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I was given a dual 8-core Xeon SuperMicro server (32 threads), with 8 HD bays in use, 96GBRAM, 8x 6TB Western Digital in Raid1 zfs mirror (24TB actual), with a 120GBSSD boot volume stuck behind the power front panel running non-GUI Debian. (Thanks to Kilo Sierra for the donation.) My first job was to calculate whether my PSU was up to the task I intended for it. I used a 500W PSU. From my calculations, I determined that the RAM would be around 360W at capacity but rarely hit that or even close, that the HDs would often (especially on boot) hit up to 21.3W per drive, or around 150W total, and that excluded the boot SSD volume. The motherboard would be 100W, putting me at 610W. Since I did not expect the RAM, HDs, and other physical components to concurrently hit peak consumption, I considered it safe to proceed, and figured no more than around 75% of that ceiling would be used at any one time. The next step was to install the physical host OS (Debian) and setup the basics of the system (hostname, DNS, etc., basic package installs). On the 120GB SSD boot volume, I used a luks / pam_mount encrypted home directory, where I could store keys for the zfs pool and/or other sensitive data. I used a nifty trick in order to first create the pools simply with short names, and then magically change them to block ids without having to make the pool creation syntax cumbersome.
zpool create -m /mnt/pool pool -f mirror sda sdb mirror sdc sdh mirror sde sdf mirror sdg sdh zpool export pool zpool import -d /dev/disk/by-id pool
Now that pool was created, I created two encrypted datasets, which is zfs name for encrypted file storage inside the pool. The datasets each unlock by pulling a dd-generated key from the encrypted (and separate) home partition on the SSD boot volume. I set up the keys/datasets as follows:
dd if=/dev/random of=/secure/area/example.key bs=1 count=32 zfs create -o encryption=on -o keyformat=raw -o keylocation=file:///mnt/vault/example.key pool/dataset
When you create this on the current running instance, it will also mount it for you as a courtesy, but upon reboot, you need to load the key, then mount the dataset using zfs commands. In my case, I created three datasets (one for raw isos, one for disk images, and a last one for backup sparse tarballs). Each one was created as follows:
zfs load-key pool/dataset zfs mount pool/dataset
Once I created all the datasets, I made a script that would load the keys and unlock all of them, then rebooted and tested it for functionality. Upon verifying that the datasets worked, I could now feel comfortable creating VMs again, since the hard drive images for those VMs would be stored in encrypted datasets with zfs. My next task was to create both snapshots within zfs, which would handle routine rollbacks and smaller errors/mistakes. I did that by creating a small script that runs via cron 4 times a day, or every 6 hours:
DATE=date +"%Y%m%d-%H:%M:%S" /usr/sbin/zfs snapshot -r pool/vm1dataset@backup_$DATE /usr/sbin/zfs snapshot -r pool/vm2dataset@backup_$DATE /usr/sbin/zfs snapshot -r pool/@backup_$DATE /usr/sbin/zfs snapshot pool@backup_$DATE
The snapshots allow me to perform roll backs when end-users make mistakes, e.g., delete an instructional video after a class session, etc., or what have you. To delete all snapshots and start over, run:
zfs list -H -o name -t snapshot | xargs -n1 zfs destroy
Of course, off-site backups are essential. To do this, I use a small script that powers down the VM, uses cp
with the –sparse=always
flag to preserve space, and then uses tar with pbzip2 compression to save even more space. From my research, bsdtar seems to honor sparsity better than gnutar so install that with sudo apt install libarchive-tools
. The cp
command is not optional, moreover, for remember tar will not work directly on an .img
file. Here's a small shell script with a loop for multiple VMs within the same directory. I also added a command at the end that will delete any tarballs older than 180 days.
DATE=`date +"%Y%m%d-%H:%M:%S"` IMG="vm1.img vm2.img" for i in $IMG; do virsh shutdown $i wait cd /mnt/vms/backups cp -ar --sparse=always /mnt/vms/students/$i /mnt/vms/backups/SANE_$i.bak wait virsh start $i bsdtar --use-compress-program=pbzip2 -Scf SANE_$i.tar.bz2 SANE_$i.bak mv /mnt/vms/backups/SANE_$i.tar.bz2 /mnt/vms/backups/tarballs/$i:_SANE_$DATE:_.tar.bz2 rm /mnt/vms/backups/SANE_$i.bak find /mnt/vms/backups/tarballs -type f -mtime +180 -delete
The script above can be downloaded here sane-vm-backup.sh. I use multiple copies of the loop script for related groups of VMs on the same physical host, and then stagger when they run with cron to limit simultaneous read/write time as follows:
#backup student machines, client machines 00 03 1,15 * * /usr/local/bin/sane-vm-backup-students.sh >> /root/sane-vm-backup-students.log 00 03 2,16 * * /usr/local/bin/sane-vm-backup-clients.sh >> /root/sane-vm-backup-clients.log
On the off-site backup machine, I pull the tarballs down using a one line rsync script. I adjust the cron timing of the rsync script to work well with when the tarballs are created.
sudo rsync -av --log-file=/home/logs/backup-of-vm-tarballs.log --ignore-existing -e 'ssh -i /home/user/.ssh/id_rsa' root@domain.com:/backups/tarballs/ /media/user/Backups/
The off-site backup workstation uses rsnapshot, which provides me with months of restore points and thus provides version control for if/when errors are not caught immediately.
– Network Bridge Setup / VMs –
Up until now, I've covered how to provision the machines with virt-manager, how to backup the machines on the physical host, and how to pull those backups to an off-site workstation. Now I will discuss how to assign each VM an external IP. The first step is to provision the physical host with a virtual switch (wrongly called a bridge) to which VMs can connect. To do this, I kept it simple and used ifup
and bridge-utils
package and some manual editing in /etc/network/interfaces
.
sudo apt install bridge-utils sudo brctl addbr br0 sudo nano /etc/network/interfaces
Now that you have added created the virtual switch, you need to reconfigure your physical host's /etc/network/interfaces
file to use the switch. In my case, I used 1 IP for the host itself, and another for the switch, meaning that two ethernet cables are plugged into my physical host. I did this so that if I hose my virtual switch settings, I still have a separate connection to the box. Here's the configuration in interfaces
:
#eth0 [1st physical port] auto ent8s0g0 iface ent8s0f0 inet static address 8.25.76.160 netmask 255.255.255.0 gateway 8.25.76.1 nameserver 8.8.8.8
#eth1 [2nd physical port] auto enp8s0g1 iface enp8s0g1 inet manual
auto br0 iface br0 inet static address 8.25.76.159 netmask 255.255.255.0 gateway 8.25.76.1 bridge_ports enp8s0g1 nameserver 8.8.8.8
After that, either reboot or systemctl restart networking.service
to make the changes current. Execute ip a
and you should see both external IPs on two separate interfaces, and you should see br0 state UP
in the output of the second interface enp8s0g1
. You should also run some ping 8.8.8.8
and ping google.com
tests to confirm you can route. If anyone wants to do this in a home, small business, or other non-public facing environment, you can easily use dhcp and provision the home/small business server's interface
file as follows:
auto eth1 iface eth1 inet manual
auto br0 iface br0 inet dhcp bridge_ports eth1
The above home-version allows, for example, users to have a virtual machine that gets an ip address on your LAN and makes ssh/xrdp access far easier. If you have any trouble routing on the physical host, it could be that you do not have nameservers setup. If that's the case, do the following:
echo nameserver 8.8.8.8 > /etc/resolv.conf systemctl restart networking.service
Now that the virtual switch is setup, I can now provision VMs and connect them to the virtual switch br0
in virt-manager. You can provision the VMs within the GUI using X passthrough, or use the command line with something like this:
#make new vm sudo virt-install --name=new \ --os-type=Linux \ --os-variant=debian10 \ --vcpu=1 \ --ram=2048 \ --disk path=/mnt/vms/students/new.img \ --graphics spice \ --location=/mnt/vms/isos/debian-11.4.0-amd64-netinst.iso \ --network bridge:br0
Once the VM is created and attached to the virtual switch (either using the command line or GUI), it is now time to log into the console with X passthrough (or ssh), and configure the guest OS interface
file with the IP you intend to assign it. Once inside the guest OS, execute nano /etc/network/interfaces
and then edit the file with something like this:
auto epr1 iface epr1 inet static address 8.25.76.158 netmask 255.255.255.0 gateway 8.25.76.1 nameservers 8.8.8.8
If you are creating VMs attached to a virtual switch on the smaller home/business environment, then adjust the guest OS by executing sudo nano /etc/network/interfaces
and then something like this recipe:
auto epr1 iface epr1 inet dhcp
If your guest OS uses Ubuntu, you will need to do extra steps to ensure that the guestOS can route. This is because Ubuntu-based distros have deprecated ifupdown
in favor of netplan
and disabled manual editing of /etc/resolv.conf
. So, either you want to learn netplan syntax and make interface changes using its YAML derivative, or you can install the optional resolvconf
package to restore ifupdown
functionality. To do this, adjust the VM provision script above (or use the virt-manager GUI with X passthrough) to temporarily use NAT then override Ubuntu defaults and restore ifupdown
functionality as follows:
sudo apt install ifupdown sudo apt remove --purge netplan.io sudo apt install resolvconf sudo nano /etc/resolvconf/resolv.conf.d/tail <nameserver 8.8.8.8> systemctl restart networking.service
You should once again execute ping 8.8.8.8
and ping google.com
to confirm you can route within the guest OS. Sometimes, I find a reboot is required. At this stage, you now have a physical host configured with a virtual switch, and one VM provisioned to use the switch with its own external IP. Both the physical host and guest OS in this scenario are public facing so take precautions to properly secure each by checking services netstat -tulpn
and/or utilizing a firewall. You are now in a position to create VMs and various production environments at will. One thing I do is I create base VMs that have interfaces
and ssh
access all ready to go, and then I leverage those to make new instances. Make sure to power down the base image so that you don't have an IP conflict at your data center.
#clone existing virt-clone \ --original=clean \ --name=sequoia \ --file=/mnt/vms/students/sequoia.img
The purpose of this project was to create my own virtualized VPS infrastructure (using KVM and VMs), to run my own production environments and for clients, students, and family. Here's a few to check out:
That's all folks! Well … except for one more thing. When I first did all of this, I was convinced that zfs should be within LUKS as it was difficult for me to let go of LUKS / full disk encryption. I've now decided that's insane because of one primary reason. Namely, by putting zfs (or any file system) within LUKS, you lose the hot swapability that you have when zfs (or regular RAID) run directly on the hardware. That would mean that replacing a hard drive would require an entire server rebuild, which is insane. However, it is arguably more secure that way, so if budget and time permits, I've retained how I put zfs inside LUKS in the passage that follows. Proceed at your own risk lol.
– LUKS FIRST, ZFS SECOND - (LEGACY SETUP, NOT CURRENT) –
My initial idea was to do LUKS first, then zfs, meaning 6 could be mirrors in zfs and I would keep 1 as a spare LUKS crypt for keys, other crap, etc. To create the LUKS crypts, I did the following 6 times, each time appending the last 4 digits of the block ID to the LUKS crypt name:
cryptsetup luksFormat /dev/sda cryptsetup luksOpen /dev/sda sdafc11
You then make sure to use the LUKS label names when making the zpool, not the short names, which can change at times during reboots. I did this as follows:
sudo apt install zfs-utils bridge-utils zpool create -m /mnt/vms vms -f mirror sdafc11 sdb9322 mirror sdc8a33 sdh6444 mirror sde5b55 sdf8066
ZFS by default executes its mount commands at boot. This is a problem if you don't use auto-unlocking and key files with LUKS to also unlock on boot (and/or a custom script that unlocks). The problem, in this use cases, is ZFS will try to mount the volumes before they are unlocked. The two other options are none/legacy modes, both of which rely on you mounting the volume using traditional methods. But, the whole point of using zfs finally was to not use traditional methods lol, so for that reason I investigated if there was a fix. The closest to a fix is setting cachefile=none boot, but this a) hosed the pool once b) requires resetting, rebooting again and/or manually re-mounting the pool - either of which defeat the point. Using key files, cache file adjustments, etc., and/or none/legacy were all no-gos for me, so in the end, I decided to tolerate that zfs would fail at boot, and that I would zpool import
it afterwards.
sudo -i screen su - user [pam_mount unlocks /home for physical host primary user and the spare 1TB vault] ctrl-a-d [detaches from screen]
After unlocking my home directory and the spare 1TB vault, the next step is to unlock each LUKS volume, which I decided a simple shell script would suffice which looks like this mount-luks.sh:
cryptsetup luksOpen /dev/disk/by-uuid/2702e690-…-0c4267a6fc11 sdafc11 cryptsetup luksOpen /dev/disk/by-uuid/e3b568ad-…-cdc5dedb9322 sdb9322 cryptsetup luksOpen /dev/disk/by-uuid/d353e727-…-e4d66a9b8a33 sdc8a33 cryptsetup luksOpen /dev/disk/by-uuid/352660ca-…-5a8beae15b44 sde5b44 cryptsetup luksOpen /dev/disk/by-uuid/fa1a6109-…-f46ce1cf8055 sdf8055 cryptsetup luksOpen /dev/disk/by-uuid/86da0b9f-…-13bc38656466 sdh6466
This script simply opens each LUKS crypt so long as you enter or copy/paste your HD password 6 times. After that, one has to re-mount the pool / rebuild the quasi RAID1 mirror/logical volumes with the import command as follows once the volumes are opened:
zpool import pool
Rebooting in this manner takes about 3-5 minutes for the host, and 2 minutes to screen into my user name, detach, and run the mount LUKS script to mount the pools/datasets, etc. Again, I ultimately rejected this because you cannot use zfs tools when hard drives fail with this setup.
— oemb1905 2022/11/12 11:52