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/**
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, 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.pulsar.io.flume.node;

import java.io.BufferedReader;
import java.io.File;
import java.io.FileReader;
import java.io.IOException;
import java.lang.reflect.InvocationTargetException;
import java.util.HashMap;
import java.util.Properties;
import org.apache.flume.conf.FlumeConfiguration;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * 

* A configuration provider that uses properties file for specifying * configuration. The configuration files follow the Java properties file syntax * rules specified at {@link java.util.Properties#load(java.io.Reader)}. Every * configuration value specified in the properties file is prefixed by an * Agent Name which helps isolate an individual agent's namespace. *

*

* Valid configuration files must observe the following rules for every agent * namespace. *

    *
  • For every <agent name> there must be three lists specified that * include <agent name>.sources, * <agent name>.sinks, and <agent name>.channels. * Each of these lists must contain a space separated list of names * corresponding to that particular entity.
  • *
  • For each source named in <agent name>.sources, there must * be a non-empty type attribute specified from the valid set of source * types. For example: * <agent name>.sources.<source name>.type = event
  • *
  • For each source named in <agent name>.sources, there must * be a space-separated list of channel names that the source will associate * with during runtime. Each of these names must be contained in the channels * list specified by <agent name>.channels. For example: * <agent name>.sources.<source name>.channels = * <channel-1 name> <channel-2 name>
  • *
  • For each source named in the <agent name>.sources, there * must be a runner namespace of configuration that configures the * associated source runner. For example: * <agent name>.sources.<source name>.runner.type = avro. * This namespace can also be used to configure other configuration of the * source runner as needed. For example: * <agent name>.sources.<source name>.runner.port = 10101 *
  • *
  • For each source named in <sources>.sources there can * be an optional selector.type specified that identifies the type * of channel selector associated with the source. If not specified, the * default replicating channel selector is used. *
  • For each channel named in the <agent name>.channels, * there must be a non-empty type attribute specified from the valid * set of channel types. For example: * <agent name>.channels.<channel name>.type = mem
  • *
  • For each sink named in the <agent name>.sinks, there must * be a non-empty type attribute specified from the valid set of sink * types. For example: * <agent name>.sinks.<sink name>.type = hdfs
  • *
  • For each sink named in the <agent name>.sinks, there must * be a non-empty single-valued channel name specified as the value of the * channel attribute. This value must be contained in the channels list * specified by <agent name>.channels. For example: * <agent name>.sinks.<sink name>.channel = * <channel name>
  • *
  • For each sink named in the <agent name>.sinks, there must * be a runner namespace of configuration that configures the * associated sink runner. For example: * <agent name>.sinks.<sink name>.runner.type = polling. * This namespace can also be used to configure other configuration of the sink * runner as needed. For example: * <agent name>.sinks.<sink name>.runner.polling.interval = * 60
  • *
  • A fourth optional list <agent name>.sinkgroups * may be added to each agent, consisting of unique space separated names * for groups
  • *
  • Each sinkgroup must specify sinks, containing a list of all sinks * belonging to it. These cannot be shared by multiple groups. * Further, one can set a processor and behavioral parameters to determine * how sink selection is made via <agent name>.sinkgroups.< * group name<.processor. For further detail refer to individual processor * documentation
  • *
  • Sinks not assigned to a group will be assigned to default single sink * groups.
  • *
* * Apart from the above required configuration values, each source, sink or * channel can have its own set of arbitrary configuration as required by the * implementation. Each of these configuration values are expressed by fully * namespace qualified configuration keys. For example, the configuration * property called capacity for a channel called ch1 for the * agent named host1 with value 1000 will be expressed as: * host1.channels.ch1.capacity = 1000. *

*

* Any information contained in the configuration file other than what pertains * to the configured agents, sources, sinks and channels via the explicitly * enumerated list of sources, sinks and channels per agent name are ignored by * this provider. Moreover, if any of the required configuration values are not * present in the configuration file for the configured entities, that entity * and anything that depends upon it is considered invalid and consequently not * configured. For example, if a channel is missing its type attribute, * it is considered misconfigured. Also, any sources or sinks that depend upon * this channel are also considered misconfigured and not initialized. *

*

* Example configuration file: * *

 * #
 * # Flume Configuration
 * # This file contains configuration for one Agent identified as host1.
 * #
 *
 * host1.sources = avroSource thriftSource
 * host1.channels = jdbcChannel
 * host1.sinks = hdfsSink
 *
 * # avroSource configuration
 * host1.sources.avroSource.type = org.apache.flume.source.AvroSource
 * host1.sources.avroSource.runner.type = avro
 * host1.sources.avroSource.runner.port = 11001
 * host1.sources.avroSource.channels = jdbcChannel
 * host1.sources.avroSource.selector.type = replicating
 *
 * # thriftSource configuration
 * host1.sources.thriftSource.type = org.apache.flume.source.ThriftSource
 * host1.sources.thriftSource.runner.type = thrift
 * host1.sources.thriftSource.runner.port = 12001
 * host1.sources.thriftSource.channels = jdbcChannel
 *
 * # jdbcChannel configuration
 * host1.channels.jdbcChannel.type = jdbc
 * host1.channels.jdbcChannel.jdbc.driver = com.mysql.jdbc.Driver
 * host1.channels.jdbcChannel.jdbc.connect.url = http://localhost/flumedb
 * host1.channels.jdbcChannel.jdbc.username = flume
 * host1.channels.jdbcChannel.jdbc.password = flume
 *
 * # hdfsSink configuration
 * host1.sinks.hdfsSink.type = hdfs
 * host1.sinks.hdfsSink.hdfs.path = hdfs://localhost/
 * host1.sinks.hdfsSink.batchsize = 1000
 * host1.sinks.hdfsSink.runner.type = polling
 * host1.sinks.hdfsSink.runner.polling.interval = 60
 * 
* *

* * @see java.util.Properties#load(java.io.Reader) */ public class PropertiesFileConfigurationProvider extends AbstractConfigurationProvider { private static final Logger LOGGER = LoggerFactory .getLogger(PropertiesFileConfigurationProvider.class); private static final String DEFAULT_PROPERTIES_IMPLEMENTATION = "java.util.Properties"; private final File file; public PropertiesFileConfigurationProvider(String agentName, File file) { super(agentName); this.file = file; } @Override public FlumeConfiguration getFlumeConfiguration() { BufferedReader reader = null; try { reader = new BufferedReader(new FileReader(file)); String resolverClassName = System.getProperty("propertiesImplementation", DEFAULT_PROPERTIES_IMPLEMENTATION); Class propsclass = Class.forName(resolverClassName) .asSubclass(Properties.class); Properties properties = propsclass.getDeclaredConstructor().newInstance(); properties.load(reader); return new FlumeConfiguration(toMap(properties)); } catch (IOException ex) { LOGGER.error("Unable to load file:" + file + " (I/O failure) - Exception follows.", ex); } catch (ClassNotFoundException | NoClassDefFoundError e) { LOGGER.error("Configuration resolver class not found", e); } catch (InstantiationException e) { LOGGER.error("Instantiation exception", e); } catch (IllegalAccessException e) { LOGGER.error("Illegal access exception", e); } catch (InvocationTargetException e) { LOGGER.error("Invocation target exception", e); } catch (NoSuchMethodException e) { LOGGER.error("No such method exception", e); } finally { if (reader != null) { try { reader.close(); } catch (IOException ex) { LOGGER.warn( "Unable to close file reader for file: " + file, ex); } } } return new FlumeConfiguration(new HashMap()); } }




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