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      1 /*
      2  * Copyright (C) 2007 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 #define LOG_TAG "AudioTrackShared"
     18 //#define LOG_NDEBUG 0
     19 
     20 #include <private/media/AudioTrackShared.h>
     21 #include <utils/Log.h>
     22 
     23 #include <linux/futex.h>
     24 #include <sys/syscall.h>
     25 
     26 namespace android {
     27 
     28 // used to clamp a value to size_t.  TODO: move to another file.
     29 template <typename T>
     30 size_t clampToSize(T x) {
     31     return sizeof(T) > sizeof(size_t) && x > (T) SIZE_MAX ? SIZE_MAX : x < 0 ? 0 : (size_t) x;
     32 }
     33 
     34 // incrementSequence is used to determine the next sequence value
     35 // for the loop and position sequence counters.  It should return
     36 // a value between "other" + 1 and "other" + INT32_MAX, the choice of
     37 // which needs to be the "least recently used" sequence value for "self".
     38 // In general, this means (new_self) returned is max(self, other) + 1.
     39 
     40 static uint32_t incrementSequence(uint32_t self, uint32_t other) {
     41     int32_t diff = (int32_t) self - (int32_t) other;
     42     if (diff >= 0 && diff < INT32_MAX) {
     43         return self + 1; // we're already ahead of other.
     44     }
     45     return other + 1; // we're behind, so move just ahead of other.
     46 }
     47 
     48 audio_track_cblk_t::audio_track_cblk_t()
     49     : mServer(0), mFutex(0), mMinimum(0)
     50     , mVolumeLR(GAIN_MINIFLOAT_PACKED_UNITY), mSampleRate(0), mSendLevel(0)
     51     , mBufferSizeInFrames(0)
     52     , mFlags(0)
     53 {
     54     memset(&u, 0, sizeof(u));
     55 }
     56 
     57 // ---------------------------------------------------------------------------
     58 
     59 Proxy::Proxy(audio_track_cblk_t* cblk, void *buffers, size_t frameCount, size_t frameSize,
     60         bool isOut, bool clientInServer)
     61     : mCblk(cblk), mBuffers(buffers), mFrameCount(frameCount), mFrameSize(frameSize),
     62       mFrameCountP2(roundup(frameCount)), mIsOut(isOut), mClientInServer(clientInServer),
     63       mIsShutdown(false), mUnreleased(0)
     64 {
     65 }
     66 
     67 // ---------------------------------------------------------------------------
     68 
     69 ClientProxy::ClientProxy(audio_track_cblk_t* cblk, void *buffers, size_t frameCount,
     70         size_t frameSize, bool isOut, bool clientInServer)
     71     : Proxy(cblk, buffers, frameCount, frameSize, isOut, clientInServer)
     72     , mEpoch(0)
     73     , mTimestampObserver(&cblk->mExtendedTimestampQueue)
     74 {
     75     setBufferSizeInFrames(frameCount);
     76 }
     77 
     78 const struct timespec ClientProxy::kForever = {INT_MAX /*tv_sec*/, 0 /*tv_nsec*/};
     79 const struct timespec ClientProxy::kNonBlocking = {0 /*tv_sec*/, 0 /*tv_nsec*/};
     80 
     81 #define MEASURE_NS 10000000 // attempt to provide accurate timeouts if requested >= MEASURE_NS
     82 
     83 // To facilitate quicker recovery from server failure, this value limits the timeout per each futex
     84 // wait.  However it does not protect infinite timeouts.  If defined to be zero, there is no limit.
     85 // FIXME May not be compatible with audio tunneling requirements where timeout should be in the
     86 // order of minutes.
     87 #define MAX_SEC    5
     88 
     89 uint32_t ClientProxy::setBufferSizeInFrames(uint32_t size)
     90 {
     91     // The minimum should be  greater than zero and less than the size
     92     // at which underruns will occur.
     93     const uint32_t minimum = 16; // based on AudioMixer::BLOCKSIZE
     94     const uint32_t maximum = frameCount();
     95     uint32_t clippedSize = size;
     96     if (maximum < minimum) {
     97         clippedSize = maximum;
     98     } else if (clippedSize < minimum) {
     99         clippedSize = minimum;
    100     } else if (clippedSize > maximum) {
    101         clippedSize = maximum;
    102     }
    103     // for server to read
    104     android_atomic_release_store(clippedSize, (int32_t *)&mCblk->mBufferSizeInFrames);
    105     // for client to read
    106     mBufferSizeInFrames = clippedSize;
    107     return clippedSize;
    108 }
    109 
    110 __attribute__((no_sanitize("integer")))
    111 status_t ClientProxy::obtainBuffer(Buffer* buffer, const struct timespec *requested,
    112         struct timespec *elapsed)
    113 {
    114     LOG_ALWAYS_FATAL_IF(buffer == NULL || buffer->mFrameCount == 0);
    115     struct timespec total;          // total elapsed time spent waiting
    116     total.tv_sec = 0;
    117     total.tv_nsec = 0;
    118     bool measure = elapsed != NULL; // whether to measure total elapsed time spent waiting
    119 
    120     status_t status;
    121     enum {
    122         TIMEOUT_ZERO,       // requested == NULL || *requested == 0
    123         TIMEOUT_INFINITE,   // *requested == infinity
    124         TIMEOUT_FINITE,     // 0 < *requested < infinity
    125         TIMEOUT_CONTINUE,   // additional chances after TIMEOUT_FINITE
    126     } timeout;
    127     if (requested == NULL) {
    128         timeout = TIMEOUT_ZERO;
    129     } else if (requested->tv_sec == 0 && requested->tv_nsec == 0) {
    130         timeout = TIMEOUT_ZERO;
    131     } else if (requested->tv_sec == INT_MAX) {
    132         timeout = TIMEOUT_INFINITE;
    133     } else {
    134         timeout = TIMEOUT_FINITE;
    135         if (requested->tv_sec > 0 || requested->tv_nsec >= MEASURE_NS) {
    136             measure = true;
    137         }
    138     }
    139     struct timespec before;
    140     bool beforeIsValid = false;
    141     audio_track_cblk_t* cblk = mCblk;
    142     bool ignoreInitialPendingInterrupt = true;
    143     // check for shared memory corruption
    144     if (mIsShutdown) {
    145         status = NO_INIT;
    146         goto end;
    147     }
    148     for (;;) {
    149         int32_t flags = android_atomic_and(~CBLK_INTERRUPT, &cblk->mFlags);
    150         // check for track invalidation by server, or server death detection
    151         if (flags & CBLK_INVALID) {
    152             ALOGV("Track invalidated");
    153             status = DEAD_OBJECT;
    154             goto end;
    155         }
    156         if (flags & CBLK_DISABLED) {
    157             ALOGV("Track disabled");
    158             status = NOT_ENOUGH_DATA;
    159             goto end;
    160         }
    161         // check for obtainBuffer interrupted by client
    162         if (!ignoreInitialPendingInterrupt && (flags & CBLK_INTERRUPT)) {
    163             ALOGV("obtainBuffer() interrupted by client");
    164             status = -EINTR;
    165             goto end;
    166         }
    167         ignoreInitialPendingInterrupt = false;
    168         // compute number of frames available to write (AudioTrack) or read (AudioRecord)
    169         int32_t front;
    170         int32_t rear;
    171         if (mIsOut) {
    172             // The barrier following the read of mFront is probably redundant.
    173             // We're about to perform a conditional branch based on 'filled',
    174             // which will force the processor to observe the read of mFront
    175             // prior to allowing data writes starting at mRaw.
    176             // However, the processor may support speculative execution,
    177             // and be unable to undo speculative writes into shared memory.
    178             // The barrier will prevent such speculative execution.
    179             front = android_atomic_acquire_load(&cblk->u.mStreaming.mFront);
    180             rear = cblk->u.mStreaming.mRear;
    181         } else {
    182             // On the other hand, this barrier is required.
    183             rear = android_atomic_acquire_load(&cblk->u.mStreaming.mRear);
    184             front = cblk->u.mStreaming.mFront;
    185         }
    186         // write to rear, read from front
    187         ssize_t filled = rear - front;
    188         // pipe should not be overfull
    189         if (!(0 <= filled && (size_t) filled <= mFrameCount)) {
    190             if (mIsOut) {
    191                 ALOGE("Shared memory control block is corrupt (filled=%zd, mFrameCount=%zu); "
    192                         "shutting down", filled, mFrameCount);
    193                 mIsShutdown = true;
    194                 status = NO_INIT;
    195                 goto end;
    196             }
    197             // for input, sync up on overrun
    198             filled = 0;
    199             cblk->u.mStreaming.mFront = rear;
    200             (void) android_atomic_or(CBLK_OVERRUN, &cblk->mFlags);
    201         }
    202         // Don't allow filling pipe beyond the user settable size.
    203         // The calculation for avail can go negative if the buffer size
    204         // is suddenly dropped below the amount already in the buffer.
    205         // So use a signed calculation to prevent a numeric overflow abort.
    206         ssize_t adjustableSize = (ssize_t) getBufferSizeInFrames();
    207         ssize_t avail =  (mIsOut) ? adjustableSize - filled : filled;
    208         if (avail < 0) {
    209             avail = 0;
    210         } else if (avail > 0) {
    211             // 'avail' may be non-contiguous, so return only the first contiguous chunk
    212             size_t part1;
    213             if (mIsOut) {
    214                 rear &= mFrameCountP2 - 1;
    215                 part1 = mFrameCountP2 - rear;
    216             } else {
    217                 front &= mFrameCountP2 - 1;
    218                 part1 = mFrameCountP2 - front;
    219             }
    220             if (part1 > (size_t)avail) {
    221                 part1 = avail;
    222             }
    223             if (part1 > buffer->mFrameCount) {
    224                 part1 = buffer->mFrameCount;
    225             }
    226             buffer->mFrameCount = part1;
    227             buffer->mRaw = part1 > 0 ?
    228                     &((char *) mBuffers)[(mIsOut ? rear : front) * mFrameSize] : NULL;
    229             buffer->mNonContig = avail - part1;
    230             mUnreleased = part1;
    231             status = NO_ERROR;
    232             break;
    233         }
    234         struct timespec remaining;
    235         const struct timespec *ts;
    236         switch (timeout) {
    237         case TIMEOUT_ZERO:
    238             status = WOULD_BLOCK;
    239             goto end;
    240         case TIMEOUT_INFINITE:
    241             ts = NULL;
    242             break;
    243         case TIMEOUT_FINITE:
    244             timeout = TIMEOUT_CONTINUE;
    245             if (MAX_SEC == 0) {
    246                 ts = requested;
    247                 break;
    248             }
    249             // fall through
    250         case TIMEOUT_CONTINUE:
    251             // FIXME we do not retry if requested < 10ms? needs documentation on this state machine
    252             if (!measure || requested->tv_sec < total.tv_sec ||
    253                     (requested->tv_sec == total.tv_sec && requested->tv_nsec <= total.tv_nsec)) {
    254                 status = TIMED_OUT;
    255                 goto end;
    256             }
    257             remaining.tv_sec = requested->tv_sec - total.tv_sec;
    258             if ((remaining.tv_nsec = requested->tv_nsec - total.tv_nsec) < 0) {
    259                 remaining.tv_nsec += 1000000000;
    260                 remaining.tv_sec++;
    261             }
    262             if (0 < MAX_SEC && MAX_SEC < remaining.tv_sec) {
    263                 remaining.tv_sec = MAX_SEC;
    264                 remaining.tv_nsec = 0;
    265             }
    266             ts = &remaining;
    267             break;
    268         default:
    269             LOG_ALWAYS_FATAL("obtainBuffer() timeout=%d", timeout);
    270             ts = NULL;
    271             break;
    272         }
    273         int32_t old = android_atomic_and(~CBLK_FUTEX_WAKE, &cblk->mFutex);
    274         if (!(old & CBLK_FUTEX_WAKE)) {
    275             if (measure && !beforeIsValid) {
    276                 clock_gettime(CLOCK_MONOTONIC, &before);
    277                 beforeIsValid = true;
    278             }
    279             errno = 0;
    280             (void) syscall(__NR_futex, &cblk->mFutex,
    281                     mClientInServer ? FUTEX_WAIT_PRIVATE : FUTEX_WAIT, old & ~CBLK_FUTEX_WAKE, ts);
    282             status_t error = errno; // clock_gettime can affect errno
    283             // update total elapsed time spent waiting
    284             if (measure) {
    285                 struct timespec after;
    286                 clock_gettime(CLOCK_MONOTONIC, &after);
    287                 total.tv_sec += after.tv_sec - before.tv_sec;
    288                 long deltaNs = after.tv_nsec - before.tv_nsec;
    289                 if (deltaNs < 0) {
    290                     deltaNs += 1000000000;
    291                     total.tv_sec--;
    292                 }
    293                 if ((total.tv_nsec += deltaNs) >= 1000000000) {
    294                     total.tv_nsec -= 1000000000;
    295                     total.tv_sec++;
    296                 }
    297                 before = after;
    298                 beforeIsValid = true;
    299             }
    300             switch (error) {
    301             case 0:            // normal wakeup by server, or by binderDied()
    302             case EWOULDBLOCK:  // benign race condition with server
    303             case EINTR:        // wait was interrupted by signal or other spurious wakeup
    304             case ETIMEDOUT:    // time-out expired
    305                 // FIXME these error/non-0 status are being dropped
    306                 break;
    307             default:
    308                 status = error;
    309                 ALOGE("%s unexpected error %s", __func__, strerror(status));
    310                 goto end;
    311             }
    312         }
    313     }
    314 
    315 end:
    316     if (status != NO_ERROR) {
    317         buffer->mFrameCount = 0;
    318         buffer->mRaw = NULL;
    319         buffer->mNonContig = 0;
    320         mUnreleased = 0;
    321     }
    322     if (elapsed != NULL) {
    323         *elapsed = total;
    324     }
    325     if (requested == NULL) {
    326         requested = &kNonBlocking;
    327     }
    328     if (measure) {
    329         ALOGV("requested %ld.%03ld elapsed %ld.%03ld",
    330               requested->tv_sec, requested->tv_nsec / 1000000,
    331               total.tv_sec, total.tv_nsec / 1000000);
    332     }
    333     return status;
    334 }
    335 
    336 __attribute__((no_sanitize("integer")))
    337 void ClientProxy::releaseBuffer(Buffer* buffer)
    338 {
    339     LOG_ALWAYS_FATAL_IF(buffer == NULL);
    340     size_t stepCount = buffer->mFrameCount;
    341     if (stepCount == 0 || mIsShutdown) {
    342         // prevent accidental re-use of buffer
    343         buffer->mFrameCount = 0;
    344         buffer->mRaw = NULL;
    345         buffer->mNonContig = 0;
    346         return;
    347     }
    348     LOG_ALWAYS_FATAL_IF(!(stepCount <= mUnreleased && mUnreleased <= mFrameCount));
    349     mUnreleased -= stepCount;
    350     audio_track_cblk_t* cblk = mCblk;
    351     // Both of these barriers are required
    352     if (mIsOut) {
    353         int32_t rear = cblk->u.mStreaming.mRear;
    354         android_atomic_release_store(stepCount + rear, &cblk->u.mStreaming.mRear);
    355     } else {
    356         int32_t front = cblk->u.mStreaming.mFront;
    357         android_atomic_release_store(stepCount + front, &cblk->u.mStreaming.mFront);
    358     }
    359 }
    360 
    361 void ClientProxy::binderDied()
    362 {
    363     audio_track_cblk_t* cblk = mCblk;
    364     if (!(android_atomic_or(CBLK_INVALID, &cblk->mFlags) & CBLK_INVALID)) {
    365         android_atomic_or(CBLK_FUTEX_WAKE, &cblk->mFutex);
    366         // it seems that a FUTEX_WAKE_PRIVATE will not wake a FUTEX_WAIT, even within same process
    367         (void) syscall(__NR_futex, &cblk->mFutex, mClientInServer ? FUTEX_WAKE_PRIVATE : FUTEX_WAKE,
    368                 1);
    369     }
    370 }
    371 
    372 void ClientProxy::interrupt()
    373 {
    374     audio_track_cblk_t* cblk = mCblk;
    375     if (!(android_atomic_or(CBLK_INTERRUPT, &cblk->mFlags) & CBLK_INTERRUPT)) {
    376         android_atomic_or(CBLK_FUTEX_WAKE, &cblk->mFutex);
    377         (void) syscall(__NR_futex, &cblk->mFutex, mClientInServer ? FUTEX_WAKE_PRIVATE : FUTEX_WAKE,
    378                 1);
    379     }
    380 }
    381 
    382 __attribute__((no_sanitize("integer")))
    383 size_t ClientProxy::getMisalignment()
    384 {
    385     audio_track_cblk_t* cblk = mCblk;
    386     return (mFrameCountP2 - (mIsOut ? cblk->u.mStreaming.mRear : cblk->u.mStreaming.mFront)) &
    387             (mFrameCountP2 - 1);
    388 }
    389 
    390 // ---------------------------------------------------------------------------
    391 
    392 void AudioTrackClientProxy::flush()
    393 {
    394     // This works for mFrameCountP2 <= 2^30
    395     size_t increment = mFrameCountP2 << 1;
    396     size_t mask = increment - 1;
    397     audio_track_cblk_t* cblk = mCblk;
    398     // mFlush is 32 bits concatenated as [ flush_counter ] [ newfront_offset ]
    399     // Should newFlush = cblk->u.mStreaming.mRear?  Only problem is
    400     // if you want to flush twice to the same rear location after a 32 bit wrap.
    401     int32_t newFlush = (cblk->u.mStreaming.mRear & mask) |
    402                         ((cblk->u.mStreaming.mFlush & ~mask) + increment);
    403     android_atomic_release_store(newFlush, &cblk->u.mStreaming.mFlush);
    404 }
    405 
    406 bool AudioTrackClientProxy::clearStreamEndDone() {
    407     return (android_atomic_and(~CBLK_STREAM_END_DONE, &mCblk->mFlags) & CBLK_STREAM_END_DONE) != 0;
    408 }
    409 
    410 bool AudioTrackClientProxy::getStreamEndDone() const {
    411     return (mCblk->mFlags & CBLK_STREAM_END_DONE) != 0;
    412 }
    413 
    414 status_t AudioTrackClientProxy::waitStreamEndDone(const struct timespec *requested)
    415 {
    416     struct timespec total;          // total elapsed time spent waiting
    417     total.tv_sec = 0;
    418     total.tv_nsec = 0;
    419     audio_track_cblk_t* cblk = mCblk;
    420     status_t status;
    421     enum {
    422         TIMEOUT_ZERO,       // requested == NULL || *requested == 0
    423         TIMEOUT_INFINITE,   // *requested == infinity
    424         TIMEOUT_FINITE,     // 0 < *requested < infinity
    425         TIMEOUT_CONTINUE,   // additional chances after TIMEOUT_FINITE
    426     } timeout;
    427     if (requested == NULL) {
    428         timeout = TIMEOUT_ZERO;
    429     } else if (requested->tv_sec == 0 && requested->tv_nsec == 0) {
    430         timeout = TIMEOUT_ZERO;
    431     } else if (requested->tv_sec == INT_MAX) {
    432         timeout = TIMEOUT_INFINITE;
    433     } else {
    434         timeout = TIMEOUT_FINITE;
    435     }
    436     for (;;) {
    437         int32_t flags = android_atomic_and(~(CBLK_INTERRUPT|CBLK_STREAM_END_DONE), &cblk->mFlags);
    438         // check for track invalidation by server, or server death detection
    439         if (flags & CBLK_INVALID) {
    440             ALOGV("Track invalidated");
    441             status = DEAD_OBJECT;
    442             goto end;
    443         }
    444         // a track is not supposed to underrun at this stage but consider it done
    445         if (flags & (CBLK_STREAM_END_DONE | CBLK_DISABLED)) {
    446             ALOGV("stream end received");
    447             status = NO_ERROR;
    448             goto end;
    449         }
    450         // check for obtainBuffer interrupted by client
    451         if (flags & CBLK_INTERRUPT) {
    452             ALOGV("waitStreamEndDone() interrupted by client");
    453             status = -EINTR;
    454             goto end;
    455         }
    456         struct timespec remaining;
    457         const struct timespec *ts;
    458         switch (timeout) {
    459         case TIMEOUT_ZERO:
    460             status = WOULD_BLOCK;
    461             goto end;
    462         case TIMEOUT_INFINITE:
    463             ts = NULL;
    464             break;
    465         case TIMEOUT_FINITE:
    466             timeout = TIMEOUT_CONTINUE;
    467             if (MAX_SEC == 0) {
    468                 ts = requested;
    469                 break;
    470             }
    471             // fall through
    472         case TIMEOUT_CONTINUE:
    473             // FIXME we do not retry if requested < 10ms? needs documentation on this state machine
    474             if (requested->tv_sec < total.tv_sec ||
    475                     (requested->tv_sec == total.tv_sec && requested->tv_nsec <= total.tv_nsec)) {
    476                 status = TIMED_OUT;
    477                 goto end;
    478             }
    479             remaining.tv_sec = requested->tv_sec - total.tv_sec;
    480             if ((remaining.tv_nsec = requested->tv_nsec - total.tv_nsec) < 0) {
    481                 remaining.tv_nsec += 1000000000;
    482                 remaining.tv_sec++;
    483             }
    484             if (0 < MAX_SEC && MAX_SEC < remaining.tv_sec) {
    485                 remaining.tv_sec = MAX_SEC;
    486                 remaining.tv_nsec = 0;
    487             }
    488             ts = &remaining;
    489             break;
    490         default:
    491             LOG_ALWAYS_FATAL("waitStreamEndDone() timeout=%d", timeout);
    492             ts = NULL;
    493             break;
    494         }
    495         int32_t old = android_atomic_and(~CBLK_FUTEX_WAKE, &cblk->mFutex);
    496         if (!(old & CBLK_FUTEX_WAKE)) {
    497             errno = 0;
    498             (void) syscall(__NR_futex, &cblk->mFutex,
    499                     mClientInServer ? FUTEX_WAIT_PRIVATE : FUTEX_WAIT, old & ~CBLK_FUTEX_WAKE, ts);
    500             switch (errno) {
    501             case 0:            // normal wakeup by server, or by binderDied()
    502             case EWOULDBLOCK:  // benign race condition with server
    503             case EINTR:        // wait was interrupted by signal or other spurious wakeup
    504             case ETIMEDOUT:    // time-out expired
    505                 break;
    506             default:
    507                 status = errno;
    508                 ALOGE("%s unexpected error %s", __func__, strerror(status));
    509                 goto end;
    510             }
    511         }
    512     }
    513 
    514 end:
    515     if (requested == NULL) {
    516         requested = &kNonBlocking;
    517     }
    518     return status;
    519 }
    520 
    521 // ---------------------------------------------------------------------------
    522 
    523 StaticAudioTrackClientProxy::StaticAudioTrackClientProxy(audio_track_cblk_t* cblk, void *buffers,
    524         size_t frameCount, size_t frameSize)
    525     : AudioTrackClientProxy(cblk, buffers, frameCount, frameSize),
    526       mMutator(&cblk->u.mStatic.mSingleStateQueue),
    527       mPosLoopObserver(&cblk->u.mStatic.mPosLoopQueue)
    528 {
    529     memset(&mState, 0, sizeof(mState));
    530     memset(&mPosLoop, 0, sizeof(mPosLoop));
    531 }
    532 
    533 void StaticAudioTrackClientProxy::flush()
    534 {
    535     LOG_ALWAYS_FATAL("static flush");
    536 }
    537 
    538 void StaticAudioTrackClientProxy::setLoop(size_t loopStart, size_t loopEnd, int loopCount)
    539 {
    540     // This can only happen on a 64-bit client
    541     if (loopStart > UINT32_MAX || loopEnd > UINT32_MAX) {
    542         // FIXME Should return an error status
    543         return;
    544     }
    545     mState.mLoopStart = (uint32_t) loopStart;
    546     mState.mLoopEnd = (uint32_t) loopEnd;
    547     mState.mLoopCount = loopCount;
    548     mState.mLoopSequence = incrementSequence(mState.mLoopSequence, mState.mPositionSequence);
    549     // set patch-up variables until the mState is acknowledged by the ServerProxy.
    550     // observed buffer position and loop count will freeze until then to give the
    551     // illusion of a synchronous change.
    552     getBufferPositionAndLoopCount(NULL, NULL);
    553     // preserve behavior to restart at mState.mLoopStart if position exceeds mState.mLoopEnd.
    554     if (mState.mLoopCount != 0 && mPosLoop.mBufferPosition >= mState.mLoopEnd) {
    555         mPosLoop.mBufferPosition = mState.mLoopStart;
    556     }
    557     mPosLoop.mLoopCount = mState.mLoopCount;
    558     (void) mMutator.push(mState);
    559 }
    560 
    561 void StaticAudioTrackClientProxy::setBufferPosition(size_t position)
    562 {
    563     // This can only happen on a 64-bit client
    564     if (position > UINT32_MAX) {
    565         // FIXME Should return an error status
    566         return;
    567     }
    568     mState.mPosition = (uint32_t) position;
    569     mState.mPositionSequence = incrementSequence(mState.mPositionSequence, mState.mLoopSequence);
    570     // set patch-up variables until the mState is acknowledged by the ServerProxy.
    571     // observed buffer position and loop count will freeze until then to give the
    572     // illusion of a synchronous change.
    573     if (mState.mLoopCount > 0) {  // only check if loop count is changing
    574         getBufferPositionAndLoopCount(NULL, NULL); // get last position
    575     }
    576     mPosLoop.mBufferPosition = position;
    577     if (position >= mState.mLoopEnd) {
    578         // no ongoing loop is possible if position is greater than loopEnd.
    579         mPosLoop.mLoopCount = 0;
    580     }
    581     (void) mMutator.push(mState);
    582 }
    583 
    584 void StaticAudioTrackClientProxy::setBufferPositionAndLoop(size_t position, size_t loopStart,
    585         size_t loopEnd, int loopCount)
    586 {
    587     setLoop(loopStart, loopEnd, loopCount);
    588     setBufferPosition(position);
    589 }
    590 
    591 size_t StaticAudioTrackClientProxy::getBufferPosition()
    592 {
    593     getBufferPositionAndLoopCount(NULL, NULL);
    594     return mPosLoop.mBufferPosition;
    595 }
    596 
    597 void StaticAudioTrackClientProxy::getBufferPositionAndLoopCount(
    598         size_t *position, int *loopCount)
    599 {
    600     if (mMutator.ack() == StaticAudioTrackSingleStateQueue::SSQ_DONE) {
    601          if (mPosLoopObserver.poll(mPosLoop)) {
    602              ; // a valid mPosLoop should be available if ackDone is true.
    603          }
    604     }
    605     if (position != NULL) {
    606         *position = mPosLoop.mBufferPosition;
    607     }
    608     if (loopCount != NULL) {
    609         *loopCount = mPosLoop.mLoopCount;
    610     }
    611 }
    612 
    613 // ---------------------------------------------------------------------------
    614 
    615 ServerProxy::ServerProxy(audio_track_cblk_t* cblk, void *buffers, size_t frameCount,
    616         size_t frameSize, bool isOut, bool clientInServer)
    617     : Proxy(cblk, buffers, frameCount, frameSize, isOut, clientInServer),
    618       mAvailToClient(0), mFlush(0), mReleased(0), mFlushed(0)
    619     , mTimestampMutator(&cblk->mExtendedTimestampQueue)
    620 {
    621     cblk->mBufferSizeInFrames = frameCount;
    622 }
    623 
    624 __attribute__((no_sanitize("integer")))
    625 void ServerProxy::flushBufferIfNeeded()
    626 {
    627     audio_track_cblk_t* cblk = mCblk;
    628     // The acquire_load is not really required. But since the write is a release_store in the
    629     // client, using acquire_load here makes it easier for people to maintain the code,
    630     // and the logic for communicating ipc variables seems somewhat standard,
    631     // and there really isn't much penalty for 4 or 8 byte atomics.
    632     int32_t flush = android_atomic_acquire_load(&cblk->u.mStreaming.mFlush);
    633     if (flush != mFlush) {
    634         ALOGV("ServerProxy::flushBufferIfNeeded() mStreaming.mFlush = 0x%x, mFlush = 0x%0x",
    635                 flush, mFlush);
    636         int32_t rear = android_atomic_acquire_load(&cblk->u.mStreaming.mRear);
    637         int32_t front = cblk->u.mStreaming.mFront;
    638 
    639         // effectively obtain then release whatever is in the buffer
    640         const size_t overflowBit = mFrameCountP2 << 1;
    641         const size_t mask = overflowBit - 1;
    642         int32_t newFront = (front & ~mask) | (flush & mask);
    643         ssize_t filled = rear - newFront;
    644         if (filled >= (ssize_t)overflowBit) {
    645             // front and rear offsets span the overflow bit of the p2 mask
    646             // so rebasing newFront on the front offset is off by the overflow bit.
    647             // adjust newFront to match rear offset.
    648             ALOGV("flush wrap: filled %zx >= overflowBit %zx", filled, overflowBit);
    649             newFront += overflowBit;
    650             filled -= overflowBit;
    651         }
    652         // Rather than shutting down on a corrupt flush, just treat it as a full flush
    653         if (!(0 <= filled && (size_t) filled <= mFrameCount)) {
    654             ALOGE("mFlush %#x -> %#x, front %#x, rear %#x, mask %#x, newFront %#x, "
    655                     "filled %zd=%#x",
    656                     mFlush, flush, front, rear,
    657                     (unsigned)mask, newFront, filled, (unsigned)filled);
    658             newFront = rear;
    659         }
    660         mFlush = flush;
    661         android_atomic_release_store(newFront, &cblk->u.mStreaming.mFront);
    662         // There is no danger from a false positive, so err on the side of caution
    663         if (true /*front != newFront*/) {
    664             int32_t old = android_atomic_or(CBLK_FUTEX_WAKE, &cblk->mFutex);
    665             if (!(old & CBLK_FUTEX_WAKE)) {
    666                 (void) syscall(__NR_futex, &cblk->mFutex,
    667                         mClientInServer ? FUTEX_WAKE_PRIVATE : FUTEX_WAKE, 1);
    668             }
    669         }
    670         mFlushed += (newFront - front) & mask;
    671     }
    672 }
    673 
    674 __attribute__((no_sanitize("integer")))
    675 status_t ServerProxy::obtainBuffer(Buffer* buffer, bool ackFlush)
    676 {
    677     LOG_ALWAYS_FATAL_IF(buffer == NULL || buffer->mFrameCount == 0);
    678     if (mIsShutdown) {
    679         goto no_init;
    680     }
    681     {
    682     audio_track_cblk_t* cblk = mCblk;
    683     // compute number of frames available to write (AudioTrack) or read (AudioRecord),
    684     // or use previous cached value from framesReady(), with added barrier if it omits.
    685     int32_t front;
    686     int32_t rear;
    687     // See notes on barriers at ClientProxy::obtainBuffer()
    688     if (mIsOut) {
    689         flushBufferIfNeeded(); // might modify mFront
    690         rear = android_atomic_acquire_load(&cblk->u.mStreaming.mRear);
    691         front = cblk->u.mStreaming.mFront;
    692     } else {
    693         front = android_atomic_acquire_load(&cblk->u.mStreaming.mFront);
    694         rear = cblk->u.mStreaming.mRear;
    695     }
    696     ssize_t filled = rear - front;
    697     // pipe should not already be overfull
    698     if (!(0 <= filled && (size_t) filled <= mFrameCount)) {
    699         ALOGE("Shared memory control block is corrupt (filled=%zd, mFrameCount=%zu); shutting down",
    700                 filled, mFrameCount);
    701         mIsShutdown = true;
    702     }
    703     if (mIsShutdown) {
    704         goto no_init;
    705     }
    706     // don't allow filling pipe beyond the nominal size
    707     size_t availToServer;
    708     if (mIsOut) {
    709         availToServer = filled;
    710         mAvailToClient = mFrameCount - filled;
    711     } else {
    712         availToServer = mFrameCount - filled;
    713         mAvailToClient = filled;
    714     }
    715     // 'availToServer' may be non-contiguous, so return only the first contiguous chunk
    716     size_t part1;
    717     if (mIsOut) {
    718         front &= mFrameCountP2 - 1;
    719         part1 = mFrameCountP2 - front;
    720     } else {
    721         rear &= mFrameCountP2 - 1;
    722         part1 = mFrameCountP2 - rear;
    723     }
    724     if (part1 > availToServer) {
    725         part1 = availToServer;
    726     }
    727     size_t ask = buffer->mFrameCount;
    728     if (part1 > ask) {
    729         part1 = ask;
    730     }
    731     // is assignment redundant in some cases?
    732     buffer->mFrameCount = part1;
    733     buffer->mRaw = part1 > 0 ?
    734             &((char *) mBuffers)[(mIsOut ? front : rear) * mFrameSize] : NULL;
    735     buffer->mNonContig = availToServer - part1;
    736     // After flush(), allow releaseBuffer() on a previously obtained buffer;
    737     // see "Acknowledge any pending flush()" in audioflinger/Tracks.cpp.
    738     if (!ackFlush) {
    739         mUnreleased = part1;
    740     }
    741     return part1 > 0 ? NO_ERROR : WOULD_BLOCK;
    742     }
    743 no_init:
    744     buffer->mFrameCount = 0;
    745     buffer->mRaw = NULL;
    746     buffer->mNonContig = 0;
    747     mUnreleased = 0;
    748     return NO_INIT;
    749 }
    750 
    751 __attribute__((no_sanitize("integer")))
    752 void ServerProxy::releaseBuffer(Buffer* buffer)
    753 {
    754     LOG_ALWAYS_FATAL_IF(buffer == NULL);
    755     size_t stepCount = buffer->mFrameCount;
    756     if (stepCount == 0 || mIsShutdown) {
    757         // prevent accidental re-use of buffer
    758         buffer->mFrameCount = 0;
    759         buffer->mRaw = NULL;
    760         buffer->mNonContig = 0;
    761         return;
    762     }
    763     LOG_ALWAYS_FATAL_IF(!(stepCount <= mUnreleased && mUnreleased <= mFrameCount));
    764     mUnreleased -= stepCount;
    765     audio_track_cblk_t* cblk = mCblk;
    766     if (mIsOut) {
    767         int32_t front = cblk->u.mStreaming.mFront;
    768         android_atomic_release_store(stepCount + front, &cblk->u.mStreaming.mFront);
    769     } else {
    770         int32_t rear = cblk->u.mStreaming.mRear;
    771         android_atomic_release_store(stepCount + rear, &cblk->u.mStreaming.mRear);
    772     }
    773 
    774     cblk->mServer += stepCount;
    775     mReleased += stepCount;
    776 
    777     size_t half = mFrameCount / 2;
    778     if (half == 0) {
    779         half = 1;
    780     }
    781     size_t minimum = (size_t) cblk->mMinimum;
    782     if (minimum == 0) {
    783         minimum = mIsOut ? half : 1;
    784     } else if (minimum > half) {
    785         minimum = half;
    786     }
    787     // FIXME AudioRecord wakeup needs to be optimized; it currently wakes up client every time
    788     if (!mIsOut || (mAvailToClient + stepCount >= minimum)) {
    789         ALOGV("mAvailToClient=%zu stepCount=%zu minimum=%zu", mAvailToClient, stepCount, minimum);
    790         int32_t old = android_atomic_or(CBLK_FUTEX_WAKE, &cblk->mFutex);
    791         if (!(old & CBLK_FUTEX_WAKE)) {
    792             (void) syscall(__NR_futex, &cblk->mFutex,
    793                     mClientInServer ? FUTEX_WAKE_PRIVATE : FUTEX_WAKE, 1);
    794         }
    795     }
    796 
    797     buffer->mFrameCount = 0;
    798     buffer->mRaw = NULL;
    799     buffer->mNonContig = 0;
    800 }
    801 
    802 // ---------------------------------------------------------------------------
    803 
    804 __attribute__((no_sanitize("integer")))
    805 size_t AudioTrackServerProxy::framesReady()
    806 {
    807     LOG_ALWAYS_FATAL_IF(!mIsOut);
    808 
    809     if (mIsShutdown) {
    810         return 0;
    811     }
    812     audio_track_cblk_t* cblk = mCblk;
    813 
    814     int32_t flush = cblk->u.mStreaming.mFlush;
    815     if (flush != mFlush) {
    816         // FIXME should return an accurate value, but over-estimate is better than under-estimate
    817         return mFrameCount;
    818     }
    819     // the acquire might not be necessary since not doing a subsequent read
    820     int32_t rear = android_atomic_acquire_load(&cblk->u.mStreaming.mRear);
    821     ssize_t filled = rear - cblk->u.mStreaming.mFront;
    822     // pipe should not already be overfull
    823     if (!(0 <= filled && (size_t) filled <= mFrameCount)) {
    824         ALOGE("Shared memory control block is corrupt (filled=%zd, mFrameCount=%zu); shutting down",
    825                 filled, mFrameCount);
    826         mIsShutdown = true;
    827         return 0;
    828     }
    829     //  cache this value for later use by obtainBuffer(), with added barrier
    830     //  and racy if called by normal mixer thread
    831     // ignores flush(), so framesReady() may report a larger mFrameCount than obtainBuffer()
    832     return filled;
    833 }
    834 
    835 bool  AudioTrackServerProxy::setStreamEndDone() {
    836     audio_track_cblk_t* cblk = mCblk;
    837     bool old =
    838             (android_atomic_or(CBLK_STREAM_END_DONE, &cblk->mFlags) & CBLK_STREAM_END_DONE) != 0;
    839     if (!old) {
    840         (void) syscall(__NR_futex, &cblk->mFutex, mClientInServer ? FUTEX_WAKE_PRIVATE : FUTEX_WAKE,
    841                 1);
    842     }
    843     return old;
    844 }
    845 
    846 void AudioTrackServerProxy::tallyUnderrunFrames(uint32_t frameCount)
    847 {
    848     audio_track_cblk_t* cblk = mCblk;
    849     if (frameCount > 0) {
    850         cblk->u.mStreaming.mUnderrunFrames += frameCount;
    851 
    852         if (!mUnderrunning) { // start of underrun?
    853             mUnderrunCount++;
    854             cblk->u.mStreaming.mUnderrunCount = mUnderrunCount;
    855             mUnderrunning = true;
    856             ALOGV("tallyUnderrunFrames(%3u) at uf = %u, bump mUnderrunCount = %u",
    857                 frameCount, cblk->u.mStreaming.mUnderrunFrames, mUnderrunCount);
    858         }
    859 
    860         // FIXME also wake futex so that underrun is noticed more quickly
    861         (void) android_atomic_or(CBLK_UNDERRUN, &cblk->mFlags);
    862     } else {
    863         ALOGV_IF(mUnderrunning,
    864             "tallyUnderrunFrames(%3u) at uf = %u, underrun finished",
    865             frameCount, cblk->u.mStreaming.mUnderrunFrames);
    866         mUnderrunning = false; // so we can detect the next edge
    867     }
    868 }
    869 
    870 AudioPlaybackRate AudioTrackServerProxy::getPlaybackRate()
    871 {   // do not call from multiple threads without holding lock
    872     mPlaybackRateObserver.poll(mPlaybackRate);
    873     return mPlaybackRate;
    874 }
    875 
    876 // ---------------------------------------------------------------------------
    877 
    878 StaticAudioTrackServerProxy::StaticAudioTrackServerProxy(audio_track_cblk_t* cblk, void *buffers,
    879         size_t frameCount, size_t frameSize)
    880     : AudioTrackServerProxy(cblk, buffers, frameCount, frameSize),
    881       mObserver(&cblk->u.mStatic.mSingleStateQueue),
    882       mPosLoopMutator(&cblk->u.mStatic.mPosLoopQueue),
    883       mFramesReadySafe(frameCount), mFramesReady(frameCount),
    884       mFramesReadyIsCalledByMultipleThreads(false)
    885 {
    886     memset(&mState, 0, sizeof(mState));
    887 }
    888 
    889 void StaticAudioTrackServerProxy::framesReadyIsCalledByMultipleThreads()
    890 {
    891     mFramesReadyIsCalledByMultipleThreads = true;
    892 }
    893 
    894 size_t StaticAudioTrackServerProxy::framesReady()
    895 {
    896     // Can't call pollPosition() from multiple threads.
    897     if (!mFramesReadyIsCalledByMultipleThreads) {
    898         (void) pollPosition();
    899     }
    900     return mFramesReadySafe;
    901 }
    902 
    903 status_t StaticAudioTrackServerProxy::updateStateWithLoop(
    904         StaticAudioTrackState *localState, const StaticAudioTrackState &update) const
    905 {
    906     if (localState->mLoopSequence != update.mLoopSequence) {
    907         bool valid = false;
    908         const size_t loopStart = update.mLoopStart;
    909         const size_t loopEnd = update.mLoopEnd;
    910         size_t position = localState->mPosition;
    911         if (update.mLoopCount == 0) {
    912             valid = true;
    913         } else if (update.mLoopCount >= -1) {
    914             if (loopStart < loopEnd && loopEnd <= mFrameCount &&
    915                     loopEnd - loopStart >= MIN_LOOP) {
    916                 // If the current position is greater than the end of the loop
    917                 // we "wrap" to the loop start. This might cause an audible pop.
    918                 if (position >= loopEnd) {
    919                     position = loopStart;
    920                 }
    921                 valid = true;
    922             }
    923         }
    924         if (!valid || position > mFrameCount) {
    925             return NO_INIT;
    926         }
    927         localState->mPosition = position;
    928         localState->mLoopCount = update.mLoopCount;
    929         localState->mLoopEnd = loopEnd;
    930         localState->mLoopStart = loopStart;
    931         localState->mLoopSequence = update.mLoopSequence;
    932     }
    933     return OK;
    934 }
    935 
    936 status_t StaticAudioTrackServerProxy::updateStateWithPosition(
    937         StaticAudioTrackState *localState, const StaticAudioTrackState &update) const
    938 {
    939     if (localState->mPositionSequence != update.mPositionSequence) {
    940         if (update.mPosition > mFrameCount) {
    941             return NO_INIT;
    942         } else if (localState->mLoopCount != 0 && update.mPosition >= localState->mLoopEnd) {
    943             localState->mLoopCount = 0; // disable loop count if position is beyond loop end.
    944         }
    945         localState->mPosition = update.mPosition;
    946         localState->mPositionSequence = update.mPositionSequence;
    947     }
    948     return OK;
    949 }
    950 
    951 ssize_t StaticAudioTrackServerProxy::pollPosition()
    952 {
    953     StaticAudioTrackState state;
    954     if (mObserver.poll(state)) {
    955         StaticAudioTrackState trystate = mState;
    956         bool result;
    957         const int32_t diffSeq = (int32_t) state.mLoopSequence - (int32_t) state.mPositionSequence;
    958 
    959         if (diffSeq < 0) {
    960             result = updateStateWithLoop(&trystate, state) == OK &&
    961                     updateStateWithPosition(&trystate, state) == OK;
    962         } else {
    963             result = updateStateWithPosition(&trystate, state) == OK &&
    964                     updateStateWithLoop(&trystate, state) == OK;
    965         }
    966         if (!result) {
    967             mObserver.done();
    968             // caution: no update occurs so server state will be inconsistent with client state.
    969             ALOGE("%s client pushed an invalid state, shutting down", __func__);
    970             mIsShutdown = true;
    971             return (ssize_t) NO_INIT;
    972         }
    973         mState = trystate;
    974         if (mState.mLoopCount == -1) {
    975             mFramesReady = INT64_MAX;
    976         } else if (mState.mLoopCount == 0) {
    977             mFramesReady = mFrameCount - mState.mPosition;
    978         } else if (mState.mLoopCount > 0) {
    979             // TODO: Later consider fixing overflow, but does not seem needed now
    980             // as will not overflow if loopStart and loopEnd are Java "ints".
    981             mFramesReady = int64_t(mState.mLoopCount) * (mState.mLoopEnd - mState.mLoopStart)
    982                     + mFrameCount - mState.mPosition;
    983         }
    984         mFramesReadySafe = clampToSize(mFramesReady);
    985         // This may overflow, but client is not supposed to rely on it
    986         StaticAudioTrackPosLoop posLoop;
    987 
    988         posLoop.mLoopCount = (int32_t) mState.mLoopCount;
    989         posLoop.mBufferPosition = (uint32_t) mState.mPosition;
    990         mPosLoopMutator.push(posLoop);
    991         mObserver.done(); // safe to read mStatic variables.
    992     }
    993     return (ssize_t) mState.mPosition;
    994 }
    995 
    996 status_t StaticAudioTrackServerProxy::obtainBuffer(Buffer* buffer, bool ackFlush)
    997 {
    998     if (mIsShutdown) {
    999         buffer->mFrameCount = 0;
   1000         buffer->mRaw = NULL;
   1001         buffer->mNonContig = 0;
   1002         mUnreleased = 0;
   1003         return NO_INIT;
   1004     }
   1005     ssize_t positionOrStatus = pollPosition();
   1006     if (positionOrStatus < 0) {
   1007         buffer->mFrameCount = 0;
   1008         buffer->mRaw = NULL;
   1009         buffer->mNonContig = 0;
   1010         mUnreleased = 0;
   1011         return (status_t) positionOrStatus;
   1012     }
   1013     size_t position = (size_t) positionOrStatus;
   1014     size_t end = mState.mLoopCount != 0 ? mState.mLoopEnd : mFrameCount;
   1015     size_t avail;
   1016     if (position < end) {
   1017         avail = end - position;
   1018         size_t wanted = buffer->mFrameCount;
   1019         if (avail < wanted) {
   1020             buffer->mFrameCount = avail;
   1021         } else {
   1022             avail = wanted;
   1023         }
   1024         buffer->mRaw = &((char *) mBuffers)[position * mFrameSize];
   1025     } else {
   1026         avail = 0;
   1027         buffer->mFrameCount = 0;
   1028         buffer->mRaw = NULL;
   1029     }
   1030     // As mFramesReady is the total remaining frames in the static audio track,
   1031     // it is always larger or equal to avail.
   1032     LOG_ALWAYS_FATAL_IF(mFramesReady < (int64_t) avail);
   1033     buffer->mNonContig = mFramesReady == INT64_MAX ? SIZE_MAX : clampToSize(mFramesReady - avail);
   1034     if (!ackFlush) {
   1035         mUnreleased = avail;
   1036     }
   1037     return NO_ERROR;
   1038 }
   1039 
   1040 void StaticAudioTrackServerProxy::releaseBuffer(Buffer* buffer)
   1041 {
   1042     size_t stepCount = buffer->mFrameCount;
   1043     LOG_ALWAYS_FATAL_IF(!((int64_t) stepCount <= mFramesReady));
   1044     LOG_ALWAYS_FATAL_IF(!(stepCount <= mUnreleased));
   1045     if (stepCount == 0) {
   1046         // prevent accidental re-use of buffer
   1047         buffer->mRaw = NULL;
   1048         buffer->mNonContig = 0;
   1049         return;
   1050     }
   1051     mUnreleased -= stepCount;
   1052     audio_track_cblk_t* cblk = mCblk;
   1053     size_t position = mState.mPosition;
   1054     size_t newPosition = position + stepCount;
   1055     int32_t setFlags = 0;
   1056     if (!(position <= newPosition && newPosition <= mFrameCount)) {
   1057         ALOGW("%s newPosition %zu outside [%zu, %zu]", __func__, newPosition, position,
   1058                 mFrameCount);
   1059         newPosition = mFrameCount;
   1060     } else if (mState.mLoopCount != 0 && newPosition == mState.mLoopEnd) {
   1061         newPosition = mState.mLoopStart;
   1062         if (mState.mLoopCount == -1 || --mState.mLoopCount != 0) {
   1063             setFlags = CBLK_LOOP_CYCLE;
   1064         } else {
   1065             setFlags = CBLK_LOOP_FINAL;
   1066         }
   1067     }
   1068     if (newPosition == mFrameCount) {
   1069         setFlags |= CBLK_BUFFER_END;
   1070     }
   1071     mState.mPosition = newPosition;
   1072     if (mFramesReady != INT64_MAX) {
   1073         mFramesReady -= stepCount;
   1074     }
   1075     mFramesReadySafe = clampToSize(mFramesReady);
   1076 
   1077     cblk->mServer += stepCount;
   1078     mReleased += stepCount;
   1079 
   1080     // This may overflow, but client is not supposed to rely on it
   1081     StaticAudioTrackPosLoop posLoop;
   1082     posLoop.mBufferPosition = mState.mPosition;
   1083     posLoop.mLoopCount = mState.mLoopCount;
   1084     mPosLoopMutator.push(posLoop);
   1085     if (setFlags != 0) {
   1086         (void) android_atomic_or(setFlags, &cblk->mFlags);
   1087         // this would be a good place to wake a futex
   1088     }
   1089 
   1090     buffer->mFrameCount = 0;
   1091     buffer->mRaw = NULL;
   1092     buffer->mNonContig = 0;
   1093 }
   1094 
   1095 void StaticAudioTrackServerProxy::tallyUnderrunFrames(uint32_t frameCount)
   1096 {
   1097     // Unlike AudioTrackServerProxy::tallyUnderrunFrames() used for streaming tracks,
   1098     // we don't have a location to count underrun frames.  The underrun frame counter
   1099     // only exists in AudioTrackSharedStreaming.  Fortunately, underruns are not
   1100     // possible for static buffer tracks other than at end of buffer, so this is not a loss.
   1101 
   1102     // FIXME also wake futex so that underrun is noticed more quickly
   1103     if (frameCount > 0) {
   1104         (void) android_atomic_or(CBLK_UNDERRUN, &mCblk->mFlags);
   1105     }
   1106 }
   1107 
   1108 // ---------------------------------------------------------------------------
   1109 
   1110 }   // namespace android
   1111