mklv [ -a Position ] [ -b BadBlocks ] [ -c Copies ] [ -d Schedule ] [ -e Range ] [ -i ] [ -L Label ] [ -m MapFile ] [ -r Relocate ] [ -s Strict ] [ -t Type ] [ -u UpperBound ] [ -v Verify ] [ -w MirrorWriteConsistency ] [ -x Maximum ] [ -y NewLogicalVolume | -Y Prefix ] [ -S StripeSize ] [ -U Userid ] [ -G Groupid ] [ -P Modes ] VolumeGroup Number [ PhysicalVolume ... ]
The mklv command creates a new logical volume within the VolumeGroup. For example, all file systems must be on separate logical volumes. The mklv command allocates the number of logical partitions to the new logical volume. If you specify one or more physical volumes with the PhysicalVolume parameter, only those physical volumes are available for allocating physical partitions; otherwise, all the physical volumes within the volume group are available.
The default settings provide the most commonly used characteristics, but use flags to tailor the logical volume to the requirements of your system. Once a logical volume is created, its characteristics can be changed with the chlv command.
The default allocation policy is to use a minimum number of physical volumes per logical volume copy, to place the physical partitions belonging to a copy as contiguously as possible, and then to place the physical partitions in the desired region specified by the -a flag. Also, by default, each copy of a logical partition is placed on a separate physical volume.
The -m flag specifies exact physical partitions to be used when creating the logical volume.
If the volume group in which the logical volume is being created is in big vg format, U, G, and P flags can be used to set the ownership, group, and permissions respectively, of the special device files. Only root user will be able to set these values. If the volume group is exported, these values can be restored upon import if R flag is specified with importvg command.
Physical partitions are numbered starting at the outermost edge with number one.
Notes:
- Changes made to the logical volume are not reflected in the file systems. To change file system characteristics use the chfs command.
- Each logical volume has a control block. This logical volume control block is the first few hundred bytes within the logical volume. Care has to be taken when reading and writing directly to the logical volume to allow for the control block. Logical volume data begins on the second 512-byte block.
- A mirrored, or copied, logical volume is not supported as the active dump device. System dump error messages will not be displayed, and any subsequent dumps to a mirrored logical volume will fail.
- To use this command, you must either have root user authority or be a member of the system group.
- When creating a striped logical volume using the -S flag, you must specify two or more physical volumes or use the -u flag.
- When creating a striped logical volume, the number of partitions must be an even multiple of the striping width.
- To create a striped logical volume with more than one copy, all active nodes should be at least AIX 4.3.3 or later when the volume group is in the concurrent mode.
You can use the Volumes application in Web-based System Manager (wsm) to change volume characteristics. You could also use the System Management Interface Tool (SMIT) smit mklv fast path to run this command.
-a Position | Sets the intra-physical volume allocation policy (the position of the
logical partitions on the physical volume). The Position
variable can be one of the following:
|
-b BadBlocks | Sets the bad-block relocation policy. The Relocation variable can be one of the following: |
-c Copies | Sets the number of physical partitions allocated for each logical partition. The Copies variable can be set to a value from 1 to 3; the default is 1. |
-d Schedule | Sets the scheduling policy when more than one logical partition is
written. The Schedule variable can be one of the
following:
|
-e Range | Sets the inter-physical volume allocation policy (the number of physical
volumes to extend across, using the volumes that provide the best
allocation). The Range value is limited by the
UpperBound variable, (set with the -u flag) and can be one of the following:
|
-G Groupid | Specifies group ID for the logical volume special file. |
-i | Reads the PhysicalVolume parameter from standard input. Use the -i flag only when PhysicalVolume is entered through standard input. |
-L | Sets the logical volume label. The default label is
None. The maximum size of the label file is 127
characters.
Note: If the logical volume is going to be used as a journaled file system (JFS), then the JFS will use this field to store the mount point of the file system on that logical volume for future reference. |
-m MapFile | Specifies the exact physical partitions to allocate. Partitions are used in the order given in the MapFile parameter. Used partitions in the MapFile parameter are not legal, since the new logical volume cannot occupy the same physical space as a previously allocated logical volume. All physical partitions belonging to a copy are allocated before allocating for the next copy of the logical volume. The MapFile parameter format is: PVname:PPnum1[-PPnum2]. In this example, PVname is a physical volume name (for example, hdisk0) as specified by the system. It is one record per physical partition or a range of consecutive physical partitions. PPnum is the physical partition number. |
-P Modes | Specifies permissions (file modes) for the logical volume special file. |
-r Relocate | Sets the reorganization relocation flag. For striped logical volumes, the Relocate parameter must be set to n (the default for striped logical volumes). The Relocate parameter can be one of the following: |
-s Strict | Determines the strict allocation policy. Copies of a logical
partition can be allocated to share or not to share the same physical
volume. The Strict parameter is represented by one of the
following:
|
-S StripeSize | Specifies the number of bytes per striped. Must be a power of two,
between 4K and 128K , for example 4K, 8K, 16K, 32K, 64K, or 128K.
Note: The -d, -e, -m, and -s flags are not valid when creating a striped logical volume using the -S flag. |
-t Type | Sets the logical volume type. The standard types are
jfs (file systems), jfslog (journal file system logs),
and paging (paging spaces), but a user can define other logical
volume types with this flag. You cannot create a striped logical volume
of type boot. The default is jfs. If a log
is manually created for a filesystem, the user must run the logform command to clean out the new
jfslog before the log can be used. For example, to format
the logical volume logdev, enter:
logform /dev/logdev where /dev/logdev is the absolute path to the logical volume. |
-U Userid | Specifies user ID for logical volume special file. |
-u UpperBound | Sets the maximum number of physical volumes for new allocation.
The value of the Upperbound variable should be between one and the
total number of physical volumes. When using striped logical volumes or
super strictness the upper bound indicates the maximum number of physical
volumes allowed for each mirror copy.
Note: When creating a super strict logical volume you must specify physical volumes or use the -u flag. |
-v Verify | Sets the write-verify state for the logical volume. Causes (y) all writes to the logical volume to either be verified with a follow-up read, or prevents (n) the verification of all writes to the logical volume. The Verify parameter is represented by one of the following: |
-w MirrorWriteConsistency |
|
-x Maximum | Sets the maximum number of logical partitions that can be allocated to the logical volume. The default value is 512. The number represented by the Number parameter must be equal to or less than the number represented by the Maximum variable. The maximum number of logical partitions per logical volume is 32,512. |
-y NewLogicalVolume | Specifies the logical volume name to use instead of using a system-generated name. Logical volume names must be unique system wide name, and can range from 1 to 15 characters. If the volume group is varied on in concurrent mode, the new name should be unique across all the concurrent nodes the volume group is varied on. The name cannot begin with a prefix already defined in the PdDv class in the Device Configuration Database for other devices. |
-Y Prefix | Specifies the Prefix to use instead of the prefix in a system-generated name for the new logical volume. The prefix must be less than or equal to 13 characters. The name cannot begin with a prefix already defined in the PdDv class in the Device Configuration Database for other devices, nor be a name already used by another device. |
mklv vg03 15 hdisk5 hdisk6 hdisk9
mklv -u 3 -S 64K vg05 12
mklv -S 8K vg05 12 hdisk1 hdisk2 hdisk3
The chfs command, chlv command, chpv command, extendlv command, mklvcopy command, rmlvcopy command, syncvg command.
The Logical Volume Storage Overview in AIX 5L Version 5.1 System Management Concepts: Operating System and Devices.
For information on installing the Web-based System Manager, see Chapter 2: Installation and System Requirements in AIX 5L Version 5.1 Web-based System Manager Administration Guide.
The System Management Interface Tool (SMIT) Overview in AIX 5L Version 5.1 System Management Concepts: Operating System and Devices.