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Tutorial: A First Look at Druid

Greetings! This tutorial will help clarify some core Druid concepts. We will use a real-time dataset and issue some basic Druid queries. If you are ready to explore Druid, and learn a thing or two, read on!

About the data

The data source we'll be working with is Wikipedia edits. Each time an edit is made in Wikipedia, an event gets pushed to an IRC channel associated with the language of the Wikipedia page. We scrape IRC channels for several different languages and load this data into Druid.

Each event has a timestamp indicating the time of the edit (in UTC time), a list of dimensions indicating various metadata about the event (such as information about the user editing the page and where the user is a bot), and a list of metrics associated with the event (such as the number of characters added and deleted).

Specifically. the data schema looks like so:

Dimensions (things to filter on):

"page"
"language"
"user"
"unpatrolled"
"newPage"
"robot"
"anonymous"
"namespace"
"continent"
"country"
"region"
"city"

Metrics (things to aggregate over):

"count"
"added"
"delta"
"deleted"

Setting Up

To start, we need to get our hands on a Druid build. There are two ways to get Druid: download a tarball, or Build From Source. You only need to do one of these.

Download a Tarball

We've built a tarball that contains everything you'll need. You'll find it here. Download this file to a directory of your choosing.

Build From Source

Follow the Build From Source guide to build from source. Then grab the tarball from services/target/druid-0.7.1-bin.tar.gz.

Unpack the Tarball

You can extract the content within by issuing:

tar -zxvf druid-0.7.1-bin.tar.gz

If you cd into the directory:

cd druid-0.7.1

You should see a bunch of files:

  • run_example_server.sh
  • run_example_client.sh
  • LICENSE, config, examples, lib directories

External Dependencies

Druid requires 3 external dependencies. A "deep storage" that acts as a backup data repository, a "metadata storage" such as MySQL to hold configuration and metadata information, and Apache Zookeeper for coordination among different pieces of the cluster. For this tutorial, we only need the zookeeper dependency.

Set up Zookeeper

Download zookeeper from [http://www.apache.org/dyn/closer.cgi/zookeeper/](http://www.apache.org/dyn/closer.cgi/zookeeper/)
Install zookeeper.

e.g.
curl http://www.gtlib.gatech.edu/pub/apache/zookeeper/zookeeper-3.4.6/zookeeper-3.4.6.tar.gz -o zookeeper-3.4.6.tar.gz
tar xzf zookeeper-3.4.6.tar.gz
cd zookeeper-3.4.6
cp conf/zoo_sample.cfg conf/zoo.cfg
./bin/zkServer.sh start
cd ..

Running Example Scripts

Let's start doing stuff. You can start an example Druid Realtime node by issuing:

./run_example_server.sh

Select "2" for the "wikipedia" example.

Note that the first time you start the example, it may take some extra time due to its fetching various dependencies. Once the node starts up you will see a bunch of logs about setting up properties and connecting to the data source. If everything was successful, you should see messages of the form shown below.

2015-02-17T21:46:36,804 INFO [main] org.eclipse.jetty.server.ServerConnector - Started ServerConnector@79b6cf95{HTTP/1.1}{0.0.0.0:8084}
2015-02-17T21:46:36,804 INFO [main] org.eclipse.jetty.server.Server - Started @9580ms
2015-02-17T21:46:36,862 INFO [ApiDaemon] io.druid.segment.realtime.firehose.IrcFirehoseFactory - irc connection to server [irc.wikimedia.org] established
2015-02-17T21:46:36,862 INFO [ApiDaemon] io.druid.segment.realtime.firehose.IrcFirehoseFactory - Joining channel #en.wikipedia
2015-02-17T21:46:36,863 INFO [ApiDaemon] io.druid.segment.realtime.firehose.IrcFirehoseFactory - Joining channel #fr.wikipedia
2015-02-17T21:46:36,863 INFO [ApiDaemon] io.druid.segment.realtime.firehose.IrcFirehoseFactory - Joining channel #de.wikipedia
2015-02-17T21:46:36,863 INFO [ApiDaemon] io.druid.segment.realtime.firehose.IrcFirehoseFactory - Joining channel #ja.wikipedia
2015-02-17T21:46:37,009 INFO [ServerInventoryView-0] io.druid.client.BatchServerInventoryView - Inventory Initialized

The Druid real time-node ingests events in an in-memory buffer. Periodically, these events will be persisted to disk. If you are interested in the details of our real-time architecture and why we persist indexes to disk, we suggest you read our White Paper.

To query the real-time node you've spun up, you can issue:

./run_example_client.sh

Select "wikipedia" once again. This script issues TimeBoundary to the data we've been ingesting. The query looks like this:

{
   "queryType":"timeBoundary",
   "dataSource":"wikipedia"
}

The timeBoundary query is one of the simplest queries you can make in Druid. It gives you the boundaries of the ingested data.

The result looks something like this (when it's prettified):

[ {
  "timestamp" : "2013-09-04T21:44:00.000Z",
  "result" : {
    "minTime" : "2013-09-04T21:44:00.000Z",
    "maxTime" : "2013-09-04T21:47:00.000Z"
  }
} ]

If you are having problems with getting results back, make sure you have curl installed. Control+C to break out of the client script.

Querying Druid

In your favorite editor, create the file:

timeseries.json

We are going to make a slightly more complicated query, the TimeseriesQuery. Copy and paste the following into the file:

{
    "queryType": "timeseries", 
    "dataSource": "wikipedia", 
    "intervals": [ "2010-01-01/2020-01-01" ], 
    "granularity": "all", 
    "aggregations": [
        {"type": "longSum", "fieldName": "count", "name": "edit_count"}, 
        {"type": "doubleSum", "fieldName": "added", "name": "chars_added"}
    ]
}

Our query has now expanded to include a time interval, Granularities, and Aggregations. What the query is doing is aggregating a set of metrics over a span of time, and the results are grouped into a single time bucket. To issue the query and get some results, run the following in your command line:

curl -X POST 'http://localhost:8084/druid/v2/?pretty' -H 'content-type: application/json'  -d  @timeseries.json

Once again, you should get a JSON blob of text back with your results, that looks something like this:

[ {
 "timestamp" : "2013-09-04T21:44:00.000Z",
 "result" : { "chars_added" : 312670.0, "edit_count" : 733 }
} ]

If you issue the query again, you should notice your results updating.

Right now all the results you are getting back are being aggregated into a single timestamp bucket. What if we wanted to see our aggregations on a per minute basis?

We can change granularity for the results to "minute". To specify different granularities to bucket our results, we change our query like so:

{
  "queryType": "timeseries", 
  "dataSource": "wikipedia", 
  "intervals": [ "2010-01-01/2020-01-01" ], 
  "granularity": "minute", 
  "aggregations": [
     {"type": "longSum", "fieldName": "count", "name": "edit_count"}, 
     {"type": "doubleSum", "fieldName": "added", "name": "chars_added"}
  ]
}

This gives us results like the following:

[
 {
   "timestamp" : "2013-09-04T21:44:00.000Z",
   "result" : { "chars_added" : 30665.0, "edit_count" : 128 }
 }, 
 {
   "timestamp" : "2013-09-04T21:45:00.000Z",
   "result" : { "chars_added" : 122637.0, "edit_count" : 167 }
 }, 
 {
   "timestamp" : "2013-09-04T21:46:00.000Z",
   "result" : { "chars_added" : 78938.0, "edit_count" : 159 }
 },
...
]

Solving a Problem

One of Druid's main powers is to provide answers to problems, so let's pose a problem. What if we wanted to know what the top pages in the US are, ordered by the number of edits over the last few minutes you've been going through this tutorial? To solve this problem, we can use the TopN.

Let's create the file:

topn.json

and put the following in there:

{
  "queryType": "topN",
  "dataSource": "wikipedia", 
  "granularity": "all", 
  "dimension": "page",
  "metric": "edit_count",
  "threshold" : 10,
  "aggregations": [
    {"type": "longSum", "fieldName": "count", "name": "edit_count"}
  ], 
  "filter": { "type": "selector", "dimension": "country", "value": "United States" }, 
  "intervals": ["2012-10-01T00:00/2020-01-01T00"]
}

Note that our query now includes Filters. Filters are like WHERE clauses in SQL and help narrow down the data that needs to be scanned.

If you issue the query:

curl -X POST 'http://localhost:8084/druid/v2/?pretty' -H 'content-type: application/json'  -d @topn.json

You should see an answer to our question. As an example, some results are shown below:

[
 {
   "timestamp" : "2013-09-04T21:00:00.000Z",
   "result" : [
    { "page" : "RTC_Transit", "edit_count" : 6 },
    { "page" : "List_of_Deadly_Women_episodes", "edit_count" : 4 },
    { "page" : "User_talk:David_Biddulph", "edit_count" : 4 },
    ...
   ]
 }
]

Feel free to tweak other query parameters to answer other questions you may have about the data. Druid also includes more complex query types such as groupBy queries. For more information on querying, see this link.

Next Steps

This tutorial only covered the basic operations of a single Druid node. For production, you'll likely need a full Druid cluster. Check out our next tutorial The Druid Cluster to learn more.

To learn more about loading streaming data, see Loading Streaming Data.

To learn more about loading batch data, see Loading Batch Data.

Additional Information

This tutorial is merely showcasing a small fraction of what Druid can do. If you are interested in more information about Druid, including setting up a more sophisticated Druid cluster, read more of the Druid documentation and blogs found on druid.io.

Hopefully you learned a thing or two about Druid real-time ingestion, querying Druid, and how Druid can be used to solve problems. If you have additional questions, feel free to post in our google groups page.