clients that might send "-1" (for default).
   EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, -1, 1)));

   // Stereo doesn't match channels = 0.
   AudioCodec c3(96, "A", 44100, 20000, 2);
   EXPECT_TRUE(c3.Matches(AudioCodec(96, "A", 44100, 20000, 2)));
   EXPECT_FALSE(c3.Matches(AudioCodec(96, "A", 44100, 20000, 1)));
   EXPECT_FALSE(c3.Matches(AudioCodec(96, "A", 44100, 20000, 0)));
 }

 TEST(CodecTest, TestVideoCodecOperators) {
   VideoCodec c0(96, "V");
   VideoCodec c1(95, "V");
   VideoCodec c2(96, "x");

   EXPECT_TRUE(c0 != c1);
   EXPECT_TRUE(c0 != c2);

   VideoCodec c7;
   VideoCodec c8(0, "");
   VideoCodec c9 = c0;
   EXPECT_TRUE(c8 == c7);
   EXPECT_TRUE(c9 != c7);
   EXPECT_TRUE(c9 == c0);

   VideoCodec c10(c0);
   VideoCodec c11(c0);
   VideoCodec c12(c0);
   VideoCodec c13(c0);
   c10.params["x"] = "abc";
   c11.params["x"] = "def";
   c12.params["y"] = "abc";
   c13.params["x"] = "abc";
   EXPECT_TRUE(c10 != c0);
   EXPECT_TRUE(c11 != c0);
   EXPECT_TRUE(c11 != c10);
   EXPECT_TRUE(c12 != c0);
   EXPECT_TRUE(c12 != c10);
   EXPECT_TRUE(c12 != c11);
   EXPECT_TRUE(c13 == c10);
 }

 TEST(CodecTest, TestVideoCodecMatches) {
   // Test a codec with a static payload type.
   VideoCodec c0(95, "V");
   EXPECT_TRUE(c0.Matches(VideoCodec(95, "")));
   EXPECT_FALSE(c0.Matches(VideoCodec(96, "")));

   // Test a codec with a dynamic payload type.
   VideoCodec c1(96, "V");
   EXPECT_TRUE(c1.Matches(VideoCodec(96, "V")));
   EXPECT_TRUE(c1.Matches(VideoCodec(97, "V")));
   EXPECT_TRUE(c1.Matches(VideoCodec(96, "v")));
   EXPECT_TRUE(c1.Matches(VideoCodec(97, "v")));
   EXPECT_FALSE(c1.Matches(VideoCodec(96, "")));
   EXPECT_FALSE(c1.Matches(VideoCodec(95, "V")));
 }

 TEST(CodecTest, TestDataCodecMatches) {
   // Test a codec with a static payload type.
   DataCodec c0(95, "D");
   EXPECT_TRUE(c0.Matches(DataCodec(95, "")));
   EXPECT_FALSE(c0.Matches(DataCodec(96, "")));

   // Test a codec with a dynamic payload type.
   DataCodec c1(96, "D");
   EXPECT_TRUE(c1.Matches(DataCodec(96, "D")));
   EXPECT_TRUE(c1.Matches(DataCodec(97, "D")));
   EXPECT_TRUE(c1.Matches(DataCodec(96, "d")));
   EXPECT_TRUE(c1.Matches(DataCodec(97, "d")));
   EXPECT_FALSE(c1.Matches(DataCodec(96, "")));
   EXPECT_FALSE(c1.Matches(DataCodec(95, "D")));
 }

 TEST(CodecTest, TestSetParamGetParamAndRemoveParam) {
   AudioCodec codec;
   codec.SetParam("a", "1");
   codec.SetParam("b", "x");

   int int_value = 0;
   EXPECT_TRUE(codec.GetParam("a", &int_value));
   EXPECT_EQ(1, int_value);
   EXPECT_FALSE(codec.GetParam("b", &int_value));
   EXPECT_FALSE(codec.GetParam("c", &int_value));

   std::string str_value;
   EXPECT_TRUE(codec.GetParam("a", &str_value));
   EXPECT_EQ("1", str_value);
   EXPECT_TRUE(codec.GetParam("b", &str_value));
   EXPECT_EQ("x", str_value);
   EXPECT_FALSE(codec.GetParam("c", &str_value));
   EXPECT_TRUE(codec.RemoveParam("a"));
   EXPECT_FALSE(codec.RemoveParam("c"));
 }

 TEST(CodecTest, TestIntersectFeedbackParams) {
   const FeedbackParam a1("a", "1");
   const FeedbackParam b2("b", "2");
   const FeedbackParam b3("b", "3");
   const FeedbackParam c3("c", "3");
   TestCodec c1;
   c1.AddFeedbackParam(a1); // Only match with c2.
   c1.AddFeedbackParam(b2); // Same param different values.
   c1.AddFeedbackParam(c3); // Not in c2.
   TestCodec c2;
   c2.AddFeedbackParam(a1);
   c2.AddFeedbackParam(b3);

   c1.IntersectFeedbackParams(c2);
   EXPECT_TRUE(c1.HasFeedbackParam(a1));
   EXPECT_FALSE(c1.HasFeedbackParam(b2));
   EXPECT_FALSE(c1.HasFeedbackParam(c3));
 }

 TEST(CodecTest, TestGetCodecType) {
   // Codec type comparison should be case insenstive on names.
   const VideoCodec codec(96, "V");
   const VideoCodec rtx_codec(96, "rTx");
   const VideoCodec ulpfec_codec(96, "ulpFeC");
   const VideoCodec flexfec_codec(96, "FlExFeC-03");
   const VideoCodec red_codec(96, "ReD");
   EXPECT_EQ(VideoCodec::CODEC_VIDEO, codec.GetCodecType());
   EXPECT_EQ(VideoCodec::CODEC_RTX, rtx_codec.GetCodecType());
   EXPECT_EQ(VideoCodec::CODEC_ULPFEC, ulpfec_codec.GetCodecType());
   EXPECT_EQ(VideoCodec::CODEC_FLEXFEC, flexfec_codec.GetCodecType());
   EXPECT_EQ(VideoCodec::CODEC_RED, red_codec.GetCodecType());
 }

 TEST(CodecTest, TestCreateRtxCodec) {
   VideoCodec rtx_codec = VideoCodec::CreateRtxCodec(96, 120);
   EXPECT_EQ(96, rtx_codec.id);
   EXPECT_EQ(VideoCodec::CODEC_RTX, rtx_codec.GetCodecType());
   int associated_payload_type;
   ASSERT_TRUE(rtx_codec.GetParam(kCodecParamAssociatedPayloadType,
                                  &associated_payload_type));
   EXPECT_EQ(120, associated_payload_type);
 }

 TEST(CodecTest, TestValidateCodecFormat) {
   const VideoCodec codec(96, "V");
   ASSERT_TRUE(codec.ValidateCodecFormat());

   // Accept 0-127 as payload types.
   VideoCodec low_payload_type = codec;
   low_payload_type.id = 0;
   VideoCodec high_payload_type = codec;
   high_payload_type.id = 127;
   ASSERT_TRUE(low_payload_type.ValidateCodecFormat());
   EXPECT_TRUE(high_payload_type.ValidateCodecFormat());

   // Reject negative payloads.
   VideoCodec negative_payload_type = codec;
   negative_payload_type.id = -1;
   EXPECT_FALSE(negative_payload_type.ValidateCodecFormat());

   // Reject too-high payloads.
   VideoCodec too_high_payload_type = codec;
   too_high_payload_type.id = 128;
   EXPECT_FALSE(too_high_payload_type.ValidateCodecFormat());

   // Reject codecs with min bitrate > max bitrate.
   VideoCodec incorrect_bitrates = codec;
   incorrect_bitrates.params[kCodecParamMinBitrate] = "100";
   incorrect_bitrates.params[kCodecParamMaxBitrate] = "80";
   EXPECT_FALSE(incorrect_bitrates.ValidateCodecFormat());

   // Accept min bitrate == max bitrate.
   VideoCodec equal_bitrates = codec;
   equal_bitrates.params[kCodecParamMinBitrate] = "100";
   equal_bitrates.params[kCodecParamMaxBitrate] = "100";
   EXPECT_TRUE(equal_bitrates.ValidateCodecFormat());

   // Accept min bitrate < max bitrate.
   VideoCodec different_bitrates = codec;
   different_bitrates.params[kCodecParamMinBitrate] = "99";
   different_bitrates.params[kCodecParamMaxBitrate] = "100";
   EXPECT_TRUE(different_bitrates.ValidateCodecFormat());
 }

 TEST(CodecTest, TestToCodecParameters) {
   const VideoCodec v(96, "V");
   webrtc::RtpCodecParameters codec_params_1 = v.ToCodecParameters();
   EXPECT_EQ(96, codec_params_1.payload_type);
   EXPECT_EQ(cricket::MEDIA_TYPE_VIDEO, codec_params_1.kind);
   EXPECT_EQ("V", codec_params_1.name);
   EXPECT_EQ(rtc::Optional<int>(cricket::kVideoCodecClockrate),
             codec_params_1.clock_rate);
   EXPECT_EQ(rtc::Optional<int>(), codec_params_1.num_channels);

   const AudioCodec a(97, "A", 44100, 20000, 2);
   webrtc::RtpCodecParameters codec_params_2 = a.ToCodecParameters();
   EXPECT_EQ(97, codec_params_2.payload_type);
   EXPECT_EQ(cricket::MEDIA_TYPE_AUDIO, codec_params_2.kind);
   EXPECT_EQ("A", codec_params_2.name);
   EXPECT_EQ(rtc::Optional<int>(44100), codec_params_2.clock_rate);
   EXPECT_EQ(rtc::Optional<int>(2), codec_params_2.num_channels);
 }
	/*
	* Copyright (c) 2009 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 "webrtc/media/base/codec.h"
	#include "webrtc/rtc_base/gunit.h"

	using cricket::AudioCodec;
	using cricket::Codec;
	using cricket::DataCodec;
	using cricket::FeedbackParam;
	using cricket::VideoCodec;
	using cricket::kCodecParamAssociatedPayloadType;
	using cricket::kCodecParamMaxBitrate;
	using cricket::kCodecParamMinBitrate;

	class TestCodec : public Codec {
	public:
	TestCodec(int id, const std::string name, int clockrate)
	: Codec(id, name, clockrate) {}
	TestCodec() : Codec() {}
	TestCodec(const TestCodec& c) : Codec(c) {}
	};

	TEST(CodecTest, TestCodecOperators) {
	TestCodec c0(96, "D", 1000);
	c0.SetParam("a", 1);

	TestCodec c1 = c0;
	EXPECT_TRUE(c1 == c0);

	int param_value0;
	int param_value1;
	EXPECT_TRUE(c0.GetParam("a", &param_value0));
	EXPECT_TRUE(c1.GetParam("a", &param_value1));
	EXPECT_EQ(param_value0, param_value1);

	c1.id = 86;
	EXPECT_TRUE(c0 != c1);

	c1 = c0;
	c1.name = "x";
	EXPECT_TRUE(c0 != c1);

	c1 = c0;
	c1.clockrate = 2000;
	EXPECT_TRUE(c0 != c1);

	c1 = c0;
	c1.SetParam("a", 2);
	EXPECT_TRUE(c0 != c1);

	TestCodec c5;
	TestCodec c6(0, "", 0);
	EXPECT_TRUE(c5 == c6);
	}

	TEST(CodecTest, TestAudioCodecOperators) {
	AudioCodec c0(96, "A", 44100, 20000, 2);
	AudioCodec c1(95, "A", 44100, 20000, 2);
	AudioCodec c2(96, "x", 44100, 20000, 2);
	AudioCodec c3(96, "A", 48000, 20000, 2);
	AudioCodec c4(96, "A", 44100, 10000, 2);
	AudioCodec c5(96, "A", 44100, 20000, 1);
	EXPECT_NE(c0, c1);
	EXPECT_NE(c0, c2);
	EXPECT_NE(c0, c3);
	EXPECT_NE(c0, c4);
	EXPECT_NE(c0, c5);

	AudioCodec c7;
	AudioCodec c8(0, "", 0, 0, 0);
	AudioCodec c9 = c0;
	EXPECT_EQ(c8, c7);
	EXPECT_NE(c9, c7);
	EXPECT_EQ(c9, c0);

	AudioCodec c10(c0);
	AudioCodec c11(c0);
	AudioCodec c12(c0);
	AudioCodec c13(c0);
	c10.params["x"] = "abc";
	c11.params["x"] = "def";
	c12.params["y"] = "abc";
	c13.params["x"] = "abc";
	EXPECT_NE(c10, c0);
	EXPECT_NE(c11, c0);
	EXPECT_NE(c11, c10);
	EXPECT_NE(c12, c0);
	EXPECT_NE(c12, c10);
	EXPECT_NE(c12, c11);
	EXPECT_EQ(c13, c10);
	}

	TEST(CodecTest, TestAudioCodecMatches) {
	// Test a codec with a static payload type.
	AudioCodec c0(95, "A", 44100, 20000, 1);
	EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 44100, 20000, 1)));
	EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 44100, 20000, 0)));
	EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 44100, 0, 0)));
	EXPECT_TRUE(c0.Matches(AudioCodec(95, "", 0, 0, 0)));
	EXPECT_FALSE(c0.Matches(AudioCodec(96, "", 44100, 20000, 1)));
	EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 55100, 20000, 1)));
	EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 44100, 30000, 1)));
	EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 44100, 20000, 2)));
	EXPECT_FALSE(c0.Matches(AudioCodec(95, "", 55100, 30000, 2)));

	// Test a codec with a dynamic payload type.
	AudioCodec c1(96, "A", 44100, 20000, 1);
	EXPECT_TRUE(c1.Matches(AudioCodec(96, "A", 0, 0, 0)));
	EXPECT_TRUE(c1.Matches(AudioCodec(97, "A", 0, 0, 0)));
	EXPECT_TRUE(c1.Matches(AudioCodec(96, "a", 0, 0, 0)));
	EXPECT_TRUE(c1.Matches(AudioCodec(97, "a", 0, 0, 0)));
	EXPECT_FALSE(c1.Matches(AudioCodec(95, "A", 0, 0, 0)));
	EXPECT_FALSE(c1.Matches(AudioCodec(96, "", 44100, 20000, 2)));
	EXPECT_FALSE(c1.Matches(AudioCodec(96, "A", 55100, 30000, 1)));

	// Test a codec with a dynamic payload type, and auto bitrate.
	AudioCodec c2(97, "A", 16000, 0, 1);
	// Use default bitrate.
	EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, 0, 1)));
	EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, 0, 0)));
	// Use explicit bitrate.
	EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, 32000, 1)));
	// Backward compatibility with clients that might send "-1" (for default).
	EXPECT_TRUE(c2.Matches(AudioCodec(97, "A", 16000, -1, 1)));

	// Stereo doesn't match channels = 0.
	AudioCodec c3(96, "A", 44100, 20000, 2);
	EXPECT_TRUE(c3.Matches(AudioCodec(96, "A", 44100, 20000, 2)));
	EXPECT_FALSE(c3.Matches(AudioCodec(96, "A", 44100, 20000, 1)));
	EXPECT_FALSE(c3.Matches(AudioCodec(96, "A", 44100, 20000, 0)));
	}

	TEST(CodecTest, TestVideoCodecOperators) {
	VideoCodec c0(96, "V");
	VideoCodec c1(95, "V");
	VideoCodec c2(96, "x");

	EXPECT_TRUE(c0 != c1);
	EXPECT_TRUE(c0 != c2);

	VideoCodec c7;
	VideoCodec c8(0, "");
	VideoCodec c9 = c0;
	EXPECT_TRUE(c8 == c7);
	EXPECT_TRUE(c9 != c7);
	EXPECT_TRUE(c9 == c0);

	VideoCodec c10(c0);
	VideoCodec c11(c0);
	VideoCodec c12(c0);
	VideoCodec c13(c0);
	c10.params["x"] = "abc";
	c11.params["x"] = "def";
	c12.params["y"] = "abc";
	c13.params["x"] = "abc";
	EXPECT_TRUE(c10 != c0);
	EXPECT_TRUE(c11 != c0);
	EXPECT_TRUE(c11 != c10);
	EXPECT_TRUE(c12 != c0);
	EXPECT_TRUE(c12 != c10);
	EXPECT_TRUE(c12 != c11);
	EXPECT_TRUE(c13 == c10);
	}

	TEST(CodecTest, TestVideoCodecMatches) {
	// Test a codec with a static payload type.
	VideoCodec c0(95, "V");
	EXPECT_TRUE(c0.Matches(VideoCodec(95, "")));
	EXPECT_FALSE(c0.Matches(VideoCodec(96, "")));

	// Test a codec with a dynamic payload type.
	VideoCodec c1(96, "V");
	EXPECT_TRUE(c1.Matches(VideoCodec(96, "V")));
	EXPECT_TRUE(c1.Matches(VideoCodec(97, "V")));
	EXPECT_TRUE(c1.Matches(VideoCodec(96, "v")));
	EXPECT_TRUE(c1.Matches(VideoCodec(97, "v")));
	EXPECT_FALSE(c1.Matches(VideoCodec(96, "")));
	EXPECT_FALSE(c1.Matches(VideoCodec(95, "V")));
	}

	TEST(CodecTest, TestDataCodecMatches) {
	// Test a codec with a static payload type.
	DataCodec c0(95, "D");
	EXPECT_TRUE(c0.Matches(DataCodec(95, "")));
	EXPECT_FALSE(c0.Matches(DataCodec(96, "")));

	// Test a codec with a dynamic payload type.
	DataCodec c1(96, "D");
	EXPECT_TRUE(c1.Matches(DataCodec(96, "D")));
	EXPECT_TRUE(c1.Matches(DataCodec(97, "D")));
	EXPECT_TRUE(c1.Matches(DataCodec(96, "d")));
	EXPECT_TRUE(c1.Matches(DataCodec(97, "d")));
	EXPECT_FALSE(c1.Matches(DataCodec(96, "")));
	EXPECT_FALSE(c1.Matches(DataCodec(95, "D")));
	}

	TEST(CodecTest, TestSetParamGetParamAndRemoveParam) {
	AudioCodec codec;
	codec.SetParam("a", "1");
	codec.SetParam("b", "x");

	int int_value = 0;
	EXPECT_TRUE(codec.GetParam("a", &int_value));
	EXPECT_EQ(1, int_value);
	EXPECT_FALSE(codec.GetParam("b", &int_value));
	EXPECT_FALSE(codec.GetParam("c", &int_value));

	std::string str_value;
	EXPECT_TRUE(codec.GetParam("a", &str_value));
	EXPECT_EQ("1", str_value);
	EXPECT_TRUE(codec.GetParam("b", &str_value));
	EXPECT_EQ("x", str_value);
	EXPECT_FALSE(codec.GetParam("c", &str_value));
	EXPECT_TRUE(codec.RemoveParam("a"));
	EXPECT_FALSE(codec.RemoveParam("c"));
	}

	TEST(CodecTest, TestIntersectFeedbackParams) {
	const FeedbackParam a1("a", "1");
	const FeedbackParam b2("b", "2");
	const FeedbackParam b3("b", "3");
	const FeedbackParam c3("c", "3");
	TestCodec c1;
	c1.AddFeedbackParam(a1); // Only match with c2.
	c1.AddFeedbackParam(b2); // Same param different values.
	c1.AddFeedbackParam(c3); // Not in c2.
	TestCodec c2;
	c2.AddFeedbackParam(a1);
	c2.AddFeedbackParam(b3);

	c1.IntersectFeedbackParams(c2);
	EXPECT_TRUE(c1.HasFeedbackParam(a1));
	EXPECT_FALSE(c1.HasFeedbackParam(b2));
	EXPECT_FALSE(c1.HasFeedbackParam(c3));
	}

	TEST(CodecTest, TestGetCodecType) {
	// Codec type comparison should be case insenstive on names.
	const VideoCodec codec(96, "V");
	const VideoCodec rtx_codec(96, "rTx");
	const VideoCodec ulpfec_codec(96, "ulpFeC");
	const VideoCodec flexfec_codec(96, "FlExFeC-03");
	const VideoCodec red_codec(96, "ReD");
	EXPECT_EQ(VideoCodec::CODEC_VIDEO, codec.GetCodecType());
	EXPECT_EQ(VideoCodec::CODEC_RTX, rtx_codec.GetCodecType());
	EXPECT_EQ(VideoCodec::CODEC_ULPFEC, ulpfec_codec.GetCodecType());
	EXPECT_EQ(VideoCodec::CODEC_FLEXFEC, flexfec_codec.GetCodecType());
	EXPECT_EQ(VideoCodec::CODEC_RED, red_codec.GetCodecType());
	}

	TEST(CodecTest, TestCreateRtxCodec) {
	VideoCodec rtx_codec = VideoCodec::CreateRtxCodec(96, 120);
	EXPECT_EQ(96, rtx_codec.id);
	EXPECT_EQ(VideoCodec::CODEC_RTX, rtx_codec.GetCodecType());
	int associated_payload_type;
	ASSERT_TRUE(rtx_codec.GetParam(kCodecParamAssociatedPayloadType,
	&associated_payload_type));
	EXPECT_EQ(120, associated_payload_type);
	}

	TEST(CodecTest, TestValidateCodecFormat) {
	const VideoCodec codec(96, "V");
	ASSERT_TRUE(codec.ValidateCodecFormat());

	// Accept 0-127 as payload types.
	VideoCodec low_payload_type = codec;
	low_payload_type.id = 0;
	VideoCodec high_payload_type = codec;
	high_payload_type.id = 127;
	ASSERT_TRUE(low_payload_type.ValidateCodecFormat());
	EXPECT_TRUE(high_payload_type.ValidateCodecFormat());

	// Reject negative payloads.
	VideoCodec negative_payload_type = codec;
	negative_payload_type.id = -1;
	EXPECT_FALSE(negative_payload_type.ValidateCodecFormat());

	// Reject too-high payloads.
	VideoCodec too_high_payload_type = codec;
	too_high_payload_type.id = 128;
	EXPECT_FALSE(too_high_payload_type.ValidateCodecFormat());

	// Reject codecs with min bitrate > max bitrate.
	VideoCodec incorrect_bitrates = codec;
	incorrect_bitrates.params[kCodecParamMinBitrate] = "100";
	incorrect_bitrates.params[kCodecParamMaxBitrate] = "80";
	EXPECT_FALSE(incorrect_bitrates.ValidateCodecFormat());

	// Accept min bitrate == max bitrate.
	VideoCodec equal_bitrates = codec;
	equal_bitrates.params[kCodecParamMinBitrate] = "100";
	equal_bitrates.params[kCodecParamMaxBitrate] = "100";
	EXPECT_TRUE(equal_bitrates.ValidateCodecFormat());

	// Accept min bitrate < max bitrate.
	VideoCodec different_bitrates = codec;
	different_bitrates.params[kCodecParamMinBitrate] = "99";
	different_bitrates.params[kCodecParamMaxBitrate] = "100";
	EXPECT_TRUE(different_bitrates.ValidateCodecFormat());
	}

	TEST(CodecTest, TestToCodecParameters) {
	const VideoCodec v(96, "V");
	webrtc::RtpCodecParameters codec_params_1 = v.ToCodecParameters();
	EXPECT_EQ(96, codec_params_1.payload_type);
	EXPECT_EQ(cricket::MEDIA_TYPE_VIDEO, codec_params_1.kind);
	EXPECT_EQ("V", codec_params_1.name);
	EXPECT_EQ(rtc::Optional<int>(cricket::kVideoCodecClockrate),
	codec_params_1.clock_rate);
	EXPECT_EQ(rtc::Optional<int>(), codec_params_1.num_channels);

	const AudioCodec a(97, "A", 44100, 20000, 2);
	webrtc::RtpCodecParameters codec_params_2 = a.ToCodecParameters();
	EXPECT_EQ(97, codec_params_2.payload_type);
	EXPECT_EQ(cricket::MEDIA_TYPE_AUDIO, codec_params_2.kind);
	EXPECT_EQ("A", codec_params_2.name);
	EXPECT_EQ(rtc::Optional<int>(44100), codec_params_2.clock_rate);
	EXPECT_EQ(rtc::Optional<int>(2), codec_params_2.num_channels);
	}