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The Apache Cassandra Project develops a highly scalable second-generation distributed database, bringing together Dynamo's fully distributed design and Bigtable's ColumnFamily-based data model.

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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,
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package org.apache.cassandra.db;

import java.io.IOException;
import java.nio.ByteBuffer;

import org.apache.cassandra.schema.ColumnMetadata;
import org.apache.cassandra.schema.TableMetadata;
import org.apache.cassandra.db.filter.*;
import org.apache.cassandra.db.marshal.AbstractType;
import org.apache.cassandra.db.marshal.CompositeType;
import org.apache.cassandra.dht.*;
import org.apache.cassandra.io.util.DataInputPlus;
import org.apache.cassandra.io.util.DataOutputPlus;

/**
 * Groups both the range of partitions to query, and the clustering index filter to
 * apply for each partition (for a (partition) range query).
 * 

* The main "trick" is that the clustering index filter can only be obtained by * providing the partition key on which the filter will be applied. This is * necessary when paging range queries, as we might need a different filter * for the starting key than for other keys (because the previous page we had * queried may have ended in the middle of a partition). */ public class DataRange { public static final Serializer serializer = new Serializer(); protected final AbstractBounds keyRange; protected final ClusteringIndexFilter clusteringIndexFilter; /** * Creates a {@code DataRange} given a range of partition keys and a clustering index filter. The * return {@code DataRange} will return the same filter for all keys. * * @param range the range over partition keys to use. * @param clusteringIndexFilter the clustering index filter to use. */ public DataRange(AbstractBounds range, ClusteringIndexFilter clusteringIndexFilter) { this.keyRange = range; this.clusteringIndexFilter = clusteringIndexFilter; } /** * Creates a {@code DataRange} to query all data (over the whole ring). * * @param partitioner the partitioner in use for the table. * * @return the newly create {@code DataRange}. */ public static DataRange allData(IPartitioner partitioner) { return forTokenRange(new Range<>(partitioner.getMinimumToken(), partitioner.getMinimumToken())); } /** * Creates a {@code DataRange} to query all rows over the provided token range. * * @param tokenRange the (partition key) token range to query. * * @return the newly create {@code DataRange}. */ public static DataRange forTokenRange(Range tokenRange) { return forKeyRange(Range.makeRowRange(tokenRange)); } /** * Creates a {@code DataRange} to query all rows over the provided key range. * * @param keyRange the (partition key) range to query. * * @return the newly create {@code DataRange}. */ public static DataRange forKeyRange(Range keyRange) { return new DataRange(keyRange, new ClusteringIndexSliceFilter(Slices.ALL, false)); } /** * Creates a {@code DataRange} to query all partitions of the ring using the provided * clustering index filter. * * @param partitioner the partitioner in use for the table queried. * @param filter the clustering index filter to use. * * @return the newly create {@code DataRange}. */ public static DataRange allData(IPartitioner partitioner, ClusteringIndexFilter filter) { return new DataRange(Range.makeRowRange(new Range<>(partitioner.getMinimumToken(), partitioner.getMinimumToken())), filter); } /** * The range of partition key queried by this {@code DataRange}. * * @return the range of partition key queried by this {@code DataRange}. */ public AbstractBounds keyRange() { return keyRange; } /** * The start of the partition key range queried by this {@code DataRange}. * * @return the start of the partition key range queried by this {@code DataRange}. */ public PartitionPosition startKey() { return keyRange.left; } /** * The end of the partition key range queried by this {@code DataRange}. * * @return the end of the partition key range queried by this {@code DataRange}. */ public PartitionPosition stopKey() { return keyRange.right; } /** * Whether the underlying clustering index filter is a names filter or not. * * @return Whether the underlying clustering index filter is a names filter or not. */ public boolean isNamesQuery() { return clusteringIndexFilter instanceof ClusteringIndexNamesFilter; } /** * Whether the data range is for a paged request or not. * * @return true if for paging, false otherwise */ public boolean isPaging() { return false; } /** * Whether the range queried by this {@code DataRange} actually wraps around. * * @return whether the range queried by this {@code DataRange} actually wraps around. */ public boolean isWrapAround() { // Only range can ever wrap return keyRange instanceof Range && ((Range)keyRange).isWrapAround(); } /** * Whether the provided ring position is covered by this {@code DataRange}. * * @return whether the provided ring position is covered by this {@code DataRange}. */ public boolean contains(PartitionPosition pos) { return keyRange.contains(pos); } /** * Whether this {@code DataRange} queries everything (has no restriction neither on the * partition queried, nor within the queried partition). * * @return Whether this {@code DataRange} queries everything. */ public boolean isUnrestricted(TableMetadata metadata) { return startKey().isMinimum() && stopKey().isMinimum() && (clusteringIndexFilter.selectsAllPartition() || metadata.clusteringColumns().isEmpty()); } public boolean selectsAllPartition() { return clusteringIndexFilter.selectsAllPartition(); } /** * Whether the underlying {@code ClusteringIndexFilter} is reversed or not. * * @return whether the underlying {@code ClusteringIndexFilter} is reversed or not. */ public boolean isReversed() { return clusteringIndexFilter.isReversed(); } /** * The clustering index filter to use for the provided key. *

* This may or may not be the same filter for all keys (that is, paging range * use a different filter for their start key). * * @param key the partition key for which we want the clustering index filter. * * @return the clustering filter to use for {@code key}. */ public ClusteringIndexFilter clusteringIndexFilter(DecoratedKey key) { return clusteringIndexFilter; } /** * Returns a new {@code DataRange} for use when paging {@code this} range. * * @param range the range of partition keys to query. * @param comparator the comparator for the table queried. * @param lastReturned the clustering for the last result returned by the previous page, i.e. the result we want to start our new page * from. This last returned must correspond to left bound of {@code range} (in other words, {@code range.left} must be the * partition key for that {@code lastReturned} result). * @param inclusive whether or not we want to include the {@code lastReturned} in the newly returned page of results. * * @return a new {@code DataRange} suitable for paging {@code this} range given the {@code lastRetuned} result of the previous page. */ public DataRange forPaging(AbstractBounds range, ClusteringComparator comparator, Clustering lastReturned, boolean inclusive) { return new Paging(range, clusteringIndexFilter, comparator, lastReturned, inclusive); } /** * Returns a new {@code DataRange} equivalent to {@code this} one but restricted to the provided sub-range. * * @param range the sub-range to use for the newly returned data range. Note that assumes that {@code range} is a proper * sub-range of the initial range but doesn't validate it. You should make sure to only provided sub-ranges however or this * might throw off the paging case (see Paging.forSubRange()). * * @return a new {@code DataRange} using {@code range} as partition key range and the clustering index filter filter from {@code this}. */ public DataRange forSubRange(AbstractBounds range) { return new DataRange(range, clusteringIndexFilter); } public String toString(TableMetadata metadata) { return String.format("range=%s pfilter=%s", keyRange.getString(metadata.partitionKeyType), clusteringIndexFilter.toString(metadata)); } public String toCQLString(TableMetadata metadata, RowFilter rowFilter) { if (isUnrestricted(metadata)) return rowFilter.toCQLString(); StringBuilder sb = new StringBuilder(); boolean needAnd = false; if (!startKey().isMinimum()) { appendClause(startKey(), sb, metadata, true, keyRange.isStartInclusive()); needAnd = true; } if (!stopKey().isMinimum()) { if (needAnd) sb.append(" AND "); appendClause(stopKey(), sb, metadata, false, keyRange.isEndInclusive()); needAnd = true; } String filterString = clusteringIndexFilter.toCQLString(metadata, rowFilter); if (!filterString.isEmpty()) sb.append(needAnd ? " AND " : "").append(filterString); return sb.toString(); } private void appendClause(PartitionPosition pos, StringBuilder sb, TableMetadata metadata, boolean isStart, boolean isInclusive) { sb.append("token("); sb.append(ColumnMetadata.toCQLString(metadata.partitionKeyColumns())); sb.append(") "); if (pos instanceof DecoratedKey) { sb.append(getOperator(isStart, isInclusive)).append(" "); sb.append("token("); appendKeyString(sb, metadata.partitionKeyType, ((DecoratedKey)pos).getKey()); sb.append(")"); } else { Token.KeyBound keyBound = (Token.KeyBound) pos; sb.append(getOperator(isStart, isStart == keyBound.isMinimumBound)).append(" "); sb.append(keyBound.getToken()); } } private static String getOperator(boolean isStart, boolean isInclusive) { return isStart ? (isInclusive ? ">=" : ">") : (isInclusive ? "<=" : "<"); } public static void appendKeyString(StringBuilder sb, AbstractType type, ByteBuffer key) { if (type instanceof CompositeType) { CompositeType ct = (CompositeType)type; ByteBuffer[] values = ct.split(key); for (int i = 0; i < ct.types.size(); i++) sb.append(i == 0 ? "" : ", ").append(ct.types.get(i).toCQLString(values[i])); } else { sb.append(type.toCQLString(key)); } } /** * Specialized {@code DataRange} used for the paging case. *

* It uses the clustering of the last result of the previous page to restrict the filter on the * first queried partition (the one for that last result) so it only fetch results that follow that * last result. In other words, this makes sure this resume paging where we left off. */ public static class Paging extends DataRange { private final ClusteringComparator comparator; private final Clustering lastReturned; private final boolean inclusive; private Paging(AbstractBounds range, ClusteringIndexFilter filter, ClusteringComparator comparator, Clustering lastReturned, boolean inclusive) { super(range, filter); // When using a paging range, we don't allow wrapped ranges, as it's unclear how to handle them properly. // This is ok for now since we only need this in range queries, and the range are "unwrapped" in that case. assert !(range instanceof Range) || !((Range)range).isWrapAround() || range.right.isMinimum() : range; assert lastReturned != null; this.comparator = comparator; this.lastReturned = lastReturned; this.inclusive = inclusive; } @Override public ClusteringIndexFilter clusteringIndexFilter(DecoratedKey key) { return key.equals(startKey()) ? clusteringIndexFilter.forPaging(comparator, lastReturned, inclusive) : clusteringIndexFilter; } @Override public DataRange forSubRange(AbstractBounds range) { // This is called for subrange of the initial range. So either it's the beginning of the initial range, // and we need to preserver lastReturned, or it's not, and we don't care about it anymore. return range.left.equals(keyRange().left) ? new Paging(range, clusteringIndexFilter, comparator, lastReturned, inclusive) : new DataRange(range, clusteringIndexFilter); } /** * @return the last Clustering that was returned (in the previous page) */ public Clustering getLastReturned() { return lastReturned; } @Override public boolean isPaging() { return true; } @Override public boolean isUnrestricted(TableMetadata metadata) { return false; } @Override public String toString(TableMetadata metadata) { return String.format("range=%s (paging) pfilter=%s lastReturned=%s (%s)", keyRange.getString(metadata.partitionKeyType), clusteringIndexFilter.toString(metadata), lastReturned.toString(metadata), inclusive ? "included" : "excluded"); } } public static class Serializer { public void serialize(DataRange range, DataOutputPlus out, int version, TableMetadata metadata) throws IOException { AbstractBounds.rowPositionSerializer.serialize(range.keyRange, out, version); ClusteringIndexFilter.serializer.serialize(range.clusteringIndexFilter, out, version); boolean isPaging = range instanceof Paging; out.writeBoolean(isPaging); if (isPaging) { Clustering.serializer.serialize(((Paging)range).lastReturned, out, version, metadata.comparator.subtypes()); out.writeBoolean(((Paging)range).inclusive); } } public DataRange deserialize(DataInputPlus in, int version, TableMetadata metadata) throws IOException { AbstractBounds range = AbstractBounds.rowPositionSerializer.deserialize(in, metadata.partitioner, version); ClusteringIndexFilter filter = ClusteringIndexFilter.serializer.deserialize(in, version, metadata); if (in.readBoolean()) { ClusteringComparator comparator = metadata.comparator; Clustering lastReturned = Clustering.serializer.deserialize(in, version, comparator.subtypes()); boolean inclusive = in.readBoolean(); return new Paging(range, filter, comparator, lastReturned, inclusive); } else { return new DataRange(range, filter); } } public long serializedSize(DataRange range, int version, TableMetadata metadata) { long size = AbstractBounds.rowPositionSerializer.serializedSize(range.keyRange, version) + ClusteringIndexFilter.serializer.serializedSize(range.clusteringIndexFilter, version) + 1; // isPaging boolean if (range instanceof Paging) { size += Clustering.serializer.serializedSize(((Paging)range).lastReturned, version, metadata.comparator.subtypes()); size += 1; // inclusive boolean } return size; } } }





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