1 – DEVICE
Displays information in the LAN permanent device database. Format LIST DEVICE device-name
1.1 – Parameter
device-name Supplies the LAN controller device name. The device name has the form ddcu where dd is the device code, c is the controller designation, and u is the unit number. LAN devices are specified as the name of the template device which is unit 0. For example, the first DE435 Ethernet device is specified as EWA0, the second as EWB0. For example, you can specify a DEMNA controller as EXA, EXA0, or EXA0:. This refers to the LAN template device, for which is maintained most of the device parameters and counters. Also, the device name can refer to a device unit representing an actual user or protocol. For example, the cluster protocol can be started on a device as EWA1. You can specify a device unit to view unit-specific parameter information. If you do not specify a device name, all devices are displayed. If you specify a device name, all matching LAN devices are displayed, for example: E to select all Ethernet devices, F for FDDI, I for Token Ring, EW to select all Ethernet PCI Tulip devices. NOTE If you do not specify a qualifier, the utility displays the matching devices without additional information.
1.2 – Qualifiers
1.2.1 /ALL
Lists all devices in the LAN permanent device database.
1.2.2 /CHARACTERISTICS
/CHARACTERISTICS or /PARAMETERS Lists status and related information about the device.
1.2.3 /DLL
/DLL or /MOPDLL Displays MOP downline load characteristics.
1.2.4 /MAP
Lists the current configuration of the functional address mapping table for a Token Ring device.
1.2.5 /OUTPUT
/OUTPUT=file name Creates the specified file and directs output to it.
1.2.6 /SR_ENTRY
Lists the contents of the current source routing cache table.
1.2.7 /TRACE
Lists driver trace parameters set for the device.
1.3 – Examples
1.LANCP> LIST DEVICE/MOPDLL Device Listing, permanent database: --- MOP Downline Load Service Characteristics --- Device State Access Mode Clients Data Size ------ ----- ----------- ------- --------- EXA0 Enabled Exclusive KnownClientsOnly 1400 bytes FXA0 Disabled NoExclusive NoKnownClientsOnly 246 bytes This command displays MOP downline load information in the LAN permanent device database for all known devices.
2 – NODE
Displays information in the LAN permanent node database, especially MOP downline load information. Format LIST NODE node-name
2.1 – Parameter
node-name Specifies the node name. The name can include up to 63 characters associated with the node address. If no node name is given, all nodes are displayed.
2.2 – Qualifiers
2.2.1 /ALL
Displays data for all nodes in the LAN permanent node database. If you specify a node name, all matching nodes are selected; for example, A/ALL selects all nodes beginning with A.
2.2.2 /OUTPUT
/OUTPUT=file-name Creates the specified file and directs output to that file. If the file extension is .com, the output is in the form of a list of DEFINE NODE or SET NODE commands. The resulting command file can be used to create the LAN node databases.
2.3 – Example
LANCP> LIST NODE Node Listing: GALAXY (08-00-2B-2C-51-28): MOP DLL: Load file: APB.EXE Load root: $64$DIA24:<SYS11.> Boot type: Alpha satellite CALPAL (08-00-2B-08-9F-4C): MOP DLL: Load file: READ_ADDR.SYS Last file: LAN$DLL:APB_X5WN.SYS Boot type: Other 2 loads requested, 1 volunteered 1 succeeded, 0 failed Last request was for a system image, in MOP V4 format Last load initiated 30-OCT-1994 09:11:17 on EXA0 for 00:00:06.65 527665 bytes, 4161 packets, 0 transmit failures Unnamed (00-00-00-00-00-00): Totals: Requests received 2 Requests volunteered 1 Successful loads 1 Failed loads 0 Packets sent 2080 Packets received 2081 Bytes sent 523481 Bytes received 4184 Last load CALPAL at 10-JUN-1998 09:11:17.29 This example shows output from a LIST NODE command issued on a local node on which there are three nodes defined (GALAXY and CALPAL). CALPAL has issued two load requests: o The first request is the multicast request from CALPAL that the local node volunteered to accept. o The second request is the load request sent directly to the local node by CALPAL for the actual load data. The elapsed time from the second load request to completion of the load was 6.65 seconds.