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| 1 /* |
| 2 * Copyright 2017 The WebRTC project authors. All Rights Reserved. |
| 3 * |
| 4 * Use of this source code is governed by a BSD-style license |
| 5 * that can be found in the LICENSE file in the root of the source |
| 6 * tree. An additional intellectual property rights grant can be found |
| 7 * in the file PATENTS. All contributing project authors may |
| 8 * be found in the AUTHORS file in the root of the source tree. |
| 9 */ |
| 10 |
| 11 #include <algorithm> |
| 12 |
| 13 #include "webrtc/base/gunit.h" |
| 14 #include "webrtc/ortc/rtpparametersconversion.h" |
| 15 #include "webrtc/ortc/testrtpparameters.h" |
| 16 |
| 17 namespace webrtc { |
| 18 |
| 19 TEST(RtpParametersConversionTest, ToFeedbackParam) { |
| 20 auto result = |
| 21 ToFeedbackParam({RtcpFeedbackType::CCM, RtcpFeedbackMessageType::FIR}); |
| 22 EXPECT_EQ(cricket::FeedbackParam("ccm", "fir"), result.value()); |
| 23 result = ToFeedbackParam( |
| 24 {RtcpFeedbackType::NACK, RtcpFeedbackMessageType::GENERIC_NACK}); |
| 25 EXPECT_EQ(cricket::FeedbackParam("nack"), result.value()); |
| 26 result = |
| 27 ToFeedbackParam({RtcpFeedbackType::NACK, RtcpFeedbackMessageType::PLI}); |
| 28 EXPECT_EQ(cricket::FeedbackParam("nack", "pli"), result.value()); |
| 29 result = ToFeedbackParam(RtcpFeedback(RtcpFeedbackType::REMB)); |
| 30 EXPECT_EQ(cricket::FeedbackParam("goog-remb"), result.value()); |
| 31 result = ToFeedbackParam(RtcpFeedback(RtcpFeedbackType::TRANSPORT_CC)); |
| 32 EXPECT_EQ(cricket::FeedbackParam("transport-cc"), result.value()); |
| 33 } |
| 34 |
| 35 TEST(RtpParametersConversionTest, ToFeedbackParamErrors) { |
| 36 // CCM with missing or invalid message type. |
| 37 auto result = ToFeedbackParam(RtcpFeedback(RtcpFeedbackType::CCM)); |
| 38 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 39 result = |
| 40 ToFeedbackParam({RtcpFeedbackType::CCM, RtcpFeedbackMessageType::PLI}); |
| 41 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 42 // NACK with missing or invalid message type. |
| 43 result = ToFeedbackParam(RtcpFeedback(RtcpFeedbackType::NACK)); |
| 44 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 45 result = |
| 46 ToFeedbackParam({RtcpFeedbackType::NACK, RtcpFeedbackMessageType::FIR}); |
| 47 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 48 // REMB with message type (should be left empty). |
| 49 result = ToFeedbackParam( |
| 50 {RtcpFeedbackType::REMB, RtcpFeedbackMessageType::GENERIC_NACK}); |
| 51 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 52 // TRANSPORT_CC with message type (should be left empty). |
| 53 result = ToFeedbackParam( |
| 54 {RtcpFeedbackType::TRANSPORT_CC, RtcpFeedbackMessageType::FIR}); |
| 55 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 56 } |
| 57 |
| 58 TEST(RtpParametersConversionTest, ToAudioCodec) { |
| 59 RtpCodecParameters codec; |
| 60 codec.name = "AuDiO"; |
| 61 codec.kind = cricket::MEDIA_TYPE_AUDIO; |
| 62 codec.payload_type = 120; |
| 63 codec.clock_rate.emplace(36000); |
| 64 codec.num_channels.emplace(6); |
| 65 codec.parameters["foo"] = "bar"; |
| 66 codec.rtcp_feedback.emplace_back(RtcpFeedbackType::TRANSPORT_CC); |
| 67 auto result = ToCricketCodec<cricket::AudioCodec>(codec); |
| 68 ASSERT_TRUE(result.ok()); |
| 69 |
| 70 EXPECT_EQ("AuDiO", result.value().name); |
| 71 EXPECT_EQ(120, result.value().id); |
| 72 EXPECT_EQ(36000, result.value().clockrate); |
| 73 EXPECT_EQ(6u, result.value().channels); |
| 74 ASSERT_EQ(1u, result.value().params.size()); |
| 75 EXPECT_EQ("bar", result.value().params["foo"]); |
| 76 EXPECT_EQ(1u, result.value().feedback_params.params().size()); |
| 77 EXPECT_TRUE(result.value().feedback_params.Has( |
| 78 cricket::FeedbackParam("transport-cc"))); |
| 79 } |
| 80 |
| 81 TEST(RtpParametersConversionTest, ToVideoCodec) { |
| 82 RtpCodecParameters codec; |
| 83 codec.name = "coolcodec"; |
| 84 codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 85 codec.payload_type = 101; |
| 86 codec.clock_rate.emplace(90000); |
| 87 codec.parameters["foo"] = "bar"; |
| 88 codec.parameters["PING"] = "PONG"; |
| 89 codec.rtcp_feedback.emplace_back(RtcpFeedbackType::TRANSPORT_CC); |
| 90 codec.rtcp_feedback.emplace_back(RtcpFeedbackType::NACK, |
| 91 RtcpFeedbackMessageType::PLI); |
| 92 auto result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 93 ASSERT_TRUE(result.ok()); |
| 94 |
| 95 EXPECT_EQ("coolcodec", result.value().name); |
| 96 EXPECT_EQ(101, result.value().id); |
| 97 EXPECT_EQ(90000, result.value().clockrate); |
| 98 ASSERT_EQ(2u, result.value().params.size()); |
| 99 EXPECT_EQ("bar", result.value().params["foo"]); |
| 100 EXPECT_EQ("PONG", result.value().params["PING"]); |
| 101 EXPECT_EQ(2u, result.value().feedback_params.params().size()); |
| 102 EXPECT_TRUE(result.value().feedback_params.Has( |
| 103 cricket::FeedbackParam("transport-cc"))); |
| 104 EXPECT_TRUE(result.value().feedback_params.Has( |
| 105 cricket::FeedbackParam("nack", "pli"))); |
| 106 } |
| 107 |
| 108 // Trying to convert to an AudioCodec if the kind is "video" should fail. |
| 109 TEST(RtpParametersConversionTest, ToCricketCodecInvalidKind) { |
| 110 RtpCodecParameters audio_codec; |
| 111 audio_codec.name = "opus"; |
| 112 audio_codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 113 audio_codec.payload_type = 111; |
| 114 audio_codec.clock_rate.emplace(48000); |
| 115 audio_codec.num_channels.emplace(2); |
| 116 |
| 117 RtpCodecParameters video_codec; |
| 118 video_codec.name = "VP8"; |
| 119 video_codec.kind = cricket::MEDIA_TYPE_AUDIO; |
| 120 video_codec.payload_type = 102; |
| 121 video_codec.clock_rate.emplace(90000); |
| 122 |
| 123 auto audio_result = ToCricketCodec<cricket::AudioCodec>(audio_codec); |
| 124 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, audio_result.error().type()); |
| 125 |
| 126 auto video_result = ToCricketCodec<cricket::VideoCodec>(video_codec); |
| 127 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, video_result.error().type()); |
| 128 |
| 129 // Sanity check that if the kind is correct, the conversion succeeds. |
| 130 audio_codec.kind = cricket::MEDIA_TYPE_AUDIO; |
| 131 video_codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 132 audio_result = ToCricketCodec<cricket::AudioCodec>(audio_codec); |
| 133 EXPECT_TRUE(audio_result.ok()); |
| 134 video_result = ToCricketCodec<cricket::VideoCodec>(video_codec); |
| 135 EXPECT_TRUE(video_result.ok()); |
| 136 } |
| 137 |
| 138 TEST(RtpParametersConversionTest, ToAudioCodecInvalidParameters) { |
| 139 // Missing channels. |
| 140 RtpCodecParameters codec; |
| 141 codec.name = "opus"; |
| 142 codec.kind = cricket::MEDIA_TYPE_AUDIO; |
| 143 codec.payload_type = 111; |
| 144 codec.clock_rate.emplace(48000); |
| 145 auto result = ToCricketCodec<cricket::AudioCodec>(codec); |
| 146 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 147 |
| 148 // Negative number of channels. |
| 149 codec.num_channels.emplace(-1); |
| 150 result = ToCricketCodec<cricket::AudioCodec>(codec); |
| 151 EXPECT_EQ(RTCErrorType::INVALID_RANGE, result.error().type()); |
| 152 |
| 153 // Missing clock rate. |
| 154 codec.num_channels.emplace(2); |
| 155 codec.clock_rate.reset(); |
| 156 result = ToCricketCodec<cricket::AudioCodec>(codec); |
| 157 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 158 |
| 159 // Negative clock rate. |
| 160 codec.clock_rate.emplace(-48000); |
| 161 result = ToCricketCodec<cricket::AudioCodec>(codec); |
| 162 EXPECT_EQ(RTCErrorType::INVALID_RANGE, result.error().type()); |
| 163 |
| 164 // Sanity check that conversion succeeds if these errors are fixed. |
| 165 codec.clock_rate.emplace(48000); |
| 166 result = ToCricketCodec<cricket::AudioCodec>(codec); |
| 167 EXPECT_TRUE(result.ok()); |
| 168 } |
| 169 |
| 170 TEST(RtpParametersConversionTest, ToVideoCodecInvalidParameters) { |
| 171 // Missing clock rate. |
| 172 RtpCodecParameters codec; |
| 173 codec.name = "VP8"; |
| 174 codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 175 codec.payload_type = 102; |
| 176 auto result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 177 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 178 |
| 179 // Invalid clock rate. |
| 180 codec.clock_rate.emplace(48000); |
| 181 result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 182 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 183 |
| 184 // Channels set (should be unset). |
| 185 codec.clock_rate.emplace(90000); |
| 186 codec.num_channels.emplace(2); |
| 187 result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 188 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 189 |
| 190 // Sanity check that conversion succeeds if these errors are fixed. |
| 191 codec.num_channels.reset(); |
| 192 result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 193 EXPECT_TRUE(result.ok()); |
| 194 } |
| 195 |
| 196 TEST(RtpParametersConversionTest, ToCricketCodecInvalidPayloadType) { |
| 197 RtpCodecParameters codec; |
| 198 codec.name = "VP8"; |
| 199 codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 200 codec.clock_rate.emplace(90000); |
| 201 |
| 202 codec.payload_type = -1000; |
| 203 auto result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 204 EXPECT_EQ(RTCErrorType::INVALID_RANGE, result.error().type()); |
| 205 |
| 206 // Max payload type is 127. |
| 207 codec.payload_type = 128; |
| 208 result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 209 EXPECT_EQ(RTCErrorType::INVALID_RANGE, result.error().type()); |
| 210 |
| 211 // Sanity check that conversion succeeds with a valid payload type. |
| 212 codec.payload_type = 127; |
| 213 result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 214 EXPECT_TRUE(result.ok()); |
| 215 } |
| 216 |
| 217 // There are already tests for ToFeedbackParam, but ensure that those errors |
| 218 // are propogated from ToCricketCodec. |
| 219 TEST(RtpParametersConversionTest, ToCricketCodecInvalidRtcpFeedback) { |
| 220 RtpCodecParameters codec; |
| 221 codec.name = "VP8"; |
| 222 codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 223 codec.clock_rate.emplace(90000); |
| 224 codec.payload_type = 99; |
| 225 codec.rtcp_feedback.emplace_back(RtcpFeedbackType::CCM, |
| 226 RtcpFeedbackMessageType::PLI); |
| 227 |
| 228 auto result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 229 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 230 |
| 231 // Sanity check that conversion succeeds without invalid feedback. |
| 232 codec.rtcp_feedback.clear(); |
| 233 result = ToCricketCodec<cricket::VideoCodec>(codec); |
| 234 EXPECT_TRUE(result.ok()); |
| 235 } |
| 236 |
| 237 TEST(RtpParametersConversionTest, ToCricketCodecs) { |
| 238 std::vector<RtpCodecParameters> codecs; |
| 239 RtpCodecParameters codec; |
| 240 codec.name = "VP8"; |
| 241 codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 242 codec.clock_rate.emplace(90000); |
| 243 codec.payload_type = 99; |
| 244 codecs.push_back(codec); |
| 245 |
| 246 codec.name = "VP9"; |
| 247 codec.payload_type = 100; |
| 248 codecs.push_back(codec); |
| 249 |
| 250 auto result = ToCricketCodecs<cricket::VideoCodec>(codecs); |
| 251 ASSERT_TRUE(result.ok()); |
| 252 ASSERT_EQ(2u, result.value().size()); |
| 253 EXPECT_EQ("VP8", result.value()[0].name); |
| 254 EXPECT_EQ(99, result.value()[0].id); |
| 255 EXPECT_EQ("VP9", result.value()[1].name); |
| 256 EXPECT_EQ(100, result.value()[1].id); |
| 257 } |
| 258 |
| 259 TEST(RtpParametersConversionTest, ToCricketCodecsDuplicatePayloadType) { |
| 260 std::vector<RtpCodecParameters> codecs; |
| 261 RtpCodecParameters codec; |
| 262 codec.name = "VP8"; |
| 263 codec.kind = cricket::MEDIA_TYPE_VIDEO; |
| 264 codec.clock_rate.emplace(90000); |
| 265 codec.payload_type = 99; |
| 266 codecs.push_back(codec); |
| 267 |
| 268 codec.name = "VP9"; |
| 269 codec.payload_type = 99; |
| 270 codecs.push_back(codec); |
| 271 |
| 272 auto result = ToCricketCodecs<cricket::VideoCodec>(codecs); |
| 273 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 274 |
| 275 // Sanity check that this succeeds without the duplicate payload type. |
| 276 codecs[1].payload_type = 120; |
| 277 result = ToCricketCodecs<cricket::VideoCodec>(codecs); |
| 278 EXPECT_TRUE(result.ok()); |
| 279 } |
| 280 |
| 281 TEST(RtpParametersConversionTest, ToRtpHeaderExtensions) { |
| 282 std::vector<RtpHeaderExtensionParameters> extensions = { |
| 283 {"http://example.com", 1}, {"urn:foo:bar", 14}}; |
| 284 auto result = ToRtpHeaderExtensions(extensions); |
| 285 ASSERT_TRUE(result.ok()); |
| 286 ASSERT_EQ(2u, result.value().size()); |
| 287 EXPECT_EQ("http://example.com", result.value()[0].uri); |
| 288 EXPECT_EQ(1, result.value()[0].id); |
| 289 EXPECT_EQ("urn:foo:bar", result.value()[1].uri); |
| 290 EXPECT_EQ(14, result.value()[1].id); |
| 291 } |
| 292 |
| 293 TEST(RtpParametersConversionTest, ToRtpHeaderExtensionsErrors) { |
| 294 // First, IDs outside the range 1-14. |
| 295 std::vector<RtpHeaderExtensionParameters> extensions = { |
| 296 {"http://example.com", 0}}; |
| 297 auto result = ToRtpHeaderExtensions(extensions); |
| 298 EXPECT_EQ(RTCErrorType::INVALID_RANGE, result.error().type()); |
| 299 |
| 300 extensions[0].id = 15; |
| 301 result = ToRtpHeaderExtensions(extensions); |
| 302 EXPECT_EQ(RTCErrorType::INVALID_RANGE, result.error().type()); |
| 303 |
| 304 // Duplicate IDs. |
| 305 extensions = {{"http://example.com", 1}, {"urn:foo:bar", 1}}; |
| 306 result = ToRtpHeaderExtensions(extensions); |
| 307 EXPECT_EQ(RTCErrorType::INVALID_PARAMETER, result.error().type()); |
| 308 } |
| 309 |
| 310 TEST(RtpParametersConversionTest, ToStreamParamsVecSimple) { |
| 311 std::vector<RtpEncodingParameters> encodings; |
| 312 RtpEncodingParameters encoding; |
| 313 encoding.ssrc.emplace(0xbaadf00d); |
| 314 encodings.push_back(encoding); |
| 315 auto result = ToStreamParamsVec(encodings); |
| 316 ASSERT_TRUE(result.ok()); |
| 317 ASSERT_EQ(1u, result.value().size()); |
| 318 EXPECT_EQ(1u, result.value()[0].ssrcs.size()); |
| 319 EXPECT_EQ(0xbaadf00d, result.value()[0].first_ssrc()); |
| 320 } |
| 321 |
| 322 TEST(RtpParametersConversionTest, ToStreamParamsVecWithRtx) { |
| 323 std::vector<RtpEncodingParameters> encodings; |
| 324 RtpEncodingParameters encoding; |
| 325 // Test a corner case SSRC of 0. |
| 326 encoding.ssrc.emplace(0u); |
| 327 encoding.rtx.emplace(0xdeadbeef); |
| 328 encodings.push_back(encoding); |
| 329 auto result = ToStreamParamsVec(encodings); |
| 330 ASSERT_TRUE(result.ok()); |
| 331 ASSERT_EQ(1u, result.value().size()); |
| 332 EXPECT_EQ(2u, result.value()[0].ssrcs.size()); |
| 333 EXPECT_EQ(0u, result.value()[0].first_ssrc()); |
| 334 uint32_t rtx_ssrc = 0; |
| 335 EXPECT_TRUE(result.value()[0].GetFidSsrc(0u, &rtx_ssrc)); |
| 336 EXPECT_EQ(0xdeadbeef, rtx_ssrc); |
| 337 } |
| 338 |
| 339 // No encodings should be accepted; an endpoint may want to prepare a |
| 340 // decoder/encoder without having something to receive/send yet. |
| 341 TEST(RtpParametersConversionTest, ToStreamParamsVecNoEncodings) { |
| 342 std::vector<RtpEncodingParameters> encodings; |
| 343 auto result = ToStreamParamsVec(encodings); |
| 344 ASSERT_TRUE(result.ok()); |
| 345 EXPECT_EQ(0u, result.value().size()); |
| 346 } |
| 347 |
| 348 // An encoding without SSRCs should be accepted. This could be the case when |
| 349 // SSRCs aren't signaled and payload-type based demuxing is used. |
| 350 TEST(RtpParametersConversionTest, ToStreamParamsVecMissingSsrcs) { |
| 351 std::vector<RtpEncodingParameters> encodings = {{}}; |
| 352 // Creates RtxParameters with empty SSRC. |
| 353 encodings[0].rtx.emplace(); |
| 354 auto result = ToStreamParamsVec(encodings); |
| 355 ASSERT_TRUE(result.ok()); |
| 356 EXPECT_EQ(0u, result.value().size()); |
| 357 } |
| 358 |
| 359 // TODO(deadbeef): Update this test when we support multiple encodings. |
| 360 TEST(RtpParametersConversionTest, ToStreamParamsVecMultipleEncodings) { |
| 361 std::vector<RtpEncodingParameters> encodings = {{}, {}}; |
| 362 auto result = ToStreamParamsVec(encodings); |
| 363 EXPECT_EQ(RTCErrorType::UNSUPPORTED_PARAMETER, result.error().type()); |
| 364 } |
| 365 |
| 366 TEST(RtpParametersConversionTest, ToRtcpFeedback) { |
| 367 rtc::Optional<RtcpFeedback> result = ToRtcpFeedback({"ccm", "fir"}); |
| 368 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::CCM, RtcpFeedbackMessageType::FIR), |
| 369 *result); |
| 370 result = ToRtcpFeedback(cricket::FeedbackParam("nack")); |
| 371 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::NACK, |
| 372 RtcpFeedbackMessageType::GENERIC_NACK), |
| 373 *result); |
| 374 result = ToRtcpFeedback({"nack", "pli"}); |
| 375 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::NACK, RtcpFeedbackMessageType::PLI), |
| 376 *result); |
| 377 result = ToRtcpFeedback(cricket::FeedbackParam("goog-remb")); |
| 378 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::REMB), *result); |
| 379 result = ToRtcpFeedback(cricket::FeedbackParam("transport-cc")); |
| 380 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::TRANSPORT_CC), *result); |
| 381 } |
| 382 |
| 383 TEST(RtpParametersConversionTest, ToRtcpFeedbackErrors) { |
| 384 // CCM with missing or invalid message type. |
| 385 rtc::Optional<RtcpFeedback> result = ToRtcpFeedback({"ccm", "pli"}); |
| 386 EXPECT_FALSE(result); |
| 387 result = ToRtcpFeedback(cricket::FeedbackParam("ccm")); |
| 388 EXPECT_FALSE(result); |
| 389 // NACK with missing or invalid message type. |
| 390 result = ToRtcpFeedback({"nack", "fir"}); |
| 391 EXPECT_FALSE(result); |
| 392 // REMB with message type (should be left empty). |
| 393 result = ToRtcpFeedback({"goog-remb", "pli"}); |
| 394 EXPECT_FALSE(result); |
| 395 // TRANSPORT_CC with message type (should be left empty). |
| 396 result = ToRtcpFeedback({"transport-cc", "fir"}); |
| 397 EXPECT_FALSE(result); |
| 398 // Unknown message type. |
| 399 result = ToRtcpFeedback(cricket::FeedbackParam("foo")); |
| 400 EXPECT_FALSE(result); |
| 401 } |
| 402 |
| 403 TEST(RtpParametersConversionTest, ToAudioRtpCodecCapability) { |
| 404 cricket::AudioCodec cricket_codec; |
| 405 cricket_codec.name = "foo"; |
| 406 cricket_codec.id = 50; |
| 407 cricket_codec.clockrate = 22222; |
| 408 cricket_codec.channels = 4; |
| 409 cricket_codec.params["foo"] = "bar"; |
| 410 cricket_codec.feedback_params.Add(cricket::FeedbackParam("transport-cc")); |
| 411 RtpCodecCapability codec = ToRtpCodecCapability(cricket_codec); |
| 412 |
| 413 EXPECT_EQ("foo", codec.name); |
| 414 EXPECT_EQ(cricket::MEDIA_TYPE_AUDIO, codec.kind); |
| 415 EXPECT_EQ(rtc::Optional<int>(50), codec.preferred_payload_type); |
| 416 EXPECT_EQ(rtc::Optional<int>(22222), codec.clock_rate); |
| 417 EXPECT_EQ(rtc::Optional<int>(4), codec.num_channels); |
| 418 ASSERT_EQ(1u, codec.parameters.size()); |
| 419 EXPECT_EQ("bar", codec.parameters["foo"]); |
| 420 EXPECT_EQ(1u, codec.rtcp_feedback.size()); |
| 421 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::TRANSPORT_CC), |
| 422 codec.rtcp_feedback[0]); |
| 423 } |
| 424 |
| 425 TEST(RtpParametersConversionTest, ToVideoRtpCodecCapability) { |
| 426 cricket::VideoCodec cricket_codec; |
| 427 cricket_codec.name = "VID"; |
| 428 cricket_codec.id = 101; |
| 429 cricket_codec.clockrate = 80000; |
| 430 cricket_codec.params["foo"] = "bar"; |
| 431 cricket_codec.params["ANOTHER"] = "param"; |
| 432 cricket_codec.feedback_params.Add(cricket::FeedbackParam("transport-cc")); |
| 433 cricket_codec.feedback_params.Add({"nack", "pli"}); |
| 434 RtpCodecCapability codec = ToRtpCodecCapability(cricket_codec); |
| 435 |
| 436 EXPECT_EQ("VID", codec.name); |
| 437 EXPECT_EQ(cricket::MEDIA_TYPE_VIDEO, codec.kind); |
| 438 EXPECT_EQ(rtc::Optional<int>(101), codec.preferred_payload_type); |
| 439 EXPECT_EQ(rtc::Optional<int>(80000), codec.clock_rate); |
| 440 ASSERT_EQ(2u, codec.parameters.size()); |
| 441 EXPECT_EQ("bar", codec.parameters["foo"]); |
| 442 EXPECT_EQ("param", codec.parameters["ANOTHER"]); |
| 443 EXPECT_EQ(2u, codec.rtcp_feedback.size()); |
| 444 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::TRANSPORT_CC), |
| 445 codec.rtcp_feedback[0]); |
| 446 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::NACK, RtcpFeedbackMessageType::PLI), |
| 447 codec.rtcp_feedback[1]); |
| 448 } |
| 449 |
| 450 // An unknown feedback param should just be ignored. |
| 451 TEST(RtpParametersConversionTest, ToRtpCodecCapabilityUnknownFeedbackParam) { |
| 452 cricket::AudioCodec cricket_codec; |
| 453 cricket_codec.name = "foo"; |
| 454 cricket_codec.id = 50; |
| 455 cricket_codec.clockrate = 22222; |
| 456 cricket_codec.channels = 4; |
| 457 cricket_codec.params["foo"] = "bar"; |
| 458 cricket_codec.feedback_params.Add({"unknown", "param"}); |
| 459 cricket_codec.feedback_params.Add(cricket::FeedbackParam("transport-cc")); |
| 460 RtpCodecCapability codec = ToRtpCodecCapability(cricket_codec); |
| 461 |
| 462 ASSERT_EQ(1u, codec.rtcp_feedback.size()); |
| 463 EXPECT_EQ(RtcpFeedback(RtcpFeedbackType::TRANSPORT_CC), |
| 464 codec.rtcp_feedback[0]); |
| 465 } |
| 466 |
| 467 // Most of ToRtpCapabilities is tested by ToRtpCodecCapability, but we need to |
| 468 // test that the result of ToRtpCodecCapability ends up in the result, and that |
| 469 // the "fec" list is assembled correctly. |
| 470 TEST(RtpParametersConversionTest, ToRtpCapabilities) { |
| 471 cricket::VideoCodec vp8; |
| 472 vp8.name = "VP8"; |
| 473 vp8.id = 101; |
| 474 vp8.clockrate = 90000; |
| 475 |
| 476 cricket::VideoCodec red; |
| 477 red.name = "red"; |
| 478 red.id = 102; |
| 479 red.clockrate = 90000; |
| 480 |
| 481 cricket::VideoCodec ulpfec; |
| 482 ulpfec.name = "ulpfec"; |
| 483 ulpfec.id = 103; |
| 484 ulpfec.clockrate = 90000; |
| 485 |
| 486 cricket::VideoCodec flexfec; |
| 487 flexfec.name = "flexfec-03"; |
| 488 flexfec.id = 102; |
| 489 flexfec.clockrate = 90000; |
| 490 |
| 491 RtpCapabilities capabilities = ToRtpCapabilities<cricket::VideoCodec>( |
| 492 {vp8, ulpfec}, {{"uri", 1}, {"uri2", 3}}); |
| 493 ASSERT_EQ(2u, capabilities.codecs.size()); |
| 494 EXPECT_EQ("VP8", capabilities.codecs[0].name); |
| 495 EXPECT_EQ("ulpfec", capabilities.codecs[1].name); |
| 496 ASSERT_EQ(2u, capabilities.header_extensions.size()); |
| 497 EXPECT_EQ("uri", capabilities.header_extensions[0].uri); |
| 498 EXPECT_EQ(1, capabilities.header_extensions[0].preferred_id); |
| 499 EXPECT_EQ("uri2", capabilities.header_extensions[1].uri); |
| 500 EXPECT_EQ(3, capabilities.header_extensions[1].preferred_id); |
| 501 EXPECT_EQ(0u, capabilities.fec.size()); |
| 502 |
| 503 capabilities = ToRtpCapabilities<cricket::VideoCodec>( |
| 504 {vp8, red, ulpfec}, cricket::RtpHeaderExtensions()); |
| 505 EXPECT_EQ(3u, capabilities.codecs.size()); |
| 506 EXPECT_EQ(2u, capabilities.fec.size()); |
| 507 EXPECT_NE(capabilities.fec.end(), |
| 508 std::find(capabilities.fec.begin(), capabilities.fec.end(), |
| 509 FecMechanism::RED)); |
| 510 EXPECT_NE(capabilities.fec.end(), |
| 511 std::find(capabilities.fec.begin(), capabilities.fec.end(), |
| 512 FecMechanism::RED_AND_ULPFEC)); |
| 513 |
| 514 capabilities = ToRtpCapabilities<cricket::VideoCodec>( |
| 515 {vp8, red, flexfec}, cricket::RtpHeaderExtensions()); |
| 516 EXPECT_EQ(3u, capabilities.codecs.size()); |
| 517 EXPECT_EQ(2u, capabilities.fec.size()); |
| 518 EXPECT_NE(capabilities.fec.end(), |
| 519 std::find(capabilities.fec.begin(), capabilities.fec.end(), |
| 520 FecMechanism::RED)); |
| 521 EXPECT_NE(capabilities.fec.end(), |
| 522 std::find(capabilities.fec.begin(), capabilities.fec.end(), |
| 523 FecMechanism::FLEXFEC)); |
| 524 } |
| 525 |
| 526 } // namespace webrtc |
| OLD | NEW |
|---|
Chromium Code Reviews
Issue 2675173003:
Adding "adapter" ORTC objects on top of ChannelManager/BaseChannel/etc. (Closed)
