Retrieves the reservation utilization for your account. Management account in an organization have access to member accounts. You can filter data by dimensions in a time period. You can use GetDimensionValues
to determine the possible dimension values. Currently, you can group only by SUBSCRIPTION_ID
.
See also: AWS API Documentation
get-reservation-utilization
--time-period <value>
[--group-by <value>]
[--granularity <value>]
[--filter <value>]
[--sort-by <value>]
[--next-page-token <value>]
[--max-results <value>]
[--cli-input-json | --cli-input-yaml]
[--generate-cli-skeleton <value>]
[--debug]
[--endpoint-url <value>]
[--no-verify-ssl]
[--no-paginate]
[--output <value>]
[--query <value>]
[--profile <value>]
[--region <value>]
[--version <value>]
[--color <value>]
[--no-sign-request]
[--ca-bundle <value>]
[--cli-read-timeout <value>]
[--cli-connect-timeout <value>]
[--cli-binary-format <value>]
[--no-cli-pager]
[--cli-auto-prompt]
[--no-cli-auto-prompt]
--time-period
(structure)
Sets the start and end dates for retrieving Reserved Instance (RI) utilization. The start date is inclusive, but the end date is exclusive. For example, if
start
is2017-01-01
andend
is2017-05-01
, then the cost and usage data is retrieved from2017-01-01
up to and including2017-04-30
but not including2017-05-01
.Start -> (string)
The beginning of the time period. The start date is inclusive. For example, if
start
is2017-01-01
, Amazon Web Services retrieves cost and usage data starting at2017-01-01
up to the end date. The start date must be equal to or no later than the current date to avoid a validation error.End -> (string)
The end of the time period. The end date is exclusive. For example, if
end
is2017-05-01
, Amazon Web Services retrieves cost and usage data from the start date up to, but not including,2017-05-01
.
Shorthand Syntax:
Start=string,End=string
JSON Syntax:
{
"Start": "string",
"End": "string"
}
--group-by
(list)
Groups only by
SUBSCRIPTION_ID
. Metadata is included.(structure)
Represents a group when you specify a group by criteria or in the response to a query with a specific grouping.
Type -> (string)
The string that represents the type of group.
Key -> (string)
The string that represents a key for a specified group.
Shorthand Syntax:
Type=string,Key=string ...
JSON Syntax:
[
{
"Type": "DIMENSION"|"TAG"|"COST_CATEGORY",
"Key": "string"
}
...
]
--granularity
(string)
If
GroupBy
is set,Granularity
can’t be set. IfGranularity
isn’t set, the response object doesn’t includeGranularity
, eitherMONTHLY
orDAILY
. If bothGroupBy
andGranularity
aren’t set,GetReservationUtilization
defaults toDAILY
.The
GetReservationUtilization
operation supports onlyDAILY
andMONTHLY
granularities.Possible values:
DAILY
MONTHLY
HOURLY
--filter
(structure)
Filters utilization data by dimensions. You can filter by the following dimensions:
AZ
CACHE_ENGINE
DEPLOYMENT_OPTION
INSTANCE_TYPE
LINKED_ACCOUNT
OPERATING_SYSTEM
PLATFORM
REGION
SERVICE
SCOPE
TENANCY
GetReservationUtilization
uses the same Expression object as the other operations, but onlyAND
is supported among each dimension, and nesting is supported up to only one level deep. If there are multiple values for a dimension, they are OR’d together.Or -> (list)
Return results that match either
Dimension
object.(structure)
Use
Expression
to filter by cost or by usage. There are two patterns:
Simple dimension values - You can set the dimension name and values for the filters that you plan to use. For example, you can filter for
REGION==us-east-1 OR REGION==us-west-1
. ForGetRightsizingRecommendation
, the Region is a full name (for example,REGION==US East (N. Virginia)
. TheExpression
example is as follows:{ "Dimensions": { "Key": "REGION", "Values": [ "us-east-1", “us-west-1” ] } }
The list of dimension values are OR’d together to retrieve cost or usage data. You can createExpression
andDimensionValues
objects using eitherwith*
methods orset*
methods in multiple lines.Compound dimension values with logical operations - You can use multiple
Expression
types and the logical operatorsAND/OR/NOT
to create a list of one or moreExpression
objects. By doing this, you can filter on more advanced options. For example, you can filter on((REGION == us-east-1 OR REGION == us-west-1) OR (TAG.Type == Type1)) AND (USAGE_TYPE != DataTransfer)
. TheExpression
for that is as follows:{ "And": [ {"Or": [ {"Dimensions": { "Key": "REGION", "Values": [ "us-east-1", "us-west-1" ] }}, {"Tags": { "Key": "TagName", "Values": ["Value1"] } } ]}, {"Not": {"Dimensions": { "Key": "USAGE_TYPE", "Values": ["DataTransfer"] }}} ] }
Note
Because each
Expression
can have only one operator, the service returns an error if more than one is specified. The following example shows anExpression
object that creates an error.
{ "And": [ ... ], "DimensionValues": { "Dimension": "USAGE_TYPE", "Values": [ "DataTransfer" ] } }
Note
For the
GetRightsizingRecommendation
action, a combination of OR and NOT isn’t supported. OR isn’t supported between different dimensions, or dimensions and tags. NOT operators aren’t supported. Dimensions are also limited toLINKED_ACCOUNT
,REGION
, orRIGHTSIZING_TYPE
.For the
GetReservationPurchaseRecommendation
action, only NOT is supported. AND and OR aren’t supported. Dimensions are limited toLINKED_ACCOUNT
.Or -> (list)
Return results that match either
Dimension
object.( … recursive … )
And -> (list)
Return results that match both
Dimension
objects.( … recursive … )
( … recursive … )Dimensions -> (structure)
The specific
Dimension
to use forExpression
.Key -> (string)
The names of the metadata types that you can use to filter and group your results. For example,
AZ
returns a list of Availability Zones.LINK_ACCOUNT_NAME
andSERVICE_CODE
can only be used in CostCategoryRule .Values -> (list)
The metadata values that you can use to filter and group your results. You can use
GetDimensionValues
to find specific values.(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
Tags -> (structure)
The specific
Tag
to use forExpression
.Key -> (string)
The key for the tag.
Values -> (list)
The specific value of the tag.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
CostCategories -> (structure)
The filter that’s based on
CostCategory
values.Key -> (string)
The unique name of the Cost Category.
Values -> (list)
The specific value of the Cost Category.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results. MatchOptions is only applicable for actions related to cost category. The default values for
MatchOptions
isEQUALS
andCASE_SENSITIVE
.(string)
And -> (list)
Return results that match both
Dimension
objects.(structure)
Use
Expression
to filter by cost or by usage. There are two patterns:
Simple dimension values - You can set the dimension name and values for the filters that you plan to use. For example, you can filter for
REGION==us-east-1 OR REGION==us-west-1
. ForGetRightsizingRecommendation
, the Region is a full name (for example,REGION==US East (N. Virginia)
. TheExpression
example is as follows:{ "Dimensions": { "Key": "REGION", "Values": [ "us-east-1", “us-west-1” ] } }
The list of dimension values are OR’d together to retrieve cost or usage data. You can createExpression
andDimensionValues
objects using eitherwith*
methods orset*
methods in multiple lines.Compound dimension values with logical operations - You can use multiple
Expression
types and the logical operatorsAND/OR/NOT
to create a list of one or moreExpression
objects. By doing this, you can filter on more advanced options. For example, you can filter on((REGION == us-east-1 OR REGION == us-west-1) OR (TAG.Type == Type1)) AND (USAGE_TYPE != DataTransfer)
. TheExpression
for that is as follows:{ "And": [ {"Or": [ {"Dimensions": { "Key": "REGION", "Values": [ "us-east-1", "us-west-1" ] }}, {"Tags": { "Key": "TagName", "Values": ["Value1"] } } ]}, {"Not": {"Dimensions": { "Key": "USAGE_TYPE", "Values": ["DataTransfer"] }}} ] }
Note
Because each
Expression
can have only one operator, the service returns an error if more than one is specified. The following example shows anExpression
object that creates an error.
{ "And": [ ... ], "DimensionValues": { "Dimension": "USAGE_TYPE", "Values": [ "DataTransfer" ] } }
Note
For the
GetRightsizingRecommendation
action, a combination of OR and NOT isn’t supported. OR isn’t supported between different dimensions, or dimensions and tags. NOT operators aren’t supported. Dimensions are also limited toLINKED_ACCOUNT
,REGION
, orRIGHTSIZING_TYPE
.For the
GetReservationPurchaseRecommendation
action, only NOT is supported. AND and OR aren’t supported. Dimensions are limited toLINKED_ACCOUNT
.Or -> (list)
Return results that match either
Dimension
object.( … recursive … )
And -> (list)
Return results that match both
Dimension
objects.( … recursive … )
( … recursive … )Dimensions -> (structure)
The specific
Dimension
to use forExpression
.Key -> (string)
The names of the metadata types that you can use to filter and group your results. For example,
AZ
returns a list of Availability Zones.LINK_ACCOUNT_NAME
andSERVICE_CODE
can only be used in CostCategoryRule .Values -> (list)
The metadata values that you can use to filter and group your results. You can use
GetDimensionValues
to find specific values.(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
Tags -> (structure)
The specific
Tag
to use forExpression
.Key -> (string)
The key for the tag.
Values -> (list)
The specific value of the tag.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
CostCategories -> (structure)
The filter that’s based on
CostCategory
values.Key -> (string)
The unique name of the Cost Category.
Values -> (list)
The specific value of the Cost Category.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results. MatchOptions is only applicable for actions related to cost category. The default values for
MatchOptions
isEQUALS
andCASE_SENSITIVE
.(string)
Not -> (structure)
Return results that don’t match a
Dimension
object.Or -> (list)
Return results that match either
Dimension
object.( … recursive … )
And -> (list)
Return results that match both
Dimension
objects.( … recursive … )
( … recursive … )Dimensions -> (structure)
The specific
Dimension
to use forExpression
.Key -> (string)
The names of the metadata types that you can use to filter and group your results. For example,
AZ
returns a list of Availability Zones.LINK_ACCOUNT_NAME
andSERVICE_CODE
can only be used in CostCategoryRule .Values -> (list)
The metadata values that you can use to filter and group your results. You can use
GetDimensionValues
to find specific values.(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
Tags -> (structure)
The specific
Tag
to use forExpression
.Key -> (string)
The key for the tag.
Values -> (list)
The specific value of the tag.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
CostCategories -> (structure)
The filter that’s based on
CostCategory
values.Key -> (string)
The unique name of the Cost Category.
Values -> (list)
The specific value of the Cost Category.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results. MatchOptions is only applicable for actions related to cost category. The default values for
MatchOptions
isEQUALS
andCASE_SENSITIVE
.(string)
Dimensions -> (structure)
The specific
Dimension
to use forExpression
.Key -> (string)
The names of the metadata types that you can use to filter and group your results. For example,
AZ
returns a list of Availability Zones.LINK_ACCOUNT_NAME
andSERVICE_CODE
can only be used in CostCategoryRule .Values -> (list)
The metadata values that you can use to filter and group your results. You can use
GetDimensionValues
to find specific values.(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
Tags -> (structure)
The specific
Tag
to use forExpression
.Key -> (string)
The key for the tag.
Values -> (list)
The specific value of the tag.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results.
MatchOptions
is only applicable for actions related to Cost Category. The default values forMatchOptions
areEQUALS
andCASE_SENSITIVE
.(string)
CostCategories -> (structure)
The filter that’s based on
CostCategory
values.Key -> (string)
The unique name of the Cost Category.
Values -> (list)
The specific value of the Cost Category.
(string)
MatchOptions -> (list)
The match options that you can use to filter your results. MatchOptions is only applicable for actions related to cost category. The default values for
MatchOptions
isEQUALS
andCASE_SENSITIVE
.(string)
JSON Syntax:
{
"Or": [
{
"Or": [
{ ... recursive ... }
...
],
"And": [
{ ... recursive ... }
...
],
"Not": { ... recursive ... },
"Dimensions": {
"Key": "AZ"|"INSTANCE_TYPE"|"LINKED_ACCOUNT"|"LINKED_ACCOUNT_NAME"|"OPERATION"|"PURCHASE_TYPE"|"REGION"|"SERVICE"|"SERVICE_CODE"|"USAGE_TYPE"|"USAGE_TYPE_GROUP"|"RECORD_TYPE"|"OPERATING_SYSTEM"|"TENANCY"|"SCOPE"|"PLATFORM"|"SUBSCRIPTION_ID"|"LEGAL_ENTITY_NAME"|"DEPLOYMENT_OPTION"|"DATABASE_ENGINE"|"CACHE_ENGINE"|"INSTANCE_TYPE_FAMILY"|"BILLING_ENTITY"|"RESERVATION_ID"|"RESOURCE_ID"|"RIGHTSIZING_TYPE"|"SAVINGS_PLANS_TYPE"|"SAVINGS_PLAN_ARN"|"PAYMENT_OPTION"|"AGREEMENT_END_DATE_TIME_AFTER"|"AGREEMENT_END_DATE_TIME_BEFORE"|"INVOICING_ENTITY",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"Tags": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"CostCategories": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
}
}
...
],
"And": [
{
"Or": [
{ ... recursive ... }
...
],
"And": [
{ ... recursive ... }
...
],
"Not": { ... recursive ... },
"Dimensions": {
"Key": "AZ"|"INSTANCE_TYPE"|"LINKED_ACCOUNT"|"LINKED_ACCOUNT_NAME"|"OPERATION"|"PURCHASE_TYPE"|"REGION"|"SERVICE"|"SERVICE_CODE"|"USAGE_TYPE"|"USAGE_TYPE_GROUP"|"RECORD_TYPE"|"OPERATING_SYSTEM"|"TENANCY"|"SCOPE"|"PLATFORM"|"SUBSCRIPTION_ID"|"LEGAL_ENTITY_NAME"|"DEPLOYMENT_OPTION"|"DATABASE_ENGINE"|"CACHE_ENGINE"|"INSTANCE_TYPE_FAMILY"|"BILLING_ENTITY"|"RESERVATION_ID"|"RESOURCE_ID"|"RIGHTSIZING_TYPE"|"SAVINGS_PLANS_TYPE"|"SAVINGS_PLAN_ARN"|"PAYMENT_OPTION"|"AGREEMENT_END_DATE_TIME_AFTER"|"AGREEMENT_END_DATE_TIME_BEFORE"|"INVOICING_ENTITY",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"Tags": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"CostCategories": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
}
}
...
],
"Not": {
"Or": [
{ ... recursive ... }
...
],
"And": [
{ ... recursive ... }
...
],
"Not": { ... recursive ... },
"Dimensions": {
"Key": "AZ"|"INSTANCE_TYPE"|"LINKED_ACCOUNT"|"LINKED_ACCOUNT_NAME"|"OPERATION"|"PURCHASE_TYPE"|"REGION"|"SERVICE"|"SERVICE_CODE"|"USAGE_TYPE"|"USAGE_TYPE_GROUP"|"RECORD_TYPE"|"OPERATING_SYSTEM"|"TENANCY"|"SCOPE"|"PLATFORM"|"SUBSCRIPTION_ID"|"LEGAL_ENTITY_NAME"|"DEPLOYMENT_OPTION"|"DATABASE_ENGINE"|"CACHE_ENGINE"|"INSTANCE_TYPE_FAMILY"|"BILLING_ENTITY"|"RESERVATION_ID"|"RESOURCE_ID"|"RIGHTSIZING_TYPE"|"SAVINGS_PLANS_TYPE"|"SAVINGS_PLAN_ARN"|"PAYMENT_OPTION"|"AGREEMENT_END_DATE_TIME_AFTER"|"AGREEMENT_END_DATE_TIME_BEFORE"|"INVOICING_ENTITY",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"Tags": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"CostCategories": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
}
},
"Dimensions": {
"Key": "AZ"|"INSTANCE_TYPE"|"LINKED_ACCOUNT"|"LINKED_ACCOUNT_NAME"|"OPERATION"|"PURCHASE_TYPE"|"REGION"|"SERVICE"|"SERVICE_CODE"|"USAGE_TYPE"|"USAGE_TYPE_GROUP"|"RECORD_TYPE"|"OPERATING_SYSTEM"|"TENANCY"|"SCOPE"|"PLATFORM"|"SUBSCRIPTION_ID"|"LEGAL_ENTITY_NAME"|"DEPLOYMENT_OPTION"|"DATABASE_ENGINE"|"CACHE_ENGINE"|"INSTANCE_TYPE_FAMILY"|"BILLING_ENTITY"|"RESERVATION_ID"|"RESOURCE_ID"|"RIGHTSIZING_TYPE"|"SAVINGS_PLANS_TYPE"|"SAVINGS_PLAN_ARN"|"PAYMENT_OPTION"|"AGREEMENT_END_DATE_TIME_AFTER"|"AGREEMENT_END_DATE_TIME_BEFORE"|"INVOICING_ENTITY",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"Tags": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
},
"CostCategories": {
"Key": "string",
"Values": ["string", ...],
"MatchOptions": ["EQUALS"|"ABSENT"|"STARTS_WITH"|"ENDS_WITH"|"CONTAINS"|"CASE_SENSITIVE"|"CASE_INSENSITIVE", ...]
}
}
--sort-by
(structure)
The value that you want to sort the data by.
The following values are supported for
Key
:
UtilizationPercentage
UtilizationPercentageInUnits
PurchasedHours
PurchasedUnits
TotalActualHours
TotalActualUnits
UnusedHours
UnusedUnits
OnDemandCostOfRIHoursUsed
NetRISavings
TotalPotentialRISavings
AmortizedUpfrontFee
AmortizedRecurringFee
TotalAmortizedFee
RICostForUnusedHours
RealizedSavings
UnrealizedSavings
The supported values for
SortOrder
areASCENDING
andDESCENDING
.Key -> (string)
The key that’s used to sort the data.
SortOrder -> (string)
The order that’s used to sort the data.
Shorthand Syntax:
Key=string,SortOrder=string
JSON Syntax:
{
"Key": "string",
"SortOrder": "ASCENDING"|"DESCENDING"
}
--next-page-token
(string)
The token to retrieve the next set of results. Amazon Web Services provides the token when the response from a previous call has more results than the maximum page size.
--max-results
(integer)
The maximum number of objects that you returned for this request. If more objects are available, in the response, Amazon Web Services provides a NextPageToken value that you can use in a subsequent call to get the next batch of objects.
--cli-input-json
| --cli-input-yaml
(string)
Reads arguments from the JSON string provided. The JSON string follows the format provided by --generate-cli-skeleton
. If other arguments are provided on the command line, those values will override the JSON-provided values. It is not possible to pass arbitrary binary values using a JSON-provided value as the string will be taken literally. This may not be specified along with --cli-input-yaml
.
--generate-cli-skeleton
(string)
Prints a JSON skeleton to standard output without sending an API request. If provided with no value or the value input
, prints a sample input JSON that can be used as an argument for --cli-input-json
. Similarly, if provided yaml-input
it will print a sample input YAML that can be used with --cli-input-yaml
. If provided with the value output
, it validates the command inputs and returns a sample output JSON for that command. The generated JSON skeleton is not stable between versions of the AWS CLI and there are no backwards compatibility guarantees in the JSON skeleton generated.
--debug
(boolean)
Turn on debug logging.
--endpoint-url
(string)
Override command’s default URL with the given URL.
--no-verify-ssl
(boolean)
By default, the AWS CLI uses SSL when communicating with AWS services. For each SSL connection, the AWS CLI will verify SSL certificates. This option overrides the default behavior of verifying SSL certificates.
--no-paginate
(boolean)
Disable automatic pagination.
--output
(string)
The formatting style for command output.
json
text
table
yaml
yaml-stream
--query
(string)
A JMESPath query to use in filtering the response data.
--profile
(string)
Use a specific profile from your credential file.
--region
(string)
The region to use. Overrides config/env settings.
--version
(string)
Display the version of this tool.
--color
(string)
Turn on/off color output.
on
off
auto
--no-sign-request
(boolean)
Do not sign requests. Credentials will not be loaded if this argument is provided.
--ca-bundle
(string)
The CA certificate bundle to use when verifying SSL certificates. Overrides config/env settings.
--cli-read-timeout
(int)
The maximum socket read time in seconds. If the value is set to 0, the socket read will be blocking and not timeout. The default value is 60 seconds.
--cli-connect-timeout
(int)
The maximum socket connect time in seconds. If the value is set to 0, the socket connect will be blocking and not timeout. The default value is 60 seconds.
--cli-binary-format
(string)
The formatting style to be used for binary blobs. The default format is base64. The base64 format expects binary blobs to be provided as a base64 encoded string. The raw-in-base64-out format preserves compatibility with AWS CLI V1 behavior and binary values must be passed literally. When providing contents from a file that map to a binary blob fileb://
will always be treated as binary and use the file contents directly regardless of the cli-binary-format
setting. When using file://
the file contents will need to properly formatted for the configured cli-binary-format
.
base64
raw-in-base64-out
--no-cli-pager
(boolean)
Disable cli pager for output.
--cli-auto-prompt
(boolean)
Automatically prompt for CLI input parameters.
--no-cli-auto-prompt
(boolean)
Disable automatically prompt for CLI input parameters.
Note
To use the following examples, you must have the AWS CLI installed and configured. See the Getting started guide in the AWS CLI User Guide for more information.
Unless otherwise stated, all examples have unix-like quotation rules. These examples will need to be adapted to your terminal’s quoting rules. See Using quotation marks with strings in the AWS CLI User Guide .
To retrieve the reservation utilization for your account
The following get-reservation-utilization
example retrieves the RI utilization for all t2.nano instance types from 2018-03-01 to 2018-08-01 for the account.
aws ce get-reservation-utilization \
--time-period Start=2018-03-01,End=2018-08-01 \
--filter file://filters.json
Contents of filters.json
:
{
"Dimensions": {
"Key": "INSTANCE_TYPE",
"Values": [
"t2.nano"
]
}
}
Output:
{
"Total": {
"TotalAmortizedFee": "0",
"UtilizationPercentage": "0",
"PurchasedHours": "0",
"NetRISavings": "0",
"TotalActualHours": "0",
"AmortizedRecurringFee": "0",
"UnusedHours": "0",
"TotalPotentialRISavings": "0",
"OnDemandCostOfRIHoursUsed": "0",
"AmortizedUpfrontFee": "0"
},
"UtilizationsByTime": []
}
UtilizationsByTime -> (list)
The amount of time that you used your Reserved Instances (RIs).
(structure)
The amount of utilization, in hours.
TimePeriod -> (structure)
The period of time that this utilization was used for.
Start -> (string)
The beginning of the time period. The start date is inclusive. For example, if
start
is2017-01-01
, Amazon Web Services retrieves cost and usage data starting at2017-01-01
up to the end date. The start date must be equal to or no later than the current date to avoid a validation error.End -> (string)
The end of the time period. The end date is exclusive. For example, if
end
is2017-05-01
, Amazon Web Services retrieves cost and usage data from the start date up to, but not including,2017-05-01
.Groups -> (list)
The groups that this utilization result uses.
(structure)
A group of reservations that share a set of attributes.
Key -> (string)
The key for a specific reservation attribute.
Value -> (string)
The value of a specific reservation attribute.
Attributes -> (map)
The attributes for this group of reservations.
key -> (string)
value -> (string)
Utilization -> (structure)
How much you used this group of reservations.
UtilizationPercentage -> (string)
The percentage of reservation time that you used.
UtilizationPercentageInUnits -> (string)
The percentage of Amazon EC2 reservation time that you used. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
PurchasedHours -> (string)
How many reservation hours that you purchased.
PurchasedUnits -> (string)
The number of Amazon EC2 reservation hours that you purchased. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
TotalActualHours -> (string)
The total number of reservation hours that you used.
TotalActualUnits -> (string)
The total number of Amazon EC2 reservation hours that you used. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
UnusedHours -> (string)
The number of reservation hours that you didn’t use.
UnusedUnits -> (string)
The number of Amazon EC2 reservation hours that you didn’t use. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
OnDemandCostOfRIHoursUsed -> (string)
How much your reservation costs if charged On-Demand rates.
NetRISavings -> (string)
How much you saved due to purchasing and utilizing reservation. Amazon Web Services calculates this by subtracting
TotalAmortizedFee
fromOnDemandCostOfRIHoursUsed
.TotalPotentialRISavings -> (string)
How much you might save if you use your entire reservation.
AmortizedUpfrontFee -> (string)
The upfront cost of your reservation. It’s amortized over the reservation period.
AmortizedRecurringFee -> (string)
The monthly cost of your reservation. It’s amortized over the reservation period.
TotalAmortizedFee -> (string)
The total cost of your reservation. It’s amortized over the reservation period.
RICostForUnusedHours -> (string)
The cost of unused hours for your reservation.
RealizedSavings -> (string)
The realized savings because of purchasing and using a reservation.
UnrealizedSavings -> (string)
The unrealized savings because of purchasing and using a reservation.
Total -> (structure)
The total number of reservation hours that were used.
UtilizationPercentage -> (string)
The percentage of reservation time that you used.
UtilizationPercentageInUnits -> (string)
The percentage of Amazon EC2 reservation time that you used. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
PurchasedHours -> (string)
How many reservation hours that you purchased.
PurchasedUnits -> (string)
The number of Amazon EC2 reservation hours that you purchased. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
TotalActualHours -> (string)
The total number of reservation hours that you used.
TotalActualUnits -> (string)
The total number of Amazon EC2 reservation hours that you used. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
UnusedHours -> (string)
The number of reservation hours that you didn’t use.
UnusedUnits -> (string)
The number of Amazon EC2 reservation hours that you didn’t use. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
OnDemandCostOfRIHoursUsed -> (string)
How much your reservation costs if charged On-Demand rates.
NetRISavings -> (string)
How much you saved due to purchasing and utilizing reservation. Amazon Web Services calculates this by subtracting
TotalAmortizedFee
fromOnDemandCostOfRIHoursUsed
.TotalPotentialRISavings -> (string)
How much you might save if you use your entire reservation.
AmortizedUpfrontFee -> (string)
The upfront cost of your reservation. It’s amortized over the reservation period.
AmortizedRecurringFee -> (string)
The monthly cost of your reservation. It’s amortized over the reservation period.
TotalAmortizedFee -> (string)
The total cost of your reservation. It’s amortized over the reservation period.
RICostForUnusedHours -> (string)
The cost of unused hours for your reservation.
RealizedSavings -> (string)
The realized savings because of purchasing and using a reservation.
UnrealizedSavings -> (string)
The unrealized savings because of purchasing and using a reservation.
Total -> (structure)
The total amount of time that you used your Reserved Instances (RIs).
UtilizationPercentage -> (string)
The percentage of reservation time that you used.
UtilizationPercentageInUnits -> (string)
The percentage of Amazon EC2 reservation time that you used. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
PurchasedHours -> (string)
How many reservation hours that you purchased.
PurchasedUnits -> (string)
The number of Amazon EC2 reservation hours that you purchased. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
TotalActualHours -> (string)
The total number of reservation hours that you used.
TotalActualUnits -> (string)
The total number of Amazon EC2 reservation hours that you used. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
UnusedHours -> (string)
The number of reservation hours that you didn’t use.
UnusedUnits -> (string)
The number of Amazon EC2 reservation hours that you didn’t use. It’s converted to normalized units. Normalized units are available only for Amazon EC2 usage after November 11, 2017.
OnDemandCostOfRIHoursUsed -> (string)
How much your reservation costs if charged On-Demand rates.
NetRISavings -> (string)
How much you saved due to purchasing and utilizing reservation. Amazon Web Services calculates this by subtracting
TotalAmortizedFee
fromOnDemandCostOfRIHoursUsed
.TotalPotentialRISavings -> (string)
How much you might save if you use your entire reservation.
AmortizedUpfrontFee -> (string)
The upfront cost of your reservation. It’s amortized over the reservation period.
AmortizedRecurringFee -> (string)
The monthly cost of your reservation. It’s amortized over the reservation period.
TotalAmortizedFee -> (string)
The total cost of your reservation. It’s amortized over the reservation period.
RICostForUnusedHours -> (string)
The cost of unused hours for your reservation.
RealizedSavings -> (string)
The realized savings because of purchasing and using a reservation.
UnrealizedSavings -> (string)
The unrealized savings because of purchasing and using a reservation.
NextPageToken -> (string)
The token for the next set of retrievable results. Amazon Web Services provides the token when the response from a previous call has more results than the maximum page size.