void CachedResource::setDecodedSize(unsigned size)
{
if (size == m_decodedSize)
return;
int delta = size - m_decodedSize;
// The object must now be moved to a different queue, since its size has been changed.
// We have to remove explicitly before updating m_decodedSize, so that we find the correct previous
// queue.
if (inCache())
memoryCache()->removeFromLRUList(this);
m_decodedSize = size;
if (inCache()) {
// Now insert into the new LRU list.
memoryCache()->insertInLRUList(this);
// Insert into or remove from the live decoded list if necessary.
// When inserting into the LiveDecodedResourcesList it is possible
// that the m_lastDecodedAccessTime is still zero or smaller than
// the m_lastDecodedAccessTime of the current list head. This is a
// violation of the invariant that the list is to be kept sorted
// by access time. The weakening of the invariant does not pose
// a problem. For more details please see: https://bugs.webkit.org/show_bug.cgi?id=30209
if (m_decodedSize && !m_inLiveDecodedResourcesList && hasClients())
memoryCache()->insertInLiveDecodedResourcesList(this);
else if (!m_decodedSize && m_inLiveDecodedResourcesList)
memoryCache()->removeFromLiveDecodedResourcesList(this);
// Update the cache's size totals.
memoryCache()->adjustSize(hasClients(), delta);
}
}
void Resource::removeClient(ResourceClient* client)
{
ASSERT(hasClient(client));
if (m_finishedClients.contains(client))
m_finishedClients.remove(client);
else if (m_clientsAwaitingCallback.contains(client))
m_clientsAwaitingCallback.remove(client);
else
m_clients.remove(client);
didRemoveClient(client);
if (m_clientsAwaitingCallback.isEmpty())
ResourceCallback::callbackHandler()->cancel(this);
bool deleted = deleteIfPossible();
if (!deleted && !hasClients()) {
memoryCache()->makeDead(this);
if (!m_switchingClientsToRevalidatedResource)
allClientsRemoved();
// RFC2616 14.9.2:
// "no-store: ... MUST make a best-effort attempt to remove the information from volatile storage as promptly as possible"
// "... History buffers MAY store such responses as part of their normal operation."
// We allow non-secure content to be reused in history, but we do not allow secure content to be reused.
if (hasCacheControlNoStoreHeader() && url().protocolIs("https")) {
memoryCache()->remove(this);
memoryCache()->prune();
} else {
memoryCache()->prune(this);
}
}
// This object may be dead here.
}
void CachedResource::setEncodedSize(unsigned size)
{
if (size == m_encodedSize)
return;
// The size cannot ever shrink (unless it is being nulled out because of an error). If it ever does, assert.
ASSERT(size == 0 || size >= m_encodedSize);
int delta = size - m_encodedSize;
// The object must now be moved to a different queue, since its size has been changed.
// We have to remove explicitly before updating m_encodedSize, so that we find the correct previous
// queue.
if (inCache())
memoryCache()->removeFromLRUList(this);
m_encodedSize = size;
if (inCache()) {
// Now insert into the new LRU list.
memoryCache()->insertInLRUList(this);
// Update the cache's size totals.
memoryCache()->adjustSize(hasClients(), delta);
}
}
void CachedResource::removeClient(CachedResourceClient* client)
{
OwnPtr<CachedResourceCallback> callback = m_clientsAwaitingCallback.take(client);
if (callback) {
ASSERT(!m_clients.contains(client));
callback->cancel();
callback.clear();
} else {
ASSERT(m_clients.contains(client));
m_clients.remove(client);
didRemoveClient(client);
}
bool deleted = deleteIfPossible();
if (!deleted && !hasClients()) {
if (inCache()) {
memoryCache()->removeFromLiveResourcesSize(this);
memoryCache()->removeFromLiveDecodedResourcesList(this);
}
if (!m_switchingClientsToRevalidatedResource)
allClientsRemoved();
destroyDecodedDataIfNeeded();
if (response().cacheControlContainsNoStore() && url().protocolIs("https")) {
// RFC2616 14.9.2:
// "no-store: ... MUST make a best-effort attempt to remove the information from volatile storage as promptly as possible"
// "... History buffers MAY store such responses as part of their normal operation."
// We allow non-secure content to be reused in history, but we do not allow secure content to be reused.
memoryCache()->remove(this);
}
memoryCache()->prune();
}
// This object may be dead here.
}
void Resource::addClient(ResourceClient* client)
{
ASSERT(!isPurgeable());
if (m_preloadResult == PreloadNotReferenced) {
if (isLoaded())
m_preloadResult = PreloadReferencedWhileComplete;
else if (m_requestedFromNetworkingLayer)
m_preloadResult = PreloadReferencedWhileLoading;
else
m_preloadResult = PreloadReferenced;
}
if (!hasClients())
memoryCache()->makeLive(this);
if (!m_revalidatingRequest.isNull()) {
m_clients.add(client);
return;
}
// If we have existing data to send to the new client and the resource type supprts it, send it asynchronously.
if (!m_response.isNull() && !shouldSendCachedDataSynchronouslyForType(type()) && !m_needsSynchronousCacheHit) {
m_clientsAwaitingCallback.add(client);
ResourceCallback::callbackHandler()->schedule(this);
return;
}
m_clients.add(client);
didAddClient(client);
return;
}
bool CachedResource::addClientToSet(CachedResourceClient* client)
{
ASSERT(!isPurgeable());
if (m_preloadResult == PreloadNotReferenced) {
if (isLoaded())
m_preloadResult = PreloadReferencedWhileComplete;
else if (m_requestedFromNetworkingLayer)
m_preloadResult = PreloadReferencedWhileLoading;
else
m_preloadResult = PreloadReferenced;
}
if (!hasClients() && inCache())
memoryCache()->addToLiveResourcesSize(this);
if ((m_type == RawResource || m_type == MainResource) && !m_response.isNull() && !m_proxyResource) {
// Certain resources (especially XHRs and main resources) do crazy things if an asynchronous load returns
// synchronously (e.g., scripts may not have set all the state they need to handle the load).
// Therefore, rather than immediately sending callbacks on a cache hit like other CachedResources,
// we schedule the callbacks and ensure we never finish synchronously.
ASSERT(!m_clientsAwaitingCallback.contains(client));
m_clientsAwaitingCallback.add(client, CachedResourceCallback::schedule(this, client));
return false;
}
m_clients.add(client);
return true;
}
void ImageResource::destroyDecodedDataIfPossible()
{
if (!hasClients() && !isLoading() && (!m_image || (m_image->hasOneRef() && m_image->isBitmapImage()))) {
m_image = nullptr;
setDecodedSize(0);
} else if (m_image && !errorOccurred()) {
m_image->destroyDecodedData(true);
}
}
void CachedImage::destroyDecodedData()
{
bool canDeleteImage = !m_image || (m_image->hasOneRef() && m_image->isBitmapImage());
if (canDeleteImage && !isLoading() && !hasClients()) {
m_image = nullptr;
setDecodedSize(0);
} else if (m_image && !errorOccurred())
m_image->destroyDecodedData();
}
void Resource::cancelTimerFired(Timer<Resource>* timer)
{
ASSERT_UNUSED(timer, timer == &m_cancelTimer);
if (hasClients() || !m_loader)
return;
ResourcePtr<Resource> protect(this);
m_loader->cancelIfNotFinishing();
if (m_status != Cached)
memoryCache()->remove(this);
}
bool CachedResource::isSafeToMakePurgeable() const
{
#if ENABLE(DISK_IMAGE_CACHE)
// It does not make sense to have a resource in the disk image cache
// (memory mapped on disk) and purgeable (in memory). So do not allow
// disk image cached resources to be purgeable.
if (isUsingDiskImageCache())
return false;
#endif
return !hasClients() && !m_proxyResource && !m_resourceToRevalidate;
}
bool Resource::unlock()
{
if (!m_data)
return false;
if (!m_data->isLocked())
return true;
if (!memoryCache()->contains(this) || hasClients() || m_handleCount > 1 || !m_revalidatingRequest.isNull() || !m_loadFinishTime || !isSafeToUnlock())
return false;
m_data->unlock();
return true;
}
String Resource::reasonNotDeletable() const
{
StringBuilder builder;
if (hasClients()) {
builder.append("hasClients(");
builder.appendNumber(m_clients.size());
if (!m_clientsAwaitingCallback.isEmpty()) {
builder.append(", AwaitingCallback=");
builder.appendNumber(m_clientsAwaitingCallback.size());
}
if (!m_finishedClients.isEmpty()) {
builder.append(", Finished=");
builder.appendNumber(m_finishedClients.size());
}
builder.append(")");
}
if (m_loader) {
if (!builder.isEmpty())
builder.append(' ');
builder.append("m_loader");
}
if (m_preloadCount) {
if (!builder.isEmpty())
builder.append(' ');
builder.append("m_preloadCount(");
builder.appendNumber(m_preloadCount);
builder.append(")");
}
if (!hasRightHandleCountApartFromCache(0)) {
if (!builder.isEmpty())
builder.append(' ');
builder.append("m_handleCount(");
builder.appendNumber(m_handleCount);
builder.append(")");
}
if (m_protectorCount) {
if (!builder.isEmpty())
builder.append(' ');
builder.append("m_protectorCount(");
builder.appendNumber(m_protectorCount);
builder.append(")");
}
if (memoryCache()->contains(this)) {
if (!builder.isEmpty())
builder.append(' ');
builder.append("in_memory_cache");
}
return builder.toString();
}
void CachedResource::setDecodedSize(unsigned size)
{
if (size == m_decodedSize)
return;
long long delta = static_cast<long long>(size) - m_decodedSize;
// The object must be moved to a different queue, since its size has been changed.
// Remove before updating m_decodedSize, so we find the resource in the correct LRU list.
if (allowsCaching() && inCache())
MemoryCache::singleton().removeFromLRUList(*this);
m_decodedSize = size;
if (allowsCaching() && inCache()) {
auto& memoryCache = MemoryCache::singleton();
// Now insert into the new LRU list.
memoryCache.insertInLRUList(*this);
// Insert into or remove from the live decoded list if necessary.
// When inserting into the LiveDecodedResourcesList it is possible
// that the m_lastDecodedAccessTime is still zero or smaller than
// the m_lastDecodedAccessTime of the current list head. This is a
// violation of the invariant that the list is to be kept sorted
// by access time. The weakening of the invariant does not pose
// a problem. For more details please see: https://bugs.webkit.org/show_bug.cgi?id=30209
bool inLiveDecodedResourcesList = memoryCache.inLiveDecodedResourcesList(*this);
if (m_decodedSize && !inLiveDecodedResourcesList && hasClients())
memoryCache.insertInLiveDecodedResourcesList(*this);
else if (!m_decodedSize && inLiveDecodedResourcesList)
memoryCache.removeFromLiveDecodedResourcesList(*this);
// Update the cache's size totals.
memoryCache.adjustSize(hasClients(), delta);
}
}
bool Resource::lock()
{
if (!m_data)
return true;
if (m_data->isLocked())
return true;
ASSERT(!hasClients());
if (!m_data->lock()) {
m_wasPurged = true;
return false;
}
return true;
}
void Resource::unregisterHandle(ResourcePtrBase* h)
{
assertAlive();
ASSERT(m_handleCount > 0);
--m_handleCount;
if (!m_handleCount) {
if (deleteIfPossible())
return;
unlock();
} else if (m_handleCount == 1 && memoryCache()->contains(this)) {
unlock();
if (!hasClients())
memoryCache()->prune(this);
}
}
void CachedResource::removeClient(CachedResourceClient& client)
{
auto callback = m_clientsAwaitingCallback.take(&client);
if (callback) {
ASSERT(!m_clients.contains(&client));
callback->cancel();
callback = nullptr;
} else {
ASSERT(m_clients.contains(&client));
m_clients.remove(&client);
didRemoveClient(client);
}
if (deleteIfPossible()) {
// `this` object is dead here.
return;
}
if (hasClients())
return;
auto& memoryCache = MemoryCache::singleton();
if (allowsCaching() && inCache()) {
memoryCache.removeFromLiveResourcesSize(*this);
memoryCache.removeFromLiveDecodedResourcesList(*this);
}
if (!m_switchingClientsToRevalidatedResource)
allClientsRemoved();
destroyDecodedDataIfNeeded();
if (!allowsCaching())
return;
if (response().cacheControlContainsNoStore() && url().protocolIs("https")) {
// RFC2616 14.9.2:
// "no-store: ... MUST make a best-effort attempt to remove the information from volatile storage as promptly as possible"
// "... History buffers MAY store such responses as part of their normal operation."
// We allow non-secure content to be reused in history, but we do not allow secure content to be reused.
memoryCache.remove(*this);
}
memoryCache.pruneSoon();
}
void CachedResource::setEncodedSize(unsigned size)
{
if (size == m_encodedSize)
return;
long long delta = static_cast<long long>(size) - m_encodedSize;
// The object must be moved to a different queue, since its size has been changed.
// Remove before updating m_encodedSize, so we find the resource in the correct LRU list.
if (allowsCaching() && inCache())
MemoryCache::singleton().removeFromLRUList(*this);
m_encodedSize = size;
if (allowsCaching() && inCache()) {
auto& memoryCache = MemoryCache::singleton();
memoryCache.insertInLRUList(*this);
memoryCache.adjustSize(hasClients(), delta);
}
}
bool CachedResource::makePurgeable(bool purgeable)
{
if (purgeable) {
ASSERT(isSafeToMakePurgeable());
if (m_purgeableData) {
ASSERT(!m_data);
return true;
}
if (!m_data)
return false;
// Should not make buffer purgeable if it has refs other than this since we don't want two copies.
if (!m_data->hasOneRef())
return false;
m_data->createPurgeableBuffer();
if (!m_data->hasPurgeableBuffer())
return false;
m_purgeableData = m_data->releasePurgeableBuffer();
m_purgeableData->setPurgePriority(purgePriority());
m_purgeableData->makePurgeable(true);
m_data.clear();
return true;
}
if (!m_purgeableData)
return true;
ASSERT(!m_data);
ASSERT(!hasClients());
if (!m_purgeableData->makePurgeable(false))
return false;
m_data = ResourceBuffer::adoptSharedBuffer(SharedBuffer::adoptPurgeableBuffer(m_purgeableData.release()));
return true;
}
void CachedImage::decodedDataDeletionTimerFired(Timer<CachedImage>*)
{
ASSERT(!hasClients());
destroyDecodedData();
}
bool CachedResource::isSafeToMakePurgeable() const
{
return !hasClients() && !m_proxyResource && !m_resourceToRevalidate;
}
bool Resource::canDelete() const
{
return !hasClients() && !m_loader && !m_preloadCount && hasRightHandleCountApartFromCache(0)
&& !m_protectorCount;
}
