因为Raspberry Pi的所有用户都应该知道:操作系统安装在SD卡上.问题是SD卡是闪存,这种类型的存储器仅支持有限数量的写操作.
Tips for running Linux on a flash device by David H?rdeman
If you are running your NSLU2 on a USB flash key,there are a number
of things you might want to do in order to reduce the wear and tear on
the underlying flash device (as it only supports a limited number of
writes).
Note: this document currently describes Debian etch (4.0) and needs to
be updated to Debian squeeze (6.0) and Debian wheezy (7.0). Some of
the hints may still apply,but some may not.
The ext3 filesystem per default writes metadata changes every five
seconds to disk. This can be increased by mounting the root filesystem
with the commit=N parameter which tells the kernel to delay writes to
every N seconds.
The kernel writes a new atime for each file that has been read which
generates one write for each read. This can be disabled by mounting
the filesystem with the noatime option.
Both of the above can be done by adding e.g. noatime,commit=120,… to /etc/fstab. This can also be done on an
already mounted filesystem by running the command:
mount -o remount,noatime,commit=120 /
The system will run updatedb every day which creates a database of all
files on the system for use with the locate command. This will also
put some stress on the filesystem,so you might want to disable it by
adding
exit 0
early in the /etc/cron.daily/find script.
syslogd will in the default installation sync a lot of log files to
disk directly after logging some new information. You might want to
change /etc/syslog.conf so that every filename starts with a – (minus)
which means that writes are not synced immediately (which increases
the risk that some log messages are lost if your system crashes). For
example,a line such as:
kern.* /var/log/kern.log
would be changed to:
kern.* -/var/log/kern.log
You also might want to disable some classes of messages altogether by
logging them to /dev/null instead,see syslog.conf(5) for details.
In addition,syslogd likes to write — MARK — lines to log files
every 20 minutes to show that syslog is still running. This can be
disabled by changing SYSLOGD in /etc/default/syslogd so that it reads
SYSLOGD=”-m 0″
After you’ve made any changes,you need to restart syslogd by running
/etc/init.d/syslogd restart
If you have a swap partition or swap file on the flash device,you
might want to move it to a different part of the disk every now and
then to make sure that different parts of the disk gets hit by the
frequent writes that it can generate. For a swap file this can be done
by creating a new swap file before you remove the old one.
If you have a swap partition or swap file stored on the flash device,
you can make sure that it is used as little as possible by setting
/proc/sys/vm/swappiness to zero.
The kernel also has a setting known as laptop_mode,which makes it
delay writes to disk (initially intended to allow laptop disks to spin
down while not in use,hence the name). A number of files under
/proc/sys/vm/ controls how this works:
/proc/sys/vm/laptop_mode: How many seconds after a read should a
writeout of changed files start (this is based on the assumption that
a read will cause an otherwise spun down disk to spin up again).
/proc/sys/vm/dirty_writeback_centisecs: How often the kernel should
check if there is “dirty” (changed) data to write out to disk (in
centiseconds).
/proc/sys/vm/dirty_expire_centisecs: How old “dirty” data should be
before the kernel considers it old enough to be written to disk. It is
in general a good idea to set this to the same value as
dirty_writeback_centisecs above.
/proc/sys/vm/dirty_ratio: The maximum amount of memory (in percent) to
be used to store dirty data before the process that generates the data
will be forced to write it out. Setting this to a high value should
not be a problem as writeouts will also occur if the system is low on
memory.
/proc/sys/vm/dirty_background_ratio: The lower amount of memory (in
percent) where a writeout of dirty data to disk is allowed to stop.
This should be quite a bit lower than the above dirty_ratio to allow
the kernel to write out chunks of dirty data in one go.
All of the above kernel parameters can be tuned by using a custom init
script,such as this example script. Store it to e.g.
/etc/init.d/kernel-params,make it executable with
chmod a+x /etc/init.d/kernel-params
and make sure it is executed by running
update-rc.d kernel-params defaults
Note: Most of these settings reduce the number of writes to disk by
increasing memory usage. This increases the risk for out of memory
situations (which can trigger the dreaded OOM killer in the kernel).
This can even happen when there is free memory available (for example
when the kernel needs to allocate more than one contiguous page and
there are only fragmented free pages available).
As with any tweaks,you are advised to keep a close eye on the amount
of free memory and adapt the tweaks (e.g. by using less aggressive
caching and increasing the swappiness) depending on your workload.
This article has been contributed by David H?rdeman
Go back to the Debian on NSLU2 page.
