media/base/sdp_video_format_utils_unittest.cc - src - Git at Google

 /*
  *  Copyright (c) 2019 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 "media/base/sdp_video_format_utils.h"

 #include <string.h>

 #include <map>
 #include <utility>

 #include "rtc_base/string_to_number.h"
 #include "test/gtest.h"

 namespace webrtc {
 namespace {
 // Max frame rate for VP8 and VP9 video.
 const char kVPxFmtpMaxFrameRate[] = "max-fr";
 // Max frame size for VP8 and VP9 video.
 const char kVPxFmtpMaxFrameSize[] = "max-fs";
 // Nonstandard per-layer PLI for video.
 const char kCodecParamPerLayerPictureLossIndication[] =
     "x-google-per-layer-pli";
 }  // namespace

 TEST(SdpVideoFormatUtilsTest, TestH264GenerateProfileLevelIdForAnswerEmpty) {
   CodecParameterMap answer_params;
   H264GenerateProfileLevelIdForAnswer(CodecParameterMap(), CodecParameterMap(),
                                       &answer_params);
   EXPECT_TRUE(answer_params.empty());
 }

 TEST(SdpVideoFormatUtilsTest,
      TestH264GenerateProfileLevelIdForAnswerLevelSymmetryCapped) {
   CodecParameterMap low_level;
   low_level["profile-level-id"] = "42e015";
   CodecParameterMap high_level;
   high_level["profile-level-id"] = "42e01f";

   // Level asymmetry is not allowed; test that answer level is the lower of the
   // local and remote levels.
   CodecParameterMap answer_params;
   H264GenerateProfileLevelIdForAnswer(low_level /* local_supported */,
                                       high_level /* remote_offered */,
                                       &answer_params);
   EXPECT_EQ("42e015", answer_params["profile-level-id"]);

   CodecParameterMap answer_params2;
   H264GenerateProfileLevelIdForAnswer(high_level /* local_supported */,
                                       low_level /* remote_offered */,
                                       &answer_params2);
   EXPECT_EQ("42e015", answer_params2["profile-level-id"]);
 }

 TEST(SdpVideoFormatUtilsTest,
      TestH264GenerateProfileLevelIdForAnswerConstrainedBaselineLevelAsymmetry) {
   CodecParameterMap local_params;
   local_params["profile-level-id"] = "42e01f";
   local_params["level-asymmetry-allowed"] = "1";
   CodecParameterMap remote_params;
   remote_params["profile-level-id"] = "42e015";
   remote_params["level-asymmetry-allowed"] = "1";
   CodecParameterMap answer_params;
   H264GenerateProfileLevelIdForAnswer(local_params, remote_params,
                                       &answer_params);
   // When level asymmetry is allowed, we can answer a higher level than what was
   // offered.
   EXPECT_EQ("42e01f", answer_params["profile-level-id"]);
 }

 #ifdef RTC_ENABLE_H265
 // Answer should not include explicit PTL info if neither local nor remote set
 // any of them.
 TEST(SdpVideoFormatUtilsTest, H265GenerateProfileTierLevelEmpty) {
   CodecParameterMap answer_params;
   H265GenerateProfileTierLevelForAnswer(CodecParameterMap(),
                                         CodecParameterMap(), &answer_params);
   EXPECT_TRUE(answer_params.empty());
 }

 // Answer must use the minimum level as supported by both local and remote.
 TEST(SdpVideoFormatUtilsTest, H265GenerateProfileTierLevelNoEmpty) {
   constexpr char kLocallySupportedLevelId[] = "93";
   constexpr char kRemoteOfferedLevelId[] = "120";

   CodecParameterMap local_params;
   local_params["profile-id"] = "1";
   local_params["tier-flag"] = "0";
   local_params["level-id"] = kLocallySupportedLevelId;
   CodecParameterMap remote_params;
   remote_params["profile-id"] = "1";
   remote_params["tier-flag"] = "0";
   remote_params["level-id"] = kRemoteOfferedLevelId;
   CodecParameterMap answer_params;
   H265GenerateProfileTierLevelForAnswer(local_params, remote_params,
                                         &answer_params);
   EXPECT_EQ(kLocallySupportedLevelId, answer_params["level-id"]);
 }
 #endif

 TEST(SdpVideoFormatUtilsTest, MaxFrameRateIsMissingOrInvalid) {
   CodecParameterMap params;
   absl::optional<int> empty = ParseSdpForVPxMaxFrameRate(params);
   EXPECT_FALSE(empty);
   params[kVPxFmtpMaxFrameRate] = "-1";
   EXPECT_FALSE(ParseSdpForVPxMaxFrameRate(params));
   params[kVPxFmtpMaxFrameRate] = "0";
   EXPECT_FALSE(ParseSdpForVPxMaxFrameRate(params));
   params[kVPxFmtpMaxFrameRate] = "abcde";
   EXPECT_FALSE(ParseSdpForVPxMaxFrameRate(params));
 }

 TEST(SdpVideoFormatUtilsTest, MaxFrameRateIsSpecified) {
   CodecParameterMap params;
   params[kVPxFmtpMaxFrameRate] = "30";
   EXPECT_EQ(ParseSdpForVPxMaxFrameRate(params), 30);
   params[kVPxFmtpMaxFrameRate] = "60";
   EXPECT_EQ(ParseSdpForVPxMaxFrameRate(params), 60);
 }

 TEST(SdpVideoFormatUtilsTest, MaxFrameSizeIsMissingOrInvalid) {
   CodecParameterMap params;
   absl::optional<int> empty = ParseSdpForVPxMaxFrameSize(params);
   EXPECT_FALSE(empty);
   params[kVPxFmtpMaxFrameSize] = "-1";
   EXPECT_FALSE(ParseSdpForVPxMaxFrameSize(params));
   params[kVPxFmtpMaxFrameSize] = "0";
   EXPECT_FALSE(ParseSdpForVPxMaxFrameSize(params));
   params[kVPxFmtpMaxFrameSize] = "abcde";
   EXPECT_FALSE(ParseSdpForVPxMaxFrameSize(params));
 }

 TEST(SdpVideoFormatUtilsTest, MaxFrameSizeIsSpecified) {
   CodecParameterMap params;
   params[kVPxFmtpMaxFrameSize] = "8100";  // 1920 x 1080 / (16^2)
   EXPECT_EQ(ParseSdpForVPxMaxFrameSize(params), 1920 * 1080);
   params[kVPxFmtpMaxFrameSize] = "32400";  // 3840 x 2160 / (16^2)
   EXPECT_EQ(ParseSdpForVPxMaxFrameSize(params), 3840 * 2160);
 }

 TEST(SdpVideoFormatUtilsTest, PerLayerPictureLossIndication) {
   CodecParameterMap params;
   EXPECT_FALSE(SupportsPerLayerPictureLossIndication(params));
   params[kCodecParamPerLayerPictureLossIndication] = "wrong";
   EXPECT_FALSE(SupportsPerLayerPictureLossIndication(params));
   params[kCodecParamPerLayerPictureLossIndication] = "0";
   EXPECT_FALSE(SupportsPerLayerPictureLossIndication(params));
   params[kCodecParamPerLayerPictureLossIndication] = "1";
   EXPECT_TRUE(SupportsPerLayerPictureLossIndication(params));
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2019 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 "media/base/sdp_video_format_utils.h"

	#include <string.h>

	#include <map>
	#include <utility>

	#include "rtc_base/string_to_number.h"
	#include "test/gtest.h"

	namespace webrtc {
	namespace {
	// Max frame rate for VP8 and VP9 video.
	const char kVPxFmtpMaxFrameRate[] = "max-fr";
	// Max frame size for VP8 and VP9 video.
	const char kVPxFmtpMaxFrameSize[] = "max-fs";
	// Nonstandard per-layer PLI for video.
	const char kCodecParamPerLayerPictureLossIndication[] =
	"x-google-per-layer-pli";
	} // namespace

	TEST(SdpVideoFormatUtilsTest, TestH264GenerateProfileLevelIdForAnswerEmpty) {
	CodecParameterMap answer_params;
	H264GenerateProfileLevelIdForAnswer(CodecParameterMap(), CodecParameterMap(),
	&answer_params);
	EXPECT_TRUE(answer_params.empty());
	}

	TEST(SdpVideoFormatUtilsTest,
	TestH264GenerateProfileLevelIdForAnswerLevelSymmetryCapped) {
	CodecParameterMap low_level;
	low_level["profile-level-id"] = "42e015";
	CodecParameterMap high_level;
	high_level["profile-level-id"] = "42e01f";

	// Level asymmetry is not allowed; test that answer level is the lower of the
	// local and remote levels.
	CodecParameterMap answer_params;
	H264GenerateProfileLevelIdForAnswer(low_level /* local_supported */,
	high_level /* remote_offered */,
	&answer_params);
	EXPECT_EQ("42e015", answer_params["profile-level-id"]);

	CodecParameterMap answer_params2;
	H264GenerateProfileLevelIdForAnswer(high_level /* local_supported */,
	low_level /* remote_offered */,
	&answer_params2);
	EXPECT_EQ("42e015", answer_params2["profile-level-id"]);
	}

	TEST(SdpVideoFormatUtilsTest,
	TestH264GenerateProfileLevelIdForAnswerConstrainedBaselineLevelAsymmetry) {
	CodecParameterMap local_params;
	local_params["profile-level-id"] = "42e01f";
	local_params["level-asymmetry-allowed"] = "1";
	CodecParameterMap remote_params;
	remote_params["profile-level-id"] = "42e015";
	remote_params["level-asymmetry-allowed"] = "1";
	CodecParameterMap answer_params;
	H264GenerateProfileLevelIdForAnswer(local_params, remote_params,
	&answer_params);
	// When level asymmetry is allowed, we can answer a higher level than what was
	// offered.
	EXPECT_EQ("42e01f", answer_params["profile-level-id"]);
	}

	#ifdef RTC_ENABLE_H265
	// Answer should not include explicit PTL info if neither local nor remote set
	// any of them.
	TEST(SdpVideoFormatUtilsTest, H265GenerateProfileTierLevelEmpty) {
	CodecParameterMap answer_params;
	H265GenerateProfileTierLevelForAnswer(CodecParameterMap(),
	CodecParameterMap(), &answer_params);
	EXPECT_TRUE(answer_params.empty());
	}

	// Answer must use the minimum level as supported by both local and remote.
	TEST(SdpVideoFormatUtilsTest, H265GenerateProfileTierLevelNoEmpty) {
	constexpr char kLocallySupportedLevelId[] = "93";
	constexpr char kRemoteOfferedLevelId[] = "120";

	CodecParameterMap local_params;
	local_params["profile-id"] = "1";
	local_params["tier-flag"] = "0";
	local_params["level-id"] = kLocallySupportedLevelId;
	CodecParameterMap remote_params;
	remote_params["profile-id"] = "1";
	remote_params["tier-flag"] = "0";
	remote_params["level-id"] = kRemoteOfferedLevelId;
	CodecParameterMap answer_params;
	H265GenerateProfileTierLevelForAnswer(local_params, remote_params,
	&answer_params);
	EXPECT_EQ(kLocallySupportedLevelId, answer_params["level-id"]);
	}
	#endif

	TEST(SdpVideoFormatUtilsTest, MaxFrameRateIsMissingOrInvalid) {
	CodecParameterMap params;
	absl::optional<int> empty = ParseSdpForVPxMaxFrameRate(params);
	EXPECT_FALSE(empty);
	params[kVPxFmtpMaxFrameRate] = "-1";
	EXPECT_FALSE(ParseSdpForVPxMaxFrameRate(params));
	params[kVPxFmtpMaxFrameRate] = "0";
	EXPECT_FALSE(ParseSdpForVPxMaxFrameRate(params));
	params[kVPxFmtpMaxFrameRate] = "abcde";
	EXPECT_FALSE(ParseSdpForVPxMaxFrameRate(params));
	}

	TEST(SdpVideoFormatUtilsTest, MaxFrameRateIsSpecified) {
	CodecParameterMap params;
	params[kVPxFmtpMaxFrameRate] = "30";
	EXPECT_EQ(ParseSdpForVPxMaxFrameRate(params), 30);
	params[kVPxFmtpMaxFrameRate] = "60";
	EXPECT_EQ(ParseSdpForVPxMaxFrameRate(params), 60);
	}

	TEST(SdpVideoFormatUtilsTest, MaxFrameSizeIsMissingOrInvalid) {
	CodecParameterMap params;
	absl::optional<int> empty = ParseSdpForVPxMaxFrameSize(params);
	EXPECT_FALSE(empty);
	params[kVPxFmtpMaxFrameSize] = "-1";
	EXPECT_FALSE(ParseSdpForVPxMaxFrameSize(params));
	params[kVPxFmtpMaxFrameSize] = "0";
	EXPECT_FALSE(ParseSdpForVPxMaxFrameSize(params));
	params[kVPxFmtpMaxFrameSize] = "abcde";
	EXPECT_FALSE(ParseSdpForVPxMaxFrameSize(params));
	}

	TEST(SdpVideoFormatUtilsTest, MaxFrameSizeIsSpecified) {
	CodecParameterMap params;
	params[kVPxFmtpMaxFrameSize] = "8100"; // 1920 x 1080 / (16^2)
	EXPECT_EQ(ParseSdpForVPxMaxFrameSize(params), 1920 * 1080);
	params[kVPxFmtpMaxFrameSize] = "32400"; // 3840 x 2160 / (16^2)
	EXPECT_EQ(ParseSdpForVPxMaxFrameSize(params), 3840 * 2160);
	}

	TEST(SdpVideoFormatUtilsTest, PerLayerPictureLossIndication) {
	CodecParameterMap params;
	EXPECT_FALSE(SupportsPerLayerPictureLossIndication(params));
	params[kCodecParamPerLayerPictureLossIndication] = "wrong";
	EXPECT_FALSE(SupportsPerLayerPictureLossIndication(params));
	params[kCodecParamPerLayerPictureLossIndication] = "0";
	EXPECT_FALSE(SupportsPerLayerPictureLossIndication(params));
	params[kCodecParamPerLayerPictureLossIndication] = "1";
	EXPECT_TRUE(SupportsPerLayerPictureLossIndication(params));
	}

	} // namespace webrtc