Chapter 3 Commissioning
Chapter 3 - Commissioning In This Chapter: “Initial NPU Configuration” on page 99 “Completing the Site Configuration Using AlvariSTAR” on page 103 4Motion 98 System Manual
Chapter 3 - Commissioning Initial NPU Configuration 3.1 Initial NPU Configuration 3.1.1 Introduction After completing the installation process, as described in the preceding chapter, some basic NPU parameters must be configured locally using the CLI via the MON port of the NPU. Refer to “Using the Command Line Interface for 4Motion System Management” on page 114 for information on how to access the CLI either via the MON port or via Telnet and how to use it.
Chapter 3 - Commissioning Initial NPU Configuration The default connectivity mode is In-Band (IB) via the Data port. Alternatively, the NPU can be managed Out-Of-Band (OOB) via the dedicated Management port. To view the current and configured connectivity mode, use the command: npu# show connectivity mode To change the connectivity mode to Out-Of-Band, use the command: npu(config)# connectivity mode outband (for details refer to “Configuring the IP Connectivity Mode” on page 138). 3.1.3.
Chapter 3 - Commissioning 2 Initial NPU Configuration Disable the interface to allow configuring its parameters: npu(config-if)# shutdown 3 Configure the IP address (x.x.x.x) and subnet mask (y.y.y.y). For details refer to “Assigning an IP address to an interface” on page 161: npu(config-if)# ip address x.x.x.x y.y.y.y 3.1.3.
Chapter 3 - Commissioning Initial NPU Configuration as “any destination”. Depending on your backhaul network, you may define different IP address and mask to allow only specific destinations). 3.1.6 SNMP Manager Definition To define the communities to be used by the SNMP manager, run the command: npu(config)# snmp-mgr ReadCommunity public ReadWriteCommunity private. For more details refer to “Adding an SNMP Manager” on page 422.
Chapter 3 - Commissioning Completing the Site Configuration Using AlvariSTAR 3.2 Completing the Site Configuration Using AlvariSTAR 3.2.1 Introduction After completion of the initial configuration you should be able to manage the new Site using AlvariSTAR and continue configuring (at least) all mandatory parameters to enable the necessary services. For details on how to use AlvariSTAR for managing 4Motion sites refer to the AlvariSTAR and 4Motion Device Manager User Manuals.
Chapter 3 - Commissioning 3.2.2 Site Configuration 3.2.2.1 General Tab Completing the Site Configuration Using AlvariSTAR ASN Topology - the default is Distributed ASNGW. If you change it to Centralized ASNGW click Apply for the device to accept the change. 3.2.3 Connectivity Configuration (optional) 3.2.3.1 IP Interface Screen Configure the IP address of the Bearer interface: 3.2.3.2 1 Change the Administrative State to Down. 2 Click Apply.
Chapter 3 - Commissioning 1 Completing the Site Configuration Using AlvariSTAR Right click on the AU lnode in the Navigation Pane and select Create. The New AU definition window will open. You can also double-click on an empty slot in the Site Equipment View Page to open the New AU window for the selected slot. 2 3.2.4.2 In the New AU definition window, define the following: » AU number (AU Slot) » Type » Ports (in current release only 4 Ports AUs are applicable) » Bandwidth 3 Click Apply.
Chapter 3 - Commissioning 3.2.4.3 Completing the Site Configuration Using AlvariSTAR Antenna Antenna entities must be created for all installed and connected antennas (you may create an Antenna entity also for antennas that are not installed/connected yet). To create a new Antenna entity: 3.2.4.4 1 In the Anteena screen, click on the Add New Antenna button. 2 In the Antenna Parameters section, define the following: » Number of Ports » Heading 3 Click Apply.
Chapter 3 - Commissioning 3.2.5.2 Service Screen 3.2.5.2.1 Service Interface Tab Completing the Site Configuration Using AlvariSTAR At least one Service Interface for data must be defined. If a dedicated management station for CPEs is being used, a suitable Service Interface for management must also be defined. 1 Click on the Add Service Interface button and configure the following mandatory parameters: 2 3.2.5.2.
Chapter 3 - Commissioning 2 3.2.5.3 Completing the Site Configuration Using AlvariSTAR » IP Address Pool To (Server mode) » Subnet Mask (Server mode) » DNS Server IP Address (Proxy mode) Click Apply for the device to accept the configuration. SFA Screen -Classification Rules Tab Create the necessary Classification Rule(s) according to the relevant type of traffic, and click Apply. 3.2.5.
Chapter 3 - Commissioning 2 Completing the Site Configuration Using AlvariSTAR In the New BS definition window, define the following: » BS ID LSB » Operator ID 3 Click Apply. 4 Complete the BS configuration as described in the following sections. 3.2.6.2 Radio 3.2.6.2.1 Basic Screen 3.2.6.2.1.1 General Tab 1 Configure the following mandatory parameters: » Name » Bandwidth » Center Frequency 2 Click Apply for the device to accept the configuration.
Chapter 3 - Commissioning e Completing the Site Configuration Using AlvariSTAR Uplink Data Zone Number of Sub-Channels (Air Frame Structure Zones Tab): ◊ For a Bandwidth of 7 or 10 MHz, configure this parameter to the default value of 35. ◊ For a Bandwidth of 5 MHz, configure this parameter to the default value of 17. 4 3.2.6.2.2 Click Apply for the device to accept the configuration. Advanced Screen All the parameters in the Advanced screen should be left with their default values.
Chapter 3 - Commissioning Completing the Site Configuration Using AlvariSTAR 2 In the New Site Sector definition window, define the Site Sector Number 3 Click Apply. 4 At least one Site Sector Association must be defined for each Site Sector. Click on the Add Sector Association button and configure all the parameters in the applicable line of the Sector site Association table: 5 3.2.
Chapter 4 Operation and Administration Using the CLI
Chapter 4 - Operation and Administration Using the CLI In This Chapter: “Using the Command Line Interface for 4Motion System Management” on page 114 “Shutting Down/Resetting the System” on page 132 “NPU Configuration” on page 135 “Managing MS in ASN-GW” on page 463 “Managing AUs” on page 465 “Managing ODUs” on page 483 “Managing Antennas” on page 505 “Managing BSs” on page 514 “Managing Sectors” on page 764 “Monitoring Performance of Hardware and Software Components” on page 778 “Trou
Chapter 4 - Operation and Administration Using the CLI 4.1 Using the Command Line Interface for 4Motion System Using the Command Line Interface for 4Motion System Management All 4Motion system components are managed via the NPU module. The AU is not accessed directly: any configuration change or status enquiry is sent to the NPU that communicates with other system components.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System “Managing Users and Privileges” on page 122 4.1.1 Accessing the CLI You can access the CLI, locally, via an ANSI ASCII terminal or PC that is connected via the DATA port of the NPU. You can also use Telnet/SSH to remotely access the CLI. This section describes the procedures for: “Accessing the CLI from a Local Terminal” on page 115 “Accessing the CLI From a Remote Terminal” on page 116 4.1.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System NOTE The default login ID and password are: Login ID: root Password: admin123 After you provide your login information, the following command prompt is displayed: npu# This is the global command mode. For more information about different command modes, refer to Section 4.1.2. 4.1.1.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System npu(config-if)# shutdown c Run the following command to assign an IP address to this interface: npu(config-if)# ip address d Run the following command to enable this interface: npu(config-if)# no shutdown 2 Connect the Ethernet cable to the DATA connector on the front panel of the NPU.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System Table 4-2: CLI Command Modes Mode Used for... Command Prompt Global configuration mode Executing all configuration commands npu(config)# Global command mode Executing all other commands such as show and delete commands npu# Interface configuration mode Executing all commands for configuring physical and IP interfaces.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System Table 4-4: Conventions Used in the 4Motion Command Syntax Convention Description Example {} Indicates that the parameters enclosed in these brackets are mandatory, and only one of these parameters should be specified. npu(config)# limit {cpu | memory} ([softlimit ] [hardlimit ]) Indicates that one or all parameters enclosed within these brackets are optional.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System Table 4-4: Conventions Used in the 4Motion Command Syntax | Indicates the OR conditional operator that is used between two or more parameters. The presence of this parameter indicates that only one of the parameters separated by the I conditional parameter should be specified in the command.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System Table 4-5: Control Characters for Using the CLI Press To... Up/Down arrow keys Scroll the previously executed CLI commands. Press Enter if you want to select and execute a particular command. Right/Left arrow keys Navigate to the right/left of the selected character in a command. Home key Navigate to the first character of a command. End key Navigate to the last character of a command.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System Table 4-6: Commands for Using the History Feature Run the command... To... show history Obtain a list of previously executed commands. !! Execute the last command displayed in the list of previously executed commands. ! Execute the nth command in the list of previously-executed commands.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System privilege level is equal to or lower than the default privilege level assigned to the user. IMPORTANT By default, the privilege level of users logging in with root privileges is 15. However, the root user can execute some additional commands for adding users and enabling passwords for different privilege levels. You can also configure passwords for each privilege level.
Chapter 4 - Operation and Administration Using the CLI 4.1.5.1.1 Using the Command Line Interface for 4Motion System Adding/Modifying Users IMPORTANT Only users who have logged in as root can execute this task. To add/modify a user, and assign a username, password, and privilege level, run the following command: npu(config)# username password privilege <0-15> IMPORTANT An error may occur if: You are not logged in as the root.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.1.5.1.2 Using the Command Line Interface for 4Motion System Global command mode Deleting a User IMPORTANT Only users who have logged in as root can execute this task. To delete a user, run the following command: npu(config)# no user IMPORTANT An error may occur if: You are not logged in as root user. The username that you have specified does not exist. Remember that user names are case-sensitive.
Chapter 4 - Operation and Administration Using the CLI 4.1.5.2 Using the Command Line Interface for 4Motion System Managing Privileges To enable users to execute commands that require a higher privilege level (than their currently configured default level), you can configure a password for each privilege level. Other users can then use the password you have specified to enable a higher privilege level.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Command Modes 4.1.5.2.2 Using the Command Line Interface for 4Motion System 15 Parameter Description Presence Default Value Possible Values [Level <0-15>] Indicates the privilege level for which a password is to be enabled. Optional 15 0-15 Denotes the password to be assigned for the current privilege level.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Syntax 4.1.5.3 Using the Command Line Interface for 4Motion System Parameter Description Presence Default Value Possible Values [Level <0-15>] Indicates the privilege level for which a password is to be disabled. Optional 10 015 Global configuration mode Enabling/Disabling Higher Privilege Levels You can execute commands that require higher privilege levels.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System NOTE You can display your current privilege level, using the following command: npu# show privilege You can, at any time, return to your default privilege level. For details, refer Section 4.1.5.3.2. NOTE An error may occur if: You have specified an incorrect password. Remember that all passwords are case-sensitive.
Chapter 4 - Operation and Administration Using the CLI Using the Command Line Interface for 4Motion System Command Syntax npu(config)# disable [Level <0-15>] Privilege Level 0 Syntax Description Command Modes 4.1.5.4 Parameter Description Presence Default Value Possible Values [Level <0-15>] Indicates the privilege level you want to disable.
Chapter 4 - Operation and Administration Using the CLI Command Syntax npu# listuser Privilege Level 1 Display Format User Mode User 1 User 2 User 3 Command Syntax 4.1.5.
Chapter 4 - Operation and Administration Using the CLI 4.2 Shutting Down/Resetting the System Shutting Down/Resetting the System This section describes the commands for: “Shutting Down the System” on page 132 “Managing System Reset” on page 133 4.2.1 Shutting Down the System You can, at any time, use the CLI to shut down the 4Motion system. When you execute the shutdown command, the system and all its processes are gracefully shut down.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.2.2 Shutting Down/Resetting the System Global command mode Managing System Reset System reset refers to a complete shutdown and reboot of the 4Motion system. You can use the CLI to manually reset the system. It is also possible that the system may be reset because of an internal or external error, or after the NPU is upgraded.
Chapter 4 - Operation and Administration Using the CLI 4.2.2.2 Shutting Down/Resetting the System Displaying the Reason for the Last System Reset The 4Motion system may be reset because of any of the following reasons. NPU upgrade Health failure (an internal module does not respond to the periodic health messages sent by the system) Internal error: » A system module did not initialize correctly » The software image to be used for rebooting the system is invalid or inaccessible.
Chapter 4 - Operation and Administration Using the CLI 4.3 NPU Configuration NPU Configuration After installing, commissioning, and powering up 4Motion, you can use the CLI to configure 4Motion and make it completely operational in the network. Configuration information is stored in a configuration file that resides in the NPU flash. When you power up 4Motion for the first time after installation, the system boots up using the factory default configuration.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Configuring the 4Motion Shelf” on page 429 4.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration In-band connectivity mode: In this connectivity mode, the VLAN is used to differentiate between the bearer and external NMS IP domains on the DATA port. The bearer VLAN is used for the bearer IP domain and the external-management VLAN is used for the external NMS IP domain. The MGMT port is assigned to the local-management VLAN in this connectivity mode.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-8: Ethernet and VLAN-to-Connectivity Mode Configuration Connectivity Mode Bearer IP Domain External-Management IP Domain Local-management IP Domain Unified DATA port DATA port CSCD and MGMT Bearer VLAN Bearer VLAN ports Local-management VLAN This section describes the commands for: “Configuring the IP Connectivity Mode” on page 138 “Displaying the IP connectivity Mode” on page 139 4.3.1.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.1.2 NPU Configuration Global configuration mode Displaying the IP connectivity Mode To display the IP connectivity mode, run the following command: npu# show connectivity mode Command Syntax npu# show connectivity mode Privilege Level 1 Display Format connectivity mode is Command Modes Global command mode 4.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration The following table lists the default (non-configurable) VLAN ID for each physical interface: Table 4-9: Default VLAN IDs For Ethernet interfaces Physical Port Default VLAN ID MGMT 9 CSCD 9 DATA 11 7 AU Fast Ethernet interfaces 11 In addition to these Ethernet interfaces, you can also configure seven Fast Ethernet interfaces from the NPU towards the AUs.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration external-management interfaces. The following table lists the default VLAN IDs assigned to pre-configured IP interfaces. Table 4-10: Default VLAN IDs Interface Default VLAN ID Local-management 9 Internal-management 10 (non-configurable) Bearer 11 External-management 12 In addition to the physical and IP interfaces, 4Motion defines the following virtual interfaces.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration member of one or more VLANs.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config)# interface { |internal-mgmt |external-mgmt | bearer | local-mgmt | npu-host | all-au} Table 4-12: Parameters for Configuring the Interface Configuration Mode (Ethernet Interfaces) Interface Parameter Example Fast Ethernet npu(config)# interface au fastethernet 0/1 npu(config)# interface au fastethernet 0/2 npu(config)# interface au fastethernet 0/3 npu
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# interface { |internal-mgmt |external-mgmt | bearer | local-mgmt | npu-host | all-au} Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values Indicates the type of physical interface (Gigabit Ethernet or Fast Ethernet) for which the configuration mode is to be enabled.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.2.1.2 NPU Configuration Global configuration mode Configuring the Properties of the Physical Interface After you enable the interface configuration mode, you can configure the following properties for this interface: Auto-negotiation mode Duplex (full/half) mode Port speed MTU Before you modify the properties of a physical interface, first shut down the interface.
Chapter 4 - Operation and Administration Using the CLI Command Syntax npu(config-if)# shutdown Privilege Level 10 Command Modes Interface configuration mode 4.3.2.1.2.2 NPU Configuration npu(config-if)# no shutdown Defining the auto-negotiation mode The auto-negotiation feature enables the system to automatically negotiate the port speed and the duplex (half or full) status with the link partner.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.2.1.2.3 NPU Configuration Interface configuration mode Specifying the Duplex Status The duplex status for an interface can be either full-duplex or half duplex. If you have disabled the auto-negotiation feature, specify whether data transmission should be half or full duplex. IMPORTANT By default, full-duplex is enabled if auto-negotiation is disabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration By default, the port speed for the Fast Ethernet interfaces is 100 Mbps, and for the Gigabit Ethernet interfaces is 1000 Mbps. IMPORTANT An error may occur if you run this command when: The physical interface is enabled. Auto-negotiation is enabled. The interface does not support the specified speed.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if you run this command when the physical interface is enabled. Command Syntax npu(config-if)# mtu Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values Indicates the MTU (in bytes) to be configured for the physical interface. mandatory For the Backhaul and AU interfaces the default is 1664.
Chapter 4 - Operation and Administration Using the CLI 4.3.2.1.3.1 NPU Configuration Enabling/Disabling VLAN Translation By default, VLAN translation is disabled. Run the following command to enable/disable VLAN translation on the DATA (gigabitethernet 0/10) interface: npu(config-if)# vlan mapping {enable|disable} IMPORTANT An error may occur when you run this command: For an interface other than the DATA port (0/10).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if: The original and translated VLAN ID that you have specified is not within the range, 11-4094. The translated VLAN ID that you have specified is already a member VLAN for this port. You are trying to create a VLAN translation entry for a VLAN that is not a member of DATA port. A VLAN translation mapping already exists for the original VLAN IDs that you have specified.
Chapter 4 - Operation and Administration Using the CLI 4.3.2.1.3.3 NPU Configuration Deleting a VLAN Translation Entry To delete an existing VLAN translation entry, run the following command: npu(config-if)# no vlan mapping {all | } Specify all if you want to delete all the VLAN translation mapping entries. Specify the VLAN identifiers of the translation entry if you want to delete a specific VLAN entry.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {all | } Indicates the VLAN translation entry to be deleted. Mandatory N/A all: Indicates that all VLAN translation entries are to be deleted. : Indicates the original and translated VLAN IDs for the translation entry to be deleted. Command Modes 4.3.2.1.
Chapter 4 - Operation and Administration Using the CLI 4.3.2.1.5 NPU Configuration Displaying VLAN Membership Information Run the following command to display Ethernet interfaces that are members of a particular or all VLAN: npu# show vlan [id ] Do not specify the VLAN ID if you want to view membership information for all VLANs. Command Syntax npu# show vlan [id ] Privilege Level 1 Syntax Description Display Format Command Modes 4.3.2.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Do not specify the port number and type if you want to display configuration information for all physical interfaces. IMPORTANT An error may occur if you specify an interface type or ID that does not exist.
Chapter 4 - Operation and Administration Using the CLI Display Format NPU Configuration Vlan Port configuration table ---------------------------------------Port Command Modes 4.3.2.1.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.2.2 NPU Configuration Global command mode Managing the External Ether Type The External Ether Type parameter defines the EtherType in outer VLAN header of uplink Q-in-Q traffic. The External Ether Type parameter is not applicable the device operates in Transparent (Centralized ASN Topology) mode. This section includes: “Configuring the External Ether type” “Displaying the Ether Type” 4.3.2.2.
Chapter 4 - Operation and Administration Using the CLI 4.3.2.2.2 NPU Configuration Displaying the Ether Type Run the following command to display the current Ether Type value: npu# show npuetherType Command Syntax npu# show npuetherType Privilege Level 1 Display Format Ethertype: Command Modes Global command mode 4.3.2.
Chapter 4 - Operation and Administration Using the CLI 3 NPU Configuration You can now: » Assign an IP address to an interface (refer to Section 4.3.2.3.3). » Remove an IP address associated with an interface (refer to Section 4.3.2.3.4). » Modify the VLAN ID (refer to Section 4.3.2.3.5). » Modify the MTU (refer to Section 4.3.2.3.6). 4 Enable the IP interface (refer to Section 4.3.2.3.2). 5 Terminate the interface configuration mode (refer to Section 4.3.2.3.7).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Assign an IP address to an interface (refer Section 4.3.2.3.3). Remove an IP address associated with an interface (refer Section 4.3.2.3.4). Modify the VLAN ID (refer Section 4.3.2.3.5). Modify the MTU (refer to Section 4.3.2.3.6).
Chapter 4 - Operation and Administration Using the CLI Command Syntax npu(config-if)# shutdown Privilege Level 10 Command Modes Interface configuration mode 4.3.2.3.3 NPU Configuration npu(config-if)# no shutdown Assigning an IP address to an interface Run the following command to assign an IP address and subnet mask for an IP interface.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the IP address to be assigned to this IP interface. Mandatory Depends on interface type. Valid IP address Mandatory 255.255. 255.0 Valid subnet mask The defaults are: External Management: 192.168.1.1 Beare: 172.16.0.1 Local Management: 172.31.0.1 Command Modes 4.3.2.3.
Chapter 4 - Operation and Administration Using the CLI 4.3.2.3.5 NPU Configuration Configuring/Modifying the VLAN ID for an IP Interface IMPORTANT You can modify the VLAN ID for only the bearer, local-management and external-management interfaces. Run the following command to modify the VLAN ID for this interface: npu(config-if)# if_vlan NOTE Refer Table 4-10 for the default VLAN IDs assigned to the bearer, local-management and external-management interfaces.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.2.3.6 NPU Configuration Global command mode Configuring the MTU for IP Interfaces You can configure the MTU for the IP interface. Received packets that are larger than the configured MTU will be dropped. Run the following command to configure the MTU of the IP interface: npu(config-if)# mtu IMPORTANT An error may occur if you run this command when the interface is enabled.
Chapter 4 - Operation and Administration Using the CLI Privilege Level 10 Command Modes Interface configuration mode 4.3.2.3.8 NPU Configuration Displaying IP Interface Status and Configuration Information To display the status and configuration information for an IP interface, run the following command: npu# show ip interface [{internal-mgmt | external-mgmt | bearer | local-mgmt}] Do not specify the interface if you want to view configuration information for all IP interfaces.
Chapter 4 - Operation and Administration Using the CLI Display Format is Internet Address is Broadcast Address Command Modes 4.3.2.4 NPU Configuration Global command mode Configuring Virtual Interfaces In addition to physical and IP interfaces, 4Motion defines the following virtual interfaces. All ACLs configured for filtering traffic destined towards the NPU or AUs, are attached to either of these interfaces.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-14: Parameters for Displaying Configuration Information for Physical, IP, and Virtual Interfaces Interface Parameters Example Physical Interfaces Fast Ethernet: npu# show interfaces fastethernet 0/1 npu# show interfaces fastethernet 0/2 npu# show interfaces fastethernet 0/3 npu# show interfaces fastethernet 0/4 npu# show interfaces fastethernet 0/5 npu# show interfaces fastethernet 0/6 n
Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format (Physical Interfaces) Parameter Description Presence Default Value Possible Values [{[ ] | internal-mgmt | external-mgmt | bearer | local-mgmt | npu-host | all-au}] Indicates the type of interface (physical, IP, or virtual) for which configuration information is to be displayed.
Chapter 4 - Operation and Administration Using the CLI Display Format (IP Interfaces) NPU Configuration , MTU bytes, InBytes, InUnicast Packets InDiscarded Packets InError Packets OutBytes, OutUnicast Packets Display Format (Virtual Interfaces) interface Command Modes Global command mode 4.3.3 Acls attached
Chapter 4 - Operation and Administration Using the CLI NPU Configuration This section describes the commands to be used for: “Configuring the Next Boot Mode” on page 170 “Displaying the Current and Next Boot Mode Information” on page 171 4.3.3.1 Configuring the Next Boot Mode The next boot mode refers to the boot mode that should be used for booting up the NPU the next time it is shut down or reset. The default boot mode is the ASN-GW mode without HA support.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {asngwStatic | Indicates the mode that is to be used for rebooting the NPU. Mandatory asngwSt atic asngwStatic: transparent} Indicates that the ASN-GW boot mode without HA support. That is, the system will not implement MIP services. This is the default mode of operation. transparent: Indicates transparent boot mode. Command Modes 4.3.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.4 NPU Configuration Global command mode Managing the 4Motion Configuration File 4Motion configuration parameters are stored in a default configuration file that resides in the NPU flash. When you start 4Motion for the first time after installation and commissioning, the system boots up with the factory default configuration.
Chapter 4 - Operation and Administration Using the CLI 4.3.4.1 NPU Configuration Saving the Current Configuration When you reset the 4Motion system, it always boots up using the last saved configuration. If you are starting 4Motion for the first time after installation and commissioning, it boots up using the factory default configuration. Thereafter, any changes to configuration (made at runtime using the CLI) should be saved; all unsaved changes are lost after system reset.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration You can download the configuration file from an external server, and use this file for booting up 4Motion. After downloading this file, reset the system. The system boots up with the downloaded configuration. IMPORTANT As soon as the system boots up with the downloaded configuration, the downloaded configuration file is deleted from the NPU flash.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.4.3 NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the IP address of the TFTP server. Mandatory N/A Valid IP address Indicates the name of the configuration file to be downloaded using the TFTP server. The file to be downloaded should be a compressed zip file. Always suffix the file name with .gz. Mandatory N/A .
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Displaying the Currently Stored Backup Configuration Files” on page 179 4.3.4.3.1 Making a Manual Backup of the Current Configuration To manually make a backup of the current configuration, run the following command: npu# manual-backup You can, at any time, view the status of the manual backup procedure. For details, refer to Section 4.3.4.3.2.
Chapter 4 - Operation and Administration Using the CLI Display Format NPU Configuration The Status of the File Backup operation is: Where may be any of the following: Generating (1) Copying (2) Compressing (3) Compression Failure (4) Copying Failed (5) Completed (6) Command Modes 4.3.4.3.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Command Modes 4.3.4.3.4 NPU Configuration 10 Parameter Description Presence Default Value Possible Values Indicates the time at which the system should automatically create a backup of the current configuration, everyday.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.4.3.5 NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the name of the backup configuration file to be used for restoring configuration.
Chapter 4 - Operation and Administration Using the CLI Display Format NPU Configuration 1..gz 2. .gz 3. .gz Command Modes 4.3.5 Global command mode Batch-processing of CLI Commands You can use the CLI to batch-process commands to be executed for configuring and monitoring 4Motion.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration config terminal nextbootmode asngwStatic limit cpu softlimit 80 hardlimit 85 bearerqos rule_1 0 3 5 data 1 config outer-dscp 3 vlan-priority 4 qos enable exit write reset Command Syntax npu# batch-run tftp:/// Privilege Level 10 Syntax Description Command Modes 4.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration protect the from hostile applications, you can limit the type and rate of traffic destined towards the NPU. This section describes the commands to be executed for: “Configuring CPU and Memory Utilization Thresholds for the NPU” on page 182 “Configuring the Rate Limiting for the NPU” on page 184 4.3.6.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# limit {cpu | memory} ([softlimit ] [hardlimit ]) Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values {cpu | memory} Indicates whether the threshold is to be specified for CPU or memory utilization.
Chapter 4 - Operation and Administration Using the CLI Command Syntax npu# show resource limits Privilege Level 1 Display Format Resource Command Modes 4.3.6.2 softlimit NPU Configuration hardlimit CPU Memory Global configuration mode Configuring the Rate Limiting for the NPU The rate limiting feature enables you to limit the type of traffic destined towards the NPU.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Address Resolution Protocol (ARP) NOTE Rate limiting for pre-defined applications is only configured for control traffic from FTP, Telnet, and TFTP applications. You need to configure rate limiting separately for data traffic from FTP, Telnet, and TFTP. For details, refer to “Configuring Rate Limiting for User-defined Applications” on page 189. You can, at any time, modify the rate limit parameters for pre-defined applications.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE In addition, you can also display the number of non-conforming packets dropped by the rate limiting feature. For details, refer to Section 4.10.1.3. 4.3.6.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration R6, R4 IGMP EAP ARP NOTE To configure user-defined applications, refer to Section 4.3.6.2.3. Run the following command to modify the rate limiting configuration parameters for a pre-defined application. You can also use this command to configure rate limiting for all other applications that may send packets to the NPU.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {ftp | telnet | tftp | ssh | icmp | snmp | R4-R6 | igmp | eap | arp | all-others} Indicates the application for which the rate limiting is to be configured.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.6.2.3 NPU Configuration Rate limiting configuration mode Configuring Rate Limiting for User-defined Applications Besides the pre-defined applications (refer to Section 4.3.6.2.2), you can also configure other applications that can send packets to the NPU. Run the following command to configure rate limiting for a user-defined application.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT While configuring rate limiting for user-defined applications, remember that: Configuration for user-defined applications is applied with respect to the sequence in which you configure these values. It is recommended that you specify the more granular definitions before the less granular ones.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.6.2.4 NPU Configuration [srcport ] Indicates the L4 source port of the user-defined application. specify the value of this parameter exactly as this field appears in the TCP/UDP header. Optional N/A 1-65535 [dstport ] Indicates the L4 destination port of the user-defined application. This parameter should be specified exactly as it appears in the TCP/UDP header.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-ratelmt)# no rate-limit {ftp | telnet | tftp | ssh | icmp | snmp | R4-R6 | igmp | } IMPORTANT While disabling rate limiting for user-defined applications, remember that: Rate limiting configuration specified for applications categorized as ‘all-others’ is applicable for all pre-defined/user-defined applications for which you have disabled rate limiting.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {ftp | telnet | tftp | ssh | icmp | snmp | R4-R6 | igmp | eap | arp | } Indicates the application for which rate limiting is to be disabled. Mandatory N/A ftp telnet tftp ssh icmp snmp R4-R6 igmp eap arp user-defined-app: Refers to user-defined applications for which rate limiting is to be disabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration To enable/disable the rate limiting feature, run the following command: npu(config)# set cpu rate-limit {enable | disable} Command Syntax npu(config)# set cpu rate-limit {enable | disable} Privilege Level 10 Syntax Description Command Modes 4.3.6.2.6 Parameter Description Presence Default Value Possible Values {enable | disable} Indicates whether this feature should be enabled or disabled for the NPU.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {ftp | telnet | tftp | ssh | icmp | snmp | R4-R6 | igmp | eap | arp | | all} Indicates the application for which rate limiting is to be displayed. Optional N/A ftp telnet tftp ssh icmp snmp R4-R6 igmp eap arp user-definedapp: Refers to user-define d applications for which rate limiting is to be displayed.
Chapter 4 - Operation and Administration Using the CLI Display Format NPU Configuration CPU Rate Limiting Status : Enabled PRE-DEFINED RATELIMIT CONFIGURATION: ----------------------------------Application DestPort Rate(Kbps) Status USER-DEFINED RATELIMIT CONFIGURATION: Application Srcport L2type Rate Dst
Chapter 4 - Operation and Administration Using the CLI NPU Configuration separate DSCP and/or VLAN priority bits for QoS handling of each flow. Extended ACL 199 is used for configuring QoS classification rules and associating each rule with a class-map. IMPORTANT By default, QoS marking rules are disabled. You are required to enable a QoS marking rule before it is applied on host originating traffic matching the QoS classification rules.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration You can, at any time, delete an existing class-map (refer to Section 4.3.7.1.5) or view the configuration information for an existing class-map (refer to Section 4.3.7.1.6). 4.3.7.1.1 Enabling the QoS Class-map Configuration Mode/ Creating a New Class Map To specify the 802.1p VLAN priority and/or DSCP values for a class-map, first enable the QoS class-map configuration mode.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if: You specify a class-map number that is not within the range, 1- 65535. The class-map configuration mode for the class-map you have specified is already enabled. Command Syntax npu(config)# class-map Privilege Level 10 Syntax Description Command Modes 4.3.7.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-cmap)# set {[cos ] [ip dscp ]} Command Syntax npu(config-cmap)# set {[cos ] [ip dscp ]} Privilege Level 10 Syntax Description Command Modes 4.3.7.1.3 Parameter Description Presence Default Value Possible Values [cos ] Indicates the 802.1p VLAN priority value to be applied for this class-map.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Command Modes 4.3.7.1.4 NPU Configuration 10 Parameter Description Presence Default Value Possible Values [cos ] Indicates the 802.1p VLAN priority to be deleted for this class-map. Optional N/A 0-7 [ip dscp ] Indicates the DSCP to be deleted for this class-map.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# no class-map Privilege Level 10 Syntax Description Command Modes 4.3.7.1.6 Parameter Description Presence Default Value Possible Values Indicates the identifier of the QoS class-map number to be deleted.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Parameter Description Presence Default Value Possible Values [] Indicates the identifier of the class-map for which configuration information is to be displayed. Do not specify a value for this parameter if you want to view the configuration information for all class-maps.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT QoS classification rules can be associated only with ACL 199. 2 You can now: » Configure one or more QoS classification rules (refer to Section 4.3.7.2.2) » Delete one or more QoS classification rules (refer to Section 4.3.7.2.3) » Terminate the ACL configuration mode (refer to Section 4.3.7.2.4) You can, at any time, enable/disable QoS marking (refer to Section 4.3.7.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values extended Indicates the identifier of the extended ACL for which the ACL configuration mode is to be enabled. You must specify 199 to enable configuration of QoS classification rules. Mandatory N/A 199 [name ] Indicates the name of the ACL for which the ACL configuration mode is to be enabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-15: Pre-Configured QoS Classification Rules and Class-Maps IP Interface Type of Traffic Protocol Source Port Class Map DSCP 802.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {host } Indicates the IP address of the host interface that generates the traffic for which this classification rule is to be configured. Specify the IP address that you have assigned to the internal-management, external-management or bearer IP interface.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration When you execute this command, the QoS classification rule is deleted from the ACL. IMPORTANT An error may occur if you specify a combination of parameters that do not match any of the existing QoS classification rules.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.7.2.4 NPU Configuration Extended ACL configuration mode Terminating the ACL Configuration Mode To terminate the ACL configuration mode, run the following command: npu(config-ext-nacl) # exit Command Syntax npu(config-ext-nacl) # exit Privilege Level 10 Command Modes Extended ACL configuration mode 4.3.7.3 Enabling/Disabling QoS Marking for ACL 199 You can enable/disable the QoS marking for the ACL.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Parameter Description Presence Default Value Possible Values {enable | disable} Indicates whether QoS marking should be enabled or disabled for a specific ACL. Mandatory disable enable Indicates the identifier of the ACL for which the QoS marking is to be activated. You musr specify 199. Mandatory 199 Command Modes 4.3.7.
Chapter 4 - Operation and Administration Using the CLI Display Format (Standard) NPU Configuration Extended IP Access List 199 Access List Name(Alias) : 199 Interface List : NIL Status : Admin-Status : Filter Protocol Type : Source IP address : Filter Source Port : Rule Action : QoS Marking QoS Classifier ID : Marking rule status : ............... 4.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Displaying the IP Routing Table” on page 214 There are four automatically created static route with the IP addresses of the directly connected Bearer, External Management, Local Management and Internal Management interfaces (the IP address of the Internal Management interface is set to 10.0.0.254. Note that availability of certain interfaces depend on the connectivity mode). These routes cannot be modified or deleted.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Command Modes 4.3.8.2 NPU Configuration 10 Parameter Description Presence Default Value Possible Values Indicates the destination host or network IP address, for which the route is to be added. Mandatory N/A Valid IP address Indicates the address mask for the static route to be added.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.8.3 NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the destination host or network IP address, for which the route is to be deleted. Mandatory N/A Valid IP address Indicates the address mask for the static route to be deleted.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.9 NPU Configuration Global command mode Configuring ACLs ACLs are applied on traffic received from the DATA, MGMT or CSCD ports, and destined towards the following virtual interfaces: AUs NPU By default, all traffic destined towards the AUs or NPU is denied.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration you configure an ACL, you can attach the ACL to either the NPU or the AUs or both NPU and AUs. All ACLs are either in the ACTIVE or INACTIVE state. The ACTIVE state indicates that the ACL is attached to one or more interfaces; the INACTIVE state indicates that the ACL is not attached to any interface. IMPORTANT By default, all ACLs are INACTIVE, and are ACTIVE only after you attach the ACL to an interface to make ACTIVE.
Chapter 4 - Operation and Administration Using the CLI 4 NPU Configuration After you have configured the ACL, you can attach the ACL with the AUs or NPU refer Section 4.3.9.3. 4.3.9.1.1 Enable the ACL Configuration Mode/Creating an ACL To configure an ACL, first enable either of the following ACL configuration modes: Standard Extended IMPORTANT ACL 199 is the default extended ACL that is pre-configured in the system, and is not attached to any interface, that is, it is INACTIVE.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Configuring the ACL in the extended mode (refer Section 4.3.9.1.3) IMPORTANT An error may occur if:· You specify an invalid ACL number. The ACL number should be between 1 and 99 in the standard mode, and between 100 and 199 in the extended mode. The ACL name you have specified is already used for another ACL or is more than 20 characters.
Chapter 4 - Operation and Administration Using the CLI 4.3.9.1.2 NPU Configuration Configuring ACLs in the Standard Mode After you have enabled the standard ACL configuration mode, you can create or delete the Permit/Deny rules for forwarding traffic from/to a particular source/destination IP address. To enable initial access to the NPU, the Standard ACL 1 is available by default, with a Permit rule allowing unrestricted access to the Local Management interface (Destination IP Address = 172.31.0.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-16: Parameters for Configuring Permit/Deny Rules in the Standard ACL Mode Source IP Parameter Description Example any Indicates that incoming traffic from any source IP address is permitted or denied. npu(config-std-nacl)# permit any host Indicates that incoming traffic from a specific source IP address is permitted or denied. npu(config-std-nacl)# permit host 1.1.1.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.9.1.2.2 NPU Configuration Parameter Description Presence Default Value Possible Values { any | host | } Indicates the source IP address/subnet for which incoming traffic is permitted/denied.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.9.1.3 NPU Configuration Parameter Description Presence Default Value Possible Values { any | host | } Indicates the source IP address/subnet for which the Permit/Deny rule is to be deleted.
Chapter 4 - Operation and Administration Using the CLI 4.3.9.1.3.1 NPU Configuration Configuring Permit/Deny Rules from/to a Specific Protocol and Source/Destination IP Addresses After you have created an ACL, you can configure Permit/Deny rules to be applied for traffic from/to a particular source/destination IP address/subnet, with respect to a specific protocol. IMPORTANT You cannot configure Permit or Deny rules for an ACL that is associated with a Qos marking rule.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration In the above commands, it is mandatory to specify the protocol and source IP address for which the Permit/Deny rule is to be created. If you do not specify the destination IP address/subnet mask, by default, traffic to all destination IP addresses is permitted/denied.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-17: Parameters for Configuring Permit/Deny Rules for Traffic from/to Specific IP Addresses Destination IP address Parameter Description Example any Indicates that traffic to any destination IP address is permitted or denied. any is the default destination IP address. npu(config-std-nacl)# permit ip host 1.1.1.
Chapter 4 - Operation and Administration Using the CLI { any | host | } Command Modes NPU Configuration Indicates the destination IP address/subnet for which traffic is permitted/denied Optional any For details, refer Table 4-17 Extended ACL configuration mode 4.3.9.1.3.1.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.9.1.3.2 NPU Configuration { any | host | } Indicates the source IP address/subnet for which the Permit/Deny rule is to be deleted. Mandatory { any | host | } Indicates the destination IP address/subnet for which the Permit/Deny rule is to be deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-ext-nacl)# permit udp {any | host | } [{gt | lt |eq | range }] {any | host | } {gt | lt | eq | range
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-18: Parameters for Configuring Permit/Deny Rules for TCP/UDP Traffic Source IP address Source port 4Motion Parameter Description Example any Indicates that incoming TCP/UDP traffic from any source IP address is permitted or denied. npu(config-ext-nacl)# permit tcp any any host Indicates that incoming TCP/UDP traffic from a specific source IP address is permitted or denied.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-18: Parameters for Configuring Permit/Deny Rules for TCP/UDP Traffic Destination IP address Parameter Description Example any Indicates that TCP/UDP traffic to all NPU interface IP addresses is permitted or denied. npu(config-ext-nacl)# permit tcp 1.1.1.1 host any Indicates that TCP/UDP traffic to a specific NPU interface IP address is permitted or denied. npu(config-ext-nacl)# permit tcp any host 1.1.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-18: Parameters for Configuring Permit/Deny Rules for TCP/UDP Traffic Destination port Command Syntax Parameter Description Example [{gt Indicates that TCP/ UDPtraffic is to be permitted or denied to the NPU interface source port for which the port number is greater than the value of this parameter. npu(config-ext-nacl)# permit tcp host 1.1.1.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description 4Motion NPU Configuration 10 Parameter Description Presence Default Value Possible Values any | host | Indicates the source host for which incoming TCP/UDP traffic is permitted/denied.
Chapter 4 - Operation and Administration Using the CLI {gt | lt | eq | range }] Command Modes NPU Configuration Indicates the destination port to which TCP/UDP traffic is permitted/denied. Optional 0-65535 For details, refer Table 4-18 Extended ACL configuration mode 4.3.9.1.3.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-ext-nacl)# no deny tcp {any | host | } [{gt | lt |eq | range }] {any | host | } {gt | lt | eq | range
Chapter 4 - Operation and Administration Using the CLI Command Syntax (for Deny Rule) NPU Configuration npu(config-ext-nacl)# no deny tcp {any | host | } [{gt | lt |eq | range }] {any | host | } {gt | lt | eq | range
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.9.1.3.3 NPU Configuration any | host | Indicates the NPU IP address/subnet for which the Permit/Deny rule for TCP/UDP traffic is to be deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-ext-nacl)# permit icmp {any | host | } {any | host | } npu(config-ext-nacl)# deny icmp {any | host | } {any | host | } In the above commands, it is mandatory to specify the source IP address for which the Permit/Deny rule is to be created.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-19: Parameters for Configuring Permit/Deny Rules for ICMP Traffic Destination IP address Parameter Description Example any Indicates that ICMP traffic destined to the NPU interface IP address is permitted or denied. npu(config-ext-nacl)#permit icmp host 1.1.1.1 any npu(config-std-nacl)# deny host 1.1.1.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Global command mode 4.3.9.1.3.3.
Chapter 4 - Operation and Administration Using the CLI 4.3.9.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if: The ACL you are trying to delete is INACTIVE. The ACL number you have specified does not exist. Command Syntax npu(config)# no ip access-list {standard | extended } Privilege Level 10 Syntax Description Command Modes 4.3.9.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration To attach/de-attach an ACL: 1 Enable the interface configuration mode (refer Section 4.3.9.3.1). 2 You can now execute either of the following tasks: 3 4.3.9.3.1 » Attach an ACL to an interface (refer Section 4.3.9.3.2). » De-attach an ACL from an interface (refer Section 4.3.9.3.3). Terminate the interface configuration mode (refer Section 4.3.9.3.4).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if: The ACL number/name that you have specified does not exist or is already attached to this interface. You are trying to attach an ACL to an interface (other than the NPU/all AUs). Command Syntax npu(config-if)# ip access-group { | } Privilege Level 10 Syntax Description Command Modes 4.3.9.3.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Command Modes 4.3.9.3.4 NPU Configuration 10 Parameter Description Presence Default Value Possible Values { | } Indicates the number/name of the ACL to be deattached from this interface.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu# show access-lists [{ | |
Chapter 4 - Operation and Administration Using the CLI Display Format (Extended) Command Modes NPU Configuration Extended IP Access List ----------------------------Access List Name(Alias) : Interface List : , Status : Filter Protocol Type : Source IP address : Filter Source Port : Rule Action : QoS Classifier ID : Marking rule status : Global command mode 4.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Network Decision Point (NWDP): Includes the following non-bearer plane functions: » Implementation of EAP Authenticator and AAA client » Termination of RADIUS protocol against the selected CSN AAA server (home or visited AAA server) for MS authentication and per-MS policy profile retrieval » Storage of the MS policy profile for as long as the MS is authenticated/authorized and remains in the ASN controlled by the specific ASN
Chapter 4 - Operation and Administration Using the CLI NPU Configuration The following table lists the tasks for configuring the ASN-GW functionality.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-20: Tasks to be Executed for Configuring the ASN-GW Functionality Task Required for Operating the NPU with HA Support Required for Operating the NPU without HA Support “Configuring the Connectivity Service Network Interface” on page 279 Yes Yes “Configuring Bearer Plane QoS Marking Rules” on page 281 Yes Yes “Managing Service Interfaces” on page 290 Yes Yes “Configuring the AAA Client Functionality” on page 301 Y
Chapter 4 - Operation and Administration Using the CLI 4.3.10.1.1 NPU Configuration Configuring the Next-hop IP Address To map the next-hop IP address for a specific network ID, run the following command: npu(config)# idip For example, run the following command to map the MAC address of the BS with the next-hop IP address: npu(config)# idip 112233445566 10.0.0.1 NOTE Refer to Section 4.3.10.2.1 for a list of existing next-hop IP address-network ID mappings.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration CAUTION Specify the network ID if you want to delete a specific next-hop IP address-network ID mapping. Otherwise all the configured mappings are deleted. Command Syntax npu(config)# no idip [] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values Denotes the network ID(s) for which an IDIP context is to be removed.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description NPU Configuration 1 Parameter Description Presence Default Value Possible Values [] Denotes the network ID (s) for which you want to view the next-hop IP addresses already mapped to it. Optional N/A 6-byte ID Specify a value for this parameter if you want to view the next-hop IP address(es) defined for a specific network ID.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration serves as a host for the multicast router and sends membership reports in response to membership queries. This section describes the commands to be used for: “Configuring IGMP Parameters” on page 253 “Restoring the Default Configuration Parameters for the IGMP Functionality” on page 254 “Displaying IGMP Configuration Information” on page 255 “Displaying IGMP Membership Information” on page 255 4.3.10.2.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.10.2.2 NPU Configuration Parameter Description Presence Default Value Possible Values [mcastrouter-v ersion ] Denotes the IGMP version of the multicast router. Optional IGMPv3 IGMPv2 [robustness ] Determines the number of retransmissions of the IGMP reports sent by the NPU.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.2.3 NPU Configuration Global configuration mode Displaying IGMP Configuration Information To display configuration information for the IGMP functionality, run the following command: npu# show igmp Command Syntax npu(config)# show igmp Privilege Level 1 Display Format IGMP Configuration: mcastrouter-version = robustness = unsolicit-report-interval = query-delaytime = Command Modes 4.3.10.
Chapter 4 - Operation and Administration Using the CLI Display Format IGMP Membership : GrpMulticast-addr Command Modes 4.3.10.3 NPU Configuration Src-addrlist …. Global configuration mode Configuring the MIP-Foreign Agent Functionality IMPORTANT The MIP-Foreign Agent functionality is not supported in the current release. When the MS is MIP-enabled, the NPU serves as the Foreign Agent (FA) for transferring mobile IP messages between the MS and the HA.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# mip-fa [allowed-mslifetime ] [agent-advertisements ] [advertisement-interval ] Privilege Level 15 Syntax Description Command Modes 4.3.10.3.2 Parameter Description Presence Default Value Possible Values [allowed-mslif etime ] Denotes the maximum period, in seconds, for which the IP address allocated to the MS is active.
Chapter 4 - Operation and Administration Using the CLI Privilege Level 15 Command Modes Global configuration mode 4.3.10.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Restoring the Default Configuration Parameters for the PMIP Client Functionality” on page 260 “Displaying Configuration Information for the PMIP Client Functionality” on page 261 4.3.10.4.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.4.2 NPU Configuration [mslifetime-gu ard ] Denotes the period for which the PMIP remains active. The value of this parameter should be a percentage of the mslifetime parameter. At the end of this period, the PMIP attempts re-registration. Optional 65% 0-100 [registrationretries ] Denotes the maximum number of registration requests that can be sent by the NPU.
Chapter 4 - Operation and Administration Using the CLI 4.3.10.4.3 NPU Configuration Displaying Configuration Information for the PMIP Client Functionality To display PMIP client configuration information, run the following command: npu# show mip-client Command Syntax npu# show mip-client Privilege Level 1 Display Format PMIP-Client Configuration : mslifetime = mslifetime-guard = registration-retries = registration-interval = Command Modes 4.3.10.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration For the current release, specify bearer as the value of the ip-intf parameter. However, the IP address should already be configured for the bearer interface. For details, refer to “Configuring Static Routes” on page 211. NOTE You can display configuration information for ASN interface. For details, refer to Section 4.3.10.5.2. IMPORTANT An error may occur if you provide an invalid value for this parameter.
Chapter 4 - Operation and Administration Using the CLI 4.3.10.5.2 NPU Configuration Displaying Configuration Information for the ASN Interface To display the IP interface (R4/R6) of the ASN interface, run the following command: npu# show asnif Command Syntax npu# show asnif Privilege Level 1 Display Format ASN Interface Configuration : Command Modes Global command mode 4.3.10.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config)# authenticator [eapidreq-retries ] [eapidreq-interval ] [ntwentry-holdtime ] [eaptransfer-retries ] [eaptransfer-interval ] [reauth-attempts ] [reauthcmplt-holdtime ] [eaptransfer-roundtrips ] [pmk-lifetime ] [pmk-guardtime ] [authfailure-holdtime ] [max-ntwentry ] NOTE You can display configuration
Chapter 4 - Operation and Administration Using the CLI 4Motion NPU Configuration [ntwentry-hold time ] Denotes the period, in seconds, within which the MS should be authenticated for initial entry into the network. If the MS is not authenticated within this period, the NPU terminates the request for network entry. Optional 5 0-100 [eaptransfer-r etries ] Denotes the maximum number of times the MS can attempt for initial entry to the network.
Chapter 4 - Operation and Administration Using the CLI [pmk-guardtime ] NPU Configuration Denotes the duration of the guard timer for the MS authentication keys. the NPU initiates re-authentication for the MS after the pmk guard timer has expired. (The value of this timer is pmk-lifetime pmk-guardtime.) Optional 0 0-86400 If the value of this parameter is 0, the guard timer is not started. Command Modes 4.3.10.6.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE Refer to Section 4.3.10.6.1 for a description and default values of these parameters.
Chapter 4 - Operation and Administration Using the CLI Display Format NPU Configuration Authenticator Function Configuration : eapidreq-retries = eapidreq-interval = ntwentry-holdtime = eaptransfer-retries = eaptransfer-interval = reauth-attempts = reauthcmplt-holdtime = eaptransfer-roundtrips = pmk-lifetime = pmk-guardtime = authfailure-holdtime = max-ntwentry = Command Modes 4.3.10.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration [pathregrsp-interval ] [pathregstart-interval ] [mipwaitdhcp-holdtime ] NOTE You can display configuration information for the data path function. For details, refer to Section 4.3.10.7.3. IMPORTANT An error may occur if you provide an invalid value for any of these parameters. Refer the syntax description for more information about the appropriate values and format for configuring these parameters.
Chapter 4 - Operation and Administration Using the CLI 4Motion NPU Configuration [initpathregre q-interval ] Denotes the interval, in milliseconds, after which the request for initial path registration should be complete. If the initial path registration request is not completed within this period, the NPU may retransmit the initial path registration request.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.7.2 NPU Configuration [pathregstartinterval ] Indicates the period, in milliseconds, within which the path registration procedure is initiated, after the path pre-registration procedure is complete. If the path registration procedure is not completed within the period specified by this parameter, the MS is de-registered.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.7.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Restoring the Default Configuration Parameters for the Context Function” on page 274 “Displaying Configuration Information for the Context Function” on page 275 4.3.10.8.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.8.2 NPU Configuration [contextreq-in terval ] Denotes the period, in milliseconds, for which the NPU waits for a response to the context request. If the NPU does not receive a response to this request within the period specified by this timer, the NPU retransmits this request. Optional 10 5 - 100 [contextrprt-r etries ] Denotes the maximum number of times, the NPU retransmits the context report.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.8.
Chapter 4 - Operation and Administration Using the CLI 4.3.10.9.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.10.9.2 NPU Configuration [sbc-holdtime ] Denotes the period, in milliseconds, within which the basic capabilities negotiation procedure should be completed. At the end of this period, the NPU starts the authentication/ registration procedure for the MS, depending on accepted authentication policy. Optional 5 0-100 [reg-holdtime ] Denotes the interval, in seconds, for the MS registration procedure timeout.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE Refer to Section 4.3.10.9.1 for a description and default values of these parameters. Command Syntax npu(config)# no msscfn [msscrsp-retries] [msscrsp-interval] [sbc-holdtime] [reg-holdtime] [msscdrctv-retries] [msscdrctv-interval] Privilege Level 15 Command Modes Global configuration mode 4.3.10.9.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.10 Configuring the Connectivity Service Network Interface IMPORTANT Skip this task. The MIP functionality is not supported in the current release. The Connectivity Service Network (CSN) interface provides IP connectivity services for a set of subscribers. The gateway uses the CSN interface for R3 control traffic and R3 data traffic towards the core network.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [ip-intf ] Denotes a pre-defined IP interface to be used as a network interface for R3 control traffic and R3 data traffic. Mandatory N/A bearer Note: If you are modifying the CSN interface, save the current configuration (refer Section 4.3.4.1) and reset the NPU (Section 4.2.2.1) for the change to take effect.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# no csnif [tun-mtu] [tun-chksm] Privilege Level 15 Command Modes Global configuration mode 4.3.10.10.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Up to a maximum of 21 Bearer Plane QoS Marking Rules can be defined. To configure one or more QoS bearer plane marking rules: 1 Enable the bearer plane QoS marking rules configuration mode (refer to Section 4.3.10.11.1) 2 You can now execute any of the following tasks: » Configure the output parameters for bearer plane QoS marking rules (refer to Section 4.3.10.11.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration If you use this command to create a new QoS marking rule, the configuration mode for this rule is automatically enabled, after which you can execute any of the following tasks: Configure the output parameters for bearer plane QoS marking rules (refer to Section 4.3.10.11.2) Restore the default parameters for bearer plane QoS marking rules (refer to Section 4.3.10.11.
Chapter 4 - Operation and Administration Using the CLI - 0)| 255)> NPU Configuration Denotes the type of interface for which you are defining the bearer plane QoS rule. Mandatory when creating a new Bearer Plane QoS Rule. N/A 0: Indicates the R6 (internal) interface 1: Indicates the R3 (external interface)) 255: Indicates that the parameter should be ignored for packets transmitted on both internal and external interfaces.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Denotes the traffic priority of the service flow (see “Specifying Service Flow Configuration Parameters” on page 341) provided as an Mandatory when creating a new Bearer Plane QoS Rule N/A Mandatory when creating a new Bearer Plane QoS Rule N/A 0-7, where 7 is highest 255 (ANY): Indicates that the parameter should be ignored for packets transmitted on both internal and external interfaces.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT Enable the bearer plane QoS marking rule that you are configuring. By default, all bearer plane QoS marking rules are disabled. Run the following command to configure the output parameters for this bearer plane QoS marking rule: npu(config-bqos)# config [outer-dscp ] [vlan-priority ] [qos enable] NOTE You can display configuration information for the bearer plane QoS marking rules.
Chapter 4 - Operation and Administration Using the CLI [qos enable] NPU Configuration Indicates whether this QoS marking rule should be enabled. The absence of this flag indicates that this QoS flag is disabled. By default, a bearer plane QoS marking rule is disabled. Optional By default, the QoS marking rule is disabled. The presence/abse nce of this flag indicates that this QoS flag is enabled/disabl ed.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Bearer plane QoS marking rules configuration mode 4.3.10.11.4 Terminating the QoS Marking Rules Configuration Mode Run the following command to terminate the marking rules configuration mode: npu(config-bqos)# exit Command Syntax npu(config-bqos)# exit Privilege Level 10 Command Modes Bearer plane QoS marking rules configuration mode 4.3.10.11.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [] Denotes the QoS alias of the bearer QoS marking rule that you want to delete. Specify a value for this parameter if you want to delete a specific bearer QoS marking rule. Optional N/A String Do not specify a value for this parameter if you want to delete all bearer QoS marking rules. Command Modes Global configuration mode 4.3.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [] Denotes the QoS alias of the bearer QoS marking rule that you want to display. Optional N/A String Specify a value for this parameter if you want to display a specific bearer QoS marking rule. Do not specify a value for this parameter if you want to display all bearer QoS marking rules.
Chapter 4 - Operation and Administration Using the CLI 2 NPU Configuration You can now execute any of the following tasks: » Configure one or more of the parameters of the Service Interface (refer to Section 4.3.10.12.2) » Restore the default values of the Service Interface parameters (refer to Section 4.3.10.12.3) » Terminate the Service Interface configuration mode (refer to Section 4.3.10.12.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Restore the default values of non-mandatory parameters of the Service Interface (refer to Section 4.3.10.12.3) After executing the above tasks, you can terminate the Service Interface configuration mode (refer to Section 4.3.10.12.4) and return to the global configuration mode.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.12.2.1 Configuring Parameter for IP-IP Service Interface After enabling the IP-IP Service Interface configuration mode, run the following command to configure the IP-IP service interface parameters: This command shall configure one or more parameters of the IP-IP Service Interface.
Chapter 4 - Operation and Administration Using the CLI {tun-dstaddr } NPU Configuration The destination IP address that indicates the point of termination of the tunnel for the service interface. Optional 0.0.0.0 Valid IP Address. Shall be unique among all the Host Interfaces IP's (Bearer, Local-Management, Internal-Management, External-Management) and existing instances of Service Interface’s Tunnel Destination IP Address and Default Gateway IP Address.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description NPU Configuration 10 Parameter Description Presence Default Value Possible Values config [descr ] Aa description of the service interface. Optional null String (up to 70 characters) ServiceIfVlanId ] A Service Interface VLAN ID shall not conflict with other instances of Service Interface VLAN ID and VLAN IDs of Bearer, Local-Management and External-Management interaces.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.12.2.3 Configuring Parameter for QinQ Service Interface After enabling the QinQ Service Interface configuration mode, run the following command to configure the QinQ service interface parameters: This command shall configure one or more parameters of the QinQ Service Interface.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.12.3.1 Restoring the Default Configuration Parameters for an IP-IP Service Interface Run the following command to restore the default configuration for IP-IP service interface tun-mtu and/or tun-chksm parameters: npu(config-srvcif-ipip)# no [tun-mtu] [tun-chksm] You can restore only one parameter to its default values by specifying only that parameter.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.12.4 Terminating a Service Interface Configuration Mode This section describes the commands for: “Terminating the IP-IP Service Interface Configuration Mode” “Terminating the VLAN Service Interface Configuration Mode” “Terminating the QinQ Service Interface Configuration Mode” 4.3.10.12.4.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.12.4.3 Terminating the QinQ Service Interface Configuration Mode Run the following command to terminate the QinQ service interface configuration mode: npu(config-srvcif-QinQ)# exit Command Syntax npu(config-srvcif-QinQ)# exit Privilege Level 10 Command Modes QinQ Service interface configuration mode 4.3.10.12.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Global configuration mode 4.3.10.12.6 Displaying Configuration Information for the Service Interface To display configuration information for one or all service interfaces, run the following command: npu# show srvc-intf Specify a value for the intf-alias parameter if you want to display configuration information for a particular service interface.
Chapter 4 - Operation and Administration Using the CLI Display Format NPU Configuration % Asn-gateway Srvc Intf config Srvcif-Alias VLAN Service Interface SrvcifDescr intf-type VLAN SrvcifVlanId SrvcifDfltGwIpAddr TunIPIPMTU Display Format % Asn-gateway Srvc Intf config Srvcif-Alias QinQ Service Interface SrvcifDescr intf-type QinQ Q-in-Q SrvcifVlanId Command Modes Global command mode 4.3.10.
Chapter 4 - Operation and Administration Using the CLI 2 NPU Configuration You can now execute any of the following tasks: » Configure the AAA client parameters (refer to Section 4.3.10.13.1.2) » Restore the default parameters for the AAA client (refer to Section 4.3.10.13.1.3) 3 Terminate the AAA client configuration mode (refer to Section 4.3.10.13.1.4) In addition, you can, at any time, display configuration information (refer to Section 4.3.10.13.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# aaa-client Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values Denotes the client-alias of the AAA client for which the configuration mode is to be enabled. Mandatory N/A String If you want to create a new AAA client, specify the client-alias for the AAA client that you want to create.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-aaa)# config [src-intf ] [primary-serveraddr ] [alternate-serveraddr ] [rad-sharedsecret ] [auth-port ] [acct-port ] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values [src-intf ] Indicates the IP address of the interface providing RADIUS client functionality.
Chapter 4 - Operation and Administration Using the CLI [acct-port ] Command Modes NPU Configuration Denotes the accounting port on which the AAA client listens to and sends RADIUS accounting messages. Optional 1813 0-65535 AAA client configuration mode 4.3.10.13.1.3 Restoring the Default Configuration Parameters for the Authentication Port Run the following command to restore the default configuration for the authentication port.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration AAA client configuration mode 4.3.10.13.1.5 Deleting the AAA Client Run the following command to delete the AAA client: npu(config)# no aaa-client [] CAUTION Specify the AAA client alias if you want to delete a specific AAA client. Otherwise all the configured AAA clients are deleted. In the current release, only one AAA client can be configured.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu# show aaa-client [] Privilege Level 1 Syntax Description Parameter Description Presence Default Value Possible Values [] Denotes the client-alias for which the associated AAA client information is to be displayed. Optional N/A String Specify a value for this parameter if you want to display information about a specific AAA client.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Displaying Global RADIUS Configuration Parameters” on page 310 4.3.10.13.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration [nasid ] Denotes the unique identifier of the ASNGW NAS. Sent in Access Request message only if configured. Should be in FQDN format. Optional null String (up to 64 characters) [timezone-offs et ] Denotes the time zone offset, in seconds, from GMT at the NAS. Optional 0 0-86400 [mtu ] Denotes the MTU to be used for the AAA client functionality.
Chapter 4 - Operation and Administration Using the CLI Privilege Level 10 Command Modes Global configuration mode NPU Configuration 4.3.10.13.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Configured as any one of the following: » DHCP server that allocates an IP address to the MS from the local pool (in the non-HA mode). » DHCP relay that obtains the IP address using an external DHCP server (in the non-HA mode).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration After enabling the service group configuration mode, you can execute any of the following tasks: Configure the common parameters for the service group (refer to Section 4.3.10.14.2) Enable the service group operation mode and configure the DHCP server/proxy/relay-specific parameters (refer to Section 4.3.10.14.4.1) After executing these tasks, you can terminate the service group configuration mode (refer to Section 4.3.10.14.5).
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Global configuration mode 4.3.10.14.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description NPU Configuration 10 Parameter Description Presence Default Value Possible Values [srvcif-alias ] Denotes the pre-defined service interface alias to be used as the data path for traffic towards the core network. Mandatory N/A String Optional 0 0-86400 Note that a Service Interface alias can be associated only to a single Service Group.
Chapter 4 - Operation and Administration Using the CLI [dhcp-ownaddr ] NPU Configuration Denotes the IPv4 address of the DHCP server/ relay/ proxy. Mandatory N/A Valid IP Address Mandatory N/A dhcp-server For a service group using a VLAN service interface, should be in same subnet with the Default Gateway configured for the service interface associated with the service group. Subnet mask is taken as the default subnet mask i.e 255.255.255.0.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-srvcgrp)# config {[serviceVlanEnable]} Privilege Level 10 Command Modes Service group configuration mode npu(config-srvcgrp)# no [ 4.3.10.14.4 Configuring the DHCP Server/Proxy/Relay To configure the DHCP server/proxy/relay: 1 Enable the service group operation mode for DHCP server/relay/proxy (refer to Section 4.3.10.14.4.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE You cannot modify the configured DHCP mode. To change the DHCP mode you should first delete the Service Group and configure it again.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.14.4.2.
Chapter 4 - Operation and Administration Using the CLI Denotes the maximum (highest) IP address of the address pool configuration. Optional 255.255. 255.255 Valid IP Address [pool-subnet ] The IP subnet mask to be provided by local DHCP Service with IP address for MSs from this Service Group. Optional 255.255. 255.255 IP subnet [dflt-gwaddr ] IP address of Default Gateway to be provided by local DHCP Service with IP address for MS from this Service Group. Optional 0.0.0.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration [opt43 {[Name ] Configures option 43 Name Optional Internet Gateway Device. Manage mentSer ver.URL String (up to 64 characters) [Value ] Configures option 43 Value Optional empty string String (up to 64 characters) [Sname ] Configures the server host name. This parameter is sent in dhcp-offer / dhcp-ack messages and may be used by certain CPEs.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Privilege Level 10 Command Modes Service group-DHCP server configuration mode 4.3.10.14.4.2.3Configuring Exclude IP Addresses for the DHCP Server Run the following command to configure exclude IP addresses for the DHCP server: npu(config-srvcgrp-dhcpserver)# exclude-addr [] …. In each command you may add up to 9 IP addresses to be excluded.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Service group-DCHP server configuration mode 4.3.10.14.4.2.4Deleting Exclude IP Addresses for the DHCP Server Run the following command to delete one or several excluded IP addresses for the DHCP server: npu(config-srvcgrp-dhcpserver)# no exclude-addr
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values The number of excluded IP addresses to be deleted. Optional N/A 1-9 Optional N/A Valid IP address Do not specify any value if you want to remove all the exclude IP addresses specified for that DHCP server. Denotes an IP address that you want to remove from the list of exclude IP addresses.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.14.4.3 Configuring the DHCP Proxy After enabling the service group operation mode for the DHCP proxy, you can execute the following tasks: “Specifying DHCP Proxy Configuration Parameters” on page 324 “Restoring the Default Configuration Parameters for the DHCP Proxy” on page 327 “Terminating the DHCP Proxy Configuration Mode” on page 327 4.3.10.14.4.3.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [offerreuseholdtime ] Denotes the duration in seconds within which the MS should send a DHCP request to accept the address sent by the NPU. Optional 5 0-120 Optional 86400 24 4294967295 Optional 0.0.0.0 Valid IP Address If the MS does not accept the address within this period, the MS is deregistered.
Chapter 4 - Operation and Administration Using the CLI [renew-inter val ] NPU Configuration Denotes the period, after which, the MS can request for renewal of the lease which has expired. Specify the value of this parameter as a percentage of the lease-interval parameter. Optional 50 1-100 Optional 75 1-99 This value is used if appropriate parameter is not received in RADIUS Access-Accept.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Service group-DHCP proxy configuration mode 4.3.10.14.4.3.2Restoring the Default Configuration Parameters for the DHCP Proxy Run the following command to restore the default values of one or several DHCP proxy parameters. This command can also be used to delete the configured DNS server address (if specified).
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Service group-DHCP proxy configuration mode 4.3.10.14.4.4 Configuring the DHCP Relay After enabling the service group operation mode for the DHCP relay, you can execute any of the following tasks: “Configuring the DHCP Relay Parameters” on page 328 “Terminating the DHCP Relay Configuration Mode” on page 332 4.3.10.14.4.4.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Service group-DHCP relay configuration mode 4.3.10.14.4.4.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [Subopt1value {Default|MSID |BSID|NASID| NASIP|Full-NA I|Domain|Asci iFrStrng |Bi nFrStrng }] Configures the suboption 1 (Agent Circuit ID) of DHCP option 82.
Chapter 4 - Operation and Administration Using the CLI [Subopt6value {Default|MSID |BSID|NASID| NASIP|Full-NA I|Domain|Asci iFrStrng |Bi nFrStrng }] NPU Configuration Configures the suboption 6 (Agent Subscriber ID )of DHCP option 82. Optional Not Set Default MSID For AsciiFrStrng (string BSID enter up to 32 characters, NASID For BinFrStrng (string enter a string of up to 32 hexadecimal digits (no spaces).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.14.4.4.3Removing the DHCP Relay suboption values Run the following command to remove one, several or all of the Suboption values configured by the user for DHCP Option 82.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Service group-DHCP relay configuration mode 4.3.10.14.5 Terminating the Service Group Configuration Mode Run the following command to terminate the service group configuration mode: npu(config-srvcgrp)# exit Command Syntax npu(config-srvcgrp)# exit Privilege Level 10 Command Modes Service group configuration mode 4.3.10.14.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes NPU Configuration Parameter Description Presence Default Value Possible Values Denotes the group-alias for which the service group to be deleted. Mandatory N/A String Global configuration mode 4.3.10.14.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15 Configuring the Service Flow Authorization Functionality The Service Flow Authorization (SFA) functionality handles creation/ maintenance of pre-provisioned service flows for MS. It maps the AAA parameters (service profile name) received from the AAA server to pre-configured WiMAX-specific QoS parameters in the NPU.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Global configuration mode 4.3.10.15.2 Displaying Configuration Information for the SFA PHS Functionality To display the current configuration information for the SFA PHS functionality, run the following command: npu# show sfa Command Syntax npu# show sfa Privilege Level 1 Display Format SFA Configuration : Command Modes Global command mode PHS 4.3.10.15.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration To configure one or more service profiles: 1 Enable the service profile configuration mode (refer to Section 4.3.10.15.3.1) 2 You can now execute any of the following tasks: » Configure the parameters for this service profile (refer to Section 4.3.10.15.3.2) » Manage service flow configuration for this service profile (refer to Section 4.3.10.15.3.3) » 3 Delete service flows (refer to Section 4.3.10.15.3.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# srvc-profile Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values Denotes the name of the service profile for which the configuration mode is to be enabled. Mandatory N/A String (1 to 11 characters) If you are creating a new service profile, specify the name of the new service profile.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-srvcprfl)# config profile enable Privilege Level 10 Command Modes Service profile configuration mode npu(config-srvcprfl)# config profile enable 4.3.10.15.3.3 Configuring Service Flows Service flows are unidirectional stream of packets, either in the downlink or uplink direction, associated with a certain set of QoS requirements such as maximum latency and minimum rate.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.3.3.1Enabling the Service Flow Configuration Mode\ Creating a New Service Flow To configure the parameters for a service flow, first enable the service flow configuration mode. Run the following command to enable the service flow configuration mode. You can also use this command to create a new service flow.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values flow [
Chapter 4 - Operation and Administration Using the CLI NPU Configuration [ulqos-maxsustainedrate ] [ulqos-trafficpriority ] [dldatadlvry-type | 1 | 2 | 3 | 4 | 255)>] [dlqos-maxsustainedrate ] [dlqos-trafficpriority ] [ulSfQosMinReservedRate ] [ulSfQosMaxLatency ] [ulSfQosToleratedJitter ] [ulSfQosUnsolicitedGrantInterval ] [ulSfQosSduSize
Chapter 4 - Operation and Administration Using the CLI [cs-type ] NPU Configuration Convergence Sublayer Type. This parameter is applied to both UL and DL Service Flows. Optional 1 (IPv4CS) 1: IPv4CS. 4: VLANCS Must match the type of service group referenced by ServiceGrpAlias during creation of the flow: IPv4CS should be selected if the assigned Service Group is .of type IP. VLANCS should be selected if the assigned Service Group is either VPWS-Transparent or VPWS-QinQ.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration [dldatadlvry-t ype | 1 | 2 | 3 | 4 | 255)>] Denotes the data delivery type for the downlink traffic carried by the service flow. Optional 3 (BE) 0-4 or 255 for ANY. [dlqos-maxsust ainedrate ] Denotes the maximum sustained traffic rate, in bps, for the downlink traffic carried by the service flow.
Chapter 4 - Operation and Administration Using the CLI [ulSfQosMaxLat ency ] NPU Configuration The maximum latency in ms allowed in the uplink. Optional 500 0- 4294967295 Optional 0 0- 4294967295 Optional 20 0-65535 Optional 49 0-255 Although available for all service flows, applicable only for service flows with the appropriate uplink data delivery type (UGS, RTVR, ERTVR). If uplink data delivery type is ERTVR or UGS,the default value should be 90ms.
Chapter 4 - Operation and Administration Using the CLI [dlSfQosMinRes ervedRate ] NPU Configuration tthe minimum rate in bps reserved for this downlink service flow. Optional 250000 0- 10000000 Optional 500 0- 4294967295 Optional 0 0- 4294967295 Optional 49 0-255 Although available for all service flows, applicable only for service flows with the appropriate downlink data delivery type (UGS, NRTVR, RTVR, ERTVR) For NRTVER, RTVR and ERTVR-cannot be higher than dlqos-maxsustainedrate.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Service profile-service flow configuration mode 4.3.10.15.3.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.3.3.4Configuring Uplink/Downlink Classification Rule Names After enabling the service flow configuration mode, run the following commands to configure up to a maximum of 6 uplink and 6 downlink classification rules: npu(config-srvcprfl-flow)# ulclsf-rulename [] [...] npu(config-srvcprfl-flow)# dlclsf-rulename [] [...
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Indicates the name of the uplink/downlink classification rule to be linked to this service flow. Use the classification rule name to reference the appropriate classification rule. Mandatory N/A Valid classification rule name For VLANCS service flows the linked uplink and downlink classification rules should be the same.
Chapter 4 - Operation and Administration Using the CLI Command Syntax NPU Configuration npu(config-srvcprfl-flow)# no ulclsf-rulename [ [] ...] npu(config-srvcprfl-flow)# no dlclsf-rulename [ [] ...] Privilege Level Syntax Description 10 Parameter Description Presence Default Value Possible Values [ Indicates the number of uplink/downlink classification rules to be deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Privilege Level 10 Command Modes Service profile-service flow configuration mode 4.3.10.15.3.3.7Deleting Service Flows You can, at any time, run the following command to delete one or all service flows: npu(config-srvcprfl)# no flow [] CAUTION Specify the flow ID if you want to delete a specific service flow. Otherwise all the configured service flows are deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-srvcprfl)# exit Command Syntax npu(config-srvcprfl)# exit Privilege Level 10 Command Modes Service profile configuration mode 4.3.10.15.3.5 Displaying Configuration Information for Service Profiles To display all or specific service profiles, run the following command: npu# show srvc-profile [] Specify the profile name if you want to display configuration information for a particular service profile.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [] Indicates the name of the service profile for which configuration information is to be displayed. Optional N/A String If you do not specify a value for this parameter, configuration information is displayed for all service profiles.
Chapter 4 - Operation and Administration Using the CLI Display Format Srvc Profile NPU Configuration status flow-id flow-type srvc-grp Service-If CS-type Media-Type UL-flowDataDeliveryType UL-flowQosMaxSustainedRate UL-flowQosTrafficPrority DL-flowDataDeliveryType DL-flowQosMaxSustainedRate DL-flowQosTrafficPrority UL-MinReservedTrafficRate UL-MaxLatencey UL-ToleratedJ
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.3.6 Deleting Service Profiles Run the following command to delete one or all service profiles: npu(config)# no srvc-profile [] NOTE The Default Service Profile cannot be deleted. CAUTION Specify the profile name if you want to delete a specific service profile. Otherwise all the configured service profiles (excluding the Default Service Profile) are deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IP source address (an address mask can be used to define a range of addresses or subnet) IP destination address (an address mask can be used to define a range of addresses or subnet) Source port range Destination port range You can define an L2 classification rule based on the Customer VLAN ID (CVID).
Chapter 4 - Operation and Administration Using the CLI 2 NPU Configuration You can now execute any of the following tasks: » Configure the parameters for this classification rule (refer to Section 4.3.10.15.4.2) » Restore the default parameters for this classification rule (refer to Section 4.3.10.15.4.3) 3 » Manage protocol configuration (refer to Section 4.3.10.15.4.4) » Manage source address configuration (seeSection 4.3.10.15.4.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration You can, at any time, display configuration information (refer to Section 4.3.10.15.4.13) or delete an existing classification rule (refer to Section 4.3.10.15.4.14). 4.3.10.15.4.1 Enabling the Classification Rule Configuration Mode\ Creating a New Classification Rule To configure the parameters for a classification rule, first enable the classification rule configuration mode.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Clear the current configuration of this classification rule (refer to Section 4.3.10.15.4.11) After you have executed these tasks, you can terminate the classification rules configuration mode (refer to Section 4.3.10.15.4.12).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-clsfrule)# config [priority ] [phs-rulename ] [iptos-low ] [iptos-high ] [iptos-mask ] [iptos-enable] Privilege Level 10 Syntax Description 4Motion Parameter Description Presence Default Value Possible Values [priority ] Denotes the priority level to be assigned to the classification rule.
Chapter 4 - Operation and Administration Using the CLI [iptos-enable] Command Modes NPU Configuration Indicates whether the use of TOS-based classification is to be enabled. Optional By default, the use of TOS-bas ed classifica tion is disabled. The presence/abse nce of this flag indicates that the use of TOS-based classification should be enabled/disabl ed. L3 Classification rules configuration mode 4.3.10.15.4.
Chapter 4 - Operation and Administration Using the CLI 2 NPU Configuration Enable/disable protocol lists (refer to Section 4.3.10.15.4.4.2 and Section 4.3.10.15.4.4.3) 3 Terminate the protocol configuration mode (refer to Section 4.3.10.15.4.4.4) In addition, you can, at any time, delete an existing protocol list (refer to Section 4.3.10.15.4.4.5).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-clsfrule-protocol)# protocol-enable [] [...] Privilege Level 10 Syntax Description Command Modes Parameter Description Presence Default Value Possible Values Indicates the number of protocol lists to be enabled. In the current release, only one protocol can be enabled per classification rule.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the number of protocol lists to be disabled. Mandatory N/A 1 Mandatory N/A 0-255 In the current release, only one protocol can be enabled per classification rule. [] [...] Indicates the protocols to be disabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-clsfrule)# no ip-protocol Privilege Level 10 Command Modes L3 Classfication rule-IP protocol configuration mode 4.3.10.15.4.5 Managing Source Address Configuration for the L3 Classification Rule Classification rules can classify the packet, based on the source address of the packet. You can configure the value of source address for a given classification rule.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.4.5.1Enabling the Source Address Configuration Mode\ Creating a New Source Address To configure the parameters for a source address, first enable the source address configuration mode. Run the following command to enable the source address configuration mode. You can also use this command to create a new source address.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration L3 Classification rules configuration mode 4.3.10.15.4.5.2Configuring the Address Mask After enabling the source address configuration mode, run the following command to configure the address mask for the source address. npu(config-clsfrule-srcaddr)# config [addr-enable] [addr-mask ] You can also run this command to enable a source address that is currently disabled.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration L3 Classification rules-source address configuration mode 4.3.10.15.4.5.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.4.5.5Deleting Source Addresses You can, at any time, run the following command to delete one or all source addresses npu(config-clsfrule)# no srcaddr [] CAUTION Specify the IP address if you want to delete a specific source address. Otherwise all the configured source addresses are deleted. IMPORTANT An error may occur if you provide an invalid IP address.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.4.6 Managing Destination Address Configuration for the L3 Classification Rule Classification rules can classify the packet, based on the destination address of the packet. You can configure the value of destination address for a given classification rule. To configure one or more destination addresses: 1 Enable the destination address configuration mode (refer to Section 4.3.10.15.4.6.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Configure the address mask (refer to Section 4.3.10.15.4.6.2)k Disable the destination address (refer to Section 4.3.10.15.4.6.3) After you execute these tasks, you can terminate the destination address configuration mode (refer to Section 4.3.10.15.4.6.4) and return to the classification rules configuration mode. IMPORTANT An error may occur if you provide an invalid destination IP address.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration You can also run this command to enable a destination address that is currently disabled. For details, refer to “Disabling the Destination Address” on page 372. IMPORTANT An error may occur if you provide an invalid address mask. Refer the syntax description for more information about the appropriate values and format for configuring this parameter.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-clsfrule-dstaddr)# no addr-enable Privilege Level 10 Command Modes L3 Classification rules-destination address configuration mode 4.3.10.15.4.6.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-clsfrule)# no dstaddr [] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values [] Denotes the IPv4 address of the destination address that you want to delete from a classification rule. Optional N/A Valid IP Address Specify this parameter only if you want to delete a specific destination address.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-clsfrule)# srcport 20 50 npu(config-clsfrule-srcport)# port-enable npu(config-clsfrule-srcport)# exit 4.3.10.15.4.7.1Enabling the Source Port Configuration Mode\ Creating a New Source Port To configure the parameters for a source port, first enable the source port configuration mode. Run the following command to enable the source port configuration mode. You can also use this command to create a new source port.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration L3 Classification rules configuration mode 4.3.10.15.4.7.2Enabling the Source Port Range Run the following command to enable the source port range: npu(config-clsfrule-srcport)# port-enable You can also run this command to enable a source port range that is currently disabled. For details, refer to “Disabling the Source Port Range” on page 376.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration L3 Classification rules-source port configuration mode 4.3.10.15.4.7.4Terminating the Source Port Configuration Mode Run the following command to terminate the source port configuration mode: npu(config-clsfrule-srcport)# exit Command Syntax npu(config-clsfrule-srcport)# exit Privilege Level 10 Command Modes L3 Classfication rule-source port configuration mode 4.3.10.15.4.7.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes NPU Configuration Parameter Description Presence Default Value Possible Values Denotes the starting value of port range to be deleted. Optional N/A 1-65535 Denotes the end value of port range to be deleted. Optional N/A 1-65535 L3 Classification rules configuration mode 4.3.10.15.4.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.15.4.8.1Enabling the Destination Port Configuration Mode\ Creating a New Destination Port To configure the parameters for a destination port, first enable the destination port configuration mode. Run the following command to enable the destination port configuration mode. You can also use this command to create a new destination port.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-clsfrule-dstport)# port-enable You can also run this command to enable a destination port range that is currently disabled. For details, refer to “Disabling the Destination Port Range” on page 380. Command Syntax npu(config-clsfrule-dstport)# port-enable Privilege Level 10 Command Modes L3 Classification rules-destination port configuration mode 4.3.10.15.4.8.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config-clsfrule-dstport)# exit Privilege Level 10 Command Modes L3 Classfication rule-destination port configuration mode 4.3.10.15.4.8.5Deleting Destination Ports Run the following command to delete one or all destination ports npu(config-clsfrule)# no dstport [ ] CAUTION Specify the start and end port numbers if you want to delete a specific destination port.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration L3 Classification rules configuration mode 4.3.10.15.4.9 Terminating the L3 Classification Rule Configuration Mode Run the following command to terminate the L3 classification rules configuration mode: npu(config-clsfrule)# exit Command Syntax npu(config-clsfrule)# exit Command Modes L3 Classification rules configuration mode 4.3.10.15.4.
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration L2 Classification rules configuration mode 4.3.10.15.4.11Clearing the configuration of the L3 Classification Rule Run the following command to clear the configuration of this classification rule (removing the configured cvid): npu(config-clsfrule-L2)# no cvid After clearing the configuration you can define a new cvid for this classification rule.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if you provide an invalid value for the rulename parameter. Refer the syntax description for more information about the appropriate values and format for configuring this parameters.
Chapter 4 - Operation and Administration Using the CLI Display Format for each L2 rule ClsfRulename Command Modes Global command mode NPU Configuration clsfRuleType: L2 Cvid 4.3.10.15.4.14Deleting Classification Rules Run the following command to delete one or all classification rules: npu(config)# no clsf-rule [] CAUTION Specify the rule name if you want to delete a specific classification. Otherwise all the configured classification rules are deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.16 Configuring PHS Rules Packet Header Suppression (PHS) is a mechanism that conserves air-interface bandwidth by removing parts of the packet header that remain constant along the traffic session. PHS operates by allowing the MS and ASN-GW to associate PHS rules to each service flow.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config-phsrule)# config field 000000000000000000000000FFFFFFFF00000000 mask 000F00 verify 0 size 20 npu(config-phsrule)# exit 4.3.10.16.1 Enabling the PHS Rules Configuration Mode /Creating a New PHS Rule To configure the parameters for a PHS rule, first enable the PHS rules configuration mode. Run the following command to enable the PHS rules configuration mode. You can also use this command to create a new PHS rule.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE You can display configuration information for specific or all PHS rules. For details, refer Section 4.3.10.16.5. IMPORTANT An error may occur if you provide an invalid value for any of these parameters. Refer the syntax description for more information about the appropriate values and format for configuring these parameters.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration [mask ] Indicates the PHSM, which contains the bit-mask of the PHSF with the bits set that is to be suppressed. Mandatory N/A String This parameter is of format "0x000000". Here Octet(x), x=3 bytes, each Byte will represent two characters when used as string like in xml file. [verify ] Indicates whether the PHS header is to be verified. Optional 0 (No) 0: Indicates that the PHS header should be verified.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.10.16.4 Deleting PHS Rules Run the following command to delete one or all PHS rules: npu(config)# no phs-rule [] CAUTION Specify the rule name if you want to delete a specific PHS rule. Otherwise all the configured PHS rules are deleted.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if you provide an invalid value for the rulename parameter. Refer the syntax description for more information about the appropriate values and format for configuring this parameter.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration In certain cases, such as entity reset, other entities are not aware of service termination of an MS in that entity, and keep maintaining the MS context. This may result in service failure, excessive consumption of memory resources and accounting mistakes.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration reset (through calculation of difference between polled entity "Last-Reset-Time" received on poll N+1 and self UTC). If the ASN-GW is the authenticator for the MS(s) the failing BS served, then in addition to context clearance it also sends R3 Accounting-Request (Stop) message including a release indication to AAA.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [asnGwKeepAliv eTmr ] The period ln seconds between polling sessions. Optional 60 10-1000 asnGwKeepAliveTmr x 1000 (value in milliseconds) cannot be lower than asnGwKeepAliveRespTmr x (asnGwKeepAliveRtxLmt +1).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Privilege Level 1 Display Format % Asn-gateway Keep Alive Configuration asnGwKeepAliveEnable : asnGwKeepAliveTmr : asnGwKeepAliveRtxLmt : asnGwKeepAliveRespTmr : Command Modes Global cpmmand mode 4.3.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration AU Manager: Refers to all internal processes used for fault, configuration, and performance management for AU. IMPORTANT The Syslog utility is used to implement the logging feature for 4Motion. You can specify the severity level for which log messages are to be generated for each module. Logs are generated for events for which the severity level is equal to or higher than the configured level.
Chapter 4 - Operation and Administration Using the CLI 4.3.11.1 NPU Configuration Managing System-level Logging System-level logging refers to all the procedures to be executed for managing logging for the entire system. To manage system-level logging: Enable/disable logging across the entire system, and specify the destination (a file on the local system or on an external server) where logs are to be maintained. Make periodic backups of log files.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration The system maintains a maximum of 1000 log and trace messages. The system stores log and trace messages using the cyclic buffer method. That is, when there are more than 1000 messages, the system overwrites the oldest log and trace messages. IMPORTANT If you have enabled writing of log messages to file, it is recommended that you periodically make a backup of this log file.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {file|server } Indicates whether logs are to be written to a file or server. Mandatory N/A file: Indicates that logs are to be written to a file. (Logs written to file are not maintained after system reset; periodically save the log file to flash.) For details, refer to Section 4 .3.11.1.5.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if: Logging is already disabled for the requested destination (file or server). An internal error has occurred. The server IP address that you have specified does not exist.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values {file|server } Indicates whether the system-level logs are to be disabled for a file or server. Mandatory N/A file: Indicates that system-leve l logging to a file is to be disabled. server: Indicates that system-leve l logging to a server is to be disabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration When you run this command, all the log messages are displayed. (4Motion maintains a maximum of 1000 log and trace messages.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if an internal error occurs when you execute this command. Command Syntax npu# show log destination Privilege Level 1 Display Format Logfile() Command Modes Global command mode 4.3.11.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT Trace messages are also written to the same file as log messages (provided you have enabled writing of trace messages to file.) When you make a backup of log files written to file, the backup file also contains trace messages (provided you have enabled writing of trace messages to file). For more information about configuring traces, refer Section 4.11.1.1.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.11.1.6 NPU Configuration Global configuration mode Deleting Backup Log Files from the NPU Flash You can delete the backup log files from the NPU flash. It is recommended that you periodically make a backup of these log files, and delete these from the NPU flash. IMPORTANT Trace and log messages are stored in the same backup file on the NPU flash. When you execute this procedure, trace messages are also deleted from the NPU flash.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [] Indicates the name of the compressed log file to be deleted. If you do not specify the file name, all the log files residing in the NPU flash are deleted. Optional N/A .gz Always suffix the file name with .gz. Command Modes 4.3.11.1.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Configuring the Log Severity Level” on page 407 “Displaying Configuration Information for Module-level Logging” on page 409 “Disabling Module-level Logging” on page 410 4.3.11.2.1 Configuring the Log Severity Level You can configure the severity level for logs to be generated for each module.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-21: Modules for which Logging can be Enabled Parameter Refers to...
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values [{StartupMgr|S WDownload|Faul tMgr|PerfMgr| ShelfMgr|SIGAS N|UserIF|AUMg r}] Indicates the name of the module for which the severity level is to be specified. Optional N/A StartupMgr SWDownloa d If you do not specify any value for this parameter, the severity level that you specify is applied for all modules.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# show log level [{StartupMgr|SWDownload|FaultMgr|PerfMgr|ShelfMgr|SIGASN|UserIF|AUMgr}] Privilege Level 1 Syntax Description Parameter Description Presence Default Value Possible Values [{StartupMgr|S WDownload|Faul tMgr|PerfMgr| ShelfMgr|SIGAS N|UserIF|AUMg r}] Indicates the name of the module for which you want to view the configured severity level.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# no log level [{StartupMgr|SWDownload|FaultMgr|PerfMgr|ShelfMgr|SIGASN|UserIF|AUMgr}] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values [{StartupMgr|S WDownload|Faul tMgr|PerfMgr| ShelfMgr|SIGAS N|UserIF|AUMg r}] Indicates the name of the module for which logging is to be disabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NPU Counters Groups (per-NPU counters): 4Motion » NPU DATA port » NPU MGMT port » NPU CASCADE port » AU ports » NPU internal-management interface » NPU external-management interface » NPU local-management interface » NPU bearer interface » Service Flow Authorization functionality » Data path functionality » AAA client functionality » Authenticator function » Context function » DHCP proxy functionality
Chapter 4 - Operation and Administration Using the CLI NPU Configuration AU Counters Groups (per-BS counters) » De-Registration » Integrity » Mobility » Network Entry (NE) » Traffic » Utilization » General » All MS Basic Mode » Specific MS Advanced Mode (not supported in current release) For details on the performance data counters collected for each group refer to the relevant 4Motion Performance Monitoring document.
Chapter 4 - Operation and Administration Using the CLI 4.3.12.1 NPU Configuration Enabling Collection and Storage of Historical Performance Data 4Motion collects and stores performance data for the a number of system groups (refer to Section 4.3.12).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-22: NPU Counters Groups for which Performance Data can be Collected Parameter Name Refers to...
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTENOTE When you enable collection of performance data collection, the data is stored in a file called, prf_yyyymmddhhmm.xml.gz in the path, TFTP/boot/Management/Performance Manager. It is recommended that you periodically make a backup of these files on an external server. After you have enabled collection and storage of performance data is fetched every quarter of an hour.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values For NPU groups: {pmNpuBckhlPor t|pmNpuMgmtPor t|pmNpuCascPor t|pmAuPort | pmNpuIntMgmtIf pmNpuExtMgmtIf |pmNpuLclMgmtI f|pmNpuBearerI f|pmSfa|pmDat apathFn|pmAaaC lient|pmAuthen ticator|pmCont extFn|pmDhcpPr oxy|pmDhcpRela y|pmDhcpServer |pmMsStateChan geFn} For a description of each parameter in this command, refer to Table 4-22.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu(config)# no group enable {pmNpuBckhlPort | pmNpuMgmtPort | pmNpuCascPort | pmAuPort | pmNpuIntMgmtIf | pmNpuExtMgmtIf | pmNpuLclMgmtIf | pmNpuBearerIf | pmSfa | pmDatapathFn | pmAaaClient | pmAuthenticator | pmContextFn | pmDhcpProxy | pmDhcpRelay | pmDhcpServer | pmMsStateChangeFn} To disable collection and storage of performance data for an NPU counters group: npu(config)# no group enable au { pmBsDeRegistration | pmBsIntegrity
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values For NPU groups {pmNpuBckhlPor t|pmNpuMgmtPor t|pmNpuCascPor t|pmAuPort | pmNpuIntMgmtIf pmNpuExtMgmtIf |pmNpuLclMgmtI f|pmNpuBearerI f|pmSfa|pmDat apathFn|pmAaaC lient|pmAuthen ticator|pmCont extFn|pmDhcpPr oxy|pmDhcpRela y|pmDhcpServer |pmIgmp|pmMsS tateChangeFn} For a description of each parameter in this command, refer Table 4-22.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration pmNpuLclMgmtIf | pmNpuBearerIf | pmSfa | pmDatapathFn | pmAaaClient | pmAuthenticator | pmContextFn | pmDhcpProxy | pmDhcpRelay | pmDhcpServer | pmMsStateChangeFn} To display the status for an AU counters group: npu# show au group status { pmBsDeRegistration | pmBsIntegrity | pmBsMobility | pmBsNetworkEntry | pmBsTraffic | pmBsUtilization | pmBsGeneral | pmbsallmsbasicmode | pmbsspecificmsadvancedmode} IMPORTANT An error may occur i
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values For NPU groups {pmNpuBckhlPor t|pmNpuMgmtPor t|pmNpuCascPor t|pmAuPort | pmNpuIntMgmtIf pmNpuExtMgmtIf |pmNpuLclMgmtI f|pmNpuBearerI f|pmSfa|pmDat apathFn|pmAaaC lient|pmAuthen ticator|pmCont extFn|pmDhcpPr oxy|pmDhcpRela y|pmDhcpServer |pmIgmp|pmMsS tateChangeFn} For a description of each parameter in this command, refer Table 4-22.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Configuring the SNMP Manager” on page 422 “Configuring the Trap Manager” on page 424 4.3.13.1 Configuring the SNMP Manager To enable 4Motion configuration over SNMP, you are required to first configure the SNMP Manager. You can configure up to five SNMP Managers for the 4Motion system.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.13.1.2 NPU Configuration Parameter Description Presence Default Value Possible Values [ReadCommunity ] IThe SNMP Read Community string allowing execution of SNMP Get operations. Optional public String (up to 10 characters and case-sensitive) [ReadWriteComm unity ] The SNMP Read/Write Community string allowing execution of SNMP Set and Get operations.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.13.1.3 NPU Configuration Global configuration mode Displaying Configuration Information for SNMP Managers To display configuration information for all SNMP Managers, run the following command: npu# show snmp-mgr IMPORTANT An error may occur if there is no existing SMNP Manager entry.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Displaying Configuration Information for Trap Managers” on page 427 “Displaying the Trap Rate Limit” on page 428 4.3.13.2.1 Adding/Modifying a Trap Manager entry You can configure up to five Trap Manager entries for the 4Motion system.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration [Port <(0-65535)>] Indicates the port number on which the Trap Manager will listen for messages from the Agent. Optional 162 0-65535 [TrapCommunity ] Indicates the name of the community of the Trap Manager. Optional public String (up to 10 characters and case-sensitive) [EnableFlag] Indicates whether traps sending to the Trap Manager is to be enabled.
Chapter 4 - Operation and Administration Using the CLI 4.3.13.2.3 NPU Configuration Enabling/Disabling the Trap Manager Traps are sent to a particular Trap Manager only if it is enabled. Run the following commands to enable/disable the Trap Manager that you have created. NOTE By default, all Trap Managers are enabled.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration npu# show trap-mgr IMPORTANT An error may occur if no Trap Manager has been configured. Command Syntax npu# show trap-mgr Privilege Level 1 Display Format Trap Manager Table -------------------------------Trap Manager Ip:(10.203.153.149) Port:(162) Community:(public) Register: (Enable) Command Modes 4.3.13.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration 4.3.14 Configuring the 4Motion Shelf The 4Motion shelf comprises the following components: NPU card: Serves as the shelf controller that manages and monitors all the shelf components. In addition, it provides backbone Ethernet connectivity via a 10/100/1000 Base-T network interface. The shelf contains one active and one redundant NPU card. IMPORTANT NPU redundancy is not supported in the current release.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Configuring the PSU/PIU Modules” on page 430 “Configuring the GPS” on page 433 “Managing Power Feeders Configuration” on page 447 “Managing Dry-contact Input Alarms” on page 450 “Managing Dry-contact Output Alarms” on page 455 “Configuring the Location Information for the 4Motion Shelf” on page 460 “Configuring the Unique Identifier for the 4Motion Shelf” on page 462 4.3.14.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Figure 4-1: Slot IDs of Shelf Components For example, if you want to enable PSU, slot# 3, and disable the PIU, slot# 1, run the following command: npu(config)# enable PSU 3 npu(config)# disable PIU 1 IMPORTANT An error may occur if you specify a PSU slot ID that is not in the range, 1-4, or a PIU slot ID that is not in the range 1-2. Remember that a minimum AU-to-PSU/PIU ratio should always be maintained.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description 10 Parameter Description Presence Default Value Possible Values {PSU | PIU} Indicates whether the PSU or PIU slot is to be enabled or disabled. Mandatory N/A PSU Indicates the slot ID of the PSU/PIU that you want to enable or disable. Refer Figure 4-1 for more information about the slot ID assigned to each PIU/PSU module on the 4Motion chassis. Mandatory Command Modes 4.3.14.1.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Command Modes 4.3.14.2 NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the PIU slot ID for which the hardware version is to be configured. Mandatory N/A 1-2 hw_version Indicates the hardware version to be configured for the PIU slot.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration “Configuring the Clock Mode” on page 441 “Configuring the Required Number of Satellites” on page 442 “Displaying GPS Clocks Parameters” on page 443 “Displaying GPS General Configuration Parameters” on page 444 “Displaying the Date and Time Parameters” on page 445 “Displaying the Position Parameters” on page 446 “Displaying the Clock Mode Parameter” on page 446 “Displaying the Number of Satellite Parameters” on page 44
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE If the external 1PPS GPS clock is enabled: The concatenated slave NPU 16Mhz created from local 16MHz TCXO/OCXO at the NPU provides holdover when the GPS loses synchronization with its satellites. Configure the GPS parameters listed in section, Section 4.3.14.2.2. External 16MHz: Generates all the main clocking signals in the system, including the internal 1PPS clock.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values External1PPS {Enable | Disable} Indicates whether the external 1PPS clock is enabled or disabled. Optional Enable Enable Disable If the External 1PPs clock is enabled, synchronization of air frames for inter-site and intra-site sectors should be managed by the external 1PPS GPS clock.
Chapter 4 - Operation and Administration Using the CLI 4.3.14.2.2 NPU Configuration Configuring General Configuration Parameters for the GPS IMPORTANT Skip this section if you have selected the internal 1PPS clock. For more information about configuring the GPS clock, refer Section 4.3.14.2.1. The GPS general configuration parameters determine how the GPS should function with respect to the 4Motion system.
Chapter 4 - Operation and Administration Using the CLI Type {Trimble | None}] NPU Configuration Indicates the type of GPS connected to 4Motion. Optional Trimble Trimble None Yes [AdaptorRequ ired {Yes | No}] Indicates whether a GPS adaptor is required. The NPU can be connected to an extenal GPS adaptor that allows the NPU to connect to multiple GPS interfaces/1PPS /16Mhz clocks. In the current release a GPS adapter is not supported.
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.14.2.3 NPU Configuration Global configuration mode Configuring the Date and Time The UTC time is used to configure the following: Local time: Differs from the UTC time with respect to the value you have specified for the localUTCDiff and DST parameters. The local time is equal to the sum of the UTC time, the value of the localUTCDiff parameter (local offset from UTC time) and DST (daylight saving time offset).
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# set date [UTC ] [LocalUTCDiff <+/-HH:MM>] [DST <(0-2)>] Privilege Level 10 Syntax Description Parameter Description Presence Default Value Possible Values UTC Indicates the UTC time to be used for 4Motion if not available from GPS.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# set position ([Latitude ] [Longitude ] [Altitude (-300.0 - 9000.0)]) Privilege Level 10 Syntax Description Command Modes 4.3.14.2.5 Parameter Description Presence Default Value Possible Values Latitude Indicates the latitude where the 4Motion shelf is currently positioned. Configure only if GPS Type is None. Optional 000.000.N Use the format, Ill.mmm.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if setting to any option other than Master because current release supports only the Master option. Command Syntax npu(config)# set npu ClockMode {Master | Redundant | Slave} Privilege Level 10 Syntax Description Command Modes 4.3.14.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Command Syntax npu(config)# set satellite ([MinNumOfSatForHoldoverReturn ] [MaxNumOfSatBeforeSyncLoss ] Privilege Level 10 Syntax Description Command Modes 4.3.14.2.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration For a detailed description of each parameter in this command, refer the section, “Configuring the GPS Clocks” on page 434. Both Current and Configured values for each clock are provided (the parameters are applied after reset) Display Format Command Modes 4.3.14.2.
Chapter 4 - Operation and Administration Using the CLI Display Format Command Modes NPU Configuration Configured GPS Type : GPS Navigation Processor SW Version : GPS Signal Processor SW version : Adaptor Required : Holdover Timeout : HoldoverPassedTxOperationStop : Almanac Usable Time : Ephemeris Usable Time : Interval To Read Gps Time : Time To Read Gps Time : Global command mode In addition to the configuration parameters, the SW Versions of the GPS Navigation and Signal Processor
Chapter 4 - Operation and Administration Using the CLI Command Modes NPU Configuration Global command mode In addition to the configurable parameters, the calculated Local Time is also displayed. 4.3.14.2.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Syntax Description For a detailed description of the parameter in this command, refer the section, “Configuring the Clock Mode” on page 441. Display Format NPU Clock Mode Command Modes Global command mode : Master 4.3.14.2.
Chapter 4 - Operation and Administration Using the CLI 4.3.14.3.
Chapter 4 - Operation and Administration Using the CLI pfAuPortNoDest ination NPU Configuration The AU Port number. Mandatory -1 (none) -1 (none), 1-4 -1 means none. Each combination of AU Slot Number and Port Number can appear in a maximum of one Power Feeder instance (excluding combinations with a none value). Command Modes 4.3.14.3.
Chapter 4 - Operation and Administration Using the CLI 4.3.14.4 NPU Configuration Managing Dry-contact Input Alarms Dry-contact input alarms are external devices that are connected to the 4Motion unit, and notify the system when there is a change in external conditions. When the system receives this notification, an SNMP trap is sent to the EMS.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT Dry-contact input alarms are a means to raise a trap to the EMS when a change in conditions is notified by the external device. However, the trap may not reach the EMS because of trap rate limiting, network congestion or for reasons relating to the external equipment. Alvarion does not assume responsiblity for traps that are lost.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Table 4-25: Pin Numbers Corresponding to Dry Contact Input Alarm Numbers Pin Number Alarm Number 3 and 15 1 4 and 16 2 5 and 17 3 6 and 18 4 7 and 19 5 8 and 20 6 9 and 21 7 10 and 22 8 Refer Figure 4-2 for a diagrammatic representation of the 25-pin micro D-Type ALRM-IN/OUT connector and the numbers assigned to each pin.
Chapter 4 - Operation and Administration Using the CLI Syntax Description NPU Configuration Parameter Description Presence Default Value Possible Values Indicates the alarm number of the dry contact input alarm that is to be mapped to an alarm condition. This alarm number corresponds to a pin on the 25-pin micro D-Type jack . Mandatory N/A 1-8 For more information about the pin numbers that correspond to the alarm number, refer Table 4-25.
Chapter 4 - Operation and Administration Using the CLI alarm {CommercialPow erFailure | Fire | EnclosueDoorOp en | HighTemperatur e | Flood | LowFuel | LowBatteryThre shold | GeneratorFailu re | IntrusionDetec tion | ExternalEquipm entFailure NPU Configuration Indicates the alarm condition to be mapped to a pin number.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration NOTE For more information about mapping dry contact alarms to an alarm condition, refer to “Mapping a Dry-contact Input Alarm to an Alarm Condition” on page 450. For more information about displaying the alarm condition currently mapped to an alarm, refer to “Displaying Configuration Information for Dry-contact Input/Output Alarms” on page 458.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration figure depicts the ALRM-IN/OUT connector, and the pin numbers assigned to each pin: Figure 4-3: 25-pin Micro D-Type ALRM-IN/OUT Connector You can configure upto three dry contact output alarms, each mapping to a different pin number. This section describes the commands used for: “Raising Dry-contact Output Alarms” on page 456 “Clearing Dry-contact Output Alarms” on page 457 4.3.14.5.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Refer Figure 4-3 for a diagrammatic representation of the 25-pin micro D-Type ALRM-IN/OUT connector and the numbers assigned to each pin. NOTE After you have raised an alarm, clear this alarm when the system state returns to its normal condition. For information, refer to, “Clearing Dry-contact Output Alarms” on page 457.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration After you run this command, the alarm that you had raised is cleared. NOTENOTE For more information about raising a dry contact ouput alarm, refer to “Raising Dry-contact Output Alarms” on page 456.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration For example, run the following command if you want to display configuration information for the dry contact input alarm connected to the 4Motion unit via pin# 8 on the NPU panel: npu# show dry-contact IN 8 If you want to display configuration information for all dry contact alarms, run the following command: npu# show dry-contact NOTE An error may occur if you have specified an incorrect pin number for a particular input/output alar
Chapter 4 - Operation and Administration Using the CLI NPU Configuration Denotes the alarm number of the input or output alarm for which configuration information is to be displayed. [] Refer Figure 4-2 and Figure 4-3 for more information about the numbers assigned to the pins used for connecting dry contact alarms.
Chapter 4 - Operation and Administration Using the CLI NPU Configuration IMPORTANT An error may occur if the length of any of these parameters exceeds the specified range. Refer the syntax description for more information about the appropriate values and format for configuring these parameters. Command Syntax npu(config)# site (Name | Address | RackLocation
Chapter 4 - Operation and Administration Using the CLI Command Modes 4.3.14.8 NPU Configuration Global configuration mode Configuring the Unique Identifier for the 4Motion Shelf The Site Identifier (Site ID) is used by the management system as identifier of the site and must be unique in the managed network. The default value 0 is not a valid Site Identifier: it indicates that the Site Identifier was not configured and a valid Site Identifier must be configured.
Chapter 4 - Operation and Administration Using the CLI 4.4 Managing MS in ASN-GW Managing MS in ASN-GW This section describes the MS level commands. “Manual MS De-registration” “Displaying MS Information” 4.4.1 Manual MS De-registration Run the following command to initiate the de-registration process of the MS with the specified NAI value or of all MSs. npu(config)# de-reg ms {nai | all} IMPORTANT An error may occur if NAI value is not specified.
Chapter 4 - Operation and Administration Using the CLI 4.4.2 Managing MS in ASN-GW Displaying MS Information Run the following command to view the MS context information of the specified NAI/MSID. npu# show ms info [{nai|msid}] IMPORTANT An error may occur if invalid NAI or invalid MSID is provided. Refer the syntax description for more information about the appropriate values and format for configuring this parameter.
Chapter 4 - Operation and Administration Using the CLI 4.5 Managing AUs Managing AUs Up to seven AU objects can be created and configured, corresponding to the AU cards that can be installed in slots 1-4, 7-9 of the shelf. NOTE In Release 2.0 up to 3 AUs may be used for service provisioning. To configure an AU: 1 Enable the AU configuration mode for the selected AU (refer to Section 4.5.
Chapter 4 - Operation and Administration Using the CLI Managing AUs IMPORTANT An error occurs if you specify an AU slot ID that is not in the range, 1-4, or 7-9. If you use this command to create a new AU, the configuration mode for this AU is automatically enabled, after which you can execute any of the following tasks: Configure one or more of the parameters tables of the AU (refer to Section 4.5.
Chapter 4 - Operation and Administration Using the CLI Managing AUs Properties (refer to Section 4.5.2.1) Control (refer to Section 4.5.2.2) Connectivity (refer to Section 4.5.2.3) Reserved (refer to Section 4.5.2.4) 4.5.2.1 Configuring Properties The properties table enables configuring the main properties of the required AU card and controlling the power on each of the AU’s ODU ports.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Managing AUs Parameter Description Presence Default Value Possible Values [required-type {typeThree | ttypeTwo} ] Defines the AU card configuration required. Optional typeThree typeThree [required-ports {two | four} ] Defines the No of AU card ODU ports required. typeTwo In the current release only typeTwo AU is available.
Chapter 4 - Operation and Administration Using the CLI 4.5.2.2 Managing AUs Configuring the Control Parameter The control parameters enables controlling the operation of the AU. To configure the control parameter, run the following command: npu(config-au-1)# control shutdown-operation {normalOperation | reset | shutdown} Command Syntax npu(config-au-1)# control shutdown-operation {normalOperation | reset | shutdown} Privilege Level 10 Syntax Description Command Modes 4.5.2.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Managing AUs 10 Parameter Description Presence Default Value Possible Values [maxframesize <(1518 to 9000 StepSize 1)>] The maximum frame size (in Bytes) that can be accepted on the Ethernet interface of the AU. Larger packets will be dropped. Optional 1522 1518 to 9000 Optional 11 0-4092 In 802.
Chapter 4 - Operation and Administration Using the CLI Managing AUs npu(config-au-1)# au-reserved [reserved-1 ] [reserved-2 ] [reserved-3 ] [reserved-4 ] [reserved-5 ] [reserved-6 ] [reserved-7 ] [reserved-8 ] [reserved-9 ] Command Syntax npu (config-au-1)# au-reserved [reserved-1 ] [reserved-2 ] [reserved-3 ] [reserved-4 ] [reserved-5 <
Chapter 4 - Operation and Administration Using the CLI 4.5.3.1 Managing AUs Restoring the Default Values of Properties Parameters To restore the some or all of the Properties parameters to their default value, run the following command: npu(config-au-1)# no properties [required-type] [required-ports] [required-bandwidth] [port-1-power] [port-2-power] [port-3-power] [port-4-power] You can restore only selected parameters to their default value by specifying only those parameter.
Chapter 4 - Operation and Administration Using the CLI Managing AUs Command Syntax npu(config-au-1)# no control Privilege Level 10 Command Modes Global configuration mode 4.5.3.3 Restoring the Default Values of Connectivity Parameters To restore Connectivity parameters do their default value, run the following command: npu(config-au-1)# no connectivity [maxframesize] [bearervlanid] You can restore only one of the parameters to its default value by specifying only that parameter.
Chapter 4 - Operation and Administration Using the CLI 4.5.3.4 Managing AUs Restoring the Default Values of AU Reserved Parameters To restore the AU Reserved parameters to their default value, run the following command: npu(config-au-1)# no au-reserved [reserved-1] [reserved-2] [reserved-3] [reserved-4] [reserved-5] [reserved-6] [reserved-7] [reserved-8] [reserved-9] You can restore only selected parameters to their default value by specifying only those parameter.
Chapter 4 - Operation and Administration Using the CLI Privilege Level 10 Command Modes au-1 configuration mode 4.5.5 Managing AUs Deleting an AU Object Run the following command to delete an AU object: npu(config)# no au <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> IMPORTANT An associated AU (specified in a Sector Association) cannot be deleted. Command Syntax npu(config)# no au <(1 to 4 StepSize 1) | (7 to 9 StepSize 1)> Privilege Level 10 Syntax Description Command Modes 4.5.
Chapter 4 - Operation and Administration Using the CLI Managing AUs Control (refer to Section 4.5.6.2) Connectivity (refer to Section 4.5.6.3) Reserved (refer to Section 4.5.6.4) 4.5.6.
Chapter 4 - Operation and Administration Using the CLI Display Format (for each existing AU object if requested for all AUs) Command Modes Managing AUs SlotNo.
Chapter 4 - Operation and Administration Using the CLI Managing AUs Parameter Description Possible Values InstalledType The AU Type. threeDSP (1) twoDSP (2) other (3) auNotDetected (4) InstalledPorts The number of ODU ports. two (1) four (2) other (3) auNotDetected (4) InstalledBandwidth(MHz) The bandwidth supported by the AU. fourteen (1) twenty (2) other (3) auNotDetected (4) HWVersion AU HW Version number HWRevision AU HW Revision number SerialNo.
Chapter 4 - Operation and Administration Using the CLI Syntax Description Display Format Managing AUs Parameter Description Presence Default Value Possible Values [<(1 to 4 StepSize 1) | (7 to 9 StepSize 1)>] The slot ID of the AU Optional N/A 1-4, 7-9 Specify a value for this parameter if you want to display the control parameter of a specific AU. Do not specify a value for this parameter if you want to display the control parameters of all AUs. SlotNo.
Chapter 4 - Operation and Administration Using the CLI Privilege Level Syntax Description Display Format (for each existing AU object if requested for all AUs) Managing AUs 1 Parameter Description Presence Default Value Possible Values [<(1 to 4 StepSize 1) | (7 to 9 StepSize 1)>] The slot ID of the AU Optional N/A 1-4, 7-9 Specify a value for this parameter if you want to display the connectivity parameters of a specific AU.
Chapter 4 - Operation and Administration Using the CLI 4.5.6.4 Managing AUs InternalManagementIPAddress IP Address of the internainterface of the AU. Acquired via DHCP. IP address InternalManagementIPSubnetMask Subnet Mask of the internainterface of the AU. Acquired via DHCP.