You can use the LANCP utility to: o Set LAN parameters to customize your LAN environment. o Display LAN settings and counters. o Provide MOP downline load support for devices such as terminal servers, x-terminals, and LAN-based printers, and for booting satellites in an OpenVMS Cluster environment. Format LANCP [command]
1 – Parameter
command Specifies a LANCP command. This parameter is optional. If no command is specified, the utility displays its prompt and waits for command input.
2 – Usage Summary
To invoke LANCP, enter the following command at the DCL command prompt: $ RUN SYS$SYSTEM:LANCP The LANCP utility responds by displaying the LANCP> prompt, at which you can enter any LANCP command described in this chapter. To define LANCP as a foreign command, either at the DCL prompt or in a startup or login command file, enter: $ LANCP :== $SYS$SYSTEM:LANCP Then you can enter the LANCP command at the DCL prompt to invoke the utility and enter LANCP commands. When you enter the LANCP command: o Without specifying any command qualifiers, the LANCP utility displays the LANCP prompt, at which you can enter commands. o With command qualifiers, the LANCP utility terminates after it executes the command and returns you to the DCL command prompt. NOTE Some LANCP commands require special privileges. To exit from the LANCP utility, enter the EXIT command at the LANCP prompt or press Ctrl/Z. For information about the LANCP utility, enter the HELP command at the LANCP prompt.
3 – Commands
This section describes and provides examples of the LANCP commands. The following table summarizes the LANCP commands: Command Function @ (Execute Procedure) Executes a command procedure. CLEAR DEVICE Deletes device data from the LAN volatile device database. CLEAR DLL or CLEAR MOPDLL Clears MOP downline load counters for all nodes and devices. CLEAR NODE Deletes a node from the LAN volatile node database. CONNECT NODE Connects to a LAN device, such as a terminal server, that implements a management interface using the MOP console carrier protocol. CONVERT DEVICE_DATABASE Converts the device database to the format required by the current version of LANCP. CONVERT NODE_DATABASE Converts the node database to the format required by the current version of LANCP. DEFINE DEVICE Enters a device into the LAN permanent device database or modifies an existing entry. DEFINE NODE Enters a node into the LAN permanent node database or modifies an existing entry. EXIT Stops execution of LANCP and returns control to the DCL command level. HELP Provides online help information about the LANCP utility. LIST DEVICE Displays information in the LAN permanent device database. LIST NODE Displays information in the LAN permanent node database. PURGE DEVICE Deletes device data from the LAN permanent device database. PURGE NODE Deletes a node from the LAN permanent node database. SET ACP Modifies the operation of the LANACP LAN Server process. SET DEVICE Enters a device into the LAN volatile device database or modifies an existing entry and sets device parameters. SET NODE Enters a node into the LAN volatile node database or modifies an existing entry. SHOW ACP Displays currently set LANCP and LANACP options. SHOW CONFIGURATION Displays a list of LAN devices on the system. SHOW DEVICE Displays information in the LAN volatile device database and displays device data. SHOW DLL or SHOW MOPDLL Displays the current state of MOP downline load services. SHOW LOG Displays recent downline load activity. SHOW NODE Displays information in the LAN volatile node database. SPAWN Creates a subprocess of the current process. TRIGGER NODE Issues a request to reboot to a remote node. UPDATE DEVICE Updates a device, primarily to issue a reset to it.
4 – @
Executes a command procedure or requests the command interpreter to read subsequent command input from a specific file or device. Format @ file-spec
4.1 – Parameter
file-spec Specifies either the input device or the file for the preceding command, or the command procedure to be executed.
4.2 – Qualifiers
None.
4.3 – Example
$ CREATE COUNT.COM SHOW DEVICE/COUNTERS EIA SPAWN WAIT 00:01:00 @COUNT <Ctrl/Z> $ RUN SYS$SYSTEM:LANCP LANCP> @COUNT Device Counters EIA0: Value Counter ----- ------- 62030 Seconds since last zeroed 19910982 Bytes received 239192 Bytes sent 155812 Packets received 4348 Packets sent 19910982 Multicast bytes received 239140 Multicast bytes sent 155812 Multicast packets received 4346 Multicast packets sent 0 Unrecognized unicast destination packets 134311 Unrecognized multicast destination packets 0 Unavailable station buffers 0 Unavailable user buffers 0 Alignment errors 0 Frame check errors 0 Frame size errors 0 Frame status errors 0 Frame length errors 0 Frame too long errors 0 Data overruns 0 Send data length errors 0 Receive data length errors 0 Transmit underrun errors 0 Transmit failures 0 Carrier check failures 0 Station failures 0 Initially deferred packets sent 0 Single collision packets sent 0 Multiple collision packets sent 0 Excessive collisions 0 Late collisions 0 Collision detect check failures 1 Link up transitions (19-OCT-2004 13:47:50.86) 0 Link down transitions None Time of last generic transmit error None Time of last generic receive error This example creates and runs a command procedure, COUNT.COM, that displays device counters once every minute.
5 – CLEAR
5.1 – DEVICE
Deletes device data from the LAN volatile device database. Requires SYSPRV privilege. Format CLEAR DEVICE device-name
5.1.1 – 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 PCI Ethernet device is specified as EWA0, the second as EWB0., and so on. You can, for example, specify a DEMNA controller as EXA, EXA0, or EXA0:.
5.1.2 – Qualifier
5.1.2.1 /ALL
Deletes data for all LAN devices in the LAN volatile device database. If you specify a device name, all matching LAN devices are selected. For example: E to select all Ethernet devices, F for FDDI, I for Token Ring, EW to select all PCI Ethernet PCI devices.
5.1.2.2 /CHARACTERISTICS
/CHARACTERISTICS or /PARAMETERS Deletes device characteristics settings for the LAN device, such as speed, duplex mode, and other device parameters.
5.1.2.3 /DLL
/DLL or /MOPDLL Deletes MOP downline load settings for the LAN device.
5.1.2.4 /TRACE
Deletes driver tracing settings for the LAN device. If no qualifier is present to select the type of data to delete, the entire device entry is deleted.
5.1.3 – Example
LANCP> CLEAR DEVICE EXA0 This command deletes device EXA0 from the LAN volatile device database.
5.2 – DLL
This command clears MOP downline load counters from the LAN volatile device and node databases for all nodes and devices. This command requires SYSPRV privilege. Format CLEAR DLL
5.2.1 – Parameters
None.
5.2.2 – Qualifiers
None.
5.2.3 – Example
LANCP> CLEAR DLL This command clears MOP downline load counters from the LAN volatile device and node databases for all nodes and devices.
5.3 – NODE
Deletes a node from the LAN volatile node database. Requires SYSPRV privilege. Format CLEAR NODE node-name
5.3.1 – Parameter
node-name Supplies the name of a node in the LAN volatile node database.
5.3.2 – Qualifier
5.3.2.1 /ALL
Deletes all LAN nodes in the LAN volatile node database. If you specify a node name, all matching nodes are selected; for example, A/ALL deletes all nodes whose name begins with A.
5.3.3 – Example
LANCP> CLEAR NODE VAXSYS This command deletes the node VAXSYS from the LAN volatile node database.
6 – CONNECT
6.1 – NODE
Opens a MOP console carrier connection to the specified node. This allows a local terminal to act as the console for a remote system. Format CONNECT NODE node-specification
6.1.1 – Parameter
node-specification Supplies either the node name or the node address of the target node. If you supply the node name, the node address is obtained by looking up the node name in the LAN volatile node database. If you supply the node address, the corresponding node need not be defined in the LAN volatile node database. The canonical form of the address consists of 6 hexadecimal byte characters separated by hyphens. Use a colon as the separator character to indicate the bit-reversed form of the address.
6.1.2 – Qualifiers
6.1.2.1 /DEVICE
/DEVICE=device-name Specifies the LAN controller device name to be used for the connection. For example, you can specify a DEMNA controller as EXA, EXA0, or EXA0:.
6.1.2.2 /DISCONNECT
/DISCONNECT=disconnect-character Specifies a character that you can use to terminate the connection to the remote node. To terminate a connection, press Ctrl/disconnect-character. You can select any ASCII character from @ through Z, except C, M, Q, S, Y; the default disconnect character is D.
6.1.2.3 /INPUT
/INPUT=filename Supplies command input from the specified input file. Input is taken up to end-of-file or a disconnect character. If no disconnect character is encountered, the command input continues from the local terminal. If a local terminal does not exist- that is, if the command is executing in batch mode-end-of-file disconnects the console carrier connection.
6.1.2.4 /PASSWORD
/PASSWORD=16hexdigits Supplies the password to be used when the connection is initiated, in hexadecimal (for example, /PASSWORD=0123456789ABCDEF). The default password is zero. You can omit leading zeros.
6.1.2.5 /V3
Indicates that MOP Version 3 formatted messages are to be used to make the connection. By default, LANCP determines the format by sending MOP Request ID messages to the remote node first in MOP Version 4 format, then in Version 3 format, repeating this process until a response is received or timeout occurs. You can specify the format: o To allow connection to nodes that do not support Request ID messages o As a means of getting around implementation problems with one of the formats
6.1.2.6 /V4
Indicates that MOP Version 4 formatted messages are to be used to make the connection. By default, LANCP determines the format by sending MOP Request ID messages to the remote node first in MOP Version 4 format, then in Version 3 format, repeating this process until a response is received or timeout occurs. You can specify the format: o To allow connection to nodes that do not support Request ID messages o As a means of getting around implementation problems with one of the formats
6.1.3 – Examples
1.LANCP> CONNECT NODE GALAXY/DEVICE=EWA0 This command attempts a console-carrier connection to node GALAXY using the Ethernet device EWA0. 2.LANCP> CONNECT NODE 08-00-2B-11-22-33/DEVICE=EWA0/PASSWORD=0123456789AB This command attempts a console-carrier connection to the given node address using the Ethernet device EWA0, with the specified password. 3.LANCP> CONNECT NODE TERM_SERVER/DEVICE=EWA0/INPUT=LOGOUT_PORT_3.COM This command attempts a console-carrier connection to node TERM_SERVER to send the contents of the command file LOGOUT_ PORT_3.COM.
7 – CONVERT
7.1 – DEVICE_DATABASE
Converts the device database to the format required by LANCP. If the database is not updated, LANCP can read the database but does not convert an entry in it unless the entry is changed. The conversion is necessary when the contents of the device entry change from one OpenVMS release to the next. Usually, LANCP and LANACP automatically update entries as required. Requires SYSPRV privilege. Format CONVERT DEVICE_DATABASE device_database
7.1.1 – Parameters
None.
7.1.2 – Qualifiers
None.
7.2 – NODE_DATABASE
Converts the node database to the format required by LANCP. If the database is not updated, LANCP can read the database but does not convert an entry in it unless the entry is changed. The conversion is necessary when the contents of the node entry changes from one OpenVMS release to the next. Usually, LANCP and LANACP automatically update entries as required. Requires SYSPRV privilege. Format CONVERT NODE_DATABASE node_database
7.2.1 – Parameters
None.
7.2.2 – Qualifiers
None.
8 – DEFINE
8.1 – DEVICE
Enters a device into the LAN permanent device database or modifies an existing entry. Requires SYSPRV privilege. QUALIFIERS See the SET DEVICE command for a list of qualifiers and the description of each. Except where noted, the only difference is that DEFINE DEVICE applies to entries in the LAN permanent device database rather than the volatile device database. Format DEFINE DEVICE device-name
8.1.1 – Parameter
device-name Supplies the name of a device to be added to the LAN permanent device database or an entry to be modified. 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 PCI Ethernet device is specified as EWA0, the second as EWB0.
8.1.2 – Examples
1.LANCP> DEFINE DEVICE EXA0/MOPDLL=(ENABLE,EXCLUSIVE) This command defines LAN device EXA0 to enable LANACP MOP downline load service in exclusive mode. The setting of the KNOWNCLIENTSONLY and SIZE characteristics are not changed. If the device entry does not currently exist in the LAN permanent device database, these settings are set to the defaults. 2.LANCP> DEFINE DEVICE/ALL/MOPDLL=NOEXCLUSIVE This command sets all LAN devices defined in the LAN permanent device database to nonexclusive mode for LANACP MOP downline load service. 3.LANCP> DEFINE DEVICE/ALL/UPDATE/VOLATILE_DATABASE This command enters all Ethernet devices into the LAN permanent device database and updates the entry to include the current parameter values.
8.2 – NODE
Enters a node into the LAN permanent node database or modifies an existing entry. Requires SYSPRV privilege. QUALIFIERS See the SET NODE command for a list of qualifiers and the description of each. Except where noted, the only difference is that DEFINE NODE applies to entries in the LAN permanent node database rather than the volatile node database. Format DEFINE NODE node-name
8.2.1 – Parameter
node-name Supplies the name of a node to be added to the LAN permanent node database or an entry to be modified. Typically, the node name is the same as that given in the system parameter SCSNODE, but it does not need to be. The node name is limited to 63 characters in length.
8.2.2 – Examples
1.LANCP> DEFINE NODE GALAXY/ADDRESS=08-00-2B-11-22-33 - /FILE=APB.EXE - /ROOT=$64$DIA14:<SYS10.> - /BOOT_TYPE=ALPHA_SATELLITE This command sets up node GALAXY for booting as an Alpha satellite into an OpenVMS Cluster. The APB.EXE file is actually located on $64$DIA14: <SYS10.SYSCOMMON.SYSEXE>. Note that the <SYSCOMMON.SYSEXE> is supplied by the LANACP LAN Server process and is not included in the root definition. 2.LANCP> DEFINE NODE CALPAL/ADDRESS=08-00-2B-11-22-33 - /FILE=APB_061.EXE This command sets up node CALPAL for booting an InfoServer image. It defines the file that should be loaded when a load request without a file name is received from node CALPAL. Because the file does not include a directory specification, the logical name LAN$DLL defines where to locate the file. You could give directory specification using the file name or by using the /ROOT qualifier. Note that specifying the file name explicitly in the boot command overrides the file name specified in the node database entry.
9 – EXIT
Stops execution of LANCP and returns control to the DCL command level. You can also enter Ctrl/Z at any time to exit. Format EXIT
9.1 – Parameters
None.
9.2 – Qualifiers
None.
9.3 – Example
LANCP> EXIT $ This command stops execution of LANCP and returns control to the DCL command level.
10 – HELP
Provides online help information about the LANCP utility. Format HELP [topic]
10.1 – Parameter
topic Specifies a subject for which you want information-a LANCP command or LANCP command and command keyword. If you enter the HELP command with a command name only, such as HELP SET, LANCP displays a list of all of the command keywords used with the SET command.
10.2 – Qualifiers
None.
11 – LIST
11.1 – DEVICE
Displays information in the LAN permanent device database. Format LIST DEVICE device-name
11.1.1 – 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.
11.1.2 – Qualifiers
11.1.2.1 /ALL
Lists all devices in the LAN permanent device database.
11.1.2.2 /CHARACTERISTICS
/CHARACTERISTICS or /PARAMETERS Lists status and related information about the device.
11.1.2.3 /DLL
/DLL or /MOPDLL Displays MOP downline load characteristics.
11.1.2.4 /MAP
Lists the current configuration of the functional address mapping table for a Token Ring device.
11.1.2.5 /OUTPUT
/OUTPUT=file name Creates the specified file and directs output to it.
11.1.2.6 /SR_ENTRY
Lists the contents of the current source routing cache table.
11.1.2.7 /TRACE
Lists driver trace parameters set for the device.
11.1.3 – 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.
11.2 – NODE
Displays information in the LAN permanent node database, especially MOP downline load information. Format LIST NODE node-name
11.2.1 – 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.
11.2.2 – Qualifiers
11.2.2.1 /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.
11.2.2.2 /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.
11.2.3 – 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.
12 – PURGE
12.1 – DEVICE
Deletes device data from the LAN permanent device database. Requires SYSPRV privilege. Format PURGE DEVICE device-name
12.1.1 – 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:. To select all LAN devices, omit the device name and include the /ALL qualifier.
12.1.2 – Qualifier
12.1.2.1 /ALL
Deletes data for all LAN devices in the LAN permanent device database. If you specify a device name, all matching LAN devices are selected, for example: E to select all Ethernet devices, F for FDDI, I for Token Ring, EW to select all Ethernet PCI Tulip devices.
12.1.2.2 /CHARACTERISTICS
/CHARACTERISTICS or /PARAMETERS Deletes device characteristics settings for the LAN device, such as speed, duplex mode, and other device parameters.
12.1.2.3 /DLL
/DLL or /MOPDLL Deletes MOP downline load settings for the LAN device.
12.1.2.4 /TRACE
Deletes driver tracing settings for the LAN device. If no qualifier is present to select the type of data to delete, the entire device entry is deleted.
12.1.3 – Example
LANCP> PURGE DEVICE/ALL This command deletes all devices from the LAN permanent device database.
12.2 – NODE
Deletes a node from the LAN permanent node database. Requires SYSPRV privilege. Format PURGE NODE node-name
12.2.1 – Parameter
node-name Supplies the name of a node in the LAN permanent node database.
12.2.2 – Qualifier
12.2.2.1 /ALL
Deletes all LAN nodes in the LAN permanent node database. If you specify a node name, all matching nodes are selected; for example, A/ALL deletes all nodes whose name begins with A.
12.2.3 – Example
LANCP> PURGE NODE/ALL This command deletes all nodes from the LAN permanent node database.
13 – SET
13.1 – ACP
Modifies the operation of the LANACP LAN Server process. Requires SYSPRV privilege. Format SET ACP
13.1.1 – Parameters
None.
13.1.2 – Qualifiers
13.1.2.1 /ECHO
/ECHO /NOECHO (default) Enables partial tracing of received and transmitted downline load messages (the first 32 bytes of the data portion of each message). Note that the last one or two MOP messages are displayed in full: the memory load message with cluster parameters, and the parameter load with transfer address message, where present in the load. The data is written to a log file SYS$MANAGER:LAN$node-name.LOG. To obtain the entire contents of each message, use the /FULL qualifier as follows: SET ACP/ECHO/FULL
13.1.2.2 /FULL
/FULL /NOFULL (default) When /ECHO is enabled, displays the entire contents of received and transmitted downline load messages.
13.1.2.3 /OPCOM
/OPCOM (default) /NOOPCOM Enables OPCOM messages from LANACP LAN Server process. Messages are generated by the LANACP LAN Server process when a device status changes, load requests are received, and loads complete. These messages are displayed on the operator's console and included in the log file written by LANACP, SYS$MANAGER:LAN$ACP.LOG.
13.1.2.4 /STOP
Stops the LANACP process. It can be restarted by reexecuting the SYS$STARTUP:LAN$STARTUP command file.
13.1.3 – Example
LANCP> SET ACP/ECHO/FULL This command enables tracing of received and transmitted downline load messages. The /FULL qualifier displays the entire contents of received and transmitted downline load messages.
13.2 – DEVICE
Sets or modifies LAN device parameters. Requires PHY_IO privilege. Format SET DEVICE device-name
13.2.1 – Parameter
device-name Specifies a device to be entered in the LAN volatile device database, or whose parameters are to be modified. The device name has the form ddcu where dd is the device code, c is the controller designation, and u is the unit number. LAN devices are specified as the name of the template device which is unit 0. For example, the first DE435 Ethernet device is specified as EWA0, the second as EWB0.
13.2.2 – Qualifiers (General)
13.2.2.1 /ALL
Sets data for all LAN devices. If you specify a device name, all matching LAN devices are selected, for example: E to select all Ethernet devices, F for FDDI, I for Token Ring, EW to select all Ethernet PCI Tulip devices.
13.2.2.2 /DEVICE_SPECIFIC
/DEVICE_SPECIFIC=(FUNCTION="xxxx",VALUE=(n1,n2,n3...n16)) /NODEVICE_SPECIFIC Allows some device-specific parameters to be adjusted. These are useful for debug purposes or for experiments while doing performance measurements. Like other LANCP commands which affect devices, this command requires SYSPRV privilege. Specify the negated qualifer to clear all device-specific parameter data. These functions are described in a text file on the system, SYS$HELP:LAN_COUNTERS_AND_FUNCTIONS.TXT.
13.2.2.3 /DLL
/DLL or MOPDLL=(enable-option, exclusive-option, size-option, knownclientsonly-option) Provides the MOP downline load service settings for the device. Note that defaults apply to creation of an entry in the device database. If an existing entry is being modified, fields not specified remain unchanged. You can specify the following keywords with this qualifier: o enable-option ENABLE DISABLE (default) Specify ENABLE or DISABLE to indicate that MOP downline load service should be enabled or disabled for the device. o exclusive-option EXCLUSIVE NOEXCLUSIVE (default) Specify EXCLUSIVE to indicate that no other provider of MOP downline load service is allowed on the specified LAN device at the same time as LANACP. Specify NOEXCLUSIVE to indicate that the LAN MOP downline load service can coexist with other implementations (in particular, the DECnet Phase IV and DECnet Plus implementations that include MOP support). Note that when you select NOEXCLUSIVE, LANACP responds only to MOP downline load requests directed to nodes defined in the LAN node database. o size-option SIZE=value Use SIZE=value to specify the size in bytes of the file data portion of each downline load message. The permitted range is 246 to 1482 bytes. The default value is 246 bytes, which should allow any client to load properly. Note that some clients may not support the larger size. The recommended size for better load performance and less server overhead is the largest size that results in successful loads of all clients. The 1482 value is derived from the maximum packet size for CSMA/CD (Ethernet) of 1518 bytes less the 802e header and CRC (26 bytes) and MOP protocol overhead (10 bytes). You can override the size on a per-node basis. See the SET NODE commands for details. o knownclientsonly-option KNOWNCLIENTSONLY NOKNOWNCLIENTSONLY (default) Specify KNOWNCLIENTSONLY to indicate that MOP downline load requests should be serviced only for clients defined in the LAN permanent node database. When you select NOKNOWNCLIENTSONLY, LANACP searches the LAN$DLL directory for any images requested by clients that are not defined in the LAN node database. Note that this option is not available when NOEXCLUSIVE mode has been selected. When NOEXCLUSIVE mode is selected, LANACP services MOP downline load requests only for clients defined in the LAN node database.
13.2.2.4 /MAX_BUFFERS
/MAX_BUFFERS=value Sets the maximum number of receive buffers to be allocated and used by the LAN driver for the LAN device.
13.2.2.5 /MIN_BUFFERS
/MIN_BUFFERS=value Sets the minimum number of receive buffers to be allocated and used by the LAN driver for the LAN device.
13.2.2.6 /PERMANENT
/PERMANENT (SET DEVICE only) Updates the device entries in the LAN volatile device database with any data currently set in the permanent database. This allows you to update the volatile database after changing data in the permanent database, rather than repeating the commands for each updated entry to apply the changes to the volatile database.
13.2.2.7 /TAG
/TAG=value Specifies the IEEE 802.1Q tag for the VLAN device. value is the IEEE 802.IQ tag number.
13.2.2.8 /TRACE
/TRACE=size-option, mask-option, stop-option /NOTRACE Provides the LAN driver trace settings for the device. By default, most LAN drivers do tracing of error conditions and state changes. Tracing is controlled by an event mask that selects the events to trace, a stop mask that specifies when to stop tracing, and the size of the trace buffer. You can change tracing settings at any time. The LAN driver allocates the trace buffer from non-paged pool. You can calculate the amount of pool needed by multiplying the number of entries by the size of each entry, 32-bytes. The impact of tracing on the system is negligible for error and state change events, more significant when all events are selected, and very significant when full packet tracing is enabled. The command SHOW DEVICE/TRACE displays trace results as well as the trace mask. You can specify the following keywords with this qualifier: o size-option SIZE=value Use SIZE=value to specify the size of the trace buffer in entries, each 32 bytes. The default is 2048 entries. The permitted range is 256 to 1000000. The size MOD 3 encodes the amount of packet data to include, either 35 bytes, 66 bytes, 97 bytes, or the entire packet. o mask-option MASK=(value1,value2) Use MASK=(value1,value2) to specify the trace mask to select which type of entries should be collected in the trace buffer. The first 32 bits consist of events common to most LAN drivers. The second 32 bits consist of events specific to the LAN driver for the specified device. o stop-option STOP=(value1,value2) Use STOP=(value1,value2) to specify the trace mask to select which type of entries should stop tracing. When a trace entry is made that matches one of the bits in the stop mask, the trace mask is cleared so that you can look at the trace data accumulated so far.
13.2.2.9 /UPDATE
/UPDATE (DEFINE DEVICE only) Adds LAN devices that are not currently in the LAN permanent device database to that database. The initial entry for the device uses default values for all parameters. To update the permanent database with current information from the volatile database, use the DEFINE DEVICE command with the /VOLATILE qualifier. You can combine the /UPDATE and /VOLATILE qualifiers in a single DEFINE DEVICE command.
13.2.2.10 /UPDATE
/UPDATE (SET DEVICE only) Adds LAN devices that are not currently in the LAN volatile device database to that database. The initial entry for the device uses default values for all parameters. To update the volatile database with current information from the permanent database, use the SET DEVICE command with the /PERMANENT qualifier. You can combine the /UPDATE and /PERMANENT qualifiers in a single SET DEVICE command.
13.2.2.11 /VLAN_DEVICE
/VLAN_DEVICE=device-name /NOVLAN_DEVICE Specifies the physical LAN device that is to host the VLAN device. The /NOVLAN_DEVICE qualifier requests deactivation of the VLAN device. When deactivating the VLAN device, the device-name is not required because the VLAN driver knows which device is hosting the VLAN device. Note that a VLAN device cannot be deactivated if any applications continue to use the device.
13.2.2.12 /VOLATILE
/VOLATILE (DEFINE DEVICE only) Updates the device entries in the LAN permanent device database with any data currently set in the volatile database. This allows you to update the permanent database after changing data in the volatile database, rather than repeating the commands for each updated entry to apply the changes to the permanent database.
13.2.3 – Qualifiers (Ethernet Devices)
13.2.3.1 /AUTONEGOTIATE
/AUTONEGOTIATE (default) /NOAUTONEGOTIATE Enables or disables the use of auto-negotiation to determine the link settings. You may need to disable link auto-negotiation when connected to a switch or device that does support auto negotiation.
13.2.3.2 /FLOW_CONTROL
/FLOW_CONTROL (default) /NOFLOW_CONTROL Enables flow control on a LAN device.
13.2.3.3 /FULL_DUPLEX
/FULL_DUPLEX /NOFULL_DUPLEX (default) Enables full-duplex operation of a LAN device. Before full-duplex operation results from the use of this qualifier, additional device or network hardware setup may be required. Some devices may be enabled for full-duplex operation by default. Some devices may not allow the setting to be changed. The /NOFULL_DUPLEX qualifier disables full-duplex operation.
13.2.3.4 /JUMBO
/JUMBO /NOJUMBO (default) Enables the use of jumbo frames on a LAN device. Only Gigabit Ethernet NICs support jumbo frames.
13.2.3.5 /MEDIA
/MEDIA=value Selects the cable connection. Normally, the selection is made during device initialization using a limited autosensing algorithm that selects twisted pair, but fails over to AUI (Attachment Unit Interface) if twisted pair does not appear to be functional. Thereafter, a cabling change would require a reboot of the system to take effect. This command allows you to change the selection without rebooting. Acceptable values are AUI (10Base2, 10Base5), TWISTEDPAIR (10BaseT), and AUTOSENSE (reperform the limited autosense algorithm). The default value is AUTOSENSE. Some devices, such as the DE435, require a jumper change on the Ethernet card to switch between 10Base2 and 10Base5 (thinwire and thickwire). Other devices, such as the DE434, DE436, and DE500, have only twisted pair connections.
13.2.3.6 /SPEED
/SPEED=value Sets the speed of the LAN. Valid values are 10, 100, 1000, 10000, or autonegotiate; the last choice, autonegotiate, selects the 10 Mb/s for Ethernet, 100 Mb/s for Fast Ethernet, 1000 Mb/s for Gigabit Ethernet, and 10000 Mb/s for 10-Gigabit Ethernet. If you select autonegotiate, the LAN driver repeats autonegotiation.
13.2.4 – Qualifiers (LAN Failover Devices)
13.2.4.1 /DISABLE
Disables the devices in a LAN Failover set. When disabled, LAN devices can be added to or deleted from the Failover set.
13.2.4.2 /ENABLE
Enables a Failover set, which activates the Logical LAN device. The LAN Failover driver selects a LAN device from the LAN Failover set as the active device and then allows I/O to the Logical LAN device.
13.2.4.3 /FAILOVER_SET
/FAILOVER_SET=(device-name[,...]) /[NO]FAILOVER_SET=(device-name[,...]) Specifies the members of a LAN Failover set.
13.2.4.4 /PRIORITY
/PRIORITY=value Sets the failover priority of a LAN device. Priority is given to the LAN failover device with the highest priority when choosing the active LAN device. When a LAN device with a higher priority becomes available, a failover transition to the newly available device is performed. This allows a system manager to set a preferred device by setting one LAN device to a higher priority than others. The LAN failover driver uses the preferred device when it is available.
13.2.4.5 /SIZE
/SIZE=value Sets the packet size of the LAN failover device. Valid values are STANDARD (the default) or JUMBO: o STANDARD is the Ethernet maximum packet size of 1518 bytes. o JUMBO is the oversize packet size available with Gigabit Ethernet devices. JUMBO is allowed only if all the LAN devices in the LAN failover set are Gigabit devices. Note that the size specified for the LAN failover device overrides the size set on the members of the LAN failover set; that is, the JUMBO frame setting of a LAN device is of no consequence when the size is determined for the LAN failover device.
13.2.4.6 /SWITCH
/SWITCH (SET DEVICE only) Forces a LAN failover to another member of the LAN failover set. You can test LAN failover operation by using this command to switch from one device to another.
13.2.5 – Qualifiers (FDDI Devices)
13.2.5.1 /RING_PURGER
Enables the ring purger process of the FDDI device.
13.2.5.2 /TOKEN_ROTATION
Sets the requested token rotation time for the FDDI ring.
13.2.5.3 /TOKEN_TIMEOUT
Sets the restricted token timeout time for the FDDI ring.
13.2.5.4 /TRANSMIT_TIMEOUT
Sets the valid transmission time for the FDDI device.
13.2.6 – Qualifiers (Token Ring Devices)
13.2.6.1 /AGING_TIMER
/AGING_TIMER=value Sets the amount of time in seconds to age Token Ring source routing cache entries before marking them stale. This timer expires when no traffic is sent to or received from the remote node in this amount of time. The default value is 60 seconds. Increase this value when idle connections bounce between the stale and known states. Setting this value too low may cause unnecessary explorer traffic to traverse the LAN.
13.2.6.2 /CACHE_ENTRIES
/CACHE_ENTRIES=value Sets the number of entries to reserve for caching Token Ring source routing address entries. The default value is 200 entries. If your system directly communicates to a large number of systems, you may want to increase this number.
13.2.6.3 /CONTENDER
/CONTENDER /NOCONTENDER (default) Specifies that the Token Ring device is to participate in the Monitor Contention process when it joins the ring. The /NOCONTENDER qualifier, directs the device not to challenge the current ring server.
13.2.6.4 /DISCOVERY_TIMER
/DISCOVERY_TIMER=value Sets the number of seconds to wait for a reply from a remote node when performing the source Token Ring routing route discovery process. The default value is 2 seconds. If you have nodes that respond slowly on your extended LAN, you may need to increase this number to reduce the amount of explorer traffic that traverses your LAN.
13.2.6.5 /EARLY
/EARLY (default) /NOEARLY Enables Early Token Release on the device. The /NOEARLY qualifier, disables Early Token Release.
13.2.6.6 /MAP
/MAP=(MULTICAST_ADDRESS=address, FUNCTIONAL_ADDRESS=address) /NOMAP=(MULTICAST_ADDRESS=address) Maps a standard multicast address to a functional address. Token ring devices do not support IEEE 802 standard globally defined group addresses. They do support functional addresses. A functional address is a locally administered group address that has 31 possible values. Each functional address sets one bit in the third through sixth byte of the address and bytes 1 and 2 are 03-00 (C0:00 in bit reversed format). The /NOMAP=(MULTICAST_ADDRESS=address) qualifier, clears the mapping established for the specified address. Specify the functional address as follows: o The MULTICAST_ADDRESS argument requires a standard 6-byte multicast address. o The FUNCTIONAL_ADDRESS argument requires only the last 4 bytes of the functional address (the preceding 03-00 bytes are automatically prefixed). o The address variable, given as hexadecimal byte characters separated by hyphens, specifies the canonical form of the address. Use a colon as the separator character to indicate the bit-reversed form of the address. For example, to map the multicast address CB-00-01-02-03-04 to the functional address 03-00-00-80-00-00 on the Token Ring device IRA0, enter the following command: SET DEVICE IRA0/MAP=(MULTI=CB-00-01-02-03-04,FUNCT=00:01:00:00) For the default address mapping, see the following table or issue the command SHOW DEVICE/MAP device-name. Functional Multicast Address Address Description 09-00-2B-00-00-04 03-00-00-00-02-00 ISO ALL ES 09-00-2B-00-00-05 03-00-00-00-01-00 ISO ALL IS CF-00-00-00-00-00 03-00-00-08-00-00 Loopback Assistant AB-00-00-01-00-00 03-00-02-00-00-00 DNA MOP Dump/Load AB-00-00-02-00-00 03-00-04-00-00-00 DNA MOP Remote Console AB-00-00-03-00-00 03-00-08-00-00-00 DNA L1 Routers 09-00-2B-02-00-00 03-00-08-00-00-00 DNA L2 Routers 09-00-2B-02-01-0A 03-00-08-00-00-00 DNA Phase IV Primary Router AB-00-00-04-00-00 03-00-10-00-00-00 DNA Endnodes 09-00-2B-02-01-0B 03-00-10-00-00-00 DNA Phase IV Prime Unknown Destination 09-00-2B-00-00-07 03-00-20-00-00-00 PCSA NETBIOS Emulation 09-00-2B-00-00-0F 03-00-40-00-00-00 LAT Service Advertisement 09-00-2B-02-01-04 03-00-80-00-00-00 LAT Service Solicit 09-00-2B-02-01-07 03-00-00-02-00-00 LAT Xwindown Service Solicit 09-00-2B-04-00-00 03-00-00-04-00-00 LAST 09-00-2B-02-01-00 03-00-00-00-08-00 DNA Name Service Advertisement 09-00-2B-02-01-01 03-00-00-00-10-00 DNA Name Service Solicit 09-00-2B-02-01-02 03-00-00-00-20-00 DNA Time Service 03-00-00-00-00-01 03-00-00-00-00-01 NETBUI Emulation 03-00-02-00-00-00 03-00-02-00-00-00 RIPL
13.2.6.7 /MEDIA
/MEDIA=value Selects the type of cable media used to connect the adapter to the Token Ring Media Access Unit (MAU) for devices that do not automatically detect this. Acceptable values for this are either unshielded twisted pair (UTP) or shielded twisted pair (STP). The default value is STP.
13.2.6.8 /SOURCE_ROUTING
/SOURCE_ROUTING (default) /NOSOURCE_ROUTING Enables source routing on the Token Ring device. If you only have one ring in your LAN or you use transparent bridging, use the /NOSOURCE_ROUTING qualifier to turn off source routing.
13.2.6.9 /SPEED
/SPEED=value Sets the speed of the Token Ring LAN. Valid values are either 4 or 16, indicating 4 megabits per second or 16 megabits per second. The default value for Token Ring is 16, unless the LAN adapter supports a nonvolatile mechanism for setting this parameter.
13.2.6.10 /SR_ENTRY
/SR_ENTRY=(LAN_ADDRESS=address, RI=routing-information) /NOSR_ENTRY=(LAN_ADDRESS=address) Statically defines a specific source-routed route for a specific node. The default value is no routes specified. This caching remains valid while used or until the aging timer expires. Use this qualifier only as a last resort when isolating communication failures on extended LAN topologies. The /NOSR_ENTRY=(LAN_ADDRESS=address) qualifier, clears the previously defined static source routed route. The address is a standard 6-byte LAN address (given as hexadecimal byte characters separated by hyphens), which specifies the canonical form of the address. Using a colon as the separator character indicates the bit-reversed form of the address. The routing-information is the source routing field, specified as a series of two-byte hexadecimal characters (each byte separated by a hyphen). The field consists of a two-byte routing control field followed by up to 14 two-byte segment identifiers, each containing the ring number and the bridge number used in the hop.
13.2.7 – Qualifiers (ATM Devices)
13.2.7.1 /ATMADDRESS
/ATMADDRESS=LES sets the LAN emulation server (LES) address for asynchronous transfer mode (ATM). Usually the address is not user specified, and this qualifier is used only if you want a specific address. By default the address is determined by software from the configuration server for the LES. The /ATMADDRESS=LES qualifier's syntax is as follows: SET DEVICE/ATMADDRESS = ([NO]LES=the ATM server) /ATMADDRESS=ARP sets the address resolution protocol (ARP) server address for Classical IP over ATM. This qualifier is required before a LIS is enabled if the local host is not the ARP server. The /ATMADDRESS=ARP qualifier's syntax is as follows: SET DEVICE/ATMADDRESS = (ARP=atm_arp_server)
13.2.7.2 /CLIP
Sets the Classical Internet Protocol (CLIP) over ATM (RFC1577). The CLIP qualifier implements a data-link level device as a client and/or a server in a logical IP subnet (LIS). This allows the IP protocol to transmit Ethernet frames over the ATM network. The /CLIP = ENABLE command causes the system to join the LIS. The /CLIP = DISABLE command causes the client to leave the logical IP subnet. Note that a LIS requires a server, and there must be only one server for each subnet. Communication between subnets can only be performed by a router. There can only be one client for each ATM adapter. The /CLIP qualifier's syntax with standard Internet dotted notation is as follows: SET DEVICE/CLIP =(ip_subnet=a.b.c.d, ip_address=a.b.c.d, parent=devnam, name="ip subnet name", enable, disable type = client|server) The meanings for the syntax for /CLIP are as follows: Option Meaning ip_address Specifies the IP address of the CLIP client. ip_subnet Specifies the subnet mask of the CLIP client. parent=devnam Specifies the parent device name. name Specifies a name for the LIS to aid in operations and diagnostics. type=client Starts up a classical IP client only. This is the default. type=server Starts up a classical IP server. Only one server for each LIS is allowed, and the server needs to be started first. type=(server,client) Starts up a classical IP server and client. Keywords and their meaning for /CLIP are as follows: Keyword Meaning Enable Joins the logical IP subnet. Disable Causes a client to leave the logical IP subnet.
13.2.7.3 /ELAN
The /ELAN qualifier has two values: enable and disable. With /ELAN=ENABLE along with the keyword STARTUP, the LAN emulation is loaded when LANACP starts. With /ELAN=DISABLE, the same parameters used with ENABLE can be invoked. The /ELAN qualifier's syntax is as follows: DEFINE DEVICE/ELAN =(parent=parent device, name="ELAN NAME to join", size=1516 type=CSMACD Enable, Disable, description = "description string,") The meaning of the syntax for /ELAN is as follows: Option Meaning parent The ATM adapter device name. An example of the parent device for DAPCA is: HWn0, where n is the controller number. An example of the parent device for DGLTA is: HCn0, where n is the controller number. name Optionally specified if you want to join a specific ELAN. The default is null. size Maximum frame size of the LAN you want to join. Valid sizes are 1516, 4544, or 9234 bytes. The default is 1516. type Support currently only for CSMACD, which is the default. description A method of describing the ELAN for display purposes only. Keywords and their meanings for /ELAN are as follows: Keyword Meaning Enable Begins a join on a specified emulated LAN. It also loads the driver, if not already loaded. Disable Causes a client to leave the emulated LAN.
13.2.7.4 /PVC
/PVC=(vci[,...]) /[NO]PVC=(vci[,...]) Sets the permanent virtual circuit (PVC) to be used by a Classical IP over ATM client. This is an optional qualifier. A list of PVCs is defined for use by CLIP clients. This command should be used before enabling the CLIP client. The PVC has to be set up manually in the ATM switch. The vci is the VCI (Virtual Circuit ID) of the PVC to be used. Examples 1. LANCP> SET DEVICE/CONTENDER/MEDIA=UTP/NOEARLY/SOURCE ICA0 Enables monitor contention, UTP cable media, source routing and disables early token release for Token Ring device ICA0. 2. LANCP> SET DEVICE/MEDIA=TWI EWB0 Sets the media type to twisted pair for the second Tulip Ethernet device, EWB0. 3. LANCP> SET DEVICE EXA0/MOPDLL=ENABLE Enables MOP downline load service for device EXA0, leaving the remaining MOPDLL parameters unchanged. 4. LANCP> SET DEVICE EXA0/MOPDLL=(ENABLE,EXCLUSIVE,SIZE=1482) Enables MOP downline load service for device EXA0, in exclusive mode with the data transfer size of 1482 bytes, leaving the remaining MOPDLL parameters unchanged. 5. LANCP> SET DEVICE EXA0/MOPDLL=(ENABLE,NOEXCLUSIVE) LANCP> SET DEVICE FXA0/MOPDLL=(ENABLE,EXCL,KNOWN) These commands enable LANACP MOP downline load service for: o LAN device EXA0 in nonexclusive mode o LAN device FXB0 in exclusive mode for only known clients
13.3 – NODE
Enters a node into the LAN volatile node database or modifies an existing entry. Requires SYSPRV privilege. Format SET NODE node-name
13.3.1 – Parameter
node-name Supplies the name of a node to be added to the LAN volatile node database or an entry to be modified. Typically, the node name is the same as that given in the system parameter SCSNODE, but it does not need to be. The node name is limited to 63 characters in length.
13.3.2 – Qualifiers
13.3.2.1 /ADDRESS
/ADDRESS=node-address /NOADDRESS (default) Associates a LAN address with the node name. Specify the address as 6 bytes in hexadecimal notation, separated by hyphens. The address does not have to be unique (as might be the case when the address is not known, so a nonexistent address is specified). If multiple node addresses are to be associated with a node name, each combination may be given as a node name with an extension, for example, VAXSYS.EXA for the EXA device on node VAXSYS, or VAXSYS_1 for the first LAN device on node VAXSYS. If you do not specify the /ADDRESS qualifier, the setting remains unchanged. The /NOADDRESS qualifier clears the field.
13.3.2.2 /ALL
Defines data for all nodes in the LAN volatile node database. If you specify a node name, all matching nodes are selected; for example, A/ALL selects all nodes beginning with A.
13.3.2.3 /BOOT_TYPE
/BOOT_TYPE=boot-option /NOBOOT_TYPE Indicates the type of processing required for downline load requests. You can specify one of the following keywords with this qualifier: o VAX_SATELLITE-a VAX satellite cluster boot o ALPHA_SATELLITE-an Alpha satellite cluster boot o I64_SATELLITE-an OpenVMS Cluster Integrity servers satellite boot o OTHER-the specified image; noncluster satellite loads that do not require additional data The distinction is necessary, because OpenVMS Cluster satellite loads require additional cluster-related data be appended to the load image given by the /FILE qualifier. The default value is OTHER. If you do not specify the /BOOT_TYPE qualifier, the setting remains unchanged. The /NOBOOT_TYPE qualifier clears the field. Note that Integrity server satellites boot using TFTP rather than MOP services. This boot type is included so that the information in the node database can be maintained, not because it is needed for booting purposes.
13.3.2.4 /DECNET_ADDRESS
/DECNET_ADDRESS=value /NODECNET_ADDRESS Associates a DECnet address with the node name. Specify the address in DECnet notation, xx.xxxx. If you do not specify the /DECNET_ADDRESS=value qualifier, then the setting remains unchanged. The /NODECNET_ADDRESS qualifier clears the field.
13.3.2.5 /FILE
/FILE=file-spec /NOFILE Supplies the file name of a boot file to be used when the downline load request does not include a file name (for example, OpenVMS Cluster satellite booting). The file specification is limited to 127 characters. If no file name is specified, OpenVMS Cluster satellite loads default to APB.EXE where the boot type is set to ALPHA and NISCS_ LOAD.EXE where the boot type is set to VAX. If you do not specify the /FILE qualifier, the setting remains unchanged. The /NOFILE qualifier clears the field.
13.3.2.6 /IP_ADDRESS
/IP_ADDRESS=value /NOIP_ADDRESS Associates an IP address with the node name. Specify the address in the standard dotted notation, xxx.xxx.xxx.xxx. If you do not specify the /IP_ADDRESS=value qualifier, the setting remains unchanged. The /NOIP_ADDRESS qualifier clears the filed.
13.3.2.7 /PERMANENT_DATABASE
/PERMANENT_DATABASE (SET NODE only) Updates the node entries in the LAN volatile node database with any data currently set in the permanent database. This allows you to update the volatile database after changing data in the permanent database, rather than repeating the commands for each updated entry to apply the changes to the volatile database.
13.3.2.8 /ROOT
/ROOT=directory-specification /NOROOT Supplies the directory specification to be associated with the file name. For cluster satellite service, the /ROOT qualifier specifies the satellite root directory. For noncluster service, this qualifier specifies the location of the file. If the file specification or the file name given in the boot request includes the directory name, this qualifier is ignored. The directory specification is limited to 127 characters. If you do not specify the /ROOT qualifier, the setting remains unchanged. The /NOROOT qualifier clears the field.
13.3.2.9 /SIZE
/SIZE=value /NOSIZE Specifies the size in bytes of the file data portion of each downline load message. The default is the load data size specified for the device. The permitted range is 246 to 1482 bytes. Use a larger size for better load performance and less server overhead. If you do not specify the /SIZE qualifier, the setting remains unchanged. The /NOSIZE qualifier clears the setting.
13.3.2.10 /V3
/V3 /NOV3 Indicates that only MOP Version 3 formatted messages are to be used for downline load purposes, regardless of the requested format. This allows systems to load that have a problem with MOP Version 4 booting. This qualifier causes the requesting node to fail over from MOP Version 4 to MOP Version 3 when no response has been made to a MOP Version 4 load request. If you do not specify the /V3 qualifier, the setting remains unchanged. The /NOV3 qualifier clears the setting.
13.3.2.11 /VOLATILE_DATABASE
/VOLATILE_DATABASE (DEFINE NODE only) Updates the node entries in the LAN permanent node database with any data currently set in the volatile database. This allows you to update the permanent database after changing data in the volatile database, rather than repeating the commands for each updated entry to apply the changes to the permanent database.
13.3.3 – Examples
1.LANCP> SET NODE VAXSYS/ADDRESS=08-00-2B-11-22-33 - /FILE=APB.EXE - /ROOT=$64$DIA14:<SYS10.> - /BOOT_TYPE=ALPHA_SATELLITE This command sets up node VAXSYS for booting as an Alpha satellite into the cluster. The APB.EXE file is actually located on $64$DIA14: <SYS10.SYSCOMMON.SYSEXE>. Note that the <SYSCOMMON.SYSEXE> is supplied by the LANACP LAN Server process and is not included in the root definition. 2.LANCP> SET NODE VAXSYS/ADDRESS=08-00-2B-11-22-33 - /FILE=NISCS_LOAD.EXE - /ROOT=$64$DIA14:<SYS10.> - /BOOT_TYPE=VAX_SATELLITE This command sets up node VAXSYS for booting as a VAX satellite into the OpenVMS Cluster. The NISCS_LOAD.EXE file is actually located on $64$DIA14: <SYS10.SYSCOMMON.SYSLIB>. The <SYSCOMMON.SYSLIB> is supplied by the LANACP LAN Server process and is not included in the root definition. 3.LANCP> SET NODE VAXSYS/ADDRESS=08-00-2B-11-22-33/NOROOT This command changes the LAN address associated with node VAXSYS and clears the current root specification. 4.SET NODE CALPAL/ADDRESS=08-00-2B-11-22-33/FILE=APB_061.EXE This command sets up node CALPAL for booting an InfoServer image. It defines the file that should be loaded when a load request without file name is received from node CALPAL. Because the file does not include a directory specification, the logical name LAN$DLL defines where to locate the file. You could give directory specification using the file name or by using the /ROOT qualifier. Note that specifying the file name explicitly in the boot command overrides the file name specified in the node database entry.
14 – SHOW
14.1 – ACP
Displays the current settings for LANCP and LANACP. Format SHOW ACP
14.1.1 – Parameters
None.
14.1.2 – Qualifiers
14.1.2.1 /OUTPUT
/OUTPUT=file-name Creates the specified file and directs output to it.
14.1.3 – Example
LANCP> SHOW ACP LANCP/LANACP options: Verify is OFF OPCOM messages are ENABLED DLL packet tracing is DISABLED This example shows how LANCP and LANACP are currently configured.
14.2 – CONFIGURATION
Displays a list of LAN devices and characteristics on the system. Format SHOW CONFIGURATION
14.2.1 – Parameters
None.
14.2.2 – Qualifiers
14.2.2.1 /OUTPUT
/OUTPUT=file-name Creates the specified file and directs output to it.
14.2.2.2 /USERS
Shows which protocols are using which template device.
14.3 – DEVICE
Displays information in the volatile device database. If the LANACP process is not running, displays a list of current LAN devices. Format SHOW DEVICE device-name
14.3.1 – 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 specific device units 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.
14.3.2 – Qualifiers
14.3.2.1 /ALL
Shows all devices that match device name.
14.3.2.2 /CHARACTERISTICS
/CHARACTERISTICS or PARAMETERS Displays status and related information about the device.
14.3.2.3 /COUNTERS
Displays device counters.
14.3.2.4 /DLL
/DLL or MOPDLL Displays LAN volatile device database information related to MOP downline load for the device.
14.3.2.5 /INTERNAL_COUNTERS
Displays internal counters. By default, it does not display zero counters. To see all counters, including zero, use the additional qualifier /ZERO. To see the debug counters, use the additional qualifier /DEBUG.
14.3.2.6 /MAP
Displays the current configuration of the functional address mapping table.
14.3.2.7 /MESSAGES
Displays the console messages displayed by the LAN driver as part of the LAN driver internal counters. This qualifier is included for convenience, to avoid scanning the internal counters to get to the message data.
14.3.2.8 /OUTPUT
/OUTPUT=file-name Creates the specified file and directs output to it.
14.3.2.9 /REVISION
Displays the current LAN driver and device revision information, if available or applicable. Not all LAN drivers maintain revision information.
14.3.2.10 /SR_ENTRY
Displays the contents of the current Token Ring source routing cache table.
14.3.2.11 /TRACE
Displays LAN driver trace data.
14.3.2.12 /VLAN
Displays a list of IEEE 802.1Q tags that are configured on the switch port connected to the specified physical LAN device. LANCP listens for the GVRP (GARP (Generic Attribute Registration Protocol) VLAN Registration Protocol) packets that contain the configuration information and displays the configured tags. The switch periodically sends GVRP packets to provide VLAN configuration information in compliance with the IEEE 802.1Q specification. If GVRP is not configured on the switch, or if the LAN device is not connected to a switch, this command displays only the list of tags that the VLAN driver has configured.
14.3.3 – Examples
1.LANCP> SHOW DEVICE/COUNTERS EXA0 Device Counters EXA0: Value Counter ----- ------- 259225 Seconds since last zeroed 5890496 Data blocks received 4801439 Multicast blocks received 131074 Receive failure 764348985 Bytes received 543019961 Multicast bytes received 3 Data overrun 1533610 Data blocks sent 115568 Multicast packets transmitted 122578 Blocks sent, multiple collisions 86000 Blocks sent, single collision 189039 Blocks sent, initially deferred 198120720 Bytes sent 13232578 Multicast bytes transmitted 7274529 Send failure 0 Collision detect check failure 0 Unrecognized frame destination 0 System buffer unavailable 0 User buffer unavailable This command displays counters for Ethernet device EXA0. 2.LANCP> SHOW DEVICE/MAP ICA0 Multicast to Functional Address Mapping ICA0: Multicast address Functional Address Bit-Reversed ----------------- ------------------ ------------ 09-00-2B-00-00-04 03-00-00-00-02-00 C0:00:00:00:40:00 09-00-2B-00-00-05 03-00-00-00-01-00 C0:00:00:00:80:00 CF-00-00-00-00-00 03-00-00-08-00-00 C0:00:00:10:00:00 AB-00-00-01-00-00 03-00-02-00-00-00 C0:00:40:00:00:00 AB-00-00-02-00-00 03-00-04-00-00-00 C0:00:20:00:00:00 AB-00-00-03-00-00 03-00-08-00-00-00 C0:00:10:00:00:00 09-00-2B-02-00-00 03-00-08-00-00-00 C0:00:10:00:00:00 09-00-2B-02-01-0A 03-00-08-00-00-00 C0:00:10:00:00:00 AB-00-00-04-00-00 03-00-10-00-00-00 C0:00:08:00:00:00 09-00-2B-02-01-0B 03-00-10-00-00-00 C0:00:08:00:00:00 09-00-2B-00-00-07 03-00-20-00-00-00 C0:00:04:00:00:00 09-00-2B-00-00-0F 03-00-40-00-00-00 C0:00:02:00:00:00 09-00-2B-02-01-04 03-00-80-00-00-00 C0:00:01:00:00:00 09-00-2B-02-01-07 03-00-00-02-00-00 C0:00:00:40:00:00 09-00-2B-04-00-00 03-00-00-04-00-00 C0:00:00:20:00:00 09-00-2B-02-01-00 03-00-00-00-08-00 C0:00:00:00:10:00 09-00-2B-02-01-01 03-00-00-00-10-00 C0:00:00:00:08:00 09-00-2B-02-01-02 03-00-00-00-20-00 C0:00:00:00:04:00 03-00-00-00-00-01 03-00-00-00-00-01 C0:00:00:00:00:80 03-00-02-00-00-00 03-00-02-00-00-00 C0:00:40:00:00:00 This command displays mapping information for Token Ring device ICA0. 3.LANCP> SHOW DEVICE/MOPDLL Device Listing, volatile 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 volatile device database for all known devices. 4.LANCP> SHOW DEVICE/MOPDLL EXA0 Device Listing, volatile database: --- MOP Downline Load Service Characteristics --- Device State Access Mode Clients Data Size ------ ----- ----------- ------- --------- EXA0 Enabled Exclusive KnownClientsOnly 1400 bytes This command displays MOP downline load information in the LAN volatile device database for device EXA0. 5.LANCP> SHOW DEVICE/PARAMETERS IRA0 Device Parameters IRA0: Value Parameter ----- --------- Normal Controller mode External Internal loopback mode 00-00-93-58-5D-32 Hardware LAN address Token Ring Communication medium Enabled Functional address mode No Full duplex enable No Full duplex operational 16 Line speed (megabits/second) 16 Mbps Ring speed STP Line media Enabled Early token release Disabled Monitor contender 200 SR cache entries 2 SR discovery timer 60 SR Aging Timer Enabled Source routing 3 Authorized access priority AA-00-04-00-92-FF Upstream neighbor 0 Ring number This command displays status and parameters information for Token ring device IRA0. 6.LANCP> SHOW DEVICE/REVISION EWF0 Device Revisions EWF0: Value Component ----- --------- 02000041 Device hardware revision 08020110 00000004 Port driver revision 08020172 00000001 LAN common routines revision This command displays revision information for Ethernet device EWF0:. 7.LANCP> SHOW DEVICE/SR_ENTRY ICA0 Source Routing Cache Table ICA0: LAN address State XmtTmo RcvTmo StaleTmo DiscvTmo ----------------- ----- -------- -------- -------- -------- AA-00-04-00-92-FF LOCAL 00000028 00000028 00000245 00000000 This command displays source routing entry information for Token Ring device ICA0.
14.4 – DLL
14.4.1 – or
14.4.1.1 – MOPDLL
Displays the current state of MOP downline load services for the system, including devices for which MOP loading is enabled and counters information. Format SHOW DLL or MOPDLL
14.4.1.1.1 – Parameters
None.
14.4.1.1.2 – Qualifier
14.4.1.1.2.1 /OUTPUT
/OUTPUT=file-name Creates the specified file and directs output to it.
14.4.1.1.3 – Example
LANCP>SHOW DLL LAN DLL Status: EXA enabled in exclusive mode for known nodes only, data size 1482 bytes FXA disabled #Loads Packets Bytes Last load time Last loaded ------ ------- ----- -------------------- ------------ EXA 5 1675 4400620 22-SEP-2002 10:27.51 GALAXY FXA 0 0 0 On this node, there are two LAN devices, EXA (DEMNA) and FXA (DEMFA). MOP downline load service is enabled on EXA in exclusive mode. Requests are answered only for nodes that are defined in the LANACP node database. The image data size in the load messages is 1482 bytes. There have been five downline loads, the last one occurring on node GALAXY at 10:27. Finally, there are no recorded downline loads for FXA, which is currently disabled for downline load service.
14.5 – LOG
Displays recent downline load activity (the last 2048 bytes of log data written to the log file SYS$MANAGER:LAN$ACP.LOG). Format SHOW LOG
14.5.1 – Parameters
None.
14.5.2 – Qualifier
14.5.2.1 /OUTPUT
/OUTPUT=file-name Creates the specified file and directs output to it.
14.5.3 – Example
LANCP> SHOW LOG This command displays the last 2048 bytes of log data written to the log file SYS$MANAGER:LAN$ACP.LOG.
14.6 – NODE
Displays information in the LAN volatile node database. Format SHOW NODE node-name
14.6.1 – Parameter
node-name Specifies the name of a node in the LAN volatile node database. The name can include up to 63 characters associated with the node address. If you do not specify a node name, all nodes are displayed.
14.6.2 – Qualifiers
14.6.2.1 /ALL
Displays information for all nodes in the LAN volatile node database. If you specify a node name, all matching nodes are selected; for example, A/ALL selects all nodes beginning with A.
14.6.2.2 /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.
14.6.2.3 /TOTAL
Display counter totals only, for the nodes selected.
14.6.3 – Examples
1.LANCP> SHOW 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 10-JUN-1998 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 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. 2.LANCP> SHOW NODE VAXSYS Displays node characteristics and counters information from the LAN volatile node database for node VAXSYS. 3.LANCP> SHOW NODE/ALL VAX Displays node characteristics and counters information from the LAN volatile node database for all nodes whose name begins with VAX. 4.LANCP> SHOW NODE/ALL Displays node characteristics and counters information from the LAN volatile node database for all nodes. 5.LANCP> SHOW NODE/ALL/OUTPUT=TMP.INI Writes a list of all nodes to the file TMP.INI.
15 – SPAWN
Creates a subprocess of the current process. The SPAWN command copies the context of the subprocess from the current process. Format SPAWN [command-string]
15.1 – Parameter
command-string A string of commands to be executed in the context of the created subprocess. After the command string is executed, control returns to LANCP.
15.2 – Qualifiers
None.
15.3 – Example
LANCP> SPAWN $ MC LANCP LANCP> DEFINE NODE BOOM/ROOT=LAVC$SYSDEVICE:<SYS22.> LANCP> SPAWN SEARCH LAVC$SYSDEVICE:[*.SYSEXE]MOD*.DAT BOOM ****************************** LAVC$SYSDEVICE:[SYS1A.SYSEXE]MODPARAMS.DAT;1 SCSNODE="BOOM " LANCP> DEFINE NODE BOOM/ROOT=LAVC$SYSDEVICE:<SYS1A.> In this example, you enter the node information for a node, but are unsure of the root, so you spawn to search MODPARAMS.DAT for the node name and then correct the root.
16 – TRIGGER
16.1 – NODE
Issues a request to reboot to a remote node. Rather than specify the format to send MOP Version 3 or 4, the LANCP utility sends one message in each format to the target node. Format TRIGGER NODE node-specification
16.1.1 – Parameter
node-specification Supplies either the node name or the node address of the target node. If you supply the node name, the node address is obtained by looking up the node name in the LAN volatile node database. If you supply the node address, the corresponding node need not be defined in the LAN volatile node database. The canonical form of the address consists of 6 hexadecimal byte characters separated by hyphens. Use a colon as the separator character to indicate the bit-reversed form of the address.
16.1.2 – Qualifiers
16.1.2.1 /DEVICE
/DEVICE=device-name Specifies the LAN controller device name to be used for sending the trigger boot messages. For example, you can specify a DEMNA controller as EXA, EXA0 or EXA0:.
16.1.2.2 /PASSWORD
/PASSWORD=16hexdigits Supplies the password to be used when the connection is initiated, in hexadecimal (for example, /PASSWORD=0123456789ABCDEF). The default password is zero. You can omit leading zeros.
16.1.3 – Examples
1.LANCP> TRIGGER NODE GALAXY/DEVICE=EWA0 This command sends MOP trigger boot messages to node GALAXY using Ethernet device EWA0. 2.LANCP> TRIGGER NODE 08-00-2B-11-22-33/DEVICE=EWA0/PASSWORD=0123456789AB This command sends MOP trigger boot messages to the given node address using the Ethernet device EWA0, with indicated password.
17 – UPDATE
17.1 – DEVICE
Resets a LAN device. Requires SYSPRV privilege. Format UPDATE DEVICE device-name
17.1.1 – Parameter
device-name Specifies a device to be reset. 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.
17.1.2 – Qualifiers
17.1.2.1 /RESET
Specifies that the device is to be reset.
17.1.3 – Example
LANCP> UPDATE DEVICE EWA0/RESET Resets Ethernet device EWA0.