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/dev/ufsid/486b6fc38d330916 /var ufs rw 2 2
/dev/ufsid/486b6fc16926168e /usr ufs rw 2 2
Any partitions with <literal>ufsid</literal> labels can be mounted in this way, eliminating the need to manually create permanent labels, while still enjoying the benefits of device name independent mounting.
UFS Journaling Through <acronym>GEOM</acronym>
Support for journals on <acronym>UFS</acronym> file systems is available on FreeBSD. The implementation is provided through the <acronym>GEOM</acronym> subsystem and is configured using <command>gjournal</command>. Unlike other file system journaling implementations, the <command>gjournal</command> method is block based and not implemented as part of the file system. It is a <acronym>GEOM</acronym> extension.
Journaling stores a log of file system transactions, such as changes that make up a complete disk write operation, before meta-data and file writes are committed to the disk. This transaction log can later be replayed to redo file system transactions, preventing file system inconsistencies.
This method provides another mechanism to protect against data loss and inconsistencies of the file system. Unlike Soft Updates, which tracks and enforces meta-data updates, and snapshots, which create an image of the file system, a log is stored in disk space specifically for this task. For better performance, the journal may be stored on another disk. In this configuration, the journal provider or storage device should be listed after the device to enable journaling on.
The <filename>GENERIC</filename> kernel provides support for <command>gjournal</command>. To automatically load the <filename>geom_journal.ko</filename> kernel module at boot time, add the following line to <filename>/boot/loader.conf</filename>:
If a custom kernel is used, ensure the following line is in the kernel configuration file:
Once the module is loaded, a journal can be created on a new file system using the following steps. In this example, <filename>da4</filename> is a new <acronym>SCSI</acronym> disk:
<prompt>#</prompt> <userinput>gjournal load</userinput>
<prompt>#</prompt> <userinput>gjournal label /dev/<replaceable>da4</replaceable></userinput>
This will load the module and create a <filename>/dev/da4.journal</filename> device node on <filename>/dev/da4</filename>.
A <acronym>UFS</acronym> file system may now be created on the journaled device, then mounted on an existing mount point:
<prompt>#</prompt> <userinput>newfs -O 2 -J /dev/<replaceable>da4</replaceable>.journal</userinput>
<prompt>#</prompt> <userinput>mount /dev/<replaceable>da4</replaceable>.journal <replaceable>/mnt</replaceable></userinput>
In the case of several slices, a journal will be created for each individual slice. For instance, if <filename>ad4s1</filename> and <filename>ad4s2</filename> are both slices, then <command>gjournal</command> will create <filename>ad4s1.journal</filename> and <filename>ad4s2.journal</filename>.
Journaling may also be enabled on current file systems by using <command>tunefs</command>. However, <emphasis>always</emphasis> make a backup before attempting to alter an existing file system. In most cases, <command>gjournal</command> will fail if it is unable to create the journal, but this does not protect against data loss incurred as a result of misusing <command>tunefs</command>. Refer to <citerefentry><refentrytitle>gjournal</refentrytitle><manvolnum>8</manvolnum></citerefentry> and <citerefentry><refentrytitle>tunefs</refentrytitle><manvolnum>8</manvolnum></citerefentry> for more information about these commands.
It is possible to journal the boot disk of a FreeBSD system. Refer to the article <link xlink:href="@@URL_RELPREFIX@@/doc/en_US.ISO8859-1/articles/gjournal-desktop">Implementing UFS Journaling on a Desktop PC</link> for detailed instructions.
The Z File System (<acronym>ZFS</acronym>)
<personname> <firstname>Allan</firstname> <surname>Jude</surname> </personname> <contrib>Written by </contrib>
<personname> <firstname>Benedict</firstname> <surname>Reuschling</surname> </personname> <contrib>Written by </contrib>
<personname> <firstname>Warren</firstname> <surname>Block</surname> </personname> <contrib>Written by </contrib>
The <emphasis>Z File System</emphasis>, or <acronym>ZFS</acronym>, is an advanced file system designed to overcome many of the major problems found in previous designs.
Originally developed at <trademark>Sun</trademark>, ongoing open source <acronym>ZFS</acronym> development has moved to the <link xlink:href="">OpenZFS Project</link>.
<acronym>ZFS</acronym> has three major design goals:
Data integrity: All data includes a <link linkend="zfs-term-checksum">checksum</link> of the data. When data is written, the checksum is calculated and written along with it. When that data is later read back, the checksum is calculated again. If the checksums do not match, a data error has been detected. <acronym>ZFS</acronym> will attempt to automatically correct errors when data redundancy is available.
Pooled storage: physical storage devices are added to a pool, and storage space is allocated from that shared pool. Space is available to all file systems, and can be increased by adding new storage devices to the pool.
Performance: multiple caching mechanisms provide increased performance. <link linkend="zfs-term-arc">ARC</link> is an advanced memory-based read cache. A second level of disk-based read cache can be added with <link linkend="zfs-term-l2arc">L2ARC</link>, and disk-based synchronous write cache is available with <link linkend="zfs-term-zil">ZIL</link>.
A complete list of features and terminology is shown in <xref linkend="zfs-term"/>.
What Makes <acronym>ZFS</acronym> Different


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(itstool) path: sect1/screen
no-wrap, read-only
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a year ago
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a year ago
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books/handbook.pot, string 6253