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Copy pathAutoscalingHTTPRequests.py
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273 lines (247 loc) · 7.62 KB
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from troposphere import Base64, Join
from troposphere import Parameter, Ref, Template
from troposphere import cloudformation, autoscaling
from troposphere.autoscaling import AutoScalingGroup, Tag
from troposphere.autoscaling import LaunchConfiguration, ScalingPolicy
from troposphere.elasticloadbalancing import LoadBalancer
from troposphere.policies import (
AutoScalingReplacingUpdate, AutoScalingRollingUpdate, UpdatePolicy
)
import troposphere.ec2 as ec2
import troposphere.elasticloadbalancing as elb
from troposphere.cloudwatch import Alarm, MetricDimension
t = Template()
t.add_description("""\
Configures autoscaling group for api app""")
SecurityGroup = t.add_parameter(Parameter(
"SecurityGroup",
Type="String",
Description="Security group for api instances.",
))
DeployBucket = t.add_parameter(Parameter(
"DeployBucket",
Type="String",
Description="The S3 bucket with the cloudformation scripts.",
))
SSLCertificateId = t.add_parameter(Parameter(
"SSLCertificateId",
Type="String",
Description="SSL certificate for load balancer.",
))
DeployUserAccessKey = t.add_parameter(Parameter(
"DeployUserAccessKey",
Type="String",
Description="The access key of the deploy user",
))
KeyName = t.add_parameter(Parameter(
"KeyName",
Type="String",
Description="Name of an existing EC2 KeyPair to enable SSH access",
MinLength="1",
AllowedPattern="[\x20-\x7E]*",
MaxLength="255",
ConstraintDescription="can contain only ASCII characters.",
))
DeployUserSecretKey = t.add_parameter(Parameter(
"DeployUserSecretKey",
Type="String",
Description="The secret key of the deploy user",
))
LoadBalancerSecurityGroup = t.add_parameter(Parameter(
"LoadBalancerSecurityGroup",
Type="String",
Description="Security group for api app load balancer.",
))
ScaleCapacity = t.add_parameter(Parameter(
"ScaleCapacity",
Default="1",
Type="String",
Description="Number of api servers to run",
))
AmiId = t.add_parameter(Parameter(
"AmiId",
Type="String",
Description="The AMI id for the api instances",
))
EnvType = t.add_parameter(Parameter(
"EnvType",
Type="String",
Description="The environment being deployed into",
))
PublicSubnet1 = t.add_parameter(Parameter(
"PublicSubnet1",
Type="String",
Description="A public VPC subnet ID for the api app load balancer.",
))
PublicSubnet2 = t.add_parameter(Parameter(
"PublicSubnet2",
Type="String",
Description="A public VPC subnet ID for the api load balancer.",
))
VPCAvailabilityZone2 = t.add_parameter(Parameter(
"VPCAvailabilityZone2",
MinLength="1",
Type="String",
Description="Second availability zone",
MaxLength="255",
))
VPCAvailabilityZone1 = t.add_parameter(Parameter(
"VPCAvailabilityZone1",
MinLength="1",
Type="String",
Description="First availability zone",
MaxLength="255",
))
RootStackName = t.add_parameter(Parameter(
"RootStackName",
Type="String",
Description="The root stack name",
))
ApiSubnet2 = t.add_parameter(Parameter(
"ApiSubnet2",
Type="String",
Description="Second private VPC subnet ID for the api app.",
))
ApiSubnet1 = t.add_parameter(Parameter(
"ApiSubnet1",
Type="String",
Description="First private VPC subnet ID for the api app.",
))
LaunchConfig = t.add_resource(LaunchConfiguration(
"LaunchConfiguration",
Metadata=autoscaling.Metadata(
cloudformation.Init({
"config": cloudformation.InitConfig(
files=cloudformation.InitFiles({
"/etc/rsyslog.d/20-somethin.conf": cloudformation.InitFile(
source=Join('', [
"http://",
Ref(DeployBucket),
".s3.amazonaws.com/stacks/",
Ref(RootStackName),
"/env/etc/rsyslog.d/20-somethin.conf"
]),
mode="000644",
owner="root",
group="root",
authentication="DeployUserAuth"
)
}),
services={
"sysvinit": cloudformation.InitServices({
"rsyslog": cloudformation.InitService(
enabled=True,
ensureRunning=True,
files=['/etc/rsyslog.d/20-somethin.conf']
)
})
}
)
}),
cloudformation.Authentication({
"DeployUserAuth": cloudformation.AuthenticationBlock(
type="S3",
accessKeyId=Ref(DeployUserAccessKey),
secretKey=Ref(DeployUserSecretKey)
)
})
),
UserData=Base64(Join('', [
"#!/bin/bash\n",
"cfn-signal -e 0",
" --resource AutoscalingGroup",
" --stack ", Ref("AWS::StackName"),
" --region ", Ref("AWS::Region"), "\n"
])),
ImageId=Ref(AmiId),
KeyName=Ref(KeyName),
BlockDeviceMappings=[
ec2.BlockDeviceMapping(
DeviceName="/dev/sda1",
Ebs=ec2.EBSBlockDevice(
VolumeSize="8"
)
),
],
SecurityGroups=[Ref(SecurityGroup)],
InstanceType="m1.small",
))
LoadBalancer = t.add_resource(LoadBalancer(
"LoadBalancer",
ConnectionDrainingPolicy=elb.ConnectionDrainingPolicy(
Enabled=True,
Timeout=120,
),
Subnets=[Ref(PublicSubnet1), Ref(PublicSubnet2)],
HealthCheck=elb.HealthCheck(
Target="HTTP:80/",
HealthyThreshold="5",
UnhealthyThreshold="2",
Interval="20",
Timeout="15",
),
Listeners=[
elb.Listener(
LoadBalancerPort="443",
InstancePort="80",
Protocol="HTTPS",
InstanceProtocol="HTTP",
SSLCertificateId=Ref(SSLCertificateId)
),
],
CrossZone=True,
SecurityGroups=[Ref(LoadBalancerSecurityGroup)],
LoadBalancerName="api-lb",
Scheme="internet-facing",
))
AutoscalingGroup = t.add_resource(AutoScalingGroup(
"AutoscalingGroup",
DesiredCapacity=Ref(ScaleCapacity),
Tags=[
Tag("Environment", Ref(EnvType), True)
],
LaunchConfigurationName=Ref(LaunchConfig),
MinSize=Ref(ScaleCapacity),
MaxSize=Ref(ScaleCapacity),
VPCZoneIdentifier=[Ref(ApiSubnet1), Ref(ApiSubnet2)],
LoadBalancerNames=[Ref(LoadBalancer)],
AvailabilityZones=[Ref(VPCAvailabilityZone1), Ref(VPCAvailabilityZone2)],
HealthCheckType="ELB",
UpdatePolicy=UpdatePolicy(
AutoScalingReplacingUpdate=AutoScalingReplacingUpdate(
WillReplace=True,
),
AutoScalingRollingUpdate=AutoScalingRollingUpdate(
PauseTime='PT5M',
MinInstancesInService="1",
MaxBatchSize='1',
WaitOnResourceSignals=True
)
)
))
ScalePolicy = t.add_resource(ScalingPolicy(
"HTTPRequestScalingPolicy",
AdjustmentType="ChangeInCapacity",
AutoScalingGroupName=Ref(AutoscalingGroup),
Cooldown="1",
ScalingAdjustment="1"
))
HTTPRequestAlarm = t.add_resource(Alarm(
"HTTPRequestAlarm",
AlarmDescription="Alarm if HTTP Requests go above a 2000",
Namespace="AWS/SQS",
MetricName="RequestCount",
Dimensions=[
MetricDimension(
Name="LoadBalancerName",
Value=Ref(LoadBalancer)
),
],
Statistic="Sum",
Period="300",
EvaluationPeriods="1",
Threshold="2000",
ComparisonOperator="GreaterThanThreshold",
AlarmActions=[Ref(ScalePolicy)]
))
print(t.to_json())