The incus-pet CLI gains three big changes that together cut per-container
disk usage by ~5GB, drop nix-rebuild + nix-copy from the deploy path, and
make `deploy` actually pull latest on every invocation. anywhen migrates
from a host-installed service to an incus-pet container in the process.
* Shared /nix/store mount. Each container gets host's /nix/store
bind-mounted read-only (with shift=true for idmapped unprivileged
containers). Zero per-container duplication of nixpkgs closures. The
CLI builds toplevels on the host; the container sees them via the
shared mount, no `nix copy` needed.
* Restart-to-deploy. switch-to-configuration is removed entirely (it
was stalling on dbus-broker reload and hitting the same lock-
contention bug across redeploys). New activation: update
/nix/var/nix/profiles/system, repoint /sbin/init through the profile
symlink, `incus restart`. The new toplevel's own init script handles
/etc setup on boot. Trade-off: ~5s of container reboot per deploy.
* Marshaling flake exposes only nixosModules.default. No nixpkgs
input, no nixosConfigurations entry. The CLI picks nixpkgs at build
time (pinned to nixos-25.11 — matches the LXC image baseline, dodges
unstable regressions) and assembles the full nixosSystem via
`nix build --impure --expr`. Lets us bump nixpkgs without touching
per-deploy state.
* `nix flake update --refresh` on every deploy. Was `nix flake lock`,
which only locks first-seen inputs — re-deploying `github:srid/anywhen`
stayed pinned at the first commit ever resolved. Now every deploy
bumps the target input to the current tip of its ref and bypasses
nix's fetcher cache.
* /sbin/init repoint. The NixOS LXC image hard-links /sbin/init to its
own toplevel's init path. Without switch-to-configuration, `incus
restart` re-execs that old init, which sets up /etc from the old
toplevel — running services keep using the OLD anywhen binary even
though the profile pointer moved. CLI now also does
`ln -sfn /nix/var/nix/profiles/system/init /sbin/init` so the profile
actually drives boot. Idempotent.
* Host gcroot via `nix-store --add-root --indirect`. Container's nix DB
doesn't know about the path (it lives behind the shared mount), so
without a host-side gcroot the host could nix-collect-garbage the
running system out from under the container. Symlink at
~/.local/state/incus-pet/<name>/system. Only the LATEST toplevel is
pinned per app — no rollback today (file a 5-line ring buffer when
rollback matters).
* anywhen flake input removed. `modules/nixos/linux/anywhen.nix` is
gone; the host config no longer imports anywhen as a flake input.
The deploy command takes the flake ref as an argument, so locking it
here was just bloat. `just pureintent anywhen-deploy` runs the
current invocation.
* pureintent ops recipes. New `configurations/nixos/pureintent/mod.just`
with anywhen-{deploy,rm,backup,restore,status,shell}. Namespaced via
`mod pureintent` so each host's recipes live behind their own prefix.
* Drop ssh from deploy path. Bootstrap still pushes the operator's
pubkey (for interactive debugging), but activation goes through
`incus exec` exclusively. No NIX_SSHOPTS, no nix-copy-via-ssh,
no host-key TOFU dance during deploys.
Tested end-to-end on pureintent: anywhen migrated from host-installed
(21-task SQLite DB at /var/lib/anywhen) to an incus-pet container with
the DB intact; hello-web deployed fresh with shared /nix/store; both
serve over the tailscale proxy at 100.122.32.106:{6111,8081}; lock
bumps + new toplevels confirmed after master advances.
|
||
|---|---|---|
| .. | ||
| example/hello-web | ||
| default.nix | ||
| README.md | ||
| SKILL.md | ||
incus-pet
Per-app incus container CLI ("pet PaaS"). Takes a NixOS service flake,
materialises it into a dedicated incus container on the local host, and
exposes the service on a chosen <listen-ip>:<host-port> that proxies
to a fixed 8080 inside the container.
incus-pet deploy github:srid/anywhen --port 7700 --listen 100.122.32.106
incus-pet list
incus-pet rm anywhen
See SKILL.md for the agent-facing recipe; this README is for humans
running the CLI directly.
Prerequisites
- The host runs the incus daemon (this repo's
modules/nixos/linux/incusenables it). - The operator's user is in the
incus-admingroup. - An SSH key exists at
~/.ssh/id_ed25519.pub(or~/.ssh/id_rsa.pub) that root inside the container will trust. - The target flake ships
nixosModules.incus(seeSKILL.mdBranch C for what that means, or the anywhen flake for a worked example).
The deploy unit — what a flake must ship
# in the app's flake.nix outputs
nixosModules.incus = { config, lib, pkgs, ... }: {
imports = [ self.nixosModules.default ];
incus.container = {
enable = true;
hostname = lib.mkDefault "anywhen";
};
system.stateVersion = "25.05";
services.anywhen = {
enable = true;
package = lib.mkDefault self.packages.${pkgs.stdenv.hostPlatform.system}.default;
host = lib.mkDefault "0.0.0.0";
port = 8080; # the incus-pet contract — fixed
};
};
The CLI's marshaling flake imports this alongside container.nix (the
in-tree essentials) and runs nixos-rebuild switch --target-host
against the container.
Network model — fixed inside, unique outside
This is the section worth reading twice.
Inside the container
Every containerized service binds the same port: 8080. This is a
convention, declared as a readOnly option (incus.container.servicePort)
in container.nix. App authors do not pick a port — they wire
services.<app>.port = config.incus.container.servicePort and move on.
Cross-app port collisions become impossible because there is only one
port to collide with, and each container has its own network namespace.
Outside the container (the host)
The host runs an incus proxy device per container that translates a
unique <listen-ip>:<host-port> on the host into a connection to the
container's 127.0.0.1:8080:
incus config device add <name> web proxy \
listen=tcp:<listen-ip>:<host-port> \
connect=tcp:127.0.0.1:8080
incus-pet deploy wires this for you idempotently. The <host-port>
and <listen-ip> are stored in container metadata
(user.incus-pet.host-port, user.incus-pet.listen) so re-running
incus-pet deploy <flake-ref> doesn't need the flags repeated.
Picking a listen IP
<listen-ip> can be any address bound on the host. The three meaningful
choices:
| Listen IP | Reach | Firewall edit needed? |
|---|---|---|
0.0.0.0 |
Anyone who can route to this host's NIC | Yes — open <host-port> in networking.firewall.allowedTCPPorts |
| Host's LAN IP | Same as above, scoped to that NIC | Yes — same as above |
Host's tailnet IP (e.g. 100.122.32.106) |
Tailnet only | No — tailscale0 is in networking.firewall.trustedInterfaces (see configurations/nixos/pureintent/default.nix:78), so traffic on that interface bypasses the host firewall |
For "internal apps on my box, reachable only from my tailnet" (the common case), pick the tailscale IP. On a host where you always want that, export the IP once:
# in your shell profile, or via environment.variables in the host config
export INCUS_PET_LISTEN=100.122.32.106
…and every incus-pet deploy binds there automatically.
What the container's own firewall does
container.nix opens 8080 inside the container, so the proxy device's
connect=tcp:127.0.0.1:8080 reaches the service. The container has its
own veth on incusbr0; nothing on the host's interfaces is involved
until traffic hits the proxy device on <listen-ip>:<host-port>.
Operator flow
First deploy of an app
incus-pet deploy github:srid/anywhen --port 7700 --listen 100.122.32.106
This:
- Synthesises a marshaling flake under
~/.local/state/incus-pet/anywhen/exposingnixosModules.default(essentials + app'snixosModules.incus+ operator pubkey overlay) — no nixpkgs pin in per-deploy state. - Launches
images:nixos/25.11as containeranywhenwith-c security.nesting=true. - Pushes your
~/.ssh/id_ed25519.pubinto the container's/root/.ssh/authorized_keys(the image already runs sshd via systemd socket activation). - Builds the system toplevel against
github:nixos/nixpkgs/nixos-25.11(stable, matching the image baseline) vianix build --impure --expr. - Copies the closure with
nix copy --to ssh://root@<container-ip> --substitute-on-destination. - SSHes to set the system profile and run
switch-to-configuration switch. - Records
--portand--listenin container metadata. - Adds the
webproxy device.
Subsequent deploys
incus-pet deploy github:srid/anywhen # picks up new commits on the branch
No flags needed — --port and --listen are read from metadata.
Listing what's running
incus-pet list
Filters incus list to only containers tagged with
user.incus-pet.flake-ref.
Removing
incus-pet rm anywhen
Stops and deletes the container, removes the marshaling flake from
~/.local/state/incus-pet/anywhen/. Container metadata goes with the
container.
Failure modes
incus not in PATH— the host needs the incus daemon installed and the operator's user inincus-admin(log out and back in after the group is added).first deploy of <name> needs --port N— pass--port; it will be recorded in container metadata for next time.container did not get an IPv4 address within 30s— usually meansincusbr0didn't come up. Checkincus network listandsystemctl status incus-preseed.Failed to start Firewall.inside the container — the launch flag-c security.nesting=trueis supposed to handle this; if it recurs, see../README.mdand lxc/incus#526.switch-to-configurationexits 4 — "some units failed to reload/restart". Treated as success: the activation itself completed, only a unit reload (typically dbus-broker) failed. The service is up.switch-to-configurationexits 11 / "Could not acquire lock" — a previous activation is still running (often hung).incus exec <name> -- pkill -9 -f switch-to-configurationclears it.
State
| What | Where |
|---|---|
| Marshaling flake + lock | ~/.local/state/incus-pet/<name>/{flake.nix, flake.lock} |
| Operator-chosen host port | incus config get <name> user.incus-pet.host-port |
| Operator-chosen listen IP | incus config get <name> user.incus-pet.listen |
| Source flake ref | incus config get <name> user.incus-pet.flake-ref |
| Service data | Inside the container, per the app's services.<app>.stateDir |
The marshaling flake carries no app-specific values — only the
assembly. App config lives entirely in the upstream flake's
nixosModules.incus.