- Created by maopeng zhang, last modified by Zhuoyao Huang on Sept 05, 2018
You are viewing an old version of this page. View the current version.
Compare with Current View Page History
« Previous Version 37 Current »
WAN R2
Same with R1
Node Type
org.openecomp.resource.vl.overlaytunnel Expand source
org.openecomp.resource.vl.overlaytunnel: derived_from: tosca.nodes.Root description: This entity represents abstract overlay tunnel end point. properties: id: type: string description: Identifier of the Tunnel Endpoint node. required: false template_name: type: string required: false version: type: string required: false name: type: string description: Overlay tunnel name used by for reference by the administrator. required: false description: type: string description: Additional comments/information about overlay tunnel. required: false tunnelType: type: string constraints: - valid_values: ['L3-DCI','L2-DCI'] description: type defines if the overlay tunnel is L3-DCI tunnel or L2-DCI tunnel. required: true site1_id: type: string description: Identifier of first DCI overlay tunnel endpoint. This could be IP address of domain controller. required: true site1_description: type: string description: Additional comments/information about overlay tunnel. Description can also be used to identify domain controller. required: false site1_networkName: type: string description: Name of the network that is being associated with overlay tunnel. required: true site1_routerId: type: string description: Identifier of router connected to L3 tunnel end point, while configuring L3-DCI tunnel. required: false site1_importRT1: type: string description: List of Route targets imported by the local router. required: false site1_exportRT1: type: string description: List of Route targets exported by the local router. required: false site1_vni: type: integer description: VXLAN ID required: false site1_fireWallEnable: type: boolean required: false description: Identifies if a firewall exists in the path of overlay tunnel. default: false site1_fireWallId: type: string description: Identifier of Firewall that is in overlay tunnel path required: false site1_localNetworkAll: type: boolean description: Identifies whether all the local networks associate with the tunnel or not. required: false default: 'false' site2_id: type: string description: Identifier of second DCI overlay tunnel endpoint. This could be IP address of domain controller. required: true site2_description: type: string description: Additional comments/information about overlay tunnel. Description can also be used to identify domain controller. required: false site2_networkName: type: string description: Name of the network that is being associated with overlay tunnel. required: true site2_routerId: type: string description: Identifier of router connected to L3 tunnel end point, while configuring L3-DCI tunnel. required: false site2_importRT1: type: string description: List of Route targets imported by the local router. required: false site2_exportRT1: type: string description: List of Route targets exported by the local router. required: false site2_vni: type: integer description: VXLAN ID required: false site2_fireWallEnable: type: boolean required: false description: Identifies if a firewall exists in the path of overlay tunnel. default: false site2_fireWallId: type: string description: Identifier of Firewall that is in overlay tunnel path required: false site2_localNetworkAll: type: boolean description: Identifies whether all the local networks associate with the tunnel or not. required: false default: 'false' requirements: - virtualLink: capability: tosca.capabilities.network.Linkable relationship: tosca.relationships.network.LinksTo capabilities: virtual_linkable: type: tosca.capabilities.network.Linkable
org.openecomp.resource.vl.underlayvpn Expand source
org.openecomp.resource.vl.underlayvpn: derived_from: tosca.nodes.Root description: undelay vpn type definitions properties: id: type: string required: false template_name: type: string required: false version: type: string required: false vendor: type: string required: false template_author: type: string required: false name: type: string required: false description: type: string required: false serviceType: type: string description: type of VPN service required: false default: 'l3vpn_sptn' topology: type: string description: type of VPN topology constraints: - valid_values: ['full-mesh','point_to_multipoint','point_to_point','singlePoint','hubspoke','hubspoke_via_hubce','hubspoke_disjoint','ADD_DROP_Z'] required: false default: 'full-mesh' technology: type: string description: type of VPN technology constraints: - valid_values: ['mpls','rosen multivpn','vxlan overlay l3vpn','eth over sdh','vlan'] required: false default: 'mpls' site1_name: type: string description: name of first site required: false site2_name: type: string description: name of second site required: false sna1_name: type: string description: name of site network accesses associated with the site1 required: false sna2_name: type: string description: name of site network accesses associated with the site2 required: false pe1_id: type: string description: id of provider edge1, it can be name or ip or uuid required: false pe2_id: type: string description: id of provider edge2, it can be name or ip or uuid required: false ac1_id: type: string description: id of attachment circuit1, it can be port name or uuid required: false ac1_svlan: type: integer description: ac1 svlan required: false ac1_ip: type: string description: ip of ac1, only for layer3 vpn, it should contain mask required: false ac1_peer_ip: type: string description: ip of ac1 peer CE tp, only for layer3 vpn, it should contain mask required: false ac1_route: type: string description: route configure of ac1, only for layer3 vpn required: false ac1_protocol: type: string description: routing protocol type of ac1, only for layer3 vpn constraints: - valid_values: ['STATIC','OSPF','ISIS','BGP','other'] required: false ac1_protocol_bgp_as: type: string description: autonomous-system number of ac1, , only required for ebgp protocol required: false ac2_id: type: string description: id of attachment circuit2, it can be port name or uuid required: false ac2_svlan: type: integer description: ac2 svlan required: false ac2_ip: type: string description: ip of ac2, only for layer3 vpn, it should contain mask required: false ac2_peer_ip: type: string description: ip of ac2 peer CE tp, only for layer3 vpn, it should contain mask required: false ac2_route: type: string description: route configure of ac2, only for layer3 vpn required: false ac2_protocol: type: string description: routing protocol type of ac2, only for layer3 vpn constraints: - valid_values: ['STATIC','OSPF','ISIS','BGP','other'] default: 'STATIC' required: false ac2_protocol_bgp_as: type: string description: autonomous-system number of ac2, , only required for ebgp protocol required: false af_type: type: string description: address family type default: 'ipv4' required: false requirements: - virtualLink: capability: tosca.capabilities.network.Linkable relationship: tosca.relationships.network.LinksTo capabilities: virtual_linkable: type: tosca.capabilities.network.Linkable
WAN R3+
Node Types:
onap.node.wan.Resource Expand source
onap.node.wan.Resource: derived_from: tosca.nodes.Root properties: uuid: type: string name: type: string version: type: string label: type: list entry_schema: type: string type: type: string description: component type paras: type: org.openecomp.datatypes.Root capabilities: - component: type: tosca.capabilities.network.Bindable requirements: - specifications: node: onap.node.wan.Resourece capabilities: tosca.capabilities.network.Bindable relationship: relationships.network.BindsTo
onap.node.wan.Resource.Connection Expand source
onap.node.wan.Resource.Connection: derived_from: onap.node.wan.Resource properties: capabilities: - connection: type: tosca.capabilities.network.Linkable requirements: - fcs: node: onap.node.wan.Resource.Fc capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn - links: node: onap.node.wan.Resource.Link capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn - fds: node: onap.node.wan.Resource.Fd capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn
onap.node.wan.Resource.Fd Expand source
onap.node.wan.Resource.Fd: derived_from: onap.node.wan.Resource description: The Forwarding Domain (FD) class models the topological component that represents a forwarding capability that provides the opportunity to enable forwarding (of specific transport characteristic information at one or more protocol layers) between points. properties: address: type: string description: ip, or mac, or geo address capabilities: - domain: type: tosca.capabilities.Attachment - node: type: tosca.capabilities.Node requirements: - higherLevelFd: node: onap.node.wan.Resource.Fd capabilities: tosca.capabilities.Attachment relationship: tosca.relationships.AttachesTo - ltps: node: onap.node.wan.Resource.Ltp capabilities: tosca.capabilities.Attachment relationship: tosca.relationships.AttachesTo
onap.node.wan.Resource.Fc Expand source
onap.node.wan.Resource.Fc: description: The ForwardingConstruct (FC) class models enabled constrained potential for forwarding between two or more interfaces at a particular specific layerProtocol. derived_from: onap.node.wan.Resource properties: capabilities: - node: type: tosca.capabilities.Node requirements: - endPoint: node: onap.node.wan.Resource.FcPort capabilities: tosca.capabilities.network.Bindable relationship: relationships.network.BindsTo - fcRoute: node: onap.node.wan.Resource.FcRoute capabilities: tosca.capabilities.network.Bindable relationship: relationships.network.BindsTo
onap.node.wan.Resource.FcPort Expand source
onap.node.wan.Resource.FcPort: description: Fowarding Construct Point. The association of the FC to interfaces is made via FcPorts. The FcPort class models the access to the FC function. derived_from: onap.node.wan.Resource properties: address: type: string description: ip, or mac FcPortDirection: type: string role: type: string constraints: - valid_values: ['working','protection','protected','symmetric','hub', 'spoke', 'leaf', 'root'] capabilities: requirements: - fd: node: onap.node.wan.Resource.Ltp capabilities: tosca.capabilities.Attachment relationship: tosca.relationships.AttachesTo - ltp: node: onap.node.wan.Resource.Ltp capabilities: tosca.capabilities.Endpoint relationship: tosca.relationships.ConnectsTo
onap.node.wan.Resource.LinkPort Expand source
onap.node.wan.Resource.LinkPort: description: The association of the Link to LTPs is made via LinkPort. The LinkPort class models the access to the Link function. derived_from: onap.node.wan.Resource properties: role: type: string description: Each LinkPort of the Link has a role (e.g., symmetric, hub, spoke, leaf, root) in the context of the Link with respect to the Link capability. constraints: - valid_values: ['symmetric','hub', 'spoke', 'leaf', 'root'] capabilities: requirements: - ltp: node: onap.node.wan.Resource.Ltp capabilities: tosca.capabilities.Endpoint relationship: tosca.relationships.ConnectsTo
onap.node.wan.Resource.Ltp Expand source
onap.node.wan.Resource.Ltp: description: The Logical Termination Point (LTP) class encapsulates the termination and adaptation functions of one or more transport layers represented by instances of LayerProtocol. derived_from: onap.node.wan.Resource properties: physicalPortReference: type: string ltpDirection: type: string capabilities: - endPoint: type: tosca.capabilities.Endpoint requirements: - fd: node: onap.node.wan.Resource.Fd capabilities: tosca.capabilities.Attachment relationship: tosca.relationships.AttachesTo - serverLtp: node: onap.node.wan.Resource.Ltp capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn - lp: node: onap.node.wan.Resource.LayerProtocol capabilities: tosca.capabilities.network.Bindable relationship: relationships.network.BindsTo
onap.node.wan.Resource.LayerProtocol Expand source
onap.node.wan.Resource.LayerProtocol: description: The projection of an LTP into each transport layer is represented by a LayerProtocol (LP) instance. A LayerProtocol instance can be used for controlling termination and monitoring functionality. derived_from: onap.node.wan.Resource properties: layerProtocolName: type: string address: type: string
onap.node.wan.Resource.Link Expand source
onap.node.wan.Resource.Link: description: The Link class models effective adjacency between two or more ForwardingDomains (FD). derived_from: onap.node.wan.Resource properties: capabilities: - node: type: tosca.capabilities.Node requirements: - fc: node: onap.node.wan.Resource.Fc capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn - endPoint: node: onap.node.wan.Resource.LinkPort capabilities: tosca.capabilities.Endpoint relationship: tosca.relationships.ConnectsTo
onap.node.wan.Resource.FcRoute Expand source
onap.node.wan.Resource.FcRoute: description: The routing relationships within FC are described, including routing between sub FC (interdomain links), and links between network elements and network elements. derived_from: onap.node.wan.Resource properties: capabilities: requirements: - link: node: onap.node.wan.Resource.Link capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn - subFc: node: onap.node.wan.Resource.Fc capabilities: tosca.capabilities.Node relationship: tosca.relationships.DependsOn
R3 Class Explain
- No labels