Tunnel Window Fields

Pathname

This is the user-specified name of the route for this tunnel. If “Dynamic” is specified, the route will be chosen dynamically and the user should not configure a path in that entry. Otherwise, the user can specify a different

Opt

This field indicates the priority of this path/route in the “Opt” field. In the “Opt” field, Paragon Planner will select the smallest number to be the primary route. For example, you may specify an Opt 2 for route “Backup1” and Opt 5 for “Backup2”. Paragon Planner will sort these two routes and select “Backup1” to be the primary route since its Opt is smaller.

Configured

This field displays the user-configured route/path for this tunnel.

The route consists of a sequence of node IDs or names separated by “--”. Different delimiters are used to mark the distance relationship between nodes. A listed configured route for a tunnel would be something like “ATL--WDC--HOU--NYC”. This means the path of the tunnel begins at node Atlanta, goes to Washington DC, Houston, and terminates at node New York City.

BW^(J)

This is the bandwidth required by the tunnel.

Type^(J)

Indicates the type of the tunnel as specified in the Tunnel Attributes window. The user may edit this field by right-clicking on the table and selecting “Edit Type”.

Affinity/Mask (C)IncludeAll/ Exclude/ IncludeAny (J)

Allows you to set the affinity/mask of the tunnel for Cisco, or the include all, exclude, and include-any settings for Juniper admin groups to prohibit particular tunnels from routing on trunks with particular attributes (admin-groups). Trunk attributes effectively color the trunk, whereas a tunnel’s affinity/mask or include-all, exclude, and include-any settings determine which color trunks the tunnel is permitted to be placed upon. The user may edit this field by right-clicking on the table and selecting “Edit Affinity/Mask” for Cisco or “Edit Include-All/Exclude/Include-Any” for Juniper.

Pri,Pre^(J)

The priority field of the circuit specification consists of two numbers separated by a comma (,), or a back-slash (/). The first number defines the setup priority of the circuit, and the second number the holding priority of the circuit. The holding priority should be at the same or lower priority as the setup priority of the tunnel. It is assumed that this tunnel can only be bumped by a tunnel with a setup priority higher than its holding priority.

Comment^(J)

Displays any comments the user may be inclined to enter.

Tunnel Metric

A tunnel metric (absolute, relative or don’t care) used by IGP if Autoroute Announce is checked.

Absolute : Use tunnel metric as is

Relative : Set tunnel metric relative to IGP Metric (e.g., 10 would mean tunnel metric = IGP metric + 10)

Don’t Care : Tunnel metric defaults to IGP metric.

ABS= absolute_metric REL= relative_metric

Tunnel Option

Specifies whether the tunnel is primary, secondary, or standby. This option can be configured for a tunnel originating at a Juniper router by selecting Edit Type from the right-click menu of the bottom half of the Add Tunnel or Modify Tunnel window.

MTU

Indicates the tunnel’s Maximum Transmission Unit (default unit is in Bytes).

MTU=<mtu>

Max Delay

The maximum delay allowed for this tunnel. The max delay will be calculated either from the delay inputted on the links, or else the value set in the Delay Parameters section of the Design Options window (by default, 1ms per 100 miles).

MAXDELAY=<delay>

Max Hop

The maximum number of hops allowed for this tunnel.

H<hopcount>

Max Cost

The maximum total admin cost (sometimes referred to as “distance” or “admin weight”) allowed for this tunnel. That is, the total admin cost of all the links that the tunnel traverses should not exceed this value.

MAXCOST=<value>

Multicast Name

The tunnel belongs to this multicast group. Tunnels with the same multicast name are members of the same P2MP tree.

MCmulticast_name

Routing Instance

OSPF routing instance/process ID

ROUTEINST=<inst>

Autoroute Announce

Announces the presence of the tunnel by the routing protocol. When Autoroute announce is enabled, the IGP will include the tunnel in its shortest path calculation when the tunnel is up

NOAA (No Autoroute Announce) corresponds to not selecting this checkbox

GRE

Generic Router Encapsulation

GRE

Zero Backup Bandwidth

Cisco feature. During reroute, the tunnel bandwidth is 0. If this is a backup tunnel, then selecting this option would mean that bandwidth will not be reserved from the link(s) for this tunnel.

0BW

Policy Class

If there was a policy class established and applied to this tunnel, it would appear here. The user can click on the down arrow and review all policies that apply to the tunnel.

Guaranteed Bandwidth-TE

GB Tunnels can only be routed on trunks with available bandwidth in the SubPool.

GB

CCC

Circuit cross-connect. This means that this tunnel is cross-connecting between two interfaces using CCC

No BD

No Border Flag. This is an artificial parameter used for design. When set, routing will not follow OSPF constraints. That is, the whole network will be treated like a flat network.

NOBD

No CSPF

Indicates that administrative groups/link attributes will be ignored by this tunnel.

NOCSPF

IGP

If checked, the tunnel will be routed using the current Interior Gateway Protocol’s metric rather than the tunnel metric. The current routing method can be found in the Design Options, Path Placement options pane.

IGP

Auto-Reoptimization

Indicates that the LSP can be automatically reoptimized if the existing path becomes suboptimal.

REOPT

Template

Specifies a configlet template in the $WANDL_HOME/data/templates or /u/wandl/data/templates directory. This option allows you to select a manually-generated template to be used for the configlet generation process. Select the directory in which this template file is saved.

TMLT= templatename

LDP

For LDP tunneling. VPN traffic can only route over LDP enabled tunnels/links. For example, this will translate to the ldp-tunneling; statement for Juniper configurations.

LDP

Virtual Trunk

If a tunnel is marked as a virtual trunk, it is known to other routers and its metric and available bandwidth information will be broadcast to other routers as if it were a link. Just as a link has interfaces defined on both ends, two tunnels (one in each direction) must be defined as virtual trunks for this setting to take effect. Otherwise, the virtual trunk will be perceived as being “down”.

VT or VT_areanumber

Area

The OSPF area assigned to the Virtual Trunk. This option applies only if Virtual Trunk is selected and the network uses OSPF routing (as opposed to, say, ISIS routing). A tunnel that is marked as a virtual trunk will be advertised as a link to other routers. If those routers perform OSPF area routing, they need to know what area this virtual trunk belongs to. Select the area from the pull-down box.

Diversity

If SITEDIV is selected, the program will pair tunnels with the same originating and terminating sites. Paired tunnels are routed diversely.

This field can also be used to specify the name of a group of tunnels this tunnel belongs to. When performing diverse path design, the program will try to design the paths of the tunnels in this group to be diverse.

DSITEDIV

Ddivgroupname where divgroupname is the name of a group of tunnels for which diverse paths is desired

Diverse Level

Allows users to specify path diversity requirements for tunnels with standby or secondary paths.

Select the desired level of diversity

NODEDIV for node disjoint paths

LINKDIV for link disjoint path

FACDIV for facility/SRLG disjoint paths

NODEDIV

LINKDIV

FACDIV

Tertiary Diverse

Indicates that if there is a third path for this tunnel (e.g., in the case of one primary plus two secondary paths), that all three paths should be designed to be diverse.

Users should add an entry for the second and third path and then design the path using the “Design > Tunnels > Path Design” option for Paragon Planner to design this path.

3DIV