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This chapter describes the ESP Configuration Interface, also known as the command line interface (CLI), that is used to configure and provision the ESP and ATM or Frame Relay SVC services. This chapter is divided into the following sections:
The bulk of this chapter lists and describes the various ESP Configuration Interface menus and screens. The final section, Parameter Ranges and Defaults, contains Table 8-1, ESP Configuration Parameters, which lists the menus with user-configurable parameters and their default settings.
The Configuration Interface can be run from a terminal (or PC running terminal emulation software) which is directly connected to the ESP, or from a telnet session.
To start the Configuration Interface, follow these steps:
Step 1 Connect to the ESP either through a telnet session or from a directly connected terminal. (See the Chapter 7 section Connecting a Terminal).
Step 2 Log in as apsuser using your ESP user password.
Step 3 The ESP Configuration Interface will start, bringing up the Main Menu shown in Figure 8-1.
There can be up to 8 ESP Configuration Interfaces running simultaneously.
------------------------------------------------------------------------------- | espname Cisco E S P bpxname | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Main Menu | | | | 1 - ESP Information | | 2 - ATM UNI Information | | 3 - FR UNI Information | | 4 - NNI Information | | 5 - Option Unavailable | | 6 - SPVC Information | | 7 - Alarms | | 8 - PNNI Information | | 0 - Quit | | | | Enter Your Option : | | | | | | | | | | | | | ?------------------------------------------------------------------------------?
As shown in Figure 8-1, ESP Configuration screens consist of a title bar and a menu area. In the left-hand corner of the title bar, the configured name of this ESP is displayed (shown here as apslab2) and the current Administrative Role (ACTIVE, STANDBY, or STANDALONE, shown here as STANDALONE). In the right-hand corner of the title bar, the name of the BPX 8620 to which this ESP is attached is displayed (shown here as spvc21). The title bar appears on each ESP Configuration Interface screen. The menu area will contain various menu and screen information.
The ESP Configuration Interface is a series of inter-linked menus, which are used to view and configure various configuration and provisioning parameters for ATM and Frame Relay SVCs and IISP or PNNI routing protocols. All uses of the Configuration Interface start with the Main Menu shown in Figure 8-1. The Main Menu has nine options:
1 ) ESP Information leads to the series of menus used to configure the ESP, including its Operational Role and State, Administrative Role and State, Billing Information, and the Node and Shelf Lists. The ESP Information menus also contain the option to download ESP software from the StrataView Plus (SV+) Workstation.
2 ) ATM UNI Information leads to the series of menus used for adding or deleting ATM User-to-Network (UNI) ports. The ATM UNI port parameters include Protocol Version, Administration State, Operational State, Signaling PVC, Port Addresses and Prefixes, Billing parameters, and Incoming and Outgoing screen policies and addresses.
3 ) FR UNI Information leads to the series of menus used for adding or deleting Frame Relay User-to-Network (UNI) ports. The Frame Relay UNI port parameters include Protocol Version, Administration State, Operational State, Signaling PVC, Port Addresses, Billing parameters, and Incoming and Outgoing screen policies and addresses
4 ) NNI Information leads to a series of menus used configure the Network to Network trunks in a WAN Service Node network. The NNI parameters include Port ID, Protocol Version, Administrative State, Operational State, Signaling PVC, NNI Role, and Link Weight. Note that there are different NNI parameters configured for IISP and PNNI trunks.
5 ) Option Unavailable.
6 ) SPVC Information provides a series of menus used to add, delete, and display soft permanent virtual circuits (SPVCs).
7 ) Alarms provides a menu that lists the date/time, severity, type, and description of ESP alarms.
8 ) PNNI Information leads to a series of menus used to configure the Private Network to Network Interface (PNNI) protocol. These menus include PNNI Parameters, Route Agent Parameters, AvCR (Available Cell Rate) Parameters, and Node ID.
0 ) Quit exits the ESP Configuration Interface and returns to the UNIX login.
Each option is identified with an index number (for example, 1. ESP Information); you select that option by typing the index number. There is no need to press the Enter key. Each option leads to subsequent menus and screens. A menu is used to configure parameters, while a screen is used to display parameters. In some cases, a Configuration Interface menu is identical to a screen, but the displayed fields cannot be modified. Some menus have a combination of fields some are user-changeable and some are not. Fields which are not user-changeable will be identified as read-only in this chapter.
These menus or screens normally have a list of fields followed by the configured or default parameter or data; for example:
ESP Name: apssvc1Where ESP Name: is the field, and apssvc1 is the configured data. You can move the cursor from field to field with the Tab or Enter keys. The cursor skips over read-only fields, which typically provide status information and are not user configurable. When the cursor is resting in a field on a menu, you can enter a value or parameter or text string in the field, then press Enter. Many fields, for which there is a list of options can be entered as index number. A help line at the bottom of the menu indicates what each acceptable index numbers represents. After you enter the index number and press Enter, a textual description of the choice will appear in the field. Other fields, such as ESP Name, are entered as text strings. The help line at the bottom of the menu will also indicate what the text fields represent.
The following line appears at the bottom of every menu:
Press 'c' to commit and 'd' to discardWhen you have completed all the fields for the menu, the cursor will rest on this line. If you want to save the data you have entered, press 'c' and you will commit the menu. It is now a record. If you do not want to save the data you have entered, press 'd' and you will discard the data. You can re-complete this menu until you are satisfied that you have entered everything correctly. Pressing any key other than 'c' or 'd' will take you to the first field of the menu.
Some menus are lists, such as Node List or Shelf List. On these lists, you can scroll through the items with the up or down arrow keys until the cursor rests on the list item you want to select. Then press Enter to select that item. For faster scrolling, you can enter 1 (Next Page) and 2 (Previous Page). Entering 9 always moves you back up the men hierarchy.
The menus or screens also list the options (such as, 9 - Previous Menu) which are active at that time. Entering the listed option will open up another menu or take you back to a previous menu.
The following sections describe all of the Configuration Interface Main Menu options in detail.
The CLI will not accept out of range values or index numbers. When you enter index numbers which are not supported or values that are not within a fields valid range, the Configuration Interface will respond with an error message, such as:
Error in Address. Press 'a' if you want to abort Press any key to continue
These error messages are typically self-explanatory, and the record will not get committed until you rectify it.
When you select option 1, ESP Information, the ESP Information menu, shown in Figure 8-2, appears. This menu is used to configure the ESP, and connect it to its redundant peer.
------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | ------------------------------------------------------------------------------- | ESP Information | | | | ESP Name: svclab9 Revision Number: 22_03 | | | | Admin State: IN SERVICE Oper State: IN SERVICE | | | | Admin Role: STANDALONE Oper Role: STANDALONE | | | | | | Redundant ESP Name: Redn ESP IP Addr: 0.0.0.0 | | | | BPX Name: svcbpx3 BPX IP Addr: 172.29.27.33 | | | | ESP Port: svcbpx3.3.1 | | | | 3 - Billing Information 4 - Load file from SV+ | | 5 - Modify ESP Config 6 - List of Nodes | | 7 - View Shelf List 9 - Previous Menu | | | ?------------------------------------------------------------------------------
This menu contains the following fields:
The ESP Information menu provides several options which are accessed with the following options:
From the ESP Information menu, the option 3 will access the Billing Information menu, shown in Figure 8-3. This menu allows you to display the current billing parameters and to modify their parameters for the entire WAN Service Node. (Note that there is also Billing Information that is configurable on a per-UNI port basis. This UNI Port Billing Information is described in ATM UNI Port Billing Configuration.)
You press 5 when you want to modify the current billing parameters for the WAN Service Node. Option 9 returns you to the previous screen.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | ------------------------------------------------------------------------------- | ESP Billing Information | | | | SVC Billing: ON | | | | Bucket Interval: 5 File Collection Interval: 15 | | | | SVC Recording: | | Originating: ON Terminating: ON | | | | SVC Attempts: | | Originating: OFF Terminating: OFF | | | | CBR Cell Counting: OFF VBR Cell Counting: ON | | | | Frame Counting: OFF | | | | 5 - Modify ESP Config 9 - Previous screen | | | | | ?------------------------------------------------------------------------------
The ESP Billing Information menu includes the following fields:
From the ESP Information menu, the option 4 accesses the Download File from SV+ option, shown in Figure 8-4. This option allows you to download the database file (that is the ESP configuration that has been stored on the SV Plus Workstation) to the ESP. (See the section StrataView Plus Management in Chapter 9 for information on loading the image (ESP binary file) and saving and restoring databases with StrataView Plus.) Entering 1 - DB brings up the Enter version: ESP_DB_ prompt, shown in Figure 8-4, to which you add the appropriate release version as it was saved on the StrataView Plus Workstation, then transported back onto the ESP.
------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | ------------------------------------------------------------------------------- | ESP Information | | | | --------------------------------------------------------------------- | | | Load File from SV+ | | | | | | | | Enter Type (1 - DB, 2 - Image) : | | | | Enter version : ESP_DB_ | | | | | | | | | | | ?--------------------------------------------------------------------? | | | | BPX Name: espbpx4 BPX IP Addr: 172.29.26.34 | | | | ESP Port: espbpx4.3.1 | | | | 3 - Billing Information 4 - Load file from SV+ | | 5 - Modify ESP Config 6 - List of Nodes | | 7 - View Shelf List 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
Typically the ESP should be taken Out of Service before you download either the ESP software or the ESP configuration file from the SV Plus Workstation.
The Modify ESP Config (Configuration) option is allows you to change the values for an already configured ESP. The menu is similar to the ESP Information menu shown in Figure 8-2.
From the ESP Information menu, the option 6 accesses the List of Nodes menu, shown in Figure 8-5. This menu is only used for IISP networks. This menu provides a list of all the WAN Service Nodes in the network. There can be a maximum of 32 nodes listed.
The up and down arrow keys will move the cursor up and down the node list. When the list expands to more than one page, the 1 - Next Page and 2 - Previous Page options toggle between pages.
If you want to see a list of node prefixes, move the cursor to a specific node (for example, bpxsvc1) and press Return. The Node Prefixes list shown in Figure 8-7 appears.
By pressing the option 3 from the Node List screen, you can Add a Node to the list with the menu shown in Figure 8-6. It is possible to add a maximum of 5 nodes at a single time.
Remember, for PNNI networks, you do not have to manually enter nodes in the list; PNNI automatically finds all the nodes in the network.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Node List | | | | => svcbpx3 | | svcbpx1 | | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add a Node 4 - Delete a Node | | Return - View Node Prefixes 9 - Previous Menu | | | ?------------------------------------------------------------------------------
The Node Prefixes for the BPX 8620 attached to this ESP are not available. The first node in the list is the BPX 8620 attached to this ESP.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Node List | | | | svcbpx3 | | ------------------------------------------------- | | | | | | | Type in the new Node Name and press <enter> | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | ?------------------------------------------------? | | | | | | | | | ?------------------------------------------------------------------------------
-------------------------------------------------------------------------------- | spvc20 Cisco E S P spvc21 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------| | Node Address Information | | | | Node Name : svcbpx3 | | => NSAP_ICD: 47:00:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11| | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Node Prefix 4 - Delete an Node Prefix | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
You will only see Node Prefixes for IISP networks.
The 3 --Add a Node Prefix option opens the Add a Node Prefix menu shown in Figure 8-8. This menu allows you to assign a prefix to a node which will accelerate the processing required to find a route to the node. When the ESP is searching for a route to an address at that node, it will only have to match the prefix (13 bytes) instead of the full 20 byte address. Naturally all ATM addresses on the node must have the same 13 byte prefix. You can also enter a Node Prefix that is less than 13 bytes.
-------------------------------------------------------------------------------- | spvc20 Cisco E S P spvc21 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Node Address Information | | | | Node Name : spvc24 | | => NSAP_ICD: 47:00:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11| | | | ------------------------------------------------------------------------- | | | Adding Node Prefix/Address for spvc24 | | | | Enter Prefix Type(1-E164, 2-NSAP_E164, 3-NSAP_DCC, 4-NSAP_ICD): | | | | | | | | | | | | | | | | | | | ?------------------------------------------------------------------------? | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Node Prefix 4 - Delete an Node Prefix | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
From the ESP Information menu, the option 7 accesses the View Shelf menu, shown in Figure 8-9. The Shelf List screen lists all the MGX 8220 shelves attached to this WAN Service Node. The option 3 allows you to add a shelf to this list with the menu shown in Figure 8-10. The arrow keys move you up and down the list. The 1 (Next Page) and 2 (Previous Page) options move you back and forth between pages when the list has expanded to multiple screens. There can be a maximum of 10 shelves in the list.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Shelf List | | | | ESP Name svclab9: | | | | => | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add a new shelf 4 - Delete a shelf | | Enter - View more info 9 - Previous Menu | | | ?------------------------------------------------------------------------------
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Shelf Information | | | | ESP Name: svclab9 Shelf Name: | | | | Read community String: Public | | Write community String: Private | | | | ASC IP Address: 0.0.0.0 ASC Card Id: 0 | | | | BNI Card Id: 0 BNI Port Id: 0 | | | | | | | | | | | | | | Press 'c' to commit and 'd' to discard : | | Name of the Shelf (Maximum of 12 characters) | | | ?------------------------------------------------------------------------------
The Add a New Shelf menu contains the following fields:
Option 2 on the ESP main menu accesses a UNI Information menu, shown in Figure 8-11. The UNI Information menu displays a list of UNI ports on this WAN Service Node. The UNI ports are listed by their Port Ids (Node.slot.port), followed by the logical port number in parenthesis, and their current Administrative and Operational States.
You can add or delete UNI ports from the WAN Service Node provisioning with options 3 and 4 from this menu. The option 3 leads to the Add UNI Port menu shown in Figure 8-12.
Pressing the Enter key presents More Information about a selected UNI port as shown in Figure 8-13.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | ATM UNI Information | | | | Port ID Admin State SSCOP State | | ------------------------------------------------------------- | | => svcbpx3.12.2 (1) IN SERVICE OUT OF SERVICE | | svcbpx3.12.1 (2) IN SERVICE OUT OF SERVICE | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add UNI Port 4 - Delete UNI Port | | Enter - More details 9 - Previous Menu | | | ?------------------------------------------------------------------------------
From the main UNI Information screen, you can use the option 3 to access the Add a UNI port menu, shown in Figure 8-12. This menu is similar to the More UNI Information menu, however, it also allows you to configure the various UNI port parameters and provides on-screen information about the various fields that must be completed to add an UNI port to the WAN Service Node.
You can only change UNI Port parameters when the port is Out of Service. (For Frame Relay UNI port parameters see the section, Frame Relay UNI Information.)
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | ATM UNI Information | | | | Port Id: .0.0 (0) Protocol version: UNI 3.0 | | | | Admin State: IN SERVICE Oper State: OUT OF SERVICE | | | | Signalling PVC: Local VPI: 0 Local VCI: 0 | | Remote VPI: 0 Remote VCI: 0 | | | | VPI Range: 0 - 1022 | | VCI Range: 0 - 65535 ILMI Addr Reg: ENABLE | | Max VCI Bits: 16 | | Incoming Called # Policy:DISALLOW Outgoing Calling # Policy:DISALLOW | | | | | | | | Press 'c' to commit and 'd' to discard : | | UNI Port Number (Node/Shelf Name.Card Id.Port Id) | | | ?------------------------------------------------------------------------------
The Add a UNI Port menu contains the following fields:
After you have completed all the UNI port parameters, you either commit them by entering 'c' or discard them by entering 'd'.
Once an ATM UNI port record has been configured and committed with the Add an UNI Port option, it will appear in the in the ATM UNI Formation list as shown in Figure 8-11. Selecting an ATM UNI port in this list and pressing Enter (Enter - More Details) brings up the More UNI Information screen shown in Figure 8-13. This screen is a record of the parameters that were configured with the Add UNI Port menu with the addition of a series of options (1-6 and 9) that provide a means of configuring other parameters relevant to this ATM UNI port.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Information | | | | Port Id: svcbpx3.12.2 (1) Protocol version: UNI 3.0 | | | | Admin State: IN SERVICE Oper State: OUT OF SERVICE | | | | Signalling PVC: Local VPI: 0 Local VCI: 0 | | Remote VPI: 0 Remote VCI: 0 | | | | VPI Range: 0 - 100 | | VCI Range: 32 - 65535 ILMI Addr Reg: DISABLE | | Max VCI Bits: 16 | | Incoming Called # Policy:DISALLOW Outgoing Calling # Policy:DISALLOW | | | | 1 - View Port Addresses 2 - View Incoming called numbers | | 3 - View Address Prefixes 4 - View Outgoing calling numbers | | 5 - Modify Uni Info 9 - Previous Menu | | 6 - View Billing Configuration | | | ?------------------------------------------------------------------------------
The More ATM UNI Information screen presents the following parameters:
The More UNI Information also responds to the following options:
From the More UNI Information screen, the option 1 leads to the View Port Address menu which is shown in Figure 8-14. This screen lists the type of UNI Port address (for example, NSAP_164) then lists the address. For 20-byte ATM addresses, the bytes are shown separated by colons.
This menu also lists the number of UNI Port Addresses which have been configured in the parenthesis. The number of configured UNI port addresses is listed in parenthesis at the top of the screen.
If ILMI address registration has been Disabled on the UNI Information menu for this port, you will not be able to enter address prefixes. Without ILMI address registration, you will have to enter a full 20-byte address. With ILMI address registration Enabled, you must enter the 13-byte prefix.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Port addresses (1) | | | | UNI Port : svcbpx3.12.2 (1) | | => NSAP_ICD: 47:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11:11| | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address/prefix/# 4 - Delete an Address/prefix/# | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------
From the More UNI Information screen, the option 2 leads to the UNI Incoming Called Party #s screen. This screen is used to display and to add or delete UNI Ingress Port Screen Addresses. This screen lists the UNI Port Id (for example, bpxsvc1.3.1) and all the Ingress Screen Addresses that have been provisioned. The number of UNI Incoming called party numbers that have been configured is listed in parenthesis at the top of the screen. The configured Incoming Called Party screening policy is also listed.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Incoming called party numbers (0) | | | | UNI Port : svcbpx3.12.2 (1) Policy: DISALLOW | | => | | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address/prefix/# 4 - Delete an Address/prefix/# | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------
To add an Ingress Screen Address, press 3, and the Add an Address/prefix menu shown in Figure 8-16 appears. This menu allows you to enter an index number for the type of UNI port address prefix:
Then provides a line for you to enter the new address as shown in Figure 8-16. Depending on the type of address, the first two bytes may be automatically assigned. The number of digits that can be entered is also dependent on the type of address being added. E.164 addresses can be up to 15 digits. Other address formats can accept up to 40 digits, which equals the 20 byte address.
-------------------------------------------------------------------------------| | esplab2 Cisco E S P svcbpx2 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------| | UNI Incoming called party numbers (0) | | | | UNI Port : svcbpx2.9.2 Policy: DISALLOW | | => | | | | ------------------------------------------------------------------------ | | | | | | | Adding UNI Incoming Called Number for | | | | Enter Pfx/# Type (1-E164, 2-NSAP_E164, 3-NSAP_DCC, 4-NSAP_ICD): 4 | | | | Enter Pfx/Addr/# : 47 | | | | 1234567890123456789012345678901234567890 | | | | | | | ------------------------------------------------------------------------- | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address/prefix/# 4 - Delete an Address/prefix/# | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
From the More UNI Information screen, the option 3 leads to the View Address Prefixes menu shown in Figure 8-17. This menu lists the Address Prefixes configured for this UNI port, and it also allows you to add or delete a UNI port address/prefix. If ILMI address registration has not been entered, you will not be able to add a UNI prefix address. The number of configured UNI Prefix addresses is listed in the parenthesis. The option 3 leads to Add an Address/Prefix menu shown in Figure 8-17.
------------------------------------------------------------------------------ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | ------------------------------------------------------------------------------ | UNI Prefix addresses (1) | | | | UNI Port : svcbpx1.13.3 (1) | | => NSAP_ICD: 47:00:91:81:00:00:00:08:00:20:80:64:79 | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address/prefix/# 4 - Delete an Address/prefix/# | | 9 - Previous Menu | ?------------------------------------------------------------------------------
The Add an Address/Prefix menu allows you to enter the ATM address type as an index number:
The menu then provides a line for you to enter the new address as shown in Figure 8-16.
When an out of value number is entered in one of the address formats, the Configuration Interface will not accept it. You will be prompted with message to press a to abort. Pressing a returns you to the next higher level. Pressing any other key allows you to re-enter the address on the current menu.
From the More UNI Information screen, the option 4 leads to the View UNI Outgoing Calling Party #s menu shown in Figure 8-18. This menu list the Egress Screen addresses that have been configured, and also allows you to add or delete other addresses from the Outgoing Calling Party Screen list.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Outgoing calling party numbers (0) | | | | UNI Port : svcbpx3.12.2 (1) Policy: DISALLOW | | => | | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address/prefix/# 4 - Delete an Address/prefix/# | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------
From the Viewing Egress Screen Address menu, the option 3 opens the Adding an Egress Screen Address menu shown Figure 8-19. The Add an Egress Address menu allows you to enter the ATM address type as an index number:
The menu then provides a line for you to enter the new address as shown in Figure 8-19.
-------------------------------------------------------------------------------- | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Outgoing calling party numbers (0) | | | | UNI Port : svcbpx1.13.3 (1) Policy: DISALLOW | | => | | ------------------------------------------------------------------------- | | | Adding UNI Outgoing Calling Number for | | | | Enter Pfx/# Type (1-E164, 2-NSAP_E164, 3-NSAP_DCC, 4-NSAP_ICD): 2 | | | | Enter Pfx/Addr/# : 45 | | | | 1234567890123456789012345678901234567890 | | | | | | | ?------------------------------------------------------------------------? | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address/prefix/# 4 - Delete an Address/prefix/# | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------
From the More UNI Information screen, the option 6 opens the UNI Billing menu shown in Figure 8-20. This menu allows you to view and configure the UNI port billing parameters on a per- UNI-port basis. These parameters work in conjunction with the Billing parameters set on a per-WAN Service Node basis described in the WAN Service Node Billing Information Menu section. The per-UNI-port billing parameters will override the parameters that were set on a per-Node basis for this UNI port.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Billing Information | | | | Port Id: svcbpx3.12.2 (1) | | | | SVC Recording: | | Originating: OFF Terminating: OFF | | | | SVC Attempts: | | Originating: OFF Terminating: OFF | | | | CBR Cell Counting: OFF VBR Cell Counting: OFF | | | | | | | | | | | | 5 - Modify Billing parameters 9 - Previous screen | | | ?------------------------------------------------------------------------------
This menu contains the following fields:
From the ESP Configuration Interface Main Menu, option 3, FR UNI Information, accesses the Frame Relay UNI Information menu. This menu, shown in Figure 8-21, lists the Frame Relay UNI ports that have been configured with the ESP Configuration Interface. As shown, this screen lists the configured Frame Relay (FR) UNI Port IDs, along with their current Admin State and Operational State. You can select a UNI port in the list and press Enter to see how it has been configured.
The option 3 accesses the menu for adding a Frame Relay UNI and the option 4 allows you to Delete a Frame Relay UNI port. Frame Relay UNI ports cannot be deleted while they are In Service.
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | FR UNI Information | | | | Port ID Admin State SSCOP State | | ------------------------------------------------------------- | | => espax3.12.2 (7) IN SERVICE OUT OF SERCICE | | espax3.12.1 (256) IN SERVICE OUT OF SERVICE | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add FR UNI Port 4 - Delete FR UNI Port | | Enter - More details 9 - Previous Menu | | | ?------------------------------------------------------------------------------
When you are adding a Frame Relay (FR) UNI port, by pressing 3 from FR UNI Information menu, the Frame Relay UNI Information menu, shown in Figure 8-22, appears.
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | FR UNI Information | | | | Port Id: .0.0 (0) Protocol version: FRF4 | | | | Admin State: IN SERVICE Oper State: OUT OF SERVICE | | | | | | | | Incoming Called # Policy:DISALLOW Outgoing Calling # Policy:DISALLOW | | | | | | | | FrameRelay Port DLCI Range: 1 - 1023 | | | | | | | | Press 'c' to commit and 'd' to discard : | | FR UNI Port Number (Node/Shelf Name.Card Id.Port Id) | | | ?------------------------------------------------------------------------------?
This menu contains the following fields:
After a Frame Relay UNI Port has been configured with the Add FR UNI Port option, it will appear in the list of ports on the FR UNI Information menu shown in Figure 8-21. When you select one the Frame Relay ports from this list and press Enter (Enter - More Details), the Frame Relay UNI More Details Information screen appears. This screen lists all the parameters that were configured with the Add a Frame Relay Port menu with the addition of a series of options that lead to menus for configuring other parameters relevant to a Frame Relay UNI port.
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | FR UNI Information | | | | Port Id: espax3.12.3 (7) Protocol version: FRF4 | | | | Admin State: IN SERVICE Oper State: OUT OF SERVICE | | | | | | | | Incoming Called # Policy:DISALLOW Outgoing Calling # Policy:DISALLOW | | | | | | | | FrameRelay Port DLCI Range: 1 - 1023 | | | | | | 1 - View Port Addresses 2 - View Ingress Screen Address | | 4 - Modify Fr Uni Info 3 - View Egress Screen Address | | 9 - Previous Menu 5 - View Billing Configuration | | | ?------------------------------------------------------------------------------?
These options and the subsequent menus are:
This menu, shown in Figure 8-24, lists the port addresses that have been configured for this Frame Relay UNI port. The WAN Service Node supports Frame Relay addresses in native E.164 format, as was described in Chapter 3 in the section Frame Relay UNI Port Addressing.
The option 3 allows you to enter (or add) and address to the list. Native E.164 addresses are entered as numbers, much like a telephone number, and can be up to 15 digits long. The option 4 allows you to delete a configured E.164 address from the list.
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Port addresses (1) | | | | Frame Relay Port : espax3.12.3 (7) | | => E164: 60:05 | | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address 4 - Delete an Address | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
This menu, shown in Figure 8-25, for viewing or configuring the Incoming Called Number screening list for this Frame Relay UNI port. It also indicates whether the Incoming Called Party # screening policy for this Frame Relay UNI port has been configured as Allowed or Disallowed. The option 3 allows you to add an E.164 address to the list, and the option 4 allows you to delete an address from the list.
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Incoming called party numbers (0) | | | | Frame Relay Port : espax3.12.3 (7) Policy: DISALLOW | | => | | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address 4 - Delete an Address | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
This menu, shown in Figure 8-26, is used to view or add E.164 addresses to the UNI Outgoing calling party number list. It also indicates whether the Outgoing Calling Party # screening policy for this Frame Relay UNI port has been configured as Allowed or Disallowed.
The option 3 allows you to add an E.164 number to the Outgoing Calling Party list and by bringing up the menu box shown in Figure 8-26. The option 4 allows you to delete an E.164 number from the list.
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | UNI Outgoing calling party numbers (0) | | | | Frame Relay Port : espax3.12.3 (7) Policy: DISALLOW | | => | | -------------------------------------------------------------------------- | | | Adding UNI E_164 for | | | | Enter Address Type(1-E164): | | | | | | | | | | | | | | | ?------------------------------------------------------------------------? | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add an Address 4 - Delete an Address | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
This menu, shown in Figure 8-27, is used for viewing and configuring the Frame Relay UNI port billing parameters. (These parameters are identical to those of the ATM UNI Billing menu shown in Figure 8-20, with the exception that there are no CBR or VBR Cell Counting fields and there is a Frame Counting field which can be turned On or Off.)
-------------------------------------------------------------------------------- | svclab15 Cisco E S P espbpx4 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Billing Information | | | | Port Id: espax3.12.3 (515552) | | | | SVC Recording: | | Originating: ON Terminating: ON | | | | SVC Attempts: | | Originating: OFF Terminating: OFF | | | | FrameCounting: OFF | | | | | | | | | | | | 5 - Modify Billing parameters 9 - Previous screen | | | | | ?------------------------------------------------------------------------------?
This menu contains the following fields:
Option 3 from the ESP's Configuration Interface main menu opens the NNI Information menu, shown in Figure 8-28. This menu lists the NNI connections from this WAN Service Node, including their Administrative and Operational States.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | NNI Information | | | | Port ID Admin State SSCOP State | | ------------------------------------------------------------- | | => svcbpx3.3.6 (3) IN SERVICE IN SERVICE | | svcbpx3.3.4 (4) IN SERVICE IN SERVICE | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add NNI Port 4 - Delete NNI Port | | Enter - More details 9 - Previous Menu | | | ?------------------------------------------------------------------------------
From this NNI Information menu, the option 3 opens the Add NNI Port menu shown in Figure 8-29. This menu allows you to configure the NNI trunk. The NNI parameters differ between IISP (see Figure 8-29) and PNNI (see Figure 8-30) trunks.
-------------------------------------------------------------------------------- | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | NNI Information | | | | Port Id: .0.0 (0) Protocol version: IISP 3.0 | | | | Admin State: IN SERVICE Oper State: OUT OF SERVICE | | | | Signalling PVC: Local VPI: 0 Local VCI: 0 | | Remote VPI: 0 Remote VCI: 0 | | | | VPI Range: 0 - 1022 | | VCI Range: 0 - 65535 | | Max VCI Bits: 16 | | NNI Role: USER | | | | Neighbouring Node: Weight: 5040 | | | | Press 'c' to commit and 'd' to discard : | | Administrative status of NNI Port (1-OUT OF SERVICE, 2-IN SERVICE) | | | ?------------------------------------------------------------------------------
For IISP trunks, the menu contains the following fields:
Figure 8-30 is the Add NNI menu for PNNI trunks. This menu is similar to the IISP menu, without NNI Role and Neighboring ESP fields. This menu also has two fields that are not on the IISP NNI menu:
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | NNI Information | | | | Port Id: svcbpx3.3.6 (3) Protocol version: PNNI | | | | Admin State: IN SERVICE Oper State: IN SERVICE | | | | Signalling PVC: Local VPI: 0 Local VCI: 57 | | Remote VPI: 4095 Remote VCI: 5 | | | | VPI Range: 1000 - 4095 | | VCI Range: 32 - 65535 Max CTD: 10 (millisecs) | | Max VCI Bits: 16 | | CDV: 1000000 (microsecs) | | | | Weight: 5040 | | | | Press 'c' to commit and 'd' to discard : | | Maximum Vci Bits for SVCs: (6 - 16) | | | ?------------------------------------------------------------------------------
The NNI Information menu for PNNI does not have the NNI Role or Neighboring Node fields.
From the NNI Information Menu (see Figure 8-28) the Enter key brings up the More NNI Information menu shown in Figure 8-31. This menu is nearly identical to the Add NNI menus, however, it is for displaying the NNI fields that have previously been configured. The option 5 - Modify NNI Info allows you to modify the parameters displayed on this menu.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | NNI Information | | | | Port Id: svcbpx3.3.6 (3) Protocol version: PNNI | | | | Admin State: IN SERVICE Oper State: IN SERVICE | | | | Signalling PVC: Local VPI: 0 Local VCI: 57 | | Remote VPI: 4095 Remote VCI: 5 | | | | VPI Range: 1000 - 4095 | | VCI Range: 32 - 65535 Max CTD: 10 (millisecs) | | Max VCI Bits: 16 | | CDV: 1000000 (microsecs) | | | | Weight: 5040 | | | | | | 5 - Modify NNI Info 6 - NNI Trunk Info | | 9 - Previous Menu | ?------------------------------------------------------------------------------
Pressing 6 on the More NNI Information menu brings up the NNI Trunk Information menu, shown in Figure 8-32. This menu displays SVC/SPVC trunk bandwidth loading, over-subscription parameters and channel usage for an NNI trunk. The overbooking factor (%Util), bandwidth usage and percent loading for each Service Category is displayed. Bandwidth reserved for signalling and routing VCCs and available bandwidth are also displayed. The total trunk bandwidth is the SVC/SPVC bandwidth partition value and the Channel Capacity is the number of SVC/SPVCs partition value. Note that this menu does not distinguish between SVC and SPVC bandwidth usage. The available bandwidth is the value that is exported to PNNI as the Available Cell Rate.
------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | ------------------------------------------------------------------------------- | NNI Information | | | | NNI Trunk Bandwidth | | Port Id:svcbpx3.3.2 (2) | | Category %Util Bandwidth(c/s) Bandwidth (%) | | --------------------------------------------------------------------------- | | CBR: 100 000000 000 | | rt-VBR: 100 000000 000 | | nrt-VBR: 100 000000 000 | | UBR: - - - | | ABR: 100 000000 000 | | Reserved: - 000000 000 | | Available: - 298547 100 | | Total: 298547 | | SPVC Channels Used:0 | | SVC Channels Used:2 | | Channels available:998 | | Channels Capacity:1000 | | 1 - Modify Overbooking factor(%Util) 9 - Return to previous menu | ?------------------------------------------------------------------------------?
For each Service Category (that is, CBR, rt-VBR, nrt-VBR, UBR, ABR), the following information is provided on this menu:
You press 1 to modify the overbooking factors for each service category.
The SPVC Information option leads to the SPVC list of configured connections and to the submenus used to provision soft permanent virtual circuits on the WAN Service Node. (See Chapter 5 for a detailed description of Soft Permanent Virtual Circuits.) The SPVC submenus include:
The SPVC List can be reached from the ESP Configuration Interface main menu by selecting option 6.
The SPVC List displays a list of all currently provisioned SPVCs, and can also be used to add, delete, and modify SPVCs. This menu is empty when no SPVCs have been configured. This menu can be used to add, delete and view SPVCs. The list indicates whether you are viewing the SPVC from the local (master) or remove (slave) end. The local end is indicated by a L in the Role field, and the remote end is indicated by a R. The SPVCs are ordered primarily by slot and port number and secondly by VPI and VCI within a specific port.
+------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | SPVC List | | | | Address VPI.VCI Status Slot.Port Role| | ----------------------------------------------------------------------------| |=>47009181000000080020806479ffff000d000100 0001.01010 ok 13.001 L | | 470000000000000000000000010000000d000200 0001.01001 ok 13.002 R | | | | | | | | | | | | | | | | | | 1 - Next Page 6 - Re-route SPVC | | 2 - Add SPVC 7 - Find SPVC | | 3 - Delete SPVC 8 - SPVC Information | | 4 - Down SPVC 9 - Return to Main Menu | | 5 - Up SPVC Enter - View SPVC | +------------------------------------------------------------------------------+
The following fields are displayed for each SPVC:
A selector arrow (=>) allows you to select a specific SPVC in the list to view or perform an action, such as Up, Down, Re-route on. (You can only view SPVCs with Role of L.) You can use the following keys to move around the SPVC List:
The SPVC List menu also lists and uses the following options:
When you select an SPVC, with the Role L, from the SPVC List menu and press Enter to View SPVC, the SPVC Menu, shown in Figure 8-34, appears. This menu list the configured parameters for the SPVC. These parameters are configured with the Add an SPVC menu, which is described in the section, Adding an SPVC. This menu lists and uses the following options:
+------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | SPVC Menu | | | | L:47009181000000080020806479ffff000d000100 VPI.VCI: 1.1010 Port: 13.1| | R:470000000000000000000000010000000d000200 VPI.VCI: 1.1001 | | LstFailCause:Invalid cause value Diagn: | | Status: ok Retry Intvl: 10 sec Retry Limit: 0 | | --------------------------------------------------------------------------- | | Category: CBR Bearer Class:BCOB_X MaxAwFwd: 65535 MaxAwBwd: 65535| | Forward Set: CBR.1 FQOS: 0 Backward Set: CBR.1 BQOS: 0 | | --------------------------------------------------------------------------- | | PCR(0+1): 50 cells/s PCR(0+1): 50 cells/s | | | | | | | | | | | | | | 1 - Modify Retry Interval 2 - Display Statistics | | 3 - Test SPVC 9 - Previous Menu | +------------------------------------------------------------------------------+
The following fields are displayed for each SPVC:
The parameters listed in the lower part of the screen, such as PCR(0+1), etc., will change depending on what Category and Forward and Backward Traffic Set has been configured for the displayed SPVC.
When you press 8 from the SPVC List menu to access SPVC Information, the SPVC Information menu, shown in Figure 8-35, appears. This menu displays the Calling SPVC Prefix and ESI Identifier and the other configured SPVC prefixes for this WAN Service Node. These parameters are used to manage the SPVC service. This menu lists and uses the following options:
-------------------------------------------------------------------------------- | spvc23 Cisco E S P spvc26 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | SPVC Information | | | | Calling SPVC Prefix: 470091810000000800208687F6 ESI Identifier:ffff | | | | SPVC Prefixes New Prefix: | |=>47333333333333333333333333 | | 47222222222222222222222222 | | 47121314151617181910111213 | | | | | | | | | | | | | | | | | | 1 - Modify parameters 3 - Delete SPVC Prefix | | 2 - Add SPVC Prefix 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
This menu displays the following fields:
You press 2 from the SPVC List menu to add a new SPVC. Figure 8-36 illustrates the menu used to add an SPVC. This is similar to an SPVC Menu, without the fields having been completed. As you complete this menu, a message will indicate which fields must be filled in for the SPVC to be added. Other fields will accept default values, which you can accept by pressing enter when the cursor flashes in that field. The bottom third of the menu contains the Forward and Backward Set of connection parameters. These parameters will vary depending on the Category and Forward or Backward Set selected. Figure 8-38 shows the parameters, PCR (0+1), for Category 1 (that is, CBR) which has only one default set of parameters (CBR.1).
-------------------------------------------------------------------------------- | spvc23 Cisco E S P spvc26 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | | | 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 | | VPI.VCI:0000.00000 S.P: | | R: 0000000000000000000000000000000000000000 VPI.VCI:0000.00000 | | Status: Retry Intvl: 10 sec Retry Limit: 0 | | ---------------------------------- -----------------------------------------| | Category:CBR Bearer Class: BCOB_X MaxAwFwd:65535 MaxAwBwd:65535 | | Forward Set: CBR.1 QOS: 0 Backward Set: CBR.1 QOS: 0 | | ---------------------------------- -----------------------------------------| | | | PCR(0+1):50 cells/s PCR(0+1):50 cells/s | | | | | | | | | | | | | | Enter Calling Vpi(4digit) | | | ?------------------------------------------------------------------------------?
To add an SPVC, you must enter the logical slot and port for local (master) end calling address. The prefix is obtained from the value set up in the Calling-end Prefix field in the SPVC Information menu. This prevents you from having to enter the calling prefix every time you add an SPVC. You also enter the remote (slave) end ATM Address and Identifier and other parameters defined in the section View SPVC, including the Service Category and Traffic Set parameters.
When the SPVC is added the ESP makes the following checks:
1 ) The local slot and port have been provisioned.
2 ) The Calling VPI/VCI are in the allowed VPI and VCI range for SVCs and SPVCs.
3 ) The Calling VPI/VCI is not used by an existing SPVC or SVC.
4 ) The Called ATM address and Called VPI/VCI are not used by an existing SPVC provisioned locally.
After an SPVC has been added, whether it is routed or not, it will appear on the SPVC List menu.
When you select a Service Category and a corresponding Traffic Set the SPVC connection parameters change accordingly. These different parameter sets as they appear on the Add an SPVC menu are shown and described in the following subsections:
The different Traffic Set parameters displayed on these SPVC menus are defined in the section on SPVC Traffic Set Parameters.
When the CBR service category is selected, the CBR.1 Traffic Set is used. The CBR.1 Traffic Set parameters are shown in Figure 8-39 with the default values on the screen.
------------------------------------------------------------------------------- | spvc23 Cisco E S P spvc26 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | | | 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 | | VPI.VCI:0000.00000 S.P: . | | R: 0000000000000000000000000000000000000000 VPI.VCI:0000.00000 | | Status: Retry Intvl: 10 sec Retry Limit: 0 | | ---------------------------------- -----------------------------------------| | Category:CBR Bearer Class: BCOB_X MaxAwFwd:65535 MaxAwBwd:65535 | | Forward Set: CBR.1 QOS: 0 Backward Set: CBR.1 QOS: 0 | | ---------------------------------- -----------------------------------------| | | | PCR(0+1): 50 cells/s PCR(0+1): 50cells/s | | | | | | | | | | | | | | | | c - update database, d - discards changes | ?------------------------------------------------------------------------------?
When Categories 2 or 3 (rt-VBR or nrt-VBR), either VBR.1, VBR.2 or VBR.3 Traffic Sets must be used in each direction of the SPVC connection. The VBR.1 Traffic Set is shown in Figure 8-39, with the default values on the screen.
-------------------------------------------------------------------------------- | spvc23 Cisco E S P spvc26 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | | | 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 | | VPI.VCI:0000.00000 S.P: . | | R: 0000000000000000000000000000000000000000 VPI.VCI:0000.00000 | | Status: Retry Intvl: 10 sec Retry Limit: 0 | | ---------------------------------- -----------------------------------------| | Category:VBR-RT Bearer Class: BCOB_X MaxAwFwd:65535 MaxAwBwd:65535 | | Forward Set:VBR.1 QOS: 0 Backward Set: VBR.1 QOS: 0 | | ---------------------------------- -----------------------------------------| | | | PCR(0+1): 50 cells/s PCR(0+1): 50 cells/s | | SCR(0+1): 50 cells/s SCR(0+1): 50 cells/s | | MBS(0+1): 1000 cells MBS(0+1): 1000 cells | | | | | | | | | | | | c - update database, d - discards changes | ?------------------------------------------------------------------------------?
Figure 8-41 shows the VBR.1 (Forward Set) direction and VBR.2 (Backward Set) traffic sets, with the default values shown on screen. For VBR.3 tagging will be requested. .
-------------------------------------------------------------------------------- | spvc23 Cisco E S P spvc26 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | | | 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 | | VPI.VCI:0000.00000 S.P: . | | R: 0000000000000000000000000000000000000000 VPI.VCI:0000.00000 | | Status: Retry Intvl: 10 sec Retry Limit: 0 | | ---------------------------------- -----------------------------------------| | Category:VBR-NRT Bearer Class: BCOB_X MaxAwFwd:65535 MaxAwBwd:65535 | | Forward Set:VBR.1 QOS: 0 Backward Set: VBR.2 QOS: 0 | | ---------------------------------- -----------------------------------------| | | | PCR(0+1): 50 cells/s PCR(0+1): 50 cells/s | | SCR(0+1): 50 cells/s SCR(0): 50 cells/s | | MBS(0+1): 1000 cells MBS(0): 1000 cells | | | | | | | | c - update database, d - discards changes | ?------------------------------------------------------------------------------?
If Category 4 (ABR) is selected, then the ABR traffic set is used, as shown in Figure 8-40, with the default values on the screen. The ABR parameters for the connection are then entered.
-------------------------------------------------------------------------------- | spvc23 Cisco E S P spvc26 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | | | 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 | | VPI.VCI:0000.00000 S.P: . | | R: 0000000000000000000000000000000000000000 VPI.VCI:0000.00000 | | Status: Retry Intvl: 10 sec Retry Limit: 0 | | ---------------------------------- -----------------------------------------| | Category:ABR Bearer Class: BCOB_X MaxAwFwd:65535 MaxAwBwd:65535 | | Forward Set: ABR.1 QOS: 0 Backward Set: ABR.1 QOS: 0 | | ---------------------------------- -----------------------------------------| | | | PCR: 50 c/s Nrm: 32 cells PCR: 50c/s Nrm: 32 cells | | MCR: 50 c/s ADTF: 1000 msec MCR: 50c/s ADTF: 1000 msec | | ICR: 50 c/s Trm: 100 msec ICR: 50c/s Trm: 100 msec | | RIF: 7 TBE:1048320 cells RIF: 7 TBE:1048320 cells | | RDF: 4 CRM: 32760 cells RDF: 4 CRM: 32760 cells | | CDF: 0 CDF: 0 | | | | | | c - update database, d - discards changes | ?------------------------------------------------------------------------------?
When Category 5 (UBR) is selected, either UBR.1 or UBR.2 traffic sets are used in each direction for the SPVC connection. UBR.1 and UBR.2 will request Best Effort. UBR.2 will request Tagging. The UBR.1 Traffic Set is shown in Figure 8-43, with the default values on the screen..
------------------------------------------------------------------------------ + | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | | | 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 | | VPI.VCI:0000.00000 S.P: . | | R: 0000000000000000000000000000000000000000 VPI.VCI:0000.00000 | | Status: Retry Intvl: 10 sec Retry Limit: 0 | | ---------------------------------- -----------------------------------------| | Category:UBR Bearer Class: BCOB_X MaxAwFwd:65535 MaxAwBwd:65535 | | Forward Set: UBR.1 QOS: 0 Backward Set: UBR.2 QOS: 0 | | ---------------------------------- -----------------------------------------| | | | PCR(0+1): 50 cells/s PCR(0+1): 50cells/s | | | | | | | | | | | | Remote ATM Addrs is required parameter | | | | c - update database, d - discards changes | +------------------------------------------------------------------------------+
Table 8-1 lists the parameters that are configured for the SPVC Menu Forward and Backward Traffic Sets. The Cisco System Overview and the Cisco StrataView Plus Operations Guide provide additional information about ATM connection parameters and traffic sets. The table includes the parameter name as it appears on an SPVC menu, its default value, and its value or range.
| Parameter | Default | Value or range | Units | Description |
|---|---|---|---|---|
| PCR (0+1) | 50 | 50 - Line Rate | cells/s | Peak Cell Rate (CLP=0+1) |
| SCR (0+1) | 50 | 50 - Line Rate | cells/s | Sustainable Cell Rate (CLP=0+1) |
| SCR (0) | 50 | 50 - Line Rate | cells/s | Sustainable Cell Rate (CLP=0) |
| MBS (0+1) | 1000 | 1 - 5000000 | cells | Maximum Burst Size (CLP=0+1) |
| MBS (0) | 1000 | 1 - 5000000 | cells | Maximum Burst Size (CLP=0) |
| Tagging | no | yes, no | - | |
| Best Effort | yes | yes, no | - | |
| Frame Discard | no | yes, no | - | |
| CDVT | 25000 | 0 - 5000000 | usec | Cell Delay Variation Tolerance |
| MCR | 50 | 50 - Line Rate | cells/s | Minimum Cell Rate |
| ICR | max[MCR, PCR/10] | MCR - PCR | cells/s | Initial Cell Rate |
| RIF | 128 | Power of 2: 1/32768 - 1 | - | Rate Increase Factor |
| Nrm | 32 | Power of 2: 2 - 256 | cells | Maximum cells per forward RM-cell |
| RDF | 16 | Power of 2: 1/32768 - 1 | - | Rate Decrease Factor |
| CRM | TBE/Nrm | 1 - 4095 | cells | Cumulative RM-cell Count |
| ADTF | 1000 | 62.5, 125, 250, 500, 1000, 2000, 4000, 8000 | msec | ACR Decrease Time Factor |
| Trm | 100 | 100 times power of 2:
100*2E-7 - 100*2E0 | msec | Time between Forward RM-cells |
| CDF | TBD | Power of 2: 1/64 - 1 | - | Cutoff Decrease Factor |
| TBE | 1048320 | 0 - 16777215 | cells | Transient Buffer Exposure |
When a large number of SPVCs have been configured, you can find a specific one fast by pressing 7 from the SPVC List menu. This brings up the Find SPVC menu, shown in Figure 8-42. With this menu, you enter the SPVC's ATM Address and VPI, VCI to find that SPVC Menu for that connection.
+------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | Find SPVC | | | | Atm Address : 47009181000000080020806479ffff000d000100 | | | | Vpi: 0001 | | | | Vci: 01010 | | | | | | | | | | | | | | | | | | | | | | c - update database, d - discards changes | | | +------------------------------------------------------------------------------+
The Find SPVC command displays 10 SPVCs starting from the given end-point ATM address (ATM Address, VPI, VCI). If the given end-point address is not present, it will display the next 10 SPVC entries.
This menu displays the user-plane statistics for one SPVC. The statistics values are updated once per second. This menu displays cell counts received from and sent to the port and the backplane, queue depths, performance monitoring counts, and OAM status. Display of control-plane SPVC statistics is from the command-line CLI.
+------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | SPVC User-Plane Statistics | | L:47009181000000080020806479ffff000d000100 VPI.VCI:1.1010 | | | | Traffic Cells CLP Avg cells/s | | --------------------------------------------------------------------------- | | From Port: 0 0 0 | | To Network: 1 - 0 | | From Network: 1 0 0 | | To Port: 1 - 0 | | --------------------------------------------------------------------------- | | Tx Q Depth: 0 Rx Q Depth: 0 NonCmplnt Dscd:0 | | Bwd SECB: 0 Fwd SECB: 0 | | Bwd Lost Cell: 0 Fwd Lost Cell: 0 Rx AIS:No | | Bwd Msin Cell: 0 Fwd Msin Cell: 0 Rx RDI:No | | Bwd BIPV: 0 Fwd BIPV: 0 | | | | | | 1 - Clear Statistics 9 - Return to Main Menu | | | +------------------------------------------------------------------------------+
Option 7 of the Main Menu leads to the ESP Alarms screen shown in Figure 8-44. This screen lists the Date/Time, Severity, Type, and a brief textual description of each alarm. Options 1 and 2 allow you to page down and up through pages of alarms. Option 3 presents the latest alarms and option 4 clears the alarms.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | Alarms | | | | Date/Time Severity Type Details | | ------------------------------------------------------------------------- | | 1/20/98 19:24 MAJOR SUBPRC_NOT_RESP SubProcess not responding | | 1/20/98 19:39 MAJOR ANNEX_G_FAIL Shutting down | | 1/20/98 19:39 MAJOR SUBPRC_NOT_RESP SubProcess not responding | | 1/20/98 23:59 MINOR SLOT_VCC_FAIL Card=12 | | 1/20/98 23:59 MINOR SLOT_VCC_FAIL Card=12 | | 1/21/98 5:33 MINOR SLOT_VCC_FAIL Card=12 | | 1/21/98 5:33 MINOR SLOT_VCC_FAIL Card=12 | | 1/21/98 7:04 MINOR SLOT_VCC_FAIL Card=12 | | 1/21/98 7:04 MINOR SLOT_VCC_FAIL Card=12 | | 1/23/98 17:31 MAJOR NO_ACTV_ROLE_CNFRM No Active role confirm by BCC | | | | 1 - Page Down 2 - Page Up | | 3 - Latest Alarms 4 - Clear Alarms | | 5 - Clear Notification 9 - Previous Menu | | | -------------------------------------------------------------------------------?
Option 5 from the main menu presents the PNNI Menu shown in Figure 8-45. This leads to four series of menus which are used to provision PNNI for the network.
-------------------------------------------------------------------------------- | svclab3 Cisco E S P svcbpx2 | | ACTIVE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | PNNI Menu | | | | 1 - PNNI Parameters | | 2 - Route Agent Parameters | | 3 - AvCR Parameters | | 4 - Node Id | | 5 - Summary Address | | | | | | Enter Your Option : | | | | | | | | | | | | | | | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
From this menu, you choose one of the listed options:
1 ) PNNI Parameters to configure PTSE (PNNI Topology State Elements) and Hello protocol parameters.
2 ) Route Agent Parameters to configure routing policy, constraints, Epsilon, and Dijkstra Holddown Timer parameters.
3 ) AvCR Parameters to configure AvCR Proportional Multiplier and AvCR Minimum Threshold.
4 ) Node Id to configure the PNNI node ID.
5 ) Summary Address to configure a summary address for this WAN Service Node.
The PNNI parameters menu, shown in Figure 8-46, is used to configure PNNI Topology State Elements (PTSEs) and Hello protocol parameters. As shown each of these parameters is a timer of some sort that is configured with a value. The value is actually a factor (that is a multiplier). For some fields, there is also a quantity listed in parenthesis, such as (100ms). The quantity is multiplied by the value to give the configured parameter. For instance for PTSE Holddown, the value is 10, the quantity is 100 milliseconds, so the configured value would be 10 x 100ms or 1000ms (1 second).
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | PNNI Timer Configuration Menu | | | | Timer Value | | ------------------------------------------------------------- | | 1: PTSE Holddown 10 (100ms) | | 2: Hello Holddown 10 (100ms) | | 3: Hello Interval 15 (seconds) | | 4: Hello Inactivity Factor 5 | | 5: PTSE Refresh Interval 1800 (seconds) | | 6: PTSE Lifetime Factor 2 | | 7: PTSE Retransmit Interval 5 (seconds) | | 8: PTSE Delayed Acknowledgement 10 (100ms) | | | | | | | | Enter Your Option : | | | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
On this menu, you enter the appropriate index number to configure one the following parameters:
1 ) PTSE Holddown is a timer which assures that the PTSEs are not re-originated too frequently. The range is 10 - 30 units, and the default is 10 units (or 1 second, 10 x 100 milliseconds).
2 ) Hello Holddown is a timer which assures that Hello packets are not transmitted too frequently. The range is 10 - 40 units, and the default is 10 units (or 1 second, 10 x 100 milliseconds).
3 ) Hello Interval is the time, in seconds, which specifies the interval between Hello packets, in the absence of event-triggered Hellos. The range is 5 - 60, and the default is 15 seconds.
4 ) Hello Inactivity Factor is the amount of time, in seconds, between Hellos that the node sends out over a link, in the absence of event-triggered Hellos. In other words, it is the number of Hello Intervals the PNNI protocol allows to pass without receiving a Hello before the link is declared down. The range is 2 - 10, and the default is 5.
5 ) PTSE Refresh Interval is the time in seconds between reoriginations of a self-originated PTSE in the absence of triggered updates. A PNNI node will reoriginate PTSEs at this rate in order to prevent flushing of these PTSEs by other nodes. The range is 1800 - 3600 , and the default is 1800 seconds.
6 ) PTSE Lifetime Factor is used to calculate the initial lifetime of self-originated PTSEs. The initial lifetime is set to the product of the PTSE Refresh Interval and the PTSE Lifetime Factor. The range is 1 - 10 units, and the default is 2 (2 x 100%=200%).
7 ) PTSE Retransmit Interval is the interval at which unacknowledged PTSEs will be retransmitted. A PTSE will be retransmitted every PTSE Retransmission Interval seconds unless explicitly acknowledged through receipt of either a) an Acknowledgment Packet specifying the PTSE instance, or b) the same instance of a more recent instance of the PTSE by flooding. The range is 5 - 15, and the default is 5 seconds.
8 ) PTSE Delayed Acknowledgment is the minimum number of seconds between transmissions of delayed PTSE acknowledgment packets. The range is 10 - 30 units, and the default is 10 units (or 1 second, 10 x 100 milliseconds).
The Route Agent Parameters menu, shown in Figure 8-47, leads to four subsequent menus:
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | PNNI Menu | | | | 1 - Routing Policy | | 2 - Routing Constraints | | 3 - Epsilon | | 4 - Dijkstra Hold Down Timer | | | | | | Enter Your Option : | | | | | | | | | | | | | | | | | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
The PNNI Routing Policy Menu, shown in Figure 8-48, allows you to choose either Cost or Quality of Service (QoS) as the routing policy. If cost-based routing is chosen, then the routing constraint is Administrative Weight (AW); otherwise, the routing constraints are based on delay. The default is Cost based.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | PNNI Routing Policy Menu | | | | | | | | | | Routing Policy: Cost | | | | | | | | | | | | | | 1. Cost | | 2. QoS | | | | Enter Your Selection (1 or 2): | | | | 9 - Previous Menu 1 - Configure | | | ?------------------------------------------------------------------------------?
The Routing Constraints menu is shown in Figure 8-49. This menu allows you to configure various route parameters which PNNI will consider during its calculations.
-------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | PNNI Link Attribute Policy Menu | | | | | | | | | | 1. Max Route AW: 1000000000 | | 2. Max Route CTD: 100 (msec) | | 3. Max Route CDV: 100 (msec) | | | | | | | | | | | | | | | | Enter Your Option : | | | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------
On this menu, you enter the appropriate option number to configure one of the parameters:
1 ) Max Route AW (Administrative Weight) is a value assigned to indicate the relative desirability of using a link or node. It is a dimensionless number. It is additive and can be aggregated during path selection in Dijkstra calculations, and in particular, if set to 1 on every link, the accumulated value becomes hop counts. There is a single AW configured per trunk for all service classes. The range is 5040 to 1000000000, and the default is 1000000000.
2 ) Max Route CTD (Cell Transfer Delay) which is the sum of the fixed delay across the link or node and CDV (Cell Delay Variation), measured in microseconds. Max Route is statically configured on per-trunk basis, based on average queueing and transit delay. The range is 1 - 200 milliseconds, and the default is 100 milliseconds.
3 ) Max Route CDV (Cell Delay Variation) is the difference between the average CTD and max CTD measured in microseconds. It is additive and can be accumulated during path selection in Dijkstra calculations. CDV is statically configured on a per-trunk basis, based on average queuing and transit delay. Use one for all supported service classes. The range is 1 - 200 milliseconds, and default is 100 milliseconds.
The Epsilon menu, shown in Figure 8-50, allows you to configure the Epsilon in a range of 0 - 20. The default is 0. Epsilon is a metric used in the Dijkstra calculations. Paths are considered as equal cost if the difference between their accumulated values on a specific metric is less than or equal to the configured Epsilon. Otherwise, one path is considered as more optimal and is selected.
+------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | Epsilon Menu | | | | | | | | | | Epsilon: 10 (%) | | | | | | | | | | | | | | | | | | | | Enter Your Option : | | | | 9 - Previous Menu 1 - Configure | | | +------------------------------------------------------------------------------+
The Dijkstra Hold Down Timer menu, shown in Figure 8-51, allows you to configure the Dijkstra Hold Down Timer. Dijkstra is an algorithm that is used to calculate shortest path routes based on given link and nodal states. Shortest path routes describe the shortest paths from the local WAN Service Node to all other WAN Service Nodes for a given constraint. The range of the Dijkstra Hold Down timer is 5 - 600, and the default is 10.
+------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | Dijkstra Hold Down Timer Menu | | | | | | | | | | Dijkstra Hold Down Timer: 99999 (100msec) | | | | | | | | | | | | | | | | | | | | Enter Your Option : | | Value out of Range (5-600). Try again. | | 9 - Previous Menu 1 - Configure | | | +------------------------------------------------------------------------------+
The AvCR (Available Cell Rate) menu, shown in Figure 8-52, allows you to configure Available Cell Rate parameters.
------------------------------------------------------------------------------+ | svclab2 Cisco E S P svcbpx1 | | STANDALONE Configuration Interface, Release 1 | +------------------------------------------------------------------------------+ | AvCR Parameters Menu | | | | | | | | | | 1. AvCR Proportional Multiplier: 50 | | 2. AvCR Minimum Threshold: 3 | | | | | | | | | | | | | | | | | | Enter Your Option : | | | | 9 - Previous Menu | | | +------------------------------------------------------------------------------+
From this menu, you enter the appropriate index number to configure the following parameters:
1 ) AvCR Proportional Multiplier. The range is 1 - 99, and the default is 50. This is the percentage of the last advertised Available Cell Rate such that a change within the range AvCR + or - (AvCr *AvCR_PM/100) is not considered significant.
2 ) AvCR Minimum Threshold. The range is 1 - 99, and the default is 3. This is the percentage of maxCR such that changes in AvCr of less than the amount form the last advertised value are never considered significant, even when the rule for AvCR_PM would indicate that the change was significant.
The Node ID menu, shown in Figure 8-53, allows you to display or configure the Node ID for the PNNI protocol and to set the LS1010 point-to-multipoint (P2Mpt) interworking (I/W) On or Off. The Node ID is associated with a specific ATM end point address and is used as the source address within PNNI messages. The Node ID consists of 22 bytes, that is the first line of the Node ID shown below. In the default Node ID, the first byte (38) corresponds to the level indicator (38 hex equals 56, the PNNI peer group level in this release of the WAN Service Node), followed by a byte value of A0 hex (decimal 160). The remaining 20 bytes are the WAN Service Node's default ATM NSAP, which was described in Chapter 2 in the section WAN Service Node Default NSAP Address. The first 7 bytes of this default address (47:00:91:81:00:00:00) are fixed. They are followed by a 6-byte MAC address. The MAC address will be unique to each WAN Service Node and is shown here as 08:00:20:80:7F:85. This MAC address is repeated in PNNI Node ID then followed a selector of 00, the last byte.
The LS1010 P2Mpt field configures point-to-multipoint interworking between the WAN Service Node (with the ESP capability) and the Cisco Lightstream LS1010 ATM Switch. You turn LS1010 point-to-multipoint ON by selecting 6 - Change P2Mpt flag; then select 1 or 2 to turn the flag Off or On respectively. For more information about configuring point-to-multipoint SVCs, see the section Point-to-Multipoint SVCs in Chapter 9. (When you select 5 - Change Node Id, you are also able to configure the Node ID.)
------------------------------------------------------------------------------- | svclab9 Cisco E S P svcbpx3 | | STANDALONE Configuration Interface, Release 1 | ------------------------------------------------------------------------------- | Node Id | | | | 38:A0:47:00:91:81:00:00:00:08:00:20:86:52:58:08:00:20:86:52:58:00: | | 12:34:56:78:90:12:34:56:78:90:12:34:56:78:90:12:34:56:78:90:12:34: | | | | | | LS1010 P2Mpt I/W [ON/OFF]:ON Enter Flag Value:1 - OFF, 2 - ON | | | | WARNING:THIS FEATURE ENABLED ONLY IF FOLLOWING IS SATISFIED | | 1:LS1010 exists in the same network | | 2:No other switches in the same network | | 3:User Wants to run p2mp | | 4:Either BPX has to be a leave, or BPX has to be on atleast | | one of the p2mp distribution tree | | Press 'c' to commit any other key to discard : | | 5 - Change Node Id 6 - Change P2Mpt flag 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
Option 5 on the PNNI menu access the Summary Address menus. This menu allows you to configure summary addresses, which are a collective representation of multiple ATM end-point addresses sharing a prefix. Chapter 4 has more information in the section Summary Addresses.
-------------------------------------------------------------------------------- | svclab3 Cisco E S P svcbpx2 | | ACTIVE Configuration Interface, Release 1 | -------------------------------------------------------------------------------- | | | Summary Address Length (bits) | | ==================================================================== | |=> 47:55:11:22:33:44 48 | | | | | | | | | | | | | | | | | | | | | | | | 1 - Next Page 2 - Previous Page | | 3 - Add Summary Address 4 - Delete Summary Address | | 9 - Previous Menu | | | ?------------------------------------------------------------------------------?
This menu displays the configured summary addresses as well as letting you add (3 - Add Summary Address) or delete (4 - Delete Summary Address) summary addresses. When you select 3 - Add Summary Address another menu will appear. You will be prompted to enter a summary address in NSAP format. You enter it in hexadecimal with out spaces or colons. You will also be asked to provide the number of bits in the address. When the ESP accepts the summary address it will be shown with colons dividing each byte as shown above. You can enter up to 64 summary addresses.
Table 8-1 lists all the parameters in the ESP Configuration Interface, along with their ranges and defaults. The table lists each relevant menu in the left column. The right column lists the parameter, the applicable range, and the default in bold text. Only those menus that have user-changeable fields are listed; therefore, screens, such as Topology Information, which list configured parameters or items are not included in this table. Fields which are described as read-only display information but are not user-configurable.
| Menu | Field, Range, and Default |
|---|---|
| ESP Information | ESP Name: 12-character text string Revision Number: ESP software revision number Admin State: Out of Service, In Service Oper State: Out of Service, In Service, Admin Role: Active, Standby, Standalone Redundant ESP Name: 12-character string Redn ESP IP Addr: 0.0.0.0 BPX Name: read-only BPX IP Addr: ESP Port: Node name.slot ID. Port ID |
| ESP Billing Information | SVC Billing: On or Off Bucket Interval: 5, 15, 30 minutes File Collection Interval: 15 or 30 minutes SVC Recording: Originating: On , Off, or Study SVC Recording: Terminating: On , Off, or Study SVC Attempts: Originating: On , Off, or Study SVC Attempts: Terminating: On , Off, or Study CBR Cell Counting: On , Off, or Study VBR Cell Counting: On , Off, or Study Frame Counting: On, Off, or Study |
| Shelf Information | ESP Name: read-only current ESP's name Read Community String: read-only Public Write Community String: read-only Private ASC IP Address: dotted decimal format, 0.0.0.0 ASC Card ID: 0 BNI Card ID: slot id, 0 BNI Port ID: port it, 0 |
| Add an ATM UNI Port | Port ID: Node.shelf.slot.port Protocol Version: UNI 3.0 or UNI 3.1 Admin State: In Service or Out of Service Oper State: read-only Signaling PVC: Local VPI, 0 Signaling PVC: Local VCI, 0 Signaling PVC: Remote VPI, 0 Signaling PVC: Remote VCI, 5 ILMI Addr Reg: Enable or Disable Max VCI Bits: 6 -16 Incoming Called # Policy: ALLOW or DISALLOW Outgoing Calling # Policy: ALLOW or DISALLOW |
| ATM UNI Port Billing | Port ID: Node.shelf.slot.port SVC Recording: Originating: On , Off, or Study SVC Recording: Terminating: On, Off, or Study SVC Attempts: Originating: On, Off, or Study SVC Attempts: Terminating: On, Off, or Study CBR Cell Counting: On, Off, or Study VBR Cell Counting: On, Off, or Study |
| Add a Frame Relay UNI Port | Port ID: Node.shelf.slot.port Protocol Version: read-only FRF.4 Admin State: In Service or Out of Service Oper State: read-only Incoming Called # Policy: ALLOW or DISALLOW Outgoing Calling # Policy: ALLOW or DISALLOW ForeSight: Enabled or Disabled AdjUtil: 0 to 100%, 100% |
| Frame Relay UNI Port Billing | Port ID: Node.shelf.slot.port SVC Recording: Originating: On, Off, or Study SVC Recording: Terminating: On, Off, or Study SVC Attempts: Originating: On, Off, or Study SVC Attempts: Terminating: On, Off, or Study Frame Counting: On, Off, or Study |
| Add NNI (for IISP) | Port ID: Node.shelf.slot.port Protocol Version: IISP 3.0, IISP 3.1, PNNI Admin State: Out of Service or In Service Oper State: read-only Signaling PVC: Local VPI: 0 Signaling PVC: Local VCI: 0 Signaling PVC: Remote VPI: 0 Signaling PVC: Remote VCI: 18 Max VCI Bits: 6 - 16 NNI Role: User or Network Neighboring Node: 12-character node name Weight: 0 to 999999, 1 |
| Add NNI (for PNNI) | Port ID: Node.shelf.slot.port Protocol Version: IISP 3.0, IISP 3.1, PNNI Admin State: Out of Service or In Service Oper State: read-only Signaling PVC: Local VPI: 0 Signaling PVC: Local VCI: 0 Signaling PVC: Remote VPI: 0 Signaling PVC: Remote VCI: 0 Max VCI Bits: 6 - 16 Max CDT: 0 to 999 milliseconds, 10 milliseconds CDV: 0 to 9999999 microseconds, 1000000 microseconds Weight: 0 to 999999, 5040 |
| Add SPVC | Local SPVC ATM Address: NA, system uses default address with Calling-end Prefix Local VPI.VCI: 0 -255.33-65535, 0000.0000 Local Port ID S.P: Remote SPVC ATM Address: R: 000000000000000000000000000000000000000000000000 Remote VPI.VCI: 0-255.33-65535, 0000.0000 Retry Interval: 0 - 3600 seconds, 10 seconds Category: CBR, rt-VBR, nrt, VBR, ABR, UBR Forward Set: CBR.1, VBR.1, VBR.2, VBR.3, ABR.1, UBR.1, UBR.2 Backward Set: CBR.1, VBR.1, VBR.2, VBR.3, ABR.1, UBR.1, UBR.2 CBR.1 Traffic Set: VBR.1 Traffic Set: VBR.2 and VBR.3 Traffic Sets: ABR Traffic Set: UBR.1 Traffic Set: PCR (0+1): 50 - Line Rate cells/s, 50 |
| PNNI Parameters | PTSE Holddown: 10 -30 units, 10 units ( 10 x 100 ms = 1 second) Hello Holddown: 10- 40 units, 10 units (10 x 100 ms = 1 second) Hello Interval: 5 - 60 seconds, 15 seconds Hello Inactivity Factor: 2 - 10, 5 PTSE Refresh Interval: 1800 -3600 seconds, 1800 seconds PTSE Lifetime Factor: 1-10, 2 PTSE Retransmit Interval: 5 - 15 seconds, 5 seconds PTSE Delayed Acknowledgment: 10 - 30 units, 10 units, (10 x 100 ms = 1 second) |
| PNNI Routing Policy | Routing Policy: Cost or QoS |
| PNNI Routing Constraints | Max Route AW: 5040 - 1000000000, 1000000000 Max Route CDT: 1 -200, 100 milliseconds Max Route CDV: 1-200, 100 milliseconds |
| PNNI Epsilon | Epsilon: 0 - 20: 0 |
| PNNI Dijkstra Holddown Timer | Dijkstra Hold Down Timer: 5 - 600, 10 milliseconds |
| PNNI AvCR Parameters | AvCR Proportional Multiplier: 1 - 99, 50 AvCR Minimum Threshold: 1 - 99, 3 |
| PNNI Node ID | Node ID: 38A0 (plus 20 bytes of address LS1010 P2Mpt: ON, OFF |
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