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|
/*
* Copyright 2013 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkChecksum.h"
#include "SkMessageBus.h"
#include "SkMipMap.h"
#include "SkMutex.h"
#include "SkPixelRef.h"
#include "SkResourceCache.h"
#include "SkTraceMemoryDump.h"
#include <stddef.h>
#include <stdlib.h>
DECLARE_SKMESSAGEBUS_MESSAGE(SkResourceCache::PurgeSharedIDMessage)
// This can be defined by the caller's build system
//#define SK_USE_DISCARDABLE_SCALEDIMAGECACHE
#ifndef SK_DISCARDABLEMEMORY_SCALEDIMAGECACHE_COUNT_LIMIT
# define SK_DISCARDABLEMEMORY_SCALEDIMAGECACHE_COUNT_LIMIT 1024
#endif
#ifndef SK_DEFAULT_IMAGE_CACHE_LIMIT
#define SK_DEFAULT_IMAGE_CACHE_LIMIT (2 * 1024 * 1024)
#endif
void SkResourceCache::Key::init(void* nameSpace, uint64_t sharedID, size_t length) {
SkASSERT(SkAlign4(length) == length);
// fCount32 and fHash are not hashed
static const int kUnhashedLocal32s = 2; // fCache32 + fHash
static const int kSharedIDLocal32s = 2; // fSharedID_lo + fSharedID_hi
static const int kHashedLocal32s = kSharedIDLocal32s + (sizeof(fNamespace) >> 2);
static const int kLocal32s = kUnhashedLocal32s + kHashedLocal32s;
static_assert(sizeof(Key) == (kLocal32s << 2), "unaccounted_key_locals");
static_assert(sizeof(Key) == offsetof(Key, fNamespace) + sizeof(fNamespace),
"namespace_field_must_be_last");
fCount32 = SkToS32(kLocal32s + (length >> 2));
fSharedID_lo = (uint32_t)sharedID;
fSharedID_hi = (uint32_t)(sharedID >> 32);
fNamespace = nameSpace;
// skip unhashed fields when computing the murmur
fHash = SkChecksum::Murmur3(this->as32() + kUnhashedLocal32s,
(fCount32 - kUnhashedLocal32s) << 2);
}
#include "SkTDynamicHash.h"
class SkResourceCache::Hash :
public SkTDynamicHash<SkResourceCache::Rec, SkResourceCache::Key> {};
///////////////////////////////////////////////////////////////////////////////
void SkResourceCache::init() {
fHead = nullptr;
fTail = nullptr;
fHash = new Hash;
fTotalBytesUsed = 0;
fCount = 0;
fSingleAllocationByteLimit = 0;
fAllocator = nullptr;
// One of these should be explicit set by the caller after we return.
fTotalByteLimit = 0;
fDiscardableFactory = nullptr;
}
#include "SkDiscardableMemory.h"
class SkOneShotDiscardablePixelRef : public SkPixelRef {
public:
// Ownership of the discardablememory is transfered to the pixelref
SkOneShotDiscardablePixelRef(const SkImageInfo&, SkDiscardableMemory*, size_t rowBytes);
~SkOneShotDiscardablePixelRef();
protected:
bool onNewLockPixels(LockRec*) override;
void onUnlockPixels() override;
size_t getAllocatedSizeInBytes() const override;
SkDiscardableMemory* diagnostic_only_getDiscardable() const override { return fDM; }
private:
SkDiscardableMemory* fDM;
size_t fRB;
bool fFirstTime;
typedef SkPixelRef INHERITED;
};
SkOneShotDiscardablePixelRef::SkOneShotDiscardablePixelRef(const SkImageInfo& info,
SkDiscardableMemory* dm,
size_t rowBytes)
: INHERITED(info)
, fDM(dm)
, fRB(rowBytes)
{
SkASSERT(dm->data());
fFirstTime = true;
}
SkOneShotDiscardablePixelRef::~SkOneShotDiscardablePixelRef() { delete fDM; }
bool SkOneShotDiscardablePixelRef::onNewLockPixels(LockRec* rec) {
if (fFirstTime) {
// we're already locked
SkASSERT(fDM->data());
fFirstTime = false;
goto SUCCESS;
}
// A previous call to onUnlock may have deleted our DM, so check for that
if (nullptr == fDM) {
return false;
}
if (!fDM->lock()) {
// since it failed, we delete it now, to free-up the resource
delete fDM;
fDM = nullptr;
return false;
}
SUCCESS:
rec->fPixels = fDM->data();
rec->fColorTable = nullptr;
rec->fRowBytes = fRB;
return true;
}
void SkOneShotDiscardablePixelRef::onUnlockPixels() {
SkASSERT(!fFirstTime);
fDM->unlock();
}
size_t SkOneShotDiscardablePixelRef::getAllocatedSizeInBytes() const {
return this->info().getSafeSize(fRB);
}
class SkResourceCacheDiscardableAllocator : public SkBitmap::Allocator {
public:
SkResourceCacheDiscardableAllocator(SkResourceCache::DiscardableFactory factory) {
SkASSERT(factory);
fFactory = factory;
}
bool allocPixelRef(SkBitmap*, SkColorTable*) override;
private:
SkResourceCache::DiscardableFactory fFactory;
};
bool SkResourceCacheDiscardableAllocator::allocPixelRef(SkBitmap* bitmap, SkColorTable* ctable) {
size_t size = bitmap->getSize();
uint64_t size64 = bitmap->computeSize64();
if (0 == size || size64 > (uint64_t)size) {
return false;
}
SkDiscardableMemory* dm = fFactory(size);
if (nullptr == dm) {
return false;
}
// can we relax this?
if (kN32_SkColorType != bitmap->colorType()) {
return false;
}
SkImageInfo info = bitmap->info();
bitmap->setPixelRef(new SkOneShotDiscardablePixelRef(info, dm, bitmap->rowBytes()))->unref();
bitmap->lockPixels();
return bitmap->readyToDraw();
}
SkResourceCache::SkResourceCache(DiscardableFactory factory) {
this->init();
fDiscardableFactory = factory;
fAllocator = new SkResourceCacheDiscardableAllocator(factory);
}
SkResourceCache::SkResourceCache(size_t byteLimit) {
this->init();
fTotalByteLimit = byteLimit;
}
SkResourceCache::~SkResourceCache() {
SkSafeUnref(fAllocator);
Rec* rec = fHead;
while (rec) {
Rec* next = rec->fNext;
delete rec;
rec = next;
}
delete fHash;
}
////////////////////////////////////////////////////////////////////////////////
bool SkResourceCache::find(const Key& key, FindVisitor visitor, void* context) {
this->checkMessages();
Rec* rec = fHash->find(key);
if (rec) {
if (visitor(*rec, context)) {
this->moveToHead(rec); // for our LRU
return true;
} else {
this->remove(rec); // stale
return false;
}
}
return false;
}
static void make_size_str(size_t size, SkString* str) {
const char suffix[] = { 'b', 'k', 'm', 'g', 't', 0 };
int i = 0;
while (suffix[i] && (size > 1024)) {
i += 1;
size >>= 10;
}
str->printf("%zu%c", size, suffix[i]);
}
static bool gDumpCacheTransactions;
void SkResourceCache::add(Rec* rec) {
this->checkMessages();
SkASSERT(rec);
// See if we already have this key (racy inserts, etc.)
Rec* existing = fHash->find(rec->getKey());
if (existing) {
delete rec;
return;
}
this->addToHead(rec);
fHash->add(rec);
if (gDumpCacheTransactions) {
SkString bytesStr, totalStr;
make_size_str(rec->bytesUsed(), &bytesStr);
make_size_str(fTotalBytesUsed, &totalStr);
SkDebugf("RC: add %5s %12p key %08x -- total %5s, count %d\n",
bytesStr.c_str(), rec, rec->getHash(), totalStr.c_str(), fCount);
}
// since the new rec may push us over-budget, we perform a purge check now
this->purgeAsNeeded();
}
void SkResourceCache::remove(Rec* rec) {
size_t used = rec->bytesUsed();
SkASSERT(used <= fTotalBytesUsed);
this->detach(rec);
fHash->remove(rec->getKey());
fTotalBytesUsed -= used;
fCount -= 1;
if (gDumpCacheTransactions) {
SkString bytesStr, totalStr;
make_size_str(used, &bytesStr);
make_size_str(fTotalBytesUsed, &totalStr);
SkDebugf("RC: remove %5s %12p key %08x -- total %5s, count %d\n",
bytesStr.c_str(), rec, rec->getHash(), totalStr.c_str(), fCount);
}
delete rec;
}
void SkResourceCache::purgeAsNeeded(bool forcePurge) {
size_t byteLimit;
int countLimit;
if (fDiscardableFactory) {
countLimit = SK_DISCARDABLEMEMORY_SCALEDIMAGECACHE_COUNT_LIMIT;
byteLimit = SK_MaxU32; // no limit based on bytes
} else {
countLimit = SK_MaxS32; // no limit based on count
byteLimit = fTotalByteLimit;
}
Rec* rec = fTail;
while (rec) {
if (!forcePurge && fTotalBytesUsed < byteLimit && fCount < countLimit) {
break;
}
Rec* prev = rec->fPrev;
this->remove(rec);
rec = prev;
}
}
//#define SK_TRACK_PURGE_SHAREDID_HITRATE
#ifdef SK_TRACK_PURGE_SHAREDID_HITRATE
static int gPurgeCallCounter;
static int gPurgeHitCounter;
#endif
void SkResourceCache::purgeSharedID(uint64_t sharedID) {
if (0 == sharedID) {
return;
}
#ifdef SK_TRACK_PURGE_SHAREDID_HITRATE
gPurgeCallCounter += 1;
bool found = false;
#endif
// go backwards, just like purgeAsNeeded, just to make the code similar.
// could iterate either direction and still be correct.
Rec* rec = fTail;
while (rec) {
Rec* prev = rec->fPrev;
if (rec->getKey().getSharedID() == sharedID) {
// SkDebugf("purgeSharedID id=%llx rec=%p\n", sharedID, rec);
this->remove(rec);
#ifdef SK_TRACK_PURGE_SHAREDID_HITRATE
found = true;
#endif
}
rec = prev;
}
#ifdef SK_TRACK_PURGE_SHAREDID_HITRATE
if (found) {
gPurgeHitCounter += 1;
}
SkDebugf("PurgeShared calls=%d hits=%d rate=%g\n", gPurgeCallCounter, gPurgeHitCounter,
gPurgeHitCounter * 100.0 / gPurgeCallCounter);
#endif
}
void SkResourceCache::visitAll(Visitor visitor, void* context) {
// go backwards, just like purgeAsNeeded, just to make the code similar.
// could iterate either direction and still be correct.
Rec* rec = fTail;
while (rec) {
visitor(*rec, context);
rec = rec->fPrev;
}
}
///////////////////////////////////////////////////////////////////////////////////////////////////
size_t SkResourceCache::setTotalByteLimit(size_t newLimit) {
size_t prevLimit = fTotalByteLimit;
fTotalByteLimit = newLimit;
if (newLimit < prevLimit) {
this->purgeAsNeeded();
}
return prevLimit;
}
SkCachedData* SkResourceCache::newCachedData(size_t bytes) {
this->checkMessages();
if (fDiscardableFactory) {
SkDiscardableMemory* dm = fDiscardableFactory(bytes);
return dm ? new SkCachedData(bytes, dm) : nullptr;
} else {
return new SkCachedData(sk_malloc_throw(bytes), bytes);
}
}
///////////////////////////////////////////////////////////////////////////////
void SkResourceCache::detach(Rec* rec) {
Rec* prev = rec->fPrev;
Rec* next = rec->fNext;
if (!prev) {
SkASSERT(fHead == rec);
fHead = next;
} else {
prev->fNext = next;
}
if (!next) {
fTail = prev;
} else {
next->fPrev = prev;
}
rec->fNext = rec->fPrev = nullptr;
}
void SkResourceCache::moveToHead(Rec* rec) {
if (fHead == rec) {
return;
}
SkASSERT(fHead);
SkASSERT(fTail);
this->validate();
this->detach(rec);
fHead->fPrev = rec;
rec->fNext = fHead;
fHead = rec;
this->validate();
}
void SkResourceCache::addToHead(Rec* rec) {
this->validate();
rec->fPrev = nullptr;
rec->fNext = fHead;
if (fHead) {
fHead->fPrev = rec;
}
fHead = rec;
if (!fTail) {
fTail = rec;
}
fTotalBytesUsed += rec->bytesUsed();
fCount += 1;
this->validate();
}
///////////////////////////////////////////////////////////////////////////////
#ifdef SK_DEBUG
void SkResourceCache::validate() const {
if (nullptr == fHead) {
SkASSERT(nullptr == fTail);
SkASSERT(0 == fTotalBytesUsed);
return;
}
if (fHead == fTail) {
SkASSERT(nullptr == fHead->fPrev);
SkASSERT(nullptr == fHead->fNext);
SkASSERT(fHead->bytesUsed() == fTotalBytesUsed);
return;
}
SkASSERT(nullptr == fHead->fPrev);
SkASSERT(fHead->fNext);
SkASSERT(nullptr == fTail->fNext);
SkASSERT(fTail->fPrev);
size_t used = 0;
int count = 0;
const Rec* rec = fHead;
while (rec) {
count += 1;
used += rec->bytesUsed();
SkASSERT(used <= fTotalBytesUsed);
rec = rec->fNext;
}
SkASSERT(fCount == count);
rec = fTail;
while (rec) {
SkASSERT(count > 0);
count -= 1;
SkASSERT(used >= rec->bytesUsed());
used -= rec->bytesUsed();
rec = rec->fPrev;
}
SkASSERT(0 == count);
SkASSERT(0 == used);
}
#endif
void SkResourceCache::dump() const {
this->validate();
SkDebugf("SkResourceCache: count=%d bytes=%d %s\n",
fCount, fTotalBytesUsed, fDiscardableFactory ? "discardable" : "malloc");
}
size_t SkResourceCache::setSingleAllocationByteLimit(size_t newLimit) {
size_t oldLimit = fSingleAllocationByteLimit;
fSingleAllocationByteLimit = newLimit;
return oldLimit;
}
size_t SkResourceCache::getSingleAllocationByteLimit() const {
return fSingleAllocationByteLimit;
}
size_t SkResourceCache::getEffectiveSingleAllocationByteLimit() const {
// fSingleAllocationByteLimit == 0 means the caller is asking for our default
size_t limit = fSingleAllocationByteLimit;
// if we're not discardable (i.e. we are fixed-budget) then cap the single-limit
// to our budget.
if (nullptr == fDiscardableFactory) {
if (0 == limit) {
limit = fTotalByteLimit;
} else {
limit = SkTMin(limit, fTotalByteLimit);
}
}
return limit;
}
void SkResourceCache::checkMessages() {
SkTArray<PurgeSharedIDMessage> msgs;
fPurgeSharedIDInbox.poll(&msgs);
for (int i = 0; i < msgs.count(); ++i) {
this->purgeSharedID(msgs[i].fSharedID);
}
}
///////////////////////////////////////////////////////////////////////////////
SK_DECLARE_STATIC_MUTEX(gMutex);
static SkResourceCache* gResourceCache = nullptr;
static void cleanup_gResourceCache() {
// We'll clean this up in our own tests, but disable for clients.
// Chrome seems to have funky multi-process things going on in unit tests that
// makes this unsafe to delete when the main process atexit()s.
// SkLazyPtr does the same sort of thing.
#if SK_DEVELOPER
delete gResourceCache;
#endif
}
/** Must hold gMutex when calling. */
static SkResourceCache* get_cache() {
// gMutex is always held when this is called, so we don't need to be fancy in here.
gMutex.assertHeld();
if (nullptr == gResourceCache) {
#ifdef SK_USE_DISCARDABLE_SCALEDIMAGECACHE
gResourceCache = new SkResourceCache(SkDiscardableMemory::Create);
#else
gResourceCache = new SkResourceCache(SK_DEFAULT_IMAGE_CACHE_LIMIT);
#endif
atexit(cleanup_gResourceCache);
}
return gResourceCache;
}
size_t SkResourceCache::GetTotalBytesUsed() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->getTotalBytesUsed();
}
size_t SkResourceCache::GetTotalByteLimit() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->getTotalByteLimit();
}
size_t SkResourceCache::SetTotalByteLimit(size_t newLimit) {
SkAutoMutexAcquire am(gMutex);
return get_cache()->setTotalByteLimit(newLimit);
}
SkResourceCache::DiscardableFactory SkResourceCache::GetDiscardableFactory() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->discardableFactory();
}
SkBitmap::Allocator* SkResourceCache::GetAllocator() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->allocator();
}
SkCachedData* SkResourceCache::NewCachedData(size_t bytes) {
SkAutoMutexAcquire am(gMutex);
return get_cache()->newCachedData(bytes);
}
void SkResourceCache::Dump() {
SkAutoMutexAcquire am(gMutex);
get_cache()->dump();
}
size_t SkResourceCache::SetSingleAllocationByteLimit(size_t size) {
SkAutoMutexAcquire am(gMutex);
return get_cache()->setSingleAllocationByteLimit(size);
}
size_t SkResourceCache::GetSingleAllocationByteLimit() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->getSingleAllocationByteLimit();
}
size_t SkResourceCache::GetEffectiveSingleAllocationByteLimit() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->getEffectiveSingleAllocationByteLimit();
}
void SkResourceCache::PurgeAll() {
SkAutoMutexAcquire am(gMutex);
return get_cache()->purgeAll();
}
bool SkResourceCache::Find(const Key& key, FindVisitor visitor, void* context) {
SkAutoMutexAcquire am(gMutex);
return get_cache()->find(key, visitor, context);
}
void SkResourceCache::Add(Rec* rec) {
SkAutoMutexAcquire am(gMutex);
get_cache()->add(rec);
}
void SkResourceCache::VisitAll(Visitor visitor, void* context) {
SkAutoMutexAcquire am(gMutex);
get_cache()->visitAll(visitor, context);
}
void SkResourceCache::PostPurgeSharedID(uint64_t sharedID) {
if (sharedID) {
SkMessageBus<PurgeSharedIDMessage>::Post(PurgeSharedIDMessage(sharedID));
}
}
///////////////////////////////////////////////////////////////////////////////
#include "SkGraphics.h"
#include "SkImageFilter.h"
size_t SkGraphics::GetResourceCacheTotalBytesUsed() {
return SkResourceCache::GetTotalBytesUsed();
}
size_t SkGraphics::GetResourceCacheTotalByteLimit() {
return SkResourceCache::GetTotalByteLimit();
}
size_t SkGraphics::SetResourceCacheTotalByteLimit(size_t newLimit) {
return SkResourceCache::SetTotalByteLimit(newLimit);
}
size_t SkGraphics::GetResourceCacheSingleAllocationByteLimit() {
return SkResourceCache::GetSingleAllocationByteLimit();
}
size_t SkGraphics::SetResourceCacheSingleAllocationByteLimit(size_t newLimit) {
return SkResourceCache::SetSingleAllocationByteLimit(newLimit);
}
void SkGraphics::PurgeResourceCache() {
SkImageFilter::PurgeCache();
return SkResourceCache::PurgeAll();
}
/////////////
static void dump_visitor(const SkResourceCache::Rec& rec, void*) {
SkDebugf("RC: %12s bytes %9lu discardable %p\n",
rec.getCategory(), rec.bytesUsed(), rec.diagnostic_only_getDiscardable());
}
void SkResourceCache::TestDumpMemoryStatistics() {
VisitAll(dump_visitor, nullptr);
}
static void sk_trace_dump_visitor(const SkResourceCache::Rec& rec, void* context) {
SkTraceMemoryDump* dump = static_cast<SkTraceMemoryDump*>(context);
SkString dump_name = SkStringPrintf("skia/sk_resource_cache/%s_%p", rec.getCategory(), &rec);
SkDiscardableMemory* discardable = rec.diagnostic_only_getDiscardable();
if (discardable) {
dump->setDiscardableMemoryBacking(dump_name.c_str(), *discardable);
} else {
dump->dumpNumericValue(dump_name.c_str(), "size", "bytes", rec.bytesUsed());
dump->setMemoryBacking(dump_name.c_str(), "malloc", nullptr);
}
}
void SkResourceCache::DumpMemoryStatistics(SkTraceMemoryDump* dump) {
VisitAll(sk_trace_dump_visitor, dump);
}
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