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[chromium-blink-merge.git] / media / filters / opus_audio_decoder.cc
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1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "media/filters/opus_audio_decoder.h"
7 #include <cmath>
9 #include "base/single_thread_task_runner.h"
10 #include "base/sys_byteorder.h"
11 #include "media/base/audio_buffer.h"
12 #include "media/base/audio_decoder_config.h"
13 #include "media/base/audio_discard_helper.h"
14 #include "media/base/bind_to_current_loop.h"
15 #include "media/base/decoder_buffer.h"
16 #include "media/base/timestamp_constants.h"
17 #include "third_party/opus/src/include/opus.h"
18 #include "third_party/opus/src/include/opus_multistream.h"
20 namespace media {
22 static uint16 ReadLE16(const uint8* data, size_t data_size, int read_offset) {
23 uint16 value = 0;
24 DCHECK_LE(read_offset + sizeof(value), data_size);
25 memcpy(&value, data + read_offset, sizeof(value));
26 return base::ByteSwapToLE16(value);
29 // The Opus specification is part of IETF RFC 6716:
30 // http://tools.ietf.org/html/rfc6716
32 // Opus uses Vorbis channel mapping, and Vorbis channel mapping specifies
33 // mappings for up to 8 channels. This information is part of the Vorbis I
34 // Specification:
35 // http://www.xiph.org/vorbis/doc/Vorbis_I_spec.html
36 static const int kMaxVorbisChannels = 8;
38 // Maximum packet size used in Xiph's opusdec and FFmpeg's libopusdec.
39 static const int kMaxOpusOutputPacketSizeSamples = 960 * 6;
41 static void RemapOpusChannelLayout(const uint8* opus_mapping,
42 int num_channels,
43 uint8* channel_layout) {
44 DCHECK_LE(num_channels, kMaxVorbisChannels);
46 // Opus uses Vorbis channel layout.
47 const int32 num_layouts = kMaxVorbisChannels;
48 const int32 num_layout_values = kMaxVorbisChannels;
50 // Vorbis channel ordering for streams with >= 2 channels:
51 // 2 Channels
52 // L, R
53 // 3 Channels
54 // L, Center, R
55 // 4 Channels
56 // Front L, Front R, Back L, Back R
57 // 5 Channels
58 // Front L, Center, Front R, Back L, Back R
59 // 6 Channels (5.1)
60 // Front L, Center, Front R, Back L, Back R, LFE
61 // 7 channels (6.1)
62 // Front L, Front Center, Front R, Side L, Side R, Back Center, LFE
63 // 8 Channels (7.1)
64 // Front L, Center, Front R, Side L, Side R, Back L, Back R, LFE
66 // Channel ordering information is taken from section 4.3.9 of the Vorbis I
67 // Specification:
68 // http://xiph.org/vorbis/doc/Vorbis_I_spec.html#x1-800004.3.9
70 // These are the FFmpeg channel layouts expressed using the position of each
71 // channel in the output stream from libopus.
72 const uint8 kFFmpegChannelLayouts[num_layouts][num_layout_values] = {
73 { 0 },
75 // Stereo: No reorder.
76 { 0, 1 },
78 // 3 Channels, from Vorbis order to:
79 // L, R, Center
80 { 0, 2, 1 },
82 // 4 Channels: No reorder.
83 { 0, 1, 2, 3 },
85 // 5 Channels, from Vorbis order to:
86 // Front L, Front R, Center, Back L, Back R
87 { 0, 2, 1, 3, 4 },
89 // 6 Channels (5.1), from Vorbis order to:
90 // Front L, Front R, Center, LFE, Back L, Back R
91 { 0, 2, 1, 5, 3, 4 },
93 // 7 Channels (6.1), from Vorbis order to:
94 // Front L, Front R, Front Center, LFE, Side L, Side R, Back Center
95 { 0, 2, 1, 6, 3, 4, 5 },
97 // 8 Channels (7.1), from Vorbis order to:
98 // Front L, Front R, Center, LFE, Back L, Back R, Side L, Side R
99 { 0, 2, 1, 7, 5, 6, 3, 4 },
102 // Reorder the channels to produce the same ordering as FFmpeg, which is
103 // what the pipeline expects.
104 const uint8* vorbis_layout_offset = kFFmpegChannelLayouts[num_channels - 1];
105 for (int channel = 0; channel < num_channels; ++channel)
106 channel_layout[channel] = opus_mapping[vorbis_layout_offset[channel]];
109 // Opus Extra Data contents:
110 // - "OpusHead" (64 bits)
111 // - version number (8 bits)
112 // - Channels C (8 bits)
113 // - Pre-skip (16 bits)
114 // - Sampling rate (32 bits)
115 // - Gain in dB (16 bits, S7.8)
116 // - Mapping (8 bits, 0=single stream (mono/stereo) 1=Vorbis mapping,
117 // 2..254: reserved, 255: multistream with no mapping)
119 // - if (mapping != 0)
120 // - N = totel number of streams (8 bits)
121 // - M = number of paired streams (8 bits)
122 // - C times channel origin
123 // - if (C<2*M)
124 // - stream = byte/2
125 // - if (byte&0x1 == 0)
126 // - left
127 // else
128 // - right
129 // - else
130 // - stream = byte-M
132 // Default audio output channel layout. Used to initialize |stream_map| in
133 // OpusExtraData, and passed to opus_multistream_decoder_create() when the
134 // extra data does not contain mapping information. The values are valid only
135 // for mono and stereo output: Opus streams with more than 2 channels require a
136 // stream map.
137 static const int kMaxChannelsWithDefaultLayout = 2;
138 static const uint8 kDefaultOpusChannelLayout[kMaxChannelsWithDefaultLayout] = {
139 0, 1 };
141 // Size of the Opus extra data excluding optional mapping information.
142 static const int kOpusExtraDataSize = 19;
144 // Offset to the channel count byte in the Opus extra data.
145 static const int kOpusExtraDataChannelsOffset = 9;
147 // Offset to the pre-skip value in the Opus extra data.
148 static const int kOpusExtraDataSkipSamplesOffset = 10;
150 // Offset to the gain value in the Opus extra data.
151 static const int kOpusExtraDataGainOffset = 16;
153 // Offset to the channel mapping byte in the Opus extra data.
154 static const int kOpusExtraDataChannelMappingOffset = 18;
156 // Extra Data contains a stream map. The mapping values are in extra data beyond
157 // the always present |kOpusExtraDataSize| bytes of data. The mapping data
158 // contains stream count, coupling information, and per channel mapping values:
159 // - Byte 0: Number of streams.
160 // - Byte 1: Number coupled.
161 // - Byte 2: Starting at byte 2 are |extra_data->channels| uint8 mapping
162 // values.
163 static const int kOpusExtraDataNumStreamsOffset = kOpusExtraDataSize;
164 static const int kOpusExtraDataNumCoupledOffset =
165 kOpusExtraDataNumStreamsOffset + 1;
166 static const int kOpusExtraDataStreamMapOffset =
167 kOpusExtraDataNumStreamsOffset + 2;
169 struct OpusExtraData {
170 OpusExtraData()
171 : channels(0),
172 skip_samples(0),
173 channel_mapping(0),
174 num_streams(0),
175 num_coupled(0),
176 gain_db(0),
177 stream_map() {
178 memcpy(stream_map,
179 kDefaultOpusChannelLayout,
180 kMaxChannelsWithDefaultLayout);
182 int channels;
183 uint16 skip_samples;
184 int channel_mapping;
185 int num_streams;
186 int num_coupled;
187 int16 gain_db;
188 uint8 stream_map[kMaxVorbisChannels];
191 // Returns true when able to successfully parse and store Opus extra data in
192 // |extra_data|. Based on opus header parsing code in libopusdec from FFmpeg,
193 // and opus_header from Xiph's opus-tools project.
194 static bool ParseOpusExtraData(const uint8* data, int data_size,
195 const AudioDecoderConfig& config,
196 OpusExtraData* extra_data) {
197 if (data_size < kOpusExtraDataSize) {
198 DLOG(ERROR) << "Extra data size is too small:" << data_size;
199 return false;
202 extra_data->channels = *(data + kOpusExtraDataChannelsOffset);
204 if (extra_data->channels <= 0 || extra_data->channels > kMaxVorbisChannels) {
205 DLOG(ERROR) << "invalid channel count in extra data: "
206 << extra_data->channels;
207 return false;
210 extra_data->skip_samples =
211 ReadLE16(data, data_size, kOpusExtraDataSkipSamplesOffset);
212 extra_data->gain_db = static_cast<int16>(
213 ReadLE16(data, data_size, kOpusExtraDataGainOffset));
215 extra_data->channel_mapping = *(data + kOpusExtraDataChannelMappingOffset);
217 if (!extra_data->channel_mapping) {
218 if (extra_data->channels > kMaxChannelsWithDefaultLayout) {
219 DLOG(ERROR) << "Invalid extra data, missing stream map.";
220 return false;
223 extra_data->num_streams = 1;
224 extra_data->num_coupled =
225 (ChannelLayoutToChannelCount(config.channel_layout()) > 1) ? 1 : 0;
226 return true;
229 if (data_size < kOpusExtraDataStreamMapOffset + extra_data->channels) {
230 DLOG(ERROR) << "Invalid stream map; insufficient data for current channel "
231 << "count: " << extra_data->channels;
232 return false;
235 extra_data->num_streams = *(data + kOpusExtraDataNumStreamsOffset);
236 extra_data->num_coupled = *(data + kOpusExtraDataNumCoupledOffset);
238 if (extra_data->num_streams + extra_data->num_coupled != extra_data->channels)
239 DVLOG(1) << "Inconsistent channel mapping.";
241 for (int i = 0; i < extra_data->channels; ++i)
242 extra_data->stream_map[i] = *(data + kOpusExtraDataStreamMapOffset + i);
243 return true;
246 OpusAudioDecoder::OpusAudioDecoder(
247 const scoped_refptr<base::SingleThreadTaskRunner>& task_runner)
248 : task_runner_(task_runner), opus_decoder_(nullptr) {}
250 std::string OpusAudioDecoder::GetDisplayName() const {
251 return "OpusAudioDecoder";
254 void OpusAudioDecoder::Initialize(const AudioDecoderConfig& config,
255 const InitCB& init_cb,
256 const OutputCB& output_cb) {
257 DCHECK(task_runner_->BelongsToCurrentThread());
258 InitCB bound_init_cb = BindToCurrentLoop(init_cb);
260 config_ = config;
261 output_cb_ = BindToCurrentLoop(output_cb);
263 if (!ConfigureDecoder()) {
264 bound_init_cb.Run(false);
265 return;
268 bound_init_cb.Run(true);
271 void OpusAudioDecoder::Decode(const scoped_refptr<DecoderBuffer>& buffer,
272 const DecodeCB& decode_cb) {
273 DCHECK(task_runner_->BelongsToCurrentThread());
274 DCHECK(!decode_cb.is_null());
276 DecodeBuffer(buffer, BindToCurrentLoop(decode_cb));
279 void OpusAudioDecoder::Reset(const base::Closure& closure) {
280 DCHECK(task_runner_->BelongsToCurrentThread());
282 opus_multistream_decoder_ctl(opus_decoder_, OPUS_RESET_STATE);
283 ResetTimestampState();
284 task_runner_->PostTask(FROM_HERE, closure);
287 OpusAudioDecoder::~OpusAudioDecoder() {
288 DCHECK(task_runner_->BelongsToCurrentThread());
290 if (!opus_decoder_)
291 return;
293 opus_multistream_decoder_ctl(opus_decoder_, OPUS_RESET_STATE);
294 CloseDecoder();
297 void OpusAudioDecoder::DecodeBuffer(
298 const scoped_refptr<DecoderBuffer>& input,
299 const DecodeCB& decode_cb) {
300 DCHECK(task_runner_->BelongsToCurrentThread());
301 DCHECK(!decode_cb.is_null());
302 DCHECK(input.get());
304 // Libopus does not buffer output. Decoding is complete when an end of stream
305 // input buffer is received.
306 if (input->end_of_stream()) {
307 decode_cb.Run(kOk);
308 return;
311 // Make sure we are notified if http://crbug.com/49709 returns. Issue also
312 // occurs with some damaged files.
313 if (input->timestamp() == kNoTimestamp()) {
314 DLOG(ERROR) << "Received a buffer without timestamps!";
315 decode_cb.Run(kDecodeError);
316 return;
319 scoped_refptr<AudioBuffer> output_buffer;
321 if (!Decode(input, &output_buffer)) {
322 decode_cb.Run(kDecodeError);
323 return;
326 if (output_buffer.get()) {
327 output_cb_.Run(output_buffer);
330 decode_cb.Run(kOk);
333 bool OpusAudioDecoder::ConfigureDecoder() {
334 if (config_.codec() != kCodecOpus) {
335 DVLOG(1) << "Codec must be kCodecOpus.";
336 return false;
339 const int channel_count =
340 ChannelLayoutToChannelCount(config_.channel_layout());
341 if (!config_.IsValidConfig() || channel_count > kMaxVorbisChannels) {
342 DLOG(ERROR) << "Invalid or unsupported audio stream -"
343 << " codec: " << config_.codec()
344 << " channel count: " << channel_count
345 << " channel layout: " << config_.channel_layout()
346 << " bits per channel: " << config_.bits_per_channel()
347 << " samples per second: " << config_.samples_per_second();
348 return false;
351 if (config_.is_encrypted()) {
352 DLOG(ERROR) << "Encrypted audio stream not supported.";
353 return false;
356 // Clean up existing decoder if necessary.
357 CloseDecoder();
359 // Parse the Opus Extra Data.
360 OpusExtraData opus_extra_data;
361 if (!ParseOpusExtraData(config_.extra_data(), config_.extra_data_size(),
362 config_,
363 &opus_extra_data))
364 return false;
366 if (config_.codec_delay() < 0) {
367 DLOG(ERROR) << "Invalid file. Incorrect value for codec delay: "
368 << config_.codec_delay();
369 return false;
372 if (config_.codec_delay() != opus_extra_data.skip_samples) {
373 DLOG(ERROR) << "Invalid file. Codec Delay in container does not match the "
374 << "value in Opus Extra Data. " << config_.codec_delay()
375 << " vs " << opus_extra_data.skip_samples;
376 return false;
379 uint8 channel_mapping[kMaxVorbisChannels] = {0};
380 memcpy(&channel_mapping,
381 kDefaultOpusChannelLayout,
382 kMaxChannelsWithDefaultLayout);
384 if (channel_count > kMaxChannelsWithDefaultLayout) {
385 RemapOpusChannelLayout(opus_extra_data.stream_map,
386 channel_count,
387 channel_mapping);
390 // Init Opus.
391 int status = OPUS_INVALID_STATE;
392 opus_decoder_ = opus_multistream_decoder_create(config_.samples_per_second(),
393 channel_count,
394 opus_extra_data.num_streams,
395 opus_extra_data.num_coupled,
396 channel_mapping,
397 &status);
398 if (!opus_decoder_ || status != OPUS_OK) {
399 DLOG(ERROR) << "opus_multistream_decoder_create failed status="
400 << opus_strerror(status);
401 return false;
404 status = opus_multistream_decoder_ctl(
405 opus_decoder_, OPUS_SET_GAIN(opus_extra_data.gain_db));
406 if (status != OPUS_OK) {
407 DLOG(ERROR) << "Failed to set OPUS header gain; status="
408 << opus_strerror(status);
409 return false;
412 ResetTimestampState();
413 return true;
416 void OpusAudioDecoder::CloseDecoder() {
417 if (opus_decoder_) {
418 opus_multistream_decoder_destroy(opus_decoder_);
419 opus_decoder_ = nullptr;
423 void OpusAudioDecoder::ResetTimestampState() {
424 discard_helper_.reset(
425 new AudioDiscardHelper(config_.samples_per_second(), 0));
426 discard_helper_->Reset(config_.codec_delay());
429 bool OpusAudioDecoder::Decode(const scoped_refptr<DecoderBuffer>& input,
430 scoped_refptr<AudioBuffer>* output_buffer) {
431 // Allocate a buffer for the output samples.
432 *output_buffer = AudioBuffer::CreateBuffer(
433 config_.sample_format(),
434 config_.channel_layout(),
435 ChannelLayoutToChannelCount(config_.channel_layout()),
436 config_.samples_per_second(),
437 kMaxOpusOutputPacketSizeSamples);
438 const int buffer_size =
439 output_buffer->get()->channel_count() *
440 output_buffer->get()->frame_count() *
441 SampleFormatToBytesPerChannel(config_.sample_format());
443 float* float_output_buffer = reinterpret_cast<float*>(
444 output_buffer->get()->channel_data()[0]);
445 const int frames_decoded =
446 opus_multistream_decode_float(opus_decoder_,
447 input->data(),
448 input->data_size(),
449 float_output_buffer,
450 buffer_size,
453 if (frames_decoded < 0) {
454 DLOG(ERROR) << "opus_multistream_decode failed for"
455 << " timestamp: " << input->timestamp().InMicroseconds()
456 << " us, duration: " << input->duration().InMicroseconds()
457 << " us, packet size: " << input->data_size() << " bytes with"
458 << " status: " << opus_strerror(frames_decoded);
459 return false;
462 // Trim off any extraneous allocation.
463 DCHECK_LE(frames_decoded, output_buffer->get()->frame_count());
464 const int trim_frames = output_buffer->get()->frame_count() - frames_decoded;
465 if (trim_frames > 0)
466 output_buffer->get()->TrimEnd(trim_frames);
468 // Handles discards and timestamping. Discard the buffer if more data needed.
469 if (!discard_helper_->ProcessBuffers(input, *output_buffer))
470 *output_buffer = nullptr;
472 return true;
475 } // namespace media