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Man/ploop.8

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Revision as of 19:44, 17 December 2013 by Botinki Kira (talk | contribs) (Automated import of articles *** existing text overwritten ***)

Contents

NAME

ploop − ploop device management utility

SYNOPSYS

ploop init

-s size [-f format] [-v version] [-t fstype] [-b blocksize] [-B fsblocksize] delta_file

ploop mount

[-r] [-F] [-f format] [-b blocksize] [-d device] [-m mount_point] [-o mount_options] [-t fstype] base_delta [... top_delta]

ploop mount

[-r] [-F] [-d device] [-m mount_point] [-o mount_options] [-t fstype] [-u uuid] DiskDescriptor.xml

ploop umount

{ -d device | -m mount_point | DiskDescriptor.xml | image_file }

ploop resize

-s size DiskDescriptor.xml

ploop convert

{ -f format | -v version } DiskDescriptor.xml

ploop check

[--force] [--hard-force] [--check] [--ro] [--silent] [--drop-inuse] [--raw] [--blocksize size] [--repair-sparse] DiskDescriptor.xml | image_file

ploop info

[-s] DiskDescriptor.xml

ploop list

[-a]

ploop snapshot

[-u uuid] DiskDescriptor.xml

ploop snapshot-merge

[-u uuid -A] DiskDescriptor.xml

ploop snapshot-switch

-u uuid DiskDescriptor.xml

ploop snapshot-delete

-u uuid DiskDescriptor.xml

ploop snapshot-list

[-H] [-u uuid] [-o field[,field...]] DiskDescriptor.xml

ploop copy

-s device [-F stop_command] [-d file]

ploop copy

-d file

ploop balloon discard

[--automount] [--to-free size] [--min-block min_size] DiskDescriptor.xml

DESCRIPTION

ploop is a kernel block device, similar to the traditional loop device (which is controlled by losetup(8)) but with more features added, such as dynamic disk space allocation, stackable images, online resize, snapshotting, and live migration helper (write tracker). This manual page describes the ploop user space tool which is used to perform various operations related to ploop devices and images.

Note that this ploop tool is not aware of container entities. Commands that have DiskDescriptor.xml as an argument work with an XML file that contains meta-information about a particular ploop device configuration: device characteristics (block size etc.), storage information (names and formats of images used for the device), snapshot information, etc. If a particular command can be used both with and without the DiskDescriptor.xml argument, it is strongly advised to use the form with DiskDescriptor.xml.

OPTIONS

Run ploop without any options to show a short synopsys, including a list of commands.

Run ploop command to show synopsys and a short description for a particular command.

Basic commands

init

Create and initalize a ploop image file and a corresponding DiskDescriptor.xml file.

ploop init

-s size [-f format] [-v version] [-t fstype] [-b blocksize] [-B fsblocksize] delta_file

-s size

Image size. If no suffix is specified, the size is in sector units (one sector is 512 bytes). One can specify optional K, M, G or T suffix to set the size in kilo-, mega-, giga- or terabytes.

-f format

Image format. See Image formats below.

-v version

Image version, can be 1 or 2. Default is 2, if supported by the kernel.

-t none|ext3|ext4

File system type to create, default is ext4. Unless none is specified, a partition, a filesystem, and a balloon file will be created inside the image. Using ext3 is not recommended.

-b blocksize

Device block size, in 512 byte sectors. Default block size is 2048 sectors, or 1 megabyte.

-B fsblocksize

Filesystem block size, in bytes. Default is 4096 bytes.

delta_file

Path to a non-existent image file to be created.

mount

Assemble a ploop device from one or more delta images, start it, and optionally mount the file system residing on the device.

Two forms of this command are provided. The first one accepts a list of delta images to be used for assembling the ploop device, while the second one is using information from a DiskDescriptor.xml file. Please note that not all mount options are applicable to both forms.

ploop mount

[-r] [-F] [-f format] [-b blocksize] [-d device] [-m mount_point] [-o mount_options] [-t fstype] base_delta [... top_delta]

ploop mount

[-r] [-F] [-d device] [-m mount_point] [-o mount_options] [-t fstype] [-u uuid] DiskDescriptor.xml

-r

Mount as read-only.

-F

Run fsck(8) on inner filesystem before mounting it. This option is ignored if -m is not used.

-f format

Image format. Ignored if DiskDescriptor.xml is specified. Otherwise, one need to specify raw as an argument, if raw image format is used.

-b blocksize

Device block size, in 512 byte sectors. Ignored if DiskDescriptor.xml is specified. Otherwise, required for raw images.

-d device

Ploop device to use, e.g. /dev/ploop0. If not specified, a randomly numbered ploop device will be used.

-m mount_point

If this option is specified, ploop goes on to mount the file system to directory denoted by mount_point.

-o mount_options

Any additional mount options, comma-separated. Used if -m is set.

-t fstype

File system type used for mounting. Used if -m is set. The default is ext4.

-u uuid | base

GUID of the image from the DiskDescriptor.xml to be mounted. By default, top GUID is used. The special ’base’ value can be used to mount the base (lower-level) image.

base_delta [... top_delta]

List of image files to mount, with the first one being the base delta and the last one being the top delta (i.e. the one that will be writable unless -r is specified).

DiskDescriptor.xml

Path to the DiskDescriptor.xml file with information about images.

umount

Unmount a ploop device. Since a mounted ploop device consists of an image (or multiple images), a device, and (optionally) a file system mounted to a directory, one can refer to any of the above entities to specify what to unmount. The recommended way is to use DiskDescriptor.xml.

ploop umount

{ -d device | -m mount_point | DiskDescriptor.xml | image_file }

-d device

Ploop device, e.g., /dev/ploop0.

-m mount_point

Mount point of a ploop device to unmount.

DiskDescriptor.xml

Path to the DiskDescriptor.xml file with information about images.

image_file

Path to a mounted image file.

resize

Resize a ploop image. Both online (i.e. when ploop is mounted and used) and offline resize is supported, and the tool can either grow or shrink both the ploop image and the underlying file system.

ploop resize

-s size DiskDescriptor.xml

-s size

Image size. If no suffix is specified, size is in sector units (one sector is 512 bytes). One can specify optional K, M, G or T suffix to set the size in kilo-, mega-, giga- or terabytes.

DiskDescriptor.xml

Path to the DiskDescriptor.xml file with information about images.

convert

Convert either ploop image format or version (but not both at the same time). Conversion can only be performed offline (i.e. image should not be in use).

ploop convert

{ -f format | -v version } DiskDescriptor.xml

-f format

Image format. See Image formats below.

-v version

Image version, can be 1 or 2.

check

Check the internal consistency of (and possibly repair) a ploop image (or images). Note that image(s) to be tested should not be in use. If DiskDescriptor.xml is supplied, all the images one by one are checked.

ploop check

[--force] [--hard-force] [--check] [--ro] [--silent] [--drop-inuse] [--raw] [--blocksize size] [--repair-sparse] DiskDescriptor.xml | image_file

-f, --force

Force check even if image’s dirty flag is not set.

-F, --hard-force

Same as -f, plus try to fix even fatal errors (can be dangerous).

-c, --check

Check for duplicated blocks and holes.

-r, --ro

Read-only access, do not modify image(s).

-s, --silent

Be more silent, only report errors.

-d, --drop-inuse

Drop image "in use" flag.

-R, --raw

Specifies that image_file is a raw ploop image.

-b, --blocksize size

Image cluster block size, in sectors (for raw images).

-S, --repair-sparse

Repair sparse image(s).

Miscellaneous commands

info

ploop info

DiskDescriptor.xml

Show information about disk space and inodes usage and limits on the inner ploop filesystem, somewhat similar to vzquota(8) stat or show commands.

ploop info

-s DiskDescriptor.xml

Show information about ploop device size, block size, and format version.

list

ploop list

[-a]

Shows a list of running ploop devices (first column) and their corresponding base images. With option -a it also shows a mount point (third column).

Working with snapshots

Ploop snapshots is a mechanism for creating and managing instant states of a running file system. Creating a snapshot leads to creating a new empty ploop image which is layered on top of an old one, then all writes are ending up in the top image, and reads are falling through to a lower level. There can be up to 126) stacked ploop images (or snapshots). Online snapshot merging is also supported.

Snapshots are identified by a unique UUID. A snapshot can be mounted using ploop mount -u UUID command, see above.

snapshot

Create a ploop snapshot.

ploop snapshot

[-u uuid] DiskDescriptor.xml

-u uuid

Specify a uuid for a new snapshot. If option is not given, uuid is generated automatically. To generate uuid manually, one can use the uuidgen(1) utility. Note that UUID must be enclosed in curly brackets.

snapshot-merge

Merge a snapshot with its parent.

ploop snapshot-merge

[-u uuid -A] DiskDescriptor.xml

-u uuid

Specify a snapshot uuid to merge. If this option is not specified, the top delta will be used.

-A

Merge all snapshots down to base delta. If some snapshots have more than a single child, they will be impossible to merge.

snapshot-switch

Switch to the specified snapshot. This operation can only be performed while ploop is not running (i.e. is unmounted). The current top delta image will be removed.

ploop snapshot-switch

-u uuid DiskDescriptor.xml

-u uuid

Specify a snapshot uuid to switch to.

snapshot-delete

Delete the specifed snapshot. This operation can only be performed if the specified snapshot is not active. In case snapshot doesn’t have any children, it will simply be removed. In case snapshot has a single child, it will be merged to that child. Deleting a snapshot that has multiple children is currently not supported (but can be performed manually in an iterative fashion).

ploop snapshot-delete

-u uuid DiskDescriptor.xml

-u uuid

Specify a snapshot uuid to be deleted.

snapshot-list

List available snapshots.

ploop snapshot-list

[-H] [-u uuid] [-o field[,field...]] DiskDescriptor.xml

-H, --no-header

Suppress displaying the header row. Usable for scripts.

-u, --uuid, --id uuid

Filter the output to a specified uuid.

-o, --output field[,field...]

Display only the specified fields. Possible fields are:
uuid - snapshot’s UUID;
parent_uuid - snapshot’s parent UUID;
current - if this snapshot is the current one;
fname - snapshot image file name.

Image copying

ploop copy is a mechanism of effective copying of a top ploop image with the help of build-in ploop kernel driver feature called write tracker. Write tracker is a feature that lets ploop copy to iteratively obtain a list of modified image blocks from the kernel. Two ploop copy processes are required for iterative top delta transfer. These are used by vzmigrate(8).

copy (sending)

ploop copy

-s device [-F stop_command] [-d file]

This command enables the in-kernel write tracker for the specified ploop device, then sends all the data blocks from the top delta image to stdout (supposedly read by destination ploop copy) or a file. After that, it iteratively gets the list of the modified data blocks from the kernel and sends those blocks again. After a number of iterations (or when the list is empty), it executes the stop_command (this could be vzctl stop or vzctl chkpnt) and does the last iteration of sending the modified data blocks. Finally, it checks that the data were not modified, error is returned otherwise.

copy (receiving)

ploop copy

-d file

Reads the data block (provided by the source ploop copy) from the stdin and writes them to the file.

Ballooning

Since there is no online shrink support in ext4 file system, ploop internally uses a technique called "ballooning" as a work around to shrink its images.

Ballooning operation consists of inflating a special balloon file (invisible for ordinary users), loading fiemap info of the inflated balloon to the kernel, relocating blocks of the image file from the tail to the space specified by fiemap info, and truncating the tail of the image file. Result is the image file of a smaller size.

However, it is quite possible that inflated balloon file will only span blocks that were never touched before. Those will look like "not allocated" space from the kernel ploop point of view. In this case nothing will be relocated and nothing truncated.

So, if balloon operation succeeded, it’s only guaranteed that a user of ploop device won’t be able to consume more space than the initial block device size minus the size of the inflated balloon. On the other hand, if a user of block device used a lot of space on it, then freed the significant part of used space, balloon operation will result in significant truncate of image file.

All the ploop ballooning logic is hidden from the end user, so while a number of low-level commands exist for working with ploop ballooning, those are not needed and therefore are not documented here, except for a single command.

balloon discard

In a situation when a lot of disk space were freed on an in-ploop filesystem, use ploop balloon discard to optimize the ploop image size.

ploop balloon discard

[--automount] [--to-free size] [--min-block min_size] DiskDescriptor.xml

Iteratively try to relocate and discard unused blocks from a ploop image, reducing its size.

Note that ploop device and its inner file system should be mounted. If not, one can use --automount option to automatically mount ploop for the duration of the operation.

Option --to-free can be used to specify a maximum disk space to be freed. In other words, stop the process once freed space exceeded requested size. Default is 0, meaning to try to free as much space as possible.

Option --min-block can be used to specify a minimum size of an extent to free. The smallest possible extent is 1 cluster (currently 1 MB), one can specify higher value to speed up the whole discarding operation.

Note that the same functionality is available by means of vzctl compact command.

Image formats

following image formats are currently supported.

raw

Raw format, with 1:1 mapping between the image file and the ploop device.

ploop1expanded

Expanded format. The image will grow according to the needs of the underlying file system. This format is the default. Names ’ploop1’ and ’expanded’ are aliases.

preallocated

This is the same as ’ploop1’ or ’expanded’, the only difference is all the file blocks are allocated during creation.

EXIT STATUS

ploop exits with status 0 in case of successful execution. Any status greater than 0 signifies an error.
1
SYSEXIT_CREAT

Error creating a file.

2SYSEXIT_DEVICE

Error getting or opening a ploop device.

3SYSEXIT_DEVIOC

Error doing ioctl(2) on ploop device.

4SYSEXIT_OPEN

Error opening a file.

5SYSEXIT_MALLOC

Not enough memory (error from malloc(3), realloc(3), calloc(3), or posix_memalign(3)).

6SYSEXIT_READ

Error during read.

7SYSEXIT_WRITE

Error during write.

9SYSEXIT_SYSFS

Error reading from a sysfs file (usually under /sys/block/ploop...).

11SYSEXIT_PLOOPFMT

Corrupted ploop image detected.

12SYSEXIT_SYS

Other system error.

13SYSEXIT_PROTOCOL

Broken protocol (unexpected value received).

14SYSEXIT_LOOP

pcopy command can’t finalize copying (frozen filesystem is changing).

15SYSEXIT_FSTAT

Error from stat(2), fstat(2), or statfs(2).

16SYSEXIT_FSYNC

Error from fsync(2) or syncfs(2).

17SYSEXIT_EBUSY

Can’t continue, another operation is in progress.

18SYSEXIT_FLOCK

Error from flock(2).

19SYSEXIT_FTRUNCATE

Error from ftruncate(2) or truncate(2).

20SYSEXIT_FALLOCATE

Error from fallocate(2).

21SYSEXIT_MOUNT

Can’t mount ploop image or file system.

22SYSEXIT_UMOUNT

Can’t unmount ploop image or file system.

23SYSEXIT_LOCK

Locking failed (another operation in progress?).

24SYSEXIT_MKFS

Can’t create file system.

26SYSEXIT_RESIZE_FS

Utility resizefs failed.

27SYSEXIT_MKDIR

Error from mkdir(2).

28SYSEXIT_RENAME

Error from rename(2).

29SYSEXIT_ABORT

Operation aborted.

30SYSEXIT_RELOC

Block relocation failed.

33SYSEXIT_CHANGE_GPT

Error resizing GPT partition table.

35SYSEXIT_UNLINK

Error from unlink(2).

36SYSEXIT_MKNOD

Error from mknod(2).

37SYSEXIT_PLOOPINUSE

Image is already in use.

38SYSEXIT_PARAM

Invalid parameter.

39SYSEXIT_DISKDESCR

Problem with DiskDescriptor.xml file.

40SYSEXIT_DEV_NOT_MOUNTED

Ploop image is not mounted.

41SYSEXIT_FSCK

Error from fsck(8).

SEE ALSO