About the Search Job Inspector
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About the Search Job Inspector
The search job inspector is a tool which lets you take a closer look at what your search is doing and see where Splunk is spending most of its time. This topic discusses how to use the search job inspector to both troubleshoot the performance of a search and understand the behavior of knowledge objects such as event types, tags, lookups and so on within the search.
Using the search job inspector
You can access the search job inspector for a search job as long as the search artifact still exists (which means that the search has not expired). The search does not still have to be running.
To inspect a search:
1. Run the search.
2. From the Actions dropdown menu, select Inspect search job...
This opens the Search Job Inspector in a new browser window.
To view the properties of a search artifact:
You can use the URL to inspect a search job artifact if you have its search ID (SID). You can find the SID of a search in the job manager (click the Jobs link in the upper right hand corner) or listed in Splunk's dispatch directory,
$SPLUNK_HOME/var/run/splunk/dispatch . For more information about the Job Manager, see "Supervise your search jobs" in the User Manual.
If you look at the URI path for the search job inspector window, you will see something like this at the end of the string:
namespace are the SID number and the name of the app that it belongs to. Here, the SID is 1299600721.22.
Type the search artifact's SID into the URI path, after
sid= and hit return. As long as you have the necessary ownership permissions to view the search, you will be able to inspect it.
Now, what exactly are you looking at?
What the job inspector shows you
While the search is running, the job inspector shows you two different panels. Execution costs lists information about the components of the search and how much impact each component has on the overall performance of the search. Search job properties lists other characteristics of the job. When the search finishes, the job inspector tells you how many results it found and the time it took to complete the search. After the search completes, the job inspector also displays error messages at the top of the screen. Most of the information is self-explanatory, but this section will discuss the panels in more detail.
The Execution costs panel enables you to troubleshoot the efficiency of your search by narrowing it down to the performance impact of specific components that relate to a search-time event processing action. This panel displays a table of the components, their individual durations in seconds, how many times each was invoked while the search ran, and the input and output event counts for each component. The components are listed alphabetically and you will see more or fewer components depending on the search you run. The following table describes the significance of each individual search command and distributed search component. (These are the components you will see if you just run a keyword search.)
|Search command component name||Description|
|command.search|| Once Splunk identifies the events containing the indexed fields matching your search, it looks into the events themselves to identify the ones that match other criteria. These are concurrent operations, not consecutive.
|Distributed search component name||Description|
|dispatch.createProviderQueue||The time to connect to all search peers.|
|dispatch.evaluate|| The time spent on argument parsing and subsearch evaluation. This is broken down further on each search command that is used.
|dispatch.fetch||The time spent waiting for or fetching events from search peers.|
|dispatch.preview||The time spent generating preview results.|
|dispatch.process_remote_timeline||The time spent decoding timeline information generated by search peers.|
|dispatch.stream.local||The time spent by search head on the streaming part of the search.|
|dispatch.timeline||The time spent generating the timeline and field picker information.|
Search job properties
The Search job properties fields are listed in alphabetical order.
|cursorTime||The earliest time from which no events are later scanned. Can be used to indicate progress -- See description for doneProgress.|
|delegate||For saved searches, specifies jobs that were started by the user. Defaults to scheduler.|
|diskUsage||The total amount of disk space used, in bytes.|
|dispatchState||The state of the search. Can be any of QUEUED, PARSING, RUNNING, PAUSED, FINALIZING, FAILED, DONE.|
|doneProgress|| A number between 0 and 1.0 that indicates the approximate progress of the search.
doneProgress = (latestTime – cursorTime) / (latestTime – earliestTime)
|dropCount||For real-time searches only, the number of possible events that were dropped due to the rt_queue_size (default to 100000).|
|earliestTime||The earliest time a search job is configured to start. Can be used to indicate progress -- See description for doneProgress.|
|eai:acl||This describes the app and user-level permissions. For example, is the app shared globally and what users can run or view the search?|
|eventAvailableCount||The number of events that are available for export.|
|eventCount||The number of events returned by the search.|
|eventFieldCount||The number of fields found in the search results.|
|eventIsStreaming||Indicates if the events of this search are being streamed.|
|eventIsTruncated||Indicates if events of the search have not been stored, and thus not available from the events endpoint for the search.|
|eventSearch||Subset of the entire search that is before any transforming commands. The timeline and events endpoint represents the result of this part of the search.|
|eventSorting||Indicates if the events of this search are sorted, and in which order. asc = ascending; desc = descending; none = not sorted|
|isDone||Indicates if the search has completed.|
|isFailed||Indicates if there was a fatal error executing the search. For example, if the search string had invalid syntax.|
|isFinalized||Indicates if the search was finalized (stopped before completion).|
|isPaused||Indicates if the search has been paused.|
|isPreviewEnabled||Indicates if previews are enabled.|
|isRealTimeSearch||Indicates if the search is a real time search.|
|isRemoteTimeline||Indicates if the remote timeline feature is enabled.|
|isSaved||Indicates if the search is saved indefinitely.|
|isSavedSearch||Indicates if this is a saved search run using the scheduler.|
|isZombie||Indicates if the process running the search is dead, but with the search not finished.|
|keywords||All positive keywords used by this search. A positive keyword is a keyword that is not in a NOT clause.|
|label||Custom name created for this search.|
|latestTime||The latest time a search job is configured to start. Can be used to indicate progress -- See description for doneProgress.|
|numPreviews||Number of previews that have been generated so far for this search job.|
|messages||Errors and debug messages.|
|performance||This is another representation of the Execution costs.|
|remoteSearch||The search string that is sent to every search peer.|
|reportSearch||If reporting commands are used, the reporting search.|
|request|| GET arguments that the search sends to |
|resultCount||The total number of results returned by the search. In other words, this is the subset of scanned events (represented by the scanCount) that actually matches the search terms.|
|resultIsStreaming||Indicates if the final results of the search are available using streaming (for example, no transforming operations).|
|resultPreviewCount||The number of result rows in the latest preview results.|
|runDuration||Time in seconds that the search took to complete.|
|scanCount||The number of events that are scanned or read off disk.|
|search||The search string.|
|searchProviders||A list of all the search peers that were contacted.|
|sid||The search ID number.|
|statusBuckets||Maximum number of timeline buckets.|
|ttl||The time to live, or time before the search job expires after it completes.|
|Additional info|| Links to further information about your search. These links may not always be available.
Note: When troubleshooting search performance, it's important to understand the difference between the scanCount and resultCount costs. For dense searches, the scanCount and resultCount are similar (scanCount = resultCount); and for sparse searches, the scanCount is much greater than the result count (scanCount >> resultCount). Search performance should not so much be measured using the resultCount/time rate but scanCount/time instead. Typically, the scanCount/second event rate should hover between 10k and 20k events per second for performance to be deemed good.
If there are errors in your search, these messages (which in previous versions displayed as banners across the dashboard) are presented as DEBUG messages at the top of the Search Job Inspector window. For example, if there are fields missing from your results, the debug messages will say so.
Note: You won't see these messages until the search has completed.
Examples of search job inspector output
Here's an example of the execution costs for a dedup search, run over All time:
* | dedup punct
The search commands component of the Execution costs panel might look something like this:
The command.search component and everything under it, gives you the performance impact of the
search command portion of your search, which is everything before the pipe character.
Then, command.prededup gives you the performance impact of processing the results of the
search command before passing it into the
dedup command. The Input count of command.prededup matches the Output count of command.search, and the Input count of command.dedup matches the Output count of command.prededup. In this case, the Output count of command.dedup should match the number of events returned at the completion of the search (which is the value of resultCount, under Search job properties).
Have questions? Visit Splunk Answers and see what questions and answers the Splunk community has about using the search job inspector.