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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.
/*
* 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.config;
import java.io.File;
import java.io.IOException;
import java.net.*;
import java.nio.file.FileStore;
import java.nio.file.NoSuchFileException;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.*;
import java.util.concurrent.TimeUnit;
import java.util.function.Function;
import java.util.function.Supplier;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableSet;
import com.google.common.primitives.Ints;
import com.google.common.primitives.Longs;
import com.google.common.util.concurrent.RateLimiter;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.cassandra.audit.AuditLogOptions;
import org.apache.cassandra.fql.FullQueryLoggerOptions;
import org.apache.cassandra.auth.AllowAllInternodeAuthenticator;
import org.apache.cassandra.auth.AuthConfig;
import org.apache.cassandra.auth.IAuthenticator;
import org.apache.cassandra.auth.IAuthorizer;
import org.apache.cassandra.auth.IInternodeAuthenticator;
import org.apache.cassandra.auth.INetworkAuthorizer;
import org.apache.cassandra.auth.IRoleManager;
import org.apache.cassandra.config.Config.CommitLogSync;
import org.apache.cassandra.db.ConsistencyLevel;
import org.apache.cassandra.db.commitlog.AbstractCommitLogSegmentManager;
import org.apache.cassandra.db.commitlog.CommitLog;
import org.apache.cassandra.db.commitlog.CommitLogSegmentManagerCDC;
import org.apache.cassandra.db.commitlog.CommitLogSegmentManagerStandard;
import org.apache.cassandra.dht.IPartitioner;
import org.apache.cassandra.exceptions.ConfigurationException;
import org.apache.cassandra.io.FSWriteError;
import org.apache.cassandra.io.util.DiskOptimizationStrategy;
import org.apache.cassandra.io.util.FileUtils;
import org.apache.cassandra.io.util.SpinningDiskOptimizationStrategy;
import org.apache.cassandra.io.util.SsdDiskOptimizationStrategy;
import org.apache.cassandra.locator.DynamicEndpointSnitch;
import org.apache.cassandra.locator.EndpointSnitchInfo;
import org.apache.cassandra.locator.IEndpointSnitch;
import org.apache.cassandra.locator.InetAddressAndPort;
import org.apache.cassandra.locator.Replica;
import org.apache.cassandra.locator.SeedProvider;
import org.apache.cassandra.security.EncryptionContext;
import org.apache.cassandra.security.SSLFactory;
import org.apache.cassandra.service.CacheService.CacheType;
import org.apache.cassandra.utils.FBUtilities;
import org.apache.commons.lang3.ArrayUtils;
import org.apache.commons.lang3.StringUtils;
import static java.util.concurrent.TimeUnit.MILLISECONDS;
import static org.apache.cassandra.config.CassandraRelevantProperties.OS_ARCH;
import static org.apache.cassandra.config.CassandraRelevantProperties.SUN_ARCH_DATA_MODEL;
import static org.apache.cassandra.io.util.FileUtils.ONE_GB;
import static org.apache.cassandra.io.util.FileUtils.ONE_MB;
public class DatabaseDescriptor
{
static
{
// This static block covers most usages
FBUtilities.preventIllegalAccessWarnings();
System.setProperty("io.netty.transport.estimateSizeOnSubmit", "false");
}
private static final Logger logger = LoggerFactory.getLogger(DatabaseDescriptor.class);
/**
* Tokens are serialized in a Gossip VersionedValue String. VV are restricted to 64KB
* when we send them over the wire, which works out to about 1700 tokens.
*/
private static final int MAX_NUM_TOKENS = 1536;
private static Config conf;
/**
* Request timeouts can not be less than below defined value (see CASSANDRA-9375)
*/
static final long LOWEST_ACCEPTED_TIMEOUT = 10L;
private static IEndpointSnitch snitch;
private static InetAddress listenAddress; // leave null so we can fall through to getLocalHost
private static InetAddress broadcastAddress;
private static InetAddress rpcAddress;
private static InetAddress broadcastRpcAddress;
private static SeedProvider seedProvider;
private static IInternodeAuthenticator internodeAuthenticator = new AllowAllInternodeAuthenticator();
/* Hashing strategy Random or OPHF */
private static IPartitioner partitioner;
private static String paritionerName;
private static Config.DiskAccessMode indexAccessMode;
private static IAuthenticator authenticator;
private static IAuthorizer authorizer;
private static INetworkAuthorizer networkAuthorizer;
// Don't initialize the role manager until applying config. The options supported by CassandraRoleManager
// depend on the configured IAuthenticator, so defer creating it until that's been set.
private static IRoleManager roleManager;
private static long preparedStatementsCacheSizeInMB;
private static long keyCacheSizeInMB;
private static long counterCacheSizeInMB;
private static long indexSummaryCapacityInMB;
private static String localDC;
private static Comparator localComparator;
private static EncryptionContext encryptionContext;
private static boolean hasLoggedConfig;
private static DiskOptimizationStrategy diskOptimizationStrategy;
private static boolean clientInitialized;
private static boolean toolInitialized;
private static boolean daemonInitialized;
private static final int searchConcurrencyFactor = Integer.parseInt(System.getProperty(Config.PROPERTY_PREFIX + "search_concurrency_factor", "1"));
private static volatile boolean disableSTCSInL0 = Boolean.getBoolean(Config.PROPERTY_PREFIX + "disable_stcs_in_l0");
private static final boolean unsafeSystem = Boolean.getBoolean(Config.PROPERTY_PREFIX + "unsafesystem");
// turns some warnings into exceptions for testing
private static final boolean strictRuntimeChecks = Boolean.getBoolean("cassandra.strict.runtime.checks");
public static volatile boolean allowUnlimitedConcurrentValidations = Boolean.getBoolean("cassandra.allow_unlimited_concurrent_validations");
private static Function commitLogSegmentMgrProvider = c -> DatabaseDescriptor.isCDCEnabled()
? new CommitLogSegmentManagerCDC(c, DatabaseDescriptor.getCommitLogLocation())
: new CommitLogSegmentManagerStandard(c, DatabaseDescriptor.getCommitLogLocation());
public static void daemonInitialization() throws ConfigurationException
{
daemonInitialization(DatabaseDescriptor::loadConfig);
}
public static void daemonInitialization(Supplier config) throws ConfigurationException
{
if (toolInitialized)
throw new AssertionError("toolInitialization() already called");
if (clientInitialized)
throw new AssertionError("clientInitialization() already called");
// Some unit tests require this :(
if (daemonInitialized)
return;
daemonInitialized = true;
setConfig(config.get());
applyAll();
AuthConfig.applyAuth();
}
/**
* Equivalent to {@link #toolInitialization(boolean) toolInitialization(true)}.
*/
public static void toolInitialization()
{
toolInitialization(true);
}
/**
* Initializes this class as a tool, which means that the configuration is loaded
* using {@link #loadConfig()} and all non-daemon configuration parts will be setup.
*
* @param failIfDaemonOrClient if {@code true} and a call to {@link #daemonInitialization()} or
* {@link #clientInitialization()} has been performed before, an
* {@link AssertionError} will be thrown.
*/
public static void toolInitialization(boolean failIfDaemonOrClient)
{
if (!failIfDaemonOrClient && (daemonInitialized || clientInitialized))
{
return;
}
else
{
if (daemonInitialized)
throw new AssertionError("daemonInitialization() already called");
if (clientInitialized)
throw new AssertionError("clientInitialization() already called");
}
if (toolInitialized)
return;
toolInitialized = true;
setConfig(loadConfig());
applySimpleConfig();
applyPartitioner();
applySnitch();
applyEncryptionContext();
}
/**
* Equivalent to {@link #clientInitialization(boolean) clientInitialization(true)}.
*/
public static void clientInitialization()
{
clientInitialization(true);
}
/**
* Initializes this class as a client, which means that just an empty configuration will
* be used.
*
* @param failIfDaemonOrTool if {@code true} and a call to {@link #daemonInitialization()} or
* {@link #toolInitialization()} has been performed before, an
* {@link AssertionError} will be thrown.
*/
public static void clientInitialization(boolean failIfDaemonOrTool)
{
if (!failIfDaemonOrTool && (daemonInitialized || toolInitialized))
{
return;
}
else
{
if (daemonInitialized)
throw new AssertionError("daemonInitialization() already called");
if (toolInitialized)
throw new AssertionError("toolInitialization() already called");
}
if (clientInitialized)
return;
clientInitialized = true;
Config.setClientMode(true);
conf = new Config();
diskOptimizationStrategy = new SpinningDiskOptimizationStrategy();
}
public static boolean isClientInitialized()
{
return clientInitialized;
}
public static boolean isToolInitialized()
{
return toolInitialized;
}
public static boolean isClientOrToolInitialized()
{
return clientInitialized || toolInitialized;
}
public static boolean isDaemonInitialized()
{
return daemonInitialized;
}
public static Config getRawConfig()
{
return conf;
}
@VisibleForTesting
public static Config loadConfig() throws ConfigurationException
{
if (Config.getOverrideLoadConfig() != null)
return Config.getOverrideLoadConfig().get();
String loaderClass = System.getProperty(Config.PROPERTY_PREFIX + "config.loader");
ConfigurationLoader loader = loaderClass == null
? new YamlConfigurationLoader()
: FBUtilities.construct(loaderClass, "configuration loading");
Config config = loader.loadConfig();
if (!hasLoggedConfig)
{
hasLoggedConfig = true;
Config.log(config);
}
return config;
}
private static InetAddress getNetworkInterfaceAddress(String intf, String configName, boolean preferIPv6) throws ConfigurationException
{
try
{
NetworkInterface ni = NetworkInterface.getByName(intf);
if (ni == null)
throw new ConfigurationException("Configured " + configName + " \"" + intf + "\" could not be found", false);
Enumeration addrs = ni.getInetAddresses();
if (!addrs.hasMoreElements())
throw new ConfigurationException("Configured " + configName + " \"" + intf + "\" was found, but had no addresses", false);
/*
* Try to return the first address of the preferred type, otherwise return the first address
*/
InetAddress retval = null;
while (addrs.hasMoreElements())
{
InetAddress temp = addrs.nextElement();
if (preferIPv6 && temp instanceof Inet6Address) return temp;
if (!preferIPv6 && temp instanceof Inet4Address) return temp;
if (retval == null) retval = temp;
}
return retval;
}
catch (SocketException e)
{
throw new ConfigurationException("Configured " + configName + " \"" + intf + "\" caused an exception", e);
}
}
private static void setConfig(Config config)
{
conf = config;
}
private static void applyAll() throws ConfigurationException
{
//InetAddressAndPort cares that applySimpleConfig runs first
applySimpleConfig();
applyPartitioner();
applyAddressConfig();
applySnitch();
applyTokensConfig();
applySeedProvider();
applyEncryptionContext();
applySslContext();
}
private static void applySimpleConfig()
{
//Doing this first before all other things in case other pieces of config want to construct
//InetAddressAndPort and get the right defaults
InetAddressAndPort.initializeDefaultPort(getStoragePort());
if (conf.commitlog_sync == null)
{
throw new ConfigurationException("Missing required directive CommitLogSync", false);
}
if (conf.commitlog_sync == Config.CommitLogSync.batch)
{
if (conf.commitlog_sync_period_in_ms != 0)
{
throw new ConfigurationException("Batch sync specified, but commitlog_sync_period_in_ms found. Only specify commitlog_sync_batch_window_in_ms when using batch sync", false);
}
logger.debug("Syncing log with batch mode");
}
else if (conf.commitlog_sync == CommitLogSync.group)
{
if (Double.isNaN(conf.commitlog_sync_group_window_in_ms) || conf.commitlog_sync_group_window_in_ms <= 0d)
{
throw new ConfigurationException("Missing value for commitlog_sync_group_window_in_ms: positive double value expected.", false);
}
else if (conf.commitlog_sync_period_in_ms != 0)
{
throw new ConfigurationException("Group sync specified, but commitlog_sync_period_in_ms found. Only specify commitlog_sync_group_window_in_ms when using group sync", false);
}
logger.debug("Syncing log with a group window of {}", conf.commitlog_sync_period_in_ms);
}
else
{
if (conf.commitlog_sync_period_in_ms <= 0)
{
throw new ConfigurationException("Missing value for commitlog_sync_period_in_ms: positive integer expected", false);
}
else if (!Double.isNaN(conf.commitlog_sync_batch_window_in_ms))
{
throw new ConfigurationException("commitlog_sync_period_in_ms specified, but commitlog_sync_batch_window_in_ms found. Only specify commitlog_sync_period_in_ms when using periodic sync.", false);
}
logger.debug("Syncing log with a period of {}", conf.commitlog_sync_period_in_ms);
}
/* evaluate the DiskAccessMode Config directive, which also affects indexAccessMode selection */
if (conf.disk_access_mode == Config.DiskAccessMode.auto)
{
conf.disk_access_mode = hasLargeAddressSpace() ? Config.DiskAccessMode.mmap : Config.DiskAccessMode.standard;
indexAccessMode = conf.disk_access_mode;
logger.info("DiskAccessMode 'auto' determined to be {}, indexAccessMode is {}", conf.disk_access_mode, indexAccessMode);
}
else if (conf.disk_access_mode == Config.DiskAccessMode.mmap_index_only)
{
conf.disk_access_mode = Config.DiskAccessMode.standard;
indexAccessMode = Config.DiskAccessMode.mmap;
logger.info("DiskAccessMode is {}, indexAccessMode is {}", conf.disk_access_mode, indexAccessMode);
}
else
{
indexAccessMode = conf.disk_access_mode;
logger.info("DiskAccessMode is {}, indexAccessMode is {}", conf.disk_access_mode, indexAccessMode);
}
if (conf.gc_warn_threshold_in_ms < 0)
{
throw new ConfigurationException("gc_warn_threshold_in_ms must be a positive integer");
}
/* phi convict threshold for FailureDetector */
if (conf.phi_convict_threshold < 5 || conf.phi_convict_threshold > 16)
{
throw new ConfigurationException("phi_convict_threshold must be between 5 and 16, but was " + conf.phi_convict_threshold, false);
}
/* Thread per pool */
if (conf.concurrent_reads < 2)
{
throw new ConfigurationException("concurrent_reads must be at least 2, but was " + conf.concurrent_reads, false);
}
if (conf.concurrent_writes < 2 && System.getProperty("cassandra.test.fail_mv_locks_count", "").isEmpty())
{
throw new ConfigurationException("concurrent_writes must be at least 2, but was " + conf.concurrent_writes, false);
}
if (conf.concurrent_counter_writes < 2)
throw new ConfigurationException("concurrent_counter_writes must be at least 2, but was " + conf.concurrent_counter_writes, false);
if (conf.concurrent_replicates != null)
logger.warn("concurrent_replicates has been deprecated and should be removed from cassandra.yaml");
if (conf.networking_cache_size_in_mb == null)
conf.networking_cache_size_in_mb = Math.min(128, (int) (Runtime.getRuntime().maxMemory() / (16 * 1048576)));
if (conf.file_cache_size_in_mb == null)
conf.file_cache_size_in_mb = Math.min(512, (int) (Runtime.getRuntime().maxMemory() / (4 * 1048576)));
// round down for SSDs and round up for spinning disks
if (conf.file_cache_round_up == null)
conf.file_cache_round_up = conf.disk_optimization_strategy == Config.DiskOptimizationStrategy.spinning;
if (conf.memtable_offheap_space_in_mb == null)
conf.memtable_offheap_space_in_mb = (int) (Runtime.getRuntime().maxMemory() / (4 * 1048576));
if (conf.memtable_offheap_space_in_mb < 0)
throw new ConfigurationException("memtable_offheap_space_in_mb must be positive, but was " + conf.memtable_offheap_space_in_mb, false);
// for the moment, we default to twice as much on-heap space as off-heap, as heap overhead is very large
if (conf.memtable_heap_space_in_mb == null)
conf.memtable_heap_space_in_mb = (int) (Runtime.getRuntime().maxMemory() / (4 * 1048576));
if (conf.memtable_heap_space_in_mb <= 0)
throw new ConfigurationException("memtable_heap_space_in_mb must be positive, but was " + conf.memtable_heap_space_in_mb, false);
logger.info("Global memtable on-heap threshold is enabled at {}MB", conf.memtable_heap_space_in_mb);
if (conf.memtable_offheap_space_in_mb == 0)
logger.info("Global memtable off-heap threshold is disabled, HeapAllocator will be used instead");
else
logger.info("Global memtable off-heap threshold is enabled at {}MB", conf.memtable_offheap_space_in_mb);
if (conf.repair_session_max_tree_depth != null)
{
logger.warn("repair_session_max_tree_depth has been deprecated and should be removed from cassandra.yaml. Use repair_session_space_in_mb instead");
if (conf.repair_session_max_tree_depth < 10)
throw new ConfigurationException("repair_session_max_tree_depth should not be < 10, but was " + conf.repair_session_max_tree_depth);
if (conf.repair_session_max_tree_depth > 20)
logger.warn("repair_session_max_tree_depth of " + conf.repair_session_max_tree_depth + " > 20 could lead to excessive memory usage");
}
else
{
conf.repair_session_max_tree_depth = 20;
}
if (conf.repair_session_space_in_mb == null)
conf.repair_session_space_in_mb = Math.max(1, (int) (Runtime.getRuntime().maxMemory() / (16 * 1048576)));
if (conf.repair_session_space_in_mb < 1)
throw new ConfigurationException("repair_session_space_in_mb must be > 0, but was " + conf.repair_session_space_in_mb);
else if (conf.repair_session_space_in_mb > (int) (Runtime.getRuntime().maxMemory() / (4 * 1048576)))
logger.warn("A repair_session_space_in_mb of " + conf.repair_session_space_in_mb + " megabytes is likely to cause heap pressure");
checkForLowestAcceptedTimeouts(conf);
checkValidForByteConversion(conf.native_transport_max_frame_size_in_mb,
"native_transport_max_frame_size_in_mb", ByteUnit.MEBI_BYTES);
checkValidForByteConversion(conf.column_index_size_in_kb,
"column_index_size_in_kb", ByteUnit.KIBI_BYTES);
checkValidForByteConversion(conf.column_index_cache_size_in_kb,
"column_index_cache_size_in_kb", ByteUnit.KIBI_BYTES);
checkValidForByteConversion(conf.batch_size_warn_threshold_in_kb,
"batch_size_warn_threshold_in_kb", ByteUnit.KIBI_BYTES);
if (conf.native_transport_max_negotiable_protocol_version != null)
logger.warn("The configuration option native_transport_max_negotiable_protocol_version has been deprecated " +
"and should be removed from cassandra.yaml as it has no longer has any effect.");
// if data dirs, commitlog dir, or saved caches dir are set in cassandra.yaml, use that. Otherwise,
// use -Dcassandra.storagedir (set in cassandra-env.sh) as the parent dir for data/, commitlog/, and saved_caches/
if (conf.commitlog_directory == null)
{
conf.commitlog_directory = storagedirFor("commitlog");
}
if (conf.hints_directory == null)
{
conf.hints_directory = storagedirFor("hints");
}
if (conf.native_transport_max_concurrent_requests_in_bytes <= 0)
{
conf.native_transport_max_concurrent_requests_in_bytes = Runtime.getRuntime().maxMemory() / 10;
}
if (conf.native_transport_max_concurrent_requests_in_bytes_per_ip <= 0)
{
conf.native_transport_max_concurrent_requests_in_bytes_per_ip = Runtime.getRuntime().maxMemory() / 40;
}
if (conf.commitlog_total_space_in_mb == null)
{
final int preferredSizeInMB = 8192;
try
{
// use 1/4 of available space. See discussion on #10013 and #10199
final long totalSpaceInBytes = guessFileStore(conf.commitlog_directory).getTotalSpace();
conf.commitlog_total_space_in_mb = calculateDefaultSpaceInMB("commitlog",
conf.commitlog_directory,
"commitlog_total_space_in_mb",
preferredSizeInMB,
totalSpaceInBytes, 1, 4);
}
catch (IOException e)
{
logger.debug("Error checking disk space", e);
throw new ConfigurationException(String.format("Unable to check disk space available to '%s'. Perhaps the Cassandra user does not have the necessary permissions",
conf.commitlog_directory), e);
}
}
if (conf.cdc_enabled)
{
// Windows memory-mapped CommitLog files is incompatible with CDC as we hard-link files in cdc_raw. Confirm we don't have both enabled.
if (FBUtilities.isWindows && conf.commitlog_compression == null)
throw new ConfigurationException("Cannot enable cdc on Windows with uncompressed commitlog.");
if (conf.cdc_raw_directory == null)
{
conf.cdc_raw_directory = storagedirFor("cdc_raw");
}
if (conf.cdc_total_space_in_mb == 0)
{
final int preferredSizeInMB = 4096;
try
{
// use 1/8th of available space. See discussion on #10013 and #10199 on the CL, taking half that for CDC
final long totalSpaceInBytes = guessFileStore(conf.cdc_raw_directory).getTotalSpace();
conf.cdc_total_space_in_mb = calculateDefaultSpaceInMB("cdc",
conf.cdc_raw_directory,
"cdc_total_space_in_mb",
preferredSizeInMB,
totalSpaceInBytes, 1, 8);
}
catch (IOException e)
{
logger.debug("Error checking disk space", e);
throw new ConfigurationException(String.format("Unable to check disk space available to '%s'. Perhaps the Cassandra user does not have the necessary permissions",
conf.cdc_raw_directory), e);
}
}
logger.info("cdc_enabled is true. Starting casssandra node with Change-Data-Capture enabled.");
}
if (conf.saved_caches_directory == null)
{
conf.saved_caches_directory = storagedirFor("saved_caches");
}
if (conf.data_file_directories == null || conf.data_file_directories.length == 0)
{
conf.data_file_directories = new String[]{ storagedir("data_file_directories") + File.separator + "data" };
}
long dataFreeBytes = 0;
/* data file and commit log directories. they get created later, when they're needed. */
for (String datadir : conf.data_file_directories)
{
if (datadir == null)
throw new ConfigurationException("data_file_directories must not contain empty entry", false);
if (datadir.equals(conf.local_system_data_file_directory))
throw new ConfigurationException("local_system_data_file_directory must not be the same as any data_file_directories", false);
if (datadir.equals(conf.commitlog_directory))
throw new ConfigurationException("commitlog_directory must not be the same as any data_file_directories", false);
if (datadir.equals(conf.hints_directory))
throw new ConfigurationException("hints_directory must not be the same as any data_file_directories", false);
if (datadir.equals(conf.saved_caches_directory))
throw new ConfigurationException("saved_caches_directory must not be the same as any data_file_directories", false);
dataFreeBytes = saturatedSum(dataFreeBytes, getUnallocatedSpace(datadir));
}
if (dataFreeBytes < 64 * ONE_GB) // 64 GB
logger.warn("Only {} free across all data volumes. Consider adding more capacity to your cluster or removing obsolete snapshots",
FBUtilities.prettyPrintMemory(dataFreeBytes));
if (conf.local_system_data_file_directory != null)
{
if (conf.local_system_data_file_directory.equals(conf.commitlog_directory))
throw new ConfigurationException("local_system_data_file_directory must not be the same as the commitlog_directory", false);
if (conf.local_system_data_file_directory.equals(conf.saved_caches_directory))
throw new ConfigurationException("local_system_data_file_directory must not be the same as the saved_caches_directory", false);
if (conf.local_system_data_file_directory.equals(conf.hints_directory))
throw new ConfigurationException("local_system_data_file_directory must not be the same as the hints_directory", false);
long freeBytes = getUnallocatedSpace(conf.local_system_data_file_directory);
if (freeBytes < ONE_GB)
logger.warn("Only {} free in the system data volume. Consider adding more capacity or removing obsolete snapshots",
FBUtilities.prettyPrintMemory(freeBytes));
}
if (conf.commitlog_directory.equals(conf.saved_caches_directory))
throw new ConfigurationException("saved_caches_directory must not be the same as the commitlog_directory", false);
if (conf.commitlog_directory.equals(conf.hints_directory))
throw new ConfigurationException("hints_directory must not be the same as the commitlog_directory", false);
if (conf.hints_directory.equals(conf.saved_caches_directory))
throw new ConfigurationException("saved_caches_directory must not be the same as the hints_directory", false);
if (conf.memtable_flush_writers == 0)
{
conf.memtable_flush_writers = conf.data_file_directories.length == 1 ? 2 : 1;
}
if (conf.memtable_flush_writers < 1)
throw new ConfigurationException("memtable_flush_writers must be at least 1, but was " + conf.memtable_flush_writers, false);
if (conf.memtable_cleanup_threshold == null)
{
conf.memtable_cleanup_threshold = (float) (1.0 / (1 + conf.memtable_flush_writers));
}
else
{
logger.warn("memtable_cleanup_threshold has been deprecated and should be removed from cassandra.yaml");
}
if (conf.memtable_cleanup_threshold < 0.01f)
throw new ConfigurationException("memtable_cleanup_threshold must be >= 0.01, but was " + conf.memtable_cleanup_threshold, false);
if (conf.memtable_cleanup_threshold > 0.99f)
throw new ConfigurationException("memtable_cleanup_threshold must be <= 0.99, but was " + conf.memtable_cleanup_threshold, false);
if (conf.memtable_cleanup_threshold < 0.1f)
logger.warn("memtable_cleanup_threshold is set very low [{}], which may cause performance degradation", conf.memtable_cleanup_threshold);
if (conf.concurrent_compactors == null)
conf.concurrent_compactors = Math.min(8, Math.max(2, Math.min(FBUtilities.getAvailableProcessors(), conf.data_file_directories.length)));
if (conf.concurrent_compactors <= 0)
throw new ConfigurationException("concurrent_compactors should be strictly greater than 0, but was " + conf.concurrent_compactors, false);
applyConcurrentValidations(conf);
applyRepairCommandPoolSize(conf);
if (conf.concurrent_materialized_view_builders <= 0)
throw new ConfigurationException("concurrent_materialized_view_builders should be strictly greater than 0, but was " + conf.concurrent_materialized_view_builders, false);
if (conf.num_tokens != null && conf.num_tokens > MAX_NUM_TOKENS)
throw new ConfigurationException(String.format("A maximum number of %d tokens per node is supported", MAX_NUM_TOKENS), false);
try
{
// if prepared_statements_cache_size_mb option was set to "auto" then size of the cache should be "max(1/256 of Heap (in MB), 10MB)"
preparedStatementsCacheSizeInMB = (conf.prepared_statements_cache_size_mb == null)
? Math.max(10, (int) (Runtime.getRuntime().maxMemory() / 1024 / 1024 / 256))
: conf.prepared_statements_cache_size_mb;
if (preparedStatementsCacheSizeInMB <= 0)
throw new NumberFormatException(); // to escape duplicating error message
}
catch (NumberFormatException e)
{
throw new ConfigurationException("prepared_statements_cache_size_mb option was set incorrectly to '"
+ conf.prepared_statements_cache_size_mb + "', supported values are >= 0.", false);
}
try
{
// if key_cache_size_in_mb option was set to "auto" then size of the cache should be "min(5% of Heap (in MB), 100MB)
keyCacheSizeInMB = (conf.key_cache_size_in_mb == null)
? Math.min(Math.max(1, (int) (Runtime.getRuntime().totalMemory() * 0.05 / 1024 / 1024)), 100)
: conf.key_cache_size_in_mb;
if (keyCacheSizeInMB < 0)
throw new NumberFormatException(); // to escape duplicating error message
}
catch (NumberFormatException e)
{
throw new ConfigurationException("key_cache_size_in_mb option was set incorrectly to '"
+ conf.key_cache_size_in_mb + "', supported values are >= 0.", false);
}
try
{
// if counter_cache_size_in_mb option was set to "auto" then size of the cache should be "min(2.5% of Heap (in MB), 50MB)
counterCacheSizeInMB = (conf.counter_cache_size_in_mb == null)
? Math.min(Math.max(1, (int) (Runtime.getRuntime().totalMemory() * 0.025 / 1024 / 1024)), 50)
: conf.counter_cache_size_in_mb;
if (counterCacheSizeInMB < 0)
throw new NumberFormatException(); // to escape duplicating error message
}
catch (NumberFormatException e)
{
throw new ConfigurationException("counter_cache_size_in_mb option was set incorrectly to '"
+ conf.counter_cache_size_in_mb + "', supported values are >= 0.", false);
}
// if set to empty/"auto" then use 5% of Heap size
indexSummaryCapacityInMB = (conf.index_summary_capacity_in_mb == null)
? Math.max(1, (int) (Runtime.getRuntime().totalMemory() * 0.05 / 1024 / 1024))
: conf.index_summary_capacity_in_mb;
if (indexSummaryCapacityInMB < 0)
throw new ConfigurationException("index_summary_capacity_in_mb option was set incorrectly to '"
+ conf.index_summary_capacity_in_mb + "', it should be a non-negative integer.", false);
if (conf.user_defined_function_fail_timeout < 0)
throw new ConfigurationException("user_defined_function_fail_timeout must not be negative", false);
if (conf.user_defined_function_warn_timeout < 0)
throw new ConfigurationException("user_defined_function_warn_timeout must not be negative", false);
if (conf.user_defined_function_fail_timeout < conf.user_defined_function_warn_timeout)
throw new ConfigurationException("user_defined_function_warn_timeout must less than user_defined_function_fail_timeout", false);
if (conf.commitlog_segment_size_in_mb <= 0)
throw new ConfigurationException("commitlog_segment_size_in_mb must be positive, but was "
+ conf.commitlog_segment_size_in_mb, false);
else if (conf.commitlog_segment_size_in_mb >= 2048)
throw new ConfigurationException("commitlog_segment_size_in_mb must be smaller than 2048, but was "
+ conf.commitlog_segment_size_in_mb, false);
if (conf.max_mutation_size_in_kb == null)
conf.max_mutation_size_in_kb = conf.commitlog_segment_size_in_mb * 1024 / 2;
else if (conf.commitlog_segment_size_in_mb * 1024 < 2 * conf.max_mutation_size_in_kb)
throw new ConfigurationException("commitlog_segment_size_in_mb must be at least twice the size of max_mutation_size_in_kb / 1024", false);
// native transport encryption options
if (conf.client_encryption_options != null)
{
conf.client_encryption_options.applyConfig();
if (conf.native_transport_port_ssl != null
&& conf.native_transport_port_ssl != conf.native_transport_port
&& conf.client_encryption_options.tlsEncryptionPolicy() == EncryptionOptions.TlsEncryptionPolicy.UNENCRYPTED)
{
throw new ConfigurationException("Encryption must be enabled in client_encryption_options for native_transport_port_ssl", false);
}
}
if (conf.snapshot_links_per_second < 0)
throw new ConfigurationException("snapshot_links_per_second must be >= 0");
if (conf.max_value_size_in_mb <= 0)
throw new ConfigurationException("max_value_size_in_mb must be positive", false);
else if (conf.max_value_size_in_mb >= 2048)
throw new ConfigurationException("max_value_size_in_mb must be smaller than 2048, but was "
+ conf.max_value_size_in_mb, false);
switch (conf.disk_optimization_strategy)
{
case ssd:
diskOptimizationStrategy = new SsdDiskOptimizationStrategy(conf.disk_optimization_page_cross_chance);
break;
case spinning:
diskOptimizationStrategy = new SpinningDiskOptimizationStrategy();
break;
}
if (conf.otc_coalescing_enough_coalesced_messages > 128)
throw new ConfigurationException("otc_coalescing_enough_coalesced_messages must be smaller than 128", false);
if (conf.otc_coalescing_enough_coalesced_messages <= 0)
throw new ConfigurationException("otc_coalescing_enough_coalesced_messages must be positive", false);
if (conf.server_encryption_options != null)
{
conf.server_encryption_options.applyConfig();
if (conf.server_encryption_options.enable_legacy_ssl_storage_port &&
conf.server_encryption_options.tlsEncryptionPolicy() == EncryptionOptions.TlsEncryptionPolicy.UNENCRYPTED)
{
throw new ConfigurationException("enable_legacy_ssl_storage_port is true (enabled) with internode encryption disabled (none). Enable encryption or disable the legacy ssl storage port.");
}
}
Integer maxMessageSize = conf.internode_max_message_size_in_bytes;
if (maxMessageSize != null)
{
if (maxMessageSize > conf.internode_application_receive_queue_reserve_endpoint_capacity_in_bytes)
throw new ConfigurationException("internode_max_message_size_in_mb must no exceed internode_application_receive_queue_reserve_endpoint_capacity_in_bytes", false);
if (maxMessageSize > conf.internode_application_receive_queue_reserve_global_capacity_in_bytes)
throw new ConfigurationException("internode_max_message_size_in_mb must no exceed internode_application_receive_queue_reserve_global_capacity_in_bytes", false);
if (maxMessageSize > conf.internode_application_send_queue_reserve_endpoint_capacity_in_bytes)
throw new ConfigurationException("internode_max_message_size_in_mb must no exceed internode_application_send_queue_reserve_endpoint_capacity_in_bytes", false);
if (maxMessageSize > conf.internode_application_send_queue_reserve_global_capacity_in_bytes)
throw new ConfigurationException("internode_max_message_size_in_mb must no exceed internode_application_send_queue_reserve_global_capacity_in_bytes", false);
}
else
{
conf.internode_max_message_size_in_bytes =
Math.min(conf.internode_application_receive_queue_reserve_endpoint_capacity_in_bytes,
conf.internode_application_send_queue_reserve_endpoint_capacity_in_bytes);
}
validateMaxConcurrentAutoUpgradeTasksConf(conf.max_concurrent_automatic_sstable_upgrades);
}
@VisibleForTesting
static void applyConcurrentValidations(Config config)
{
if (config.concurrent_validations < 1)
{
config.concurrent_validations = config.concurrent_compactors;
}
else if (config.concurrent_validations > config.concurrent_compactors && !allowUnlimitedConcurrentValidations)
{
throw new ConfigurationException("To set concurrent_validations > concurrent_compactors, " +
"set the system property cassandra.allow_unlimited_concurrent_validations=true");
}
}
@VisibleForTesting
static void applyRepairCommandPoolSize(Config config)
{
if (config.repair_command_pool_size < 1)
config.repair_command_pool_size = config.concurrent_validations;
}
private static String storagedirFor(String type)
{
return storagedir(type + "_directory") + File.separator + type;
}
private static String storagedir(String errMsgType)
{
String storagedir = System.getProperty(Config.PROPERTY_PREFIX + "storagedir", null);
if (storagedir == null)
throw new ConfigurationException(errMsgType + " is missing and -Dcassandra.storagedir is not set", false);
return storagedir;
}
static int calculateDefaultSpaceInMB(String type, String path, String setting, int preferredSizeInMB, long totalSpaceInBytes, long totalSpaceNumerator, long totalSpaceDenominator)
{
final long totalSizeInMB = totalSpaceInBytes / ONE_MB;
final int minSizeInMB = Ints.saturatedCast(totalSpaceNumerator * totalSizeInMB / totalSpaceDenominator);
if (minSizeInMB < preferredSizeInMB)
{
logger.warn("Small {} volume detected at '{}'; setting {} to {}. You can override this in cassandra.yaml",
type, path, setting, minSizeInMB);
return minSizeInMB;
}
else
{
return preferredSizeInMB;
}
}
public static void applyAddressConfig() throws ConfigurationException
{
applyAddressConfig(conf);
}
public static void applyAddressConfig(Config config) throws ConfigurationException
{
listenAddress = null;
rpcAddress = null;
broadcastAddress = null;
broadcastRpcAddress = null;
/* Local IP, hostname or interface to bind services to */
if (config.listen_address != null && config.listen_interface != null)
{
throw new ConfigurationException("Set listen_address OR listen_interface, not both", false);
}
else if (config.listen_address != null)
{
try
{
listenAddress = InetAddress.getByName(config.listen_address);
}
catch (UnknownHostException e)
{
throw new ConfigurationException("Unknown listen_address '" + config.listen_address + '\'', false);
}
if (listenAddress.isAnyLocalAddress())
throw new ConfigurationException("listen_address cannot be a wildcard address (" + config.listen_address + ")!", false);
}
else if (config.listen_interface != null)
{
listenAddress = getNetworkInterfaceAddress(config.listen_interface, "listen_interface", config.listen_interface_prefer_ipv6);
}
/* Gossip Address to broadcast */
if (config.broadcast_address != null)
{
try
{
broadcastAddress = InetAddress.getByName(config.broadcast_address);
}
catch (UnknownHostException e)
{
throw new ConfigurationException("Unknown broadcast_address '" + config.broadcast_address + '\'', false);
}
if (broadcastAddress.isAnyLocalAddress())
throw new ConfigurationException("broadcast_address cannot be a wildcard address (" + config.broadcast_address + ")!", false);
}
/* Local IP, hostname or interface to bind RPC server to */
if (config.rpc_address != null && config.rpc_interface != null)
{
throw new ConfigurationException("Set rpc_address OR rpc_interface, not both", false);
}
else if (config.rpc_address != null)
{
try
{
rpcAddress = InetAddress.getByName(config.rpc_address);
}
catch (UnknownHostException e)
{
throw new ConfigurationException("Unknown host in rpc_address " + config.rpc_address, false);
}
}
else if (config.rpc_interface != null)
{
rpcAddress = getNetworkInterfaceAddress(config.rpc_interface, "rpc_interface", config.rpc_interface_prefer_ipv6);
}
else
{
rpcAddress = FBUtilities.getJustLocalAddress();
}
/* RPC address to broadcast */
if (config.broadcast_rpc_address != null)
{
try
{
broadcastRpcAddress = InetAddress.getByName(config.broadcast_rpc_address);
}
catch (UnknownHostException e)
{
throw new ConfigurationException("Unknown broadcast_rpc_address '" + config.broadcast_rpc_address + '\'', false);
}
if (broadcastRpcAddress.isAnyLocalAddress())
throw new ConfigurationException("broadcast_rpc_address cannot be a wildcard address (" + config.broadcast_rpc_address + ")!", false);
}
else
{
if (rpcAddress.isAnyLocalAddress())
throw new ConfigurationException("If rpc_address is set to a wildcard address (" + config.rpc_address + "), then " +
"you must set broadcast_rpc_address to a value other than " + config.rpc_address, false);
}
}
public static void applyEncryptionContext()
{
// always attempt to load the cipher factory, as we could be in the situation where the user has disabled encryption,
// but has existing commitlogs and sstables on disk that are still encrypted (and still need to be read)
encryptionContext = new EncryptionContext(conf.transparent_data_encryption_options);
}
public static void applySslContext()
{
try
{
SSLFactory.validateSslContext("Internode messaging", conf.server_encryption_options, true, true);
SSLFactory.validateSslContext("Native transport", conf.client_encryption_options, conf.client_encryption_options.require_client_auth, true);
SSLFactory.initHotReloading(conf.server_encryption_options, conf.client_encryption_options, false);
}
catch (IOException e)
{
throw new ConfigurationException("Failed to initialize SSL", e);
}
}
public static void applySeedProvider()
{
// load the seeds for node contact points
if (conf.seed_provider == null)
{
throw new ConfigurationException("seeds configuration is missing; a minimum of one seed is required.", false);
}
try
{
Class seedProviderClass = Class.forName(conf.seed_provider.class_name);
seedProvider = (SeedProvider)seedProviderClass.getConstructor(Map.class).newInstance(conf.seed_provider.parameters);
}
// there are about 5 checked exceptions that could be thrown here.
catch (Exception e)
{
throw new ConfigurationException(e.getMessage() + "\nFatal configuration error; unable to start server. See log for stacktrace.", true);
}
if (seedProvider.getSeeds().size() == 0)
throw new ConfigurationException("The seed provider lists no seeds.", false);
}
@VisibleForTesting
static void checkForLowestAcceptedTimeouts(Config conf)
{
if(conf.read_request_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("read_request_timeout_in_ms", conf.read_request_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.read_request_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
if(conf.range_request_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("range_request_timeout_in_ms", conf.range_request_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.range_request_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
if(conf.request_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("request_timeout_in_ms", conf.request_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.request_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
if(conf.write_request_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("write_request_timeout_in_ms", conf.write_request_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.write_request_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
if(conf.cas_contention_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("cas_contention_timeout_in_ms", conf.cas_contention_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.cas_contention_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
if(conf.counter_write_request_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("counter_write_request_timeout_in_ms", conf.counter_write_request_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.counter_write_request_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
if(conf.truncate_request_timeout_in_ms < LOWEST_ACCEPTED_TIMEOUT)
{
logInfo("truncate_request_timeout_in_ms", conf.truncate_request_timeout_in_ms, LOWEST_ACCEPTED_TIMEOUT);
conf.truncate_request_timeout_in_ms = LOWEST_ACCEPTED_TIMEOUT;
}
}
private static void logInfo(String property, long actualValue, long lowestAcceptedValue)
{
logger.info("found {}::{} less than lowest acceptable value {}, continuing with {}", property, actualValue, lowestAcceptedValue, lowestAcceptedValue);
}
public static void applyTokensConfig()
{
applyTokensConfig(conf);
}
static void applyTokensConfig(Config conf)
{
if (conf.initial_token != null)
{
Collection tokens = tokensFromString(conf.initial_token);
if (conf.num_tokens == null)
{
if (tokens.size() == 1)
conf.num_tokens = 1;
else
throw new ConfigurationException("initial_token was set but num_tokens is not!", false);
}
if (tokens.size() != conf.num_tokens)
{
throw new ConfigurationException(String.format("The number of initial tokens (by initial_token) specified (%s) is different from num_tokens value (%s)",
tokens.size(),
conf.num_tokens),
false);
}
for (String token : tokens)
partitioner.getTokenFactory().validate(token);
}
else if (conf.num_tokens == null)
{
conf.num_tokens = 1;
}
}
// definitely not safe for tools + clients - implicitly instantiates StorageService
public static void applySnitch()
{
/* end point snitch */
if (conf.endpoint_snitch == null)
{
throw new ConfigurationException("Missing endpoint_snitch directive", false);
}
snitch = createEndpointSnitch(conf.dynamic_snitch, conf.endpoint_snitch);
EndpointSnitchInfo.create();
localDC = snitch.getLocalDatacenter();
localComparator = (replica1, replica2) -> {
boolean local1 = localDC.equals(snitch.getDatacenter(replica1));
boolean local2 = localDC.equals(snitch.getDatacenter(replica2));
if (local1 && !local2)
return -1;
if (local2 && !local1)
return 1;
return 0;
};
}
// definitely not safe for tools + clients - implicitly instantiates schema
public static void applyPartitioner()
{
applyPartitioner(conf);
}
public static void applyPartitioner(Config conf)
{
/* Hashing strategy */
if (conf.partitioner == null)
{
throw new ConfigurationException("Missing directive: partitioner", false);
}
String name = conf.partitioner;
try
{
name = System.getProperty(Config.PROPERTY_PREFIX + "partitioner", conf.partitioner);
partitioner = FBUtilities.newPartitioner(name);
}
catch (Exception e)
{
throw new ConfigurationException("Invalid partitioner class " + name, e);
}
paritionerName = partitioner.getClass().getCanonicalName();
}
/**
* Computes the sum of the 2 specified positive values returning {@code Long.MAX_VALUE} if the sum overflow.
*
* @param left the left operand
* @param right the right operand
* @return the sum of the 2 specified positive values of {@code Long.MAX_VALUE} if the sum overflow.
*/
private static long saturatedSum(long left, long right)
{
assert left >= 0 && right >= 0;
long sum = left + right;
return sum < 0 ? Long.MAX_VALUE : sum;
}
private static FileStore guessFileStore(String dir) throws IOException
{
Path path = Paths.get(dir);
while (true)
{
try
{
return FileUtils.getFileStore(path);
}
catch (IOException e)
{
if (e instanceof NoSuchFileException)
{
path = path.getParent();
if (path == null)
{
throw new ConfigurationException("Unable to find filesystem for '" + dir + "'.");
}
}
else
{
throw e;
}
}
}
}
private static long getUnallocatedSpace(String directory)
{
try
{
return guessFileStore(directory).getUnallocatedSpace();
}
catch (IOException e)
{
logger.debug("Error checking disk space", e);
throw new ConfigurationException(String.format("Unable to check disk space available to %s. Perhaps the Cassandra user does not have the necessary permissions",
directory), e);
}
}
public static IEndpointSnitch createEndpointSnitch(boolean dynamic, String snitchClassName) throws ConfigurationException
{
if (!snitchClassName.contains("."))
snitchClassName = "org.apache.cassandra.locator." + snitchClassName;
IEndpointSnitch snitch = FBUtilities.construct(snitchClassName, "snitch");
return dynamic ? new DynamicEndpointSnitch(snitch) : snitch;
}
public static IAuthenticator getAuthenticator()
{
return authenticator;
}
public static void setAuthenticator(IAuthenticator authenticator)
{
DatabaseDescriptor.authenticator = authenticator;
}
public static IAuthorizer getAuthorizer()
{
return authorizer;
}
public static void setAuthorizer(IAuthorizer authorizer)
{
DatabaseDescriptor.authorizer = authorizer;
}
public static INetworkAuthorizer getNetworkAuthorizer()
{
return networkAuthorizer;
}
public static void setNetworkAuthorizer(INetworkAuthorizer networkAuthorizer)
{
DatabaseDescriptor.networkAuthorizer = networkAuthorizer;
}
public static IRoleManager getRoleManager()
{
return roleManager;
}
public static void setRoleManager(IRoleManager roleManager)
{
DatabaseDescriptor.roleManager = roleManager;
}
public static int getPermissionsValidity()
{
return conf.permissions_validity_in_ms;
}
public static void setPermissionsValidity(int timeout)
{
conf.permissions_validity_in_ms = timeout;
}
public static int getPermissionsUpdateInterval()
{
return conf.permissions_update_interval_in_ms == -1
? conf.permissions_validity_in_ms
: conf.permissions_update_interval_in_ms;
}
public static void setPermissionsUpdateInterval(int updateInterval)
{
conf.permissions_update_interval_in_ms = updateInterval;
}
public static int getPermissionsCacheMaxEntries()
{
return conf.permissions_cache_max_entries;
}
public static int setPermissionsCacheMaxEntries(int maxEntries)
{
return conf.permissions_cache_max_entries = maxEntries;
}
public static int getRolesValidity()
{
return conf.roles_validity_in_ms;
}
public static void setRolesValidity(int validity)
{
conf.roles_validity_in_ms = validity;
}
public static int getRolesUpdateInterval()
{
return conf.roles_update_interval_in_ms == -1
? conf.roles_validity_in_ms
: conf.roles_update_interval_in_ms;
}
public static void setRolesUpdateInterval(int interval)
{
conf.roles_update_interval_in_ms = interval;
}
public static int getRolesCacheMaxEntries()
{
return conf.roles_cache_max_entries;
}
public static int setRolesCacheMaxEntries(int maxEntries)
{
return conf.roles_cache_max_entries = maxEntries;
}
public static int getCredentialsValidity()
{
return conf.credentials_validity_in_ms;
}
public static void setCredentialsValidity(int timeout)
{
conf.credentials_validity_in_ms = timeout;
}
public static int getCredentialsUpdateInterval()
{
return conf.credentials_update_interval_in_ms == -1
? conf.credentials_validity_in_ms
: conf.credentials_update_interval_in_ms;
}
public static void setCredentialsUpdateInterval(int updateInterval)
{
conf.credentials_update_interval_in_ms = updateInterval;
}
public static int getCredentialsCacheMaxEntries()
{
return conf.credentials_cache_max_entries;
}
public static int setCredentialsCacheMaxEntries(int maxEntries)
{
return conf.credentials_cache_max_entries = maxEntries;
}
public static int getMaxValueSize()
{
return conf.max_value_size_in_mb * 1024 * 1024;
}
public static void setMaxValueSize(int maxValueSizeInBytes)
{
conf.max_value_size_in_mb = maxValueSizeInBytes / 1024 / 1024;
}
/**
* Creates all storage-related directories.
*/
public static void createAllDirectories()
{
try
{
if (conf.data_file_directories.length == 0)
throw new ConfigurationException("At least one DataFileDirectory must be specified", false);
for (String dataFileDirectory : conf.data_file_directories)
FileUtils.createDirectory(dataFileDirectory);
if (conf.local_system_data_file_directory != null)
FileUtils.createDirectory(conf.local_system_data_file_directory);
if (conf.commitlog_directory == null)
throw new ConfigurationException("commitlog_directory must be specified", false);
FileUtils.createDirectory(conf.commitlog_directory);
if (conf.hints_directory == null)
throw new ConfigurationException("hints_directory must be specified", false);
FileUtils.createDirectory(conf.hints_directory);
if (conf.saved_caches_directory == null)
throw new ConfigurationException("saved_caches_directory must be specified", false);
FileUtils.createDirectory(conf.saved_caches_directory);
if (conf.cdc_enabled)
{
if (conf.cdc_raw_directory == null)
throw new ConfigurationException("cdc_raw_directory must be specified", false);
FileUtils.createDirectory(conf.cdc_raw_directory);
}
}
catch (ConfigurationException e)
{
throw new IllegalArgumentException("Bad configuration; unable to start server: "+e.getMessage());
}
catch (FSWriteError e)
{
throw new IllegalStateException(e.getCause().getMessage() + "; unable to start server");
}
}
public static IPartitioner getPartitioner()
{
return partitioner;
}
public static String getPartitionerName()
{
return paritionerName;
}
/* For tests ONLY, don't use otherwise or all hell will break loose. Tests should restore value at the end. */
public static IPartitioner setPartitionerUnsafe(IPartitioner newPartitioner)
{
IPartitioner old = partitioner;
partitioner = newPartitioner;
return old;
}
public static IEndpointSnitch getEndpointSnitch()
{
return snitch;
}
public static void setEndpointSnitch(IEndpointSnitch eps)
{
snitch = eps;
}
public static int getColumnIndexSize()
{
return (int) ByteUnit.KIBI_BYTES.toBytes(conf.column_index_size_in_kb);
}
public static int getColumnIndexSizeInKB()
{
return conf.column_index_size_in_kb;
}
@VisibleForTesting
public static void setColumnIndexSize(int val)
{
checkValidForByteConversion(val, "column_index_size_in_kb", ByteUnit.KIBI_BYTES);
conf.column_index_size_in_kb = val;
}
public static int getColumnIndexCacheSize()
{
return (int) ByteUnit.KIBI_BYTES.toBytes(conf.column_index_cache_size_in_kb);
}
public static int getColumnIndexCacheSizeInKB()
{
return conf.column_index_cache_size_in_kb;
}
public static void setColumnIndexCacheSize(int val)
{
checkValidForByteConversion(val, "column_index_cache_size_in_kb", ByteUnit.KIBI_BYTES);
conf.column_index_cache_size_in_kb = val;
}
public static int getBatchSizeWarnThreshold()
{
return (int) ByteUnit.KIBI_BYTES.toBytes(conf.batch_size_warn_threshold_in_kb);
}
public static int getBatchSizeWarnThresholdInKB()
{
return conf.batch_size_warn_threshold_in_kb;
}
public static long getBatchSizeFailThreshold()
{
return ByteUnit.KIBI_BYTES.toBytes(conf.batch_size_fail_threshold_in_kb);
}
public static int getBatchSizeFailThresholdInKB()
{
return conf.batch_size_fail_threshold_in_kb;
}
public static int getUnloggedBatchAcrossPartitionsWarnThreshold()
{
return conf.unlogged_batch_across_partitions_warn_threshold;
}
public static void setBatchSizeWarnThresholdInKB(int threshold)
{
checkValidForByteConversion(threshold, "batch_size_warn_threshold_in_kb", ByteUnit.KIBI_BYTES);
conf.batch_size_warn_threshold_in_kb = threshold;
}
public static void setBatchSizeFailThresholdInKB(int threshold)
{
conf.batch_size_fail_threshold_in_kb = threshold;
}
public static Collection getInitialTokens()
{
return tokensFromString(System.getProperty(Config.PROPERTY_PREFIX + "initial_token", conf.initial_token));
}
public static String getAllocateTokensForKeyspace()
{
return System.getProperty(Config.PROPERTY_PREFIX + "allocate_tokens_for_keyspace", conf.allocate_tokens_for_keyspace);
}
public static Integer getAllocateTokensForLocalRf()
{
return conf.allocate_tokens_for_local_replication_factor;
}
public static Collection tokensFromString(String tokenString)
{
List tokens = new ArrayList<>();
if (tokenString != null)
for (String token : StringUtils.split(tokenString, ','))
tokens.add(token.trim());
return tokens;
}
public static int getNumTokens()
{
return conf.num_tokens;
}
public static InetAddressAndPort getReplaceAddress()
{
try
{
if (System.getProperty(Config.PROPERTY_PREFIX + "replace_address", null) != null)
return InetAddressAndPort.getByName(System.getProperty(Config.PROPERTY_PREFIX + "replace_address", null));
else if (System.getProperty(Config.PROPERTY_PREFIX + "replace_address_first_boot", null) != null)
return InetAddressAndPort.getByName(System.getProperty(Config.PROPERTY_PREFIX + "replace_address_first_boot", null));
return null;
}
catch (UnknownHostException e)
{
throw new RuntimeException("Replacement host name could not be resolved or scope_id was specified for a global IPv6 address", e);
}
}
public static Collection getReplaceTokens()
{
return tokensFromString(System.getProperty(Config.PROPERTY_PREFIX + "replace_token", null));
}
public static UUID getReplaceNode()
{
try
{
return UUID.fromString(System.getProperty(Config.PROPERTY_PREFIX + "replace_node", null));
} catch (NullPointerException e)
{
return null;
}
}
public static String getClusterName()
{
return conf.cluster_name;
}
public static int getStoragePort()
{
return Integer.parseInt(System.getProperty(Config.PROPERTY_PREFIX + "storage_port", Integer.toString(conf.storage_port)));
}
public static int getSSLStoragePort()
{
return Integer.parseInt(System.getProperty(Config.PROPERTY_PREFIX + "ssl_storage_port", Integer.toString(conf.ssl_storage_port)));
}
public static long nativeTransportIdleTimeout()
{
return conf.native_transport_idle_timeout_in_ms;
}
public static void setNativeTransportIdleTimeout(long nativeTransportTimeout)
{
conf.native_transport_idle_timeout_in_ms = nativeTransportTimeout;
}
public static long getRpcTimeout(TimeUnit unit)
{
return unit.convert(conf.request_timeout_in_ms, MILLISECONDS);
}
public static void setRpcTimeout(long timeOutInMillis)
{
conf.request_timeout_in_ms = timeOutInMillis;
}
public static long getReadRpcTimeout(TimeUnit unit)
{
return unit.convert(conf.read_request_timeout_in_ms, MILLISECONDS);
}
public static void setReadRpcTimeout(long timeOutInMillis)
{
conf.read_request_timeout_in_ms = timeOutInMillis;
}
public static long getRangeRpcTimeout(TimeUnit unit)
{
return unit.convert(conf.range_request_timeout_in_ms, MILLISECONDS);
}
public static void setRangeRpcTimeout(long timeOutInMillis)
{
conf.range_request_timeout_in_ms = timeOutInMillis;
}
public static long getWriteRpcTimeout(TimeUnit unit)
{
return unit.convert(conf.write_request_timeout_in_ms, MILLISECONDS);
}
public static void setWriteRpcTimeout(long timeOutInMillis)
{
conf.write_request_timeout_in_ms = timeOutInMillis;
}
public static long getCounterWriteRpcTimeout(TimeUnit unit)
{
return unit.convert(conf.counter_write_request_timeout_in_ms, MILLISECONDS);
}
public static void setCounterWriteRpcTimeout(long timeOutInMillis)
{
conf.counter_write_request_timeout_in_ms = timeOutInMillis;
}
public static long getCasContentionTimeout(TimeUnit unit)
{
return unit.convert(conf.cas_contention_timeout_in_ms, MILLISECONDS);
}
public static void setCasContentionTimeout(long timeOutInMillis)
{
conf.cas_contention_timeout_in_ms = timeOutInMillis;
}
public static long getTruncateRpcTimeout(TimeUnit unit)
{
return unit.convert(conf.truncate_request_timeout_in_ms, MILLISECONDS);
}
public static void setTruncateRpcTimeout(long timeOutInMillis)
{
conf.truncate_request_timeout_in_ms = timeOutInMillis;
}
public static boolean hasCrossNodeTimeout()
{
return conf.cross_node_timeout;
}
public static void setCrossNodeTimeout(boolean crossNodeTimeout)
{
conf.cross_node_timeout = crossNodeTimeout;
}
public static long getSlowQueryTimeout(TimeUnit units)
{
return units.convert(conf.slow_query_log_timeout_in_ms, MILLISECONDS);
}
/**
* @return the minimum configured {read, write, range, truncate, misc} timeout
*/
public static long getMinRpcTimeout(TimeUnit unit)
{
return Longs.min(getRpcTimeout(unit),
getReadRpcTimeout(unit),
getRangeRpcTimeout(unit),
getWriteRpcTimeout(unit),
getCounterWriteRpcTimeout(unit),
getTruncateRpcTimeout(unit));
}
public static long getPingTimeout(TimeUnit unit)
{
return unit.convert(getBlockForPeersTimeoutInSeconds(), TimeUnit.SECONDS);
}
public static double getPhiConvictThreshold()
{
return conf.phi_convict_threshold;
}
public static void setPhiConvictThreshold(double phiConvictThreshold)
{
conf.phi_convict_threshold = phiConvictThreshold;
}
public static int getConcurrentReaders()
{
return conf.concurrent_reads;
}
public static void setConcurrentReaders(int concurrent_reads)
{
if (concurrent_reads < 0)
{
throw new IllegalArgumentException("Concurrent reads must be non-negative");
}
conf.concurrent_reads = concurrent_reads;
}
public static int getConcurrentWriters()
{
return conf.concurrent_writes;
}
public static void setConcurrentWriters(int concurrent_writers)
{
if (concurrent_writers < 0)
{
throw new IllegalArgumentException("Concurrent reads must be non-negative");
}
conf.concurrent_writes = concurrent_writers;
}
public static int getConcurrentCounterWriters()
{
return conf.concurrent_counter_writes;
}
public static void setConcurrentCounterWriters(int concurrent_counter_writes)
{
if (concurrent_counter_writes < 0)
{
throw new IllegalArgumentException("Concurrent reads must be non-negative");
}
conf.concurrent_counter_writes = concurrent_counter_writes;
}
public static int getConcurrentViewWriters()
{
return conf.concurrent_materialized_view_writes;
}
public static void setConcurrentViewWriters(int concurrent_materialized_view_writes)
{
if (concurrent_materialized_view_writes < 0)
{
throw new IllegalArgumentException("Concurrent reads must be non-negative");
}
conf.concurrent_materialized_view_writes = concurrent_materialized_view_writes;
}
public static int getFlushWriters()
{
return conf.memtable_flush_writers;
}
public static int getConcurrentCompactors()
{
return conf.concurrent_compactors;
}
public static void setConcurrentCompactors(int value)
{
conf.concurrent_compactors = value;
}
public static int getCompactionThroughputMbPerSec()
{
return conf.compaction_throughput_mb_per_sec;
}
public static void setCompactionThroughputMbPerSec(int value)
{
conf.compaction_throughput_mb_per_sec = value;
}
public static long getCompactionLargePartitionWarningThreshold() { return ByteUnit.MEBI_BYTES.toBytes(conf.compaction_large_partition_warning_threshold_mb); }
public static int getConcurrentValidations()
{
return conf.concurrent_validations;
}
public static void setConcurrentValidations(int value)
{
value = value > 0 ? value : Integer.MAX_VALUE;
conf.concurrent_validations = value;
}
public static int getConcurrentViewBuilders()
{
return conf.concurrent_materialized_view_builders;
}
public static void setConcurrentViewBuilders(int value)
{
conf.concurrent_materialized_view_builders = value;
}
public static long getMinFreeSpacePerDriveInBytes()
{
return ByteUnit.MEBI_BYTES.toBytes(conf.min_free_space_per_drive_in_mb);
}
public static boolean getDisableSTCSInL0()
{
return disableSTCSInL0;
}
public static void setDisableSTCSInL0(boolean disabled)
{
disableSTCSInL0 = disabled;
}
public static int getStreamThroughputOutboundMegabitsPerSec()
{
return conf.stream_throughput_outbound_megabits_per_sec;
}
public static void setStreamThroughputOutboundMegabitsPerSec(int value)
{
conf.stream_throughput_outbound_megabits_per_sec = value;
}
public static int getInterDCStreamThroughputOutboundMegabitsPerSec()
{
return conf.inter_dc_stream_throughput_outbound_megabits_per_sec;
}
public static void setInterDCStreamThroughputOutboundMegabitsPerSec(int value)
{
conf.inter_dc_stream_throughput_outbound_megabits_per_sec = value;
}
/**
* Checks if the local system data must be stored in a specific location which supports redundancy.
*
* @return {@code true} if the local system keyspaces data must be stored in a different location,
* {@code false} otherwise.
*/
public static boolean useSpecificLocationForLocalSystemData()
{
return conf.local_system_data_file_directory != null;
}
/**
* Returns the locations where the local system keyspaces data should be stored.
*
* If the {@code local_system_data_file_directory} was unspecified, the local system keyspaces data should be stored
* in the first data directory. This approach guarantees that the server can tolerate the lost of all the disks but the first one.
*
* @return the locations where should be stored the local system keyspaces data
*/
public static String[] getLocalSystemKeyspacesDataFileLocations()
{
if (useSpecificLocationForLocalSystemData())
return new String[] {conf.local_system_data_file_directory};
return conf.data_file_directories.length == 0 ? conf.data_file_directories
: new String[] {conf.data_file_directories[0]};
}
/**
* Returns the locations where the non local system keyspaces data should be stored.
*
* @return the locations where the non local system keyspaces data should be stored.
*/
public static String[] getNonLocalSystemKeyspacesDataFileLocations()
{
return conf.data_file_directories;
}
/**
* Returns the list of all the directories where the data files can be stored (for local system and non local system keyspaces).
*
* @return the list of all the directories where the data files can be stored.
*/
public static String[] getAllDataFileLocations()
{
if (conf.local_system_data_file_directory == null)
return conf.data_file_directories;
return ArrayUtils.addFirst(conf.data_file_directories, conf.local_system_data_file_directory);
}
public static String getCommitLogLocation()
{
return conf.commitlog_directory;
}
@VisibleForTesting
public static void setCommitLogLocation(String value)
{
conf.commitlog_directory = value;
}
public static ParameterizedClass getCommitLogCompression()
{
return conf.commitlog_compression;
}
public static void setCommitLogCompression(ParameterizedClass compressor)
{
conf.commitlog_compression = compressor;
}
public static Config.FlushCompression getFlushCompression()
{
return conf.flush_compression;
}
public static void setFlushCompression(Config.FlushCompression compression)
{
conf.flush_compression = compression;
}
/**
* Maximum number of buffers in the compression pool. The default value is 3, it should not be set lower than that
* (one segment in compression, one written to, one in reserve); delays in compression may cause the log to use
* more, depending on how soon the sync policy stops all writing threads.
*/
public static int getCommitLogMaxCompressionBuffersInPool()
{
return conf.commitlog_max_compression_buffers_in_pool;
}
public static void setCommitLogMaxCompressionBuffersPerPool(int buffers)
{
conf.commitlog_max_compression_buffers_in_pool = buffers;
}
public static int getMaxMutationSize()
{
return (int) ByteUnit.KIBI_BYTES.toBytes(conf.max_mutation_size_in_kb);
}
public static int getTombstoneWarnThreshold()
{
return conf.tombstone_warn_threshold;
}
public static void setTombstoneWarnThreshold(int threshold)
{
conf.tombstone_warn_threshold = threshold;
}
public static int getTombstoneFailureThreshold()
{
return conf.tombstone_failure_threshold;
}
public static void setTombstoneFailureThreshold(int threshold)
{
conf.tombstone_failure_threshold = threshold;
}
public static int getCachedReplicaRowsWarnThreshold()
{
return conf.replica_filtering_protection.cached_rows_warn_threshold;
}
public static void setCachedReplicaRowsWarnThreshold(int threshold)
{
conf.replica_filtering_protection.cached_rows_warn_threshold = threshold;
}
public static int getCachedReplicaRowsFailThreshold()
{
return conf.replica_filtering_protection.cached_rows_fail_threshold;
}
public static void setCachedReplicaRowsFailThreshold(int threshold)
{
conf.replica_filtering_protection.cached_rows_fail_threshold = threshold;
}
/**
* size of commitlog segments to allocate
*/
public static int getCommitLogSegmentSize()
{
return (int) ByteUnit.MEBI_BYTES.toBytes(conf.commitlog_segment_size_in_mb);
}
public static void setCommitLogSegmentSize(int sizeMegabytes)
{
conf.commitlog_segment_size_in_mb = sizeMegabytes;
}
public static String getSavedCachesLocation()
{
return conf.saved_caches_directory;
}
public static Set getSeeds()
{
return ImmutableSet.builder().addAll(seedProvider.getSeeds()).build();
}
public static SeedProvider getSeedProvider()
{
return seedProvider;
}
public static void setSeedProvider(SeedProvider newSeedProvider)
{
seedProvider = newSeedProvider;
}
public static InetAddress getListenAddress()
{
return listenAddress;
}
public static void setListenAddress(InetAddress newlistenAddress)
{
listenAddress = newlistenAddress;
}
public static InetAddress getBroadcastAddress()
{
return broadcastAddress;
}
public static boolean shouldListenOnBroadcastAddress()
{
return conf.listen_on_broadcast_address;
}
public static void setShouldListenOnBroadcastAddress(boolean shouldListenOnBroadcastAddress)
{
conf.listen_on_broadcast_address = shouldListenOnBroadcastAddress;
}
public static void setListenOnBroadcastAddress(boolean listen_on_broadcast_address)
{
conf.listen_on_broadcast_address = listen_on_broadcast_address;
}
public static IInternodeAuthenticator getInternodeAuthenticator()
{
return internodeAuthenticator;
}
public static void setInternodeAuthenticator(IInternodeAuthenticator internodeAuthenticator)
{
Preconditions.checkNotNull(internodeAuthenticator);
DatabaseDescriptor.internodeAuthenticator = internodeAuthenticator;
}
public static void setBroadcastAddress(InetAddress broadcastAdd)
{
broadcastAddress = broadcastAdd;
}
/**
* This is the address used to bind for the native protocol to communicate with clients. Most usages in the code
* refer to it as native address although some places still call it RPC address. It's not thrift RPC anymore
* so native is more appropriate. The address alone is not enough to uniquely identify this instance because
* multiple instances might use the same interface with different ports.
*/
public static InetAddress getRpcAddress()
{
return rpcAddress;
}
public static void setBroadcastRpcAddress(InetAddress broadcastRPCAddr)
{
broadcastRpcAddress = broadcastRPCAddr;
}
/**
* This is the address used to reach this instance for the native protocol to communicate with clients. Most usages in the code
* refer to it as native address although some places still call it RPC address. It's not thrift RPC anymore
* so native is more appropriate. The address alone is not enough to uniquely identify this instance because
* multiple instances might use the same interface with different ports.
*
* May be null, please use {@link FBUtilities#getBroadcastNativeAddressAndPort()} instead.
*/
public static InetAddress getBroadcastRpcAddress()
{
return broadcastRpcAddress;
}
public static boolean getRpcKeepAlive()
{
return conf.rpc_keepalive;
}
public static int getInternodeSocketSendBufferSizeInBytes()
{
return conf.internode_socket_send_buffer_size_in_bytes;
}
public static int getInternodeSocketReceiveBufferSizeInBytes()
{
return conf.internode_socket_receive_buffer_size_in_bytes;
}
public static int getInternodeApplicationSendQueueCapacityInBytes()
{
return conf.internode_application_send_queue_capacity_in_bytes;
}
public static int getInternodeApplicationSendQueueReserveEndpointCapacityInBytes()
{
return conf.internode_application_send_queue_reserve_endpoint_capacity_in_bytes;
}
public static int getInternodeApplicationSendQueueReserveGlobalCapacityInBytes()
{
return conf.internode_application_send_queue_reserve_global_capacity_in_bytes;
}
public static int getInternodeApplicationReceiveQueueCapacityInBytes()
{
return conf.internode_application_receive_queue_capacity_in_bytes;
}
public static int getInternodeApplicationReceiveQueueReserveEndpointCapacityInBytes()
{
return conf.internode_application_receive_queue_reserve_endpoint_capacity_in_bytes;
}
public static int getInternodeApplicationReceiveQueueReserveGlobalCapacityInBytes()
{
return conf.internode_application_receive_queue_reserve_global_capacity_in_bytes;
}
public static int getInternodeTcpConnectTimeoutInMS()
{
return conf.internode_tcp_connect_timeout_in_ms;
}
public static void setInternodeTcpConnectTimeoutInMS(int value)
{
conf.internode_tcp_connect_timeout_in_ms = value;
}
public static int getInternodeTcpUserTimeoutInMS()
{
return conf.internode_tcp_user_timeout_in_ms;
}
public static void setInternodeTcpUserTimeoutInMS(int value)
{
conf.internode_tcp_user_timeout_in_ms = value;
}
public static int getInternodeStreamingTcpUserTimeoutInMS()
{
return conf.internode_streaming_tcp_user_timeout_in_ms;
}
public static void setInternodeStreamingTcpUserTimeoutInMS(int value)
{
conf.internode_streaming_tcp_user_timeout_in_ms = value;
}
public static int getInternodeMaxMessageSizeInBytes()
{
return conf.internode_max_message_size_in_bytes;
}
@VisibleForTesting
public static void setInternodeMaxMessageSizeInBytes(int value)
{
conf.internode_max_message_size_in_bytes = value;
}
public static boolean startNativeTransport()
{
return conf.start_native_transport;
}
/**
* This is the port used with RPC address for the native protocol to communicate with clients. Now that thrift RPC
* is no longer in use there is no RPC port.
*/
public static int getNativeTransportPort()
{
return Integer.parseInt(System.getProperty(Config.PROPERTY_PREFIX + "native_transport_port", Integer.toString(conf.native_transport_port)));
}
@VisibleForTesting
public static void setNativeTransportPort(int port)
{
conf.native_transport_port = port;
}
public static int getNativeTransportPortSSL()
{
return conf.native_transport_port_ssl == null ? getNativeTransportPort() : conf.native_transport_port_ssl;
}
@VisibleForTesting
public static void setNativeTransportPortSSL(Integer port)
{
conf.native_transport_port_ssl = port;
}
public static int getNativeTransportMaxThreads()
{
return conf.native_transport_max_threads;
}
public static void setNativeTransportMaxThreads(int max_threads)
{
conf.native_transport_max_threads = max_threads;
}
public static int getNativeTransportMaxFrameSize()
{
return (int) ByteUnit.MEBI_BYTES.toBytes(conf.native_transport_max_frame_size_in_mb);
}
public static long getNativeTransportMaxConcurrentConnections()
{
return conf.native_transport_max_concurrent_connections;
}
public static void setNativeTransportMaxConcurrentConnections(long nativeTransportMaxConcurrentConnections)
{
conf.native_transport_max_concurrent_connections = nativeTransportMaxConcurrentConnections;
}
public static long getNativeTransportMaxConcurrentConnectionsPerIp()
{
return conf.native_transport_max_concurrent_connections_per_ip;
}
public static void setNativeTransportMaxConcurrentConnectionsPerIp(long native_transport_max_concurrent_connections_per_ip)
{
conf.native_transport_max_concurrent_connections_per_ip = native_transport_max_concurrent_connections_per_ip;
}
public static boolean useNativeTransportLegacyFlusher()
{
return conf.native_transport_flush_in_batches_legacy;
}
public static boolean getNativeTransportAllowOlderProtocols()
{
return conf.native_transport_allow_older_protocols;
}
public static void setNativeTransportAllowOlderProtocols(boolean isEnabled)
{
conf.native_transport_allow_older_protocols = isEnabled;
}
public static double getCommitLogSyncGroupWindow()
{
return conf.commitlog_sync_group_window_in_ms;
}
public static void setCommitLogSyncGroupWindow(double windowMillis)
{
conf.commitlog_sync_group_window_in_ms = windowMillis;
}
public static int getNativeTransportReceiveQueueCapacityInBytes()
{
return conf.native_transport_receive_queue_capacity_in_bytes;
}
public static void setNativeTransportReceiveQueueCapacityInBytes(int queueSize)
{
conf.native_transport_receive_queue_capacity_in_bytes = queueSize;
}
public static long getNativeTransportMaxConcurrentRequestsInBytesPerIp()
{
return conf.native_transport_max_concurrent_requests_in_bytes_per_ip;
}
public static void setNativeTransportMaxConcurrentRequestsInBytesPerIp(long maxConcurrentRequestsInBytes)
{
conf.native_transport_max_concurrent_requests_in_bytes_per_ip = maxConcurrentRequestsInBytes;
}
public static long getNativeTransportMaxConcurrentRequestsInBytes()
{
return conf.native_transport_max_concurrent_requests_in_bytes;
}
public static void setNativeTransportMaxConcurrentRequestsInBytes(long maxConcurrentRequestsInBytes)
{
conf.native_transport_max_concurrent_requests_in_bytes = maxConcurrentRequestsInBytes;
}
public static int getCommitLogSyncPeriod()
{
return conf.commitlog_sync_period_in_ms;
}
public static long getPeriodicCommitLogSyncBlock()
{
Integer blockMillis = conf.periodic_commitlog_sync_lag_block_in_ms;
return blockMillis == null
? (long)(getCommitLogSyncPeriod() * 1.5)
: blockMillis;
}
public static void setCommitLogSyncPeriod(int periodMillis)
{
conf.commitlog_sync_period_in_ms = periodMillis;
}
public static Config.CommitLogSync getCommitLogSync()
{
return conf.commitlog_sync;
}
public static void setCommitLogSync(CommitLogSync sync)
{
conf.commitlog_sync = sync;
}
public static Config.DiskAccessMode getDiskAccessMode()
{
return conf.disk_access_mode;
}
// Do not use outside unit tests.
@VisibleForTesting
public static void setDiskAccessMode(Config.DiskAccessMode mode)
{
conf.disk_access_mode = mode;
}
public static Config.DiskAccessMode getIndexAccessMode()
{
return indexAccessMode;
}
// Do not use outside unit tests.
@VisibleForTesting
public static void setIndexAccessMode(Config.DiskAccessMode mode)
{
indexAccessMode = mode;
}
public static void setDiskFailurePolicy(Config.DiskFailurePolicy policy)
{
conf.disk_failure_policy = policy;
}
public static Config.DiskFailurePolicy getDiskFailurePolicy()
{
return conf.disk_failure_policy;
}
public static void setCommitFailurePolicy(Config.CommitFailurePolicy policy)
{
conf.commit_failure_policy = policy;
}
public static Config.CommitFailurePolicy getCommitFailurePolicy()
{
return conf.commit_failure_policy;
}
public static boolean isSnapshotBeforeCompaction()
{
return conf.snapshot_before_compaction;
}
public static boolean isAutoSnapshot()
{
return conf.auto_snapshot;
}
@VisibleForTesting
public static void setAutoSnapshot(boolean autoSnapshot)
{
conf.auto_snapshot = autoSnapshot;
}
@VisibleForTesting
public static boolean getAutoSnapshot()
{
return conf.auto_snapshot;
}
public static long getSnapshotLinksPerSecond()
{
return conf.snapshot_links_per_second == 0 ? Long.MAX_VALUE : conf.snapshot_links_per_second;
}
public static void setSnapshotLinksPerSecond(long throttle)
{
if (throttle < 0)
throw new IllegalArgumentException("Invalid throttle for snapshot_links_per_second: must be positive");
conf.snapshot_links_per_second = throttle;
}
public static RateLimiter getSnapshotRateLimiter()
{
return RateLimiter.create(getSnapshotLinksPerSecond());
}
public static boolean isAutoBootstrap()
{
return Boolean.parseBoolean(System.getProperty(Config.PROPERTY_PREFIX + "auto_bootstrap", Boolean.toString(conf.auto_bootstrap)));
}
public static void setHintedHandoffEnabled(boolean hintedHandoffEnabled)
{
conf.hinted_handoff_enabled = hintedHandoffEnabled;
}
public static boolean hintedHandoffEnabled()
{
return conf.hinted_handoff_enabled;
}
public static Set hintedHandoffDisabledDCs()
{
return conf.hinted_handoff_disabled_datacenters;
}
public static void enableHintsForDC(String dc)
{
conf.hinted_handoff_disabled_datacenters.remove(dc);
}
public static void disableHintsForDC(String dc)
{
conf.hinted_handoff_disabled_datacenters.add(dc);
}
public static void setMaxHintWindow(int ms)
{
conf.max_hint_window_in_ms = ms;
}
public static int getMaxHintWindow()
{
return conf.max_hint_window_in_ms;
}
public static File getHintsDirectory()
{
return new File(conf.hints_directory);
}
public static File getSerializedCachePath(CacheType cacheType, String version, String extension)
{
String name = cacheType.toString()
+ (version == null ? "" : '-' + version + '.' + extension);
return new File(conf.saved_caches_directory, name);
}
public static int getDynamicUpdateInterval()
{
return conf.dynamic_snitch_update_interval_in_ms;
}
public static void setDynamicUpdateInterval(int dynamicUpdateInterval)
{
conf.dynamic_snitch_update_interval_in_ms = dynamicUpdateInterval;
}
public static int getDynamicResetInterval()
{
return conf.dynamic_snitch_reset_interval_in_ms;
}
public static void setDynamicResetInterval(int dynamicResetInterval)
{
conf.dynamic_snitch_reset_interval_in_ms = dynamicResetInterval;
}
public static double getDynamicBadnessThreshold()
{
return conf.dynamic_snitch_badness_threshold;
}
public static void setDynamicBadnessThreshold(double dynamicBadnessThreshold)
{
conf.dynamic_snitch_badness_threshold = dynamicBadnessThreshold;
}
public static EncryptionOptions.ServerEncryptionOptions getInternodeMessagingEncyptionOptions()
{
return conf.server_encryption_options;
}
public static void setInternodeMessagingEncyptionOptions(EncryptionOptions.ServerEncryptionOptions encryptionOptions)
{
conf.server_encryption_options = encryptionOptions;
}
public static EncryptionOptions getNativeProtocolEncryptionOptions()
{
return conf.client_encryption_options;
}
@VisibleForTesting
public static void updateNativeProtocolEncryptionOptions(Function update)
{
conf.client_encryption_options = update.apply(conf.client_encryption_options);
}
public static int getHintedHandoffThrottleInKB()
{
return conf.hinted_handoff_throttle_in_kb;
}
public static void setHintedHandoffThrottleInKB(int throttleInKB)
{
conf.hinted_handoff_throttle_in_kb = throttleInKB;
}
public static int getBatchlogReplayThrottleInKB()
{
return conf.batchlog_replay_throttle_in_kb;
}
public static void setBatchlogReplayThrottleInKB(int throttleInKB)
{
conf.batchlog_replay_throttle_in_kb = throttleInKB;
}
public static int getMaxHintsDeliveryThreads()
{
return conf.max_hints_delivery_threads;
}
public static int getHintsFlushPeriodInMS()
{
return conf.hints_flush_period_in_ms;
}
public static long getMaxHintsFileSize()
{
return ByteUnit.MEBI_BYTES.toBytes(conf.max_hints_file_size_in_mb);
}
public static ParameterizedClass getHintsCompression()
{
return conf.hints_compression;
}
public static void setHintsCompression(ParameterizedClass parameterizedClass)
{
conf.hints_compression = parameterizedClass;
}
public static boolean isIncrementalBackupsEnabled()
{
return conf.incremental_backups;
}
public static void setIncrementalBackupsEnabled(boolean value)
{
conf.incremental_backups = value;
}
public static boolean getFileCacheEnabled()
{
return conf.file_cache_enabled;
}
public static int getFileCacheSizeInMB()
{
if (conf.file_cache_size_in_mb == null)
{
// In client mode the value is not set.
assert DatabaseDescriptor.isClientInitialized();
return 0;
}
return conf.file_cache_size_in_mb;
}
public static int getNetworkingCacheSizeInMB()
{
if (conf.networking_cache_size_in_mb == null)
{
// In client mode the value is not set.
assert DatabaseDescriptor.isClientInitialized();
return 0;
}
return conf.networking_cache_size_in_mb;
}
public static boolean getFileCacheRoundUp()
{
if (conf.file_cache_round_up == null)
{
// In client mode the value is not set.
assert DatabaseDescriptor.isClientInitialized();
return false;
}
return conf.file_cache_round_up;
}
public static DiskOptimizationStrategy getDiskOptimizationStrategy()
{
return diskOptimizationStrategy;
}
public static double getDiskOptimizationEstimatePercentile()
{
return conf.disk_optimization_estimate_percentile;
}
public static long getTotalCommitlogSpaceInMB()
{
return conf.commitlog_total_space_in_mb;
}
public static boolean shouldMigrateKeycacheOnCompaction()
{
return conf.key_cache_migrate_during_compaction;
}
public static void setMigrateKeycacheOnCompaction(boolean migrateCacheEntry)
{
conf.key_cache_migrate_during_compaction = migrateCacheEntry;
}
public static int getSSTablePreemptiveOpenIntervalInMB()
{
return FBUtilities.isWindows ? -1 : conf.sstable_preemptive_open_interval_in_mb;
}
public static void setSSTablePreemptiveOpenIntervalInMB(int mb)
{
conf.sstable_preemptive_open_interval_in_mb = mb;
}
public static boolean getTrickleFsync()
{
return conf.trickle_fsync;
}
public static int getTrickleFsyncIntervalInKb()
{
return conf.trickle_fsync_interval_in_kb;
}
public static long getKeyCacheSizeInMB()
{
return keyCacheSizeInMB;
}
public static long getIndexSummaryCapacityInMB()
{
return indexSummaryCapacityInMB;
}
public static int getKeyCacheSavePeriod()
{
return conf.key_cache_save_period;
}
public static void setKeyCacheSavePeriod(int keyCacheSavePeriod)
{
conf.key_cache_save_period = keyCacheSavePeriod;
}
public static int getKeyCacheKeysToSave()
{
return conf.key_cache_keys_to_save;
}
public static void setKeyCacheKeysToSave(int keyCacheKeysToSave)
{
conf.key_cache_keys_to_save = keyCacheKeysToSave;
}
public static String getRowCacheClassName()
{
return conf.row_cache_class_name;
}
public static long getRowCacheSizeInMB()
{
return conf.row_cache_size_in_mb;
}
@VisibleForTesting
public static void setRowCacheSizeInMB(long val)
{
conf.row_cache_size_in_mb = val;
}
public static int getRowCacheSavePeriod()
{
return conf.row_cache_save_period;
}
public static void setRowCacheSavePeriod(int rowCacheSavePeriod)
{
conf.row_cache_save_period = rowCacheSavePeriod;
}
public static int getRowCacheKeysToSave()
{
return conf.row_cache_keys_to_save;
}
public static long getCounterCacheSizeInMB()
{
return counterCacheSizeInMB;
}
public static void setRowCacheKeysToSave(int rowCacheKeysToSave)
{
conf.row_cache_keys_to_save = rowCacheKeysToSave;
}
public static int getCounterCacheSavePeriod()
{
return conf.counter_cache_save_period;
}
public static void setCounterCacheSavePeriod(int counterCacheSavePeriod)
{
conf.counter_cache_save_period = counterCacheSavePeriod;
}
public static int getCounterCacheKeysToSave()
{
return conf.counter_cache_keys_to_save;
}
public static void setCounterCacheKeysToSave(int counterCacheKeysToSave)
{
conf.counter_cache_keys_to_save = counterCacheKeysToSave;
}
public static int getStreamingKeepAlivePeriod()
{
return conf.streaming_keep_alive_period_in_secs;
}
public static int getStreamingConnectionsPerHost()
{
return conf.streaming_connections_per_host;
}
public static boolean streamEntireSSTables()
{
return conf.stream_entire_sstables;
}
public static String getLocalDataCenter()
{
return localDC;
}
public static Comparator getLocalComparator()
{
return localComparator;
}
public static Config.InternodeCompression internodeCompression()
{
return conf.internode_compression;
}
public static void setInternodeCompression(Config.InternodeCompression compression)
{
conf.internode_compression = compression;
}
public static boolean getInterDCTcpNoDelay()
{
return conf.inter_dc_tcp_nodelay;
}
public static long getMemtableHeapSpaceInMb()
{
return conf.memtable_heap_space_in_mb;
}
public static long getMemtableOffheapSpaceInMb()
{
return conf.memtable_offheap_space_in_mb;
}
public static Config.MemtableAllocationType getMemtableAllocationType()
{
return conf.memtable_allocation_type;
}
public static int getRepairSessionMaxTreeDepth()
{
return conf.repair_session_max_tree_depth;
}
public static void setRepairSessionMaxTreeDepth(int depth)
{
if (depth < 10)
throw new ConfigurationException("Cannot set repair_session_max_tree_depth to " + depth +
" which is < 10, doing nothing");
else if (depth > 20)
logger.warn("repair_session_max_tree_depth of " + depth + " > 20 could lead to excessive memory usage");
conf.repair_session_max_tree_depth = depth;
}
public static int getRepairSessionSpaceInMegabytes()
{
return conf.repair_session_space_in_mb;
}
public static void setRepairSessionSpaceInMegabytes(int sizeInMegabytes)
{
if (sizeInMegabytes < 1)
throw new ConfigurationException("Cannot set repair_session_space_in_mb to " + sizeInMegabytes +
" < 1 megabyte");
else if (sizeInMegabytes > (int) (Runtime.getRuntime().maxMemory() / (4 * 1048576)))
logger.warn("A repair_session_space_in_mb of " + conf.repair_session_space_in_mb +
" megabytes is likely to cause heap pressure.");
conf.repair_session_space_in_mb = sizeInMegabytes;
}
public static Float getMemtableCleanupThreshold()
{
return conf.memtable_cleanup_threshold;
}
public static int getIndexSummaryResizeIntervalInMinutes()
{
return conf.index_summary_resize_interval_in_minutes;
}
public static boolean hasLargeAddressSpace()
{
// currently we just check if it's a 64bit arch, but any we only really care if the address space is large
String datamodel = SUN_ARCH_DATA_MODEL.getString();
if (datamodel != null)
{
switch (datamodel)
{
case "64": return true;
case "32": return false;
}
}
String arch = OS_ARCH.getString();
return arch.contains("64") || arch.contains("sparcv9");
}
public static int getTracetypeRepairTTL()
{
return conf.tracetype_repair_ttl;
}
public static int getTracetypeQueryTTL()
{
return conf.tracetype_query_ttl;
}
public static int getWindowsTimerInterval()
{
return conf.windows_timer_interval;
}
public static long getPreparedStatementsCacheSizeMB()
{
return preparedStatementsCacheSizeInMB;
}
public static boolean enableUserDefinedFunctions()
{
return conf.enable_user_defined_functions;
}
public static boolean enableScriptedUserDefinedFunctions()
{
return conf.enable_scripted_user_defined_functions;
}
public static void enableScriptedUserDefinedFunctions(boolean enableScriptedUserDefinedFunctions)
{
conf.enable_scripted_user_defined_functions = enableScriptedUserDefinedFunctions;
}
public static boolean enableUserDefinedFunctionsThreads()
{
return conf.enable_user_defined_functions_threads;
}
public static long getUserDefinedFunctionWarnTimeout()
{
return conf.user_defined_function_warn_timeout;
}
public static void setUserDefinedFunctionWarnTimeout(long userDefinedFunctionWarnTimeout)
{
conf.user_defined_function_warn_timeout = userDefinedFunctionWarnTimeout;
}
public static boolean getEnableMaterializedViews()
{
return conf.enable_materialized_views;
}
public static void setEnableMaterializedViews(boolean enableMaterializedViews)
{
conf.enable_materialized_views = enableMaterializedViews;
}
public static boolean getEnableSASIIndexes()
{
return conf.enable_sasi_indexes;
}
public static void setEnableSASIIndexes(boolean enableSASIIndexes)
{
conf.enable_sasi_indexes = enableSASIIndexes;
}
public static boolean isTransientReplicationEnabled()
{
return conf.enable_transient_replication;
}
public static void setTransientReplicationEnabledUnsafe(boolean enabled)
{
conf.enable_transient_replication = enabled;
}
public static boolean enableDropCompactStorage()
{
return conf.enable_drop_compact_storage;
}
@VisibleForTesting
public static void setEnableDropCompactStorage(boolean enableDropCompactStorage)
{
conf.enable_drop_compact_storage = enableDropCompactStorage;
}
public static long getUserDefinedFunctionFailTimeout()
{
return conf.user_defined_function_fail_timeout;
}
public static void setUserDefinedFunctionFailTimeout(long userDefinedFunctionFailTimeout)
{
conf.user_defined_function_fail_timeout = userDefinedFunctionFailTimeout;
}
public static Config.UserFunctionTimeoutPolicy getUserFunctionTimeoutPolicy()
{
return conf.user_function_timeout_policy;
}
public static void setUserFunctionTimeoutPolicy(Config.UserFunctionTimeoutPolicy userFunctionTimeoutPolicy)
{
conf.user_function_timeout_policy = userFunctionTimeoutPolicy;
}
public static long getGCLogThreshold()
{
return conf.gc_log_threshold_in_ms;
}
public static EncryptionContext getEncryptionContext()
{
return encryptionContext;
}
public static long getGCWarnThreshold()
{
return conf.gc_warn_threshold_in_ms;
}
public static boolean isCDCEnabled()
{
return conf.cdc_enabled;
}
@VisibleForTesting
public static void setCDCEnabled(boolean cdc_enabled)
{
conf.cdc_enabled = cdc_enabled;
}
public static String getCDCLogLocation()
{
return conf.cdc_raw_directory;
}
public static int getCDCSpaceInMB()
{
return conf.cdc_total_space_in_mb;
}
@VisibleForTesting
public static void setCDCSpaceInMB(int input)
{
conf.cdc_total_space_in_mb = input;
}
public static int getCDCDiskCheckInterval()
{
return conf.cdc_free_space_check_interval_ms;
}
@VisibleForTesting
public static void setEncryptionContext(EncryptionContext ec)
{
encryptionContext = ec;
}
public static int searchConcurrencyFactor()
{
return searchConcurrencyFactor;
}
public static boolean isUnsafeSystem()
{
return unsafeSystem;
}
public static boolean diagnosticEventsEnabled()
{
return conf.diagnostic_events_enabled;
}
public static void setDiagnosticEventsEnabled(boolean enabled)
{
conf.diagnostic_events_enabled = enabled;
}
public static ConsistencyLevel getIdealConsistencyLevel()
{
return conf.ideal_consistency_level;
}
public static void setIdealConsistencyLevel(ConsistencyLevel cl)
{
conf.ideal_consistency_level = cl;
}
public static int getRepairCommandPoolSize()
{
return conf.repair_command_pool_size;
}
public static Config.RepairCommandPoolFullStrategy getRepairCommandPoolFullStrategy()
{
return conf.repair_command_pool_full_strategy;
}
public static FullQueryLoggerOptions getFullQueryLogOptions()
{
return conf.full_query_logging_options;
}
public static boolean getBlockForPeersInRemoteDatacenters()
{
return conf.block_for_peers_in_remote_dcs;
}
public static int getBlockForPeersTimeoutInSeconds()
{
return conf.block_for_peers_timeout_in_secs;
}
public static boolean automaticSSTableUpgrade()
{
return conf.automatic_sstable_upgrade;
}
public static void setAutomaticSSTableUpgradeEnabled(boolean enabled)
{
if (conf.automatic_sstable_upgrade != enabled)
logger.debug("Changing automatic_sstable_upgrade to {}", enabled);
conf.automatic_sstable_upgrade = enabled;
}
public static int maxConcurrentAutoUpgradeTasks()
{
return conf.max_concurrent_automatic_sstable_upgrades;
}
public static void setMaxConcurrentAutoUpgradeTasks(int value)
{
if (conf.max_concurrent_automatic_sstable_upgrades != value)
logger.debug("Changing max_concurrent_automatic_sstable_upgrades to {}", value);
validateMaxConcurrentAutoUpgradeTasksConf(value);
conf.max_concurrent_automatic_sstable_upgrades = value;
}
private static void validateMaxConcurrentAutoUpgradeTasksConf(int value)
{
if (value < 0)
throw new ConfigurationException("max_concurrent_automatic_sstable_upgrades can't be negative");
if (value > getConcurrentCompactors())
logger.warn("max_concurrent_automatic_sstable_upgrades ({}) is larger than concurrent_compactors ({})", value, getConcurrentCompactors());
}
public static AuditLogOptions getAuditLoggingOptions()
{
return conf.audit_logging_options;
}
public static void setAuditLoggingOptions(AuditLogOptions auditLoggingOptions)
{
conf.audit_logging_options = auditLoggingOptions;
}
public static Config.CorruptedTombstoneStrategy getCorruptedTombstoneStrategy()
{
return conf.corrupted_tombstone_strategy;
}
public static void setCorruptedTombstoneStrategy(Config.CorruptedTombstoneStrategy strategy)
{
conf.corrupted_tombstone_strategy = strategy;
}
public static boolean getRepairedDataTrackingForRangeReadsEnabled()
{
return conf.repaired_data_tracking_for_range_reads_enabled;
}
public static void setRepairedDataTrackingForRangeReadsEnabled(boolean enabled)
{
conf.repaired_data_tracking_for_range_reads_enabled = enabled;
}
public static boolean getRepairedDataTrackingForPartitionReadsEnabled()
{
return conf.repaired_data_tracking_for_partition_reads_enabled;
}
public static void setRepairedDataTrackingForPartitionReadsEnabled(boolean enabled)
{
conf.repaired_data_tracking_for_partition_reads_enabled = enabled;
}
public static boolean snapshotOnRepairedDataMismatch()
{
return conf.snapshot_on_repaired_data_mismatch;
}
public static void setSnapshotOnRepairedDataMismatch(boolean enabled)
{
conf.snapshot_on_repaired_data_mismatch = enabled;
}
public static boolean snapshotOnDuplicateRowDetection()
{
return conf.snapshot_on_duplicate_row_detection;
}
public static void setSnapshotOnDuplicateRowDetection(boolean enabled)
{
conf.snapshot_on_duplicate_row_detection = enabled;
}
public static boolean reportUnconfirmedRepairedDataMismatches()
{
return conf.report_unconfirmed_repaired_data_mismatches;
}
public static void reportUnconfirmedRepairedDataMismatches(boolean enabled)
{
conf.report_unconfirmed_repaired_data_mismatches = enabled;
}
public static boolean strictRuntimeChecks()
{
return strictRuntimeChecks;
}
public static boolean useOffheapMerkleTrees()
{
return conf.use_offheap_merkle_trees;
}
public static void useOffheapMerkleTrees(boolean value)
{
logger.info("Setting use_offheap_merkle_trees to {}", value);
conf.use_offheap_merkle_trees = value;
}
public static Function getCommitLogSegmentMgrProvider()
{
return commitLogSegmentMgrProvider;
}
public static void setCommitLogSegmentMgrProvider(Function provider)
{
commitLogSegmentMgrProvider = provider;
}
/**
* Class that primarily tracks overflow thresholds during conversions
*/
private enum ByteUnit {
KIBI_BYTES(2048 * 1024, 1024),
MEBI_BYTES(2048, 1024 * 1024);
private final int overflowThreshold;
private final int multiplier;
ByteUnit(int t, int m)
{
this.overflowThreshold = t;
this.multiplier = m;
}
public int overflowThreshold()
{
return overflowThreshold;
}
public boolean willOverflowInBytes(int val)
{
return val >= overflowThreshold;
}
public long toBytes(int val)
{
return val * multiplier;
}
}
/**
* Ensures passed in configuration value is positive and will not overflow when converted to Bytes
*/
private static void checkValidForByteConversion(int val, final String name, final ByteUnit unit)
{
if (val < 0 || unit.willOverflowInBytes(val))
throw new ConfigurationException(String.format("%s must be positive value < %d, but was %d",
name, unit.overflowThreshold(), val), false);
}
public static int getValidationPreviewPurgeHeadStartInSec()
{
int seconds = conf.validation_preview_purge_head_start_in_sec;
return Math.max(seconds, 0);
}
public static boolean checkForDuplicateRowsDuringReads()
{
return conf.check_for_duplicate_rows_during_reads;
}
public static void setCheckForDuplicateRowsDuringReads(boolean enabled)
{
conf.check_for_duplicate_rows_during_reads = enabled;
}
public static boolean checkForDuplicateRowsDuringCompaction()
{
return conf.check_for_duplicate_rows_during_compaction;
}
public static void setCheckForDuplicateRowsDuringCompaction(boolean enabled)
{
conf.check_for_duplicate_rows_during_compaction = enabled;
}
public static int getRepairPendingCompactionRejectThreshold()
{
return conf.reject_repair_compaction_threshold;
}
public static void setRepairPendingCompactionRejectThreshold(int value)
{
conf.reject_repair_compaction_threshold = value;
}
public static int getInitialRangeTombstoneListAllocationSize()
{
return conf.initial_range_tombstone_list_allocation_size;
}
public static void setInitialRangeTombstoneListAllocationSize(int size)
{
conf.initial_range_tombstone_list_allocation_size = size;
}
public static double getRangeTombstoneListGrowthFactor()
{
return conf.range_tombstone_list_growth_factor;
}
public static void setRangeTombstoneListGrowthFactor(double resizeFactor)
{
conf.range_tombstone_list_growth_factor = resizeFactor;
}
public static boolean getAutocompactionOnStartupEnabled()
{
return conf.autocompaction_on_startup_enabled;
}
public static boolean autoOptimiseIncRepairStreams()
{
return conf.auto_optimise_inc_repair_streams;
}
public static void setAutoOptimiseIncRepairStreams(boolean enabled)
{
if (enabled != conf.auto_optimise_inc_repair_streams)
logger.info("Changing auto_optimise_inc_repair_streams from {} to {}", conf.auto_optimise_inc_repair_streams, enabled);
conf.auto_optimise_inc_repair_streams = enabled;
}
public static boolean autoOptimiseFullRepairStreams()
{
return conf.auto_optimise_full_repair_streams;
}
public static void setAutoOptimiseFullRepairStreams(boolean enabled)
{
if (enabled != conf.auto_optimise_full_repair_streams)
logger.info("Changing auto_optimise_full_repair_streams from {} to {}", conf.auto_optimise_full_repair_streams, enabled);
conf.auto_optimise_full_repair_streams = enabled;
}
public static boolean autoOptimisePreviewRepairStreams()
{
return conf.auto_optimise_preview_repair_streams;
}
public static void setAutoOptimisePreviewRepairStreams(boolean enabled)
{
if (enabled != conf.auto_optimise_preview_repair_streams)
logger.info("Changing auto_optimise_preview_repair_streams from {} to {}", conf.auto_optimise_preview_repair_streams, enabled);
conf.auto_optimise_preview_repair_streams = enabled;
}
public static int tableCountWarnThreshold()
{
return conf.table_count_warn_threshold;
}
public static void setTableCountWarnThreshold(int value)
{
conf.table_count_warn_threshold = value;
}
public static int keyspaceCountWarnThreshold()
{
return conf.keyspace_count_warn_threshold;
}
public static void setKeyspaceCountWarnThreshold(int value)
{
conf.keyspace_count_warn_threshold = value;
}
public static int getConsecutiveMessageErrorsThreshold()
{
return conf.consecutive_message_errors_threshold;
}
public static void setConsecutiveMessageErrorsThreshold(int value)
{
conf.consecutive_message_errors_threshold = value;
}
}