package it.cavallium.dbengine.database.collections; import io.net5.buffer.api.Buffer; import io.net5.buffer.api.Resource; import io.net5.buffer.api.Send; import io.net5.buffer.api.internal.ResourceSupport; import it.cavallium.dbengine.client.CompositeSnapshot; import it.cavallium.dbengine.database.Delta; import it.cavallium.dbengine.database.LLDictionary; import it.cavallium.dbengine.database.LLDictionaryResultType; import it.cavallium.dbengine.database.LLEntry; import it.cavallium.dbengine.database.LLUtils; import it.cavallium.dbengine.database.UpdateMode; import it.cavallium.dbengine.database.UpdateReturnMode; import it.cavallium.dbengine.database.serialization.KVSerializationFunction; import it.cavallium.dbengine.database.serialization.SerializationException; import it.cavallium.dbengine.database.serialization.SerializationFunction; import it.cavallium.dbengine.database.serialization.Serializer; import it.cavallium.dbengine.database.serialization.SerializerFixedBinaryLength; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Map.Entry; import java.util.Objects; import java.util.Optional; import org.jetbrains.annotations.NotNull; import org.jetbrains.annotations.Nullable; import reactor.core.publisher.Flux; import reactor.core.publisher.Mono; import reactor.core.publisher.SynchronousSink; import reactor.util.function.Tuple2; import reactor.util.function.Tuples; /** * Optimized implementation of "DatabaseMapDictionary with SubStageGetterSingle" */ public class DatabaseMapDictionary extends DatabaseMapDictionaryDeep> { private final Serializer valueSerializer; protected DatabaseMapDictionary(LLDictionary dictionary, @NotNull Send prefixKey, SerializerFixedBinaryLength keySuffixSerializer, Serializer valueSerializer, Runnable onClose) { // Do not retain or release or use the prefixKey here super(dictionary, prefixKey, keySuffixSerializer, new SubStageGetterSingle<>(valueSerializer), 0, onClose); this.valueSerializer = valueSerializer; } public static DatabaseMapDictionary simple(LLDictionary dictionary, SerializerFixedBinaryLength keySerializer, Serializer valueSerializer, Runnable onClose) { return new DatabaseMapDictionary<>(dictionary, LLUtils.empty(dictionary.getAllocator()), keySerializer, valueSerializer, onClose); } public static DatabaseMapDictionary tail(LLDictionary dictionary, Send prefixKey, SerializerFixedBinaryLength keySuffixSerializer, Serializer valueSerializer, Runnable onClose) { return new DatabaseMapDictionary<>(dictionary, prefixKey, keySuffixSerializer, valueSerializer, onClose); } private void deserializeValue(Send valueToReceive, SynchronousSink sink) { try (var value = valueToReceive.receive()) { sink.next(valueSerializer.deserialize(value)); } catch (Throwable ex) { sink.error(ex); } } private Send serializeValue(U value) throws SerializationException { var valSizeHint = valueSerializer.getSerializedSizeHint(); if (valSizeHint == -1) valSizeHint = 128; try (var valBuf = dictionary.getAllocator().allocate(valSizeHint)) { valueSerializer.serialize(value, valBuf); return valBuf.send(); } } private Send serializeKeySuffixToKey(T keySuffix) throws SerializationException { try (var keyBuf = keyPrefix.copy()) { assert keyBuf.readableBytes() == keyPrefixLength; keyBuf.ensureWritable(keySuffixLength + keyExtLength); serializeSuffix(keySuffix, keyBuf); assert keyBuf.readableBytes() == keyPrefixLength + keySuffixLength + keyExtLength; return keyBuf.send(); } } private Send toKey(Send suffixKeyToSend) { try (var suffixKey = suffixKeyToSend.receive()) { assert suffixKeyLengthConsistency(suffixKey.readableBytes()); if (keyPrefix.readableBytes() > 0) { try (var result = LLUtils.compositeBuffer(dictionary.getAllocator(), LLUtils.copy(dictionary.getAllocator(), keyPrefix), suffixKey.send() )) { assert result.readableBytes() == keyPrefixLength + keySuffixLength + keyExtLength; return result.send(); } } else { assert suffixKey.readableBytes() == keyPrefixLength + keySuffixLength + keyExtLength; return suffixKey.send(); } } } @Override public Mono> get(@Nullable CompositeSnapshot snapshot, boolean existsAlmostCertainly) { return dictionary .getRange(resolveSnapshot(snapshot), rangeMono, existsAlmostCertainly) .>handle((entrySend, sink) -> { Entry deserializedEntry; try { try (var entry = entrySend.receive()) { T key; try (var serializedKey = entry.getKey().receive()) { splitPrefix(serializedKey).close(); suffixKeyLengthConsistency(serializedKey.readableBytes()); key = deserializeSuffix(serializedKey); } U value; try (var valueBuf = entry.getValue().receive()) { value = valueSerializer.deserialize(valueBuf); } deserializedEntry = Map.entry(key, value); } sink.next(deserializedEntry); } catch (Throwable ex) { sink.error(ex); } }) .collectMap(Entry::getKey, Entry::getValue, HashMap::new) .filter(map -> !map.isEmpty()); } @Override public Mono> setAndGetPrevious(Map value) { return this .get(null, false) .concatWith(dictionary.setRange(rangeMono, Flux .fromIterable(Collections.unmodifiableMap(value).entrySet()) .handle(this::serializeEntrySink) ).then(Mono.empty())) .singleOrEmpty() .transform(LLUtils::handleDiscard); } @Override public Mono> clearAndGetPrevious() { return this .setAndGetPrevious(Map.of()); } @Override public Mono leavesCount(@Nullable CompositeSnapshot snapshot, boolean fast) { return dictionary.sizeRange(resolveSnapshot(snapshot), rangeMono, fast); } @Override public Mono isEmpty(@Nullable CompositeSnapshot snapshot) { return dictionary.isRangeEmpty(resolveSnapshot(snapshot), rangeMono); } @Override public Mono> at(@Nullable CompositeSnapshot snapshot, T keySuffix) { return Mono.fromCallable(() -> new DatabaseSingle<>(dictionary, serializeKeySuffixToKey(keySuffix), valueSerializer, null)); } @Override public Mono getValue(@Nullable CompositeSnapshot snapshot, T keySuffix, boolean existsAlmostCertainly) { return dictionary .get(resolveSnapshot(snapshot), Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)), existsAlmostCertainly ) .handle(this::deserializeValue); } @Override public Mono putValue(T keySuffix, U value) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)).single(); var valueMono = Mono.fromCallable(() -> serializeValue(value)).single(); return dictionary .put(keyMono, valueMono, LLDictionaryResultType.VOID) .doOnNext(Send::close) .then(); } @Override public Mono getUpdateMode() { return dictionary.getUpdateMode(); } @Override public Mono updateValue(T keySuffix, UpdateReturnMode updateReturnMode, boolean existsAlmostCertainly, SerializationFunction<@Nullable U, @Nullable U> updater) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); return dictionary .update(keyMono, getSerializedUpdater(updater), updateReturnMode, existsAlmostCertainly) .handle(this::deserializeValue); } @Override public Mono> updateValueAndGetDelta(T keySuffix, boolean existsAlmostCertainly, SerializationFunction<@Nullable U, @Nullable U> updater) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); return dictionary .updateAndGetDelta(keyMono, getSerializedUpdater(updater), existsAlmostCertainly) .transform(mono -> LLUtils.mapLLDelta(mono, serializedToReceive -> { try (var serialized = serializedToReceive.receive()) { return valueSerializer.deserialize(serialized); } })); } public SerializationFunction<@Nullable Send, @Nullable Send> getSerializedUpdater( SerializationFunction<@Nullable U, @Nullable U> updater) { return oldSerialized -> { try (oldSerialized) { U result; if (oldSerialized == null) { result = updater.apply(null); } else { try (var oldSerializedReceived = oldSerialized.receive()) { result = updater.apply(valueSerializer.deserialize(oldSerializedReceived)); } } if (result == null) { return null; } else { return serializeValue(result); } } }; } public KVSerializationFunction<@NotNull T, @Nullable Send, @Nullable Send> getSerializedUpdater( KVSerializationFunction<@NotNull T, @Nullable U, @Nullable U> updater) { return (key, oldSerialized) -> { try (oldSerialized) { U result; if (oldSerialized == null) { result = updater.apply(key, null); } else { try (var oldSerializedReceived = oldSerialized.receive()) { result = updater.apply(key, valueSerializer.deserialize(oldSerializedReceived)); } } if (result == null) { return null; } else { return serializeValue(result); } } }; } @Override public Mono putValueAndGetPrevious(T keySuffix, U value) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); var valueMono = Mono.fromCallable(() -> serializeValue(value)); return dictionary.put(keyMono, valueMono, LLDictionaryResultType.PREVIOUS_VALUE).handle(this::deserializeValue); } @Override public Mono putValueAndGetChanged(T keySuffix, U value) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); var valueMono = Mono.fromCallable(() -> serializeValue(value)); return dictionary .put(keyMono, valueMono, LLDictionaryResultType.PREVIOUS_VALUE) .handle(this::deserializeValue) .map(oldValue -> !Objects.equals(oldValue, value)) .defaultIfEmpty(value != null); } @Override public Mono remove(T keySuffix) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); return dictionary .remove(keyMono, LLDictionaryResultType.VOID) .doOnNext(Send::close) .then(); } @Override public Mono removeAndGetPrevious(T keySuffix) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); return dictionary.remove(keyMono, LLDictionaryResultType.PREVIOUS_VALUE).handle(this::deserializeValue); } @Override public Mono removeAndGetStatus(T keySuffix) { var keyMono = Mono.fromCallable(() -> serializeKeySuffixToKey(keySuffix)); return dictionary .remove(keyMono, LLDictionaryResultType.PREVIOUS_VALUE_EXISTENCE) .map(LLUtils::responseToBoolean); } @Override public Flux> getMulti(@Nullable CompositeSnapshot snapshot, Flux keys, boolean existsAlmostCertainly) { var mappedKeys = keys .>handle((keySuffix, sink) -> { try { var buf = serializeKeySuffixToKey(keySuffix); sink.next(buf); } catch (Throwable ex) { sink.error(ex); } }); return dictionary .getMulti(resolveSnapshot(snapshot), mappedKeys, existsAlmostCertainly) .>handle((valueBufOpt, sink) -> { try { Optional valueOpt; if (valueBufOpt.isPresent()) { try (var buf = valueBufOpt.get().receive()) { valueOpt = Optional.of(valueSerializer.deserialize(buf)); } } else { valueOpt = Optional.empty(); } sink.next(valueOpt); } catch (Throwable ex) { sink.error(ex); } finally { valueBufOpt.ifPresent(Send::close); } }) .transform(LLUtils::handleDiscard); } private Send serializeEntry(T keySuffix, U value) throws SerializationException { try (var key = serializeKeySuffixToKey(keySuffix)) { try (var serializedValue = serializeValue(value)) { return LLEntry.of(key, serializedValue).send(); } } } private void serializeEntrySink(Entry entry, SynchronousSink> sink) { try { sink.next(serializeEntry(entry.getKey(), entry.getValue())); } catch (Throwable e) { sink.error(e); } } @Override public Mono putMulti(Flux> entries) { var serializedEntries = entries .>handle((entry, sink) -> { try { sink.next(serializeEntry(entry.getKey(), entry.getValue())); } catch (Throwable e) { sink.error(e); } }) .doOnDiscard(Send.class, Send::close) .doOnDiscard(Resource.class, Resource::close); return dictionary .putMulti(serializedEntries, false) .then() .doOnDiscard(Send.class, Send::close) .doOnDiscard(Resource.class, Resource::close) .doOnDiscard(LLEntry.class, ResourceSupport::close) .doOnDiscard(List.class, list -> { for (Object o : list) { if (o instanceof Send send) { send.close(); } else if (o instanceof Buffer buf) { buf.close(); } } }); } @Override public Flux updateMulti(Flux keys, KVSerializationFunction updater) { var sharedKeys = keys.publish().refCount(2); var serializedKeys = sharedKeys .>handle((key, sink) -> { try { Send serializedKey = serializeKeySuffixToKey(key); sink.next(serializedKey); } catch (Throwable ex) { sink.error(ex); } }) .doOnDiscard(Tuple2.class, uncastedEntry -> { if (uncastedEntry.getT1() instanceof Buffer byteBuf) { byteBuf.close(); } if (uncastedEntry.getT2() instanceof Buffer byteBuf) { byteBuf.close(); } }); var serializedUpdater = getSerializedUpdater(updater); return dictionary.updateMulti(sharedKeys, serializedKeys, serializedUpdater); } @Override public Flux>> getAllStages(@Nullable CompositeSnapshot snapshot) { return dictionary .getRangeKeys(resolveSnapshot(snapshot), rangeMono) .handle((keyBufToReceive, sink) -> { try (var keyBuf = keyBufToReceive.receive()) { assert keyBuf.readableBytes() == keyPrefixLength + keySuffixLength + keyExtLength; // Remove prefix. Keep only the suffix and the ext splitPrefix(keyBuf).close(); suffixKeyLengthConsistency(keyBuf.readableBytes()); T keySuffix; try (var keyBufCopy = keyBuf.copy()) { keySuffix = deserializeSuffix(keyBufCopy); } var subStage = new DatabaseSingle<>(dictionary, toKey(keyBuf.send()), valueSerializer, null); sink.next(Map.entry(keySuffix, subStage)); } catch (Throwable ex) { sink.error(ex); } }); } @Override public Flux> getAllValues(@Nullable CompositeSnapshot snapshot) { return dictionary .getRange(resolveSnapshot(snapshot), rangeMono) .>handle((serializedEntryToReceive, sink) -> { try { Entry entry; try (var serializedEntry = serializedEntryToReceive.receive()) { try (var keyBuf = serializedEntry.getKey().receive()) { assert keyBuf.readableBytes() == keyPrefixLength + keySuffixLength + keyExtLength; // Remove prefix. Keep only the suffix and the ext splitPrefix(keyBuf).close(); suffixKeyLengthConsistency(keyBuf.readableBytes()); T keySuffix = deserializeSuffix(keyBuf); U value; try (var valueBuf = serializedEntry.getValue().receive()) { value = valueSerializer.deserialize(valueBuf); } entry = Map.entry(keySuffix, value); } } sink.next(entry); } catch (Throwable e) { sink.error(e); } }) .doOnDiscard(Entry.class, uncastedEntry -> { if (uncastedEntry.getKey() instanceof Buffer byteBuf) { byteBuf.close(); } if (uncastedEntry.getValue() instanceof Buffer byteBuf) { byteBuf.close(); } }); } @Override public Flux> setAllValuesAndGetPrevious(Flux> entries) { return Flux.concat( this.getAllValues(null), dictionary.setRange(rangeMono, entries.handle(this::serializeEntrySink)).then(Mono.empty()) ); } @Override public Mono clear() { if (range.isAll()) { return dictionary.clear(); } else if (range.isSingle()) { return dictionary .remove(Mono.fromCallable(range::getSingle), LLDictionaryResultType.VOID) .doOnNext(Send::close) .then(); } else { return dictionary.setRange(rangeMono, Flux.empty()); } } }