AudioMixer.cpp revision e25b778b11183fda65418ab2142873a030521870
1/* 2** 3** Copyright 2007, The Android Open Source Project 4** 5** Licensed under the Apache License, Version 2.0 (the "License"); 6** you may not use this file except in compliance with the License. 7** You may obtain a copy of the License at 8** 9** http://www.apache.org/licenses/LICENSE-2.0 10** 11** Unless required by applicable law or agreed to in writing, software 12** distributed under the License is distributed on an "AS IS" BASIS, 13** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14** See the License for the specific language governing permissions and 15** limitations under the License. 16*/ 17 18#define LOG_TAG "AudioMixer" 19//#define LOG_NDEBUG 0 20 21#include "Configuration.h" 22#include <stdint.h> 23#include <string.h> 24#include <stdlib.h> 25#include <sys/types.h> 26 27#include <utils/Errors.h> 28#include <utils/Log.h> 29 30#include <cutils/bitops.h> 31#include <cutils/compiler.h> 32#include <utils/Debug.h> 33 34#include <system/audio.h> 35 36#include <audio_utils/primitives.h> 37#include <common_time/local_clock.h> 38#include <common_time/cc_helper.h> 39 40#include <media/EffectsFactoryApi.h> 41 42#include "AudioMixer.h" 43 44namespace android { 45 46// ---------------------------------------------------------------------------- 47AudioMixer::DownmixerBufferProvider::DownmixerBufferProvider() : AudioBufferProvider(), 48 mTrackBufferProvider(NULL), mDownmixHandle(NULL) 49{ 50} 51 52AudioMixer::DownmixerBufferProvider::~DownmixerBufferProvider() 53{ 54 ALOGV("AudioMixer deleting DownmixerBufferProvider (%p)", this); 55 EffectRelease(mDownmixHandle); 56} 57 58status_t AudioMixer::DownmixerBufferProvider::getNextBuffer(AudioBufferProvider::Buffer *pBuffer, 59 int64_t pts) { 60 //ALOGV("DownmixerBufferProvider::getNextBuffer()"); 61 if (this->mTrackBufferProvider != NULL) { 62 status_t res = mTrackBufferProvider->getNextBuffer(pBuffer, pts); 63 if (res == OK) { 64 mDownmixConfig.inputCfg.buffer.frameCount = pBuffer->frameCount; 65 mDownmixConfig.inputCfg.buffer.raw = pBuffer->raw; 66 mDownmixConfig.outputCfg.buffer.frameCount = pBuffer->frameCount; 67 mDownmixConfig.outputCfg.buffer.raw = mDownmixConfig.inputCfg.buffer.raw; 68 // in-place so overwrite the buffer contents, has been set in prepareTrackForDownmix() 69 //mDownmixConfig.outputCfg.accessMode = EFFECT_BUFFER_ACCESS_WRITE; 70 71 res = (*mDownmixHandle)->process(mDownmixHandle, 72 &mDownmixConfig.inputCfg.buffer, &mDownmixConfig.outputCfg.buffer); 73 //ALOGV("getNextBuffer is downmixing"); 74 } 75 return res; 76 } else { 77 ALOGE("DownmixerBufferProvider::getNextBuffer() error: NULL track buffer provider"); 78 return NO_INIT; 79 } 80} 81 82void AudioMixer::DownmixerBufferProvider::releaseBuffer(AudioBufferProvider::Buffer *pBuffer) { 83 //ALOGV("DownmixerBufferProvider::releaseBuffer()"); 84 if (this->mTrackBufferProvider != NULL) { 85 mTrackBufferProvider->releaseBuffer(pBuffer); 86 } else { 87 ALOGE("DownmixerBufferProvider::releaseBuffer() error: NULL track buffer provider"); 88 } 89} 90 91 92// ---------------------------------------------------------------------------- 93bool AudioMixer::sIsMultichannelCapable = false; 94 95effect_descriptor_t AudioMixer::sDwnmFxDesc; 96 97// Ensure mConfiguredNames bitmask is initialized properly on all architectures. 98// The value of 1 << x is undefined in C when x >= 32. 99 100AudioMixer::AudioMixer(size_t frameCount, uint32_t sampleRate, uint32_t maxNumTracks) 101 : mTrackNames(0), mConfiguredNames((maxNumTracks >= 32 ? 0 : 1 << maxNumTracks) - 1), 102 mSampleRate(sampleRate) 103{ 104 // AudioMixer is not yet capable of multi-channel beyond stereo 105 COMPILE_TIME_ASSERT_FUNCTION_SCOPE(2 == MAX_NUM_CHANNELS); 106 107 ALOG_ASSERT(maxNumTracks <= MAX_NUM_TRACKS, "maxNumTracks %u > MAX_NUM_TRACKS %u", 108 maxNumTracks, MAX_NUM_TRACKS); 109 110 // AudioMixer is not yet capable of more than 32 active track inputs 111 ALOG_ASSERT(32 >= MAX_NUM_TRACKS, "bad MAX_NUM_TRACKS %d", MAX_NUM_TRACKS); 112 113 // AudioMixer is not yet capable of multi-channel output beyond stereo 114 ALOG_ASSERT(2 == MAX_NUM_CHANNELS, "bad MAX_NUM_CHANNELS %d", MAX_NUM_CHANNELS); 115 116 pthread_once(&sOnceControl, &sInitRoutine); 117 118 mState.enabledTracks= 0; 119 mState.needsChanged = 0; 120 mState.frameCount = frameCount; 121 mState.hook = process__nop; 122 mState.outputTemp = NULL; 123 mState.resampleTemp = NULL; 124 mState.mLog = &mDummyLog; 125 // mState.reserved 126 127 // FIXME Most of the following initialization is probably redundant since 128 // tracks[i] should only be referenced if (mTrackNames & (1 << i)) != 0 129 // and mTrackNames is initially 0. However, leave it here until that's verified. 130 track_t* t = mState.tracks; 131 for (unsigned i=0 ; i < MAX_NUM_TRACKS ; i++) { 132 t->resampler = NULL; 133 t->downmixerBufferProvider = NULL; 134 t++; 135 } 136 137} 138 139AudioMixer::~AudioMixer() 140{ 141 track_t* t = mState.tracks; 142 for (unsigned i=0 ; i < MAX_NUM_TRACKS ; i++) { 143 delete t->resampler; 144 delete t->downmixerBufferProvider; 145 t++; 146 } 147 delete [] mState.outputTemp; 148 delete [] mState.resampleTemp; 149} 150 151void AudioMixer::setLog(NBLog::Writer *log) 152{ 153 mState.mLog = log; 154} 155 156int AudioMixer::getTrackName(audio_channel_mask_t channelMask, int sessionId) 157{ 158 uint32_t names = (~mTrackNames) & mConfiguredNames; 159 if (names != 0) { 160 int n = __builtin_ctz(names); 161 ALOGV("add track (%d)", n); 162 mTrackNames |= 1 << n; 163 // assume default parameters for the track, except where noted below 164 track_t* t = &mState.tracks[n]; 165 t->needs = 0; 166 t->volume[0] = UNITY_GAIN; 167 t->volume[1] = UNITY_GAIN; 168 // no initialization needed 169 // t->prevVolume[0] 170 // t->prevVolume[1] 171 t->volumeInc[0] = 0; 172 t->volumeInc[1] = 0; 173 t->auxLevel = 0; 174 t->auxInc = 0; 175 // no initialization needed 176 // t->prevAuxLevel 177 // t->frameCount 178 t->channelCount = 2; 179 t->enabled = false; 180 t->format = 16; 181 t->channelMask = AUDIO_CHANNEL_OUT_STEREO; 182 t->sessionId = sessionId; 183 // setBufferProvider(name, AudioBufferProvider *) is required before enable(name) 184 t->bufferProvider = NULL; 185 t->buffer.raw = NULL; 186 // no initialization needed 187 // t->buffer.frameCount 188 t->hook = NULL; 189 t->in = NULL; 190 t->resampler = NULL; 191 t->sampleRate = mSampleRate; 192 // setParameter(name, TRACK, MAIN_BUFFER, mixBuffer) is required before enable(name) 193 t->mainBuffer = NULL; 194 t->auxBuffer = NULL; 195 t->downmixerBufferProvider = NULL; 196 197 status_t status = initTrackDownmix(&mState.tracks[n], n, channelMask); 198 if (status == OK) { 199 return TRACK0 + n; 200 } 201 ALOGE("AudioMixer::getTrackName(0x%x) failed, error preparing track for downmix", 202 channelMask); 203 } 204 return -1; 205} 206 207void AudioMixer::invalidateState(uint32_t mask) 208{ 209 if (mask != 0) { 210 mState.needsChanged |= mask; 211 mState.hook = process__validate; 212 } 213 } 214 215status_t AudioMixer::initTrackDownmix(track_t* pTrack, int trackNum, audio_channel_mask_t mask) 216{ 217 uint32_t channelCount = popcount(mask); 218 ALOG_ASSERT((channelCount <= MAX_NUM_CHANNELS_TO_DOWNMIX) && channelCount); 219 status_t status = OK; 220 if (channelCount > MAX_NUM_CHANNELS) { 221 pTrack->channelMask = mask; 222 pTrack->channelCount = channelCount; 223 ALOGV("initTrackDownmix(track=%d, mask=0x%x) calls prepareTrackForDownmix()", 224 trackNum, mask); 225 status = prepareTrackForDownmix(pTrack, trackNum); 226 } else { 227 unprepareTrackForDownmix(pTrack, trackNum); 228 } 229 return status; 230} 231 232void AudioMixer::unprepareTrackForDownmix(track_t* pTrack, int trackName) { 233 ALOGV("AudioMixer::unprepareTrackForDownmix(%d)", trackName); 234 235 if (pTrack->downmixerBufferProvider != NULL) { 236 // this track had previously been configured with a downmixer, delete it 237 ALOGV(" deleting old downmixer"); 238 pTrack->bufferProvider = pTrack->downmixerBufferProvider->mTrackBufferProvider; 239 delete pTrack->downmixerBufferProvider; 240 pTrack->downmixerBufferProvider = NULL; 241 } else { 242 ALOGV(" nothing to do, no downmixer to delete"); 243 } 244} 245 246status_t AudioMixer::prepareTrackForDownmix(track_t* pTrack, int trackName) 247{ 248 ALOGV("AudioMixer::prepareTrackForDownmix(%d) with mask 0x%x", trackName, pTrack->channelMask); 249 250 // discard the previous downmixer if there was one 251 unprepareTrackForDownmix(pTrack, trackName); 252 253 DownmixerBufferProvider* pDbp = new DownmixerBufferProvider(); 254 int32_t status; 255 256 if (!sIsMultichannelCapable) { 257 ALOGE("prepareTrackForDownmix(%d) fails: mixer doesn't support multichannel content", 258 trackName); 259 goto noDownmixForActiveTrack; 260 } 261 262 if (EffectCreate(&sDwnmFxDesc.uuid, 263 pTrack->sessionId /*sessionId*/, -2 /*ioId not relevant here, using random value*/, 264 &pDbp->mDownmixHandle/*pHandle*/) != 0) { 265 ALOGE("prepareTrackForDownmix(%d) fails: error creating downmixer effect", trackName); 266 goto noDownmixForActiveTrack; 267 } 268 269 // channel input configuration will be overridden per-track 270 pDbp->mDownmixConfig.inputCfg.channels = pTrack->channelMask; 271 pDbp->mDownmixConfig.outputCfg.channels = AUDIO_CHANNEL_OUT_STEREO; 272 pDbp->mDownmixConfig.inputCfg.format = AUDIO_FORMAT_PCM_16_BIT; 273 pDbp->mDownmixConfig.outputCfg.format = AUDIO_FORMAT_PCM_16_BIT; 274 pDbp->mDownmixConfig.inputCfg.samplingRate = pTrack->sampleRate; 275 pDbp->mDownmixConfig.outputCfg.samplingRate = pTrack->sampleRate; 276 pDbp->mDownmixConfig.inputCfg.accessMode = EFFECT_BUFFER_ACCESS_READ; 277 pDbp->mDownmixConfig.outputCfg.accessMode = EFFECT_BUFFER_ACCESS_WRITE; 278 // input and output buffer provider, and frame count will not be used as the downmix effect 279 // process() function is called directly (see DownmixerBufferProvider::getNextBuffer()) 280 pDbp->mDownmixConfig.inputCfg.mask = EFFECT_CONFIG_SMP_RATE | EFFECT_CONFIG_CHANNELS | 281 EFFECT_CONFIG_FORMAT | EFFECT_CONFIG_ACC_MODE; 282 pDbp->mDownmixConfig.outputCfg.mask = pDbp->mDownmixConfig.inputCfg.mask; 283 284 {// scope for local variables that are not used in goto label "noDownmixForActiveTrack" 285 int cmdStatus; 286 uint32_t replySize = sizeof(int); 287 288 // Configure and enable downmixer 289 status = (*pDbp->mDownmixHandle)->command(pDbp->mDownmixHandle, 290 EFFECT_CMD_SET_CONFIG /*cmdCode*/, sizeof(effect_config_t) /*cmdSize*/, 291 &pDbp->mDownmixConfig /*pCmdData*/, 292 &replySize /*replySize*/, &cmdStatus /*pReplyData*/); 293 if ((status != 0) || (cmdStatus != 0)) { 294 ALOGE("error %d while configuring downmixer for track %d", status, trackName); 295 goto noDownmixForActiveTrack; 296 } 297 replySize = sizeof(int); 298 status = (*pDbp->mDownmixHandle)->command(pDbp->mDownmixHandle, 299 EFFECT_CMD_ENABLE /*cmdCode*/, 0 /*cmdSize*/, NULL /*pCmdData*/, 300 &replySize /*replySize*/, &cmdStatus /*pReplyData*/); 301 if ((status != 0) || (cmdStatus != 0)) { 302 ALOGE("error %d while enabling downmixer for track %d", status, trackName); 303 goto noDownmixForActiveTrack; 304 } 305 306 // Set downmix type 307 // parameter size rounded for padding on 32bit boundary 308 const int psizePadded = ((sizeof(downmix_params_t) - 1)/sizeof(int) + 1) * sizeof(int); 309 const int downmixParamSize = 310 sizeof(effect_param_t) + psizePadded + sizeof(downmix_type_t); 311 effect_param_t * const param = (effect_param_t *) malloc(downmixParamSize); 312 param->psize = sizeof(downmix_params_t); 313 const downmix_params_t downmixParam = DOWNMIX_PARAM_TYPE; 314 memcpy(param->data, &downmixParam, param->psize); 315 const downmix_type_t downmixType = DOWNMIX_TYPE_FOLD; 316 param->vsize = sizeof(downmix_type_t); 317 memcpy(param->data + psizePadded, &downmixType, param->vsize); 318 319 status = (*pDbp->mDownmixHandle)->command(pDbp->mDownmixHandle, 320 EFFECT_CMD_SET_PARAM /* cmdCode */, downmixParamSize/* cmdSize */, 321 param /*pCmndData*/, &replySize /*replySize*/, &cmdStatus /*pReplyData*/); 322 323 free(param); 324 325 if ((status != 0) || (cmdStatus != 0)) { 326 ALOGE("error %d while setting downmix type for track %d", status, trackName); 327 goto noDownmixForActiveTrack; 328 } else { 329 ALOGV("downmix type set to %d for track %d", (int) downmixType, trackName); 330 } 331 }// end of scope for local variables that are not used in goto label "noDownmixForActiveTrack" 332 333 // initialization successful: 334 // - keep track of the real buffer provider in case it was set before 335 pDbp->mTrackBufferProvider = pTrack->bufferProvider; 336 // - we'll use the downmix effect integrated inside this 337 // track's buffer provider, and we'll use it as the track's buffer provider 338 pTrack->downmixerBufferProvider = pDbp; 339 pTrack->bufferProvider = pDbp; 340 341 return NO_ERROR; 342 343noDownmixForActiveTrack: 344 delete pDbp; 345 pTrack->downmixerBufferProvider = NULL; 346 return NO_INIT; 347} 348 349void AudioMixer::deleteTrackName(int name) 350{ 351 ALOGV("AudioMixer::deleteTrackName(%d)", name); 352 name -= TRACK0; 353 ALOG_ASSERT(uint32_t(name) < MAX_NUM_TRACKS, "bad track name %d", name); 354 ALOGV("deleteTrackName(%d)", name); 355 track_t& track(mState.tracks[ name ]); 356 if (track.enabled) { 357 track.enabled = false; 358 invalidateState(1<<name); 359 } 360 // delete the resampler 361 delete track.resampler; 362 track.resampler = NULL; 363 // delete the downmixer 364 unprepareTrackForDownmix(&mState.tracks[name], name); 365 366 mTrackNames &= ~(1<<name); 367} 368 369void AudioMixer::enable(int name) 370{ 371 name -= TRACK0; 372 ALOG_ASSERT(uint32_t(name) < MAX_NUM_TRACKS, "bad track name %d", name); 373 track_t& track = mState.tracks[name]; 374 375 if (!track.enabled) { 376 track.enabled = true; 377 ALOGV("enable(%d)", name); 378 invalidateState(1 << name); 379 } 380} 381 382void AudioMixer::disable(int name) 383{ 384 name -= TRACK0; 385 ALOG_ASSERT(uint32_t(name) < MAX_NUM_TRACKS, "bad track name %d", name); 386 track_t& track = mState.tracks[name]; 387 388 if (track.enabled) { 389 track.enabled = false; 390 ALOGV("disable(%d)", name); 391 invalidateState(1 << name); 392 } 393} 394 395void AudioMixer::setParameter(int name, int target, int param, void *value) 396{ 397 name -= TRACK0; 398 ALOG_ASSERT(uint32_t(name) < MAX_NUM_TRACKS, "bad track name %d", name); 399 track_t& track = mState.tracks[name]; 400 401 int valueInt = (int)value; 402 int32_t *valueBuf = (int32_t *)value; 403 404 switch (target) { 405 406 case TRACK: 407 switch (param) { 408 case CHANNEL_MASK: { 409 audio_channel_mask_t mask = (audio_channel_mask_t) value; 410 if (track.channelMask != mask) { 411 uint32_t channelCount = popcount(mask); 412 ALOG_ASSERT((channelCount <= MAX_NUM_CHANNELS_TO_DOWNMIX) && channelCount); 413 track.channelMask = mask; 414 track.channelCount = channelCount; 415 // the mask has changed, does this track need a downmixer? 416 initTrackDownmix(&mState.tracks[name], name, mask); 417 ALOGV("setParameter(TRACK, CHANNEL_MASK, %x)", mask); 418 invalidateState(1 << name); 419 } 420 } break; 421 case MAIN_BUFFER: 422 if (track.mainBuffer != valueBuf) { 423 track.mainBuffer = valueBuf; 424 ALOGV("setParameter(TRACK, MAIN_BUFFER, %p)", valueBuf); 425 invalidateState(1 << name); 426 } 427 break; 428 case AUX_BUFFER: 429 if (track.auxBuffer != valueBuf) { 430 track.auxBuffer = valueBuf; 431 ALOGV("setParameter(TRACK, AUX_BUFFER, %p)", valueBuf); 432 invalidateState(1 << name); 433 } 434 break; 435 case FORMAT: 436 ALOG_ASSERT(valueInt == AUDIO_FORMAT_PCM_16_BIT); 437 break; 438 // FIXME do we want to support setting the downmix type from AudioFlinger? 439 // for a specific track? or per mixer? 440 /* case DOWNMIX_TYPE: 441 break */ 442 default: 443 LOG_FATAL("bad param"); 444 } 445 break; 446 447 case RESAMPLE: 448 switch (param) { 449 case SAMPLE_RATE: 450 ALOG_ASSERT(valueInt > 0, "bad sample rate %d", valueInt); 451 if (track.setResampler(uint32_t(valueInt), mSampleRate)) { 452 ALOGV("setParameter(RESAMPLE, SAMPLE_RATE, %u)", 453 uint32_t(valueInt)); 454 invalidateState(1 << name); 455 } 456 break; 457 case RESET: 458 track.resetResampler(); 459 invalidateState(1 << name); 460 break; 461 case REMOVE: 462 delete track.resampler; 463 track.resampler = NULL; 464 track.sampleRate = mSampleRate; 465 invalidateState(1 << name); 466 break; 467 default: 468 LOG_FATAL("bad param"); 469 } 470 break; 471 472 case RAMP_VOLUME: 473 case VOLUME: 474 switch (param) { 475 case VOLUME0: 476 case VOLUME1: 477 if (track.volume[param-VOLUME0] != valueInt) { 478 ALOGV("setParameter(VOLUME, VOLUME0/1: %04x)", valueInt); 479 track.prevVolume[param-VOLUME0] = track.volume[param-VOLUME0] << 16; 480 track.volume[param-VOLUME0] = valueInt; 481 if (target == VOLUME) { 482 track.prevVolume[param-VOLUME0] = valueInt << 16; 483 track.volumeInc[param-VOLUME0] = 0; 484 } else { 485 int32_t d = (valueInt<<16) - track.prevVolume[param-VOLUME0]; 486 int32_t volInc = d / int32_t(mState.frameCount); 487 track.volumeInc[param-VOLUME0] = volInc; 488 if (volInc == 0) { 489 track.prevVolume[param-VOLUME0] = valueInt << 16; 490 } 491 } 492 invalidateState(1 << name); 493 } 494 break; 495 case AUXLEVEL: 496 //ALOG_ASSERT(0 <= valueInt && valueInt <= MAX_GAIN_INT, "bad aux level %d", valueInt); 497 if (track.auxLevel != valueInt) { 498 ALOGV("setParameter(VOLUME, AUXLEVEL: %04x)", valueInt); 499 track.prevAuxLevel = track.auxLevel << 16; 500 track.auxLevel = valueInt; 501 if (target == VOLUME) { 502 track.prevAuxLevel = valueInt << 16; 503 track.auxInc = 0; 504 } else { 505 int32_t d = (valueInt<<16) - track.prevAuxLevel; 506 int32_t volInc = d / int32_t(mState.frameCount); 507 track.auxInc = volInc; 508 if (volInc == 0) { 509 track.prevAuxLevel = valueInt << 16; 510 } 511 } 512 invalidateState(1 << name); 513 } 514 break; 515 default: 516 LOG_FATAL("bad param"); 517 } 518 break; 519 520 default: 521 LOG_FATAL("bad target"); 522 } 523} 524 525bool AudioMixer::track_t::setResampler(uint32_t value, uint32_t devSampleRate) 526{ 527 if (value != devSampleRate || resampler != NULL) { 528 if (sampleRate != value) { 529 sampleRate = value; 530 if (resampler == NULL) { 531 ALOGV("creating resampler from track %d Hz to device %d Hz", value, devSampleRate); 532 AudioResampler::src_quality quality; 533 // force lowest quality level resampler if use case isn't music or video 534 // FIXME this is flawed for dynamic sample rates, as we choose the resampler 535 // quality level based on the initial ratio, but that could change later. 536 // Should have a way to distinguish tracks with static ratios vs. dynamic ratios. 537 if (!((value == 44100 && devSampleRate == 48000) || 538 (value == 48000 && devSampleRate == 44100))) { 539 quality = AudioResampler::LOW_QUALITY; 540 } else { 541 quality = AudioResampler::DEFAULT_QUALITY; 542 } 543 resampler = AudioResampler::create( 544 format, 545 // the resampler sees the number of channels after the downmixer, if any 546 downmixerBufferProvider != NULL ? MAX_NUM_CHANNELS : channelCount, 547 devSampleRate, quality); 548 resampler->setLocalTimeFreq(sLocalTimeFreq); 549 } 550 return true; 551 } 552 } 553 return false; 554} 555 556inline 557void AudioMixer::track_t::adjustVolumeRamp(bool aux) 558{ 559 for (uint32_t i=0 ; i<MAX_NUM_CHANNELS ; i++) { 560 if (((volumeInc[i]>0) && (((prevVolume[i]+volumeInc[i])>>16) >= volume[i])) || 561 ((volumeInc[i]<0) && (((prevVolume[i]+volumeInc[i])>>16) <= volume[i]))) { 562 volumeInc[i] = 0; 563 prevVolume[i] = volume[i]<<16; 564 } 565 } 566 if (aux) { 567 if (((auxInc>0) && (((prevAuxLevel+auxInc)>>16) >= auxLevel)) || 568 ((auxInc<0) && (((prevAuxLevel+auxInc)>>16) <= auxLevel))) { 569 auxInc = 0; 570 prevAuxLevel = auxLevel<<16; 571 } 572 } 573} 574 575size_t AudioMixer::getUnreleasedFrames(int name) const 576{ 577 name -= TRACK0; 578 if (uint32_t(name) < MAX_NUM_TRACKS) { 579 return mState.tracks[name].getUnreleasedFrames(); 580 } 581 return 0; 582} 583 584void AudioMixer::setBufferProvider(int name, AudioBufferProvider* bufferProvider) 585{ 586 name -= TRACK0; 587 ALOG_ASSERT(uint32_t(name) < MAX_NUM_TRACKS, "bad track name %d", name); 588 589 if (mState.tracks[name].downmixerBufferProvider != NULL) { 590 // update required? 591 if (mState.tracks[name].downmixerBufferProvider->mTrackBufferProvider != bufferProvider) { 592 ALOGV("AudioMixer::setBufferProvider(%p) for downmix", bufferProvider); 593 // setting the buffer provider for a track that gets downmixed consists in: 594 // 1/ setting the buffer provider to the "downmix / buffer provider" wrapper 595 // so it's the one that gets called when the buffer provider is needed, 596 mState.tracks[name].bufferProvider = mState.tracks[name].downmixerBufferProvider; 597 // 2/ saving the buffer provider for the track so the wrapper can use it 598 // when it downmixes. 599 mState.tracks[name].downmixerBufferProvider->mTrackBufferProvider = bufferProvider; 600 } 601 } else { 602 mState.tracks[name].bufferProvider = bufferProvider; 603 } 604} 605 606 607void AudioMixer::process(int64_t pts) 608{ 609 mState.hook(&mState, pts); 610} 611 612 613void AudioMixer::process__validate(state_t* state, int64_t pts) 614{ 615 ALOGW_IF(!state->needsChanged, 616 "in process__validate() but nothing's invalid"); 617 618 uint32_t changed = state->needsChanged; 619 state->needsChanged = 0; // clear the validation flag 620 621 // recompute which tracks are enabled / disabled 622 uint32_t enabled = 0; 623 uint32_t disabled = 0; 624 while (changed) { 625 const int i = 31 - __builtin_clz(changed); 626 const uint32_t mask = 1<<i; 627 changed &= ~mask; 628 track_t& t = state->tracks[i]; 629 (t.enabled ? enabled : disabled) |= mask; 630 } 631 state->enabledTracks &= ~disabled; 632 state->enabledTracks |= enabled; 633 634 // compute everything we need... 635 int countActiveTracks = 0; 636 bool all16BitsStereoNoResample = true; 637 bool resampling = false; 638 bool volumeRamp = false; 639 uint32_t en = state->enabledTracks; 640 while (en) { 641 const int i = 31 - __builtin_clz(en); 642 en &= ~(1<<i); 643 644 countActiveTracks++; 645 track_t& t = state->tracks[i]; 646 uint32_t n = 0; 647 n |= NEEDS_CHANNEL_1 + t.channelCount - 1; 648 n |= NEEDS_FORMAT_16; 649 n |= t.doesResample() ? NEEDS_RESAMPLE_ENABLED : NEEDS_RESAMPLE_DISABLED; 650 if (t.auxLevel != 0 && t.auxBuffer != NULL) { 651 n |= NEEDS_AUX_ENABLED; 652 } 653 654 if (t.volumeInc[0]|t.volumeInc[1]) { 655 volumeRamp = true; 656 } else if (!t.doesResample() && t.volumeRL == 0) { 657 n |= NEEDS_MUTE_ENABLED; 658 } 659 t.needs = n; 660 661 if ((n & NEEDS_MUTE__MASK) == NEEDS_MUTE_ENABLED) { 662 t.hook = track__nop; 663 } else { 664 if ((n & NEEDS_AUX__MASK) == NEEDS_AUX_ENABLED) { 665 all16BitsStereoNoResample = false; 666 } 667 if ((n & NEEDS_RESAMPLE__MASK) == NEEDS_RESAMPLE_ENABLED) { 668 all16BitsStereoNoResample = false; 669 resampling = true; 670 t.hook = track__genericResample; 671 ALOGV_IF((n & NEEDS_CHANNEL_COUNT__MASK) > NEEDS_CHANNEL_2, 672 "Track %d needs downmix + resample", i); 673 } else { 674 if ((n & NEEDS_CHANNEL_COUNT__MASK) == NEEDS_CHANNEL_1){ 675 t.hook = track__16BitsMono; 676 all16BitsStereoNoResample = false; 677 } 678 if ((n & NEEDS_CHANNEL_COUNT__MASK) >= NEEDS_CHANNEL_2){ 679 t.hook = track__16BitsStereo; 680 ALOGV_IF((n & NEEDS_CHANNEL_COUNT__MASK) > NEEDS_CHANNEL_2, 681 "Track %d needs downmix", i); 682 } 683 } 684 } 685 } 686 687 // select the processing hooks 688 state->hook = process__nop; 689 if (countActiveTracks > 0) { 690 if (resampling) { 691 if (!state->outputTemp) { 692 state->outputTemp = new int32_t[MAX_NUM_CHANNELS * state->frameCount]; 693 } 694 if (!state->resampleTemp) { 695 state->resampleTemp = new int32_t[MAX_NUM_CHANNELS * state->frameCount]; 696 } 697 state->hook = process__genericResampling; 698 } else { 699 if (state->outputTemp) { 700 delete [] state->outputTemp; 701 state->outputTemp = NULL; 702 } 703 if (state->resampleTemp) { 704 delete [] state->resampleTemp; 705 state->resampleTemp = NULL; 706 } 707 state->hook = process__genericNoResampling; 708 if (all16BitsStereoNoResample && !volumeRamp) { 709 if (countActiveTracks == 1) { 710 state->hook = process__OneTrack16BitsStereoNoResampling; 711 } 712 } 713 } 714 } 715 716 ALOGV("mixer configuration change: %d activeTracks (%08x) " 717 "all16BitsStereoNoResample=%d, resampling=%d, volumeRamp=%d", 718 countActiveTracks, state->enabledTracks, 719 all16BitsStereoNoResample, resampling, volumeRamp); 720 721 state->hook(state, pts); 722 723 // Now that the volume ramp has been done, set optimal state and 724 // track hooks for subsequent mixer process 725 if (countActiveTracks > 0) { 726 bool allMuted = true; 727 uint32_t en = state->enabledTracks; 728 while (en) { 729 const int i = 31 - __builtin_clz(en); 730 en &= ~(1<<i); 731 track_t& t = state->tracks[i]; 732 if (!t.doesResample() && t.volumeRL == 0) { 733 t.needs |= NEEDS_MUTE_ENABLED; 734 t.hook = track__nop; 735 } else { 736 allMuted = false; 737 } 738 } 739 if (allMuted) { 740 state->hook = process__nop; 741 } else if (all16BitsStereoNoResample) { 742 if (countActiveTracks == 1) { 743 state->hook = process__OneTrack16BitsStereoNoResampling; 744 } 745 } 746 } 747} 748 749 750void AudioMixer::track__genericResample(track_t* t, int32_t* out, size_t outFrameCount, 751 int32_t* temp, int32_t* aux) 752{ 753 t->resampler->setSampleRate(t->sampleRate); 754 755 // ramp gain - resample to temp buffer and scale/mix in 2nd step 756 if (aux != NULL) { 757 // always resample with unity gain when sending to auxiliary buffer to be able 758 // to apply send level after resampling 759 // TODO: modify each resampler to support aux channel? 760 t->resampler->setVolume(UNITY_GAIN, UNITY_GAIN); 761 memset(temp, 0, outFrameCount * MAX_NUM_CHANNELS * sizeof(int32_t)); 762 t->resampler->resample(temp, outFrameCount, t->bufferProvider); 763 if (CC_UNLIKELY(t->volumeInc[0]|t->volumeInc[1]|t->auxInc)) { 764 volumeRampStereo(t, out, outFrameCount, temp, aux); 765 } else { 766 volumeStereo(t, out, outFrameCount, temp, aux); 767 } 768 } else { 769 if (CC_UNLIKELY(t->volumeInc[0]|t->volumeInc[1])) { 770 t->resampler->setVolume(UNITY_GAIN, UNITY_GAIN); 771 memset(temp, 0, outFrameCount * MAX_NUM_CHANNELS * sizeof(int32_t)); 772 t->resampler->resample(temp, outFrameCount, t->bufferProvider); 773 volumeRampStereo(t, out, outFrameCount, temp, aux); 774 } 775 776 // constant gain 777 else { 778 t->resampler->setVolume(t->volume[0], t->volume[1]); 779 t->resampler->resample(out, outFrameCount, t->bufferProvider); 780 } 781 } 782} 783 784void AudioMixer::track__nop(track_t* t, int32_t* out, size_t outFrameCount, int32_t* temp, 785 int32_t* aux) 786{ 787} 788 789void AudioMixer::volumeRampStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp, 790 int32_t* aux) 791{ 792 int32_t vl = t->prevVolume[0]; 793 int32_t vr = t->prevVolume[1]; 794 const int32_t vlInc = t->volumeInc[0]; 795 const int32_t vrInc = t->volumeInc[1]; 796 797 //ALOGD("[0] %p: inc=%f, v0=%f, v1=%d, final=%f, count=%d", 798 // t, vlInc/65536.0f, vl/65536.0f, t->volume[0], 799 // (vl + vlInc*frameCount)/65536.0f, frameCount); 800 801 // ramp volume 802 if (CC_UNLIKELY(aux != NULL)) { 803 int32_t va = t->prevAuxLevel; 804 const int32_t vaInc = t->auxInc; 805 int32_t l; 806 int32_t r; 807 808 do { 809 l = (*temp++ >> 12); 810 r = (*temp++ >> 12); 811 *out++ += (vl >> 16) * l; 812 *out++ += (vr >> 16) * r; 813 *aux++ += (va >> 17) * (l + r); 814 vl += vlInc; 815 vr += vrInc; 816 va += vaInc; 817 } while (--frameCount); 818 t->prevAuxLevel = va; 819 } else { 820 do { 821 *out++ += (vl >> 16) * (*temp++ >> 12); 822 *out++ += (vr >> 16) * (*temp++ >> 12); 823 vl += vlInc; 824 vr += vrInc; 825 } while (--frameCount); 826 } 827 t->prevVolume[0] = vl; 828 t->prevVolume[1] = vr; 829 t->adjustVolumeRamp(aux != NULL); 830} 831 832void AudioMixer::volumeStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp, 833 int32_t* aux) 834{ 835 const int16_t vl = t->volume[0]; 836 const int16_t vr = t->volume[1]; 837 838 if (CC_UNLIKELY(aux != NULL)) { 839 const int16_t va = t->auxLevel; 840 do { 841 int16_t l = (int16_t)(*temp++ >> 12); 842 int16_t r = (int16_t)(*temp++ >> 12); 843 out[0] = mulAdd(l, vl, out[0]); 844 int16_t a = (int16_t)(((int32_t)l + r) >> 1); 845 out[1] = mulAdd(r, vr, out[1]); 846 out += 2; 847 aux[0] = mulAdd(a, va, aux[0]); 848 aux++; 849 } while (--frameCount); 850 } else { 851 do { 852 int16_t l = (int16_t)(*temp++ >> 12); 853 int16_t r = (int16_t)(*temp++ >> 12); 854 out[0] = mulAdd(l, vl, out[0]); 855 out[1] = mulAdd(r, vr, out[1]); 856 out += 2; 857 } while (--frameCount); 858 } 859} 860 861void AudioMixer::track__16BitsStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp, 862 int32_t* aux) 863{ 864 const int16_t *in = static_cast<const int16_t *>(t->in); 865 866 if (CC_UNLIKELY(aux != NULL)) { 867 int32_t l; 868 int32_t r; 869 // ramp gain 870 if (CC_UNLIKELY(t->volumeInc[0]|t->volumeInc[1]|t->auxInc)) { 871 int32_t vl = t->prevVolume[0]; 872 int32_t vr = t->prevVolume[1]; 873 int32_t va = t->prevAuxLevel; 874 const int32_t vlInc = t->volumeInc[0]; 875 const int32_t vrInc = t->volumeInc[1]; 876 const int32_t vaInc = t->auxInc; 877 // ALOGD("[1] %p: inc=%f, v0=%f, v1=%d, final=%f, count=%d", 878 // t, vlInc/65536.0f, vl/65536.0f, t->volume[0], 879 // (vl + vlInc*frameCount)/65536.0f, frameCount); 880 881 do { 882 l = (int32_t)*in++; 883 r = (int32_t)*in++; 884 *out++ += (vl >> 16) * l; 885 *out++ += (vr >> 16) * r; 886 *aux++ += (va >> 17) * (l + r); 887 vl += vlInc; 888 vr += vrInc; 889 va += vaInc; 890 } while (--frameCount); 891 892 t->prevVolume[0] = vl; 893 t->prevVolume[1] = vr; 894 t->prevAuxLevel = va; 895 t->adjustVolumeRamp(true); 896 } 897 898 // constant gain 899 else { 900 const uint32_t vrl = t->volumeRL; 901 const int16_t va = (int16_t)t->auxLevel; 902 do { 903 uint32_t rl = *reinterpret_cast<const uint32_t *>(in); 904 int16_t a = (int16_t)(((int32_t)in[0] + in[1]) >> 1); 905 in += 2; 906 out[0] = mulAddRL(1, rl, vrl, out[0]); 907 out[1] = mulAddRL(0, rl, vrl, out[1]); 908 out += 2; 909 aux[0] = mulAdd(a, va, aux[0]); 910 aux++; 911 } while (--frameCount); 912 } 913 } else { 914 // ramp gain 915 if (CC_UNLIKELY(t->volumeInc[0]|t->volumeInc[1])) { 916 int32_t vl = t->prevVolume[0]; 917 int32_t vr = t->prevVolume[1]; 918 const int32_t vlInc = t->volumeInc[0]; 919 const int32_t vrInc = t->volumeInc[1]; 920 921 // ALOGD("[1] %p: inc=%f, v0=%f, v1=%d, final=%f, count=%d", 922 // t, vlInc/65536.0f, vl/65536.0f, t->volume[0], 923 // (vl + vlInc*frameCount)/65536.0f, frameCount); 924 925 do { 926 *out++ += (vl >> 16) * (int32_t) *in++; 927 *out++ += (vr >> 16) * (int32_t) *in++; 928 vl += vlInc; 929 vr += vrInc; 930 } while (--frameCount); 931 932 t->prevVolume[0] = vl; 933 t->prevVolume[1] = vr; 934 t->adjustVolumeRamp(false); 935 } 936 937 // constant gain 938 else { 939 const uint32_t vrl = t->volumeRL; 940 do { 941 uint32_t rl = *reinterpret_cast<const uint32_t *>(in); 942 in += 2; 943 out[0] = mulAddRL(1, rl, vrl, out[0]); 944 out[1] = mulAddRL(0, rl, vrl, out[1]); 945 out += 2; 946 } while (--frameCount); 947 } 948 } 949 t->in = in; 950} 951 952void AudioMixer::track__16BitsMono(track_t* t, int32_t* out, size_t frameCount, int32_t* temp, 953 int32_t* aux) 954{ 955 const int16_t *in = static_cast<int16_t const *>(t->in); 956 957 if (CC_UNLIKELY(aux != NULL)) { 958 // ramp gain 959 if (CC_UNLIKELY(t->volumeInc[0]|t->volumeInc[1]|t->auxInc)) { 960 int32_t vl = t->prevVolume[0]; 961 int32_t vr = t->prevVolume[1]; 962 int32_t va = t->prevAuxLevel; 963 const int32_t vlInc = t->volumeInc[0]; 964 const int32_t vrInc = t->volumeInc[1]; 965 const int32_t vaInc = t->auxInc; 966 967 // ALOGD("[2] %p: inc=%f, v0=%f, v1=%d, final=%f, count=%d", 968 // t, vlInc/65536.0f, vl/65536.0f, t->volume[0], 969 // (vl + vlInc*frameCount)/65536.0f, frameCount); 970 971 do { 972 int32_t l = *in++; 973 *out++ += (vl >> 16) * l; 974 *out++ += (vr >> 16) * l; 975 *aux++ += (va >> 16) * l; 976 vl += vlInc; 977 vr += vrInc; 978 va += vaInc; 979 } while (--frameCount); 980 981 t->prevVolume[0] = vl; 982 t->prevVolume[1] = vr; 983 t->prevAuxLevel = va; 984 t->adjustVolumeRamp(true); 985 } 986 // constant gain 987 else { 988 const int16_t vl = t->volume[0]; 989 const int16_t vr = t->volume[1]; 990 const int16_t va = (int16_t)t->auxLevel; 991 do { 992 int16_t l = *in++; 993 out[0] = mulAdd(l, vl, out[0]); 994 out[1] = mulAdd(l, vr, out[1]); 995 out += 2; 996 aux[0] = mulAdd(l, va, aux[0]); 997 aux++; 998 } while (--frameCount); 999 } 1000 } else { 1001 // ramp gain 1002 if (CC_UNLIKELY(t->volumeInc[0]|t->volumeInc[1])) { 1003 int32_t vl = t->prevVolume[0]; 1004 int32_t vr = t->prevVolume[1]; 1005 const int32_t vlInc = t->volumeInc[0]; 1006 const int32_t vrInc = t->volumeInc[1]; 1007 1008 // ALOGD("[2] %p: inc=%f, v0=%f, v1=%d, final=%f, count=%d", 1009 // t, vlInc/65536.0f, vl/65536.0f, t->volume[0], 1010 // (vl + vlInc*frameCount)/65536.0f, frameCount); 1011 1012 do { 1013 int32_t l = *in++; 1014 *out++ += (vl >> 16) * l; 1015 *out++ += (vr >> 16) * l; 1016 vl += vlInc; 1017 vr += vrInc; 1018 } while (--frameCount); 1019 1020 t->prevVolume[0] = vl; 1021 t->prevVolume[1] = vr; 1022 t->adjustVolumeRamp(false); 1023 } 1024 // constant gain 1025 else { 1026 const int16_t vl = t->volume[0]; 1027 const int16_t vr = t->volume[1]; 1028 do { 1029 int16_t l = *in++; 1030 out[0] = mulAdd(l, vl, out[0]); 1031 out[1] = mulAdd(l, vr, out[1]); 1032 out += 2; 1033 } while (--frameCount); 1034 } 1035 } 1036 t->in = in; 1037} 1038 1039// no-op case 1040void AudioMixer::process__nop(state_t* state, int64_t pts) 1041{ 1042 uint32_t e0 = state->enabledTracks; 1043 size_t bufSize = state->frameCount * sizeof(int16_t) * MAX_NUM_CHANNELS; 1044 while (e0) { 1045 // process by group of tracks with same output buffer to 1046 // avoid multiple memset() on same buffer 1047 uint32_t e1 = e0, e2 = e0; 1048 int i = 31 - __builtin_clz(e1); 1049 { 1050 track_t& t1 = state->tracks[i]; 1051 e2 &= ~(1<<i); 1052 while (e2) { 1053 i = 31 - __builtin_clz(e2); 1054 e2 &= ~(1<<i); 1055 track_t& t2 = state->tracks[i]; 1056 if (CC_UNLIKELY(t2.mainBuffer != t1.mainBuffer)) { 1057 e1 &= ~(1<<i); 1058 } 1059 } 1060 e0 &= ~(e1); 1061 1062 memset(t1.mainBuffer, 0, bufSize); 1063 } 1064 1065 while (e1) { 1066 i = 31 - __builtin_clz(e1); 1067 e1 &= ~(1<<i); 1068 { 1069 track_t& t3 = state->tracks[i]; 1070 size_t outFrames = state->frameCount; 1071 while (outFrames) { 1072 t3.buffer.frameCount = outFrames; 1073 int64_t outputPTS = calculateOutputPTS( 1074 t3, pts, state->frameCount - outFrames); 1075 t3.bufferProvider->getNextBuffer(&t3.buffer, outputPTS); 1076 if (t3.buffer.raw == NULL) break; 1077 outFrames -= t3.buffer.frameCount; 1078 t3.bufferProvider->releaseBuffer(&t3.buffer); 1079 } 1080 } 1081 } 1082 } 1083} 1084 1085// generic code without resampling 1086void AudioMixer::process__genericNoResampling(state_t* state, int64_t pts) 1087{ 1088 int32_t outTemp[BLOCKSIZE * MAX_NUM_CHANNELS] __attribute__((aligned(32))); 1089 1090 // acquire each track's buffer 1091 uint32_t enabledTracks = state->enabledTracks; 1092 uint32_t e0 = enabledTracks; 1093 while (e0) { 1094 const int i = 31 - __builtin_clz(e0); 1095 e0 &= ~(1<<i); 1096 track_t& t = state->tracks[i]; 1097 t.buffer.frameCount = state->frameCount; 1098 t.bufferProvider->getNextBuffer(&t.buffer, pts); 1099 t.frameCount = t.buffer.frameCount; 1100 t.in = t.buffer.raw; 1101 // t.in == NULL can happen if the track was flushed just after having 1102 // been enabled for mixing. 1103 if (t.in == NULL) { 1104 enabledTracks &= ~(1<<i); 1105 } 1106 } 1107 1108 e0 = enabledTracks; 1109 while (e0) { 1110 // process by group of tracks with same output buffer to 1111 // optimize cache use 1112 uint32_t e1 = e0, e2 = e0; 1113 int j = 31 - __builtin_clz(e1); 1114 track_t& t1 = state->tracks[j]; 1115 e2 &= ~(1<<j); 1116 while (e2) { 1117 j = 31 - __builtin_clz(e2); 1118 e2 &= ~(1<<j); 1119 track_t& t2 = state->tracks[j]; 1120 if (CC_UNLIKELY(t2.mainBuffer != t1.mainBuffer)) { 1121 e1 &= ~(1<<j); 1122 } 1123 } 1124 e0 &= ~(e1); 1125 // this assumes output 16 bits stereo, no resampling 1126 int32_t *out = t1.mainBuffer; 1127 size_t numFrames = 0; 1128 do { 1129 memset(outTemp, 0, sizeof(outTemp)); 1130 e2 = e1; 1131 while (e2) { 1132 const int i = 31 - __builtin_clz(e2); 1133 e2 &= ~(1<<i); 1134 track_t& t = state->tracks[i]; 1135 size_t outFrames = BLOCKSIZE; 1136 int32_t *aux = NULL; 1137 if (CC_UNLIKELY((t.needs & NEEDS_AUX__MASK) == NEEDS_AUX_ENABLED)) { 1138 aux = t.auxBuffer + numFrames; 1139 } 1140 while (outFrames) { 1141 size_t inFrames = (t.frameCount > outFrames)?outFrames:t.frameCount; 1142 if (inFrames > 0) { 1143 t.hook(&t, outTemp + (BLOCKSIZE-outFrames)*MAX_NUM_CHANNELS, inFrames, 1144 state->resampleTemp, aux); 1145 t.frameCount -= inFrames; 1146 outFrames -= inFrames; 1147 if (CC_UNLIKELY(aux != NULL)) { 1148 aux += inFrames; 1149 } 1150 } 1151 if (t.frameCount == 0 && outFrames) { 1152 t.bufferProvider->releaseBuffer(&t.buffer); 1153 t.buffer.frameCount = (state->frameCount - numFrames) - 1154 (BLOCKSIZE - outFrames); 1155 int64_t outputPTS = calculateOutputPTS( 1156 t, pts, numFrames + (BLOCKSIZE - outFrames)); 1157 t.bufferProvider->getNextBuffer(&t.buffer, outputPTS); 1158 t.in = t.buffer.raw; 1159 if (t.in == NULL) { 1160 enabledTracks &= ~(1<<i); 1161 e1 &= ~(1<<i); 1162 break; 1163 } 1164 t.frameCount = t.buffer.frameCount; 1165 } 1166 } 1167 } 1168 ditherAndClamp(out, outTemp, BLOCKSIZE); 1169 out += BLOCKSIZE; 1170 numFrames += BLOCKSIZE; 1171 } while (numFrames < state->frameCount); 1172 } 1173 1174 // release each track's buffer 1175 e0 = enabledTracks; 1176 while (e0) { 1177 const int i = 31 - __builtin_clz(e0); 1178 e0 &= ~(1<<i); 1179 track_t& t = state->tracks[i]; 1180 t.bufferProvider->releaseBuffer(&t.buffer); 1181 } 1182} 1183 1184 1185// generic code with resampling 1186void AudioMixer::process__genericResampling(state_t* state, int64_t pts) 1187{ 1188 // this const just means that local variable outTemp doesn't change 1189 int32_t* const outTemp = state->outputTemp; 1190 const size_t size = sizeof(int32_t) * MAX_NUM_CHANNELS * state->frameCount; 1191 1192 size_t numFrames = state->frameCount; 1193 1194 uint32_t e0 = state->enabledTracks; 1195 while (e0) { 1196 // process by group of tracks with same output buffer 1197 // to optimize cache use 1198 uint32_t e1 = e0, e2 = e0; 1199 int j = 31 - __builtin_clz(e1); 1200 track_t& t1 = state->tracks[j]; 1201 e2 &= ~(1<<j); 1202 while (e2) { 1203 j = 31 - __builtin_clz(e2); 1204 e2 &= ~(1<<j); 1205 track_t& t2 = state->tracks[j]; 1206 if (CC_UNLIKELY(t2.mainBuffer != t1.mainBuffer)) { 1207 e1 &= ~(1<<j); 1208 } 1209 } 1210 e0 &= ~(e1); 1211 int32_t *out = t1.mainBuffer; 1212 memset(outTemp, 0, size); 1213 while (e1) { 1214 const int i = 31 - __builtin_clz(e1); 1215 e1 &= ~(1<<i); 1216 track_t& t = state->tracks[i]; 1217 int32_t *aux = NULL; 1218 if (CC_UNLIKELY((t.needs & NEEDS_AUX__MASK) == NEEDS_AUX_ENABLED)) { 1219 aux = t.auxBuffer; 1220 } 1221 1222 // this is a little goofy, on the resampling case we don't 1223 // acquire/release the buffers because it's done by 1224 // the resampler. 1225 if ((t.needs & NEEDS_RESAMPLE__MASK) == NEEDS_RESAMPLE_ENABLED) { 1226 t.resampler->setPTS(pts); 1227 t.hook(&t, outTemp, numFrames, state->resampleTemp, aux); 1228 } else { 1229 1230 size_t outFrames = 0; 1231 1232 while (outFrames < numFrames) { 1233 t.buffer.frameCount = numFrames - outFrames; 1234 int64_t outputPTS = calculateOutputPTS(t, pts, outFrames); 1235 t.bufferProvider->getNextBuffer(&t.buffer, outputPTS); 1236 t.in = t.buffer.raw; 1237 // t.in == NULL can happen if the track was flushed just after having 1238 // been enabled for mixing. 1239 if (t.in == NULL) break; 1240 1241 if (CC_UNLIKELY(aux != NULL)) { 1242 aux += outFrames; 1243 } 1244 t.hook(&t, outTemp + outFrames*MAX_NUM_CHANNELS, t.buffer.frameCount, 1245 state->resampleTemp, aux); 1246 outFrames += t.buffer.frameCount; 1247 t.bufferProvider->releaseBuffer(&t.buffer); 1248 } 1249 } 1250 } 1251 ditherAndClamp(out, outTemp, numFrames); 1252 } 1253} 1254 1255// one track, 16 bits stereo without resampling is the most common case 1256void AudioMixer::process__OneTrack16BitsStereoNoResampling(state_t* state, 1257 int64_t pts) 1258{ 1259 // This method is only called when state->enabledTracks has exactly 1260 // one bit set. The asserts below would verify this, but are commented out 1261 // since the whole point of this method is to optimize performance. 1262 //ALOG_ASSERT(0 != state->enabledTracks, "no tracks enabled"); 1263 const int i = 31 - __builtin_clz(state->enabledTracks); 1264 //ALOG_ASSERT((1 << i) == state->enabledTracks, "more than 1 track enabled"); 1265 const track_t& t = state->tracks[i]; 1266 1267 AudioBufferProvider::Buffer& b(t.buffer); 1268 1269 int32_t* out = t.mainBuffer; 1270 size_t numFrames = state->frameCount; 1271 1272 const int16_t vl = t.volume[0]; 1273 const int16_t vr = t.volume[1]; 1274 const uint32_t vrl = t.volumeRL; 1275 while (numFrames) { 1276 b.frameCount = numFrames; 1277 int64_t outputPTS = calculateOutputPTS(t, pts, out - t.mainBuffer); 1278 t.bufferProvider->getNextBuffer(&b, outputPTS); 1279 const int16_t *in = b.i16; 1280 1281 // in == NULL can happen if the track was flushed just after having 1282 // been enabled for mixing. 1283 if (in == NULL || ((unsigned long)in & 3)) { 1284 memset(out, 0, numFrames*MAX_NUM_CHANNELS*sizeof(int16_t)); 1285 ALOGE_IF(((unsigned long)in & 3), "process stereo track: input buffer alignment pb: " 1286 "buffer %p track %d, channels %d, needs %08x", 1287 in, i, t.channelCount, t.needs); 1288 return; 1289 } 1290 size_t outFrames = b.frameCount; 1291 1292 if (CC_UNLIKELY(uint32_t(vl) > UNITY_GAIN || uint32_t(vr) > UNITY_GAIN)) { 1293 // volume is boosted, so we might need to clamp even though 1294 // we process only one track. 1295 do { 1296 uint32_t rl = *reinterpret_cast<const uint32_t *>(in); 1297 in += 2; 1298 int32_t l = mulRL(1, rl, vrl) >> 12; 1299 int32_t r = mulRL(0, rl, vrl) >> 12; 1300 // clamping... 1301 l = clamp16(l); 1302 r = clamp16(r); 1303 *out++ = (r<<16) | (l & 0xFFFF); 1304 } while (--outFrames); 1305 } else { 1306 do { 1307 uint32_t rl = *reinterpret_cast<const uint32_t *>(in); 1308 in += 2; 1309 int32_t l = mulRL(1, rl, vrl) >> 12; 1310 int32_t r = mulRL(0, rl, vrl) >> 12; 1311 *out++ = (r<<16) | (l & 0xFFFF); 1312 } while (--outFrames); 1313 } 1314 numFrames -= b.frameCount; 1315 t.bufferProvider->releaseBuffer(&b); 1316 } 1317} 1318 1319#if 0 1320// 2 tracks is also a common case 1321// NEVER used in current implementation of process__validate() 1322// only use if the 2 tracks have the same output buffer 1323void AudioMixer::process__TwoTracks16BitsStereoNoResampling(state_t* state, 1324 int64_t pts) 1325{ 1326 int i; 1327 uint32_t en = state->enabledTracks; 1328 1329 i = 31 - __builtin_clz(en); 1330 const track_t& t0 = state->tracks[i]; 1331 AudioBufferProvider::Buffer& b0(t0.buffer); 1332 1333 en &= ~(1<<i); 1334 i = 31 - __builtin_clz(en); 1335 const track_t& t1 = state->tracks[i]; 1336 AudioBufferProvider::Buffer& b1(t1.buffer); 1337 1338 const int16_t *in0; 1339 const int16_t vl0 = t0.volume[0]; 1340 const int16_t vr0 = t0.volume[1]; 1341 size_t frameCount0 = 0; 1342 1343 const int16_t *in1; 1344 const int16_t vl1 = t1.volume[0]; 1345 const int16_t vr1 = t1.volume[1]; 1346 size_t frameCount1 = 0; 1347 1348 //FIXME: only works if two tracks use same buffer 1349 int32_t* out = t0.mainBuffer; 1350 size_t numFrames = state->frameCount; 1351 const int16_t *buff = NULL; 1352 1353 1354 while (numFrames) { 1355 1356 if (frameCount0 == 0) { 1357 b0.frameCount = numFrames; 1358 int64_t outputPTS = calculateOutputPTS(t0, pts, 1359 out - t0.mainBuffer); 1360 t0.bufferProvider->getNextBuffer(&b0, outputPTS); 1361 if (b0.i16 == NULL) { 1362 if (buff == NULL) { 1363 buff = new int16_t[MAX_NUM_CHANNELS * state->frameCount]; 1364 } 1365 in0 = buff; 1366 b0.frameCount = numFrames; 1367 } else { 1368 in0 = b0.i16; 1369 } 1370 frameCount0 = b0.frameCount; 1371 } 1372 if (frameCount1 == 0) { 1373 b1.frameCount = numFrames; 1374 int64_t outputPTS = calculateOutputPTS(t1, pts, 1375 out - t0.mainBuffer); 1376 t1.bufferProvider->getNextBuffer(&b1, outputPTS); 1377 if (b1.i16 == NULL) { 1378 if (buff == NULL) { 1379 buff = new int16_t[MAX_NUM_CHANNELS * state->frameCount]; 1380 } 1381 in1 = buff; 1382 b1.frameCount = numFrames; 1383 } else { 1384 in1 = b1.i16; 1385 } 1386 frameCount1 = b1.frameCount; 1387 } 1388 1389 size_t outFrames = frameCount0 < frameCount1?frameCount0:frameCount1; 1390 1391 numFrames -= outFrames; 1392 frameCount0 -= outFrames; 1393 frameCount1 -= outFrames; 1394 1395 do { 1396 int32_t l0 = *in0++; 1397 int32_t r0 = *in0++; 1398 l0 = mul(l0, vl0); 1399 r0 = mul(r0, vr0); 1400 int32_t l = *in1++; 1401 int32_t r = *in1++; 1402 l = mulAdd(l, vl1, l0) >> 12; 1403 r = mulAdd(r, vr1, r0) >> 12; 1404 // clamping... 1405 l = clamp16(l); 1406 r = clamp16(r); 1407 *out++ = (r<<16) | (l & 0xFFFF); 1408 } while (--outFrames); 1409 1410 if (frameCount0 == 0) { 1411 t0.bufferProvider->releaseBuffer(&b0); 1412 } 1413 if (frameCount1 == 0) { 1414 t1.bufferProvider->releaseBuffer(&b1); 1415 } 1416 } 1417 1418 delete [] buff; 1419} 1420#endif 1421 1422int64_t AudioMixer::calculateOutputPTS(const track_t& t, int64_t basePTS, 1423 int outputFrameIndex) 1424{ 1425 if (AudioBufferProvider::kInvalidPTS == basePTS) { 1426 return AudioBufferProvider::kInvalidPTS; 1427 } 1428 1429 return basePTS + ((outputFrameIndex * sLocalTimeFreq) / t.sampleRate); 1430} 1431 1432/*static*/ uint64_t AudioMixer::sLocalTimeFreq; 1433/*static*/ pthread_once_t AudioMixer::sOnceControl = PTHREAD_ONCE_INIT; 1434 1435/*static*/ void AudioMixer::sInitRoutine() 1436{ 1437 LocalClock lc; 1438 sLocalTimeFreq = lc.getLocalFreq(); 1439 1440 // find multichannel downmix effect if we have to play multichannel content 1441 uint32_t numEffects = 0; 1442 int ret = EffectQueryNumberEffects(&numEffects); 1443 if (ret != 0) { 1444 ALOGE("AudioMixer() error %d querying number of effects", ret); 1445 return; 1446 } 1447 ALOGV("EffectQueryNumberEffects() numEffects=%d", numEffects); 1448 1449 for (uint32_t i = 0 ; i < numEffects ; i++) { 1450 if (EffectQueryEffect(i, &sDwnmFxDesc) == 0) { 1451 ALOGV("effect %d is called %s", i, sDwnmFxDesc.name); 1452 if (memcmp(&sDwnmFxDesc.type, EFFECT_UIID_DOWNMIX, sizeof(effect_uuid_t)) == 0) { 1453 ALOGI("found effect \"%s\" from %s", 1454 sDwnmFxDesc.name, sDwnmFxDesc.implementor); 1455 sIsMultichannelCapable = true; 1456 break; 1457 } 1458 } 1459 } 1460 ALOGW_IF(!sIsMultichannelCapable, "unable to find downmix effect"); 1461} 1462 1463// ---------------------------------------------------------------------------- 1464}; // namespace android 1465