SBC Core RAMP support only
Beginning with release 12.0, the SBC Core supports the Ribbon Application Management Platform (RAMP), which replaces the EMS.
However, the EMA, CLI and API will continue to include EMS-labeled parameters and screens to facilitate SBC migrations from older releases. Accordingly, any references to "EMS" in this documentation pertain to the RAMP platform.
Caution: Metadata object naming
Do not begin metadata object names with 'IF' (Does not apply to mgt, ha and pkt interface definitions).
Examples:
- Invalid:
IF_PKT0_V01_ALT01,IF_PKT1_MY_ALT_IP - Valid:
MY_IF_PKT0_V01_ALT01,MY_IF_PKT1_MY_ALT_IP
In this section:
In the OpenStack environment,when cloud instances are launched through Heat, metadata and userdata are populated automatically by the Heat template. The SBC SWe metadata and userdata you provide in your template are essential to ensuring that the SBC instance you deploy can initialize correctly. To be interpreted correctly, the metadata and userdata must be provided in the proper JSON format. The example Heat templates Ribbon provides include metadata and userdata sections in the required format. When editing or copying these sections to create your own Heat template, be sure to maintain the format. The following sections describe the SBC SWe metadata and userdata.
For OpenStack, there is a common RESTCONF API command for accessing/showing/listing instantiation data such as meta-data and user-data. For details, refer to the RESTCONF API Reference Guide.
Metadata
Metadata Format
# Mgt0 interface
"IF0" : {
"Port":"Mgt0",
"DHCP": "<Dhcp_flag>",
"GWV4":"<IP_Address>",
"IPV4":"<IP_Address/Subnet_Prefix>",
"GWV6" :"<IP_Address>",
"IPV6":"<IP_Address/Subnet_Prefix>",
"FIPV4":"<IP_Address>",
},
# Ha0 interface
"IF1" : {
"Port" : "Ha0",
"DHCP": "<Dhcp_flag>",
"GWV4":"<IP_Address>",
"IPV4":"<IP_Address/Subnet_Prefix>",
"FIPV4":"<IP_Address>",
},
# IP interface Pkt0.111
"IF2": {
"Port" :"Pkt0",
"DHCP": "<Dhcp_flag>",
"GWV4":"<IP_Address>",
"IPV4":"<IP_Address/Subnet_Prefix>",
"GWV6" :"<IP_Address>",
"IPV6":"<IP_Address/Subnet_Prefix>",
"FIPV4":"<IP_Address>",
"RNat":"true",
"VlanId":"111"
},
},
# Secondary IP for Pkt0.111
"AltIP2" : {
"IFName":"IF2",
"IP": "<IP_Address>",
"FIPV4":"<IP_Address>"
}
# Another Secondary IP for Pkt0.111
"AltIP3" : {
"IFName":"IF2",
"IP": "<IP_Address>",
"FIPV4":"<IP_Address>"
}
# IP interface Pkt0.222
"IF3": {
"Port":"Pkt0",
"DHCP": "<Dhcp_flag>",
"GWV4":"<IP_Address>",
"IPV4":"<IP_Address/Subnet_Prefix>",
"GWV6" :"<IP_Address>",
"IPV6":"<IP_Address/Subnet_Prefix>",
"FIPV4":"<IP_Address>",
"RNat":"true",
"VlanId":"222"
},
# Secondary IP for Pkt0.222
"AltIP4" : {
"IFName":"IF3",
"IP": "<IP_Address>",
"FIPV4":"<IP_Address>",
},
# IP interface Pkt1.333
"IF4": {
"Port":"Pkt1",
"DHCP": "<Dhcp_flag>",
"GWV4":"<IP_Address>",
"IPV4":"<IP_Address/Subnet_Prefix>",
"GWV6" :"<IP_Address>",
"IPV6":"<IP_Address/Subnet_Prefix>",
"FIPV4":"<IP_Address>",
"RNat":"true",
"VlanId":"333"
},
# Secondary IP for Pkt1.333
"AltIP5" : {
"IFName":"IF4",
"IP": "<IP_Address>",
"FIPV4":"<IP_Address>"
},
ClusterIp: "<RG_IP>"
If a port needs to be part of multiple VLANs, IF definitions including the port must be repeated for each VLAN IDs, as follows:
"IF3": {
"GWV4": "<IP_Address>",
"DHCP": "<Dhcp_flag>",
"Port": "Pkt1",
"VlanId": "<VLAN_ID_1>",
"IPV4": "<IP_Address/Subnet_Prefix>"
},
"IF4": {
"GWV4": "<IP_Address>",
"DHCP": "<Dhcp_flag>",
"Port": "Pkt1",
"VlanId": "<VLAN_ID_2>",
"IPV4": "<IP_Address/Subnet_Prefix>"
},
"IF5": {
"GWV4": "<IP_Address>",
"DHCP": "<Dhcp_flag>",
"Port": "Pkt1",
"VlanId": "<VLAN_ID_3>",
"IPV4": "<IP_Address/Subnet_Prefix>"
}
Example Metadata
#Interface definition for the Mgt0 port.
"IF0" : {
"Port":"Mgt0",
"DHCP": "False",
"GWV4":"10.0.0.1",
"IPV4":"10.0.0.24/24",
"GWV6" :"fd00:10:2b50:4000::1",
"IPV6":"fd00:10:2b50:4000::1/64",
"FIPV4":"10.14.52.108",
},
# JSON for the Ha0 interface
"IF1" : {
"Port" : "Ha0",
"DHCP": "False",
"GWV4":"192.168.100.1",
"IPV4":"192.168.100.24/24",
},
# JSON for the IP interface Pkt0.2007
"IF2": {
"Port" :"Pkt0",
"DHCP": "False",
"GWV6" :"fd00:10:6b21:2007::1",
"IPV6":"fd00:10:6b21:2007::1001/64",
"VlanId":"2007"
},
# JSON for the IP interface Pkt1.2008
"IF3": {
"Port" :"Pkt1",
"DHCP": "False",
"GWV6" :"fd00:10:6b21:2008::1",
"IPV6":"fd00:10:6b21:2008::1001/64",
"VlanId":"2008"
},
},
# Secondary IP for Pkt0.2007
"AltIP2" : {
"IFName":"IF2",
"IP": "fd00:10:6b21:2007::1002",
}
# Another Secondary IP for Pkt0.2007
"AltIP3" : {
"IFName":"IF2",
"IP": "fd00:10:6b21:2007::1003",
},
ClusterIp: "192.168.100.25"
Note
- Ensure the alternate IP definitions have corresponding IF names.
IFdictionary names are any name prefixed byIF.
Example : IF-ABC, IFASD, IF_AS, and so on.
The name for an alternate IP address on a port can be constructed with port/VLAN information.
Example: The second alternate IP address for pkt0's first VLAN IP interface can be named as PKT0_V01_ALT_IP_02.
The maximum length of the name is 255 characters.
This section describes parameters within the SBC metadata:
Interface Definition Format
"IFx" : {
"Port":"<Port_Name>",
"DHCP": "<Dhcp_flag>",
"RNat": "<True|False>",
"GWV4":"<IP_Address>",
"IPV4":"<IP_Address/Subnet_Prefix>",
"GWV6" :"<IP_Address>",
"IPV6":"<IP_Address/Subnet_Prefix>",
"FIPV4":"<IP_Address>",
"VlanId":"<VLAN_ID>"
}
Interface Definition Parameters:
| Parameters | Description |
|---|---|
| IFx | Interface definition name This element is the name in the dictionary which contains the information of the port. Here, "IF" is a key word, and it can be appended with any name/identifier for x. Example: IF_Pkt0, IFMgt0, IF-MediaPort. Note: The name provided for the interface definition is used in an alternate IP definition. A link is formed between the two definitions based on the interface definition name. |
| Port | Port Name One of – Mgt0, Ha0, Pkt0, Pkt1. This indicates the actual port to which the definition belongs. |
| DHCP | This flag is used to enable or disable DHCP. If the DHCP is set to False, you need to provide fixed IP addresses for each port. |
| RNat | Reverse NAT flag Values:
Default value - True |
| GWV4 | Gateway IP in IPv4 format. Should be provided only when DHCP disabled on the port and it requires an IPv4 address. Note : GWV4 and IPV4 are interdependent, both have to be provided in a noDHCP IPv4 scenario. |
| IPV4 | Primary IP on the private port and prefix in IPv4 format. Should be provided only when DHCP is disabled on the port and it requires an IPv4 address. Example: 10.54.116.53/23 NOTE: Do not use a non-routable IP address (example: 169.254.x.x), even for the HA port, if you are using a non-DHCP configuration. |
| GWV6 | Gateway IP in IPv6 format. Should be provided only in case DHCP is disabled on the port and it requires an IPv6 address. Note : GWV6 and IPV6 are interdependent, both have to be provided in a noDHCP PVv6 scenario. |
| IPV6 | IP on the private port and prefix in IPv6 format. Should be provided only in case DHCP disabled on the port and it requires an IPv6 address. Example : fd00:10:6b50:4350::69/64 |
| FIPV4 | Floating IP associated with the port. Provide when a Floating IP is associated (in DHCP enabled and disabled scenarios) with the port. |
| VlanId | ID of the VLAN. |
Alternate IP Definition
An alternate IP definition contains the information for an additional IP address associated with a port. For each additional IP address added to the port, there has to be corresponding ALT IP definition. The following is an example definition with the parameters explained in the table that follows the example.
"AltIP3" : {
"IFName":"IF2",
"IP": "10.2.0.7",
"FIPV4":"aaa.bbb.ccc.eee"
}
Alternate IP Definition Parameters:
| Parameter | Description |
|---|---|
AltIP3 | Alternate IP (ALT IP) definition name/identifier associated with a port. Examples : Caution: Metadata object naming
Do not begin metadata object names with 'IF' (Does not apply to mgt, ha and pkt interface definitions). Examples:
|
IFName | Interface definition name Makes an association between the ALT IP address and an existing interface definition. If you change the interface definition name (i.e IFx name), you must simultaneously change the IFName value in this definition. Otherwise, the link between the ALT IP and its associated port is lost. |
IP | IPv4 or IPv6 address to associate with the port. Specify an IPv4 or IPv6 address, based on the IP version the parent interface definition contains. In a dual-stack scenario, the interface definition has both IPv4 and IPv6 addresses, you can also have IPv4 and IPv6 ALT IP addresses. They must be defined in separate ALT IP definitions, each pointing to the parent definition. |
FIPV4 | Floating IP on the Alternate IP Use this parameter to specify the value of a floating IP to associate with the ALT IP. NOTE: The RNat flag which is defined in the interface definition is an interface-wide entity. If the RNat flag is disabled in the interface definition, the FIP value provided in the ALT IP definition is not considered while populating the metavariables for this port. |
Cluster IP
Do not begin metadata object names with 'IF' (Does not apply to mgt, ha and pkt interface definitions). Examples:
Caution: Metadata object naming
IF_PKT0_V01_ALT01, IF_PKT1_MY_ALT_IPMY_IF_PKT0_V01_ALT01, MY_IF_PKT1_MY_ALT_IP
The parameter ClusterIp is used to form a Redundancy Group (RG) during startup. You must pass HA0 the IP address of one of the nodes in the RG in the ClusterIp parameter. The format is shown below.
ClusterIp: "<RG_IP>"
Cluster IP Parameters:
| Parameter | Description |
|---|---|
| ClusterIp | ClusterIP is the IP address of one of the nodes in the RG used for RG formation on startup. |
Userdata
Userdata Format
user_data_format: RAW
user_data:
str_replace:
template: |
#cloud-config
users:
- name: admin
ssh-authorized-keys:
- $adminSshKey
lock_passwd: false
- name: linuxadmin
ssh-authorized-keys:
- $linuxAdminSshKey
lock_passwd: false
runcmd:
- usermod -p '$adminPassword' admin
- usermod -p '$linuxAdminPassword' linuxadmin
write_files:
- content: |
{
"CEName" : "$ce_name",
"CEMode" : "$ce_mode",
"SystemName" : "$system_name",
"SbcPersonalityType" : "$personality",
"SbcHaMode" : "$ha_mode",
"enableREST" : "$enableREST",
"enableCoreEMA" : "$enableCoreEMA",
"enableTS" : "$enableTS",
"DosSupportSecPktPorts" : "$dos_support_sec_port",
"EmsUsername" : "$ems_user_name",
"EmsPassword" : "$ems_password",
"EmsIP" : [ "$ems_ip_1", "$ems_ip_2" ],
"SdRegistry" : [ { "type":"dns","servers":$sd_registry } ],
"EmsFqdn" : "$ems_fqdn",
"EmsDownloadConfig" : "$downloadConfig",
"OamIP" : [ "$oam_ip_1", "$oam_ip_2" ],
"Oam1Ip" : "$oam_ip1",
"Oam2Ip" : "$oam_ip2",
"CERole" : "$ce_role",
"TemplateName" : "heatRgNoDhcp.yaml",
"TemplateVersion" : "TEMPLATE_VERSION_UNKNOWN",
"HAFaultDetectionMode" : "$haFaultDetectionMode",
"EmsPrivateNodeParameters" : { "cluster_id": "$cluster_id","vnfc_id":"$vnfc_id"}
}
path: /opt/sonus/conf/userData.json
#bootcmd:
#- /opt/sonus/bin/mountVolume.sh -v "$cinderVolumeIdForLogs"
params:
$ce_role: { get_param: sbc_ceRole }
$ce_name: { get_param: sbc_ceName }
$ce_mode: { get_param: sbc_ceMode }
$system_name: { get_param: sbc_system_name }
$personality: { get_param: personality }
$dos_support_sec_port: { get_param: dos_support_sec_port }
$ha_mode: { get_param: ha_mode }
$enableREST: { get_param: enableREST }
$enableCoreEMA: { get_param: enableCoreEma }
$enableTS: { get_param: enableTS }
$ems_user_name: { get_param: ems_user_name }
$ems_password: { get_param: ems_password }
$ems_ip_1: { get_param: ems_ip_1 }
$ems_ip_2: { get_param: ems_ip_2 }
$sd_registry: { get_param: sd_registry }
$ems_fqdn: { get_param: ems_fqdn }
$cluster_id: { get_param: cluster_id }
$downloadConfig: { get_param: download_config }
$oam_ip_1: { get_param: oam_ip_1 }
$oam_ip_2: { get_param: oam_ip_2 }
$haFaultDetectionMode: { get_param: haFaultDetectionMode }
$vnfc_id: { list_join: ['-', [ { get_param: "OS::stack_name" }, { get_param: cluster_id }, '1']] }
$adminSshKey: { get_param: adminSshKey }
$linuxAdminSshKey: { get_param: linuxAdminSshKey }
$adminPassword: { get_param: adminPassword }
$linuxAdminPassword: { get_param: linuxAdminPassword }
#$cinderVolumeIdForLogs: { get_param: cinder_volume_id_for_logs }
The userdata JSON is present under the write_file directory /opt/sonus/conf/userData.json.
Example Userdata
{
"CERole" : "ACTIVE",
"CEName" : "vsbc1",
"CEMode" : "sbc",
"SystemName" : "vsbcsystem",
"SbcPersonalityType" : "msbc",
"SbcHaMode" : "Nto1",
"EnableREST" : "Enabled",
"EnableCoreEMA" : "Enabled",
"EnableTS" : "Enabled",
"OamIP" : [ "10.54.58.104", "10.54.58.105" ],
"Oam1Ip" : "10.54.58.104"
"Oam2Ip" : "10.54.58.105"
"EmsUsername" : "restuser",
"EmsPassword" : "sonus123",
"EmsIP" : [ "10.54.58.184", "10.54.58.185" ],
"SdRegistry" : [ { "type":"dns","servers":["10.23.3.10","10.25.5.10"] } ],
"EmsFqdn" : "dev1._ems._tcp.example.com",
"EmsDownloadConfig" : "False",
"TemplateName" : "heatRgNoDhcp.yaml",
"TemplateVersion" : "V08.00.00",
"HAFaultDetectionMode" : "normal"
"EmsPrivateNodeParameters": { "cluster_id": "MSBC" , "vnfc_id": "Msbc1_N1" }
}
Note:
Beginning with release 7.1, you must include SSH keys or passwords in the Heat template to log into the SBC CLI or linux shell. Because they are more secure, SSH key fields are mandatory in the Heat templates.
You can use the ssh-keygen command to generate keys. This command generates two files id_rsa and id_rsa.pub in your /home/<user>/.ssh directory. The contents of the id_rsa.pub file contains the input value for the keys in the template. Optionally, keys can also be protected using a passphrase.
Use man ssh-keygen for more options.
Passwords are optional fields. The password input is not plain text, it is a hash of the password. The hash password can be generated using the command: mkpasswd --method=SHA-512 --rounds=4096
Use man mkpasswd for more options.
OpenStack Userdata Parameters:
| Parameter | Description |
|---|---|
| adminSshKey | Specifies the public SSH key to log into the SBC CLI as the admin user. |
| linuxAdminSshKey | Specifies the public SSH key to log into the SBC shell as the linuxadmin user. |
| adminPassword | The hash of the password to log into the SBC CLI as the admin user. |
| linuxAdminPassword | The hash of the password to log into the SBC shell as the linuxadmin user. |
| CERole | Assigned role for the SBC instance. Allowed values:
|
CEName | Specifies the actual CE name of the SBC instance. For more information, see System and Instance Naming in SBC SWe N:1 and Cloud-Based Systems. CEName requirements:
|
| CEMode | Specifies the role for the SBC instance within the cluster. Allowed values:
|
SystemName | Specifies the actual system name of the SBC instance. For more information, see System and Instance Naming in SBC SWe N:1 and Cloud-Based Systems. SystemName requirements:
|
SbcPersonalityType | Specifies the SBC or node personality type.
|
DosSupportSecPktPorts | (Applicable only when port redundancy is enabled) Specifies whether to launch secondary Rx cores to support DoS protection for secondary packet ports.
|
| SbcHaMode | Specifies the SBC HA model for the deployment.
|
| EnableREST | Use this parameter to disable or enable the Core EMA component.
|
| EnableCoreEMA | Use this parameter to disable or enable the RESTCONF API services provided by the EMA for SBC configuration (using the RAMP SBC Manager).
|
| EnableTS | Use this parameter to disable or enable the Troubleshooting component of the EMA.
|
| OamIP | Specifies the IP addresses for the 1:1 HA pair of OAM nodes. For IPv4: ["a.b.c.x","a.b.c.y"] For IPv6: ["aaaa:bbbb:cccc:dddd::xx","aaaa:bbbb:cccc:dddd::yy"] |
EmsUsername | Specifies the RESTCONF API username for logging into EMS. If the SBC SWe is not integrated with an EMS, this parameter should be set to "None". |
EmsPassword | Specifies the RESTCONF API password for logging into EMS. If the SBC SWe is not integrated with an EMS, this parameter should be set to "None". |
EmsIP | Specifies the EMS instance IPv4 or IPv6 address(es). For IPv4
For IPv6
|
| SdRegistry | Specifies the service discovery registries (nameservers) used to retrieve IPs of services in a JSON format: [ { "type":"dns","servers":$sd_registry } ] where $sd_registry is a json array of IPs or hostnames, such as: [ "a.b.c.x","a.b.c.y" ] Every registry can be specified in the IPv4, IPv6 or hostname format. If no SdRegistry is specified, the default DNS server assigned to the system will be used for service discovery. |
| EmsFqdn | Specifies the FQDN of the EMS to be resolved dynamically using the service discovery registry. (See the SdRegistry parameter). Once the EMS is resolved from the service registry, this will override any value provided in the EmsIp parameter. The FQDN may point to an SRV, PTR or A/AAAA DNS record. Please refer to Configuring Service Discovery for Trap Destinations and RAMP Registration, topic Standard FQDN Naming Convention, for further details. |
EmsDownloadConfig | Whether configuration should be downloaded from the EMS. Default value: True
NOTE: Beginning in release 8.0, this option is no longer required and the configured value is ignored. |
| TemplateName | Specifies the name of the template file. |
| TemplateVersion | Specifies the software version associated with the template. |
| HAFaultDetectionMode | Specifies the mode of HA fault detection. Values:
|
EmsPrivateNodeParameters | Specifies the EMS private node parameters. The cluster ID and vnfc ID both allow hyphens and cannot exceed 64 characters in length. |
cinderVolumeIdForLogs | (Optional) Specifies the Cinder volume ID that you want to attach for logs. Cinder volume length must be between 1 and 8 characters. allowed values: "^[A-Za-z0-9]{1}[-A-Za-z0-9]*[A-Za-z0-9]{1}$" |
Metavariables
Interface-related information (contents of interface and ALT IP definitions) provided in userdata and/or metadata is flattened down into key-value pairs, which can be retrieved using the CLI.
An example metavariable table for a 4:1 M-SBC is shown below:
admin@vMsbcl> show table system metavariable CE NAME NAME VALUE ------------------------------------------------------ vMsbcl-10.10.20.17 OamIP ['10.10.20.17','10.10.20.18'] vMsbcl-10.10.20.17 Oam1Ip 10.10.20.17 vMsbcl-10.10.20.17 Oam2Ip 10.10.20.18 vMsbcl-10.10.20.17 IFO.GWV6 fd00:10:6b50:43AO::1 vMsbcl-10.10.20.17 IF0.IPV6 FD00:10:6B50:43AO::DO vMsbcl-10.10.20.17 IFO.Port MgtO vMsbcl-10.10.20.17 IFl.GWV4 10.10.20.1 vMsbcl-10.10.20.17 IFl.IPV4 10.10.20.17 vMsbcl-10.10.20.17 IFl.Port HaO vMsbcl-10.10.20.17 IF2.GWV6 FD00:10:6B50:4D74::1 vMsbcl-10.10.20.17 IF2.IPV6 FD00:10:6B50:4D74::DO vMsbcl-10.10.20.17 IF2.Port PktO vMsbcl-10.10.20.17 IF3.GWV6 FD00:10:6B50:4D70::1 vMsbcl-10.10.20.17 IF3.IPV6 FD00:10:6B50:4D70::9 vMsbcl-10.10.20.17 IF3.Port PktO vMsbcl-10.10.20.17 IF4.GWV4 10.54.226.129 vMsbcl-10.10.20.17 IF4.IPV4 10.54.226.138 vMsbcl-10.10.20.17 IF4.Port PktO vMsbcl-10.10.20.17 IF5.GWV4 10.54.226.193 vMsbcl-10.10.20.17 IF5.IPV4 10.54.226.202 vMsbcl-10.10.20.17 IF5.Port PktO vMsbcl-10.10.20.17 IF6.GWV4 10.10.13.1 vMsbcl-10.10.20.17 IF6.IPV4 10.10.13.17 vMsbcl-10.10.20.17 IF6.Port Pktl vMsbcl-10.10.20.17 IF2.Vlanid 313 vMsbcl-10.10.20.17 IF3.Vlanid 309 vMsbcl-10.10.20.17 IF4.Vlanid 311 vMsbcl-10.10.20.17 IF5.Vlanid 312 vMsbcl-10.10.20.17 IFO.PrefixV6 60 vMsbcl-10.10.20.17 IFl.PrefixV4 24 vMsbcl-10.10.20.17 IF2.PrefixV6 64 vMsbcl-10.10.20.17 IF3.PrefixV6 64
vMsbc2-10.10.20.18 OamIP ['10.10.20.17','10.10.20.18'] vMsbc2-10.10.20.18 Oam1Ip 10.10.20.17 vMsbc2-10.10.20.18 Oam2Ip 10.10.20.18 vMsbc2-10.10.20.18 IF4.PrefixV4 26 vMsbc2-10.10.20.18 IF5.PrefixV4 26 vMsbc2-10.10.20.18 IF6.PrefixV4 24 vMsbc2-10.10.20.18 IFO.GWV6 fd00:10:6b50:43AO::1 vMsbc2-10.10.20.18 IF0.IPV6 FD00:10:6B50:43AO::Dl vMsbc2-10.10.20.18 IFO.Port MgtO vMsbc2-10.10.20.18 IFl.GWV4 10.10.20.1 vMsbc2-10.10.20.18 IFl.IPV4 10.10.20.18 vMsbc2-10.10.20.18 IFl.Port HaO vMsbc2-10.10.20.18 IF2.GWV6 FD00:10:6B50:4D74::1 vMsbc2-10.10.20.18 IF2.IPV6 FD00:10:6B50:4D74::Dl vMsbc2-10.10.20.18 IF2.Port PktO vMsbc2-10.10.20.18 IF3.GWV6 FD00:10:6B50:4D70::1 vMsbc2-10.10.20.18 IF3.IPV6 FD00:10:6B50:4D70::A vMsbc2-10.10.20.18 IF3.Port PktO vMsbc2-10.10.20.18 IF4.GWV4 10.54.226.129 vMsbc2-10.10.20.18 IF4.IPV4 10.54.226.139 vMsbc2-10.10.20.18 IF4.Port PktO vMsbc2-10.10.20.18 IF5.GWV4 10.54.226.193 vMsbc2-10.10.20.18 IF5.IPV4 10.54.226.203 vMsbc2-10.10.20.18 IF5.Port PktO vMsbc2-10.10.20.18 IF6.GWV4 10.10.13.1 vMsbc2-10.10.20.18 IF6.IPV4 10.10.13.18 vMsbc2-10.10.20.18 IF6.Port Pktl vMsbc2-10.10.20.18 IF2.Vlanid 313 vMsbc2-10.10.20.18 IF3.Vlanid 309 vMsbc2-10.10.20.18 IF4.Vlanid 311 vMsbc2-10.10.20.18 IF5.Vlanid 312 vMsbc2-10.10.20.18 IFO.PrefixV6 60 vMsbc2-10.10.20.18 IFl.PrefixV4 24 vMsbc2-10.10.20.18 IF2.PrefixV6 64 vMsbc2-10.10.20.18 IF3.PrefixV6 64 vMsbc2-10.10.20.18 IF4.PrefixV4 26 vMsbc2-10.10.20.18 IF5.PrefixV4 26 vMsbc2-10.10.20.18 IF6.PrefixV4 24 vMsbc3-10.10.20.19 OamIP ['10.10.20.17','10.10.20.18'] vMsbc3-10.10.20.19 Oam1Ip 10.10.20.17 vMsbc3-10.10.20.19 Oam2Ip 10.10.20.18 vMsbc3-10.10.20.19 IFO.GWV6 fd00:10:6b50:43AO::1 vMsbc3-10.10.20.19 IF0.IPV6 FD00:10:6B50:43AO::D2 vMsbc3-10.10.20.19 IFO.Port MgtO vMsbc3-10.10.20.19 IFl.GWV4 10.10.20.1 vMsbc3-10.10.20.19 IFl.IPV4 10.10.20.19 vMsbc3-10.10.20.19 IFl.Port HaO vMsbc3-10.10.20.19 IF2.GWV6 FD00:10:6B50:4D74::1 vMsbc3-10.10.20.19 IF2.IPV6 FD00:10:6B50:4D74::D2 vMsbc3-10.10.20.19 IF2.Port PktO vMsbc3-10.10.20.19 IF3.GWV6 FD00:10:6B50:4D70::1 vMsbc3-10.10.20.19 IF3.IPV6 FD00:10:6B50:4D70::B vMsbc3-10.10.20.19 IF3.Port PktO vMsbc3-10.10.20.19 IF4.GWV4 10.54.226.129 vMsbc3-10.10.20.19 IF4.IPV4 10.54.226.140 vMsbc3-10.10.20.19 IF4.Port PktO vMsbc3-10.10.20.19 IF5.GWV4 10.54.226.193 vMsbc3-10.10.20.19 IF5.IPV4 10.54.226.204 vMsbc3-10.10.20.19 IF5.Port PktO vMsbc3-10.10.20.19 IF6.GWV4 10.10.13.1 vMsbc3-10.10.20.19 IF6.IPV4 10.10.13.19 vMsbc3-10.10.20.19 IF6.Port Pktl
vMsbc3-10.10.20.19 IF2.Vlanid 313 vMsbc3-10.10.20.19 IF3.Vlanid 309 vMsbc3-10.10.20.19 IF4.Vlanid 311 vMsbc3-10.10.20.19 IFS.Vlanid 312 vMsbc3-10.10.20.19 IFO.PrefixV6 60 vMsbc3-10.10.20.19 IFl.PrefixV4 24 vMsbc3-10.10.20.19 IF2.PrefixV6 64 vMsbc3-10.10.20.19 IF3.PrefixV6 64 vMsbc3-10.10.20.19 IF4.PrefixV4 26 vMsbc3-10.10.20.19 IF5.PrefixV4 26 vMsbc3-10.10.20.19 IF6.PrefixV4 24 vMsbc4-10.10.20.26 OamIP ['10.10.20.17','10.10.20.18'] vMsbc4-10.10.20.26 Oam1Ip 10.10.20.17 vMsbc4-10.10.20.26 Oam2Ip 10.10.20.18 vMsbc4-10.10.20.26 IFO.GWV6 fd00:10:6b50:43AO::1 vMsbc4-10.10.20.26 IF0.IPV6 FD00:10:6B50:43AO::D9 vMsbc4-10.10.20.26 IFO.Port MgtO vMsbc4-10.10.20.26 IFl.GWV4 10.10.20.1 vMsbc4-10.10.20.26 IFl.IPV4 10.10.20.26 vMsbc4-10.10.20.26 IFl.Port HaO vMsbc4-10.10.20.26 IF2.GWV6 FD00:10:6B50:4D74::1 vMsbc4-10.10.20.26 IF2.IPV6 FD00:10:6B50:4D74::D9 vMsbc4-10.10.20.26 IF2.Port PktO vMsbc4-10.10.20.26 IF3.GWV6 FD00:10:6B50:4D70::1 vMsbc4-10.10.20.26 IF3.IPV6 FD00:10:6B50:4D70::12 vMsbc4-10.10.20.26 IF3.Port PktO vMsbc4-10.10.20.26 IF4.GWV4 10.54.226.129 vMsbc4-10.10.20.26 IF4.IPV4 10.54.226.147 vMsbc4-10.10.20.26 IF4.Port PktO vMsbc4-10.10.20.26 IF5.GWV4 10.54.226.193 vMsbc4-10.10.20.26 IF5.IPV4 10.54.226.211 vMsbc4-10.10.20.26 IF5.Port PktO vMsbc4-10.10.20.26 IF6.GWV4 10.10.13.1 vMsbc4-10.10.20.26 IF6.IPV4 10.10.13.26 vMsbc4-10.10.20.26 IF6.Port Pktl vMsbc4-10.10.20.26 IF2.Vlanid 313 vMsbc4-10.10.20.26 IF3.Vlanid 309 vMsbc4-10.10.20.26 IF4.Vlanid 311 vMsbc4-10.10.20.26 IF5.Vlanid 312 vMsbc4-10.10.20.26 IFO.PrefixV6 60 vMsbc4-10.10.20.26 IFl.PrefixV4 24 vMsbc4-10.10.20.26 IF2.PrefixV6 64 vMsbc4-10.10.20.26 IF3.PrefixV6 64 vMsbc4-10.10.20.26 IF4.PrefixV4 26 vMsbc4-10.10.20.26 IF5.PrefixV4 26 vMsbc4-10.10.20.26 IF6.PrefixV4 24
vMsbcS-10.10.20.11 OamIP ['10.10.20.17','10.10.20.18'] vMsbcS-10.10.20.11 Oam1Ip 10.10.20.17 vMsbcS-10.10.20.11 Oam2Ip 10.10.20.18 vMsbcS-10.10.20.11 IFO.GWV6 fd00:10:6b50:43AO::1 vMsbcS-10.10.20.11 IF0.IPV6 FD00:10:6B50:43AO::CA vMsbcS-10.10.20.11 IFO.Port MgtO vMsbcS-10.10.20.11 IFl.GWV4 10.10.20.1 vMsbcS-10.10.20.11 IFl.IPV4 10.10.20.11 vMsbcS-10.10.20.11 IFl.Port HaO vMsbcS-10.10.20.11 IF2.GWV6 FD00:10:6B50:4D74::1 vMsbcS-10.10.20.11 IF2.IPV6 FD00:10:6B50:4D74::CA vMsbcS-10.10.20.11 IF2.Port PktO vMsbcS-10.10.20.11 IF3.GWV6 FD00:10:6B50:4D70::1 vMsbcS-10.10.20.11 IF3.IPV6 FD00:10:6B50:4D70::3 vMsbcS-10.10.20.11 IF3.Port PktO vMsbcS-10.10.20.11 IF4.GWV4 10.54.226.129 vMsbcS-10.10.20.11 IF4.IPV4 10.54.226.132 vMsbcS-10.10.20.11 IF4.Port PktO vMsbcS-10.10.20.11 IF5.GWV4 10.54.226.193 vMsbcS-10.10.20.11 IF5.IPV4 10.54.226.196 vMsbcS-10.10.20.11 IF5.Port PktO vMsbcS-10.10.20.11 IF6.GWV4 10.10.13.1 vMsbcS-10.10.20.11 IF6.IPV4 10.10.13.11 vMsbcS-10.10.20.11 IF6.Port Pktl vMsbcS-10.10.20.11 IF2.Vlanid 313 vMsbcS-10.10.20.11 IF3.Vlanid 309 vMsbcS-10.10.20.11 IF4.Vlanid 311 vMsbcS-10.10.20.11 IFS.Vlanid 312 vMsbcS-10.10.20.11 IFO.PrefixV6 60 vMsbcS-10.10.20.11 IFl.PrefixV4 24 vMsbcS-10.10.20.11 IF2.PrefixV6 64 vMsbcS-10.10.20.11 IF3.PrefixV6 64 vMsbcS-10.10.20.11 IF4.PrefixV4 26 vMsbcS-10.10.20.11 IF5.PrefixV4 26 vMsbcS-10.10.20.11 IF6.PrefixV4 24 [ok] [2017-08-04 12:26:35]
The metavariable names are used for configuration:
set addressContext default ipInterfaceGroup LIG1 ipInterface LIG1_V4 ipVarV4 IF2.IPV4 prefixVarV4 IF2.PrefixV4 vlanTagVar IF5.VlanId portName pkt0 state enabled mode inService set addressContext default ipInterfaceGroup LIG2 ipInterface LIG2_V4 ipVarV4 IF3.IPV4 prefixVarV4 IF3.PrefixV4 ipPublicVarV4 IF3.FIPV4 portName pkt1 state enabled mode inService set addressContext default zone ZONE_AS sipSigPort 3 ipInterfaceGroup LIG2 ipVarV4 IF3.IPV4 ipPublicVarV4 IF3.FIPV4 state enabled set system dsbc dsbcSigPort ipInterfaceGroup SRRIMSMediaIPv6 ipVarV6 PKT0_V02_ALT_IP_01.IP mode inService state enabled commit
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