Moogsoft Docs

Recipe Types

The Cookbook sigaliser uses the following Recipe types to define alert relationships and control how the Sigaliser clusters alerts:

The CValueRecipeV2 and CValueRecipe use different methods to calculate the textual similarity between alerts. The CBotRecipe is a customizable recipe that allows you to call specific functions from a Moobot.


CValueRecipeV2 extracts and analyzes groups of consecutive characters to measure text similarity between alerts. It is the default Recipe in Cookbook for new Moogsoft AIOps v7 installations and for any new Cookbooks you create.

This recipe uses the bag-of-words model and shingling natural language processing methods to calculate the text similarity between alerts. Shingling is the process in which Cookbook extracts groups of consecutive characters called shingles from a source string. Potential sources include the alert source ID or description. To measure similarity, Cookbook calculates the number of identical shingles. You can control the calculation using the shingle_size component property.

For example, if you set the shingle_size to 2 and Cookbook receives two alerts with the source IDs:


Cookbook extracts the following shingles from the source ID strings:

we eb bs se er rv ve er r0 01 10 00
we eb bs se er rv ve er r0 02 20 00

Ten out of the 12 shingles are identical which indicates a high similarity.

If you set the shingle_size to 0 or less, Cookbook treats the string values as words in its text similarity calculation. In the UI, you select whether Cookbook treats string values as shingles or words.

For example, if Cookbook receives two alerts with the source IDs: "database01" and "database02", it treats them as:


These two words are not identical so the two alerts would be given a low similarity.

The default shingle size settings in the CValueRecipeV2 are optimal for most use cases.


The first version of the CValueRecipe that uses a string comparison mechanism to cluster alerts by textual similarity.

CValueRecipe uses string metric algorithms to calculate similarity. The calculation breaks strings up into partitions and performs a character-by-character comparison of each partition to measure similarity.

The following example sets the Recipe to monitor alerts with source IDs and descriptions with a similarity of 1.0 on a scale of 0 to 1 where 0 is dissimilar and 1 is identical:

matcher : {
    components: [
    { name: "source_id",   similarity: 1.0, case_sensitive: true }, 
    { name: "description", similarity: 1.0, case_sensitive: true }

In a scenario where Cookbookreceives the following alerts:
















Based on the Recipe configuration, Cookbook creates three clusters: one containing alert A, one containing alert B and one containing alerts C and D which had identical source IDs and descriptions. The string may contain non-alphabetical characters. CValueRecipe can also convert numeric values to strings for comparison.

The Value Recipe uses the case_sensitive component to enable or disable case sensitivity as a factor in text similarity matching. For example, if you want source IDs to only match if case sensitivity is identical but you do not want descriptions to be case sensitive:

matcher: {
        components: [ 
        { name: "source_id", similarity: 1.0, case_sensitive: true}
        { name: "description", similarity: 0.7, case_sensitive: false}

If you do not enable case sensitivity, then an alert from a source called "WebServer1" and an alert from a source called "webserver1" would have a lesser similarity.

To make Cookbook match each value in the list individually, set "treat_as : list" in the component configuration. For example: components: [ { name: "custom_info.source_id", similarity: 1.0, treat_as: "list" } ]. If you do not use this configuration, Cookbook treats the components value as a string.


CBot Recipe is a customizable Recipe that allows you to call certain functions from the Cookbook.js Moobot.

You can configure the Bot recipe to call functions defined in the Cookbook.js Moolet. The Cookbook Moolet defines two functions, an initialisation function calledinitialise_function and a member_function. You can call the initialise_function once to set up any necessary initialisation of the algorithms you want to write in the Moobot:

matcher : 
                initialise_function : "initBuckets",
                member_function : "checkBucket",
                similarity : 0.8

You can call the member_function once for every event that passes the trigger. Cookbook considers each of these events for matching and for every candidate cluster in the system.

For example, Cookbook calls the member_function 100 times if there are 100 candidate clusters for each alert that comes through the system. Cookbook compares the alert to candidate clusters that are potential Situations. If the alert's similarity matches or exceeds the matcher value, Cookbook adds the alert to the candidate cluster.