ac077df819
PR: 33391 Submitted by: Ceri <setantae@submonkey.net>
809 lines
28 KiB
Groff
809 lines
28 KiB
Groff
.\" Copyright (c) 2001, Matthew Dillon. Terms and conditions are those of
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.\" the BSD Copyright as specified in the file "/usr/src/COPYRIGHT" in
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.\" the source tree.
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.\"
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.\" $FreeBSD$
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.\"
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.Dd May 25, 2001
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.Dt TUNING 7
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.Os
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.Sh NAME
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.Nm tuning
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.Nd performance tuning under FreeBSD
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.Sh SYSTEM SETUP - DISKLABEL, NEWFS, TUNEFS, SWAP
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When using
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.Xr disklabel 8
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or
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.Xr sysinstall 8
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to lay out your filesystems on a hard disk it is important to remember
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that hard drives can transfer data much more quickly from outer tracks
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than they can from inner tracks.
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To take advantage of this you should
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try to pack your smaller filesystems and swap closer to the outer tracks,
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follow with the larger filesystems, and end with the largest filesystems.
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It is also important to size system standard filesystems such that you
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will not be forced to resize them later as you scale the machine up.
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I usually create, in order, a 128M root, 1G swap, 128M
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.Pa /var ,
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128M
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.Pa /var/tmp ,
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3G
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.Pa /usr ,
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and use any remaining space for
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.Pa /home .
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.Pp
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You should typically size your swap space to approximately 2x main memory.
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If you do not have a lot of RAM, though, you will generally want a lot
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more swap.
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It is not recommended that you configure any less than
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256M of swap on a system and you should keep in mind future memory
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expansion when sizing the swap partition.
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The kernel's VM paging algorithms are tuned to perform best when there is
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at least 2x swap versus main memory.
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Configuring too little swap can lead
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to inefficiencies in the VM page scanning code as well as create issues
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later on if you add more memory to your machine.
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Finally, on larger systems
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with multiple SCSI disks (or multiple IDE disks operating on different
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controllers), we strongly recommend that you configure swap on each drive
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(up to four drives).
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The swap partitions on the drives should be approximately the same size.
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The kernel can handle arbitrary sizes but
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internal data structures scale to 4 times the largest swap partition.
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Keeping
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the swap partitions near the same size will allow the kernel to optimally
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stripe swap space across the N disks.
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Do not worry about overdoing it a
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little, swap space is the saving grace of
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.Ux
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and even if you do not normally use much swap, it can give you more time to
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recover from a runaway program before being forced to reboot.
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.Pp
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How you size your
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.Pa /var
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partition depends heavily on what you intend to use the machine for.
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This
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partition is primarily used to hold mailboxes, the print spool, and log
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files.
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Some people even make
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.Pa /var/log
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its own partition (but except for extreme cases it is not worth the waste
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of a partition ID).
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If your machine is intended to act as a mail
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or print server,
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or you are running a heavily visited web server, you should consider
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creating a much larger partition \(en perhaps a gig or more.
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It is very easy
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to underestimate log file storage requirements.
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.Pp
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Sizing
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.Pa /var/tmp
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depends on the kind of temporary file usage you think you will need.
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128M is
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the minimum we recommend.
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Also note that sysinstall will create a
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.Pa /tmp
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directory, but it is usually a good idea to make
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.Pa /tmp
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a softlink to
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.Pa /var/tmp
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after the fact.
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Dedicating a partition for temporary file storage is important for
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two reasons: first, it reduces the possibility of filesystem corruption
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in a crash, and second it reduces the chance of a runaway process that
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fills up
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.Oo Pa /var Oc Ns Pa /tmp
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from blowing up more critical subsystems (mail,
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logging, etc).
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Filling up
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.Oo Pa /var Oc Ns Pa /tmp
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is a very common problem to have.
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.Pp
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In the old days there were differences between
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.Pa /tmp
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and
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.Pa /var/tmp ,
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but the introduction of
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.Pa /var
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(and
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.Pa /var/tmp )
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led to massive confusion
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by program writers so today programs haphazardly use one or the
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other and thus no real distinction can be made between the two.
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So it makes sense to have just one temporary directory.
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However you handle
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.Pa /tmp ,
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the one thing you do not want to do is leave it sitting
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on the root partition where it might cause root to fill up or possibly
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corrupt root in a crash/reboot situation.
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.Pp
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The
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.Pa /usr
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partition holds the bulk of the files required to support the system and
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a subdirectory within it called
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.Pa /usr/local
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holds the bulk of the files installed from the
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.Xr ports 7
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hierarchy.
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If you do not use ports all that much and do not intend to keep
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system source
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.Pq Pa /usr/src
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on the machine, you can get away with
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a 1 gigabyte
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.Pa /usr
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partition.
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However, if you install a lot of ports
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(especially window managers and Linux-emulated binaries), we recommend
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at least a 2 gigabyte
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.Pa /usr
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and if you also intend to keep system source
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on the machine, we recommend a 3 gigabyte
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.Pa /usr .
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Do not underestimate the
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amount of space you will need in this partition, it can creep up and
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surprise you!
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.Pp
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The
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.Pa /home
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partition is typically used to hold user-specific data.
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I usually size it to the remainder of the disk.
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.Pp
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Why partition at all?
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Why not create one big
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.Pa /
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partition and be done with it?
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Then I do not have to worry about undersizing things!
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Well, there are several reasons this is not a good idea.
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First,
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each partition has different operational characteristics and separating them
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allows the filesystem to tune itself to those characteristics.
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For example,
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the root and
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.Pa /usr
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partitions are read-mostly, with very little writing, while
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a lot of reading and writing could occur in
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.Pa /var
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and
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.Pa /var/tmp .
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By properly
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partitioning your system fragmentation introduced in the smaller more
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heavily write-loaded partitions will not bleed over into the mostly-read
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partitions.
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Additionally, keeping the write-loaded partitions closer to
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the edge of the disk (i.e. before the really big partitions instead of after
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in the partition table) will increase I/O performance in the partitions
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where you need it the most.
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Now it is true that you might also need I/O
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performance in the larger partitions, but they are so large that shifting
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them more towards the edge of the disk will not lead to a significant
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performance improvement whereas moving
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.Pa /var
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to the edge can have a huge impact.
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Finally, there are safety concerns.
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Having a small neat root partition that
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is essentially read-only gives it a greater chance of surviving a bad crash
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intact.
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.Pp
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Properly partitioning your system also allows you to tune
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.Xr newfs 8 ,
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and
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.Xr tunefs 8
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parameters.
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Tuning
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.Xr newfs 8
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requires more experience but can lead to significant improvements in
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performance.
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There are three parameters that are relatively safe to tune:
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.Em blocksize , bytes/i-node ,
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and
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.Em cylinders/group .
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.Pp
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.Fx
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performs best when using 8K or 16K filesystem block sizes.
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The default filesystem block size is 16K,
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which provides best performance for most applications,
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with the exception of those that perform random access on large files
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(such as database server software).
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Such applications tend to perform better with a smaller block size,
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although modern disk characteristics are such that the performance
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gain from using a smaller block size may not be worth consideration.
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Using a block size larger than 16K
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can cause fragmentation of the buffer cache and
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lead to lower performance.
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.Pp
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The defaults may be unsuitable
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for a filesystem that requires a very large number of i-nodes
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or is intended to hold a large number of very small files.
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Such a filesystem should be created with an 8K or 4K block size.
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This also requires you to specify a smaller
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fragment size.
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We recommend always using a fragment size that is 1/8
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the block size (less testing has been done on other fragment size factors).
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The
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.Xr newfs 8
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options for this would be
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.Dq Li "newfs -f 1024 -b 8192 ..." .
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.Pp
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If a large partition is intended to be used to hold fewer, larger files, such
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as a database files, you can increase the
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.Em bytes/i-node
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ratio which reduces the number of i-nodes (maximum number of files and
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directories that can be created) for that partition.
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Decreasing the number
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of i-nodes in a filesystem can greatly reduce
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.Xr fsck 8
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recovery times after a crash.
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Do not use this option
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unless you are actually storing large files on the partition, because if you
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overcompensate you can wind up with a filesystem that has lots of free
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space remaining but cannot accommodate any more files.
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Using 32768, 65536, or 262144 bytes/i-node is recommended.
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You can go higher but
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it will have only incremental effects on
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.Xr fsck 8
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recovery times.
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For example,
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.Dq Li "newfs -i 32768 ..." .
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.Pp
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.Xr tunefs 8
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may be used to further tune a filesystem.
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This command can be run in
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single-user mode without having to reformat the filesystem.
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However, this is possibly the most abused program in the system.
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Many people attempt to
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increase available filesystem space by setting the min-free percentage to 0.
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This can lead to severe filesystem fragmentation and we do not recommend
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that you do this.
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Really the only
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.Xr tunefs 8
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option worthwhile here is turning on
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.Em softupdates
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with
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.Dq Li "tunefs -n enable /filesystem" .
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(Note: in
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.Fx
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4.5
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and later, softupdates can be turned on using the
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.Fl U
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option to
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.Xr newfs 8 ,
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and
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.Xr sysinstall 8
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will typically enable softupdates automatically for non-root filesystems).
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Softupdates drastically improves meta-data performance, mainly file
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creation and deletion.
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We recommend enabling softupdates on most filesystems; however, there
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are two limitations to softupdates that you should be aware of when
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determining whether to use it on a filesystem.
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First, softupdates guarantees filesystem consistency in the
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case of a crash but could very easily be several seconds (even a minute!)
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behind updating the physical disk.
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If you crash you may lose more work
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than otherwise.
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Secondly, softupdates delays the freeing of filesystem
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blocks.
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If you have a filesystem (such as the root filesystem) which is
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close to full, doing a major update of it, e.g.\&
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.Dq Li "make installworld" ,
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can run it out of space and cause the update to fail.
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.Pp
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A number of run-time
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.Xr mount 8
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options exist that can help you tune the system.
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For this reason, softupdates will not be enabled on the root file system
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during a typical install.
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The most obvious and most dangerous one is
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.Cm async .
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Do not ever use it, it is far too dangerous.
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A less dangerous and more
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useful
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.Xr mount 8
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option is called
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.Cm noatime .
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.Ux
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filesystems normally update the last-accessed time of a file or
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directory whenever it is accessed.
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This operation is handled in
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.Fx
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with a delayed write and normally does not create a burden on the system.
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However, if your system is accessing a huge number of files on a continuing
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basis the buffer cache can wind up getting polluted with atime updates,
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creating a burden on the system.
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For example, if you are running a heavily
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loaded web site, or a news server with lots of readers, you might want to
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consider turning off atime updates on your larger partitions with this
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.Xr mount 8
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option.
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However, you should not gratuitously turn off atime
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updates everywhere.
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For example, the
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.Pa /var
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filesystem customarily
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holds mailboxes, and atime (in combination with mtime) is used to
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determine whether a mailbox has new mail.
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You might as well leave
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atime turned on for mostly read-only partitions such as
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.Pa /
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and
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.Pa /usr
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as well.
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This is especially useful for
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.Pa /
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since some system utilities
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use the atime field for reporting.
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.Sh STRIPING DISKS
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In larger systems you can stripe partitions from several drives together
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to create a much larger overall partition.
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Striping can also improve
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the performance of a filesystem by splitting I/O operations across two
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or more disks.
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The
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.Xr vinum 8
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and
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.Xr ccdconfig 8
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utilities may be used to create simple striped filesystems.
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Generally
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speaking, striping smaller partitions such as the root and
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.Pa /var/tmp ,
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or essentially read-only partitions such as
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.Pa /usr
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is a complete waste of time.
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You should only stripe partitions that require serious I/O performance,
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typically
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.Pa /var , /home ,
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or custom partitions used to hold databases and web pages.
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Choosing the proper stripe size is also
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important.
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Filesystems tend to store meta-data on power-of-2 boundaries
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and you usually want to reduce seeking rather than increase seeking.
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This
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means you want to use a large off-center stripe size such as 1152 sectors
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so sequential I/O does not seek both disks and so meta-data is distributed
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across both disks rather than concentrated on a single disk.
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If
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you really need to get sophisticated, we recommend using a real hardware
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RAID controller from the list of
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.Fx
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supported controllers.
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.Sh SYSCTL TUNING
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.Xr sysctl 8
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variables permit system behavior to be monitored and controlled at
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run-time.
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Some sysctls simply report on the behavior of the system; others allow
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the system behavior to be modified;
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some may be set at boot time using
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.Xr rc.conf 5 ,
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but most will be set via
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.Xr sysctl.conf 5 .
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There are several hundred sysctls in the system, including many that appear
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to be candidates for tuning but actually are not.
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In this document we will only cover the ones that have the greatest effect
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on the system.
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.Pp
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The
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.Va kern.ipc.shm_use_phys
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sysctl defaults to 0 (off) and may be set to 0 (off) or 1 (on).
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Setting
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this parameter to 1 will cause all System V shared memory segments to be
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mapped to unpageable physical RAM.
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This feature only has an effect if you
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are either (A) mapping small amounts of shared memory across many (hundreds)
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of processes, or (B) mapping large amounts of shared memory across any
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number of processes.
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This feature allows the kernel to remove a great deal
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of internal memory management page-tracking overhead at the cost of wiring
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the shared memory into core, making it unswappable.
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.Pp
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The
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.Va vfs.vmiodirenable
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sysctl defaults to 1 (on).
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This parameter controls how directories are cached
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by the system.
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Most directories are small and use but a single fragment
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(typically 1K) in the filesystem and even less (typically 512 bytes) in
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the buffer cache.
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However, when operating in the default mode the buffer
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cache will only cache a fixed number of directories even if you have a huge
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amount of memory.
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Turning on this sysctl allows the buffer cache to use
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the VM Page Cache to cache the directories.
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The advantage is that all of
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memory is now available for caching directories.
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The disadvantage is that
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the minimum in-core memory used to cache a directory is the physical page
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size (typically 4K) rather than 512 bytes.
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We recommend turning this option off in memory-constrained environments;
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however, when on, it will substantially improve the performance of services
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that manipulate a large number of files.
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Such services can include web caches, large mail systems, and news systems.
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Turning on this option will generally not reduce performance even with the
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wasted memory but you should experiment to find out.
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.Pp
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There are various buffer-cache and VM page cache related sysctls.
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We do not recommend modifying these values.
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As of
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.Fx 4.3 ,
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the VM system does an extremely good job tuning itself.
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.Pp
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The
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.Va net.inet.tcp.sendspace
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and
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.Va net.inet.tcp.recvspace
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sysctls are of particular interest if you are running network intensive
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applications.
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This controls the amount of send and receive buffer space
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allowed for any given TCP connection.
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The default sending buffer is 32K; the default receiving buffer
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is 64K.
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You can often
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improve bandwidth utilization by increasing the default at the cost of
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eating up more kernel memory for each connection.
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We do not recommend
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increasing the defaults if you are serving hundreds or thousands of
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simultaneous connections because it is possible to quickly run the system
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out of memory due to stalled connections building up.
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But if you need
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high bandwidth over a fewer number of connections, especially if you have
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gigabit Ethernet, increasing these defaults can make a huge difference.
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You can adjust the buffer size for incoming and outgoing data separately.
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For example, if your machine is primarily doing web serving you may want
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to decrease the recvspace in order to be able to increase the
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sendspace without eating too much kernel memory.
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Note that the routing table (see
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.Xr route 8 )
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can be used to introduce route-specific send and receive buffer size
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defaults.
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.Pp
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As an additional management tool you can use pipes in your
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firewall rules (see
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.Xr ipfw 8 )
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to limit the bandwidth going to or from particular IP blocks or ports.
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For example, if you have a T1 you might want to limit your web traffic
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to 70% of the T1's bandwidth in order to leave the remainder available
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for mail and interactive use.
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Normally a heavily loaded web server
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will not introduce significant latencies into other services even if
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the network link is maxed out, but enforcing a limit can smooth things
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out and lead to longer term stability.
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Many people also enforce artificial
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bandwidth limitations in order to ensure that they are not charged for
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using too much bandwidth.
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.Pp
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Setting the send or receive TCP buffer to values larger then 65535 will result
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in a marginal performance improvement unless both hosts support the window
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scaling extension of the TCP protocol, which is controlled by the
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.Va net.inet.tcp.rfc1323
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sysctl.
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These extensions should be enabled and the TCP buffer size should be set
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to a value larger than 65536 in order to obtain good performance out of
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certain types of network links; specifically, gigabit WAN links and
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high-latency satellite links.
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RFC1323 support is enabled by default.
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.Pp
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The
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.Va net.inet.tcp.always_keepalive
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sysctl determines whether or not the TCP implementation should attempt
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to detect dead TCP connections by intermittently delivering
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.Dq keepalives
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on the connection.
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By default, this is enabled for all applications; by setting this
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sysctl to 0, only applications that specifically request keepalives
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will use them.
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In most environments, TCP keepalives will improve the management of
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system state by expiring dead TCP connections, particularly for
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systems serving dialup users who may not always terminate individual
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TCP connections before disconnecting from the network.
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However, in some environments, temporary network outages may be
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incorrectly identified as dead sessions, resulting in unexpectedly
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terminated TCP connections.
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In such environments, setting the sysctl to 0 may reduce the occurrence of
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TCP session disconnections.
|
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.Pp
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The
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.Va kern.ipc.somaxconn
|
|
sysctl limits the size of the listen queue for accepting new TCP connections.
|
|
The default value of 128 is typically too low for robust handling of new
|
|
connections in a heavily loaded web server environment.
|
|
For such environments,
|
|
we recommend increasing this value to 1024 or higher.
|
|
The service daemon
|
|
may itself limit the listen queue size (e.g.\&
|
|
.Xr sendmail 8 ,
|
|
apache) but will
|
|
often have a directive in its configuration file to adjust the queue size up.
|
|
Larger listen queues also do a better job of fending off denial of service
|
|
attacks.
|
|
.Pp
|
|
The
|
|
.Va kern.maxfiles
|
|
sysctl determines how many open files the system supports.
|
|
The default is
|
|
typically a few thousand but you may need to bump this up to ten or twenty
|
|
thousand if you are running databases or large descriptor-heavy daemons.
|
|
The read-only
|
|
.Va kern.openfiles
|
|
sysctl may be interrogated to determine the current number of open files
|
|
on the system.
|
|
.Pp
|
|
The
|
|
.Va vm.swap_idle_enabled
|
|
sysctl is useful in large multi-user systems where you have lots of users
|
|
entering and leaving the system and lots of idle processes.
|
|
Such systems
|
|
tend to generate a great deal of continuous pressure on free memory reserves.
|
|
Turning this feature on and adjusting the swapout hysteresis (in idle
|
|
seconds) via
|
|
.Va vm.swap_idle_threshold1
|
|
and
|
|
.Va vm.swap_idle_threshold2
|
|
allows you to depress the priority of pages associated with idle processes
|
|
more quickly then the normal pageout algorithm.
|
|
This gives a helping hand
|
|
to the pageout daemon.
|
|
Do not turn this option on unless you need it,
|
|
because the tradeoff you are making is to essentially pre-page memory sooner
|
|
rather then later, eating more swap and disk bandwidth.
|
|
In a small system
|
|
this option will have a detrimental effect but in a large system that is
|
|
already doing moderate paging this option allows the VM system to stage
|
|
whole processes into and out of memory more easily.
|
|
.Sh LOADER TUNABLES
|
|
Some aspects of the system behavior may not be tunable at runtime because
|
|
memory allocations they perform must occur early in the boot process.
|
|
To change loader tunables, you must set their values in
|
|
.Xr loader.conf 5
|
|
and reboot the system.
|
|
.Pp
|
|
.Va kern.maxusers
|
|
controls the scaling of a number of static system tables, including defaults
|
|
for the maximum number of open files, sizing of network memory resources, etc.
|
|
As of
|
|
.Fx 4.5 ,
|
|
.Va kern.maxusers
|
|
is automatically sized at boot based on the amount of memory available in
|
|
the system, and may be determined at run-time by inspecting the value of the
|
|
read-only
|
|
.Va kern.maxusers
|
|
sysctl.
|
|
Some sites will require larger or smaller values of
|
|
.Va kern.maxusers
|
|
and may set it as a loader tunable; values of 64, 128, and 256 are not
|
|
uncommon.
|
|
We do not recommend going above 256 unless you need a huge number
|
|
of file descriptors; many of the tunable values set to their defaults by
|
|
.Va kern.maxusers
|
|
may be individually overridden at boot-time or run-time as described
|
|
elsewhere in this document.
|
|
Systems older than
|
|
.Fx 4.4
|
|
must set this value via the kernel
|
|
.Xr config 8
|
|
option
|
|
.Cd maxusers
|
|
instead.
|
|
.Pp
|
|
.Va kern.ipc.nmbclusters
|
|
may be adjusted to increase the number of network mbufs the system is
|
|
willing to allocate.
|
|
Each cluster represents approximately 2K of memory,
|
|
so a value of 1024 represents 2M of kernel memory reserved for network
|
|
buffers.
|
|
You can do a simple calculation to figure out how many you need.
|
|
If you have a web server which maxes out at 1000 simultaneous connections,
|
|
and each connection eats a 16K receive and 16K send buffer, you need
|
|
approximate 32MB worth of network buffers to deal with it.
|
|
A good rule of
|
|
thumb is to multiply by 2, so 32MBx2 = 64MB/2K = 32768.
|
|
So for this case
|
|
you would want to set
|
|
.Va kern.ipc.nmbclusters
|
|
to 32768.
|
|
We recommend values between
|
|
1024 and 4096 for machines with moderates amount of memory, and between 4096
|
|
and 32768 for machines with greater amounts of memory.
|
|
Under no circumstances
|
|
should you specify an arbitrarily high value for this parameter, it could
|
|
lead to a boot-time crash.
|
|
The
|
|
.Fl m
|
|
option to
|
|
.Xr netstat 1
|
|
may be used to observe network cluster use.
|
|
Older versions of
|
|
.Fx
|
|
do not have this tunable and require that the
|
|
kernel
|
|
.Xr config 8
|
|
option
|
|
.Dv NMBCLUSTERS
|
|
be set instead.
|
|
.Pp
|
|
More and more programs are using the
|
|
.Xr sendfile 2
|
|
system call to transmit files over the network.
|
|
The
|
|
.Va kern.ipc.nsfbufs
|
|
sysctl controls the number of filesystem buffers
|
|
.Xr sendfile 2
|
|
is allowed to use to perform its work.
|
|
This parameter nominally scales
|
|
with
|
|
.Va kern.maxusers
|
|
so you should not need to modify this parameter except under extreme
|
|
circumstances.
|
|
.Sh KERNEL CONFIG TUNING
|
|
There are a number of kernel options that you may have to fiddle with in
|
|
a large scale system.
|
|
In order to change these options you need to be
|
|
able to compile a new kernel from source.
|
|
The
|
|
.Xr config 8
|
|
manual page and the handbook are good starting points for learning how to
|
|
do this.
|
|
Generally the first thing you do when creating your own custom
|
|
kernel is to strip out all the drivers and services you do not use.
|
|
Removing things like
|
|
.Dv INET6
|
|
and drivers you do not have will reduce the size of your kernel, sometimes
|
|
by a megabyte or more, leaving more memory available for applications.
|
|
.Pp
|
|
.Dv SCSI_DELAY
|
|
and
|
|
.Dv IDE_DELAY
|
|
may be used to reduce system boot times.
|
|
The defaults are fairly high and
|
|
can be responsible for 15+ seconds of delay in the boot process.
|
|
Reducing
|
|
.Dv SCSI_DELAY
|
|
to 5 seconds usually works (especially with modern drives).
|
|
Reducing
|
|
.Dv IDE_DELAY
|
|
also works but you have to be a little more careful.
|
|
.Pp
|
|
There are a number of
|
|
.Dv *_CPU
|
|
options that can be commented out.
|
|
If you only want the kernel to run
|
|
on a Pentium class CPU, you can easily remove
|
|
.Dv I386_CPU
|
|
and
|
|
.Dv I486_CPU ,
|
|
but only remove
|
|
.Dv I586_CPU
|
|
if you are sure your CPU is being recognized as a Pentium II or better.
|
|
Some clones may be recognized as a Pentium or even a 486 and not be able
|
|
to boot without those options.
|
|
If it works, great!
|
|
The operating system
|
|
will be able to better-use higher-end CPU features for MMU, task switching,
|
|
timebase, and even device operations.
|
|
Additionally, higher-end CPUs support
|
|
4MB MMU pages which the kernel uses to map the kernel itself into memory,
|
|
which increases its efficiency under heavy syscall loads.
|
|
.Sh IDE WRITE CACHING
|
|
.Fx 4.3
|
|
flirted with turning off IDE write caching.
|
|
This reduced write bandwidth
|
|
to IDE disks but was considered necessary due to serious data consistency
|
|
issues introduced by hard drive vendors.
|
|
Basically the problem is that
|
|
IDE drives lie about when a write completes.
|
|
With IDE write caching turned
|
|
on, IDE hard drives will not only write data to disk out of order, they
|
|
will sometimes delay some of the blocks indefinitely when under heavy disk
|
|
loads.
|
|
A crash or power failure can result in serious filesystem
|
|
corruption.
|
|
So our default was changed to be safe.
|
|
Unfortunately, the
|
|
result was such a huge loss in performance that we caved in and changed the
|
|
default back to on after the release.
|
|
You should check the default on
|
|
your system by observing the
|
|
.Va hw.ata.wc
|
|
sysctl variable.
|
|
If IDE write caching is turned off, you can turn it back
|
|
on by setting the
|
|
.Va hw.ata.wc
|
|
loader tunable to 1.
|
|
More information on tuning the ATA driver system may be found in
|
|
.Xr ata 4 .
|
|
.Pp
|
|
There is a new experimental feature for IDE hard drives called
|
|
.Va hw.ata.tags
|
|
(you also set this in the boot loader) which allows write caching to be safely
|
|
turned on.
|
|
This brings SCSI tagging features to IDE drives.
|
|
As of this
|
|
writing only IBM DPTA and DTLA drives support the feature.
|
|
Warning!
|
|
These
|
|
drives apparently have quality control problems and I do not recommend
|
|
purchasing them at this time.
|
|
If you need performance, go with SCSI.
|
|
.Sh CPU, MEMORY, DISK, NETWORK
|
|
The type of tuning you do depends heavily on where your system begins to
|
|
bottleneck as load increases.
|
|
If your system runs out of CPU (idle times
|
|
are perpetually 0%) then you need to consider upgrading the CPU or moving to
|
|
an SMP motherboard (multiple CPU's), or perhaps you need to revisit the
|
|
programs that are causing the load and try to optimize them.
|
|
If your system
|
|
is paging to swap a lot you need to consider adding more memory.
|
|
If your
|
|
system is saturating the disk you typically see high CPU idle times and
|
|
total disk saturation.
|
|
.Xr systat 1
|
|
can be used to monitor this.
|
|
There are many solutions to saturated disks:
|
|
increasing memory for caching, mirroring disks, distributing operations across
|
|
several machines, and so forth.
|
|
If disk performance is an issue and you
|
|
are using IDE drives, switching to SCSI can help a great deal.
|
|
While modern
|
|
IDE drives compare with SCSI in raw sequential bandwidth, the moment you
|
|
start seeking around the disk SCSI drives usually win.
|
|
.Pp
|
|
Finally, you might run out of network suds.
|
|
The first line of defense for
|
|
improving network performance is to make sure you are using switches instead
|
|
of hubs, especially these days where switches are almost as cheap.
|
|
Hubs
|
|
have severe problems under heavy loads due to collision backoff and one bad
|
|
host can severely degrade the entire LAN.
|
|
Second, optimize the network path
|
|
as much as possible.
|
|
For example, in
|
|
.Xr firewall 7
|
|
we describe a firewall protecting internal hosts with a topology where
|
|
the externally visible hosts are not routed through it.
|
|
Use 100BaseT rather
|
|
than 10BaseT, or use 1000BaseT rather then 100BaseT, depending on your needs.
|
|
Most bottlenecks occur at the WAN link (e.g.\&
|
|
modem, T1, DSL, whatever).
|
|
If expanding the link is not an option it may be possible to use
|
|
.Xr dummynet 4
|
|
feature to implement peak shaving or other forms of traffic shaping to
|
|
prevent the overloaded service (such as web services) from affecting other
|
|
services (such as email), or vice versa.
|
|
In home installations this could
|
|
be used to give interactive traffic (your browser,
|
|
.Xr ssh 1
|
|
logins) priority
|
|
over services you export from your box (web services, email).
|
|
.Sh SEE ALSO
|
|
.Xr netstat 1 ,
|
|
.Xr systat 1 ,
|
|
.Xr ata 4 ,
|
|
.Xr dummynet 4 ,
|
|
.Xr login.conf 5 ,
|
|
.Xr rc.conf 5 ,
|
|
.Xr sysctl.conf 5 ,
|
|
.Xr firewall 7 ,
|
|
.Xr hier 7 ,
|
|
.Xr ports 7 ,
|
|
.Xr boot 8 ,
|
|
.Xr ccdconfig 8 ,
|
|
.Xr config 8 ,
|
|
.Xr disklabel 8 ,
|
|
.Xr fsck 8 ,
|
|
.Xr ifconfig 8 ,
|
|
.Xr ipfw 8 ,
|
|
.Xr loader 8 ,
|
|
.Xr mount 8 ,
|
|
.Xr newfs 8 ,
|
|
.Xr route 8 ,
|
|
.Xr sysctl 8 ,
|
|
.Xr sysinstall 8 ,
|
|
.Xr tunefs 8 ,
|
|
.Xr vinum 8
|
|
.Sh HISTORY
|
|
The
|
|
.Nm
|
|
manual page was originally written by
|
|
.An Matthew Dillon
|
|
and first appeared
|
|
in
|
|
.Fx 4.3 ,
|
|
May 2001.
|