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POST https://api.ap1.datadoghq.com/api/v1/monitorhttps://api.datadoghq.eu/api/v1/monitorhttps://api.ddog-gov.com/api/v1/monitorhttps://api.datadoghq.com/api/v1/monitorhttps://api.us3.datadoghq.com/api/v1/monitorhttps://api.us5.datadoghq.com/api/v1/monitor
Create a monitor using the specified options.
The type of monitor chosen from:
query alert
query alert
or trace-analytics alert
composite
service check
query alert
service check
query alert
or service check
process alert
log alert
query alert
service check
query alert
service check
rum alert
slo alert
event-v2 alert
event-v2 alert
audit alert
error-tracking alert
database-monitoring alert
network-performance alert
cost alert
Notes:
Example: time_aggr(time_window):space_aggr:metric{tags} [by {key}] operator #
time_aggr
: avg, sum, max, min, change, or pct_changetime_window
: last_#m
(with #
between 1 and 10080 depending on the monitor type) or last_#h
(with #
between 1 and 168 depending on the monitor type) or last_1d
, or last_1w
space_aggr
: avg, sum, min, or maxtags
: one or more tags (comma-separated), or *key
: a ‘key’ in key:value tag syntax; defines a separate alert for each tag in the group (multi-alert)operator
: <, <=, >, >=, ==, or !=#
: an integer or decimal number used to set the thresholdIf you are using the _change_
or _pct_change_
time aggregator, instead use change_aggr(time_aggr(time_window), timeshift):space_aggr:metric{tags} [by {key}] operator #
with:
change_aggr
change, pct_changetime_aggr
avg, sum, max, min Learn moretime_window
last_#m (between 1 and 2880 depending on the monitor type), last_#h (between 1 and 48 depending on the monitor type), or last_#d (1 or 2)timeshift
#m_ago (5, 10, 15, or 30), #h_ago (1, 2, or 4), or 1d_agoUse this to create an outlier monitor using the following query:
avg(last_30m):outliers(avg:system.cpu.user{role:es-events-data} by {host}, 'dbscan', 7) > 0
Example: "check".over(tags).last(count).by(group).count_by_status()
check
name of the check, for example datadog.agent.up
tags
one or more quoted tags (comma-separated), or “*”. for example: .over("env:prod", "role:db")
; over
cannot be blank.count
must be at greater than or equal to your max threshold (defined in the options
). It is limited to 100.
For example, if you’ve specified to notify on 1 critical, 3 ok, and 2 warn statuses, count
should be at least 3.group
must be specified for check monitors. Per-check grouping is already explicitly known for some service checks.
For example, Postgres integration monitors are tagged by db
, host
, and port
, and Network monitors by host
, instance
, and url
. See Service Checks documentation for more information.Note: The Event Alert Query has been replaced by the Event V2 Alert Query. For more information, see the Event Migration guide.
Example: events(query).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.rollup_method
The stats roll-up method - supports count
, avg
and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.Example: processes(search).over(tags).rollup('count').last(timeframe) operator #
search
free text search string for querying processes.
Matching processes match results on the Live Processes page.tags
one or more tags (comma-separated)timeframe
the timeframe to roll up the counts. Examples: 10m, 4h. Supported timeframes: s, m, h and doperator
<, <=, >, >=, ==, or !=#
an integer or decimal number used to set the thresholdExample: logs(query).index(index_name).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.index_name
For multi-index organizations, the log index in which the request is performed.rollup_method
The stats roll-up method - supports count
, avg
and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.Example: 12345 && 67890
, where 12345
and 67890
are the IDs of non-composite monitors
name
[required, default = dynamic, based on query]: The name of the alert.message
[required, default = dynamic, based on query]: A message to include with notifications for this monitor.
Email notifications can be sent to specific users by using the same ‘@username’ notation as events.tags
[optional, default = empty list]: A list of tags to associate with your monitor.
When getting all monitor details via the API, use the monitor_tags
argument to filter results by these tags.
It is only available via the API and isn’t visible or editable in the Datadog UI.Example: error_budget("slo_id").over("time_window") operator #
slo_id
: The alphanumeric SLO ID of the SLO you are configuring the alert for.time_window
: The time window of the SLO target you wish to alert on. Valid options: 7d
, 30d
, 90d
.operator
: >=
or >
Example: audits(query).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.rollup_method
The stats roll-up method - supports count
, avg
and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.Example: ci-pipelines(query).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.rollup_method
The stats roll-up method - supports count
, avg
, and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.Example: ci-tests(query).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.rollup_method
The stats roll-up method - supports count
, avg
, and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.“New issue” example: error-tracking(query).source(issue_source).new().rollup(rollup_method[, measure]).by(group_by).last(time_window) operator #
“High impact issue” example: error-tracking(query).source(issue_source).impact().rollup(rollup_method[, measure]).by(group_by).last(time_window) operator #
query
The search query - following the Log search syntax.issue_source
The issue source - supports all
, browser
, mobile
and backend
and defaults to all
if omitted.rollup_method
The stats roll-up method - supports count
, avg
, and cardinality
and defaults to count
if omitted.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.group by
Comma-separated list of attributes to group by - should contain at least issue.id
.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.Database Monitoring Alert Query
Example: database-monitoring(query).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.rollup_method
The stats roll-up method - supports count
, avg
, and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.Network Performance Alert Query
Example: network-performance(query).rollup(rollup_method[, measure]).last(time_window) operator #
query
The search query - following the Log search syntax.rollup_method
The stats roll-up method - supports count
, avg
, and cardinality
.measure
For avg
and cardinality rollup_method
- specify the measure or the facet name you want to use.time_window
#m (between 1 and 2880), #h (between 1 and 48).operator
<
, <=
, >
, >=
, ==
, or !=
.#
an integer or decimal number used to set the threshold.monitors_write
permission.OAuth apps require the monitors_write
authorization scope to access this endpoint.
Create a monitor request body.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"name": "Example-Monitor",
"type": "rum alert",
"query": "formula(\"query2 / query1 * 100\").last(\"15m\") >= 0.8",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"thresholds": {
"critical": 0.8
},
"variables": [
{
"data_source": "rum",
"name": "query2",
"search": {
"query": ""
},
"indexes": [
"*"
],
"compute": {
"aggregation": "count"
},
"group_by": []
},
{
"data_source": "rum",
"name": "query1",
"search": {
"query": "status:error"
},
"indexes": [
"*"
],
"compute": {
"aggregation": "count"
},
"group_by": []
}
]
}
}
{
"name": "Example-Monitor",
"type": "ci-pipelines alert",
"query": "formula(\"query1 / query2 * 100\").last(\"15m\") >= 0.8",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"thresholds": {
"critical": 0.8
},
"variables": [
{
"data_source": "ci_pipelines",
"name": "query1",
"search": {
"query": "@ci.status:error"
},
"indexes": [
"*"
],
"compute": {
"aggregation": "count"
},
"group_by": []
},
{
"data_source": "ci_pipelines",
"name": "query2",
"search": {
"query": ""
},
"indexes": [
"*"
],
"compute": {
"aggregation": "count"
},
"group_by": []
}
]
}
}
{
"name": "Example-Monitor",
"type": "ci-pipelines alert",
"query": "ci-pipelines(\"ci_level:pipeline @git.branch:staging* @ci.status:error\").rollup(\"count\").by(\"@git.branch,@ci.pipeline.name\").last(\"5m\") >= 1",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"thresholds": {
"critical": 1
}
}
}
OK
Object describing a monitor.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
## json-request-body
#
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"message": "You may need to add web hosts if this is consistently high.",
"name": "Bytes received on host0",
"options": {
"no_data_timeframe": 20,
"notify_no_data": true
},
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} \u003e 100",
"tags": [
"app:webserver",
"frontend"
],
"type": "query alert"
}
EOF
## json-request-body
#
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"message": "You may need to add web hosts if this is consistently high.",
"name": "Bytes received on host0",
"options": {
"no_data_timeframe": 20,
"notify_no_data": true
},
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} \u003e 100",
"tags": [
"app:webserver",
"frontend"
],
"type": "query alert"
}
EOF
## json-request-body
#
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"message": "You may need to add web hosts if this is consistently high.",
"name": "Bytes received on host0",
"options": {
"no_data_timeframe": 20,
"notify_no_data": true
},
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} \u003e 100",
"tags": [
"app:webserver",
"frontend"
],
"type": "query alert"
}
EOF
// Create a RUM formula and functions monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Monitor{
Name: datadog.PtrString("Example-Monitor"),
Type: datadogV1.MONITORTYPE_RUM_ALERT,
Query: `formula("query2 / query1 * 100").last("15m") >= 0.8`,
Message: datadog.PtrString("some message Notify: @hipchat-channel"),
Tags: []string{
"test:examplemonitor",
"env:ci",
},
Priority: *datadog.NewNullableInt64(datadog.PtrInt64(3)),
Options: &datadogV1.MonitorOptions{
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(0.8),
},
Variables: []datadogV1.MonitorFormulaAndFunctionQueryDefinition{
datadogV1.MonitorFormulaAndFunctionQueryDefinition{
MonitorFormulaAndFunctionEventQueryDefinition: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinition{
DataSource: datadogV1.MONITORFORMULAANDFUNCTIONEVENTSDATASOURCE_RUM,
Name: "query2",
Search: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionSearch{
Query: "",
},
Indexes: []string{
"*",
},
Compute: datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionCompute{
Aggregation: datadogV1.MONITORFORMULAANDFUNCTIONEVENTAGGREGATION_COUNT,
},
GroupBy: []datadogV1.MonitorFormulaAndFunctionEventQueryGroupBy{},
}},
datadogV1.MonitorFormulaAndFunctionQueryDefinition{
MonitorFormulaAndFunctionEventQueryDefinition: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinition{
DataSource: datadogV1.MONITORFORMULAANDFUNCTIONEVENTSDATASOURCE_RUM,
Name: "query1",
Search: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionSearch{
Query: "status:error",
},
Indexes: []string{
"*",
},
Compute: datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionCompute{
Aggregation: datadogV1.MONITORFORMULAANDFUNCTIONEVENTAGGREGATION_COUNT,
},
GroupBy: []datadogV1.MonitorFormulaAndFunctionEventQueryGroupBy{},
}},
},
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.CreateMonitor(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.CreateMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.CreateMonitor`:\n%s\n", responseContent)
}
// Create a ci-pipelines formula and functions monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Monitor{
Name: datadog.PtrString("Example-Monitor"),
Type: datadogV1.MONITORTYPE_CI_PIPELINES_ALERT,
Query: `formula("query1 / query2 * 100").last("15m") >= 0.8`,
Message: datadog.PtrString("some message Notify: @hipchat-channel"),
Tags: []string{
"test:examplemonitor",
"env:ci",
},
Priority: *datadog.NewNullableInt64(datadog.PtrInt64(3)),
Options: &datadogV1.MonitorOptions{
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(0.8),
},
Variables: []datadogV1.MonitorFormulaAndFunctionQueryDefinition{
datadogV1.MonitorFormulaAndFunctionQueryDefinition{
MonitorFormulaAndFunctionEventQueryDefinition: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinition{
DataSource: datadogV1.MONITORFORMULAANDFUNCTIONEVENTSDATASOURCE_CI_PIPELINES,
Name: "query1",
Search: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionSearch{
Query: "@ci.status:error",
},
Indexes: []string{
"*",
},
Compute: datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionCompute{
Aggregation: datadogV1.MONITORFORMULAANDFUNCTIONEVENTAGGREGATION_COUNT,
},
GroupBy: []datadogV1.MonitorFormulaAndFunctionEventQueryGroupBy{},
}},
datadogV1.MonitorFormulaAndFunctionQueryDefinition{
MonitorFormulaAndFunctionEventQueryDefinition: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinition{
DataSource: datadogV1.MONITORFORMULAANDFUNCTIONEVENTSDATASOURCE_CI_PIPELINES,
Name: "query2",
Search: &datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionSearch{
Query: "",
},
Indexes: []string{
"*",
},
Compute: datadogV1.MonitorFormulaAndFunctionEventQueryDefinitionCompute{
Aggregation: datadogV1.MONITORFORMULAANDFUNCTIONEVENTAGGREGATION_COUNT,
},
GroupBy: []datadogV1.MonitorFormulaAndFunctionEventQueryGroupBy{},
}},
},
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.CreateMonitor(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.CreateMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.CreateMonitor`:\n%s\n", responseContent)
}
// Create a ci-pipelines monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Monitor{
Name: datadog.PtrString("Example-Monitor"),
Type: datadogV1.MONITORTYPE_CI_PIPELINES_ALERT,
Query: `ci-pipelines("ci_level:pipeline @git.branch:staging* @ci.status:error").rollup("count").by("@git.branch,@ci.pipeline.name").last("5m") >= 1`,
Message: datadog.PtrString("some message Notify: @hipchat-channel"),
Tags: []string{
"test:examplemonitor",
"env:ci",
},
Priority: *datadog.NewNullableInt64(datadog.PtrInt64(3)),
Options: &datadogV1.MonitorOptions{
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(1),
},
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.CreateMonitor(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.CreateMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.CreateMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Create a RUM formula and functions monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventAggregation;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventQueryDefinition;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventQueryDefinitionCompute;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventQueryDefinitionSearch;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventsDataSource;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionQueryDefinition;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorType;
import java.util.Arrays;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
Monitor body =
new Monitor()
.name("Example-Monitor")
.type(MonitorType.RUM_ALERT)
.query("""
formula("query2 / query1 * 100").last("15m") >= 0.8
""")
.message("some message Notify: @hipchat-channel")
.tags(Arrays.asList("test:examplemonitor", "env:ci"))
.priority(3L)
.options(
new MonitorOptions()
.thresholds(new MonitorThresholds().critical(0.8))
.variables(
Arrays.asList(
new MonitorFormulaAndFunctionQueryDefinition(
new MonitorFormulaAndFunctionEventQueryDefinition()
.dataSource(MonitorFormulaAndFunctionEventsDataSource.RUM)
.name("query2")
.search(
new MonitorFormulaAndFunctionEventQueryDefinitionSearch()
.query(""))
.indexes(Collections.singletonList("*"))
.compute(
new MonitorFormulaAndFunctionEventQueryDefinitionCompute()
.aggregation(
MonitorFormulaAndFunctionEventAggregation.COUNT))),
new MonitorFormulaAndFunctionQueryDefinition(
new MonitorFormulaAndFunctionEventQueryDefinition()
.dataSource(MonitorFormulaAndFunctionEventsDataSource.RUM)
.name("query1")
.search(
new MonitorFormulaAndFunctionEventQueryDefinitionSearch()
.query("status:error"))
.indexes(Collections.singletonList("*"))
.compute(
new MonitorFormulaAndFunctionEventQueryDefinitionCompute()
.aggregation(
MonitorFormulaAndFunctionEventAggregation
.COUNT))))));
try {
Monitor result = apiInstance.createMonitor(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#createMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
// Create a ci-pipelines formula and functions monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventAggregation;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventQueryDefinition;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventQueryDefinitionCompute;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventQueryDefinitionSearch;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionEventsDataSource;
import com.datadog.api.client.v1.model.MonitorFormulaAndFunctionQueryDefinition;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorType;
import java.util.Arrays;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
Monitor body =
new Monitor()
.name("Example-Monitor")
.type(MonitorType.CI_PIPELINES_ALERT)
.query("""
formula("query1 / query2 * 100").last("15m") >= 0.8
""")
.message("some message Notify: @hipchat-channel")
.tags(Arrays.asList("test:examplemonitor", "env:ci"))
.priority(3L)
.options(
new MonitorOptions()
.thresholds(new MonitorThresholds().critical(0.8))
.variables(
Arrays.asList(
new MonitorFormulaAndFunctionQueryDefinition(
new MonitorFormulaAndFunctionEventQueryDefinition()
.dataSource(
MonitorFormulaAndFunctionEventsDataSource.CI_PIPELINES)
.name("query1")
.search(
new MonitorFormulaAndFunctionEventQueryDefinitionSearch()
.query("@ci.status:error"))
.indexes(Collections.singletonList("*"))
.compute(
new MonitorFormulaAndFunctionEventQueryDefinitionCompute()
.aggregation(
MonitorFormulaAndFunctionEventAggregation.COUNT))),
new MonitorFormulaAndFunctionQueryDefinition(
new MonitorFormulaAndFunctionEventQueryDefinition()
.dataSource(
MonitorFormulaAndFunctionEventsDataSource.CI_PIPELINES)
.name("query2")
.search(
new MonitorFormulaAndFunctionEventQueryDefinitionSearch()
.query(""))
.indexes(Collections.singletonList("*"))
.compute(
new MonitorFormulaAndFunctionEventQueryDefinitionCompute()
.aggregation(
MonitorFormulaAndFunctionEventAggregation
.COUNT))))));
try {
Monitor result = apiInstance.createMonitor(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#createMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
// Create a ci-pipelines monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorType;
import java.util.Arrays;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
Monitor body =
new Monitor()
.name("Example-Monitor")
.type(MonitorType.CI_PIPELINES_ALERT)
.query(
"""
ci-pipelines("ci_level:pipeline @git.branch:staging* @ci.status:error").rollup("count").by("@git.branch,@ci.pipeline.name").last("5m") >= 1
""")
.message("some message Notify: @hipchat-channel")
.tags(Arrays.asList("test:examplemonitor", "env:ci"))
.priority(3L)
.options(new MonitorOptions().thresholds(new MonitorThresholds().critical(1.0)));
try {
Monitor result = apiInstance.createMonitor(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#createMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Create a new monitor
monitor_options = {
"notify_no_data": True,
"no_data_timeframe": 20
}
tags = ["app:webserver", "frontend"]
api.Monitor.create(
type="query alert",
query="avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
name="Bytes received on host0",
message="We may need to add web hosts if this is consistently high.",
tags=tags,
options=monitor_options
)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
"""
Create a RUM formula and functions monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor import Monitor
from datadog_api_client.v1.model.monitor_formula_and_function_event_aggregation import (
MonitorFormulaAndFunctionEventAggregation,
)
from datadog_api_client.v1.model.monitor_formula_and_function_event_query_definition import (
MonitorFormulaAndFunctionEventQueryDefinition,
)
from datadog_api_client.v1.model.monitor_formula_and_function_event_query_definition_compute import (
MonitorFormulaAndFunctionEventQueryDefinitionCompute,
)
from datadog_api_client.v1.model.monitor_formula_and_function_event_query_definition_search import (
MonitorFormulaAndFunctionEventQueryDefinitionSearch,
)
from datadog_api_client.v1.model.monitor_formula_and_function_events_data_source import (
MonitorFormulaAndFunctionEventsDataSource,
)
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_type import MonitorType
body = Monitor(
name="Example-Monitor",
type=MonitorType.RUM_ALERT,
query='formula("query2 / query1 * 100").last("15m") >= 0.8',
message="some message Notify: @hipchat-channel",
tags=[
"test:examplemonitor",
"env:ci",
],
priority=3,
options=MonitorOptions(
thresholds=MonitorThresholds(
critical=0.8,
),
variables=[
MonitorFormulaAndFunctionEventQueryDefinition(
data_source=MonitorFormulaAndFunctionEventsDataSource.RUM,
name="query2",
search=MonitorFormulaAndFunctionEventQueryDefinitionSearch(
query="",
),
indexes=[
"*",
],
compute=MonitorFormulaAndFunctionEventQueryDefinitionCompute(
aggregation=MonitorFormulaAndFunctionEventAggregation.COUNT,
),
group_by=[],
),
MonitorFormulaAndFunctionEventQueryDefinition(
data_source=MonitorFormulaAndFunctionEventsDataSource.RUM,
name="query1",
search=MonitorFormulaAndFunctionEventQueryDefinitionSearch(
query="status:error",
),
indexes=[
"*",
],
compute=MonitorFormulaAndFunctionEventQueryDefinitionCompute(
aggregation=MonitorFormulaAndFunctionEventAggregation.COUNT,
),
group_by=[],
),
],
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.create_monitor(body=body)
print(response)
"""
Create a ci-pipelines formula and functions monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor import Monitor
from datadog_api_client.v1.model.monitor_formula_and_function_event_aggregation import (
MonitorFormulaAndFunctionEventAggregation,
)
from datadog_api_client.v1.model.monitor_formula_and_function_event_query_definition import (
MonitorFormulaAndFunctionEventQueryDefinition,
)
from datadog_api_client.v1.model.monitor_formula_and_function_event_query_definition_compute import (
MonitorFormulaAndFunctionEventQueryDefinitionCompute,
)
from datadog_api_client.v1.model.monitor_formula_and_function_event_query_definition_search import (
MonitorFormulaAndFunctionEventQueryDefinitionSearch,
)
from datadog_api_client.v1.model.monitor_formula_and_function_events_data_source import (
MonitorFormulaAndFunctionEventsDataSource,
)
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_type import MonitorType
body = Monitor(
name="Example-Monitor",
type=MonitorType.CI_PIPELINES_ALERT,
query='formula("query1 / query2 * 100").last("15m") >= 0.8',
message="some message Notify: @hipchat-channel",
tags=[
"test:examplemonitor",
"env:ci",
],
priority=3,
options=MonitorOptions(
thresholds=MonitorThresholds(
critical=0.8,
),
variables=[
MonitorFormulaAndFunctionEventQueryDefinition(
data_source=MonitorFormulaAndFunctionEventsDataSource.CI_PIPELINES,
name="query1",
search=MonitorFormulaAndFunctionEventQueryDefinitionSearch(
query="@ci.status:error",
),
indexes=[
"*",
],
compute=MonitorFormulaAndFunctionEventQueryDefinitionCompute(
aggregation=MonitorFormulaAndFunctionEventAggregation.COUNT,
),
group_by=[],
),
MonitorFormulaAndFunctionEventQueryDefinition(
data_source=MonitorFormulaAndFunctionEventsDataSource.CI_PIPELINES,
name="query2",
search=MonitorFormulaAndFunctionEventQueryDefinitionSearch(
query="",
),
indexes=[
"*",
],
compute=MonitorFormulaAndFunctionEventQueryDefinitionCompute(
aggregation=MonitorFormulaAndFunctionEventAggregation.COUNT,
),
group_by=[],
),
],
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.create_monitor(body=body)
print(response)
"""
Create a ci-pipelines monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor import Monitor
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_type import MonitorType
body = Monitor(
name="Example-Monitor",
type=MonitorType.CI_PIPELINES_ALERT,
query='ci-pipelines("ci_level:pipeline @git.branch:staging* @ci.status:error").rollup("count").by("@git.branch,@ci.pipeline.name").last("5m") >= 1',
message="some message Notify: @hipchat-channel",
tags=[
"test:examplemonitor",
"env:ci",
],
priority=3,
options=MonitorOptions(
thresholds=MonitorThresholds(
critical=1.0,
),
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.create_monitor(body=body)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Create a new monitor
options = {
'notify_no_data' => true,
'no_data_timeframe' => 20
}
tags = ['app:webserver', 'frontend']
dog.monitor(
'query alert',
'avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100',
name: 'Bytes received on host0',
message: 'We may need to add web hosts if this is consistently high.',
tags: tags,
options: options
)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
# Create a RUM formula and functions monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
body = DatadogAPIClient::V1::Monitor.new({
name: "Example-Monitor",
type: DatadogAPIClient::V1::MonitorType::RUM_ALERT,
query: 'formula("query2 / query1 * 100").last("15m") >= 0.8',
message: "some message Notify: @hipchat-channel",
tags: [
"test:examplemonitor",
"env:ci",
],
priority: 3,
options: DatadogAPIClient::V1::MonitorOptions.new({
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 0.8,
}),
variables: [
DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinition.new({
data_source: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventsDataSource::RUM,
name: "query2",
search: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionSearch.new({
query: "",
}),
indexes: [
"*",
],
compute: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionCompute.new({
aggregation: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventAggregation::COUNT,
}),
group_by: [],
}),
DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinition.new({
data_source: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventsDataSource::RUM,
name: "query1",
search: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionSearch.new({
query: "status:error",
}),
indexes: [
"*",
],
compute: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionCompute.new({
aggregation: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventAggregation::COUNT,
}),
group_by: [],
}),
],
}),
})
p api_instance.create_monitor(body)
# Create a ci-pipelines formula and functions monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
body = DatadogAPIClient::V1::Monitor.new({
name: "Example-Monitor",
type: DatadogAPIClient::V1::MonitorType::CI_PIPELINES_ALERT,
query: 'formula("query1 / query2 * 100").last("15m") >= 0.8',
message: "some message Notify: @hipchat-channel",
tags: [
"test:examplemonitor",
"env:ci",
],
priority: 3,
options: DatadogAPIClient::V1::MonitorOptions.new({
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 0.8,
}),
variables: [
DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinition.new({
data_source: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventsDataSource::CI_PIPELINES,
name: "query1",
search: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionSearch.new({
query: "@ci.status:error",
}),
indexes: [
"*",
],
compute: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionCompute.new({
aggregation: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventAggregation::COUNT,
}),
group_by: [],
}),
DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinition.new({
data_source: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventsDataSource::CI_PIPELINES,
name: "query2",
search: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionSearch.new({
query: "",
}),
indexes: [
"*",
],
compute: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventQueryDefinitionCompute.new({
aggregation: DatadogAPIClient::V1::MonitorFormulaAndFunctionEventAggregation::COUNT,
}),
group_by: [],
}),
],
}),
})
p api_instance.create_monitor(body)
# Create a ci-pipelines monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
body = DatadogAPIClient::V1::Monitor.new({
name: "Example-Monitor",
type: DatadogAPIClient::V1::MonitorType::CI_PIPELINES_ALERT,
query: 'ci-pipelines("ci_level:pipeline @git.branch:staging* @ci.status:error").rollup("count").by("@git.branch,@ci.pipeline.name").last("5m") >= 1',
message: "some message Notify: @hipchat-channel",
tags: [
"test:examplemonitor",
"env:ci",
],
priority: 3,
options: DatadogAPIClient::V1::MonitorOptions.new({
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 1,
}),
}),
})
p api_instance.create_monitor(body)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Create a RUM formula and functions monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::Monitor;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventAggregation;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventQueryDefinition;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventQueryDefinitionCompute;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventQueryDefinitionSearch;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventsDataSource;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionQueryDefinition;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorType;
#[tokio::main]
async fn main() {
let body =
Monitor::new(r#"formula("query2 / query1 * 100").last("15m") >= 0.8"#.to_string(), MonitorType::RUM_ALERT)
.message("some message Notify: @hipchat-channel".to_string())
.name("Example-Monitor".to_string())
.options(
MonitorOptions::new()
.thresholds(MonitorThresholds::new().critical(0.8 as f64))
.variables(
vec![
MonitorFormulaAndFunctionQueryDefinition::MonitorFormulaAndFunctionEventQueryDefinition(
Box::new(
MonitorFormulaAndFunctionEventQueryDefinition::new(
MonitorFormulaAndFunctionEventQueryDefinitionCompute::new(
MonitorFormulaAndFunctionEventAggregation::COUNT,
),
MonitorFormulaAndFunctionEventsDataSource::RUM,
"query2".to_string(),
)
.group_by(vec![])
.indexes(vec!["*".to_string()])
.search(
MonitorFormulaAndFunctionEventQueryDefinitionSearch::new("".to_string()),
),
),
),
MonitorFormulaAndFunctionQueryDefinition::MonitorFormulaAndFunctionEventQueryDefinition(
Box::new(
MonitorFormulaAndFunctionEventQueryDefinition::new(
MonitorFormulaAndFunctionEventQueryDefinitionCompute::new(
MonitorFormulaAndFunctionEventAggregation::COUNT,
),
MonitorFormulaAndFunctionEventsDataSource::RUM,
"query1".to_string(),
)
.group_by(vec![])
.indexes(vec!["*".to_string()])
.search(
MonitorFormulaAndFunctionEventQueryDefinitionSearch::new(
"status:error".to_string(),
),
),
),
)
],
),
)
.priority(Some(3))
.tags(vec!["test:examplemonitor".to_string(), "env:ci".to_string()]);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.create_monitor(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
// Create a ci-pipelines formula and functions monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::Monitor;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventAggregation;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventQueryDefinition;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventQueryDefinitionCompute;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventQueryDefinitionSearch;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionEventsDataSource;
use datadog_api_client::datadogV1::model::MonitorFormulaAndFunctionQueryDefinition;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorType;
#[tokio::main]
async fn main() {
let body =
Monitor::new(
r#"formula("query1 / query2 * 100").last("15m") >= 0.8"#.to_string(),
MonitorType::CI_PIPELINES_ALERT,
)
.message("some message Notify: @hipchat-channel".to_string())
.name("Example-Monitor".to_string())
.options(
MonitorOptions::new()
.thresholds(MonitorThresholds::new().critical(0.8 as f64))
.variables(
vec![
MonitorFormulaAndFunctionQueryDefinition::MonitorFormulaAndFunctionEventQueryDefinition(
Box::new(
MonitorFormulaAndFunctionEventQueryDefinition::new(
MonitorFormulaAndFunctionEventQueryDefinitionCompute::new(
MonitorFormulaAndFunctionEventAggregation::COUNT,
),
MonitorFormulaAndFunctionEventsDataSource::CI_PIPELINES,
"query1".to_string(),
)
.group_by(vec![])
.indexes(vec!["*".to_string()])
.search(
MonitorFormulaAndFunctionEventQueryDefinitionSearch::new(
"@ci.status:error".to_string(),
),
),
),
),
MonitorFormulaAndFunctionQueryDefinition::MonitorFormulaAndFunctionEventQueryDefinition(
Box::new(
MonitorFormulaAndFunctionEventQueryDefinition::new(
MonitorFormulaAndFunctionEventQueryDefinitionCompute::new(
MonitorFormulaAndFunctionEventAggregation::COUNT,
),
MonitorFormulaAndFunctionEventsDataSource::CI_PIPELINES,
"query2".to_string(),
)
.group_by(vec![])
.indexes(vec!["*".to_string()])
.search(
MonitorFormulaAndFunctionEventQueryDefinitionSearch::new("".to_string()),
),
),
)
],
),
)
.priority(Some(3))
.tags(vec!["test:examplemonitor".to_string(), "env:ci".to_string()]);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.create_monitor(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
// Create a ci-pipelines monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::Monitor;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorType;
#[tokio::main]
async fn main() {
let body =
Monitor::new(
r#"ci-pipelines("ci_level:pipeline @git.branch:staging* @ci.status:error").rollup("count").by("@git.branch,@ci.pipeline.name").last("5m") >= 1"#.to_string(),
MonitorType::CI_PIPELINES_ALERT,
)
.message("some message Notify: @hipchat-channel".to_string())
.name("Example-Monitor".to_string())
.options(MonitorOptions::new().thresholds(MonitorThresholds::new().critical(1.0 as f64)))
.priority(Some(3))
.tags(vec!["test:examplemonitor".to_string(), "env:ci".to_string()]);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.create_monitor(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Create a RUM formula and functions monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
const params: v1.MonitorsApiCreateMonitorRequest = {
body: {
name: "Example-Monitor",
type: "rum alert",
query: `formula("query2 / query1 * 100").last("15m") >= 0.8`,
message: "some message Notify: @hipchat-channel",
tags: ["test:examplemonitor", "env:ci"],
priority: 3,
options: {
thresholds: {
critical: 0.8,
},
variables: [
{
dataSource: "rum",
name: "query2",
search: {
query: "",
},
indexes: ["*"],
compute: {
aggregation: "count",
},
groupBy: [],
},
{
dataSource: "rum",
name: "query1",
search: {
query: "status:error",
},
indexes: ["*"],
compute: {
aggregation: "count",
},
groupBy: [],
},
],
},
},
};
apiInstance
.createMonitor(params)
.then((data: v1.Monitor) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
/**
* Create a ci-pipelines formula and functions monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
const params: v1.MonitorsApiCreateMonitorRequest = {
body: {
name: "Example-Monitor",
type: "ci-pipelines alert",
query: `formula("query1 / query2 * 100").last("15m") >= 0.8`,
message: "some message Notify: @hipchat-channel",
tags: ["test:examplemonitor", "env:ci"],
priority: 3,
options: {
thresholds: {
critical: 0.8,
},
variables: [
{
dataSource: "ci_pipelines",
name: "query1",
search: {
query: "@ci.status:error",
},
indexes: ["*"],
compute: {
aggregation: "count",
},
groupBy: [],
},
{
dataSource: "ci_pipelines",
name: "query2",
search: {
query: "",
},
indexes: ["*"],
compute: {
aggregation: "count",
},
groupBy: [],
},
],
},
},
};
apiInstance
.createMonitor(params)
.then((data: v1.Monitor) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
/**
* Create a ci-pipelines monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
const params: v1.MonitorsApiCreateMonitorRequest = {
body: {
name: "Example-Monitor",
type: "ci-pipelines alert",
query: `ci-pipelines("ci_level:pipeline @git.branch:staging* @ci.status:error").rollup("count").by("@git.branch,@ci.pipeline.name").last("5m") >= 1`,
message: "some message Notify: @hipchat-channel",
tags: ["test:examplemonitor", "env:ci"],
priority: 3,
options: {
thresholds: {
critical: 1,
},
},
},
};
apiInstance
.createMonitor(params)
.then((data: v1.Monitor) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
GET https://api.ap1.datadoghq.com/api/v1/monitor/searchhttps://api.datadoghq.eu/api/v1/monitor/searchhttps://api.ddog-gov.com/api/v1/monitor/searchhttps://api.datadoghq.com/api/v1/monitor/searchhttps://api.us3.datadoghq.com/api/v1/monitor/searchhttps://api.us5.datadoghq.com/api/v1/monitor/search
Search and filter your monitors details.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
이름
유형
설명
query
string
After entering a search query in your Manage Monitor page use the query parameter value in the URL of the page as value for this parameter. Consult the dedicated manage monitor documentation page to learn more.
The query can contain any number of space-separated monitor attributes, for instance query="type:metric status:alert"
.
page
integer
Page to start paginating from.
per_page
integer
Number of monitors to return per page.
sort
string
String for sort order, composed of field and sort order separate by a comma, for example name,asc
. Supported sort directions: asc
, desc
. Supported fields:
name
status
tags
OK
The response form a monitor search.
항목
유형
설명
counts
object
The counts of monitors per different criteria.
muted
[object]
Search facets.
count
int64
The number of found monitors with the listed value.
name
The facet value.
status
[object]
Search facets.
count
int64
The number of found monitors with the listed value.
name
The facet value.
tag
[object]
Search facets.
count
int64
The number of found monitors with the listed value.
name
The facet value.
type
[object]
Search facets.
count
int64
The number of found monitors with the listed value.
name
The facet value.
metadata
object
Metadata about the response.
page
int64
The page to start paginating from.
page_count
int64
The number of pages.
per_page
int64
The number of monitors to return per page.
total_count
int64
The total number of monitors.
monitors
[object]
The list of found monitors.
classification
string
Classification of the monitor.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
id
int64
ID of the monitor.
last_triggered_ts
int64
Latest timestamp the monitor triggered.
metrics
[string]
Metrics used by the monitor.
name
string
The monitor name.
notifications
[object]
The notification triggered by the monitor.
handle
string
The email address that received the notification.
name
string
The username receiving the notification
org_id
int64
The ID of the organization.
query
string
The monitor query.
scopes
[string]
The scope(s) to which the downtime applies, for example host:app2
.
Provide multiple scopes as a comma-separated list, for example env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes
(that is env:dev AND env:prod
), NOT any of them.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated with the monitor.
type
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"counts": {
"muted": [
{
"count": "integer",
"name": "undefined"
}
],
"status": [
{
"count": "integer",
"name": "undefined"
}
],
"tag": [
{
"count": "integer",
"name": "undefined"
}
],
"type": [
{
"count": "integer",
"name": "undefined"
}
]
},
"metadata": {
"page": "integer",
"page_count": "integer",
"per_page": "integer",
"total_count": "integer"
},
"monitors": [
{
"classification": "string",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"id": "integer",
"last_triggered_ts": "integer",
"metrics": [],
"name": "string",
"notifications": [
{
"handle": "string",
"name": "string"
}
],
"org_id": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"scopes": [
"host:app2",
"env:dev,env:prod"
],
"status": "string",
"tags": [],
"type": "query alert"
}
]
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/search" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Monitors search returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.search_monitors()
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Monitors search returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
p api_instance.search_monitors()
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Search monitors
dog.search_monitors
# Examples of possible query parameters:
# dog.search_monitors(query="id:7100311")
# dog.search_monitors(query="title:foo metric:system.core.idle status:Alert")
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Monitors search returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.SearchMonitors(ctx, *datadogV1.NewSearchMonitorsOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.SearchMonitors`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.SearchMonitors`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Monitors search returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.MonitorSearchResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
try {
MonitorSearchResponse result = apiInstance.searchMonitors();
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#searchMonitors");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Search monitors
api.Monitor.search()
# Examples of possible query parameters:
# api.Monitor.search(query="id:7100311")
# api.Monitor.search(query="title:foo metric:system.core.idle status:Alert")
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
// Monitors search returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::api_monitors::SearchMonitorsOptionalParams;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.search_monitors(SearchMonitorsOptionalParams::default())
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Monitors search returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
apiInstance
.searchMonitors()
.then((data: v1.MonitorSearchResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/api/v1/monitor/{monitor_id}/unmutehttps://api.datadoghq.eu/api/v1/monitor/{monitor_id}/unmutehttps://api.ddog-gov.com/api/v1/monitor/{monitor_id}/unmutehttps://api.datadoghq.com/api/v1/monitor/{monitor_id}/unmutehttps://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}/unmutehttps://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}/unmute
Unmute the specified monitor.
This endpoint requires the monitors_write
permission.
OAuth apps require the monitors_write
authorization scope to access this endpoint.
이름
유형
설명
monitor_id [required]
integer
The id of the monitor
이름
유형
설명
scope
string
The scope to apply the mute to.
For example, if your alert is grouped by {host}
, you might mute host:app1
.
all_scopes
boolean
Clear muting across all scopes. Default is false
.
OK
Object describing a monitor.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Monitor Not Found error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="CHANGE_ME"
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/${monitor_id}/unmute" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Unmute an alert
dog.unmute_monitor(62_628)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Unmute all alerts
api.Monitor.unmute(2088)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
GET https://api.ap1.datadoghq.com/api/v1/monitorhttps://api.datadoghq.eu/api/v1/monitorhttps://api.ddog-gov.com/api/v1/monitorhttps://api.datadoghq.com/api/v1/monitorhttps://api.us3.datadoghq.com/api/v1/monitorhttps://api.us5.datadoghq.com/api/v1/monitor
Get details about the specified monitor from your organization.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
이름
유형
설명
group_states
string
When specified, shows additional information about the group states.
Choose one or more from all
, alert
, warn
, and no data
.
name
string
A string to filter monitors by name.
tags
string
A comma separated list indicating what tags, if any, should be used to filter the list of monitors by scope.
For example, host:host0
.
monitor_tags
string
A comma separated list indicating what service and/or custom tags, if any, should be used to filter the list of monitors.
Tags created in the Datadog UI automatically have the service key prepended. For example, service:my-app
.
with_downtimes
boolean
If this argument is set to true, then the returned data includes all current active downtimes for each monitor.
id_offset
integer
Use this parameter for paginating through large sets of monitors. Start with a value of zero, make a request, set the value to the last ID of result set, and then repeat until the response is empty.
page
integer
The page to start paginating from. If this argument is not specified, the request returns all monitors without pagination.
page_size
integer
The number of monitors to return per page. If the page argument is not specified, the default behavior returns all monitors without a page_size
limit. However, if page is specified and page_size
is not, the argument defaults to 100.
OK
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get all monitor details returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.list_monitors()
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Get all monitor details returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
p api_instance.list_monitors()
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Get all monitor details
dog.get_all_monitors
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Get all monitor details returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.ListMonitors(ctx, *datadogV1.NewListMonitorsOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.ListMonitors`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.ListMonitors`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Get all monitor details returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import java.util.List;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
try {
List<Monitor> result = apiInstance.listMonitors();
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#listMonitors");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Get all monitor details
print(api.Monitor.get_all())
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
// Get all monitor details returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::ListMonitorsOptionalParams;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.list_monitors(ListMonitorsOptionalParams::default())
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Get all monitor details returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
apiInstance
.listMonitors()
.then((data: v1.Monitor[]) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
GET https://api.ap1.datadoghq.com/api/v1/monitor/groups/searchhttps://api.datadoghq.eu/api/v1/monitor/groups/searchhttps://api.ddog-gov.com/api/v1/monitor/groups/searchhttps://api.datadoghq.com/api/v1/monitor/groups/searchhttps://api.us3.datadoghq.com/api/v1/monitor/groups/searchhttps://api.us5.datadoghq.com/api/v1/monitor/groups/search
Search and filter your monitor groups details.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
이름
유형
설명
query
string
After entering a search query on the Triggered Monitors page, use the query parameter value in the URL of the page as a value for this parameter. For more information, see the Manage Monitors documentation.
The query can contain any number of space-separated monitor attributes, for instance: query="type:metric group_status:alert"
.
page
integer
Page to start paginating from.
per_page
integer
Number of monitors to return per page.
sort
string
String for sort order, composed of field and sort order separate by a comma, for example name,asc
. Supported sort directions: asc
, desc
. Supported fields:
name
status
tags
OK
The response of a monitor group search.
항목
유형
설명
counts
object
The counts of monitor groups per different criteria.
status
[object]
Search facets.
count
int64
The number of found monitors with the listed value.
name
The facet value.
type
[object]
Search facets.
count
int64
The number of found monitors with the listed value.
name
The facet value.
groups
[object]
The list of found monitor groups.
group
string
The name of the group.
group_tags
[string]
The list of tags of the monitor group.
last_nodata_ts
int64
Latest timestamp the monitor group was in NO_DATA state.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
monitor_id
int64
The ID of the monitor.
monitor_name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
metadata
object
Metadata about the response.
page
int64
The page to start paginating from.
page_count
int64
The number of pages.
per_page
int64
The number of monitors to return per page.
total_count
int64
The total number of monitors.
{
"counts": {
"status": [
{
"count": "integer",
"name": "undefined"
}
],
"type": [
{
"count": "integer",
"name": "undefined"
}
]
},
"groups": [
{
"group": "string",
"group_tags": [],
"last_nodata_ts": "integer",
"last_triggered_ts": "integer",
"monitor_id": "integer",
"monitor_name": "string",
"status": "string"
}
],
"metadata": {
"page": "integer",
"page_count": "integer",
"per_page": "integer",
"total_count": "integer"
}
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/groups/search" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Monitors group search returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.search_monitor_groups()
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Monitors group search returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
p api_instance.search_monitor_groups()
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Search monitor groups
dog.search_monitor_groups
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Monitors group search returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.SearchMonitorGroups(ctx, *datadogV1.NewSearchMonitorGroupsOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.SearchMonitorGroups`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.SearchMonitorGroups`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Monitors group search returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.MonitorGroupSearchResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
try {
MonitorGroupSearchResponse result = apiInstance.searchMonitorGroups();
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#searchMonitorGroups");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Search monitor groups
api.Monitor.search_groups()
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
// Monitors group search returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::api_monitors::SearchMonitorGroupsOptionalParams;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.search_monitor_groups(SearchMonitorGroupsOptionalParams::default())
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Monitors group search returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
apiInstance
.searchMonitorGroups()
.then((data: v1.MonitorGroupSearchResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/api/v1/monitor/{monitor_id}/mutehttps://api.datadoghq.eu/api/v1/monitor/{monitor_id}/mutehttps://api.ddog-gov.com/api/v1/monitor/{monitor_id}/mutehttps://api.datadoghq.com/api/v1/monitor/{monitor_id}/mutehttps://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}/mutehttps://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}/mute
Mute the specified monitor.
This endpoint requires the monitors_write
permission.
OAuth apps require the monitors_write
authorization scope to access this endpoint.
이름
유형
설명
monitor_id [required]
integer
The id of the monitor
이름
유형
설명
scope
string
The scope to apply the mute to.
For example, if your alert is grouped by {host}
, you might mute host:app1
.
end
integer
A POSIX timestamp for when the mute should end.
OK
Object describing a monitor.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Monitor Not Found error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="CHANGE_ME"
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/${monitor_id}/mute" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Mute a monitor
dog.mute_monitor(62_628)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Mute a monitor
api.Monitor.mute(2088)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
PUT https://api.ap1.datadoghq.com/api/v1/monitor/{monitor_id}https://api.datadoghq.eu/api/v1/monitor/{monitor_id}https://api.ddog-gov.com/api/v1/monitor/{monitor_id}https://api.datadoghq.com/api/v1/monitor/{monitor_id}https://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}https://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}
Edit the specified monitor.
This endpoint requires the monitors_write
permission.
OAuth apps require the monitors_write
authorization scope to access this endpoint.
이름
유형
설명
monitor_id [required]
integer
The ID of the monitor.
Edit a monitor request body.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. restricted_roles
is the successor of locked
. For more information about locked
and restricted_roles
, see the monitor options docs.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"name": "My monitor-updated",
"priority": null,
"options": {
"evaluation_delay": null,
"new_group_delay": 600,
"new_host_delay": null,
"renotify_interval": null,
"thresholds": {
"critical": 2,
"warning": null
},
"timeout_h": null
}
}
OK
Object describing a monitor.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Monitor Not Found error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="6.66486743e+08"
# Curl command
curl -X PUT "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/${monitor_id}" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"name": "My monitor-updated",
"priority": null,
"options": {
"evaluation_delay": null,
"new_group_delay": 600,
"new_host_delay": null,
"renotify_interval": null,
"thresholds": {
"critical": 2,
"warning": null
},
"timeout_h": null
}
}
EOF
// Edit a monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"strconv"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
// there is a valid "monitor" in the system
MonitorID, _ := strconv.ParseInt(os.Getenv("MONITOR_ID"), 10, 64)
body := datadogV1.MonitorUpdateRequest{
Name: datadog.PtrString("My monitor-updated"),
Priority: *datadog.NewNullableInt64(nil),
Options: &datadogV1.MonitorOptions{
EvaluationDelay: *datadog.NewNullableInt64(nil),
NewGroupDelay: *datadog.NewNullableInt64(datadog.PtrInt64(600)),
NewHostDelay: *datadog.NewNullableInt64(nil),
RenotifyInterval: *datadog.NewNullableInt64(nil),
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(2),
Warning: *datadog.NewNullableFloat64(nil),
},
TimeoutH: *datadog.NewNullableInt64(nil),
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.UpdateMonitor(ctx, MonitorID, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.UpdateMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.UpdateMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Edit a monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorUpdateRequest;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor" in the system
Long MONITOR_ID = Long.parseLong(System.getenv("MONITOR_ID"));
String MONITOR_NAME = System.getenv("MONITOR_NAME");
MonitorUpdateRequest body =
new MonitorUpdateRequest()
.name("My monitor-updated")
.priority(null)
.options(
new MonitorOptions()
.evaluationDelay(null)
.newGroupDelay(600L)
.newHostDelay(null)
.renotifyInterval(null)
.thresholds(new MonitorThresholds().critical(2.0).warning(null))
.timeoutH(null));
try {
Monitor result = apiInstance.updateMonitor(MONITOR_ID, body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#updateMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
"""
Edit a monitor returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_update_request import MonitorUpdateRequest
# there is a valid "monitor" in the system
MONITOR_ID = environ["MONITOR_ID"]
MONITOR_NAME = environ["MONITOR_NAME"]
body = MonitorUpdateRequest(
name="My monitor-updated",
priority=None,
options=MonitorOptions(
evaluation_delay=None,
new_group_delay=600,
new_host_delay=None,
renotify_interval=None,
thresholds=MonitorThresholds(
critical=2.0,
warning=None,
),
timeout_h=None,
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.update_monitor(monitor_id=int(MONITOR_ID), body=body)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Edit a monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
# there is a valid "monitor" in the system
MONITOR_ID = ENV["MONITOR_ID"]
MONITOR_NAME = ENV["MONITOR_NAME"]
body = DatadogAPIClient::V1::MonitorUpdateRequest.new({
name: "My monitor-updated",
priority: nil,
options: DatadogAPIClient::V1::MonitorOptions.new({
evaluation_delay: nil,
new_group_delay: 600,
new_host_delay: nil,
renotify_interval: nil,
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 2,
warning: nil,
}),
timeout_h: nil,
}),
})
p api_instance.update_monitor(MONITOR_ID.to_i, body)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Edit a monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorUpdateRequest;
#[tokio::main]
async fn main() {
// there is a valid "monitor" in the system
let monitor_id: i64 = std::env::var("MONITOR_ID").unwrap().parse().unwrap();
let body = MonitorUpdateRequest::new()
.name("My monitor-updated".to_string())
.options(
MonitorOptions::new()
.evaluation_delay(None)
.new_group_delay(Some(600))
.new_host_delay(None)
.renotify_interval(None)
.thresholds(MonitorThresholds::new().critical(2.0 as f64).warning(None))
.timeout_h(None),
)
.priority(None);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.update_monitor(monitor_id.clone(), body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Edit a monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
// there is a valid "monitor" in the system
const MONITOR_ID = parseInt(process.env.MONITOR_ID as string);
const params: v1.MonitorsApiUpdateMonitorRequest = {
body: {
name: "My monitor-updated",
priority: undefined,
options: {
evaluationDelay: undefined,
newGroupDelay: 600,
newHostDelay: undefined,
renotifyInterval: undefined,
thresholds: {
critical: 2,
warning: undefined,
},
timeoutH: undefined,
},
},
monitorId: MONITOR_ID,
};
apiInstance
.updateMonitor(params)
.then((data: v1.Monitor) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/v1/monitor/unmute_allhttps://api.datadoghq.eu/v1/monitor/unmute_allhttps://api.ddog-gov.com/v1/monitor/unmute_allhttps://api.datadoghq.com/v1/monitor/unmute_allhttps://api.us3.datadoghq.com/v1/monitor/unmute_allhttps://api.us5.datadoghq.com/v1/monitor/unmute_all
Disables muting all monitors. Throws an error if mute all was not enabled previously.
OK
Bad Request
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/v1/monitor/unmute_all" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
GET https://api.ap1.datadoghq.com/api/v1/monitor/{monitor_id}https://api.datadoghq.eu/api/v1/monitor/{monitor_id}https://api.ddog-gov.com/api/v1/monitor/{monitor_id}https://api.datadoghq.com/api/v1/monitor/{monitor_id}https://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}https://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}
Get details about the specified monitor from your organization.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
이름
유형
설명
monitor_id [required]
integer
The ID of the monitor
이름
유형
설명
group_states
string
When specified, shows additional information about the group states. Choose one or more from all
, alert
, warn
, and no data
.
with_downtimes
boolean
If this argument is set to true, then the returned data includes all current active downtimes for the monitor.
OK
Object describing a monitor.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Monitor Not Found error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="6.66486743e+08"
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/${monitor_id}" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get a monitor's details returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
# there is a valid "monitor" in the system
MONITOR_ID = environ["MONITOR_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.get_monitor(
monitor_id=int(MONITOR_ID),
with_downtimes=True,
)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Get a monitor's details returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
# there is a valid "monitor" in the system
MONITOR_ID = ENV["MONITOR_ID"]
opts = {
with_downtimes: true,
}
p api_instance.get_monitor(MONITOR_ID.to_i, opts)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Get a monitors's details
dog.get_monitor(91_879, group_states: 'all')
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Get a monitor's details returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"strconv"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
// there is a valid "monitor" in the system
MonitorID, _ := strconv.ParseInt(os.Getenv("MONITOR_ID"), 10, 64)
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.GetMonitor(ctx, MonitorID, *datadogV1.NewGetMonitorOptionalParameters().WithWithDowntimes(true))
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.GetMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.GetMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Get a monitor's details returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.api.MonitorsApi.GetMonitorOptionalParameters;
import com.datadog.api.client.v1.model.Monitor;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor" in the system
Long MONITOR_ID = Long.parseLong(System.getenv("MONITOR_ID"));
try {
Monitor result =
apiInstance.getMonitor(
MONITOR_ID, new GetMonitorOptionalParameters().withDowntimes(true));
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#getMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Get a monitor's details
api.Monitor.get(2081, group_states='all')
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
// Get a monitor's details returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::GetMonitorOptionalParams;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
// there is a valid "monitor" in the system
let monitor_id: i64 = std::env::var("MONITOR_ID").unwrap().parse().unwrap();
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.get_monitor(
monitor_id.clone(),
GetMonitorOptionalParams::default().with_downtimes(true),
)
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Get a monitor's details returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
// there is a valid "monitor" in the system
const MONITOR_ID = parseInt(process.env.MONITOR_ID as string);
const params: v1.MonitorsApiGetMonitorRequest = {
monitorId: MONITOR_ID,
withDowntimes: true,
};
apiInstance
.getMonitor(params)
.then((data: v1.Monitor) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/v1/monitor/mute_allhttps://api.datadoghq.eu/v1/monitor/mute_allhttps://api.ddog-gov.com/v1/monitor/mute_allhttps://api.datadoghq.com/v1/monitor/mute_allhttps://api.us3.datadoghq.com/v1/monitor/mute_allhttps://api.us5.datadoghq.com/v1/monitor/mute_all
Muting prevents all monitors from notifying through email and posts to the event stream. State changes are only visible by checking the alert page.
OK
Object describing a monitor.
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"created": "2019-09-19T10:00:00.000Z",
"creator": {
"email": "string",
"handle": "string",
"name": "string"
},
"deleted": "2019-09-19T10:00:00.000Z",
"id": "integer",
"matching_downtimes": [
{
"end": 1412792983,
"id": 1625,
"scope": [
"env:staging"
],
"start": 1412792983
}
],
"message": "string",
"modified": "2019-09-19T10:00:00.000Z",
"multi": false,
"name": "My monitor",
"options": {
"aggregation": {
"group_by": "host",
"metric": "metrics.name",
"type": "count"
},
"device_ids": [],
"enable_logs_sample": false,
"enable_samples": false,
"escalation_message": "string",
"evaluation_delay": "integer",
"group_retention_duration": "string",
"groupby_simple_monitor": false,
"include_tags": false,
"locked": false,
"min_failure_duration": "integer",
"min_location_failed": "integer",
"new_group_delay": "integer",
"new_host_delay": "integer",
"no_data_timeframe": "integer",
"notification_preset_name": "string",
"notify_audit": false,
"notify_by": [],
"notify_no_data": false,
"on_missing_data": "string",
"renotify_interval": "integer",
"renotify_occurrences": "integer",
"renotify_statuses": [],
"require_full_window": false,
"scheduling_options": {
"custom_schedule": {
"recurrences": [
{
"rrule": "FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR",
"start": "2023-08-31T16:30:00",
"timezone": "Europe/Paris"
}
]
},
"evaluation_window": {
"day_starts": "04:00",
"hour_starts": 0,
"month_starts": 1
}
},
"silenced": {
"<any-key>": "integer"
},
"synthetics_check_id": "string",
"threshold_windows": {
"recovery_window": "string",
"trigger_window": "string"
},
"thresholds": {
"critical": "number",
"critical_recovery": "number",
"ok": "number",
"unknown": "number",
"warning": "number",
"warning_recovery": "number"
},
"timeout_h": "integer",
"variables": [
{
"compute": {
"aggregation": "avg",
"interval": 60000,
"metric": "@duration"
},
"data_source": "rum",
"group_by": [
{
"facet": "status",
"limit": 10,
"sort": {
"aggregation": "avg",
"metric": "string",
"order": "string"
}
}
],
"indexes": [
"days-3",
"days-7"
],
"name": "query_errors",
"search": {
"query": "service:query"
}
}
]
},
"overall_state": "string",
"priority": "integer",
"query": "avg(last_5m):sum:system.net.bytes_rcvd{host:host0} > 100",
"restricted_roles": [],
"state": {
"groups": {
"<any-key>": {
"last_nodata_ts": "integer",
"last_notified_ts": "integer",
"last_resolved_ts": "integer",
"last_triggered_ts": "integer",
"name": "string",
"status": "string"
}
}
},
"tags": [],
"type": "query alert"
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/v1/monitor/mute_all" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
DELETE https://api.ap1.datadoghq.com/api/v1/monitor/{monitor_id}https://api.datadoghq.eu/api/v1/monitor/{monitor_id}https://api.ddog-gov.com/api/v1/monitor/{monitor_id}https://api.datadoghq.com/api/v1/monitor/{monitor_id}https://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}https://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}
Delete the specified monitor
This endpoint requires the monitors_write
permission.
OAuth apps require the monitors_write
authorization scope to access this endpoint.
이름
유형
설명
monitor_id [required]
integer
The ID of the monitor.
이름
유형
설명
force
string
Delete the monitor even if it’s referenced by other resources (for example SLO, composite monitor).
OK
Response from the delete monitor call.
{
"deleted_monitor_id": 666486743
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Authentication error
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Item not found error
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="6.66486743e+08"
# Curl command
curl -X DELETE "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/${monitor_id}" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Delete a monitor returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
# there is a valid "monitor" in the system
MONITOR_ID = environ["MONITOR_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.delete_monitor(
monitor_id=int(MONITOR_ID),
)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Delete a monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
# there is a valid "monitor" in the system
MONITOR_ID = ENV["MONITOR_ID"]
p api_instance.delete_monitor(MONITOR_ID.to_i)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Delete a monitor
dog.delete_monitor(62_625)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Delete a monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"strconv"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
// there is a valid "monitor" in the system
MonitorID, _ := strconv.ParseInt(os.Getenv("MONITOR_ID"), 10, 64)
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.DeleteMonitor(ctx, MonitorID, *datadogV1.NewDeleteMonitorOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.DeleteMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.DeleteMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Delete a monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.DeletedMonitor;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor" in the system
Long MONITOR_ID = Long.parseLong(System.getenv("MONITOR_ID"));
try {
DeletedMonitor result = apiInstance.deleteMonitor(MONITOR_ID);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#deleteMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Delete a monitor
api.Monitor.delete(2081)
# Force delete a monitor to override warnings
api.Monitor.delete(2081, force=True)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
// Delete a monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::DeleteMonitorOptionalParams;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
// there is a valid "monitor" in the system
let monitor_id: i64 = std::env::var("MONITOR_ID").unwrap().parse().unwrap();
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.delete_monitor(monitor_id.clone(), DeleteMonitorOptionalParams::default())
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Delete a monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
// there is a valid "monitor" in the system
const MONITOR_ID = parseInt(process.env.MONITOR_ID as string);
const params: v1.MonitorsApiDeleteMonitorRequest = {
monitorId: MONITOR_ID,
};
apiInstance
.deleteMonitor(params)
.then((data: v1.DeletedMonitor) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
GET https://api.ap1.datadoghq.com/api/v1/monitor/can_deletehttps://api.datadoghq.eu/api/v1/monitor/can_deletehttps://api.ddog-gov.com/api/v1/monitor/can_deletehttps://api.datadoghq.com/api/v1/monitor/can_deletehttps://api.us3.datadoghq.com/api/v1/monitor/can_deletehttps://api.us5.datadoghq.com/api/v1/monitor/can_delete
Check if the given monitors can be deleted.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
이름
유형
설명
monitor_ids [required]
array
The IDs of the monitor to check.
OK
Response of monitor IDs that can or can’t be safely deleted.
항목
유형
설명
data [required]
object
Wrapper object with the list of monitor IDs.
ok
[integer]
An array of of Monitor IDs that can be safely deleted.
errors
object
A mapping of Monitor ID to strings denoting where it's used.
<any-key>
[string]
Strings denoting where a monitor is used.
{
"data": {
"ok": []
},
"errors": {
"<any-key>": []
}
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Deletion conflict error
Response of monitor IDs that can or can’t be safely deleted.
항목
유형
설명
data [required]
object
Wrapper object with the list of monitor IDs.
ok
[integer]
An array of of Monitor IDs that can be safely deleted.
errors
object
A mapping of Monitor ID to strings denoting where it's used.
<any-key>
[string]
Strings denoting where a monitor is used.
{
"data": {
"ok": []
},
"errors": {
"<any-key>": []
}
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Required query arguments
export monitor_ids="CHANGE_ME"
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/can_delete?monitor_ids=${monitor_ids}" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Check if a monitor can be deleted returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
# there is a valid "monitor" in the system
MONITOR_ID = environ["MONITOR_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.check_can_delete_monitor(
monitor_ids=[
int(MONITOR_ID),
],
)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Check if a monitor can be deleted returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
# there is a valid "monitor" in the system
MONITOR_ID = ENV["MONITOR_ID"]
p api_instance.check_can_delete_monitor([
MONITOR_ID.to_i,
])
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
require 'rubygems'
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
# Check if you can delete the given monitors.
dog.can_delete_monitors([56838, 771060, 1000376])
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Check if a monitor can be deleted returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"strconv"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
// there is a valid "monitor" in the system
MonitorID, _ := strconv.ParseInt(os.Getenv("MONITOR_ID"), 10, 64)
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.CheckCanDeleteMonitor(ctx, []int64{
MonitorID,
})
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.CheckCanDeleteMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.CheckCanDeleteMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Check if a monitor can be deleted returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.CheckCanDeleteMonitorResponse;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor" in the system
Long MONITOR_ID = Long.parseLong(System.getenv("MONITOR_ID"));
try {
CheckCanDeleteMonitorResponse result =
apiInstance.checkCanDeleteMonitor(Collections.singletonList(MONITOR_ID));
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#checkCanDeleteMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Check if you can delete the given monitors.
api.Monitor.can_delete(monitor_ids=[56838, 771060, 1000376])
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
// Check if a monitor can be deleted returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
// there is a valid "monitor" in the system
let monitor_id: i64 = std::env::var("MONITOR_ID").unwrap().parse().unwrap();
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.check_can_delete_monitor(vec![monitor_id.clone()]).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Check if a monitor can be deleted returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
// there is a valid "monitor" in the system
const MONITOR_ID = parseInt(process.env.MONITOR_ID as string);
const params: v1.MonitorsApiCheckCanDeleteMonitorRequest = {
monitorIds: [MONITOR_ID],
};
apiInstance
.checkCanDeleteMonitor(params)
.then((data: v1.CheckCanDeleteMonitorResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/api/v1/monitor/validatehttps://api.datadoghq.eu/api/v1/monitor/validatehttps://api.ddog-gov.com/api/v1/monitor/validatehttps://api.datadoghq.com/api/v1/monitor/validatehttps://api.us3.datadoghq.com/api/v1/monitor/validatehttps://api.us5.datadoghq.com/api/v1/monitor/validate
Validate the monitor provided in the request.
Note: Log monitors require an unscoped App Key.
This endpoint requires themonitors_write
permission.OAuth apps require the monitors_write
authorization scope to access this endpoint.
Monitor request object
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"name": "Example-Monitor",
"type": "log alert",
"query": "logs(\"service:foo AND type:error\").index(\"main\").rollup(\"count\").by(\"source\").last(\"5m\") > 2",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"enable_logs_sample": true,
"escalation_message": "the situation has escalated",
"evaluation_delay": 700,
"include_tags": true,
"locked": false,
"new_host_delay": 600,
"no_data_timeframe": null,
"notify_audit": false,
"notify_no_data": false,
"on_missing_data": "show_and_notify_no_data",
"notification_preset_name": "hide_handles",
"renotify_interval": 60,
"require_full_window": true,
"timeout_h": 24,
"thresholds": {
"critical": 2,
"warning": 1
}
}
}
{
"name": "Example-Monitor",
"type": "log alert",
"query": "logs(\"service:foo AND type:error\").index(\"main\").rollup(\"count\").by(\"source,status\").last(\"5m\") > 2",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"enable_logs_sample": true,
"escalation_message": "the situation has escalated",
"evaluation_delay": 700,
"group_retention_duration": "2d",
"include_tags": true,
"locked": false,
"new_host_delay": 600,
"no_data_timeframe": null,
"notify_audit": false,
"notify_by": [
"status"
],
"notify_no_data": false,
"on_missing_data": "show_and_notify_no_data",
"renotify_interval": 60,
"require_full_window": true,
"timeout_h": 24,
"thresholds": {
"critical": 2,
"warning": 1
}
}
}
OK
{}
Invalid JSON
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/validate" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"name": "Example-Monitor",
"type": "log alert",
"query": "logs(\"service:foo AND type:error\").index(\"main\").rollup(\"count\").by(\"source\").last(\"5m\") > 2",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"enable_logs_sample": true,
"escalation_message": "the situation has escalated",
"evaluation_delay": 700,
"include_tags": true,
"locked": false,
"new_host_delay": 600,
"no_data_timeframe": null,
"notify_audit": false,
"notify_no_data": false,
"on_missing_data": "show_and_notify_no_data",
"notification_preset_name": "hide_handles",
"renotify_interval": 60,
"require_full_window": true,
"timeout_h": 24,
"thresholds": {
"critical": 2,
"warning": 1
}
}
}
EOF
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/validate" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"name": "Example-Monitor",
"type": "log alert",
"query": "logs(\"service:foo AND type:error\").index(\"main\").rollup(\"count\").by(\"source,status\").last(\"5m\") > 2",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"enable_logs_sample": true,
"escalation_message": "the situation has escalated",
"evaluation_delay": 700,
"group_retention_duration": "2d",
"include_tags": true,
"locked": false,
"new_host_delay": 600,
"no_data_timeframe": null,
"notify_audit": false,
"notify_by": [
"status"
],
"notify_no_data": false,
"on_missing_data": "show_and_notify_no_data",
"renotify_interval": 60,
"require_full_window": true,
"timeout_h": 24,
"thresholds": {
"critical": 2,
"warning": 1
}
}
}
EOF
// Validate a monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Monitor{
Name: datadog.PtrString("Example-Monitor"),
Type: datadogV1.MONITORTYPE_LOG_ALERT,
Query: `logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2`,
Message: datadog.PtrString("some message Notify: @hipchat-channel"),
Tags: []string{
"test:examplemonitor",
"env:ci",
},
Priority: *datadog.NewNullableInt64(datadog.PtrInt64(3)),
Options: &datadogV1.MonitorOptions{
EnableLogsSample: datadog.PtrBool(true),
EscalationMessage: datadog.PtrString("the situation has escalated"),
EvaluationDelay: *datadog.NewNullableInt64(datadog.PtrInt64(700)),
GroupbySimpleMonitor: datadog.PtrBool(true),
IncludeTags: datadog.PtrBool(true),
Locked: datadog.PtrBool(false),
NewHostDelay: *datadog.NewNullableInt64(datadog.PtrInt64(600)),
NoDataTimeframe: *datadog.NewNullableInt64(nil),
NotifyAudit: datadog.PtrBool(false),
NotifyNoData: datadog.PtrBool(false),
OnMissingData: datadogV1.ONMISSINGDATAOPTION_SHOW_AND_NOTIFY_NO_DATA.Ptr(),
NotificationPresetName: datadogV1.MONITOROPTIONSNOTIFICATIONPRESETS_HIDE_HANDLES.Ptr(),
RenotifyInterval: *datadog.NewNullableInt64(datadog.PtrInt64(60)),
RequireFullWindow: datadog.PtrBool(true),
TimeoutH: *datadog.NewNullableInt64(datadog.PtrInt64(24)),
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(2),
Warning: *datadog.NewNullableFloat64(datadog.PtrFloat64(1)),
},
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.ValidateMonitor(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.ValidateMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.ValidateMonitor`:\n%s\n", responseContent)
}
// Validate a multi-alert monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Monitor{
Name: datadog.PtrString("Example-Monitor"),
Type: datadogV1.MONITORTYPE_LOG_ALERT,
Query: `logs("service:foo AND type:error").index("main").rollup("count").by("source,status").last("5m") > 2`,
Message: datadog.PtrString("some message Notify: @hipchat-channel"),
Tags: []string{
"test:examplemonitor",
"env:ci",
},
Priority: *datadog.NewNullableInt64(datadog.PtrInt64(3)),
Options: &datadogV1.MonitorOptions{
EnableLogsSample: datadog.PtrBool(true),
EscalationMessage: datadog.PtrString("the situation has escalated"),
EvaluationDelay: *datadog.NewNullableInt64(datadog.PtrInt64(700)),
GroupRetentionDuration: datadog.PtrString("2d"),
GroupbySimpleMonitor: datadog.PtrBool(false),
IncludeTags: datadog.PtrBool(true),
Locked: datadog.PtrBool(false),
NewHostDelay: *datadog.NewNullableInt64(datadog.PtrInt64(600)),
NoDataTimeframe: *datadog.NewNullableInt64(nil),
NotifyAudit: datadog.PtrBool(false),
NotifyBy: []string{
"status",
},
NotifyNoData: datadog.PtrBool(false),
OnMissingData: datadogV1.ONMISSINGDATAOPTION_SHOW_AND_NOTIFY_NO_DATA.Ptr(),
RenotifyInterval: *datadog.NewNullableInt64(datadog.PtrInt64(60)),
RequireFullWindow: datadog.PtrBool(true),
TimeoutH: *datadog.NewNullableInt64(datadog.PtrInt64(24)),
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(2),
Warning: *datadog.NewNullableFloat64(datadog.PtrFloat64(1)),
},
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.ValidateMonitor(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.ValidateMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.ValidateMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Validate a monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorOptionsNotificationPresets;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorType;
import com.datadog.api.client.v1.model.OnMissingDataOption;
import java.util.Arrays;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
Monitor body =
new Monitor()
.name("Example-Monitor")
.type(MonitorType.LOG_ALERT)
.query(
"""
logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2
""")
.message("some message Notify: @hipchat-channel")
.tags(Arrays.asList("test:examplemonitor", "env:ci"))
.priority(3L)
.options(
new MonitorOptions()
.enableLogsSample(true)
.escalationMessage("the situation has escalated")
.evaluationDelay(700L)
.groupbySimpleMonitor(true)
.includeTags(true)
.locked(false)
.newHostDelay(600L)
.noDataTimeframe(null)
.notifyAudit(false)
.notifyNoData(false)
.onMissingData(OnMissingDataOption.SHOW_AND_NOTIFY_NO_DATA)
.notificationPresetName(MonitorOptionsNotificationPresets.HIDE_HANDLES)
.renotifyInterval(60L)
.requireFullWindow(true)
.timeoutH(24L)
.thresholds(new MonitorThresholds().critical(2.0).warning(1.0)));
try {
apiInstance.validateMonitor(body);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#validateMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
// Validate a multi-alert monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorType;
import com.datadog.api.client.v1.model.OnMissingDataOption;
import java.util.Arrays;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
Monitor body =
new Monitor()
.name("Example-Monitor")
.type(MonitorType.LOG_ALERT)
.query(
"""
logs("service:foo AND type:error").index("main").rollup("count").by("source,status").last("5m") > 2
""")
.message("some message Notify: @hipchat-channel")
.tags(Arrays.asList("test:examplemonitor", "env:ci"))
.priority(3L)
.options(
new MonitorOptions()
.enableLogsSample(true)
.escalationMessage("the situation has escalated")
.evaluationDelay(700L)
.groupRetentionDuration("2d")
.groupbySimpleMonitor(false)
.includeTags(true)
.locked(false)
.newHostDelay(600L)
.noDataTimeframe(null)
.notifyAudit(false)
.notifyBy(Collections.singletonList("status"))
.notifyNoData(false)
.onMissingData(OnMissingDataOption.SHOW_AND_NOTIFY_NO_DATA)
.renotifyInterval(60L)
.requireFullWindow(true)
.timeoutH(24L)
.thresholds(new MonitorThresholds().critical(2.0).warning(1.0)));
try {
apiInstance.validateMonitor(body);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#validateMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
from datadog import initialize, api
options = {
"api_key": "<DATADOG_API_KEY>",
"app_key": "<DATADOG_APPLICATION_KEY>"
}
initialize(**options)
monitor_type = "query alert"
query = "avg(last_1h):sum:system.net.bytes_rcvd{host:host0} > 200"
monitor_options = {"thresholds": {"critical": 90.0}}
# Validate a monitor's definition
api.Monitor.validate(
type=monitor_type,
query=query,
options=monitor_options,
)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python "example.py"
"""
Validate a monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor import Monitor
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_options_notification_presets import MonitorOptionsNotificationPresets
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_type import MonitorType
from datadog_api_client.v1.model.on_missing_data_option import OnMissingDataOption
body = Monitor(
name="Example-Monitor",
type=MonitorType.LOG_ALERT,
query='logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2',
message="some message Notify: @hipchat-channel",
tags=[
"test:examplemonitor",
"env:ci",
],
priority=3,
options=MonitorOptions(
enable_logs_sample=True,
escalation_message="the situation has escalated",
evaluation_delay=700,
groupby_simple_monitor=True,
include_tags=True,
locked=False,
new_host_delay=600,
no_data_timeframe=None,
notify_audit=False,
notify_no_data=False,
on_missing_data=OnMissingDataOption.SHOW_AND_NOTIFY_NO_DATA,
notification_preset_name=MonitorOptionsNotificationPresets.HIDE_HANDLES,
renotify_interval=60,
require_full_window=True,
timeout_h=24,
thresholds=MonitorThresholds(
critical=2.0,
warning=1.0,
),
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.validate_monitor(body=body)
print(response)
"""
Validate a multi-alert monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor import Monitor
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_type import MonitorType
from datadog_api_client.v1.model.on_missing_data_option import OnMissingDataOption
body = Monitor(
name="Example-Monitor",
type=MonitorType.LOG_ALERT,
query='logs("service:foo AND type:error").index("main").rollup("count").by("source,status").last("5m") > 2',
message="some message Notify: @hipchat-channel",
tags=[
"test:examplemonitor",
"env:ci",
],
priority=3,
options=MonitorOptions(
enable_logs_sample=True,
escalation_message="the situation has escalated",
evaluation_delay=700,
group_retention_duration="2d",
groupby_simple_monitor=False,
include_tags=True,
locked=False,
new_host_delay=600,
no_data_timeframe=None,
notify_audit=False,
notify_by=[
"status",
],
notify_no_data=False,
on_missing_data=OnMissingDataOption.SHOW_AND_NOTIFY_NO_DATA,
renotify_interval=60,
require_full_window=True,
timeout_h=24,
thresholds=MonitorThresholds(
critical=2.0,
warning=1.0,
),
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.validate_monitor(body=body)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
require 'dogapi'
api_key = '<DATADOG_API_KEY>'
app_key = '<DATADOG_APPLICATION_KEY>'
dog = Dogapi::Client.new(api_key, app_key)
type = 'query alert'
query = 'THIS IS A BAD QUERY'
parameters = {
name: 'Bytes received on host0',
message: 'We may need to add web hosts if this is consistently high.',
tags: ['app:webserver', 'frontend'],
options: {
notify_no_data: true,
no_data_timeframe: 20,
thresholds: { critical: 90.0 }
}
}
# Validate a monitor definition
dog.validate_monitor(type, query, parameters)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
# Validate a monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
body = DatadogAPIClient::V1::Monitor.new({
name: "Example-Monitor",
type: DatadogAPIClient::V1::MonitorType::LOG_ALERT,
query: 'logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2',
message: "some message Notify: @hipchat-channel",
tags: [
"test:examplemonitor",
"env:ci",
],
priority: 3,
options: DatadogAPIClient::V1::MonitorOptions.new({
enable_logs_sample: true,
escalation_message: "the situation has escalated",
evaluation_delay: 700,
groupby_simple_monitor: true,
include_tags: true,
locked: false,
new_host_delay: 600,
no_data_timeframe: nil,
notify_audit: false,
notify_no_data: false,
on_missing_data: DatadogAPIClient::V1::OnMissingDataOption::SHOW_AND_NOTIFY_NO_DATA,
notification_preset_name: DatadogAPIClient::V1::MonitorOptionsNotificationPresets::HIDE_HANDLES,
renotify_interval: 60,
require_full_window: true,
timeout_h: 24,
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 2,
warning: 1,
}),
}),
})
p api_instance.validate_monitor(body)
# Validate a multi-alert monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
body = DatadogAPIClient::V1::Monitor.new({
name: "Example-Monitor",
type: DatadogAPIClient::V1::MonitorType::LOG_ALERT,
query: 'logs("service:foo AND type:error").index("main").rollup("count").by("source,status").last("5m") > 2',
message: "some message Notify: @hipchat-channel",
tags: [
"test:examplemonitor",
"env:ci",
],
priority: 3,
options: DatadogAPIClient::V1::MonitorOptions.new({
enable_logs_sample: true,
escalation_message: "the situation has escalated",
evaluation_delay: 700,
group_retention_duration: "2d",
groupby_simple_monitor: false,
include_tags: true,
locked: false,
new_host_delay: 600,
no_data_timeframe: nil,
notify_audit: false,
notify_by: [
"status",
],
notify_no_data: false,
on_missing_data: DatadogAPIClient::V1::OnMissingDataOption::SHOW_AND_NOTIFY_NO_DATA,
renotify_interval: 60,
require_full_window: true,
timeout_h: 24,
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 2,
warning: 1,
}),
}),
})
p api_instance.validate_monitor(body)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Validate a monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::Monitor;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorOptionsNotificationPresets;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorType;
use datadog_api_client::datadogV1::model::OnMissingDataOption;
#[tokio::main]
async fn main() {
let body =
Monitor::new(
r#"logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2"#.to_string(),
MonitorType::LOG_ALERT,
)
.message("some message Notify: @hipchat-channel".to_string())
.name("Example-Monitor".to_string())
.options(
MonitorOptions::new()
.enable_logs_sample(true)
.escalation_message("the situation has escalated".to_string())
.evaluation_delay(Some(700))
.groupby_simple_monitor(true)
.include_tags(true)
.locked(false)
.new_host_delay(Some(600))
.no_data_timeframe(None)
.notification_preset_name(MonitorOptionsNotificationPresets::HIDE_HANDLES)
.notify_audit(false)
.notify_no_data(false)
.on_missing_data(OnMissingDataOption::SHOW_AND_NOTIFY_NO_DATA)
.renotify_interval(Some(60))
.require_full_window(true)
.thresholds(MonitorThresholds::new().critical(2.0 as f64).warning(Some(1.0 as f64)))
.timeout_h(Some(24)),
)
.priority(Some(3))
.tags(vec!["test:examplemonitor".to_string(), "env:ci".to_string()]);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.validate_monitor(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
// Validate a multi-alert monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::Monitor;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorType;
use datadog_api_client::datadogV1::model::OnMissingDataOption;
#[tokio::main]
async fn main() {
let body =
Monitor::new(
r#"logs("service:foo AND type:error").index("main").rollup("count").by("source,status").last("5m") > 2"#.to_string(),
MonitorType::LOG_ALERT,
)
.message("some message Notify: @hipchat-channel".to_string())
.name("Example-Monitor".to_string())
.options(
MonitorOptions::new()
.enable_logs_sample(true)
.escalation_message("the situation has escalated".to_string())
.evaluation_delay(Some(700))
.group_retention_duration("2d".to_string())
.groupby_simple_monitor(false)
.include_tags(true)
.locked(false)
.new_host_delay(Some(600))
.no_data_timeframe(None)
.notify_audit(false)
.notify_by(vec!["status".to_string()])
.notify_no_data(false)
.on_missing_data(OnMissingDataOption::SHOW_AND_NOTIFY_NO_DATA)
.renotify_interval(Some(60))
.require_full_window(true)
.thresholds(MonitorThresholds::new().critical(2.0 as f64).warning(Some(1.0 as f64)))
.timeout_h(Some(24)),
)
.priority(Some(3))
.tags(vec!["test:examplemonitor".to_string(), "env:ci".to_string()]);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.validate_monitor(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Validate a monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
const params: v1.MonitorsApiValidateMonitorRequest = {
body: {
name: "Example-Monitor",
type: "log alert",
query: `logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2`,
message: "some message Notify: @hipchat-channel",
tags: ["test:examplemonitor", "env:ci"],
priority: 3,
options: {
enableLogsSample: true,
escalationMessage: "the situation has escalated",
evaluationDelay: 700,
groupbySimpleMonitor: true,
includeTags: true,
locked: false,
newHostDelay: 600,
noDataTimeframe: undefined,
notifyAudit: false,
notifyNoData: false,
onMissingData: "show_and_notify_no_data",
notificationPresetName: "hide_handles",
renotifyInterval: 60,
requireFullWindow: true,
timeoutH: 24,
thresholds: {
critical: 2,
warning: 1,
},
},
},
};
apiInstance
.validateMonitor(params)
.then((data: any) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
/**
* Validate a multi-alert monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
const params: v1.MonitorsApiValidateMonitorRequest = {
body: {
name: "Example-Monitor",
type: "log alert",
query: `logs("service:foo AND type:error").index("main").rollup("count").by("source,status").last("5m") > 2`,
message: "some message Notify: @hipchat-channel",
tags: ["test:examplemonitor", "env:ci"],
priority: 3,
options: {
enableLogsSample: true,
escalationMessage: "the situation has escalated",
evaluationDelay: 700,
groupRetentionDuration: "2d",
groupbySimpleMonitor: false,
includeTags: true,
locked: false,
newHostDelay: 600,
noDataTimeframe: undefined,
notifyAudit: false,
notifyBy: ["status"],
notifyNoData: false,
onMissingData: "show_and_notify_no_data",
renotifyInterval: 60,
requireFullWindow: true,
timeoutH: 24,
thresholds: {
critical: 2,
warning: 1,
},
},
},
};
apiInstance
.validateMonitor(params)
.then((data: any) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/api/v1/monitor/{monitor_id}/validatehttps://api.datadoghq.eu/api/v1/monitor/{monitor_id}/validatehttps://api.ddog-gov.com/api/v1/monitor/{monitor_id}/validatehttps://api.datadoghq.com/api/v1/monitor/{monitor_id}/validatehttps://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}/validatehttps://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}/validate
Validate the monitor provided in the request.
This endpoint requires the monitors_write
permission.
OAuth apps require the monitors_write
authorization scope to access this endpoint.
이름
유형
설명
monitor_id [required]
integer
The ID of the monitor
Monitor request object
항목
유형
설명
created
date-time
Timestamp of the monitor creation.
creator
object
Object describing the creator of the shared element.
string
Email of the creator.
handle
string
Handle of the creator.
name
string
Name of the creator.
deleted
date-time
Whether or not the monitor is deleted. (Always null
)
id
int64
ID of this monitor.
matching_downtimes
[object]
A list of active v1 downtimes that match this monitor.
end
int64
POSIX timestamp to end the downtime.
id [required]
int64
The downtime ID.
scope
[string]
The scope(s) to which the downtime applies. Must be in key:value
format. For example, host:app2
.
Provide multiple scopes as a comma-separated list like env:dev,env:prod
.
The resulting downtime applies to sources that matches ALL provided scopes (env:dev
AND env:prod
).
start
int64
POSIX timestamp to start the downtime.
message
string
A message to include with notifications for this monitor.
modified
date-time
Last timestamp when the monitor was edited.
multi
boolean
Whether or not the monitor is broken down on different groups.
name
string
The monitor name.
options
object
List of options associated with your monitor.
aggregation
object
Type of aggregation performed in the monitor query.
group_by
string
Group to break down the monitor on.
metric
string
Metric name used in the monitor.
type
string
Metric type used in the monitor.
device_ids
[string]
DEPRECATED: IDs of the device the Synthetics monitor is running on.
enable_logs_sample
boolean
Whether or not to send a log sample when the log monitor triggers.
enable_samples
boolean
Whether or not to send a list of samples when the monitor triggers. This is only used by CI Test and Pipeline monitors.
escalation_message
string
We recommend using the is_renotify,
block in the original message instead.
A message to include with a re-notification. Supports the @username
notification we allow elsewhere.
Not applicable if renotify_interval
is None
.
evaluation_delay
int64
Time (in seconds) to delay evaluation, as a non-negative integer. For example, if the value is set to 300
(5min),
the timeframe is set to last_5m
and the time is 7:00, the monitor evaluates data from 6:50 to 6:55.
This is useful for AWS CloudWatch and other backfilled metrics to ensure the monitor always has data during evaluation.
group_retention_duration
string
The time span after which groups with missing data are dropped from the monitor state. The minimum value is one hour, and the maximum value is 72 hours. Example values are: "60m", "1h", and "2d". This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
groupby_simple_monitor
boolean
DEPRECATED: Whether the log alert monitor triggers a single alert or multiple alerts when any group breaches a threshold. Use notify_by
instead.
include_tags
boolean
A Boolean indicating whether notifications from this monitor automatically inserts its triggering tags into the title.
Examples
True
, [Triggered on {host:h1}] Monitor Title
False
, [Triggered] Monitor Title
default: true
locked
boolean
DEPRECATED: Whether or not the monitor is locked (only editable by creator and admins). Use restricted_roles
instead.
min_failure_duration
int64
How long the test should be in failure before alerting (integer, number of seconds, max 7200).
min_location_failed
int64
The minimum number of locations in failure at the same time during
at least one moment in the min_failure_duration
period (min_location_failed
and min_failure_duration
are part of the advanced alerting rules - integer, >= 1).
default: 1
new_group_delay
int64
Time (in seconds) to skip evaluations for new groups.
For example, this option can be used to skip evaluations for new hosts while they initialize.
Must be a non negative integer.
new_host_delay
int64
DEPRECATED: Time (in seconds) to allow a host to boot and applications to fully start before starting the evaluation of monitor results. Should be a non negative integer.
Use new_group_delay instead.
default: 300
no_data_timeframe
int64
The number of minutes before a monitor notifies after data stops reporting. Datadog recommends at least 2x the monitor timeframe for query alerts or 2 minutes for service checks. If omitted, 2x the evaluation timeframe is used for query alerts, and 24 hours is used for service checks.
notification_preset_name
enum
Toggles the display of additional content sent in the monitor notification.
Allowed enum values: show_all,hide_query,hide_handles,hide_all
default: show_all
notify_audit
boolean
A Boolean indicating whether tagged users is notified on changes to this monitor.
notify_by
[string]
Controls what granularity a monitor alerts on. Only available for monitors with groupings.
For instance, a monitor grouped by cluster
, namespace
, and pod
can be configured to only notify on each
new cluster
violating the alert conditions by setting notify_by
to ["cluster"]
. Tags mentioned
in notify_by
must be a subset of the grouping tags in the query.
For example, a query grouped by cluster
and namespace
cannot notify on region
.
Setting notify_by
to [*]
configures the monitor to notify as a simple-alert.
notify_no_data
boolean
A Boolean indicating whether this monitor notifies when data stops reporting. Defaults to false
.
on_missing_data
enum
Controls how groups or monitors are treated if an evaluation does not return any data points.
The default option results in different behavior depending on the monitor query type.
For monitors using Count queries, an empty monitor evaluation is treated as 0 and is compared to the threshold conditions.
For monitors using any query type other than Count, for example Gauge, Measure, or Rate, the monitor shows the last known status.
This option is only available for APM Trace Analytics, Audit Trail, CI, Error Tracking, Event, Logs, and RUM monitors.
Allowed enum values: default,show_no_data,show_and_notify_no_data,resolve
renotify_interval
int64
The number of minutes after the last notification before a monitor re-notifies on the current status. It only re-notifies if it’s not resolved.
renotify_occurrences
int64
The number of times re-notification messages should be sent on the current status at the provided re-notification interval.
renotify_statuses
[string]
The types of monitor statuses for which re-notification messages are sent.
Default: null if renotify_interval
is null.
If renotify_interval
is set, defaults to renotify on Alert
and No Data
.
require_full_window
boolean
A Boolean indicating whether this monitor needs a full window of data before it’s evaluated.
We highly recommend you set this to false
for sparse metrics,
otherwise some evaluations are skipped. Default is false. This setting only applies to
metric monitors.
scheduling_options
object
Configuration options for scheduling.
custom_schedule
object
Configuration options for the custom schedule. This feature is in private beta.
recurrences
[object]
Array of custom schedule recurrences.
rrule
string
Defines the recurrence rule (RRULE) for a given schedule.
start
string
Defines the start date and time of the recurring schedule.
timezone
string
Defines the timezone the schedule runs on.
evaluation_window
object
Configuration options for the evaluation window. If hour_starts
is set, no other fields may be set. Otherwise, day_starts
and month_starts
must be set together.
day_starts
string
The time of the day at which a one day cumulative evaluation window starts. Must be defined in UTC time in HH:mm
format.
hour_starts
int32
The minute of the hour at which a one hour cumulative evaluation window starts.
month_starts
int32
The day of the month at which a one month cumulative evaluation window starts.
silenced
object
DEPRECATED: Information about the downtime applied to the monitor. Only shows v1 downtimes.
<any-key>
int64
UTC epoch timestamp in seconds when the downtime for the group expires.
synthetics_check_id
string
DEPRECATED: ID of the corresponding Synthetic check.
threshold_windows
object
Alerting time window options.
recovery_window
string
Describes how long an anomalous metric must be normal before the alert recovers.
trigger_window
string
Describes how long a metric must be anomalous before an alert triggers.
thresholds
object
List of the different monitor threshold available.
critical
double
The monitor CRITICAL
threshold.
critical_recovery
double
The monitor CRITICAL
recovery threshold.
ok
double
The monitor OK
threshold.
unknown
double
The monitor UNKNOWN threshold.
warning
double
The monitor WARNING
threshold.
warning_recovery
double
The monitor WARNING
recovery threshold.
timeout_h
int64
The number of hours of the monitor not reporting data before it automatically resolves from a triggered state. The minimum allowed value is 0 hours. The maximum allowed value is 24 hours.
variables
[ <oneOf>]
List of requests that can be used in the monitor query. This feature is currently in beta.
Option 1
object
A formula and functions events query.
compute [required]
object
Compute options.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
interval
int64
A time interval in milliseconds.
metric
string
Measurable attribute to compute.
data_source [required]
enum
Data source for event platform-based queries.
Allowed enum values: rum,ci_pipelines,ci_tests,audit,events,logs,spans,database_queries,network
group_by
[object]
Group by options.
facet [required]
string
Event facet.
limit
int64
Number of groups to return.
sort
object
Options for sorting group by results.
aggregation [required]
enum
Aggregation methods for event platform queries.
Allowed enum values: count,cardinality,median,pc75,pc90,pc95,pc98,pc99,sum,min,max,avg
metric
string
Metric used for sorting group by results.
order
enum
Direction of sort.
Allowed enum values: asc,desc
default: desc
indexes
[string]
An array of index names to query in the stream. Omit or use []
to query all indexes at once.
name [required]
string
Name of the query for use in formulas.
search
object
Search options.
query [required]
string
Events search string.
overall_state
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
priority
int64
Integer from 1 (high) to 5 (low) indicating alert severity.
query [required]
string
The monitor query.
restricted_roles
[string]
A list of unique role identifiers to define which roles are allowed to edit the monitor. The unique identifiers for all roles can be pulled from the Roles API and are located in the data.id
field. Editing a monitor includes any updates to the monitor configuration, monitor deletion, and muting of the monitor for any amount of time. You can use the Restriction Policies API to manage write authorization for individual monitors by teams and users, in addition to roles.
state
object
Wrapper object with the different monitor states.
groups
object
Dictionary where the keys are groups (comma separated lists of tags) and the values are the list of groups your monitor is broken down on.
<any-key>
object
Monitor state for a single group.
last_nodata_ts
int64
Latest timestamp the monitor was in NO_DATA state.
last_notified_ts
int64
Latest timestamp of the notification sent for this monitor group.
last_resolved_ts
int64
Latest timestamp the monitor group was resolved.
last_triggered_ts
int64
Latest timestamp the monitor group triggered.
name
string
The name of the monitor.
status
enum
The different states your monitor can be in.
Allowed enum values: Alert,Ignored,No Data,OK,Skipped,Unknown,Warn
tags
[string]
Tags associated to your monitor.
type [required]
enum
The type of the monitor. For more information about type
, see the monitor options docs.
Allowed enum values: composite,event alert,log alert,metric alert,process alert,query alert,rum alert,service check,synthetics alert,trace-analytics alert,slo alert,event-v2 alert,audit alert,ci-pipelines alert,ci-tests alert,error-tracking alert,database-monitoring alert,network-performance alert
{
"name": "Example-Monitor",
"type": "log alert",
"query": "logs(\"service:foo AND type:error\").index(\"main\").rollup(\"count\").by(\"source\").last(\"5m\") > 2",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"enable_logs_sample": true,
"escalation_message": "the situation has escalated",
"evaluation_delay": 700,
"include_tags": true,
"locked": false,
"new_host_delay": 600,
"no_data_timeframe": null,
"notify_audit": false,
"notify_no_data": false,
"on_missing_data": "show_and_notify_no_data",
"notification_preset_name": "hide_handles",
"renotify_interval": 60,
"require_full_window": true,
"timeout_h": 24,
"thresholds": {
"critical": 2,
"warning": 1
}
}
}
OK
{}
Invalid JSON
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="6.66486743e+08"
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v1/monitor/${monitor_id}/validate" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"name": "Example-Monitor",
"type": "log alert",
"query": "logs(\"service:foo AND type:error\").index(\"main\").rollup(\"count\").by(\"source\").last(\"5m\") > 2",
"message": "some message Notify: @hipchat-channel",
"tags": [
"test:examplemonitor",
"env:ci"
],
"priority": 3,
"options": {
"enable_logs_sample": true,
"escalation_message": "the situation has escalated",
"evaluation_delay": 700,
"include_tags": true,
"locked": false,
"new_host_delay": 600,
"no_data_timeframe": null,
"notify_audit": false,
"notify_no_data": false,
"on_missing_data": "show_and_notify_no_data",
"notification_preset_name": "hide_handles",
"renotify_interval": 60,
"require_full_window": true,
"timeout_h": 24,
"thresholds": {
"critical": 2,
"warning": 1
}
}
}
EOF
// Validate an existing monitor returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"strconv"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
// there is a valid "monitor" in the system
MonitorID, _ := strconv.ParseInt(os.Getenv("MONITOR_ID"), 10, 64)
body := datadogV1.Monitor{
Name: datadog.PtrString("Example-Monitor"),
Type: datadogV1.MONITORTYPE_LOG_ALERT,
Query: `logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2`,
Message: datadog.PtrString("some message Notify: @hipchat-channel"),
Tags: []string{
"test:examplemonitor",
"env:ci",
},
Priority: *datadog.NewNullableInt64(datadog.PtrInt64(3)),
Options: &datadogV1.MonitorOptions{
EnableLogsSample: datadog.PtrBool(true),
EscalationMessage: datadog.PtrString("the situation has escalated"),
EvaluationDelay: *datadog.NewNullableInt64(datadog.PtrInt64(700)),
GroupbySimpleMonitor: datadog.PtrBool(true),
IncludeTags: datadog.PtrBool(true),
Locked: datadog.PtrBool(false),
NewHostDelay: *datadog.NewNullableInt64(datadog.PtrInt64(600)),
NoDataTimeframe: *datadog.NewNullableInt64(nil),
NotifyAudit: datadog.PtrBool(false),
NotifyNoData: datadog.PtrBool(false),
OnMissingData: datadogV1.ONMISSINGDATAOPTION_SHOW_AND_NOTIFY_NO_DATA.Ptr(),
NotificationPresetName: datadogV1.MONITOROPTIONSNOTIFICATIONPRESETS_HIDE_HANDLES.Ptr(),
RenotifyInterval: *datadog.NewNullableInt64(datadog.PtrInt64(60)),
RequireFullWindow: datadog.PtrBool(true),
TimeoutH: *datadog.NewNullableInt64(datadog.PtrInt64(24)),
Thresholds: &datadogV1.MonitorThresholds{
Critical: datadog.PtrFloat64(2),
Warning: *datadog.NewNullableFloat64(datadog.PtrFloat64(1)),
},
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewMonitorsApi(apiClient)
resp, r, err := api.ValidateExistingMonitor(ctx, MonitorID, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.ValidateExistingMonitor`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.ValidateExistingMonitor`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Validate an existing monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.MonitorsApi;
import com.datadog.api.client.v1.model.Monitor;
import com.datadog.api.client.v1.model.MonitorOptions;
import com.datadog.api.client.v1.model.MonitorOptionsNotificationPresets;
import com.datadog.api.client.v1.model.MonitorThresholds;
import com.datadog.api.client.v1.model.MonitorType;
import com.datadog.api.client.v1.model.OnMissingDataOption;
import java.util.Arrays;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor" in the system
Long MONITOR_ID = Long.parseLong(System.getenv("MONITOR_ID"));
Monitor body =
new Monitor()
.name("Example-Monitor")
.type(MonitorType.LOG_ALERT)
.query(
"""
logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2
""")
.message("some message Notify: @hipchat-channel")
.tags(Arrays.asList("test:examplemonitor", "env:ci"))
.priority(3L)
.options(
new MonitorOptions()
.enableLogsSample(true)
.escalationMessage("the situation has escalated")
.evaluationDelay(700L)
.groupbySimpleMonitor(true)
.includeTags(true)
.locked(false)
.newHostDelay(600L)
.noDataTimeframe(null)
.notifyAudit(false)
.notifyNoData(false)
.onMissingData(OnMissingDataOption.SHOW_AND_NOTIFY_NO_DATA)
.notificationPresetName(MonitorOptionsNotificationPresets.HIDE_HANDLES)
.renotifyInterval(60L)
.requireFullWindow(true)
.timeoutH(24L)
.thresholds(new MonitorThresholds().critical(2.0).warning(1.0)));
try {
apiInstance.validateExistingMonitor(MONITOR_ID, body);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#validateExistingMonitor");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
"""
Validate an existing monitor returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.monitors_api import MonitorsApi
from datadog_api_client.v1.model.monitor import Monitor
from datadog_api_client.v1.model.monitor_options import MonitorOptions
from datadog_api_client.v1.model.monitor_options_notification_presets import MonitorOptionsNotificationPresets
from datadog_api_client.v1.model.monitor_thresholds import MonitorThresholds
from datadog_api_client.v1.model.monitor_type import MonitorType
from datadog_api_client.v1.model.on_missing_data_option import OnMissingDataOption
# there is a valid "monitor" in the system
MONITOR_ID = environ["MONITOR_ID"]
body = Monitor(
name="Example-Monitor",
type=MonitorType.LOG_ALERT,
query='logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2',
message="some message Notify: @hipchat-channel",
tags=[
"test:examplemonitor",
"env:ci",
],
priority=3,
options=MonitorOptions(
enable_logs_sample=True,
escalation_message="the situation has escalated",
evaluation_delay=700,
groupby_simple_monitor=True,
include_tags=True,
locked=False,
new_host_delay=600,
no_data_timeframe=None,
notify_audit=False,
notify_no_data=False,
on_missing_data=OnMissingDataOption.SHOW_AND_NOTIFY_NO_DATA,
notification_preset_name=MonitorOptionsNotificationPresets.HIDE_HANDLES,
renotify_interval=60,
require_full_window=True,
timeout_h=24,
thresholds=MonitorThresholds(
critical=2.0,
warning=1.0,
),
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.validate_existing_monitor(monitor_id=int(MONITOR_ID), body=body)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Validate an existing monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::MonitorsAPI.new
# there is a valid "monitor" in the system
MONITOR_ID = ENV["MONITOR_ID"]
body = DatadogAPIClient::V1::Monitor.new({
name: "Example-Monitor",
type: DatadogAPIClient::V1::MonitorType::LOG_ALERT,
query: 'logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2',
message: "some message Notify: @hipchat-channel",
tags: [
"test:examplemonitor",
"env:ci",
],
priority: 3,
options: DatadogAPIClient::V1::MonitorOptions.new({
enable_logs_sample: true,
escalation_message: "the situation has escalated",
evaluation_delay: 700,
groupby_simple_monitor: true,
include_tags: true,
locked: false,
new_host_delay: 600,
no_data_timeframe: nil,
notify_audit: false,
notify_no_data: false,
on_missing_data: DatadogAPIClient::V1::OnMissingDataOption::SHOW_AND_NOTIFY_NO_DATA,
notification_preset_name: DatadogAPIClient::V1::MonitorOptionsNotificationPresets::HIDE_HANDLES,
renotify_interval: 60,
require_full_window: true,
timeout_h: 24,
thresholds: DatadogAPIClient::V1::MonitorThresholds.new({
critical: 2,
warning: 1,
}),
}),
})
p api_instance.validate_existing_monitor(MONITOR_ID.to_i, body)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Validate an existing monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV1::model::Monitor;
use datadog_api_client::datadogV1::model::MonitorOptions;
use datadog_api_client::datadogV1::model::MonitorOptionsNotificationPresets;
use datadog_api_client::datadogV1::model::MonitorThresholds;
use datadog_api_client::datadogV1::model::MonitorType;
use datadog_api_client::datadogV1::model::OnMissingDataOption;
#[tokio::main]
async fn main() {
// there is a valid "monitor" in the system
let monitor_id: i64 = std::env::var("MONITOR_ID").unwrap().parse().unwrap();
let body =
Monitor::new(
r#"logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2"#.to_string(),
MonitorType::LOG_ALERT,
)
.message("some message Notify: @hipchat-channel".to_string())
.name("Example-Monitor".to_string())
.options(
MonitorOptions::new()
.enable_logs_sample(true)
.escalation_message("the situation has escalated".to_string())
.evaluation_delay(Some(700))
.groupby_simple_monitor(true)
.include_tags(true)
.locked(false)
.new_host_delay(Some(600))
.no_data_timeframe(None)
.notification_preset_name(MonitorOptionsNotificationPresets::HIDE_HANDLES)
.notify_audit(false)
.notify_no_data(false)
.on_missing_data(OnMissingDataOption::SHOW_AND_NOTIFY_NO_DATA)
.renotify_interval(Some(60))
.require_full_window(true)
.thresholds(MonitorThresholds::new().critical(2.0 as f64).warning(Some(1.0 as f64)))
.timeout_h(Some(24)),
)
.priority(Some(3))
.tags(vec!["test:examplemonitor".to_string(), "env:ci".to_string()]);
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.validate_existing_monitor(monitor_id.clone(), body)
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Validate an existing monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.MonitorsApi(configuration);
// there is a valid "monitor" in the system
const MONITOR_ID = parseInt(process.env.MONITOR_ID as string);
const params: v1.MonitorsApiValidateExistingMonitorRequest = {
body: {
name: "Example-Monitor",
type: "log alert",
query: `logs("service:foo AND type:error").index("main").rollup("count").by("source").last("5m") > 2`,
message: "some message Notify: @hipchat-channel",
tags: ["test:examplemonitor", "env:ci"],
priority: 3,
options: {
enableLogsSample: true,
escalationMessage: "the situation has escalated",
evaluationDelay: 700,
groupbySimpleMonitor: true,
includeTags: true,
locked: false,
newHostDelay: 600,
noDataTimeframe: undefined,
notifyAudit: false,
notifyNoData: false,
onMissingData: "show_and_notify_no_data",
notificationPresetName: "hide_handles",
renotifyInterval: 60,
requireFullWindow: true,
timeoutH: 24,
thresholds: {
critical: 2,
warning: 1,
},
},
},
monitorId: MONITOR_ID,
};
apiInstance
.validateExistingMonitor(params)
.then((data: any) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
GET https://api.ap1.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.datadoghq.eu/api/v2/monitor/policy/{policy_id}https://api.ddog-gov.com/api/v2/monitor/policy/{policy_id}https://api.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.us3.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.us5.datadoghq.com/api/v2/monitor/policy/{policy_id}
Get a monitor configuration policy by policy_id
.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
이름
유형
설명
policy_id [required]
string
ID of the monitor configuration policy.
OK
Response for retrieving a monitor configuration policy.
항목
유형
설명
data
object
A monitor configuration policy data.
attributes
object
Policy and policy type for a monitor configuration policy.
policy
<oneOf>
Configuration for the policy.
Option 1
object
Tag attributes of a monitor configuration policy.
tag_key
string
The key of the tag.
tag_key_required
boolean
If a tag key is required for monitor creation.
valid_tag_values
[string]
Valid values for the tag.
policy_type
enum
The monitor configuration policy type.
Allowed enum values: tag
default: tag
id
string
ID of this monitor configuration policy.
type
enum
Monitor configuration policy resource type.
Allowed enum values: monitor-config-policy
default: monitor-config-policy
{
"data": {
"attributes": {
"policy": {
"tag_key": "datacenter",
"tag_key_required": true,
"valid_tag_values": [
"prod",
"staging"
]
},
"policy_type": "tag"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "monitor-config-policy"
}
}
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Not Found
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export policy_id="00000000-0000-1234-0000-000000000000"
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v2/monitor/policy/${policy_id}" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get a monitor configuration policy returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.monitors_api import MonitorsApi
# there is a valid "monitor_configuration_policy" in the system
MONITOR_CONFIGURATION_POLICY_DATA_ID = environ["MONITOR_CONFIGURATION_POLICY_DATA_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.get_monitor_config_policy(
policy_id=MONITOR_CONFIGURATION_POLICY_DATA_ID,
)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Get a monitor configuration policy returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::MonitorsAPI.new
# there is a valid "monitor_configuration_policy" in the system
MONITOR_CONFIGURATION_POLICY_DATA_ID = ENV["MONITOR_CONFIGURATION_POLICY_DATA_ID"]
p api_instance.get_monitor_config_policy(MONITOR_CONFIGURATION_POLICY_DATA_ID)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Get a monitor configuration policy returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV2"
)
func main() {
// there is a valid "monitor_configuration_policy" in the system
MonitorConfigurationPolicyDataID := os.Getenv("MONITOR_CONFIGURATION_POLICY_DATA_ID")
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewMonitorsApi(apiClient)
resp, r, err := api.GetMonitorConfigPolicy(ctx, MonitorConfigurationPolicyDataID)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.GetMonitorConfigPolicy`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.GetMonitorConfigPolicy`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Get a monitor configuration policy returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.MonitorsApi;
import com.datadog.api.client.v2.model.MonitorConfigPolicyResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor_configuration_policy" in the system
String MONITOR_CONFIGURATION_POLICY_DATA_ID =
System.getenv("MONITOR_CONFIGURATION_POLICY_DATA_ID");
try {
MonitorConfigPolicyResponse result =
apiInstance.getMonitorConfigPolicy(MONITOR_CONFIGURATION_POLICY_DATA_ID);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#getMonitorConfigPolicy");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
// Get a monitor configuration policy returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
// there is a valid "monitor_configuration_policy" in the system
let monitor_configuration_policy_data_id =
std::env::var("MONITOR_CONFIGURATION_POLICY_DATA_ID").unwrap();
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.get_monitor_config_policy(monitor_configuration_policy_data_id.clone())
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Get a monitor configuration policy returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.MonitorsApi(configuration);
// there is a valid "monitor_configuration_policy" in the system
const MONITOR_CONFIGURATION_POLICY_DATA_ID = process.env
.MONITOR_CONFIGURATION_POLICY_DATA_ID as string;
const params: v2.MonitorsApiGetMonitorConfigPolicyRequest = {
policyId: MONITOR_CONFIGURATION_POLICY_DATA_ID,
};
apiInstance
.getMonitorConfigPolicy(params)
.then((data: v2.MonitorConfigPolicyResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
GET https://api.ap1.datadoghq.com/api/v2/monitor/policyhttps://api.datadoghq.eu/api/v2/monitor/policyhttps://api.ddog-gov.com/api/v2/monitor/policyhttps://api.datadoghq.com/api/v2/monitor/policyhttps://api.us3.datadoghq.com/api/v2/monitor/policyhttps://api.us5.datadoghq.com/api/v2/monitor/policy
Get all monitor configuration policies.
This endpoint requires the monitors_read
permission.
OAuth apps require the monitors_read
authorization scope to access this endpoint.
OK
Response for retrieving all monitor configuration policies.
항목
유형
설명
data
[object]
An array of monitor configuration policies.
attributes
object
Policy and policy type for a monitor configuration policy.
policy
<oneOf>
Configuration for the policy.
Option 1
object
Tag attributes of a monitor configuration policy.
tag_key
string
The key of the tag.
tag_key_required
boolean
If a tag key is required for monitor creation.
valid_tag_values
[string]
Valid values for the tag.
policy_type
enum
The monitor configuration policy type.
Allowed enum values: tag
default: tag
id
string
ID of this monitor configuration policy.
type
enum
Monitor configuration policy resource type.
Allowed enum values: monitor-config-policy
default: monitor-config-policy
{
"data": [
{
"attributes": {
"policy": {
"tag_key": "datacenter",
"tag_key_required": true,
"valid_tag_values": [
"prod",
"staging"
]
},
"policy_type": "tag"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "monitor-config-policy"
}
]
}
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X GET "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v2/monitor/policy" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get all monitor configuration policies returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.monitors_api import MonitorsApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.list_monitor_config_policies()
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Get all monitor configuration policies returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::MonitorsAPI.new
p api_instance.list_monitor_config_policies()
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Get all monitor configuration policies returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV2"
)
func main() {
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewMonitorsApi(apiClient)
resp, r, err := api.ListMonitorConfigPolicies(ctx)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.ListMonitorConfigPolicies`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.ListMonitorConfigPolicies`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Get all monitor configuration policies returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.MonitorsApi;
import com.datadog.api.client.v2.model.MonitorConfigPolicyListResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
try {
MonitorConfigPolicyListResponse result = apiInstance.listMonitorConfigPolicies();
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#listMonitorConfigPolicies");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" java "Example.java"
// Get all monitor configuration policies returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.list_monitor_config_policies().await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Get all monitor configuration policies returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.MonitorsApi(configuration);
apiInstance
.listMonitorConfigPolicies()
.then((data: v2.MonitorConfigPolicyListResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" tsc "example.ts"
POST https://api.ap1.datadoghq.com/api/v2/monitor/policyhttps://api.datadoghq.eu/api/v2/monitor/policyhttps://api.ddog-gov.com/api/v2/monitor/policyhttps://api.datadoghq.com/api/v2/monitor/policyhttps://api.us3.datadoghq.com/api/v2/monitor/policyhttps://api.us5.datadoghq.com/api/v2/monitor/policy
Create a monitor configuration policy.
This endpoint requires the monitor_config_policy_write
permission.
Create a monitor configuration policy request body.
항목
유형
설명
data [required]
object
A monitor configuration policy data.
attributes [required]
object
Policy and policy type for a monitor configuration policy.
policy [required]
<oneOf>
Configuration for the policy.
Option 1
object
Tag attributes of a monitor configuration policy.
tag_key [required]
string
The key of the tag.
tag_key_required [required]
boolean
If a tag key is required for monitor creation.
valid_tag_values [required]
[string]
Valid values for the tag.
policy_type [required]
enum
The monitor configuration policy type.
Allowed enum values: tag
default: tag
type [required]
enum
Monitor configuration policy resource type.
Allowed enum values: monitor-config-policy
default: monitor-config-policy
{
"data": {
"attributes": {
"policy_type": "tag",
"policy": {
"tag_key": "examplemonitor",
"tag_key_required": false,
"valid_tag_values": [
"prod",
"staging"
]
}
},
"type": "monitor-config-policy"
}
}
OK
Response for retrieving a monitor configuration policy.
항목
유형
설명
data
object
A monitor configuration policy data.
attributes
object
Policy and policy type for a monitor configuration policy.
policy
<oneOf>
Configuration for the policy.
Option 1
object
Tag attributes of a monitor configuration policy.
tag_key
string
The key of the tag.
tag_key_required
boolean
If a tag key is required for monitor creation.
valid_tag_values
[string]
Valid values for the tag.
policy_type
enum
The monitor configuration policy type.
Allowed enum values: tag
default: tag
id
string
ID of this monitor configuration policy.
type
enum
Monitor configuration policy resource type.
Allowed enum values: monitor-config-policy
default: monitor-config-policy
{
"data": {
"attributes": {
"policy": {
"tag_key": "datacenter",
"tag_key_required": true,
"valid_tag_values": [
"prod",
"staging"
]
},
"policy_type": "tag"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "monitor-config-policy"
}
}
Bad Request
API error response.
{
"errors": [
"Bad Request"
]
}
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Curl command
curl -X POST "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v2/monitor/policy" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"data": {
"attributes": {
"policy_type": "tag",
"policy": {
"tag_key": "examplemonitor",
"tag_key_required": false,
"valid_tag_values": [
"prod",
"staging"
]
}
},
"type": "monitor-config-policy"
}
}
EOF
// Create a monitor configuration policy returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV2"
)
func main() {
body := datadogV2.MonitorConfigPolicyCreateRequest{
Data: datadogV2.MonitorConfigPolicyCreateData{
Attributes: datadogV2.MonitorConfigPolicyAttributeCreateRequest{
PolicyType: datadogV2.MONITORCONFIGPOLICYTYPE_TAG,
Policy: datadogV2.MonitorConfigPolicyPolicyCreateRequest{
MonitorConfigPolicyTagPolicyCreateRequest: &datadogV2.MonitorConfigPolicyTagPolicyCreateRequest{
TagKey: "examplemonitor",
TagKeyRequired: false,
ValidTagValues: []string{
"prod",
"staging",
},
}},
},
Type: datadogV2.MONITORCONFIGPOLICYRESOURCETYPE_MONITOR_CONFIG_POLICY,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewMonitorsApi(apiClient)
resp, r, err := api.CreateMonitorConfigPolicy(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.CreateMonitorConfigPolicy`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.CreateMonitorConfigPolicy`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" go run "main.go"
// Create a monitor configuration policy returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.MonitorsApi;
import com.datadog.api.client.v2.model.MonitorConfigPolicyAttributeCreateRequest;
import com.datadog.api.client.v2.model.MonitorConfigPolicyCreateData;
import com.datadog.api.client.v2.model.MonitorConfigPolicyCreateRequest;
import com.datadog.api.client.v2.model.MonitorConfigPolicyPolicyCreateRequest;
import com.datadog.api.client.v2.model.MonitorConfigPolicyResourceType;
import com.datadog.api.client.v2.model.MonitorConfigPolicyResponse;
import com.datadog.api.client.v2.model.MonitorConfigPolicyTagPolicyCreateRequest;
import com.datadog.api.client.v2.model.MonitorConfigPolicyType;
import java.util.Arrays;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
MonitorConfigPolicyCreateRequest body =
new MonitorConfigPolicyCreateRequest()
.data(
new MonitorConfigPolicyCreateData()
.attributes(
new MonitorConfigPolicyAttributeCreateRequest()
.policyType(MonitorConfigPolicyType.TAG)
.policy(
new MonitorConfigPolicyPolicyCreateRequest(
new MonitorConfigPolicyTagPolicyCreateRequest()
.tagKey("examplemonitor")
.tagKeyRequired(false)
.validTagValues(Arrays.asList("prod", "staging")))))
.type(MonitorConfigPolicyResourceType.MONITOR_CONFIG_POLICY));
try {
MonitorConfigPolicyResponse result = apiInstance.createMonitorConfigPolicy(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#createMonitorConfigPolicy");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" java "Example.java"
"""
Create a monitor configuration policy returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.monitors_api import MonitorsApi
from datadog_api_client.v2.model.monitor_config_policy_attribute_create_request import (
MonitorConfigPolicyAttributeCreateRequest,
)
from datadog_api_client.v2.model.monitor_config_policy_create_data import MonitorConfigPolicyCreateData
from datadog_api_client.v2.model.monitor_config_policy_create_request import MonitorConfigPolicyCreateRequest
from datadog_api_client.v2.model.monitor_config_policy_resource_type import MonitorConfigPolicyResourceType
from datadog_api_client.v2.model.monitor_config_policy_tag_policy_create_request import (
MonitorConfigPolicyTagPolicyCreateRequest,
)
from datadog_api_client.v2.model.monitor_config_policy_type import MonitorConfigPolicyType
body = MonitorConfigPolicyCreateRequest(
data=MonitorConfigPolicyCreateData(
attributes=MonitorConfigPolicyAttributeCreateRequest(
policy_type=MonitorConfigPolicyType.TAG,
policy=MonitorConfigPolicyTagPolicyCreateRequest(
tag_key="examplemonitor",
tag_key_required=False,
valid_tag_values=[
"prod",
"staging",
],
),
),
type=MonitorConfigPolicyResourceType.MONITOR_CONFIG_POLICY,
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.create_monitor_config_policy(body=body)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" python3 "example.py"
# Create a monitor configuration policy returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::MonitorsAPI.new
body = DatadogAPIClient::V2::MonitorConfigPolicyCreateRequest.new({
data: DatadogAPIClient::V2::MonitorConfigPolicyCreateData.new({
attributes: DatadogAPIClient::V2::MonitorConfigPolicyAttributeCreateRequest.new({
policy_type: DatadogAPIClient::V2::MonitorConfigPolicyType::TAG,
policy: DatadogAPIClient::V2::MonitorConfigPolicyTagPolicyCreateRequest.new({
tag_key: "examplemonitor",
tag_key_required: false,
valid_tag_values: [
"prod",
"staging",
],
}),
}),
type: DatadogAPIClient::V2::MonitorConfigPolicyResourceType::MONITOR_CONFIG_POLICY,
}),
})
p api_instance.create_monitor_config_policy(body)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" rb "example.rb"
// Create a monitor configuration policy returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyAttributeCreateRequest;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyCreateData;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyCreateRequest;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyPolicyCreateRequest;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyResourceType;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyTagPolicyCreateRequest;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyType;
#[tokio::main]
async fn main() {
let body = MonitorConfigPolicyCreateRequest::new(MonitorConfigPolicyCreateData::new(
MonitorConfigPolicyAttributeCreateRequest::new(
MonitorConfigPolicyPolicyCreateRequest::MonitorConfigPolicyTagPolicyCreateRequest(
Box::new(MonitorConfigPolicyTagPolicyCreateRequest::new(
"examplemonitor".to_string(),
false,
vec!["prod".to_string(), "staging".to_string()],
)),
),
MonitorConfigPolicyType::TAG,
),
MonitorConfigPolicyResourceType::MONITOR_CONFIG_POLICY,
));
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api.create_monitor_config_policy(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" cargo run
/**
* Create a monitor configuration policy returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.MonitorsApi(configuration);
const params: v2.MonitorsApiCreateMonitorConfigPolicyRequest = {
body: {
data: {
attributes: {
policyType: "tag",
policy: {
tagKey: "examplemonitor",
tagKeyRequired: false,
validTagValues: ["prod", "staging"],
},
},
type: "monitor-config-policy",
},
},
};
apiInstance
.createMonitorConfigPolicy(params)
.then((data: v2.MonitorConfigPolicyResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" tsc "example.ts"
PATCH https://api.ap1.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.datadoghq.eu/api/v2/monitor/policy/{policy_id}https://api.ddog-gov.com/api/v2/monitor/policy/{policy_id}https://api.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.us3.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.us5.datadoghq.com/api/v2/monitor/policy/{policy_id}
Edit a monitor configuration policy.
This endpoint requires the monitor_config_policy_write
permission.
이름
유형
설명
policy_id [required]
string
ID of the monitor configuration policy.
Description of the update.
항목
유형
설명
data [required]
object
A monitor configuration policy data.
attributes [required]
object
Policy and policy type for a monitor configuration policy.
policy [required]
<oneOf>
Configuration for the policy.
Option 1
object
Tag attributes of a monitor configuration policy.
tag_key
string
The key of the tag.
tag_key_required
boolean
If a tag key is required for monitor creation.
valid_tag_values
[string]
Valid values for the tag.
policy_type [required]
enum
The monitor configuration policy type.
Allowed enum values: tag
default: tag
id [required]
string
ID of this monitor configuration policy.
type [required]
enum
Monitor configuration policy resource type.
Allowed enum values: monitor-config-policy
default: monitor-config-policy
{
"data": {
"attributes": {
"policy": {
"tag_key": "examplemonitor",
"tag_key_required": false,
"valid_tag_values": [
"prod",
"staging"
]
},
"policy_type": "tag"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "monitor-config-policy"
}
}
OK
Response for retrieving a monitor configuration policy.
항목
유형
설명
data
object
A monitor configuration policy data.
attributes
object
Policy and policy type for a monitor configuration policy.
policy
<oneOf>
Configuration for the policy.
Option 1
object
Tag attributes of a monitor configuration policy.
tag_key
string
The key of the tag.
tag_key_required
boolean
If a tag key is required for monitor creation.
valid_tag_values
[string]
Valid values for the tag.
policy_type
enum
The monitor configuration policy type.
Allowed enum values: tag
default: tag
id
string
ID of this monitor configuration policy.
type
enum
Monitor configuration policy resource type.
Allowed enum values: monitor-config-policy
default: monitor-config-policy
{
"data": {
"attributes": {
"policy": {
"tag_key": "datacenter",
"tag_key_required": true,
"valid_tag_values": [
"prod",
"staging"
]
},
"policy_type": "tag"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "monitor-config-policy"
}
}
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Not Found
API error response.
{
"errors": [
"Bad Request"
]
}
Unprocessable Entity
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export policy_id="00000000-0000-1234-0000-000000000000"
# Curl command
curl -X PATCH "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v2/monitor/policy/${policy_id}" \
-H "Accept: application/json" \
-H "Content-Type: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}" \
-d @- << EOF
{
"data": {
"attributes": {
"policy": {
"tag_key": "examplemonitor",
"tag_key_required": false,
"valid_tag_values": [
"prod",
"staging"
]
},
"policy_type": "tag"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "monitor-config-policy"
}
}
EOF
// Edit a monitor configuration policy returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV2"
)
func main() {
// there is a valid "monitor_configuration_policy" in the system
MonitorConfigurationPolicyDataID := os.Getenv("MONITOR_CONFIGURATION_POLICY_DATA_ID")
body := datadogV2.MonitorConfigPolicyEditRequest{
Data: datadogV2.MonitorConfigPolicyEditData{
Attributes: datadogV2.MonitorConfigPolicyAttributeEditRequest{
Policy: datadogV2.MonitorConfigPolicyPolicy{
MonitorConfigPolicyTagPolicy: &datadogV2.MonitorConfigPolicyTagPolicy{
TagKey: datadog.PtrString("examplemonitor"),
TagKeyRequired: datadog.PtrBool(false),
ValidTagValues: []string{
"prod",
"staging",
},
}},
PolicyType: datadogV2.MONITORCONFIGPOLICYTYPE_TAG,
},
Id: MonitorConfigurationPolicyDataID,
Type: datadogV2.MONITORCONFIGPOLICYRESOURCETYPE_MONITOR_CONFIG_POLICY,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewMonitorsApi(apiClient)
resp, r, err := api.UpdateMonitorConfigPolicy(ctx, MonitorConfigurationPolicyDataID, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.UpdateMonitorConfigPolicy`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `MonitorsApi.UpdateMonitorConfigPolicy`:\n%s\n", responseContent)
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" go run "main.go"
// Edit a monitor configuration policy returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.MonitorsApi;
import com.datadog.api.client.v2.model.MonitorConfigPolicyAttributeEditRequest;
import com.datadog.api.client.v2.model.MonitorConfigPolicyEditData;
import com.datadog.api.client.v2.model.MonitorConfigPolicyEditRequest;
import com.datadog.api.client.v2.model.MonitorConfigPolicyPolicy;
import com.datadog.api.client.v2.model.MonitorConfigPolicyResourceType;
import com.datadog.api.client.v2.model.MonitorConfigPolicyResponse;
import com.datadog.api.client.v2.model.MonitorConfigPolicyTagPolicy;
import com.datadog.api.client.v2.model.MonitorConfigPolicyType;
import java.util.Arrays;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor_configuration_policy" in the system
String MONITOR_CONFIGURATION_POLICY_DATA_ID =
System.getenv("MONITOR_CONFIGURATION_POLICY_DATA_ID");
MonitorConfigPolicyEditRequest body =
new MonitorConfigPolicyEditRequest()
.data(
new MonitorConfigPolicyEditData()
.attributes(
new MonitorConfigPolicyAttributeEditRequest()
.policy(
new MonitorConfigPolicyPolicy(
new MonitorConfigPolicyTagPolicy()
.tagKey("examplemonitor")
.tagKeyRequired(false)
.validTagValues(Arrays.asList("prod", "staging"))))
.policyType(MonitorConfigPolicyType.TAG))
.id(MONITOR_CONFIGURATION_POLICY_DATA_ID)
.type(MonitorConfigPolicyResourceType.MONITOR_CONFIG_POLICY));
try {
MonitorConfigPolicyResponse result =
apiInstance.updateMonitorConfigPolicy(MONITOR_CONFIGURATION_POLICY_DATA_ID, body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#updateMonitorConfigPolicy");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" java "Example.java"
"""
Edit a monitor configuration policy returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.monitors_api import MonitorsApi
from datadog_api_client.v2.model.monitor_config_policy_attribute_edit_request import (
MonitorConfigPolicyAttributeEditRequest,
)
from datadog_api_client.v2.model.monitor_config_policy_edit_data import MonitorConfigPolicyEditData
from datadog_api_client.v2.model.monitor_config_policy_edit_request import MonitorConfigPolicyEditRequest
from datadog_api_client.v2.model.monitor_config_policy_resource_type import MonitorConfigPolicyResourceType
from datadog_api_client.v2.model.monitor_config_policy_tag_policy import MonitorConfigPolicyTagPolicy
from datadog_api_client.v2.model.monitor_config_policy_type import MonitorConfigPolicyType
# there is a valid "monitor_configuration_policy" in the system
MONITOR_CONFIGURATION_POLICY_DATA_ID = environ["MONITOR_CONFIGURATION_POLICY_DATA_ID"]
body = MonitorConfigPolicyEditRequest(
data=MonitorConfigPolicyEditData(
attributes=MonitorConfigPolicyAttributeEditRequest(
policy=MonitorConfigPolicyTagPolicy(
tag_key="examplemonitor",
tag_key_required=False,
valid_tag_values=[
"prod",
"staging",
],
),
policy_type=MonitorConfigPolicyType.TAG,
),
id=MONITOR_CONFIGURATION_POLICY_DATA_ID,
type=MonitorConfigPolicyResourceType.MONITOR_CONFIG_POLICY,
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
response = api_instance.update_monitor_config_policy(policy_id=MONITOR_CONFIGURATION_POLICY_DATA_ID, body=body)
print(response)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" python3 "example.py"
# Edit a monitor configuration policy returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::MonitorsAPI.new
# there is a valid "monitor_configuration_policy" in the system
MONITOR_CONFIGURATION_POLICY_DATA_ID = ENV["MONITOR_CONFIGURATION_POLICY_DATA_ID"]
body = DatadogAPIClient::V2::MonitorConfigPolicyEditRequest.new({
data: DatadogAPIClient::V2::MonitorConfigPolicyEditData.new({
attributes: DatadogAPIClient::V2::MonitorConfigPolicyAttributeEditRequest.new({
policy: DatadogAPIClient::V2::MonitorConfigPolicyTagPolicy.new({
tag_key: "examplemonitor",
tag_key_required: false,
valid_tag_values: [
"prod",
"staging",
],
}),
policy_type: DatadogAPIClient::V2::MonitorConfigPolicyType::TAG,
}),
id: MONITOR_CONFIGURATION_POLICY_DATA_ID,
type: DatadogAPIClient::V2::MonitorConfigPolicyResourceType::MONITOR_CONFIG_POLICY,
}),
})
p api_instance.update_monitor_config_policy(MONITOR_CONFIGURATION_POLICY_DATA_ID, body)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" rb "example.rb"
// Edit a monitor configuration policy returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_monitors::MonitorsAPI;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyAttributeEditRequest;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyEditData;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyEditRequest;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyPolicy;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyResourceType;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyTagPolicy;
use datadog_api_client::datadogV2::model::MonitorConfigPolicyType;
#[tokio::main]
async fn main() {
// there is a valid "monitor_configuration_policy" in the system
let monitor_configuration_policy_data_id =
std::env::var("MONITOR_CONFIGURATION_POLICY_DATA_ID").unwrap();
let body = MonitorConfigPolicyEditRequest::new(MonitorConfigPolicyEditData::new(
MonitorConfigPolicyAttributeEditRequest::new(
MonitorConfigPolicyPolicy::MonitorConfigPolicyTagPolicy(Box::new(
MonitorConfigPolicyTagPolicy::new()
.tag_key("examplemonitor".to_string())
.tag_key_required(false)
.valid_tag_values(vec!["prod".to_string(), "staging".to_string()]),
)),
MonitorConfigPolicyType::TAG,
),
monitor_configuration_policy_data_id.clone(),
MonitorConfigPolicyResourceType::MONITOR_CONFIG_POLICY,
));
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.update_monitor_config_policy(monitor_configuration_policy_data_id.clone(), body)
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" cargo run
/**
* Edit a monitor configuration policy returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.MonitorsApi(configuration);
// there is a valid "monitor_configuration_policy" in the system
const MONITOR_CONFIGURATION_POLICY_DATA_ID = process.env
.MONITOR_CONFIGURATION_POLICY_DATA_ID as string;
const params: v2.MonitorsApiUpdateMonitorConfigPolicyRequest = {
body: {
data: {
attributes: {
policy: {
tagKey: "examplemonitor",
tagKeyRequired: false,
validTagValues: ["prod", "staging"],
},
policyType: "tag",
},
id: MONITOR_CONFIGURATION_POLICY_DATA_ID,
type: "monitor-config-policy",
},
},
policyId: MONITOR_CONFIGURATION_POLICY_DATA_ID,
};
apiInstance
.updateMonitorConfigPolicy(params)
.then((data: v2.MonitorConfigPolicyResponse) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" tsc "example.ts"
DELETE https://api.ap1.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.datadoghq.eu/api/v2/monitor/policy/{policy_id}https://api.ddog-gov.com/api/v2/monitor/policy/{policy_id}https://api.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.us3.datadoghq.com/api/v2/monitor/policy/{policy_id}https://api.us5.datadoghq.com/api/v2/monitor/policy/{policy_id}
Delete a monitor configuration policy.
This endpoint requires the monitor_config_policy_write
permission.
이름
유형
설명
policy_id [required]
string
ID of the monitor configuration policy.
OK
Bad Request
API error response.
{
"errors": [
"Bad Request"
]
}
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Not Found
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export policy_id="00000000-0000-1234-0000-000000000000"
# Curl command
curl -X DELETE "https://api.ap1.datadoghq.com"https://api.datadoghq.eu"https://api.ddog-gov.com"https://api.datadoghq.com"https://api.us3.datadoghq.com"https://api.us5.datadoghq.com/api/v2/monitor/policy/${policy_id}" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Delete a monitor configuration policy returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.monitors_api import MonitorsApi
# there is a valid "monitor_configuration_policy" in the system
MONITOR_CONFIGURATION_POLICY_DATA_ID = environ["MONITOR_CONFIGURATION_POLICY_DATA_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = MonitorsApi(api_client)
api_instance.delete_monitor_config_policy(
policy_id=MONITOR_CONFIGURATION_POLICY_DATA_ID,
)
First install the library and its dependencies and then save the example to example.py
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" python3 "example.py"
# Delete a monitor configuration policy returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::MonitorsAPI.new
# there is a valid "monitor_configuration_policy" in the system
MONITOR_CONFIGURATION_POLICY_DATA_ID = ENV["MONITOR_CONFIGURATION_POLICY_DATA_ID"]
api_instance.delete_monitor_config_policy(MONITOR_CONFIGURATION_POLICY_DATA_ID)
First install the library and its dependencies and then save the example to example.rb
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" rb "example.rb"
// Delete a monitor configuration policy returns "OK" response
package main
import (
"context"
"fmt"
"os"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV2"
)
func main() {
// there is a valid "monitor_configuration_policy" in the system
MonitorConfigurationPolicyDataID := os.Getenv("MONITOR_CONFIGURATION_POLICY_DATA_ID")
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewMonitorsApi(apiClient)
r, err := api.DeleteMonitorConfigPolicy(ctx, MonitorConfigurationPolicyDataID)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `MonitorsApi.DeleteMonitorConfigPolicy`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
}
First install the library and its dependencies and then save the example to main.go
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" go run "main.go"
// Delete a monitor configuration policy returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.MonitorsApi;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
MonitorsApi apiInstance = new MonitorsApi(defaultClient);
// there is a valid "monitor_configuration_policy" in the system
String MONITOR_CONFIGURATION_POLICY_DATA_ID =
System.getenv("MONITOR_CONFIGURATION_POLICY_DATA_ID");
try {
apiInstance.deleteMonitorConfigPolicy(MONITOR_CONFIGURATION_POLICY_DATA_ID);
} catch (ApiException e) {
System.err.println("Exception when calling MonitorsApi#deleteMonitorConfigPolicy");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
First install the library and its dependencies and then save the example to Example.java
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" java "Example.java"
// Delete a monitor configuration policy returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_monitors::MonitorsAPI;
#[tokio::main]
async fn main() {
// there is a valid "monitor_configuration_policy" in the system
let monitor_configuration_policy_data_id =
std::env::var("MONITOR_CONFIGURATION_POLICY_DATA_ID").unwrap();
let configuration = datadog::Configuration::new();
let api = MonitorsAPI::with_config(configuration);
let resp = api
.delete_monitor_config_policy(monitor_configuration_policy_data_id.clone())
.await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
First install the library and its dependencies and then save the example to src/main.rs
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" cargo run
/**
* Delete a monitor configuration policy returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.MonitorsApi(configuration);
// there is a valid "monitor_configuration_policy" in the system
const MONITOR_CONFIGURATION_POLICY_DATA_ID = process.env
.MONITOR_CONFIGURATION_POLICY_DATA_ID as string;
const params: v2.MonitorsApiDeleteMonitorConfigPolicyRequest = {
policyId: MONITOR_CONFIGURATION_POLICY_DATA_ID,
};
apiInstance
.deleteMonitorConfigPolicy(params)
.then((data: any) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
First install the library and its dependencies and then save the example to example.ts
and run following commands:
DD_SITE="datadoghq.comus3.datadoghq.comus5.datadoghq.comdatadoghq.euap1.datadoghq.comddog-gov.com" DD_API_KEY="<API-KEY>" DD_APP_KEY="<APP-KEY>" tsc "example.ts"