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다운타임을 이용하면 알림에서 제외할 범위를 전역으로 확장할 수 있기 때문에 알림을 모니터링할 때 제어할 수 있는 범위가 더 넓어집니다. 다운타임 설정에서 시작과 종료 시간을 정할 수 있어 Datadog 태그로 지정된 특정 알림을 예방할 수 있습니다.
GET https://api.ap1.datadoghq.com/api/v1/downtimehttps://api.datadoghq.eu/api/v1/downtimehttps://api.ddog-gov.com/api/v1/downtimehttps://api.datadoghq.com/api/v1/downtimehttps://api.us3.datadoghq.com/api/v1/downtimehttps://api.us5.datadoghq.com/api/v1/downtime
Get all scheduled downtimes. Note: This endpoint has been deprecated. Please use v2 endpoints.
This endpoint requires the monitors_read
authorization scope.
이름
유형
설명
current_only
boolean
Only return downtimes that are active when the request is made.
with_creator
boolean
Return creator information.
OK
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"active": true,
"active_child": {
"active": true,
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1626,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
},
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1625,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
}
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/downtime" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get all downtimes returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.list_downtimes(
with_creator=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 all downtimes returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
opts = {
with_creator: true,
}
p api_instance.list_downtimes(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 all downtimes
dog.get_all_downtimes
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 downtimes returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV1::api_downtimes::ListDowntimesOptionalParams;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api
.list_downtimes(ListDowntimesOptionalParams::default().with_creator(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 all downtimes 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.NewDowntimesApi(apiClient)
resp, r, err := api.ListDowntimes(ctx, *datadogV1.NewListDowntimesOptionalParameters().WithWithCreator(true))
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.ListDowntimes`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.ListDowntimes`:\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 downtimes returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.api.DowntimesApi.ListDowntimesOptionalParameters;
import com.datadog.api.client.v1.model.Downtime;
import java.util.List;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
try {
List<Downtime> result =
apiInstance.listDowntimes(new ListDowntimesOptionalParameters().withCreator(true));
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#listDowntimes");
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 downtimes
print(api.Downtime.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 downtimes returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
const params: v1.DowntimesApiListDowntimesRequest = {
withCreator: true,
};
apiInstance
.listDowntimes(params)
.then((data: v1.Downtime[]) => {
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/downtimehttps://api.datadoghq.eu/api/v2/downtimehttps://api.ddog-gov.com/api/v2/downtimehttps://api.datadoghq.com/api/v2/downtimehttps://api.us3.datadoghq.com/api/v2/downtimehttps://api.us5.datadoghq.com/api/v2/downtime
Get all scheduled downtimes.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
current_only
boolean
Only return downtimes that are active when the request is made.
include
string
Comma-separated list of resource paths for related resources to include in the response. Supported resource
paths are created_by
and monitor
.
page[offset]
integer
Specific offset to use as the beginning of the returned page.
page[limit]
integer
Maximum number of downtimes in the response.
OK
Response for retrieving all downtimes.
항목
유형
설명
data
[object]
An array of downtimes.
attributes
object
Downtime details.
canceled
date-time
Time that the downtime was canceled.
created
date-time
Creation time of the downtime.
display_timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications. This is not used as an offset for scheduling.
default: UTC
message
string
A message to include with notifications for this downtime. Email notifications can be sent to specific users
by using the same @username
notation as events.
modified
date-time
Time that the downtime was last modified.
monitor_identifier
<oneOf>
Monitor identifier for the downtime.
Option 1
object
Object of the monitor identifier.
monitor_id [required]
int64
ID of the monitor to prevent notifications.
Option 2
object
Object of the monitor tags.
monitor_tags [required]
[string]
A list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match all provided monitor tags. Setting monitor_tags
to [*]
configures the downtime to mute all monitors for the given scope.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States that will trigger a monitor notification when the notify_end_types
action occurs.
notify_end_types
[string]
Actions that will trigger a monitor notification if the downtime is in the notify_end_types
state.
schedule
<oneOf>
The schedule that defines when the monitor starts, stops, and recurs. There are two types of schedules: one-time and recurring. Recurring schedules may have up to five RRULE-based recurrences. If no schedules are provided, the downtime will begin immediately and never end.
Option 1
object
A recurring downtime schedule definition.
current_downtime
object
The most recent actual start and end dates for a recurring downtime. For a canceled downtime, this is the previously occurring downtime. For active downtimes, this is the ongoing downtime, and for scheduled downtimes it is the upcoming downtime.
end
date-time
The end of the current downtime.
start
date-time
The start of the current downtime.
recurrences [required]
[object]
A list of downtime recurrences.
duration
string
The length of the downtime. Must begin with an integer and end with one of 'm', 'h', d', or 'w'.
rrule
string
The RRULE
standard for defining recurring events.
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide.
start
string
ISO-8601 Datetime to start the downtime. Must not include a UTC offset. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to schedule the downtime. This affects recurring start and end dates.
Must match display_timezone
.
default: UTC
Option 2
object
A one-time downtime definition.
end
date-time
ISO-8601 Datetime to end the downtime.
start [required]
date-time
ISO-8601 Datetime to start the downtime.
status
enum
The current status of the downtime.
Allowed enum values: active,canceled,ended,scheduled
id
string
The downtime ID.
relationships
object
All relationships associated with downtime.
created_by
object
The user who created the downtime.
data
object
Data for the user who created the downtime.
id
string
User ID of the downtime creator.
type
enum
Users resource type.
Allowed enum values: users
default: users
monitor
object
The monitor identified by the downtime.
data
object
Data for the monitor.
id
string
Monitor ID of the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
type
enum
Downtime resource type.
Allowed enum values: downtime
default: downtime
included
[ <oneOf>]
Array of objects related to the downtimes.
Option 1
object
User object returned by the API.
attributes
object
Attributes of user object returned by the API.
created_at
date-time
Creation time of the user.
disabled
boolean
Whether the user is disabled.
string
Email of the user.
handle
string
Handle of the user.
icon
string
URL of the user's icon.
mfa_enabled
boolean
If user has MFA enabled.
modified_at
date-time
Time that the user was last modified.
name
string
Name of the user.
service_account
boolean
Whether the user is a service account.
status
string
Status of the user.
title
string
Title of the user.
verified
boolean
Whether the user is verified.
id
string
ID of the user.
relationships
object
Relationships of the user object returned by the API.
org
object
Relationship to an organization.
data [required]
object
Relationship to organization object.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_orgs
object
Relationship to organizations.
data [required]
[object]
Relationships to organization objects.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_users
object
Relationship to users.
data [required]
[object]
Relationships to user objects.
id [required]
string
A unique identifier that represents the user.
type [required]
enum
Users resource type.
Allowed enum values: users
default: users
roles
object
Relationship to roles.
data
[object]
An array containing type and the unique identifier of a role.
id
string
The unique identifier of the role.
type
enum
Roles type.
Allowed enum values: roles
default: roles
type
enum
Users resource type.
Allowed enum values: users
default: users
Option 2
object
Information about the monitor identified by the downtime.
attributes
object
Attributes of the monitor identified by the downtime.
name
string
The name of the monitor identified by the downtime.
id
int64
ID of the monitor identified by the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
meta
object
Pagination metadata returned by the API.
page
object
Object containing the total filtered count.
total_filtered_count
int64
Total count of elements matched by the filter.
{
"data": [
{
"attributes": {
"canceled": "2020-01-02T03:04:05.282979+0000",
"created": "2020-01-02T03:04:05.282979+0000",
"display_timezone": "America/New_York",
"message": "Message about the downtime",
"modified": "2020-01-02T03:04:05.282979+0000",
"monitor_identifier": {
"monitor_id": 123
},
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"schedule": {
"current_downtime": {
"end": "2020-01-02T03:04:00.000Z",
"start": "2020-01-02T03:04:00.000Z"
},
"recurrences": [
{
"duration": "123d",
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"start": "2020-01-02T03:04"
}
],
"timezone": "America/New_York"
},
"scope": "env:(staging OR prod) AND datacenter:us-east-1",
"status": "active"
},
"id": "00000000-0000-1234-0000-000000000000",
"relationships": {
"created_by": {
"data": {
"id": "00000000-0000-1234-0000-000000000000",
"type": "users"
}
},
"monitor": {
"data": {
"id": "12345",
"type": "monitors"
}
}
},
"type": "downtime"
}
],
"included": [
{
"attributes": {
"created_at": "2019-09-19T10:00:00.000Z",
"disabled": false,
"email": "string",
"handle": "string",
"icon": "string",
"mfa_enabled": false,
"modified_at": "2019-09-19T10:00:00.000Z",
"name": "string",
"service_account": false,
"status": "string",
"title": "string",
"verified": false
},
"id": "string",
"relationships": {
"org": {
"data": {
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
},
"other_orgs": {
"data": [
{
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
]
},
"other_users": {
"data": [
{
"id": "00000000-0000-0000-2345-000000000000",
"type": "users"
}
]
},
"roles": {
"data": [
{
"id": "3653d3c6-0c75-11ea-ad28-fb5701eabc7d",
"type": "roles"
}
]
}
},
"type": "users"
}
],
"meta": {
"page": {
"total_filtered_count": "integer"
}
}
}
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/downtime" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get all downtimes returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.downtimes_api import DowntimesApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.list_downtimes()
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 downtimes returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::DowntimesAPI.new
p api_instance.list_downtimes()
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 downtimes 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.NewDowntimesApi(apiClient)
resp, r, err := api.ListDowntimes(ctx, *datadogV2.NewListDowntimesOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.ListDowntimes`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.ListDowntimes`:\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 downtimes returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.DowntimesApi;
import com.datadog.api.client.v2.model.ListDowntimesResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
try {
ListDowntimesResponse result = apiInstance.listDowntimes();
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#listDowntimes");
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 downtimes returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV2::api_downtimes::ListDowntimesOptionalParams;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api
.list_downtimes(ListDowntimesOptionalParams::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 downtimes returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.DowntimesApi(configuration);
apiInstance
.listDowntimes()
.then((data: v2.ListDowntimesResponse) => {
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/downtimehttps://api.datadoghq.eu/api/v1/downtimehttps://api.ddog-gov.com/api/v1/downtimehttps://api.datadoghq.com/api/v1/downtimehttps://api.us3.datadoghq.com/api/v1/downtimehttps://api.us5.datadoghq.com/api/v1/downtime
Schedule a downtime. Note: This endpoint has been deprecated. Please use v2 endpoints.
This endpoint requires the monitors_downtime
authorization scope.
Schedule a downtime request body.
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"message": "Example-Downtime",
"recurrence": {
"period": 1,
"type": "years"
},
"scope": [
"*"
],
"start": 1636629071,
"end": 1636632671,
"timezone": "Etc/UTC",
"mute_first_recovery_notification": true,
"monitor_tags": [
"tag0"
],
"notify_end_states": [
"alert",
"warn"
],
"notify_end_types": [
"expired"
]
}
{
"message": "Example-Downtime",
"start": 1636629071,
"end": 1636632671,
"timezone": "Etc/UTC",
"scope": [
"test:exampledowntime"
],
"recurrence": {
"type": "weeks",
"period": 1,
"week_days": [
"Mon",
"Tue",
"Wed",
"Thu",
"Fri"
],
"until_date": 1638443471
},
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
]
}
{
"message": "Example-Downtime",
"recurrence": {
"period": 1,
"type": "weeks",
"until_date": 1638443471,
"week_days": [
"Mon",
"Tue",
"Wed",
"Thu",
"Fri"
]
},
"scope": [
"*"
],
"start": 1636629071,
"end": 1636632671,
"timezone": "Etc/UTC",
"mute_first_recovery_notification": true,
"monitor_tags": [
"tag0"
],
"notify_end_states": [
"alert"
],
"notify_end_types": [
"canceled"
]
}
OK
Downtiming gives you greater control over monitor notifications by allowing you to globally exclude scopes from alerting. Downtime settings, which can be scheduled with start and end times, prevent all alerting related to specified Datadog tags.
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"active": true,
"active_child": {
"active": true,
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1626,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
},
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1625,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
}
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 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/downtime" \
-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": "Example-Downtime",
"recurrence": {
"period": 1,
"type": "years"
},
"scope": [
"*"
],
"start": 1636629071,
"end": 1636632671,
"timezone": "Etc/UTC",
"mute_first_recovery_notification": true,
"monitor_tags": [
"tag0"
],
"notify_end_states": [
"alert",
"warn"
],
"notify_end_types": [
"expired"
]
}
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/downtime" \
-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": "Example-Downtime",
"start": 1636629071,
"end": 1636632671,
"timezone": "Etc/UTC",
"scope": [
"test:exampledowntime"
],
"recurrence": {
"type": "weeks",
"period": 1,
"week_days": [
"Mon",
"Tue",
"Wed",
"Thu",
"Fri"
],
"until_date": 1638443471
},
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
]
}
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/downtime" \
-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": "Example-Downtime",
"recurrence": {
"period": 1,
"type": "weeks",
"until_date": 1638443471,
"week_days": [
"Mon",
"Tue",
"Wed",
"Thu",
"Fri"
]
},
"scope": [
"*"
],
"start": 1636629071,
"end": 1636632671,
"timezone": "Etc/UTC",
"mute_first_recovery_notification": true,
"monitor_tags": [
"tag0"
],
"notify_end_states": [
"alert"
],
"notify_end_types": [
"canceled"
]
}
EOF
// Schedule a downtime once a year
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"time"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Downtime{
Message: *datadog.NewNullableString(datadog.PtrString("Example-Downtime")),
Recurrence: *datadogV1.NewNullableDowntimeRecurrence(&datadogV1.DowntimeRecurrence{
Period: datadog.PtrInt32(1),
Type: datadog.PtrString("years"),
}),
Scope: []string{
"*",
},
Start: datadog.PtrInt64(time.Now().Unix()),
End: *datadog.NewNullableInt64(datadog.PtrInt64(time.Now().Add(time.Hour * 1).Unix())),
Timezone: datadog.PtrString("Etc/UTC"),
MuteFirstRecoveryNotification: datadog.PtrBool(true),
MonitorTags: []string{
"tag0",
},
NotifyEndStates: []datadogV1.NotifyEndState{
datadogV1.NOTIFYENDSTATE_ALERT,
datadogV1.NOTIFYENDSTATE_WARN,
},
NotifyEndTypes: []datadogV1.NotifyEndType{
datadogV1.NOTIFYENDTYPE_EXPIRED,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.CreateDowntime(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CreateDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.CreateDowntime`:\n%s\n", responseContent)
}
// Schedule a downtime returns "OK" response
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"time"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Downtime{
Message: *datadog.NewNullableString(datadog.PtrString("Example-Downtime")),
Start: datadog.PtrInt64(time.Now().Unix()),
End: *datadog.NewNullableInt64(datadog.PtrInt64(time.Now().Add(time.Hour * 1).Unix())),
Timezone: datadog.PtrString("Etc/UTC"),
Scope: []string{
"test:exampledowntime",
},
Recurrence: *datadogV1.NewNullableDowntimeRecurrence(&datadogV1.DowntimeRecurrence{
Type: datadog.PtrString("weeks"),
Period: datadog.PtrInt32(1),
WeekDays: *datadog.NewNullableList(&[]string{
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
}),
UntilDate: *datadog.NewNullableInt64(datadog.PtrInt64(time.Now().AddDate(0, 0, 21).Unix())),
}),
NotifyEndStates: []datadogV1.NotifyEndState{
datadogV1.NOTIFYENDSTATE_ALERT,
datadogV1.NOTIFYENDSTATE_NO_DATA,
datadogV1.NOTIFYENDSTATE_WARN,
},
NotifyEndTypes: []datadogV1.NotifyEndType{
datadogV1.NOTIFYENDTYPE_CANCELED,
datadogV1.NOTIFYENDTYPE_EXPIRED,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.CreateDowntime(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CreateDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.CreateDowntime`:\n%s\n", responseContent)
}
// Schedule a downtime until date
package main
import (
"context"
"encoding/json"
"fmt"
"os"
"time"
"github.com/DataDog/datadog-api-client-go/v2/api/datadog"
"github.com/DataDog/datadog-api-client-go/v2/api/datadogV1"
)
func main() {
body := datadogV1.Downtime{
Message: *datadog.NewNullableString(datadog.PtrString("Example-Downtime")),
Recurrence: *datadogV1.NewNullableDowntimeRecurrence(&datadogV1.DowntimeRecurrence{
Period: datadog.PtrInt32(1),
Type: datadog.PtrString("weeks"),
UntilDate: *datadog.NewNullableInt64(datadog.PtrInt64(time.Now().AddDate(0, 0, 21).Unix())),
WeekDays: *datadog.NewNullableList(&[]string{
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
}),
}),
Scope: []string{
"*",
},
Start: datadog.PtrInt64(time.Now().Unix()),
End: *datadog.NewNullableInt64(datadog.PtrInt64(time.Now().Add(time.Hour * 1).Unix())),
Timezone: datadog.PtrString("Etc/UTC"),
MuteFirstRecoveryNotification: datadog.PtrBool(true),
MonitorTags: []string{
"tag0",
},
NotifyEndStates: []datadogV1.NotifyEndState{
datadogV1.NOTIFYENDSTATE_ALERT,
},
NotifyEndTypes: []datadogV1.NotifyEndType{
datadogV1.NOTIFYENDTYPE_CANCELED,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.CreateDowntime(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CreateDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.CreateDowntime`:\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"
// Schedule a downtime once a year
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.Downtime;
import com.datadog.api.client.v1.model.DowntimeRecurrence;
import com.datadog.api.client.v1.model.NotifyEndState;
import com.datadog.api.client.v1.model.NotifyEndType;
import java.time.OffsetDateTime;
import java.util.Arrays;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
Downtime body =
new Downtime()
.message("Example-Downtime")
.recurrence(new DowntimeRecurrence().period(1).type("years"))
.scope(Collections.singletonList("*"))
.start(OffsetDateTime.now().toInstant().getEpochSecond())
.end(OffsetDateTime.now().plusHours(1).toInstant().getEpochSecond())
.timezone("Etc/UTC")
.muteFirstRecoveryNotification(true)
.monitorTags(Collections.singletonList("tag0"))
.notifyEndStates(Arrays.asList(NotifyEndState.ALERT, NotifyEndState.WARN))
.notifyEndTypes(Collections.singletonList(NotifyEndType.EXPIRED));
try {
Downtime result = apiInstance.createDowntime(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#createDowntime");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
// Schedule a downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.Downtime;
import com.datadog.api.client.v1.model.DowntimeRecurrence;
import com.datadog.api.client.v1.model.NotifyEndState;
import com.datadog.api.client.v1.model.NotifyEndType;
import java.time.OffsetDateTime;
import java.util.Arrays;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
Downtime body =
new Downtime()
.message("Example-Downtime")
.start(OffsetDateTime.now().toInstant().getEpochSecond())
.end(OffsetDateTime.now().plusHours(1).toInstant().getEpochSecond())
.timezone("Etc/UTC")
.scope(Collections.singletonList("test:exampledowntime"))
.recurrence(
new DowntimeRecurrence()
.type("weeks")
.period(1)
.weekDays(Arrays.asList("Mon", "Tue", "Wed", "Thu", "Fri"))
.untilDate(OffsetDateTime.now().plusDays(21).toInstant().getEpochSecond()))
.notifyEndStates(
Arrays.asList(NotifyEndState.ALERT, NotifyEndState.NO_DATA, NotifyEndState.WARN))
.notifyEndTypes(Arrays.asList(NotifyEndType.CANCELED, NotifyEndType.EXPIRED));
try {
Downtime result = apiInstance.createDowntime(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#createDowntime");
System.err.println("Status code: " + e.getCode());
System.err.println("Reason: " + e.getResponseBody());
System.err.println("Response headers: " + e.getResponseHeaders());
e.printStackTrace();
}
}
}
// Schedule a downtime until date
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.Downtime;
import com.datadog.api.client.v1.model.DowntimeRecurrence;
import com.datadog.api.client.v1.model.NotifyEndState;
import com.datadog.api.client.v1.model.NotifyEndType;
import java.time.OffsetDateTime;
import java.util.Arrays;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
Downtime body =
new Downtime()
.message("Example-Downtime")
.recurrence(
new DowntimeRecurrence()
.period(1)
.type("weeks")
.untilDate(OffsetDateTime.now().plusDays(21).toInstant().getEpochSecond())
.weekDays(Arrays.asList("Mon", "Tue", "Wed", "Thu", "Fri")))
.scope(Collections.singletonList("*"))
.start(OffsetDateTime.now().toInstant().getEpochSecond())
.end(OffsetDateTime.now().plusHours(1).toInstant().getEpochSecond())
.timezone("Etc/UTC")
.muteFirstRecoveryNotification(true)
.monitorTags(Collections.singletonList("tag0"))
.notifyEndStates(Collections.singletonList(NotifyEndState.ALERT))
.notifyEndTypes(Collections.singletonList(NotifyEndType.CANCELED));
try {
Downtime result = apiInstance.createDowntime(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#createDowntime");
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
import time
options = {
'api_key': '<DATADOG_API_KEY>',
'app_key': '<DATADOG_APPLICATION_KEY>'
}
initialize(**options)
# Repeat for 3 hours (starting now) on every week day for 4 weeks.
start_ts = int(time.time())
end_ts = start_ts + (3 * 60 * 60)
end_reccurrence_ts = start_ts + (4 * 7 * 24 * 60 * 60) # 4 weeks from now
recurrence = {
'type': 'weeks',
'period': 1,
'week_days': ['Mon', 'Tue', 'Wed', 'Thu', 'Fri'],
'until_date': end_reccurrence_ts
}
# Schedule downtime
api.Downtime.create(
scope='env:staging',
start=start_ts,
end=end_ts,
recurrence=recurrence
)
# OR use RRULE reccurence
rrule_recurrence = {
'type': 'rrule',
'rrule': 'FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1',
}
# Schedule downtime
api.Downtime.create(
scope='env:staging',
start=start_ts,
end=end_ts,
recurrence=rrule_recurrence
)
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"
"""
Schedule a downtime once a year
"""
from datetime import datetime
from dateutil.relativedelta import relativedelta
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
from datadog_api_client.v1.model.downtime import Downtime
from datadog_api_client.v1.model.downtime_recurrence import DowntimeRecurrence
from datadog_api_client.v1.model.notify_end_state import NotifyEndState
from datadog_api_client.v1.model.notify_end_type import NotifyEndType
body = Downtime(
message="Example-Downtime",
recurrence=DowntimeRecurrence(
period=1,
type="years",
),
scope=[
"*",
],
start=int(datetime.now().timestamp()),
end=int((datetime.now() + relativedelta(hours=1)).timestamp()),
timezone="Etc/UTC",
mute_first_recovery_notification=True,
monitor_tags=[
"tag0",
],
notify_end_states=[
NotifyEndState.ALERT,
NotifyEndState.WARN,
],
notify_end_types=[
NotifyEndType.EXPIRED,
],
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.create_downtime(body=body)
print(response)
"""
Schedule a downtime returns "OK" response
"""
from datetime import datetime
from dateutil.relativedelta import relativedelta
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
from datadog_api_client.v1.model.downtime import Downtime
from datadog_api_client.v1.model.downtime_recurrence import DowntimeRecurrence
from datadog_api_client.v1.model.notify_end_state import NotifyEndState
from datadog_api_client.v1.model.notify_end_type import NotifyEndType
body = Downtime(
message="Example-Downtime",
start=int(datetime.now().timestamp()),
end=int((datetime.now() + relativedelta(hours=1)).timestamp()),
timezone="Etc/UTC",
scope=[
"test:exampledowntime",
],
recurrence=DowntimeRecurrence(
type="weeks",
period=1,
week_days=[
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
],
until_date=int((datetime.now() + relativedelta(days=21)).timestamp()),
),
notify_end_states=[
NotifyEndState.ALERT,
NotifyEndState.NO_DATA,
NotifyEndState.WARN,
],
notify_end_types=[
NotifyEndType.CANCELED,
NotifyEndType.EXPIRED,
],
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.create_downtime(body=body)
print(response)
"""
Schedule a downtime until date
"""
from datetime import datetime
from dateutil.relativedelta import relativedelta
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
from datadog_api_client.v1.model.downtime import Downtime
from datadog_api_client.v1.model.downtime_recurrence import DowntimeRecurrence
from datadog_api_client.v1.model.notify_end_state import NotifyEndState
from datadog_api_client.v1.model.notify_end_type import NotifyEndType
body = Downtime(
message="Example-Downtime",
recurrence=DowntimeRecurrence(
period=1,
type="weeks",
until_date=int((datetime.now() + relativedelta(days=21)).timestamp()),
week_days=[
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
],
),
scope=[
"*",
],
start=int(datetime.now().timestamp()),
end=int((datetime.now() + relativedelta(hours=1)).timestamp()),
timezone="Etc/UTC",
mute_first_recovery_notification=True,
monitor_tags=[
"tag0",
],
notify_end_states=[
NotifyEndState.ALERT,
],
notify_end_types=[
NotifyEndType.CANCELED,
],
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.create_downtime(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)
# Repeat for 3 hours (starting now) on every week day for 4 weeks.
start_ts = Time.now.to_i
end_ts = start_ts + (3 * 60 * 60)
end_reccurrence_ts = start_ts + (4 * 7 * 24 * 60 * 60) # 4 weeks from now
recurrence = {
'type' => 'weeks',
'period' => 1,
'week_days' => %w[Mon Tue Wed Thu Fri],
'until_date' => end_reccurrence_ts
}
# Schedule downtime
dog.Downtime.create(
'env:staging',
start: start_ts,
end: end_ts,
recurrence: recurrence
)
# OR use RRULE reccurence
rrule_recurrence = {
'type' => 'rrule',
'rrule' => 'FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1',
}
# Schedule downtime
dog.Downtime.create(
'env:staging',
start: start_ts,
end: end_ts,
recurrence: rrule_recurrence
)
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"
# Schedule a downtime once a year
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
body = DatadogAPIClient::V1::Downtime.new({
message: "Example-Downtime",
recurrence: DatadogAPIClient::V1::DowntimeRecurrence.new({
period: 1,
type: "years",
}),
scope: [
"*",
],
start: Time.now.to_i,
_end: (Time.now + 1 * 3600).to_i,
timezone: "Etc/UTC",
mute_first_recovery_notification: true,
monitor_tags: [
"tag0",
],
notify_end_states: [
DatadogAPIClient::V1::NotifyEndState::ALERT,
DatadogAPIClient::V1::NotifyEndState::WARN,
],
notify_end_types: [
DatadogAPIClient::V1::NotifyEndType::EXPIRED,
],
})
p api_instance.create_downtime(body)
# Schedule a downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
body = DatadogAPIClient::V1::Downtime.new({
message: "Example-Downtime",
start: Time.now.to_i,
_end: (Time.now + 1 * 3600).to_i,
timezone: "Etc/UTC",
scope: [
"test:exampledowntime",
],
recurrence: DatadogAPIClient::V1::DowntimeRecurrence.new({
type: "weeks",
period: 1,
week_days: [
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
],
until_date: (Time.now + 21 * 86400).to_i,
}),
notify_end_states: [
DatadogAPIClient::V1::NotifyEndState::ALERT,
DatadogAPIClient::V1::NotifyEndState::NO_DATA,
DatadogAPIClient::V1::NotifyEndState::WARN,
],
notify_end_types: [
DatadogAPIClient::V1::NotifyEndType::CANCELED,
DatadogAPIClient::V1::NotifyEndType::EXPIRED,
],
})
p api_instance.create_downtime(body)
# Schedule a downtime until date
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
body = DatadogAPIClient::V1::Downtime.new({
message: "Example-Downtime",
recurrence: DatadogAPIClient::V1::DowntimeRecurrence.new({
period: 1,
type: "weeks",
until_date: (Time.now + 21 * 86400).to_i,
week_days: [
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
],
}),
scope: [
"*",
],
start: Time.now.to_i,
_end: (Time.now + 1 * 3600).to_i,
timezone: "Etc/UTC",
mute_first_recovery_notification: true,
monitor_tags: [
"tag0",
],
notify_end_states: [
DatadogAPIClient::V1::NotifyEndState::ALERT,
],
notify_end_types: [
DatadogAPIClient::V1::NotifyEndType::CANCELED,
],
})
p api_instance.create_downtime(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"
// Schedule a downtime once a year
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV1::model::Downtime;
use datadog_api_client::datadogV1::model::DowntimeRecurrence;
use datadog_api_client::datadogV1::model::NotifyEndState;
use datadog_api_client::datadogV1::model::NotifyEndType;
#[tokio::main]
async fn main() {
let body = Downtime::new()
.end(Some(1636632671))
.message(Some("Example-Downtime".to_string()))
.monitor_tags(vec!["tag0".to_string()])
.mute_first_recovery_notification(true)
.notify_end_states(vec![NotifyEndState::ALERT, NotifyEndState::WARN])
.notify_end_types(vec![NotifyEndType::EXPIRED])
.recurrence(Some(
DowntimeRecurrence::new()
.period(1)
.type_("years".to_string()),
))
.scope(vec!["*".to_string()])
.start(1636629071)
.timezone("Etc/UTC".to_string());
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.create_downtime(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
// Schedule a downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV1::model::Downtime;
use datadog_api_client::datadogV1::model::DowntimeRecurrence;
use datadog_api_client::datadogV1::model::NotifyEndState;
use datadog_api_client::datadogV1::model::NotifyEndType;
#[tokio::main]
async fn main() {
let body = Downtime::new()
.end(Some(1636632671))
.message(Some("Example-Downtime".to_string()))
.notify_end_states(vec![
NotifyEndState::ALERT,
NotifyEndState::NO_DATA,
NotifyEndState::WARN,
])
.notify_end_types(vec![NotifyEndType::CANCELED, NotifyEndType::EXPIRED])
.recurrence(Some(
DowntimeRecurrence::new()
.period(1)
.type_("weeks".to_string())
.until_date(Some(1638443471))
.week_days(Some(vec![
"Mon".to_string(),
"Tue".to_string(),
"Wed".to_string(),
"Thu".to_string(),
"Fri".to_string(),
])),
))
.scope(vec!["test:exampledowntime".to_string()])
.start(1636629071)
.timezone("Etc/UTC".to_string());
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.create_downtime(body).await;
if let Ok(value) = resp {
println!("{:#?}", value);
} else {
println!("{:#?}", resp.unwrap_err());
}
}
// Schedule a downtime until date
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV1::model::Downtime;
use datadog_api_client::datadogV1::model::DowntimeRecurrence;
use datadog_api_client::datadogV1::model::NotifyEndState;
use datadog_api_client::datadogV1::model::NotifyEndType;
#[tokio::main]
async fn main() {
let body = Downtime::new()
.end(Some(1636632671))
.message(Some("Example-Downtime".to_string()))
.monitor_tags(vec!["tag0".to_string()])
.mute_first_recovery_notification(true)
.notify_end_states(vec![NotifyEndState::ALERT])
.notify_end_types(vec![NotifyEndType::CANCELED])
.recurrence(Some(
DowntimeRecurrence::new()
.period(1)
.type_("weeks".to_string())
.until_date(Some(1638443471))
.week_days(Some(vec![
"Mon".to_string(),
"Tue".to_string(),
"Wed".to_string(),
"Thu".to_string(),
"Fri".to_string(),
])),
))
.scope(vec!["*".to_string()])
.start(1636629071)
.timezone("Etc/UTC".to_string());
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.create_downtime(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
/**
* Schedule a downtime once a year
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
const params: v1.DowntimesApiCreateDowntimeRequest = {
body: {
message: "Example-Downtime",
recurrence: {
period: 1,
type: "years",
},
scope: ["*"],
start: Math.round(new Date().getTime() / 1000),
end: Math.round(
new Date(new Date().getTime() + 1 * 3600 * 1000).getTime() / 1000
),
timezone: "Etc/UTC",
muteFirstRecoveryNotification: true,
monitorTags: ["tag0"],
notifyEndStates: ["alert", "warn"],
notifyEndTypes: ["expired"],
},
};
apiInstance
.createDowntime(params)
.then((data: v1.Downtime) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
/**
* Schedule a downtime returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
const params: v1.DowntimesApiCreateDowntimeRequest = {
body: {
message: "Example-Downtime",
start: Math.round(new Date().getTime() / 1000),
end: Math.round(
new Date(new Date().getTime() + 1 * 3600 * 1000).getTime() / 1000
),
timezone: "Etc/UTC",
scope: ["test:exampledowntime"],
recurrence: {
type: "weeks",
period: 1,
weekDays: ["Mon", "Tue", "Wed", "Thu", "Fri"],
untilDate: Math.round(
new Date(new Date().getTime() + 21 * 86400 * 1000).getTime() / 1000
),
},
notifyEndStates: ["alert", "no data", "warn"],
notifyEndTypes: ["canceled", "expired"],
},
};
apiInstance
.createDowntime(params)
.then((data: v1.Downtime) => {
console.log(
"API called successfully. Returned data: " + JSON.stringify(data)
);
})
.catch((error: any) => console.error(error));
/**
* Schedule a downtime until date
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
const params: v1.DowntimesApiCreateDowntimeRequest = {
body: {
message: "Example-Downtime",
recurrence: {
period: 1,
type: "weeks",
untilDate: Math.round(
new Date(new Date().getTime() + 21 * 86400 * 1000).getTime() / 1000
),
weekDays: ["Mon", "Tue", "Wed", "Thu", "Fri"],
},
scope: ["*"],
start: Math.round(new Date().getTime() / 1000),
end: Math.round(
new Date(new Date().getTime() + 1 * 3600 * 1000).getTime() / 1000
),
timezone: "Etc/UTC",
muteFirstRecoveryNotification: true,
monitorTags: ["tag0"],
notifyEndStates: ["alert"],
notifyEndTypes: ["canceled"],
},
};
apiInstance
.createDowntime(params)
.then((data: v1.Downtime) => {
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/downtimehttps://api.datadoghq.eu/api/v2/downtimehttps://api.ddog-gov.com/api/v2/downtimehttps://api.datadoghq.com/api/v2/downtimehttps://api.us3.datadoghq.com/api/v2/downtimehttps://api.us5.datadoghq.com/api/v2/downtime
Schedule a downtime.
This endpoint requires the monitors_downtime
authorization scope.
Schedule a downtime request body.
항목
유형
설명
data [required]
object
Object to create a downtime.
attributes [required]
object
Downtime details.
display_timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications. This is not used as an offset for scheduling.
default: UTC
message
string
A message to include with notifications for this downtime. Email notifications can be sent to specific users
by using the same @username
notation as events.
monitor_identifier [required]
<oneOf>
Monitor identifier for the downtime.
Option 1
object
Object of the monitor identifier.
monitor_id [required]
int64
ID of the monitor to prevent notifications.
Option 2
object
Object of the monitor tags.
monitor_tags [required]
[string]
A list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match all provided monitor tags. Setting monitor_tags
to [*]
configures the downtime to mute all monitors for the given scope.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States that will trigger a monitor notification when the notify_end_types
action occurs.
notify_end_types
[string]
Actions that will trigger a monitor notification if the downtime is in the notify_end_types
state.
schedule
<oneOf>
Schedule for the downtime.
Option 1
object
A recurring downtime schedule definition.
recurrences [required]
[object]
A list of downtime recurrences.
duration [required]
string
The length of the downtime. Must begin with an integer and end with one of 'm', 'h', d', or 'w'.
rrule [required]
string
The RRULE
standard for defining recurring events.
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide.
start
string
ISO-8601 Datetime to start the downtime. Must not include a UTC offset. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to schedule the downtime.
default: UTC
Option 2
object
A one-time downtime definition.
end
date-time
ISO-8601 Datetime to end the downtime. Must include a UTC offset of zero. If not provided, the downtime continues forever.
start
date-time
ISO-8601 Datetime to start the downtime. Must include a UTC offset of zero. If not provided, the downtime starts the moment it is created.
scope [required]
string
The scope to which the downtime applies. Must follow the common search syntax.
type [required]
enum
Downtime resource type.
Allowed enum values: downtime
default: downtime
{
"data": {
"attributes": {
"message": "dark forest",
"monitor_identifier": {
"monitor_tags": [
"cat:hat"
]
},
"scope": "test:exampledowntime",
"schedule": {
"start": null
}
},
"type": "downtime"
}
}
OK
Downtiming gives you greater control over monitor notifications by allowing you to globally exclude scopes from alerting. Downtime settings, which can be scheduled with start and end times, prevent all alerting related to specified Datadog tags.
항목
유형
설명
data
object
Downtime data.
attributes
object
Downtime details.
canceled
date-time
Time that the downtime was canceled.
created
date-time
Creation time of the downtime.
display_timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications. This is not used as an offset for scheduling.
default: UTC
message
string
A message to include with notifications for this downtime. Email notifications can be sent to specific users
by using the same @username
notation as events.
modified
date-time
Time that the downtime was last modified.
monitor_identifier
<oneOf>
Monitor identifier for the downtime.
Option 1
object
Object of the monitor identifier.
monitor_id [required]
int64
ID of the monitor to prevent notifications.
Option 2
object
Object of the monitor tags.
monitor_tags [required]
[string]
A list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match all provided monitor tags. Setting monitor_tags
to [*]
configures the downtime to mute all monitors for the given scope.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States that will trigger a monitor notification when the notify_end_types
action occurs.
notify_end_types
[string]
Actions that will trigger a monitor notification if the downtime is in the notify_end_types
state.
schedule
<oneOf>
The schedule that defines when the monitor starts, stops, and recurs. There are two types of schedules: one-time and recurring. Recurring schedules may have up to five RRULE-based recurrences. If no schedules are provided, the downtime will begin immediately and never end.
Option 1
object
A recurring downtime schedule definition.
current_downtime
object
The most recent actual start and end dates for a recurring downtime. For a canceled downtime, this is the previously occurring downtime. For active downtimes, this is the ongoing downtime, and for scheduled downtimes it is the upcoming downtime.
end
date-time
The end of the current downtime.
start
date-time
The start of the current downtime.
recurrences [required]
[object]
A list of downtime recurrences.
duration
string
The length of the downtime. Must begin with an integer and end with one of 'm', 'h', d', or 'w'.
rrule
string
The RRULE
standard for defining recurring events.
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide.
start
string
ISO-8601 Datetime to start the downtime. Must not include a UTC offset. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to schedule the downtime. This affects recurring start and end dates.
Must match display_timezone
.
default: UTC
Option 2
object
A one-time downtime definition.
end
date-time
ISO-8601 Datetime to end the downtime.
start [required]
date-time
ISO-8601 Datetime to start the downtime.
status
enum
The current status of the downtime.
Allowed enum values: active,canceled,ended,scheduled
id
string
The downtime ID.
relationships
object
All relationships associated with downtime.
created_by
object
The user who created the downtime.
data
object
Data for the user who created the downtime.
id
string
User ID of the downtime creator.
type
enum
Users resource type.
Allowed enum values: users
default: users
monitor
object
The monitor identified by the downtime.
data
object
Data for the monitor.
id
string
Monitor ID of the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
type
enum
Downtime resource type.
Allowed enum values: downtime
default: downtime
included
[ <oneOf>]
Array of objects related to the downtime that the user requested.
Option 1
object
User object returned by the API.
attributes
object
Attributes of user object returned by the API.
created_at
date-time
Creation time of the user.
disabled
boolean
Whether the user is disabled.
string
Email of the user.
handle
string
Handle of the user.
icon
string
URL of the user's icon.
mfa_enabled
boolean
If user has MFA enabled.
modified_at
date-time
Time that the user was last modified.
name
string
Name of the user.
service_account
boolean
Whether the user is a service account.
status
string
Status of the user.
title
string
Title of the user.
verified
boolean
Whether the user is verified.
id
string
ID of the user.
relationships
object
Relationships of the user object returned by the API.
org
object
Relationship to an organization.
data [required]
object
Relationship to organization object.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_orgs
object
Relationship to organizations.
data [required]
[object]
Relationships to organization objects.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_users
object
Relationship to users.
data [required]
[object]
Relationships to user objects.
id [required]
string
A unique identifier that represents the user.
type [required]
enum
Users resource type.
Allowed enum values: users
default: users
roles
object
Relationship to roles.
data
[object]
An array containing type and the unique identifier of a role.
id
string
The unique identifier of the role.
type
enum
Roles type.
Allowed enum values: roles
default: roles
type
enum
Users resource type.
Allowed enum values: users
default: users
Option 2
object
Information about the monitor identified by the downtime.
attributes
object
Attributes of the monitor identified by the downtime.
name
string
The name of the monitor identified by the downtime.
id
int64
ID of the monitor identified by the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
{
"data": {
"attributes": {
"canceled": "2020-01-02T03:04:05.282979+0000",
"created": "2020-01-02T03:04:05.282979+0000",
"display_timezone": "America/New_York",
"message": "Message about the downtime",
"modified": "2020-01-02T03:04:05.282979+0000",
"monitor_identifier": {
"monitor_id": 123
},
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"schedule": {
"current_downtime": {
"end": "2020-01-02T03:04:00.000Z",
"start": "2020-01-02T03:04:00.000Z"
},
"recurrences": [
{
"duration": "123d",
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"start": "2020-01-02T03:04"
}
],
"timezone": "America/New_York"
},
"scope": "env:(staging OR prod) AND datacenter:us-east-1",
"status": "active"
},
"id": "00000000-0000-1234-0000-000000000000",
"relationships": {
"created_by": {
"data": {
"id": "00000000-0000-1234-0000-000000000000",
"type": "users"
}
},
"monitor": {
"data": {
"id": "12345",
"type": "monitors"
}
}
},
"type": "downtime"
},
"included": [
{
"attributes": {
"created_at": "2019-09-19T10:00:00.000Z",
"disabled": false,
"email": "string",
"handle": "string",
"icon": "string",
"mfa_enabled": false,
"modified_at": "2019-09-19T10:00:00.000Z",
"name": "string",
"service_account": false,
"status": "string",
"title": "string",
"verified": false
},
"id": "string",
"relationships": {
"org": {
"data": {
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
},
"other_orgs": {
"data": [
{
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
]
},
"other_users": {
"data": [
{
"id": "00000000-0000-0000-2345-000000000000",
"type": "users"
}
]
},
"roles": {
"data": [
{
"id": "3653d3c6-0c75-11ea-ad28-fb5701eabc7d",
"type": "roles"
}
]
}
},
"type": "users"
}
]
}
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/downtime" \
-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": {
"message": "dark forest",
"monitor_identifier": {
"monitor_tags": [
"cat:hat"
]
},
"scope": "test:exampledowntime",
"schedule": {
"start": null
}
},
"type": "downtime"
}
}
EOF
// Schedule a downtime 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.DowntimeCreateRequest{
Data: datadogV2.DowntimeCreateRequestData{
Attributes: datadogV2.DowntimeCreateRequestAttributes{
Message: *datadog.NewNullableString(datadog.PtrString("dark forest")),
MonitorIdentifier: datadogV2.DowntimeMonitorIdentifier{
DowntimeMonitorIdentifierTags: &datadogV2.DowntimeMonitorIdentifierTags{
MonitorTags: []string{
"cat:hat",
},
}},
Scope: "test:exampledowntime",
Schedule: &datadogV2.DowntimeScheduleCreateRequest{
DowntimeScheduleOneTimeCreateUpdateRequest: &datadogV2.DowntimeScheduleOneTimeCreateUpdateRequest{
Start: *datadog.NewNullableTime(nil),
}},
},
Type: datadogV2.DOWNTIMERESOURCETYPE_DOWNTIME,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewDowntimesApi(apiClient)
resp, r, err := api.CreateDowntime(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CreateDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.CreateDowntime`:\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"
// Schedule a downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.DowntimesApi;
import com.datadog.api.client.v2.model.DowntimeCreateRequest;
import com.datadog.api.client.v2.model.DowntimeCreateRequestAttributes;
import com.datadog.api.client.v2.model.DowntimeCreateRequestData;
import com.datadog.api.client.v2.model.DowntimeMonitorIdentifier;
import com.datadog.api.client.v2.model.DowntimeMonitorIdentifierTags;
import com.datadog.api.client.v2.model.DowntimeResourceType;
import com.datadog.api.client.v2.model.DowntimeResponse;
import com.datadog.api.client.v2.model.DowntimeScheduleCreateRequest;
import com.datadog.api.client.v2.model.DowntimeScheduleOneTimeCreateUpdateRequest;
import java.util.Collections;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
DowntimeCreateRequest body =
new DowntimeCreateRequest()
.data(
new DowntimeCreateRequestData()
.attributes(
new DowntimeCreateRequestAttributes()
.message("dark forest")
.monitorIdentifier(
new DowntimeMonitorIdentifier(
new DowntimeMonitorIdentifierTags()
.monitorTags(Collections.singletonList("cat:hat"))))
.scope("test:exampledowntime")
.schedule(
new DowntimeScheduleCreateRequest(
new DowntimeScheduleOneTimeCreateUpdateRequest().start(null))))
.type(DowntimeResourceType.DOWNTIME));
try {
DowntimeResponse result = apiInstance.createDowntime(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#createDowntime");
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"
"""
Schedule a downtime returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.downtimes_api import DowntimesApi
from datadog_api_client.v2.model.downtime_create_request import DowntimeCreateRequest
from datadog_api_client.v2.model.downtime_create_request_attributes import DowntimeCreateRequestAttributes
from datadog_api_client.v2.model.downtime_create_request_data import DowntimeCreateRequestData
from datadog_api_client.v2.model.downtime_monitor_identifier_tags import DowntimeMonitorIdentifierTags
from datadog_api_client.v2.model.downtime_resource_type import DowntimeResourceType
from datadog_api_client.v2.model.downtime_schedule_one_time_create_update_request import (
DowntimeScheduleOneTimeCreateUpdateRequest,
)
body = DowntimeCreateRequest(
data=DowntimeCreateRequestData(
attributes=DowntimeCreateRequestAttributes(
message="dark forest",
monitor_identifier=DowntimeMonitorIdentifierTags(
monitor_tags=[
"cat:hat",
],
),
scope="test:exampledowntime",
schedule=DowntimeScheduleOneTimeCreateUpdateRequest(
start=None,
),
),
type=DowntimeResourceType.DOWNTIME,
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.create_downtime(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"
# Schedule a downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::DowntimesAPI.new
body = DatadogAPIClient::V2::DowntimeCreateRequest.new({
data: DatadogAPIClient::V2::DowntimeCreateRequestData.new({
attributes: DatadogAPIClient::V2::DowntimeCreateRequestAttributes.new({
message: "dark forest",
monitor_identifier: DatadogAPIClient::V2::DowntimeMonitorIdentifierTags.new({
monitor_tags: [
"cat:hat",
],
}),
scope: "test:exampledowntime",
schedule: DatadogAPIClient::V2::DowntimeScheduleOneTimeCreateUpdateRequest.new({
start: nil,
}),
}),
type: DatadogAPIClient::V2::DowntimeResourceType::DOWNTIME,
}),
})
p api_instance.create_downtime(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"
// Schedule a downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV2::model::DowntimeCreateRequest;
use datadog_api_client::datadogV2::model::DowntimeCreateRequestAttributes;
use datadog_api_client::datadogV2::model::DowntimeCreateRequestData;
use datadog_api_client::datadogV2::model::DowntimeMonitorIdentifier;
use datadog_api_client::datadogV2::model::DowntimeMonitorIdentifierTags;
use datadog_api_client::datadogV2::model::DowntimeResourceType;
use datadog_api_client::datadogV2::model::DowntimeScheduleCreateRequest;
use datadog_api_client::datadogV2::model::DowntimeScheduleOneTimeCreateUpdateRequest;
#[tokio::main]
async fn main() {
let body = DowntimeCreateRequest::new(DowntimeCreateRequestData::new(
DowntimeCreateRequestAttributes::new(
DowntimeMonitorIdentifier::DowntimeMonitorIdentifierTags(Box::new(
DowntimeMonitorIdentifierTags::new(vec!["cat:hat".to_string()]),
)),
"test:exampledowntime".to_string(),
)
.message(Some("dark forest".to_string()))
.schedule(
DowntimeScheduleCreateRequest::DowntimeScheduleOneTimeCreateUpdateRequest(Box::new(
DowntimeScheduleOneTimeCreateUpdateRequest::new().start(None),
)),
),
DowntimeResourceType::DOWNTIME,
));
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.create_downtime(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
/**
* Schedule a downtime returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.DowntimesApi(configuration);
const params: v2.DowntimesApiCreateDowntimeRequest = {
body: {
data: {
attributes: {
message: "dark forest",
monitorIdentifier: {
monitorTags: ["cat:hat"],
},
scope: "test:exampledowntime",
schedule: {
start: undefined,
},
},
type: "downtime",
},
},
};
apiInstance
.createDowntime(params)
.then((data: v2.DowntimeResponse) => {
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/downtime/cancel/by_scopehttps://api.datadoghq.eu/api/v1/downtime/cancel/by_scopehttps://api.ddog-gov.com/api/v1/downtime/cancel/by_scopehttps://api.datadoghq.com/api/v1/downtime/cancel/by_scopehttps://api.us3.datadoghq.com/api/v1/downtime/cancel/by_scopehttps://api.us5.datadoghq.com/api/v1/downtime/cancel/by_scope
Delete all downtimes that match the scope of X
. Note: This only interacts with Downtimes created using v1 endpoints. This endpoint has been deprecated and will not be replaced. Please use v2 endpoints to find and cancel downtimes.
This endpoint requires the monitors_downtime
authorization scope.
Scope to cancel downtimes for.
{
"scope": "string"
}
OK
Object containing array of IDs of canceled downtimes.
{
"cancelled_ids": [
123456789,
123456790
]
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Downtimes not found
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/downtime/cancel/by_scope" \
-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
{
"scope": "string"
}
EOF
// Cancel downtimes by scope 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() {
// there is a valid "downtime" in the system
DowntimeScope0 := os.Getenv("DOWNTIME_SCOPE_0")
body := datadogV1.CancelDowntimesByScopeRequest{
Scope: DowntimeScope0,
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.CancelDowntimesByScope(ctx, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CancelDowntimesByScope`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.CancelDowntimesByScope`:\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"
// Cancel downtimes by scope returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.CancelDowntimesByScopeRequest;
import com.datadog.api.client.v1.model.CanceledDowntimesIds;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime" in the system
String DOWNTIME_SCOPE_0 = System.getenv("DOWNTIME_SCOPE_0");
CancelDowntimesByScopeRequest body =
new CancelDowntimesByScopeRequest().scope(DOWNTIME_SCOPE_0);
try {
CanceledDowntimesIds result = apiInstance.cancelDowntimesByScope(body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#cancelDowntimesByScope");
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)
# Cancel all downtimes with scope
api.Downtime.cancel_downtime_by_scope('env:testing')
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"
"""
Cancel downtimes by scope returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
from datadog_api_client.v1.model.cancel_downtimes_by_scope_request import CancelDowntimesByScopeRequest
# there is a valid "downtime" in the system
DOWNTIME_SCOPE_0 = environ["DOWNTIME_SCOPE_0"]
body = CancelDowntimesByScopeRequest(
scope=DOWNTIME_SCOPE_0,
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.cancel_downtimes_by_scope(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)
# Cancel all downtimes with the given scope
dog.cancel_downtime_by_scope('env:testing')
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"
# Cancel downtimes by scope returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
# there is a valid "downtime" in the system
DOWNTIME_SCOPE_0 = ENV["DOWNTIME_SCOPE_0"]
body = DatadogAPIClient::V1::CancelDowntimesByScopeRequest.new({
scope: DOWNTIME_SCOPE_0,
})
p api_instance.cancel_downtimes_by_scope(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"
// Cancel downtimes by scope returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV1::model::CancelDowntimesByScopeRequest;
#[tokio::main]
async fn main() {
// there is a valid "downtime" in the system
let downtime_scope_0 = std::env::var("DOWNTIME_SCOPE_0").unwrap();
let body = CancelDowntimesByScopeRequest::new(downtime_scope_0.clone());
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.cancel_downtimes_by_scope(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
/**
* Cancel downtimes by scope returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
// there is a valid "downtime" in the system
const DOWNTIME_SCOPE_0 = process.env.DOWNTIME_SCOPE_0 as string;
const params: v1.DowntimesApiCancelDowntimesByScopeRequest = {
body: {
scope: DOWNTIME_SCOPE_0,
},
};
apiInstance
.cancelDowntimesByScope(params)
.then((data: v1.CanceledDowntimesIds) => {
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"
DELETE https://api.ap1.datadoghq.com/api/v1/downtime/{downtime_id}https://api.datadoghq.eu/api/v1/downtime/{downtime_id}https://api.ddog-gov.com/api/v1/downtime/{downtime_id}https://api.datadoghq.com/api/v1/downtime/{downtime_id}https://api.us3.datadoghq.com/api/v1/downtime/{downtime_id}https://api.us5.datadoghq.com/api/v1/downtime/{downtime_id}
Cancel a downtime. Note: This endpoint has been deprecated. Please use v2 endpoints.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
downtime_id [required]
integer
ID of the downtime to cancel.
OK
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Downtime not found
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export downtime_id="123456"
# 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/downtime/${downtime_id}" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Cancel a downtime returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
# there is a valid "downtime" in the system
DOWNTIME_ID = environ["DOWNTIME_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
api_instance.cancel_downtime(
downtime_id=int(DOWNTIME_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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Cancel a downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
# there is a valid "downtime" in the system
DOWNTIME_ID = ENV["DOWNTIME_ID"]
api_instance.cancel_downtime(DOWNTIME_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"
// Cancel a downtime returns "OK" response
package main
import (
"context"
"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 "downtime" in the system
DowntimeID, _ := strconv.ParseInt(os.Getenv("DOWNTIME_ID"), 10, 64)
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
r, err := api.CancelDowntime(ctx, DowntimeID)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CancelDowntime`: %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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Cancel a downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime" in the system
Long DOWNTIME_ID = Long.parseLong(System.getenv("DOWNTIME_ID"));
try {
apiInstance.cancelDowntime(DOWNTIME_ID);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#cancelDowntime");
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"
// Cancel a downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
#[tokio::main]
async fn main() {
// there is a valid "downtime" in the system
let downtime_id: i64 = std::env::var("DOWNTIME_ID").unwrap().parse().unwrap();
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.cancel_downtime(downtime_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
/**
* Cancel a downtime returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
// there is a valid "downtime" in the system
const DOWNTIME_ID = parseInt(process.env.DOWNTIME_ID as string);
const params: v1.DowntimesApiCancelDowntimeRequest = {
downtimeId: DOWNTIME_ID,
};
apiInstance
.cancelDowntime(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"
DELETE https://api.ap1.datadoghq.com/api/v2/downtime/{downtime_id}https://api.datadoghq.eu/api/v2/downtime/{downtime_id}https://api.ddog-gov.com/api/v2/downtime/{downtime_id}https://api.datadoghq.com/api/v2/downtime/{downtime_id}https://api.us3.datadoghq.com/api/v2/downtime/{downtime_id}https://api.us5.datadoghq.com/api/v2/downtime/{downtime_id}
Cancel a downtime.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
downtime_id [required]
string
ID of the downtime to cancel.
OK
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Downtime not found
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export downtime_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/downtime/${downtime_id}" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Cancel a downtime returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.downtimes_api import DowntimesApi
# there is a valid "downtime_v2" in the system
DOWNTIME_V2_DATA_ID = environ["DOWNTIME_V2_DATA_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
api_instance.cancel_downtime(
downtime_id=DOWNTIME_V2_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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Cancel a downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::DowntimesAPI.new
# there is a valid "downtime_v2" in the system
DOWNTIME_V2_DATA_ID = ENV["DOWNTIME_V2_DATA_ID"]
api_instance.cancel_downtime(DOWNTIME_V2_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"
// Cancel a downtime 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 "downtime_v2" in the system
DowntimeV2DataID := os.Getenv("DOWNTIME_V2_DATA_ID")
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewDowntimesApi(apiClient)
r, err := api.CancelDowntime(ctx, DowntimeV2DataID)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.CancelDowntime`: %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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" go run "main.go"
// Cancel a downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.DowntimesApi;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime_v2" in the system
String DOWNTIME_V2_DATA_ID = System.getenv("DOWNTIME_V2_DATA_ID");
try {
apiInstance.cancelDowntime(DOWNTIME_V2_DATA_ID);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#cancelDowntime");
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"
// Cancel a downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_downtimes::DowntimesAPI;
#[tokio::main]
async fn main() {
// there is a valid "downtime_v2" in the system
let downtime_v2_data_id = std::env::var("DOWNTIME_V2_DATA_ID").unwrap();
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.cancel_downtime(downtime_v2_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
/**
* Cancel a downtime returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.DowntimesApi(configuration);
// there is a valid "downtime_v2" in the system
const DOWNTIME_V2_DATA_ID = process.env.DOWNTIME_V2_DATA_ID as string;
const params: v2.DowntimesApiCancelDowntimeRequest = {
downtimeId: DOWNTIME_V2_DATA_ID,
};
apiInstance
.cancelDowntime(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/v1/downtime/{downtime_id}https://api.datadoghq.eu/api/v1/downtime/{downtime_id}https://api.ddog-gov.com/api/v1/downtime/{downtime_id}https://api.datadoghq.com/api/v1/downtime/{downtime_id}https://api.us3.datadoghq.com/api/v1/downtime/{downtime_id}https://api.us5.datadoghq.com/api/v1/downtime/{downtime_id}
Get downtime detail by downtime_id
. Note: This endpoint has been deprecated. Please use v2 endpoints.
This endpoint requires the monitors_read
authorization scope.
이름
유형
설명
downtime_id [required]
integer
ID of the downtime to fetch.
OK
Downtiming gives you greater control over monitor notifications by allowing you to globally exclude scopes from alerting. Downtime settings, which can be scheduled with start and end times, prevent all alerting related to specified Datadog tags.
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"active": true,
"active_child": {
"active": true,
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1626,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
},
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1625,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Downtime not found
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export downtime_id="123456"
# 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/downtime/${downtime_id}" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get a downtime returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
# there is a valid "downtime" in the system
DOWNTIME_ID = environ["DOWNTIME_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.get_downtime(
downtime_id=int(DOWNTIME_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 downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
# there is a valid "downtime" in the system
DOWNTIME_ID = ENV["DOWNTIME_ID"]
p api_instance.get_downtime(DOWNTIME_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)
# Get a downtime object
downtime_id = 1625
dog.get_downtime(downtime_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 downtime 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 "downtime" in the system
DowntimeID, _ := strconv.ParseInt(os.Getenv("DOWNTIME_ID"), 10, 64)
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.GetDowntime(ctx, DowntimeID)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.GetDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.GetDowntime`:\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 downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.Downtime;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime" in the system
Long DOWNTIME_ID = Long.parseLong(System.getenv("DOWNTIME_ID"));
try {
Downtime result = apiInstance.getDowntime(DOWNTIME_ID);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#getDowntime");
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 downtime
api.Downtime.get(2910)
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 downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
#[tokio::main]
async fn main() {
// there is a valid "downtime" in the system
let downtime_id: i64 = std::env::var("DOWNTIME_ID").unwrap().parse().unwrap();
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.get_downtime(downtime_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 downtime returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
// there is a valid "downtime" in the system
const DOWNTIME_ID = parseInt(process.env.DOWNTIME_ID as string);
const params: v1.DowntimesApiGetDowntimeRequest = {
downtimeId: DOWNTIME_ID,
};
apiInstance
.getDowntime(params)
.then((data: v1.Downtime) => {
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/downtime/{downtime_id}https://api.datadoghq.eu/api/v2/downtime/{downtime_id}https://api.ddog-gov.com/api/v2/downtime/{downtime_id}https://api.datadoghq.com/api/v2/downtime/{downtime_id}https://api.us3.datadoghq.com/api/v2/downtime/{downtime_id}https://api.us5.datadoghq.com/api/v2/downtime/{downtime_id}
Get downtime detail by downtime_id
.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
downtime_id [required]
string
ID of the downtime to fetch.
이름
유형
설명
include
string
Comma-separated list of resource paths for related resources to include in the response. Supported resource
paths are created_by
and monitor
.
OK
Downtiming gives you greater control over monitor notifications by allowing you to globally exclude scopes from alerting. Downtime settings, which can be scheduled with start and end times, prevent all alerting related to specified Datadog tags.
항목
유형
설명
data
object
Downtime data.
attributes
object
Downtime details.
canceled
date-time
Time that the downtime was canceled.
created
date-time
Creation time of the downtime.
display_timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications. This is not used as an offset for scheduling.
default: UTC
message
string
A message to include with notifications for this downtime. Email notifications can be sent to specific users
by using the same @username
notation as events.
modified
date-time
Time that the downtime was last modified.
monitor_identifier
<oneOf>
Monitor identifier for the downtime.
Option 1
object
Object of the monitor identifier.
monitor_id [required]
int64
ID of the monitor to prevent notifications.
Option 2
object
Object of the monitor tags.
monitor_tags [required]
[string]
A list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match all provided monitor tags. Setting monitor_tags
to [*]
configures the downtime to mute all monitors for the given scope.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States that will trigger a monitor notification when the notify_end_types
action occurs.
notify_end_types
[string]
Actions that will trigger a monitor notification if the downtime is in the notify_end_types
state.
schedule
<oneOf>
The schedule that defines when the monitor starts, stops, and recurs. There are two types of schedules: one-time and recurring. Recurring schedules may have up to five RRULE-based recurrences. If no schedules are provided, the downtime will begin immediately and never end.
Option 1
object
A recurring downtime schedule definition.
current_downtime
object
The most recent actual start and end dates for a recurring downtime. For a canceled downtime, this is the previously occurring downtime. For active downtimes, this is the ongoing downtime, and for scheduled downtimes it is the upcoming downtime.
end
date-time
The end of the current downtime.
start
date-time
The start of the current downtime.
recurrences [required]
[object]
A list of downtime recurrences.
duration
string
The length of the downtime. Must begin with an integer and end with one of 'm', 'h', d', or 'w'.
rrule
string
The RRULE
standard for defining recurring events.
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide.
start
string
ISO-8601 Datetime to start the downtime. Must not include a UTC offset. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to schedule the downtime. This affects recurring start and end dates.
Must match display_timezone
.
default: UTC
Option 2
object
A one-time downtime definition.
end
date-time
ISO-8601 Datetime to end the downtime.
start [required]
date-time
ISO-8601 Datetime to start the downtime.
status
enum
The current status of the downtime.
Allowed enum values: active,canceled,ended,scheduled
id
string
The downtime ID.
relationships
object
All relationships associated with downtime.
created_by
object
The user who created the downtime.
data
object
Data for the user who created the downtime.
id
string
User ID of the downtime creator.
type
enum
Users resource type.
Allowed enum values: users
default: users
monitor
object
The monitor identified by the downtime.
data
object
Data for the monitor.
id
string
Monitor ID of the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
type
enum
Downtime resource type.
Allowed enum values: downtime
default: downtime
included
[ <oneOf>]
Array of objects related to the downtime that the user requested.
Option 1
object
User object returned by the API.
attributes
object
Attributes of user object returned by the API.
created_at
date-time
Creation time of the user.
disabled
boolean
Whether the user is disabled.
string
Email of the user.
handle
string
Handle of the user.
icon
string
URL of the user's icon.
mfa_enabled
boolean
If user has MFA enabled.
modified_at
date-time
Time that the user was last modified.
name
string
Name of the user.
service_account
boolean
Whether the user is a service account.
status
string
Status of the user.
title
string
Title of the user.
verified
boolean
Whether the user is verified.
id
string
ID of the user.
relationships
object
Relationships of the user object returned by the API.
org
object
Relationship to an organization.
data [required]
object
Relationship to organization object.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_orgs
object
Relationship to organizations.
data [required]
[object]
Relationships to organization objects.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_users
object
Relationship to users.
data [required]
[object]
Relationships to user objects.
id [required]
string
A unique identifier that represents the user.
type [required]
enum
Users resource type.
Allowed enum values: users
default: users
roles
object
Relationship to roles.
data
[object]
An array containing type and the unique identifier of a role.
id
string
The unique identifier of the role.
type
enum
Roles type.
Allowed enum values: roles
default: roles
type
enum
Users resource type.
Allowed enum values: users
default: users
Option 2
object
Information about the monitor identified by the downtime.
attributes
object
Attributes of the monitor identified by the downtime.
name
string
The name of the monitor identified by the downtime.
id
int64
ID of the monitor identified by the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
{
"data": {
"attributes": {
"canceled": "2020-01-02T03:04:05.282979+0000",
"created": "2020-01-02T03:04:05.282979+0000",
"display_timezone": "America/New_York",
"message": "Message about the downtime",
"modified": "2020-01-02T03:04:05.282979+0000",
"monitor_identifier": {
"monitor_id": 123
},
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"schedule": {
"current_downtime": {
"end": "2020-01-02T03:04:00.000Z",
"start": "2020-01-02T03:04:00.000Z"
},
"recurrences": [
{
"duration": "123d",
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"start": "2020-01-02T03:04"
}
],
"timezone": "America/New_York"
},
"scope": "env:(staging OR prod) AND datacenter:us-east-1",
"status": "active"
},
"id": "00000000-0000-1234-0000-000000000000",
"relationships": {
"created_by": {
"data": {
"id": "00000000-0000-1234-0000-000000000000",
"type": "users"
}
},
"monitor": {
"data": {
"id": "12345",
"type": "monitors"
}
}
},
"type": "downtime"
},
"included": [
{
"attributes": {
"created_at": "2019-09-19T10:00:00.000Z",
"disabled": false,
"email": "string",
"handle": "string",
"icon": "string",
"mfa_enabled": false,
"modified_at": "2019-09-19T10:00:00.000Z",
"name": "string",
"service_account": false,
"status": "string",
"title": "string",
"verified": false
},
"id": "string",
"relationships": {
"org": {
"data": {
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
},
"other_orgs": {
"data": [
{
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
]
},
"other_users": {
"data": [
{
"id": "00000000-0000-0000-2345-000000000000",
"type": "users"
}
]
},
"roles": {
"data": [
{
"id": "3653d3c6-0c75-11ea-ad28-fb5701eabc7d",
"type": "roles"
}
]
}
},
"type": "users"
}
]
}
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 downtime_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/downtime/${downtime_id}" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get a downtime returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.downtimes_api import DowntimesApi
# there is a valid "downtime_v2" in the system
DOWNTIME_V2_DATA_ID = environ["DOWNTIME_V2_DATA_ID"]
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.get_downtime(
downtime_id=DOWNTIME_V2_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 downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::DowntimesAPI.new
# there is a valid "downtime_v2" in the system
DOWNTIME_V2_DATA_ID = ENV["DOWNTIME_V2_DATA_ID"]
p api_instance.get_downtime(DOWNTIME_V2_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 downtime 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 "downtime_v2" in the system
DowntimeV2DataID := os.Getenv("DOWNTIME_V2_DATA_ID")
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewDowntimesApi(apiClient)
resp, r, err := api.GetDowntime(ctx, DowntimeV2DataID, *datadogV2.NewGetDowntimeOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.GetDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.GetDowntime`:\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 downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.DowntimesApi;
import com.datadog.api.client.v2.model.DowntimeResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime_v2" in the system
String DOWNTIME_V2_DATA_ID = System.getenv("DOWNTIME_V2_DATA_ID");
try {
DowntimeResponse result = apiInstance.getDowntime(DOWNTIME_V2_DATA_ID);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#getDowntime");
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 downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV2::api_downtimes::GetDowntimeOptionalParams;
#[tokio::main]
async fn main() {
// there is a valid "downtime_v2" in the system
let downtime_v2_data_id = std::env::var("DOWNTIME_V2_DATA_ID").unwrap();
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api
.get_downtime(
downtime_v2_data_id.clone(),
GetDowntimeOptionalParams::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 a downtime returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.DowntimesApi(configuration);
// there is a valid "downtime_v2" in the system
const DOWNTIME_V2_DATA_ID = process.env.DOWNTIME_V2_DATA_ID as string;
const params: v2.DowntimesApiGetDowntimeRequest = {
downtimeId: DOWNTIME_V2_DATA_ID,
};
apiInstance
.getDowntime(params)
.then((data: v2.DowntimeResponse) => {
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"
PUT https://api.ap1.datadoghq.com/api/v1/downtime/{downtime_id}https://api.datadoghq.eu/api/v1/downtime/{downtime_id}https://api.ddog-gov.com/api/v1/downtime/{downtime_id}https://api.datadoghq.com/api/v1/downtime/{downtime_id}https://api.us3.datadoghq.com/api/v1/downtime/{downtime_id}https://api.us5.datadoghq.com/api/v1/downtime/{downtime_id}
Update a single downtime by downtime_id
. Note: This endpoint has been deprecated. Please use v2 endpoints.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
downtime_id [required]
integer
ID of the downtime to update.
Update a downtime request body.
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"message": "Example-Downtime-updated",
"mute_first_recovery_notification": true,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
]
}
OK
Downtiming gives you greater control over monitor notifications by allowing you to globally exclude scopes from alerting. Downtime settings, which can be scheduled with start and end times, prevent all alerting related to specified Datadog tags.
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"active": true,
"active_child": {
"active": true,
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1626,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
},
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1625,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
}
Bad Request
Error response object.
{
"errors": [
"Bad Request"
]
}
Forbidden
Error response object.
{
"errors": [
"Bad Request"
]
}
Downtime not found
Error response object.
{
"errors": [
"Bad Request"
]
}
Too many requests
Error response object.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export downtime_id="123456"
# 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/downtime/${downtime_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
{
"message": "Example-Downtime-updated",
"mute_first_recovery_notification": true,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
]
}
EOF
// Update a downtime 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 "downtime" in the system
DowntimeID, _ := strconv.ParseInt(os.Getenv("DOWNTIME_ID"), 10, 64)
body := datadogV1.Downtime{
Message: *datadog.NewNullableString(datadog.PtrString("Example-Downtime-updated")),
MuteFirstRecoveryNotification: datadog.PtrBool(true),
NotifyEndStates: []datadogV1.NotifyEndState{
datadogV1.NOTIFYENDSTATE_ALERT,
datadogV1.NOTIFYENDSTATE_NO_DATA,
datadogV1.NOTIFYENDSTATE_WARN,
},
NotifyEndTypes: []datadogV1.NotifyEndType{
datadogV1.NOTIFYENDTYPE_CANCELED,
datadogV1.NOTIFYENDTYPE_EXPIRED,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.UpdateDowntime(ctx, DowntimeID, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.UpdateDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.UpdateDowntime`:\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"
// Update a downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.Downtime;
import com.datadog.api.client.v1.model.NotifyEndState;
import com.datadog.api.client.v1.model.NotifyEndType;
import java.util.Arrays;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime" in the system
Long DOWNTIME_ID = Long.parseLong(System.getenv("DOWNTIME_ID"));
Downtime body =
new Downtime()
.message("Example-Downtime-updated")
.muteFirstRecoveryNotification(true)
.notifyEndStates(
Arrays.asList(NotifyEndState.ALERT, NotifyEndState.NO_DATA, NotifyEndState.WARN))
.notifyEndTypes(Arrays.asList(NotifyEndType.CANCELED, NotifyEndType.EXPIRED));
try {
Downtime result = apiInstance.updateDowntime(DOWNTIME_ID, body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#updateDowntime");
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"
"""
Update a downtime returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
from datadog_api_client.v1.model.downtime import Downtime
from datadog_api_client.v1.model.notify_end_state import NotifyEndState
from datadog_api_client.v1.model.notify_end_type import NotifyEndType
# there is a valid "downtime" in the system
DOWNTIME_ID = environ["DOWNTIME_ID"]
body = Downtime(
message="Example-Downtime-updated",
mute_first_recovery_notification=True,
notify_end_states=[
NotifyEndState.ALERT,
NotifyEndState.NO_DATA,
NotifyEndState.WARN,
],
notify_end_types=[
NotifyEndType.CANCELED,
NotifyEndType.EXPIRED,
],
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.update_downtime(downtime_id=int(DOWNTIME_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"
# Update a downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
# there is a valid "downtime" in the system
DOWNTIME_ID = ENV["DOWNTIME_ID"]
body = DatadogAPIClient::V1::Downtime.new({
message: "Example-Downtime-updated",
mute_first_recovery_notification: true,
notify_end_states: [
DatadogAPIClient::V1::NotifyEndState::ALERT,
DatadogAPIClient::V1::NotifyEndState::NO_DATA,
DatadogAPIClient::V1::NotifyEndState::WARN,
],
notify_end_types: [
DatadogAPIClient::V1::NotifyEndType::CANCELED,
DatadogAPIClient::V1::NotifyEndType::EXPIRED,
],
})
p api_instance.update_downtime(DOWNTIME_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"
// Update a downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV1::model::Downtime;
use datadog_api_client::datadogV1::model::NotifyEndState;
use datadog_api_client::datadogV1::model::NotifyEndType;
#[tokio::main]
async fn main() {
// there is a valid "downtime" in the system
let downtime_id: i64 = std::env::var("DOWNTIME_ID").unwrap().parse().unwrap();
let body = Downtime::new()
.message(Some("Example-Downtime-updated".to_string()))
.mute_first_recovery_notification(true)
.notify_end_states(vec![
NotifyEndState::ALERT,
NotifyEndState::NO_DATA,
NotifyEndState::WARN,
])
.notify_end_types(vec![NotifyEndType::CANCELED, NotifyEndType::EXPIRED]);
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.update_downtime(downtime_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
/**
* Update a downtime returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
// there is a valid "downtime" in the system
const DOWNTIME_ID = parseInt(process.env.DOWNTIME_ID as string);
const params: v1.DowntimesApiUpdateDowntimeRequest = {
body: {
message: "Example-Downtime-updated",
muteFirstRecoveryNotification: true,
notifyEndStates: ["alert", "no data", "warn"],
notifyEndTypes: ["canceled", "expired"],
},
downtimeId: DOWNTIME_ID,
};
apiInstance
.updateDowntime(params)
.then((data: v1.Downtime) => {
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"
PATCH https://api.ap1.datadoghq.com/api/v2/downtime/{downtime_id}https://api.datadoghq.eu/api/v2/downtime/{downtime_id}https://api.ddog-gov.com/api/v2/downtime/{downtime_id}https://api.datadoghq.com/api/v2/downtime/{downtime_id}https://api.us3.datadoghq.com/api/v2/downtime/{downtime_id}https://api.us5.datadoghq.com/api/v2/downtime/{downtime_id}
Update a downtime by downtime_id
.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
downtime_id [required]
string
ID of the downtime to update.
Update a downtime request body.
항목
유형
설명
data [required]
object
Object to update a downtime.
attributes [required]
object
Attributes of the downtime to update.
display_timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications. This is not used as an offset for scheduling.
default: UTC
message
string
A message to include with notifications for this downtime. Email notifications can be sent to specific users
by using the same @username
notation as events.
monitor_identifier
<oneOf>
Monitor identifier for the downtime.
Option 1
object
Object of the monitor identifier.
monitor_id [required]
int64
ID of the monitor to prevent notifications.
Option 2
object
Object of the monitor tags.
monitor_tags [required]
[string]
A list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match all provided monitor tags. Setting monitor_tags
to [*]
configures the downtime to mute all monitors for the given scope.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States that will trigger a monitor notification when the notify_end_types
action occurs.
notify_end_types
[string]
Actions that will trigger a monitor notification if the downtime is in the notify_end_types
state.
schedule
<oneOf>
Schedule for the downtime.
Option 1
object
A recurring downtime schedule definition.
recurrences
[object]
A list of downtime recurrences.
duration [required]
string
The length of the downtime. Must begin with an integer and end with one of 'm', 'h', d', or 'w'.
rrule [required]
string
The RRULE
standard for defining recurring events.
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide.
start
string
ISO-8601 Datetime to start the downtime. Must not include a UTC offset. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to schedule the downtime.
default: UTC
Option 2
object
A one-time downtime definition.
end
date-time
ISO-8601 Datetime to end the downtime. Must include a UTC offset of zero. If not provided, the downtime continues forever.
start
date-time
ISO-8601 Datetime to start the downtime. Must include a UTC offset of zero. If not provided, the downtime starts the moment it is created.
id [required]
string
ID of this downtime.
type [required]
enum
Downtime resource type.
Allowed enum values: downtime
default: downtime
{
"data": {
"attributes": {
"message": "light speed"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "downtime"
}
}
OK
Downtiming gives you greater control over monitor notifications by allowing you to globally exclude scopes from alerting. Downtime settings, which can be scheduled with start and end times, prevent all alerting related to specified Datadog tags.
항목
유형
설명
data
object
Downtime data.
attributes
object
Downtime details.
canceled
date-time
Time that the downtime was canceled.
created
date-time
Creation time of the downtime.
display_timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications. This is not used as an offset for scheduling.
default: UTC
message
string
A message to include with notifications for this downtime. Email notifications can be sent to specific users
by using the same @username
notation as events.
modified
date-time
Time that the downtime was last modified.
monitor_identifier
<oneOf>
Monitor identifier for the downtime.
Option 1
object
Object of the monitor identifier.
monitor_id [required]
int64
ID of the monitor to prevent notifications.
Option 2
object
Object of the monitor tags.
monitor_tags [required]
[string]
A list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match all provided monitor tags. Setting monitor_tags
to [*]
configures the downtime to mute all monitors for the given scope.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States that will trigger a monitor notification when the notify_end_types
action occurs.
notify_end_types
[string]
Actions that will trigger a monitor notification if the downtime is in the notify_end_types
state.
schedule
<oneOf>
The schedule that defines when the monitor starts, stops, and recurs. There are two types of schedules: one-time and recurring. Recurring schedules may have up to five RRULE-based recurrences. If no schedules are provided, the downtime will begin immediately and never end.
Option 1
object
A recurring downtime schedule definition.
current_downtime
object
The most recent actual start and end dates for a recurring downtime. For a canceled downtime, this is the previously occurring downtime. For active downtimes, this is the ongoing downtime, and for scheduled downtimes it is the upcoming downtime.
end
date-time
The end of the current downtime.
start
date-time
The start of the current downtime.
recurrences [required]
[object]
A list of downtime recurrences.
duration
string
The length of the downtime. Must begin with an integer and end with one of 'm', 'h', d', or 'w'.
rrule
string
The RRULE
standard for defining recurring events.
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide.
start
string
ISO-8601 Datetime to start the downtime. Must not include a UTC offset. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to schedule the downtime. This affects recurring start and end dates.
Must match display_timezone
.
default: UTC
Option 2
object
A one-time downtime definition.
end
date-time
ISO-8601 Datetime to end the downtime.
start [required]
date-time
ISO-8601 Datetime to start the downtime.
status
enum
The current status of the downtime.
Allowed enum values: active,canceled,ended,scheduled
id
string
The downtime ID.
relationships
object
All relationships associated with downtime.
created_by
object
The user who created the downtime.
data
object
Data for the user who created the downtime.
id
string
User ID of the downtime creator.
type
enum
Users resource type.
Allowed enum values: users
default: users
monitor
object
The monitor identified by the downtime.
data
object
Data for the monitor.
id
string
Monitor ID of the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
type
enum
Downtime resource type.
Allowed enum values: downtime
default: downtime
included
[ <oneOf>]
Array of objects related to the downtime that the user requested.
Option 1
object
User object returned by the API.
attributes
object
Attributes of user object returned by the API.
created_at
date-time
Creation time of the user.
disabled
boolean
Whether the user is disabled.
string
Email of the user.
handle
string
Handle of the user.
icon
string
URL of the user's icon.
mfa_enabled
boolean
If user has MFA enabled.
modified_at
date-time
Time that the user was last modified.
name
string
Name of the user.
service_account
boolean
Whether the user is a service account.
status
string
Status of the user.
title
string
Title of the user.
verified
boolean
Whether the user is verified.
id
string
ID of the user.
relationships
object
Relationships of the user object returned by the API.
org
object
Relationship to an organization.
data [required]
object
Relationship to organization object.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_orgs
object
Relationship to organizations.
data [required]
[object]
Relationships to organization objects.
id [required]
string
ID of the organization.
type [required]
enum
Organizations resource type.
Allowed enum values: orgs
default: orgs
other_users
object
Relationship to users.
data [required]
[object]
Relationships to user objects.
id [required]
string
A unique identifier that represents the user.
type [required]
enum
Users resource type.
Allowed enum values: users
default: users
roles
object
Relationship to roles.
data
[object]
An array containing type and the unique identifier of a role.
id
string
The unique identifier of the role.
type
enum
Roles type.
Allowed enum values: roles
default: roles
type
enum
Users resource type.
Allowed enum values: users
default: users
Option 2
object
Information about the monitor identified by the downtime.
attributes
object
Attributes of the monitor identified by the downtime.
name
string
The name of the monitor identified by the downtime.
id
int64
ID of the monitor identified by the downtime.
type
enum
Monitor resource type.
Allowed enum values: monitors
default: monitors
{
"data": {
"attributes": {
"canceled": "2020-01-02T03:04:05.282979+0000",
"created": "2020-01-02T03:04:05.282979+0000",
"display_timezone": "America/New_York",
"message": "Message about the downtime",
"modified": "2020-01-02T03:04:05.282979+0000",
"monitor_identifier": {
"monitor_id": 123
},
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"schedule": {
"current_downtime": {
"end": "2020-01-02T03:04:00.000Z",
"start": "2020-01-02T03:04:00.000Z"
},
"recurrences": [
{
"duration": "123d",
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"start": "2020-01-02T03:04"
}
],
"timezone": "America/New_York"
},
"scope": "env:(staging OR prod) AND datacenter:us-east-1",
"status": "active"
},
"id": "00000000-0000-1234-0000-000000000000",
"relationships": {
"created_by": {
"data": {
"id": "00000000-0000-1234-0000-000000000000",
"type": "users"
}
},
"monitor": {
"data": {
"id": "12345",
"type": "monitors"
}
}
},
"type": "downtime"
},
"included": [
{
"attributes": {
"created_at": "2019-09-19T10:00:00.000Z",
"disabled": false,
"email": "string",
"handle": "string",
"icon": "string",
"mfa_enabled": false,
"modified_at": "2019-09-19T10:00:00.000Z",
"name": "string",
"service_account": false,
"status": "string",
"title": "string",
"verified": false
},
"id": "string",
"relationships": {
"org": {
"data": {
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
},
"other_orgs": {
"data": [
{
"id": "00000000-0000-beef-0000-000000000000",
"type": "orgs"
}
]
},
"other_users": {
"data": [
{
"id": "00000000-0000-0000-2345-000000000000",
"type": "users"
}
]
},
"roles": {
"data": [
{
"id": "3653d3c6-0c75-11ea-ad28-fb5701eabc7d",
"type": "roles"
}
]
}
},
"type": "users"
}
]
}
Bad Request
API error response.
{
"errors": [
"Bad Request"
]
}
Forbidden
API error response.
{
"errors": [
"Bad Request"
]
}
Downtime not found
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export downtime_id="00e000000-0000-1234-0000-000000000000"
# 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/downtime/${downtime_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": {
"message": "light speed"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "downtime"
}
}
EOF
// Update a downtime 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 "downtime_v2" in the system
DowntimeV2DataID := os.Getenv("DOWNTIME_V2_DATA_ID")
body := datadogV2.DowntimeUpdateRequest{
Data: datadogV2.DowntimeUpdateRequestData{
Attributes: datadogV2.DowntimeUpdateRequestAttributes{
Message: *datadog.NewNullableString(datadog.PtrString("light speed")),
},
Id: DowntimeV2DataID,
Type: datadogV2.DOWNTIMERESOURCETYPE_DOWNTIME,
},
}
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewDowntimesApi(apiClient)
resp, r, err := api.UpdateDowntime(ctx, DowntimeV2DataID, body)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.UpdateDowntime`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.UpdateDowntime`:\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"
// Update a downtime returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.DowntimesApi;
import com.datadog.api.client.v2.model.DowntimeResourceType;
import com.datadog.api.client.v2.model.DowntimeResponse;
import com.datadog.api.client.v2.model.DowntimeUpdateRequest;
import com.datadog.api.client.v2.model.DowntimeUpdateRequestAttributes;
import com.datadog.api.client.v2.model.DowntimeUpdateRequestData;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
// there is a valid "downtime_v2" in the system
String DOWNTIME_V2_DATA_ID = System.getenv("DOWNTIME_V2_DATA_ID");
DowntimeUpdateRequest body =
new DowntimeUpdateRequest()
.data(
new DowntimeUpdateRequestData()
.attributes(new DowntimeUpdateRequestAttributes().message("light speed"))
.id(DOWNTIME_V2_DATA_ID)
.type(DowntimeResourceType.DOWNTIME));
try {
DowntimeResponse result = apiInstance.updateDowntime(DOWNTIME_V2_DATA_ID, body);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#updateDowntime");
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"
"""
Update a downtime returns "OK" response
"""
from os import environ
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.downtimes_api import DowntimesApi
from datadog_api_client.v2.model.downtime_resource_type import DowntimeResourceType
from datadog_api_client.v2.model.downtime_update_request import DowntimeUpdateRequest
from datadog_api_client.v2.model.downtime_update_request_attributes import DowntimeUpdateRequestAttributes
from datadog_api_client.v2.model.downtime_update_request_data import DowntimeUpdateRequestData
# there is a valid "downtime_v2" in the system
DOWNTIME_V2_DATA_ID = environ["DOWNTIME_V2_DATA_ID"]
body = DowntimeUpdateRequest(
data=DowntimeUpdateRequestData(
attributes=DowntimeUpdateRequestAttributes(
message="light speed",
),
id=DOWNTIME_V2_DATA_ID,
type=DowntimeResourceType.DOWNTIME,
),
)
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.update_downtime(downtime_id=DOWNTIME_V2_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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" python3 "example.py"
# Update a downtime returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::DowntimesAPI.new
# there is a valid "downtime_v2" in the system
DOWNTIME_V2_DATA_ID = ENV["DOWNTIME_V2_DATA_ID"]
body = DatadogAPIClient::V2::DowntimeUpdateRequest.new({
data: DatadogAPIClient::V2::DowntimeUpdateRequestData.new({
attributes: DatadogAPIClient::V2::DowntimeUpdateRequestAttributes.new({
message: "light speed",
}),
id: DOWNTIME_V2_DATA_ID,
type: DatadogAPIClient::V2::DowntimeResourceType::DOWNTIME,
}),
})
p api_instance.update_downtime(DOWNTIME_V2_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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" rb "example.rb"
// Update a downtime returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV2::model::DowntimeResourceType;
use datadog_api_client::datadogV2::model::DowntimeUpdateRequest;
use datadog_api_client::datadogV2::model::DowntimeUpdateRequestAttributes;
use datadog_api_client::datadogV2::model::DowntimeUpdateRequestData;
#[tokio::main]
async fn main() {
// there is a valid "downtime_v2" in the system
let downtime_v2_data_id = std::env::var("DOWNTIME_V2_DATA_ID").unwrap();
let body = DowntimeUpdateRequest::new(DowntimeUpdateRequestData::new(
DowntimeUpdateRequestAttributes::new().message(Some("light speed".to_string())),
downtime_v2_data_id.clone(),
DowntimeResourceType::DOWNTIME,
));
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.update_downtime(downtime_v2_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="<DD_API_KEY>" DD_APP_KEY="<DD_APP_KEY>" cargo run
/**
* Update a downtime returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.DowntimesApi(configuration);
// there is a valid "downtime_v2" in the system
const DOWNTIME_V2_DATA_ID = process.env.DOWNTIME_V2_DATA_ID as string;
const params: v2.DowntimesApiUpdateDowntimeRequest = {
body: {
data: {
attributes: {
message: "light speed",
},
id: DOWNTIME_V2_DATA_ID,
type: "downtime",
},
},
downtimeId: DOWNTIME_V2_DATA_ID,
};
apiInstance
.updateDowntime(params)
.then((data: v2.DowntimeResponse) => {
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/{monitor_id}/downtimeshttps://api.datadoghq.eu/api/v1/monitor/{monitor_id}/downtimeshttps://api.ddog-gov.com/api/v1/monitor/{monitor_id}/downtimeshttps://api.datadoghq.com/api/v1/monitor/{monitor_id}/downtimeshttps://api.us3.datadoghq.com/api/v1/monitor/{monitor_id}/downtimeshttps://api.us5.datadoghq.com/api/v1/monitor/{monitor_id}/downtimes
Get all active v1 downtimes for the specified monitor. Note: This endpoint has been deprecated. Please use v2 endpoints.
This endpoint requires the monitors_read
authorization scope.
이름
유형
설명
monitor_id [required]
integer
The id of the monitor
OK
항목
유형
설명
active
boolean
If a scheduled downtime currently exists.
active_child
object
The downtime object definition of the active child for the original parent recurring downtime. This field will only exist on recurring downtimes.
active
boolean
If a scheduled downtime currently exists.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
canceled
int64
If a scheduled downtime is canceled.
creator_id
int32
User ID of the downtime creator.
disabled
boolean
If a downtime has been disabled.
downtime_type
int32
0
for a downtime applied on *
or all,
1
when the downtime is only scoped to hosts,
or 2
when the downtime is scoped to anything but hosts.
end
int64
POSIX timestamp to end the downtime. If not provided, the downtime is in effect indefinitely until you cancel it.
id
int64
The downtime ID.
message
string
A message to include with notifications for this downtime.
Email notifications can be sent to specific users by using the same @username
notation as events.
monitor_id
int64
A single monitor to which the downtime applies. If not provided, the downtime applies to all monitors.
monitor_tags
[string]
A comma-separated list of monitor tags. For example, tags that are applied directly to monitors,
not tags that are used in monitor queries (which are filtered by the scope parameter), to which the downtime applies.
The resulting downtime applies to monitors that match ALL provided monitor tags.
For example, service:postgres
AND team:frontend
.
mute_first_recovery_notification
boolean
If the first recovery notification during a downtime should be muted.
notify_end_states
[string]
States for which notify_end_types
sends out notifications for.
default: alert,no data,warn
notify_end_types
[string]
If set, notifies if a monitor is in an alert-worthy state (ALERT
, WARNING
, or NO DATA
)
when this downtime expires or is canceled. Applied to monitors that change states during
the downtime (such as from OK
to ALERT
, WARNING
, or NO DATA
), and to monitors that
already have an alert-worthy state when downtime begins.
default: expired
parent_id
int64
ID of the parent Downtime.
recurrence
object
An object defining the recurrence of the downtime.
period
int32
How often to repeat as an integer.
For example, to repeat every 3 days, select a type of days
and a period of 3
.
rrule
string
The RRULE
standard for defining recurring events (requires to set "type" to rrule)
For example, to have a recurring event on the first day of each month, set the type to rrule
and set the FREQ
to MONTHLY
and BYMONTHDAY
to 1
.
Most common rrule
options from the iCalendar Spec are supported.
Note: Attributes specifying the duration in RRULE
are not supported (for example, DTSTART
, DTEND
, DURATION
).
More examples available in this downtime guide
type
string
The type of recurrence. Choose from days
, weeks
, months
, years
, rrule
.
until_date
int64
The date at which the recurrence should end as a POSIX timestamp.
until_occurences
and until_date
are mutually exclusive.
until_occurrences
int32
How many times the downtime is rescheduled.
until_occurences
and until_date
are mutually exclusive.
week_days
[string]
A list of week days to repeat on. Choose from Mon
, Tue
, Wed
, Thu
, Fri
, Sat
or Sun
.
Only applicable when type is weeks. First letter must be capitalized.
scope
[string]
The scope(s) to which the downtime applies and 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. If not provided, the downtime starts the moment it is created.
timezone
string
The timezone in which to display the downtime's start and end times in Datadog applications.
updater_id
int32
ID of the last user that updated the downtime.
{
"active": true,
"active_child": {
"active": true,
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1626,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
},
"canceled": 1412799983,
"creator_id": 123456,
"disabled": false,
"downtime_type": 2,
"end": 1412793983,
"id": 1625,
"message": "Message on the downtime",
"monitor_id": 123456,
"monitor_tags": [
"*"
],
"mute_first_recovery_notification": false,
"notify_end_states": [
"alert",
"no data",
"warn"
],
"notify_end_types": [
"canceled",
"expired"
],
"parent_id": 123,
"recurrence": {
"period": 1,
"rrule": "FREQ=MONTHLY;BYSETPOS=3;BYDAY=WE;INTERVAL=1",
"type": "weeks",
"until_date": 1447786293,
"until_occurrences": 2,
"week_days": [
"Mon",
"Tue"
]
},
"scope": [
"env:staging"
],
"start": 1412792983,
"timezone": "America/New_York",
"updater_id": 123456
}
Bad Request
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 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}/downtimes" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get active downtimes for a monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v1.api.downtimes_api import DowntimesApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.list_monitor_downtimes(
monitor_id=9223372036854775807,
)
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 active downtimes for a monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V1::DowntimesAPI.new
p api_instance.list_monitor_downtimes(9223372036854775807)
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 active downtimes for 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() {
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV1.NewDowntimesApi(apiClient)
resp, r, err := api.ListMonitorDowntimes(ctx, 9223372036854775807)
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.ListMonitorDowntimes`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.ListMonitorDowntimes`:\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 active downtimes for a monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v1.api.DowntimesApi;
import com.datadog.api.client.v1.model.Downtime;
import java.util.List;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
try {
List<Downtime> result = apiInstance.listMonitorDowntimes(9223372036854775807L);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#listMonitorDowntimes");
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 active downtimes for a monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV1::api_downtimes::DowntimesAPI;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api.list_monitor_downtimes(9223372036854775807).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 active downtimes for a monitor returns "OK" response
*/
import { client, v1 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v1.DowntimesApi(configuration);
const params: v1.DowntimesApiListMonitorDowntimesRequest = {
monitorId: 9223372036854775807,
};
apiInstance
.listMonitorDowntimes(params)
.then((data: v1.Downtime[]) => {
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/{monitor_id}/downtime_matcheshttps://api.datadoghq.eu/api/v2/monitor/{monitor_id}/downtime_matcheshttps://api.ddog-gov.com/api/v2/monitor/{monitor_id}/downtime_matcheshttps://api.datadoghq.com/api/v2/monitor/{monitor_id}/downtime_matcheshttps://api.us3.datadoghq.com/api/v2/monitor/{monitor_id}/downtime_matcheshttps://api.us5.datadoghq.com/api/v2/monitor/{monitor_id}/downtime_matches
Get all active downtimes for the specified monitor.
This endpoint requires the monitors_downtime
authorization scope.
이름
유형
설명
monitor_id [required]
integer
The id of the monitor.
이름
유형
설명
page[offset]
integer
Specific offset to use as the beginning of the returned page.
page[limit]
integer
Maximum number of downtimes in the response.
OK
Response for retrieving all downtime matches for a monitor.
항목
유형
설명
data
[object]
An array of downtime matches.
attributes
object
Downtime match details.
end
date-time
The end of the downtime.
groups
[string]
An array of groups associated with the downtime.
start
date-time
The start of the downtime.
id
string
The downtime ID.
type
enum
Monitor Downtime Match resource type.
Allowed enum values: downtime_match
default: downtime_match
meta
object
Pagination metadata returned by the API.
page
object
Object containing the total filtered count.
total_filtered_count
int64
Total count of elements matched by the filter.
{
"data": [
{
"attributes": {
"end": "2020-01-02T03:04:00.000Z",
"groups": [
"service:postgres",
"team:frontend"
],
"scope": "env:(staging OR prod) AND datacenter:us-east-1",
"start": "2020-01-02T03:04:00.000Z"
},
"id": "00000000-0000-1234-0000-000000000000",
"type": "downtime_match"
}
],
"meta": {
"page": {
"total_filtered_count": "integer"
}
}
}
Monitor Not Found error
API error response.
{
"errors": [
"Bad Request"
]
}
Too many requests
API error response.
{
"errors": [
"Bad Request"
]
}
# Path parameters
export monitor_id="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/v2/monitor/${monitor_id}/downtime_matches" \
-H "Accept: application/json" \
-H "DD-API-KEY: ${DD_API_KEY}" \
-H "DD-APPLICATION-KEY: ${DD_APP_KEY}"
"""
Get active downtimes for a monitor returns "OK" response
"""
from datadog_api_client import ApiClient, Configuration
from datadog_api_client.v2.api.downtimes_api import DowntimesApi
configuration = Configuration()
with ApiClient(configuration) as api_client:
api_instance = DowntimesApi(api_client)
response = api_instance.list_monitor_downtimes(
monitor_id=35534610,
)
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 active downtimes for a monitor returns "OK" response
require "datadog_api_client"
api_instance = DatadogAPIClient::V2::DowntimesAPI.new
p api_instance.list_monitor_downtimes(35534610)
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 active downtimes for 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/datadogV2"
)
func main() {
ctx := datadog.NewDefaultContext(context.Background())
configuration := datadog.NewConfiguration()
apiClient := datadog.NewAPIClient(configuration)
api := datadogV2.NewDowntimesApi(apiClient)
resp, r, err := api.ListMonitorDowntimes(ctx, 35534610, *datadogV2.NewListMonitorDowntimesOptionalParameters())
if err != nil {
fmt.Fprintf(os.Stderr, "Error when calling `DowntimesApi.ListMonitorDowntimes`: %v\n", err)
fmt.Fprintf(os.Stderr, "Full HTTP response: %v\n", r)
}
responseContent, _ := json.MarshalIndent(resp, "", " ")
fmt.Fprintf(os.Stdout, "Response from `DowntimesApi.ListMonitorDowntimes`:\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 active downtimes for a monitor returns "OK" response
import com.datadog.api.client.ApiClient;
import com.datadog.api.client.ApiException;
import com.datadog.api.client.v2.api.DowntimesApi;
import com.datadog.api.client.v2.model.MonitorDowntimeMatchResponse;
public class Example {
public static void main(String[] args) {
ApiClient defaultClient = ApiClient.getDefaultApiClient();
DowntimesApi apiInstance = new DowntimesApi(defaultClient);
try {
MonitorDowntimeMatchResponse result = apiInstance.listMonitorDowntimes(35534610L);
System.out.println(result);
} catch (ApiException e) {
System.err.println("Exception when calling DowntimesApi#listMonitorDowntimes");
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 active downtimes for a monitor returns "OK" response
use datadog_api_client::datadog;
use datadog_api_client::datadogV2::api_downtimes::DowntimesAPI;
use datadog_api_client::datadogV2::api_downtimes::ListMonitorDowntimesOptionalParams;
#[tokio::main]
async fn main() {
let configuration = datadog::Configuration::new();
let api = DowntimesAPI::with_config(configuration);
let resp = api
.list_monitor_downtimes(35534610, ListMonitorDowntimesOptionalParams::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 active downtimes for a monitor returns "OK" response
*/
import { client, v2 } from "@datadog/datadog-api-client";
const configuration = client.createConfiguration();
const apiInstance = new v2.DowntimesApi(configuration);
const params: v2.DowntimesApiListMonitorDowntimesRequest = {
monitorId: 35534610,
};
apiInstance
.listMonitorDowntimes(params)
.then((data: v2.MonitorDowntimeMatchResponse) => {
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"