1 /*
2 * Copyright (C) 2010 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 #include <inttypes.h>
18
19 //#define LOG_NDEBUG 0
20 #define LOG_TAG "NuCachedSource2"
21 #include <utils/Log.h>
22
23 #include <datasource/NuCachedSource2.h>
24 #include <datasource/HTTPBase.h>
25
26 #include <cutils/properties.h>
27 #include <media/stagefright/foundation/ADebug.h>
28 #include <media/stagefright/foundation/AMessage.h>
29 #include <media/stagefright/MediaErrors.h>
30
31 namespace android {
32
33 struct PageCache {
34 explicit PageCache(size_t pageSize);
35 ~PageCache();
36
37 struct Page {
38 void *mData;
39 size_t mSize;
40 };
41
42 Page *acquirePage();
43 void releasePage(Page *page);
44
45 void appendPage(Page *page);
46 size_t releaseFromStart(size_t maxBytes);
47
totalSizeandroid::PageCache48 size_t totalSize() const {
49 return mTotalSize;
50 }
51
52 void copy(size_t from, void *data, size_t size);
53
54 private:
55 size_t mPageSize;
56 size_t mTotalSize;
57
58 List<Page *> mActivePages;
59 List<Page *> mFreePages;
60
61 void freePages(List<Page *> *list);
62
63 DISALLOW_EVIL_CONSTRUCTORS(PageCache);
64 };
65
PageCache(size_t pageSize)66 PageCache::PageCache(size_t pageSize)
67 : mPageSize(pageSize),
68 mTotalSize(0) {
69 }
70
~PageCache()71 PageCache::~PageCache() {
72 freePages(&mActivePages);
73 freePages(&mFreePages);
74 }
75
freePages(List<Page * > * list)76 void PageCache::freePages(List<Page *> *list) {
77 List<Page *>::iterator it = list->begin();
78 while (it != list->end()) {
79 Page *page = *it;
80
81 free(page->mData);
82 delete page;
83 page = NULL;
84
85 ++it;
86 }
87 }
88
acquirePage()89 PageCache::Page *PageCache::acquirePage() {
90 if (!mFreePages.empty()) {
91 List<Page *>::iterator it = mFreePages.begin();
92 Page *page = *it;
93 mFreePages.erase(it);
94
95 return page;
96 }
97
98 Page *page = new Page;
99 page->mData = malloc(mPageSize);
100 page->mSize = 0;
101
102 return page;
103 }
104
releasePage(Page * page)105 void PageCache::releasePage(Page *page) {
106 page->mSize = 0;
107 mFreePages.push_back(page);
108 }
109
appendPage(Page * page)110 void PageCache::appendPage(Page *page) {
111 mTotalSize += page->mSize;
112 mActivePages.push_back(page);
113 }
114
releaseFromStart(size_t maxBytes)115 size_t PageCache::releaseFromStart(size_t maxBytes) {
116 size_t bytesReleased = 0;
117
118 while (maxBytes > 0 && !mActivePages.empty()) {
119 List<Page *>::iterator it = mActivePages.begin();
120
121 Page *page = *it;
122
123 if (maxBytes < page->mSize) {
124 break;
125 }
126
127 mActivePages.erase(it);
128
129 maxBytes -= page->mSize;
130 bytesReleased += page->mSize;
131
132 releasePage(page);
133 }
134
135 mTotalSize -= bytesReleased;
136 return bytesReleased;
137 }
138
copy(size_t from,void * data,size_t size)139 void PageCache::copy(size_t from, void *data, size_t size) {
140 ALOGV("copy from %zu size %zu", from, size);
141
142 if (size == 0) {
143 return;
144 }
145
146 CHECK_LE(from + size, mTotalSize);
147
148 size_t offset = 0;
149 List<Page *>::iterator it = mActivePages.begin();
150 while (from >= offset + (*it)->mSize) {
151 offset += (*it)->mSize;
152 ++it;
153 }
154
155 size_t delta = from - offset;
156 size_t avail = (*it)->mSize - delta;
157
158 if (avail >= size) {
159 memcpy(data, (const uint8_t *)(*it)->mData + delta, size);
160 return;
161 }
162
163 memcpy(data, (const uint8_t *)(*it)->mData + delta, avail);
164 ++it;
165 data = (uint8_t *)data + avail;
166 size -= avail;
167
168 while (size > 0) {
169 size_t copy = (*it)->mSize;
170 if (copy > size) {
171 copy = size;
172 }
173 memcpy(data, (*it)->mData, copy);
174 data = (uint8_t *)data + copy;
175 size -= copy;
176 ++it;
177 }
178 }
179
180 ////////////////////////////////////////////////////////////////////////////////
181
NuCachedSource2(const sp<DataSource> & source,const char * cacheConfig,bool disconnectAtHighwatermark)182 NuCachedSource2::NuCachedSource2(
183 const sp<DataSource> &source,
184 const char *cacheConfig,
185 bool disconnectAtHighwatermark)
186 : mSource(source),
187 mReflector(new AHandlerReflector<NuCachedSource2>(this)),
188 mLooper(new ALooper),
189 mCache(new PageCache(kPageSize)),
190 mCacheOffset(0),
191 mFinalStatus(OK),
192 mLastAccessPos(0),
193 mFetching(true),
194 mDisconnecting(false),
195 mLastFetchTimeUs(-1),
196 mNumRetriesLeft(kMaxNumRetries),
197 mHighwaterThresholdBytes(kDefaultHighWaterThreshold),
198 mLowwaterThresholdBytes(kDefaultLowWaterThreshold),
199 mKeepAliveIntervalUs(kDefaultKeepAliveIntervalUs),
200 mDisconnectAtHighwatermark(disconnectAtHighwatermark) {
201 // We are NOT going to support disconnect-at-highwatermark indefinitely
202 // and we are not guaranteeing support for client-specified cache
203 // parameters. Both of these are temporary measures to solve a specific
204 // problem that will be solved in a better way going forward.
205
206 updateCacheParamsFromSystemProperty();
207
208 if (cacheConfig != NULL) {
209 updateCacheParamsFromString(cacheConfig);
210 }
211
212 if (mDisconnectAtHighwatermark) {
213 // Makes no sense to disconnect and do keep-alives...
214 mKeepAliveIntervalUs = 0;
215 }
216
217 mLooper->setName("NuCachedSource2");
218 mLooper->registerHandler(mReflector);
219
220 // Since it may not be obvious why our looper thread needs to be
221 // able to call into java since it doesn't appear to do so at all...
222 // IMediaHTTPConnection may be (and most likely is) implemented in JAVA
223 // and a local JAVA IBinder will call directly into JNI methods.
224 // So whenever we call DataSource::readAt it may end up in a call to
225 // IMediaHTTPConnection::readAt and therefore call back into JAVA.
226 mLooper->start(false /* runOnCallingThread */, true /* canCallJava */);
227
228 mName = String8::format("NuCachedSource2(%s)", mSource->toString().c_str());
229 }
230
~NuCachedSource2()231 NuCachedSource2::~NuCachedSource2() {
232 mLooper->stop();
233 mLooper->unregisterHandler(mReflector->id());
234
235 delete mCache;
236 mCache = NULL;
237 }
238
239 // static
Create(const sp<DataSource> & source,const char * cacheConfig,bool disconnectAtHighwatermark)240 sp<NuCachedSource2> NuCachedSource2::Create(
241 const sp<DataSource> &source,
242 const char *cacheConfig,
243 bool disconnectAtHighwatermark) {
244 sp<NuCachedSource2> instance = new NuCachedSource2(
245 source, cacheConfig, disconnectAtHighwatermark);
246 Mutex::Autolock autoLock(instance->mLock);
247 (new AMessage(kWhatFetchMore, instance->mReflector))->post();
248 return instance;
249 }
250
getEstimatedBandwidthKbps(int32_t * kbps)251 status_t NuCachedSource2::getEstimatedBandwidthKbps(int32_t *kbps) {
252 if (mSource->flags() & kIsHTTPBasedSource) {
253 HTTPBase* source = static_cast<HTTPBase *>(mSource.get());
254 return source->getEstimatedBandwidthKbps(kbps);
255 }
256 return ERROR_UNSUPPORTED;
257 }
258
close()259 void NuCachedSource2::close() {
260 disconnect();
261 }
262
disconnect()263 void NuCachedSource2::disconnect() {
264 if (mSource->flags() & kIsHTTPBasedSource) {
265 ALOGV("disconnecting HTTPBasedSource");
266
267 {
268 Mutex::Autolock autoLock(mLock);
269 // set mDisconnecting to true, if a fetch returns after
270 // this, the source will be marked as EOS.
271 mDisconnecting = true;
272
273 // explicitly signal mCondition so that the pending readAt()
274 // will immediately return
275 mCondition.signal();
276 }
277
278 // explicitly disconnect from the source, to allow any
279 // pending reads to return more promptly
280 static_cast<HTTPBase *>(mSource.get())->disconnect();
281 }
282 }
283
setCacheStatCollectFreq(int32_t freqMs)284 status_t NuCachedSource2::setCacheStatCollectFreq(int32_t freqMs) {
285 if (mSource->flags() & kIsHTTPBasedSource) {
286 HTTPBase *source = static_cast<HTTPBase *>(mSource.get());
287 return source->setBandwidthStatCollectFreq(freqMs);
288 }
289 return ERROR_UNSUPPORTED;
290 }
291
initCheck() const292 status_t NuCachedSource2::initCheck() const {
293 return mSource->initCheck();
294 }
295
getSize(off64_t * size)296 status_t NuCachedSource2::getSize(off64_t *size) {
297 return mSource->getSize(size);
298 }
299
flags()300 uint32_t NuCachedSource2::flags() {
301 // Remove HTTP related flags since NuCachedSource2 is not HTTP-based.
302 uint32_t flags = mSource->flags() & ~(kWantsPrefetching | kIsHTTPBasedSource);
303 return (flags | kIsCachingDataSource);
304 }
305
onMessageReceived(const sp<AMessage> & msg)306 void NuCachedSource2::onMessageReceived(const sp<AMessage> &msg) {
307 switch (msg->what()) {
308 case kWhatFetchMore:
309 {
310 onFetch();
311 break;
312 }
313
314 case kWhatRead:
315 {
316 onRead(msg);
317 break;
318 }
319
320 default:
321 TRESPASS();
322 }
323 }
324
fetchInternal()325 void NuCachedSource2::fetchInternal() {
326 ALOGV("fetchInternal");
327
328 bool reconnect = false;
329
330 {
331 Mutex::Autolock autoLock(mLock);
332 CHECK(mFinalStatus == OK || mNumRetriesLeft > 0);
333
334 if (mFinalStatus != OK) {
335 --mNumRetriesLeft;
336
337 reconnect = true;
338 }
339 }
340
341 if (reconnect) {
342 status_t err =
343 mSource->reconnectAtOffset(mCacheOffset + mCache->totalSize());
344
345 Mutex::Autolock autoLock(mLock);
346
347 if (mDisconnecting) {
348 mNumRetriesLeft = 0;
349 mFinalStatus = ERROR_END_OF_STREAM;
350 return;
351 } else if (err == ERROR_UNSUPPORTED || err == -EPIPE) {
352 // These are errors that are not likely to go away even if we
353 // retry, i.e. the server doesn't support range requests or similar.
354 mNumRetriesLeft = 0;
355 return;
356 } else if (err != OK) {
357 ALOGI("The attempt to reconnect failed, %d retries remaining",
358 mNumRetriesLeft);
359
360 return;
361 }
362 }
363
364 PageCache::Page *page = mCache->acquirePage();
365
366 ssize_t n = mSource->readAt(
367 mCacheOffset + mCache->totalSize(), page->mData, kPageSize);
368
369 Mutex::Autolock autoLock(mLock);
370
371 if (n == 0 || mDisconnecting) {
372 ALOGI("caching reached eos.");
373
374 mNumRetriesLeft = 0;
375 mFinalStatus = ERROR_END_OF_STREAM;
376
377 mCache->releasePage(page);
378 } else if (n < 0) {
379 mFinalStatus = n;
380 if (n == ERROR_UNSUPPORTED || n == -EPIPE) {
381 // These are errors that are not likely to go away even if we
382 // retry, i.e. the server doesn't support range requests or similar.
383 mNumRetriesLeft = 0;
384 }
385
386 ALOGE("source returned error %zd, %d retries left", n, mNumRetriesLeft);
387 mCache->releasePage(page);
388 } else {
389 if (mFinalStatus != OK) {
390 ALOGI("retrying a previously failed read succeeded.");
391 }
392 mNumRetriesLeft = kMaxNumRetries;
393 mFinalStatus = OK;
394
395 page->mSize = n;
396 mCache->appendPage(page);
397 }
398 }
399
onFetch()400 void NuCachedSource2::onFetch() {
401 ALOGV("onFetch");
402
403 if (mFinalStatus != OK && mNumRetriesLeft == 0) {
404 ALOGV("EOS reached, done prefetching for now");
405 mFetching = false;
406 }
407
408 bool keepAlive =
409 !mFetching
410 && mFinalStatus == OK
411 && mKeepAliveIntervalUs > 0
412 && ALooper::GetNowUs() >= mLastFetchTimeUs + mKeepAliveIntervalUs;
413
414 if (mFetching || keepAlive) {
415 if (keepAlive) {
416 ALOGI("Keep alive");
417 }
418
419 fetchInternal();
420
421 mLastFetchTimeUs = ALooper::GetNowUs();
422
423 if (mFetching && mCache->totalSize() >= mHighwaterThresholdBytes) {
424 ALOGI("Cache full, done prefetching for now");
425 mFetching = false;
426
427 if (mDisconnectAtHighwatermark
428 && (mSource->flags() & DataSource::kIsHTTPBasedSource)) {
429 ALOGV("Disconnecting at high watermark");
430 static_cast<HTTPBase *>(mSource.get())->disconnect();
431 mFinalStatus = -EAGAIN;
432 }
433 }
434 } else {
435 Mutex::Autolock autoLock(mLock);
436 restartPrefetcherIfNecessary_l();
437 }
438
439 int64_t delayUs;
440 if (mFetching) {
441 if (mFinalStatus != OK && mNumRetriesLeft > 0) {
442 // We failed this time and will try again in 3 seconds.
443 delayUs = 3000000LL;
444 } else {
445 delayUs = 0;
446 }
447 } else {
448 delayUs = 100000LL;
449 }
450
451 (new AMessage(kWhatFetchMore, mReflector))->post(delayUs);
452 }
453
onRead(const sp<AMessage> & msg)454 void NuCachedSource2::onRead(const sp<AMessage> &msg) {
455 ALOGV("onRead");
456
457 int64_t offset;
458 CHECK(msg->findInt64("offset", &offset));
459
460 void *data;
461 CHECK(msg->findPointer("data", &data));
462
463 size_t size;
464 CHECK(msg->findSize("size", &size));
465
466 ssize_t result = readInternal(offset, data, size);
467
468 if (result == -EAGAIN) {
469 msg->post(50000);
470 return;
471 }
472
473 Mutex::Autolock autoLock(mLock);
474 if (mDisconnecting) {
475 mCondition.signal();
476 return;
477 }
478
479 CHECK(mAsyncResult == NULL);
480
481 mAsyncResult = new AMessage;
482 mAsyncResult->setInt32("result", result);
483
484 mCondition.signal();
485 }
486
restartPrefetcherIfNecessary_l(bool ignoreLowWaterThreshold,bool force)487 void NuCachedSource2::restartPrefetcherIfNecessary_l(
488 bool ignoreLowWaterThreshold, bool force) {
489 static const size_t kGrayArea = 1024 * 1024;
490
491 if (mFetching || (mFinalStatus != OK && mNumRetriesLeft == 0)) {
492 return;
493 }
494
495 if (!ignoreLowWaterThreshold && !force
496 && mCacheOffset + mCache->totalSize() - mLastAccessPos
497 >= mLowwaterThresholdBytes) {
498 return;
499 }
500
501 size_t maxBytes = mLastAccessPos - mCacheOffset;
502
503 if (!force) {
504 if (maxBytes < kGrayArea) {
505 return;
506 }
507
508 maxBytes -= kGrayArea;
509 }
510
511 size_t actualBytes = mCache->releaseFromStart(maxBytes);
512 mCacheOffset += actualBytes;
513
514 ALOGI("restarting prefetcher, totalSize = %zu", mCache->totalSize());
515 mFetching = true;
516 }
517
readAt(off64_t offset,void * data,size_t size)518 ssize_t NuCachedSource2::readAt(off64_t offset, void *data, size_t size) {
519 Mutex::Autolock autoSerializer(mSerializer);
520
521 ALOGV("readAt offset %lld, size %zu", (long long)offset, size);
522
523 Mutex::Autolock autoLock(mLock);
524 if (mDisconnecting) {
525 return ERROR_END_OF_STREAM;
526 }
527
528 // If the request can be completely satisfied from the cache, do so.
529
530 if (offset >= mCacheOffset
531 && offset + size <= mCacheOffset + mCache->totalSize()) {
532 size_t delta = offset - mCacheOffset;
533 mCache->copy(delta, data, size);
534
535 mLastAccessPos = offset + size;
536
537 return size;
538 }
539
540 sp<AMessage> msg = new AMessage(kWhatRead, mReflector);
541 msg->setInt64("offset", offset);
542 msg->setPointer("data", data);
543 msg->setSize("size", size);
544
545 CHECK(mAsyncResult == NULL);
546 msg->post();
547
548 while (mAsyncResult == NULL && !mDisconnecting) {
549 mCondition.wait(mLock);
550 }
551
552 if (mDisconnecting) {
553 mAsyncResult.clear();
554 return ERROR_END_OF_STREAM;
555 }
556
557 int32_t result;
558 CHECK(mAsyncResult->findInt32("result", &result));
559
560 mAsyncResult.clear();
561
562 if (result > 0) {
563 mLastAccessPos = offset + result;
564 }
565
566 return (ssize_t)result;
567 }
568
cachedSize()569 size_t NuCachedSource2::cachedSize() {
570 Mutex::Autolock autoLock(mLock);
571 return mCacheOffset + mCache->totalSize();
572 }
573
getAvailableSize(off64_t offset,off64_t * size)574 status_t NuCachedSource2::getAvailableSize(off64_t offset, off64_t *size) {
575 Mutex::Autolock autoLock(mLock);
576 status_t finalStatus = UNKNOWN_ERROR;
577 *size = approxDataRemaining_l(offset, &finalStatus);
578 return finalStatus;
579 }
580
approxDataRemaining(status_t * finalStatus) const581 size_t NuCachedSource2::approxDataRemaining(status_t *finalStatus) const {
582 Mutex::Autolock autoLock(mLock);
583 return approxDataRemaining_l(mLastAccessPos, finalStatus);
584 }
585
approxDataRemaining_l(off64_t offset,status_t * finalStatus) const586 size_t NuCachedSource2::approxDataRemaining_l(off64_t offset, status_t *finalStatus) const {
587 *finalStatus = mFinalStatus;
588
589 if (mFinalStatus != OK && mNumRetriesLeft > 0) {
590 // Pretend that everything is fine until we're out of retries.
591 *finalStatus = OK;
592 }
593
594 offset = offset >= 0 ? offset : mLastAccessPos;
595 off64_t lastBytePosCached = mCacheOffset + mCache->totalSize();
596 if (offset < lastBytePosCached) {
597 return lastBytePosCached - offset;
598 }
599 return 0;
600 }
601
readInternal(off64_t offset,void * data,size_t size)602 ssize_t NuCachedSource2::readInternal(off64_t offset, void *data, size_t size) {
603 CHECK_LE(size, (size_t)mHighwaterThresholdBytes);
604
605 ALOGV("readInternal offset %lld size %zu", (long long)offset, size);
606
607 Mutex::Autolock autoLock(mLock);
608
609 // If we're disconnecting, return EOS and don't access *data pointer.
610 // data could be on the stack of the caller to NuCachedSource2::readAt(),
611 // which may have exited already.
612 if (mDisconnecting) {
613 return ERROR_END_OF_STREAM;
614 }
615
616 if (!mFetching) {
617 mLastAccessPos = offset;
618 restartPrefetcherIfNecessary_l(
619 false, // ignoreLowWaterThreshold
620 true); // force
621 }
622
623 if (offset < mCacheOffset
624 || offset >= (off64_t)(mCacheOffset + mCache->totalSize())) {
625 static const off64_t kPadding = 256 * 1024;
626
627 // In the presence of multiple decoded streams, once of them will
628 // trigger this seek request, the other one will request data "nearby"
629 // soon, adjust the seek position so that that subsequent request
630 // does not trigger another seek.
631 off64_t seekOffset = (offset > kPadding) ? offset - kPadding : 0;
632
633 seekInternal_l(seekOffset);
634 }
635
636 size_t delta = offset - mCacheOffset;
637
638 if (mFinalStatus != OK && mNumRetriesLeft == 0) {
639 if (delta >= mCache->totalSize()) {
640 return mFinalStatus;
641 }
642
643 size_t avail = mCache->totalSize() - delta;
644
645 if (avail > size) {
646 avail = size;
647 }
648
649 mCache->copy(delta, data, avail);
650
651 return avail;
652 }
653
654 if (offset + size <= mCacheOffset + mCache->totalSize()) {
655 mCache->copy(delta, data, size);
656
657 return size;
658 }
659
660 ALOGV("deferring read");
661
662 return -EAGAIN;
663 }
664
seekInternal_l(off64_t offset)665 status_t NuCachedSource2::seekInternal_l(off64_t offset) {
666 mLastAccessPos = offset;
667
668 if (offset >= mCacheOffset
669 && offset <= (off64_t)(mCacheOffset + mCache->totalSize())) {
670 return OK;
671 }
672
673 ALOGI("new range: offset= %lld", (long long)offset);
674
675 mCacheOffset = offset;
676
677 size_t totalSize = mCache->totalSize();
678 CHECK_EQ(mCache->releaseFromStart(totalSize), totalSize);
679
680 mNumRetriesLeft = kMaxNumRetries;
681 mFetching = true;
682
683 return OK;
684 }
685
resumeFetchingIfNecessary()686 void NuCachedSource2::resumeFetchingIfNecessary() {
687 Mutex::Autolock autoLock(mLock);
688
689 restartPrefetcherIfNecessary_l(true /* ignore low water threshold */);
690 }
691
getUri()692 String8 NuCachedSource2::getUri() {
693 return mSource->getUri();
694 }
695
getMIMEType() const696 String8 NuCachedSource2::getMIMEType() const {
697 return mSource->getMIMEType();
698 }
699
updateCacheParamsFromSystemProperty()700 void NuCachedSource2::updateCacheParamsFromSystemProperty() {
701 char value[PROPERTY_VALUE_MAX];
702 if (!property_get("media.stagefright.cache-params", value, NULL)) {
703 return;
704 }
705
706 updateCacheParamsFromString(value);
707 }
708
updateCacheParamsFromString(const char * s)709 void NuCachedSource2::updateCacheParamsFromString(const char *s) {
710 ssize_t lowwaterMarkKb, highwaterMarkKb;
711 int keepAliveSecs;
712
713 if (sscanf(s, "%zd/%zd/%d",
714 &lowwaterMarkKb, &highwaterMarkKb, &keepAliveSecs) != 3) {
715 ALOGE("Failed to parse cache parameters from '%s'.", s);
716 return;
717 }
718
719 if (lowwaterMarkKb >= 0) {
720 mLowwaterThresholdBytes = lowwaterMarkKb * 1024;
721 } else {
722 mLowwaterThresholdBytes = kDefaultLowWaterThreshold;
723 }
724
725 if (highwaterMarkKb >= 0) {
726 mHighwaterThresholdBytes = highwaterMarkKb * 1024;
727 } else {
728 mHighwaterThresholdBytes = kDefaultHighWaterThreshold;
729 }
730
731 if (mLowwaterThresholdBytes >= mHighwaterThresholdBytes) {
732 ALOGE("Illegal low/highwater marks specified, reverting to defaults.");
733
734 mLowwaterThresholdBytes = kDefaultLowWaterThreshold;
735 mHighwaterThresholdBytes = kDefaultHighWaterThreshold;
736 }
737
738 if (keepAliveSecs >= 0) {
739 mKeepAliveIntervalUs = keepAliveSecs * 1000000LL;
740 } else {
741 mKeepAliveIntervalUs = kDefaultKeepAliveIntervalUs;
742 }
743
744 ALOGV("lowwater = %zu bytes, highwater = %zu bytes, keepalive = %lld us",
745 mLowwaterThresholdBytes,
746 mHighwaterThresholdBytes,
747 (long long)mKeepAliveIntervalUs);
748 }
749
750 // static
RemoveCacheSpecificHeaders(KeyedVector<String8,String8> * headers,String8 * cacheConfig,bool * disconnectAtHighwatermark)751 void NuCachedSource2::RemoveCacheSpecificHeaders(
752 KeyedVector<String8, String8> *headers,
753 String8 *cacheConfig,
754 bool *disconnectAtHighwatermark) {
755 *cacheConfig = String8();
756 *disconnectAtHighwatermark = false;
757
758 if (headers == NULL) {
759 return;
760 }
761
762 ssize_t index;
763 if ((index = headers->indexOfKey(String8("x-cache-config"))) >= 0) {
764 *cacheConfig = headers->valueAt(index);
765
766 headers->removeItemsAt(index);
767
768 ALOGV("Using special cache config '%s'", cacheConfig->c_str());
769 }
770
771 if ((index = headers->indexOfKey(
772 String8("x-disconnect-at-highwatermark"))) >= 0) {
773 *disconnectAtHighwatermark = true;
774 headers->removeItemsAt(index);
775
776 ALOGV("Client requested disconnection at highwater mark");
777 }
778 }
779
780 } // namespace android
781