{%- set primary_role = [roles[0]] -%} {%- for role in roles -%} {%- if 'primary' in role.tags and 'controller' in role.tags -%} {%- set _ = primary_role.pop() -%} {%- set _ = primary_role.append(role) -%} {%- endif -%} {%- endfor -%} {%- set primary_role_name = primary_role[0].name -%} # primary role is: {{primary_role_name}} heat_template_version: pike description: > Deploy an OpenStack environment, consisting of several node types (roles), Controller, Compute, BlockStorage, SwiftStorage and CephStorage. The Storage roles enable independent scaling of the storage components, but the minimal deployment is one Controller and one Compute node. # TODO(shadower): we should probably use the parameter groups to put # some order in here. parameters: # Common parameters (not specific to a role) CloudName: default: overcloud.localdomain description: The DNS name of this cloud. E.g. ci-overcloud.tripleo.org type: string CloudNameInternal: default: overcloud.internalapi.localdomain description: > The DNS name of this cloud's internal API endpoint. E.g. 'ci-overcloud.internalapi.tripleo.org'. type: string CloudNameStorage: default: overcloud.storage.localdomain description: > The DNS name of this cloud's storage endpoint. E.g. 'ci-overcloud.storage.tripleo.org'. type: string CloudNameStorageManagement: default: overcloud.storagemgmt.localdomain description: > The DNS name of this cloud's storage management endpoint. E.g. 'ci-overcloud.storagemgmt.tripleo.org'. type: string CloudNameCtlplane: default: overcloud.ctlplane.localdomain description: > The DNS name of this cloud's storage management endpoint. E.g. 'ci-overcloud.management.tripleo.org'. type: string ControlFixedIPs: default: [] description: > Control the IP allocation for the ControlVirtualIP port. E.g. [{'ip_address':'1.2.3.4'}] type: json InternalApiVirtualFixedIPs: default: [] description: > Control the IP allocation for the InternalApiVirtualInterface port. E.g. [{'ip_address':'1.2.3.4'}] type: json NeutronControlPlaneID: default: 'ctlplane' type: string description: Neutron ID or name for ctlplane network. NeutronPublicInterface: default: nic1 description: What interface to bridge onto br-ex for network nodes. type: string PublicVirtualFixedIPs: default: [] description: > Control the IP allocation for the PublicVirtualInterface port. E.g. [{'ip_address':'1.2.3.4'}] type: json RabbitCookieSalt: type: string default: unset description: Salt for the rabbit cookie, change this to force the randomly generated rabbit cookie to change. StorageVirtualFixedIPs: default: [] description: > Control the IP allocation for the StorageVirtualInterface port. E.g. [{'ip_address':'1.2.3.4'}] type: json StorageMgmtVirtualFixedIPs: default: [] description: > Control the IP allocation for the StorageMgmgVirtualInterface port. E.g. [{'ip_address':'1.2.3.4'}] type: json RedisVirtualFixedIPs: default: [] description: > Control the IP allocation for the virtual IP used by Redis. E.g. [{'ip_address':'1.2.3.4'}] type: json CloudDomain: default: 'localdomain' type: string description: > The DNS domain used for the hosts. This must match the overcloud_domain_name configured on the undercloud. 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 # Compute-specific params # FIXME(shardy) handle these deprecated names as they don't match compute.yaml HypervisorNeutronPhysicalBridge: default: 'br-ex' description: > An OVS bridge to create on each hypervisor. This defaults to br-ex the same as the control plane nodes, as we have a uniform configuration of the openvswitch agent. Typically should not need to be changed. type: string HypervisorNeutronPublicInterface: default: nic1 description: What interface to add to the HypervisorNeutronPhysicalBridge. type: string NodeCreateBatchSize: default: 30 description: Maxiumum batch size for creating nodes type: number # Jinja loop for Role in role_data.yaml {% for role in roles %} # Parameters generated for {{role.name}} Role {{role.name}}Services: description: A list of service resources (configured in the Heat resource_registry) which represent nested stacks for each service that should get installed on the {{role.name}} role. type: comma_delimited_list {{role.name}}Count: description: Number of {{role.name}} nodes to deploy type: number default: {{role.CountDefault|default(0)}} {{role.name}}HostnameFormat: type: string description: > Format for {{role.name}} node hostnames Note %index% is translated into the index of the node, e.g 0/1/2 etc and %stackname% is replaced with the stack name e.g overcloud {% if role.HostnameFormatDefault %} default: "{{role.HostnameFormatDefault}}" {% else %} default: "%stackname%-{{role.name.lower()}}-%index%" {% endif %} {{role.name}}RemovalPolicies: default: [] type: json description: > List of resources to be removed from {{role.name}} ResourceGroup when doing an update which requires removal of specific resources. Example format ComputeRemovalPolicies: [{'resource_list': ['0']}] {% if role.name != 'Compute' %} {{role.name}}SchedulerHints: {% else %} NovaComputeSchedulerHints: {% endif %} type: json description: Optional scheduler hints to pass to nova default: {} {{role.name}}Parameters: type: json description: Optional Role Specific parameters to be provided to service default: {} {% endfor %} # Identifiers to trigger tasks on nodes UpdateIdentifier: default: '' type: string description: > Setting to a previously unused value during stack-update will trigger package update on all nodes DeployIdentifier: default: '' type: string description: > Setting this to a unique value will re-run any deployment tasks which perform configuration on a Heat stack-update. AddVipsToEtcHosts: default: True type: boolean description: > Set to true to append per network Vips to /etc/hosts on each node. DeploymentServerBlacklist: default: [] type: comma_delimited_list description: > List of server hostnames to blacklist from any triggered deployments. conditions: add_vips_to_etc_hosts: {equals : [{get_param: AddVipsToEtcHosts}, True]} resources: VipHosts: type: OS::Heat::Value properties: type: string value: list_join: - "\n" - - str_replace: template: IP HOST params: IP: {get_attr: [VipMap, net_ip_map, external]} HOST: {get_param: CloudName} - str_replace: template: IP HOST params: IP: {get_attr: [VipMap, net_ip_map, ctlplane]} HOST: {get_param: CloudNameCtlplane} - str_replace: template: IP HOST params: IP: {get_attr: [VipMap, net_ip_map, internal_api]} HOST: {get_param: CloudNameInternal} - str_replace: template: IP HOST params: IP: {get_attr: [VipMap, net_ip_map, storage]} HOST: {get_param: CloudNameStorage} - str_replace: template: IP HOST params: IP: {get_attr: [VipMap, net_ip_map, storage_mgmt]} HOST: {get_param: CloudNameStorageManagement} HeatAuthEncryptionKey: type: OS::TripleO::RandomString PcsdPassword: type: OS::TripleO::RandomString properties: length: 16 HorizonSecret: type: OS::TripleO::RandomString properties: length: 10 ServiceNetMap: type: OS::TripleO::ServiceNetMap EndpointMap: type: OS::TripleO::EndpointMap properties: CloudEndpoints: external: {get_param: CloudName} internal_api: {get_param: CloudNameInternal} storage: {get_param: CloudNameStorage} storage_mgmt: {get_param: CloudNameStorageManagement} ctlplane: {get_param: CloudNameCtlplane} NetIpMap: {get_attr: [VipMap, net_ip_map]} ServiceNetMap: {get_attr: [ServiceNetMap, service_net_map]} EndpointMapData: type: OS::Heat::Value properties: type: json value: {get_attr: [EndpointMap, endpoint_map]} SshKnownHostsConfig: type: OS::TripleO::Ssh::KnownHostsConfig properties: known_hosts: list_join: - '' {% for role in roles %} - {get_attr: [{{role.name}}, known_hosts_entry]} {% endfor %} # Jinja loop for Role in roles_data.yaml {% for role in roles %} # Resources generated for {{role.name}} Role {{role.name}}ServiceChain: type: OS::TripleO::Services properties: Services: get_param: {{role.name}}Services ServiceNetMap: {get_attr: [ServiceNetMap, service_net_map]} EndpointMap: {get_attr: [EndpointMap, endpoint_map]} DefaultPasswords: {get_attr: [DefaultPasswords, passwords]} RoleName: {{role.name}} RoleParameters: {get_param: {{role.name}}Parameters} # Lookup of role_data via heat outputs is slow, so workaround this by caching # the value in an OS::Heat::Value resource {{role.name}}ServiceChainRoleData: type: OS::Heat::Value properties: type: json value: {get_attr: [{{role.name}}ServiceChain, role_data]} # Filter any null/None service_names which may be present due to mapping # of services to OS::Heat::None {{role.name}}ServiceNames: type: OS::Heat::Value depends_on: {{role.name}}ServiceChain properties: type: comma_delimited_list value: yaql: expression: coalesce($.data, []).where($ != null) data: {get_attr: [{{role.name}}ServiceChainRoleData, value, service_names]} {{role.name}}HostsDeployment: type: OS::Heat::StructuredDeployments properties: name: {{role.name}}HostsDeployment config: {get_attr: [hostsConfig, config_id]} servers: {get_attr: [{{role.name}}Servers, value]} {{role.name}}SshKnownHostsDeployment: type: OS::Heat::StructuredDeployments properties: name: {{role.name}}SshKnownHostsDeployment config: {get_resource: SshKnownHostsConfig} servers: {get_attr: [{{role.name}}Servers, value]} {{role.name}}AllNodesDeployment: type: OS::TripleO::AllNodesDeployment depends_on: {% for role_inner in roles %} - {{role_inner.name}}HostsDeployment {% endfor %} properties: name: {{role.name}}AllNodesDeployment config: {get_attr: [allNodesConfig, config_id]} servers: {get_attr: [{{role.name}}Servers, value]} input_values: # Note we have to use yaql to look up the first hostname/ip in the # list because heat path based attributes operate on the attribute # inside the ResourceGroup, not the exposed list ref discussion in # https://bugs.launchpad.net/heat/+bug/1640488 # The coalesce is needed because $.data is None during heat validation bootstrap_nodeid: yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{role.name}}, hostname]} bootstrap_nodeid_ip: yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{role.name}}, ip_address]} {{role.name}}AllNodesValidationDeployment: type: OS::Heat::StructuredDeployments depends_on: {{role.name}}AllNodesDeployment properties: name: {{role.name}}AllNodesValidationDeployment config: {get_resource: AllNodesValidationConfig} servers: {get_attr: [{{role.name}}Servers, value]} {{role.name}}IpListMap: type: OS::TripleO::Network::Ports::NetIpListMap properties: ControlPlaneIpList: {get_attr: [{{role.name}}, ip_address]} ExternalIpList: {get_attr: [{{role.name}}, external_ip_address]} InternalApiIpList: {get_attr: [{{role.name}}, internal_api_ip_address]} StorageIpList: {get_attr: [{{role.name}}, storage_ip_address]} StorageMgmtIpList: {get_attr: [{{role.name}}, storage_mgmt_ip_address]} TenantIpList: {get_attr: [{{role.name}}, tenant_ip_address]} ManagementIpList: {get_attr: [{{role.name}}, management_ip_address]} EnabledServices: {get_attr: [{{role.name}}ServiceNames, value]} ServiceNetMap: {get_attr: [ServiceNetMap, service_net_map_lower]} ServiceHostnameList: {get_attr: [{{role.name}}, hostname]} NetworkHostnameMap: {get_attr: [{{role.name}}NetworkHostnameMap, value]} {{role.name}}NetworkHostnameMap: type: OS::Heat::Value properties: type: json value: # Note (shardy) this somewhat complex yaql may be replaced # with a map_deep_merge function in ocata. It merges the # list of maps, but appends to colliding lists so we can # create a map of lists for all nodes for each network yaql: expression: dict($.data.where($ != null).flatten().selectMany($.items()).groupBy($[0], $[1], [$[0], $[1].flatten()])) data: - {get_attr: [{{role.name}}, hostname_map]} {{role.name}}: type: OS::Heat::ResourceGroup depends_on: Networks update_policy: batch_create: max_batch_size: {get_param: NodeCreateBatchSize} properties: count: {get_param: {{role.name}}Count} removal_policies: {get_param: {{role.name}}RemovalPolicies} resource_def: type: OS::TripleO::{{role.name}} properties: CloudDomain: {get_param: CloudDomain} ServiceNetMap: {get_attr: [ServiceNetMap, service_net_map]} EndpointMap: {get_attr: [EndpointMap, endpoint_map]} Hostname: str_replace: template: {get_param: {{role.name}}HostnameFormat} params: '%stackname%': {get_param: 'OS::stack_name'} NodeIndex: '%index%' {% if role.name != 'Compute' %} {{role.name}}SchedulerHints: {get_param: {{role.name}}SchedulerHints} {% else %} NovaComputeSchedulerHints: {get_param: NovaComputeSchedulerHints} {% endif %} ServiceConfigSettings: map_merge: - get_attr: [{{role.name}}ServiceChainRoleData, value, config_settings] {% for r in roles %} - get_attr: [{{r.name}}ServiceChain, role_data, global_config_settings] {% endfor %} # This next step combines two yaql passes: # - The inner one does a deep merge on the service_config_settings for all roles # - The outer one filters the map based on the services enabled for the role # then merges the result into one map. - yaql: expression: let(root => $) -> $.data.map.items().where($[0] in coalesce($root.data.services, [])).select($[1]).reduce($1.mergeWith($2), {}) data: map: yaql: expression: $.data.where($ != null).reduce($1.mergeWith($2), {}) data: {% for r in roles %} - get_attr: [{{r.name}}ServiceChain, role_data, service_config_settings] {% endfor %} services: {get_attr: [{{role.name}}ServiceNames, value]} ServiceNames: {get_attr: [{{role.name}}ServiceNames, value]} MonitoringSubscriptions: {get_attr: [{{role.name}}ServiceChainRoleData, value, monitoring_subscriptions]} ServiceMetadataSettings: {get_attr: [{{role.name}}ServiceChainRoleData, value, service_metadata_settings]} DeploymentServerBlacklistDict: {get_attr: [DeploymentServerBlacklistDict, value]} RoleParameters: {get_param: {{role.name}}Parameters} {% endfor %} {% for role in roles %} {{role.name}}Servers: type: OS::Heat::Value depends_on: {{role.name}} properties: type: json value: yaql: expression: let(servers=>switch(isDict($.data.servers) => $.data.servers, true => {})) -> $servers.deleteAll($servers.keys().where($servers[$] = null)) data: servers: {get_attr: [{{role.name}}, attributes, nova_server_resource]} {% endfor %} # This is a different format to *Servers, as it creates a map of lists # whereas *Servers creates a map of maps with keys of the nested resource names ServerIdMap: type: OS::Heat::Value properties: value: server_ids: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}, nova_server_resource]} {% endfor %} bootstrap_server_id: yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, nova_server_resource]} # This resource just creates a dict out of the DeploymentServerBlacklist, # which is a list. The dict is used in the role templates to set a condition # on whether to create the deployment resources. We can't use the list # directly because there is no way to ask Heat if a list contains a specific # value. DeploymentServerBlacklistDict: type: OS::Heat::Value properties: type: json value: map_merge: repeat: template: hostname: 1 for_each: hostname: {get_param: DeploymentServerBlacklist} hostsConfig: type: OS::TripleO::Hosts::SoftwareConfig properties: hosts: list_join: - "\n" - - if: - add_vips_to_etc_hosts - {get_attr: [VipHosts, value]} - '' - {% for role in roles %} - list_join: - "" - {get_attr: [{{role.name}}, hosts_entry]} {% endfor %} allNodesConfig: type: OS::TripleO::AllNodes::SoftwareConfig properties: cloud_name_external: {get_param: CloudName} cloud_name_internal_api: {get_param: CloudNameInternal} cloud_name_storage: {get_param: CloudNameStorage} cloud_name_storage_mgmt: {get_param: CloudNameStorageManagement} cloud_name_ctlplane: {get_param: CloudNameCtlplane} enabled_services: list_join: - ',' {% for role in roles %} - {get_attr: [{{role.name}}ServiceNames, value]} {% endfor %} logging_groups: yaql: expression: > $.data.groups.flatten() data: groups: {% for role in roles %} - {get_attr: [{{role.name}}ServiceChainRoleData, value, logging_groups]} {% endfor %} logging_sources: yaql: expression: > $.data.sources.flatten() data: sources: {% for role in roles %} - {get_attr: [{{role.name}}ServiceChainRoleData, value, logging_sources]} {% endfor %} controller_ips: {get_attr: [{{primary_role_name}}, ip_address]} controller_names: {get_attr: [{{primary_role_name}}, hostname]} service_ips: # Note (shardy) this somewhat complex yaql may be replaced # with a map_deep_merge function in ocata. It merges the # list of maps, but appends to colliding lists when a service # is deployed on more than one role yaql: expression: dict($.data.l.where($ != null).selectMany($.items()).groupBy($[0], $[1], [$[0], $[1].flatten()])) data: l: {% for role in roles %} - {get_attr: [{{role.name}}IpListMap, service_ips]} {% endfor %} service_node_names: yaql: expression: dict($.data.l.where($ != null).selectMany($.items()).groupBy($[0], $[1], [$[0], $[1].flatten()])) data: l: {% for role in roles %} - {get_attr: [{{role.name}}IpListMap, service_hostnames]} {% endfor %} short_service_node_names: yaql: expression: dict($.data.l.where($ != null).selectMany($.items()).groupBy($[0], $[1], [$[0], $[1].flatten()])) data: l: {% for role in roles %} - {get_attr: [{{role.name}}IpListMap, short_service_hostnames]} {% endfor %} short_service_bootstrap_node: yaql: expression: dict($.data.l.where($ != null).selectMany($.items()).groupBy($[0], $[1], [$[0], $[1].flatten().first()])) data: l: {% for role in roles %} - {get_attr: [{{role.name}}IpListMap, short_service_bootstrap_hostnames]} {% endfor %} NetVipMap: {get_attr: [VipMap, net_ip_map]} RedisVirtualIP: {get_attr: [RedisVirtualIP, ip_address]} ServiceNetMap: {get_attr: [ServiceNetMap, service_net_map_lower]} DeployIdentifier: {get_param: DeployIdentifier} UpdateIdentifier: {get_param: UpdateIdentifier} MysqlRootPassword: type: OS::TripleO::RandomString properties: length: 10 RabbitCookie: type: OS::TripleO::RandomString properties: length: 20 salt: {get_param: RabbitCookieSalt} DefaultPasswords: type: OS::TripleO::DefaultPasswords properties: DefaultMysqlRootPassword: {get_attr: [MysqlRootPassword, value]} DefaultRabbitCookie: {get_attr: [RabbitCookie, value]} DefaultHeatAuthEncryptionKey: {get_attr: [HeatAuthEncryptionKey, value]} DefaultPcsdPassword: {get_attr: [PcsdPassword, value]} DefaultHorizonSecret: {get_attr: [HorizonSecret, value]} # creates the network architecture Networks: type: OS::TripleO::Network ControlVirtualIP: type: OS::TripleO::Network::Ports::ControlPlaneVipPort depends_on: Networks properties: name: control_virtual_ip network: {get_param: NeutronControlPlaneID} fixed_ips: {get_param: ControlFixedIPs} replacement_policy: AUTO RedisVirtualIP: depends_on: Networks type: OS::TripleO::Network::Ports::RedisVipPort properties: ControlPlaneIP: {get_attr: [ControlVirtualIP, fixed_ips, 0, ip_address]} ControlPlaneNetwork: {get_param: NeutronControlPlaneID} PortName: redis_virtual_ip NetworkName: {get_attr: [ServiceNetMap, service_net_map, RedisNetwork]} ServiceName: redis FixedIPs: {get_param: RedisVirtualFixedIPs} # The public VIP is on the External net, falls back to ctlplane PublicVirtualIP: depends_on: Networks type: OS::TripleO::Network::Ports::ExternalVipPort properties: ControlPlaneIP: {get_attr: [ControlVirtualIP, fixed_ips, 0, ip_address]} ControlPlaneNetwork: {get_param: NeutronControlPlaneID} PortName: public_virtual_ip FixedIPs: {get_param: PublicVirtualFixedIPs} InternalApiVirtualIP: depends_on: Networks type: OS::TripleO::Network::Ports::InternalApiVipPort properties: ControlPlaneIP: {get_attr: [ControlVirtualIP, fixed_ips, 0, ip_address]} PortName: internal_api_virtual_ip FixedIPs: {get_param: InternalApiVirtualFixedIPs} StorageVirtualIP: depends_on: Networks type: OS::TripleO::Network::Ports::StorageVipPort properties: ControlPlaneIP: {get_attr: [ControlVirtualIP, fixed_ips, 0, ip_address]} PortName: storage_virtual_ip FixedIPs: {get_param: StorageVirtualFixedIPs} StorageMgmtVirtualIP: depends_on: Networks type: OS::TripleO::Network::Ports::StorageMgmtVipPort properties: ControlPlaneIP: {get_attr: [ControlVirtualIP, fixed_ips, 0, ip_address]} PortName: storage_management_virtual_ip FixedIPs: {get_param: StorageMgmtVirtualFixedIPs} VipMap: type: OS::TripleO::Network::Ports::NetVipMap properties: ControlPlaneIp: {get_attr: [ControlVirtualIP, fixed_ips, 0, ip_address]} ExternalIp: {get_attr: [PublicVirtualIP, ip_address]} ExternalIpUri: {get_attr: [PublicVirtualIP, ip_address_uri]} InternalApiIp: {get_attr: [InternalApiVirtualIP, ip_address]} InternalApiIpUri: {get_attr: [InternalApiVirtualIP, ip_address_uri]} StorageIp: {get_attr: [StorageVirtualIP, ip_address]} StorageIpUri: {get_attr: [StorageVirtualIP, ip_address_uri]} StorageMgmtIp: {get_attr: [StorageMgmtVirtualIP, ip_address]} StorageMgmtIpUri: {get_attr: [StorageMgmtVirtualIP, ip_address_uri]} # No tenant or management VIP required # Because of nested get_attr functions in the KeystoneAdminVip output, we # can't determine which attributes of VipMap are used until after # ServiceNetMap's attribute values are available. depends_on: ServiceNetMap # All Nodes Validations AllNodesValidationConfig: type: OS::TripleO::AllNodes::Validation properties: PingTestIps: list_join: - ' ' - - yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, external_ip_address]} - yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, internal_api_ip_address]} - yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, storage_ip_address]} - yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, storage_mgmt_ip_address]} - yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, tenant_ip_address]} - yaql: expression: coalesce($.data, []).first(null) data: {get_attr: [{{primary_role_name}}, management_ip_address]} UpdateWorkflow: type: OS::TripleO::Tasks::UpdateWorkflow depends_on: {% for role in roles %} - {{role.name}}AllNodesDeployment {% endfor %} properties: servers: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}Servers, value]} {% endfor %} input_values: deploy_identifier: {get_param: DeployIdentifier} update_identifier: {get_param: UpdateIdentifier} # Optional ExtraConfig for all nodes - all roles are passed in here, but # the nested template may configure each role differently (or not at all) AllNodesExtraConfig: type: OS::TripleO::AllNodesExtraConfig depends_on: - UpdateWorkflow {% for role in roles %} - {{role.name}}AllNodesValidationDeployment {% endfor %} properties: servers: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}Servers, value]} {% endfor %} # Post deployment steps for all roles AllNodesDeploySteps: type: OS::TripleO::PostDeploySteps depends_on: - AllNodesExtraConfig {% for role in roles %} - {{role.name}}AllNodesDeployment {% endfor %} properties: servers: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}Servers, value]} {% endfor %} stack_name: {get_param: 'OS::stack_name'} EndpointMap: {get_attr: [EndpointMap, endpoint_map]} ctlplane_service_ips: # Note (shardy) this somewhat complex yaql may be replaced # with a map_deep_merge function in ocata. It merges the # list of maps, but appends to colliding lists when a service # is deployed on more than one role yaql: expression: dict($.data.l.where($ != null).selectMany($.items()).groupBy($[0], $[1], [$[0], $[1].flatten()])) data: l: {% for role in roles %} - {get_attr: [{{role.name}}IpListMap, ctlplane_service_ips]} {% endfor %} role_data: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}ServiceChainRoleData, value]} {% endfor %} ServerOsCollectConfigData: type: OS::Heat::Value properties: type: json value: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}, attributes, os_collect_config]} {% endfor %} DeployedServerEnvironment: type: OS::TripleO::DeployedServerEnvironment properties: RoleCounts: {% for role in roles %} {{role.name}}DeployedServerCount: {get_param: {{role.name}}Count} {% endfor %} VipMap: map_merge: - {get_attr: [VipMap, net_ip_map]} - redis: {get_attr: [RedisVirtualIP, ip_address]} DeployedServerPortMap: map_merge: list_concat: {% for role in roles %} - {get_attr: [{{role.name}}, deployed_server_port_map]} {% endfor %} DeployedServerDeploymentSwiftDataMap: map_merge: list_concat: {% for role in roles %} - {get_attr: [{{role.name}}, deployed_server_deployment_swift_data_map]} {% endfor %} DefaultRouteIp: str_split: - ':' - str_split: - '/' - {get_attr: [ServerOsCollectConfigData, value, {{primary_role_name}}, '0', request, metadata_url]} - 2 - 0 outputs: ManagedEndpoints: description: Asserts that the keystone endpoints have been provisioned. value: true KeystoneURL: description: URL for the Overcloud Keystone service value: {get_attr: [EndpointMapData, value, KeystonePublic, uri]} KeystoneAdminVip: description: Keystone Admin VIP endpoint # Note that these nested get_attr functions require a dependency # relationship between VipMap and ServiceNetMap, since we can't determine # which attributes of VipMap are used until after ServiceNetMap's attribute # values are available. If this is ever reworked to not use nested # get_attr, that dependency can be removed. value: {get_attr: [VipMap, net_ip_map, {get_attr: [ServiceNetMap, service_net_map, KeystoneAdminApiNetwork]}]} EndpointMap: description: | Mapping of the resources with the needed info for their endpoints. This includes the protocol used, the IP, port and also a full representation of the URI. value: {get_attr: [EndpointMapData, value]} HostsEntry: description: | The content that should be appended to your /etc/hosts if you want to get hostname-based access to the deployed nodes (useful for testing without setting up a DNS). value: list_join: - "\n" - - {get_attr: [hostsConfig, hosts_entries]} - - {get_attr: [VipHosts, value]} EnabledServices: description: The services enabled on each role value: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}ServiceNames, value]} {% endfor %} RoleData: description: The configuration data associated with each role value: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}ServiceChainRoleData, value]} {% endfor %} RoleNetIpMap: description: Mapping of each network to a list of IPs for each role value: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}IpListMap, net_ip_map]} {% endfor %} RoleNetHostnameMap: description: Mapping of each network to a list of hostnames for each role value: {% for role in roles %} {{role.name}}: {get_attr: [{{role.name}}NetworkHostnameMap, value]} {% endfor %} ServerOsCollectConfigData: description: The os-collect-config configuration associated with each server resource value: {get_attr: [ServerOsCollectConfigData, value]} VipMap: description: Mapping of each network to VIP addresses. Also includes the Redis VIP. value: map_merge: - {get_attr: [VipMap, net_ip_map]} - redis: {get_attr: [RedisVirtualIP, ip_address]} ServerIdData: description: Mapping of each role to a list of nova server IDs and the bootstrap ID value: {get_attr: [ServerIdMap, value]} DeployedServerEnvironment: description: Environment data that can be used as input into the services stack when using split-stack. value: {get_attr: [DeployedServerEnvironment, deployed_server_environment]}