[![Build Status](https://travis-ci.org/gugod/Elastijk.svg?branch=master)](https://travis-ci.org/gugod/Elastijk) [![Coverage Status](https://img.shields.io/coveralls/gugod/Elastijk/master.svg?style=flat)](https://coveralls.io/r/gugod/Elastijk?branch=master) # NAME Elastijk - A specialized Elasticsearch client. # SYNOPSIS use Elastijk; my ($status, $response) = Elastijk::request({ host => "localhost", port => "9200", method => "GET", index => "blog", type => "article", command => "_search", uri_param => { search_type => "dfs_query_then_fetch" } body => { query => { match => { "body" => "cpan" } } } }); if ($status eq "200") { for my $hit (@{ $response->{hits}{hits} }) { say $hit->{url}; } } # DESCRIPTION Elastijk is a Elasticsearch client library. It uses [Hijk](https://metacpan.org/pod/Hijk), a HTTP client that implements a tiny subset of HTTP/1.1 just enough to talk to Elasticsearch via HTTP. Elastijk provided low-level functions that are almost identical as using HTTP client, and an object-oriented sugar layer to make it a little bit easier to use. The following documentation describe the low-level function first. # FUNCTIONS ## Elastijk::request( $args :HashRef ) : ($status :Int, $response :HashRef) Making a request to the Elasticsearch server specified in `$args`. It returns 2 values. `$status` is the HTTP status code of the response, and the `$response` decoded as HashRef. Elasticsearch API always respond a single HashRef as JSON text, this might or might not be changed in the future, if it is changed then this function will be adjusted accordingly. The `$args` is a HashRef takes contains the following key-value pairs: host => Str port => Str index => Str type => Str id => Str command => Str uri_param => HashRef body => HashRef | ArrayRef | Str method => "GET" | "POST" | "HEAD" | "PUT" | "DELETE" The 4 values of `index`, `type`, `id`, `command` are used to form the URI path following Elasticsearch's routing convention: /${index}/${type}/${id}/${command} All these path parts are optional, when that is the case, Elstaijk properly remove `/` in between to form the URL that makes sense, for example: /${index}/${type}/${id} /${index}/${command} The value of `uri_param` is used to form the query\_string part in the URI, some common ones for Elasticsearch are `q`, `search_type`, and `timeout`. But the accepted list is different for different commands. The value of `method` corresponds to HTTP verbs, and is hard-coded to match Elasticsearch API. Users generally do not need to provide this value, unless you are calling `request` directly, in which case, the default value is 'GET'. For all cases, Elastijk simply bypass the value it receive to the server without doing any parameter validation. If that generates some errors, it'll be on server side. ## Elastijk::request\_raw( $args :HashRef ) : ($status :Int, $response :Str) Making a request to the Elasticsearch server specified in `$args`. The main difference between this function and `Elastijk::request` is that `$args-`{body}> s expected to be a String scalar, rather then a HashRef. And the $response is not decoded from JSON. This function can be used if users wish to use their own JSON parser to parse response, or if they wish to delay the parsing to be done latter in some bulk-processing pipeline. # OBJECT ## PROPERTIES An Elastijk object is constructed like this: my $es = Elastijk->new( host => "es1.example.com", port => "9200" ); Under the hood, it is only a blessed hash, while all key-value pairs in the hash are the properties. Users could break the packaging and modify those values, but it is fine. All key-value pairs are shallow-copied from \`new\` method. Here's a full list of key-value pairs that are consumed: host => Str "localhost" port => Str "9200" index => Str (optional) type => Str (optional) The values for `index` and `type` act like a "default" value and they are only used in methods that could use them. Which is handy to save some extra typing. Given objects constructed with different default of `index` attribute: $es0 = Elastijk->new(); $es1 = Elastijk->new( index => "foo" ); ... calling the same `search` method with the same arguments will generate different request: my @args = (uri_param => { q => "nihao" }); $es0->search( @args ); # GET /_search?q=nihao $es1->search( @args ); # GET /foo/_search?q=nihao This behavior is consistent for all methods. # METHODS All methods takes the same key-value pair HashRef as `Elastijk::request` function, and returns 2 values that are HTTP status code, and the body hashref. The boilerplate of checking the return values is something like: my ($status, $res) = $es->search(...); if (substr($status,0,1) eq '2') { # 2xx = successful ... $res->{hits} ... } The `$res` contains the parsed response and it should be always a HashRef, but it may be an ArrayRef. Elasticsearch server mostly respond with a HTTP Body that is a valid JSON document -- but some past version of Elasticsearch does not always follow that convention in some APIs. Please consult the Elasticsearch API document link for the hints of value type. Elastijk is a thin client, and that means itself only assumes Elasticsearch servers response back with a valid JSON document, and it decodes it to a perl data structure. Elastijk does as little data transformation as possible to keep it a stupid, thin client. Due to how Perl handles multiple return values, you can omit the status check and just do: my $res = $es->search(...); ... $res->{hits} ... This style is by design for the convenience of developers, who can either worry about error checking latter, or throw the program away if it's just a one-timer. Many of of methods are named after an server command. For example, the command `_search` corresponds to method `search`, the command `_bulk` corresponds to method `bulk`. The status code is used for error-checking purposes. Elasticsearch should respond with status 4XX when the relevant thing is missing, and 5XX when there are some sort of errors. To check if a request is successful, test if it is 200 or 201. Due to the fact the value of a lists is the last value of element, it is a little bit shorter if status check could be ignored: my $res = $es->search(...); for (@{ $res->{hits}{hits} }) { ... } `count` and `exists` method modified `$res` to be a scalar (instead of HashRef) to allow these intuitive use cases: if ($es->exists(...)) { ... } if ($es->count(...) > 10) { ... } ... the original response body are discarded. ## request( ... ) This is a low-level method that just bypass things, but it is useful when, say, newer Elasticsearch version introduce a new command, and there are no corresponding method in the Client yet. The only difference between using this method and calling `Elasijk::request` directly, is that the values of `host`,`port`,`index`, and <type> ind the object context are consumed. ## head(...), get(...), put(...), post(...), delete(...) Shorthands for the HTTP verbs. All these are just direct delegate to `request` method. ## search( body => {...}, uri\_param => {...} ) This method invokes [the search api](https://www.elastic.co/guide/guide/en/elasticsearch/reference/current/search-search.html). The arguments are key-value pairs from the API documents. ## count( body => {...}, uri\_param => {...} ) This method corresponds to [the search count api](https://www.elastic.co/guide/guide/en/elasticsearch/reference/current/search-count.html) ## exists( index => Str, type => Str, id => Str ) Check if the given thing exists. Which can be a document, a type, and an index. Due to the nature of their dependency, here's the combination you would need to check the existence of different things: document: index => "foo", type => "bar", id => "beer" type: index => "foo", type => "bar" index: index => "foo" See also [https://www.elastic.co/guide/guide/en/elasticsearch/reference/current/indices-exists.html](https://www.elastic.co/guide/guide/en/elasticsearch/reference/current/indices-exists.html) , [https://www.elastic.co/guide/guide/en/elasticsearch/reference/current/indices-types-exists.html#indices-types-exists](https://www.elastic.co/guide/guide/en/elasticsearch/reference/current/indices-types-exists.html#indices-types-exists) , and [https://www.elastic.co/guide/guide/en/elasticsearch/guide/current/doc-exists.html](https://www.elastic.co/guide/guide/en/elasticsearch/guide/current/doc-exists.html) ## scan\_scroll( ..., on\_response => sub {} ) A way to perform [scan and scroll](https://www.elastic.co/guide/guide/en/elasticsearch/guide/current/scan-scroll.html). The boilerplate to use it is something like: $es->scan_scroll( index => "tweet", body => { query => { match_all => {} }, size => 1000 }, on_response => sub { my ($status,$res) = @_; for my $hit (@{ $res->{hits}{hits} }) { ... } } ); The "search\_type" is forced to be "scan" in this method. The very last value to the `on_response` key is a callback subroutine that is called after each HTTP request. The arguments are HTTP status code and response body hash just like other methods. ## bulk( ..., body => ArrayRef\[ HashRef \], ... ) The `bulk` method is for doing commands via Elasticsearch bulk API [https://www.elastic.co/guide/en/elasticsearch/reference/current/docs-bulk.html](https://www.elastic.co/guide/en/elasticsearch/reference/current/docs-bulk.html). Unlike other methods, The `bulk` method requires the value to the `body` key to be an ArrayRef. The elements of such ArrayRef are HashRef that correspond to the request content described in the bulk API document. Notice that the request body of bulk API is not a valid JSON document as a whole, but just a naive concatenation of multiple JSON documents. # AUTHORS - Kang-min Liu - Borislav Nikolov # COPYRIGHT Copyright (c) 2013-2016 Kang-min Liu ``. # LICENCE The MIT License # DISCLAIMER OF WARRANTY BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION. 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