1 /*
2 * Copyright (c) 2013 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 <memory>
12 #include <string>
13
14 #include "modules/audio_coding/codecs/opus/opus_inst.h"
15 #include "modules/audio_coding/codecs/opus/opus_interface.h"
16 #include "modules/audio_coding/neteq/tools/audio_loop.h"
17 #include "rtc_base/checks.h"
18 #include "rtc_base/numerics/safe_conversions.h"
19 #include "test/gtest.h"
20 #include "test/testsupport/file_utils.h"
21
22 namespace webrtc {
23
24 namespace {
25 // Equivalent to SDP params
26 // {{"channel_mapping", "0,1,2,3"}, {"coupled_streams", "2"}}.
27 constexpr unsigned char kQuadChannelMapping[] = {0, 1, 2, 3};
28 constexpr int kQuadTotalStreams = 2;
29 constexpr int kQuadCoupledStreams = 2;
30
31 constexpr unsigned char kStereoChannelMapping[] = {0, 1};
32 constexpr int kStereoTotalStreams = 1;
33 constexpr int kStereoCoupledStreams = 1;
34
35 constexpr unsigned char kMonoChannelMapping[] = {0};
36 constexpr int kMonoTotalStreams = 1;
37 constexpr int kMonoCoupledStreams = 0;
38
CreateSingleOrMultiStreamEncoder(WebRtcOpusEncInst ** opus_encoder,int channels,int application,bool use_multistream,int encoder_sample_rate_hz)39 void CreateSingleOrMultiStreamEncoder(WebRtcOpusEncInst** opus_encoder,
40 int channels,
41 int application,
42 bool use_multistream,
43 int encoder_sample_rate_hz) {
44 EXPECT_TRUE(channels == 1 || channels == 2 || use_multistream);
45 if (use_multistream) {
46 EXPECT_EQ(encoder_sample_rate_hz, 48000);
47 if (channels == 1) {
48 EXPECT_EQ(0, WebRtcOpus_MultistreamEncoderCreate(
49 opus_encoder, channels, application, kMonoTotalStreams,
50 kMonoCoupledStreams, kMonoChannelMapping));
51 } else if (channels == 2) {
52 EXPECT_EQ(0, WebRtcOpus_MultistreamEncoderCreate(
53 opus_encoder, channels, application, kStereoTotalStreams,
54 kStereoCoupledStreams, kStereoChannelMapping));
55 } else if (channels == 4) {
56 EXPECT_EQ(0, WebRtcOpus_MultistreamEncoderCreate(
57 opus_encoder, channels, application, kQuadTotalStreams,
58 kQuadCoupledStreams, kQuadChannelMapping));
59 } else {
60 EXPECT_TRUE(false) << channels;
61 }
62 } else {
63 EXPECT_EQ(0, WebRtcOpus_EncoderCreate(opus_encoder, channels, application,
64 encoder_sample_rate_hz));
65 }
66 }
67
CreateSingleOrMultiStreamDecoder(WebRtcOpusDecInst ** opus_decoder,int channels,bool use_multistream,int decoder_sample_rate_hz)68 void CreateSingleOrMultiStreamDecoder(WebRtcOpusDecInst** opus_decoder,
69 int channels,
70 bool use_multistream,
71 int decoder_sample_rate_hz) {
72 EXPECT_TRUE(channels == 1 || channels == 2 || use_multistream);
73 if (use_multistream) {
74 EXPECT_EQ(decoder_sample_rate_hz, 48000);
75 if (channels == 1) {
76 EXPECT_EQ(0, WebRtcOpus_MultistreamDecoderCreate(
77 opus_decoder, channels, kMonoTotalStreams,
78 kMonoCoupledStreams, kMonoChannelMapping));
79 } else if (channels == 2) {
80 EXPECT_EQ(0, WebRtcOpus_MultistreamDecoderCreate(
81 opus_decoder, channels, kStereoTotalStreams,
82 kStereoCoupledStreams, kStereoChannelMapping));
83 } else if (channels == 4) {
84 EXPECT_EQ(0, WebRtcOpus_MultistreamDecoderCreate(
85 opus_decoder, channels, kQuadTotalStreams,
86 kQuadCoupledStreams, kQuadChannelMapping));
87 } else {
88 EXPECT_TRUE(false) << channels;
89 }
90 } else {
91 EXPECT_EQ(0, WebRtcOpus_DecoderCreate(opus_decoder, channels,
92 decoder_sample_rate_hz));
93 }
94 }
95
SamplesPerChannel(int sample_rate_hz,int duration_ms)96 int SamplesPerChannel(int sample_rate_hz, int duration_ms) {
97 const int samples_per_ms = rtc::CheckedDivExact(sample_rate_hz, 1000);
98 return samples_per_ms * duration_ms;
99 }
100
101 using test::AudioLoop;
102 using ::testing::Combine;
103 using ::testing::TestWithParam;
104 using ::testing::Values;
105
106 // Maximum number of bytes in output bitstream.
107 const size_t kMaxBytes = 2000;
108
109 class OpusTest
110 : public TestWithParam<::testing::tuple<size_t, int, bool, int, int>> {
111 protected:
112 OpusTest() = default;
113
114 void TestDtxEffect(bool dtx, int block_length_ms);
115
116 void TestCbrEffect(bool dtx, int block_length_ms);
117
118 // Prepare `speech_data_` for encoding, read from a hard-coded file.
119 // After preparation, `speech_data_.GetNextBlock()` returns a pointer to a
120 // block of `block_length_ms` milliseconds. The data is looped every
121 // `loop_length_ms` milliseconds.
122 void PrepareSpeechData(int block_length_ms, int loop_length_ms);
123
124 int EncodeDecode(WebRtcOpusEncInst* encoder,
125 rtc::ArrayView<const int16_t> input_audio,
126 WebRtcOpusDecInst* decoder,
127 int16_t* output_audio,
128 int16_t* audio_type);
129
130 void SetMaxPlaybackRate(WebRtcOpusEncInst* encoder,
131 opus_int32 expect,
132 int32_t set);
133
134 void CheckAudioBounded(const int16_t* audio,
135 size_t samples,
136 size_t channels,
137 uint16_t bound) const;
138
139 WebRtcOpusEncInst* opus_encoder_ = nullptr;
140 WebRtcOpusDecInst* opus_decoder_ = nullptr;
141 AudioLoop speech_data_;
142 uint8_t bitstream_[kMaxBytes];
143 size_t encoded_bytes_ = 0;
144 const size_t channels_{std::get<0>(GetParam())};
145 const int application_{std::get<1>(GetParam())};
146 const bool use_multistream_{std::get<2>(GetParam())};
147 const int encoder_sample_rate_hz_{std::get<3>(GetParam())};
148 const int decoder_sample_rate_hz_{std::get<4>(GetParam())};
149 };
150
151 } // namespace
152
153 // Singlestream: Try all combinations.
154 INSTANTIATE_TEST_SUITE_P(Singlestream,
155 OpusTest,
156 testing::Combine(testing::Values(1, 2),
157 testing::Values(0, 1),
158 testing::Values(false),
159 testing::Values(16000, 48000),
160 testing::Values(16000, 48000)));
161
162 // Multistream: Some representative cases (only 48 kHz for now).
163 INSTANTIATE_TEST_SUITE_P(
164 Multistream,
165 OpusTest,
166 testing::Values(std::make_tuple(1, 0, true, 48000, 48000),
167 std::make_tuple(2, 1, true, 48000, 48000),
168 std::make_tuple(4, 0, true, 48000, 48000),
169 std::make_tuple(4, 1, true, 48000, 48000)));
170
PrepareSpeechData(int block_length_ms,int loop_length_ms)171 void OpusTest::PrepareSpeechData(int block_length_ms, int loop_length_ms) {
172 std::map<int, std::string> channel_to_basename = {
173 {1, "audio_coding/testfile32kHz"},
174 {2, "audio_coding/teststereo32kHz"},
175 {4, "audio_coding/speech_4_channels_48k_one_second"}};
176 std::map<int, std::string> channel_to_suffix = {
177 {1, "pcm"}, {2, "pcm"}, {4, "wav"}};
178 const std::string file_name = webrtc::test::ResourcePath(
179 channel_to_basename[channels_], channel_to_suffix[channels_]);
180 if (loop_length_ms < block_length_ms) {
181 loop_length_ms = block_length_ms;
182 }
183 const int sample_rate_khz =
184 rtc::CheckedDivExact(encoder_sample_rate_hz_, 1000);
185 EXPECT_TRUE(speech_data_.Init(file_name,
186 loop_length_ms * sample_rate_khz * channels_,
187 block_length_ms * sample_rate_khz * channels_));
188 }
189
SetMaxPlaybackRate(WebRtcOpusEncInst * encoder,opus_int32 expect,int32_t set)190 void OpusTest::SetMaxPlaybackRate(WebRtcOpusEncInst* encoder,
191 opus_int32 expect,
192 int32_t set) {
193 opus_int32 bandwidth;
194 EXPECT_EQ(0, WebRtcOpus_SetMaxPlaybackRate(opus_encoder_, set));
195 EXPECT_EQ(0, WebRtcOpus_GetMaxPlaybackRate(opus_encoder_, &bandwidth));
196 EXPECT_EQ(expect, bandwidth);
197 }
198
CheckAudioBounded(const int16_t * audio,size_t samples,size_t channels,uint16_t bound) const199 void OpusTest::CheckAudioBounded(const int16_t* audio,
200 size_t samples,
201 size_t channels,
202 uint16_t bound) const {
203 for (size_t i = 0; i < samples; ++i) {
204 for (size_t c = 0; c < channels; ++c) {
205 ASSERT_GE(audio[i * channels + c], -bound);
206 ASSERT_LE(audio[i * channels + c], bound);
207 }
208 }
209 }
210
EncodeDecode(WebRtcOpusEncInst * encoder,rtc::ArrayView<const int16_t> input_audio,WebRtcOpusDecInst * decoder,int16_t * output_audio,int16_t * audio_type)211 int OpusTest::EncodeDecode(WebRtcOpusEncInst* encoder,
212 rtc::ArrayView<const int16_t> input_audio,
213 WebRtcOpusDecInst* decoder,
214 int16_t* output_audio,
215 int16_t* audio_type) {
216 const int input_samples_per_channel =
217 rtc::CheckedDivExact(input_audio.size(), channels_);
218 int encoded_bytes_int =
219 WebRtcOpus_Encode(encoder, input_audio.data(), input_samples_per_channel,
220 kMaxBytes, bitstream_);
221 EXPECT_GE(encoded_bytes_int, 0);
222 encoded_bytes_ = static_cast<size_t>(encoded_bytes_int);
223 if (encoded_bytes_ != 0) {
224 int est_len = WebRtcOpus_DurationEst(decoder, bitstream_, encoded_bytes_);
225 int act_len = WebRtcOpus_Decode(decoder, bitstream_, encoded_bytes_,
226 output_audio, audio_type);
227 EXPECT_EQ(est_len, act_len);
228 return act_len;
229 } else {
230 int total_dtx_len = 0;
231 const int output_samples_per_channel = input_samples_per_channel *
232 decoder_sample_rate_hz_ /
233 encoder_sample_rate_hz_;
234 while (total_dtx_len < output_samples_per_channel) {
235 int est_len = WebRtcOpus_DurationEst(decoder, NULL, 0);
236 int act_len = WebRtcOpus_Decode(decoder, NULL, 0,
237 &output_audio[total_dtx_len * channels_],
238 audio_type);
239 EXPECT_EQ(est_len, act_len);
240 total_dtx_len += act_len;
241 }
242 return total_dtx_len;
243 }
244 }
245
246 // Test if encoder/decoder can enter DTX mode properly and do not enter DTX when
247 // they should not. This test is signal dependent.
TestDtxEffect(bool dtx,int block_length_ms)248 void OpusTest::TestDtxEffect(bool dtx, int block_length_ms) {
249 PrepareSpeechData(block_length_ms, 2000);
250 const size_t input_samples =
251 rtc::CheckedDivExact(encoder_sample_rate_hz_, 1000) * block_length_ms;
252 const size_t output_samples =
253 rtc::CheckedDivExact(decoder_sample_rate_hz_, 1000) * block_length_ms;
254
255 // Create encoder memory.
256 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
257 use_multistream_, encoder_sample_rate_hz_);
258 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
259 decoder_sample_rate_hz_);
260
261 // Set bitrate.
262 EXPECT_EQ(
263 0, WebRtcOpus_SetBitRate(opus_encoder_, channels_ == 1 ? 32000 : 64000));
264
265 // Set input audio as silence.
266 std::vector<int16_t> silence(input_samples * channels_, 0);
267
268 // Setting DTX.
269 EXPECT_EQ(0, dtx ? WebRtcOpus_EnableDtx(opus_encoder_)
270 : WebRtcOpus_DisableDtx(opus_encoder_));
271
272 int16_t audio_type;
273 int16_t* output_data_decode = new int16_t[output_samples * channels_];
274
275 for (int i = 0; i < 100; ++i) {
276 EXPECT_EQ(output_samples,
277 static_cast<size_t>(EncodeDecode(
278 opus_encoder_, speech_data_.GetNextBlock(), opus_decoder_,
279 output_data_decode, &audio_type)));
280 // If not DTX, it should never enter DTX mode. If DTX, we do not care since
281 // whether it enters DTX depends on the signal type.
282 if (!dtx) {
283 EXPECT_GT(encoded_bytes_, 1U);
284 EXPECT_EQ(0, opus_encoder_->in_dtx_mode);
285 EXPECT_EQ(0, opus_decoder_->in_dtx_mode);
286 EXPECT_EQ(0, audio_type); // Speech.
287 }
288 }
289
290 // We input some silent segments. In DTX mode, the encoder will stop sending.
291 // However, DTX may happen after a while.
292 for (int i = 0; i < 30; ++i) {
293 EXPECT_EQ(output_samples, static_cast<size_t>(EncodeDecode(
294 opus_encoder_, silence, opus_decoder_,
295 output_data_decode, &audio_type)));
296 if (!dtx) {
297 EXPECT_GT(encoded_bytes_, 1U);
298 EXPECT_EQ(0, opus_encoder_->in_dtx_mode);
299 EXPECT_EQ(0, opus_decoder_->in_dtx_mode);
300 EXPECT_EQ(0, audio_type); // Speech.
301 } else if (encoded_bytes_ == 1) {
302 EXPECT_EQ(1, opus_encoder_->in_dtx_mode);
303 EXPECT_EQ(1, opus_decoder_->in_dtx_mode);
304 EXPECT_EQ(2, audio_type); // Comfort noise.
305 break;
306 }
307 }
308
309 // When Opus is in DTX, it wakes up in a regular basis. It sends two packets,
310 // one with an arbitrary size and the other of 1-byte, then stops sending for
311 // a certain number of frames.
312
313 // `max_dtx_frames` is the maximum number of frames Opus can stay in DTX.
314 // TODO(kwiberg): Why does this number depend on the encoding sample rate?
315 const int max_dtx_frames =
316 (encoder_sample_rate_hz_ == 16000 ? 800 : 400) / block_length_ms + 1;
317
318 // We run `kRunTimeMs` milliseconds of pure silence.
319 const int kRunTimeMs = 4500;
320
321 // We check that, after a `kCheckTimeMs` milliseconds (given that the CNG in
322 // Opus needs time to adapt), the absolute values of DTX decoded signal are
323 // bounded by `kOutputValueBound`.
324 const int kCheckTimeMs = 4000;
325
326 #if defined(OPUS_FIXED_POINT)
327 // Fixed-point Opus generates a random (comfort) noise, which has a less
328 // predictable value bound than its floating-point Opus. This value depends on
329 // input signal, and the time window for checking the output values (between
330 // `kCheckTimeMs` and `kRunTimeMs`).
331 const uint16_t kOutputValueBound = 30;
332
333 #else
334 const uint16_t kOutputValueBound = 2;
335 #endif
336
337 int time = 0;
338 while (time < kRunTimeMs) {
339 // DTX mode is maintained for maximum `max_dtx_frames` frames.
340 int i = 0;
341 for (; i < max_dtx_frames; ++i) {
342 time += block_length_ms;
343 EXPECT_EQ(output_samples, static_cast<size_t>(EncodeDecode(
344 opus_encoder_, silence, opus_decoder_,
345 output_data_decode, &audio_type)));
346 if (dtx) {
347 if (encoded_bytes_ > 1)
348 break;
349 EXPECT_EQ(0U, encoded_bytes_) // Send 0 byte.
350 << "Opus should have entered DTX mode.";
351 EXPECT_EQ(1, opus_encoder_->in_dtx_mode);
352 EXPECT_EQ(1, opus_decoder_->in_dtx_mode);
353 EXPECT_EQ(2, audio_type); // Comfort noise.
354 if (time >= kCheckTimeMs) {
355 CheckAudioBounded(output_data_decode, output_samples, channels_,
356 kOutputValueBound);
357 }
358 } else {
359 EXPECT_GT(encoded_bytes_, 1U);
360 EXPECT_EQ(0, opus_encoder_->in_dtx_mode);
361 EXPECT_EQ(0, opus_decoder_->in_dtx_mode);
362 EXPECT_EQ(0, audio_type); // Speech.
363 }
364 }
365
366 if (dtx) {
367 // With DTX, Opus must stop transmission for some time.
368 EXPECT_GT(i, 1);
369 }
370
371 // We expect a normal payload.
372 EXPECT_EQ(0, opus_encoder_->in_dtx_mode);
373 EXPECT_EQ(0, opus_decoder_->in_dtx_mode);
374 EXPECT_EQ(0, audio_type); // Speech.
375
376 // Enters DTX again immediately.
377 time += block_length_ms;
378 EXPECT_EQ(output_samples, static_cast<size_t>(EncodeDecode(
379 opus_encoder_, silence, opus_decoder_,
380 output_data_decode, &audio_type)));
381 if (dtx) {
382 EXPECT_EQ(1U, encoded_bytes_); // Send 1 byte.
383 EXPECT_EQ(1, opus_encoder_->in_dtx_mode);
384 EXPECT_EQ(1, opus_decoder_->in_dtx_mode);
385 EXPECT_EQ(2, audio_type); // Comfort noise.
386 if (time >= kCheckTimeMs) {
387 CheckAudioBounded(output_data_decode, output_samples, channels_,
388 kOutputValueBound);
389 }
390 } else {
391 EXPECT_GT(encoded_bytes_, 1U);
392 EXPECT_EQ(0, opus_encoder_->in_dtx_mode);
393 EXPECT_EQ(0, opus_decoder_->in_dtx_mode);
394 EXPECT_EQ(0, audio_type); // Speech.
395 }
396 }
397
398 silence[0] = 10000;
399 if (dtx) {
400 // Verify that encoder/decoder can jump out from DTX mode.
401 EXPECT_EQ(output_samples, static_cast<size_t>(EncodeDecode(
402 opus_encoder_, silence, opus_decoder_,
403 output_data_decode, &audio_type)));
404 EXPECT_GT(encoded_bytes_, 1U);
405 EXPECT_EQ(0, opus_encoder_->in_dtx_mode);
406 EXPECT_EQ(0, opus_decoder_->in_dtx_mode);
407 EXPECT_EQ(0, audio_type); // Speech.
408 }
409
410 // Free memory.
411 delete[] output_data_decode;
412 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
413 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
414 }
415
416 // Test if CBR does what we expect.
TestCbrEffect(bool cbr,int block_length_ms)417 void OpusTest::TestCbrEffect(bool cbr, int block_length_ms) {
418 PrepareSpeechData(block_length_ms, 2000);
419 const size_t output_samples =
420 rtc::CheckedDivExact(decoder_sample_rate_hz_, 1000) * block_length_ms;
421
422 int32_t max_pkt_size_diff = 0;
423 int32_t prev_pkt_size = 0;
424
425 // Create encoder memory.
426 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
427 use_multistream_, encoder_sample_rate_hz_);
428 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
429 decoder_sample_rate_hz_);
430
431 // Set bitrate.
432 EXPECT_EQ(
433 0, WebRtcOpus_SetBitRate(opus_encoder_, channels_ == 1 ? 32000 : 64000));
434
435 // Setting CBR.
436 EXPECT_EQ(0, cbr ? WebRtcOpus_EnableCbr(opus_encoder_)
437 : WebRtcOpus_DisableCbr(opus_encoder_));
438
439 int16_t audio_type;
440 std::vector<int16_t> audio_out(output_samples * channels_);
441 for (int i = 0; i < 100; ++i) {
442 EXPECT_EQ(output_samples,
443 static_cast<size_t>(
444 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(),
445 opus_decoder_, audio_out.data(), &audio_type)));
446
447 if (prev_pkt_size > 0) {
448 int32_t diff = std::abs((int32_t)encoded_bytes_ - prev_pkt_size);
449 max_pkt_size_diff = std::max(max_pkt_size_diff, diff);
450 }
451 prev_pkt_size = rtc::checked_cast<int32_t>(encoded_bytes_);
452 }
453
454 if (cbr) {
455 EXPECT_EQ(max_pkt_size_diff, 0);
456 } else {
457 EXPECT_GT(max_pkt_size_diff, 0);
458 }
459
460 // Free memory.
461 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
462 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
463 }
464
465 // Test failing Create.
TEST(OpusTest,OpusCreateFail)466 TEST(OpusTest, OpusCreateFail) {
467 WebRtcOpusEncInst* opus_encoder;
468 WebRtcOpusDecInst* opus_decoder;
469
470 // Test to see that an invalid pointer is caught.
471 EXPECT_EQ(-1, WebRtcOpus_EncoderCreate(NULL, 1, 0, 48000));
472 // Invalid channel number.
473 EXPECT_EQ(-1, WebRtcOpus_EncoderCreate(&opus_encoder, 257, 0, 48000));
474 // Invalid applciation mode.
475 EXPECT_EQ(-1, WebRtcOpus_EncoderCreate(&opus_encoder, 1, 2, 48000));
476 // Invalid sample rate.
477 EXPECT_EQ(-1, WebRtcOpus_EncoderCreate(&opus_encoder, 1, 0, 12345));
478
479 EXPECT_EQ(-1, WebRtcOpus_DecoderCreate(NULL, 1, 48000));
480 // Invalid channel number.
481 EXPECT_EQ(-1, WebRtcOpus_DecoderCreate(&opus_decoder, 257, 48000));
482 // Invalid sample rate.
483 EXPECT_EQ(-1, WebRtcOpus_DecoderCreate(&opus_decoder, 1, 12345));
484 }
485
486 // Test failing Free.
TEST(OpusTest,OpusFreeFail)487 TEST(OpusTest, OpusFreeFail) {
488 // Test to see that an invalid pointer is caught.
489 EXPECT_EQ(-1, WebRtcOpus_EncoderFree(NULL));
490 EXPECT_EQ(-1, WebRtcOpus_DecoderFree(NULL));
491 }
492
493 // Test normal Create and Free.
TEST_P(OpusTest,OpusCreateFree)494 TEST_P(OpusTest, OpusCreateFree) {
495 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
496 use_multistream_, encoder_sample_rate_hz_);
497 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
498 decoder_sample_rate_hz_);
499 EXPECT_TRUE(opus_encoder_ != NULL);
500 EXPECT_TRUE(opus_decoder_ != NULL);
501 // Free encoder and decoder memory.
502 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
503 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
504 }
505
506 #define ENCODER_CTL(inst, vargs) \
507 inst->encoder \
508 ? opus_encoder_ctl(inst->encoder, vargs) \
509 : opus_multistream_encoder_ctl(inst->multistream_encoder, vargs)
510
TEST_P(OpusTest,OpusEncodeDecode)511 TEST_P(OpusTest, OpusEncodeDecode) {
512 PrepareSpeechData(20, 20);
513
514 // Create encoder memory.
515 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
516 use_multistream_, encoder_sample_rate_hz_);
517 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
518 decoder_sample_rate_hz_);
519
520 // Set bitrate.
521 EXPECT_EQ(
522 0, WebRtcOpus_SetBitRate(opus_encoder_, channels_ == 1 ? 32000 : 64000));
523
524 // Check number of channels for decoder.
525 EXPECT_EQ(channels_, WebRtcOpus_DecoderChannels(opus_decoder_));
526
527 // Check application mode.
528 opus_int32 app;
529 ENCODER_CTL(opus_encoder_, OPUS_GET_APPLICATION(&app));
530 EXPECT_EQ(application_ == 0 ? OPUS_APPLICATION_VOIP : OPUS_APPLICATION_AUDIO,
531 app);
532
533 // Encode & decode.
534 int16_t audio_type;
535 const int decode_samples_per_channel =
536 SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/20);
537 int16_t* output_data_decode =
538 new int16_t[decode_samples_per_channel * channels_];
539 EXPECT_EQ(decode_samples_per_channel,
540 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(),
541 opus_decoder_, output_data_decode, &audio_type));
542
543 // Free memory.
544 delete[] output_data_decode;
545 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
546 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
547 }
548
TEST_P(OpusTest,OpusSetBitRate)549 TEST_P(OpusTest, OpusSetBitRate) {
550 // Test without creating encoder memory.
551 EXPECT_EQ(-1, WebRtcOpus_SetBitRate(opus_encoder_, 60000));
552
553 // Create encoder memory, try with different bitrates.
554 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
555 use_multistream_, encoder_sample_rate_hz_);
556 EXPECT_EQ(0, WebRtcOpus_SetBitRate(opus_encoder_, 30000));
557 EXPECT_EQ(0, WebRtcOpus_SetBitRate(opus_encoder_, 60000));
558 EXPECT_EQ(0, WebRtcOpus_SetBitRate(opus_encoder_, 300000));
559 EXPECT_EQ(0, WebRtcOpus_SetBitRate(opus_encoder_, 600000));
560
561 // Free memory.
562 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
563 }
564
TEST_P(OpusTest,OpusSetComplexity)565 TEST_P(OpusTest, OpusSetComplexity) {
566 // Test without creating encoder memory.
567 EXPECT_EQ(-1, WebRtcOpus_SetComplexity(opus_encoder_, 9));
568
569 // Create encoder memory, try with different complexities.
570 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
571 use_multistream_, encoder_sample_rate_hz_);
572
573 EXPECT_EQ(0, WebRtcOpus_SetComplexity(opus_encoder_, 0));
574 EXPECT_EQ(0, WebRtcOpus_SetComplexity(opus_encoder_, 10));
575 EXPECT_EQ(-1, WebRtcOpus_SetComplexity(opus_encoder_, 11));
576
577 // Free memory.
578 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
579 }
580
TEST_P(OpusTest,OpusSetBandwidth)581 TEST_P(OpusTest, OpusSetBandwidth) {
582 if (channels_ > 2) {
583 // TODO(webrtc:10217): investigate why multi-stream Opus reports
584 // narrowband when it's configured with FULLBAND.
585 return;
586 }
587 PrepareSpeechData(20, 20);
588
589 int16_t audio_type;
590 const int decode_samples_per_channel =
591 SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/20);
592 std::unique_ptr<int16_t[]> output_data_decode(
593 new int16_t[decode_samples_per_channel * channels_]());
594
595 // Test without creating encoder memory.
596 EXPECT_EQ(-1,
597 WebRtcOpus_SetBandwidth(opus_encoder_, OPUS_BANDWIDTH_NARROWBAND));
598 EXPECT_EQ(-1, WebRtcOpus_GetBandwidth(opus_encoder_));
599
600 // Create encoder memory, try with different bandwidths.
601 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
602 use_multistream_, encoder_sample_rate_hz_);
603 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
604 decoder_sample_rate_hz_);
605
606 EXPECT_EQ(-1, WebRtcOpus_SetBandwidth(opus_encoder_,
607 OPUS_BANDWIDTH_NARROWBAND - 1));
608 EXPECT_EQ(0,
609 WebRtcOpus_SetBandwidth(opus_encoder_, OPUS_BANDWIDTH_NARROWBAND));
610 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(), opus_decoder_,
611 output_data_decode.get(), &audio_type);
612 EXPECT_EQ(OPUS_BANDWIDTH_NARROWBAND, WebRtcOpus_GetBandwidth(opus_encoder_));
613 EXPECT_EQ(0, WebRtcOpus_SetBandwidth(opus_encoder_, OPUS_BANDWIDTH_FULLBAND));
614 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(), opus_decoder_,
615 output_data_decode.get(), &audio_type);
616 EXPECT_EQ(encoder_sample_rate_hz_ == 16000 ? OPUS_BANDWIDTH_WIDEBAND
617 : OPUS_BANDWIDTH_FULLBAND,
618 WebRtcOpus_GetBandwidth(opus_encoder_));
619 EXPECT_EQ(
620 -1, WebRtcOpus_SetBandwidth(opus_encoder_, OPUS_BANDWIDTH_FULLBAND + 1));
621 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(), opus_decoder_,
622 output_data_decode.get(), &audio_type);
623 EXPECT_EQ(encoder_sample_rate_hz_ == 16000 ? OPUS_BANDWIDTH_WIDEBAND
624 : OPUS_BANDWIDTH_FULLBAND,
625 WebRtcOpus_GetBandwidth(opus_encoder_));
626
627 // Free memory.
628 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
629 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
630 }
631
TEST_P(OpusTest,OpusForceChannels)632 TEST_P(OpusTest, OpusForceChannels) {
633 // Test without creating encoder memory.
634 EXPECT_EQ(-1, WebRtcOpus_SetForceChannels(opus_encoder_, 1));
635
636 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
637 use_multistream_, encoder_sample_rate_hz_);
638 ASSERT_NE(nullptr, opus_encoder_);
639
640 if (channels_ >= 2) {
641 EXPECT_EQ(-1, WebRtcOpus_SetForceChannels(opus_encoder_, 3));
642 EXPECT_EQ(0, WebRtcOpus_SetForceChannels(opus_encoder_, 2));
643 EXPECT_EQ(0, WebRtcOpus_SetForceChannels(opus_encoder_, 1));
644 EXPECT_EQ(0, WebRtcOpus_SetForceChannels(opus_encoder_, 0));
645 } else {
646 EXPECT_EQ(-1, WebRtcOpus_SetForceChannels(opus_encoder_, 2));
647 EXPECT_EQ(0, WebRtcOpus_SetForceChannels(opus_encoder_, 1));
648 EXPECT_EQ(0, WebRtcOpus_SetForceChannels(opus_encoder_, 0));
649 }
650
651 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
652 }
653
654 // Encode and decode one frame, initialize the decoder and
655 // decode once more.
TEST_P(OpusTest,OpusDecodeInit)656 TEST_P(OpusTest, OpusDecodeInit) {
657 PrepareSpeechData(20, 20);
658
659 // Create encoder memory.
660 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
661 use_multistream_, encoder_sample_rate_hz_);
662 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
663 decoder_sample_rate_hz_);
664
665 // Encode & decode.
666 int16_t audio_type;
667 const int decode_samples_per_channel =
668 SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/20);
669 int16_t* output_data_decode =
670 new int16_t[decode_samples_per_channel * channels_];
671 EXPECT_EQ(decode_samples_per_channel,
672 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(),
673 opus_decoder_, output_data_decode, &audio_type));
674
675 WebRtcOpus_DecoderInit(opus_decoder_);
676
677 EXPECT_EQ(decode_samples_per_channel,
678 WebRtcOpus_Decode(opus_decoder_, bitstream_, encoded_bytes_,
679 output_data_decode, &audio_type));
680
681 // Free memory.
682 delete[] output_data_decode;
683 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
684 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
685 }
686
TEST_P(OpusTest,OpusEnableDisableFec)687 TEST_P(OpusTest, OpusEnableDisableFec) {
688 // Test without creating encoder memory.
689 EXPECT_EQ(-1, WebRtcOpus_EnableFec(opus_encoder_));
690 EXPECT_EQ(-1, WebRtcOpus_DisableFec(opus_encoder_));
691
692 // Create encoder memory.
693 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
694 use_multistream_, encoder_sample_rate_hz_);
695
696 EXPECT_EQ(0, WebRtcOpus_EnableFec(opus_encoder_));
697 EXPECT_EQ(0, WebRtcOpus_DisableFec(opus_encoder_));
698
699 // Free memory.
700 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
701 }
702
TEST_P(OpusTest,OpusEnableDisableDtx)703 TEST_P(OpusTest, OpusEnableDisableDtx) {
704 // Test without creating encoder memory.
705 EXPECT_EQ(-1, WebRtcOpus_EnableDtx(opus_encoder_));
706 EXPECT_EQ(-1, WebRtcOpus_DisableDtx(opus_encoder_));
707
708 // Create encoder memory.
709 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
710 use_multistream_, encoder_sample_rate_hz_);
711
712 opus_int32 dtx;
713
714 // DTX is off by default.
715 ENCODER_CTL(opus_encoder_, OPUS_GET_DTX(&dtx));
716 EXPECT_EQ(0, dtx);
717
718 // Test to enable DTX.
719 EXPECT_EQ(0, WebRtcOpus_EnableDtx(opus_encoder_));
720 ENCODER_CTL(opus_encoder_, OPUS_GET_DTX(&dtx));
721 EXPECT_EQ(1, dtx);
722
723 // Test to disable DTX.
724 EXPECT_EQ(0, WebRtcOpus_DisableDtx(opus_encoder_));
725 ENCODER_CTL(opus_encoder_, OPUS_GET_DTX(&dtx));
726 EXPECT_EQ(0, dtx);
727
728 // Free memory.
729 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
730 }
731
TEST_P(OpusTest,OpusDtxOff)732 TEST_P(OpusTest, OpusDtxOff) {
733 TestDtxEffect(false, 10);
734 TestDtxEffect(false, 20);
735 TestDtxEffect(false, 40);
736 }
737
TEST_P(OpusTest,OpusDtxOn)738 TEST_P(OpusTest, OpusDtxOn) {
739 if (channels_ > 2) {
740 // TODO(webrtc:10218): adapt the test to the sizes and order of multi-stream
741 // DTX packets.
742 return;
743 }
744 TestDtxEffect(true, 10);
745 TestDtxEffect(true, 20);
746 TestDtxEffect(true, 40);
747 }
748
TEST_P(OpusTest,OpusCbrOff)749 TEST_P(OpusTest, OpusCbrOff) {
750 TestCbrEffect(false, 10);
751 TestCbrEffect(false, 20);
752 TestCbrEffect(false, 40);
753 }
754
TEST_P(OpusTest,OpusCbrOn)755 TEST_P(OpusTest, OpusCbrOn) {
756 TestCbrEffect(true, 10);
757 TestCbrEffect(true, 20);
758 TestCbrEffect(true, 40);
759 }
760
TEST_P(OpusTest,OpusSetPacketLossRate)761 TEST_P(OpusTest, OpusSetPacketLossRate) {
762 // Test without creating encoder memory.
763 EXPECT_EQ(-1, WebRtcOpus_SetPacketLossRate(opus_encoder_, 50));
764
765 // Create encoder memory.
766 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
767 use_multistream_, encoder_sample_rate_hz_);
768
769 EXPECT_EQ(0, WebRtcOpus_SetPacketLossRate(opus_encoder_, 50));
770 EXPECT_EQ(-1, WebRtcOpus_SetPacketLossRate(opus_encoder_, -1));
771 EXPECT_EQ(-1, WebRtcOpus_SetPacketLossRate(opus_encoder_, 101));
772
773 // Free memory.
774 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
775 }
776
TEST_P(OpusTest,OpusSetMaxPlaybackRate)777 TEST_P(OpusTest, OpusSetMaxPlaybackRate) {
778 // Test without creating encoder memory.
779 EXPECT_EQ(-1, WebRtcOpus_SetMaxPlaybackRate(opus_encoder_, 20000));
780
781 // Create encoder memory.
782 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
783 use_multistream_, encoder_sample_rate_hz_);
784
785 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_FULLBAND, 48000);
786 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_FULLBAND, 24001);
787 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_SUPERWIDEBAND, 24000);
788 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_SUPERWIDEBAND, 16001);
789 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_WIDEBAND, 16000);
790 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_WIDEBAND, 12001);
791 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_MEDIUMBAND, 12000);
792 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_MEDIUMBAND, 8001);
793 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_NARROWBAND, 8000);
794 SetMaxPlaybackRate(opus_encoder_, OPUS_BANDWIDTH_NARROWBAND, 4000);
795
796 // Free memory.
797 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
798 }
799
800 // Test PLC.
TEST_P(OpusTest,OpusDecodePlc)801 TEST_P(OpusTest, OpusDecodePlc) {
802 PrepareSpeechData(20, 20);
803
804 // Create encoder memory.
805 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
806 use_multistream_, encoder_sample_rate_hz_);
807 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
808 decoder_sample_rate_hz_);
809
810 // Set bitrate.
811 EXPECT_EQ(
812 0, WebRtcOpus_SetBitRate(opus_encoder_, channels_ == 1 ? 32000 : 64000));
813
814 // Check number of channels for decoder.
815 EXPECT_EQ(channels_, WebRtcOpus_DecoderChannels(opus_decoder_));
816
817 // Encode & decode.
818 int16_t audio_type;
819 const int decode_samples_per_channel =
820 SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/20);
821 int16_t* output_data_decode =
822 new int16_t[decode_samples_per_channel * channels_];
823 EXPECT_EQ(decode_samples_per_channel,
824 EncodeDecode(opus_encoder_, speech_data_.GetNextBlock(),
825 opus_decoder_, output_data_decode, &audio_type));
826
827 // Call decoder PLC.
828 constexpr int kPlcDurationMs = 10;
829 const int plc_samples = decoder_sample_rate_hz_ * kPlcDurationMs / 1000;
830 int16_t* plc_buffer = new int16_t[plc_samples * channels_];
831 EXPECT_EQ(plc_samples,
832 WebRtcOpus_Decode(opus_decoder_, NULL, 0, plc_buffer, &audio_type));
833
834 // Free memory.
835 delete[] plc_buffer;
836 delete[] output_data_decode;
837 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
838 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
839 }
840
841 // Duration estimation.
TEST_P(OpusTest,OpusDurationEstimation)842 TEST_P(OpusTest, OpusDurationEstimation) {
843 PrepareSpeechData(20, 20);
844
845 // Create.
846 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
847 use_multistream_, encoder_sample_rate_hz_);
848 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
849 decoder_sample_rate_hz_);
850
851 // 10 ms. We use only first 10 ms of a 20 ms block.
852 auto speech_block = speech_data_.GetNextBlock();
853 int encoded_bytes_int = WebRtcOpus_Encode(
854 opus_encoder_, speech_block.data(),
855 rtc::CheckedDivExact(speech_block.size(), 2 * channels_), kMaxBytes,
856 bitstream_);
857 EXPECT_GE(encoded_bytes_int, 0);
858 EXPECT_EQ(SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/10),
859 WebRtcOpus_DurationEst(opus_decoder_, bitstream_,
860 static_cast<size_t>(encoded_bytes_int)));
861
862 // 20 ms
863 speech_block = speech_data_.GetNextBlock();
864 encoded_bytes_int =
865 WebRtcOpus_Encode(opus_encoder_, speech_block.data(),
866 rtc::CheckedDivExact(speech_block.size(), channels_),
867 kMaxBytes, bitstream_);
868 EXPECT_GE(encoded_bytes_int, 0);
869 EXPECT_EQ(SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/20),
870 WebRtcOpus_DurationEst(opus_decoder_, bitstream_,
871 static_cast<size_t>(encoded_bytes_int)));
872
873 // Free memory.
874 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
875 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
876 }
877
TEST_P(OpusTest,OpusDecodeRepacketized)878 TEST_P(OpusTest, OpusDecodeRepacketized) {
879 if (channels_ > 2) {
880 // As per the Opus documentation
881 // https://mf4.xiph.org/jenkins/view/opus/job/opus/ws/doc/html/group__opus__repacketizer.html#details,
882 // multiple streams are not supported.
883 return;
884 }
885 constexpr size_t kPackets = 6;
886
887 PrepareSpeechData(20, 20 * kPackets);
888
889 // Create encoder memory.
890 CreateSingleOrMultiStreamEncoder(&opus_encoder_, channels_, application_,
891 use_multistream_, encoder_sample_rate_hz_);
892 ASSERT_NE(nullptr, opus_encoder_);
893 CreateSingleOrMultiStreamDecoder(&opus_decoder_, channels_, use_multistream_,
894 decoder_sample_rate_hz_);
895 ASSERT_NE(nullptr, opus_decoder_);
896
897 // Set bitrate.
898 EXPECT_EQ(
899 0, WebRtcOpus_SetBitRate(opus_encoder_, channels_ == 1 ? 32000 : 64000));
900
901 // Check number of channels for decoder.
902 EXPECT_EQ(channels_, WebRtcOpus_DecoderChannels(opus_decoder_));
903
904 // Encode & decode.
905 int16_t audio_type;
906 const int decode_samples_per_channel =
907 SamplesPerChannel(decoder_sample_rate_hz_, /*ms=*/20);
908 std::unique_ptr<int16_t[]> output_data_decode(
909 new int16_t[kPackets * decode_samples_per_channel * channels_]);
910 OpusRepacketizer* rp = opus_repacketizer_create();
911
912 size_t num_packets = 0;
913 constexpr size_t kMaxCycles = 100;
914 for (size_t idx = 0; idx < kMaxCycles; ++idx) {
915 auto speech_block = speech_data_.GetNextBlock();
916 encoded_bytes_ =
917 WebRtcOpus_Encode(opus_encoder_, speech_block.data(),
918 rtc::CheckedDivExact(speech_block.size(), channels_),
919 kMaxBytes, bitstream_);
920 if (opus_repacketizer_cat(rp, bitstream_,
921 rtc::checked_cast<opus_int32>(encoded_bytes_)) ==
922 OPUS_OK) {
923 ++num_packets;
924 if (num_packets == kPackets) {
925 break;
926 }
927 } else {
928 // Opus repacketizer cannot guarantee a success. We try again if it fails.
929 opus_repacketizer_init(rp);
930 num_packets = 0;
931 }
932 }
933 EXPECT_EQ(kPackets, num_packets);
934
935 encoded_bytes_ = opus_repacketizer_out(rp, bitstream_, kMaxBytes);
936
937 EXPECT_EQ(decode_samples_per_channel * kPackets,
938 static_cast<size_t>(WebRtcOpus_DurationEst(
939 opus_decoder_, bitstream_, encoded_bytes_)));
940
941 EXPECT_EQ(decode_samples_per_channel * kPackets,
942 static_cast<size_t>(
943 WebRtcOpus_Decode(opus_decoder_, bitstream_, encoded_bytes_,
944 output_data_decode.get(), &audio_type)));
945
946 // Free memory.
947 opus_repacketizer_destroy(rp);
948 EXPECT_EQ(0, WebRtcOpus_EncoderFree(opus_encoder_));
949 EXPECT_EQ(0, WebRtcOpus_DecoderFree(opus_decoder_));
950 }
951
TEST(OpusVadTest,CeltUnknownStatus)952 TEST(OpusVadTest, CeltUnknownStatus) {
953 const uint8_t celt[] = {0x80};
954 EXPECT_EQ(WebRtcOpus_PacketHasVoiceActivity(celt, 1), -1);
955 }
956
TEST(OpusVadTest,Mono20msVadSet)957 TEST(OpusVadTest, Mono20msVadSet) {
958 uint8_t silk20msMonoVad[] = {0x78, 0x80};
959 EXPECT_TRUE(WebRtcOpus_PacketHasVoiceActivity(silk20msMonoVad, 2));
960 }
961
TEST(OpusVadTest,Mono20MsVadUnset)962 TEST(OpusVadTest, Mono20MsVadUnset) {
963 uint8_t silk20msMonoSilence[] = {0x78, 0x00};
964 EXPECT_FALSE(WebRtcOpus_PacketHasVoiceActivity(silk20msMonoSilence, 2));
965 }
966
TEST(OpusVadTest,Stereo20MsVadOnSideChannel)967 TEST(OpusVadTest, Stereo20MsVadOnSideChannel) {
968 uint8_t silk20msStereoVadSideChannel[] = {0x78 | 0x04, 0x20};
969 EXPECT_TRUE(
970 WebRtcOpus_PacketHasVoiceActivity(silk20msStereoVadSideChannel, 2));
971 }
972
TEST(OpusVadTest,TwoOpusMonoFramesVadOnSecond)973 TEST(OpusVadTest, TwoOpusMonoFramesVadOnSecond) {
974 uint8_t twoMonoFrames[] = {0x78 | 0x1, 0x00, 0x80};
975 EXPECT_TRUE(WebRtcOpus_PacketHasVoiceActivity(twoMonoFrames, 3));
976 }
977
978 } // namespace webrtc
979