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/*
* Copyright (c) 2014 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 "modules/audio_coding/codecs/cng/audio_encoder_cng.h"
#include <cstdint>
#include <memory>
#include <utility>
#include "absl/types/optional.h"
#include "api/units/time_delta.h"
#include "modules/audio_coding/codecs/cng/webrtc_cng.h"
#include "rtc_base/checks.h"
namespace webrtc {
namespace {
const int kMaxFrameSizeMs = 60;
class AudioEncoderCng final : public AudioEncoder {
public:
explicit AudioEncoderCng(AudioEncoderCngConfig&& config);
~AudioEncoderCng() override;
// Not copyable or moveable.
AudioEncoderCng(const AudioEncoderCng&) = delete;
AudioEncoderCng(AudioEncoderCng&&) = delete;
AudioEncoderCng& operator=(const AudioEncoderCng&) = delete;
AudioEncoderCng& operator=(AudioEncoderCng&&) = delete;
int SampleRateHz() const override;
size_t NumChannels() const override;
int RtpTimestampRateHz() const override;
size_t Num10MsFramesInNextPacket() const override;
size_t Max10MsFramesInAPacket() const override;
int GetTargetBitrate() const override;
EncodedInfo EncodeImpl(uint32_t rtp_timestamp,
rtc::ArrayView<const int16_t> audio,
rtc::Buffer* encoded) override;
void Reset() override;
bool SetFec(bool enable) override;
bool SetDtx(bool enable) override;
bool SetApplication(Application application) override;
void SetMaxPlaybackRate(int frequency_hz) override;
rtc::ArrayView<std::unique_ptr<AudioEncoder>> ReclaimContainedEncoders()
override;
void OnReceivedUplinkPacketLossFraction(
float uplink_packet_loss_fraction) override;
void OnReceivedUplinkBandwidth(
int target_audio_bitrate_bps,
absl::optional<int64_t> bwe_period_ms) override;
absl::optional<std::pair<TimeDelta, TimeDelta>> GetFrameLengthRange()
const override;
private:
EncodedInfo EncodePassive(size_t frames_to_encode, rtc::Buffer* encoded);
EncodedInfo EncodeActive(size_t frames_to_encode, rtc::Buffer* encoded);
size_t SamplesPer10msFrame() const;
std::unique_ptr<AudioEncoder> speech_encoder_;
const int cng_payload_type_;
const int num_cng_coefficients_;
const int sid_frame_interval_ms_;
std::vector<int16_t> speech_buffer_;
std::vector<uint32_t> rtp_timestamps_;
bool last_frame_active_;
std::unique_ptr<Vad> vad_;
std::unique_ptr<ComfortNoiseEncoder> cng_encoder_;
};
AudioEncoderCng::AudioEncoderCng(AudioEncoderCngConfig&& config)
: speech_encoder_((static_cast<void>([&] {
RTC_CHECK(config.IsOk()) << "Invalid configuration.";
}()),
std::move(config.speech_encoder))),
cng_payload_type_(config.payload_type),
num_cng_coefficients_(config.num_cng_coefficients),
sid_frame_interval_ms_(config.sid_frame_interval_ms),
last_frame_active_(true),
vad_(config.vad ? std::unique_ptr<Vad>(config.vad)
: CreateVad(config.vad_mode)),
cng_encoder_(new ComfortNoiseEncoder(SampleRateHz(),
sid_frame_interval_ms_,
num_cng_coefficients_)) {
speech_encoder_->Reset();
}
AudioEncoderCng::~AudioEncoderCng() = default;
int AudioEncoderCng::SampleRateHz() const {
return speech_encoder_->SampleRateHz();
}
size_t AudioEncoderCng::NumChannels() const {
return 1;
}
int AudioEncoderCng::RtpTimestampRateHz() const {
return speech_encoder_->RtpTimestampRateHz();
}
size_t AudioEncoderCng::Num10MsFramesInNextPacket() const {
return speech_encoder_->Num10MsFramesInNextPacket();
}
size_t AudioEncoderCng::Max10MsFramesInAPacket() const {
return speech_encoder_->Max10MsFramesInAPacket();
}
int AudioEncoderCng::GetTargetBitrate() const {
return speech_encoder_->GetTargetBitrate();
}
AudioEncoder::EncodedInfo AudioEncoderCng::EncodeImpl(
uint32_t rtp_timestamp,
rtc::ArrayView<const int16_t> audio,
rtc::Buffer* encoded) {
const size_t samples_per_10ms_frame = SamplesPer10msFrame();
RTC_CHECK_EQ(speech_buffer_.size(),
rtp_timestamps_.size() * samples_per_10ms_frame);
rtp_timestamps_.push_back(rtp_timestamp);
RTC_DCHECK_EQ(samples_per_10ms_frame, audio.size());
speech_buffer_.insert(speech_buffer_.end(), audio.cbegin(), audio.cend());
const size_t frames_to_encode = speech_encoder_->Num10MsFramesInNextPacket();
if (rtp_timestamps_.size() < frames_to_encode) {
return EncodedInfo();
}
RTC_CHECK_LE(frames_to_encode * 10, kMaxFrameSizeMs)
<< "Frame size cannot be larger than " << kMaxFrameSizeMs
<< " ms when using VAD/CNG.";
// Group several 10 ms blocks per VAD call. Call VAD once or twice using the
// following split sizes:
// 10 ms = 10 + 0 ms; 20 ms = 20 + 0 ms; 30 ms = 30 + 0 ms;
// 40 ms = 20 + 20 ms; 50 ms = 30 + 20 ms; 60 ms = 30 + 30 ms.
size_t blocks_in_first_vad_call =
(frames_to_encode > 3 ? 3 : frames_to_encode);
if (frames_to_encode == 4)
blocks_in_first_vad_call = 2;
RTC_CHECK_GE(frames_to_encode, blocks_in_first_vad_call);
const size_t blocks_in_second_vad_call =
frames_to_encode - blocks_in_first_vad_call;
// Check if all of the buffer is passive speech. Start with checking the first
// block.
Vad::Activity activity = vad_->VoiceActivity(
&speech_buffer_[0], samples_per_10ms_frame * blocks_in_first_vad_call,
SampleRateHz());
if (activity == Vad::kPassive && blocks_in_second_vad_call > 0) {
// Only check the second block if the first was passive.
activity = vad_->VoiceActivity(
&speech_buffer_[samples_per_10ms_frame * blocks_in_first_vad_call],
samples_per_10ms_frame * blocks_in_second_vad_call, SampleRateHz());
}
EncodedInfo info;
switch (activity) {
case Vad::kPassive: {
info = EncodePassive(frames_to_encode, encoded);
last_frame_active_ = false;
break;
}
case Vad::kActive: {
info = EncodeActive(frames_to_encode, encoded);
last_frame_active_ = true;
break;
}
default: {
RTC_CHECK_NOTREACHED();
}
}
speech_buffer_.erase(
speech_buffer_.begin(),
speech_buffer_.begin() + frames_to_encode * samples_per_10ms_frame);
rtp_timestamps_.erase(rtp_timestamps_.begin(),
rtp_timestamps_.begin() + frames_to_encode);
return info;
}
void AudioEncoderCng::Reset() {
speech_encoder_->Reset();
speech_buffer_.clear();
rtp_timestamps_.clear();
last_frame_active_ = true;
vad_->Reset();
cng_encoder_.reset(new ComfortNoiseEncoder(
SampleRateHz(), sid_frame_interval_ms_, num_cng_coefficients_));
}
bool AudioEncoderCng::SetFec(bool enable) {
return speech_encoder_->SetFec(enable);
}
bool AudioEncoderCng::SetDtx(bool enable) {
return speech_encoder_->SetDtx(enable);
}
bool AudioEncoderCng::SetApplication(Application application) {
return speech_encoder_->SetApplication(application);
}
void AudioEncoderCng::SetMaxPlaybackRate(int frequency_hz) {
speech_encoder_->SetMaxPlaybackRate(frequency_hz);
}
rtc::ArrayView<std::unique_ptr<AudioEncoder>>
AudioEncoderCng::ReclaimContainedEncoders() {
return rtc::ArrayView<std::unique_ptr<AudioEncoder>>(&speech_encoder_, 1);
}
void AudioEncoderCng::OnReceivedUplinkPacketLossFraction(
float uplink_packet_loss_fraction) {
speech_encoder_->OnReceivedUplinkPacketLossFraction(
uplink_packet_loss_fraction);
}
void AudioEncoderCng::OnReceivedUplinkBandwidth(
int target_audio_bitrate_bps,
absl::optional<int64_t> bwe_period_ms) {
speech_encoder_->OnReceivedUplinkBandwidth(target_audio_bitrate_bps,
bwe_period_ms);
}
absl::optional<std::pair<TimeDelta, TimeDelta>>
AudioEncoderCng::GetFrameLengthRange() const {
return speech_encoder_->GetFrameLengthRange();
}
AudioEncoder::EncodedInfo AudioEncoderCng::EncodePassive(
size_t frames_to_encode,
rtc::Buffer* encoded) {
bool force_sid = last_frame_active_;
bool output_produced = false;
const size_t samples_per_10ms_frame = SamplesPer10msFrame();
AudioEncoder::EncodedInfo info;
for (size_t i = 0; i < frames_to_encode; ++i) {
// It's important not to pass &info.encoded_bytes directly to
// WebRtcCng_Encode(), since later loop iterations may return zero in
// that value, in which case we don't want to overwrite any value from
// an earlier iteration.
size_t encoded_bytes_tmp =
cng_encoder_->Encode(rtc::ArrayView<const int16_t>(
&speech_buffer_[i * samples_per_10ms_frame],
samples_per_10ms_frame),
force_sid, encoded);
if (encoded_bytes_tmp > 0) {
RTC_CHECK(!output_produced);
info.encoded_bytes = encoded_bytes_tmp;
output_produced = true;
force_sid = false;
}
}
info.encoded_timestamp = rtp_timestamps_.front();
info.payload_type = cng_payload_type_;
info.send_even_if_empty = true;
info.speech = false;
return info;
}
AudioEncoder::EncodedInfo AudioEncoderCng::EncodeActive(size_t frames_to_encode,
rtc::Buffer* encoded) {
const size_t samples_per_10ms_frame = SamplesPer10msFrame();
AudioEncoder::EncodedInfo info;
for (size_t i = 0; i < frames_to_encode; ++i) {
info =
speech_encoder_->Encode(rtp_timestamps_.front(),
rtc::ArrayView<const int16_t>(
&speech_buffer_[i * samples_per_10ms_frame],
samples_per_10ms_frame),
encoded);
if (i + 1 == frames_to_encode) {
RTC_CHECK_GT(info.encoded_bytes, 0) << "Encoder didn't deliver data.";
} else {
RTC_CHECK_EQ(info.encoded_bytes, 0)
<< "Encoder delivered data too early.";
}
}
return info;
}
size_t AudioEncoderCng::SamplesPer10msFrame() const {
return rtc::CheckedDivExact(10 * SampleRateHz(), 1000);
}
} // namespace
AudioEncoderCngConfig::AudioEncoderCngConfig() = default;
AudioEncoderCngConfig::AudioEncoderCngConfig(AudioEncoderCngConfig&&) = default;
AudioEncoderCngConfig::~AudioEncoderCngConfig() = default;
bool AudioEncoderCngConfig::IsOk() const {
if (num_channels != 1)
return false;
if (!speech_encoder)
return false;
if (num_channels != speech_encoder->NumChannels())
return false;
if (sid_frame_interval_ms <
static_cast<int>(speech_encoder->Max10MsFramesInAPacket() * 10))
return false;
if (num_cng_coefficients > WEBRTC_CNG_MAX_LPC_ORDER ||
num_cng_coefficients <= 0)
return false;
return true;
}
std::unique_ptr<AudioEncoder> CreateComfortNoiseEncoder(
AudioEncoderCngConfig&& config) {
return std::make_unique<AudioEncoderCng>(std::move(config));
}
} // namespace webrtc