2.27 /PROCESSOR
/PROCESSOR=keyword
For magnetic tapes and Files-11 Structure Level 1 disks, requests
that the MOUNT command associate an ancillary control process
(ACP) to process the volume. The /PROCESSOR qualifier causes
MOUNT to override the default manner in which ACPs are associated
with devices.
For Files-11 Structure Levels 2 and 5 disks, controls block cache
allocation.
The following table lists the keywords for this qualifier:
Keyword Description
UNIQUE Creates a new process to execute the default
ancillary control process (ACP) image supporting
the magnetic tape, Files-11 ODS-1, ISO 9660, or
High Sierra formatted media being mounted.
For Files-11 Structure Levels 2 and 5 disks,
allocates a separate block cache.
SAME:device Uses an existing process that is executing the same
ACP image supporting the magnetic tape, Files-11
ODS-1, ISO 9660, or High Sierra formatted media
being mounted.
For Files-11 Structure Levels 2 and 5 disks, takes
the block cache allocation from the specified
device.
file-spec Creates a new process to execute the ACP image
specified by the file specification (for example,
a modified or a user-written ACP). You cannot use
wildcard characters, or node and directory names in
the file specification.
To use this keyword, you need CMKRNL and OPER
privileges.
You must have the operator user privilege OPER to
use the /PROCESSOR qualifier.
Example
The following command directs MOUNT to mount a magnetic tape on
MFA0 using the same ACP process currently associated with MTA1:
$ MOUNT/PROCESSOR=SAME:MTA1: MFA0:
2.28 /PROTECTION
/PROTECTION=keyword
Specifies the protection code to be assigned to the volume.
The following table describes the keywords for this qualifier:
Keyword Description
protection Specifies the protection code according to
code the standard syntax rules for specifying user
protection (that is, system/owner/group/world).
If you omit a protection category, that category of
user is denied all access.
If you do not specify a protection code, the
default is the protection that was assigned to
the volume when it was initialized.
XAR Enables enforcement of the extended record
attribute (XAR) access controls. For more
information about XAR, see the OpenVMS Record
Management Services Reference Manual.
DSI Enables XAR permissions Owner and Group for XARs
containing Digital System Identifiers (DSI). For
more information, see the OpenVMS Record Management
Services Reference Manual.
If you specify the /PROTECTION qualifier when you mount a volume
with the /SYSTEM or /GROUP qualifier, the specified protection
code overrides any access rights implied by the other qualifiers.
If you specify the /FOREIGN qualifier, the execute (E) or create
(C) and delete (D) access codes are synonyms for logical I/O (L)
and physical I/O (P). You can, however, specify the access codes
physical I/O (P) or logical I/O (L), or both, to restrict the
nature of input/output operations that different user categories
can perform.
To use the /PROTECTION qualifier on a Files-11 volume, you must
have the user privilege VOLPRO or your UIC must match the UIC
written on the volume.
Example
The following command mounts a device labeled WORKDISK on DKA1
and assigns a protection code. Access to the volume will be read,
write, and create for system users; read, write, create, and
delete for owner; read and create for group users; and read-only
for users in the world category.
$ MOUNT/PROTECTION=(SYSTEM:RWE,O:RWED,G:RE,W:R) DKA1: WORKDISK
2.29 /QUOTA
/QUOTA (default)
/NOQUOTA
Controls whether quotas are to be enforced on the specified disk
volume.
The default is /QUOTA, which enforces the quotas for each user.
The /NOQUOTA qualifier inhibits this checking. To specify the
/QUOTA qualifier, you must have the user privilege VOLPRO or your
UIC must match the UIC written on the volume.
Example
The following command specifies that the disk volume labeled WORK
on DRA3 has an owner UIC of [016,360] and no quotas enforced:
$ MOUNT/OWNER_UIC=[016,360]/NOQUOTA DRA3: WORK
2.30 /REBUILD
/REBUILD (default)
/NOREBUILD
Controls whether or not MOUNT performs a rebuild operation on a
disk volume.
If a disk volume is improperly dismounted (such as during a
system failure), you must rebuild it to recover any caching
limits that were enabled on the volume at the time of the
dismount. By default, MOUNT attempts the rebuild. For a
successful rebuild operation that includes reclaiming all of
the available free space, you must mount all of the volume set
members.
The rebuild may consume a considerable amount of time, depending
on the number of files on the volume and, if quotas are in use,
on the number of different file owners.
The following caches may have been in effect on the volume before
it was dismounted:
o Preallocated free space (EXTENT cache)
o Preallocated file numbers (FILE_ID cache)
o Disk quota usage caching (QUOTA cache)
If caching was in effect for preallocated free space or file
numbers, the rebuild time is directly proportional to the
greatest number of files that ever existed on the volume at
one time. If disk quota caching was in effect, you can expect
additional time that is proportional to the square of the number
of entries in the disk quota file.
If none of these items were in effect, the rebuild is not
necessary and does not occur.
If you use the /NOREBUILD qualifier, devices can be returned to
active use immediately. You can then perform the rebuild later
with the DCL command SET VOLUME/REBUILD.
For information about how to rebuild the system disk, see the VSI
OpenVMS System Manager's Manual.
Examples
In this example, the volume WORKDISK is mounted on NODE$DKA2.
Because the volume is found to have been improperly dismounted
and the /REBUILD qualifier is in effect, MOUNT displays a message
and proceeds to rebuild the volume.
$ MOUNT/REBUILD NODE$DKA2: WORKDISK
%MOUNT-I-MOUNTED, WORKDISK mounted on _NODE$DKA2:
%MOUNT-I-REBUILD, volume was improperly dismounted; rebuild in
progress
In this example, the volume WORKDISK is found to have been
improperly dismounted, but because the /NOREBUILD qualifier is
specified, a rebuild is not performed. Instead, MOUNT displays a
message to inform you that the rebuild is needed, and proceeds to
make WORKDISK available for use as is. You can rebuild the volume
later with the DCL command SET VOLUME/REBUILD.
$ MOUNT/NOREBUILD NODE$DKA2: WORKDISK
%MOUNT-I-MOUNTED, WORKDISK mounted on _NODE$DKA2:
%MOUNT-I-REBLDREQD, rebuild not performed; some free space
unavailable; diskquota usage stale
2.31 /RECORDSIZE
/RECORDSIZE=n
Specifies the number of characters in each record of a magnetic
tape volume.
The parameter, n, specifies the block size in the range 20 to
65,532 bytes if you are using OpenVMS RMS, or 18 to 65,534 bytes
if you are not using OpenVMS RMS.
You typically use this qualifier with the /FOREIGN and /BLOCKSIZE
qualifiers to read or write fixed-length records on a block-
structured device. In this case, the record size must be less
than or equal to the block size specified or used by default.
Use the /RECORDSIZE qualifier when mounting magnetic tapes
without HDR2 labels (such as RT-11 magnetic tapes) to provide
OpenVMS RMS with default values for the maximum record size.
Example
In the following example, the magnetic tape is mounted on MTA0
with a default block size and record size of 512 characters:
$ MOUNT/FOREIGN/BLOCKSIZE=512/RECORDSIZE=512 MTA0:
2.32 /SHADOW
Binds up to three physical devices into a shadow set represented
by the virtual unit named in the command. This qualifier is
applicable only if you have the volume shadowing option. See
the VSI Volume Shadowing for OpenVMS for additional information.
The format of this qualifier is:
(virtual-unit-name[:] /SHADOW=(physical-device-name[:][,...]))
This qualifier indicates that you are mounting a shadow set
including the physical devices and the virtual unit that
represents them to the system. This qualifier instructs MOUNT
to expect a virtual unit name as the device-name parameter. Place
the /SHADOW qualifier after the virtual-unit-name parameter.
Use the virtual unit naming format DSAn, where n is a unique
number from 0 to 9999. For the physical-device-name, use the
standard device-naming format $allocation-class$ddcu[:].
Examples
The following example shows how to create a shadow set wherein
the software determines automatically the correct copy operation
for the two shadow set members. In this case, $1$DUA10 is the
more current volume and becomes the source of the copy operation
to $1$DUA11.
$ MOUNT DSA0: /SHADOW=($1$DUA10:,$1$DUA11:) SHADOWVOL
%MOUNT-I-MOUNTED, SHADOWVOL mounted on DSA0:
%MOUNT-I-SHDWMEMSUCC, _$1$DUA10: (MEMBER1) is now a valid member of
the shadow set
%MOUNT-I-SHDWMEMCOPY, _$1$DUA11: (MEMBER2) added to the shadow set
with a copy operation
The following command creates a volume set with the logical name
TEST3013. The volume set TEST3013 is not shadowed. However, each
element of the volume set (TEST3011 and TEST3012) is a shadow
set, providing redundancy for the volume set as a whole.
$ MOUNT/BIND=TEST3013 DSA3011/SHADOW=($1$DUA402:,$1$DUA403:),
DSA3012/SHADOW=($1$DUA404:,$1$DUA405:) TEST3011,TEST3012 TEST3013
2.33 /SHARE
/SHARE
/NOSHARE
Specifies, for a disk volume, that the volume is shareable.
If another user has already mounted the volume shareable, and
you request it to be mounted with the /SHARE qualifier, any other
qualifiers you enter are ignored.
By default, a volume is not shareable, and the MOUNT command
allocates the device on which it is mounted.
If you previously allocated the device and specify the /SHARE
qualifier, the MOUNT command deallocates the device so that other
users can access it.
The /SHARE qualifier is incompatible with the /GROUP and /SYSTEM
qualifiers.
Example
The following command mounts the device labeled SLIP on DLA0,
disables broadcasting of MOUNT messages, specifies that the
volume is shareable, and assigns the logical name DISC:
$ MOUNT/NOMESSAGE/SHARE DLA0: SLIP DISC
2.34 /SUBSYSTEM
/SUBSYSTEM
/NOSUBSYSTEM
Enables protected subsystems and the processing of subsystem
ACEs. Requires the SECURITY privilege.
By default, the disk from which you boot has /SUBSYSTEM enabled
but other disks do not. For further details on subsystems, see
the VSI OpenVMS Guide to System Security.
Example
The following command mounts the volume labeled SLIP on DUA1 with
mount messages disabled. Subsystems on the volume are accessible.
MOUNT also assigns the logical name SACH.
$ MOUNT/NOMESSAGE/SUBSYSTEM DUA1: SLIP SACH
2.35 /SYSTEM
Makes the volume public; that is, available to all users of the
system, as long as the UIC-based volume protection allows them
access.
The logical name for the device is placed in the system logical
name table. You must have the user privilege SYSNAM to use the
/SYSTEM qualifier.
When you mount a volume with the /SYSTEM qualifier in a
VMScluster system, you must use a volume label that is unique
clusterwide, even if the specified volume is not mounted
clusterwide.
The /SYSTEM qualifier is incompatible with the /GROUP,
/OVERRIDE=IDENTIFICATION, and /SHARE qualifiers.
Examples
The following command mounts the volume labeled SLIP on DUA1 with
mount messages disabled. The volume is made available systemwide.
MOUNT also assigns the logical name SACH.
$ MOUNT/NOMESSAGE/SYSTEM DUA1: SLIP SACH
The following command creates the volume set named MASTER_PAY
consisting of the initialized volumes labeled PAYVOL1, PAYVOL2,
and PAYVOL3. These volumes are mounted physically on the devices
named DB1, DB2, and DB3, respectively. The volume PAYVOL1 is the
root volume of the set.
The volumes are mounted as system volumes to make them available
to all users.
$ MOUNT/SYSTEM/BIND=MASTER_PAY -
_$ DB1:,DB2:,DB3: PAYVOL1,PAYVOL2,PAYVOL3
2.36 /UCS_SEQUENCE
/UCS_SEQUENCE=escape_sequence
Supplies the escape sequence to select the coded graphic
character set, a requirement when mounting an ISO 9660 volume
for one of the Supplementary Volume Descriptors (SVDs).
The parameter, escape_sequence, is a character sequence defined
by the vendor who mastered the CD-ROM and is unique to the
vendor's character set conversion tables.
Use the /UCS_SEQUENCE qualifier when mounting an ISO 9660 CD-ROM
that contains non-ASCII character sets on OpenVMS.
An ISO 9660 volume may contain an SVD that specifies a graphic
character set. This graphic character, when selected at mount
time, is used as default character set when displaying a volume's
directories and file names.
The /UCS_SEQUENCE qualifier defines the escape sequence to select
the coded graphic character set.
All ISO 9660 volumes contain a Primary Volume Descriptor (PVD)
that uses ASCII (ISO 646-IRV) as the character set. Both ISO 9660
and OpenVMS file naming conventions use the same subset of ASCII
characters when displaying a volume's directories and file names.
2.37 /UNDEFINED_FAT
/UNDEFINED_FAT=record-format:[record-attributes:][record-size]
Establishes default file attributes to be used for records on ISO
9660 media for which no record format has been specified.
The following table describes the parameters:
Parameter Description
record- Specifies the format for all records in a file:
format FIXED, VARIABLE, STREAM, STREAM_LF, STREAM_CR, LSB_
VARIABLE, or MSB_VARIABLE. For a description of
these record formats, see the discussion of the RMS
field FAB$B_RFM in the OpenVMS Record Management
Services Reference Manual.
record- Specifies the attributes for all records in a file:
attributes NONE, CR, FTN, PRN, NOBKS. Applies only to non-
STREAM record formats. For a description of these
record attributes, see the discussion of the RMS
field FAB$B_RAT in the OpenVMS Record Management
Services Reference Manual.
record-size Specifies the maximum record size for all records
in a file: 0 to 32767. Applies only to FIXED
or STREAM record formats. For a description of
possible RMS record sizes, see the discussion
of the RMS field FAB$W_MRS in the OpenVMS Record
Management Services Reference Manual.
ISO 9660 media can be mastered from platforms that do not support
semantics of files containing predefined record formats. The
/UNDEFINED_FAT qualifier establishes default file attributes to
be used for records on ISO 9660 media for which no record format
has been specified.
The /UNDEFINED_FAT qualifier is valid only in conjunction with
the /MEDIA_FORMAT=CDROM qualifier.
This qualifier temporarily overrides all undefined file types,
replacing them with selectable record formats having selectable
record attributes and selectable record sizes as shown in the
following illustration:
{ FIXED:record-attributes[, . . . ]:record-size}
{ VARIABLE:record-attributes[, . . . ] }
{ STREAM:record-size }
record formats { }
{ STREAM_LF:record-size }
{ STREAM_CR:record-size }
{ LSB_VARIABLE:record-attributes[, . . . ] }
{ }
{ NONE - None }
{ CR - Carriage_return }
record_attributes { FTN - Fortran }
{ PRN - Print }
{ }
{ NOBKS - No-Block-Span }
record_size { 1 to 32767 }
Example
In the following example, the volume labeled OFFENS is mounted on
DKA1 and all files on the volume are defined to be fixed length,
carriage return, and 80 bytes in length. MOUNT also assigns the
logical name STRAT.
$ MOUNT/MEDIA_FORMAT=CDROM/UNDEFINED_FAT=(FIXED:CR:80) DKA1: OFFENS STRAT
2.38 /UNLOAD
/UNLOAD (default)
/NOUNLOAD
Controls whether or not the disk or magnetic tape volume or
volumes specified in the MOUNT command are unloaded when they
are dismounted.
Example
In the following example, the volume labeled OFFENS is mounted
on DKA1 with the /NOUNLOAD qualifier so that it can be dismounted
without being physically unloaded. MOUNT also assigns the logical
name STRAT.
$ MOUNT/NOUNLOAD DKA1: OFFENS STRAT
2.39 /WINDOWS
/WINDOWS=n
Specifies the number of mapping pointers to be allocated for file
windows.
The parameter, n, specifies a value from 7 to 80 that overrides
the default value specified when the volume was initialized.
When a file is opened, the file system uses the mapping pointers
to access data in the file. Use MOUNT/WINDOWS to override the
default value specified when the volume was initialized. If no
value was specified at volume initialization, the default number
of mapping pointers is 7.
You must have the operator user privilege (OPER) to use the
/WINDOWS qualifier.
Example
The following command makes the volume labeled GONWITH on DKA2
available systemwide and assigns the logical name THE_WINDOW. You
override the default number of mapping pointers by specifying a
value of 25 for the /WINDOWS qualifier.
$ MOUNT/SYSTEM/WINDOWS=25 DKA2: GONWITH THE_WINDOW
2.40 /WRITE
/WRITE (default)
/NOWRITE
Controls whether the volume can be written.
By default, a volume is considered read/write when it is mounted.
You can specify /NOWRITE to provide read-only access to protect
files. This is equivalent to write-locking the device.
For host-based volume shadowing devices, there are other
considerations. See the VSI Volume Shadowing for OpenVMS manual
for more information.
Example
The following command mounts a volume labeled BOOKS on NODE$DKA1
and then proceeds to mount it on each node in the existing
OpenVMS Cluster. The /NOWRITE qualifier makes the volume
available for read-only access.
$ MOUNT/CLUSTER/NOWRITE NODE$DKA1: BOOKS
3 – Examples
For examples 1 and 2, operator assistance is not required,
assuming the volumes are in the drives. Examples 3 to 6
describe operator-assisted mounts. Examples 7 and 8 describe
mounting ISO 9660 CD-ROM volume sets, example 9 makes
subsystems on a volume accessible, and example 10 demonstrates
mounting a shadow set.
1.$ MOUNT MTA0: MATH06 STAT_TAPE
%MOUNT-I-MOUNTED, MATH06 mounted on _MTA0:
$ COPY ST061178.DAT STAT_TAPE:
This MOUNT command requests the magnetic tape whose volume
label is MATH06 to be mounted on the device MTA0 and assigns
the logical name STAT_TAPE to the volume.
Subsequently, the COPY command copies the disk file
ST061178.DAT to the magnetic tape.
2.$ ALLOCATE DM:
%DCL-I-ALLOC, _DMB2: allocated
$ MOUNT DMB2: TEST_FILES
%MOUNT-I-MOUNTED, TEST_FILES mounted on _DMB2:
This ALLOCATE command requests an available RK06/RK07 device.
After the response from the ALLOCATE command, the physical
volume can be placed on the allocated device. Then, the MOUNT
command mounts the volume.
3.$ MOUNT DM: TEST_FILES
%MOUNT-I-OPRQST, Please mount volume TEST_FILES in device _DMB2:
%MOUNT-I-MOUNTED, TEST_FILES mounted on _DMB2:
This example achieves the same result as the series of commands
in the preceding example. The MOUNT command requests an
available RK06/RK07 device for the volume labeled TEST_FILES.
After the volume is physically mounted in the device named in
the response from MOUNT, the system completes the operation.
Note that the device is automatically allocated by MOUNT.
4.$ MOUNT DYA1: TESTSYS
%MOUNT-I-OPRQST, Please mount volume TESTSYS in device DYA1:
<Ctrl/Y>
$ EXIT
%MOUNT-I-OPRQSTCAN, operator request canceled
This MOUNT command requests the operator to mount the volume
TESTSYS on the device DYA1. In this example, the user cancels
the mount by pressing Ctrl/Y. Notice that the image must exit
before the mount request is actually canceled. Here, the EXIT
command causes the image to exit. However, any command that is
not performed within the command interpreter causes the current
image to exit.
5.$ MOUNT DYA1: TESTSYS
%MOUNT-I-OPRQST, Device _DYA1: is not available for mounting.
%MOUNT-I-OPRQSTCAN, operator request canceled
%MOUNT-I-OPRQST, Please mount volume TESTSYS in device _DYA1:
%MOUNT-I-MOUNTED, TESTSYS mounted on _DYA1:
%MOUNT-I-OPRQSTDON, operator request canceled - mount
completed successfully
This MOUNT command requests the operator to mount the volume
TESTSYS on the device DYA1. Because DYA1 is allocated to
another user, the device cannot be mounted. In this case, the
user can wait for the device to become available, redirect the
mount to another device, or abort the mount. Here, the user
remains in operator-assisted mount waiting for the process that
is using the device to deallocate it.
At this point, because the device is available but no volume
is mounted, the original mount request is canceled, and a
new request to mount TESTSYS is issued. Finally, the operator
places the volume in the drive and lets MOUNT retry the mount.
When the mount completes, the request is canceled.
6.$ MOUNT DYA1: TESTSYS/COMMENT="Is there an operator around?"
%MOUNT-I-OPRQST, Please mount volume TESTSYS in device _DYA1:
Is there an operator around?
%MOUNT-I-NOOPR, no operator available to service request
.
.
.
%MOUNT-I-MOUNTED, TESTSYS mounted on _DYA1:
%MOUNT-I-OPRQSTDON, operator request canceled - mount
completed successfully
This MOUNT command requests the operator to mount the volume
TESTSYS on the device DYA1. In this example, no operator is
available to service the request. At this point, the user can
abort the mount by pressing Ctrl/Y, or wait for an operator.
Here, the user waited, and an operator eventually became
available to service the request.
7.$ MOUNT/SYSTEM/MEDIA=CDROM $1$DKA1 USER
%MOUNT-I-CDROM_ISO, USER:VMS_ONLINE_DOCUMENTATION (1 of 4) ,
mounted on _$1$DKA1: (CDROM)
$ MOUNT/SYSTEM/MEDIA=CDROM $1$DKA2 PROGRAMMING_1
%MOUNT-I-CDROM_ISO, PROGRAMMING_1:VMS_ONLINE_DOCUMENTATION (2 of 4) ,
mounted on _$1$DKA2: (CDROM)
$ MOUNT/SYSTEM/MEDIA=CDROM $1$DKA3 PROGRAMMING_2
%MOUNT-I-CDROM_ISO, PROGRAMMING_2:VMS_ONLINE_DOCUMENTATION (3 of 4) ,
mounted on _$1$DKA3: (CDROM)
MOUNT/SYSTEM/MEDIA=CDROM $1$DKA4 MANAGEMENT
%MOUNT-I-CDROM_ISO, MANAGEMENT:VMS_ONLINE_DOCUMENTATION (4 of 4) ,
mounted on _$1$DKA4: (CDROM)
These commands mount each member of a four-member ISO 9660
volume set whose volume-set name is VMS_ONLINE_DOCUMENTATION.
8.$ MOUNT/SYSTEM/MEDIA=CDROM $1$DKA1,$1$DKA2,$1$DKA3,$1$DKA4
USER,PROGRAMMING_1,PROGRAMMING_2,MANAGEMENT
%MOUNT-I-CDROM_ISO, USER:VMS_ONLINE_DOCUMENTATION (1 of 4) , mounted on
_$1$DKA1: (CDROM)
%MOUNT-I-CDROM_ISO, PROGRAMMING_1:VMS_ONLINE_DOCUMENTATION (2 of 4) ,
mounted on _$1$DKA2: (CDROM)
%MOUNT-I-CDROM_ISO, PROGRAMMING_2:VMS_ONLINE_DOCUMENTATION (3 of 4) ,
mounted on _$1$DKA3: (CDROM)
%MOUNT-I-CDROM_ISO, MANAGEMENT:VMS_ONLINE_DOCUMENTATION (4 of 4) ,
mounted on _$1$DKA4: (CDROM)
This command mounts four members of an ISO 9660 volume set
whose volume set name is VMS_ONLINE_DOCUMENTATION.
9.$ MOUNT/SYSTEM/SUBSYSTEM $8$DKA300: ATLANTIS_WORK1
%MOUNT-I-MOUNTED, ATLANTIS_WORK1 mounted on _$8$DKA300: (ATLANTIS)
$ SHOW DEVICE/FULL $8$DKA300:
Disk $8$DKA300: (ATLANTIS), device type RZ24, is online, mounted,
file-oriented device, shareable, served to cluster via MSCP Server,
error logging is enabled.
Error count 0 Operations completed 385
Owner process "" Owner UIC [SYSTEM]
Owner process ID 00000000 Dev Prot S:RWPL,O:RWPL,G:R,W
Reference count 1 Default buffer size 512
Total blocks 409792 Sectors per track 38
Total cylinders 1348 Tracks per cylinder 8
Allocation class 8
Volume label "ATLANTIS_WORK1" Relative volume number 0
Cluster size 3 Transaction count 1
Free blocks 396798 Maximum files allowed 51224
Extend quantity 5 Mount count 1
Mount status System Cache name "_$8$DKA700:XQPCACHE"
Extent cache size 64 Maximum blocks in extent cache 39679
File ID cache size 64 Blocks currently in extent cache 0
Quota cache size 50 Maximum buffers in FCP cache 295
Volume owner UIC [VMS,PLATO] Vol Prot S:RWCD,O:RWCD,G:RWCD,W:RWCD
Volume status: ODS-2, subject to mount verification, protected
subsystems enabled, file high-water marking,
write-through caching enabled.
The MOUNT command mounts a volume labeled ATLANTIS_WORK1,
which is available systemwide. Subsystems on the volume are
accessible.
10$ MOUNT DSA0: /SHADOW=($200$DKA200:,$200$DKA300:,$200$DKA400:) X5OZCOPY
%MOUNT-I-MOUNTED, X5OZCOPY mounted on _DSA0:
%MOUNT-I-SHDWMEMSUCC, _$200$DKA200: (VIPER1) is now a valid member of
the shadow set
%MOUNT-I-SHDWMEMSUCC, _$200$DKA300: (VIPER1) is now a valid member of
the shadow set
%MOUNT-I-SHDWMEMSUCC, _$200$DKA400: (VIPER1) is now a valid member of
the shadow set
$ DISMOUNT DSA0:
$ MOUNT/INCLUDE DSA0: /SHADOW=$200$DKA200: X5OXCOPY
%MOUNT-I-MOUNTED, X5OZCOPY mounted on _DSA0:
%MOUNT-I-SHDWMEMSUCC, _$200$DKA200: (VIPER1) is now a valid member of
the shadow set
%MOUNT-I-AUTOMEMSUCC, _$200$DKA300: (VIPER1) automatically added to the
shadow set
%MOUNT-I-AUTOMEMSUCC, _$200$DKA400: (VIPER1) automatically added to the
shadow set
In this example, an existing shadow set is mounted in two ways.
The first MOUNT command specifies each member of the shadow set
with the /SHADOW qualifier. Then, after DSA0: is dismounted,
the second MOUNT command uses the /INCLUDE qualifier to
automatically mount all members of the shadow set.