Transforming Data With Script Fields

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If you use datafeeds, you can add scripts to transform your data before it is analyzed. Datafeeds contain an optional script_fields property, where you can specify scripts that evaluate custom expressions and return script fields.

If your datafeed defines script fields, you can use those fields in your job. For example, you can use the script fields in the analysis functions in one or more detectors.

The following indices APIs create and add content to an index that is used in subsequent examples:

PUT /my_index
{
  "mappings":{
    "my_type":{
      "properties": {
        "@timestamp": {
          "type": "date"
        },
        "aborted_count": {
          "type": "long"
        },
        "another_field": {
          "type": "keyword" 
        },
        "clientip": {
          "type": "keyword"
        },
        "coords": {
          "properties": {
            "lat": {
              "type": "keyword"
            },
            "lon": {
              "type": "keyword"
            }
          }
        },
        "error_count": {
          "type": "long"
        },
        "query": {
          "type": "keyword"
        },
        "some_field": {
          "type": "keyword"
        },
        "tokenstring1":{
          "type":"keyword"
        },
        "tokenstring2":{
          "type":"keyword"
        },
        "tokenstring3":{
          "type":"keyword"
        }
      }
    }
  }
}

PUT /my_index/my_type/1
{
  "@timestamp":"2017-03-23T13:00:00",
  "error_count":36320,
  "aborted_count":4156,
  "some_field":"JOE",
  "another_field":"SMITH  ",
  "tokenstring1":"foo-bar-baz",
  "tokenstring2":"foo bar baz",
  "tokenstring3":"foo-bar-19",
  "query":"www.ml.elastic.co",
  "clientip":"123.456.78.900",
  "coords": {
    "lat" : 41.44,
    "lon":90.5
  }
}

In this example, string fields are mapped as keyword fields to support aggregation. If you want both a full text (text) and a keyword (keyword) version of the same field, use multi-fields. For more information, see fields.

Example 1: Adding two numerical fields.

PUT _xpack/ml/anomaly_detectors/test1
{
  "analysis_config":{
    "bucket_span": "10m",
    "detectors":[
      {
        "function":"mean",
        "field_name": "total_error_count", 
        "detector_description": "Custom script field transformation"
      }
    ]
  },
  "data_description": {
  "time_field":"@timestamp",
  "time_format":"epoch_ms"
  }
}

PUT _xpack/ml/datafeeds/datafeed-test1
{
  "job_id": "test1",
  "indices": ["my_index"],
  "types": ["my_type"],
  "query": {
    "match_all": {
          "boost": 1
    }
  },
  "script_fields": {
    "total_error_count": { 
      "script": {
        "lang": "expression",
        "inline": "doc['error_count'].value + doc['aborted_count'].value"
      }
    }
  }
}

A script field named total_error_count is referenced in the detector within the job.

The script field is defined in the datafeed.

This test1 job contains a detector that uses a script field in a mean analysis function. The datafeed-test1 datafeed defines the script field. It contains a script that adds two fields in the document to produce a "total" error count.

The syntax for the script_fields property is identical to that used by Elasticsearch. For more information, see Script Fields.

You can preview the contents of the datafeed by using the following API:

GET _xpack/ml/datafeeds/datafeed-test1/_preview

In this example, the API returns the following results, which contain a sum of the error_count and aborted_count values:

[
  {
    "@timestamp": 1490274000000,
    "total_error_count": 40476
  }
]

This example demonstrates how to use script fields, but it contains insufficient data to generate meaningful results. For a full demonstration of how to create jobs with sample data, see Getting Started.

You can alternatively use Kibana to create an advanced job that uses script fields. To add the script_fields property to your datafeed, you must use the Edit JSON tab. For example:

Adding script fields to a datafeed in Kibana

Common Script Field Examples

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While the possibilities are limitless, there are a number of common scenarios where you might use script fields in your datafeeds.

Some of these examples use regular expressions. By default, regular expressions are disabled because they circumvent the protection that Painless provides against long running and memory hungry scripts. For more information, see Painless Scripting Language.

Machine learning analysis is case sensitive. For example, "John" is considered to be different than "john". This is one reason you might consider using scripts that convert your strings to upper or lowercase letters.

Example 2: Concatenating strings.

PUT _xpack/ml/anomaly_detectors/test2
{
  "analysis_config":{
    "bucket_span": "10m",
    "detectors":[
      {
        "function":"low_info_content",
        "field_name":"my_script_field", 
        "detector_description": "Custom script field transformation"
      }
    ]
  },
  "data_description": {
  "time_field":"@timestamp",
  "time_format":"epoch_ms"
  }
}

PUT _xpack/ml/datafeeds/datafeed-test2
{
  "job_id": "test2",
  "indices": ["my_index"],
  "types": ["my_type"],
  "query": {
    "match_all": {
          "boost": 1
    }
  },
  "script_fields": {
    "my_script_field": {
      "script": {
        "lang": "painless",
        "inline": "doc['some_field'].value + '_' + doc['another_field'].value" 
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test2/_preview

The script field has a rather generic name in this case, since it will be used for various tests in the subsequent examples.

The script field uses the plus (+) operator to concatenate strings.

The preview datafeed API returns the following results, which show that "JOE" and "SMITH " have been concatenated and an underscore was added:

[
  {
    "@timestamp": 1490274000000,
    "my_script_field": "JOE_SMITH  "
  }
]

Example 3: Trimming strings.

POST _xpack/ml/datafeeds/datafeed-test2/_update
{
  "script_fields": {
    "my_script_field": {
      "script": {
        "lang": "painless",
        "inline": "doc['another_field'].value.trim()" 
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test2/_preview

This script field uses the trim() function to trim extra white space from a string.

The preview datafeed API returns the following results, which show that "SMITH " has been trimmed to "SMITH":

[
  {
    "@timestamp": 1490274000000,
    "my_script_field": "SMITH"
  }
]

Example 4: Converting strings to lowercase.

POST _xpack/ml/datafeeds/datafeed-test2/_update
{
  "script_fields": {
    "my_script_field": {
      "script": {
        "lang": "painless",
        "inline": "doc['some_field'].value.toLowerCase()" 
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test2/_preview

This script field uses the toLowerCase function to convert a string to all lowercase letters. Likewise, you can use the toUpperCase{} function to convert a string to uppercase letters.

The preview datafeed API returns the following results, which show that "JOE" has been converted to "joe":

[
  {
    "@timestamp": 1490274000000,
    "my_script_field": "joe"
  }
]

Example 5: Converting strings to mixed case formats.

POST _xpack/ml/datafeeds/datafeed-test2/_update
{
  "script_fields": {
    "my_script_field": {
      "script": {
        "lang": "painless",
        "inline": "doc['some_field'].value.substring(0, 1).toUpperCase() + doc['some_field'].value.substring(1).toLowerCase()" 
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test2/_preview

This script field is a more complicated example of case manipulation. It uses the subString() function to capitalize the first letter of a string and converts the remaining characters to lowercase.

The preview datafeed API returns the following results, which show that "JOE" has been converted to "Joe":

[
  {
    "@timestamp": 1490274000000,
    "my_script_field": "Joe"
  }
]

Example 6: Replacing tokens.

POST _xpack/ml/datafeeds/datafeed-test2/_update
{
  "script_fields": {
    "my_script_field": {
      "script": {
        "lang": "painless",
        "inline": "/\\s/.matcher(doc['tokenstring2'].value).replaceAll('_')" 
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test2/_preview

This script field uses regular expressions to replace white space with underscores.

The preview datafeed API returns the following results, which show that "foo bar baz" has been converted to "foo_bar_baz":

[
  {
    "@timestamp": 1490274000000,
    "my_script_field": "foo_bar_baz"
  }
]

Example 7: Regular expression matching and concatenation.

POST _xpack/ml/datafeeds/datafeed-test2/_update
{
  "script_fields": {
    "my_script_field": {
      "script": {
        "lang": "painless",
        "inline": "def m = /(.*)-bar-([0-9][0-9])/.matcher(doc['tokenstring3'].value); return m.find() ? m.group(1) + '_' + m.group(2) : '';" 
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test2/_preview

This script field looks for a specific regular expression pattern and emits the matched groups as a concatenated string. If no match is found, it emits an empty string.

The preview datafeed API returns the following results, which show that "foo-bar-19" has been converted to "foo_19":

[
  {
    "@timestamp": 1490274000000,
    "my_script_field": "foo_19"
  }
]

Example 8: Splitting strings by domain name.

PUT _xpack/ml/anomaly_detectors/test3
{
  "description":"DNS tunneling",
  "analysis_config":{
    "bucket_span": "30m",
    "influencers": ["clientip","hrd"],
    "detectors":[
      {
        "function":"high_info_content",
        "field_name": "sub",
        "over_field_name": "hrd",
        "exclude_frequent":"all"
      }
    ]
  },
  "data_description": {
  "time_field":"@timestamp",
  "time_format":"epoch_ms"
  }
}

PUT _xpack/ml/datafeeds/datafeed-test3
{
  "job_id": "test3",
  "indices": ["my_index"],
  "types": ["my_type"],
  "query": {
    "match_all": {
          "boost": 1
    }
  },
  "script_fields":{
    "sub":{
      "script":"return domainSplit(doc['query'].value, params).get(0);"
    },
    "hrd":{
      "script":"return domainSplit(doc['query'].value, params).get(1);"
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test3/_preview

If you have a single field that contains a well-formed DNS domain name, you can use the domainSplit() function to split the string into its highest registered domain and the sub-domain, which is everything to the left of the highest registered domain. For example, the highest registered domain of www.ml.elastic.co is elastic.co and the sub-domain is www.ml. The domainSplit() function returns an array of two values: the first value is the subdomain; the second value is the highest registered domain.

The domainSplit() function takes two arguments. The first argument is the string you want to split. The second argument is always params. This is a technical implementation detail related to how Painless operates internally.

The preview datafeed API returns the following results, which show that "www.ml.elastic.co" has been split into "elastic.co" and "www.ml":

[
  {
    "@timestamp": 1490274000000,
    "clientip.keyword": "123.456.78.900",
    "hrd": "elastic.co",
    "sub": "www.ml"
  }
]

Example 9: Transforming geo_point data.

PUT _xpack/ml/anomaly_detectors/test4
{
  "analysis_config":{
    "bucket_span": "10m",
    "detectors":[
      {
        "function":"lat_long",
        "field_name": "my_coordinates"
      }
    ]
  },
  "data_description": {
  "time_field":"@timestamp",
  "time_format":"epoch_ms"
  }
}

PUT _xpack/ml/datafeeds/datafeed-test4
{
  "job_id": "test4",
  "indices": ["my_index"],
  "types": ["my_type"],
  "query": {
    "match_all": {
          "boost": 1
    }
  },
  "script_fields": {
    "my_coordinates": {
      "script": {
        "inline": "doc['coords.lat'].value + ',' + doc['coords.lon'].value",
        "lang": "painless"
      }
    }
  }
}

GET _xpack/ml/datafeeds/datafeed-test4/_preview

In Elasticsearch, location data can be stored in geo_point fields but this data type is not supported natively in X-Pack machine learning analytics. This example of a script field transforms the data into an appropriate format. For more information, see Geographic Functions.

The preview datafeed API returns the following results, which show that 41.44 and 90.5 have been combined into "41.44,90.5":

[
  {
    "@timestamp": 1490274000000,
    "my_coordinates": "41.44,90.5"
  }
]