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/*
* Copyright (c) 2018 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.
*/
#ifndef API_AUDIO_AUDIO_FRAME_H_
#define API_AUDIO_AUDIO_FRAME_H_
#include <stddef.h>
#include <stdint.h>
#include <array>
#include <optional>
#include "api/array_view.h"
#include "api/audio/audio_view.h"
#include "api/audio/channel_layout.h"
#include "api/rtp_packet_infos.h"
#include "rtc_base/checks.h"
namespace webrtc {
// Default webrtc buffer size in milliseconds.
constexpr size_t kDefaultAudioBufferLengthMs = 10u;
// Default total number of audio buffers per second based on the default length.
constexpr size_t kDefaultAudioBuffersPerSec =
1000u / kDefaultAudioBufferLengthMs;
// Returns the number of samples a buffer needs to hold for ~10ms of a single
// audio channel at a given sample rate.
// See also `AudioProcessing::GetFrameSize()`.
inline size_t SampleRateToDefaultChannelSize(size_t sample_rate) {
// Basic sanity check. 192kHz is the highest supported input sample rate.
RTC_DCHECK_LE(sample_rate, 192000);
return sample_rate / kDefaultAudioBuffersPerSec;
}
/////////////////////////////////////////////////////////////////////
/* This class holds up to 120 ms of super-wideband (32 kHz) stereo audio. It
* allows for adding and subtracting frames while keeping track of the resulting
* states.
*
* Notes
* - This is a de-facto api, not designed for external use. The AudioFrame class
* is in need of overhaul or even replacement, and anyone depending on it
* should be prepared for that.
* - The total number of samples is samples_per_channel_ * num_channels_.
* - Stereo data is interleaved starting with the left channel.
*/
class AudioFrame {
public:
// Using constexpr here causes linker errors unless the variable also has an
// out-of-class definition, which is impractical in this header-only class.
// (This makes no sense because it compiles as an enum value, which we most
// certainly cannot take the address of, just fine.) C++17 introduces inline
// variables which should allow us to switch to constexpr and keep this a
// header-only class.
enum : size_t {
// Stereo, 32 kHz, 120 ms (2 * 32 * 120)
// Stereo, 192 kHz, 20 ms (2 * 192 * 20)
kMaxDataSizeSamples = 7680,
kMaxDataSizeBytes = kMaxDataSizeSamples * sizeof(int16_t),
};
enum VADActivity { kVadActive = 0, kVadPassive = 1, kVadUnknown = 2 };
enum SpeechType {
kNormalSpeech = 0,
kPLC = 1,
kCNG = 2,
kPLCCNG = 3,
kCodecPLC = 5,
kUndefined = 4
};
AudioFrame();
// Construct an audio frame with frame length properties and channel
// information. `samples_per_channel()` will be initialized to a 10ms buffer
// size and if `layout` is not specified (default value of
// CHANNEL_LAYOUT_UNSUPPORTED is set), then the channel layout is derived
// (guessed) from `num_channels`.
AudioFrame(int sample_rate_hz,
size_t num_channels,
ChannelLayout layout = CHANNEL_LAYOUT_UNSUPPORTED);
AudioFrame(const AudioFrame&) = delete;
AudioFrame& operator=(const AudioFrame&) = delete;
// Resets all members to their default state.
void Reset();
// Same as Reset(), but leaves mute state unchanged. Muting a frame requires
// the buffer to be zeroed on the next call to mutable_data(). Callers
// intending to write to the buffer immediately after Reset() can instead use
// ResetWithoutMuting() to skip this wasteful zeroing.
void ResetWithoutMuting();
// TODO: b/335805780 - Accept InterleavedView.
void UpdateFrame(uint32_t timestamp,
const int16_t* data,
size_t samples_per_channel,
int sample_rate_hz,
SpeechType speech_type,
VADActivity vad_activity,
size_t num_channels = 1);
void CopyFrom(const AudioFrame& src);
// Sets a wall-time clock timestamp in milliseconds to be used for profiling
// of time between two points in the audio chain.
// Example:
// t0: UpdateProfileTimeStamp()
// t1: ElapsedProfileTimeMs() => t1 - t0 [msec]
void UpdateProfileTimeStamp();
// Returns the time difference between now and when UpdateProfileTimeStamp()
// was last called. Returns -1 if UpdateProfileTimeStamp() has not yet been
// called.
int64_t ElapsedProfileTimeMs() const;
// data() returns a zeroed static buffer if the frame is muted.
// TODO: b/335805780 - Return InterleavedView.
const int16_t* data() const;
// Returns a read-only view of all the valid samples held by the AudioFrame.
// For a muted AudioFrame, the samples will all be 0.
InterleavedView<const int16_t> data_view() const;
// mutable_frame() always returns a non-static buffer; the first call to
// mutable_frame() zeros the buffer and marks the frame as unmuted.
// TODO: b/335805780 - Return an InterleavedView.
int16_t* mutable_data();
// Grants write access to the audio buffer. The size of the returned writable
// view is determined by the `samples_per_channel` and `num_channels`
// dimensions which the function checks for correctness and stores in the
// internal member variables; `samples_per_channel()` and `num_channels()`
// respectively.
// If the state is currently muted, the returned view will be zeroed out.
InterleavedView<int16_t> mutable_data(size_t samples_per_channel,
size_t num_channels);
// Prefer to mute frames using AudioFrameOperations::Mute.
void Mute();
// Frame is muted by default.
bool muted() const;
size_t max_16bit_samples() const { return data_.size(); }
size_t samples_per_channel() const { return samples_per_channel_; }
size_t num_channels() const { return num_channels_; }
ChannelLayout channel_layout() const { return channel_layout_; }
// Sets the `channel_layout` property as well as `num_channels`.
void SetLayoutAndNumChannels(ChannelLayout layout, size_t num_channels);
int sample_rate_hz() const { return sample_rate_hz_; }
void set_absolute_capture_timestamp_ms(
int64_t absolute_capture_time_stamp_ms) {
absolute_capture_timestamp_ms_ = absolute_capture_time_stamp_ms;
}
std::optional<int64_t> absolute_capture_timestamp_ms() const {
return absolute_capture_timestamp_ms_;
}
// Sets the sample_rate_hz and samples_per_channel properties based on a
// given sample rate and calculates a default 10ms samples_per_channel value.
void SetSampleRateAndChannelSize(int sample_rate);
// RTP timestamp of the first sample in the AudioFrame.
uint32_t timestamp_ = 0;
// Time since the first frame in milliseconds.
// -1 represents an uninitialized value.
int64_t elapsed_time_ms_ = -1;
// NTP time of the estimated capture time in local timebase in milliseconds.
// -1 represents an uninitialized value.
int64_t ntp_time_ms_ = -1;
size_t samples_per_channel_ = 0;
int sample_rate_hz_ = 0;
size_t num_channels_ = 0;
SpeechType speech_type_ = kUndefined;
VADActivity vad_activity_ = kVadUnknown;
// Monotonically increasing timestamp intended for profiling of audio frames.
// Typically used for measuring elapsed time between two different points in
// the audio path. No lock is used to save resources and we are thread safe
// by design.
// TODO(nisse@webrtc.org): consider using std::optional.
int64_t profile_timestamp_ms_ = 0;
// Information about packets used to assemble this audio frame. This is needed
// by `SourceTracker` when the frame is delivered to the RTCRtpReceiver's
// MediaStreamTrack, in order to implement getContributingSources(). See:
// https://w3c.github.io/webrtc-pc/#dom-rtcrtpreceiver-getcontributingsources
//
// TODO(bugs.webrtc.org/10757):
// Note that this information might not be fully accurate since we currently
// don't have a proper way to track it across the audio sync buffer. The
// sync buffer is the small sample-holding buffer located after the audio
// decoder and before where samples are assembled into output frames.
//
// `RtpPacketInfos` may also be empty if the audio samples did not come from
// RTP packets. E.g. if the audio were locally generated by packet loss
// concealment, comfort noise generation, etc.
RtpPacketInfos packet_infos_;
private:
// A permanently zeroed out buffer to represent muted frames. This is a
// header-only class, so the only way to avoid creating a separate zeroed
// buffer per translation unit is to wrap a static in an inline function.
static rtc::ArrayView<const int16_t> zeroed_data();
std::array<int16_t, kMaxDataSizeSamples> data_;
bool muted_ = true;
ChannelLayout channel_layout_ = CHANNEL_LAYOUT_NONE;
// Absolute capture timestamp when this audio frame was originally captured.
// This is only valid for audio frames captured on this machine. The absolute
// capture timestamp of a received frame is found in `packet_infos_`.
// This timestamp MUST be based on the same clock as rtc::TimeMillis().
std::optional<int64_t> absolute_capture_timestamp_ms_;
};
} // namespace webrtc
#endif // API_AUDIO_AUDIO_FRAME_H_