[ aws . autoscaling ]
Gets information about the instance refreshes for the specified Auto Scaling group from the previous six weeks.
This operation is part of the instance refresh feature in Amazon EC2 Auto Scaling, which helps you update instances in your Auto Scaling group after you make configuration changes.
To help you determine the status of an instance refresh, Amazon EC2 Auto Scaling returns information about the instance refreshes you previously initiated, including their status, start time, end time, the percentage of the instance refresh that is complete, and the number of instances remaining to update before the instance refresh is complete. If a rollback is initiated while an instance refresh is in progress, Amazon EC2 Auto Scaling also returns information about the rollback of the instance refresh.
See also: AWS API Documentation
describe-instance-refreshes
--auto-scaling-group-name <value>
[--instance-refresh-ids <value>]
[--next-token <value>]
[--max-records <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]
--auto-scaling-group-name
(string)
The name of the Auto Scaling group.
--instance-refresh-ids
(list)
One or more instance refresh IDs.
(string)
Syntax:
"string" "string" ...
--next-token
(string)
The token for the next set of items to return. (You received this token from a previous call.)
--max-records
(integer)
The maximum number of items to return with this call. The default value is50
and the maximum value is100
.
--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. If automatic pagination is disabled, the AWS CLI will only make one call, for the first page of results.
--output
(string)
The formatting style for command output.
--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.
--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
.
--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.
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 describe instance refreshes
The following describe-instance-refreshes
example returns a description of all instance refresh requests for the specified Auto Scaling group, including the status message and (if available) the status reason.
aws autoscaling describe-instance-refreshes \
--auto-scaling-group-name my-asg
Output:
{
"InstanceRefreshes": [
{
"InstanceRefreshId": "08b91cf7-8fa6-48af-b6a6-d227f40f1b9b",
"AutoScalingGroupName": "my-asg",
"Status": "InProgress",
"StatusReason": "Waiting for instances to warm up before continuing. For example: 0e69cc3f05f825f4f is warming up.",
"EndTime": "2023-03-23T16:42:55Z",
"PercentageComplete": 0,
"InstancesToUpdate": 0,
"Preferences": {
"MinHealthyPercentage": 100,
"InstanceWarmup": 300,
"CheckpointPercentages": [
50
],
"CheckpointDelay": 3600,
"SkipMatching": false,
"AutoRollback": true,
"ScaleInProtectedInstances": "Ignore",
"StandbyInstances": "Ignore"
}
},
{
"InstanceRefreshId": "dd7728d0-5bc4-4575-96a3-1b2c52bf8bb1",
"AutoScalingGroupName": "my-asg",
"Status": "Successful",
"EndTime": "2022-06-02T16:53:37Z",
"PercentageComplete": 100,
"InstancesToUpdate": 0,
"Preferences": {
"MinHealthyPercentage": 90,
"InstanceWarmup": 300,
"SkipMatching": true,
"AutoRollback": true,
"ScaleInProtectedInstances": "Ignore",
"StandbyInstances": "Ignore"
}
}
]
}
For more information, see Check the status of an instance refresh in the Amazon EC2 Auto Scaling User Guide.
InstanceRefreshes -> (list)
The instance refreshes for the specified group, sorted by creation timestamp in descending order.
(structure)
Describes an instance refresh for an Auto Scaling group.
InstanceRefreshId -> (string)
The instance refresh ID.AutoScalingGroupName -> (string)
The name of the Auto Scaling group.Status -> (string)
The current status for the instance refresh operation:
Pending
- The request was created, but the instance refresh has not started.InProgress
- An instance refresh is in progress.Successful
- An instance refresh completed successfully.Failed
- An instance refresh failed to complete. You can troubleshoot using the status reason and the scaling activities.Cancelling
- An ongoing instance refresh is being cancelled.Cancelled
- The instance refresh is cancelled.RollbackInProgress
- An instance refresh is being rolled back.RollbackFailed
- The rollback failed to complete. You can troubleshoot using the status reason and the scaling activities.RollbackSuccessful
- The rollback completed successfully.Baking
- Waiting the specified bake time after an instance refresh has finished updating instances.StatusReason -> (string)
The explanation for the specific status assigned to this operation.StartTime -> (timestamp)
The date and time at which the instance refresh began.EndTime -> (timestamp)
The date and time at which the instance refresh ended.PercentageComplete -> (integer)
The percentage of the instance refresh that is complete. For each instance replacement, Amazon EC2 Auto Scaling tracks the instance’s health status and warm-up time. When the instance’s health status changes to healthy and the specified warm-up time passes, the instance is considered updated and is added to the percentage complete.
Note
PercentageComplete
does not include instances that are replaced during a rollback. This value gradually goes back down to zero during a rollback.InstancesToUpdate -> (integer)
The number of instances remaining to update before the instance refresh is complete.
Note
If you roll back the instance refresh,InstancesToUpdate
shows you the number of instances that were not yet updated by the instance refresh. Therefore, these instances don’t need to be replaced as part of the rollback.ProgressDetails -> (structure)
Additional progress details for an Auto Scaling group that has a warm pool.
LivePoolProgress -> (structure)
Reports progress on replacing instances that are in the Auto Scaling group.
PercentageComplete -> (integer)
The percentage of instances in the Auto Scaling group that have been replaced. For each instance replacement, Amazon EC2 Auto Scaling tracks the instance’s health status and warm-up time. When the instance’s health status changes to healthy and the specified warm-up time passes, the instance is considered updated and is added to the percentage complete.InstancesToUpdate -> (integer)
The number of instances remaining to update.WarmPoolProgress -> (structure)
Reports progress on replacing instances that are in the warm pool.
PercentageComplete -> (integer)
The percentage of instances in the warm pool that have been replaced. For each instance replacement, Amazon EC2 Auto Scaling tracks the instance’s health status and warm-up time. When the instance’s health status changes to healthy and the specified warm-up time passes, the instance is considered updated and is added to the percentage complete.InstancesToUpdate -> (integer)
The number of instances remaining to update.Preferences -> (structure)
The preferences for an instance refresh.
MinHealthyPercentage -> (integer)
Specifies the minimum percentage of the group to keep in service, healthy, and ready to use to support your workload to allow the operation to continue. The value is expressed as a percentage of the desired capacity of the Auto Scaling group. Value range is 0 to 100.
If you do not specify this property, the default is 90 percent, or the percentage set in the instance maintenance policy for the Auto Scaling group, if defined.
InstanceWarmup -> (integer)
A time period, in seconds, during which an instance refresh waits before moving on to replacing the next instance after a new instance enters the
InService
state.This property is not required for normal usage. Instead, use the
DefaultInstanceWarmup
property of the Auto Scaling group. TheInstanceWarmup
andDefaultInstanceWarmup
properties work the same way. Only specify this property if you must override theDefaultInstanceWarmup
property.If you do not specify this property, the instance warmup by default is the value of the
DefaultInstanceWarmup
property, if defined (which is recommended in all cases), or theHealthCheckGracePeriod
property otherwise.CheckpointPercentages -> (list)
(Optional) Threshold values for each checkpoint in ascending order. Each number must be unique. To replace all instances in the Auto Scaling group, the last number in the array must be
100
.For usage examples, see Add checkpoints to an instance refresh in the Amazon EC2 Auto Scaling User Guide .
(integer)
CheckpointDelay -> (integer)
(Optional) The amount of time, in seconds, to wait after a checkpoint before continuing. This property is optional, but if you specify a value for it, you must also specify a value forCheckpointPercentages
. If you specify a value forCheckpointPercentages
and not forCheckpointDelay
, theCheckpointDelay
defaults to3600
(1 hour).SkipMatching -> (boolean)
(Optional) Indicates whether skip matching is enabled. If enabled (
true
), then Amazon EC2 Auto Scaling skips replacing instances that match the desired configuration. If no desired configuration is specified, then it skips replacing instances that have the same launch template and instance types that the Auto Scaling group was using before the start of the instance refresh. The default isfalse
.For more information, see Use an instance refresh with skip matching in the Amazon EC2 Auto Scaling User Guide .
AutoRollback -> (boolean)
(Optional) Indicates whether to roll back the Auto Scaling group to its previous configuration if the instance refresh fails or a CloudWatch alarm threshold is met. The default is
false
.A rollback is not supported in the following situations:
- There is no desired configuration specified for the instance refresh.
- The Auto Scaling group has a launch template that uses an Amazon Web Services Systems Manager parameter instead of an AMI ID for the
ImageId
property.- The Auto Scaling group uses the launch template’s
$Latest
or$Default
version.For more information, see Undo changes with a rollback in the Amazon EC2 Auto Scaling User Guide .
ScaleInProtectedInstances -> (string)
Choose the behavior that you want Amazon EC2 Auto Scaling to use if instances protected from scale in are found.
The following lists the valid values:
RefreshAmazon EC2 Auto Scaling replaces instances that are protected from scale in.
IgnoreAmazon EC2 Auto Scaling ignores instances that are protected from scale in and continues to replace instances that are not protected.
Wait (default)Amazon EC2 Auto Scaling waits one hour for you to remove scale-in protection. Otherwise, the instance refresh will fail.
StandbyInstances -> (string)
Choose the behavior that you want Amazon EC2 Auto Scaling to use if instances in
Standby
state are found.The following lists the valid values:
TerminateAmazon EC2 Auto Scaling terminates instances that are in
Standby
.IgnoreAmazon EC2 Auto Scaling ignores instances that are in
Standby
and continues to replace instances that are in theInService
state.Wait (default)Amazon EC2 Auto Scaling waits one hour for you to return the instances to service. Otherwise, the instance refresh will fail.
AlarmSpecification -> (structure)
(Optional) The CloudWatch alarm specification. CloudWatch alarms can be used to identify any issues and fail the operation if an alarm threshold is met.
Alarms -> (list)
The names of one or more CloudWatch alarms to monitor for the instance refresh. You can specify up to 10 alarms.
(string)
MaxHealthyPercentage -> (integer)
Specifies the maximum percentage of the group that can be in service and healthy, or pending, to support your workload when replacing instances. The value is expressed as a percentage of the desired capacity of the Auto Scaling group. Value range is 100 to 200.
If you specify
MaxHealthyPercentage
, you must also specifyMinHealthyPercentage
, and the difference between them cannot be greater than 100. A larger range increases the number of instances that can be replaced at the same time.If you do not specify this property, the default is 100 percent, or the percentage set in the instance maintenance policy for the Auto Scaling group, if defined.
BakeTime -> (integer)
The amount of time, in seconds, to wait at the end of an instance refresh before the instance refresh is considered complete.DesiredConfiguration -> (structure)
Describes the desired configuration for the instance refresh.
LaunchTemplate -> (structure)
Describes the launch template and the version of the launch template that Amazon EC2 Auto Scaling uses to launch Amazon EC2 instances. For more information about launch templates, see Launch templates in the Amazon EC2 Auto Scaling User Guide .
LaunchTemplateId -> (string)
The ID of the launch template. To get the template ID, use the Amazon EC2 DescribeLaunchTemplates API operation. New launch templates can be created using the Amazon EC2 CreateLaunchTemplate API.
Conditional: You must specify either a
LaunchTemplateId
or aLaunchTemplateName
.LaunchTemplateName -> (string)
The name of the launch template. To get the template name, use the Amazon EC2 DescribeLaunchTemplates API operation. New launch templates can be created using the Amazon EC2 CreateLaunchTemplate API.
Conditional: You must specify either a
LaunchTemplateId
or aLaunchTemplateName
.Version -> (string)
The version number,$Latest
, or$Default
. To get the version number, use the Amazon EC2 DescribeLaunchTemplateVersions API operation. New launch template versions can be created using the Amazon EC2 CreateLaunchTemplateVersion API. If the value is$Latest
, Amazon EC2 Auto Scaling selects the latest version of the launch template when launching instances. If the value is$Default
, Amazon EC2 Auto Scaling selects the default version of the launch template when launching instances. The default value is$Default
.MixedInstancesPolicy -> (structure)
Use this structure to launch multiple instance types and On-Demand Instances and Spot Instances within a single Auto Scaling group.
A mixed instances policy contains information that Amazon EC2 Auto Scaling can use to launch instances and help optimize your costs. For more information, see Auto Scaling groups with multiple instance types and purchase options in the Amazon EC2 Auto Scaling User Guide .
LaunchTemplate -> (structure)
One or more launch templates and the instance types (overrides) that are used to launch EC2 instances to fulfill On-Demand and Spot capacities.
LaunchTemplateSpecification -> (structure)
The launch template.
LaunchTemplateId -> (string)
The ID of the launch template. To get the template ID, use the Amazon EC2 DescribeLaunchTemplates API operation. New launch templates can be created using the Amazon EC2 CreateLaunchTemplate API.
Conditional: You must specify either a
LaunchTemplateId
or aLaunchTemplateName
.LaunchTemplateName -> (string)
The name of the launch template. To get the template name, use the Amazon EC2 DescribeLaunchTemplates API operation. New launch templates can be created using the Amazon EC2 CreateLaunchTemplate API.
Conditional: You must specify either a
LaunchTemplateId
or aLaunchTemplateName
.Version -> (string)
The version number,$Latest
, or$Default
. To get the version number, use the Amazon EC2 DescribeLaunchTemplateVersions API operation. New launch template versions can be created using the Amazon EC2 CreateLaunchTemplateVersion API. If the value is$Latest
, Amazon EC2 Auto Scaling selects the latest version of the launch template when launching instances. If the value is$Default
, Amazon EC2 Auto Scaling selects the default version of the launch template when launching instances. The default value is$Default
.Overrides -> (list)
Any properties that you specify override the same properties in the launch template.
(structure)
Use this structure to let Amazon EC2 Auto Scaling do the following when the Auto Scaling group has a mixed instances policy:
- Override the instance type that is specified in the launch template.
- Use multiple instance types.
Specify the instance types that you want, or define your instance requirements instead and let Amazon EC2 Auto Scaling provision the available instance types that meet your requirements. This can provide Amazon EC2 Auto Scaling with a larger selection of instance types to choose from when fulfilling Spot and On-Demand capacities. You can view which instance types are matched before you apply the instance requirements to your Auto Scaling group.
After you define your instance requirements, you don’t have to keep updating these settings to get new EC2 instance types automatically. Amazon EC2 Auto Scaling uses the instance requirements of the Auto Scaling group to determine whether a new EC2 instance type can be used.
InstanceType -> (string)
The instance type, such as
m3.xlarge
. You must specify an instance type that is supported in your requested Region and Availability Zones. For more information, see Instance types in the Amazon EC2 User Guide for Linux Instances .You can specify up to 40 instance types per Auto Scaling group.
WeightedCapacity -> (string)
If you provide a list of instance types to use, you can specify the number of capacity units provided by each instance type in terms of virtual CPUs, memory, storage, throughput, or other relative performance characteristic. When a Spot or On-Demand Instance is launched, the capacity units count toward the desired capacity. Amazon EC2 Auto Scaling launches instances until the desired capacity is totally fulfilled, even if this results in an overage. For example, if there are two units remaining to fulfill capacity, and Amazon EC2 Auto Scaling can only launch an instance with a
WeightedCapacity
of five units, the instance is launched, and the desired capacity is exceeded by three units. For more information, see Configure an Auto Scaling group to use instance weights in the Amazon EC2 Auto Scaling User Guide . Value must be in the range of 1–999.If you specify a value for
WeightedCapacity
for one instance type, you must specify a value forWeightedCapacity
for all of them.Warning
Every Auto Scaling group has three size parameters (DesiredCapacity
,MaxSize
, andMinSize
). Usually, you set these sizes based on a specific number of instances. However, if you configure a mixed instances policy that defines weights for the instance types, you must specify these sizes with the same units that you use for weighting instances.LaunchTemplateSpecification -> (structure)
Provides a launch template for the specified instance type or set of instance requirements. For example, some instance types might require a launch template with a different AMI. If not provided, Amazon EC2 Auto Scaling uses the launch template that’s specified in the
LaunchTemplate
definition. For more information, see Specifying a different launch template for an instance type in the Amazon EC2 Auto Scaling User Guide .You can specify up to 20 launch templates per Auto Scaling group. The launch templates specified in the overrides and in the
LaunchTemplate
definition count towards this limit.LaunchTemplateId -> (string)
The ID of the launch template. To get the template ID, use the Amazon EC2 DescribeLaunchTemplates API operation. New launch templates can be created using the Amazon EC2 CreateLaunchTemplate API.
Conditional: You must specify either a
LaunchTemplateId
or aLaunchTemplateName
.LaunchTemplateName -> (string)
The name of the launch template. To get the template name, use the Amazon EC2 DescribeLaunchTemplates API operation. New launch templates can be created using the Amazon EC2 CreateLaunchTemplate API.
Conditional: You must specify either a
LaunchTemplateId
or aLaunchTemplateName
.Version -> (string)
The version number,$Latest
, or$Default
. To get the version number, use the Amazon EC2 DescribeLaunchTemplateVersions API operation. New launch template versions can be created using the Amazon EC2 CreateLaunchTemplateVersion API. If the value is$Latest
, Amazon EC2 Auto Scaling selects the latest version of the launch template when launching instances. If the value is$Default
, Amazon EC2 Auto Scaling selects the default version of the launch template when launching instances. The default value is$Default
.InstanceRequirements -> (structure)
The instance requirements. Amazon EC2 Auto Scaling uses your specified requirements to identify instance types. Then, it uses your On-Demand and Spot allocation strategies to launch instances from these instance types.
You can specify up to four separate sets of instance requirements per Auto Scaling group. This is useful for provisioning instances from different Amazon Machine Images (AMIs) in the same Auto Scaling group. To do this, create the AMIs and create a new launch template for each AMI. Then, create a compatible set of instance requirements for each launch template.
Note
If you specifyInstanceRequirements
, you can’t specifyInstanceType
.VCpuCount -> (structure)
The minimum and maximum number of vCPUs for an instance type.
Min -> (integer)
The minimum number of vCPUs.Max -> (integer)
The maximum number of vCPUs.MemoryMiB -> (structure)
The minimum and maximum instance memory size for an instance type, in MiB.
Min -> (integer)
The memory minimum in MiB.Max -> (integer)
The memory maximum in MiB.CpuManufacturers -> (list)
Lists which specific CPU manufacturers to include.
- For instance types with Intel CPUs, specify
intel
.- For instance types with AMD CPUs, specify
amd
.- For instance types with Amazon Web Services CPUs, specify
amazon-web-services
.Note
Don’t confuse the CPU hardware manufacturer with the CPU hardware architecture. Instances will be launched with a compatible CPU architecture based on the Amazon Machine Image (AMI) that you specify in your launch template.Default: Any manufacturer
(string)
MemoryGiBPerVCpu -> (structure)
The minimum and maximum amount of memory per vCPU for an instance type, in GiB.
Default: No minimum or maximum limits
Min -> (double)
The memory minimum in GiB.Max -> (double)
The memory maximum in GiB.ExcludedInstanceTypes -> (list)
The instance types to exclude. You can use strings with one or more wild cards, represented by an asterisk (
*
), to exclude an instance family, type, size, or generation. The following are examples:m5.8xlarge
,c5*.*
,m5a.*
,r*
,*3*
.For example, if you specify
c5*
, you are excluding the entire C5 instance family, which includes all C5a and C5n instance types. If you specifym5a.*
, Amazon EC2 Auto Scaling will exclude all the M5a instance types, but not the M5n instance types.Note
If you specifyExcludedInstanceTypes
, you can’t specifyAllowedInstanceTypes
.Default: No excluded instance types
(string)
InstanceGenerations -> (list)
Indicates whether current or previous generation instance types are included.
- For current generation instance types, specify
current
. The current generation includes EC2 instance types currently recommended for use. This typically includes the latest two to three generations in each instance family. For more information, see Instance types in the Amazon EC2 User Guide for Linux Instances .- For previous generation instance types, specify
previous
.Default: Any current or previous generation
(string)
SpotMaxPricePercentageOverLowestPrice -> (integer)
[Price protection] The price protection threshold for Spot Instances, as a percentage higher than an identified Spot price. The identified Spot price is the price of the lowest priced current generation C, M, or R instance type with your specified attributes. If no current generation C, M, or R instance type matches your attributes, then the identified price is from either the lowest priced current generation instance types or, failing that, the lowest priced previous generation instance types that match your attributes. When Amazon EC2 Auto Scaling selects instance types with your attributes, we will exclude instance types whose price exceeds your specified threshold.
The parameter accepts an integer, which Amazon EC2 Auto Scaling interprets as a percentage.
If you set
DesiredCapacityType
tovcpu
ormemory-mib
, the price protection threshold is based on the per-vCPU or per-memory price instead of the per instance price.Note
Only one ofSpotMaxPricePercentageOverLowestPrice
orMaxSpotPriceAsPercentageOfOptimalOnDemandPrice
can be specified. If you don’t specify either, Amazon EC2 Auto Scaling will automatically apply optimal price protection to consistently select from a wide range of instance types. To indicate no price protection threshold for Spot Instances, meaning you want to consider all instance types that match your attributes, include one of these parameters and specify a high value, such as999999
.MaxSpotPriceAsPercentageOfOptimalOnDemandPrice -> (integer)
[Price protection] The price protection threshold for Spot Instances, as a percentage of an identified On-Demand price. The identified On-Demand price is the price of the lowest priced current generation C, M, or R instance type with your specified attributes. If no current generation C, M, or R instance type matches your attributes, then the identified price is from either the lowest priced current generation instance types or, failing that, the lowest priced previous generation instance types that match your attributes. When Amazon EC2 Auto Scaling selects instance types with your attributes, we will exclude instance types whose price exceeds your specified threshold.
The parameter accepts an integer, which Amazon EC2 Auto Scaling interprets as a percentage.
If you set
DesiredCapacityType
tovcpu
ormemory-mib
, the price protection threshold is based on the per-vCPU or per-memory price instead of the per instance price.Note
Only one ofSpotMaxPricePercentageOverLowestPrice
orMaxSpotPriceAsPercentageOfOptimalOnDemandPrice
can be specified. If you don’t specify either, Amazon EC2 Auto Scaling will automatically apply optimal price protection to consistently select from a wide range of instance types. To indicate no price protection threshold for Spot Instances, meaning you want to consider all instance types that match your attributes, include one of these parameters and specify a high value, such as999999
.OnDemandMaxPricePercentageOverLowestPrice -> (integer)
[Price protection] The price protection threshold for On-Demand Instances, as a percentage higher than an identified On-Demand price. The identified On-Demand price is the price of the lowest priced current generation C, M, or R instance type with your specified attributes. If no current generation C, M, or R instance type matches your attributes, then the identified price is from either the lowest priced current generation instance types or, failing that, the lowest priced previous generation instance types that match your attributes. When Amazon EC2 Auto Scaling selects instance types with your attributes, we will exclude instance types whose price exceeds your specified threshold.
The parameter accepts an integer, which Amazon EC2 Auto Scaling interprets as a percentage.
To turn off price protection, specify a high value, such as
999999
.If you set
DesiredCapacityType
tovcpu
ormemory-mib
, the price protection threshold is applied based on the per-vCPU or per-memory price instead of the per instance price.Default:
20
BareMetal -> (string)
Indicates whether bare metal instance types are included, excluded, or required.
Default:
excluded
BurstablePerformance -> (string)
Indicates whether burstable performance instance types are included, excluded, or required. For more information, see Burstable performance instances in the Amazon EC2 User Guide for Linux Instances .
Default:
excluded
RequireHibernateSupport -> (boolean)
Indicates whether instance types must provide On-Demand Instance hibernation support.
Default:
false
NetworkInterfaceCount -> (structure)
The minimum and maximum number of network interfaces for an instance type.
Default: No minimum or maximum limits
Min -> (integer)
The minimum number of network interfaces.Max -> (integer)
The maximum number of network interfaces.LocalStorage -> (string)
Indicates whether instance types with instance store volumes are included, excluded, or required. For more information, see Amazon EC2 instance store in the Amazon EC2 User Guide for Linux Instances .
Default:
included
LocalStorageTypes -> (list)
Indicates the type of local storage that is required.
- For instance types with hard disk drive (HDD) storage, specify
hdd
.- For instance types with solid state drive (SSD) storage, specify
ssd
.Default: Any local storage type
(string)
TotalLocalStorageGB -> (structure)
The minimum and maximum total local storage size for an instance type, in GB.
Default: No minimum or maximum limits
Min -> (double)
The storage minimum in GB.Max -> (double)
The storage maximum in GB.BaselineEbsBandwidthMbps -> (structure)
The minimum and maximum baseline bandwidth performance for an instance type, in Mbps. For more information, see Amazon EBS–optimized instances in the Amazon EC2 User Guide for Linux Instances .
Default: No minimum or maximum limits
Min -> (integer)
The minimum value in Mbps.Max -> (integer)
The maximum value in Mbps.AcceleratorTypes -> (list)
Lists the accelerator types that must be on an instance type.
- For instance types with GPU accelerators, specify
gpu
.- For instance types with FPGA accelerators, specify
fpga
.- For instance types with inference accelerators, specify
inference
.Default: Any accelerator type
(string)
AcceleratorCount -> (structure)
The minimum and maximum number of accelerators (GPUs, FPGAs, or Amazon Web Services Inferentia chips) for an instance type.
To exclude accelerator-enabled instance types, set
Max
to0
.Default: No minimum or maximum limits
Min -> (integer)
The minimum value.Max -> (integer)
The maximum value.AcceleratorManufacturers -> (list)
Indicates whether instance types must have accelerators by specific manufacturers.
- For instance types with NVIDIA devices, specify
nvidia
.- For instance types with AMD devices, specify
amd
.- For instance types with Amazon Web Services devices, specify
amazon-web-services
.- For instance types with Xilinx devices, specify
xilinx
.Default: Any manufacturer
(string)
AcceleratorNames -> (list)
Lists the accelerators that must be on an instance type.
- For instance types with NVIDIA A100 GPUs, specify
a100
.- For instance types with NVIDIA V100 GPUs, specify
v100
.- For instance types with NVIDIA K80 GPUs, specify
k80
.- For instance types with NVIDIA T4 GPUs, specify
t4
.- For instance types with NVIDIA M60 GPUs, specify
m60
.- For instance types with AMD Radeon Pro V520 GPUs, specify
radeon-pro-v520
.- For instance types with Xilinx VU9P FPGAs, specify
vu9p
.Default: Any accelerator
(string)
AcceleratorTotalMemoryMiB -> (structure)
The minimum and maximum total memory size for the accelerators on an instance type, in MiB.
Default: No minimum or maximum limits
Min -> (integer)
The memory minimum in MiB.Max -> (integer)
The memory maximum in MiB.NetworkBandwidthGbps -> (structure)
The minimum and maximum amount of network bandwidth, in gigabits per second (Gbps).
Default: No minimum or maximum limits
Min -> (double)
The minimum amount of network bandwidth, in gigabits per second (Gbps).Max -> (double)
The maximum amount of network bandwidth, in gigabits per second (Gbps).AllowedInstanceTypes -> (list)
The instance types to apply your specified attributes against. All other instance types are ignored, even if they match your specified attributes.
You can use strings with one or more wild cards, represented by an asterisk (
*
), to allow an instance type, size, or generation. The following are examples:m5.8xlarge
,c5*.*
,m5a.*
,r*
,*3*
.For example, if you specify
c5*
, Amazon EC2 Auto Scaling will allow the entire C5 instance family, which includes all C5a and C5n instance types. If you specifym5a.*
, Amazon EC2 Auto Scaling will allow all the M5a instance types, but not the M5n instance types.Note
If you specifyAllowedInstanceTypes
, you can’t specifyExcludedInstanceTypes
.Default: All instance types
(string)
BaselinePerformanceFactors -> (structure)
The baseline performance factors for the instance requirements.
Cpu -> (structure)
The CPU performance to consider, using an instance family as the baseline reference.
References -> (list)
Specify an instance family to use as the baseline reference for CPU performance. All instance types that match your specified attributes will be compared against the CPU performance of the referenced instance family, regardless of CPU manufacturer or architecture differences.
Note
Currently only one instance family can be specified in the list.(structure)
Specify an instance family to use as the baseline reference for CPU performance. All instance types that All instance types that match your specified attributes will be compared against the CPU performance of the referenced instance family, regardless of CPU manufacturer or architecture differences.
Note
Currently only one instance family can be specified in the list.InstanceFamily -> (string)
The instance family to use as a baseline reference.
Note
Make sure that you specify the correct value for the instance family. The instance family is everything before the period (.) in the instance type name. For example, in the instancec6i.large
, the instance family isc6i
, notc6
. For more information, see Amazon EC2 instance type naming conventions in Amazon EC2 Instance Types .The following instance types are not supported for performance protection.
c1
g3| g3s
hpc7g
m1| m2
mac1 | mac2 | mac2-m1ultra | mac2-m2 | mac2-m2pro
p3dn | p4d | p5
t1
u-12tb1 | u-18tb1 | u-24tb1 | u-3tb1 | u-6tb1 | u-9tb1 | u7i-12tb | u7in-16tb | u7in-24tb | u7in-32tb
If you performance protection by specifying a supported instance family, the returned instance types will exclude the preceding unsupported instance families.
If you specify an unsupported instance family as a value for baseline performance, the API returns an empty response.
InstancesDistribution -> (structure)
The instances distribution.
OnDemandAllocationStrategy -> (string)
The allocation strategy to apply to your On-Demand Instances when they are launched. Possible instance types are determined by the launch template overrides that you specify.
The following lists the valid values:
lowest-priceUses price to determine which instance types are the highest priority, launching the lowest priced instance types within an Availability Zone first. This is the default value for Auto Scaling groups that specify InstanceRequirements .
prioritizedYou set the order of instance types for the launch template overrides from highest to lowest priority (from first to last in the list). Amazon EC2 Auto Scaling launches your highest priority instance types first. If all your On-Demand capacity cannot be fulfilled using your highest priority instance type, then Amazon EC2 Auto Scaling launches the remaining capacity using the second priority instance type, and so on. This is the default value for Auto Scaling groups that don’t specify InstanceRequirements and cannot be used for groups that do.
OnDemandBaseCapacity -> (integer)
The minimum amount of the Auto Scaling group’s capacity that must be fulfilled by On-Demand Instances. This base portion is launched first as your group scales.
This number has the same unit of measurement as the group’s desired capacity. If you change the default unit of measurement (number of instances) by specifying weighted capacity values in your launch template overrides list, or by changing the default desired capacity type setting of the group, you must specify this number using the same unit of measurement.
Default: 0
OnDemandPercentageAboveBaseCapacity -> (integer)
Controls the percentages of On-Demand Instances and Spot Instances for your additional capacity beyond
OnDemandBaseCapacity
. Expressed as a number (for example, 20 specifies 20% On-Demand Instances, 80% Spot Instances). If set to 100, only On-Demand Instances are used.Default: 100
SpotAllocationStrategy -> (string)
The allocation strategy to apply to your Spot Instances when they are launched. Possible instance types are determined by the launch template overrides that you specify.
The following lists the valid values:
capacity-optimizedRequests Spot Instances using pools that are optimally chosen based on the available Spot capacity. This strategy has the lowest risk of interruption. To give certain instance types a higher chance of launching first, use
capacity-optimized-prioritized
.capacity-optimized-prioritizedYou set the order of instance types for the launch template overrides from highest to lowest priority (from first to last in the list). Amazon EC2 Auto Scaling honors the instance type priorities on a best effort basis but optimizes for capacity first. Note that if the On-Demand allocation strategy is set to
prioritized
, the same priority is applied when fulfilling On-Demand capacity. This is not a valid value for Auto Scaling groups that specify InstanceRequirements .lowest-priceRequests Spot Instances using the lowest priced pools within an Availability Zone, across the number of Spot pools that you specify for the
SpotInstancePools
property. To ensure that your desired capacity is met, you might receive Spot Instances from several pools. This is the default value, but it might lead to high interruption rates because this strategy only considers instance price and not available capacity.price-capacity-optimized (recommended)The price and capacity optimized allocation strategy looks at both price and capacity to select the Spot Instance pools that are the least likely to be interrupted and have the lowest possible price.
SpotInstancePools -> (integer)
The number of Spot Instance pools across which to allocate your Spot Instances. The Spot pools are determined from the different instance types in the overrides. Valid only when the
SpotAllocationStrategy
islowest-price
. Value must be in the range of 1–20.Default: 2
SpotMaxPrice -> (string)
The maximum price per unit hour that you are willing to pay for a Spot Instance. If your maximum price is lower than the Spot price for the instance types that you selected, your Spot Instances are not launched. We do not recommend specifying a maximum price because it can lead to increased interruptions. When Spot Instances launch, you pay the current Spot price. To remove a maximum price that you previously set, include the property but specify an empty string (“”) for the value.
Warning
If you specify a maximum price, your instances will be interrupted more frequently than if you do not specify one.Valid Range: Minimum value of 0.001
RollbackDetails -> (structure)
The rollback details.
RollbackReason -> (string)
The reason for this instance refresh rollback (for example, whether a manual or automatic rollback was initiated).RollbackStartTime -> (timestamp)
The date and time at which the rollback began.PercentageCompleteOnRollback -> (integer)
Indicates the value ofPercentageComplete
at the time the rollback started.InstancesToUpdateOnRollback -> (integer)
Indicates the value ofInstancesToUpdate
at the time the rollback started.ProgressDetailsOnRollback -> (structure)
Reports progress on replacing instances in an Auto Scaling group that has a warm pool. This includes separate details for instances in the warm pool and instances in the Auto Scaling group (the live pool).
LivePoolProgress -> (structure)
Reports progress on replacing instances that are in the Auto Scaling group.
PercentageComplete -> (integer)
The percentage of instances in the Auto Scaling group that have been replaced. For each instance replacement, Amazon EC2 Auto Scaling tracks the instance’s health status and warm-up time. When the instance’s health status changes to healthy and the specified warm-up time passes, the instance is considered updated and is added to the percentage complete.InstancesToUpdate -> (integer)
The number of instances remaining to update.WarmPoolProgress -> (structure)
Reports progress on replacing instances that are in the warm pool.
PercentageComplete -> (integer)
The percentage of instances in the warm pool that have been replaced. For each instance replacement, Amazon EC2 Auto Scaling tracks the instance’s health status and warm-up time. When the instance’s health status changes to healthy and the specified warm-up time passes, the instance is considered updated and is added to the percentage complete.InstancesToUpdate -> (integer)
The number of instances remaining to update.
NextToken -> (string)
A string that indicates that the response contains more items than can be returned in a single response. To receive additional items, specify this string for theNextToken
value when requesting the next set of items. This value is null when there are no more items to return.