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---
title: Open Source, Distributed, RESTful, Search Engine
layout: default
title_in_header: false
---
<div id="home">
<div class="img_left">
<img src="/images/set3/bonsai2.png" height="120px" alt="" />
<div class="text">
<h2>
You know, for Search
</h2>
<p>
So, we build a web site or an application and want to
add search to it, and then it hits us: <b>getting
search working is hard</b>. We want our search
solution to be <b>fast</b>, we want a <b>painless
setup</b> and a completely <b>free search schema</b>,
we want to be able to index data simply using <b>JSON
over HTTP</b>, we want our search server to be
<b>always available</b>, we want to be able to start
with one machine and <b>scale to hundreds</b>, we
want <b>real-time search</b>, we want simple
<b>multi-tenancy</b>, and we want a solution that is
<b>built for the cloud</b>.
</p>
<p class="textcenter">
<b>"This should be easier"</b>, we declared, <b>"and
cool, bonsai cool"</b>.
</p>
<p class="textcenter">
<b>elasticsearch</b> aims to solve all these problems
and more. It is an Open Source (Apache 2),
Distributed, RESTful, Search Engine built on top of
<a href="http://lucene.apache.org">Apache Lucene</a>.
</p>
</div>
</div>
<div id="who_using">
<p><a href="/users"><div style="float: left; padding-top: 10px; padding-right: 10px;">WHO'S USING:</div></a><a href="/users"><img src="/users/images/mozilla.png" height="40px" alt="Mozilla" /><img src="/users/images/StumbleUpon.png" height="40px" alt="StumbleUpon"/><img src="/users/images/sony.png" height="40px" alt="Sony Enterteinment"/><img src="/users/images/assistly.png" height="40px" alt="Assistly"/><img src="/users/images/bazaarvoice.jpeg" height="40px" alt="Bazaarvoice"/><img src="/users/images/klout.png" height="24px" alt="Klout" border="0"/></a></p>
</div>
<div class="img_right">
<img height="120px" src="/images/set4/textedit128.png" alt="" />
<div class="text">
<h2>
Schema Free & Document Oriented
</h2>
<p>
Search Engines data model roots lies with schema free
and document oriented databases, and as shown by the
<strong>#nosql</strong> movement, this model proves
to be very effective for building applications.
</p>
<p>
elasticsearch model is <a href=
"http://json.org">JSON</a>, which slowly emerges as
the de-facto standard for representing data these
days. More over, with JSON, it is simple to provide
semi-structured data with complex entities as well as
being programming language natural with first level
parsers.
</p>
<pre class="prettyprint lang-bsh">
$ curl -XPUT http://localhost:9200/twitter/user/kimchy -d '{
"name" : "Shay Banon"
}'
$ curl -XPUT http://localhost:9200/twitter/tweet/1 -d '{
"user": "kimchy",
"post_date": "2009-11-15T13:12:00",
"message": "Trying out elasticsearch, so far so good?"
}'
$ curl -XPUT http://localhost:9200/twitter/tweet/2 -d '{
"user": "kimchy",
"post_date": "2009-11-15T14:12:12",
"message": "You know, for Search"
}'
</pre>
</div>
</div>
<div class="img_left">
<img src="/images/set3/map.png" height="140px" alt="" />
<div class="text">
<h2>
Schema Mapping
</h2>
<p>
elasticsearch is schema less, just toss it a typed
JSON document and it will automatically index it.
Types such as numbers and dates are automatically
detected and treated accordingly.
</p>
<p>
But, as we all know, Search Engines are quite
sophisticated. Fields in documents can have boost
levels that affect scoring, analyzers can be used to
control how text gets tokenized into terms, certain
fields should not be analyzed at all, and so on... .
elasticsearch allows you to completely control how a JSON
document gets mapped into the search engine on a per
type and per index level.
</p>
<pre class="prettyprint lang-bsh">
$ curl -XPUT http://localhost:9200/twitter
$ curl -XPUT http://localhost:9200/twitter/user/_mapping -d '{
"properties" : {
"name" : { "type" : "string" }
}
}'
</pre>
</div>
</div>
<div class="img_right">
<img src="/images/set4/keychain128.png" height="120px" alt=
"" />
<div class="text">
<h2>
GETting Some Data
</h2>
<p>
Indexing data is always done using a unique
identifier (at the type level). This is very handy
since many times we wish to update or delete the
actual indexed data, or just GET it. Getting data
could not be simpler and all that is needed is the index
name, the type and the id. What we get back is the
<b>actual JSON document</b> used to index the
specific data, but please, keep it secret and don't
tell any other distributed Key/Value storage
systems...
</p>
<pre class="prettyprint lang-bsh">
$ curl -XPUT http://localhost:9200/twitter/tweet/2 -d '{
"user": "kimchy",
"post_date": "2009-11-15T14:12:12",
"message": "You know, for Search"
}'
$ curl -XGET http://localhost:9200/twitter/tweet/2
</pre>
</div>
</div>
<div class="img_left">
<img src="/images/set3/search128.png" height="120px" alt="" />
<div class="text">
<h2>
Search
</h2>
<p>
It's what it all boils down to at the end, being
able to search. And search could never be
simpler. Issuing queries is a simple call hiding
away the sophisticated distributed based search
support elasticsearch provides. Search can be
executed either using a simple, <a href=
"http://lucene.apache.org/java/3_0_0/queryparsersyntax.html">
Lucene</a> based query string or using an
extensive <b>JSON based search query DSL</b>.
</p>
<p>
Search though does not end with just queries,
<b>facets</b>, <b>highlighting</b>, <b>custom
scripts</b>, and more are all there to be used
when needed.
</p>
<pre class="prettyprint lang-bsh">
$ curl -XPUT http://localhost:9200/twitter/tweet/2 -d '{
"user": "kimchy",
"post_date": "2009-11-15T14:12:12",
"message": "You know, for Search"
}'
$ curl -XGET http://localhost:9200/twitter/tweet/_search?q=user:kimchy
$ curl -XGET http://localhost:9200/twitter/tweet/_search -d '{
"query" : {
"term" : { "user": "kimchy" }
}
}'
$ curl -XGET http://localhost:9200/twitter/_search?pretty=true -d '{
"query" : {
"range" : {
"post_date" : {
"from" : "2009-11-15T13:00:00",
"to" : "2009-11-15T14:30:00"
}
}
}
}'
</pre>
</div>
</div>
<div class="img_right">
<img src="/images/set3/crystal128.png" height="120px"
alt="" />
<div class="text">
<h2>
Multi Tenancy
</h2>
<p>
A single index is already a major step forward,
but what happens when we need to have more than
one index. There are many cases for using
multiple indices, an example can be storing an
index per week of log files indexing, or even
having different indices with different settings
(one with memory storage, and one with file
system storage).
</p>
<p>
When we do that though, we would like to be able
to <b>search across multiple indices</b> (among
other operations).
</p>
<pre class="prettyprint lang-bsh">
$ curl -XPUT http://localhost:9200/kimchy
$ curl -XPUT http://localhost:9200/elasticsearch
$ curl -XPUT http://localhost:9200/elasticsearch/tweet/1 -d '{
"post_date": "2009-11-15T14:12:12",
"message": "Zug Zug",
"tag": "warcraft"
}'
$ curl -XPUT http://localhost:9200/kimchy/tweet/1 -d '{
"post_date": "2009-11-15T14:12:12",
"message": "Whatyouwant?",
"tag": "warcraft"
}'
$ curl -XGET http://localhost:9200/kimchy,elasticsearch/tweet/_search?q=tag:warcraft
$ curl -XGET http://localhost:9200/_all/tweet/_search?q=tag:warcraft
</pre>
</div>
</div>
<div class="img_left">
<img src="/images/set4/settings128.png" height=
"120px" alt="" />
<div class="text">
<h2>
Settings
</h2>
<p>
The ability to configure is a double edged
sword. We want the ability to start working
with the system as fast as possible, with no
configuration, and still be able to control
almost every aspect of the application if
need be.
</p>
<p>
<strong>elasticsearch</strong> is built with
this notion in mind. Almost everything is
configurable and pluggable. More over,
<b>each index can have its own settings</b>
which can override the master settings. For
example, one index can be configured with
memory storage and have 10 shards with 1
replica each, and another index can have file
based storage with 1 shard and 10 replicas.
All the index level settings can be
controlled when creating an index either
using a YAML or JSON format.
</p>
<pre class="prettyprint lang-bsh">
$ curl -XPUT http://localhost:9200/elasticsearch/ -d '{
"settings" : {
"number_of_shards" : 2,
"number_of_replicas" : 3
}
}'
</pre>
</div>
</div>
<div class="img_right">
<img src="/images/set4/intranet128.png" height=
"120px" alt="" />
<div class="text">
<h2>
Distributed
</h2>
<p>
One of the main features of Elastic Search is
its distributed nature. Indices are broken
down into shards, each shard with 0 or more
replicas. Each data node within the cluster
hosts one or more shards, and acts as a
coordinator to delegate operations to the
correct shard(s). Rebalancing and routing are
done <b>automatically and behind the
scenes</b>.
</p><iframe title="YouTube video player" width=
"609" height="372" src=
"http://www.youtube.com/embed/l4ReamjCxHo?rel=0&hd=1&autohide=1"
frameborder="0" allowfullscreen=""></iframe>
</div>
</div>
<div class="img_left">
<img src="/images/set4/timemachine128.png" height="120px" alt="" />
<div class="text">
<h2>
Gateway
</h2>
<p>
Sometimes the whole cluster crashes or needs
to be taken down. Many times, in such a case,
we want to restore to the latest state of the
cluster when it comes back up again.
elasticsearch provides the gateway module
allowing you to do just that, think <b>Time
Machine for search</b>.
</p>
<p>
The state of the cluster (including the
transaction log) can either be recreated from
each node local storage (the default), or
from a shared storage (like NFS or Amazon
S3). When using shared storage, the state
is <b>asynchronously</b> replicated to it.
</p>
<p>
Moreover, when using shared storage for long term
persistency, the index can be kept completely
in memory while still being able to perform
full recovery in the event of cluster
shutdown.
</p>
</div>
</div>
<div style="font-size: 12px;">Apache Lucene and the logo is a trademark of The Apache Software Foundation. All other marks mentioned may be trademarks or registered trademarks of their respective owners.</div>
</div>