lvm2 2.02.66-4ubuntu7.4 source package in Ubuntu
Changelog
lvm2 (2.02.66-4ubuntu7.4) precise; urgency=low * When calling lvresize or lvextend do not attempt to fsck a mounted filesystem. (LP: #1269175) -- Dave Chiluk <email address hidden> Wed, 15 Jan 2014 13:01:44 -0600
Upload details
- Uploaded by:
- Dave Chiluk
- Sponsored by:
- Chris J Arges
- Uploaded to:
- Precise
- Original maintainer:
- Ubuntu Developers
- Architectures:
- any
- Section:
- admin
- Urgency:
- Low Urgency
See full publishing history Publishing
Series | Published | Component | Section | |
---|---|---|---|---|
Precise | updates | main | admin |
Downloads
File | Size | SHA-256 Checksum |
---|---|---|
lvm2_2.02.66.orig.tar.gz | 860.8 KiB | 88ff5269e606334dd4783f5ed2e59340f38281f30f924de9a0fe100b0e002974 |
lvm2_2.02.66-4ubuntu7.4.debian.tar.gz | 46.9 KiB | 6ee6b0f648dd30c8d6f9fd289eec5833688af1a2be41c39e7b43fe597acba454 |
lvm2_2.02.66-4ubuntu7.4.dsc | 2.4 KiB | 73ec4a6c543f029da0a7240d3b912210cbcbd92146da89803dda3c72f0ed83d5 |
Available diffs
Binary packages built by this source
- clvm: Cluster LVM Daemon for lvm2
This package provides the clustering interface for lvm2, when used with
Red Hat's "cman" or corosync based (eg Pacemaker) cluster infrastructure.
It allows logical volumes to be created on shared storage devices
(eg Fibre Channel, or iSCSI).
- dmeventd: The Linux Kernel Device Mapper userspace library
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
.
This package contains a daemon to monitor events of devmapper devices.
- dmsetup: The Linux Kernel Device Mapper userspace library
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
.
This package contains a utility for modifying device mappings.
- dmsetup-udeb: The Linux Kernel Device Mapper userspace library
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
.
This package contains a utility for modifying device mappings.
- libdevmapper-dev: The Linux Kernel Device Mapper header files
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
.
This package contains the (user-space) header files for accessing the
device-mapper; it allow usage of the device-mapper through a clean,
consistent interface (as opposed to through kernel ioctls).
- libdevmapper-event1.02.1: The Linux Kernel Device Mapper userspace library
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
.
This package contains the userspace library to help with event monitoring
for devmapper devices, in conjunction with the dmevent daemon.
- libdevmapper1.02.1: The Linux Kernel Device Mapper userspace library
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
.
This package contains the (user-space) shared library for accessing the
device-mapper; it allows usage of the device-mapper through a clean,
consistent interface (as opposed to through kernel ioctls).
- libdevmapper1.02.1-udeb: The Linux Kernel Device Mapper userspace library
This is a udeb, or a microdeb, for the debian-installer.
.
The Linux Kernel Device Mapper is the LVM (Linux Logical Volume Management)
Team's implementation of a minimalistic kernel-space driver that handles
volume management, while keeping knowledge of the underlying device layout
in user-space. This makes it useful for not only LVM, but EVMS, software
raid, and other drivers that create "virtual" block devices.
- liblvm2-dev: LVM2 libraries - development files
This package contains files needed to develop applications that use the
lvm2app library.
- liblvm2app2.2: LVM2 application library
This package contains the lvm2app shared library. It allows easier access
to the basic LVM objects and provides functions to enumerate, create or
modify them.
- liblvm2cmd2.02: LVM2 command library
This package contains the lvm2cmd shared library.
- lvm2: The Linux Logical Volume Manager
This is LVM2, the rewrite of The Linux Logical Volume Manager. LVM
supports enterprise level volume management of disk and disk subsystems
by grouping arbitrary disks into volume groups. The total capacity of
volume groups can be allocated to logical volumes, which are accessed as
regular block devices.
- lvm2-udeb: The Linux Logical Volume Manager
This is a udeb, or a microdeb, for the debian-installer.
.
This is LVM2, the rewrite of The Linux Logical Volume Manager. LVM
supports enterprise level volume management of disk and disk subsystems
by grouping arbitrary disks into volume groups. The total capacity of
volume groups can be allocated to logical volumes, which are accessed as
regular block devices.