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org.apache.hadoop.conf.Configuration Maven / Gradle / Ivy
/**
* 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.hadoop.conf;
import com.ctc.wstx.api.ReaderConfig;
import com.ctc.wstx.io.StreamBootstrapper;
import com.ctc.wstx.io.SystemId;
import com.ctc.wstx.stax.WstxInputFactory;
import com.fasterxml.jackson.core.JsonFactory;
import com.fasterxml.jackson.core.JsonGenerator;
import org.apache.hadoop.thirdparty.com.google.common.annotations.VisibleForTesting;
import java.io.BufferedInputStream;
import java.io.DataInput;
import java.io.DataOutput;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.Reader;
import java.io.Writer;
import java.lang.ref.WeakReference;
import java.net.InetSocketAddress;
import java.net.JarURLConnection;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.net.URLConnection;
import java.nio.file.Files;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Properties;
import java.util.Set;
import java.util.StringTokenizer;
import java.util.WeakHashMap;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import java.util.regex.PatternSyntaxException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;
import javax.annotation.Nullable;
import javax.xml.parsers.DocumentBuilderFactory;
import javax.xml.parsers.ParserConfigurationException;
import javax.xml.stream.XMLInputFactory;
import javax.xml.stream.XMLStreamConstants;
import javax.xml.stream.XMLStreamException;
import javax.xml.stream.XMLStreamReader;
import javax.xml.transform.Transformer;
import javax.xml.transform.TransformerException;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.dom.DOMSource;
import javax.xml.transform.stream.StreamResult;
import org.apache.hadoop.thirdparty.com.google.common.base.Charsets;
import org.apache.commons.collections.map.UnmodifiableMap;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.fs.CommonConfigurationKeysPublic;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.fs.CommonConfigurationKeys;
import org.apache.hadoop.io.Writable;
import org.apache.hadoop.io.WritableUtils;
import org.apache.hadoop.net.NetUtils;
import org.apache.hadoop.security.UserGroupInformation;
import org.apache.hadoop.security.alias.CredentialProvider;
import org.apache.hadoop.security.alias.CredentialProvider.CredentialEntry;
import org.apache.hadoop.security.alias.CredentialProviderFactory;
import org.apache.hadoop.util.ReflectionUtils;
import org.apache.hadoop.util.StringInterner;
import org.apache.hadoop.util.StringUtils;
import org.codehaus.stax2.XMLStreamReader2;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.apache.hadoop.thirdparty.com.google.common.base.Preconditions;
import org.apache.hadoop.thirdparty.com.google.common.base.Strings;
import static org.apache.commons.lang3.StringUtils.isBlank;
import static org.apache.commons.lang3.StringUtils.isNotBlank;
/**
* Provides access to configuration parameters.
*
* Resources
*
* Configurations are specified by resources. A resource contains a set of
* name/value pairs as XML data. Each resource is named by either a
* String or by a {@link Path}. If named by a String,
* then the classpath is examined for a file with that name. If named by a
* Path, then the local filesystem is examined directly, without
* referring to the classpath.
*
*
Unless explicitly turned off, Hadoop by default specifies two
* resources, loaded in-order from the classpath:
*
*
* core-default.xml : Read-only defaults for hadoop.core-site.xml : Site-specific configuration for a given hadoop
* installation.
* Applications may add additional resources, which are loaded
* subsequent to these resources in the order they are added.
*
* Final Parameters
*
* Configuration parameters may be declared final .
* Once a resource declares a value final, no subsequently-loaded
* resource can alter that value.
* For example, one might define a final parameter with:
*
* <property>
* <name>dfs.hosts.include</name>
* <value>/etc/hadoop/conf/hosts.include</value>
* <final>true</final>
* </property>core-site.xml for values that user applications may not alter.
*
* Variable Expansion
*
* Value strings are first processed for variable expansion . The
* available properties are:
* Other properties defined in this Configuration; and, if a name is
* undefined here,
* Environment variables in {@link System#getenv()} if a name starts with
* "env.", or
* Properties in {@link System#getProperties()}.
*
*
* For example, if a configuration resource contains the following property
* definitions:
*
* <property>
* <name>basedir</name>
* <value>/user/${user.name }</value>
* </property>
*
* <property>
* <name>tempdir</name>
* <value>${basedir }/tmp</value>
* </property>
*
* <property>
* <name>otherdir</name>
* <value>${env.BASE_DIR }/other</value>
* </property>
* When conf.get("tempdir") is called, then ${basedir }
* will be resolved to another property in this Configuration, while
* ${user.name } would then ordinarily be resolved to the value
* of the System property with that name.
*
When conf.get("otherdir") is called, then ${env.BASE_DIR }
* will be resolved to the value of the ${BASE_DIR } environment variable.
* It supports ${env.NAME:-default } and ${env.NAME-default } notations.
* The former is resolved to "default" if ${NAME } environment variable is undefined
* or its value is empty.
* The latter behaves the same way only if ${NAME } is undefined.
*
By default, warnings will be given to any deprecated configuration
* parameters and these are suppressible by configuring
* log4j.logger.org.apache.hadoop.conf.Configuration.deprecation in
* log4j.properties file.
*
*
*
* Optionally we can tag related properties together by using tag
* attributes. System tags are defined by hadoop.tags.system property. Users
* can define there own custom tags in hadoop.tags.custom property.
*
*
For example, we can tag existing property as:
*
* <property>
* <name>dfs.replication</name>
* <value>3</value>
* <tag>HDFS,REQUIRED</tag>
* </property>
*
* <property>
* <name>dfs.data.transfer.protection</name>
* <value>3</value>
* <tag>HDFS,SECURITY</tag>
* </property>
* Properties marked with tags can be retrieved with conf
* .getAllPropertiesByTag("HDFS") or conf.getAllPropertiesByTags
* (Arrays.asList("YARN","SECURITY")) .
*/
@InterfaceAudience.Public
@InterfaceStability.Stable
public class Configuration implements Iterable>,
Writable {
private static final Logger LOG =
LoggerFactory.getLogger(Configuration.class);
private static final Logger LOG_DEPRECATION =
LoggerFactory.getLogger(
"org.apache.hadoop.conf.Configuration.deprecation");
private static final Set TAGS = ConcurrentHashMap.newKeySet();
private boolean quietmode = true;
private static final String DEFAULT_STRING_CHECK =
"testingforemptydefaultvalue";
private static boolean restrictSystemPropsDefault = false;
private boolean restrictSystemProps = restrictSystemPropsDefault;
private boolean allowNullValueProperties = false;
private static class Resource {
private final Object resource;
private final String name;
private final boolean restrictParser;
public Resource(Object resource) {
this(resource, resource.toString());
}
public Resource(Object resource, boolean useRestrictedParser) {
this(resource, resource.toString(), useRestrictedParser);
}
public Resource(Object resource, String name) {
this(resource, name, getRestrictParserDefault(resource));
}
public Resource(Object resource, String name, boolean restrictParser) {
this.resource = resource;
this.name = name;
this.restrictParser = restrictParser;
}
public String getName(){
return name;
}
public Object getResource() {
return resource;
}
public boolean isParserRestricted() {
return restrictParser;
}
@Override
public String toString() {
return name;
}
private static boolean getRestrictParserDefault(Object resource) {
if (resource instanceof String || !UserGroupInformation.isInitialized()) {
return false;
}
UserGroupInformation user;
try {
user = UserGroupInformation.getCurrentUser();
} catch (IOException e) {
throw new RuntimeException("Unable to determine current user", e);
}
return user.getRealUser() != null;
}
}
/**
* List of configuration resources.
*/
private ArrayList resources = new ArrayList();
/**
* The value reported as the setting resource when a key is set
* by code rather than a file resource by dumpConfiguration.
*/
static final String UNKNOWN_RESOURCE = "Unknown";
/**
* List of configuration parameters marked final .
*/
private Set finalParameters = Collections.newSetFromMap(
new ConcurrentHashMap());
private boolean loadDefaults = true;
/**
* Configuration objects
*/
private static final WeakHashMap REGISTRY =
new WeakHashMap();
/**
* Map to hold properties by there tag groupings.
*/
private final Map propertyTagsMap =
new ConcurrentHashMap<>();
/**
* List of default Resources. Resources are loaded in the order of the list
* entries
*/
private static final CopyOnWriteArrayList defaultResources =
new CopyOnWriteArrayList();
private static final Map>>>
CACHE_CLASSES = new WeakHashMap>>>();
/**
* Sentinel value to store negative cache results in {@link #CACHE_CLASSES}.
*/
private static final Class NEGATIVE_CACHE_SENTINEL =
NegativeCacheSentinel.class;
/**
* Stores the mapping of key to the resource which modifies or loads
* the key most recently. Created lazily to avoid wasting memory.
*/
private volatile Map updatingResource;
/**
* Specify exact input factory to avoid time finding correct one.
* Factory is reusable across un-synchronized threads once initialized
*/
private static final WstxInputFactory XML_INPUT_FACTORY =
new WstxInputFactory();
/**
* Class to keep the information about the keys which replace the deprecated
* ones.
*
* This class stores the new keys which replace the deprecated keys and also
* gives a provision to have a custom message for each of the deprecated key
* that is being replaced. It also provides method to get the appropriate
* warning message which can be logged whenever the deprecated key is used.
*/
private static class DeprecatedKeyInfo {
private final String[] newKeys;
private final String customMessage;
private final AtomicBoolean accessed = new AtomicBoolean(false);
DeprecatedKeyInfo(String[] newKeys, String customMessage) {
this.newKeys = newKeys;
this.customMessage = customMessage;
}
private final String getWarningMessage(String key) {
return getWarningMessage(key, null);
}
/**
* Method to provide the warning message. It gives the custom message if
* non-null, and default message otherwise.
* @param key the associated deprecated key.
* @param source the property source.
* @return message that is to be logged when a deprecated key is used.
*/
private String getWarningMessage(String key, String source) {
String warningMessage;
if(customMessage == null) {
StringBuilder message = new StringBuilder(key);
if (source != null) {
message.append(" in " + source);
}
message.append(" is deprecated. Instead, use ");
for (int i = 0; i < newKeys.length; i++) {
message.append(newKeys[i]);
if(i != newKeys.length-1) {
message.append(", ");
}
}
warningMessage = message.toString();
}
else {
warningMessage = customMessage;
}
return warningMessage;
}
boolean getAndSetAccessed() {
return accessed.getAndSet(true);
}
public void clearAccessed() {
accessed.set(false);
}
}
/**
* A pending addition to the global set of deprecated keys.
*/
public static class DeprecationDelta {
private final String key;
private final String[] newKeys;
private final String customMessage;
DeprecationDelta(String key, String[] newKeys, String customMessage) {
Preconditions.checkNotNull(key);
Preconditions.checkNotNull(newKeys);
Preconditions.checkArgument(newKeys.length > 0);
this.key = key;
this.newKeys = newKeys;
this.customMessage = customMessage;
}
public DeprecationDelta(String key, String newKey, String customMessage) {
this(key, new String[] { newKey }, customMessage);
}
public DeprecationDelta(String key, String newKey) {
this(key, new String[] { newKey }, null);
}
public String getKey() {
return key;
}
public String[] getNewKeys() {
return newKeys;
}
public String getCustomMessage() {
return customMessage;
}
}
/**
* The set of all keys which are deprecated.
*
* DeprecationContext objects are immutable.
*/
private static class DeprecationContext {
/**
* Stores the deprecated keys, the new keys which replace the deprecated keys
* and custom message(if any provided).
*/
private final Map deprecatedKeyMap;
/**
* Stores a mapping from superseding keys to the keys which they deprecate.
*/
private final Map reverseDeprecatedKeyMap;
/**
* Create a new DeprecationContext by copying a previous DeprecationContext
* and adding some deltas.
*
* @param other The previous deprecation context to copy, or null to start
* from nothing.
* @param deltas The deltas to apply.
*/
@SuppressWarnings("unchecked")
DeprecationContext(DeprecationContext other, DeprecationDelta[] deltas) {
HashMap newDeprecatedKeyMap =
new HashMap();
HashMap newReverseDeprecatedKeyMap =
new HashMap();
if (other != null) {
for (Entry entry :
other.deprecatedKeyMap.entrySet()) {
newDeprecatedKeyMap.put(entry.getKey(), entry.getValue());
}
for (Entry entry :
other.reverseDeprecatedKeyMap.entrySet()) {
newReverseDeprecatedKeyMap.put(entry.getKey(), entry.getValue());
}
}
for (DeprecationDelta delta : deltas) {
if (!newDeprecatedKeyMap.containsKey(delta.getKey())) {
DeprecatedKeyInfo newKeyInfo =
new DeprecatedKeyInfo(delta.getNewKeys(), delta.getCustomMessage());
newDeprecatedKeyMap.put(delta.key, newKeyInfo);
for (String newKey : delta.getNewKeys()) {
newReverseDeprecatedKeyMap.put(newKey, delta.key);
}
}
}
this.deprecatedKeyMap =
UnmodifiableMap.decorate(newDeprecatedKeyMap);
this.reverseDeprecatedKeyMap =
UnmodifiableMap.decorate(newReverseDeprecatedKeyMap);
}
Map getDeprecatedKeyMap() {
return deprecatedKeyMap;
}
Map getReverseDeprecatedKeyMap() {
return reverseDeprecatedKeyMap;
}
}
private static DeprecationDelta[] defaultDeprecations =
new DeprecationDelta[] {
new DeprecationDelta("topology.script.file.name",
CommonConfigurationKeys.NET_TOPOLOGY_SCRIPT_FILE_NAME_KEY),
new DeprecationDelta("topology.script.number.args",
CommonConfigurationKeys.NET_TOPOLOGY_SCRIPT_NUMBER_ARGS_KEY),
new DeprecationDelta("hadoop.configured.node.mapping",
CommonConfigurationKeys.NET_TOPOLOGY_CONFIGURED_NODE_MAPPING_KEY),
new DeprecationDelta("topology.node.switch.mapping.impl",
CommonConfigurationKeys.NET_TOPOLOGY_NODE_SWITCH_MAPPING_IMPL_KEY),
new DeprecationDelta("dfs.df.interval",
CommonConfigurationKeys.FS_DF_INTERVAL_KEY),
new DeprecationDelta("fs.default.name",
CommonConfigurationKeys.FS_DEFAULT_NAME_KEY),
new DeprecationDelta("dfs.umaskmode",
CommonConfigurationKeys.FS_PERMISSIONS_UMASK_KEY),
new DeprecationDelta("dfs.nfs.exports.allowed.hosts",
CommonConfigurationKeys.NFS_EXPORTS_ALLOWED_HOSTS_KEY)
};
/**
* The global DeprecationContext.
*/
private static AtomicReference deprecationContext =
new AtomicReference(
new DeprecationContext(null, defaultDeprecations));
/**
* Adds a set of deprecated keys to the global deprecations.
*
* This method is lockless. It works by means of creating a new
* DeprecationContext based on the old one, and then atomically swapping in
* the new context. If someone else updated the context in between us reading
* the old context and swapping in the new one, we try again until we win the
* race.
*
* @param deltas The deprecations to add.
*/
public static void addDeprecations(DeprecationDelta[] deltas) {
DeprecationContext prev, next;
do {
prev = deprecationContext.get();
next = new DeprecationContext(prev, deltas);
} while (!deprecationContext.compareAndSet(prev, next));
}
/**
* Adds the deprecated key to the global deprecation map.
* It does not override any existing entries in the deprecation map.
* This is to be used only by the developers in order to add deprecation of
* keys, and attempts to call this method after loading resources once,
* would lead to UnsupportedOperationException
*
* If a key is deprecated in favor of multiple keys, they are all treated as
* aliases of each other, and setting any one of them resets all the others
* to the new value.
*
* If you have multiple deprecation entries to add, it is more efficient to
* use #addDeprecations(DeprecationDelta[] deltas) instead.
*
* @param key to be deprecated
* @param newKeys list of keys that take up the values of deprecated key
* @param customMessage depcrication message
* @deprecated use {@link #addDeprecation(String key, String newKey,
String customMessage)} instead
*/
@Deprecated
public static void addDeprecation(String key, String[] newKeys,
String customMessage) {
addDeprecations(new DeprecationDelta[] {
new DeprecationDelta(key, newKeys, customMessage)
});
}
/**
* Adds the deprecated key to the global deprecation map.
* It does not override any existing entries in the deprecation map.
* This is to be used only by the developers in order to add deprecation of
* keys, and attempts to call this method after loading resources once,
* would lead to UnsupportedOperationException
*
* If you have multiple deprecation entries to add, it is more efficient to
* use #addDeprecations(DeprecationDelta[] deltas) instead.
*
* @param key to be deprecated
* @param newKey key that take up the values of deprecated key
* @param customMessage deprecation message
*/
public static void addDeprecation(String key, String newKey,
String customMessage) {
addDeprecation(key, new String[] {newKey}, customMessage);
}
/**
* Adds the deprecated key to the global deprecation map when no custom
* message is provided.
* It does not override any existing entries in the deprecation map.
* This is to be used only by the developers in order to add deprecation of
* keys, and attempts to call this method after loading resources once,
* would lead to UnsupportedOperationException
*
* If a key is deprecated in favor of multiple keys, they are all treated as
* aliases of each other, and setting any one of them resets all the others
* to the new value.
*
* If you have multiple deprecation entries to add, it is more efficient to
* use #addDeprecations(DeprecationDelta[] deltas) instead.
*
* @param key Key that is to be deprecated
* @param newKeys list of keys that take up the values of deprecated key
* @deprecated use {@link #addDeprecation(String key, String newKey)} instead
*/
@Deprecated
public static void addDeprecation(String key, String[] newKeys) {
addDeprecation(key, newKeys, null);
}
/**
* Adds the deprecated key to the global deprecation map when no custom
* message is provided.
* It does not override any existing entries in the deprecation map.
* This is to be used only by the developers in order to add deprecation of
* keys, and attempts to call this method after loading resources once,
* would lead to UnsupportedOperationException
*
* If you have multiple deprecation entries to add, it is more efficient to
* use #addDeprecations(DeprecationDelta[] deltas) instead.
*
* @param key Key that is to be deprecated
* @param newKey key that takes up the value of deprecated key
*/
public static void addDeprecation(String key, String newKey) {
addDeprecation(key, new String[] {newKey}, null);
}
/**
* checks whether the given key is deprecated.
*
* @param key the parameter which is to be checked for deprecation
* @return true if the key is deprecated and
* false otherwise.
*/
public static boolean isDeprecated(String key) {
return deprecationContext.get().getDeprecatedKeyMap().containsKey(key);
}
private static String getDeprecatedKey(String key) {
return deprecationContext.get().getReverseDeprecatedKeyMap().get(key);
}
private static DeprecatedKeyInfo getDeprecatedKeyInfo(String key) {
return deprecationContext.get().getDeprecatedKeyMap().get(key);
}
/**
* Sets all deprecated properties that are not currently set but have a
* corresponding new property that is set. Useful for iterating the
* properties when all deprecated properties for currently set properties
* need to be present.
*/
public void setDeprecatedProperties() {
DeprecationContext deprecations = deprecationContext.get();
Properties props = getProps();
Properties overlay = getOverlay();
for (Map.Entry entry :
deprecations.getDeprecatedKeyMap().entrySet()) {
String depKey = entry.getKey();
if (!overlay.contains(depKey)) {
for (String newKey : entry.getValue().newKeys) {
String val = overlay.getProperty(newKey);
if (val != null) {
props.setProperty(depKey, val);
overlay.setProperty(depKey, val);
break;
}
}
}
}
}
/**
* Checks for the presence of the property name in the
* deprecation map. Returns the first of the list of new keys if present
* in the deprecation map or the name itself. If the property
* is not presently set but the property map contains an entry for the
* deprecated key, the value of the deprecated key is set as the value for
* the provided property name.
*
* Also updates properties and overlays with deprecated keys, if the new
* key does not already exist.
*
* @param deprecations deprecation context
* @param name the property name
* @return the first property in the list of properties mapping
* the name or the name itself.
*/
private String[] handleDeprecation(DeprecationContext deprecations,
String name) {
if (null != name) {
name = name.trim();
}
// Initialize the return value with requested name
String[] names = new String[]{name};
// Deprecated keys are logged once and an updated names are returned
DeprecatedKeyInfo keyInfo = deprecations.getDeprecatedKeyMap().get(name);
if (keyInfo != null) {
if (!keyInfo.getAndSetAccessed()) {
logDeprecation(keyInfo.getWarningMessage(name));
}
// Override return value for deprecated keys
names = keyInfo.newKeys;
}
// Update properties with deprecated key if already loaded and new
// deprecation has been added
updatePropertiesWithDeprecatedKeys(deprecations, names);
// If there are no overlay values we can return early
Properties overlayProperties = getOverlay();
if (overlayProperties.isEmpty()) {
return names;
}
// Update properties and overlays with reverse lookup values
for (String n : names) {
String deprecatedKey = deprecations.getReverseDeprecatedKeyMap().get(n);
if (deprecatedKey != null && !overlayProperties.containsKey(n)) {
String deprecatedValue = overlayProperties.getProperty(deprecatedKey);
if (deprecatedValue != null) {
getProps().setProperty(n, deprecatedValue);
overlayProperties.setProperty(n, deprecatedValue);
}
}
}
return names;
}
private void updatePropertiesWithDeprecatedKeys(
DeprecationContext deprecations, String[] newNames) {
for (String newName : newNames) {
String deprecatedKey = deprecations.getReverseDeprecatedKeyMap().get(newName);
if (deprecatedKey != null && !getProps().containsKey(newName)) {
String deprecatedValue = getProps().getProperty(deprecatedKey);
if (deprecatedValue != null) {
getProps().setProperty(newName, deprecatedValue);
}
}
}
}
private void handleDeprecation() {
LOG.debug("Handling deprecation for all properties in config...");
DeprecationContext deprecations = deprecationContext.get();
Set keys = new HashSet();
keys.addAll(getProps().keySet());
for (Object item: keys) {
LOG.debug("Handling deprecation for " + (String)item);
handleDeprecation(deprecations, (String)item);
}
}
static {
// Add default resources
addDefaultResource("core-default.xml");
addDefaultResource("core-site.xml");
// print deprecation warning if hadoop-site.xml is found in classpath
ClassLoader cL = Thread.currentThread().getContextClassLoader();
if (cL == null) {
cL = Configuration.class.getClassLoader();
}
if (cL.getResource("hadoop-site.xml") != null) {
LOG.warn("DEPRECATED: hadoop-site.xml found in the classpath. " +
"Usage of hadoop-site.xml is deprecated. Instead use core-site.xml, "
+ "mapred-site.xml and hdfs-site.xml to override properties of " +
"core-default.xml, mapred-default.xml and hdfs-default.xml " +
"respectively");
addDefaultResource("hadoop-site.xml");
}
}
private Properties properties;
private Properties overlay;
private ClassLoader classLoader;
{
classLoader = Thread.currentThread().getContextClassLoader();
if (classLoader == null) {
classLoader = Configuration.class.getClassLoader();
}
}
/** A new configuration. */
public Configuration() {
this(true);
}
/** A new configuration where the behavior of reading from the default
* resources can be turned off.
*
* If the parameter {@code loadDefaults} is false, the new instance
* will not load resources from the default files.
* @param loadDefaults specifies whether to load from the default files
*/
public Configuration(boolean loadDefaults) {
this.loadDefaults = loadDefaults;
synchronized(Configuration.class) {
REGISTRY.put(this, null);
}
}
/**
* A new configuration with the same settings cloned from another.
*
* @param other the configuration from which to clone settings.
*/
@SuppressWarnings("unchecked")
public Configuration(Configuration other) {
synchronized(other) {
// Make sure we clone a finalized state
// Resources like input streams can be processed only once
other.getProps();
this.resources = (ArrayList) other.resources.clone();
if (other.properties != null) {
this.properties = (Properties)other.properties.clone();
}
if (other.overlay!=null) {
this.overlay = (Properties)other.overlay.clone();
}
this.restrictSystemProps = other.restrictSystemProps;
if (other.updatingResource != null) {
this.updatingResource = new ConcurrentHashMap(
other.updatingResource);
}
this.finalParameters = Collections.newSetFromMap(
new ConcurrentHashMap());
this.finalParameters.addAll(other.finalParameters);
this.propertyTagsMap.putAll(other.propertyTagsMap);
}
synchronized(Configuration.class) {
REGISTRY.put(this, null);
}
this.classLoader = other.classLoader;
this.loadDefaults = other.loadDefaults;
setQuietMode(other.getQuietMode());
}
/**
* Reload existing configuration instances.
*/
public static synchronized void reloadExistingConfigurations() {
if (LOG.isDebugEnabled()) {
LOG.debug("Reloading " + REGISTRY.keySet().size()
+ " existing configurations");
}
for (Configuration conf : REGISTRY.keySet()) {
conf.reloadConfiguration();
}
}
/**
* Add a default resource. Resources are loaded in the order of the resources
* added.
* @param name file name. File should be present in the classpath.
*/
public static synchronized void addDefaultResource(String name) {
if(!defaultResources.contains(name)) {
defaultResources.add(name);
for(Configuration conf : REGISTRY.keySet()) {
if(conf.loadDefaults) {
conf.reloadConfiguration();
}
}
}
}
public static void setRestrictSystemPropertiesDefault(boolean val) {
restrictSystemPropsDefault = val;
}
public void setRestrictSystemProperties(boolean val) {
this.restrictSystemProps = val;
}
/**
* Add a configuration resource.
*
* The properties of this resource will override properties of previously
* added resources, unless they were marked final .
*
* @param name resource to be added, the classpath is examined for a file
* with that name.
*/
public void addResource(String name) {
addResourceObject(new Resource(name));
}
public void addResource(String name, boolean restrictedParser) {
addResourceObject(new Resource(name, restrictedParser));
}
/**
* Add a configuration resource.
*
* The properties of this resource will override properties of previously
* added resources, unless they were marked final .
*
* @param url url of the resource to be added, the local filesystem is
* examined directly to find the resource, without referring to
* the classpath.
*/
public void addResource(URL url) {
addResourceObject(new Resource(url));
}
public void addResource(URL url, boolean restrictedParser) {
addResourceObject(new Resource(url, restrictedParser));
}
/**
* Add a configuration resource.
*
* The properties of this resource will override properties of previously
* added resources, unless they were marked final .
*
* @param file file-path of resource to be added, the local filesystem is
* examined directly to find the resource, without referring to
* the classpath.
*/
public void addResource(Path file) {
addResourceObject(new Resource(file));
}
public void addResource(Path file, boolean restrictedParser) {
addResourceObject(new Resource(file, restrictedParser));
}
/**
* Add a configuration resource.
*
* The properties of this resource will override properties of previously
* added resources, unless they were marked final .
*
* WARNING: The contents of the InputStream will be cached, by this method.
* So use this sparingly because it does increase the memory consumption.
*
* @param in InputStream to deserialize the object from. In will be read from
* when a get or set is called next. After it is read the stream will be
* closed.
*/
public void addResource(InputStream in) {
addResourceObject(new Resource(in));
}
public void addResource(InputStream in, boolean restrictedParser) {
addResourceObject(new Resource(in, restrictedParser));
}
/**
* Add a configuration resource.
*
* The properties of this resource will override properties of previously
* added resources, unless they were marked final .
*
* @param in InputStream to deserialize the object from.
* @param name the name of the resource because InputStream.toString is not
* very descriptive some times.
*/
public void addResource(InputStream in, String name) {
addResourceObject(new Resource(in, name));
}
public void addResource(InputStream in, String name,
boolean restrictedParser) {
addResourceObject(new Resource(in, name, restrictedParser));
}
/**
* Add a configuration resource.
*
* The properties of this resource will override properties of previously
* added resources, unless they were marked final .
*
* @param conf Configuration object from which to load properties
*/
public void addResource(Configuration conf) {
addResourceObject(new Resource(conf.getProps(), conf.restrictSystemProps));
}
/**
* Reload configuration from previously added resources.
*
* This method will clear all the configuration read from the added
* resources, and final parameters. This will make the resources to
* be read again before accessing the values. Values that are added
* via set methods will overlay values read from the resources.
*/
public synchronized void reloadConfiguration() {
properties = null; // trigger reload
finalParameters.clear(); // clear site-limits
}
private synchronized void addResourceObject(Resource resource) {
resources.add(resource); // add to resources
restrictSystemProps |= resource.isParserRestricted();
loadProps(properties, resources.size() - 1, false);
}
private static final int MAX_SUBST = 20;
private static final int SUB_START_IDX = 0;
private static final int SUB_END_IDX = SUB_START_IDX + 1;
/**
* This is a manual implementation of the following regex
* "\\$\\{[^\\}\\$\u0020]+\\}". It can be 15x more efficient than
* a regex matcher as demonstrated by HADOOP-11506. This is noticeable with
* Hadoop apps building on the assumption Configuration#get is an O(1)
* hash table lookup, especially when the eval is a long string.
*
* @param eval a string that may contain variables requiring expansion.
* @return a 2-element int array res such that
* eval.substring(res[0], res[1]) is "var" for the left-most occurrence of
* ${var} in eval. If no variable is found -1, -1 is returned.
*/
private static int[] findSubVariable(String eval) {
int[] result = {-1, -1};
int matchStart;
int leftBrace;
// scanning for a brace first because it's less frequent than $
// that can occur in nested class names
//
match_loop:
for (matchStart = 1, leftBrace = eval.indexOf('{', matchStart);
// minimum left brace position (follows '$')
leftBrace > 0
// right brace of a smallest valid expression "${c}"
&& leftBrace + "{c".length() < eval.length();
leftBrace = eval.indexOf('{', matchStart)) {
int matchedLen = 0;
if (eval.charAt(leftBrace - 1) == '$') {
int subStart = leftBrace + 1; // after '{'
for (int i = subStart; i < eval.length(); i++) {
switch (eval.charAt(i)) {
case '}':
if (matchedLen > 0) { // match
result[SUB_START_IDX] = subStart;
result[SUB_END_IDX] = subStart + matchedLen;
break match_loop;
}
// fall through to skip 1 char
case ' ':
case '$':
matchStart = i + 1;
continue match_loop;
default:
matchedLen++;
}
}
// scanned from "${" to the end of eval, and no reset via ' ', '$':
// no match!
break match_loop;
} else {
// not a start of a variable
//
matchStart = leftBrace + 1;
}
}
return result;
}
/**
* Attempts to repeatedly expand the value {@code expr} by replacing the
* left-most substring of the form "${var}" in the following precedence order
*
* by the value of the environment variable "var" if defined
* by the value of the Java system property "var" if defined
* by the value of the configuration key "var" if defined
*
*
* If var is unbounded the current state of expansion "prefix${var}suffix" is
* returned.
*
* This function also detects self-referential substitutions, i.e.
*
* {@code
* foo.bar = ${foo.bar}
* }
*
* If a cycle is detected then the original expr is returned. Loops
* involving multiple substitutions are not detected.
*
* @param expr the literal value of a config key
* @return null if expr is null, otherwise the value resulting from expanding
* expr using the algorithm above.
* @throws IllegalArgumentException when more than
* {@link Configuration#MAX_SUBST} replacements are required
*/
private String substituteVars(String expr) {
if (expr == null) {
return null;
}
String eval = expr;
for(int s = 0; s < MAX_SUBST; s++) {
final int[] varBounds = findSubVariable(eval);
if (varBounds[SUB_START_IDX] == -1) {
return eval;
}
final String var = eval.substring(varBounds[SUB_START_IDX],
varBounds[SUB_END_IDX]);
String val = null;
if (!restrictSystemProps) {
try {
if (var.startsWith("env.") && 4 < var.length()) {
String v = var.substring(4);
int i = 0;
for (; i < v.length(); i++) {
char c = v.charAt(i);
if (c == ':' && i < v.length() - 1 && v.charAt(i + 1) == '-') {
val = getenv(v.substring(0, i));
if (val == null || val.length() == 0) {
val = v.substring(i + 2);
}
break;
} else if (c == '-') {
val = getenv(v.substring(0, i));
if (val == null) {
val = v.substring(i + 1);
}
break;
}
}
if (i == v.length()) {
val = getenv(v);
}
} else {
val = getProperty(var);
}
} catch (SecurityException se) {
LOG.warn("Unexpected SecurityException in Configuration", se);
}
}
if (val == null) {
val = getRaw(var);
}
if (val == null) {
return eval; // return literal ${var}: var is unbound
}
final int dollar = varBounds[SUB_START_IDX] - "${".length();
final int afterRightBrace = varBounds[SUB_END_IDX] + "}".length();
final String refVar = eval.substring(dollar, afterRightBrace);
// detect self-referential values
if (val.contains(refVar)) {
return expr; // return original expression if there is a loop
}
// substitute
eval = eval.substring(0, dollar)
+ val
+ eval.substring(afterRightBrace);
}
throw new IllegalStateException("Variable substitution depth too large: "
+ MAX_SUBST + " " + expr);
}
String getenv(String name) {
return System.getenv(name);
}
String getProperty(String key) {
return System.getProperty(key);
}
/**
* Get the value of the name property, null if
* no such property exists. If the key is deprecated, it returns the value of
* the first key which replaces the deprecated key and is not null.
*
* Values are processed for variable expansion
* before being returned.
*
* As a side effect get loads the properties from the sources if called for
* the first time as a lazy init.
*
* @param name the property name, will be trimmed before get value.
* @return the value of the name or its replacing property,
* or null if no such property exists.
*/
public String get(String name) {
String[] names = handleDeprecation(deprecationContext.get(), name);
String result = null;
for(String n : names) {
result = substituteVars(getProps().getProperty(n));
}
return result;
}
/**
* Set Configuration to allow keys without values during setup. Intended
* for use during testing.
*
* @param val If true, will allow Configuration to store keys without values
*/
@VisibleForTesting
public void setAllowNullValueProperties( boolean val ) {
this.allowNullValueProperties = val;
}
public void setRestrictSystemProps(boolean val) {
this.restrictSystemProps = val;
}
/**
* Return existence of the name property, but only for
* names which have no valid value, usually non-existent or commented
* out in XML.
*
* @param name the property name
* @return true if the property name exists without value
*/
@VisibleForTesting
public boolean onlyKeyExists(String name) {
String[] names = handleDeprecation(deprecationContext.get(), name);
for(String n : names) {
if ( getProps().getProperty(n,DEFAULT_STRING_CHECK)
.equals(DEFAULT_STRING_CHECK) ) {
return true;
}
}
return false;
}
/**
* Get the value of the name property as a trimmed String,
* null if no such property exists.
* If the key is deprecated, it returns the value of
* the first key which replaces the deprecated key and is not null
*
* Values are processed for variable expansion
* before being returned.
*
* @param name the property name.
* @return the value of the name or its replacing property,
* or null if no such property exists.
*/
public String getTrimmed(String name) {
String value = get(name);
if (null == value) {
return null;
} else {
return value.trim();
}
}
/**
* Get the value of the name property as a trimmed String,
* defaultValue if no such property exists.
* See @{Configuration#getTrimmed} for more details.
*
* @param name the property name.
* @param defaultValue the property default value.
* @return the value of the name or defaultValue
* if it is not set.
*/
public String getTrimmed(String name, String defaultValue) {
String ret = getTrimmed(name);
return ret == null ? defaultValue : ret;
}
/**
* Get the value of the name property, without doing
* variable expansion .If the key is
* deprecated, it returns the value of the first key which replaces
* the deprecated key and is not null.
*
* @param name the property name.
* @return the value of the name property or
* its replacing property and null if no such property exists.
*/
public String getRaw(String name) {
String[] names = handleDeprecation(deprecationContext.get(), name);
String result = null;
for(String n : names) {
result = getProps().getProperty(n);
}
return result;
}
/**
* Returns alternative names (non-deprecated keys or previously-set deprecated keys)
* for a given non-deprecated key.
* If the given key is deprecated, return null.
*
* @param name property name.
* @return alternative names.
*/
private String[] getAlternativeNames(String name) {
String altNames[] = null;
DeprecatedKeyInfo keyInfo = null;
DeprecationContext cur = deprecationContext.get();
String depKey = cur.getReverseDeprecatedKeyMap().get(name);
if(depKey != null) {
keyInfo = cur.getDeprecatedKeyMap().get(depKey);
if(keyInfo.newKeys.length > 0) {
if(getProps().containsKey(depKey)) {
//if deprecated key is previously set explicitly
List list = new ArrayList();
list.addAll(Arrays.asList(keyInfo.newKeys));
list.add(depKey);
altNames = list.toArray(new String[list.size()]);
}
else {
altNames = keyInfo.newKeys;
}
}
}
return altNames;
}
/**
* Set the value of the name property. If
* name is deprecated or there is a deprecated name associated to it,
* it sets the value to both names. Name will be trimmed before put into
* configuration.
*
* @param name property name.
* @param value property value.
*/
public void set(String name, String value) {
set(name, value, null);
}
/**
* Set the value of the name property. If
* name is deprecated, it also sets the value to
* the keys that replace the deprecated key. Name will be trimmed before put
* into configuration.
*
* @param name property name.
* @param value property value.
* @param source the place that this configuration value came from
* (For debugging).
* @throws IllegalArgumentException when the value or name is null.
*/
public void set(String name, String value, String source) {
Preconditions.checkArgument(
name != null,
"Property name must not be null");
Preconditions.checkArgument(
value != null,
"The value of property %s must not be null", name);
name = name.trim();
DeprecationContext deprecations = deprecationContext.get();
if (deprecations.getDeprecatedKeyMap().isEmpty()) {
getProps();
}
getOverlay().setProperty(name, value);
getProps().setProperty(name, value);
String newSource = (source == null ? "programmatically" : source);
if (!isDeprecated(name)) {
putIntoUpdatingResource(name, new String[] {newSource});
String[] altNames = getAlternativeNames(name);
if(altNames != null) {
for(String n: altNames) {
if(!n.equals(name)) {
getOverlay().setProperty(n, value);
getProps().setProperty(n, value);
putIntoUpdatingResource(n, new String[] {newSource});
}
}
}
}
else {
String[] names = handleDeprecation(deprecationContext.get(), name);
String altSource = "because " + name + " is deprecated";
for(String n : names) {
getOverlay().setProperty(n, value);
getProps().setProperty(n, value);
putIntoUpdatingResource(n, new String[] {altSource});
}
}
}
@VisibleForTesting
void logDeprecation(String message) {
LOG_DEPRECATION.info(message);
}
void logDeprecationOnce(String name, String source) {
DeprecatedKeyInfo keyInfo = getDeprecatedKeyInfo(name);
if (keyInfo != null && !keyInfo.getAndSetAccessed()) {
LOG_DEPRECATION.info(keyInfo.getWarningMessage(name, source));
}
}
/**
* Unset a previously set property.
* @param name the property name
*/
public synchronized void unset(String name) {
String[] names = null;
if (!isDeprecated(name)) {
names = getAlternativeNames(name);
if(names == null) {
names = new String[]{name};
}
}
else {
names = handleDeprecation(deprecationContext.get(), name);
}
for(String n: names) {
getOverlay().remove(n);
getProps().remove(n);
}
}
/**
* Sets a property if it is currently unset.
* @param name the property name
* @param value the new value
*/
public synchronized void setIfUnset(String name, String value) {
if (get(name) == null) {
set(name, value);
}
}
private synchronized Properties getOverlay() {
if (overlay==null){
overlay=new Properties();
}
return overlay;
}
/**
* Get the value of the name. If the key is deprecated,
* it returns the value of the first key which replaces the deprecated key
* and is not null.
* If no such property exists,
* then defaultValue is returned.
*
* @param name property name, will be trimmed before get value.
* @param defaultValue default value.
* @return property value, or defaultValue if the property
* doesn't exist.
*/
public String get(String name, String defaultValue) {
String[] names = handleDeprecation(deprecationContext.get(), name);
String result = null;
for(String n : names) {
result = substituteVars(getProps().getProperty(n, defaultValue));
}
return result;
}
/**
* Get the value of the name property as an int.
*
* If no such property exists, the provided default value is returned,
* or if the specified value is not a valid int,
* then an error is thrown.
*
* @param name property name.
* @param defaultValue default value.
* @throws NumberFormatException when the value is invalid
* @return property value as an int,
* or defaultValue.
*/
public int getInt(String name, int defaultValue) {
String valueString = getTrimmed(name);
if (valueString == null)
return defaultValue;
String hexString = getHexDigits(valueString);
if (hexString != null) {
return Integer.parseInt(hexString, 16);
}
return Integer.parseInt(valueString);
}
/**
* Get the value of the name property as a set of comma-delimited
* int values.
*
* If no such property exists, an empty array is returned.
*
* @param name property name
* @return property value interpreted as an array of comma-delimited
* int values
*/
public int[] getInts(String name) {
String[] strings = getTrimmedStrings(name);
int[] ints = new int[strings.length];
for (int i = 0; i < strings.length; i++) {
ints[i] = Integer.parseInt(strings[i]);
}
return ints;
}
/**
* Set the value of the name property to an int.
*
* @param name property name.
* @param value int value of the property.
*/
public void setInt(String name, int value) {
set(name, Integer.toString(value));
}
/**
* Get the value of the name property as a long.
* If no such property exists, the provided default value is returned,
* or if the specified value is not a valid long,
* then an error is thrown.
*
* @param name property name.
* @param defaultValue default value.
* @throws NumberFormatException when the value is invalid
* @return property value as a long,
* or defaultValue.
*/
public long getLong(String name, long defaultValue) {
String valueString = getTrimmed(name);
if (valueString == null)
return defaultValue;
String hexString = getHexDigits(valueString);
if (hexString != null) {
return Long.parseLong(hexString, 16);
}
return Long.parseLong(valueString);
}
/**
* Get the value of the name property as a long or
* human readable format. If no such property exists, the provided default
* value is returned, or if the specified value is not a valid
* long or human readable format, then an error is thrown. You
* can use the following suffix (case insensitive): k(kilo), m(mega), g(giga),
* t(tera), p(peta), e(exa)
*
* @param name property name.
* @param defaultValue default value.
* @throws NumberFormatException when the value is invalid
* @return property value as a long,
* or defaultValue.
*/
public long getLongBytes(String name, long defaultValue) {
String valueString = getTrimmed(name);
if (valueString == null)
return defaultValue;
return StringUtils.TraditionalBinaryPrefix.string2long(valueString);
}
private String getHexDigits(String value) {
boolean negative = false;
String str = value;
String hexString = null;
if (value.startsWith("-")) {
negative = true;
str = value.substring(1);
}
if (str.startsWith("0x") || str.startsWith("0X")) {
hexString = str.substring(2);
if (negative) {
hexString = "-" + hexString;
}
return hexString;
}
return null;
}
/**
* Set the value of the name property to a long.
*
* @param name property name.
* @param value long value of the property.
*/
public void setLong(String name, long value) {
set(name, Long.toString(value));
}
/**
* Get the value of the name property as a float.
* If no such property exists, the provided default value is returned,
* or if the specified value is not a valid float,
* then an error is thrown.
*
* @param name property name.
* @param defaultValue default value.
* @throws NumberFormatException when the value is invalid
* @return property value as a float,
* or defaultValue.
*/
public float getFloat(String name, float defaultValue) {
String valueString = getTrimmed(name);
if (valueString == null)
return defaultValue;
return Float.parseFloat(valueString);
}
/**
* Set the value of the name property to a float.
*
* @param name property name.
* @param value property value.
*/
public void setFloat(String name, float value) {
set(name,Float.toString(value));
}
/**
* Get the value of the name property as a double.
* If no such property exists, the provided default value is returned,
* or if the specified value is not a valid double,
* then an error is thrown.
*
* @param name property name.
* @param defaultValue default value.
* @throws NumberFormatException when the value is invalid
* @return property value as a double,
* or defaultValue.
*/
public double getDouble(String name, double defaultValue) {
String valueString = getTrimmed(name);
if (valueString == null)
return defaultValue;
return Double.parseDouble(valueString);
}
/**
* Set the value of the name property to a double.
*
* @param name property name.
* @param value property value.
*/
public void setDouble(String name, double value) {
set(name,Double.toString(value));
}
/**
* Get the value of the name property as a boolean.
* If no such property is specified, or if the specified value is not a valid
* boolean, then defaultValue is returned.
*
* @param name property name.
* @param defaultValue default value.
* @return property value as a boolean,
* or defaultValue.
*/
public boolean getBoolean(String name, boolean defaultValue) {
String valueString = getTrimmed(name);
if (null == valueString || valueString.isEmpty()) {
return defaultValue;
}
if (StringUtils.equalsIgnoreCase("true", valueString))
return true;
else if (StringUtils.equalsIgnoreCase("false", valueString))
return false;
else return defaultValue;
}
/**
* Set the value of the name property to a boolean.
*
* @param name property name.
* @param value boolean value of the property.
*/
public void setBoolean(String name, boolean value) {
set(name, Boolean.toString(value));
}
/**
* Set the given property, if it is currently unset.
* @param name property name
* @param value new value
*/
public void setBooleanIfUnset(String name, boolean value) {
setIfUnset(name, Boolean.toString(value));
}
/**
* Set the value of the name property to the given type. This
* is equivalent to set(<name>, value.toString()).
* @param name property name
* @param value new value
* @param enumeration type
*/
public > void setEnum(String name, T value) {
set(name, value.toString());
}
/**
* Return value matching this enumerated type.
* Note that the returned value is trimmed by this method.
* @param name Property name
* @param defaultValue Value returned if no mapping exists
* @param enumeration type
* @throws IllegalArgumentException If mapping is illegal for the type
* provided
* @return enumeration type
*/
public > T getEnum(String name, T defaultValue) {
final String val = getTrimmed(name);
return null == val
? defaultValue
: Enum.valueOf(defaultValue.getDeclaringClass(), val);
}
enum ParsedTimeDuration {
NS {
TimeUnit unit() { return TimeUnit.NANOSECONDS; }
String suffix() { return "ns"; }
},
US {
TimeUnit unit() { return TimeUnit.MICROSECONDS; }
String suffix() { return "us"; }
},
MS {
TimeUnit unit() { return TimeUnit.MILLISECONDS; }
String suffix() { return "ms"; }
},
S {
TimeUnit unit() { return TimeUnit.SECONDS; }
String suffix() { return "s"; }
},
M {
TimeUnit unit() { return TimeUnit.MINUTES; }
String suffix() { return "m"; }
},
H {
TimeUnit unit() { return TimeUnit.HOURS; }
String suffix() { return "h"; }
},
D {
TimeUnit unit() { return TimeUnit.DAYS; }
String suffix() { return "d"; }
};
abstract TimeUnit unit();
abstract String suffix();
static ParsedTimeDuration unitFor(String s) {
for (ParsedTimeDuration ptd : values()) {
// iteration order is in decl order, so SECONDS matched last
if (s.endsWith(ptd.suffix())) {
return ptd;
}
}
return null;
}
static ParsedTimeDuration unitFor(TimeUnit unit) {
for (ParsedTimeDuration ptd : values()) {
if (ptd.unit() == unit) {
return ptd;
}
}
return null;
}
}
/**
* Set the value of name to the given time duration. This
* is equivalent to set(<name>, value + <time suffix>).
* @param name Property name
* @param value Time duration
* @param unit Unit of time
*/
public void setTimeDuration(String name, long value, TimeUnit unit) {
set(name, value + ParsedTimeDuration.unitFor(unit).suffix());
}
/**
* Return time duration in the given time unit. Valid units are encoded in
* properties as suffixes: nanoseconds (ns), microseconds (us), milliseconds
* (ms), seconds (s), minutes (m), hours (h), and days (d).
*
* @param name Property name
* @param defaultValue Value returned if no mapping exists.
* @param unit Unit to convert the stored property, if it exists.
* @throws NumberFormatException If the property stripped of its unit is not
* a number
* @return time duration in given time unit
*/
public long getTimeDuration(String name, long defaultValue, TimeUnit unit) {
return getTimeDuration(name, defaultValue, unit, unit);
}
public long getTimeDuration(String name, String defaultValue, TimeUnit unit) {
return getTimeDuration(name, defaultValue, unit, unit);
}
/**
* Return time duration in the given time unit. Valid units are encoded in
* properties as suffixes: nanoseconds (ns), microseconds (us), milliseconds
* (ms), seconds (s), minutes (m), hours (h), and days (d). If no unit is
* provided, the default unit is applied.
*
* @param name Property name
* @param defaultValue Value returned if no mapping exists.
* @param defaultUnit Default time unit if no valid suffix is provided.
* @param returnUnit The unit used for the returned value.
* @throws NumberFormatException If the property stripped of its unit is not
* a number
* @return time duration in given time unit
*/
public long getTimeDuration(String name, long defaultValue,
TimeUnit defaultUnit, TimeUnit returnUnit) {
String vStr = get(name);
if (null == vStr) {
return returnUnit.convert(defaultValue, defaultUnit);
} else {
return getTimeDurationHelper(name, vStr, defaultUnit, returnUnit);
}
}
public long getTimeDuration(String name, String defaultValue,
TimeUnit defaultUnit, TimeUnit returnUnit) {
String vStr = get(name);
if (null == vStr) {
return getTimeDurationHelper(name, defaultValue, defaultUnit, returnUnit);
} else {
return getTimeDurationHelper(name, vStr, defaultUnit, returnUnit);
}
}
/**
* Return time duration in the given time unit. Valid units are encoded in
* properties as suffixes: nanoseconds (ns), microseconds (us), milliseconds
* (ms), seconds (s), minutes (m), hours (h), and days (d).
*
* @param name Property name
* @param vStr The string value with time unit suffix to be converted.
* @param unit Unit to convert the stored property, if it exists.
*/
public long getTimeDurationHelper(String name, String vStr, TimeUnit unit) {
return getTimeDurationHelper(name, vStr, unit, unit);
}
/**
* Return time duration in the given time unit. Valid units are encoded in
* properties as suffixes: nanoseconds (ns), microseconds (us), milliseconds
* (ms), seconds (s), minutes (m), hours (h), and days (d).
*
* @param name Property name
* @param vStr The string value with time unit suffix to be converted.
* @param defaultUnit Unit to convert the stored property, if it exists.
* @param returnUnit Unit for the returned value.
*/
private long getTimeDurationHelper(String name, String vStr,
TimeUnit defaultUnit, TimeUnit returnUnit) {
vStr = vStr.trim();
vStr = StringUtils.toLowerCase(vStr);
ParsedTimeDuration vUnit = ParsedTimeDuration.unitFor(vStr);
if (null == vUnit) {
vUnit = ParsedTimeDuration.unitFor(defaultUnit);
} else {
vStr = vStr.substring(0, vStr.lastIndexOf(vUnit.suffix()));
}
long raw = Long.parseLong(vStr);
long converted = returnUnit.convert(raw, vUnit.unit());
if (vUnit.unit().convert(converted, returnUnit) < raw) {
logDeprecation("Possible loss of precision converting " + vStr
+ vUnit.suffix() + " to " + returnUnit + " for " + name);
}
return converted;
}
public long[] getTimeDurations(String name, TimeUnit unit) {
String[] strings = getTrimmedStrings(name);
long[] durations = new long[strings.length];
for (int i = 0; i < strings.length; i++) {
durations[i] = getTimeDurationHelper(name, strings[i], unit);
}
return durations;
}
/**
* Gets the Storage Size from the config, or returns the defaultValue. The
* unit of return value is specified in target unit.
*
* @param name - Key Name
* @param defaultValue - Default Value -- e.g. 100MB
* @param targetUnit - The units that we want result to be in.
* @return double -- formatted in target Units
*/
public double getStorageSize(String name, String defaultValue,
StorageUnit targetUnit) {
Preconditions.checkState(isNotBlank(name), "Key cannot be blank.");
String vString = get(name);
if (isBlank(vString)) {
vString = defaultValue;
}
// Please note: There is a bit of subtlety here. If the user specifies
// the default unit as "1GB", but the requested unit is MB, we will return
// the format in MB even thought the default string is specified in GB.
// Converts a string like "1GB" to to unit specified in targetUnit.
StorageSize measure = StorageSize.parse(vString);
return convertStorageUnit(measure.getValue(), measure.getUnit(),
targetUnit);
}
/**
* Gets storage size from a config file.
*
* @param name - Key to read.
* @param defaultValue - The default value to return in case the key is
* not present.
* @param targetUnit - The Storage unit that should be used
* for the return value.
* @return - double value in the Storage Unit specified.
*/
public double getStorageSize(String name, double defaultValue,
StorageUnit targetUnit) {
Preconditions.checkNotNull(targetUnit, "Conversion unit cannot be null.");
Preconditions.checkState(isNotBlank(name), "Name cannot be blank.");
String vString = get(name);
if (isBlank(vString)) {
return targetUnit.getDefault(defaultValue);
}
StorageSize measure = StorageSize.parse(vString);
return convertStorageUnit(measure.getValue(), measure.getUnit(),
targetUnit);
}
/**
* Sets Storage Size for the specified key.
*
* @param name - Key to set.
* @param value - The numeric value to set.
* @param unit - Storage Unit to be used.
*/
public void setStorageSize(String name, double value, StorageUnit unit) {
set(name, value + unit.getShortName());
}
/**
* convert the value from one storage unit to another.
*
* @param value - value
* @param sourceUnit - Source unit to convert from
* @param targetUnit - target unit.
* @return double.
*/
private double convertStorageUnit(double value, StorageUnit sourceUnit,
StorageUnit targetUnit) {
double byteValue = sourceUnit.toBytes(value);
return targetUnit.fromBytes(byteValue);
}
/**
* Get the value of the name property as a Pattern.
* If no such property is specified, or if the specified value is not a valid
* Pattern, then DefaultValue is returned.
* Note that the returned value is NOT trimmed by this method.
*
* @param name property name
* @param defaultValue default value
* @return property value as a compiled Pattern, or defaultValue
*/
public Pattern getPattern(String name, Pattern defaultValue) {
String valString = get(name);
if (null == valString || valString.isEmpty()) {
return defaultValue;
}
try {
return Pattern.compile(valString);
} catch (PatternSyntaxException pse) {
LOG.warn("Regular expression '" + valString + "' for property '" +
name + "' not valid. Using default", pse);
return defaultValue;
}
}
/**
* Set the given property to Pattern.
* If the pattern is passed as null, sets the empty pattern which results in
* further calls to getPattern(...) returning the default value.
*
* @param name property name
* @param pattern new value
*/
public void setPattern(String name, Pattern pattern) {
assert pattern != null : "Pattern cannot be null";
set(name, pattern.pattern());
}
/**
* Gets information about why a property was set. Typically this is the
* path to the resource objects (file, URL, etc.) the property came from, but
* it can also indicate that it was set programmatically, or because of the
* command line.
*
* @param name - The property name to get the source of.
* @return null - If the property or its source wasn't found. Otherwise,
* returns a list of the sources of the resource. The older sources are
* the first ones in the list. So for example if a configuration is set from
* the command line, and then written out to a file that is read back in the
* first entry would indicate that it was set from the command line, while
* the second one would indicate the file that the new configuration was read
* in from.
*/
@InterfaceStability.Unstable
public synchronized String[] getPropertySources(String name) {
if (properties == null) {
// If properties is null, it means a resource was newly added
// but the props were cleared so as to load it upon future
// requests. So lets force a load by asking a properties list.
getProps();
}
// Return a null right away if our properties still
// haven't loaded or the resource mapping isn't defined
if (properties == null || updatingResource == null) {
return null;
} else {
String[] source = updatingResource.get(name);
if(source == null) {
return null;
} else {
return Arrays.copyOf(source, source.length);
}
}
}
/**
* A class that represents a set of positive integer ranges. It parses
* strings of the form: "2-3,5,7-" where ranges are separated by comma and
* the lower/upper bounds are separated by dash. Either the lower or upper
* bound may be omitted meaning all values up to or over. So the string
* above means 2, 3, 5, and 7, 8, 9, ...
*/
public static class IntegerRanges implements Iterable{
private static class Range {
int start;
int end;
}
private static class RangeNumberIterator implements Iterator {
Iterator internal;
int at;
int end;
public RangeNumberIterator(List ranges) {
if (ranges != null) {
internal = ranges.iterator();
}
at = -1;
end = -2;
}
@Override
public boolean hasNext() {
if (at <= end) {
return true;
} else if (internal != null){
return internal.hasNext();
}
return false;
}
@Override
public Integer next() {
if (at <= end) {
at++;
return at - 1;
} else if (internal != null){
Range found = internal.next();
if (found != null) {
at = found.start;
end = found.end;
at++;
return at - 1;
}
}
return null;
}
@Override
public void remove() {
throw new UnsupportedOperationException();
}
};
List ranges = new ArrayList();
public IntegerRanges() {
}
public IntegerRanges(String newValue) {
StringTokenizer itr = new StringTokenizer(newValue, ",");
while (itr.hasMoreTokens()) {
String rng = itr.nextToken().trim();
String[] parts = rng.split("-", 3);
if (parts.length < 1 || parts.length > 2) {
throw new IllegalArgumentException("integer range badly formed: " +
rng);
}
Range r = new Range();
r.start = convertToInt(parts[0], 0);
if (parts.length == 2) {
r.end = convertToInt(parts[1], Integer.MAX_VALUE);
} else {
r.end = r.start;
}
if (r.start > r.end) {
throw new IllegalArgumentException("IntegerRange from " + r.start +
" to " + r.end + " is invalid");
}
ranges.add(r);
}
}
/**
* Convert a string to an int treating empty strings as the default value.
* @param value the string value
* @param defaultValue the value for if the string is empty
* @return the desired integer
*/
private static int convertToInt(String value, int defaultValue) {
String trim = value.trim();
if (trim.length() == 0) {
return defaultValue;
}
return Integer.parseInt(trim);
}
/**
* Is the given value in the set of ranges
* @param value the value to check
* @return is the value in the ranges?
*/
public boolean isIncluded(int value) {
for(Range r: ranges) {
if (r.start <= value && value <= r.end) {
return true;
}
}
return false;
}
/**
* @return true if there are no values in this range, else false.
*/
public boolean isEmpty() {
return ranges == null || ranges.isEmpty();
}
@Override
public String toString() {
StringBuilder result = new StringBuilder();
boolean first = true;
for(Range r: ranges) {
if (first) {
first = false;
} else {
result.append(',');
}
result.append(r.start);
result.append('-');
result.append(r.end);
}
return result.toString();
}
/**
* Get range start for the first integer range.
* @return range start.
*/
public int getRangeStart() {
if (ranges == null || ranges.isEmpty()) {
return -1;
}
Range r = ranges.get(0);
return r.start;
}
@Override
public Iterator iterator() {
return new RangeNumberIterator(ranges);
}
}
/**
* Parse the given attribute as a set of integer ranges
* @param name the attribute name
* @param defaultValue the default value if it is not set
* @return a new set of ranges from the configured value
*/
public IntegerRanges getRange(String name, String defaultValue) {
return new IntegerRanges(get(name, defaultValue));
}
/**
* Get the comma delimited values of the name property as
* a collection of Strings.
* If no such property is specified then empty collection is returned.
*
* This is an optimized version of {@link #getStrings(String)}
*
* @param name property name.
* @return property value as a collection of Strings.
*/
public Collection getStringCollection(String name) {
String valueString = get(name);
return StringUtils.getStringCollection(valueString);
}
/**
* Get the comma delimited values of the name property as
* an array of Strings.
* If no such property is specified then null is returned.
*
* @param name property name.
* @return property value as an array of Strings,
* or null.
*/
public String[] getStrings(String name) {
String valueString = get(name);
return StringUtils.getStrings(valueString);
}
/**
* Get the comma delimited values of the name property as
* an array of Strings.
* If no such property is specified then default value is returned.
*
* @param name property name.
* @param defaultValue The default value
* @return property value as an array of Strings,
* or default value.
*/
public String[] getStrings(String name, String... defaultValue) {
String valueString = get(name);
if (valueString == null) {
return defaultValue;
} else {
return StringUtils.getStrings(valueString);
}
}
/**
* Get the comma delimited values of the name property as
* a collection of Strings, trimmed of the leading and trailing whitespace.
* If no such property is specified then empty Collection is returned.
*
* @param name property name.
* @return property value as a collection of Strings, or empty Collection
*/
public Collection getTrimmedStringCollection(String name) {
String valueString = get(name);
if (null == valueString) {
Collection empty = new ArrayList();
return empty;
}
return StringUtils.getTrimmedStringCollection(valueString);
}
/**
* Get the comma delimited values of the name property as
* an array of Strings, trimmed of the leading and trailing whitespace.
* If no such property is specified then an empty array is returned.
*
* @param name property name.
* @return property value as an array of trimmed Strings,
* or empty array.
*/
public String[] getTrimmedStrings(String name) {
String valueString = get(name);
return StringUtils.getTrimmedStrings(valueString);
}
/**
* Get the comma delimited values of the name property as
* an array of Strings, trimmed of the leading and trailing whitespace.
* If no such property is specified then default value is returned.
*
* @param name property name.
* @param defaultValue The default value
* @return property value as an array of trimmed Strings,
* or default value.
*/
public String[] getTrimmedStrings(String name, String... defaultValue) {
String valueString = get(name);
if (null == valueString) {
return defaultValue;
} else {
return StringUtils.getTrimmedStrings(valueString);
}
}
/**
* Set the array of string values for the name property as
* as comma delimited values.
*
* @param name property name.
* @param values The values
*/
public void setStrings(String name, String... values) {
set(name, StringUtils.arrayToString(values));
}
/**
* Get the value for a known password configuration element.
* In order to enable the elimination of clear text passwords in config,
* this method attempts to resolve the property name as an alias through
* the CredentialProvider API and conditionally fallsback to config.
* @param name property name
* @return password
* @throws IOException when error in fetching password
*/
public char[] getPassword(String name) throws IOException {
char[] pass = null;
pass = getPasswordFromCredentialProviders(name);
if (pass == null) {
pass = getPasswordFromConfig(name);
}
return pass;
}
/**
* Get the credential entry by name from a credential provider.
*
* Handle key deprecation.
*
* @param provider a credential provider
* @param name alias of the credential
* @return the credential entry or null if not found
*/
private CredentialEntry getCredentialEntry(CredentialProvider provider,
String name) throws IOException {
CredentialEntry entry = provider.getCredentialEntry(name);
if (entry != null) {
return entry;
}
// The old name is stored in the credential provider.
String oldName = getDeprecatedKey(name);
if (oldName != null) {
entry = provider.getCredentialEntry(oldName);
if (entry != null) {
logDeprecationOnce(oldName, provider.toString());
return entry;
}
}
// The name is deprecated.
DeprecatedKeyInfo keyInfo = getDeprecatedKeyInfo(name);
if (keyInfo != null && keyInfo.newKeys != null) {
for (String newName : keyInfo.newKeys) {
entry = provider.getCredentialEntry(newName);
if (entry != null) {
logDeprecationOnce(name, null);
return entry;
}
}
}
return null;
}
/**
* Try and resolve the provided element name as a credential provider
* alias.
* @param name alias of the provisioned credential
* @return password or null if not found
* @throws IOException when error in fetching password
*/
public char[] getPasswordFromCredentialProviders(String name)
throws IOException {
char[] pass = null;
try {
List providers =
CredentialProviderFactory.getProviders(this);
if (providers != null) {
for (CredentialProvider provider : providers) {
try {
CredentialEntry entry = getCredentialEntry(provider, name);
if (entry != null) {
pass = entry.getCredential();
break;
}
}
catch (IOException ioe) {
throw new IOException("Can't get key " + name + " from key provider" +
"of type: " + provider.getClass().getName() + ".", ioe);
}
}
}
}
catch (IOException ioe) {
throw new IOException("Configuration problem with provider path.", ioe);
}
return pass;
}
/**
* Fallback to clear text passwords in configuration.
* @param name
* @return clear text password or null
*/
protected char[] getPasswordFromConfig(String name) {
char[] pass = null;
if (getBoolean(CredentialProvider.CLEAR_TEXT_FALLBACK,
CommonConfigurationKeysPublic.
HADOOP_SECURITY_CREDENTIAL_CLEAR_TEXT_FALLBACK_DEFAULT)) {
String passStr = get(name);
if (passStr != null) {
pass = passStr.toCharArray();
}
}
return pass;
}
/**
* Get the socket address for hostProperty as a
* InetSocketAddress. If hostProperty is
* null, addressProperty will be used. This
* is useful for cases where we want to differentiate between host
* bind address and address clients should use to establish connection.
*
* @param hostProperty bind host property name.
* @param addressProperty address property name.
* @param defaultAddressValue the default value
* @param defaultPort the default port
* @return InetSocketAddress
*/
public InetSocketAddress getSocketAddr(
String hostProperty,
String addressProperty,
String defaultAddressValue,
int defaultPort) {
InetSocketAddress bindAddr = getSocketAddr(
addressProperty, defaultAddressValue, defaultPort);
final String host = get(hostProperty);
if (host == null || host.isEmpty()) {
return bindAddr;
}
return NetUtils.createSocketAddr(
host, bindAddr.getPort(), hostProperty);
}
/**
* Get the socket address for name property as a
* InetSocketAddress.
* @param name property name.
* @param defaultAddress the default value
* @param defaultPort the default port
* @return InetSocketAddress
*/
public InetSocketAddress getSocketAddr(
String name, String defaultAddress, int defaultPort) {
final String address = getTrimmed(name, defaultAddress);
return NetUtils.createSocketAddr(address, defaultPort, name);
}
/**
* Set the socket address for the name property as
* a host:port.
*/
public void setSocketAddr(String name, InetSocketAddress addr) {
set(name, NetUtils.getHostPortString(addr));
}
/**
* Set the socket address a client can use to connect for the
* name property as a host:port. The wildcard
* address is replaced with the local host's address. If the host and address
* properties are configured the host component of the address will be combined
* with the port component of the addr to generate the address. This is to allow
* optional control over which host name is used in multi-home bind-host
* cases where a host can have multiple names
* @param hostProperty the bind-host configuration name
* @param addressProperty the service address configuration name
* @param defaultAddressValue the service default address configuration value
* @param addr InetSocketAddress of the service listener
* @return InetSocketAddress for clients to connect
*/
public InetSocketAddress updateConnectAddr(
String hostProperty,
String addressProperty,
String defaultAddressValue,
InetSocketAddress addr) {
final String host = get(hostProperty);
final String connectHostPort = getTrimmed(addressProperty, defaultAddressValue);
if (host == null || host.isEmpty() || connectHostPort == null || connectHostPort.isEmpty()) {
//not our case, fall back to original logic
return updateConnectAddr(addressProperty, addr);
}
final String connectHost = connectHostPort.split(":")[0];
// Create connect address using client address hostname and server port.
return updateConnectAddr(addressProperty, NetUtils.createSocketAddrForHost(
connectHost, addr.getPort()));
}
/**
* Set the socket address a client can use to connect for the
* name property as a host:port. The wildcard
* address is replaced with the local host's address.
* @param name property name.
* @param addr InetSocketAddress of a listener to store in the given property
* @return InetSocketAddress for clients to connect
*/
public InetSocketAddress updateConnectAddr(String name,
InetSocketAddress addr) {
final InetSocketAddress connectAddr = NetUtils.getConnectAddress(addr);
setSocketAddr(name, connectAddr);
return connectAddr;
}
/**
* Load a class by name.
*
* @param name the class name.
* @return the class object.
* @throws ClassNotFoundException if the class is not found.
*/
public Class getClassByName(String name) throws ClassNotFoundException {
Class ret = getClassByNameOrNull(name);
if (ret == null) {
throw new ClassNotFoundException("Class " + name + " not found");
}
return ret;
}
/**
* Load a class by name, returning null rather than throwing an exception
* if it couldn't be loaded. This is to avoid the overhead of creating
* an exception.
*
* @param name the class name
* @return the class object, or null if it could not be found.
*/
public Class getClassByNameOrNull(String name) {
Map>> map;
synchronized (CACHE_CLASSES) {
map = CACHE_CLASSES.get(classLoader);
if (map == null) {
map = Collections.synchronizedMap(
new WeakHashMap>>());
CACHE_CLASSES.put(classLoader, map);
}
}
Class clazz = null;
WeakReference> ref = map.get(name);
if (ref != null) {
clazz = ref.get();
}
if (clazz == null) {
try {
clazz = Class.forName(name, true, classLoader);
} catch (ClassNotFoundException e) {
// Leave a marker that the class isn't found
map.put(name, new WeakReference>(NEGATIVE_CACHE_SENTINEL));
return null;
}
// two putters can race here, but they'll put the same class
map.put(name, new WeakReference>(clazz));
return clazz;
} else if (clazz == NEGATIVE_CACHE_SENTINEL) {
return null; // not found
} else {
// cache hit
return clazz;
}
}
/**
* Get the value of the name property
* as an array of Class.
* The value of the property specifies a list of comma separated class names.
* If no such property is specified, then defaultValue is
* returned.
*
* @param name the property name.
* @param defaultValue default value.
* @return property value as a Class[],
* or defaultValue.
*/
public Class[] getClasses(String name, Class ... defaultValue) {
String valueString = getRaw(name);
if (null == valueString) {
return defaultValue;
}
String[] classnames = getTrimmedStrings(name);
try {
Class[] classes = new Class[classnames.length];
for(int i = 0; i < classnames.length; i++) {
classes[i] = getClassByName(classnames[i]);
}
return classes;
} catch (ClassNotFoundException e) {
throw new RuntimeException(e);
}
}
/**
* Get the value of the name property as a Class.
* If no such property is specified, then defaultValue is
* returned.
*
* @param name the conf key name.
* @param defaultValue default value.
* @return property value as a Class,
* or defaultValue.
*/
public Class getClass(String name, Class defaultValue) {
String valueString = getTrimmed(name);
if (valueString == null)
return defaultValue;
try {
return getClassByName(valueString);
} catch (ClassNotFoundException e) {
throw new RuntimeException(e);
}
}
/**
* Get the value of the name property as a Class
* implementing the interface specified by xface.
*
* If no such property is specified, then defaultValue is
* returned.
*
* An exception is thrown if the returned class does not implement the named
* interface.
*
* @param name the conf key name.
* @param defaultValue default value.
* @param xface the interface implemented by the named class.
* @return property value as a Class,
* or defaultValue.
*/
public Class getClass(String name,
Class defaultValue,
Class xface) {
try {
Class theClass = getClass(name, defaultValue);
if (theClass != null && !xface.isAssignableFrom(theClass))
throw new RuntimeException(theClass+" not "+xface.getName());
else if (theClass != null)
return theClass.asSubclass(xface);
else
return null;
} catch (Exception e) {
throw new RuntimeException(e);
}
}
/**
* Get the value of the name property as a List
* of objects implementing the interface specified by xface.
*
* An exception is thrown if any of the classes does not exist, or if it does
* not implement the named interface.
*
* @param name the property name.
* @param xface the interface implemented by the classes named by
* name.
* @return a List of objects implementing xface.
*/
@SuppressWarnings("unchecked")
public List getInstances(String name, Class xface) {
List ret = new ArrayList();
Class[] classes = getClasses(name);
for (Class cl: classes) {
if (!xface.isAssignableFrom(cl)) {
throw new RuntimeException(cl + " does not implement " + xface);
}
ret.add((U)ReflectionUtils.newInstance(cl, this));
}
return ret;
}
/**
* Set the value of the name property to the name of a
* theClass implementing the given interface xface.
*
* An exception is thrown if theClass does not implement the
* interface xface.
*
* @param name property name.
* @param theClass property value.
* @param xface the interface implemented by the named class.
*/
public void setClass(String name, Class theClass, Class xface) {
if (!xface.isAssignableFrom(theClass))
throw new RuntimeException(theClass+" not "+xface.getName());
set(name, theClass.getName());
}
/**
* Get a local file under a directory named by dirsProp with
* the given path . If dirsProp contains multiple directories,
* then one is chosen based on path 's hash code. If the selected
* directory does not exist, an attempt is made to create it.
*
* @param dirsProp directory in which to locate the file.
* @param path file-path.
* @return local file under the directory with the given path.
*/
public Path getLocalPath(String dirsProp, String path)
throws IOException {
String[] dirs = getTrimmedStrings(dirsProp);
int hashCode = path.hashCode();
FileSystem fs = FileSystem.getLocal(this);
for (int i = 0; i < dirs.length; i++) { // try each local dir
int index = (hashCode+i & Integer.MAX_VALUE) % dirs.length;
Path file = new Path(dirs[index], path);
Path dir = file.getParent();
if (fs.mkdirs(dir) || fs.exists(dir)) {
return file;
}
}
LOG.warn("Could not make " + path +
" in local directories from " + dirsProp);
for(int i=0; i < dirs.length; i++) {
int index = (hashCode+i & Integer.MAX_VALUE) % dirs.length;
LOG.warn(dirsProp + "[" + index + "]=" + dirs[index]);
}
throw new IOException("No valid local directories in property: "+dirsProp);
}
/**
* Get a local file name under a directory named in dirsProp with
* the given path . If dirsProp contains multiple directories,
* then one is chosen based on path 's hash code. If the selected
* directory does not exist, an attempt is made to create it.
*
* @param dirsProp directory in which to locate the file.
* @param path file-path.
* @return local file under the directory with the given path.
*/
public File getFile(String dirsProp, String path)
throws IOException {
String[] dirs = getTrimmedStrings(dirsProp);
int hashCode = path.hashCode();
for (int i = 0; i < dirs.length; i++) { // try each local dir
int index = (hashCode+i & Integer.MAX_VALUE) % dirs.length;
File file = new File(dirs[index], path);
File dir = file.getParentFile();
if (dir.exists() || dir.mkdirs()) {
return file;
}
}
throw new IOException("No valid local directories in property: "+dirsProp);
}
/**
* Get the {@link URL} for the named resource.
*
* @param name resource name.
* @return the url for the named resource.
*/
public URL getResource(String name) {
return classLoader.getResource(name);
}
/**
* Get an input stream attached to the configuration resource with the
* given name.
*
* @param name configuration resource name.
* @return an input stream attached to the resource.
*/
public InputStream getConfResourceAsInputStream(String name) {
try {
URL url= getResource(name);
if (url == null) {
LOG.info(name + " not found");
return null;
} else {
LOG.info("found resource " + name + " at " + url);
}
return url.openStream();
} catch (Exception e) {
return null;
}
}
/**
* Get a {@link Reader} attached to the configuration resource with the
* given name.
*
* @param name configuration resource name.
* @return a reader attached to the resource.
*/
public Reader getConfResourceAsReader(String name) {
try {
URL url= getResource(name);
if (url == null) {
LOG.info(name + " not found");
return null;
} else {
LOG.info("found resource " + name + " at " + url);
}
return new InputStreamReader(url.openStream(), Charsets.UTF_8);
} catch (Exception e) {
return null;
}
}
/**
* Get the set of parameters marked final.
*
* @return final parameter set.
*/
public Set getFinalParameters() {
Set setFinalParams = Collections.newSetFromMap(
new ConcurrentHashMap());
setFinalParams.addAll(finalParameters);
return setFinalParams;
}
protected synchronized Properties getProps() {
if (properties == null) {
properties = new Properties();
loadProps(properties, 0, true);
}
return properties;
}
/**
* Loads the resource at a given index into the properties.
* @param props the object containing the loaded properties.
* @param startIdx the index where the new resource has been added.
* @param fullReload flag whether we do complete reload of the conf instead
* of just loading the new resource.
*/
private synchronized void loadProps(final Properties props,
final int startIdx, final boolean fullReload) {
if (props != null) {
Map backup =
updatingResource != null
? new ConcurrentHashMap<>(updatingResource) : null;
loadResources(props, resources, startIdx, fullReload, quietmode);
if (overlay != null) {
props.putAll(overlay);
if (backup != null) {
for (Map.Entry item : overlay.entrySet()) {
String key = (String) item.getKey();
String[] source = backup.get(key);
if (source != null) {
updatingResource.put(key, source);
}
}
}
}
}
}
/**
* Return the number of keys in the configuration.
*
* @return number of keys in the configuration.
*/
public int size() {
return getProps().size();
}
/**
* Clears all keys from the configuration.
*/
public void clear() {
getProps().clear();
getOverlay().clear();
}
/**
* Get an {@link Iterator} to go through the list of String
* key-value pairs in the configuration.
*
* @return an iterator over the entries.
*/
@Override
public Iterator> iterator() {
// Get a copy of just the string to string pairs. After the old object
// methods that allow non-strings to be put into configurations are removed,
// we could replace properties with a Map and get rid of this
// code.
Map result = new HashMap();
for(Map.Entry item: getProps().entrySet()) {
if (item.getKey() instanceof String &&
item.getValue() instanceof String) {
result.put((String) item.getKey(), (String) item.getValue());
}
}
return result.entrySet().iterator();
}
/**
* Constructs a mapping of configuration and includes all properties that
* start with the specified configuration prefix. Property names in the
* mapping are trimmed to remove the configuration prefix.
*
* @param confPrefix configuration prefix
* @return mapping of configuration properties with prefix stripped
*/
public Map getPropsWithPrefix(String confPrefix) {
Properties props = getProps();
Map configMap = new HashMap<>();
for (String name : props.stringPropertyNames()) {
if (name.startsWith(confPrefix)) {
String value = get(name);
String keyName = name.substring(confPrefix.length());
configMap.put(keyName, value);
}
}
return configMap;
}
private XMLStreamReader parse(URL url, boolean restricted)
throws IOException, XMLStreamException {
if (!quietmode) {
if (LOG.isDebugEnabled()) {
LOG.debug("parsing URL " + url);
}
}
if (url == null) {
return null;
}
URLConnection connection = url.openConnection();
if (connection instanceof JarURLConnection) {
// Disable caching for JarURLConnection to avoid sharing JarFile
// with other users.
connection.setUseCaches(false);
}
return parse(connection.getInputStream(), url.toString(), restricted);
}
private XMLStreamReader parse(InputStream is, String systemIdStr,
boolean restricted) throws IOException, XMLStreamException {
if (!quietmode) {
LOG.debug("parsing input stream " + is);
}
if (is == null) {
return null;
}
SystemId systemId = SystemId.construct(systemIdStr);
ReaderConfig readerConfig = XML_INPUT_FACTORY.createPrivateConfig();
if (restricted) {
readerConfig.setProperty(XMLInputFactory.SUPPORT_DTD, false);
}
return XML_INPUT_FACTORY.createSR(readerConfig, systemId,
StreamBootstrapper.getInstance(null, systemId, is), false, true);
}
private void loadResources(Properties properties,
ArrayList resources,
int startIdx,
boolean fullReload,
boolean quiet) {
if(loadDefaults && fullReload) {
for (String resource : defaultResources) {
loadResource(properties, new Resource(resource, false), quiet);
}
}
for (int i = startIdx; i < resources.size(); i++) {
Resource ret = loadResource(properties, resources.get(i), quiet);
if (ret != null) {
resources.set(i, ret);
}
}
this.addTags(properties);
}
private Resource loadResource(Properties properties,
Resource wrapper, boolean quiet) {
String name = UNKNOWN_RESOURCE;
try {
Object resource = wrapper.getResource();
name = wrapper.getName();
boolean returnCachedProperties = false;
if (resource instanceof InputStream) {
returnCachedProperties = true;
} else if (resource instanceof Properties) {
overlay(properties, (Properties)resource);
}
XMLStreamReader2 reader = getStreamReader(wrapper, quiet);
if (reader == null) {
if (quiet) {
return null;
}
throw new RuntimeException(resource + " not found");
}
Properties toAddTo = properties;
if(returnCachedProperties) {
toAddTo = new Properties();
}
List items = new Parser(reader, wrapper, quiet).parse();
for (ParsedItem item : items) {
loadProperty(toAddTo, item.name, item.key, item.value,
item.isFinal, item.sources);
}
reader.close();
if (returnCachedProperties) {
overlay(properties, toAddTo);
return new Resource(toAddTo, name, wrapper.isParserRestricted());
}
return null;
} catch (IOException e) {
LOG.error("error parsing conf " + name, e);
throw new RuntimeException(e);
} catch (XMLStreamException e) {
LOG.error("error parsing conf " + name, e);
throw new RuntimeException(e);
}
}
private XMLStreamReader2 getStreamReader(Resource wrapper, boolean quiet)
throws XMLStreamException, IOException {
Object resource = wrapper.getResource();
boolean isRestricted = wrapper.isParserRestricted();
XMLStreamReader2 reader = null;
if (resource instanceof URL) { // an URL resource
reader = (XMLStreamReader2)parse((URL)resource, isRestricted);
} else if (resource instanceof String) { // a CLASSPATH resource
URL url = getResource((String)resource);
reader = (XMLStreamReader2)parse(url, isRestricted);
} else if (resource instanceof Path) { // a file resource
// Can't use FileSystem API or we get an infinite loop
// since FileSystem uses Configuration API. Use java.io.File instead.
File file = new File(((Path)resource).toUri().getPath())
.getAbsoluteFile();
if (file.exists()) {
if (!quiet) {
LOG.debug("parsing File " + file);
}
reader = (XMLStreamReader2)parse(new BufferedInputStream(
Files.newInputStream(file.toPath())), ((Path) resource).toString(),
isRestricted);
}
} else if (resource instanceof InputStream) {
reader = (XMLStreamReader2)parse((InputStream)resource, null,
isRestricted);
}
return reader;
}
private static class ParsedItem {
String name;
String key;
String value;
boolean isFinal;
String[] sources;
ParsedItem(String name, String key, String value,
boolean isFinal, String[] sources) {
this.name = name;
this.key = key;
this.value = value;
this.isFinal = isFinal;
this.sources = sources;
}
}
/**
* Parser to consume SAX stream of XML elements from a Configuration.
*/
private class Parser {
private final XMLStreamReader2 reader;
private final Resource wrapper;
private final String name;
private final String[] nameSingletonArray;
private final boolean isRestricted;
private final boolean quiet;
DeprecationContext deprecations = deprecationContext.get();
private StringBuilder token = new StringBuilder();
private String confName = null;
private String confValue = null;
private String confInclude = null;
private String confTag = null;
private boolean confFinal = false;
private boolean fallbackAllowed = false;
private boolean fallbackEntered = false;
private boolean parseToken = false;
private List confSource = new ArrayList<>();
private List results = new ArrayList<>();
Parser(XMLStreamReader2 reader,
Resource wrapper,
boolean quiet) {
this.reader = reader;
this.wrapper = wrapper;
this.name = wrapper.getName();
this.nameSingletonArray = new String[]{ name };
this.isRestricted = wrapper.isParserRestricted();
this.quiet = quiet;
}
List parse() throws IOException, XMLStreamException {
while (reader.hasNext()) {
parseNext();
}
return results;
}
private void handleStartElement() throws XMLStreamException, IOException {
switch (reader.getLocalName()) {
case "property":
handleStartProperty();
break;
case "name":
case "value":
case "final":
case "source":
case "tag":
parseToken = true;
token.setLength(0);
break;
case "include":
handleInclude();
break;
case "fallback":
fallbackEntered = true;
break;
case "configuration":
break;
default:
break;
}
}
private void handleStartProperty() {
confName = null;
confValue = null;
confFinal = false;
confTag = null;
confSource.clear();
// First test for short format configuration
int attrCount = reader.getAttributeCount();
for (int i = 0; i < attrCount; i++) {
String propertyAttr = reader.getAttributeLocalName(i);
if ("name".equals(propertyAttr)) {
confName = StringInterner.weakIntern(
reader.getAttributeValue(i));
} else if ("value".equals(propertyAttr)) {
confValue = StringInterner.weakIntern(
reader.getAttributeValue(i));
} else if ("final".equals(propertyAttr)) {
confFinal = "true".equals(reader.getAttributeValue(i));
} else if ("source".equals(propertyAttr)) {
confSource.add(StringInterner.weakIntern(
reader.getAttributeValue(i)));
} else if ("tag".equals(propertyAttr)) {
confTag = StringInterner
.weakIntern(reader.getAttributeValue(i));
}
}
}
private void handleInclude() throws XMLStreamException, IOException {
// Determine href for xi:include
confInclude = null;
int attrCount = reader.getAttributeCount();
List items;
for (int i = 0; i < attrCount; i++) {
String attrName = reader.getAttributeLocalName(i);
if ("href".equals(attrName)) {
confInclude = reader.getAttributeValue(i);
}
}
if (confInclude == null) {
return;
}
if (isRestricted) {
throw new RuntimeException("Error parsing resource " + wrapper
+ ": XInclude is not supported for restricted resources");
}
// Determine if the included resource is a classpath resource
// otherwise fallback to a file resource
// xi:include are treated as inline and retain current source
URL include = getResource(confInclude);
if (include != null) {
Resource classpathResource = new Resource(include, name,
wrapper.isParserRestricted());
// This is only called recursively while the lock is already held
// by this thread, but synchronizing avoids a findbugs warning.
synchronized (Configuration.this) {
XMLStreamReader2 includeReader =
getStreamReader(classpathResource, quiet);
if (includeReader == null) {
throw new RuntimeException(classpathResource + " not found");
}
items = new Parser(includeReader, classpathResource, quiet).parse();
}
} else {
URL url;
try {
url = new URL(confInclude);
url.openConnection().connect();
} catch (IOException ioe) {
File href = new File(confInclude);
if (!href.isAbsolute()) {
// Included resources are relative to the current resource
File baseFile;
try {
baseFile = new File(new URI(name));
} catch (IllegalArgumentException | URISyntaxException e) {
baseFile = new File(name);
}
baseFile = baseFile.getParentFile();
href = new File(baseFile, href.getPath());
}
if (!href.exists()) {
// Resource errors are non-fatal iff there is 1 xi:fallback
fallbackAllowed = true;
return;
}
url = href.toURI().toURL();
}
Resource uriResource = new Resource(url, name,
wrapper.isParserRestricted());
// This is only called recursively while the lock is already held
// by this thread, but synchronizing avoids a findbugs warning.
synchronized (Configuration.this) {
XMLStreamReader2 includeReader =
getStreamReader(uriResource, quiet);
if (includeReader == null) {
throw new RuntimeException(uriResource + " not found");
}
items = new Parser(includeReader, uriResource, quiet).parse();
}
}
results.addAll(items);
}
void handleEndElement() throws IOException {
String tokenStr = token.toString();
switch (reader.getLocalName()) {
case "name":
if (token.length() > 0) {
confName = StringInterner.weakIntern(tokenStr.trim());
}
break;
case "value":
if (token.length() > 0) {
confValue = StringInterner.weakIntern(tokenStr);
}
break;
case "final":
confFinal = "true".equals(tokenStr);
break;
case "source":
confSource.add(StringInterner.weakIntern(tokenStr));
break;
case "tag":
if (token.length() > 0) {
confTag = StringInterner.weakIntern(tokenStr);
}
break;
case "include":
if (fallbackAllowed && !fallbackEntered) {
throw new IOException("Fetch fail on include for '"
+ confInclude + "' with no fallback while loading '"
+ name + "'");
}
fallbackAllowed = false;
fallbackEntered = false;
break;
case "property":
handleEndProperty();
break;
default:
break;
}
}
void handleEndProperty() {
if (confName == null || (!fallbackAllowed && fallbackEntered)) {
return;
}
String[] confSourceArray;
if (confSource.isEmpty()) {
confSourceArray = nameSingletonArray;
} else {
confSource.add(name);
confSourceArray = confSource.toArray(new String[confSource.size()]);
}
// Read tags and put them in propertyTagsMap
if (confTag != null) {
readTagFromConfig(confTag, confName, confValue, confSourceArray);
}
DeprecatedKeyInfo keyInfo =
deprecations.getDeprecatedKeyMap().get(confName);
if (keyInfo != null) {
keyInfo.clearAccessed();
for (String key : keyInfo.newKeys) {
// update new keys with deprecated key's value
results.add(new ParsedItem(
name, key, confValue, confFinal, confSourceArray));
}
} else {
results.add(new ParsedItem(name, confName, confValue, confFinal,
confSourceArray));
}
}
void parseNext() throws IOException, XMLStreamException {
switch (reader.next()) {
case XMLStreamConstants.START_ELEMENT:
handleStartElement();
break;
case XMLStreamConstants.CHARACTERS:
case XMLStreamConstants.CDATA:
if (parseToken) {
char[] text = reader.getTextCharacters();
token.append(text, reader.getTextStart(), reader.getTextLength());
}
break;
case XMLStreamConstants.END_ELEMENT:
handleEndElement();
break;
default:
break;
}
}
}
/**
* Add tags defined in HADOOP_TAGS_SYSTEM, HADOOP_TAGS_CUSTOM.
* @param prop
*/
public void addTags(Properties prop) {
// Get all system tags
try {
if (prop.containsKey(CommonConfigurationKeys.HADOOP_TAGS_SYSTEM)) {
String systemTags = prop.getProperty(CommonConfigurationKeys
.HADOOP_TAGS_SYSTEM);
TAGS.addAll(Arrays.asList(systemTags.split(",")));
}
// Get all custom tags
if (prop.containsKey(CommonConfigurationKeys.HADOOP_TAGS_CUSTOM)) {
String customTags = prop.getProperty(CommonConfigurationKeys
.HADOOP_TAGS_CUSTOM);
TAGS.addAll(Arrays.asList(customTags.split(",")));
}
if (prop.containsKey(CommonConfigurationKeys.HADOOP_SYSTEM_TAGS)) {
String systemTags = prop.getProperty(CommonConfigurationKeys
.HADOOP_SYSTEM_TAGS);
TAGS.addAll(Arrays.asList(systemTags.split(",")));
}
// Get all custom tags
if (prop.containsKey(CommonConfigurationKeys.HADOOP_CUSTOM_TAGS)) {
String customTags = prop.getProperty(CommonConfigurationKeys
.HADOOP_CUSTOM_TAGS);
TAGS.addAll(Arrays.asList(customTags.split(",")));
}
} catch (Exception ex) {
LOG.trace("Error adding tags in configuration", ex);
}
}
/**
* Read the values passed as tags and store them in a
* map for later retrieval.
* @param attributeValue
* @param confName
* @param confValue
* @param confSource
*/
private void readTagFromConfig(String attributeValue, String confName, String
confValue, String[] confSource) {
for (String tagStr : attributeValue.split(",")) {
try {
tagStr = tagStr.trim();
// Handle property with no/null value
if (confValue == null) {
confValue = "";
}
if (propertyTagsMap.containsKey(tagStr)) {
propertyTagsMap.get(tagStr).setProperty(confName, confValue);
} else {
Properties props = new Properties();
props.setProperty(confName, confValue);
propertyTagsMap.put(tagStr, props);
}
} catch (Exception ex) {
// Log the exception at trace level.
LOG.trace("Tag '{}' for property:{} Source:{}", tagStr, confName,
confSource, ex);
}
}
}
private void overlay(Properties to, Properties from) {
synchronized (from) {
for (Entry entry : from.entrySet()) {
to.put(entry.getKey(), entry.getValue());
}
}
}
private void loadProperty(Properties properties, String name, String attr,
String value, boolean finalParameter, String[] source) {
if (value != null || allowNullValueProperties) {
if (value == null) {
value = DEFAULT_STRING_CHECK;
}
if (!finalParameters.contains(attr)) {
properties.setProperty(attr, value);
if (source != null) {
putIntoUpdatingResource(attr, source);
}
} else {
// This is a final parameter so check for overrides.
checkForOverride(this.properties, name, attr, value);
if (this.properties != properties) {
checkForOverride(properties, name, attr, value);
}
}
}
if (finalParameter && attr != null) {
finalParameters.add(attr);
}
}
/**
* Print a warning if a property with a given name already exists with a
* different value
*/
private void checkForOverride(Properties properties, String name, String attr, String value) {
String propertyValue = properties.getProperty(attr);
if (propertyValue != null && !propertyValue.equals(value)) {
LOG.warn(name + ":an attempt to override final parameter: " + attr
+ "; Ignoring.");
}
}
/**
* Write out the non-default properties in this configuration to the given
* {@link OutputStream} using UTF-8 encoding.
*
* @param out the output stream to write to.
*/
public void writeXml(OutputStream out) throws IOException {
writeXml(new OutputStreamWriter(out, "UTF-8"));
}
public void writeXml(Writer out) throws IOException {
writeXml(null, out);
}
/**
* Write out the non-default properties in this configuration to the
* given {@link Writer}.
*
*
* When property name is not empty and the property exists in the
* configuration, this method writes the property and its attributes
* to the {@link Writer}.
*
*
*
* When property name is null or empty, this method writes all the
* configuration properties and their attributes to the {@link Writer}.
*
*
*
* When property name is not empty but the property doesn't exist in
* the configuration, this method throws an {@link IllegalArgumentException}.
*
*
* @param out the writer to write to.
*/
public void writeXml(@Nullable String propertyName, Writer out)
throws IOException, IllegalArgumentException {
Document doc = asXmlDocument(propertyName);
try {
DOMSource source = new DOMSource(doc);
StreamResult result = new StreamResult(out);
TransformerFactory transFactory = TransformerFactory.newInstance();
Transformer transformer = transFactory.newTransformer();
// Important to not hold Configuration log while writing result, since
// 'out' may be an HDFS stream which needs to lock this configuration
// from another thread.
transformer.transform(source, result);
} catch (TransformerException te) {
throw new IOException(te);
}
}
/**
* Return the XML DOM corresponding to this Configuration.
*/
private synchronized Document asXmlDocument(@Nullable String propertyName)
throws IOException, IllegalArgumentException {
Document doc;
try {
doc = DocumentBuilderFactory
.newInstance()
.newDocumentBuilder()
.newDocument();
} catch (ParserConfigurationException pe) {
throw new IOException(pe);
}
Element conf = doc.createElement("configuration");
doc.appendChild(conf);
conf.appendChild(doc.createTextNode("\n"));
handleDeprecation(); //ensure properties is set and deprecation is handled
if(!Strings.isNullOrEmpty(propertyName)) {
if (!properties.containsKey(propertyName)) {
// given property not found, illegal argument
throw new IllegalArgumentException("Property " +
propertyName + " not found");
} else {
// given property is found, write single property
appendXMLProperty(doc, conf, propertyName);
conf.appendChild(doc.createTextNode("\n"));
}
} else {
// append all elements
for (Enumeration e = properties.keys(); e.hasMoreElements();) {
appendXMLProperty(doc, conf, (String)e.nextElement());
conf.appendChild(doc.createTextNode("\n"));
}
}
return doc;
}
/**
* Append a property with its attributes to a given {#link Document}
* if the property is found in configuration.
*
* @param doc
* @param conf
* @param propertyName
*/
private synchronized void appendXMLProperty(Document doc, Element conf,
String propertyName) {
// skip writing if given property name is empty or null
if (!Strings.isNullOrEmpty(propertyName)) {
String value = properties.getProperty(propertyName);
if (value != null) {
Element propNode = doc.createElement("property");
conf.appendChild(propNode);
Element nameNode = doc.createElement("name");
nameNode.appendChild(doc.createTextNode(propertyName));
propNode.appendChild(nameNode);
Element valueNode = doc.createElement("value");
valueNode.appendChild(doc.createTextNode(
properties.getProperty(propertyName)));
propNode.appendChild(valueNode);
Element finalNode = doc.createElement("final");
finalNode.appendChild(doc.createTextNode(
String.valueOf(finalParameters.contains(propertyName))));
propNode.appendChild(finalNode);
if (updatingResource != null) {
String[] sources = updatingResource.get(propertyName);
if(sources != null) {
for(String s : sources) {
Element sourceNode = doc.createElement("source");
sourceNode.appendChild(doc.createTextNode(s));
propNode.appendChild(sourceNode);
}
}
}
}
}
}
/**
* Writes properties and their attributes (final and resource)
* to the given {@link Writer}.
*
*
* When propertyName is not empty, and the property exists
* in the configuration, the format of the output would be,
*
* {
* "property": {
* "key" : "key1",
* "value" : "value1",
* "isFinal" : "key1.isFinal",
* "resource" : "key1.resource"
* }
* }
*
*
*
*
* When propertyName is null or empty, it behaves same as
* {@link #dumpConfiguration(Configuration, Writer)}, the
* output would be,
*
* { "properties" :
* [ { key : "key1",
* value : "value1",
* isFinal : "key1.isFinal",
* resource : "key1.resource" },
* { key : "key2",
* value : "value2",
* isFinal : "ke2.isFinal",
* resource : "key2.resource" }
* ]
* }
*
*
*
*
* When propertyName is not empty, and the property is not
* found in the configuration, this method will throw an
* {@link IllegalArgumentException}.
*
*
*
* @param config the configuration
* @param propertyName property name
* @param out the Writer to write to
* @throws IOException
* @throws IllegalArgumentException when property name is not
* empty and the property is not found in configuration
**/
public static void dumpConfiguration(Configuration config,
String propertyName, Writer out) throws IOException {
if(Strings.isNullOrEmpty(propertyName)) {
dumpConfiguration(config, out);
} else if (Strings.isNullOrEmpty(config.get(propertyName))) {
throw new IllegalArgumentException("Property " +
propertyName + " not found");
} else {
JsonFactory dumpFactory = new JsonFactory();
JsonGenerator dumpGenerator = dumpFactory.createGenerator(out);
dumpGenerator.writeStartObject();
dumpGenerator.writeFieldName("property");
appendJSONProperty(dumpGenerator, config, propertyName,
new ConfigRedactor(config));
dumpGenerator.writeEndObject();
dumpGenerator.flush();
}
}
/**
* Writes out all properties and their attributes (final and resource) to
* the given {@link Writer}, the format of the output would be,
*
*
* { "properties" :
* [ { key : "key1",
* value : "value1",
* isFinal : "key1.isFinal",
* resource : "key1.resource" },
* { key : "key2",
* value : "value2",
* isFinal : "ke2.isFinal",
* resource : "key2.resource" }
* ]
* }
*
*
* It does not output the properties of the configuration object which
* is loaded from an input stream.
*
*
* @param config the configuration
* @param out the Writer to write to
* @throws IOException
*/
public static void dumpConfiguration(Configuration config,
Writer out) throws IOException {
JsonFactory dumpFactory = new JsonFactory();
JsonGenerator dumpGenerator = dumpFactory.createGenerator(out);
dumpGenerator.writeStartObject();
dumpGenerator.writeFieldName("properties");
dumpGenerator.writeStartArray();
dumpGenerator.flush();
ConfigRedactor redactor = new ConfigRedactor(config);
synchronized (config) {
for (Map.Entry item: config.getProps().entrySet()) {
appendJSONProperty(dumpGenerator, config, item.getKey().toString(),
redactor);
}
}
dumpGenerator.writeEndArray();
dumpGenerator.writeEndObject();
dumpGenerator.flush();
}
/**
* Write property and its attributes as json format to given
* {@link JsonGenerator}.
*
* @param jsonGen json writer
* @param config configuration
* @param name property name
* @throws IOException
*/
private static void appendJSONProperty(JsonGenerator jsonGen,
Configuration config, String name, ConfigRedactor redactor)
throws IOException {
// skip writing if given property name is empty or null
if(!Strings.isNullOrEmpty(name) && jsonGen != null) {
jsonGen.writeStartObject();
jsonGen.writeStringField("key", name);
jsonGen.writeStringField("value",
redactor.redact(name, config.get(name)));
jsonGen.writeBooleanField("isFinal",
config.finalParameters.contains(name));
String[] resources = config.updatingResource != null ?
config.updatingResource.get(name) : null;
String resource = UNKNOWN_RESOURCE;
if (resources != null && resources.length > 0) {
resource = resources[0];
}
jsonGen.writeStringField("resource", resource);
jsonGen.writeEndObject();
}
}
/**
* Get the {@link ClassLoader} for this job.
*
* @return the correct class loader.
*/
public ClassLoader getClassLoader() {
return classLoader;
}
/**
* Set the class loader that will be used to load the various objects.
*
* @param classLoader the new class loader.
*/
public void setClassLoader(ClassLoader classLoader) {
this.classLoader = classLoader;
}
@Override
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append("Configuration: ");
if(loadDefaults) {
toString(defaultResources, sb);
if(resources.size()>0) {
sb.append(", ");
}
}
toString(resources, sb);
return sb.toString();
}
private void toString(List resources, StringBuilder sb) {
ListIterator i = resources.listIterator();
while (i.hasNext()) {
if (i.nextIndex() != 0) {
sb.append(", ");
}
sb.append(i.next());
}
}
/**
* Set the quietness-mode.
*
* In the quiet-mode, error and informational messages might not be logged.
*
* @param quietmode true to set quiet-mode on, false
* to turn it off.
*/
public synchronized void setQuietMode(boolean quietmode) {
this.quietmode = quietmode;
}
synchronized boolean getQuietMode() {
return this.quietmode;
}
/** For debugging. List non-default properties to the terminal and exit. */
public static void main(String[] args) throws Exception {
new Configuration().writeXml(System.out);
}
@Override
public void readFields(DataInput in) throws IOException {
clear();
int size = WritableUtils.readVInt(in);
for(int i=0; i < size; ++i) {
String key = org.apache.hadoop.io.Text.readString(in);
String value = org.apache.hadoop.io.Text.readString(in);
set(key, value);
String sources[] = WritableUtils.readCompressedStringArray(in);
if (sources != null) {
putIntoUpdatingResource(key, sources);
}
}
}
//@Override
@Override
public void write(DataOutput out) throws IOException {
Properties props = getProps();
WritableUtils.writeVInt(out, props.size());
for(Map.Entry item: props.entrySet()) {
org.apache.hadoop.io.Text.writeString(out, (String) item.getKey());
org.apache.hadoop.io.Text.writeString(out, (String) item.getValue());
WritableUtils.writeCompressedStringArray(out, updatingResource != null ?
updatingResource.get(item.getKey()) : null);
}
}
/**
* get keys matching the the regex
* @param regex
* @return {@literal Map} with matching keys
*/
public Map getValByRegex(String regex) {
Pattern p = Pattern.compile(regex);
Map result = new HashMap();
List resultKeys = new ArrayList<>();
Matcher m;
for(Map.Entry item: getProps().entrySet()) {
if (item.getKey() instanceof String &&
item.getValue() instanceof String) {
m = p.matcher((String)item.getKey());
if(m.find()) { // match
resultKeys.add((String) item.getKey());
}
}
}
resultKeys.forEach(item ->
result.put(item, substituteVars(getProps().getProperty(item))));
return result;
}
/**
* A unique class which is used as a sentinel value in the caching
* for getClassByName. {@link Configuration#getClassByNameOrNull(String)}
*/
private static abstract class NegativeCacheSentinel {}
public static void dumpDeprecatedKeys() {
DeprecationContext deprecations = deprecationContext.get();
for (Map.Entry entry :
deprecations.getDeprecatedKeyMap().entrySet()) {
StringBuilder newKeys = new StringBuilder();
for (String newKey : entry.getValue().newKeys) {
newKeys.append(newKey).append("\t");
}
System.out.println(entry.getKey() + "\t" + newKeys.toString());
}
}
/**
* Returns whether or not a deprecated name has been warned. If the name is not
* deprecated then always return false
*/
public static boolean hasWarnedDeprecation(String name) {
DeprecationContext deprecations = deprecationContext.get();
if(deprecations.getDeprecatedKeyMap().containsKey(name)) {
if(deprecations.getDeprecatedKeyMap().get(name).accessed.get()) {
return true;
}
}
return false;
}
/**
* Get all properties belonging to tag.
* @param tag tag
* @return Properties with matching tag
*/
public Properties getAllPropertiesByTag(final String tag) {
Properties props = new Properties();
if (propertyTagsMap.containsKey(tag)) {
props.putAll(propertyTagsMap.get(tag));
}
return props;
}
/**
* Get all properties belonging to list of input tags. Calls
* getAllPropertiesByTag internally.
* @param tagList list of input tags
* @return Properties with matching tags
*/
public Properties getAllPropertiesByTags(final List tagList) {
Properties prop = new Properties();
for (String tag : tagList) {
prop.putAll(this.getAllPropertiesByTag(tag));
}
return prop;
}
/**
* Get Property tag Enum corresponding to given source.
*
* @param tagStr String representation of Enum
* @return true if tagStr is a valid tag
*/
public boolean isPropertyTag(String tagStr) {
return this.TAGS.contains(tagStr);
}
private void putIntoUpdatingResource(String key, String[] value) {
Map localUR = updatingResource;
if (localUR == null) {
synchronized (this) {
localUR = updatingResource;
if (localUR == null) {
updatingResource = localUR = new ConcurrentHashMap<>(8);
}
}
}
localUR.put(key, value);
}
}
