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TriggerExecutor
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instance: TriggerExecutor
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cachedTriggers: Map<String, ITrigger>
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parent: ClassLoader
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customClassLoader: ClassLoader
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TriggerExecutor(): void
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reloadClasses(): void
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execute(PartitionUpdate): PartitionUpdate
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execute(Collection<IMutation>): Collection<Mutation>
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mergeMutations(Iterable<Mutation>): Collection<Mutation>
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validateForSinglePartition(UUID, DecoratedKey, Collection<Mutation>): List<PartitionUpdate>
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validateSamePartition(UUID, DecoratedKey, PartitionUpdate): void
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validate(Collection<Mutation>): void
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executeInternal(PartitionUpdate): List<Mutation>
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loadTriggerInstance(String): ITrigger
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- Andres de la Peña
- Avinash Lakshman
- Aleksey Yeschenko
- Aaron Morton
- Ariel Weisberg
- Blake Eggleston
- Benedict Elliott Smith
- Benjamin Lerer
- Branimir Lambov
- Brandon Williams
- Carl Yeksigian
- David Brosiusd
- Dikang Gu
- Eric Evans
- Gary Dusbabek
- Chris Goffinet
- Alex Petrov
- Laine Jaakko Olavi
- T Jake Luciani
- Jason Brown
- Jonathan Ellis
- Jake Farrell
- Jeff Jirsa
- Joel Knighton
- Josh McKenzie
- Johan Oskarsson
- Jun Rao
- Jay Zhuang
- Sankalp Kohli
- Marcus Eriksson
- Michael Semb Wever
- Mikhail Stepura
- Michael Shuler
- Paulo Motta
- Prashant Malik
- Robert Stupp
- Peter Schuller
- Sam Tunnicliffe
- Sylvain Lebresne
- Stefania Alborghetti
- Tyler Hobbs
- Vijay Parthasarathy
- Pavel Yaskevich
- Yuki Morishita
- Nate McCall
/*
* 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.cassandra.triggers;
import java.io.File;
import java.nio.ByteBuffer;
import java.util.*;
import com.google.common.collect.ArrayListMultimap;
import com.google.common.collect.Iterables;
import com.google.common.collect.Lists;
import com.google.common.collect.ListMultimap;
import com.google.common.collect.Maps;
import org.apache.cassandra.cql3.QueryProcessor;
import org.apache.cassandra.db.*;
import org.apache.cassandra.db.partitions.PartitionUpdate;
import org.apache.cassandra.exceptions.CassandraException;
import org.apache.cassandra.exceptions.InvalidRequestException;
import org.apache.cassandra.schema.TriggerMetadata;
import org.apache.cassandra.schema.Triggers;
import org.apache.cassandra.utils.FBUtilities;
import org.apache.cassandra.utils.Pair;
public class TriggerExecutor
{
public static final TriggerExecutor instance = new TriggerExecutor();
private final Map<String, ITrigger> cachedTriggers = Maps.newConcurrentMap();
private final ClassLoader parent = Thread.currentThread().getContextClassLoader();
private volatile ClassLoader customClassLoader;
private TriggerExecutor()
{
reloadClasses();
}
Reload the triggers which is already loaded, Invoking this will update
the class loader so new jars can be loaded.
/**
* Reload the triggers which is already loaded, Invoking this will update
* the class loader so new jars can be loaded.
*/
public void reloadClasses()
{
File triggerDirectory = FBUtilities.cassandraTriggerDir();
if (triggerDirectory == null)
return;
customClassLoader = new CustomClassLoader(parent, triggerDirectory);
cachedTriggers.clear();
}
Augment a partition update by executing triggers to generate an intermediate
set of mutations, then merging the update from each mutation with those
supplied. This is called from @{link org.apache.cassandra.service.StorageProxy#cas}
which is scoped for a single partition. For that reason, any mutations generated
by triggers are checked to ensure that they are for the same table and partition
key as the primary update; if not, InvalidRequestException is thrown. If no
additional mutations are generated, the original updates are returned unmodified.
Params: - updates – partition update to be applied, contains the merge of the original
update and any generated mutations
Throws: - InvalidRequestException – if any mutation generated by a trigger does not
apply to the exact same partition as the initial update
Returns: the final update to be applied, the original update merged with any
additional mutations generated by configured triggers
/**
* Augment a partition update by executing triggers to generate an intermediate
* set of mutations, then merging the update from each mutation with those
* supplied. This is called from @{link org.apache.cassandra.service.StorageProxy#cas}
* which is scoped for a single partition. For that reason, any mutations generated
* by triggers are checked to ensure that they are for the same table and partition
* key as the primary update; if not, InvalidRequestException is thrown. If no
* additional mutations are generated, the original updates are returned unmodified.
*
* @param updates partition update to be applied, contains the merge of the original
* update and any generated mutations
* @return the final update to be applied, the original update merged with any
* additional mutations generated by configured triggers
* @throws InvalidRequestException if any mutation generated by a trigger does not
* apply to the exact same partition as the initial update
*/
public PartitionUpdate execute(PartitionUpdate updates) throws InvalidRequestException
{
List<Mutation> intermediate = executeInternal(updates);
if (intermediate == null || intermediate.isEmpty())
return updates;
List<PartitionUpdate> augmented = validateForSinglePartition(updates.metadata().cfId,
updates.partitionKey(),
intermediate);
// concatenate augmented and origin
augmented.add(updates);
return PartitionUpdate.merge(augmented);
}
Takes a collection of mutations and possibly augments it by adding extra mutations
generated by configured triggers. If no additional mutations are created
this returns null, signalling to the caller that only the initial set of
mutations should be applied. If additional mutations are generated,
the total set (i.e. the original plus the additional mutations) are applied
together in a logged batch. Should this not be possible because the initial
mutations contain counter updates, InvalidRequestException is thrown.
Params: - mutations – initial collection of mutations
Throws: - InvalidRequestException – if additional mutations were generated, but
the initial mutations contains counter updates
Returns: augmented mutations. Either the union of the initial and additional
mutations or null if no additional mutations were generated
/**
* Takes a collection of mutations and possibly augments it by adding extra mutations
* generated by configured triggers. If no additional mutations are created
* this returns null, signalling to the caller that only the initial set of
* mutations should be applied. If additional mutations <i>are</i> generated,
* the total set (i.e. the original plus the additional mutations) are applied
* together in a logged batch. Should this not be possible because the initial
* mutations contain counter updates, InvalidRequestException is thrown.
*
* @param mutations initial collection of mutations
* @return augmented mutations. Either the union of the initial and additional
* mutations or null if no additional mutations were generated
* @throws InvalidRequestException if additional mutations were generated, but
* the initial mutations contains counter updates
*/
public Collection<Mutation> execute(Collection<? extends IMutation> mutations) throws InvalidRequestException
{
boolean hasCounters = false;
List<Mutation> augmentedMutations = null;
for (IMutation mutation : mutations)
{
if (mutation instanceof CounterMutation)
hasCounters = true;
for (PartitionUpdate upd : mutation.getPartitionUpdates())
{
List<Mutation> augmentations = executeInternal(upd);
if (augmentations == null || augmentations.isEmpty())
continue;
validate(augmentations);
if (augmentedMutations == null)
augmentedMutations = new LinkedList<>();
augmentedMutations.addAll(augmentations);
}
}
if (augmentedMutations == null)
return null;
if (hasCounters)
throw new InvalidRequestException("Counter mutations and trigger mutations cannot be applied together atomically.");
@SuppressWarnings("unchecked")
Collection<Mutation> originalMutations = (Collection<Mutation>) mutations;
return mergeMutations(Iterables.concat(originalMutations, augmentedMutations));
}
private Collection<Mutation> mergeMutations(Iterable<Mutation> mutations)
{
ListMultimap<Pair<String, ByteBuffer>, Mutation> groupedMutations = ArrayListMultimap.create();
for (Mutation mutation : mutations)
{
Pair<String, ByteBuffer> key = Pair.create(mutation.getKeyspaceName(), mutation.key().getKey());
groupedMutations.put(key, mutation);
}
List<Mutation> merged = new ArrayList<>(groupedMutations.size());
for (Pair<String, ByteBuffer> key : groupedMutations.keySet())
merged.add(Mutation.merge(groupedMutations.get(key)));
return merged;
}
private List<PartitionUpdate> validateForSinglePartition(UUID cfId,
DecoratedKey key,
Collection<Mutation> tmutations)
throws InvalidRequestException
{
validate(tmutations);
if (tmutations.size() == 1)
{
List<PartitionUpdate> updates = Lists.newArrayList(Iterables.getOnlyElement(tmutations).getPartitionUpdates());
if (updates.size() > 1)
throw new InvalidRequestException("The updates generated by triggers are not all for the same partition");
validateSamePartition(cfId, key, Iterables.getOnlyElement(updates));
return updates;
}
ArrayList<PartitionUpdate> updates = new ArrayList<>(tmutations.size());
for (Mutation mutation : tmutations)
{
for (PartitionUpdate update : mutation.getPartitionUpdates())
{
validateSamePartition(cfId, key, update);
updates.add(update);
}
}
return updates;
}
private void validateSamePartition(UUID cfId, DecoratedKey key, PartitionUpdate update)
throws InvalidRequestException
{
if (!key.equals(update.partitionKey()))
throw new InvalidRequestException("Partition key of additional mutation does not match primary update key");
if (!cfId.equals(update.metadata().cfId))
throw new InvalidRequestException("table of additional mutation does not match primary update table");
}
private void validate(Collection<Mutation> tmutations) throws InvalidRequestException
{
for (Mutation mutation : tmutations)
{
QueryProcessor.validateKey(mutation.key().getKey());
for (PartitionUpdate update : mutation.getPartitionUpdates())
update.validate();
}
}
Switch class loader before using the triggers for the column family, if
not loaded them with the custom class loader.
/**
* Switch class loader before using the triggers for the column family, if
* not loaded them with the custom class loader.
*/
private List<Mutation> executeInternal(PartitionUpdate update)
{
Triggers triggers = update.metadata().getTriggers();
if (triggers.isEmpty())
return null;
List<Mutation> tmutations = Lists.newLinkedList();
Thread.currentThread().setContextClassLoader(customClassLoader);
try
{
for (TriggerMetadata td : triggers)
{
ITrigger trigger = cachedTriggers.get(td.classOption);
if (trigger == null)
{
trigger = loadTriggerInstance(td.classOption);
cachedTriggers.put(td.classOption, trigger);
}
Collection<Mutation> temp = trigger.augment(update);
if (temp != null)
tmutations.addAll(temp);
}
return tmutations;
}
catch (CassandraException ex)
{
throw ex;
}
catch (Exception ex)
{
throw new RuntimeException(String.format("Exception while executing trigger on table with ID: %s", update.metadata().cfId), ex);
}
finally
{
Thread.currentThread().setContextClassLoader(parent);
}
}
public synchronized ITrigger loadTriggerInstance(String triggerName) throws Exception
{
// double check.
if (cachedTriggers.get(triggerName) != null)
return cachedTriggers.get(triggerName);
return (ITrigger) customClassLoader.loadClass(triggerName).getConstructor().newInstance();
}
}