with the demise of ESXi, I am looking for alternatives. Currently I have PfSense virtualized on four physical NICs, a bunch of virtual ones, and it works great. Does Proxmox do this with anything like the ease of ESXi? Any other ideas?
with the demise of ESXi, I am looking for alternatives. Currently I have PfSense virtualized on four physical NICs, a bunch of virtual ones, and it works great. Does Proxmox do this with anything like the ease of ESXi? Any other ideas?
Admittedly I have not dug too deeply into Proxmox but its learning curve appears kinda steep.
Proxmox is quite simple. As a former VCP, I find Proxmox more intuitive to use.
If you need specific help with Proxmox and/or ZFS, you might also look at posting on https://www.practicalzfs.com
And +1 for using OPNsense
There’s multiple guides on virtualizing pfsense in proxmox, but the easiest is to simply pci passthrough the nics you wanna use.
I do recommend you leave a physical nic for proxmox itself to maintain LAN access to it if your pfsense is down.
There could be driver issues doing this. I had a bad experience with Emulex NICs under OPNsense, Intel OTOH worked flawlessly. Switched back to virtual interfaces tho, as it works about as good as a physical NIC
its not too bad. i switched from esxi to proxmox about 2 years ago.
i run a virtualized opnsense with 2 nic’s passed through and another 2 virt, so it can be done
And in about 2 years you’ll switch to LXD/Incus. :P
Incus looks cool. Have you virtualised a firewall on it? Is it as flexible as proxmox in terms of hardware passthrough options?
I find zero mentions online of opnsense on incus. 🤔
Yes it does run, but BSD-based VMs running on Linux have their details as usual. This might be what you’re looking for: https://discuss.linuxcontainers.org/t/run-freebsd-13-1-opnsense-22-7-pfsense-2-7-0-and-newer-under-lxd-vm/15799
Since you want to run a firewall/router you can ignore LXD’s networking configuration and use your opnsense to assign addresses and whatnot to your other containers. You can created whatever bridges / vlan-based interface on your base system and them assign them to profiles/containers/VMs. For eg. create a
cbr0
network bridge usingsystemd-network
and then runlxc profile device add default eth0 nic nictype=bridged parent=cbr0 name=eth0
this will usecbr0
as the default bridge for all machines and LXD won’t provide any addressing or touch the network, it will just create aneth0
interface on those machines attached to the bridge. Then your opnsense can be on the same bridge and do DHCP, routing etc. Obviously you can passthrough entire PCI devices to VMs and containers if required as well.When you’re searching around for help, instead of “Incus” you can search for “LXD” as it tend to give you better results. Not sure if you’re aware but LXD was the original project run by Canonical, recently it was forked into Incus (and maintained by the same people who created LXD at Canonical) to keep the project open under the Linux Containers initiative.
OPNsense running in the Incus live demo. Fun!
Enjoy your 30 min of Incus :P
Very informative, thank you.
I am generally very comfortable with Linux, but somehow this seems intimidating.
Although I guess I’m not using proxmox for anything other than managing VMs, network bridges and backups. Well, and for the feeling of using something that was set up by people who know what they’re doing and not hacked together by me until it worked…
And LXD/Incus can do that as well for you. Install it an by running
incus init
it will ask you a few questions and get an automated setup with networking, storage etc. all running and ready for you to create VMs/Containers.What I was saying is that you can also ignore the default / automated setup and install things manually if you’ve other requirements.
Okay, I think I found a bit of a catch with Incus or LXD. I want a solution with a web UI, and while Incus has one, it seems to have access control either browser certificate based or with a central auth server. Neither are a good solution for me - I would much prefer regular user auth with the option to use an auth server at some point (but I don’t want to take all of this on all at once.)
I hope it’s okay that I keep coming back to you with these questions. You seem to be a strong Incus-evangelist. :)
I guess I could only expose the web UI on localhost and create an SSH tunnel in order to use it…? Not so good on mobile though, which is the strongest reason for a webui.
You aren’t wrong, the WebUI is stateless, it doesn’t know of any users nor it stores any other context information.
The certificates are required for the UI client to authenticate with the underlying LXD server itself. Much like the SSH authentication is boils down to creating a public/private key pair and the PK is added to your browser(s) and the public key to the server. I believe this is a good walkthrough of the process for anyone starting out.
At work we use Authelia and HAProxy to get around the need to distribute a certificate for each client / mange our logins with SSO and 2FA. At home I simply use Nginx as a reverse proxy to the WebUI with the
proxy_ssl_certificate
passing a certificate down to it. Here another configuration example of how to use Nginx to pass the certificate, you can then use Basic HTTP Auth to add a simple username/password to it.With Incus only officially supported in Debian 13, and LXD on the way out, should I get going with LXD and migrate to Incus later? Or use the Zabbly repo and switch over to official Debian repos when they become available? What’s the recommended trajectory, would you say?
It depends on how fast you want updates. I’m sure you know how Debian works, so if you install LXD from Debian 12 repositories you’ll be on 5.0.2 LTS most likely for ever. If you install from Zabbly you’ll get the latest and greatest right now.
My companies’ machines are all running LXD from Debian repositories, except for two that run from Zabbly for testing and whatnot. At home I’m running from Debian repo. Migration from LXD 5.0.2 to a future version of Incus with Debian 13 won’t be a problem as Incus is just a fork and stgraber and other members of the Incus/LXC projects work very closely or also work in Debian.
Debian users will be fine one way or the other. I specifically asked stgraber about what’s going to happen in the future and this was his answer:
I hope this helps you decide.
Absolutely. Great intel; thank you!
I have another question, if you don’t mind: I have a debian/incus+opnsense setup now, created bridges for my NICs with systemd-networkd and attached the bridges to the VM like you described. I have the host configured with DHCP on the LAN bridge and ideally (correct me if I’m wrong, please), I’d like the host to not touch the WAN bridge at all (other than creating it and hooking it up to the NIC).
Here’s the problem: if I don’t configure the bridge on the host with either dhcp or a static IP, the opnsense VM also doesn’t receive an IP on that interface. I have a
br0.netdev
to set up the bridge, abr0.network
to connect the bridge to the NIC, and awan.network
to assign a static IP on br0, otherwise nothing works. (While I’m working on this, I have the WAN port connected to my old LAN, if it makes a difference.)My question is: Is my expectation wrong or my setup? Am I mistaken that the host shouldn’t be configured on the WAN interface? Can I solve this by passing the pci device to the VM, and what’s the best practice here?
Thank you for taking a look! 😊
Passing the PCI network card / device to the VM would make things more secure as the host won’t be configured / touching the network card exposed to the WAN. Nevertheless passing the card to the VM would make things less flexible and it isn’t required.
I think there’s something wrong with your setup. One of my machines has a
br0
and a setup like yours.10-enp5s0.network
is the physical “WAN” interface:root@host10:/etc/systemd/network# cat 10-enp5s0.network [Match] Name=enp5s0 [Network] Bridge=br0 # -> note that we're just saying that enp5s0 belongs to the bridge, no IPs are assigned here.
root@host10:/etc/systemd/network# cat 11-br0.netdev [NetDev] Name=br0 Kind=bridge
root@host10:/etc/systemd/network# cat 11-br0.network [Match] Name=br0 [Network] DHCP=ipv4 # -> In my case I'm also requesting an IP for my host but this isn't required. If I set it to "no" it will also work.
Now, I have a profile for “bridged” containers:
root@host10:/etc/systemd/network# lxc profile show bridged config: (...) description: Bridged Networking Profile devices: eth0: name: eth0 nictype: bridged parent: br0 type: nic (...)
And one of my VMs with this profile:
root@host10:/etc/systemd/network# lxc config show havm architecture: x86_64 config: image.description: HAVM image.os: Debian (...) profiles: - bridged (...)
Inside the VM the network is configured like this:
root@havm:~# cat /etc/systemd/network/10-eth0.network [Match] Name=eth0 [Link] RequiredForOnline=yes [Network] DHCP=ipv4
Can you check if your config is done like this? If so it should work.
My config was more or less identical to yours, and that removed some doubt and let me focus on the right part: Without a network config on
br0
, the host isn’t bringing it up on boot. I thought it had something to do with the interface having an IP, but turns out the following works as well:user@edge:/etc/systemd/network$ cat wan0.network [Match] Name=br0 [Network] DHCP=no LinkLocalAddressing=ipv4 [Link] RequiredForOnline=no
Thank you once again!
Oh, now I remembered that there’s
ActivationPolicy=
on[Link]
that can be used to control what happens to the interface. At some point I even reported a bug on that feature and vlans.I’m not so sure it is about the interface having an IP… I believe your current
LinkLocalAddressing=ipv4
is forcing the interface to get up since it has to assign a local IP. Maybe you can setLinkLocalAddressing=no
andActivationPolicy=always-up
and see how it goes.I’m currently off work with a broken shoulder, have you just given me a project?
Ahahaha that’s up to you. All best for your shoulder!
Hey! I have been using ESXi about three year now. I have two identical NIC I bought. One for WAN and one for LAN. I also discovered I had to use the onboard LAN port (3rd port!) just to be able to access the web control. (Is that normal?)
Anyway, I want to move to Proxmox, and then virtualize my OPNSense like I have on ESXi.
I get so confused by how the adapters should be. Ideally I would love to have the LAN connect to a (dumb) switch, and provide Wi-Fi. But one thing I never tried before is a VLAN to protect the LAN from the Wi-Fi traffic, but still allowing some systems to still work like streaming data from the wired PC on the LAN to the NVIDIA Shield Pro. But then keeping the Alexa/Echo system on a more restricted WiFi.
Can I do all this? I’m thinking I can, but. The hurdle of learning vlans and configuring the new Proxmox (which I’m pretty damn new to) is a daunting challenge.
I’m ready to try this though. I have a 4G wireless plus WiFi system to keep the other half happy while I tinker to get it all working.
Thoughts/Tips? Anyone?
All doable, you might need a managed or smart switch though
I have 4 bland at home plus untagged all through proxmox and a smart switch
Notes about the switch. What is tagging? The purpose and where?
vlan tags, they make vlans work