279 lines
12 KiB
Plaintext
279 lines
12 KiB
Plaintext
[role="xpack"]
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[[ml-configuring-categories]]
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=== Categorizing log messages
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Application log events are often unstructured and contain variable data. For
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example:
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//Obtained from it_ops_new_app_logs.json
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[source,js]
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----------------------------------
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{"time":1454516381000,"message":"org.jdbi.v2.exceptions.UnableToExecuteStatementException: com.mysql.jdbc.exceptions.MySQLTimeoutException: Statement cancelled due to timeout or client request [statement:\"SELECT id, customer_id, name, force_disabled, enabled FROM customers\"]","type":"logs"}
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----------------------------------
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//NOTCONSOLE
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You can use {ml} to observe the static parts of the message, cluster similar
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messages together, and classify them into message categories.
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The {ml} model learns what volume and pattern is normal for each category over
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time. You can then detect anomalies and surface rare events or unusual types of
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messages by using count or rare functions. For example:
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//Obtained from it_ops_new_app_logs.sh
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[source,console]
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----------------------------------
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PUT _ml/anomaly_detectors/it_ops_new_logs
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{
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"description" : "IT Ops Application Logs",
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"analysis_config" : {
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"categorization_field_name": "message", <1>
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"bucket_span":"30m",
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"detectors" :[{
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"function":"count",
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"by_field_name": "mlcategory", <2>
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"detector_description": "Unusual message counts"
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}],
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"categorization_filters":[ "\\[statement:.*\\]"]
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},
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"analysis_limits":{
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"categorization_examples_limit": 5
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},
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"data_description" : {
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"time_field":"time",
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"time_format": "epoch_ms"
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}
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}
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----------------------------------
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// TEST[skip:needs-licence]
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<1> The `categorization_field_name` property indicates which field will be
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categorized.
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<2> The resulting categories are used in a detector by setting `by_field_name`,
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`over_field_name`, or `partition_field_name` to the keyword `mlcategory`. If you
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do not specify this keyword in one of those properties, the API request fails.
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The optional `categorization_examples_limit` property specifies the
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maximum number of examples that are stored in memory and in the results data
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store for each category. The default value is `4`. Note that this setting does
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not affect the categorization; it just affects the list of visible examples. If
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you increase this value, more examples are available, but you must have more
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storage available. If you set this value to `0`, no examples are stored.
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The optional `categorization_filters` property can contain an array of regular
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expressions. If a categorization field value matches the regular expression, the
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portion of the field that is matched is not taken into consideration when
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defining categories. The categorization filters are applied in the order they
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are listed in the job configuration, which allows you to disregard multiple
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sections of the categorization field value. In this example, we have decided that
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we do not want the detailed SQL to be considered in the message categorization.
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This particular categorization filter removes the SQL statement from the categorization
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algorithm.
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If your data is stored in {es}, you can create an advanced {anomaly-job} with
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these same properties:
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[role="screenshot"]
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image::images/ml-category-advanced.jpg["Advanced job configuration options related to categorization"]
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NOTE: To add the `categorization_examples_limit` property, you must use the
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**Edit JSON** tab and copy the `analysis_limits` object from the API example.
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[float]
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[[ml-configuring-analyzer]]
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==== Customizing the categorization analyzer
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Categorization uses English dictionary words to identify log message categories.
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By default, it also uses English tokenization rules. For this reason, if you use
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the default categorization analyzer, only English language log messages are
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supported, as described in the <<ml-limitations>>.
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You can, however, change the tokenization rules by customizing the way the
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categorization field values are interpreted. For example:
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[source,console]
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----------------------------------
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PUT _ml/anomaly_detectors/it_ops_new_logs2
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{
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"description" : "IT Ops Application Logs",
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"analysis_config" : {
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"categorization_field_name": "message",
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"bucket_span":"30m",
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"detectors" :[{
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"function":"count",
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"by_field_name": "mlcategory",
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"detector_description": "Unusual message counts"
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}],
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"categorization_analyzer":{
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"char_filter": [
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{ "type": "pattern_replace", "pattern": "\\[statement:.*\\]" } <1>
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],
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"tokenizer": "ml_classic", <2>
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"filter": [
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{ "type" : "stop", "stopwords": [
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"Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday", "Sunday",
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"Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun",
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"January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December",
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"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec",
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"GMT", "UTC"
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] } <3>
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]
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}
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},
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"analysis_limits":{
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"categorization_examples_limit": 5
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},
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"data_description" : {
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"time_field":"time",
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"time_format": "epoch_ms"
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}
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}
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----------------------------------
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// TEST[skip:needs-licence]
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<1> The
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{ref}/analysis-pattern-replace-charfilter.html[`pattern_replace` character filter]
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here achieves exactly the same as the `categorization_filters` in the first
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example.
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<2> The `ml_classic` tokenizer works like the non-customizable tokenization
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that was used for categorization in older versions of machine learning. If you
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want the same categorization behavior as older versions, use this property value.
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<3> By default, English day or month words are filtered from log messages before
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categorization. If your logs are in a different language and contain
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dates, you might get better results by filtering the day or month words in your
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language.
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The optional `categorization_analyzer` property allows even greater customization
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of how categorization interprets the categorization field value. It can refer to
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a built-in {es} analyzer or a combination of zero or more character filters,
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a tokenizer, and zero or more token filters. If you omit the
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`categorization_analyzer`, the following default values are used:
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[source,console]
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--------------------------------------------------
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POST _ml/anomaly_detectors/_validate
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{
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"analysis_config" : {
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"categorization_analyzer" : {
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"tokenizer" : "ml_classic",
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"filter" : [
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{ "type" : "stop", "stopwords": [
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"Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday", "Sunday",
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"Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun",
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"January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December",
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"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec",
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"GMT", "UTC"
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] }
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]
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},
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"categorization_field_name": "message",
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"detectors" :[{
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"function":"count",
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"by_field_name": "mlcategory"
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}]
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},
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"data_description" : {
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}
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}
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--------------------------------------------------
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If you specify any part of the `categorization_analyzer`, however, any omitted
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sub-properties are _not_ set to default values.
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The `ml_classic` tokenizer and the day and month stopword filter are more or less
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equivalent to the following analyzer, which is defined using only built-in {es}
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{ref}/analysis-tokenizers.html[tokenizers] and
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{ref}/analysis-tokenfilters.html[token filters]:
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[source,console]
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----------------------------------
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PUT _ml/anomaly_detectors/it_ops_new_logs3
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{
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"description" : "IT Ops Application Logs",
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"analysis_config" : {
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"categorization_field_name": "message",
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"bucket_span":"30m",
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"detectors" :[{
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"function":"count",
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"by_field_name": "mlcategory",
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"detector_description": "Unusual message counts"
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}],
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"categorization_analyzer":{
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"tokenizer": {
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"type" : "simple_pattern_split",
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"pattern" : "[^-0-9A-Za-z_.]+" <1>
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},
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"filter": [
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{ "type" : "pattern_replace", "pattern": "^[0-9].*" }, <2>
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{ "type" : "pattern_replace", "pattern": "^[-0-9A-Fa-f.]+$" }, <3>
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{ "type" : "pattern_replace", "pattern": "^[^0-9A-Za-z]+" }, <4>
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{ "type" : "pattern_replace", "pattern": "[^0-9A-Za-z]+$" }, <5>
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{ "type" : "stop", "stopwords": [
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"",
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"Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday", "Sunday",
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"Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun",
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"January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December",
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"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec",
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"GMT", "UTC"
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] }
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]
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}
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},
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"analysis_limits":{
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"categorization_examples_limit": 5
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},
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"data_description" : {
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"time_field":"time",
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"time_format": "epoch_ms"
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}
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}
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----------------------------------
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// TEST[skip:needs-licence]
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<1> Tokens basically consist of hyphens, digits, letters, underscores and dots.
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<2> By default, categorization ignores tokens that begin with a digit.
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<3> By default, categorization also ignores tokens that are hexadecimal numbers.
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<4> Underscores, hyphens, and dots are removed from the beginning of tokens.
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<5> Underscores, hyphens, and dots are also removed from the end of tokens.
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The key difference between the default `categorization_analyzer` and this example
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analyzer is that using the `ml_classic` tokenizer is several times faster. The
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difference in behavior is that this custom analyzer does not include accented
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letters in tokens whereas the `ml_classic` tokenizer does, although that could
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be fixed by using more complex regular expressions.
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If you are categorizing non-English messages in a language where words are
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separated by spaces, you might get better results if you change the day or month
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words in the stop token filter to the appropriate words in your language. If you
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are categorizing messages in a language where words are not separated by spaces,
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you must use a different tokenizer as well in order to get sensible
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categorization results.
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It is important to be aware that analyzing for categorization of machine
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generated log messages is a little different from tokenizing for search.
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Features that work well for search, such as stemming, synonym substitution, and
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lowercasing are likely to make the results of categorization worse. However, in
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order for drill down from {ml} results to work correctly, the tokens that the
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categorization analyzer produces must be similar to those produced by the search
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analyzer. If they are sufficiently similar, when you search for the tokens that
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the categorization analyzer produces then you find the original document that
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the categorization field value came from.
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NOTE: To add the `categorization_analyzer` property in {kib}, you must use the
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**Edit JSON** tab and copy the `categorization_analyzer` object from one of the
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API examples above.
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[float]
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[[ml-viewing-categories]]
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==== Viewing categorization results
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After you open the job and start the {dfeed} or supply data to the job, you can
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view the categorization results in {kib}. For example:
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[role="screenshot"]
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image::images/ml-category-anomalies.jpg["Categorization example in the Anomaly Explorer"]
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For this type of job, the **Anomaly Explorer** contains extra information for
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each anomaly: the name of the category (for example, `mlcategory 11`) and
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examples of the messages in that category. In this case, you can use these
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details to investigate occurrences of unusually high message counts for specific
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message categories.
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