package org.apache.cassandra.schema;
import java.lang.reflect.InvocationTargetException;
import java.util.HashMap;
import java.util.Map;
import java.util.Objects;
import com.google.common.base.MoreObjects;
import com.google.common.collect.ImmutableMap;
import org.apache.commons.lang3.StringUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.cassandra.db.compaction.AbstractCompactionStrategy;
import org.apache.cassandra.db.compaction.LeveledCompactionStrategy;
import org.apache.cassandra.db.compaction.SizeTieredCompactionStrategy;
import org.apache.cassandra.exceptions.ConfigurationException;
import org.apache.cassandra.utils.FBUtilities;
import static java.lang.String.format;
public final class CompactionParams
{
private static final Logger logger = LoggerFactory.getLogger(CompactionParams.class);
public enum Option
{
CLASS,
ENABLED,
MIN_THRESHOLD,
MAX_THRESHOLD,
PROVIDE_OVERLAPPING_TOMBSTONES;
@Override
public String toString()
{
return name().toLowerCase();
}
}
public enum TombstoneOption
{
NONE,
ROW,
CELL;
}
public static final int DEFAULT_MIN_THRESHOLD = 4;
public static final int DEFAULT_MAX_THRESHOLD = 32;
public static final boolean DEFAULT_ENABLED = true;
public static final TombstoneOption DEFAULT_PROVIDE_OVERLAPPING_TOMBSTONES =
TombstoneOption.valueOf(System.getProperty("default.provide.overlapping.tombstones", TombstoneOption.NONE.toString()).toUpperCase());
public static final Map<String, String> DEFAULT_THRESHOLDS =
ImmutableMap.of(Option.MIN_THRESHOLD.toString(), Integer.toString(DEFAULT_MIN_THRESHOLD),
Option.MAX_THRESHOLD.toString(), Integer.toString(DEFAULT_MAX_THRESHOLD));
public static final CompactionParams DEFAULT =
new CompactionParams(SizeTieredCompactionStrategy.class, DEFAULT_THRESHOLDS, DEFAULT_ENABLED, DEFAULT_PROVIDE_OVERLAPPING_TOMBSTONES);
private final Class<? extends AbstractCompactionStrategy> klass;
private final ImmutableMap<String, String> options;
private final boolean isEnabled;
private final TombstoneOption tombstoneOption;
private CompactionParams(Class<? extends AbstractCompactionStrategy> klass, Map<String, String> options, boolean isEnabled, TombstoneOption tombstoneOption)
{
this.klass = klass;
this.options = ImmutableMap.copyOf(options);
this.isEnabled = isEnabled;
this.tombstoneOption = tombstoneOption;
}
public static CompactionParams create(Class<? extends AbstractCompactionStrategy> klass, Map<String, String> options)
{
boolean isEnabled = options.containsKey(Option.ENABLED.toString())
? Boolean.parseBoolean(options.get(Option.ENABLED.toString()))
: DEFAULT_ENABLED;
TombstoneOption tombstoneOption = TombstoneOption.valueOf(options.getOrDefault(Option.PROVIDE_OVERLAPPING_TOMBSTONES.toString(),
DEFAULT_PROVIDE_OVERLAPPING_TOMBSTONES.toString()).toUpperCase());
Map<String, String> allOptions = new HashMap<>(options);
if (supportsThresholdParams(klass))
{
allOptions.putIfAbsent(Option.MIN_THRESHOLD.toString(), Integer.toString(DEFAULT_MIN_THRESHOLD));
allOptions.putIfAbsent(Option.MAX_THRESHOLD.toString(), Integer.toString(DEFAULT_MAX_THRESHOLD));
}
return new CompactionParams(klass, allOptions, isEnabled, tombstoneOption);
}
public static CompactionParams scts(Map<String, String> options)
{
return create(SizeTieredCompactionStrategy.class, options);
}
public static CompactionParams lcs(Map<String, String> options)
{
return create(LeveledCompactionStrategy.class, options);
}
public int minCompactionThreshold()
{
String threshold = options.get(Option.MIN_THRESHOLD.toString());
return threshold == null
? DEFAULT_MIN_THRESHOLD
: Integer.parseInt(threshold);
}
public int maxCompactionThreshold()
{
String threshold = options.get(Option.MAX_THRESHOLD.toString());
return threshold == null
? DEFAULT_MAX_THRESHOLD
: Integer.parseInt(threshold);
}
public TombstoneOption tombstoneOption()
{
return tombstoneOption;
}
public void validate()
{
try
{
Map<?, ?> unknownOptions = (Map) klass.getMethod("validateOptions", Map.class).invoke(null, options);
if (!unknownOptions.isEmpty())
{
throw new ConfigurationException(format("Properties specified %s are not understood by %s",
unknownOptions.keySet(),
klass.getSimpleName()));
}
}
catch (NoSuchMethodException e)
{
logger.warn("Compaction strategy {} does not have a static validateOptions method. Validation ignored",
klass.getName());
}
catch (InvocationTargetException e)
{
if (e.getTargetException() instanceof ConfigurationException)
throw (ConfigurationException) e.getTargetException();
Throwable cause = e.getCause() == null
? e
: e.getCause();
throw new ConfigurationException(format("%s.validateOptions() threw an error: %s %s",
klass.getName(),
cause.getClass().getName(),
cause.getMessage()),
e);
}
catch (IllegalAccessException e)
{
throw new ConfigurationException("Cannot access method validateOptions in " + klass.getName(), e);
}
String minThreshold = options.get(Option.MIN_THRESHOLD.toString());
if (minThreshold != null && !StringUtils.isNumeric(minThreshold))
{
throw new ConfigurationException(format("Invalid value %s for '%s' compaction sub-option - must be an integer",
minThreshold,
Option.MIN_THRESHOLD));
}
String maxThreshold = options.get(Option.MAX_THRESHOLD.toString());
if (maxThreshold != null && !StringUtils.isNumeric(maxThreshold))
{
throw new ConfigurationException(format("Invalid value %s for '%s' compaction sub-option - must be an integer",
maxThreshold,
Option.MAX_THRESHOLD));
}
if (minCompactionThreshold() <= 0 || maxCompactionThreshold() <= 0)
{
throw new ConfigurationException("Disabling compaction by setting compaction thresholds to 0 has been removed,"
+ " set the compaction option 'enabled' to false instead.");
}
if (minCompactionThreshold() <= 1)
{
throw new ConfigurationException(format("Min compaction threshold cannot be less than 2 (got %d)",
minCompactionThreshold()));
}
if (minCompactionThreshold() > maxCompactionThreshold())
{
throw new ConfigurationException(format("Min compaction threshold (got %d) cannot be greater than max compaction threshold (got %d)",
minCompactionThreshold(),
maxCompactionThreshold()));
}
}
double defaultBloomFilterFbChance()
{
return klass.equals(LeveledCompactionStrategy.class) ? 0.1 : 0.01;
}
public Class<? extends AbstractCompactionStrategy> klass()
{
return klass;
}
public Map<String, String> options()
{
return options;
}
public boolean isEnabled()
{
return isEnabled;
}
public static CompactionParams fromMap(Map<String, String> map)
{
Map<String, String> options = new HashMap<>(map);
String className = options.remove(Option.CLASS.toString());
if (className == null)
{
throw new ConfigurationException(format("Missing sub-option '%s' for the '%s' option",
Option.CLASS,
TableParams.Option.COMPACTION));
}
return create(classFromName(className), options);
}
private static Class<? extends AbstractCompactionStrategy> classFromName(String name)
{
String className = name.contains(".")
? name
: "org.apache.cassandra.db.compaction." + name;
Class<AbstractCompactionStrategy> strategyClass = FBUtilities.classForName(className, "compaction strategy");
if (!AbstractCompactionStrategy.class.isAssignableFrom(strategyClass))
{
throw new ConfigurationException(format("Compaction strategy class %s is not derived from AbstractReplicationStrategy",
className));
}
return strategyClass;
}
@SuppressWarnings("unchecked")
public static boolean supportsThresholdParams(Class<? extends AbstractCompactionStrategy> klass)
{
try
{
Map<String, String> unrecognizedOptions =
(Map<String, String>) klass.getMethod("validateOptions", Map.class)
.invoke(null, DEFAULT_THRESHOLDS);
return unrecognizedOptions.isEmpty();
}
catch (Exception e)
{
throw new RuntimeException(e);
}
}
public Map<String, String> asMap()
{
Map<String, String> map = new HashMap<>(options());
map.put(Option.CLASS.toString(), klass.getName());
return map;
}
@Override
public String toString()
{
return MoreObjects.toStringHelper(this)
.add("class", klass.getName())
.add("options", options)
.toString();
}
@Override
public boolean equals(Object o)
{
if (this == o)
return true;
if (!(o instanceof CompactionParams))
return false;
CompactionParams cp = (CompactionParams) o;
return klass.equals(cp.klass) && options.equals(cp.options);
}
@Override
public int hashCode()
{
return Objects.hash(klass, options);
}
}