Support #799
Dual Boot Windows 10 and PCBSD With GELI Encrypted ZFS Root
Description
This is a guide on how I set up my laptop to dual boot Windows 10 and PCBSD with a GELI encrpyted ZFS root on a Dell Inspiron 15-3521 UEFI based system.
The setup uses Windows 10 as the primary OS, but the PCBSD partition will booted from a USB flash drive. This guide assumes that the Windows 10 partition has been installed and adequately shrunk.
- When the PCBSD Installation message appears, choose Text Install / Emergency Console.
- Select Utility then Shell.
- Get a list of available drives:
camcontrol devlist
- Example output:
<VB0250EAVER HPG9> at scbus0 target 0 lun 0 (pass0,ada0) <Sony USB Stick> at scbus6 target 0 lun 0 (pass4,da0)
- Example output:
Swap¶
- Create the swap slice:
gpart add -s 4G -t freebsd-swap -a 4k -l swap0 ada0
- Example output:
ada0p8 added
- Example output:
- Encrypt the swap space:
geli onetime -d -e AES-XTS -l 256 -s 4096 /dev/gpt/swap0
USB Bootloader¶
- Create the boot partition and install the bootcode on the USB drive:
gpart create -s gpt da0 gpart add -l gptboot0 -s 512k -t freebsd-boot -a 4k da0 gpart bootcode -b /boot/pmbr -p /boot/gptzfsboot -i 1 da0 gpart set -a bootme -i 1 da0
- Create the ZFS bootpool on the USB drive and mount it:
gpart add -l boot0 -t freebsd-zfs da0 mkdir -p /tmp/mnt/bootpool zpool create -m none -o altroot=/tmp/mnt/bootpool bootpool /dev/gpt/boot0 mkdir -p /tmp/mnt/bootpool/boot/zfs mount_nullfs /tmp/mnt/bootpool/boot/zfs /boot/zfs
GELI ZFS Root¶
- Create the disk0 slice:
gpart add -t freebsd-zfs -a 4k -l disk0 ada0
- Example output:
ada0p9 added
- Example output:
- Encrypt the OS slice:
mkdir /tmp/mnt/bootpool/boot/metadata_backup geli init -b -s 4096 -e AES-XTS -l 256 -B /tmp/mnt/bootpool/boot/metadata_backup/ada0p9.eli /dev/ada0p9
- NOTE: This will store a copy of the GELI metadata on the USB drive, in case bad things happen.
- Attach the encrypted slice:
geli attach /dev/ada0p9
- Create the xpool ZFS pool on top of the GELI encrypted slice, then export it:
mkdir -p /tmp/mnt/xpool zpool create -o altroot=/tmp/mnt/xpool -o cachefile=/tmp/zpool.cache -m none -f xpool /dev/ada0p9.eli zpool export xpool
- Next import the xpool ZFS pool and create the root dataset and settings:
zpool import -o altroot=/tmp/mnt/xpool -o cachefile=/tmp/zpool.cache xpool zpool set bootfs=xpool xpool zfs set checksum=fletcher4 xpool zfs set atime=off xpool zfs create xpool/ROOT zfs set mountpoint=/ xpool/ROOT
- Then create some additional system datasets:
zfs create -o canmount=off xpool/ROOT/usr zfs create -o canmount=off xpool/ROOT/var zfs create -o compression=on -o exec=on -o setuid=off xpool/ROOT/tmp zfs create -o compression=gzip -o setuid=off xpool/ROOT/usr/ports zfs create -o compression=off -o exec=off -o setuid=off xpool/ROOT/usr/ports/distfiles zfs create -o compression=off -o exec=off -o setuid=off xpool/ROOT/usr/ports/packages zfs create -o compression=gzip -o exec=off -o setuid=off xpool/ROOT/usr/src zfs create -o compression=lzjb xpool/ROOT/usr/obj zfs create -o compression=lzjb -o exec=off -o setuid=off xpool/ROOT/var/crash zfs create -o compression=off -o exec=off -o setuid=off xpool/ROOT/var/empty zfs create -o compression=lzjb -o exec=on -o setuid=off xpool/ROOT/var/tmp
- Then create some additional system datasets:
- Set the permissions of the temp directories in the zfs mount:
chmod 1777 /tmp/mnt/xpool/tmp chmod 1777 /tmp/mnt/xpool/var/tmp
- Remount the bootpool:
umount /boot/zfs mkdir /tmp/mnt/xpool/bootpool zfs set mountpoint=/tmp/mnt/xpool/bootpool bootpool zpool export bootpool zpool import bootpool mkdir -p /tmp/mnt/xpool/bootpool/boot/zfs mount_nullfs /tmp/mnt/xpool/bootpool/boot/zfs /boot/zfs
- Extract the base.txz and kernel.txz to the zfs root to install the base system:
cat /dist/base.txz | tar --unlink -xpJf - -C /tmp/mnt/xpool cat /dist/kernel.txz | tar --unlink -xpJf - -C /tmp/mnt/xpool
Post-Installation Setup¶
- Chroot into the xpool:
chroot /tmp/mnt/xpool
- Copy the install bootload files over to the bootpool, then create a
/boot
symlink:cd / rm -r boot/zfs mv boot/* bootpool/boot/ rm -r boot ln -sf bootpool/boot
- Create an fstab file:
vi /etc/fstab
- And add the swap partition definition:
/dev/ada0p8.eli none swap sw 0 0
- And add the swap partition definition:
- Add the initial system configuration:
echo 'zfs_enable="YES"' >> /etc/rc.conf echo 'sshd_enable="YES"' >> /etc/rc.conf echo 'hostname="pcbsd.example.com"' >> /etc/rc.conf
- Add the bootloader config:
echo 'geom_eli_load="YES"' >> /boot/loader.conf echo 'zfs_load="YES"' >> /boot/loader.conf echo 'vfs.root.mountfrom="zfs:xpool/ROOT"' >> /boot/loader.conf echo 'zpool_cache_load="YES"' >> /boot/loader.conf echo 'zpool_cache_type="/boot/zfs/zpool.cache"' >> /boot/loader.conf echo 'zpool_cache_name="/boot/zfs/zpool.cache"' >> /boot/loader.conf
Networking¶
- Show what network interfaces are available:
ifconfig
- NOTE: This guide uses
em0
for the ethernet interface andath0
as the wireless interface.
- NOTE: This guide uses
Ethernet¶
- Add the em interface driver to the bootloader config:
echo 'if_em_load="YES"' >> /boot/loader.conf
- Setup ethernet networking using DHCP:
echo 'ifconfig_em0="DHCP"' >> /etc/rc.conf echo 'hostname="freebsd.example.com"' >> /etc/rc.conf
- (Optional) Setup networking using a static IP address instead:
echo 'ifconfig_em0="inet 192.168.10.70 netmask 255.255.255.0 broadcast 198.100.10.255"' >> /etc/rc.conf echo 'defaultrouter="192.168.10.1"' >> /etc/rc.conf echo 'hostname="freebsd.example.com"' >> /etc/rc.conf echo 'nameserver 192.168.10.1' >> /etc/resolv.conf
Wireless¶
- Add the ath interface driver and the wireless cryptographic modules to the bootloader config:
echo 'if_ath_load="YES"' >> /boot/loader.conf echo 'wlan_ccmp_load="YES"' >> /boot/loader.conf echo 'wlan_tkip_load="YES"' >> /boot/loader.conf
- Setup wireless networking using WPA and DHCP:
echo 'wlans_ath0="wlan0"' >> /etc/rc.conf echo 'ifconfig_wlan0="WPA SYNCDHCP"' >> /etc/rc.conf
- Create a
wpa_supplicant.conf
file:vi /etc/wpa_supplicant.conf
- And add the following, modifying accordingly:
network={ ssid="HomeWifi" psk="SuperSecretPassword" }
- And add the following, modifying accordingly:
- Then restart the network interface service:
service netif restart
Finish the Installation¶
- Exit from the chroot environment:
exit
- Setup the ZFS mountpoints
zfs set mountpoint=legacy xpool/ROOT zfs set mountpoint=/tmp xpool/tmp zfs set mountpoint=/usr xpool/usr zfs set mountpoint=/var xpool/var zfs set mountpoint=/bootpool bootpool
- Unmount the filesystems:
umount /boot/zfs zfs unmount -a zpool export xpool zpool export bootpool
- Reboot the system and eject the FreeBSD install disc:
reboot
Setup PCBSD¶
- Then, disable the FreeBSD package repository:
mv /etc/pkg/FreeBSD.conf /root/FreeBSD.conf-old
- Create the pkg repos directory:
mkdir -p /usr/local/etc/pkg/repos
- Then, create the PCBSD repo file:
vi /usr/local/etc/pkg/repos/pcbsd.conf
- And add the following:
pcbsd: { url: "http://pkg.cdn.pcbsd.org/10.0-RELEASE/amd64", signature_type: "fingerprints", fingerprints: "/usr/local/etc/pkg/fingerprints/pcbsd", enabled: true }
- And add the following:
- Next, create the pkg fingerprints directories:
mkdir -p /usr/local/etc/pkg/fingerprints/pcbsd/{revoked,trusted}
- Then, download the PCBSD repository fingerprint file:
cd /usr/local/etc/pkg/fingerprints/pcbsd/trusted/ fetch https://raw.githubusercontent.com/pcbsd/pcbsd/master/src-sh/pcbsd-utils/pc-extractoverlay/ports-overlay/usr/local/etc/pkg/fingerprints/pcbsd/trusted/pkg.cdn.pcbsd.org.20131209
- Update the package database and any installed packages:
pkg update pkg upgrade -fy
- Once the repository configuration is complete install the base components:
fetch --no-verify-peer -o /etc/freebsd-update.conf 'https://github.com/pcbsd/freebsd/raw/master/etc/freebsd-update.conf' freebsd-update fetch freebsd-update install
- Then setup the installation to be a PC-BSD desktop
pkg install -fy pcbsd-base rehash pbreg set /PC-BSD/SysType PCBSD pc-extractoverlay ports pc-extractoverlay desktop
Setup Desktop Environment¶
- Install the xfce desktop environment:
pkg install pcbsd-meta-xfce
- Set the first boot scripts to run:
sh /usr/local/share/pcbsd/scripts/sys-init.sh desktop en_US touch /var/.runxsetup touch /var/.pcbsd-firstboot touch /var/.pcbsd-firstgui
NOTE: If you are using NVIDIA video hardware, load the driver before rebooting into the display wizard:
pkg install pcbsd-meta-nvidia
Resources¶
- http://www.schmidp.com/2014/01/07/zfs-full-disk-encryption-with-freebsd-10-part-2/
- http://web.pcbsd.org/doc-archive/10.2/html/preinstall.html
- http://web.pcbsd.org/doc-archive/10.2/html/advanced.html
- https://srobb.net/fbsdquickwireless.html
- https://www.freebsd.org/doc/handbook/network-wireless.html
- https://forums.pcbsd.org/thread-20411.html
Updated by Daniel Curtis over 8 years ago
- Category set to Workstation
- Assignee set to Daniel Curtis
- Target version set to PCBSD
- Start date changed from 04/15/2016 to 04/17/2016
- % Done changed from 0 to 20
- Estimated time set to 3.00 h
Updated by Daniel Curtis over 8 years ago
- Description updated (diff)
- Status changed from New to In Progress
- % Done changed from 20 to 50
Updated by Daniel Curtis over 8 years ago
- Status changed from In Progress to Resolved
- % Done changed from 50 to 100