--- title: Kapacitor command line client description: Overview of the Kapacitor command line client, commands, data sampling, and working with topics and tasks menu: kapacitor_1_4: name: Kapacitor command line client weight: 30 parent: Working with Kapacitor --- # Contents * [General options](#general-options) * [Core commands](#core-commands) * [Server management](#server-management) * [Services](#services) * [Logging](#logging) * [Data sampling](#data-sampling) * [Topics and topic handlers](#topics-and-topic-handlers) * [Tasks and task templates](#tasks-and-task-templates) ## Overview Two key executables are packaged as a part of Kapacitor. The daemon `kapacitord` runs the server, including its HTTP interface. The command line client `kapacitor` leverages the HTTP interface and other resources, to provide access to many Kapacitor features. A general introduction to the `kapacitor` client is presented in the [Getting started with Kapacitor](/kapacitor/v1.4/introduction/getting-started/). When executed the client can take two options and one command followed by arguments applicable to that command. ``` kapacitor [options] [command] [args] ``` This document provides an overview of all the commands that can be undertaken with `kapacitor` grouped by topical areas of interest. These include general options, core commands, server management, data sampling, working with topics and topic handlers, and working with tasks and task templates. ## General options By default the client attempts HTTP communication with the server running on localhost at port 9092. The server can also be deployed with SSL enabled. Two command line options make it possible to override the default communication settings and to use the client against any Kapacitor server. * `-url` This option supplies an HTTP url string (`http(s)://host:port`) to the Kapacitor server. When not set on the command line the value of the environment variable `KAPACITOR_URL` is used. * `-skipVerify` This option disables SSL verification. When not set on the command line the value of the environment variable `KAPACITOR_UNSAFE_SSL` is used. **Example 1: Using command line options** ``` $ kapacitor -skipVerify -url https://192.168.67.88:9092 list tasks ID Type Status Executing Databases and Retention Policies batch_load_test batch enabled true ["telegraf"."autogen"] chronograf-v1-b12b2554-cf38-4d7e-af24-5b0cd3cecc54 stream enabled true ["telegraf"."autogen"] cpu_alert stream disabled false ["telegraf"."autogen"] cpu_alert_topic stream disabled false ["telegraf"."autogen"] top_scores stream disabled false ["game"."autogen"] ``` ## Core commands Core commands are those most common in a command line application or are those which are the most commonly used. **`help`** This command brings up the help message. To get more detailed help on any command type `kapacitor help `. **`version` Use this command to print out the release version of the `kapacitor` client. **`list`** This command can be used to print out lists of different Kapacitor artifacts. **`delete`** This command can be used to remove different Kapacitor artifacts. The commands `list` and `delete` are presented in more detail in the following sections. ## Server management The `kapacitor` client can be used to investigate aspects of the server, to backup its data and to work with logs. One planned feature will be the ability to push task definitions to other servers. **`backup`** Use this command to back up the Kapacitor database. It takes the following form: ``` kapacitor backup [PATH_TO_BACKUP_FILE] ``` **Example 2: Backup** ``` $ kapacitor backup ~/bak/kapacitor-20180101.db $ ``` Note that this command will succeed silently. No status message is returned to the console. Errors such as insufficient permissions, or non-existent directories will be reported. To verify the results check the file system. **`stats`** This command displays statistics about the server. Takes the following form. ``` kapacitor stats [general|ingress] ``` * **`stats general`** Use this command to view values such as the server ID or hostname and to view counts such as the number of tasks and subscriptions used by Kapacitor. **Example 3: General statistics** ``` $ kapacitor stats general ClusterID: ef3b3f9d-0997-4c0b-b1b6-5d0fb37fe509 ServerID: 90582c9c-2e25-4654-903e-0acfc48fb5da Host: localhost Tasks: 8 Enabled Tasks: 2 Subscriptions: 12 Version: {{< latest-patch >}}~n201711280812 ``` * **`stats ingress`** Use this command to view InfluxDB measurements and the number of data points that pass through the Kapacitor server. **Example 4: Ingress statistics** ``` $ kapacitor stats ingress Database Retention Policy Measurement Points Received _internal monitor cq 5274 _internal monitor database 52740 _internal monitor httpd 5274 _internal monitor queryExecutor 5274 _internal monitor runtime 5274 _internal monitor shard 300976 _internal monitor subscriber 126576 _internal monitor tsm1_cache 300976 _internal monitor tsm1_engine 300976 _internal monitor tsm1_filestore 300976 _internal monitor tsm1_wal 300976 _internal monitor write 5274 _kapacitor autogen edges 26370 _kapacitor autogen ingress 73817 _kapacitor autogen kapacitor 2637 _kapacitor autogen load 2637 _kapacitor autogen nodes 23733 _kapacitor autogen runtime 2637 _kapacitor autogen topics 73836 chronograf autogen alerts 1560 telegraf autogen cpu 47502 telegraf autogen disk 31676 telegraf autogen diskio 52800 telegraf autogen kernel 5280 telegraf autogen mem 5280 telegraf autogen processes 5280 telegraf autogen swap 10560 telegraf autogen system 15840 ``` **`vars`** This command displays a wide range of variables associated with the kapacitor server. Results are written to the console in JSON format. To make the results more readable on a linux system, they can be piped to python `json.tool` or another JSON formatter. **Example 5: Kapacitor vars (partial results)** ``` $ kapacitor vars | python -m json.tool { "cluster_id": "ef3b3f9d-0997-4c0b-b1b6-5d0fb37fe509", "cmdline": [ "/usr/bin/kapacitord", "-config", "/etc/kapacitor/kapacitor.conf" ], "host": "localhost", "kapacitor": { "04d05f33-3811-4a19-bfea-ee260372ba54": { "name": "topics", "tags": { "cluster_id": "ef3b3f9d-0997-4c0b-b1b6-5d0fb37fe509", "host": "localhost", "id": "c0c740e5-0480-4b34-9cb2-c01ed45f8d70:cpu_alert:alert2", "server_id": "90582c9c-2e25-4654-903e-0acfc48fb5da" }, "values": { "collected": 0 } }, "06523946-cda3-40eb-85b0-5294d6319ea5": { "name": "ingress", "tags": { "cluster_id": "ef3b3f9d-0997-4c0b-b1b6-5d0fb37fe509", "database": "_kapacitor", "host": "localhost", "measurement": "kapacitor", "retention_policy": "autogen", "server_id": "90582c9c-2e25-4654-903e-0acfc48fb5da", "task_master": "main" }, "values": { "points_received": 307 } }, "074bb9e1-e617-4443-8b2f-697d60f05e54": { "name": "edges", ... ``` **`push`** This command is reserved for a planned feature, which will allow tasks to be pushed from one Kapacitor server to another. ### Services Services are functional modules of the Kapacitor server that handle communications with third party applications, server configuration, and discovery and scraping of data. For more information about services see the [Configuration](/kapacitor/v1.4/administration/configuration/) document. The current status of a service can be checked with the command line tool. **`list service-tests`** The universal `list` command makes it possible to list all of the service tests currently available on the server. It takes the following form: ``` kapacitor list service-tests (ID | Pattern) ``` To list all services starting with the letter `a`, the pattern `a*` could be used. **Example 6: Listing service tests** ``` $ kapacitor list service-tests Service Name alerta azure consul dns ec2 file-discovery gce hipchat httppost influxdb kubernetes marathon mqtt nerve opsgenie pagerduty pushover scraper sensu serverset slack smtp snmptrap static-discovery swarm talk telegram triton victorops ``` **`service-tests`** The `service-tests` command executes one or more of the available service tests. It takes the following form: ``` kapacitor service-tests [ ... | ] ``` `PATTERN` can be a grep-like pattern. For example, to run tests of all services beginning with the letter 'a' use the string 'a*'. **Example 7: Service test execution** ``` $ kapacitor service-tests slack talk smtp Service Success Message slack true talk false service is not enabled smtp false service is not enabled ``` Combining the `list service-tests` and `service-tests` commands, it is possible on a Linux system to test all services with the command: `kapacitor list service-tests |xargs kapacitor service-tests` ### Logging Kapacitor records a wealth of information about itself, its services and its tasks. Information about configuring logging is available in the [Configuration](/kapacitor/v1.4/administration/configuration/#logging) document. **`logs`** The `logs` command makes it possible to monitor log messages for a service from the console, or to monitor the entire kapacitor log stream. The log level can also be set. The command takes the following form: ``` kapacitor logs [service=] [lvl=] ``` The value for `lvl` can be one of the following: 1. `debug` 1. `info` 1. `error` Note that by default this will return messages only for the selected level. To view messages for the selected level and higher add a `+` character to the end of the string. **Example 8: Monitoring log messages of level DEBUG and above for the HTTP service** ``` $ kapacitor logs service=http lvl=debug+ ts=2018-01-15T10:47:10.017+01:00 lvl=info msg="http request" service=http host=127.0.0.1 username=- start=2018-01-15T10:47:10.014048161+01:00 method=POST uri=/write?consistency=&db=_internal&precision=ns&rp=monitor protocol=HTTP/1.1 status=204 referer=- user-agent=InfluxDBClient request-id=0e3c47c4-f9d9-11e7-85c5-000000000000 duration=3.234836ms ts=2018-01-15T10:47:10.020+01:00 lvl=info msg="http request" service=http host=127.0.0.1 username=- start=2018-01-15T10:47:10.013091282+01:00 method=POST uri=/write?consistency=&db=_internal&precision=ns&rp=monitor protocol=HTTP/1.1 status=204 referer=- user-agent=InfluxDBClient request-id=0e3c2267-f9d9-11e7-85c4-000000000000 duration=7.555256ms ts=2018-01-15T10:47:10.301+01:00 lvl=info msg="http request" service=http host=127.0.0.1 username=- start=2018-01-15T10:47:10.301315013+01:00 method=POST uri=/write?consistency=&db=telegraf&precision=ns&rp=autogen protocol=HTTP/1.1 status=204 referer=- user-agent=InfluxDBClient request-id=0e681d20-f9d9-11e7-85c7-000000000000 duration=306.967µs ts=2018-01-15T10:47:10.301+01:00 lvl=info msg="http request" service=http host=127.0.0.1 username=- start=2018-01-15T10:47:10.301249656+01:00 method=POST uri=/write?consistency=&db=telegraf&precision=ns&rp=autogen protocol=HTTP/1.1 status=204 referer=- user-agent=InfluxDBClient request-id=0e681a95-f9d9-11e7-85c6-000000000000 duration=387.042µs ... ``` To tail all Kapacitor logs, run the command without the `service` and `level` arguments. **Example 9: Tailing all Kapacitor logs** ``` $ kapacitor logs ts=2018-01-15T10:54:07.884+01:00 lvl=info msg="created log session" service=sessions id=33a21e96-49d5-4891-aad8-0bc96099d148 content-type= ts=2018-01-15T10:54:10.017+01:00 lvl=info msg="http request" service=http host=127.0.0.1 username=- start=2018-01-15T10:54:10.014885535+01:00 method=POST uri=/write?consistency=&db=_internal&precision=ns&rp=monitor protocol=HTTP/1.1 status=204 referer=- user-agent=InfluxDBClient request-id=0893527c-f9da-11e7-8672-000000000000 duration=2.870539ms ts=2018-01-15T10:54:10.020+01:00 lvl=info msg="http request" service=http host=127.0.0.1 username=- start=2018-01-15T10:54:10.017509083+01:00 method=POST uri=/write?consistency=&db=_internal&precision=ns&rp=monitor protocol=HTTP/1.1 status=204 referer=- user-agent=InfluxDBClient request-id=0893b8f6-f9da-11e7-8673-000000000000 duration=2.920775ms ... ``` **`level`** This command sets the log level for the Kapacitor log stream written to the log file from the Kapacitor server. On Linux systems this file is located by default at `/var/log/kapacitor/kapacitor.log`. The form it takes is as follows: ``` kapacitor level ``` The value for `LEVEL` can be one of the following: 1. `debug` 1. `info` 1. `error` To see the command take effect, tail the log file (e.g., `$sudo tail -f -n 128 /var/log/kapacitor/kapacitor.log`) and then set the log level to error. **Example 10: Setting the log level to ERROR** ``` kapacitor level error ``` The stream to the Kapacitor log should appear to stop. To activate it again, reset the log level to `debug`. **Example 11: Setting the log level to DEBUG** ``` kapacitor level debug ``` The tailed stream should become active again. **`watch`** This command allows logs associated with a task to be followed. Note that this is different from the `logs` command, which allows tracking logs associated with a service. The form it takes is as follows: ``` kapacitor watch [ ...] ``` **Example 12: Watching the `cpu_alert` tasks** ``` $ kapacitor watch cpu_alert ts=2018-01-15T11:31:30.301+01:00 lvl=debug msg="alert triggered" service=kapacitor task_master=main task=cpu_alert node=alert2 level=CRITICAL id=cpu:nil event_message="cpu:nil is CRITICAL" data="&{cpu map[cpu:cpu6 host:algonquin] [time usage_guest usage_guest_nice usage_idle usage_iowait usage_irq usage_nice usage_softirq usage_steal usage_system usage_user] [[2018-01-15 10:31:30 +0000 UTC 0 0 0 0 0 0 0 0 0 100.00000000000199]]}" ts=2018-01-15T11:31:30.315+01:00 lvl=debug msg="alert triggered" service=kapacitor task_master=main task=cpu_alert node=alert2 level=OK id=cpu:nil event_message="cpu:nil is OK" data="&{cpu map[cpu:cpu7 host:algonquin] [time usage_guest usage_guest_nice usage_idle usage_iowait usage_irq usage_nice usage_softirq usage_steal usage_system usage_user] [[2018-01-15 10:31:30 +0000 UTC 0 0 99.89989989990681 0 0 0 0 0 0 0.1001001001001535]]}" ts=2018-01-15T11:31:30.325+01:00 lvl=debug msg="alert triggered" service=kapacitor task_master=main task=cpu_alert node=alert2 level=CRITICAL id=cpu:nil event_message="cpu:nil is CRITICAL" data="&{cpu map[host:algonquin cpu:cpu6] [time usage_guest usage_guest_nice usage_idle usage_iowait usage_irq usage_nice usage_softirq usage_steal usage_system usage_user] [[2018-01-15 10:31:30 +0000 UTC 0 0 0 0 0 0 0 0 0 100.00000000000199]]}" ts=2018-01-15T11:31:30.335+01:00 lvl=debug msg="alert triggered" service=kapacitor task_master=main task=cpu_alert node=alert2 level=OK id=cpu:nil event_message="cpu:nil is OK" data="&{cpu map[host:algonquin cpu:cpu7] [time usage_guest usage_guest_nice usage_idle usage_iowait usage_irq usage_nice usage_softirq usage_steal usage_system usage_user] [[2018-01-15 10:31:30 +0000 UTC 0 0 99.89989989990681 0 0 0 0 0 0 0.1001001001001535]]}" ... ``` ## Data sampling At times it can be useful to record a sample of data or a query to troubleshoot tasks before they are enabled. The Kapacitor command line client includes a number of useful commands for managing data sampling. **`record`** This command can be used to record either a snapshot of data or the result of an InfluxDB query into the Kapacitor database. The data snapshot is later accessible using its `recording-id`. Three types of recording are available: `batch`, `stream` and `query`. * **`record batch`** Records the result of an InfluxDB query used in a batch type task. It takes the following form: ``` kapacitor record batch (-no-wait) [-past | -start -stop ] [-recording-id ] -task ``` This command requires either a time value for a window of past data from `now`, defined by the argument `-past` or a past interval defined by the arguments `-start` and `-stop`. A `-recording-id` is optional and will be generated if not provided. The `-task` argument with its `TASK_ID` is also required. The optional Boolean argument `-no-wait` will spawn the replay into a separate process and exit leaving it to run in the background. **Example 13: Record batch** ``` $ kapacitor record batch -past 5m -recording-id BlueJaySilverTree -task batch_load_test BlueJaySilverTree ``` * **`record stream`** Records a live stream of data. It takes the following form. ``` kapacitor record stream -duration (-no-wait) (-recording-id ) -task ``` This command requires a `-duration` value to determine how long the recording will run. The `-task` argument identifying the target task is also required. A `-recording-id` value is optional and when not provided will be generated. The optional Boolean argument `-no-wait` will spawn the replay into a separate process and exit leaving it to run in the background. Note that this command in combination with the `stream` option will run until the time duration has expired. It returns the recording ID in the console. **Example 14: Record stream** ``` $ kapacitor record stream -duration 1m -task cpu_alert 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 ``` * **`record query`** Records an InfluxDB query. It takes the following form: ``` kapacitor record query (-cluster ) (-no-wait) -query (-recording-id ) -type ``` This command requires an InfluxDB query provided through the `-query` argument. It also requires a `-type` value of either `batch` or `stream`. A `-recording-id` can also be provided and when not provided will be generated. The optional Boolean argument `-no-wait` will spawn the replay into a separate process and exit leaving it to run in the background. **Example 15: Record query** ``` $ kapacitor record query -query 'SELECT cpu, usage_idle from "telegraf"."autogen"."cpu" where time > now() - 5m' -type stream 0970bcb5-685c-48cc-9a92-741633633f1f ``` **`replay`** This command can be used to replay a recording to a task to verify how the task will behave. It takes the following form: ``` kapacitor replay (-no-wait) (-real-clock) (-rec-time) -recording (-replay-id ) -task ``` This command requires a recording ID provided through the argument `-recording` and a task ID provided through the argument `-task`. The optional Boolean argument `-real-clock` will toggle replaying the data according to the intervals between the timestamps contained within. The optional Boolean argument `-rec-time` will toggle using the actual recorded times instead of present times. Use of present times is the default behavior. An optional `-replay-id` can also be provided and when not provided will be generated. The optional Boolean argument `-no-wait` will spawn the replay into a separate process and exit leaving it to run in the background. **Example 16: Replaying a recording** ``` $ kapacitor replay -recording 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 -task cpu_alert bbe8567c-a642-4da9-83ef-2a7d32ad5eb1 ``` **`replay-live`** This command allows for data to be played on the fly against tasks, to verify task behavior. It can be executed against either a `batch` or a `query`. Kapacitor neither saves nor records the data in its database. * **`replay-live query`** With the query argument the replay executes an InfluxDB query against the task. The query should include the database, retention policy and measurement string. It takes the following form: ``` kapacitor replay-live query (-cluster ) (-no-wait) -query (-real-clock) (-rec-time) (-replay-id ) -task ``` This command requires an InfluxDB query provided through the `-query` argument. It also requires a task identified by the argument `-task`. A `-replay-id` can also be provided and when not provided will be generated. The optional Boolean argument `-no-wait` will spawn the replay into a separate process and exit leaving it to run in the background. The optional Boolean argument `-real-clock` will toggle replaying the data according to the intervals between the timestamps contained within. The optional Boolean argument `-rec-time` will toggle using the actual recorded times instead of present times. Use of present times is the default behavior. **Example 17: Replay live query** ``` $ kapacitor replay-live query -task cpu_alert -query 'select cpu, usage_idle from "telegraf"."autogen"."cpu" where time > now() - 5m' 2d9be22c-647a-425e-89fb-40543bdd3670 ``` * **`replay-live batch`** With the batch argument the replay executes the task with batch data already stored to InfluxDB. It takes the following form: ``` kapacitor replay-live batch (-no-wait) ( -past | -start -stop ) (-real-clock) (-rec-time) (-replay-id ) -task ``` This command requires either a time value for a window of past data from `now`, defined by the argument `-past` or a past interval defined by the arguments `-start` and `-stop`. A `-replay-id` is optional and will be generated if not provided. The `-task` argument with its `TASK_ID` is also required. The optional Boolean argument `-no-wait` will spawn the replay into a separate process and exit leaving it to run in the background. The optional Boolean argument `-real-clock` will toggle replaying the data according to the intervals between the timestamps contained within. The optional Boolean argument `-rec-time` will toggle using the actual recorded times instead of present times. Use of present times is the default behavior. **Example 18: Replay live batch** ``` $ kapacitor replay-live batch -start 2018-01-16T00:00:00Z -stop 2018-01-16T12:00:00Z -replay-id GoldRoosterColdBridge180116 -task batch_load_test GoldRoosterColdBridge180116 ``` **`list`** The universal `list` command can be used to list existing recordings and replays. * **`list recordings`** Use the `recordings` argument to list recordings. **Example 19: List recordings** ``` $ kapacitor list recordings ID Type Status Size Date 0970bcb5-685c-48cc-9a92-741633633f1f stream finished 3.2 kB 15 Jan 18 16:37 CET 78d3a26e-ea1f-4c52-bd56-2016997313fe stream finished 23 B 15 Jan 18 15:33 CET 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 stream finished 2.2 kB 15 Jan 18 15:25 CET BlueJaySilverTree batch finished 1.0 kB 15 Jan 18 15:18 CET 7d30caff-e443-4d5f-a0f2-6a933ea35284 batch finished 998 B 15 Jan 18 15:17 CET ``` * **`list replays`** Use the `replays` argument to list replays. **Example 20: List replays** ``` $ kapacitor list replays ID Task Recording Status Clock Date d861ee94-aec1-43b8-b362-5c3d9a036aff cpu_alert 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 running real 16 Jan 18 11:02 CET GoldRoosterColdBridge180116 batch_load_test finished fast 16 Jan 18 10:23 CET 2d9be22c-647a-425e-89fb-40543bdd3670 cpu_alert finished fast 16 Jan 18 10:12 CET b972582b-5be9-4626-87b7-c3d9bfc67981 batch_load_test finished fast 15 Jan 18 17:26 CET c060f960-6b02-49a7-9376-0ee55952a7f0 cpu_alert finished fast 15 Jan 18 17:25 CET 4a43565c-4678-4c98-94b7-e534efdff860 cpu_alert 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 finished fast 15 Jan 18 16:52 CET 31f8ea34-455b-4eee-abf2-ed1eb60166a5 cpu_alert 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 finished real 15 Jan 18 16:50 CET bbe8567c-a642-4da9-83ef-2a7d32ad5eb1 cpu_alert 4e0f09c5-1426-4778-8f9b-c4a88f5c2b66 finished fast 15 Jan 18 16:49 CET ``` **`delete`** The universal `delete` command can be used to remove existing recordings and replays. * **`delete recordings`** use the recordings argument to delete one or more recordings. It takes the following form. ``` kapacitor delete recordings [ID | Pattern] ``` `ID` needs to be the full ID of the recording, preferably copied and pasted from the results of the `list recordings` command. `Pattern` can be a grep-like pattern used to identify a set of recordings. For example, if the value `test0` was assigned to multiple `recording-id`s, (e.g. `test01`, `test02`, `test03`) then all `test` recordings could be removed with the pattern `"test*"`. **Example 21: Delete recordings** ``` $ kapacitor delete recordings "test*" $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify results use the `list recordings` command. * **`delete replays`** use the replays argument to delete one or more replays. It takes the following form. ``` kapacitor delete replays [ID | Pattern] ``` `ID` needs to be the full ID of the replay, preferably copied and pasted from the results of the `list replays` command. `Pattern` can be a grep-like pattern used to identify a set of replays. For example, if the value `test0` was assigned to multiple `replay-id`s, (e.g. `jan-run01`, `jan-run02`, `jan-run03`) then all `run` replays could be removed with the pattern `"jan-run*"`. **Example 22: Delete replays** ``` $ kapacitor delete replays "jan-run*" $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify the results, use the `list replays` command. ## Topics and topic handlers Topics are classes of subjects to which alerts can publish messages and to which other services can subscribe in order to receive those messages. Topic handlers bind topics to services, allowing messages to be forwarded by various means. Working with topics and topic handlers is introduced in the section [Alerts: Using topics](/kapacitor/v1.4/working/using_alert_topics/). Note that topics are created through the `topic` method of the `alert` node in TICKscripts. **`define-topic-handler`** This command defines or redefines a topic handler based on the contents of a topic handler script. It takes the following form: ``` kapacitor define-topic-handler ``` **Example 23: Defining a topic handler** ``` $ kapacitor define-topic-handler ./slack_cpu_handler.yaml $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify the results, use the `list topic-handlers` command. **`list`** The universal `list` command can be used to list both topics and topic handlers. * **`list topics`** Use the `list topics` command to display all topics currently stored by Kapacitor. This command requires no further arguments. **Example 24: Listing topics** ``` $ kapacitor list topics ID Level Collected 1252f40d-c998-430d-abaf-277c43d390e1:cpu_alert:alert2 OK 0 32fdb276-4d60-42bc-8f5d-c093e97bd3d0:batch_cpu_alert:alert2 OK 0 666c444c-a33e-42b5-af4d-732311b0e148:batch_cpu_alert:alert2 CRITICAL 0 cpu OK 0 main:batch_load_test:alert2 OK 7 main:chronograf-v1-b12b2554-cf38-4d7e-af24-5b0cd3cecc54:alert3 OK 1028 main:chronograf-v1-e77137c5-dcce-4fd5-a612-3cdaa5f98ef9:alert7 OK 0 main:cpu-alert-test:alert3 OK 0 ``` * **`list topic-handlers`** Use the `list topic-handlers` command to display handlers stored by Kapacitor. This command requires no further arguments. **Example 25: Listing topic handlers** ``` $ kapacitor list topic-handlers Topic ID Kind cpu slack slack ``` **`show-topic`** Use this command to see the details of a topic. It takes the following form: ``` kapacitor show-topic [TOPIC_ID] ``` **Example 26: Showing a topic** ``` $ kapacitor show-topic 1252f40d-c998-430d-abaf-277c43d390e1:cpu_alert:alert2 ID: 1252f40d-c998-430d-abaf-277c43d390e1:cpu_alert:alert2 Level: OK Collected: 0 Handlers: [] Events: Event Level Message Date cpu:nil OK cpu:nil is OK 13 Nov 17 13:34 CET ``` **`show-topic-handler`** This command writes out the topic-handler contents to the console. It takes the following form: ``` kapacitor show-topic-handler [TOPIC_ID] [HANDLER_ID] ``` **Example 27: Showing a topic handler** ``` $ kapacitor show-topic-handler cpu slack ID: slack Topic: cpu Kind: slack Match: Options: {"channel":"#kapacitor"} ``` **`delete`** The universal `delete` command can be used to remove topics and topic handlers. * **`delete topics`** Use the `topics` argument to remove one or more topics. It takes the following form: ``` kapacitor delete topics [ID | Pattern] ``` `Pattern` can be a grep-like pattern used to identify a set of topics. For example, if the value `cluster0` was assigned to multiple `topic`s, (e.g. `cluster01`, `cluster02`, `cluster03`), then all `cluster` topics could be removed with the pattern `"cluster*"`. **Example 28: Deleting a topic** ``` $ kapacitor delete topics 1252f40d-c998-430d-abaf-277c43d390e1:cpu_alert:alert2 $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify the results use the `list topics` command. * **`delete topic-handlers`** Use the `topic-handlers` argument to remove a topic handler. It takes the following form: ``` kapacitor delete topic-handler [TOPIC_ID] [HANDLER_ID] ``` The values for `TOPIC_ID` and `HANDLER_ID` can be determined using the `list` command. See Example 25 above. **Example 29: Deleting a topic handler** ``` $ kapacitor delete topic-handlers cpu slack $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify the results, use the `list topics` command. ## Tasks and task templates Tasks and task definitions comprise the core Kapacitor functionality. Tasks are introduced in the [Getting Started](/kapacitor/v1.4/introduction/getting-started/) guide and are explored in detail along side the [TICKscript](/kapacitor/v1.4/tick/). Task templates make it easy to reuse generic task structures to create a suite of similar tasks. They are introduced in the [Template Tasks](/kapacitor/v1.4/working/template_tasks/) document. **`define`** The `define` command is used to create a new task from a TICKscript. It takes one of the following three forms: 1. As a straight-forward task. 1. From a template. 1. From a template with a descriptor file. **As a straight-forward task** ``` kapacitor define -tick -type (-no-reload) -dbrp . ``` This form of the `define` command requires a new or existing task identifier provided immediately after the `define` token. If the identifier does not yet exist in Kapacitor, a new task will be created. If the identifier already exists, the existing task will be updated. A required path to a TICKscript is provided through the argument `tick`. The `-type` of task is also required, as is the target database and retention policy identified by the argument `-dbrp`. The optional Boolean argument `-no-reload` will prevent reloading the task into memory. The default behavior is to reload an updated task. **Example 30: Defining a new task - standard** ``` $ kapacitor define sandbox -tick sandbox.tick -type stream -dbrp "telegraf"."autogen" $ ``` Note that this task on success returns no status or additional messages. Some error messages associated with malformed or invalid TICKscripts may be returned. To verify the results, use the `list tasks` command. **From a template** ``` kapacitor define -template -vars (-no-reload) -dbrp . ``` This form of the `define` command requires a new or existing task identifier provided immediately after the `define` token. If the identifier does not yet exist in Kapacitor, a new task will be created. If the identifier already exists, the existing task will be updated. The required template to be used is identified with the `-template` argument. The target database and retention policy identified by the argument `-dbrp` is also required as is a path to the file containing variable definitions identified by the `-var` argument. The optional Boolean argument `-no-reload` will prevent reloading the task into memory. The default behavior is to reload an updated task. **Example 31: Defining a new task - from template** ``` $ kapacitor define cpu_idle -template generic_mean_alert -vars cpu_vars.json -dbrp "telegraf"."autogen" $ ``` Note that this task on success returns no status or additional messages. To verify the results use the `list tasks` command. **From a template with a descriptor file** ``` kapacitor define -file (-no-reload) ``` This form of the `define` command requires a new or existing task identifier provided immediately after the `define` token. If the identifier does not yet exist in Kapacitor a new task will be created. If the identifier already exists the existing task will be updated. A path to the file defining the template, database and retention policy and variables is required and provided through the `-file` argument. The optional Boolean argument `-no-reload` will prevent reloading the task into memory. The default behavior is to reload an updated task. **Example 32: Defining a new task - with a descriptor file** ``` $ kapacitor define mem_alert -file mem_alert_from_template.json $ ``` Note that this task on success returns no status or additional messages. To verify the results use the `list tasks` command. **`define-template`** Use this command to load a task template to Kapacitor. It takes the following form: ``` kapacitor define-template -tick -type ``` This command requires a new or existing template identifier provided immediately after the `define-template` token. If the identifier does not yet exist in Kapacitor a new template will be created. If the identifier already exists the existing template will be updated. The path to a TICKscript defining the template is also required and is provided through the argument `-tick`. Finally the `-type` of task must also be defined. **Example 33: Defining a new task template** ``` $ kapacitor define-template generic_mean_alert -tick template-task.tick -type stream $ ``` Note that this task on success returns no status or additional messages. To verify the results use the `list templates` command. **`enable`** When tasks are first created they are in a `disabled` state. Use this command to enable one or more tasks. It takes the following form: ``` kapacitor enable ... ``` **Example 34: Enabling a task** ``` $ kapacitor enable cpu_alert $ ``` Note that this task on success or failure returns no status or additional messages. To verify the results use the `list tasks` command. **`disable`** Use this command to disable one or more active tasks. It takes the following form: ``` kapacitor disable ... ``` **Example 35: Disabling a task** ``` $ kapacitor disable cpu_alert cpu_alert_topic sandbox $ ``` Note that this task on success or failure returns no status or additional messages. To verify the result use the `list tasks` command. **`reload`** When troubleshooting a task it may be useful to stop it and then start it again. This command will disable and then enable one or more tasks. It takes the following form: ``` kapacitor reload ... ``` Note that to redefine a task simply run the `define` command with an updated TICKscript, template or template file. **Example 36: Reloading a task** ``` $ kapacitor reload cpu_alert $ ``` Note that this task on success or failure returns no status or additional messages. To verify the result use the `list tasks` command. **`list`** The universal `list` command can be used to list tasks and task templates. * **`list tasks`** Use the `list tasks` command to display all tasks currently stored by Kapacitor. This command requires no further arguments. **Example 37: Listing tasks** ``` $ kapacitor list tasks ID Type Status Executing Databases and Retention Policies 8405b862-e488-447d-a021-b1b7fe0d7194 stream disabled false ["telegraf"."autogen"] batch_load_test batch enabled true ["telegraf"."autogen"] chronograf-v1-b12b2554-cf38-4d7e-af24-5b0cd3cecc54 stream enabled true ["telegraf"."autogen"] cpu_alert stream enabled true ["telegraf"."autogen"] cpu_idle stream disabled false ["telegraf"."autogen"] sandbox stream disabled false ["blabla"."autogen"] ``` * **`list templates`** Use the `list templates` command to display all templates currently stored by Kapacitor. This command requires no further arguments. **Example 38: Listing templates** ``` $ kapacitor list templates ID Type Vars generic_mean_alert stream crit,field,groups,measurement,slack_channel,warn,where_filter,window ``` **`show`** Use this command to see the details of a task. It takes the following form: ``` kapacitor show (-replay ) [TASK_ID] ``` `REPLAY_ID` is the identifier of a currently running replay. **Example 39: Showing a task** ``` $ kapacitor show cpu_alert ID: cpu_alert Error: Template: Type: stream Status: enabled Executing: true Created: 13 Nov 17 13:38 CET Modified: 16 Jan 18 17:11 CET LastEnabled: 16 Jan 18 17:11 CET Databases Retention Policies: ["telegraf"."autogen"] TICKscript: stream // Select just the cpu measurement from our example database. |from() .measurement('cpu') |alert() .crit(lambda: int("usage_idle") < 70) // Whenever we get an alert write it to a file. .log('/tmp/alerts.log') DOT: digraph cpu_alert { graph [throughput="0.00 points/s"]; stream0 [avg_exec_time_ns="0s" errors="0" working_cardinality="0" ]; stream0 -> from1 [processed="2574"]; from1 [avg_exec_time_ns="1.92µs" errors="0" working_cardinality="0" ]; from1 -> alert2 [processed="2574"]; alert2 [alerts_triggered="147" avg_exec_time_ns="1.665189ms" crits_triggered="104" errors="0" infos_triggered="0" oks_triggered="43" warns_triggered="0" working_cardinality="1" ]; } ``` **`show-template`** Use this command to see the details of a task template. It takes the following form: ``` kapacitor show-template [TEMPLATE_ID] ``` **Example 40: Showing a task template** ``` $ kapacitor show-template generic_mean_alert ID: generic_mean_alert Error: Type: stream Created: 25 Oct 17 10:12 CEST Modified: 16 Jan 18 16:52 CET TICKscript: // Which measurement to consume var measurement string // Optional where filter var where_filter = lambda: TRUE // Optional list of group by dimensions var groups = [*] // Which field to process var field string // Warning criteria, has access to 'mean' field var warn lambda // Critical criteria, has access to 'mean' field var crit lambda // How much data to window var window = 5m // The slack channel for alerts var slack_channel = '#kapacitor' stream |from() .measurement(measurement) .where(where_filter) .groupBy(groups) |window() .period(window) .every(window) |mean(field) |alert() .warn(warn) .crit(crit) .slack() .channel(slack_channel) Vars: Name Type Default Value Description crit lambda Critical criteria, has access to 'mean' field field string Which field to process groups list [*] Optional list of group by dimensions measurement string Which measurement to consume slack_channel string #kapacitor The slack channel for alerts warn lambda Warning criteria, has access to 'mean' field where_filter lambda TRUE Optional where filter window duration 5m0s How much data to window DOT: digraph generic_mean_alert { stream0 -> from1; from1 -> window2; window2 -> mean3; mean3 -> alert4; } ``` **`delete`** The universal `delete` command can be used to remove tasks and task templates. * **`delete tasks`**` Use the `tasks` argument to remove one or more tasks. It takes the following form: ``` kapacitor delete tasks [ID | Pattern] ``` `Pattern` can be a GREP like pattern used to identify a set of tasks. For example if the value `cpu0` was assigned to multiple `task`s, (e.g. `cpu01`, `cpu02`, `cpu03`) then all `cpu` tests could be removed with the pattern `"cpu*"`. **Example 41: Deleting a task** ``` $ kapacitor delete tasks 8405b862-e488-447d-a021-b1b7fe0d7194 $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify the results use the `list tasks` command. * **`delete templates`** Use the `templates` argument to remove one or more templates. It takes the following form: ``` kapacitor delete templates [ID | Pattern] ``` `Pattern` can be a GREP like pattern used to identify a set of task templates. For example if the value `generic0` was assigned to multiple `template`s, (e.g. `generic01`, `generic02`, `generic03`) then all `generic` templates could be removed with the pattern `"generic*"`. **Example 42: Deleting a template** ``` $ kapacitor delete templates generic_mean_alert $ ``` Note that this command returns no status or additional messages. It fails or succeeds silently. To verify the results use the `list templates` command.