I got my parents to get a NAS box, stuck it in their basement. They need to back up their stuff anyway. I put in 2 18 TB drives (mirrored BTRFS raid1) from server part deals (peeps have said that site has jacked their prices, look for alts). They only need like 4 TB at most. I made a backup samba share for myself. It’s the cheapest symbology box possible, their software to make a samba share with a quota.

I then set up a wireguard connection on an RPi, taped that to the NAS, and wireguard to the local network with a batch script. Mount the samba share and then use restic to back up my data. It works great. Restic is encrypted, I don’t have to pay for storage monthly, their electricity is cheap af, they have backups, I keep tabs on it, everyone wins.

Next step is to go the opposite way for them, but no rush on that goal, I don’t think their basement would get totaled in a fire and I don’t think their house (other than the basement) would get totaled in a flood.

If you don’t have a friend or relative to do a box-at-their-house (peeps might be enticed with reciprocal backups), restic still fits the bill. Destination is encrypted, has simple commands to check data for validity.

Rclone crypt is not good enough. Too many issues (path length limits, password “obscured” but otherwise there, file structure preserved even if names are encrypted). On a VPS I use rclone to be a pass-through for restic to backup a small amount of data to a goog drive. Works great. Just don’t fuck with the rclone crypt for major stuff.

Lastly I do use rclone crypt to upload a copy of the restic binary to the destination, as the crypt means the binary can’t be fucked with and the binary there means that is all you need to recover the data (in addition to the restic password you stored safely!).

Odd, I’ll try to deploy this when I can and see!

I’ve never had a problem with a volume being on the host system, except with user permissions messed up. But if you haven’t given it a user parameter it’s running as root and shouldn’t have a problem. So I’ll see sometime and get back to you!

That’s pretty damn clever

I try to slap anything I’d face the Internet with with the read_only to further restrict exploit possibilities, would be abs great if you could make it work! I just follow all reqs on the security cheat sheet, with read_only being one of them: https://cheatsheetseries.owasp.org/cheatsheets/Docker_Security_Cheat_Sheet.html

With how simple it is I guessed that running as a userand restricting cap_drop: all wouldn’t be a problem.

For read_only many containers just need tmpfs: /tmp in addition to the volume for the db. I think many containers just try to contain temporary file writing to one directory to make applying read_only easier.

So again, I’d abs use it with read_only when you get the time to tune it!!

Looks awesome and very efficient, does it also run with read_only: true (with a db volume provided, of course!)? Many containers just need a /tmp, but not always

I trust the check restic -r '/path/to/repo' --cache-dir '/path/to/cache' check --read-data-subset=2000M --password-file '/path/to/passfile' --verbose. The --read-data-subset also does the structural integrity while also checking an amount of data. If I had more bandwidth, I’d check more.

When I set up a new repo, I restore some stuff to make sure it’s there with restic -r '/path/to/repo' --cache-dir '/path/to/cache' --password-file '/path/to/passfile' restore latest --target /tmp/restored --include '/some/folder/with/stuff'.

You could automate that and make sure some essential-but-not-often-changing files match regularly by restoring them and comparing them. I would do that if I wasn’t lazy I guess, just to make sure I’m not missing some key-but-slowly-changing files. Slowly/not often changing because a diff would fail if the file changes hourly and you backup daily, etc.

Or you could do as others have suggested and mount it locally and just traverse it to make sure some key stuff works and is there sudo mkdir -p '/mnt/restic'; sudo restic -r '/path/to/repo' --cache-dir '/path/to/cache' --password-file '/path/to/passfile' mount '/mnt/restic'.

I have my router (opnsense) redirect all DNS requests to pihole/adguardhome. AdGuard home is easier for this since you can have it redirect wildcard *.local.domain while pihole wants every single one individually (uptime.local.domain, dockage.local.domain). With that combo of router not letting DNS out to upstream servers and my local DNS servers set up to redirect *.local.domain to the correct location(s), my DNS requests inside my local network never get out where an upstream DNS can tell you to kick rocks.

I combined the above with a (hella cheap for 10yr) paid domain, wildcard certified the domain without exposure to the wan (no ip recorded, but accepted by devices), and have all *.local.domain requests redirect to a single server caddy instance that does the final redirecting to specific services.

I’m not fully sure what you’ve got cooking but I hope typing out what works for me can help you figure it out on your end! Basically the router doesn’t let anything DNS get by to be fucked with by the ISP.

I’m surprised no one’s mentioned Incus, it’s a hypervisor like Proxmox but it’s designed to install onto Debian no prob. Does VMs and containers just like Proxmox, and snapshots too. The web UI is essential, you add a repo for it.

Proxmox isn’t reliable if you’re not paying them, the free people are the test people - and a bit back there was a bad update they pushed that broke shit. If I’d have updated before they pulled it, I’d have been hosed.

Basically you want a device that you don’t have to worry about updates, because updates are good for security. And Proxmox ain’t that.

On top of their custom kernel and stuff, it’s just less eyes than, say, the kernel Debian ships. Proxmox isn’t worth the lock-in and brittleness for just making VMs.

So to summarize, Debian and Incus installed. BTRFS if you’re happy with 1 drive or 2 RAID 1 drives. BTRFS gets scrubbing and bitrot detection (protection with RAID 1). ZFS for more drives. Toss on Cockpit too.

If you want less hands-on, do to OpenMediaVault. No room for Proxmox in my view, esp. for no clustering.

Also the iGPU on the 6600K likely is good enough for whatever transcoding you’d do (esp. if it’s rare and 1080p, it’ll do 4k no prob and multiple streams at once). The Nvidia card is just wasting power.

I wish too for an in-depth blog post, but the github answer is at least succinct enough

This answers all of your questions: https://github.com/containers/podman/discussions/13728 (link was edited, accidentally linked a redhat blog post that didn’t answer your Q directly but does make clear that specifying a user in rootless podman is important for security for the user running the rootless podman container if that user does more than just run the rootless podman container).

So the best defense plus ease of use is podman root assigning non-root UIDs to the containers. You can do the same with Docker, but Docker with non-root UIDs assigned still caries the risk of the root-level Docker daemon being hacked and exploited. Podman does not have a daemon to be hacked and exploited, meaning root Podman with non-root UIDs assigned has no downsides!

I see, do you know of a way in Docker (or Podman) to bind to a specific network interface on the host? (So that a container could use a macvlan adapter on the host)

Or are you more advocating for putting the Docker/Podman containers inside of a VM/LXC that has the macvlan adapter (or fancy incus bridge adapter) attached?

Confused at this sentiment, Docker includes a MACVLAN driver so clearly it’s intended to be used. Do you eschew any networking in Docker beyond the default bridge for some reason?

With the default Docker bridge networking the container won’t have a unique IP/MAC address on the local network, as far as I am aware. Communication with external clients will have to contact the host server’s IP at the port the container is tied to in order to interact. If there’s a way to specify a specific parent interface, let me know!

This was very insightful and I’d like to say I groked 90% of it meaningfully!

For an Incus container with its unique MAC interface, yes if I run a Docker container in that Incus container and leave the Docker container in its default bridge mode then I get the desired feature set (with the power of onions).

And thanks for explaining CNI, I’ve seen it referenced but didn’t fully get how it’s involved. I see that podman uses it to make a MACVLAN interface that can do DHCP (until 5.0, but the replacement seems to be feature-compatible for MACVLAN), so podman will sidestep the pain point of having to assign a no-go-zone on the DHCP server for a Docker swath of IPv4s, as you mentioned. Close enough for containers that the host doesn’t need to talk to.

So in summary:

• I’ve got Docker doing the extent it can manage with MACVLAN and there’s no extra magicks to be done on it.

• Podman will still use MACVLAN (no host to container comms still) but it’s able to use DHCP to get an address for the MACVLAN container.

• If the host must talk to the container with MACVLAN, I can either use the MACVLAN bypass as you linked to above or put the Docker/Podman container inside an Incus container with its bridge mode.

• Kubernutes continues to sound very powerful and flexible but is definitely beyond my reach yet. (Womp womp)

Thanks again for taking the time to type and explain all of that!

Thanks for taking the time to reply!

The host setup has eth0 as the physical interface to the rest of the network, with br0 replacing it completely. br0 has the same MAC as the eth0 interface and eth0 just forwards to br0 which then does the bridging internally. br0 being a bridge means that incus is able to split it off without MACVLAN but rather its nic device in bridge mode which “Uses an existing bridge on the host (br0) and creates a virtual device pair to connect the host bridge to the instance.” That results in a network interface that has its own MAC and is assigned a local IP by the DHCP server on the network while also being able to talk to the host.

Incus accomplishes the same goal as Proxmox (Proxmox has similar bridge network devices for its containers/VMs) just without Incus needing to be your OS/distro like Proxmox does, it’s just a package.

As for the Docker, the parent interface is br0 which has supplanted eth0. MACVLAN is working as it is intended to in Docker, as far as I can tell. The container has a networking device with its own MAC address, and after supplying the MACVLAN network device with my network’s subnet and gateway and static IP address in the Docker compose file it works as expected. If I don’t supply a static IP in the Docker compose file, Docker just assigns it the first IP in the given subnet - no DHCP interaction. This docker-net-dhcp plugin (I linked to the issue about it not working on the latest version of Docker anymore) was made to give Docker network devices the ability to use DHCP to get an IP address, but it’s clearly not something to rely on.

If I’m missing something about MACVLAN that makes DHCP work for Docker, let me know! Hardcoding an IP into a docker-compose file adds an extra step to remember compared to everything else being configured on the centralized DHCP server - hence the shoddy implementation claim for Docker.

Thanks for the link to using another MACVLAN and routing around the host<-/->container connection issue inherent to MACVLAN. I’ll keep it in mind as an alternate to Incus container around another container! I do wish there could be something like Incus’ hassle-free solution for Docker or Podman.

Not what you asked for but possibly useful; if you have apple devices and can use airplay instead of Bluetooth, https://github.com/mikebrady/shairport-sync works really well. Even runs airplay 2 on a pi zero smoothly. Don’t know of Bluetooth otherwise sadly