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Almost every outbound message is serialized to buffers of 16k pagesize. We were serializing these messages off the IO loop (and retaining the concrete message instance as well) and would then enqueue it on the IO loop to be dealt with as soon as the channel is ready. 1. This would cause buffers to be held onto for longer than necessary, causing less reuse on average. 2. If a channel was slow for some reason, not only would concrete message instances queue up for it, but also 16k of buffers would be reserved for each message until it would be written+flushed physically. With this change, the serialization happens on the event loop which effectively limits the number of buffers that `N` IO-threads will ever use so long as messages are small and channels writable. Also, this change dereferences the reference to the concrete outbound message as soon as it has been serialized to save some more on GC. This reduces the GC time for a default PMC run by about 50% in experiments (3 nodes, 2G heap each, loopback ... obvious caveat is that GC isn't that heavy in the first place with recent changes but still a measurable gain). I also expect it to be helpful for master node stability by causing less of a spike if master is e.g. hit by a large number of requests that are processed batched (e.g. shard snapshot status updates) and responded to in a short time frame all at once. Obviously, the downside to this change is that it introduces more latency on the IO loop for the serialization. But since we read all of these messages on the IO loop as well I don't see it as much of a qualitative change really and the more predictable buffer use seems much more valuable relatively.
= Elasticsearch
== A Distributed RESTful Search Engine
=== https://www.elastic.co/products/elasticsearch[https://www.elastic.co/products/elasticsearch]
Elasticsearch is a distributed RESTful search engine built for the cloud. Features include:
* Distributed and Highly Available Search Engine.
** Each index is fully sharded with a configurable number of shards.
** Each shard can have one or more replicas.
** Read / Search operations performed on any of the replica shards.
* Multi Tenant.
** Support for more than one index.
** Index level configuration (number of shards, index storage, ...).
* Various set of APIs
** HTTP RESTful API
** All APIs perform automatic node operation rerouting.
* Document oriented
** No need for upfront schema definition.
** Schema can be defined for customization of the indexing process.
* Reliable, Asynchronous Write Behind for long term persistency.
* (Near) Real Time Search.
* Built on top of Apache Lucene
** Each shard is a fully functional Lucene index
** All the power of Lucene easily exposed through simple configuration / plugins.
* Per operation consistency
** Single document level operations are atomic, consistent, isolated and durable.
== Getting Started
First of all, DON'T PANIC. It will take 5 minutes to get the gist of what Elasticsearch is all about.
=== Installation
* https://www.elastic.co/downloads/elasticsearch[Download] and unpack the Elasticsearch official distribution.
* Run `bin/elasticsearch` on Linux or macOS. Run `bin\elasticsearch.bat` on Windows.
* Run `curl -X GET http://localhost:9200/`.
* Start more servers ...
=== Indexing
Let's try and index some twitter like information. First, let's index some tweets (the `twitter` index will be created automatically):
----
curl -XPUT 'http://localhost:9200/twitter/_doc/1?pretty' -H 'Content-Type: application/json' -d '
{
"user": "kimchy",
"post_date": "2009-11-15T13:12:00",
"message": "Trying out Elasticsearch, so far so good?"
}'
curl -XPUT 'http://localhost:9200/twitter/_doc/2?pretty' -H 'Content-Type: application/json' -d '
{
"user": "kimchy",
"post_date": "2009-11-15T14:12:12",
"message": "Another tweet, will it be indexed?"
}'
curl -XPUT 'http://localhost:9200/twitter/_doc/3?pretty' -H 'Content-Type: application/json' -d '
{
"user": "elastic",
"post_date": "2010-01-15T01:46:38",
"message": "Building the site, should be kewl"
}'
----
Now, let's see if the information was added by GETting it:
----
curl -XGET 'http://localhost:9200/twitter/_doc/1?pretty=true'
curl -XGET 'http://localhost:9200/twitter/_doc/2?pretty=true'
curl -XGET 'http://localhost:9200/twitter/_doc/3?pretty=true'
----
=== Searching
Mmm search..., shouldn't it be elastic?
Let's find all the tweets that `kimchy` posted:
----
curl -XGET 'http://localhost:9200/twitter/_search?q=user:kimchy&pretty=true'
----
We can also use the JSON query language Elasticsearch provides instead of a query string:
----
curl -XGET 'http://localhost:9200/twitter/_search?pretty=true' -H 'Content-Type: application/json' -d '
{
"query" : {
"match" : { "user": "kimchy" }
}
}'
----
Just for kicks, let's get all the documents stored (we should see the tweet from `elastic` as well):
----
curl -XGET 'http://localhost:9200/twitter/_search?pretty=true' -H 'Content-Type: application/json' -d '
{
"query" : {
"match_all" : {}
}
}'
----
We can also do range search (the `post_date` was automatically identified as date)
----
curl -XGET 'http://localhost:9200/twitter/_search?pretty=true' -H 'Content-Type: application/json' -d '
{
"query" : {
"range" : {
"post_date" : { "from" : "2009-11-15T13:00:00", "to" : "2009-11-15T14:00:00" }
}
}
}'
----
There are many more options to perform search, after all, it's a search product no? All the familiar Lucene queries are available through the JSON query language, or through the query parser.
=== Multi Tenant - Indices
Man, that twitter index might get big (in this case, index size == valuation). Let's see if we can structure our twitter system a bit differently in order to support such large amounts of data.
Elasticsearch supports multiple indices. In the previous example we used an index called `twitter` that stored tweets for every user.
Another way to define our simple twitter system is to have a different index per user (note, though that each index has an overhead). Here is the indexing curl's in this case:
----
curl -XPUT 'http://localhost:9200/kimchy/_doc/1?pretty' -H 'Content-Type: application/json' -d '
{
"user": "kimchy",
"post_date": "2009-11-15T13:12:00",
"message": "Trying out Elasticsearch, so far so good?"
}'
curl -XPUT 'http://localhost:9200/kimchy/_doc/2?pretty' -H 'Content-Type: application/json' -d '
{
"user": "kimchy",
"post_date": "2009-11-15T14:12:12",
"message": "Another tweet, will it be indexed?"
}'
----
The above will index information into the `kimchy` index. Each user will get their own special index.
Complete control on the index level is allowed. As an example, in the above case, we might want to change from the default 1 shards with 1 replica per index, to 2 shards with 1 replica per index (because this user tweets a lot). Here is how this can be done (the configuration can be in yaml as well):
----
curl -XPUT http://localhost:9200/another_user?pretty -H 'Content-Type: application/json' -d '
{
"settings" : {
"index.number_of_shards" : 2,
"index.number_of_replicas" : 1
}
}'
----
Search (and similar operations) are multi index aware. This means that we can easily search on more than one
index (twitter user), for example:
----
curl -XGET 'http://localhost:9200/kimchy,another_user/_search?pretty=true' -H 'Content-Type: application/json' -d '
{
"query" : {
"match_all" : {}
}
}'
----
Or on all the indices:
----
curl -XGET 'http://localhost:9200/_search?pretty=true' -H 'Content-Type: application/json' -d '
{
"query" : {
"match_all" : {}
}
}'
----
And the cool part about that? You can easily search on multiple twitter users (indices), with different boost levels per user (index), making social search so much simpler (results from my friends rank higher than results from friends of my friends).
=== Distributed, Highly Available
Let's face it, things will fail....
Elasticsearch is a highly available and distributed search engine. Each index is broken down into shards, and each shard can have one or more replicas. By default, an index is created with 1 shard and 1 replica per shard (1/1). There are many topologies that can be used, including 1/10 (improve search performance), or 20/1 (improve indexing performance, with search executed in a map reduce fashion across shards).
In order to play with the distributed nature of Elasticsearch, simply bring more nodes up and shut down nodes. The system will continue to serve requests (make sure you use the correct http port) with the latest data indexed.
=== Where to go from here?
We have just covered a very small portion of what Elasticsearch is all about. For more information, please refer to the https://www.elastic.co/products/elasticsearch[elastic.co] website. General questions can be asked on the https://discuss.elastic.co[Elastic Forum] or https://ela.st/slack[on Slack]. The Elasticsearch GitHub repository is reserved for bug reports and feature requests only.
=== Building from Source
Elasticsearch uses https://gradle.org[Gradle] for its build system.
In order to create a distribution, simply run the `./gradlew assemble` command in the cloned directory.
The distribution for each project will be created under the `build/distributions` directory in that project.
See the xref:TESTING.asciidoc[TESTING] for more information about running the Elasticsearch test suite.
=== Upgrading from older Elasticsearch versions
In order to ensure a smooth upgrade process from earlier versions of Elasticsearch, please see our https://www.elastic.co/guide/en/elasticsearch/reference/current/setup-upgrade.html[upgrade documentation] for more details on the upgrade process.