https://cassandra.apache.org: 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.
  • 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
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  • Laine Jaakko Olavi
  • T Jake Luciani
  • Jason Brown
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  • Stefania Alborghetti
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  • 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.repair.messages;

import java.util.*;

import com.google.common.base.Joiner;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import org.apache.cassandra.config.Config;
import org.apache.cassandra.config.DatabaseDescriptor;
import org.apache.cassandra.dht.IPartitioner;
import org.apache.cassandra.dht.Range;
import org.apache.cassandra.dht.Token;
import org.apache.cassandra.repair.RepairParallelism;
import org.apache.cassandra.utils.FBUtilities;


Repair options.

/**
 * Repair options.
 */
public class RepairOption
{
    public static final String PARALLELISM_KEY = "parallelism";
    public static final String PRIMARY_RANGE_KEY = "primaryRange";
    public static final String INCREMENTAL_KEY = "incremental";
    public static final String JOB_THREADS_KEY = "jobThreads";
    public static final String RANGES_KEY = "ranges";
    public static final String COLUMNFAMILIES_KEY = "columnFamilies";
    public static final String DATACENTERS_KEY = "dataCenters";
    public static final String HOSTS_KEY = "hosts";
    public static final String TRACE_KEY = "trace";
    public static final String SUB_RANGE_REPAIR_KEY = "sub_range_repair";
    public static final String PULL_REPAIR_KEY = "pullRepair";

    // we don't want to push nodes too much for repair
    public static final int MAX_JOB_THREADS = 4;

    private static final Logger logger = LoggerFactory.getLogger(RepairOption.class);

    
Construct RepairOptions object from given map of Strings.


Available options are:


    Repair Options
    
        

            key
            value
            default (when key not given)
        

    
    
        

            parallelism
            "sequential", "parallel" or "dc_parallel"
            "sequential"
        

        

            primaryRange
            "true" if perform repair only on primary range.
            false
        

        

            incremental
            "true" if perform incremental repair.
            false
        

        

            trace
            "true" if repair is traced.
            false
        

        

            jobThreads
            Number of threads to use to run repair job.
            1
        

        

            ranges
            Ranges to repair. A range is expressed as <start token>:<end token>
            and multiple ranges can be given as comma separated ranges(e.g. aaa:bbb,ccc:ddd).
            
        

        

            columnFamilies
            Specify names of ColumnFamilies to repair.
            Multiple ColumnFamilies can be given as comma separated values(e.g. cf1,cf2,cf3).
            
        

        

            dataCenters
            Specify names of data centers who participate in this repair.
            Multiple data centers can be given as comma separated values(e.g. dc1,dc2,dc3).
            
        

        

            hosts
            Specify names of hosts who participate in this repair.
            Multiple hosts can be given as comma separated values(e.g. cass1,cass2).
            
        

        

            pullRepair
            "true" if the repair should only stream data one way from a remote host to this host.
            This is only allowed if exactly 2 hosts are specified along with a token range that they share.
            false
        

    



Params:
  • options – options to parse
  • partitioner – partitioner is used to construct token ranges
Returns:RepairOptions object
/**
     * Construct RepairOptions object from given map of Strings.
     * <p>
     * Available options are:
     *
     * <table>
     *     <caption>Repair Options</caption>
     *     <thead>
     *         <tr>
     *             <th>key</th>
     *             <th>value</th>
     *             <th>default (when key not given)</th>
     *         </tr>
     *     </thead>
     *     <tbody>
     *         <tr>
     *             <td>parallelism</td>
     *             <td>"sequential", "parallel" or "dc_parallel"</td>
     *             <td>"sequential"</td>
     *         </tr>
     *         <tr>
     *             <td>primaryRange</td>
     *             <td>"true" if perform repair only on primary range.</td>
     *             <td>false</td>
     *         </tr>
     *         <tr>
     *             <td>incremental</td>
     *             <td>"true" if perform incremental repair.</td>
     *             <td>false</td>
     *         </tr>
     *         <tr>
     *             <td>trace</td>
     *             <td>"true" if repair is traced.</td>
     *             <td>false</td>
     *         </tr>
     *         <tr>
     *             <td>jobThreads</td>
     *             <td>Number of threads to use to run repair job.</td>
     *             <td>1</td>
     *         </tr>
     *         <tr>
     *             <td>ranges</td>
     *             <td>Ranges to repair. A range is expressed as &lt;start token&gt;:&lt;end token&gt;
     *             and multiple ranges can be given as comma separated ranges(e.g. aaa:bbb,ccc:ddd).</td>
     *             <td></td>
     *         </tr>
     *         <tr>
     *             <td>columnFamilies</td>
     *             <td>Specify names of ColumnFamilies to repair.
     *             Multiple ColumnFamilies can be given as comma separated values(e.g. cf1,cf2,cf3).</td>
     *             <td></td>
     *         </tr>
     *         <tr>
     *             <td>dataCenters</td>
     *             <td>Specify names of data centers who participate in this repair.
     *             Multiple data centers can be given as comma separated values(e.g. dc1,dc2,dc3).</td>
     *             <td></td>
     *         </tr>
     *         <tr>
     *             <td>hosts</td>
     *             <td>Specify names of hosts who participate in this repair.
     *             Multiple hosts can be given as comma separated values(e.g. cass1,cass2).</td>
     *             <td></td>
     *         </tr>
     *         <tr>
     *             <td>pullRepair</td>
     *             <td>"true" if the repair should only stream data one way from a remote host to this host.
     *             This is only allowed if exactly 2 hosts are specified along with a token range that they share.</td>
     *             <td>false</td>
     *         </tr>
     *     </tbody>
     * </table>
     *
     * @param options options to parse
     * @param partitioner partitioner is used to construct token ranges
     * @return RepairOptions object
     */
    public static RepairOption parse(Map<String, String> options, IPartitioner partitioner)
    {
        // if no parallel option is given, then this will be "sequential" by default.
        RepairParallelism parallelism = RepairParallelism.fromName(options.get(PARALLELISM_KEY));
        boolean primaryRange = Boolean.parseBoolean(options.get(PRIMARY_RANGE_KEY));
        boolean incremental = Boolean.parseBoolean(options.get(INCREMENTAL_KEY));
        boolean trace = Boolean.parseBoolean(options.get(TRACE_KEY));
        boolean pullRepair = Boolean.parseBoolean(options.get(PULL_REPAIR_KEY));

        int jobThreads = 1;
        if (options.containsKey(JOB_THREADS_KEY))
        {
            try
            {
                jobThreads = Integer.parseInt(options.get(JOB_THREADS_KEY));
            }
            catch (NumberFormatException ignore) {}
        }
        // ranges
        String rangesStr = options.get(RANGES_KEY);
        Set<Range<Token>> ranges = new HashSet<>();
        if (rangesStr != null)
        {
            if (incremental)
                logger.warn("Incremental repair can't be requested with subrange repair " +
                            "because each subrange repair would generate an anti-compacted table. " +
                            "The repair will occur but without anti-compaction.");
            StringTokenizer tokenizer = new StringTokenizer(rangesStr, ",");
            while (tokenizer.hasMoreTokens())
            {
                String[] rangeStr = tokenizer.nextToken().split(":", 2);
                if (rangeStr.length < 2)
                {
                    continue;
                }
                Token parsedBeginToken = partitioner.getTokenFactory().fromString(rangeStr[0].trim());
                Token parsedEndToken = partitioner.getTokenFactory().fromString(rangeStr[1].trim());
                if (parsedBeginToken.equals(parsedEndToken))
                {
                    throw new IllegalArgumentException("Start and end tokens must be different.");
                }
                ranges.add(new Range<>(parsedBeginToken, parsedEndToken));
            }
        }

        RepairOption option = new RepairOption(parallelism, primaryRange, incremental, trace, jobThreads, ranges, !ranges.isEmpty(), pullRepair);

        // data centers
        String dataCentersStr = options.get(DATACENTERS_KEY);
        Collection<String> dataCenters = new HashSet<>();
        if (dataCentersStr != null)
        {
            StringTokenizer tokenizer = new StringTokenizer(dataCentersStr, ",");
            while (tokenizer.hasMoreTokens())
            {
                dataCenters.add(tokenizer.nextToken().trim());
            }
            option.getDataCenters().addAll(dataCenters);
        }

        // hosts
        String hostsStr = options.get(HOSTS_KEY);
        Collection<String> hosts = new HashSet<>();
        if (hostsStr != null)
        {
            StringTokenizer tokenizer = new StringTokenizer(hostsStr, ",");
            while (tokenizer.hasMoreTokens())
            {
                hosts.add(tokenizer.nextToken().trim());
            }
            option.getHosts().addAll(hosts);
        }

        // columnfamilies
        String cfStr = options.get(COLUMNFAMILIES_KEY);
        if (cfStr != null)
        {
            Collection<String> columnFamilies = new HashSet<>();
            StringTokenizer tokenizer = new StringTokenizer(cfStr, ",");
            while (tokenizer.hasMoreTokens())
            {
                columnFamilies.add(tokenizer.nextToken().trim());
            }
            option.getColumnFamilies().addAll(columnFamilies);
        }

        // validate options
        if (jobThreads > MAX_JOB_THREADS)
        {
            throw new IllegalArgumentException("Too many job threads. Max is " + MAX_JOB_THREADS);
        }
        if (!dataCenters.isEmpty() && !hosts.isEmpty())
        {
            throw new IllegalArgumentException("Cannot combine -dc and -hosts options.");
        }
        if (primaryRange && ((!dataCenters.isEmpty() && !option.isInLocalDCOnly()) || !hosts.isEmpty()))
        {
            throw new IllegalArgumentException("You need to run primary range repair on all nodes in the cluster.");
        }
        if (pullRepair)
        {
            if (hosts.size() != 2)
            {
                throw new IllegalArgumentException("Pull repair can only be performed between two hosts. Please specify two hosts, one of which must be this host.");
            }
            else if (ranges.isEmpty())
            {
                throw new IllegalArgumentException("Token ranges must be specified when performing pull repair. Please specify at least one token range which both hosts have in common.");
            }
        }

        return option;
    }

    private final RepairParallelism parallelism;
    private final boolean primaryRange;
    private final boolean incremental;
    private final boolean trace;
    private final int jobThreads;
    private final boolean isSubrangeRepair;
    private final boolean pullRepair;

    private final Collection<String> columnFamilies = new HashSet<>();
    private final Collection<String> dataCenters = new HashSet<>();
    private final Collection<String> hosts = new HashSet<>();
    private final Collection<Range<Token>> ranges = new HashSet<>();

    public RepairOption(RepairParallelism parallelism, boolean primaryRange, boolean incremental, boolean trace, int jobThreads, Collection<Range<Token>> ranges, boolean isSubrangeRepair, boolean pullRepair)
    {
        if (FBUtilities.isWindows &&
            (DatabaseDescriptor.getDiskAccessMode() != Config.DiskAccessMode.standard || DatabaseDescriptor.getIndexAccessMode() != Config.DiskAccessMode.standard) &&
            parallelism == RepairParallelism.SEQUENTIAL)
        {
            logger.warn("Sequential repair disabled when memory-mapped I/O is configured on Windows. Reverting to parallel.");
            this.parallelism = RepairParallelism.PARALLEL;
        }
        else
            this.parallelism = parallelism;

        this.primaryRange = primaryRange;
        this.incremental = incremental;
        this.trace = trace;
        this.jobThreads = jobThreads;
        this.ranges.addAll(ranges);
        this.isSubrangeRepair = isSubrangeRepair;
        this.pullRepair = pullRepair;
    }

    public RepairParallelism getParallelism()
    {
        return parallelism;
    }

    public boolean isPrimaryRange()
    {
        return primaryRange;
    }

    public boolean isIncremental()
    {
        return incremental;
    }

    public boolean isTraced()
    {
        return trace;
    }

    public boolean isPullRepair()
    {
        return pullRepair;
    }

    public int getJobThreads()
    {
        return jobThreads;
    }

    public Collection<String> getColumnFamilies()
    {
        return columnFamilies;
    }

    public Collection<Range<Token>> getRanges()
    {
        return ranges;
    }

    public Collection<String> getDataCenters()
    {
        return dataCenters;
    }

    public Collection<String> getHosts()
    {
        return hosts;
    }

    public boolean isGlobal()
    {
        return dataCenters.isEmpty() && hosts.isEmpty() && !isSubrangeRepair();
    }

    public boolean isSubrangeRepair()
    {
        return isSubrangeRepair;
    }

    public boolean isInLocalDCOnly() {
        return dataCenters.size() == 1 && dataCenters.contains(DatabaseDescriptor.getLocalDataCenter());
    }

    @Override
    public String toString()
    {
        return "repair options (" +
                       "parallelism: " + parallelism +
                       ", primary range: " + primaryRange +
                       ", incremental: " + incremental +
                       ", job threads: " + jobThreads +
                       ", ColumnFamilies: " + columnFamilies +
                       ", dataCenters: " + dataCenters +
                       ", hosts: " + hosts +
                       ", # of ranges: " + ranges.size() +
                       ", pull repair: " + pullRepair +
                       ')';
    }

    public Map<String, String> asMap()
    {
        Map<String, String> options = new HashMap<>();
        options.put(PARALLELISM_KEY, parallelism.toString());
        options.put(PRIMARY_RANGE_KEY, Boolean.toString(primaryRange));
        options.put(INCREMENTAL_KEY, Boolean.toString(incremental));
        options.put(JOB_THREADS_KEY, Integer.toString(jobThreads));
        options.put(COLUMNFAMILIES_KEY, Joiner.on(",").join(columnFamilies));
        options.put(DATACENTERS_KEY, Joiner.on(",").join(dataCenters));
        options.put(HOSTS_KEY, Joiner.on(",").join(hosts));
        options.put(SUB_RANGE_REPAIR_KEY, Boolean.toString(isSubrangeRepair));
        options.put(TRACE_KEY, Boolean.toString(trace));
        options.put(RANGES_KEY, Joiner.on(",").join(ranges));
        options.put(PULL_REPAIR_KEY, Boolean.toString(pullRepair));
        return options;
    }
}