Translation

(itstool) path: sect1/para
<acronym>ZFS</acronym> is significantly different from any previous file system because it is more than just a file system. Combining the traditionally separate roles of volume manager and file system provides <acronym>ZFS</acronym> with unique advantages. The file system is now aware of the underlying structure of the disks. Traditional file systems could only be created on a single disk at a time. If there were two disks then two separate file systems would have to be created. In a traditional hardware <acronym>RAID</acronym> configuration, this problem was avoided by presenting the operating system with a single logical disk made up of the space provided by a number of physical disks, on top of which the operating system placed a file system. Even in the case of software <acronym>RAID</acronym> solutions like those provided by <acronym>GEOM</acronym>, the <acronym>UFS</acronym> file system living on top of the <acronym>RAID</acronym> transform believed that it was dealing with a single device. <acronym>ZFS</acronym>'s combination of the volume manager and the file system solves this and allows the creation of many file systems all sharing a pool of available storage. One of the biggest advantages to <acronym>ZFS</acronym>'s awareness of the physical layout of the disks is that existing file systems can be grown automatically when additional disks are added to the pool. This new space is then made available to all of the file systems. <acronym>ZFS</acronym> also has a number of different properties that can be applied to each file system, giving many advantages to creating a number of different file systems and datasets rather than a single monolithic file system.
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Context English Turkish (tr_TR) State
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>. Birkaç dilim durumunda, her bir dilim için bir günlük oluşturulacaktır. Örneğin, <filename> ad4s1 </filename> ve <filename> ad4s2 </filename> her iki dilimse <command> gjournal </command> <filename> ad4s1.journal </filename> ve <filename> öğelerini oluşturur 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. Günlük kaydı, <command> tunefs </command> kullanılarak mevcut dosya sistemlerinde de etkinleştirilebilir. Ancak, <emphasis> her zaman </emphasis> mevcut bir dosya sistemini değiştirmeye çalışmadan önce bir yedek oluşturur. Çoğu durumda, günlük oluşturamazsa <command> gjournal </command> başarısız olur, ancak bu, <command> tunefs </command> 'in yanlış kullanımı sonucu oluşan veri kaybına karşı koruma sağlamaz. <citerefentry><refentrytitle>gjournal</refentrytitle><manvolnum>8</manvolnum> </citerefentry><manvolnum>it<verenum>8</olfentrytitle><manvolnum> 8</olfentrytitle><manvolnum> bu komutlar hakkında daha fazla bilgi.
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. FreeBSD sisteminin önyükleme diskini günlüğe kaydetmek mümkündür. Ayrıntılı talimatlar için <link xlink: href = "@@ URL_RELPREFIX @@ / doc / en_US.ISO8859-1 / article / gjournal-desktop"> UFS Günlük Kaydını Masaüstü PC </link> makalesine bakın.
The Z File System (<acronym>ZFS</acronym>) Z Dosya Sistemi (<acronym>ZFS</acronym>)
<personname> <firstname>Allan</firstname> <surname>Jude</surname> </personname> <contrib>Written by </contrib> <personname> <firstname>Allan</firstname> <surname>Jude</surname> </personname> <contrib>Yazan</contrib>
<personname> <firstname>Benedict</firstname> <surname>Reuschling</surname> </personname> <contrib>Written by </contrib> <personname> <firstname>Benedict</firstname> <surname>Reuschling</surname> </personname> <contrib>Yazan </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="http://open-zfs.org">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
<acronym>ZFS</acronym> is significantly different from any previous file system because it is more than just a file system. Combining the traditionally separate roles of volume manager and file system provides <acronym>ZFS</acronym> with unique advantages. The file system is now aware of the underlying structure of the disks. Traditional file systems could only be created on a single disk at a time. If there were two disks then two separate file systems would have to be created. In a traditional hardware <acronym>RAID</acronym> configuration, this problem was avoided by presenting the operating system with a single logical disk made up of the space provided by a number of physical disks, on top of which the operating system placed a file system. Even in the case of software <acronym>RAID</acronym> solutions like those provided by <acronym>GEOM</acronym>, the <acronym>UFS</acronym> file system living on top of the <acronym>RAID</acronym> transform believed that it was dealing with a single device. <acronym>ZFS</acronym>'s combination of the volume manager and the file system solves this and allows the creation of many file systems all sharing a pool of available storage. One of the biggest advantages to <acronym>ZFS</acronym>'s awareness of the physical layout of the disks is that existing file systems can be grown automatically when additional disks are added to the pool. This new space is then made available to all of the file systems. <acronym>ZFS</acronym> also has a number of different properties that can be applied to each file system, giving many advantages to creating a number of different file systems and datasets rather than a single monolithic file system.
Quick Start Guide
There is a startup mechanism that allows FreeBSD to mount <acronym>ZFS</acronym> pools during system initialization. To enable it, add this line to <filename>/etc/rc.conf</filename>:
zfs_enable="YES"
Then start the service:
<prompt>#</prompt> <userinput>service zfs start</userinput>
The examples in this section assume three <acronym>SCSI</acronym> disks with the device names <filename><replaceable>da0</replaceable></filename>, <filename><replaceable>da1</replaceable></filename>, and <filename><replaceable>da2</replaceable></filename>. Users of <acronym>SATA</acronym> hardware should instead use <filename><replaceable>ada</replaceable></filename> device names.
Single Disk Pool
To create a simple, non-redundant pool using a single disk device:
<prompt>#</prompt> <userinput>zpool create <replaceable>example</replaceable> <replaceable>/dev/da0</replaceable></userinput>
To view the new pool, review the output of <command>df</command>:
<prompt>#</prompt> <userinput>df</userinput>
Filesystem 1K-blocks Used Avail Capacity Mounted on
/dev/ad0s1a 2026030 235230 1628718 13% /
devfs 1 1 0 100% /dev
/dev/ad0s1d 54098308 1032846 48737598 2% /usr
example 17547136 0 17547136 0% /example
This output shows that the <literal>example</literal> pool has been created and mounted. It is now accessible as a file system. Files can be created on it and users can browse it:
<prompt>#</prompt> <userinput>cd /example</userinput>
<prompt>#</prompt> <userinput>ls</userinput>
<prompt>#</prompt> <userinput>touch testfile</userinput>
<prompt>#</prompt> <userinput>ls -al</userinput>
total 4
drwxr-xr-x 2 root wheel 3 Aug 29 23:15 .
drwxr-xr-x 21 root wheel 512 Aug 29 23:12 ..
-rw-r--r-- 1 root wheel 0 Aug 29 23:15 testfile
However, this pool is not taking advantage of any <acronym>ZFS</acronym> features. To create a dataset on this pool with compression enabled:
<prompt>#</prompt> <userinput>zfs create example/compressed</userinput>
<prompt>#</prompt> <userinput>zfs set compression=gzip example/compressed</userinput>

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Glossary

English Turkish (tr_TR)
base system temel sistem FreeBSD Doc
boot disk önyükleme diski FreeBSD Doc
boot manager önyükleme yöneticisi FreeBSD Doc
boot time önyükleme zamanı FreeBSD Doc
Bundled software donanımla gelen yazılım FreeBSD Doc
compilation time derleme süresi FreeBSD Doc
Computer hardware companies Bilgisayar donanım şirketleri FreeBSD Doc
configuration yapı bilgileri FreeBSD Doc
credential file kimlik bilgileri dosyası FreeBSD Doc
dataset veri kümesi FreeBSD Doc
device aygıt FreeBSD Doc
device aygıt FreeBSD Doc
device node aygıt düğümü FreeBSD Doc
device node aygıt düğümü FreeBSD Doc
disk space disk alanı FreeBSD Doc
display manager görüntü yöneticisi FreeBSD Doc
Extended (Ext) File System Genişletilmiş Dosya Sistemi FreeBSD Doc
file system dosya sistemi FreeBSD Doc
hardware donanım FreeBSD Doc
Hardware architecture Donanım mimarisi FreeBSD Doc
Hardware business donanım işi FreeBSD Doc
home storage ev depolama FreeBSD Doc
host system ana bilgisayar sistemi FreeBSD Doc
log file sistem günlük dosyası FreeBSD Doc
logical partition lojik bölümü FreeBSD Doc
login manager giriş yöneticisi FreeBSD Doc
malicious software kötü amaçlı yazılım FreeBSD Doc
native file system yerel dosya sistemi FreeBSD Doc
network file system ağ dosya sistemi FreeBSD Doc
operating system işletim sistemi FreeBSD Doc
plain text file düz metin dosyası FreeBSD Doc
Provided sağlamak FreeBSD Doc
Raw device depolama aygıtına doğrudan erişilmesini sağlayan bir karakter aygıtı dosyasıyla ilişkili özel bir tür FreeBSD Doc
Sharing paylaşım FreeBSD Doc
single drive tekli-sürücü FreeBSD Doc
software program,yazılım FreeBSD Doc
Software Yazılım FreeBSD Doc
storage depolama FreeBSD Doc
structure yapı FreeBSD Doc
supported file system desteklenen dosya sistemi FreeBSD Doc
swap file getir götür kütüğü FreeBSD Doc
system administration Sistem Yönetimi FreeBSD Doc
system call sistem çağrısı FreeBSD Doc
system collapsing sistem çökmesi FreeBSD Doc
timeout, time out zaman aşımı FreeBSD Doc
volume seri FreeBSD Doc
window manager pencere yöneticisi FreeBSD Doc

Source information

Source string comment
(itstool) path: sect1/para
Source string location
book.translate.xml:37589
String age
6 months ago
Source string age
a year ago
Translation file
books/tr_TR/handbook.po, string 6269