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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.cassandra.db.view;
import java.util.*;
import java.util.stream.Collectors;
import javax.annotation.Nullable;
import com.google.common.collect.Iterables;
import org.apache.cassandra.cql3.*;
import org.apache.cassandra.cql3.statements.ParsedStatement;
import org.apache.cassandra.cql3.statements.SelectStatement;
import org.apache.cassandra.db.*;
import org.apache.cassandra.config.*;
import org.apache.cassandra.db.compaction.CompactionManager;
import org.apache.cassandra.db.rows.*;
import org.apache.cassandra.schema.KeyspaceMetadata;
import org.apache.cassandra.service.ClientState;
import org.apache.cassandra.utils.FBUtilities;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* A View copies data from a base table into a view table which can be queried independently from the
* base. Every update which targets the base table must be fed through the {@link ViewManager} to ensure
* that if a view needs to be updated, the updates are properly created and fed into the view.
*/
public class View
{
private static final Logger logger = LoggerFactory.getLogger(View.class);
public final String name;
private volatile ViewDefinition definition;
private final ColumnFamilyStore baseCfs;
public volatile List baseNonPKColumnsInViewPK;
private ViewBuilder builder;
// Only the raw statement can be final, because the statement cannot always be prepared when the MV is initialized.
// For example, during startup, this view will be initialized as part of the Keyspace.open() work; preparing a statement
// also requires the keyspace to be open, so this results in double-initialization problems.
private final SelectStatement.RawStatement rawSelect;
private SelectStatement select;
private ReadQuery query;
public View(ViewDefinition definition,
ColumnFamilyStore baseCfs)
{
this.baseCfs = baseCfs;
this.name = definition.viewName;
this.rawSelect = definition.select;
updateDefinition(definition);
}
public ViewDefinition getDefinition()
{
return definition;
}
/**
* This updates the columns stored which are dependent on the base CFMetaData.
*/
public void updateDefinition(ViewDefinition definition)
{
this.definition = definition;
List nonPKDefPartOfViewPK = new ArrayList<>();
for (ColumnDefinition baseColumn : baseCfs.metadata.allColumns())
{
ColumnDefinition viewColumn = getViewColumn(baseColumn);
if (viewColumn != null && !baseColumn.isPrimaryKeyColumn() && viewColumn.isPrimaryKeyColumn())
nonPKDefPartOfViewPK.add(baseColumn);
}
this.baseNonPKColumnsInViewPK = nonPKDefPartOfViewPK;
}
/**
* The view column corresponding to the provided base column. This can
* return {@code null} if the column is denormalized in the view.
*/
public ColumnDefinition getViewColumn(ColumnDefinition baseColumn)
{
return definition.metadata.getColumnDefinition(baseColumn.name);
}
/**
* The base column corresponding to the provided view column. This should
* never return {@code null} since a view can't have its "own" columns.
*/
public ColumnDefinition getBaseColumn(ColumnDefinition viewColumn)
{
ColumnDefinition baseColumn = baseCfs.metadata.getColumnDefinition(viewColumn.name);
assert baseColumn != null;
return baseColumn;
}
/**
* Whether the view might be affected by the provided update.
*
* Note that having this method return {@code true} is not an absolute guarantee that the view will be
* updated, just that it most likely will, but a {@code false} return guarantees it won't be affected).
*
* @param partitionKey the partition key that is updated.
* @param update the update being applied.
* @return {@code false} if we can guarantee that inserting {@code update} for key {@code partitionKey}
* won't affect the view in any way, {@code true} otherwise.
*/
public boolean mayBeAffectedBy(DecoratedKey partitionKey, Row update)
{
// We can guarantee that the view won't be affected if:
// - the clustering is excluded by the view filter (note that this isn't true of the filter on regular columns:
// even if an update don't match a view condition on a regular column, that update can still invalidate an pre-existing
// entry).
// - or the update don't modify any of the columns impacting the view (where "impacting" the view means that column is
// neither included in the view, nor used by the view filter).
if (!getReadQuery().selectsClustering(partitionKey, update.clustering()))
return false;
return true;
}
/**
* Whether a given base row matches the view filter (and thus if is should have a corresponding entry).
*
* Note that this differs from {@link #mayBeAffectedBy} in that the provide row must be the current
* state of the base row, not just some updates to it. This method also has no false positive: a base
* row either do or don't match the view filter.
*
* @param partitionKey the partition key that is updated.
* @param baseRow the current state of a particular base row.
* @param nowInSec the current time in seconds (to decide what is live and what isn't).
* @return {@code true} if {@code baseRow} matches the view filters, {@code false} otherwise.
*/
public boolean matchesViewFilter(DecoratedKey partitionKey, Row baseRow, int nowInSec)
{
return getReadQuery().selectsClustering(partitionKey, baseRow.clustering())
&& getSelectStatement().rowFilterForInternalCalls().isSatisfiedBy(baseCfs.metadata, partitionKey, baseRow, nowInSec);
}
/**
* Returns the SelectStatement used to populate and filter this view. Internal users should access the select
* statement this way to ensure it has been prepared.
*/
public SelectStatement getSelectStatement()
{
if (select == null)
{
ClientState state = ClientState.forInternalCalls();
state.setKeyspace(baseCfs.keyspace.getName());
rawSelect.prepareKeyspace(state);
ParsedStatement.Prepared prepared = rawSelect.prepare(true);
select = (SelectStatement) prepared.statement;
}
return select;
}
/**
* Returns the ReadQuery used to filter this view. Internal users should access the query this way to ensure it
* has been prepared.
*/
public ReadQuery getReadQuery()
{
if (query == null)
{
query = getSelectStatement().getQuery(QueryOptions.forInternalCalls(Collections.emptyList()), FBUtilities.nowInSeconds());
logger.trace("View query: {}", rawSelect);
}
return query;
}
public synchronized void build()
{
if (this.builder != null)
{
logger.debug("Stopping current view builder due to schema change");
this.builder.stop();
this.builder = null;
}
this.builder = new ViewBuilder(baseCfs, this);
CompactionManager.instance.submitViewBuilder(builder);
}
@Nullable
public static CFMetaData findBaseTable(String keyspace, String viewName)
{
ViewDefinition view = Schema.instance.getView(keyspace, viewName);
return (view == null) ? null : Schema.instance.getCFMetaData(view.baseTableId);
}
public static Iterable findAll(String keyspace, String baseTable)
{
KeyspaceMetadata ksm = Schema.instance.getKSMetaData(keyspace);
final UUID baseId = Schema.instance.getId(keyspace, baseTable);
return Iterables.filter(ksm.views, view -> view.baseTableId.equals(baseId));
}
/**
* Builds the string text for a materialized view's SELECT statement.
*/
public static String buildSelectStatement(String cfName, Collection includedColumns, String whereClause)
{
StringBuilder rawSelect = new StringBuilder("SELECT ");
if (includedColumns == null || includedColumns.isEmpty())
rawSelect.append("*");
else
rawSelect.append(includedColumns.stream().map(id -> id.name.toCQLString()).collect(Collectors.joining(", ")));
rawSelect.append(" FROM \"").append(cfName).append("\" WHERE ") .append(whereClause).append(" ALLOW FILTERING");
return rawSelect.toString();
}
public static String relationsToWhereClause(List whereClause)
{
List expressions = new ArrayList<>(whereClause.size());
for (Relation rel : whereClause)
{
StringBuilder sb = new StringBuilder();
if (rel.isMultiColumn())
{
sb.append(((MultiColumnRelation) rel).getEntities().stream()
.map(ColumnDefinition.Raw::toString)
.collect(Collectors.joining(", ", "(", ")")));
}
else
{
sb.append(((SingleColumnRelation) rel).getEntity());
}
sb.append(" ").append(rel.operator()).append(" ");
if (rel.isIN())
{
sb.append(rel.getInValues().stream()
.map(Term.Raw::getText)
.collect(Collectors.joining(", ", "(", ")")));
}
else
{
sb.append(rel.getValue().getText());
}
expressions.add(sb.toString());
}
return expressions.stream().collect(Collectors.joining(" AND "));
}
public boolean hasSamePrimaryKeyColumnsAsBaseTable()
{
return baseNonPKColumnsInViewPK.isEmpty();
}
/**
* When views contains a primary key column that is not part
* of the base table primary key, we use that column liveness
* info as the view PK, to ensure that whenever that column
* is not live in the base, the row is not live in the view.
*
* This is done to prevent cells other than the view PK from
* making the view row alive when the view PK column is not
* live in the base. So in this case we tie the row liveness,
* to the primary key liveness.
*
* See CASSANDRA-11500 for context.
*/
public boolean enforceStrictLiveness()
{
return !baseNonPKColumnsInViewPK.isEmpty();
}
}