Cluster
data class ClusterArgs(val additionalInfo: Output<String>? = null, val applications: Output<List<String>>? = null, val autoTerminationPolicy: Output<ClusterAutoTerminationPolicyArgs>? = null, val autoscalingRole: Output<String>? = null, val bootstrapActions: Output<List<ClusterBootstrapActionArgs>>? = null, val configurations: Output<String>? = null, val configurationsJson: Output<String>? = null, val coreInstanceFleet: Output<ClusterCoreInstanceFleetArgs>? = null, val coreInstanceGroup: Output<ClusterCoreInstanceGroupArgs>? = null, val customAmiId: Output<String>? = null, val ebsRootVolumeSize: Output<Int>? = null, val ec2Attributes: Output<ClusterEc2AttributesArgs>? = null, val keepJobFlowAliveWhenNoSteps: Output<Boolean>? = null, val kerberosAttributes: Output<ClusterKerberosAttributesArgs>? = null, val listStepsStates: Output<List<String>>? = null, val logEncryptionKmsKeyId: Output<String>? = null, val logUri: Output<String>? = null, val masterInstanceFleet: Output<ClusterMasterInstanceFleetArgs>? = null, val masterInstanceGroup: Output<ClusterMasterInstanceGroupArgs>? = null, val name: Output<String>? = null, val placementGroupConfigs: Output<List<ClusterPlacementGroupConfigArgs>>? = null, val releaseLabel: Output<String>? = null, val scaleDownBehavior: Output<String>? = null, val securityConfiguration: Output<String>? = null, val serviceRole: Output<String>? = null, val stepConcurrencyLevel: Output<Int>? = null, val steps: Output<List<ClusterStepArgs>>? = null, val tags: Output<Map<String, String>>? = null, val terminationProtection: Output<Boolean>? = null, val unhealthyNodeReplacement: Output<Boolean>? = null, val visibleToAllUsers: Output<Boolean>? = null) : ConvertibleToJava<ClusterArgs>
Provides an Elastic MapReduce Cluster, a web service that makes it easy to process large amounts of data efficiently. See Amazon Elastic MapReduce Documentation for more information. To configure Instance Groups for task nodes, see the aws.emr.InstanceGroup resource.
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
const cluster = new aws.emr.Cluster("cluster", {
name: "emr-test-arn",
releaseLabel: "emr-4.6.0",
applications: ["Spark"],
additionalInfo: `{
"instanceAwsClientConfiguration": {
"proxyPort": 8099,
"proxyHost": "myproxy.example.com"
}
}
`,
terminationProtection: false,
keepJobFlowAliveWhenNoSteps: true,
ec2Attributes: {
subnetId: main.id,
emrManagedMasterSecurityGroup: sg.id,
emrManagedSlaveSecurityGroup: sg.id,
instanceProfile: emrProfile.arn,
},
masterInstanceGroup: {
instanceType: "m4.large",
},
coreInstanceGroup: {
instanceType: "c4.large",
instanceCount: 1,
ebsConfigs: [{
size: 40,
type: "gp2",
volumesPerInstance: 1,
}],
bidPrice: "0.30",
autoscalingPolicy: `{
"Constraints": {
"MinCapacity": 1,
"MaxCapacity": 2
},
"Rules": [
{
"Name": "ScaleOutMemoryPercentage",
"Description": "Scale out if YARNMemoryAvailablePercentage is less than 15",
"Action": {
"SimpleScalingPolicyConfiguration": {
"AdjustmentType": "CHANGE_IN_CAPACITY",
"ScalingAdjustment": 1,
"CoolDown": 300
}
},
"Trigger": {
"CloudWatchAlarmDefinition": {
"ComparisonOperator": "LESS_THAN",
"EvaluationPeriods": 1,
"MetricName": "YARNMemoryAvailablePercentage",
"Namespace": "AWS/ElasticMapReduce",
"Period": 300,
"Statistic": "AVERAGE",
"Threshold": 15.0,
"Unit": "PERCENT"
}
}
}
]
}
`,
},
ebsRootVolumeSize: 100,
tags: {
role: "rolename",
env: "env",
},
bootstrapActions: [{
path: "s3://elasticmapreduce/bootstrap-actions/run-if",
name: "runif",
args: [
"instance.isMaster=true",
"echo running on master node",
],
}],
configurationsJson: ` [
{
"Classification": "hadoop-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
},
{
"Classification": "spark-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
}
]
`,
serviceRole: iamEmrServiceRole.arn,
});Content copied to clipboard
import pulumi
import pulumi_aws as aws
cluster = aws.emr.Cluster("cluster",
name="emr-test-arn",
release_label="emr-4.6.0",
applications=["Spark"],
additional_info="""{
"instanceAwsClientConfiguration": {
"proxyPort": 8099,
"proxyHost": "myproxy.example.com"
}
}
""",
termination_protection=False,
keep_job_flow_alive_when_no_steps=True,
ec2_attributes=aws.emr.ClusterEc2AttributesArgs(
subnet_id=main["id"],
emr_managed_master_security_group=sg["id"],
emr_managed_slave_security_group=sg["id"],
instance_profile=emr_profile["arn"],
),
master_instance_group=aws.emr.ClusterMasterInstanceGroupArgs(
instance_type="m4.large",
),
core_instance_group=aws.emr.ClusterCoreInstanceGroupArgs(
instance_type="c4.large",
instance_count=1,
ebs_configs=[aws.emr.ClusterCoreInstanceGroupEbsConfigArgs(
size=40,
type="gp2",
volumes_per_instance=1,
)],
bid_price="0.30",
autoscaling_policy="""{
"Constraints": {
"MinCapacity": 1,
"MaxCapacity": 2
},
"Rules": [
{
"Name": "ScaleOutMemoryPercentage",
"Description": "Scale out if YARNMemoryAvailablePercentage is less than 15",
"Action": {
"SimpleScalingPolicyConfiguration": {
"AdjustmentType": "CHANGE_IN_CAPACITY",
"ScalingAdjustment": 1,
"CoolDown": 300
}
},
"Trigger": {
"CloudWatchAlarmDefinition": {
"ComparisonOperator": "LESS_THAN",
"EvaluationPeriods": 1,
"MetricName": "YARNMemoryAvailablePercentage",
"Namespace": "AWS/ElasticMapReduce",
"Period": 300,
"Statistic": "AVERAGE",
"Threshold": 15.0,
"Unit": "PERCENT"
}
}
}
]
}
""",
),
ebs_root_volume_size=100,
tags={
"role": "rolename",
"env": "env",
},
bootstrap_actions=[aws.emr.ClusterBootstrapActionArgs(
path="s3://elasticmapreduce/bootstrap-actions/run-if",
name="runif",
args=[
"instance.isMaster=true",
"echo running on master node",
],
)],
configurations_json=""" [
{
"Classification": "hadoop-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
},
{
"Classification": "spark-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
}
]
""",
service_role=iam_emr_service_role["arn"])Content copied to clipboard
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;
return await Deployment.RunAsync(() =>
{
var cluster = new Aws.Emr.Cluster("cluster", new()
{
Name = "emr-test-arn",
ReleaseLabel = "emr-4.6.0",
Applications = new[]
{
"Spark",
},
AdditionalInfo = @"{
""instanceAwsClientConfiguration"": {
""proxyPort"": 8099,
""proxyHost"": ""myproxy.example.com""
}
}
",
TerminationProtection = false,
KeepJobFlowAliveWhenNoSteps = true,
Ec2Attributes = new Aws.Emr.Inputs.ClusterEc2AttributesArgs
{
SubnetId = main.Id,
EmrManagedMasterSecurityGroup = sg.Id,
EmrManagedSlaveSecurityGroup = sg.Id,
InstanceProfile = emrProfile.Arn,
},
MasterInstanceGroup = new Aws.Emr.Inputs.ClusterMasterInstanceGroupArgs
{
InstanceType = "m4.large",
},
CoreInstanceGroup = new Aws.Emr.Inputs.ClusterCoreInstanceGroupArgs
{
InstanceType = "c4.large",
InstanceCount = 1,
EbsConfigs = new[]
{
new Aws.Emr.Inputs.ClusterCoreInstanceGroupEbsConfigArgs
{
Size = 40,
Type = "gp2",
VolumesPerInstance = 1,
},
},
BidPrice = "0.30",
AutoscalingPolicy = @"{
""Constraints"": {
""MinCapacity"": 1,
""MaxCapacity"": 2
},
""Rules"": [
{
""Name"": ""ScaleOutMemoryPercentage"",
""Description"": ""Scale out if YARNMemoryAvailablePercentage is less than 15"",
""Action"": {
""SimpleScalingPolicyConfiguration"": {
""AdjustmentType"": ""CHANGE_IN_CAPACITY"",
""ScalingAdjustment"": 1,
""CoolDown"": 300
}
},
""Trigger"": {
""CloudWatchAlarmDefinition"": {
""ComparisonOperator"": ""LESS_THAN"",
""EvaluationPeriods"": 1,
""MetricName"": ""YARNMemoryAvailablePercentage"",
""Namespace"": ""AWS/ElasticMapReduce"",
""Period"": 300,
""Statistic"": ""AVERAGE"",
""Threshold"": 15.0,
""Unit"": ""PERCENT""
}
}
}
]
}
",
},
EbsRootVolumeSize = 100,
Tags =
{
{ "role", "rolename" },
{ "env", "env" },
},
BootstrapActions = new[]
{
new Aws.Emr.Inputs.ClusterBootstrapActionArgs
{
Path = "s3://elasticmapreduce/bootstrap-actions/run-if",
Name = "runif",
Args = new[]
{
"instance.isMaster=true",
"echo running on master node",
},
},
},
ConfigurationsJson = @" [
{
""Classification"": ""hadoop-env"",
""Configurations"": [
{
""Classification"": ""export"",
""Properties"": {
""JAVA_HOME"": ""/usr/lib/jvm/java-1.8.0""
}
}
],
""Properties"": {}
},
{
""Classification"": ""spark-env"",
""Configurations"": [
{
""Classification"": ""export"",
""Properties"": {
""JAVA_HOME"": ""/usr/lib/jvm/java-1.8.0""
}
}
],
""Properties"": {}
}
]
",
ServiceRole = iamEmrServiceRole.Arn,
});
});Content copied to clipboard
package main
import (
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/emr"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := emr.NewCluster(ctx, "cluster", &emr.ClusterArgs{
Name: pulumi.String("emr-test-arn"),
ReleaseLabel: pulumi.String("emr-4.6.0"),
Applications: pulumi.StringArray{
pulumi.String("Spark"),
},
AdditionalInfo: pulumi.String(`{
"instanceAwsClientConfiguration": {
"proxyPort": 8099,
"proxyHost": "myproxy.example.com"
}
}
`),
TerminationProtection: pulumi.Bool(false),
KeepJobFlowAliveWhenNoSteps: pulumi.Bool(true),
Ec2Attributes: &emr.ClusterEc2AttributesArgs{
SubnetId: pulumi.Any(main.Id),
EmrManagedMasterSecurityGroup: pulumi.Any(sg.Id),
EmrManagedSlaveSecurityGroup: pulumi.Any(sg.Id),
InstanceProfile: pulumi.Any(emrProfile.Arn),
},
MasterInstanceGroup: &emr.ClusterMasterInstanceGroupArgs{
InstanceType: pulumi.String("m4.large"),
},
CoreInstanceGroup: &emr.ClusterCoreInstanceGroupArgs{
InstanceType: pulumi.String("c4.large"),
InstanceCount: pulumi.Int(1),
EbsConfigs: emr.ClusterCoreInstanceGroupEbsConfigArray{
&emr.ClusterCoreInstanceGroupEbsConfigArgs{
Size: pulumi.Int(40),
Type: pulumi.String("gp2"),
VolumesPerInstance: pulumi.Int(1),
},
},
BidPrice: pulumi.String("0.30"),
AutoscalingPolicy: pulumi.String(`{
"Constraints": {
"MinCapacity": 1,
"MaxCapacity": 2
},
"Rules": [
{
"Name": "ScaleOutMemoryPercentage",
"Description": "Scale out if YARNMemoryAvailablePercentage is less than 15",
"Action": {
"SimpleScalingPolicyConfiguration": {
"AdjustmentType": "CHANGE_IN_CAPACITY",
"ScalingAdjustment": 1,
"CoolDown": 300
}
},
"Trigger": {
"CloudWatchAlarmDefinition": {
"ComparisonOperator": "LESS_THAN",
"EvaluationPeriods": 1,
"MetricName": "YARNMemoryAvailablePercentage",
"Namespace": "AWS/ElasticMapReduce",
"Period": 300,
"Statistic": "AVERAGE",
"Threshold": 15.0,
"Unit": "PERCENT"
}
}
}
]
}
`),
},
EbsRootVolumeSize: pulumi.Int(100),
Tags: pulumi.StringMap{
"role": pulumi.String("rolename"),
"env": pulumi.String("env"),
},
BootstrapActions: emr.ClusterBootstrapActionArray{
&emr.ClusterBootstrapActionArgs{
Path: pulumi.String("s3://elasticmapreduce/bootstrap-actions/run-if"),
Name: pulumi.String("runif"),
Args: pulumi.StringArray{
pulumi.String("instance.isMaster=true"),
pulumi.String("echo running on master node"),
},
},
},
ConfigurationsJson: pulumi.String(` [
{
"Classification": "hadoop-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
},
{
"Classification": "spark-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
}
]
`),
ServiceRole: pulumi.Any(iamEmrServiceRole.Arn),
})
if err != nil {
return err
}
return nil
})
}Content copied to clipboard
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.emr.Cluster;
import com.pulumi.aws.emr.ClusterArgs;
import com.pulumi.aws.emr.inputs.ClusterEc2AttributesArgs;
import com.pulumi.aws.emr.inputs.ClusterMasterInstanceGroupArgs;
import com.pulumi.aws.emr.inputs.ClusterCoreInstanceGroupArgs;
import com.pulumi.aws.emr.inputs.ClusterBootstrapActionArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
var cluster = new Cluster("cluster", ClusterArgs.builder()
.name("emr-test-arn")
.releaseLabel("emr-4.6.0")
.applications("Spark")
.additionalInfo("""
{
"instanceAwsClientConfiguration": {
"proxyPort": 8099,
"proxyHost": "myproxy.example.com"
}
}
""")
.terminationProtection(false)
.keepJobFlowAliveWhenNoSteps(true)
.ec2Attributes(ClusterEc2AttributesArgs.builder()
.subnetId(main.id())
.emrManagedMasterSecurityGroup(sg.id())
.emrManagedSlaveSecurityGroup(sg.id())
.instanceProfile(emrProfile.arn())
.build())
.masterInstanceGroup(ClusterMasterInstanceGroupArgs.builder()
.instanceType("m4.large")
.build())
.coreInstanceGroup(ClusterCoreInstanceGroupArgs.builder()
.instanceType("c4.large")
.instanceCount(1)
.ebsConfigs(ClusterCoreInstanceGroupEbsConfigArgs.builder()
.size("40")
.type("gp2")
.volumesPerInstance(1)
.build())
.bidPrice("0.30")
.autoscalingPolicy("""
{
"Constraints": {
"MinCapacity": 1,
"MaxCapacity": 2
},
"Rules": [
{
"Name": "ScaleOutMemoryPercentage",
"Description": "Scale out if YARNMemoryAvailablePercentage is less than 15",
"Action": {
"SimpleScalingPolicyConfiguration": {
"AdjustmentType": "CHANGE_IN_CAPACITY",
"ScalingAdjustment": 1,
"CoolDown": 300
}
},
"Trigger": {
"CloudWatchAlarmDefinition": {
"ComparisonOperator": "LESS_THAN",
"EvaluationPeriods": 1,
"MetricName": "YARNMemoryAvailablePercentage",
"Namespace": "AWS/ElasticMapReduce",
"Period": 300,
"Statistic": "AVERAGE",
"Threshold": 15.0,
"Unit": "PERCENT"
}
}
}
]
}
""")
.build())
.ebsRootVolumeSize(100)
.tags(Map.ofEntries(
Map.entry("role", "rolename"),
Map.entry("env", "env")
))
.bootstrapActions(ClusterBootstrapActionArgs.builder()
.path("s3://elasticmapreduce/bootstrap-actions/run-if")
.name("runif")
.args(
"instance.isMaster=true",
"echo running on master node")
.build())
.configurationsJson("""
[
{
"Classification": "hadoop-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
},
{
"Classification": "spark-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
}
]
""")
.serviceRole(iamEmrServiceRole.arn())
.build());
}
}Content copied to clipboard
resources:
cluster:
type: aws:emr:Cluster
properties:
name: emr-test-arn
releaseLabel: emr-4.6.0
applications:
- Spark
additionalInfo: |
{
"instanceAwsClientConfiguration": {
"proxyPort": 8099,
"proxyHost": "myproxy.example.com"
}
}
terminationProtection: false
keepJobFlowAliveWhenNoSteps: true
ec2Attributes:
subnetId: ${main.id}
emrManagedMasterSecurityGroup: ${sg.id}
emrManagedSlaveSecurityGroup: ${sg.id}
instanceProfile: ${emrProfile.arn}
masterInstanceGroup:
instanceType: m4.large
coreInstanceGroup:
instanceType: c4.large
instanceCount: 1
ebsConfigs:
- size: '40'
type: gp2
volumesPerInstance: 1
bidPrice: '0.30'
autoscalingPolicy: |
{
"Constraints": {
"MinCapacity": 1,
"MaxCapacity": 2
},
"Rules": [
{
"Name": "ScaleOutMemoryPercentage",
"Description": "Scale out if YARNMemoryAvailablePercentage is less than 15",
"Action": {
"SimpleScalingPolicyConfiguration": {
"AdjustmentType": "CHANGE_IN_CAPACITY",
"ScalingAdjustment": 1,
"CoolDown": 300
}
},
"Trigger": {
"CloudWatchAlarmDefinition": {
"ComparisonOperator": "LESS_THAN",
"EvaluationPeriods": 1,
"MetricName": "YARNMemoryAvailablePercentage",
"Namespace": "AWS/ElasticMapReduce",
"Period": 300,
"Statistic": "AVERAGE",
"Threshold": 15.0,
"Unit": "PERCENT"
}
}
}
]
}
ebsRootVolumeSize: 100
tags:
role: rolename
env: env
bootstrapActions:
- path: s3://elasticmapreduce/bootstrap-actions/run-if
name: runif
args:
- instance.isMaster=true
- echo running on master node
configurationsJson: |2
[
{
"Classification": "hadoop-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
},
{
"Classification": "spark-env",
"Configurations": [
{
"Classification": "export",
"Properties": {
"JAVA_HOME": "/usr/lib/jvm/java-1.8.0"
}
}
],
"Properties": {}
}
]
serviceRole: ${iamEmrServiceRole.arn}Content copied to clipboard
The aws.emr.Cluster resource typically requires two IAM roles, one for the EMR Cluster to use as a service role, and another is assigned to every EC2 instance in a cluster and each application process that runs on a cluster assumes this role for permissions to interact with other AWS services. An additional role, the Auto Scaling role, is required if your cluster uses automatic scaling in Amazon EMR. The default AWS managed EMR service role is called EMR_DefaultRole with Amazon managed policy AmazonEMRServicePolicy_v2 attached. The name of default instance profile role is EMR_EC2_DefaultRole with default managed policy AmazonElasticMapReduceforEC2Role attached, but it is on the path to deprecation and will not be replaced with another default managed policy. You'll need to create and specify an instance profile to replace the deprecated role and default policy. See the Configure IAM service roles for Amazon EMR guide for more information on these IAM roles. There is also a fully-bootable example Pulumi configuration at the bottom of this page.
Instance Fleet
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
const example = new aws.emr.Cluster("example", {
masterInstanceFleet: {
instanceTypeConfigs: [{
instanceType: "m4.xlarge",
}],
targetOnDemandCapacity: 1,
},
coreInstanceFleet: {
instanceTypeConfigs: [
{
bidPriceAsPercentageOfOnDemandPrice: 80,
ebsConfigs: [{
size: 100,
type: "gp2",
volumesPerInstance: 1,
}],
instanceType: "m3.xlarge",
weightedCapacity: 1,
},
{
bidPriceAsPercentageOfOnDemandPrice: 100,
ebsConfigs: [{
size: 100,
type: "gp2",
volumesPerInstance: 1,
}],
instanceType: "m4.xlarge",
weightedCapacity: 1,
},
{
bidPriceAsPercentageOfOnDemandPrice: 100,
ebsConfigs: [{
size: 100,
type: "gp2",
volumesPerInstance: 1,
}],
instanceType: "m4.2xlarge",
weightedCapacity: 2,
},
],
launchSpecifications: {
spotSpecifications: [{
allocationStrategy: "capacity-optimized",
blockDurationMinutes: 0,
timeoutAction: "SWITCH_TO_ON_DEMAND",
timeoutDurationMinutes: 10,
}],
},
name: "core fleet",
targetOnDemandCapacity: 2,
targetSpotCapacity: 2,
},
});
const task = new aws.emr.InstanceFleet("task", {
clusterId: example.id,
instanceTypeConfigs: [
{
bidPriceAsPercentageOfOnDemandPrice: 100,
ebsConfigs: [{
size: 100,
type: "gp2",
volumesPerInstance: 1,
}],
instanceType: "m4.xlarge",
weightedCapacity: 1,
},
{
bidPriceAsPercentageOfOnDemandPrice: 100,
ebsConfigs: [{
size: 100,
type: "gp2",
volumesPerInstance: 1,
}],
instanceType: "m4.2xlarge",
weightedCapacity: 2,
},
],
launchSpecifications: {
spotSpecifications: [{
allocationStrategy: "capacity-optimized",
blockDurationMinutes: 0,
timeoutAction: "TERMINATE_CLUSTER",
timeoutDurationMinutes: 10,
}],
},
name: "task fleet",
targetOnDemandCapacity: 1,
targetSpotCapacity: 1,
});Content copied to clipboard
import pulumi
import pulumi_aws as aws
example = aws.emr.Cluster("example",
master_instance_fleet=aws.emr.ClusterMasterInstanceFleetArgs(
instance_type_configs=[aws.emr.ClusterMasterInstanceFleetInstanceTypeConfigArgs(
instance_type="m4.xlarge",
)],
target_on_demand_capacity=1,
),
core_instance_fleet=aws.emr.ClusterCoreInstanceFleetArgs(
instance_type_configs=[
aws.emr.ClusterCoreInstanceFleetInstanceTypeConfigArgs(
bid_price_as_percentage_of_on_demand_price=80,
ebs_configs=[aws.emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs(
size=100,
type="gp2",
volumes_per_instance=1,
)],
instance_type="m3.xlarge",
weighted_capacity=1,
),
aws.emr.ClusterCoreInstanceFleetInstanceTypeConfigArgs(
bid_price_as_percentage_of_on_demand_price=100,
ebs_configs=[aws.emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs(
size=100,
type="gp2",
volumes_per_instance=1,
)],
instance_type="m4.xlarge",
weighted_capacity=1,
),
aws.emr.ClusterCoreInstanceFleetInstanceTypeConfigArgs(
bid_price_as_percentage_of_on_demand_price=100,
ebs_configs=[aws.emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs(
size=100,
type="gp2",
volumes_per_instance=1,
)],
instance_type="m4.2xlarge",
weighted_capacity=2,
),
],
launch_specifications=aws.emr.ClusterCoreInstanceFleetLaunchSpecificationsArgs(
spot_specifications=[aws.emr.ClusterCoreInstanceFleetLaunchSpecificationsSpotSpecificationArgs(
allocation_strategy="capacity-optimized",
block_duration_minutes=0,
timeout_action="SWITCH_TO_ON_DEMAND",
timeout_duration_minutes=10,
)],
),
name="core fleet",
target_on_demand_capacity=2,
target_spot_capacity=2,
))
task = aws.emr.InstanceFleet("task",
cluster_id=example.id,
instance_type_configs=[
aws.emr.InstanceFleetInstanceTypeConfigArgs(
bid_price_as_percentage_of_on_demand_price=100,
ebs_configs=[aws.emr.InstanceFleetInstanceTypeConfigEbsConfigArgs(
size=100,
type="gp2",
volumes_per_instance=1,
)],
instance_type="m4.xlarge",
weighted_capacity=1,
),
aws.emr.InstanceFleetInstanceTypeConfigArgs(
bid_price_as_percentage_of_on_demand_price=100,
ebs_configs=[aws.emr.InstanceFleetInstanceTypeConfigEbsConfigArgs(
size=100,
type="gp2",
volumes_per_instance=1,
)],
instance_type="m4.2xlarge",
weighted_capacity=2,
),
],
launch_specifications=aws.emr.InstanceFleetLaunchSpecificationsArgs(
spot_specifications=[aws.emr.InstanceFleetLaunchSpecificationsSpotSpecificationArgs(
allocation_strategy="capacity-optimized",
block_duration_minutes=0,
timeout_action="TERMINATE_CLUSTER",
timeout_duration_minutes=10,
)],
),
name="task fleet",
target_on_demand_capacity=1,
target_spot_capacity=1)Content copied to clipboard
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;
return await Deployment.RunAsync(() =>
{
var example = new Aws.Emr.Cluster("example", new()
{
MasterInstanceFleet = new Aws.Emr.Inputs.ClusterMasterInstanceFleetArgs
{
InstanceTypeConfigs = new[]
{
new Aws.Emr.Inputs.ClusterMasterInstanceFleetInstanceTypeConfigArgs
{
InstanceType = "m4.xlarge",
},
},
TargetOnDemandCapacity = 1,
},
CoreInstanceFleet = new Aws.Emr.Inputs.ClusterCoreInstanceFleetArgs
{
InstanceTypeConfigs = new[]
{
new Aws.Emr.Inputs.ClusterCoreInstanceFleetInstanceTypeConfigArgs
{
BidPriceAsPercentageOfOnDemandPrice = 80,
EbsConfigs = new[]
{
new Aws.Emr.Inputs.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs
{
Size = 100,
Type = "gp2",
VolumesPerInstance = 1,
},
},
InstanceType = "m3.xlarge",
WeightedCapacity = 1,
},
new Aws.Emr.Inputs.ClusterCoreInstanceFleetInstanceTypeConfigArgs
{
BidPriceAsPercentageOfOnDemandPrice = 100,
EbsConfigs = new[]
{
new Aws.Emr.Inputs.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs
{
Size = 100,
Type = "gp2",
VolumesPerInstance = 1,
},
},
InstanceType = "m4.xlarge",
WeightedCapacity = 1,
},
new Aws.Emr.Inputs.ClusterCoreInstanceFleetInstanceTypeConfigArgs
{
BidPriceAsPercentageOfOnDemandPrice = 100,
EbsConfigs = new[]
{
new Aws.Emr.Inputs.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs
{
Size = 100,
Type = "gp2",
VolumesPerInstance = 1,
},
},
InstanceType = "m4.2xlarge",
WeightedCapacity = 2,
},
},
LaunchSpecifications = new Aws.Emr.Inputs.ClusterCoreInstanceFleetLaunchSpecificationsArgs
{
SpotSpecifications = new[]
{
new Aws.Emr.Inputs.ClusterCoreInstanceFleetLaunchSpecificationsSpotSpecificationArgs
{
AllocationStrategy = "capacity-optimized",
BlockDurationMinutes = 0,
TimeoutAction = "SWITCH_TO_ON_DEMAND",
TimeoutDurationMinutes = 10,
},
},
},
Name = "core fleet",
TargetOnDemandCapacity = 2,
TargetSpotCapacity = 2,
},
});
var task = new Aws.Emr.InstanceFleet("task", new()
{
ClusterId = example.Id,
InstanceTypeConfigs = new[]
{
new Aws.Emr.Inputs.InstanceFleetInstanceTypeConfigArgs
{
BidPriceAsPercentageOfOnDemandPrice = 100,
EbsConfigs = new[]
{
new Aws.Emr.Inputs.InstanceFleetInstanceTypeConfigEbsConfigArgs
{
Size = 100,
Type = "gp2",
VolumesPerInstance = 1,
},
},
InstanceType = "m4.xlarge",
WeightedCapacity = 1,
},
new Aws.Emr.Inputs.InstanceFleetInstanceTypeConfigArgs
{
BidPriceAsPercentageOfOnDemandPrice = 100,
EbsConfigs = new[]
{
new Aws.Emr.Inputs.InstanceFleetInstanceTypeConfigEbsConfigArgs
{
Size = 100,
Type = "gp2",
VolumesPerInstance = 1,
},
},
InstanceType = "m4.2xlarge",
WeightedCapacity = 2,
},
},
LaunchSpecifications = new Aws.Emr.Inputs.InstanceFleetLaunchSpecificationsArgs
{
SpotSpecifications = new[]
{
new Aws.Emr.Inputs.InstanceFleetLaunchSpecificationsSpotSpecificationArgs
{
AllocationStrategy = "capacity-optimized",
BlockDurationMinutes = 0,
TimeoutAction = "TERMINATE_CLUSTER",
TimeoutDurationMinutes = 10,
},
},
},
Name = "task fleet",
TargetOnDemandCapacity = 1,
TargetSpotCapacity = 1,
});
});Content copied to clipboard
package main
import (
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/emr"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
example, err := emr.NewCluster(ctx, "example", &emr.ClusterArgs{
MasterInstanceFleet: &emr.ClusterMasterInstanceFleetArgs{
InstanceTypeConfigs: emr.ClusterMasterInstanceFleetInstanceTypeConfigArray{
&emr.ClusterMasterInstanceFleetInstanceTypeConfigArgs{
InstanceType: pulumi.String("m4.xlarge"),
},
},
TargetOnDemandCapacity: pulumi.Int(1),
},
CoreInstanceFleet: &emr.ClusterCoreInstanceFleetArgs{
InstanceTypeConfigs: emr.ClusterCoreInstanceFleetInstanceTypeConfigArray{
&emr.ClusterCoreInstanceFleetInstanceTypeConfigArgs{
BidPriceAsPercentageOfOnDemandPrice: pulumi.Float64(80),
EbsConfigs: emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArray{
&emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs{
Size: pulumi.Int(100),
Type: pulumi.String("gp2"),
VolumesPerInstance: pulumi.Int(1),
},
},
InstanceType: pulumi.String("m3.xlarge"),
WeightedCapacity: pulumi.Int(1),
},
&emr.ClusterCoreInstanceFleetInstanceTypeConfigArgs{
BidPriceAsPercentageOfOnDemandPrice: pulumi.Float64(100),
EbsConfigs: emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArray{
&emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs{
Size: pulumi.Int(100),
Type: pulumi.String("gp2"),
VolumesPerInstance: pulumi.Int(1),
},
},
InstanceType: pulumi.String("m4.xlarge"),
WeightedCapacity: pulumi.Int(1),
},
&emr.ClusterCoreInstanceFleetInstanceTypeConfigArgs{
BidPriceAsPercentageOfOnDemandPrice: pulumi.Float64(100),
EbsConfigs: emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArray{
&emr.ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs{
Size: pulumi.Int(100),
Type: pulumi.String("gp2"),
VolumesPerInstance: pulumi.Int(1),
},
},
InstanceType: pulumi.String("m4.2xlarge"),
WeightedCapacity: pulumi.Int(2),
},
},
LaunchSpecifications: &emr.ClusterCoreInstanceFleetLaunchSpecificationsArgs{
SpotSpecifications: emr.ClusterCoreInstanceFleetLaunchSpecificationsSpotSpecificationArray{
&emr.ClusterCoreInstanceFleetLaunchSpecificationsSpotSpecificationArgs{
AllocationStrategy: pulumi.String("capacity-optimized"),
BlockDurationMinutes: pulumi.Int(0),
TimeoutAction: pulumi.String("SWITCH_TO_ON_DEMAND"),
TimeoutDurationMinutes: pulumi.Int(10),
},
},
},
Name: pulumi.String("core fleet"),
TargetOnDemandCapacity: pulumi.Int(2),
TargetSpotCapacity: pulumi.Int(2),
},
})
if err != nil {
return err
}
_, err = emr.NewInstanceFleet(ctx, "task", &emr.InstanceFleetArgs{
ClusterId: example.ID(),
InstanceTypeConfigs: emr.InstanceFleetInstanceTypeConfigArray{
&emr.InstanceFleetInstanceTypeConfigArgs{
BidPriceAsPercentageOfOnDemandPrice: pulumi.Float64(100),
EbsConfigs: emr.InstanceFleetInstanceTypeConfigEbsConfigArray{
&emr.InstanceFleetInstanceTypeConfigEbsConfigArgs{
Size: pulumi.Int(100),
Type: pulumi.String("gp2"),
VolumesPerInstance: pulumi.Int(1),
},
},
InstanceType: pulumi.String("m4.xlarge"),
WeightedCapacity: pulumi.Int(1),
},
&emr.InstanceFleetInstanceTypeConfigArgs{
BidPriceAsPercentageOfOnDemandPrice: pulumi.Float64(100),
EbsConfigs: emr.InstanceFleetInstanceTypeConfigEbsConfigArray{
&emr.InstanceFleetInstanceTypeConfigEbsConfigArgs{
Size: pulumi.Int(100),
Type: pulumi.String("gp2"),
VolumesPerInstance: pulumi.Int(1),
},
},
InstanceType: pulumi.String("m4.2xlarge"),
WeightedCapacity: pulumi.Int(2),
},
},
LaunchSpecifications: &emr.InstanceFleetLaunchSpecificationsArgs{
SpotSpecifications: emr.InstanceFleetLaunchSpecificationsSpotSpecificationArray{
&emr.InstanceFleetLaunchSpecificationsSpotSpecificationArgs{
AllocationStrategy: pulumi.String("capacity-optimized"),
BlockDurationMinutes: pulumi.Int(0),
TimeoutAction: pulumi.String("TERMINATE_CLUSTER"),
TimeoutDurationMinutes: pulumi.Int(10),
},
},
},
Name: pulumi.String("task fleet"),
TargetOnDemandCapacity: pulumi.Int(1),
TargetSpotCapacity: pulumi.Int(1),
})
if err != nil {
return err
}
return nil
})
}Content copied to clipboard
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.emr.Cluster;
import com.pulumi.aws.emr.ClusterArgs;
import com.pulumi.aws.emr.inputs.ClusterMasterInstanceFleetArgs;
import com.pulumi.aws.emr.inputs.ClusterCoreInstanceFleetArgs;
import com.pulumi.aws.emr.inputs.ClusterCoreInstanceFleetLaunchSpecificationsArgs;
import com.pulumi.aws.emr.InstanceFleet;
import com.pulumi.aws.emr.InstanceFleetArgs;
import com.pulumi.aws.emr.inputs.InstanceFleetInstanceTypeConfigArgs;
import com.pulumi.aws.emr.inputs.InstanceFleetLaunchSpecificationsArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
var example = new Cluster("example", ClusterArgs.builder()
.masterInstanceFleet(ClusterMasterInstanceFleetArgs.builder()
.instanceTypeConfigs(ClusterMasterInstanceFleetInstanceTypeConfigArgs.builder()
.instanceType("m4.xlarge")
.build())
.targetOnDemandCapacity(1)
.build())
.coreInstanceFleet(ClusterCoreInstanceFleetArgs.builder()
.instanceTypeConfigs(
ClusterCoreInstanceFleetInstanceTypeConfigArgs.builder()
.bidPriceAsPercentageOfOnDemandPrice(80)
.ebsConfigs(ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs.builder()
.size(100)
.type("gp2")
.volumesPerInstance(1)
.build())
.instanceType("m3.xlarge")
.weightedCapacity(1)
.build(),
ClusterCoreInstanceFleetInstanceTypeConfigArgs.builder()
.bidPriceAsPercentageOfOnDemandPrice(100)
.ebsConfigs(ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs.builder()
.size(100)
.type("gp2")
.volumesPerInstance(1)
.build())
.instanceType("m4.xlarge")
.weightedCapacity(1)
.build(),
ClusterCoreInstanceFleetInstanceTypeConfigArgs.builder()
.bidPriceAsPercentageOfOnDemandPrice(100)
.ebsConfigs(ClusterCoreInstanceFleetInstanceTypeConfigEbsConfigArgs.builder()
.size(100)
.type("gp2")
.volumesPerInstance(1)
.build())
.instanceType("m4.2xlarge")
.weightedCapacity(2)
.build())
.launchSpecifications(ClusterCoreInstanceFleetLaunchSpecificationsArgs.builder()
.spotSpecifications(ClusterCoreInstanceFleetLaunchSpecificationsSpotSpecificationArgs.builder()
.allocationStrategy("capacity-optimized")
.blockDurationMinutes(0)
.timeoutAction("SWITCH_TO_ON_DEMAND")
.timeoutDurationMinutes(10)
.build())
.build())
.name("core fleet")
.targetOnDemandCapacity(2)
.targetSpotCapacity(2)
.build())
.build());
var task = new InstanceFleet("task", InstanceFleetArgs.builder()
.clusterId(example.id())
.instanceTypeConfigs(
InstanceFleetInstanceTypeConfigArgs.builder()
.bidPriceAsPercentageOfOnDemandPrice(100)
.ebsConfigs(InstanceFleetInstanceTypeConfigEbsConfigArgs.builder()
.size(100)
.type("gp2")
.volumesPerInstance(1)
.build())
.instanceType("m4.xlarge")
.weightedCapacity(1)
.build(),
InstanceFleetInstanceTypeConfigArgs.builder()
.bidPriceAsPercentageOfOnDemandPrice(100)
.ebsConfigs(InstanceFleetInstanceTypeConfigEbsConfigArgs.builder()
.size(100)
.type("gp2")
.volumesPerInstance(1)
.build())
.instanceType("m4.2xlarge")
.weightedCapacity(2)
.build())
.launchSpecifications(InstanceFleetLaunchSpecificationsArgs.builder()
.spotSpecifications(InstanceFleetLaunchSpecificationsSpotSpecificationArgs.builder()
.allocationStrategy("capacity-optimized")
.blockDurationMinutes(0)
.timeoutAction("TERMINATE_CLUSTER")
.timeoutDurationMinutes(10)
.build())
.build())
.name("task fleet")
.targetOnDemandCapacity(1)
.targetSpotCapacity(1)
.build());
}
}Content copied to clipboard
resources:
example:
type: aws:emr:Cluster
properties:
masterInstanceFleet:
instanceTypeConfigs:
- instanceType: m4.xlarge
targetOnDemandCapacity: 1
coreInstanceFleet:
instanceTypeConfigs:
- bidPriceAsPercentageOfOnDemandPrice: 80
ebsConfigs:
- size: 100
type: gp2
volumesPerInstance: 1
instanceType: m3.xlarge
weightedCapacity: 1
- bidPriceAsPercentageOfOnDemandPrice: 100
ebsConfigs:
- size: 100
type: gp2
volumesPerInstance: 1
instanceType: m4.xlarge
weightedCapacity: 1
- bidPriceAsPercentageOfOnDemandPrice: 100
ebsConfigs:
- size: 100
type: gp2
volumesPerInstance: 1
instanceType: m4.2xlarge
weightedCapacity: 2
launchSpecifications:
spotSpecifications:
- allocationStrategy: capacity-optimized
blockDurationMinutes: 0
timeoutAction: SWITCH_TO_ON_DEMAND
timeoutDurationMinutes: 10
name: core fleet
targetOnDemandCapacity: 2
targetSpotCapacity: 2
task:
type: aws:emr:InstanceFleet
properties:
clusterId: ${example.id}
instanceTypeConfigs:
- bidPriceAsPercentageOfOnDemandPrice: 100
ebsConfigs:
- size: 100
type: gp2
volumesPerInstance: 1
instanceType: m4.xlarge
weightedCapacity: 1
- bidPriceAsPercentageOfOnDemandPrice: 100
ebsConfigs:
- size: 100
type: gp2
volumesPerInstance: 1
instanceType: m4.2xlarge
weightedCapacity: 2
launchSpecifications:
spotSpecifications:
- allocationStrategy: capacity-optimized
blockDurationMinutes: 0
timeoutAction: TERMINATE_CLUSTER
timeoutDurationMinutes: 10
name: task fleet
targetOnDemandCapacity: 1
targetSpotCapacity: 1Content copied to clipboard
Enable Debug Logging
Debug logging in EMR is implemented as a step. It is highly recommended that you utilize the resource options configuration with ignoreChanges if other steps are being managed outside of this provider.
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
const example = new aws.emr.Cluster("example", {steps: [{
actionOnFailure: "TERMINATE_CLUSTER",
name: "Setup Hadoop Debugging",
hadoopJarStep: {
jar: "command-runner.jar",
args: ["state-pusher-script"],
},
}]});Content copied to clipboard
import pulumi
import pulumi_aws as aws
example = aws.emr.Cluster("example", steps=[aws.emr.ClusterStepArgs(
action_on_failure="TERMINATE_CLUSTER",
name="Setup Hadoop Debugging",
hadoop_jar_step=aws.emr.ClusterStepHadoopJarStepArgs(
jar="command-runner.jar",
args=["state-pusher-script"],
),
)])Content copied to clipboard
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;
return await Deployment.RunAsync(() =>
{
var example = new Aws.Emr.Cluster("example", new()
{
Steps = new[]
{
new Aws.Emr.Inputs.ClusterStepArgs
{
ActionOnFailure = "TERMINATE_CLUSTER",
Name = "Setup Hadoop Debugging",
HadoopJarStep = new Aws.Emr.Inputs.ClusterStepHadoopJarStepArgs
{
Jar = "command-runner.jar",
Args = new[]
{
"state-pusher-script",
},
},
},
},
});
});Content copied to clipboard
package main
import (
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/emr"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := emr.NewCluster(ctx, "example", &emr.ClusterArgs{
Steps: emr.ClusterStepArray{
&emr.ClusterStepArgs{
ActionOnFailure: pulumi.String("TERMINATE_CLUSTER"),
Name: pulumi.String("Setup Hadoop Debugging"),
HadoopJarStep: &emr.ClusterStepHadoopJarStepArgs{
Jar: pulumi.String("command-runner.jar"),
Args: pulumi.StringArray{
pulumi.String("state-pusher-script"),
},
},
},
},
})
if err != nil {
return err
}
return nil
})
}Content copied to clipboard
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.emr.Cluster;
import com.pulumi.aws.emr.ClusterArgs;
import com.pulumi.aws.emr.inputs.ClusterStepArgs;
import com.pulumi.aws.emr.inputs.ClusterStepHadoopJarStepArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
var example = new Cluster("example", ClusterArgs.builder()
.steps(ClusterStepArgs.builder()
.actionOnFailure("TERMINATE_CLUSTER")
.name("Setup Hadoop Debugging")
.hadoopJarStep(ClusterStepHadoopJarStepArgs.builder()
.jar("command-runner.jar")
.args("state-pusher-script")
.build())
.build())
.build());
}
}Content copied to clipboard
resources:
example:
type: aws:emr:Cluster
properties:
steps:
- actionOnFailure: TERMINATE_CLUSTER
name: Setup Hadoop Debugging
hadoopJarStep:
jar: command-runner.jar
args:
- state-pusher-scriptContent copied to clipboard
Multiple Node Master Instance Group
Available in EMR version 5.23.0 and later, an EMR Cluster can be launched with three master nodes for high availability. Additional information about this functionality and its requirements can be found in the EMR Management Guide.
import * as pulumi from "@pulumi/pulumi";
import * as aws from "@pulumi/aws";
// This configuration is for illustrative purposes and highlights
// only relevant configurations for working with this functionality.
// Map public IP on launch must be enabled for public (Internet accessible) subnets
const example = new aws.ec2.Subnet("example", {mapPublicIpOnLaunch: true});
const exampleCluster = new aws.emr.Cluster("example", {
releaseLabel: "emr-5.24.1",
terminationProtection: true,
ec2Attributes: {
subnetId: example.id,
},
masterInstanceGroup: {
instanceCount: 3,
},
coreInstanceGroup: {},
});Content copied to clipboard
import pulumi
import pulumi_aws as aws
# This configuration is for illustrative purposes and highlights
# only relevant configurations for working with this functionality.
# Map public IP on launch must be enabled for public (Internet accessible) subnets
example = aws.ec2.Subnet("example", map_public_ip_on_launch=True)
example_cluster = aws.emr.Cluster("example",
release_label="emr-5.24.1",
termination_protection=True,
ec2_attributes=aws.emr.ClusterEc2AttributesArgs(
subnet_id=example.id,
),
master_instance_group=aws.emr.ClusterMasterInstanceGroupArgs(
instance_count=3,
),
core_instance_group=aws.emr.ClusterCoreInstanceGroupArgs())Content copied to clipboard
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Aws = Pulumi.Aws;
return await Deployment.RunAsync(() =>
{
// This configuration is for illustrative purposes and highlights
// only relevant configurations for working with this functionality.
// Map public IP on launch must be enabled for public (Internet accessible) subnets
var example = new Aws.Ec2.Subnet("example", new()
{
MapPublicIpOnLaunch = true,
});
var exampleCluster = new Aws.Emr.Cluster("example", new()
{
ReleaseLabel = "emr-5.24.1",
TerminationProtection = true,
Ec2Attributes = new Aws.Emr.Inputs.ClusterEc2AttributesArgs
{
SubnetId = example.Id,
},
MasterInstanceGroup = new Aws.Emr.Inputs.ClusterMasterInstanceGroupArgs
{
InstanceCount = 3,
},
CoreInstanceGroup = null,
});
});Content copied to clipboard
package main
import (
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/ec2"
"github.com/pulumi/pulumi-aws/sdk/v6/go/aws/emr"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
// This configuration is for illustrative purposes and highlights
// only relevant configurations for working with this functionality.
// Map public IP on launch must be enabled for public (Internet accessible) subnets
example, err := ec2.NewSubnet(ctx, "example", &ec2.SubnetArgs{
MapPublicIpOnLaunch: pulumi.Bool(true),
})
if err != nil {
return err
}
_, err = emr.NewCluster(ctx, "example", &emr.ClusterArgs{
ReleaseLabel: pulumi.String("emr-5.24.1"),
TerminationProtection: pulumi.Bool(true),
Ec2Attributes: &emr.ClusterEc2AttributesArgs{
SubnetId: example.ID(),
},
MasterInstanceGroup: &emr.ClusterMasterInstanceGroupArgs{
InstanceCount: pulumi.Int(3),
},
CoreInstanceGroup: nil,
})
if err != nil {
return err
}
return nil
})
}Content copied to clipboard
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.aws.ec2.Subnet;
import com.pulumi.aws.ec2.SubnetArgs;
import com.pulumi.aws.emr.Cluster;
import com.pulumi.aws.emr.ClusterArgs;
import com.pulumi.aws.emr.inputs.ClusterEc2AttributesArgs;
import com.pulumi.aws.emr.inputs.ClusterMasterInstanceGroupArgs;
import com.pulumi.aws.emr.inputs.ClusterCoreInstanceGroupArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
// This configuration is for illustrative purposes and highlights
// only relevant configurations for working with this functionality.
// Map public IP on launch must be enabled for public (Internet accessible) subnets
var example = new Subnet("example", SubnetArgs.builder()
.mapPublicIpOnLaunch(true)
.build());
var exampleCluster = new Cluster("exampleCluster", ClusterArgs.builder()
.releaseLabel("emr-5.24.1")
.terminationProtection(true)
.ec2Attributes(ClusterEc2AttributesArgs.builder()
.subnetId(example.id())
.build())
.masterInstanceGroup(ClusterMasterInstanceGroupArgs.builder()
.instanceCount(3)
.build())
.coreInstanceGroup()
.build());
}
}Content copied to clipboard
resources:
# This configuration is for illustrative purposes and highlights
# only relevant configurations for working with this functionality.
# Map public IP on launch must be enabled for public (Internet accessible) subnets
example:
type: aws:ec2:Subnet
properties:
mapPublicIpOnLaunch: true
exampleCluster:
type: aws:emr:Cluster
name: example
properties:
releaseLabel: emr-5.24.1
terminationProtection: true
ec2Attributes:
subnetId: ${example.id}
masterInstanceGroup:
instanceCount: 3
coreInstanceGroup: {}Content copied to clipboard
Import
Using pulumi import, import EMR clusters using the id. For example:
$ pulumi import aws:emr/cluster:Cluster cluster j-123456ABCDEFContent copied to clipboard
Since the API does not return the actual values for Kerberos configurations, environments with those options set will need to use the lifecycle configuration block ignore_changes argument available to all Pulumi resources to prevent perpetual differences. For example:
Constructors
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fun ClusterArgs(additionalInfo: Output<String>? = null, applications: Output<List<String>>? = null, autoTerminationPolicy: Output<ClusterAutoTerminationPolicyArgs>? = null, autoscalingRole: Output<String>? = null, bootstrapActions: Output<List<ClusterBootstrapActionArgs>>? = null, configurations: Output<String>? = null, configurationsJson: Output<String>? = null, coreInstanceFleet: Output<ClusterCoreInstanceFleetArgs>? = null, coreInstanceGroup: Output<ClusterCoreInstanceGroupArgs>? = null, customAmiId: Output<String>? = null, ebsRootVolumeSize: Output<Int>? = null, ec2Attributes: Output<ClusterEc2AttributesArgs>? = null, keepJobFlowAliveWhenNoSteps: Output<Boolean>? = null, kerberosAttributes: Output<ClusterKerberosAttributesArgs>? = null, listStepsStates: Output<List<String>>? = null, logEncryptionKmsKeyId: Output<String>? = null, logUri: Output<String>? = null, masterInstanceFleet: Output<ClusterMasterInstanceFleetArgs>? = null, masterInstanceGroup: Output<ClusterMasterInstanceGroupArgs>? = null, name: Output<String>? = null, placementGroupConfigs: Output<List<ClusterPlacementGroupConfigArgs>>? = null, releaseLabel: Output<String>? = null, scaleDownBehavior: Output<String>? = null, securityConfiguration: Output<String>? = null, serviceRole: Output<String>? = null, stepConcurrencyLevel: Output<Int>? = null, steps: Output<List<ClusterStepArgs>>? = null, tags: Output<Map<String, String>>? = null, terminationProtection: Output<Boolean>? = null, unhealthyNodeReplacement: Output<Boolean>? = null, visibleToAllUsers: Output<Boolean>? = null)
Functions
Properties
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JSON string for selecting additional features such as adding proxy information. Note: Currently there is no API to retrieve the value of this argument after EMR cluster creation from provider, therefore the provider cannot detect drift from the actual EMR cluster if its value is changed outside the provider.
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A case-insensitive list of applications for Amazon EMR to install and configure when launching the cluster. For a list of applications available for each Amazon EMR release version, see the Amazon EMR Release Guide.
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List of configurations supplied for the EMR cluster you are creating. Supply a configuration object for applications to override their default configuration. See AWS Documentation for more information.
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Configuration block to use an Instance Fleet for the core node type. Cannot be specified if any core_instance_group configuration blocks are set. Detailed below.
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Configuration block to use an Instance Group for the core node type.
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Configuration block to use an Instance Fleet for the master node type. Cannot be specified if any master_instance_group configuration blocks are set. Detailed below.
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Configuration block to use an Instance Group for the master node type.
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