Worth mentioning that links at home can use them too, jumbo frame support was rare at one point but now you can get them on really cheap basic switches if you're looking for it. Even incredibly cheap $30 (literally, that's what a 5 port UniFi flex mini lists for direct) switches support them now. Not just an exotic thing for data centers anymore, and it can cut down on overhead within a LAN particularly as you get into 10/25/40/100 Gbps stuff to your own NAS/SAN or whatever.
What gave you that idea? Internally, Google uses GRE/GENEVE-like stuff but for reasons that have nothing to do with "preventing compromise" or whatever, but because they're carrying metadata (traces, latency budgets, billing ids.) That is to say, encapsulation is just transport. It's pretty much L3 semantics all the way down... In fact, this is more or less the point: L2 is intractable at scale, as broadcast/multicast doesn't work. However, it's hard to find comparisons to anything you're familiar with at Google scale. They have a myriad of proprietary solutions and custom protocols for routing, even though it's all L3 semantics. To learn more:
The last time I was there, there were many layers of encap, including MPLS, GRE, PSP, with very tightly managed MTU. Traffic engineering was mostly SDN-managed L3, but holy hell was it complex. Considering that Google (at the time) carried more traffic than the rest of the Internet combined, maybe it was worth it.
https://man.openbsd.org/vxlan.4#SECURITY seems unambiguous that it's intended for use in trusted environments (and all else being equal, I'd expect the openbsd man page authors to have reasonable opinions about network security), so it sounds like vxlan over ipsec/wg is probably the better route?
You can have EoIP over WG with any VLANs you like.
You can have a VXLAN over plain IP, over EoIP, over WG, over IPSec. Only WG and IPSec (with not NULL sec) do providecany semblance ofvencryption in transit
BGP is vastly superior to any L2 make-believe trash you can imagine, and amazingly, it often has better hardware offloading support for forwarding and firewalls. For example, 100G switches (L3+) like MikroTik's CRS504 do not support IPv6 in hardware for VXLAN-encapsulated flows, but everything just works if you choose to go the BGP route.
Any ASIC switch released in the last decade from Cisco/Juniper/Arista supports EVPN/VXLAN in hardware. EVPN is built on BGP. This has become the industry standard for new enterprise and cloud deployments.
The lack of support for hardware EVPN is one of the many reasons that Mikrotik is not considered for professional deployments.
If I can source an enterprise Cisco/Juniper/Arista ASIC switch that is 1) rock-solid 2) full featured 3) cheaper - which I can - there is unfortunately no rationale where Mikrotik would be applicable in any professional project of mine.
With that said, I love Mikrotik for what it is: it is very approachable and it fills a niche. I believe it has added a lot of value to the industry and I'm excited to see their products mature.
What are your discovery mechanisms? I don't know what exists for automatic peer management with wg. If you're doing bgp evpn for vxlan endpoint discovery then I'd think WG over vxlan would be the easier to manage option.
If you actually want to use vxlan ids to isolate l2 domains, like if you want multiple hypervisors separated by public networks to run groups of VMs on distinct l2 domains, then vxlan over WG seems like the way to go.
I use vxlan on top of wireguard in my hobby set up. Probably wouldn't recommend it for an actual production use-case. But that is more or less because of how my homelab is setup (Hetzner -> Home about 20ms latency roundtrip).
I considered dropping my root wireguard and setting up just vxlan and flannel, but as I need NAT hole punching I kind of need the wireguard root so that is why i ended up with it.
Going Wireguard inside the vxlan (flannel) in my case, would likely be overkill, unless I wanted my traffic between nodes between regions to be separated from other peers on the network, not sure where that would be useful. It is an easy way of blocking out a peer however, but that could just as well be solved on the "root" wireguard node.
There might be some MTU things that would be messed up going nested wireguard networks.
This is the correct answer, routing between subnets is how it’s suppose to work. I think there are some edge cases like DR where it seems like stretching L2 might sound like a good idea, but it practice it gets messy fast.
Instead you can create multiple Wireguard interfaces and use policy routing / ECMP / BGP / all the layer 3 tricks, that way you can achieve similar things to what vxlan could give you but at layer 3.
There's a performance benefit to doing it this way too, in some testing I found the wireguard interface can be a bottleneck (there's various offload and multiple core support in Linux, but it still has some overhead).
Agreed. They've also been extremely finnicky from my experience - had cases where large EVPN deployments just blackholed some arbitrary destination MAC until GARPs were sent out of them.
Also IME EVPN is mostly deployed/pushed when clueless app developers expect to have arbitrary L2 reachability across any two points in a (cross DC!) fabric [1], or when they want IP addresses that can follow them around the DC or other dumb shit that they just assumed they can do.
[1] "What do you mean I can't just use UDP broadcast as a pub sub in my application? It works in the office, fix your network!" and the like.
The good clouds don't support L2, they use a centralized control plane instead of brittle EVPN, and they virtualize in the hypervisor instead of in the switches. People are being sold EVPN as "we have cloud at home" and it's not really true.
Is there a WireGuard equivalent that does L2 instead of L3? Need this for a virtual mesh network for homelabbing. I have this exact setup, running VXLAN or GENEVE over WireGuard tunnel using KubeSpan from Talos Linux but I simply think having L2 access would make load balancer much easier
I achieve load balancing by running native wireguard on a vps at hetzner, I've got a native wireguard mesh, I believe Talos can do the same, where the peers are manually set up, or via. tailscale etc. I then tell k3s that it should use the wireguard interface for vxlan, and boom my kubernetes mesh is now connected.
flannel-iface: "wg0" # Talos might have something similar.
I do use some node-labels and affinities to make sure the right pods end up in the right spot. For example the metallb annoucer always has to come from the hetzner node. As mentioned in my reply below, it takes about 20ms roundtrip back to my homelab, so my sites can take a bit of time to load, but it works pretty well otherwise, sort of similar to how cloudflare tunnels would work, except not as polished.
For site-so-site ovelay networks, use wireguard, vxlan should be inside of it, if at all. Your "network" is connected by wireguard, and it contains details like vxlan. Even within your network, when crossing security boundaries across untrusted channels, you can use wireguard.
Others mentioned tailscale, it's cool and all but you don't always need it.
As far as security, that's not even the consideration I had in mind, sure wireguard is secure, but that's not why you should have vxlan inside it, you should do so because that's the purpose of wireguard, to connect networks securely across security/trust boundaries. it doesn't even matter if the other protocol is also wireguard, or ssh or whatever, if it is an option, wireguard is always the outermost protocol, if not then ipsec, openvpn,softether,etc..whatever is your choice of secure overlay network protocol gets to be the tunnel protocol.
VXLAN over WireGuard is acceptable if you require a shared L2 boundary.
IPSec over VXLAN is what I recommend if you are doing 10G or above. There is a much higher performance ceiling than WireGuard with IPSec via hardware firewalls. WireGuard is comparatively quite slow performance-wise. Noting Tailscale, since it has been mentioned, has comparatively extremely slow performance.
edit: I'm noticing that a lot of the other replies in this thread are not from network engineers. Among network engineers WireGuard is not very popular due to performance & absence of vendor support. Among software engineers, it is very popular due to ease of use.
While that's true, I'm not sure it's because of something inherent in IPsec vs WireGuard. It's more likely due to the fact that hardware accelerators have been designed to offload encryption routines that IPsec uses.
One wonders what WG perf would look like if it could leverage the same hardware offload.
Exactly this. I would love to see a commercial product with a hardware implementation for WireGuard, but it does not yet exist. IPsec, however, is well supported.
At this time, there is no commercial offering for hardware/ASIC WireGuard implementations. The standard WireGuard implementation cannot reach 10G.
The fastest I am aware of is VPP (open-source) & Intel QAT [1], which while it is achieves impressive numbers for large packets (70Gbps @ 512 / 200Gbps @ 1420 on a $20k+ MSRP server), is still not comparable with commercial IPsec offerings [2][3][4] that can achieve 800Gbps+ on a single gateway (and come with the added benefit of relying on a commercial product with support).
There are also solutions like Arista TunnelSec [1] that can achieve IPsec and VXLANsec at line-rate performance (21.6Tbps per chassis)! This is fairly new and fancy though.
> Noting Tailscale, since it has been mentioned, has comparatively extremely slow performance.
Isn't this mainly because Tailscale relies on userspace WG (wireguard-go)? I'd imagine the perf ceiling is much higher for kernel WG, which I believe is what Netbird uses.
Not super related to the OP but since we're discussing network topologies; I've recently had an insane idea that nfs security sucks, nfs traversing firewalls sucks, kerberos really sucks, and that just wrapping it all in a wireguard pipe is way better.
How deranged would it be to have every nfs client establish a wireguard tunnel and only have nfs traffic go through the tunnel?
I built a NFS3-over-OpenVPN network for a startup about a decade ago; it worked “okay” for transiting an untrusted internal cloud provider network and even over the internet to other datacenters, but ran into mount issues when the outer tunnels dropped a connection during a write. They ran out of money before it had to scale past a few dozen nodes.
Nowadays I would recommend using NFS4+TLS or Gluster+TLS if you need filesystem semantics. Better still would be a proper S3-style or custom REST API that can handle the particulars of whatever strange problem lead to this architecture.
> How deranged would it be to have every nfs client establish a wireguard tunnel and only have nfs traffic go through the tunnel?
Sounds good to me. I have my Wireguard tunnel set up so that only traffic intended for hosts that are in the Wireguard network itself are routed over the Wireguard tunnel.
I mostly use it to ssh into different machines. The Wireguard server runs on a VPS on the Internet, and I can connect to it from anywhere (except from networks that filter Wireguard traffic), and that way ssh into my machines at home while I am away from home. Whereas all other normal traffic to other places is unaffected by and unrelated to the tunnel. So for example if I bring my laptop to a coffee shop and I have Wireguard running and I browse the web with a web browser, all my web browsing traffic still gets sent the same normal way that it would even if I didn’t have the tunnel running.
I rarely use NFS nor SMB, but if I wanted to connect either of those I would be able to that as well over this Wireguard setup I have.
pjd7 | 6 hours ago
ronsor | 6 hours ago
DiabloD3 | 6 hours ago
IPSec-equivalent, VXLAN-equivalent, IPSec-equivalent.
Prevents any compromised layer from knowing too much about the traffic.
pixl97 | 6 hours ago
als0 | 6 hours ago
_bernd | 6 hours ago
xoa | 3 hours ago
tucnak | 5 hours ago
Andromeda https://research.google/pubs/andromeda-performance-isolation...
Orion https://research.google/pubs/orion-googles-software-defined-...
DiabloD3 | 5 hours ago
zeroxfe | 3 hours ago
volkadav | 6 hours ago
wmf | 6 hours ago
mbreese | 6 hours ago
justsomehnguy | 6 hours ago
VXLAN is L2-like tranport over L3
You can have EoIP over WG with any VLANs you like.
You can have a VXLAN over plain IP, over EoIP, over WG, over IPSec. Only WG and IPSec (with not NULL sec) do providecany semblance ofvencryption in transit
And mandatory X\Y problem.
inetknght | 6 hours ago
But it's not necessarily a bad idea. It depends on the circumstances, even when traversing a public network.
tucnak | 6 hours ago
ghxst | 5 hours ago
tucnak | 5 hours ago
L2 is a total waste of time.
iscoelho | 4 hours ago
The lack of support for hardware EVPN is one of the many reasons that Mikrotik is not considered for professional deployments.
hdgvhicv | 4 hours ago
People who think one size fits all are not professional.
iscoelho | 4 hours ago
With that said, I love Mikrotik for what it is: it is very approachable and it fills a niche. I believe it has added a lot of value to the industry and I'm excited to see their products mature.
uberduper | 6 hours ago
uberduper | 5 hours ago
kjuulh | 5 hours ago
I considered dropping my root wireguard and setting up just vxlan and flannel, but as I need NAT hole punching I kind of need the wireguard root so that is why i ended up with it.
Going Wireguard inside the vxlan (flannel) in my case, would likely be overkill, unless I wanted my traffic between nodes between regions to be separated from other peers on the network, not sure where that would be useful. It is an easy way of blocking out a peer however, but that could just as well be solved on the "root" wireguard node.
There might be some MTU things that would be messed up going nested wireguard networks.
q3k | 5 hours ago
cjaackie | 5 hours ago
formerly_proven | 5 hours ago
dgl | 5 hours ago
Instead you can create multiple Wireguard interfaces and use policy routing / ECMP / BGP / all the layer 3 tricks, that way you can achieve similar things to what vxlan could give you but at layer 3.
There's a performance benefit to doing it this way too, in some testing I found the wireguard interface can be a bottleneck (there's various offload and multiple core support in Linux, but it still has some overhead).
iscoelho | 5 hours ago
You'd be surprised to know that this is especially popular in cloud! It's just abstracted away (:
wmf | 4 hours ago
q3k | 4 hours ago
Also IME EVPN is mostly deployed/pushed when clueless app developers expect to have arbitrary L2 reachability across any two points in a (cross DC!) fabric [1], or when they want IP addresses that can follow them around the DC or other dumb shit that they just assumed they can do.
[1] "What do you mean I can't just use UDP broadcast as a pub sub in my application? It works in the office, fix your network!" and the like.
iscoelho | 4 hours ago
wmf | 3 hours ago
iscoelho | 4 hours ago
Though there are definitely use cases where it is needed, and it is way easier to implement earlier than later.
stevefan1999 | 5 hours ago
kjuulh | 5 hours ago
I achieve load balancing by running native wireguard on a vps at hetzner, I've got a native wireguard mesh, I believe Talos can do the same, where the peers are manually set up, or via. tailscale etc. I then tell k3s that it should use the wireguard interface for vxlan, and boom my kubernetes mesh is now connected.
flannel-iface: "wg0" # Talos might have something similar.
I do use some node-labels and affinities to make sure the right pods end up in the right spot. For example the metallb annoucer always has to come from the hetzner node. As mentioned in my reply below, it takes about 20ms roundtrip back to my homelab, so my sites can take a bit of time to load, but it works pretty well otherwise, sort of similar to how cloudflare tunnels would work, except not as polished.
My setup is here if it is of help
https://git.kjuulh.io/kjuulh/clank-homelab-flux/src/branch/m...
dietr1ch | 5 hours ago
https://docs.zerotier.com/bridging/
stevefan1999 | an hour ago
I used to run my K8S homelab through ZT as well. Latency is extremely bad.
What I wanted is more like meshed L2TPv3, but L2TPv3 is extremely hard to setup nowadays
viraptor | 5 hours ago
H8crilA | 5 hours ago
sy26 | 5 hours ago
notepad0x90 | 5 hours ago
Others mentioned tailscale, it's cool and all but you don't always need it.
As far as security, that's not even the consideration I had in mind, sure wireguard is secure, but that's not why you should have vxlan inside it, you should do so because that's the purpose of wireguard, to connect networks securely across security/trust boundaries. it doesn't even matter if the other protocol is also wireguard, or ssh or whatever, if it is an option, wireguard is always the outermost protocol, if not then ipsec, openvpn,softether,etc..whatever is your choice of secure overlay network protocol gets to be the tunnel protocol.
iscoelho | 5 hours ago
IPSec over VXLAN is what I recommend if you are doing 10G or above. There is a much higher performance ceiling than WireGuard with IPSec via hardware firewalls. WireGuard is comparatively quite slow performance-wise. Noting Tailscale, since it has been mentioned, has comparatively extremely slow performance.
edit: I'm noticing that a lot of the other replies in this thread are not from network engineers. Among network engineers WireGuard is not very popular due to performance & absence of vendor support. Among software engineers, it is very popular due to ease of use.
kosolam | 4 hours ago
hdgvhicv | 4 hours ago
rebewhd | 4 hours ago
One wonders what WG perf would look like if it could leverage the same hardware offload.
iscoelho | 4 hours ago
iscoelho | 4 hours ago
The fastest I am aware of is VPP (open-source) & Intel QAT [1], which while it is achieves impressive numbers for large packets (70Gbps @ 512 / 200Gbps @ 1420 on a $20k+ MSRP server), is still not comparable with commercial IPsec offerings [2][3][4] that can achieve 800Gbps+ on a single gateway (and come with the added benefit of relying on a commercial product with support).
[1] https://builders.intel.com/docs/networkbuilders/intel-qat-ac...
[2] https://www.juniper.net/content/dam/www/assets/datasheets/us...
[3] https://www.paloaltonetworks.com/apps/pan/public/downloadRes...
[4] https://www.fortinet.com/content/dam/fortinet/assets/data-sh...
iscoelho | 4 hours ago
[1] https://www.arista.com/assets/data/pdf/Whitepapers/EVPN-Data...
Cyph0n | 3 hours ago
Isn't this mainly because Tailscale relies on userspace WG (wireguard-go)? I'd imagine the perf ceiling is much higher for kernel WG, which I believe is what Netbird uses.
jrm4 | 5 hours ago
I use Tinc as a daily driver (for personal things) and have yet to come up with a new equivalent, given that I probably should. Does Vxlan help here?
iscoelho | 5 hours ago
imiric | 5 hours ago
These days I lean towards WireGuard simply because it's built into Linux, but Tinc would be my second choice.
denkmoon | 5 hours ago
How deranged would it be to have every nfs client establish a wireguard tunnel and only have nfs traffic go through the tunnel?
eugenekay | 4 hours ago
Nowadays I would recommend using NFS4+TLS or Gluster+TLS if you need filesystem semantics. Better still would be a proper S3-style or custom REST API that can handle the particulars of whatever strange problem lead to this architecture.
QuantumNomad_ | 4 hours ago
Sounds good to me. I have my Wireguard tunnel set up so that only traffic intended for hosts that are in the Wireguard network itself are routed over the Wireguard tunnel.
I mostly use it to ssh into different machines. The Wireguard server runs on a VPS on the Internet, and I can connect to it from anywhere (except from networks that filter Wireguard traffic), and that way ssh into my machines at home while I am away from home. Whereas all other normal traffic to other places is unaffected by and unrelated to the tunnel. So for example if I bring my laptop to a coffee shop and I have Wireguard running and I browse the web with a web browser, all my web browsing traffic still gets sent the same normal way that it would even if I didn’t have the tunnel running.
I rarely use NFS nor SMB, but if I wanted to connect either of those I would be able to that as well over this Wireguard setup I have.
sciencesama | 5 hours ago