from Emotet@slrpnk.net to selfhosted@lemmy.world on 03 Jul 12:55
https://slrpnk.net/post/11094299
Currently, I have two VPN clients on most of my devices:
- One for connecting to a LAN
- One commercial VPN for privacy reasons
I usually stay connected to the commercial VPN on all my devices, unless I need to access something on that LAN.
This setup has a few drawbacks:
- Most commercial VPN providers have a limit on the number of simulations connected clients
- I either obfuscate my IP or am able to access resources on that LAN, including my Pi-Hole fur custom DNS-based blocking
One possible solution for this would be to route all internet traffic through a VPN client on the router in the LAN and figuring out how to still be able to at least have a port open for the VPN docker container allowing access to the LAN. But then the ability to split tunnel around that would be pretty hard to achieve.
I want to be able to connect to a VPN host container on the LAN, which in turn routes all internet traffic through another VPN client container while allowing LAN traffic, but still be able to split tunnel specific applications on my Android/Linux/iOS devices.
Basically this:
+---------------------+ internet traffic +--------------------+ | | remote LAN traffic | | | Client |------------------->|VPN Host Container | | (Android/iOS/Linux) | |in remote LAN | | | | | +---------------------+ +--------------------+ | | | | remote LAN traffic| | internet traffic split tunneled traffic| |-------- | | | v v | +---------------------------+ +---------------------+ v | | | regular LAN or | +-----------+ | VPN Client Container | | internet connection | |remote LAN | | connects to commercial VPN| +---------------------+ +-----------+ | | | | +---------------------------+
Any recommendations on how to achieve this, especially considering client apps for Android and iOS with the ability to split tunnel per application?
Update:
Got it by following this guide.
Ended up modifying this setup to have better control over potential IP leakage
threaded - newest
I do something similar with opnsense and policy based routing. opnsense is acting as both a VPN client and server. The client interface connects out to a commercial VPN, and the server interface listens for incoming connections. Based on what I I want to accomplish I setup firewall rules that use policy based routing to route incoming VPN traffic where it needs to go.
Regarding split tunnel on the client, the Android wireguard app has the option to specify what traffic uses the tunnel based on the application
Oh, neat! Never noticed that option in the Wireguard app before. That’s very helpful already. Regarding your opnsense setup:
I’ve dabbled in some (simple) routing before, but I’m far from anything one could call competent in that regard and even if I’d read up properly before writing my own routes/rules, I’d probably still wouldn’t trust that I hadn’t forgotten something to e.g. prevent IP/DNS leaks.
I’m mainly relying on a Docker and was hoping for pointers on how to configure a Wireguard host container to route only internet traffic through another Wireguard Client container.
I found this example, which is pretty close to my ideal setup. I’ll read up on that.
I’ve been toying with this idea but with a mesh network, in my case nebula, after experiencing a similar frustration with limitations on most client devices when trying to connect to multiple VPNs.
One question I’ve been trying to answer is if routing all of these devices to a single vpn endpoint has any negative effects on privacy. Would cycling the IP randomly help to prevent trackers from putting together a profile of activity?
Your browser gives them enough information to profile you by they don’t really need your ip address.
I guess what I’m getting at is now instead of them tracing your activity to one browser or device, they can more easily group multiple devices since they’re all using the same VPN IP.
Acronyms, initialisms, abbreviations, contractions, and other phrases which expand to something larger, that I’ve seen in this thread:
4 acronyms in this thread; the most compressed thread commented on today has 7 acronyms.
[Thread #848 for this sub, first seen 3rd Jul 2024, 19:15] [FAQ] [Full list] [Contact] [Source code]
I just read that tailscale and mullvad offer a joint service where traffic outside your tailnet always exits through mullvad
My problem with this solution was that I have signed in to Tailscale via my Google account, and I have to buy Mullvad through Tailscale, linking my Google account to the Mullvad account.
What I wanted to do was have my own Mullvad account and route Tailscale through it, but that wasn’t possible, I had to have Tailscale manage Mullvad, which just didn’t sit right with me.
Yeah that also wouldn’t sit right with me.
Even after you get your ideal setup with all your traffic transversing your network to a single host, you have bottle necked the whole network to the speed of that single host.
Usually in networks devices are able to talk to each other directly across switch fabrics and not interdesr with other traffic.
Say you have four devices A B C D each pair trying to send 1GiB/S of traffic to each other over a GbE network connected to the same switch. A,B gets 1 GbE and C,D gets 1 GbE. For a total concurrent speed of 2GbE.
In your model since all traffic has to hit the central wireguard node W first you can only get 1GbE speed concurrently
Oh I’m fully aware. I personally don’t care, but one could add a capable VPS and deploy the Wireguard Host Container + two Client Containers, one for the LAN and one for the commercial VPN (like so), if the internet connection of the LAN in question isn’t sufficient.
I use Tailscale to do this. I install the software on everything I can, but for resources on the LAN that don’t have Tailscale running I use its Subnet Router feature to masquerade the traffic and connect to those clients.
As for the commercial VPN, it’s a bit more involved. I have a few Exit Nodes (VPS) that take incoming Tailscale traffic destined to the Internet and re-route it via the commercial VPN’s WireGuard network interface.
This was a huge challenge for me (lots of
iptables
,ip6tables
rules) but I have it down to a reproducible script I can provide if you’d like an example.My next goal is to containerize the two VPS servers into one with Docker. Tailscale is a bit annoying that you can’t have multiple Nodes running on the same machine (hence my temporary two VPS solution).
Note: capitalized terms are Tailscale feature names
I’ve been tempted by Tailscale a few times before, but I don’t want to depend on their proprietary clients and control server. The latter could be solved by selfhosting Headscale, but at this point I figure that going for a basic Wireguard setup is probably easier to maintain.
I’d like to have a look at your rules setup, I’m especially curious if/how you approached the event of the commercial VPN Wireguard tunnel(s) on your exit node(s) going down, which depending on the setup may send requests meant to go through the commercial VPN through your VPS exit node.
Personally, I ended up with two Wireguard containers in the target LAN, a wireguard-server and a **wireguard-client **container.
They both share a docker network with a specific subnet {DOCKER_SUBNET} and wireguard-client has a static IP {WG_CLIENT_IP} in that subnet.
The wireguard-client has a slightly altered standard config to establish a tunnel to an external endpoint, a commercial VPN in this case:
where
are responsible for properly routing traffic coming in from outside the container and
is your standard kill-switch meant to block traffic going out of any network interface except the tunnel interface in the event of the tunnel going down.
The wireguard-server container has these PostUPs and -Downs:
PostUp = iptables -A FORWARD -i %i -j ACCEPT; iptables -A FORWARD -o %i -j ACCEPT; iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
default rules that come with the template and allow for routing packets through the server tunnel
PostUp = wg set wg0 fwmark 51820
the traffic out of the tunnel interface get marked
PostUp = ip -4 route add 0.0.0.0/0 via {WG_CLIENT_IP} table 51820
add a rule to routing table 51820 for routing all packets through the wireguard-client container
PostUp = ip -4 rule add not fwmark 51820 table 51820
packets not marked should use routing table 51820
PostUp = ip -4 rule add table main suppress_prefixlength 0
respect manual rules added to main routing table
PostUp = ip route add {LAN_SUBNET} via {DOCKER_SUBNET_GATEWAY_IP} dev eth0
route packages with a destination in {LAN_SUBNET} to the actual {LAN_SUBNET} of the host
PostDown = iptables -D FORWARD -i %i -j ACCEPT; iptables -D FORWARD -o %i -j ACCEPT; iptables -t nat -D POSTROUTING -o eth0 -j MASQUERADE; ip route del {LAN_SUBNET} via {DOCKER_SUBNET_GATEWAY_IP} d
Your setup looks more advanced than mine, and I’d really like to do something similar. I’m just going to copy/paste what I have with some addresses replaced by:
VPN_IPV4_CLIENT_ADDRESS
: The WireGuard IPv4 address of the VPN provider’s interface (e.g. 172.0.0.1)VPN_IPV6_CLIENT_ADDRESS
: The WireGuard IPv6 address of the VPN provider’s interfaceVPN_IPV6_CLIENT_ADDRESS_PLUS_ONE
: The next IPv6 address that comes afterVPN_IPV6_CLIENT_ADDRESS
. I can’t remember the logic behinds this but I’d found an article online explaining it.WG_INTERFACE
: The WireGuard network interface name (e.g. wg0) for the commercial VPNI left
100.64.0.0/10
,fd7a:115c:a1e0::/96
in my example because those are the networks Tailscale traffic will come from. I also lefttailscale0
because that is the typical interface. Obviously these can be changed to support any network.I’m using Alpine Linux so I don’t have the
PostUp
,PostDown
, etc. in my WireGuard configuration. I’m not usingwg-quick
at all.Before I hit paste, one thing I’ll say is I haven’t addressed the “kill switch” yet. But so far (~4 months) when the VPN provider’s tunnel goes down nothing leaks. 🤞
Forgot to mention that I run a DNS server for blocking too. When using Tailscale I’ve found it’s important to use their resolver as upstream otherwise App Connectors won’t work (the VPN provider tunnels on each VPS routes to different countries so DNS wasn’t in sync). This kind of sucks but I make do with it after a month or two of App Connectors being very iffy.