OpenStack Heat AutoScale Juno: различия между версиями
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Версия 15:26, 4 ноября 2015
OpenStack Heat AutoScaling (Juno)
Это короткая заметка про использование автоскейлинша с хитом и цейлометром в Juno (сборка Mirantis и в ванильном джуно может не хватать каких-то бекпортов, я это специально не проверял)
Введение
Дальше по тексту я буду приводить только части шаблонов, полные шаблоны - в конце, отдельным разделом. Это нужно для простоты - читать "простыню" не удобно.
Основная задача формулируется так:
- Есть абстрактное приложение которое надо масштабировать от нагрузки
- При превышении порога по какой-либо метрике добавлять +N экземпляров приложения (виртуальную машину)
- При отсутствии нагрузки удалять -M экземпляров приложения (виртуальных машин)
- M и N - целые числа (в моем примере они будут равны 1)
Создание стека
Команду создания стека я вынес в отдельный скрипт для простоты
D=` date +%Y%m%d%H%M%S` heat stack-create ABC-${D} -f asglb.yaml \ -P "key_name=demo;net=net04;subnet=net04__subnet;public_net=net04_ext;app_lb_port=80;timeout=600;min_asg_size=1;max_asg_size=3;launch_asg_size=3"
Описание параметров
asg
asg: type: OS::Heat::AutoScalingGroup properties: desired_capacity: { get_param: launch_asg_size } max_size: { get_param: max_asg_size } min_size: { get_param: min_asg_size } cooldown: { get_param: cooldown } resource: type: app_server_neutron.yaml properties: mdata: {"metering.stack": {get_param: "OS::stack_id"}} image: { get_param: image } flavor: { get_param: flavor } key_name: { get_param: key_name } net: { get_param: net} app_sec_group: { get_resource: app_sec_group } ssh_sec_group: { get_resource: ssh_sec_group } app_port: { get_param: app_port } app_pool_id: { get_resource: app_pool } ssh_pool_id: { get_resource: ssh_pool } timeout: { get_param: timeout }
Обратить внимание на
- desired_capacity - какой размер будет при старте
- max_size, min_size - максимальный и минимальный размеры больше или меньше которых скелиться не будем.
- cooldown - время после изменения размера группы в течении которого игнорируем другие запросы на изменение. Другими словами, если пришел запрос на увеличение, а потом почти срразу (за промежуток времени меньше cooldown ) - то второй запрос будет проигнорирован.
- resource:
- type: app_server_neutron.yaml - ссылка на описание сервера который собственно и есть инстансом аппликейшена.
3
test_alarm_high: Type: OS::Ceilometer::Alarm Properties: description: Scale-up if the average CPU > 50% for 1 minute meter_name: test_meter statistic: max period: 60 evaluation_periods: 1 threshold: 2 # alarm_actions: # - {"Fn::GetAtt": [scale_up, alarm_url]} matching_metadata: {"metadata.user_metadata.stack": {Ref: "AWS::StackId"}} comparison_operator: gt repeat_actions: true
cpu_alarm_high: Type: OS::Ceilometer::Alarm Properties: description: Scale-up if the average CPU > 50% for 1 minute meter_name: cpu_util statistic: avg period: 60 evaluation_periods: 1 threshold: 50 # alarm_actions: # - {"Fn::GetAtt": [scale_up, alarm_url]} matching_metadata: {"metadata.user_metadata.stack": {Ref: "AWS::StackId"}} comparison_operator: gt repeat_actions: true <PRE> <PRE> up_alarm: Type: OS::Ceilometer::CombinationAlarm Properties: alarm_ids: - {"Ref" : "test_alarm_high"} - {"Ref" : "cpu_alarm_high"} alarm_actions: - {"Fn::GetAtt": [scale_up, alarm_url]} repeat_actions: true operator: or
4
asglb.yaml
HeatTemplateFormatVersion: 2012-12-12 Description: | Template which tests Neutron load balancing requests to members of Heat AutoScalingGroup. Instances must be running some webserver on a given app_port producing HTTP response that is different between servers but stable over time for given server. Auto-scaling is driven by Ceilometer alarms. Both HTTP and SSH access are load-balanced. Parameters: flavor: Type: String Default: m1.compact image: Type: String Default: fedora-heat-test username: Type: String Default: root key_name: Type: String Default: ericsson net: Type: String Default: net04 subnet: Type: String Default: net04__subnet public_net: Type: String Default: net04_ext app_port: Type: Number Default: 1026 app_lb_port: Type: Number Default: 80 timeout: Type: Number Default: 600 min_asg_size: Type: Number Default: 1 max_asg_size: Type: Number Default: 3 launch_asg_size: Type: Number Default: 2 cooldown: Type: Number Default: 60 Resources: CfnLBUser: Type: AWS::IAM::User CfnLBAccessKey: Type: AWS::IAM::AccessKey Properties: "UserName" : {"Ref": "CfnLBUser"} app_sec_group: Type: OS::Neutron::SecurityGroup Properties: rules: - remote_ip_prefix: 0.0.0.0/0 protocol: tcp port_range_min: { Ref: app_port } port_range_max: { Ref: app_port } ssh_sec_group: Type: OS::Neutron::SecurityGroup Properties: rules: - remote_ip_prefix: 0.0.0.0/0 protocol: tcp port_range_min: 22 port_range_max: 22 asg: Type: OS::Heat::AutoScalingGroup Properties: desired_capacity: { Ref: launch_asg_size } max_size: { Ref: max_asg_size } min_size: { Ref: min_asg_size } cooldown: { Ref: cooldown } resource: # type: https://raw.githubusercontent.com/olguncengiz/hot/master/app_server_neutron.yaml type: APP_server_neutron.yaml properties: mdata: {"metering.stack": {Ref: "AWS::StackId"}} image: { Ref: image } flavor: { Ref: flavor } key_name: { Ref: key_name } net: { Ref: net} app_sec_group: { Ref: app_sec_group } ssh_sec_group: { Ref: ssh_sec_group } app_port: { Ref: app_port } app_pool_id: { Ref: app_pool } ssh_pool_id: { Ref: ssh_pool } timeout: { Ref: timeout } #mem_alarm_low: { "Ref" : "mem_alarm_low" } #mem_alarm_high: { "Ref" : "mem_alarm_high" } access_key: { "Ref" : "CfnLBAccessKey" } secret_key: { "Fn::GetAtt": ["CfnLBAccessKey","SecretAccessKey"] } stack_id: { "Ref" : "AWS::StackId" } scale_up: Type: OS::Heat::ScalingPolicy Properties: adjustment_type: change_in_capacity auto_scaling_group_id: { Ref: asg } scaling_adjustment: 1 scale_down: Type: OS::Heat::ScalingPolicy Properties: adjustment_type: change_in_capacity auto_scaling_group_id: { Ref: asg } scaling_adjustment: -1 test_alarm_high: Type: OS::Ceilometer::Alarm Properties: description: Scale-up if the average CPU > 50% for 1 minute meter_name: test_meter statistic: max period: 60 evaluation_periods: 1 threshold: 2 # alarm_actions: # - {"Fn::GetAtt": [scale_up, alarm_url]} matching_metadata: {"metadata.user_metadata.stack": {Ref: "AWS::StackId"}} comparison_operator: gt repeat_actions: true cpu_alarm_high: Type: OS::Ceilometer::Alarm Properties: description: Scale-up if the average CPU > 50% for 1 minute meter_name: cpu_util statistic: avg period: 60 evaluation_periods: 1 threshold: 50 # alarm_actions: # - {"Fn::GetAtt": [scale_up, alarm_url]} matching_metadata: {"metadata.user_metadata.stack": {Ref: "AWS::StackId"}} comparison_operator: gt repeat_actions: true up_alarm: Type: OS::Ceilometer::CombinationAlarm Properties: alarm_ids: - {"Ref" : "test_alarm_high"} - {"Ref" : "cpu_alarm_high"} alarm_actions: - {"Fn::GetAtt": [scale_up, alarm_url]} repeat_actions: true operator: or cpu_alarm_low: Type: OS::Ceilometer::Alarm Properties: description: Scale-down if the average CPU < 15% for 1 minute meter_name: cpu_util statistic: avg period: 60 evaluation_periods: 1 threshold: 15 alarm_actions: - {"Fn::GetAtt": [scale_down, alarm_url]} matching_metadata: {"metadata.user_metadata.stack": {Ref: "AWS::StackId"}} comparison_operator: lt repeat_actions: true # mem_alarm_high: # Type: OS::Heat::CWLiteAlarm # Properties: # AlarmDescription: "" # MetricName: MemoryUtilization # Namespace: "system/linux" # Statistic: Maximum # Period: "60" # EvaluationPeriods: "1" # Threshold: "50" # AlarmActions: [ { "Ref": "scale_up" } ] # ComparisonOperator: GreaterThanThreshold # Dimensions: # - Name: AutoScalingGroupName # Value: { Ref: asg } # # mem_alarm_low: # Type: OS::Heat::CWLiteAlarm # Properties: # AlarmDescription: "" # MetricName: MemoryUtilization # Namespace: "system/linux" # Statistic: Maximum # Period: "60" # EvaluationPeriods: "1" # Threshold: "10" # AlarmActions: [ { "Ref": "scale_down" } ] # ComparisonOperator: LessThanThreshold # Dimensions: # - Name: AutoScalingGroupName # Value: { Ref: asg } app_health_monitor: Type: OS::Neutron::HealthMonitor Properties: delay: 3 type: HTTP timeout: 3 max_retries: 3 app_pool: Type: OS::Neutron::Pool Properties: lb_method: ROUND_ROBIN protocol: HTTP subnet: { Ref: subnet } monitors: - { Ref: app_health_monitor } vip: protocol_port: { Ref: app_lb_port } app_floating_ip: Type: OS::Neutron::FloatingIP Properties: floating_network: { Ref: public_net } port_id: { "Fn::Select": [ "port_id", { "Fn::GetAtt": [app_pool, vip] } ] } ssh_pool: Type: OS::Neutron::Pool Properties: lb_method: ROUND_ROBIN protocol: TCP subnet: { Ref: subnet } vip: protocol_port: 22 ssh_floating_ip: Type: OS::Neutron::FloatingIP Properties: floating_network: { Ref: public_net } port_id: { "Fn::Select": [ "port_id", {"Fn::GetAtt": [ssh_pool, vip] } ] } Outputs: # pool_vip: # "Value": { "Fn::GetAtt": [ssh_pool, vip] } test: "Value": { "Fn::Select": [ "port_id", { "Fn::GetAtt": [ssh_pool, vip] } ] } AWSAccessKey: Value: { "Ref" : "CfnLBAccessKey" } AWSSecretKey: Value: { "Fn::GetAtt": ["CfnLBAccessKey","SecretAccessKey"] } Stack: Value: { "Ref" : "AWS::StackId" } Region: Value: { "Ref" : "AWS::Region" } # AlarmMemHigh: # Value: { "Ref" : "mem_alarm_high" } # AlarmMemLow: # Value: { "Ref" : "mem_alarm_low" } WaitNotify: Value: { "Fn::GetAtt": ["asg", "WaitNotify"] } # app_lb_url: # Description: URL of the loadbalanced app # Value: # str_replace: # template: http://IP_ADDRESS:PORT # params: # IP_ADDRESS: { "Fn::GetAtt": [ app_floating_ip, floating_ip_address ] } # PORT: { Ref: app_lb_port } # # ssh_lb_url: # Description: command for the loadbalanced SSH access # Value: # str_replace: # template: ssh -i KEY.pem USER@IP_ADDRESS # params: # IP_ADDRESS: { "Fn::GetAtt": [ ssh_floating_ip, floating_ip_address ] } # KEY: { Ref: key_name } # USER: { Ref: username } # # scale_up_hook: # Description: POST to this URL for manual scale up # Value: {"Fn::GetAtt": [scale_up, alarm_url]} # # scale_down_hook: # Description: POST to this URL for manual scale up # Value: {"Fn::GetAtt": [scale_down, alarm_url]}
APP_server_neutron.yaml
HeatTemplateFormatVersion: 2012-12-12 Description: | App server that is a member of Neutron Pool. Parameters: mdata: Type: Json image: Type: String flavor: Type: String key_name: Type: String net: Type: String app_sec_group: Type: String ssh_sec_group: Type: String app_pool_id: Type: String ssh_pool_id: Type: String app_port: Type: Number Default: 1026 timeout: Type: Number # mem_alarm_low: # Type: String # mem_alarm_high: # Type: String secret_key: Type: String access_key: Type: String stack_id: Type: String Resources: server: Type: OS::Nova::Server Properties: metadata: { Ref: mdata } image: { Ref: image } flavor: { Ref: flavor } key_name: { Ref: key_name } networks: - network: { Ref: net } security_groups: - { Ref: app_sec_group } - { Ref: ssh_sec_group } user_data: "Fn::Base64": { "Fn::Join" : ["", [ "#!/bin/bash -v\n", "\n", "#yum -y install heat-cfntools-1.2.6-4.el6.noarch\n", "#/usr/bin/cfn-create-aws-symlinks\n", "\n", "mkdir -p \"/etc/cfn/\"\n ", "touch /etc/cfn/cfn-credentials\n", "echo \"AWSAccessKeyId=\"", { "Ref" : "access_key" } , ">>/etc/cfn/cfn-credentials\n", "echo \"AWSSecretKey=\"", {"Ref" : "secret_key" }, ">> /etc/cfn/cfn-credentials\n" , "\n", "service crond restart \n", "yum -y install cpulimit stress screen \n", "cd /tmp ; git clone https://github.com/julman99/eatmemory.git; cd eatmemory; make; make install \n", "pip install python-ceilometerclient \n", "echo \"export LC_ALL=C\" >> /root/openrc \n", "echo \"export OS_NO_CACHE='true'\" >> /root/openrc \n", "echo \"export OS_TENANT_NAME='admin'\" >> /root/openrc \n", "echo \"export OS_USERNAME='admin'\" >> /root/openrc \n", "echo \"export OS_PASSWORD='admin'\" >> /root/openrc \n", "echo \"export OS_AUTH_URL='http://159.8.10.162:5000/v2.0/'\" >> /root/openrc \n", "echo \"export OS_AUTH_STRATEGY='keystone'\" >> /root/openrc \n", "echo \"export OS_REGION_NAME='RegionOne'\" >> /root/openrc \n", "echo \"export CINDER_ENDPOINT_TYPE='publicURL'\" >> /root/openrc \n", "echo \"export GLANCE_ENDPOINT_TYPE='publicURL'\" >> /root/openrc \n", "echo \"export KEYSTONE_ENDPOINT_TYPE='publicURL'\" >> /root/openrc \n", "echo \"export NOVA_ENDPOINT_TYPE='publicURL'\" >> /root/openrc \n", "echo \"export NEUTRON_ENDPOINT_TYPE='publicURL'\" >> /root/openrc \n", "ceilometer sample-create -r 6c3fd865-a478-4afc-909e-eced382de432 -m test_meter --meter-type gauge --meter-unit percents --sample-volume 99 --resource-metadata '{\"metering.metadata.user_metadata.stack\": \"", { "Ref": "stack_id" }, "\"}'\n", { "Fn::GetAtt": ["handle", "curl_cli" ] }, " --data-binary '{\"status\": \"SUCCESS\"}'\n" ] ] } handle: Type: OS::Heat::WaitConditionHandle waiter: Type: OS::Heat::WaitCondition DependsOn: server Properties: timeout: { Ref: timeout } handle: { Ref: handle } app_pool_member: Type: OS::Neutron::PoolMember DependsOn: waiter Properties: address: { "Fn::GetAtt": [ server, first_address ] } pool_id: { Ref: app_pool_id } protocol_port: { Ref: app_port } ssh_pool_member: Type: OS::Neutron::PoolMember DependsOn: waiter Properties: address: { "Fn::GetAtt": [ server, first_address ] } pool_id: { Ref: ssh_pool_id } protocol_port: 22 Outputs: WaitNotify: Value: { "Fn::GetAtt": ["handle", "curl_cli" ] }