Azure Plugin
The Azure plugin enables you to use Studio Conductor to manage cloud resources on Azure. See below for currently supported resource types.
Plugin Requirements
- Python Versions 2.7.x.
- Azure account.
Compatibility
The Azure plugin has two methods for interacting with Azure services: legacy and SDK based.
The legacy library is tested against these Azure API Versions:
RESOURCES = ‘2017-05-10’
STORAGE = ‘2015-06-15’
NETWORK = ‘2016-03-30’
COMPUTE = ‘2016-03-30’
The SDK-based method is dependent on the SDK library versions. (See the setup.py for current versions.) Currently only ARM resource template node templates use this method.
Authentication
Each Azure resource node template must include a property azure_config
for authentication. This consists of a tenant_id
, client_id
, client_secret
or client_assertion
, and subscription_id
. These can be provided via secrets for better security coverage.
Plugin 1.8.0
introduced support for certificate-based authentication. Provide subscription_id
, tenant_id
, client_id
and client_assertion
. For more information see overview of client_assertion authentication and how to create an AD client certificate.
Authentication with Azure services requires a Service Principal. See this documentation from Microsoft on creating a Service Principal.
client_id
is the Service PrincipalappId
.client_secret
is the Service Principalpassword
.tenant_id
is the Service Principaltenant
.
Providing Credentials as Secrets
It is recommended that you store your credentials as secrets. You can do this using the CLI. Secrets can then be accessed inside your blueprints, as follows:
resource_group:
type: cloudify.azure.nodes.ResourceGroup
properties:
name: my_resource_group
location: { get_secret: location }
azure_config:
subscription_id: { get_secret: subscription_id }
tenant_id: { get_secret: tenant_id }
client_id: { get_secret: client_id }
client_secret: { get_secret: client_secret }
Azure Stack
Studio Conductor Azure Plugin version 1.6.0 introduced support for Azure Stack.
To configure your client, add the appropriate values for your endpoint keys, such as endpoint_resource
, endpoints_resource_manager
, endpoint_verify
, and endpoints_active_directory
.
Make sure to specify the appropriate api_version
of the Azure resource that is currently supported in your Azure stack.
Example:
resource_group:
type: cloudify.azure.nodes.ResourceGroup
properties:
api_version: 2017-05-10
name: my_resource_group
location: { get_secret: location }
azure_config:
subscription_id: { get_secret: subscription_id }
tenant_id: { get_secret: tenant_id }
client_id: { get_secret: client_id }
client_secret: { get_secret: client_secret }
endpoint_resource: https://management.core.windows.net/
endpoints_resource_manager: https://management.azure.com
endpoint_verify: True
endpoints_active_directory: https://login.microsoftonline.com
Types
The following are node type definitions. Nodes describe resources in your cloud infrastructure. For more information, see node types.
Common Properties
All cloud resource nodes have common properties:
name
location
tags
retry_after
Because Azure’s API is asynchronous, the value indicates the interval between retries.
Properties
Each time that you manage a resource with Studio Conductor, one or more clients are created by Studio Conductor through the Azure API. You specify the configuration for these clients using the azure_config
property. It should be a dictionary, with the following values:
Your Azure API access credentials
subscription_id
tenant_id
client_id
client_secret
See the cloudify.datatypes.azure.Config
data type definition in the plugin’s plugin.yaml.
cloudify.nodes.azure.CustomTypes
Manage Azure resources that do not have a plugin implementation.
Derived From: cloudify.nodes.Root
Properties:
See the Common Properties section.
resource_config
A dictionary with the following keys:custom_resource_module
: The path to a Python module from which you wish to import an Azure client.custom_resource_class_name
: The name of the Azure client, which is at the custom_resource_module import location.custom_resource_object_name
: The name of the resource managed fromcustom_resource_class_name
.create_fn_name
: The name of the function used for creating the resource on thecustom_resource_object_name
.update_fn_name
: The name of the function used for updating the resource on thecustom_resource_object_name
.delete_fn_name
: The name of the function used for deleting the resource on thecustom_resource_object_name
.get_fn_name
: The name of the function used for getting the resource on thecustom_resource_object_name
.get_params
: The parameters used for getting the resource via get_fn_name.
operation_config
The path to a blueprint resource containing an Azure Resource Template.create
: The parameters to send to create_fn_name.update
: The parameters to send to update_fn_name.delete
: The parameters to send to delete_fn_name.
Runtime Properties:
resource
The result of get/create Azure deployment operation.create_result
The result of the create_fn_name.__RESOURCE_CREATED
If the resource has been created or not.update_result
The result of update_fn_name.__RESOURCE_DELETED
If the resource has been deleted or not.delete_result
The result of the delete_fn_name.
Example
This example shows a very basic usage for creating a resource group.
resource_group:
type: cloudify.nodes.azure.CustomTypes
properties:
api_version: '2017-05-10'
location: eastus
client_config: *azure_config
resource_config:
custom_resource_module: azure.mgmt.resource
custom_resource_class_name: ResourceManagementClient
custom_resource_object_name: resource_groups
create_fn_name: create_or_update
update_fn_name: create_or_update
delete_fn_name: delete
get_params: &resource_group_params
resource_group_name: mynewresourcegroup
operation_config:
create:
<<: *resource_group_params
parameters:
location: { get_property: [ SELF, location ] }
delete: *resource_group_params
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the resource.cloudify.interfaces.lifecycle.start
Updates the resource.cloudify.interfaces.lifecycle.delete
Deletes the resource.
cloudify.azure.Deployment
Deploy an Azure ARM Template.
Derived From: cloudify.nodes.Root
Properties:
See the Common Properties section.
resource_group_name
The name of the resource group in which to create the resource.template_file
The path to a blueprint resource containing an Azure Resource Template.template
The content of an Azure Resource Template.params
Parameters to provide to the Azure Resource Template.
Runtime Properties:
resource_id
The id of the Azure deployment.resource
The result of get/create Azure deployment operation.template
Content of the template that the Azure deployment was created with.outputs
Azure deployment outputs.state
The state of the Azure deployment. I.e, a list of resources id’s created by the Azure deployment and exist in Azure.is_drifted
Boolean that indicates whether one or more of the resources created by the Azure deployment was deleted.
Example
This example shows adding resource parameters, and explicitly defining the azure_config.
deployment:
type: cloudify.azure.Deployment
properties:
name: azure-python-deployment-sample
location: { get_input: location }
azure_config: *azure_config
params:
sshKeyData: { get_input: public_key }
vmName: { get_input: vm_name }
dnsLabelPrefix: { get_input: vm_dns_name }
template_file: template.json
deployment:
type: cloudify.azure.Deployment
properties:
name: azure-python-deployment-sample
location: { get_input: location }
azure_config: *azure_config
params:
sshKeyData: { get_input: public_key }
vmName: { get_input: vm_name }
dnsLabelPrefix: { get_input: vm_dns_name }
# The following template has been truncated.
template: {
"$schema": "http://schema.management.azure.com/schemas/2014-04-01-preview/deploymentTemplate.json",
"contentVersion": "1.0.0.0",
"parameters": {...},
"variables": {...},
"resources": [...]
}
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a resource group.cloudify.interfaces.lifecycle.start
Pulls the state of the Azure deployment.Updatestate
andis_drifted
runtime properties.cloudify.interfaces.lifecycle.delete
Deletes a resource group.cloudify.interfaces.lifecycle.pull
Pulls the state of the Azure deployment.Updatestate
andis_drifted
runtime properties.
cloudify.azure.nodes.ResourceGroup
Derived From: cloudify.nodes.Root
Properties:
See the Common Properties section.
Example
This example shows adding resource parameters, and explicitly defining the azure_config.
resourcegroup:
type: cloudify.azure.nodes.ResourceGroup
properties:
name: {concat:[ { get_input: resource_prefix }, rg ] }
location: { get_input: location }
azure_config:
subscription_id: { get_input: subscription_id }
tenant_id: { get_input: tenant_id }
client_id: { get_input: client_id }
client_secret: { get_input: client_secret }
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a resource group.cloudify.interfaces.lifecycle.delete
Deletes a resource group.
cloudify.azure.nodes.storage.StorageAccount
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
S dictionary with the following key:accountType
A storage account type.
See the Common Properties section.
Example
This example shows adding storage parameters, and explicitly defining the azure_config.
storageaccount:
type: cloudify.azure.nodes.storage.StorageAccount
properties:
name: mysa01
location: { get_input: location }
retry_after: { get_input: retry_after }
resource_config:
accountType: Standard_LRS
azure_config: *azure_config
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a storage account.cloudify.interfaces.lifecycle.delete
Deletes a storage account.
cloudify.azure.nodes.network.VirtualNetwork
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
A dictionary with the following keys:addressSpace
:addressPrefixes
A list of address prefixes.
dhcpOptions
A list of DHCP options.subnets
A list of subnets.
See the Common Properties section.
Example
This example shows adding virtual network parameters, and explicitly defining the azure_config.
virtual_network:
type: cloudify.azure.nodes.network.VirtualNetwork
properties:
name: myvnet01
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a network.cloudify.interfaces.lifecycle.delete
Deletes a network.
cloudify.azure.nodes.network.Subnet
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.virtual_network_name
The name of the network in which the subnet is to be created.resource_config
A dictionary with the following keys:addressPrefix
The address prefix to use.networkSecurityGroup
The name of a security group to attach, if one exists.routeTable
The name of a route table to use, if one exists.
See the Common Properties section.
Example
This example shows adding subnet parameters, and explicitly defining the azure_config.
subnet:
type: cloudify.azure.nodes.network.Subnet
properties:
name: mysubnet
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
addressPrefix: { get_input: subnet_private_cidr }
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a subnet.cloudify.interfaces.lifecycle.delete
Deletes a subnet.
cloudify.azure.nodes.network.NetworkSecurityGroup
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
A dictionary with the following key:securityRules
An optional list of rules.
See the Common Properties section.
Example
This example shows adding security group parameters, and explicitly defining the azure_config.
networksecuritygroup:
type: cloudify.azure.nodes.network.NetworkSecurityGroup
properties:
name: mynsg
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
securityRules:
- name: nsr_ssh
properties:
description: SSH access
protocol: Tcp
sourcePortRange: '*'
destinationPortRange: 22
sourceAddressPrefix: '*'
destinationAddressPrefix: '*'
priority: 100
access: Allow
direction: Inbound
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a network security group.cloudify.interfaces.lifecycle.delete
Deletes a network security group.
cloudify.azure.nodes.network.NetworkSecurityRule
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.network_security_group_name
The name of the security group in which to create the resource.resource_config
A dictionary with the following keys:description
A string to describe the rule.protocol
Either TCP or UDP.sourcePortRange
An integer between 1 and 65535.destinationPortRange
An integer between 1 and 65535 that is greater thansourcePortRange
.sourceAddressPrefix
The source address prefix of the network, subnet, or IP.destinationAddressPrefix
The destination address prefix of the network, subnet, or NIC.access
EitherAllow
orDeny
.priority
A unique number.direction
EitherInbound
orOutbound
.
See the Common Properties section.
Example
This example shows adding security group rule parameters, and explicitly defining the azure_config.
network_security_rule:
type: cloudify.azure.nodes.network.NetworkSecurityRule
properties:
name: mocknsr
location: eastus
azure_config: *azure_config
network_security_group_name: mocknsg
resource_config:
description: RDP access
protocol: Tcp
sourcePortRange: '*'
destinationPortRange: 3389
sourceAddressPrefix: '*'
destinationAddressPrefix: '*'
priority: 100
access: Allow
direction: Inbound
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a network security group rule.cloudify.interfaces.lifecycle.delete
Deletes a network security group rule.
cloudify.azure.nodes.network.RouteTable
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.network_security_group_name
The name of the security group in which to create the resource.resource_config
A dictionary with the following key:routes
An optional list of routes.
See the Common Properties section.
Example
This example shows adding route table parameters, and explicitly defining the azure_config.
routetable:
type: cloudify.azure.nodes.network.RouteTable
properties:
name: myrt
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a route table.cloudify.interfaces.lifecycle.delete
Deletes a route table.
cloudify.azure.nodes.network.Route
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.route_table_name
The name of the route table tin which to create the rule.resource_config
A dictionary with the following keys:addressPrefix
The destination CIDR to which to route the appnextHopType
The type of Azure hop to which the packet is to be be sent.nextHopIpAddress
An optional IP address to which packets are to be forwarded.
See the Common Properties section.
Example
This example shows adding route rule parameters, and explicitly defining the azure_config.
internetroute:
type: cloudify.azure.nodes.network.Route
properties:
name: myir
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
addressPrefix: 0.0.0.0/0
nextHopType: Internet
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the route rule.cloudify.interfaces.lifecycle.delete
Deletes the route rule.
cloudify.azure.nodes.network.IPConfiguration
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
A dictionary with the following key:privateIPAddress
Static, private IP addressprivateIPAllocationMethod
Defines how a private IP address is assigned. Options areStatic
orDynamic
.
See the Common Properties section.
Example
This example shows adding route IP configuration parameters, and explicitly defining the azure_config.
ubuntuipconfig:
type: cloudify.azure.nodes.network.IPConfiguration
properties:
name: myuic
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
privateIPAllocationMethod: Dynamic
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the route IP configuration.cloudify.interfaces.lifecycle.delete
Deletes the route IP configuration.
cloudify.azure.nodes.network.PublicIPAddress
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
A dictionary with the following keys:publicIPAllocationMethod
Static
orDynamic
.idleTimeoutInMinutes
The timeout (in minutes) for the TCP idle connection.domainNameLabel
The concatenation of the domain name label and the regionalized DNS zone, resulting in the fully qualified domain name associated with the public IP address.reverseFqdn
A fully qualified domain name that resolves to this public IP address.
See the Common Properties section.
Example
This example shows adding public IP address parameters, and explicitly defining the azure_config.
ubuntuipconfig:
type: cloudify.azure.nodes.network.IPConfiguration
properties:
name: myuic
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
privateIPAllocationMethod: Dynamic
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the public IP address.cloudify.interfaces.lifecycle.delete
Deletes the public IP address.
cloudify.azure.nodes.compute.AvailabilitySet
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
A dictionarey with the following keys:platformUpdateDomainCount
Specifies the number of update domains that are used.platformFaultDomainCount
Specifies the number of fault domains that are used.
See the Common Properties section.
Example
This example shows adding availability set parameters, and explicitly defining the azure_config.
availabilityset:
type: cloudify.azure.nodes.compute.AvailabilitySet
properties:
name: myac
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the availability set.cloudify.interfaces.lifecycle.delete
Deletes the availability set.
cloudify.azure.nodes.compute.VirtualMachine
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.use_public_ip
Triggers the deployment to use the public IP (if available) of the resource for Studio Conductor Agent connections.resource_config
See: https://msdn.microsoft.com/en-us/library/azure/mt163591.aspx. You can override these values via theargs
input to the create operation.hardwareProfile
storageProfile
osProfile
ip
Property specifying the IP address of the resource to use for the agent installer.os_family
Property specifying the type of operating system family.
See the Common Properties section.
Example
This example shows adding VM parameters, and explicitly defining the azure_config.
host:
type: cloudify.azure.nodes.compute.VirtualMachine
properties:
name: myhost
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
os_family: { get_input: os_family_linux }
use_public_ip: false
resource_config:
hardwareProfile:
vmSize: { get_input: standard_a2_size }
storageProfile:
imageReference:
publisher: { get_input: image_publisher_centos_final }
offer: { get_input: image_offer_centos_final }
sku: { get_input: image_sku_centos_final }
version: { get_input: image_version_centos_final }
osProfile:
computerName: { get_property: [SELF, name] }
adminUsername: { get_input: username_centos_final }
adminPassword: { get_input: password }
linuxConfiguration:
ssh:
publicKeys:
- path: { get_input: authorized_keys_centos }
keyData: { get_input: keydata }
disablePasswordAuthentication: { get_input: public_key_auth_only }
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the VM. Theargs
input overrides members of theresource_config
node property.cloudify.interfaces.lifecycle.configure
Compares the user VM config inputs with the state of the VM in Azure and update the VM if needed(useful when usinguse_external_resource
).cloudify.interfaces.lifecycle.start
Configures the VM.commands_to_execute
Input. The command that theCustomScriptExtension
extension executes.file_uris
The SAS URL from which to download the script.
cloudify.interfaces.lifecycle.delete
Deletes the VM.
cloudify.azure.nodes.compute.VirtualMachineExtension
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.virtual_machine_name
The VM to use.resource_config
:publisher
Extensions publisher.ext_type
Type.typeHandlerVersion
Type handler version.settings
Accepts the file_uri and commands to execute objects. See the Common Properties section.
Example
This example shows adding VM extension parameters, and explicitly defining the azure_config.
webserver:
type: cloudify.azure.nodes.compute.VirtualMachineExtension
properties:
name: vm1_webserver
location: { get_input: location }
retry_after: { get_input: retry_after }
resource_config:
publisher: Microsoft.Powershell
ext_type: DSC
typeHandlerVersion: '2.8'
settings:
ModulesUrl: https://www.example.com/modules.zip
ConfigurationFunction: windows-iis-webapp.ps1\CloudifyExample
Properties:
MachineName: { get_property: [vm1, name] }
WebServerPort: { get_input: webserver_port }
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the VM extension.cloudify.interfaces.lifecycle.delete
Deletes the VM extension.
cloudify.azure.nodes.network.LoadBalancer
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.resource_config
:frontendIPConfigurations
A Load balancer that can include one or more front-end IP addresses, (virtual IPs).backendAddressPools
The IP addresses associated with the virtual machine NIC.loadBalancingRules
A rule property that maps a specific front-end IP and port combination to a set of back-end IP addresses and port combination.inboundNatRules
NAT rules that define the inbound traffic flowing through the front-end IP and distributed to the back end IP.
See the Common Properties section.
Example
This example shows adding load balancer parameters, and explicitly defining the azure_config.
loadbalancer:
type: cloudify.azure.nodes.network.LoadBalancer
properties:
name: mylb
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
relationships:
- type: cloudify.azure.relationships.contained_in_resource_group
target: resourcegroup
- type: cloudify.azure.relationships.connected_to_ip_configuration
target: loadbalanceripcfg
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a load balancer.cloudify.interfaces.lifecycle.delete
Deletes a load balancer.
cloudify.azure.nodes.network.LoadBalancer.BackendAddressPool
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resourceload_balancer_name
The name of the load balancer within which to create the pool.
See the Common Properties section.
Example
This example shows adding load balancer pool parameters, and explicitly defining the azure_config.
loadbalancerbackendpool:
type: cloudify.azure.nodes.network.LoadBalancer.BackendAddressPool
properties:
name: mylb
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
relationships:
- type: cloudify.azure.relationships.contained_in_load_balancer
target: loadbalancer
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a load balancer pool.cloudify.interfaces.lifecycle.delete
Deletes a load balancer pool.
cloudify.azure.nodes.network.LoadBalancer.Probe
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.load_balancer_name
The name of the load balancer within which to create the pool.resource_config
protocol
IP Protocol.port
Port.requestPath
Request URI.intervalInSeconds
Interval between probes.numberofProbes
Number of probes.
See the Common Properties section.
Example
This example shows adding load balancer probe parameters, and explicitly defining the azure_config.
loadbalancerprobe:
type: cloudify.azure.nodes.network.LoadBalancer.Probe
properties:
name: lbprobe
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
protocol: Http
port: { get_input: webserver_port }
requestPath: index.html
relationships:
- type: cloudify.azure.relationships.contained_in_load_balancer
target: loadbalancer
- type: cloudify.relationships.depends_on
target: loadbalancerbackendpool
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a load balancer probe.cloudify.interfaces.lifecycle.delete
Deletes a load balancer probe.
cloudify.azure.nodes.network.LoadBalancer.IncomingNATRule
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.load_balancer_name
The name of the load balancer within which to create the pool.resource_config
protocol
IP protocol.frontendPort
Inbound port.backendPort
Outbound port.
See the Common Properties section.
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a NAT Rule.cloudify.interfaces.lifecycle.delete
Deletes a NAT Rule.
cloudify.azure.nodes.network.LoadBalancer.Rule
Derived From: cloudify.nodes.Root
Properties:
resource_group_name
The name of the resource group in which to create the resource.load_balancer_name
The name of the load balancer within which to create the pool.resource_config
protocol
IP port.frontendPort
Inbound port.backendPort
Outbound port.enableFloatingIP
Enables a floating IP address.idleTimeoutInMinutes
How long to wait before a timeout.loadDistribution
The size of the load to distribute.
See the Common Properties section.
Example
This example shows adding load balancer rule parameters, and explicitly defining the azure_config.
loadbalancerrule:
type: cloudify.azure.nodes.network.LoadBalancer.Rule
properties:
name: mylbrule
location: { get_input: location }
retry_after: { get_input: retry_after }
azure_config: *azure_config
resource_config:
protocol: Tcp
backendPort: { get_input: webserver_port }
frontendPort: { get_input: loadbalancer_port }
relationships:
- type: cloudify.azure.relationships.contained_in_load_balancer
target: loadbalancer
- type: cloudify.azure.relationships.connected_to_ip_configuration
target: loadbalanceripcfg
- type: cloudify.azure.relationships.connected_to_lb_be_pool
target: loadbalancerbackendpool
- type: cloudify.azure.relationships.connected_to_lb_probe
target: loadbalancerprobe
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates a load balancer rule.cloudify.interfaces.lifecycle.delete
Deletes a load balancer rule.
cloudify.azure.nodes.compute.ManagedCluster
Derived From: cloudify.nodes.Root
Properties:
resource_group
The name of the resource group in which to create the resource.name
The name of the AKS clusterresource_config
See: https://docs.microsoft.com/en-us/rest/api/aks/managedclusters/createorupdate , A dictionary with the following keys :location
azure region to create the cluster.tags
A dict of key value to add to the cluster.kubernetes_version
kubernetes version to be used in the cluster setup.dns_prefix
dns prefix to be used.agent_pool_profiles
a list of agent pool profiles .linux_profile
linux profile username, publicKeys.network_profile
used to define loadbalancer,outbound,IPs .windows_profile
windows profile with user name and password.service_principal_profile
dict to define service service_principal_profile [client_id, secret].addon_profiles
dict to define addons to be added to the cluster setup.enable_rbac
boolean to specify whether to enable Kubernetes Role-Based Access Control.
store_kube_config_in_runtime
Property to store kubernetes config in a runtime property to be used later.
See the Common Properties section.
Example
This example shows creating AKS Cluster, and explicitly defining the azure_config.
resource_group:
type: cloudify.azure.nodes.ResourceGroup
properties:
name: { get_input: resource_group_name }
location: { get_input: location }
azure_config: *azure_config
managed_cluster:
type: cloudify.azure.nodes.compute.ManagedCluster
properties:
resource_group: { get_input: resource_group_name }
name: { get_input: managed_cluster_name }
resource_config:
location: { get_input: location }
tags:
Name: "AKS_Test"
tier: "Testing"
kubernetes_version: "" # keep default
dns_prefix: "akstest"
agent_pool_profiles:
- name: "nodepool1"
count: 3
vmSize: "Standard_DS1_v2"
osType: "Linux"
type: "VirtualMachineScaleSets"
availabilityZones:
- "1"
- "2"
- "3"
enableNodePublicIP: true
linux_profile:
adminUsername: "azureuser"
ssh:
publicKeys:
- keyData : { get_input: public_key }
network_profile:
loadBalancerSku: "standard"
outboundType: "loadBalancer"
loadBalancerProfile:
managedOutboundIPs:
count: 2
windows_profile:
adminUsername: "azureuser"
adminPassword: "az#1234"
service_principal_profile:
clientId: { get_input: client_id }
secret: { get_input: client_secret }
addon_profiles: {}
enable_rbac: true
azure_config: *azure_config
store_kube_config_in_runtime: true
relationships:
- type: cloudify.azure.relationships.contained_in_resource_group
target: resource_group
Mapped Operations:
cloudify.interfaces.lifecycle.create
Creates the Cluster.cloudify.interfaces.lifecycle.configure
Saves kubeconfig in runtime properties ifstore_kube_config_in_runtime
set.cloudify.interfaces.lifecycle.delete
Deletes the Cluster.
cloudify.azure.nodes.resources.Azure
Derived From: cloudify.nodes.Root
A node used with the discovery feature to discover types of resources for usage in other “existing resource” deployments.
Properties:
resource_config
: A dictionary with the following keys:resource_types
: a list of resource types to support, for example:[Microsoft.ContainerService/ManagedClusters]
.
locations
A list of regions to look for resources. Default is [], which represents all regions.
See the Common Properties section.
Example
azure_account:
type: cloudify.azure.nodes.resources.Azure
properties:
client_config: *azure_config
Mapped Operations:
cloudify.interfaces.lifecycle.create
Initialize the account type.cloudify.interfaces.lifecycle.delete
Deinitialize the account type.
Workflows
Execute the discover_and_deploy
workflow from an “Account” deployment to identify resources of the desired types and to deploy “existing resource” deployments.
Relationships
See relationships.
The following plugin relationship operations are defined in the Azure plugin:
cloudify.azure.relationships.contained_in_resource_group
Sets a dependency between the resource and the resource group in which it is contained.cloudify.azure.relationships.contained_in_virtual_network
Sets a dependency between the resource and the virtual network in which it is contained.cloudify.azure.relationships.contained_in_network_security_group
Sets a dependency between the resource and the network security group in which it is contained.cloudify.azure.relationships.contained_in_route_table
Sets a dependency between the resource and the route table in which it is contained.cloudify.azure.relationships.contained_in_load_balancer
Sets a dependency between the resource and the load balancer.cloudify.azure.relationships.network_security_group_attached_to_subnet
Attaches a network security group to a subnet.cloudify.azure.relationships.route_table_attached_to_subnet
Attaches a network route table to a subnet.cloudify.azure.relationships.nic_connected_to_network_security_group
Attaches a NIC to a network security group.cloudify.azure.relationships.ip_configuration_connected_to_subnet
Sets a dependency between an IP configuration and a subnet.cloudify.azure.relationships.ip_configuration_connected_to_public_ip
Sets a dependency between an IP configuration and a public IP.cloudify.azure.relationships.connected_to_storage_account
Sets a dependency between the resource and a storage account.cloudify.azure.relationships.connected_to_availability_set
Sets a dependency between the resource and an availability set.cloudify.azure.relationships.connected_to_ip_configuration
Sets a dependency between the resource and an IP configuration, except for NICs. (see cloudify.azure.relationships.nic_connected_to_ip_configuration)cloudify.azure.relationships.nic_connected_to_ip_configuration
Sets a dependency between acloudify.azure.nodes.network.NetworkInterfaceCard
resource type to acloudify.azure.nodes.network.IPConfiguration
resource type.cloudify.azure.relationships.connected_to_nic
Sets a dependency between the resource and a NIC.cloudify.azure.relationships.connected_to_lb_be_pool
Sets a dependency between the resource and a load balancer pool.cloudify.azure.relationships.connected_to_lb_probe
Sets a dependency between the resource and a load balancer probe.cloudify.azure.relationships.vmx_contained_in_vm
Sets a dependency between a VM extension and a VM.cloudify.azure.relationships.nic_connected_to_lb_be_pool
Sets a dependency between a NIC and a load balancer pool.
Using Existing Resources
You can use existing resources on Azure, regardless of whether they have been created by a different Studio Conductor deployment or outside of Studio Conductor.
All Studio Conductor Azure types have these properties that determine the behaviour:
use_external_resource
- Indicate whether the resource exists or if Conductor should create the resource.create_if_missing
- If use_external_resource is true, and the resource does not exist, create it.use_if_exists
- If use_external_resource is false, but the resource does exist, use it.
If use_external_resource
is set to true
in the blueprint, the name
must be that resource’s name in Azure.