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My basic FreeBSD installation is slightly different from the “norm” in that we manually configure the boot drive (usually an SSD) and add some additional packages we need. Here is the “Daily Data” way of building a server. Note that you have to be flexible; modify this as needed.
For the most part, we have a single disk for the boot drive. This will hold all of the software needed to have a working system. In order to make life easier, I remove all drives except the system drive, then boot from the FreeBSD installation thumbdrive.
When it comes time to partition the drive, I choose manual and set up from the command line. The main reason for this is that the FreeBSD installer in automatic mode does not allow you to set up without a swap partition, and I like swap files instead of swap partitions. While possibly slower, you have the flexibility to adjust the amount of space allocated to swap. This has saved me headaches in the past.
Also, just because it simplifies things, I remove all of the data drives. Normally, we have a single boot drive, then several drives which will contain data, generally as a ZFS file system. By removing the drives, I know which one is the one I want to install onto. This can cause problems since adding drives after a system is configured can rename existing drives. However, if your boot drive is on an internal connection (most modern servers have this capability) or you make sure it is in the first drive bay, drive renaming is not an issue.
From the command line, do the following. This assumes your boot drive is ada0. This is directly stolen from http://www.wonkity.com/~wblock/docs/html/ssd.html, though it is summarized and modified it here.
We are working in blocks, for the most part, which are normally 512bytes long.
# create a gpt partitioning scheme on /dev/ada0 gpart create -s gpt ada0 # add a very, very small partition for boot # This begins at block 40 (2M) and is 472 blocks long (236k) gpart add -t freebsd-boot -b 40 -s 472 -l ssdboot ada0 # set it up to be bootable gpart bootcode -b /boot/pmbr -p /boot/gptboot -i1 ada0 # now, add the rest of space as a second partion # if you want, you can specify the size with the -s parameter # as in '-s 100g' to only use 100G # For SSD's without TRIM, set at 80% of available space gpart add -t freebsd-ufs -l ssdrootfs -b 1m ada0 # format the second partition. # NOTE: the -t option below turns on TRIM for SSD's # you can remove that if you are not using an SSD newfs -U -t /dev/gpt/ssdrootfs
Note: the referenced article actually uses separate partitions for /var and /usr. In my case, we are generally setting things up in a way that this is just over complication, though in some installations it is necessary to break it down further.
Complete the installation. Be sure to add one user to the wheel group, or they will not be able to su to root. If you forget, when you log in for the first time (as root), add the user manually:
pw user mod username -G wheel
where username is the username you want to add.
Note that /tmp is missing and there is no swap space. The first thing I want to do is set /tmp and /var/tmp to use the same ramdisk (aka tmpfs). Assuming I have sufficient RAM, I can allocate some space for tmp, which makes things faster and cleaner.
Additionally, I want to create a swap file to replace the partition. Swap is very nice to have, but rarely used, but I had one case where my swap partition was just too damned small and the server started acting squirrely whenever there was a lot of ZFS activity.
cp /etc/fstab /etc/fstab.bak dd if=/dev/zero of=/swapfile bs=1G count=4 echo 'md99 none swap sw,file=/swapfile 0 0' >> /etc/fstab swapon -a echo 'tmpfs /tmp tmpfs rw,mode=01777 0 0' >> /etc/fstab rm -fR /var/tmp ln -s /tmp /var/tmp rm -fR /tmp/* mount /tmp mount reboot
I generally like some things that are not installed by default for FreeBSD (or Linux, or Microsoft Windows, or Apple OSX, for that matter). For instance, I accept the larger size of bash for the extra functionality, and I'm lost without the joe editor. Some people are just more comfortable with a web UI than the standard CLI, so they might consider installing webmin (https://webmin.com). We will install
I've label the steps as to indicate what the code is setting up so you can easily not use some packages.
pkg install joe perl5 pv pbzip2 sudo screen webmin ipmitool postfix bash smartmontools
service sendmail stop sysrc postfix_enable="YES" sysrc sendmail_enable="NONE" mv /etc/mail/mailer.conf /etc/mail/mailer.conf.old install -m 0644 /usr/local/share/postfix/mailer.conf.postfix /etc/mail/mailer.conf echo 'daily_clean_hoststat_enable="NO"' >> /etc/periodic.conf echo 'daily_status_mail_rejects_enable="NO"' >> /etc/periodic.conf echo 'Daily_status_include_submit_mailq="NO"' >> /etc/periodic.conf echo 'daily_submit_queuerun="NO"' >> /etc/periodic.conf pw group mod mail -m postfix service postfix start
mount -t fdescfs fdesc /dev/fd cp /etc/fstab /etc/fstab.bak echo '# enable bash' >> /etc/fstab echo 'fdesc /dev/fd fdescfs rw 0 0' >> /etc/fstab chsh -s bash username
/usr/local/lib/webmin/setup.sh echo "webmin_enable="YES"" >> /etc/rc.conf /usr/local/etc/rc.d/webmin start
kldload ipmi echo 'ipmi_load="YES"' >> /boot/loader.conf
# edit the next file for your system after you copy it cp /usr/local/etc/smartd.conf.sample /usr/local/etc/smartd.conf echo 'daily_status_smart_devices="/dev/ad0 /dev/da0"' >>/etc/periodic echo 'smartd_enable="YES"' >> /etc/rc.conf service smartd start