heat_template_version: 2015-10-15 description: > OpenStack hypervisor node configured via Puppet. parameters: AdminPassword: description: The password for the keystone admin account, used for monitoring, querying neutron etc. type: string hidden: true CeilometerComputeAgent: description: Indicates whether the Compute agent is present and expects nova-compute to be configured accordingly type: string default: '' constraints: - allowed_values: ['', Present] CeilometerMeteringSecret: description: Secret shared by the ceilometer services. type: string hidden: true CeilometerPassword: description: The password for the ceilometer service account. type: string hidden: true CinderEnableNfsBackend: default: false description: Whether to enable or not the NFS backend for Cinder type: boolean CinderEnableRbdBackend: default: false description: Whether to enable or not the Rbd backend for Cinder type: boolean Debug: default: '' description: Set to True to enable debugging on all services. type: string ExtraConfig: default: {} description: | Additional hiera configuration to inject into the cluster. Note that NovaComputeExtraConfig takes precedence over ExtraConfig. type: json Flavor: description: Flavor for the nova compute node type: string constraints: - custom_constraint: nova.flavor GlanceHost: type: string default: '' # Has to be here because of the ignored empty value bug Image: type: string default: overcloud-compute constraints: - custom_constraint: glance.image ImageUpdatePolicy: default: 'REBUILD_PRESERVE_EPHEMERAL' description: What policy to use when reconstructing instances. REBUILD for rebuilds, REBUILD_PRESERVE_EPHEMERAL to preserve /mnt. type: string KeyName: description: Name of an existing Nova key pair to enable SSH access to the instances type: string default: default constraints: - custom_constraint: nova.keypair KeystoneAdminApiVirtualIP: type: string default: '' KeystonePublicApiVirtualIP: type: string default: '' NeutronBridgeMappings: description: > The OVS logical->physical bridge mappings to use. See the Neutron documentation for details. Defaults to mapping br-ex - the external bridge on hosts - to a physical name 'datacentre' which can be used to create provider networks (and we use this for the default floating network) - if changing this either use different post-install network scripts or be sure to keep 'datacentre' as a mapping network name. type: comma_delimited_list default: "datacentre:br-ex" NeutronEnableTunnelling: type: string default: "True" NeutronEnableL2Pop: type: string description: > Enable/disable the L2 population feature in the Neutron agents. default: "False" NeutronFlatNetworks: type: comma_delimited_list default: 'datacentre' description: > If set, flat networks to configure in neutron plugins. NeutronHost: type: string default: '' # Has to be here because of the ignored empty value bug NeutronNetworkType: type: comma_delimited_list description: The tenant network type for Neutron. default: 'vxlan' NeutronNetworkVLANRanges: default: 'datacentre:1:1000' description: > The Neutron ML2 and OpenVSwitch vlan mapping range to support. See the Neutron documentation for permitted values. Defaults to permitting any VLAN on the 'datacentre' physical network (See NeutronBridgeMappings). type: comma_delimited_list NeutronPassword: description: The password for the neutron service account, used by neutron agents. type: string hidden: true NeutronPhysicalBridge: default: 'br-ex' description: An OVS bridge to create for accessing external networks. type: string NeutronPublicInterface: default: nic1 description: A port to add to the NeutronPhysicalBridge. type: string NeutronTenantMtu: description: > The default MTU for tenant networks. For VXLAN/GRE tunneling, this should be at least 50 bytes smaller than the MTU on the physical network. This value will be used to set the MTU on the virtual Ethernet device. This number is related to the value of NeutronDnsmasqOptions, since that will determine the MTU that is assigned to the VM host through DHCP. default: 1400 type: number NeutronTunnelTypes: type: comma_delimited_list description: | The tunnel types for the Neutron tenant network. default: 'vxlan' NeutronTunnelIdRanges: description: | Comma-separated list of : tuples enumerating ranges of GRE tunnel IDs that are available for tenant network allocation default: ["1:4094", ] type: comma_delimited_list NeutronVniRanges: description: | Comma-separated list of : tuples enumerating ranges of VXLAN VNI IDs that are available for tenant network allocation default: ["1:4094", ] type: comma_delimited_list NeutronPublicInterfaceRawDevice: default: '' type: string NeutronDVR: default: 'False' type: string NeutronMetadataProxySharedSecret: description: Shared secret to prevent spoofing type: string hidden: true NeutronCorePlugin: default: 'ml2' description: | The core plugin for Neutron. The value should be the entrypoint to be loaded from neutron.core_plugins namespace. type: string NeutronServicePlugins: default: "router,qos" description: | Comma-separated list of service plugin entrypoints to be loaded from the neutron.service_plugins namespace. type: comma_delimited_list NeutronTypeDrivers: default: "vxlan,vlan,flat,gre" description: | Comma-separated list of network type driver entrypoints to be loaded. type: comma_delimited_list NeutronMechanismDrivers: default: 'openvswitch' description: | The mechanism drivers for the Neutron tenant network. type: comma_delimited_list NeutronAgentExtensions: default: "qos" description: | Comma-separated list of extensions enabled for the Neutron agents. type: comma_delimited_list # Not relevant for Computes, should be removed NeutronAllowL3AgentFailover: default: 'True' description: Allow automatic l3-agent failover type: string # Not relevant for Computes, should be removed NeutronL3HA: default: 'False' description: Whether to enable l3-agent HA type: string NeutronAgentMode: default: 'dvr_snat' description: Agent mode for the neutron-l3-agent on the controller hosts type: string NodeIndex: type: number default: 0 NovaApiHost: type: string default: '' # Has to be here because of the ignored empty value bug NovaComputeDriver: type: string default: libvirt.LibvirtDriver NovaComputeExtraConfig: default: {} description: | NovaCompute specific configuration to inject into the cluster. Same structure as ExtraConfig. type: json NovaComputeIPs: default: {} type: json NovaComputeLibvirtType: type: string default: kvm NovaComputeLibvirtVifDriver: default: '' description: Libvirt VIF driver configuration for the network type: string NovaEnableRbdBackend: default: false description: Whether to enable or not the Rbd backend for Nova type: boolean NovaIPv6: default: false description: Enable IPv6 features in Nova type: boolean NovaPassword: description: The password for the nova service account, used by nova-api. type: string hidden: true NovaPublicIP: type: string default: '' # Has to be here because of the ignored empty value bug NovaOVSBridge: default: 'br-int' description: Name of integration bridge used by Open vSwitch type: string NovaSecurityGroupAPI: default: 'neutron' description: The full class name of the security API class type: string NtpServer: default: '' description: Comma-separated list of ntp servers type: comma_delimited_list RabbitHost: type: string default: '' # Has to be here because of the ignored empty value bug RabbitPassword: description: The password for RabbitMQ type: string hidden: true RabbitUserName: default: guest description: The username for RabbitMQ type: string RabbitClientUseSSL: default: false description: > Rabbit client subscriber parameter to specify an SSL connection to the RabbitMQ host. type: string RabbitClientPort: default: 5672 description: Set rabbit subscriber port, change this if using SSL type: number SnmpdReadonlyUserName: default: ro_snmp_user description: The user name for SNMPd with readonly rights running on all Overcloud nodes type: string SnmpdReadonlyUserPassword: description: The user password for SNMPd with readonly rights running on all Overcloud nodes type: string hidden: true UpgradeLevelNovaCompute: type: string description: Nova Compute upgrade level default: '' EnablePackageInstall: default: 'false' description: Set to true to enable package installation via Puppet type: boolean ServiceNetMap: default: {} description: Mapping of service_name -> network name. Typically set via parameter_defaults in the resource registry. type: json EndpointMap: default: {} description: Mapping of service endpoint -> protocol. Typically set via parameter_defaults in the resource registry. type: json TimeZone: default: 'UTC' description: The timezone to be set on compute nodes. type: string UpdateIdentifier: default: '' type: string description: > Setting to a previously unused value during stack-update will trigger package update on all nodes Hostname: type: string default: '' # Defaults to Heat created hostname HostnameMap: type: json default: {} description: Optional mapping to override hostnames NetworkDeploymentActions: type: comma_delimited_list description: > Heat action when to apply network configuration changes default: ['CREATE'] SoftwareConfigTransport: default: POLL_SERVER_CFN description: | How the server should receive the metadata required for software configuration. type: string constraints: - allowed_values: [POLL_SERVER_CFN, POLL_SERVER_HEAT, POLL_TEMP_URL, ZAQAR_MESSAGE] CloudDomain: default: '' type: string description: > The DNS domain used for the hosts. This should match the dhcp_domain configured in the Undercloud neutron. Defaults to localdomain. ServerMetadata: default: {} description: > Extra properties or metadata passed to Nova for the created nodes in the overcloud. It's accessible via the Nova metadata API. type: json SchedulerHints: type: json description: Optional scheduler hints to pass to nova default: {} resources: NovaCompute: type: OS::Nova::Server properties: image: {get_param: Image} image_update_policy: get_param: ImageUpdatePolicy flavor: {get_param: Flavor} key_name: {get_param: KeyName} networks: - network: ctlplane user_data_format: SOFTWARE_CONFIG user_data: {get_resource: UserData} name: str_replace: template: {get_param: Hostname} params: {get_param: HostnameMap} software_config_transport: {get_param: SoftwareConfigTransport} metadata: {get_param: ServerMetadata} scheduler_hints: {get_param: SchedulerHints} # Combine the NodeAdminUserData and NodeUserData mime archives UserData: type: OS::Heat::MultipartMime properties: parts: - config: {get_resource: NodeAdminUserData} type: multipart - config: {get_resource: NodeUserData} type: multipart # Creates the "heat-admin" user if configured via the environment # Should return a OS::Heat::MultipartMime reference via OS::stack_id NodeAdminUserData: type: OS::TripleO::NodeAdminUserData # For optional operator additional userdata # Should return a OS::Heat::MultipartMime reference via OS::stack_id NodeUserData: type: OS::TripleO::NodeUserData ExternalPort: type: OS::TripleO::Compute::Ports::ExternalPort properties: ControlPlaneIP: {get_attr: [NovaCompute, networks, ctlplane, 0]} IPPool: {get_param: NovaComputeIPs} NodeIndex: {get_param: NodeIndex} InternalApiPort: type: OS::TripleO::Compute::Ports::InternalApiPort properties: ControlPlaneIP: {get_attr: [NovaCompute, networks, ctlplane, 0]} IPPool: {get_param: NovaComputeIPs} NodeIndex: {get_param: NodeIndex} StoragePort: type: OS::TripleO::Compute::Ports::StoragePort properties: ControlPlaneIP: {get_attr: [NovaCompute, networks, ctlplane, 0]} IPPool: {get_param: NovaComputeIPs} NodeIndex: {get_param: NodeIndex} StorageMgmtPort: type: OS::TripleO::Compute::Ports::StorageMgmtPort properties: ControlPlaneIP: {get_attr: [NovaCompute, networks, ctlplane, 0]} IPPool: {get_param: NovaComputeIPs} NodeIndex: {get_param: NodeIndex} TenantPort: type: OS::TripleO::Compute::Ports::TenantPort properties: ControlPlaneIP: {get_attr: [NovaCompute, networks, ctlplane, 0]} IPPool: {get_param: NovaComputeIPs} NodeIndex: {get_param: NodeIndex} ManagementPort: type: OS::TripleO::Compute::Ports::ManagementPort properties: ControlPlaneIP: {get_attr: [NovaCompute, networks, ctlplane, 0]} IPPool: {get_param: NovaComputeIPs} NodeIndex: {get_param: NodeIndex} NetIpMap: type: OS::TripleO::Network::Ports::NetIpMap properties: ControlPlaneIp: {get_attr: [NovaCompute, networks, ctlplane, 0]} ExternalIp: {get_attr: [ExternalPort, ip_address]} ExternalIpUri: {get_attr: [ExternalPort, ip_address_uri]} InternalApiIp: {get_attr: [InternalApiPort, ip_address]} InternalApiIpUri: {get_attr: [InternalApiPort, ip_address_uri]} StorageIp: {get_attr: [StoragePort, ip_address]} StorageIpUri: {get_attr: [StoragePort, ip_address_uri]} StorageMgmtIp: {get_attr: [StorageMgmtPort, ip_address]} StorageMgmtIpUri: {get_attr: [StorageMgmtPort, ip_address_uri]} TenantIp: {get_attr: [TenantPort, ip_address]} TenantIpUri: {get_attr: [TenantPort, ip_address_uri]} ManagementIp: {get_attr: [ManagementPort, ip_address]} ManagementIpUri: {get_attr: [ManagementPort, ip_address_uri]} NetworkConfig: type: OS::TripleO::Compute::Net::SoftwareConfig properties: ControlPlaneIp: {get_attr: [NovaCompute, networks, ctlplane, 0]} ExternalIpSubnet: {get_attr: [ExternalPort, ip_subnet]} InternalApiIpSubnet: {get_attr: [InternalApiPort, ip_subnet]} StorageIpSubnet: {get_attr: [StoragePort, ip_subnet]} StorageMgmtIpSubnet: {get_attr: [StorageMgmtPort, ip_subnet]} TenantIpSubnet: {get_attr: [TenantPort, ip_subnet]} ManagementIpSubnet: {get_attr: [ManagementPort, ip_subnet]} NetworkDeployment: type: OS::TripleO::SoftwareDeployment properties: name: NetworkDeployment config: {get_resource: NetworkConfig} server: {get_resource: NovaCompute} actions: {get_param: NetworkDeploymentActions} input_values: bridge_name: {get_param: NeutronPhysicalBridge} interface_name: {get_param: NeutronPublicInterface} NovaComputeConfig: type: OS::Heat::StructuredConfig properties: group: os-apply-config config: hiera: hierarchy: - '"%{::uuid}"' - heat_config_%{::deploy_config_name} - compute_extraconfig - extraconfig - compute - ceph_cluster # provided by CephClusterConfig - ceph - all_nodes # provided by allNodesConfig - '"%{::osfamily}"' - common - neutron_bigswitch_data # Optionally provided by ComputeExtraConfigPre - cisco_n1kv_data # Optionally provided by ComputeExtraConfigPre - nova_nuage_data # Optionally provided by ComputeExtraConfigPre - midonet_data # Optionally provided by AllNodesExtraConfig - neutron_opencontrail_data # Optionally provided by ComputeExtraConfigPre merge_behavior: deeper datafiles: compute_extraconfig: mapped_data: {get_param: NovaComputeExtraConfig} extraconfig: mapped_data: {get_param: ExtraConfig} common: raw_data: {get_file: hieradata/common.yaml} ceph: raw_data: {get_file: hieradata/ceph.yaml} compute: raw_data: {get_file: hieradata/compute.yaml} mapped_data: cinder_enable_nfs_backend: {get_input: cinder_enable_nfs_backend} nova::use_ipv6: {get_input: nova_ipv6} nova::debug: {get_input: debug} nova::rabbit_userid: {get_input: rabbit_username} nova::rabbit_password: {get_input: rabbit_password} nova::rabbit_use_ssl: {get_input: rabbit_client_use_ssl} nova::rabbit_port: {get_input: rabbit_client_port} nova::upgrade_level_compute: {get_input: upgrade_level_nova_compute} nova_compute_driver: {get_input: nova_compute_driver} nova::compute::libvirt::libvirt_virt_type: {get_input: nova_compute_libvirt_type} nova::compute::neutron::libvirt_vif_driver: {get_input: nova_compute_libvirt_vif_driver} nova_api_host: {get_input: nova_api_host} nova::compute::vncproxy_host: {get_input: nova_public_ip} nova::compute::rbd::ephemeral_storage: {get_input: nova_enable_rbd_backend} rbd_persistent_storage: {get_input: cinder_enable_rbd_backend} nova_password: {get_input: nova_password} nova::compute::network_device_mtu: {get_input: neutron_tenant_mtu} nova::compute::vncserver_proxyclient_address: {get_input: nova_vnc_proxyclient_address} nova::vncproxy::common::vncproxy_protocol: {get_input: nova_vncproxy_protocol} nova::vncproxy::common::vncproxy_host: {get_input: nova_vncproxy_host} nova::vncproxy::common::vncproxy_port: {get_input: nova_vncproxy_port} nova::network::neutron::neutron_ovs_bridge: {get_input: nova_ovs_bridge} nova::network::neutron::security_group_api: {get_input: nova_security_group_api} ceilometer::debug: {get_input: debug} ceilometer::rabbit_userid: {get_input: rabbit_username} ceilometer::rabbit_password: {get_input: rabbit_password} ceilometer::rabbit_use_ssl: {get_input: rabbit_client_use_ssl} ceilometer::rabbit_port: {get_input: rabbit_client_port} ceilometer::metering_secret: {get_input: ceilometer_metering_secret} ceilometer::agent::auth::auth_password: {get_input: ceilometer_password} ceilometer::agent::auth::auth_url: {get_input: ceilometer_agent_auth_url} ceilometer_compute_agent: {get_input: ceilometer_compute_agent} snmpd_readonly_user_name: {get_input: snmpd_readonly_user_name} snmpd_readonly_user_password: {get_input: snmpd_readonly_user_password} nova::glance_api_servers: {get_input: glance_api_servers} neutron::debug: {get_input: debug} neutron::rabbit_password: {get_input: rabbit_password} neutron::rabbit_user: {get_input: rabbit_username} neutron::rabbit_use_ssl: {get_input: rabbit_client_use_ssl} neutron::rabbit_port: {get_input: rabbit_client_port} neutron::plugins::ml2::flat_networks: {get_input: neutron_flat_networks} neutron_host: {get_input: neutron_host} neutron::agents::ml2::ovs::local_ip: {get_input: neutron_local_ip} neutron::network_device_mtu: {get_input: neutron_tenant_mtu} neutron::plugins::ml2::tenant_network_types: {get_input: neutron_tenant_network_types} neutron::agents::ml2::ovs::tunnel_types: {get_input: neutron_tunnel_types} neutron::agents::ml2::ovs::extensions: {get_input: neutron_agent_extensions} neutron::plugins::ml2::network_vlan_ranges: {get_input: neutron_network_vlan_ranges} neutron::plugins::ml2::tunnel_id_ranges: {get_input: neutron_tunnel_id_ranges} neutron::plugins::ml2::vni_ranges: {get_input: neutron_vni_ranges} neutron::agents::ml2::ovs::bridge_mappings: {get_input: neutron_bridge_mappings} neutron::agents::ml2::ovs::enable_tunneling: {get_input: neutron_enable_tunneling} neutron::agents::ml2::ovs::l2_population: {get_input: neutron_enable_l2pop} neutron_physical_bridge: {get_input: neutron_physical_bridge} neutron_public_interface: {get_input: neutron_public_interface} nova::network::neutron::neutron_password: {get_input: neutron_password} nova::network::neutron::neutron_url: {get_input: neutron_internal_url} nova::network::neutron::neutron_auth_url: {get_input: neutron_auth_url} neutron_router_distributed: {get_input: neutron_router_distributed} neutron_agent_mode: {get_input: neutron_agent_mode} neutron_metadata_proxy_shared_secret: {get_input: neutron_metadata_proxy_shared_secret} neutron::core_plugin: {get_input: neutron_core_plugin} neutron::service_plugins: {get_input: neutron_service_plugins} neutron::plugins::ml2::type_drivers: {get_input: neutron_type_drivers} neutron::plugins::ml2::mechanism_drivers: {get_input: neutron_mechanism_drivers} neutron_public_interface_raw_device: {get_input: neutron_public_interface_raw_device} keystone_public_api_virtual_ip: {get_input: keystone_vip} admin_password: {get_input: admin_password} ntp::servers: {get_input: ntp_servers} timezone::timezone: {get_input: timezone} tripleo::packages::enable_install: {get_input: enable_package_install} tripleo::packages::enable_upgrade: {get_input: enable_package_upgrade} NovaComputeDeployment: type: OS::TripleO::SoftwareDeployment depends_on: NetworkDeployment properties: name: NovaComputeDeployment config: {get_resource: NovaComputeConfig} server: {get_resource: NovaCompute} input_values: cinder_enable_nfs_backend: {get_param: CinderEnableNfsBackend} debug: {get_param: Debug} nova_compute_driver: {get_param: NovaComputeDriver} nova_compute_libvirt_type: {get_param: NovaComputeLibvirtType} nova_compute_libvirt_vif_driver: {get_param: NovaComputeLibvirtVifDriver} nova_public_ip: {get_param: NovaPublicIP} nova_api_host: {get_param: NovaApiHost} nova_password: {get_param: NovaPassword} nova_enable_rbd_backend: {get_param: NovaEnableRbdBackend} nova_ipv6: {get_param: NovaIPv6} cinder_enable_rbd_backend: {get_param: CinderEnableRbdBackend} nova_vnc_proxyclient_address: {get_attr: [NetIpMap, net_ip_map, {get_param: [ServiceNetMap, NovaVncProxyNetwork]}]} nova_vncproxy_protocol: {get_param: [EndpointMap, NovaVNCProxyPublic, protocol]} # Remove brackets that may come if the IP address is IPv6. # For DNS names and IPv4, this will just get the NovaVNCProxyPublic value nova_vncproxy_host: str_replace: template: {get_param: [EndpointMap, NovaVNCProxyPublic, host]} params: '[': '' ']': '' nova_vncproxy_port: {get_param: [EndpointMap, NovaVNCProxyPublic, port]} nova_ovs_bridge: {get_param: NovaOVSBridge} nova_security_group_api: {get_param: NovaSecurityGroupAPI} upgrade_level_nova_compute: {get_param: UpgradeLevelNovaCompute} ceilometer_metering_secret: {get_param: CeilometerMeteringSecret} ceilometer_password: {get_param: CeilometerPassword} ceilometer_compute_agent: {get_param: CeilometerComputeAgent} ceilometer_agent_auth_url: {get_param: [EndpointMap, KeystoneInternal, uri]} snmpd_readonly_user_name: {get_param: SnmpdReadonlyUserName} snmpd_readonly_user_password: {get_param: SnmpdReadonlyUserPassword} glance_api_servers: {get_param: [EndpointMap, GlanceInternal, uri]} neutron_flat_networks: str_replace: template: NETWORKS params: NETWORKS: {get_param: NeutronFlatNetworks} neutron_host: {get_param: NeutronHost} neutron_local_ip: {get_attr: [NetIpMap, net_ip_map, {get_param: [ServiceNetMap, NeutronTenantNetwork]}]} neutron_tunnel_id_ranges: str_replace: template: RANGES params: RANGES: {get_param: NeutronTunnelIdRanges} neutron_vni_ranges: str_replace: template: RANGES params: RANGES: {get_param: NeutronVniRanges} neutron_tenant_network_types: str_replace: template: TYPES params: TYPES: {get_param: NeutronNetworkType} neutron_tunnel_types: str_replace: template: TYPES params: TYPES: {get_param: NeutronTunnelTypes} neutron_network_vlan_ranges: str_replace: template: RANGES params: RANGES: {get_param: NeutronNetworkVLANRanges} neutron_bridge_mappings: str_replace: template: MAPPINGS params: MAPPINGS: {get_param: NeutronBridgeMappings} neutron_tenant_mtu: {get_param: NeutronTenantMtu} neutron_enable_tunneling: {get_param: NeutronEnableTunnelling} neutron_enable_l2pop: {get_param: NeutronEnableL2Pop} neutron_physical_bridge: {get_param: NeutronPhysicalBridge} neutron_public_interface: {get_param: NeutronPublicInterface} neutron_password: {get_param: NeutronPassword} neutron_agent_mode: {get_param: NeutronAgentMode} neutron_router_distributed: {get_param: NeutronDVR} neutron_metadata_proxy_shared_secret: {get_param: NeutronMetadataProxySharedSecret} neutron_core_plugin: {get_param: NeutronCorePlugin} neutron_service_plugins: str_replace: template: PLUGINS params: PLUGINS: {get_param: NeutronServicePlugins} neutron_type_drivers: str_replace: template: DRIVERS params: DRIVERS: {get_param: NeutronTypeDrivers} neutron_mechanism_drivers: str_replace: template: MECHANISMS params: MECHANISMS: {get_param: NeutronMechanismDrivers} neutron_agent_extensions: str_replace: template: AGENT_EXTENSIONS params: AGENT_EXTENSIONS: {get_param: NeutronAgentExtensions} neutron_public_interface_raw_device: {get_param: NeutronPublicInterfaceRawDevice} neutron_internal_url: {get_param: [EndpointMap, NeutronInternal, uri]} neutron_auth_url: {get_param: [EndpointMap, KeystoneV3Admin, uri]} keystone_vip: {get_param: KeystonePublicApiVirtualIP} admin_password: {get_param: AdminPassword} rabbit_username: {get_param: RabbitUserName} rabbit_password: {get_param: RabbitPassword} rabbit_client_use_ssl: {get_param: RabbitClientUseSSL} rabbit_client_port: {get_param: RabbitClientPort} ntp_servers: {get_param: NtpServer} timezone: {get_param: TimeZone} enable_package_install: {get_param: EnablePackageInstall} enable_package_upgrade: {get_attr: [UpdateDeployment, update_managed_packages]} # Resource for site-specific injection of root certificate NodeTLSCAData: depends_on: NovaComputeDeployment type: OS::TripleO::NodeTLSCAData properties: server: {get_resource: NovaCompute} # Hook for site-specific additional pre-deployment config, e.g extra hieradata ComputeExtraConfigPre: depends_on: NovaComputeDeployment type: OS::TripleO::ComputeExtraConfigPre properties: server: {get_resource: NovaCompute} # Hook for site-specific additional pre-deployment config, # applying to all nodes, e.g node registration/unregistration NodeExtraConfig: depends_on: [ComputeExtraConfigPre, NodeTLSCAData] type: OS::TripleO::NodeExtraConfig properties: server: {get_resource: NovaCompute} UpdateConfig: type: OS::TripleO::Tasks::PackageUpdate UpdateDeployment: type: OS::Heat::SoftwareDeployment properties: name: UpdateDeployment config: {get_resource: UpdateConfig} server: {get_resource: NovaCompute} input_values: update_identifier: get_param: UpdateIdentifier outputs: ip_address: description: IP address of the server in the ctlplane network value: {get_attr: [NovaCompute, networks, ctlplane, 0]} external_ip_address: description: IP address of the server in the external network value: {get_attr: [ExternalPort, ip_address]} internal_api_ip_address: description: IP address of the server in the internal_api network value: {get_attr: [InternalApiPort, ip_address]} storage_ip_address: description: IP address of the server in the storage network value: {get_attr: [StoragePort, ip_address]} storage_mgmt_ip_address: description: IP address of the server in the storage_mgmt network value: {get_attr: [StorageMgmtPort, ip_address]} tenant_ip_address: description: IP address of the server in the tenant network value: {get_attr: [TenantPort, ip_address]} management_ip_address: description: IP address of the server in the management network value: {get_attr: [ManagementPort, ip_address]} hostname: description: Hostname of the server value: {get_attr: [NovaCompute, name]} hosts_entry: description: > Server's IP address and hostname in the /etc/hosts format value: str_replace: template: | PRIMARYIP PRIMARYHOST.DOMAIN PRIMARYHOST EXTERNALIP EXTERNALHOST.DOMAIN EXTERNALHOST INTERNAL_APIIP INTERNAL_APIHOST.DOMAIN INTERNAL_APIHOST STORAGEIP STORAGEHOST.DOMAIN STORAGEHOST STORAGE_MGMTIP STORAGE_MGMTHOST.DOMAIN STORAGE_MGMTHOST TENANTIP TENANTHOST.DOMAIN TENANTHOST MANAGEMENTIP MANAGEMENTHOST.DOMAIN MANAGEMENTHOST params: PRIMARYIP: {get_attr: [NetIpMap, net_ip_map, {get_param: [ServiceNetMap, ComputeHostnameResolveNetwork]}]} DOMAIN: {get_param: CloudDomain} PRIMARYHOST: {get_attr: [NovaCompute, name]} EXTERNALIP: {get_attr: [ExternalPort, ip_address]} EXTERNALHOST: list_join: - '.' - - {get_attr: [NovaCompute, name]} - external INTERNAL_APIIP: {get_attr: [InternalApiPort, ip_address]} INTERNAL_APIHOST: list_join: - '.' - - {get_attr: [NovaCompute, name]} - internalapi STORAGEIP: {get_attr: [StoragePort, ip_address]} STORAGEHOST: list_join: - '.' - - {get_attr: [NovaCompute, name]} - storage STORAGE_MGMTIP: {get_attr: [StorageMgmtPort, ip_address]} STORAGE_MGMTHOST: list_join: - '.' - - {get_attr: [NovaCompute, name]} - storagemgmt TENANTIP: {get_attr: [TenantPort, ip_address]} TENANTHOST: list_join: - '.' - - {get_attr: [NovaCompute, name]} - tenant MANAGEMENTIP: {get_attr: [ManagementPort, ip_address]} MANAGEMENTHOST: list_join: - '.' - - {get_attr: [NovaCompute, name]} - management nova_server_resource: description: Heat resource handle for the Nova compute server value: {get_resource: NovaCompute} config_identifier: description: identifier which changes if the node configuration may need re-applying value: list_join: - ',' - - {get_attr: [NovaComputeDeployment, deploy_stdout]} - {get_attr: [NodeTLSCAData, deploy_stdout]} - {get_attr: [ComputeExtraConfigPre, deploy_stdout]} - {get_param: UpdateIdentifier}