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xfs_rtcp(8) [debian man page]

xfs_rtcp(8)						      System Manager's Manual						       xfs_rtcp(8)

NAME
xfs_rtcp - XFS realtime copy command SYNOPSIS
xfs_rtcp [ -e extsize ] [ -p ] source ... target DESCRIPTION
xfs_rtcp copies a file to the realtime partition on an XFS filesystem. If there is more than one source and target, the final argument (the target) must be a directory which already exists. OPTIONS
-e extsize Sets the extent size of the destination realtime file. -p Use if the size of the source file is not an even multiple of the block size of the destination filesystem. When -p is specified xfs_rtcp will pad the destination file to a size which is an even multiple of the filesystem block size. This is necessary since the realtime file is created using direct I/O and the minimum I/O is the filesystem block size. SEE ALSO
xfs(5), mkfs.xfs(8), mount(8). CAVEATS
Currently, realtime partitions are not supported under the Linux version of XFS, and use of a realtime partition WILL CAUSE CORRUPTION on the data partition. As such, this command is made available for curious DEVELOPERS ONLY at this point in time. xfs_rtcp(8)

Check Out this Related Man Page

xfs(5)								File Formats Manual							    xfs(5)

NAME
xfs - layout of the XFS filesystem DESCRIPTION
An XFS filesystem can reside on a regular disk partition or on a logical volume. An XFS filesystem has up to three parts: a data section, a log section, and a realtime section. Using the default mkfs.xfs(8) options, the realtime section is absent, and the log area is con- tained within the data section. The log section can be either separate from the data section or contained within it. The filesystem sec- tions are divided into a certain number of blocks, whose size is specified at mkfs.xfs(8) time with the -b option. The data section contains all the filesystem metadata (inodes, directories, indirect blocks) as well as the user file data for ordinary (non-realtime) files and the log area if the log is internal to the data section. The data section is divided into a number of allocation groups. The number and size of the allocation groups are chosen by mkfs.xfs(8) so that there is normally a small number of equal-sized groups. The number of allocation groups controls the amount of parallelism available in file and block allocation. It should be increased from the default if there is sufficient memory and a lot of allocation activity. The number of allocation groups should not be set very high, since this can cause large amounts of CPU time to be used by the filesystem, especially when the filesystem is nearly full. More allocation groups are added (of the original size) when xfs_growfs(8) is run. The log section (or area, if it is internal to the data section) is used to store changes to filesystem metadata while the filesystem is running until those changes are made to the data section. It is written sequentially during normal operation and read only during mount. When mounting a filesystem after a crash, the log is read to complete operations that were in progress at the time of the crash. The realtime section is used to store the data of realtime files. These files had an attribute bit set through xfsctl(3) after file cre- ation, before any data was written to the file. The realtime section is divided into a number of extents of fixed size (specified at mkfs.xfs(8) time). Each file in the realtime section has an extent size that is a multiple of the realtime section extent size. Each allocation group contains several data structures. The first sector contains the superblock. For allocation groups after the first, the superblock is just a copy and is not updated after mkfs.xfs(8). The next three sectors contain information for block and inode alloca- tion within the allocation group. Also contained within each allocation group are data structures to locate free blocks and inodes; these are located through the header structures. Each XFS filesystem is labeled with a Universal Unique Identifier (UUID). The UUID is stored in every allocation group header and is used to help distinguish one XFS filesystem from another, therefore you should avoid using dd(1) or other block-by-block copying programs to copy XFS filesystems. If two XFS filesystems on the same machine have the same UUID, xfsdump(8) may become confused when doing incremental and resumed dumps. xfsdump(8) and xfsrestore(8) are recommended for making copies of XFS filesystems. OPERATIONS
Some functionality specific to the XFS filesystem is accessible to applications through the xfsctl(3) and by-handle (see open_by_handle(3)) interfaces. MOUNT OPTIONS
Refer to the mount(8) manual entry for descriptions of the individual XFS mount options. SEE ALSO
xfsctl(3), mount(8), mkfs.xfs(8), xfs_info(8), xfs_admin(8), xfsdump(8), xfsrestore(8). xfs(5)
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