package org.ehcache.impl.internal.store.disk;
import org.ehcache.config.EvictionAdvisor;
import org.ehcache.impl.internal.store.disk.factories.EhcachePersistentSegmentFactory;
import org.ehcache.impl.internal.store.offheap.EhcacheOffHeapBackingMap;
import org.terracotta.offheapstore.Metadata;
import org.terracotta.offheapstore.MetadataTuple;
import org.terracotta.offheapstore.Segment;
import org.terracotta.offheapstore.disk.persistent.AbstractPersistentConcurrentOffHeapCache;
import java.io.IOException;
import java.io.ObjectInput;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicLong;
import java.util.function.BiFunction;
import java.util.function.Function;
import static org.ehcache.impl.internal.store.offheap.factories.EhcacheSegmentFactory.EhcacheSegment.ADVISED_AGAINST_EVICTION;
import static org.terracotta.offheapstore.Metadata.PINNED;
import static org.terracotta.offheapstore.MetadataTuple.metadataTuple;
public class EhcachePersistentConcurrentOffHeapClockCache<K, V> extends AbstractPersistentConcurrentOffHeapCache<K, V> implements EhcacheOffHeapBackingMap<K, V> {
private final EvictionAdvisor<? super K, ? super V> evictionAdvisor;
private final AtomicLong[] counters;
public EhcachePersistentConcurrentOffHeapClockCache(ObjectInput input, EvictionAdvisor<? super K, ? super V> evictionAdvisor, EhcachePersistentSegmentFactory<K, V> segmentFactory) throws IOException {
this(evictionAdvisor, segmentFactory, readSegmentCount(input));
}
public EhcachePersistentConcurrentOffHeapClockCache(EvictionAdvisor<? super K, ? super V> evictionAdvisor, EhcachePersistentSegmentFactory<K, V> segmentFactory, int concurrency) {
super(segmentFactory, concurrency);
this.evictionAdvisor = evictionAdvisor;
this.counters = new AtomicLong[segments.length];
for(int i = 0; i < segments.length; i++) {
counters[i] = new AtomicLong();
}
}
public long allocatedMemory() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getAllocatedMemory();
}
return total;
}
public long occupiedMemory() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getOccupiedMemory();
}
return total;
}
public long dataAllocatedMemory() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getDataAllocatedMemory();
}
return total;
}
public long dataOccupiedMemory() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getDataOccupiedMemory();
}
return total;
}
public long dataSize() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getDataSize();
}
return total;
}
public long longSize() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getSize();
}
return total;
}
public long tableCapacity() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getTableCapacity();
}
return total;
}
public long usedSlotCount() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getUsedSlotCount();
}
return total;
}
public long removedSlotCount() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getRemovedSlotCount();
}
return total;
}
public long reprobeLength() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getReprobeLength();
}
return total;
}
public long vitalMemory() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getVitalMemory();
}
return total;
}
public long dataVitalMemory() {
long total = 0L;
for (Segment<K, V> segment : segments) {
total += segment.getDataVitalMemory();
}
return total;
}
@Override
public V compute(K key, final BiFunction<K, V, V> mappingFunction, final boolean pin) {
MetadataTuple<V> result = computeWithMetadata(key, (k, current) -> {
V oldValue = current == null ? null : current.value();
V newValue = mappingFunction.apply(k, oldValue);
if (newValue == null) {
return null;
} else if (oldValue == newValue) {
return metadataTuple(newValue, (pin ? PINNED : 0) | current.metadata());
} else {
return metadataTuple(newValue, (pin ? PINNED : 0) | (evictionAdvisor.adviseAgainstEviction(k, newValue) ? ADVISED_AGAINST_EVICTION : 0));
}
});
return result == null ? null : result.value();
}
@Override
public V computeIfPresent(K key, final BiFunction<? super K, ? super V, ? extends V> mappingFunction) {
MetadataTuple<V> result = computeIfPresentWithMetadata(key, (k, current) -> {
V oldValue = current.value();
V newValue = mappingFunction.apply(k, oldValue);
if (newValue == null) {
return null;
} else if (oldValue == newValue) {
return current;
} else {
return metadataTuple(newValue, (evictionAdvisor.adviseAgainstEviction(k, newValue) ? ADVISED_AGAINST_EVICTION : 0));
}
});
return result == null ? null : result.value();
}
@Override
public V computeIfPresentAndPin(final K key, final BiFunction<K, V, V> mappingFunction) {
MetadataTuple<V> result = computeIfPresentWithMetadata(key, (k, current) -> {
V oldValue = current.value();
V newValue = mappingFunction.apply(k, oldValue);
if (newValue == null) {
return null;
} else if (oldValue == newValue) {
return metadataTuple(newValue, PINNED | current.metadata());
} else {
return metadataTuple(newValue, PINNED | (evictionAdvisor.adviseAgainstEviction(k, newValue) ? ADVISED_AGAINST_EVICTION : 0));
}
});
return result == null ? null : result.value();
}
@Override
public boolean computeIfPinned(final K key, final BiFunction<K,V,V> remappingFunction, final Function<V,Boolean> unpinFunction) {
final AtomicBoolean unpin = new AtomicBoolean();
computeIfPresentWithMetadata(key, (k, current) -> {
if ((current.metadata() & Metadata.PINNED) != 0) {
V oldValue = current.value();
V newValue = remappingFunction.apply(k, oldValue);
Boolean unpinLocal = unpinFunction.apply(oldValue);
if (newValue == null) {
unpin.set(true);
return null;
} else if (oldValue == newValue) {
unpin.set(unpinLocal);
return metadataTuple(oldValue, current.metadata() & (unpinLocal ? ~Metadata.PINNED : -1));
} else {
unpin.set(false);
return metadataTuple(newValue, (evictionAdvisor.adviseAgainstEviction(k, newValue) ? ADVISED_AGAINST_EVICTION : 0));
}
} else {
return current;
}
});
return unpin.get();
}
@Override
public long nextIdFor(final K key) {
return counters[getIndexFor(key.hashCode())].getAndIncrement();
}
}