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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.kafka.streams.state.internals;
import org.apache.kafka.common.utils.Bytes;
import org.apache.kafka.common.utils.CircularIterator;
import org.apache.kafka.common.utils.LogContext;
import org.apache.kafka.streams.KeyValue;
import org.apache.kafka.streams.processor.internals.metrics.StreamsMetricsImpl;
import org.slf4j.Logger;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException;
/**
* An in-memory LRU cache store similar to {@link MemoryLRUCache} but byte-based, not
* record based
*/
public class ThreadCache {
private final Logger log;
private volatile long maxCacheSizeBytes;
private final StreamsMetricsImpl metrics;
private final Map caches = new HashMap<>();
// internal stats
private long numPuts = 0;
private long numGets = 0;
private long numEvicts = 0;
private long numFlushes = 0;
public interface DirtyEntryFlushListener {
void apply(final List dirty);
}
public ThreadCache(final LogContext logContext, final long maxCacheSizeBytes, final StreamsMetricsImpl metrics) {
this.maxCacheSizeBytes = maxCacheSizeBytes;
this.metrics = metrics;
this.log = logContext.logger(getClass());
}
public long puts() {
return numPuts;
}
public long gets() {
return numGets;
}
public long evicts() {
return numEvicts;
}
public long flushes() {
return numFlushes;
}
public synchronized void resize(final long newCacheSizeBytes) {
final boolean shrink = newCacheSizeBytes < maxCacheSizeBytes;
maxCacheSizeBytes = newCacheSizeBytes;
if (shrink) {
log.debug("Cache size was shrunk to {}", newCacheSizeBytes);
if (caches.values().isEmpty()) {
return;
}
final CircularIterator circularIterator = new CircularIterator<>(caches.values());
while (sizeBytes() > maxCacheSizeBytes) {
final NamedCache cache = circularIterator.next();
cache.evict();
numEvicts++;
}
} else {
log.debug("Cache size was expanded to {}", newCacheSizeBytes);
}
}
/**
* The thread cache maintains a set of {@link NamedCache}s whose names are a concatenation of the task ID and the
* underlying store name. This method creates those names.
* @param taskIDString Task ID
* @param underlyingStoreName Underlying store name
*/
public static String nameSpaceFromTaskIdAndStore(final String taskIDString, final String underlyingStoreName) {
return taskIDString + "-" + underlyingStoreName;
}
/**
* Given a cache name of the form taskid-storename, return the task ID.
*/
public static String taskIDfromCacheName(final String cacheName) {
final String[] tokens = cacheName.split("-", 2);
return tokens[0];
}
/**
* Given a cache name of the form taskid-storename, return the store name.
*/
public static String underlyingStoreNamefromCacheName(final String cacheName) {
final String[] tokens = cacheName.split("-", 2);
return tokens[1];
}
/**
* Add a listener that is called each time an entry is evicted from the cache or an explicit flush is called
*/
public void addDirtyEntryFlushListener(final String namespace, final DirtyEntryFlushListener listener) {
final NamedCache cache = getOrCreateCache(namespace);
cache.setListener(listener);
}
public void flush(final String namespace) {
numFlushes++;
final NamedCache cache = getCache(namespace);
if (cache == null) {
return;
}
cache.flush();
if (log.isTraceEnabled()) {
log.trace("Cache stats on flush: #puts={}, #gets={}, #evicts={}, #flushes={}", puts(), gets(), evicts(), flushes());
}
}
public LRUCacheEntry get(final String namespace, final Bytes key) {
numGets++;
if (key == null) {
return null;
}
final NamedCache cache = getCache(namespace);
if (cache == null) {
return null;
}
return cache.get(key);
}
public void put(final String namespace, final Bytes key, final LRUCacheEntry value) {
numPuts++;
final NamedCache cache = getOrCreateCache(namespace);
cache.put(key, value);
maybeEvict(namespace);
}
public LRUCacheEntry putIfAbsent(final String namespace, final Bytes key, final LRUCacheEntry value) {
final NamedCache cache = getOrCreateCache(namespace);
final LRUCacheEntry result = cache.putIfAbsent(key, value);
maybeEvict(namespace);
if (result == null) {
numPuts++;
}
return result;
}
public void putAll(final String namespace, final List> entries) {
for (final KeyValue entry : entries) {
put(namespace, entry.key, entry.value);
}
}
public LRUCacheEntry delete(final String namespace, final Bytes key) {
final NamedCache cache = getCache(namespace);
if (cache == null) {
return null;
}
return cache.delete(key);
}
public MemoryLRUCacheBytesIterator range(final String namespace, final Bytes from, final Bytes to) {
return range(namespace, from, to, true);
}
public MemoryLRUCacheBytesIterator range(final String namespace, final Bytes from, final Bytes to, final boolean toInclusive) {
final NamedCache cache = getCache(namespace);
if (cache == null) {
return new MemoryLRUCacheBytesIterator(Collections.emptyIterator(), new NamedCache(namespace, this.metrics));
}
return new MemoryLRUCacheBytesIterator(cache.keyRange(from, to, toInclusive), cache);
}
public MemoryLRUCacheBytesIterator reverseRange(final String namespace, final Bytes from, final Bytes to) {
final NamedCache cache = getCache(namespace);
if (cache == null) {
return new MemoryLRUCacheBytesIterator(Collections.emptyIterator(), new NamedCache(namespace, this.metrics));
}
return new MemoryLRUCacheBytesIterator(cache.reverseKeyRange(from, to), cache);
}
public MemoryLRUCacheBytesIterator all(final String namespace) {
final NamedCache cache = getCache(namespace);
if (cache == null) {
return new MemoryLRUCacheBytesIterator(Collections.emptyIterator(), new NamedCache(namespace, this.metrics));
}
return new MemoryLRUCacheBytesIterator(cache.allKeys(), cache);
}
public MemoryLRUCacheBytesIterator reverseAll(final String namespace) {
final NamedCache cache = getCache(namespace);
if (cache == null) {
return new MemoryLRUCacheBytesIterator(Collections.emptyIterator(), new NamedCache(namespace, this.metrics));
}
return new MemoryLRUCacheBytesIterator(cache.reverseAllKeys(), cache);
}
public long size() {
long size = 0;
for (final NamedCache cache : caches.values()) {
size += cache.size();
if (isOverflowing(size)) {
return Long.MAX_VALUE;
}
}
return size;
}
private boolean isOverflowing(final long size) {
return size < 0;
}
long sizeBytes() {
long sizeInBytes = 0;
for (final NamedCache namedCache : caches.values()) {
sizeInBytes += namedCache.sizeInBytes();
if (isOverflowing(sizeInBytes)) {
return Long.MAX_VALUE;
}
}
return sizeInBytes;
}
synchronized void close(final String namespace) {
final NamedCache removed = caches.remove(namespace);
if (removed != null) {
removed.close();
}
}
private void maybeEvict(final String namespace) {
int numEvicted = 0;
while (sizeBytes() > maxCacheSizeBytes) {
final NamedCache cache = getOrCreateCache(namespace);
// we abort here as the put on this cache may have triggered
// a put on another cache. So even though the sizeInBytes() is
// still > maxCacheSizeBytes there is nothing to evict from this
// namespaced cache.
if (cache.isEmpty()) {
return;
}
cache.evict();
numEvicts++;
numEvicted++;
}
if (log.isTraceEnabled()) {
log.trace("Evicted {} entries from cache {}", numEvicted, namespace);
}
}
private synchronized NamedCache getCache(final String namespace) {
return caches.get(namespace);
}
private synchronized NamedCache getOrCreateCache(final String name) {
NamedCache cache = caches.get(name);
if (cache == null) {
cache = new NamedCache(name, this.metrics);
caches.put(name, cache);
}
return cache;
}
static class MemoryLRUCacheBytesIterator implements PeekingKeyValueIterator {
private final Iterator keys;
private final NamedCache cache;
private KeyValue nextEntry;
MemoryLRUCacheBytesIterator(final Iterator keys, final NamedCache cache) {
this.keys = keys;
this.cache = cache;
}
public Bytes peekNextKey() {
if (!hasNext()) {
throw new NoSuchElementException();
}
return nextEntry.key;
}
public KeyValue peekNext() {
if (!hasNext()) {
throw new NoSuchElementException();
}
return nextEntry;
}
@Override
public boolean hasNext() {
if (nextEntry != null) {
return true;
}
while (keys.hasNext() && nextEntry == null) {
internalNext();
}
return nextEntry != null;
}
@Override
public KeyValue next() {
if (!hasNext()) {
throw new NoSuchElementException();
}
final KeyValue result = nextEntry;
nextEntry = null;
return result;
}
private void internalNext() {
final Bytes cacheKey = keys.next();
final LRUCacheEntry entry = cache.get(cacheKey);
if (entry == null) {
return;
}
nextEntry = new KeyValue<>(cacheKey, entry);
}
@Override
public void close() {
// do nothing
}
}
static class DirtyEntry {
private final Bytes key;
private final byte[] newValue;
private final LRUCacheEntry recordContext;
DirtyEntry(final Bytes key, final byte[] newValue, final LRUCacheEntry recordContext) {
this.key = key;
this.newValue = newValue;
this.recordContext = recordContext;
}
public Bytes key() {
return key;
}
public byte[] newValue() {
return newValue;
}
public LRUCacheEntry entry() {
return recordContext;
}
}
}