Attachment processor
editAttachment processor
editThe attachment processor lets Elasticsearch extract file attachments in common formats (such as PPT, XLS, and PDF) by using the Apache text extraction library Tika.
The source field must be a base64 encoded binary. If you do not want to incur the overhead of converting back and forth between base64, you can use the CBOR format instead of JSON and specify the field as a bytes array instead of a string representation. The processor will skip the base64 decoding then.
Using the attachment processor in a pipeline
editTable 4. Attachment options
Name | Required | Default | Description |
---|---|---|---|
|
yes |
- |
The field to get the base64 encoded field from |
|
no |
attachment |
The field that will hold the attachment information |
|
no |
100000 |
The number of chars being used for extraction to prevent huge fields. Use |
|
no |
|
Field name from which you can overwrite the number of chars being used for extraction. See |
|
no |
all properties |
Array of properties to select to be stored. Can be |
|
no |
|
If |
|
no |
|
If |
|
no |
Field containing the name of the resource to decode. If specified, the processor passes this resource name to the underlying Tika library to enable Resource Name Based Detection. |
Example
editIf attaching files to JSON documents, you must first encode the file as a base64
string. On Unix-like systems, you can do this using a base64
command:
base64 -in myfile.rtf
The command returns the base64-encoded string for the file. The following base64
string is for an .rtf
file containing the text Lorem ipsum dolor sit amet
:
e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=
.
Use an attachment processor to decode the string and extract the file’s properties:
PUT _ingest/pipeline/attachment { "description" : "Extract attachment information", "processors" : [ { "attachment" : { "field" : "data", "remove_binary": false } } ] } PUT my-index-000001/_doc/my_id?pipeline=attachment { "data": "e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=" } GET my-index-000001/_doc/my_id
The document’s attachment
object contains extracted properties for the file:
{ "found": true, "_index": "my-index-000001", "_id": "my_id", "_version": 1, "_seq_no": 22, "_primary_term": 1, "_source": { "data": "e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=", "attachment": { "content_type": "application/rtf", "language": "ro", "content": "Lorem ipsum dolor sit amet", "content_length": 28 } } }
Keeping the binary as a field within the document might consume a lot of resources. It is highly recommended
to remove that field from the document. Set remove_binary
to true
to automatically remove the field.
Exported fields
editThe fields which might be extracted from a document are:
-
content
, -
title
, -
author
, -
keywords
, -
date
, -
content_type
, -
content_length
, -
language
, -
modified
, -
format
, -
identifier
, -
contributor
, -
coverage
, -
modifier
, -
creator_tool
, -
publisher
, -
relation
, -
rights
, -
source
, -
type
, -
description
, -
print_date
, -
metadata_date
, -
latitude
, -
longitude
, -
altitude
, -
rating
, -
comments
To extract only certain attachment
fields, specify the properties
array:
response = client.ingest.put_pipeline( id: 'attachment', body: { description: 'Extract attachment information', processors: [ { attachment: { field: 'data', properties: [ 'content', 'title' ], remove_binary: false } } ] } ) puts response
PUT _ingest/pipeline/attachment { "description" : "Extract attachment information", "processors" : [ { "attachment" : { "field" : "data", "properties": [ "content", "title" ], "remove_binary": false } } ] }
Extracting contents from binary data is a resource intensive operation and consumes a lot of resources. It is highly recommended to run pipelines using this processor in a dedicated ingest node.
Use the attachment processor with CBOR
editTo avoid encoding and decoding JSON to base64, you can instead pass CBOR data to
the attachment processor. For example, the following request creates the
cbor-attachment
pipeline, which uses the attachment processor.
response = client.ingest.put_pipeline( id: 'cbor-attachment', body: { description: 'Extract attachment information', processors: [ { attachment: { field: 'data', remove_binary: false } } ] } ) puts response
PUT _ingest/pipeline/cbor-attachment { "description" : "Extract attachment information", "processors" : [ { "attachment" : { "field" : "data", "remove_binary": false } } ] }
The following Python script passes CBOR data to an HTTP indexing request that
includes the cbor-attachment
pipeline. The HTTP request headers use a
content-type
of application/cbor
.
Not all Elasticsearch clients support custom HTTP request headers.
import cbor2 import requests file = 'my-file' headers = {'content-type': 'application/cbor'} with open(file, 'rb') as f: doc = { 'data': f.read() } requests.put( 'http://localhost:9200/my-index-000001/_doc/my_id?pipeline=cbor-attachment', data=cbor2.dumps(doc), headers=headers )
Limit the number of extracted chars
editTo prevent extracting too many chars and overload the node memory, the number of chars being used for extraction
is limited by default to 100000
. You can change this value by setting indexed_chars
. Use -1
for no limit but
ensure when setting this that your node will have enough HEAP to extract the content of very big documents.
You can also define this limit per document by extracting from a given field the limit to set. If the document
has that field, it will overwrite the indexed_chars
setting. To set this field, define the indexed_chars_field
setting.
For example:
PUT _ingest/pipeline/attachment { "description" : "Extract attachment information", "processors" : [ { "attachment" : { "field" : "data", "indexed_chars" : 11, "indexed_chars_field" : "max_size", "remove_binary": false } } ] } PUT my-index-000001/_doc/my_id?pipeline=attachment { "data": "e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=" } GET my-index-000001/_doc/my_id
Returns this:
{ "found": true, "_index": "my-index-000001", "_id": "my_id", "_version": 1, "_seq_no": 35, "_primary_term": 1, "_source": { "data": "e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=", "attachment": { "content_type": "application/rtf", "language": "is", "content": "Lorem ipsum", "content_length": 11 } } }
PUT _ingest/pipeline/attachment { "description" : "Extract attachment information", "processors" : [ { "attachment" : { "field" : "data", "indexed_chars" : 11, "indexed_chars_field" : "max_size", "remove_binary": false } } ] } PUT my-index-000001/_doc/my_id_2?pipeline=attachment { "data": "e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=", "max_size": 5 } GET my-index-000001/_doc/my_id_2
Returns this:
{ "found": true, "_index": "my-index-000001", "_id": "my_id_2", "_version": 1, "_seq_no": 40, "_primary_term": 1, "_source": { "data": "e1xydGYxXGFuc2kNCkxvcmVtIGlwc3VtIGRvbG9yIHNpdCBhbWV0DQpccGFyIH0=", "max_size": 5, "attachment": { "content_type": "application/rtf", "language": "sl", "content": "Lorem", "content_length": 5 } } }
Using the attachment processor with arrays
editTo use the attachment processor within an array of attachments the foreach processor is required. This enables the attachment processor to be run on the individual elements of the array.
For example, given the following source:
{ "attachments" : [ { "filename" : "ipsum.txt", "data" : "dGhpcyBpcwpqdXN0IHNvbWUgdGV4dAo=" }, { "filename" : "test.txt", "data" : "VGhpcyBpcyBhIHRlc3QK" } ] }
In this case, we want to process the data field in each element
of the attachments field and insert
the properties into the document so the following foreach
processor is used:
PUT _ingest/pipeline/attachment { "description" : "Extract attachment information from arrays", "processors" : [ { "foreach": { "field": "attachments", "processor": { "attachment": { "target_field": "_ingest._value.attachment", "field": "_ingest._value.data", "remove_binary": false } } } } ] } PUT my-index-000001/_doc/my_id?pipeline=attachment { "attachments" : [ { "filename" : "ipsum.txt", "data" : "dGhpcyBpcwpqdXN0IHNvbWUgdGV4dAo=" }, { "filename" : "test.txt", "data" : "VGhpcyBpcyBhIHRlc3QK" } ] } GET my-index-000001/_doc/my_id
Returns this:
{ "_index" : "my-index-000001", "_id" : "my_id", "_version" : 1, "_seq_no" : 50, "_primary_term" : 1, "found" : true, "_source" : { "attachments" : [ { "filename" : "ipsum.txt", "data" : "dGhpcyBpcwpqdXN0IHNvbWUgdGV4dAo=", "attachment" : { "content_type" : "text/plain; charset=ISO-8859-1", "language" : "en", "content" : "this is\njust some text", "content_length" : 24 } }, { "filename" : "test.txt", "data" : "VGhpcyBpcyBhIHRlc3QK", "attachment" : { "content_type" : "text/plain; charset=ISO-8859-1", "language" : "en", "content" : "This is a test", "content_length" : 16 } } ] } }
Note that the target_field
needs to be set, otherwise the
default value is used which is a top level field attachment
. The
properties on this top level field will contain the value of the
first attachment only. However, by specifying the
target_field
on to a value on _ingest._value
it will correctly
associate the properties with the correct attachment.