/**
* 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.flume.conf.properties;
import java.io.BufferedReader;
import java.io.File;
import java.io.FileReader;
import java.io.IOException;
import java.util.Map.Entry;
import java.util.Properties;
import java.util.StringTokenizer;
import org.apache.flume.Channel;
import org.apache.flume.Context;
import org.apache.flume.Sink;
import org.apache.flume.SinkRunner;
import org.apache.flume.Source;
import org.apache.flume.SourceRunner;
import org.apache.flume.channel.FanoutChannel;
import org.apache.flume.conf.Configurables;
import org.apache.flume.conf.file.AbstractFileConfigurationProvider;
import org.apache.flume.conf.file.SimpleNodeConfiguration;
import org.apache.flume.conf.properties.FlumeConfiguration.AgentConfiguration;
import org.apache.flume.conf.properties.FlumeConfiguration.ComponentConfiguration;
import org.apache.flume.node.NodeConfiguration;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* <p>
* 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
* <em>Agent Name</em> which helps isolate an individual agent's namespace.
* </p>
* <p>
* Valid configuration files must observe the following rules for every agent
* namespace.
* <ul>
* <li>For every <agent name> there must be three lists specified that
* include <tt><agent name>.sources</tt>,
* <tt><agent name>.sinks</tt>, and <tt><agent name>.channels</tt>.
* Each of these lists must contain a space separated list of names
* corresponding to that particular entity.</li>
* <li>For each source named in <tt><agent name>.sources</tt>, there must
* be a non-empty <tt>type</tt> attribute specified from the valid set of source
* types. For example:
* <tt><agent name>.sources.<source name>.type = event</tt></li>
* <li>For each source named in <tt><agent name>.sources</tt>, 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 <tt><agent name>.channels</tt>. For example:
* <tt><agent name>.sources.<source name>.channels =
* <channel-1 name> <channel-2 name></tt></li>
* <li>For each source named in the <tt><agent name>.sources</tt>, there
* must be a <tt>runner</tt> namespace of configuration that configures the
* associated source runner. For example:
* <tt><agent name>.sources.<source name>.runner.type = avro</tt>.
* This namespace can also be used to configure other configuration of the
* source runner as needed. For example:
* <tt><agent name>.sources.<source name>.runner.port = 10101</tt></li>
* <li>For each channel named in the <tt><agent name>.channels</tt>, there
* must be a non-empty <tt>type</tt> attribute specified from the valid set of
* channel types. For example:
* <tt><agent name>.channels.<channel name>.type = mem</tt></li>
* <li>For each sink named in the <tt><agent name>.sinks</tt>, there must
* be a non-empty <tt>type</tt> attribute specified from the valid set of sink
* types. For example:
* <tt><agent name>.sinks.<sink name>.type = hdfs</tt></li>
* <li>For each sink named in the <tt><agent name>.sinks</tt>, there must
* be a non-empty single-valued channel name specified as the value of the
* <tt>channel</tt> attribute. This value must be contained in the channels list
* specified by <tt><agent name>.channels</tt>. For example:
* <tt><agent name>.sinks.<sink name>.channel =
* <channel name></tt></li>
* <li>For each sink named in the <tt><agent name>.sinks</tt>, there must
* be a <tt>runner</tt> namespace of configuration that configures the
* associated sink runner. For example:
* <tt><agent name>.sinks.<sink name>.runner.type = polling</tt>.
* This namespace can also be used to configure other configuration of the sink
* runner as needed. For example:
* <tt><agent name>.sinks.<sink name>.runner.polling.interval =
* 60</tt></li>
* </ul>
*
* 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 <tt>capacity</tt> for a channel called <tt>ch1</tt> for the
* agent named <tt>host1</tt> with value <tt>1000</tt> will be expressed as:
* <tt>host1.channels.ch1.capacity = 1000</tt>.
* </p>
* <p>
* 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 <tt>type</tt> attribute,
* it is considered misconfigured. Also, any sources or sinks that depend upon
* this channel are also considered misconfigured and not initialized.
* </p>
* <p>
* Example configuration file:
*
* <pre>
* #
* # 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
*
* # 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.namenode = hdfs://localhost/
* host1.sinks.hdfsSink.batchsize = 1000
* host1.sinks.hdfsSink.runner.type = polling
* host1.sinks.hdfsSink.runner.polling.interval = 60
* </pre>
*
* </p>
*
* @see java.util.Properties#load(java.io.Reader)
*/
public class PropertiesFileConfigurationProvider extends
AbstractFileConfigurationProvider {
private static final Logger LOGGER = LoggerFactory
.getLogger(PropertiesFileConfigurationProvider.class);
@Override
protected void load() {
File propertiesFile = getFile();
BufferedReader reader = null;
try {
reader = new BufferedReader(new FileReader(propertiesFile));
Properties properties = new Properties();
properties.load(reader);
NodeConfiguration conf = new SimpleNodeConfiguration();
FlumeConfiguration fconfig = new FlumeConfiguration(properties);
AgentConfiguration agentConf = fconfig.getConfigurationFor(getNodeName());
if (agentConf != null) {
loadChannels(agentConf, conf);
loadSources(agentConf, conf);
loadSinks(agentConf, conf);
getConfigurationAware().onNodeConfigurationChanged(conf);
} else {
LOGGER.warn("No configuration found for this host:{}", getNodeName());
}
} catch (IOException ex) {
LOGGER.error("Unable to load file:" + propertiesFile
+ " (I/O failure) - Exception follows.", ex);
} catch (InstantiationException ex) {
LOGGER.error("Unable to load file:" + propertiesFile
+ " (failed to instantiate component) - Exception follows.", ex);
} finally {
if (reader != null) {
try {
reader.close();
} catch (IOException ex) {
LOGGER.warn(
"Unable to close file reader for file: " + propertiesFile, ex);
}
}
}
}
private void loadChannels(AgentConfiguration agentConf, NodeConfiguration conf)
throws InstantiationException {
for (ComponentConfiguration comp : agentConf.getChannels()) {
Context context = new Context();
Channel channel = getChannelFactory().create(
comp.getConfiguration().get("type"));
for (Entry<String, String> entry : comp.getConfiguration().entrySet()) {
context.put(entry.getKey(), entry.getValue());
}
Configurables.configure(channel, context);
conf.getChannels().put(comp.getComponentName(), channel);
}
}
private void loadSources(AgentConfiguration agentConf, NodeConfiguration conf)
throws InstantiationException {
for (ComponentConfiguration comp : agentConf.getSources()) {
Context context = new Context();
Source source = getSourceFactory().create(
comp.getConfiguration().get("type"));
for (Entry<String, String> entry : comp.getConfiguration().entrySet()) {
context.put(entry.getKey(), entry.getValue());
}
Configurables.configure(source, context);
if (comp.getConfiguration().get("channels").contains(",")) {
// then create a fanout if there are channel for this source
source.setChannel(getChannelFactory().createFanout(
comp.getConfiguration().get("channels"),conf.getChannels()));
} else {
source.setChannel(conf.getChannels().get(
comp.getConfiguration().get("channels")));
}
conf.getSourceRunners().put(comp.getComponentName(),
SourceRunner.forSource(source));
}
}
private void loadSinks(AgentConfiguration agentConf, NodeConfiguration conf)
throws InstantiationException {
for (ComponentConfiguration comp : agentConf.getSinks()) {
Context context = new Context();
String type = comp.getConfiguration().get("type");
Sink sink = getSinkFactory().create(type);
if(sink == null) {
throw new InstantiationException("Can't instantiate sink with type " + type + " (it's probably " +
"unknown type)");
}
for (Entry<String, String> entry : comp.getConfiguration().entrySet()) {
context.put(entry.getKey(), entry.getValue());
}
Configurables.configure(sink, context);
sink.setChannel(conf.getChannels().get(
comp.getConfiguration().get("channel")));
conf.getSinkRunners().put(comp.getComponentName(),
SinkRunner.forSink(sink));
}
}
}