//lcawley Verified example output 2017-04-11 [[ml-results-resource]] ==== Results Resources Several different result types are created for each job. You can query anomaly results for _buckets_, _influencers_ and _records_ by using the results API. Results are written for each `bucket_span`. The timestamp for the results is the start of the bucket time interval. The results include scores, which are calculated for each anomaly result type and each bucket interval. These scores are aggregated in order to reduce noise, and normalized in order to identify and rank the most mathematically significant anomalies. Bucket results provide the top level, overall view of the job and are ideal for alerts. For example, the bucket results might indicate that at 16:05 the system was unusual. This information is a summary of all the anomalies, pinpointing when they occurred. Influencer results show which entities were anomalous and when. For example, the influencer results might indicate that at 16:05 `user_name: Bob` was unusual. This information is a summary of all the anomalies for each entity, so there can be a lot of these results. Once you have identified a notable bucket time, you can look to see which entities were significant. Record results provide details about what the individual anomaly was, when it occurred and which entity was involved. For example, the record results might indicate that at 16:05 Bob sent 837262434 bytes, when the typical value was 1067 bytes. Once you have identified a bucket time and perhaps a significant entity too, you can drill through to the record results in order to investigate the anomalous behavior. //TBD Add links to categorization Categorization results contain the definitions of _categories_ that have been identified. These are only applicable for jobs that are configured to analyze unstructured log data using categorization. These results do not contain a timestamp or any calculated scores. * <> * <> * <> * <> [float] [[ml-results-buckets]] ===== Buckets Bucket results provide the top level, overall view of the job and are best for alerting. Each bucket has an `anomaly_score`, which is a statistically aggregated and normalized view of the combined anomalousness of all the record results within each bucket. One bucket result is written for each `bucket_span` for each job, even if it is not considered to be anomalous. If the bucket is not anomalous, it has an `anomaly_score` of zero. When you identify an anomalous bucket, you can investigate further by expanding the bucket resource to show the records as nested objects. Alternatively, you can access the records resource directly and filter by the date range. A bucket resource has the following properties: `anomaly_score`:: (number) The maximum anomaly score, between 0-100, for any of the bucket influencers. This is an overall, rate-limited score for the job. All the anomaly records in the bucket contribute to this score. This value might be updated as new data is analyzed. `bucket_influencers`:: (array) An array of bucket influencer objects. For more information, see <>. `bucket_span`:: (time units) The length of the bucket. This value matches the `bucket_span` that is specified in the job. `event_count`:: (number) The number of input data records processed in this bucket. `initial_anomaly_score`:: (number) The maximum `anomaly_score` for any of the bucket influencers. This is the initial value that was calculated at the time the bucket was processed. `is_interim`:: (boolean) If true, this is an interim result. In other words, the bucket results are calculated based on partial input data. `job_id`:: (string) The unique identifier for the job that these results belong to. `processing_time_ms`:: (number) The amount of time, in milliseconds, that it took to analyze the bucket contents and calculate results. `result_type`:: (string) Internal. This value is always set to `bucket`. `timestamp`:: (date) The start time of the bucket. This timestamp uniquely identifies the bucket. + NOTE: Events that occur exactly at the timestamp of the bucket are included in the results for the bucket. [float] [[ml-results-bucket-influencers]] ===== Bucket Influencers Bucket influencer results are available as nested objects contained within bucket results. These results are an aggregation for each type of influencer. For example, if both `client_ip` and `user_name` were specified as influencers, then you would be able to determine when the `client_ip` or `user_name` values were collectively anomalous. There is a built-in bucket influencer called `bucket_time` which is always available. This bucket influencer is the aggregation of all records in the bucket; it is not just limited to a type of influencer. NOTE: A bucket influencer is a type of influencer. For example, `client_ip` or `user_name` can be bucket influencers, whereas `192.168.88.2` and `Bob` are influencers. An bucket influencer object has the following properties: `anomaly_score`:: (number) A normalized score between 0-100, which is calculated for each bucket influencer. This score might be updated as newer data is analyzed. `bucket_span`:: (time units) The length of the bucket. This value matches the `bucket_span` that is specified in the job. `initial_anomaly_score`:: (number) The score between 0-100 for each bucket influencer. This score is the initial value that was calculated at the time the bucket was processed. `influencer_field_name`:: (string) The field name of the influencer. For example `client_ip` or `user_name`. `influencer_field_value`:: (string) The field value of the influencer. For example `192.168.88.2` or `Bob`. `is_interim`:: (boolean) If true, this is an interim result. In other words, the bucket influencer results are calculated based on partial input data. `job_id`:: (string) The unique identifier for the job that these results belong to. `probability`:: (number) The probability that the bucket has this behavior, in the range 0 to 1. For example, 0.0000109783. This value can be held to a high precision of over 300 decimal places, so the `anomaly_score` is provided as a human-readable and friendly interpretation of this. `raw_anomaly_score`:: (number) Internal. `result_type`:: (string) Internal. This value is always set to `bucket_influencer`. `timestamp`:: (date) The start time of the bucket for which these results were calculated. [float] [[ml-results-influencers]] ===== Influencers Influencers are the entities that have contributed to, or are to blame for, the anomalies. Influencer results are available only if an `influencer_field_name` is specified in the job configuration. Influencers are given an `influencer_score`, which is calculated based on the anomalies that have occurred in each bucket interval. For jobs with more than one detector, this gives a powerful view of the most anomalous entities. For example, if you are analyzing unusual bytes sent and unusual domains visited and you specified `user_name` as the influencer, then an `influencer_score` for each anomalous user name is written per bucket. For example, if `user_name: Bob` had an `influencer_score` greater than 75, then `Bob` would be considered very anomalous during this time interval in one or both of those areas (unusual bytes sent or unusual domains visited). One influencer result is written per bucket for each influencer that is considered anomalous. When you identify an influencer with a high score, you can investigate further by accessing the records resource for that bucket and enumerating the anomaly records that contain the influencer. An influencer object has the following properties: `bucket_span`:: (time units) The length of the bucket. This value matches the `bucket_span` that is specified in the job. `influencer_score`:: (number) A normalized score between 0-100, which is based on the probability of the influencer in this bucket aggregated across detectors. Unlike `initial_influencer_score`, this value will be updated by a re-normalization process as new data is analyzed. `initial_influencer_score`:: (number) A normalized score between 0-100, which is based on the probability of the influencer aggregated across detectors. This is the initial value that was calculated at the time the bucket was processed. `influencer_field_name`:: (string) The field name of the influencer. `influencer_field_value`:: (string) The entity that influenced, contributed to, or was to blame for the anomaly. `is_interim`:: (boolean) If true, this is an interim result. In other words, the influencer results are calculated based on partial input data. `job_id`:: (string) The unique identifier for the job that these results belong to. `probability`:: (number) The probability that the influencer has this behavior, in the range 0 to 1. For example, 0.0000109783. This value can be held to a high precision of over 300 decimal places, so the `influencer_score` is provided as a human-readable and friendly interpretation of this. // For example, 0.03 means 3%. This value is held to a high precision of over //300 decimal places. In scientific notation, a value of 3.24E-300 is highly //unlikely and therefore highly anomalous. `result_type`:: (string) Internal. This value is always set to `influencer`. `timestamp`:: (date) The start time of the bucket for which these results were calculated. NOTE: Additional influencer properties are added, depending on the fields being analyzed. For example, if it's analyzing `user_name` as an influencer, then a field `user_name` is added to the result document. This information enables you to filter the anomaly results more easily. [float] [[ml-results-records]] ===== Records Records contain the detailed analytical results. They describe the anomalous activity that has been identified in the input data based on the detector configuration. For example, if you are looking for unusually large data transfers, an anomaly record can identify the source IP address, the destination, the time window during which it occurred, the expected and actual size of the transfer, and the probability of this occurrence. There can be many anomaly records depending on the characteristics and size of the input data. In practice, there are often too many to be able to manually process them. The {xpackml} features therefore perform a sophisticated aggregation of the anomaly records into buckets. The number of record results depends on the number of anomalies found in each bucket, which relates to the number of time series being modeled and the number of detectors. A record object has the following properties: `actual`:: (array) The actual value for the bucket. `bucket_span`:: (time units) The length of the bucket. This value matches the `bucket_span` that is specified in the job. `by_field_name`:: (string) The name of the analyzed field. This value is present only if it is specified in the detector. For example, `client_ip`. `by_field_value`:: (string) The value of `by_field_name`. This value is present only if it is specified in the detector. For example, `192.168.66.2`. `causes`:: (array) For population analysis, an over field must be specified in the detector. This property contains an array of anomaly records that are the causes for the anomaly that has been identified for the over field. If no over fields exist, this field is not present. This sub-resource contains the most anomalous records for the `over_field_name`. For scalability reasons, a maximum of the 10 most significant causes of the anomaly are returned. As part of the core analytical modeling, these low-level anomaly records are aggregated for their parent over field record. The causes resource contains similar elements to the record resource, namely `actual`, `typical`, `*_field_name` and `*_field_value`. Probability and scores are not applicable to causes. `detector_index`:: (number) A unique identifier for the detector. `field_name`:: (string) Certain functions require a field to operate on, for example, `sum()`. For those functions, this value is the name of the field to be analyzed. `function`:: (string) The function in which the anomaly occurs, as specified in the detector configuration. For example, `max`. `function_description`:: (string) The description of the function in which the anomaly occurs, as specified in the detector configuration. `influencers`:: (array) If `influencers` was specified in the detector configuration, then this array contains influencers that contributed to or were to blame for an anomaly. `initial_record_score`:: (number) A normalized score between 0-100, which is based on the probability of the anomalousness of this record. This is the initial value that was calculated at the time the bucket was processed. `is_interim`:: (boolean) If true, this is an interim result. In other words, the anomaly record is calculated based on partial input data. `job_id`:: (string) The unique identifier for the job that these results belong to. `over_field_name`:: (string) The name of the over field that was used in the analysis. This value is present only if it was specified in the detector. Over fields are used in population analysis. For example, `user`. `over_field_value`:: (string) The value of `over_field_name`. This value is present only if it was specified in the detector. For example, `Bob`. `partition_field_name`:: (string) The name of the partition field that was used in the analysis. This value is present only if it was specified in the detector. For example, `region`. `partition_field_value`:: (string) The value of `partition_field_name`. This value is present only if it was specified in the detector. For example, `us-east-1`. `probability`:: (number) The probability of the individual anomaly occurring, in the range 0 to 1. For example, 0.0000772031. This value can be held to a high precision of over 300 decimal places, so the `record_score` is provided as a human-readable and friendly interpretation of this. //In scientific notation, a value of 3.24E-300 is highly unlikely and therefore //highly anomalous. `record_score`:: (number) A normalized score between 0-100, which is based on the probability of the anomalousness of this record. Unlike `initial_record_score`, this value will be updated by a re-normalization process as new data is analyzed. `result_type`:: (string) Internal. This is always set to `record`. `timestamp`:: (date) The start time of the bucket for which these results were calculated. `typical`:: (array) The typical value for the bucket, according to analytical modeling. NOTE: Additional record properties are added, depending on the fields being analyzed. For example, if it's analyzing `hostname` as a _by field_, then a field `hostname` is added to the result document. This information enables you to filter the anomaly results more easily. [float] [[ml-results-categories]] ===== Categories When `categorization_field_name` is specified in the job configuration, it is possible to view the definitions of the resulting categories. A category definition describes the common terms matched and contains examples of matched values. The anomaly results from a categorization analysis are available as bucket, influencer, and record results. For example, the results might indicate that at 16:45 there was an unusual count of log message category 11. You can then examine the description and examples of that category. A category resource has the following properties: `category_id`:: (unsigned integer) A unique identifier for the category. `examples`:: (array) A list of examples of actual values that matched the category. `job_id`:: (string) The unique identifier for the job that these results belong to. `max_matching_length`:: (unsigned integer) The maximum length of the fields that matched the category. The value is increased by 10% to enable matching for similar fields that have not been analyzed. `regex`:: (string) A regular expression that is used to search for values that match the category. `terms`:: (string) A space separated list of the common tokens that are matched in values of the category.