noop
The noop
command is an internal, unsupported, experimental command. See
About internal commands.
Description
The noop
command is an internal command that you can use to debug your search. It includes several arguments that you can use to troubleshoot search optimization issues.
You cannot use the noop
command to add comments to a search. If you are looking for a way to add comments to your search, see Add comments to searches in the Search Manual.
Syntax
noop [<log-level-expression>] [<appender-expression>] [set_ttl = <timespan>] [search_optimization = <boolean>] [search_optimization.<optimization_type> = <boolean>] [sample_ratio = <int>] [<remote-log-fetch>] ...
Required arguments
None.
Optional arguments
- appender-expression
- Syntax: log_appender = "<appender_name>; [<attribute_name> = <attribute_value>], ..."
- Description Identifies an appender from
log-searchprocess.log
and specifies changed values for one or more attributes that belong to that appender. These value changes apply to the search job for the lifetime of the job. They are not reused after the search finishes. The list of attribute value changes must be enclosed in quotes. See Appender expression options.
- log-level-expression
- Syntax: log_<level> = "<channel>; ..."
- Description: Sets or changes the log levels for one or more log channels at search startup. The log channel list must be double-quoted and semicolon-separated. See Log level expression options.
- optimization_type
- Syntax: search_optimization.<optimization_type> = <boolean>
- Description: Enables or disables a specific type of search optimization for the search. To disable multiple optimization types, create a comma-separated list of
search_optimization.<optimization_type>
arguments. See Optimization type arguments. - Default: true
- remote-log-fetch
- Syntax: remote_log_fetch = [*|<indexer_name;indexer_name...>]
- Description Downloads remote search logs from the specified list of indexers in order to troubleshoot searches. This argument overrides the
fetch_remote_search_log
setting in the limits.conf file, which is disabled by default for saved searches.
- sample_ratio
- Syntax: sample_ratio = <int>
- Description: Sets a randomly-sampled subset of results to return from a given search. It returns 1 out of every
<sample_ratio>
events. For example, if you supply| noop sample_ratio=25
, the Splunk software returns a random sample of 1 out of every 25 events from the search result set. Thesample_ratio
argument requires thatsearch
be the generating command of the search to which you are applyingnoop
.
- The
sample_ratio
does the same thing as the event sampling feature that you can manage through Splunk Web. The difference is that it enables you to apply event sampling to a subsearch, while the Splunk Web version of event sampling is applied only to the main search. See Event sampling in the Search Manual. - Default: 1
- search_optimization
- Syntax: search_optimization = <boolean>
- Description: Enables or disables all optimizations for the search.
- Default: true
- set_ttl
- Syntax: set_ttl = <timespan>
- Description: Specifies the lifetime of the search job using time modifiers like
1d
for one day or12h
for twelve hours. The search job lifetime is the amount of time that the job exists in the system before it is deleted. The default lifetime of an ad hoc search is 10 minutes. You might use this setting to make an ad hoc search job stay in the system for 24 hours or 7 days.
Optimization type arguments
Here are the search_optimization.<optimization_type>
arguments that you can use with noop
.
search_optimization argument | Controls |
---|---|
search_optimization.eval_merge | Eval merge optimization |
search_optimization.merge_union | Merge union optimization |
search_optimization.predicate_merge | Predicate merge optimizations |
search_optimization.predicate_push | Predicate pushdown optimizations |
search_optimization.predicate_split | Predicate split optimizations |
search_optimization.projection_elimination | Projection elimination optimizations |
search_optimization.required_field_values | Required field value optimizations |
search_optimization.replace_append_with_union | Replace append command with union command optimization |
search_optimization.replace_stats_cmds_with_tstats | Replace stats command with tstats command optimization This optimization type is disabled by default. |
search_optimization.search_flip_normalization | Predicate flip normalization |
search_optimization.search_sort_normalization | Predicate sort normalization |
For more information about specific search optimization types, see Built-in optimizations.
Log level expression options
- level
- Syntax: log_<level>
- Description: Valid values are the Splunk platform internal logging levels:
debug
,info
,warn
, anderror
, andfatal
. You can apply different log levels to different sets of channels.
- channel
- Syntax: <channel>; ...
- Description: Specifies one or more log channels to apply the log level to. Use wildcards to catch all channels with a matching string of characters in their name. The list of log channels is semicolon-separated.
- For example,
| noop log_debug="FastTyper;SearchParser"
runs log_debug on the FastTyper and SearchParser channels.
Appender expression options
- appender_name
- Syntax: <string>
- Description: The name of an appender from the
log-searchprocess.cfg
file. Use a wildcard*
to identify all appenders in thelog-searchprocess.cfg
file. Thenoop
parser is case-sensitive. It sends an error message if you submit an appender name with incorrect case-formatting.
- attribute_name
- Syntax: maxFileSize | maxBackupIndex | ConversionPattern | maxMessageSize
- Description: Attributes that can be changed for a given appender. The
noop
parser is case-sensitive, so do not change the case-formatting of these attributes. It sends an error message if you submit an appender name with incorrect case-formatting.
Attribute name Description Example value maxFileSize Sets the maximum size, in bytes, of a search.log
file before it rolls. You must provide a value that is higher than the value that is currently set for the selected appender in thelog-searchprocess.cfg
file.250000000 maxBackupIndex Sets the maximum number of rolled search.log
files. You must provide a value that is higher than the value that is currently set for the selected appender in thelog-searchprocess.cfg
file.5 ConversionPattern Specifies the log entry format. Possible variables are: %c (category), %d (date, followed by date variables in curly brackets), %m (log message), %n (newline), %p (priority - the log level), %r (relative time, msec), %R (relative time, sec), %t (thread time), and %T (thread ID). %d{%m-%d-%Y %H:%M:%S.%l} %-5p
%c - %m%nmaxMessageSize Sets the maximum size, in bytes, of messages sent by the log. Defaults to 16384. You must provide a value that is higher than the value that is currently set for the selected appender in the log-searchprocess.cfg
file.16384
- attribute_value
- Syntax: <string>
- Description: Provides an updated value for the selected appender attribute. The values you provide for the
maxFileSize
,maxBackupIndex
, andmaxMessageSize
attributes must be higher than the values that are currently set for those attributes in thelog-searchprocess.cfg
file. In other words, if themaxFileSize
setting for thesearchprocessAppender
is currently set to10000000
, you can only submit a newmaxFileSize
value that is higher than10000000
.
Usage
You can use the noop
command to enable or disable search optimizations when you run a search. Enabling or disabling search optimizations can help you troubleshoot certain kinds of search issues. For example, you might experiment with disabling and enabling search optimizations to determine whether they are causing a search to be slow to complete.
For information about managing search optimization through limits.conf
for all of the users in your Splunk platform deployment, see Built-in optimization in the Search Manual.
Managing all search optimizations with the noop command
The noop
command can enable or disable all search optimizations for a single run of a search.
If all search optimizations are enabled for your Splunk deployment in limits.conf
, you can add the following argument to the end of a search string to disable all optimizations when you run that search:
.... | noop search_optimization=false
If all search optimizations are disabled for your Splunk deployment in limits.conf
, you can add the following argument to the end of a search string to enable all search optimizations when you run that search:
.... | noop search_optimization=true
Managing specific search optimizations with the noop command
You can use the optimization_type
argument to selectively disable or enable specific types of search optimization.
Here is an example of a set of noop
arguments that disable the predicate merge and predicate pushdown optimizations for a search.
.... | noop search_optimization.predicate_merge=f, search_optimization.predicate_push=f
This example works only if you have enabled all optimizations in limits.conf
.
When you set enabled=false
for the [search_optimization]
stanza in limits.conf
you disable all search optimizations for your Splunk platform deployment. With this limits.conf
configuration, your searches can use noop
to enable all optimizations and selectively disable specific optimization types.
For example, if you have the [search_optimization]
stanza set to enabled = false
in limits.conf
, the following search enables all optimizations except projection elimination.
index=_internal | eval c = x * y / z | stats count BY a, b | noop search_optimization=true, search_optimization.projection_elimination=false
However, When you set enabled=false
for the [search_optimization]
stanza in limits.conf
, your searches cannot enable specific optimization types unless specific conditions are met. See How noop interoperates with limits.conf search optimization settings.
How the noop command interoperates with limits.conf search optimization settings
Review how you have configured search optimization for your Splunk platform deployment in limits.conf
before you use the noop
command to enable or disable optimization types. The search processor respects limits.conf
settings for optimization types only when [search_optimization]
is enabled.
For example, if the [search_optimization]
stanza is set to enabled=true
in limits.conf
, the search processor checks whether individual optimization types are enabled or disabled in limits.conf
. On the other hand, if the [search_optimization]
stanza is set to enabled = false
, the search processor does not check the settings for other optimization types. It assumes all of the optimization types are set to enabled=false
.
This search processor logic affects the way that the noop
command works when you use it to enable or disable search optimization for an individual search.
For example, imagine that you have the following configuration in limits.conf
:
[search_optimization] enabled=false [search_optimization::projection_elimination] enabled=false
With this configuration, the search processor ignores the disabled projection elimination optimization. Because [search_optimization]
is disabled, the search processor assumes all optimizations are disabled.
Say you have this configuration, and you run the following search, which uses the noop
command to enable search optimization:
.... | noop search_optimization=true
When you do this, you enable search optimization, but the search processor sees that in limits.conf
, the projection elimination optimization is disabled. It runs the search with all optimization types enabled except projection elimination.
Instead, use the noop
command in a search to enable search optimization and selectively enable the projection elimination optimization:
.... | noop search_optimization=true search_optimization.projection_elimination=true
When this search runs, it overrides both limits.conf
settings: the setting for [search_optimization]
and the setting for [search_optimization::projection_elimination]
. The search runs with all optimizations enabled.
Use noop to set debugging channels for a search
The log_<level>
argument lets you set the debugging channel for a search at a specific log level, such as debug
or warn
. You might use this if you need to set the log level for a specific search but do not have CLI access to the Splunk platform implementation.
The Splunk platform changes the log level after it parses the noop
command. It can do this before the search head parses arguments from other search commands, even if it comes after those commands in the search string. For instance, the following search properly logs some debug messages from the makeresults
command despite the fact that it precedes the noop
command:
| makeresults count=1 | noop log_debug="MakeResultsProcessor"
However, the log_<level>
argument cannot set the log level for search process components that are ahead of SPL argument processing in the order of operations. For example, LicenseMgr
is one of those components. When you run this search, it still logs at the default level of info
for LicenseMgr
even though you specify debug
in the SPL.
index=_internal | head 1 | noop log_debug="LicenseMgr"
If you have command-line access and you need to debug an issue with that component or ones like it, you can modify $SPLUNK_HOME/etc/log-searchprocess.cfg
directly to set the logging level before the search is dispatched and produce more verbose output in search.log
.
The noop
command must be part of the streaming pipeline. Because the Splunk software performs argument parsing on the search head and then pushes the search to the indexers, make sure that the noop
command is part of the streaming pipeline. Place the noop
command before the first non-streaming command in the search string. An easy way to do this is to put it after the first command in the search string, which is usually search
.
The log_<level>
argument supports wildcard matching. You can also set different log levels for different debugging channels in the same search.
.... | noop log_debug=Cache* log_info="SearchOperator:kv;SearchOperator:multikv"
For more information about logs and setting log levels for debugging channels, see What Splunk logs about itself in the Troubleshooting Manual.
Use noop to apply log-searchprocess.cfg appender attribute changes to a search job
For debugging purposes, you can use noop
to apply changed attributes for log-searchprocess.cfg
appenders to individual runs of a search. Appenders are blocks of configurations for specific sub-groups of log components. Example appenders include searchprocessAppender
, watchdog_appender
, and searchTelemetryAppender
. You can use the *
wildcard to select all appenders.
For example, the following search changes the maximum size of the search.log
file to 50 MB and sets the maximum number of rolled search.log
files to 99.
.... | noop log_appender="searchprocessAppender;maxFileSize=50000000;maxBackupIndex=99"
These changes are applied for the lifetime of that particular search. They are not saved or applied to other searches.
You can only change values for the following appender attributes: maxFileSize
, maxBackupIndex
, ConversionPattern
, and maxMessageSize
. Values you supply for maxFileSize
, maxBackupIndex
, and maxMessageSize
must be higher than the current values for those appender attributes in log-searchprocess.cfg
.
For more information about changing appender attributes for log debugging purposes, see Enable log debugging in the Troubleshooting Manual.
mcatalog | prjob |
This documentation applies to the following versions of Splunk Cloud Platform™: 9.3.2408, 9.0.2208, 9.0.2209, 9.0.2303, 9.0.2305, 9.1.2308, 9.1.2312, 9.2.2403, 9.2.2406 (latest FedRAMP release), 9.0.2205
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