Files
bot-bottle/scripts/firecracker-netpool.sh
didericis caf1da580a feat(firecracker): group-owned TAP pool for multi-user hosts
Add a `group` option to the netpool NixOS module + BOT_BOTTLE_FC_GROUP to
the shell script: when set, the pool's TAP devices are owned by a group
instead of a single user, so any group member can open them (the kernel
lets a TAP's owning-group members attach). This lets an interactive user
and, say, a CI-runner user share one pool. `owner`/`group` are mutually
exclusive (asserted). Single-user `owner` remains the default.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01WBMWTEtQdJ4W5UrWuLHCck
2026-07-12 16:17:37 -04:00

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#!/usr/bin/env bash
# One-time privileged network setup for the Firecracker backend.
#
# Creates a pool of point-to-point TAP devices (owned by the invoking
# user so the backend can open them without root at launch) and a
# dedicated nftables table that isolates every VM: a bottle VM can
# reach only its own sidecar (published on the host-side TAP IP) and
# nothing else on the host or network.
#
# Why a pool + one-time setup: creating a TAP and assigning it an IP
# needs CAP_NET_ADMIN. Pre-creating user-owned, pre-addressed TAPs
# means `./cli.py start` never needs root. The nft table is static
# (keyed on the `bbfc*` interface wildcard), so it covers every slot
# without per-launch changes.
#
# Design notes:
# * No shared bridge — each slot is an isolated /31 host<->guest link,
# so there are no bridge name/subnet collisions with docker0,
# virbr0 (libvirt), cni0 (k8s) or br-* (docker networks).
# * Own nftables table `bot_bottle_fc` — independent of the iptables
# filter/nat tables Docker/ufw/firewalld use, so nothing is stomped.
# * Default IP block is an obscure RFC-1918 /16 (10.243.0.0/16),
# chosen to dodge the usual occupants (docker 172.17-31, libvirt
# 192.168.122, k8s 10.42/10.244, home LANs). NOT 100.64.0.0/10 —
# that's RFC-6598 CGNAT, which Tailscale hands node addresses from.
#
# NixOS: imperative rules here do NOT survive nixos-rebuild. Use the
# declarative module in nix/firecracker-netpool.nix instead (exposed as
# the flake output nixosModules.firecracker-netpool).
#
# Usage:
# sudo ./scripts/firecracker-netpool.sh up
# sudo ./scripts/firecracker-netpool.sh down
# ./scripts/firecracker-netpool.sh status
#
# Env overrides (must match the backend's util.py constants):
# BOT_BOTTLE_FC_POOL_SIZE number of slots (default 8)
# BOT_BOTTLE_FC_IP_BASE base IPv4 of the /31 pool (default 10.243.0.0)
# BOT_BOTTLE_FC_IFACE_PREFIX TAP name prefix (default bbfc)
# BOT_BOTTLE_FC_OWNER owning user (default $SUDO_USER or $USER)
# BOT_BOTTLE_FC_GROUP owning group; if set, TAPs are group-owned
# instead of user-owned, so any group member
# (e.g. an interactive user + a CI runner
# user) can open the pool. Overrides OWNER.
set -euo pipefail
POOL_SIZE="${BOT_BOTTLE_FC_POOL_SIZE:-8}"
IP_BASE="${BOT_BOTTLE_FC_IP_BASE:-10.243.0.0}"
PREFIX="${BOT_BOTTLE_FC_IFACE_PREFIX:-bbfc}"
OWNER="${BOT_BOTTLE_FC_OWNER:-${SUDO_USER:-$USER}}"
GROUP="${BOT_BOTTLE_FC_GROUP:-}"
TABLE="bot_bottle_fc"
# Sidecar ports (must match the backend). egress=9099, supervise=9100,
# git-http=9420. Reached by the VM at its host-side TAP IP.
SIDECAR_PORTS="9099,9100,9420"
# --- IP math ---------------------------------------------------------
# Slot i occupies the /31 {base+2i, base+2i+1}: host = base+2i (the
# gateway the VM routes through), guest = base+2i+1 (the VM's address).
_ip_to_int() {
local IFS=. ; read -r a b c d <<<"$1" ; echo $(( (a<<24) + (b<<16) + (c<<8) + d ))
}
_int_to_ip() {
local n=$1 ; echo "$(( (n>>24)&255 )).$(( (n>>16)&255 )).$(( (n>>8)&255 )).$(( n&255 ))"
}
host_ip() { _int_to_ip $(( $(_ip_to_int "$IP_BASE") + 2*$1 )); }
guest_ip() { _int_to_ip $(( $(_ip_to_int "$IP_BASE") + 2*$1 + 1 )); }
iface() { echo "${PREFIX}$1"; }
require_root() {
if [ "$(id -u)" -ne 0 ]; then
echo "error: '$1' needs root (run under sudo)" >&2
exit 1
fi
}
cmd_up() {
require_root up
# Group ownership (any member can open the pool) overrides single-user
# ownership. The kernel lets a TAP's owning-group members attach.
if [ -n "$GROUP" ]; then
own_args=(group "$GROUP") ; own_desc="group=$GROUP"
else
own_args=(user "$OWNER") ; own_desc="owner=$OWNER"
fi
echo "firecracker net pool: $POOL_SIZE slots, base $IP_BASE, $own_desc"
# VM->sidecar traffic is DNAT'd to the sidecar container and
# forwarded, so forwarding must be enabled (Docker also sets this).
sysctl -qw net.ipv4.ip_forward=1
for i in $(seq 0 $((POOL_SIZE-1))); do
local dev host
dev="$(iface "$i")" ; host="$(host_ip "$i")"
if ip link show "$dev" >/dev/null 2>&1; then
ip link set "$dev" down 2>/dev/null || true
ip tuntap del dev "$dev" mode tap 2>/dev/null || true
fi
ip tuntap add dev "$dev" mode tap "${own_args[@]}"
ip addr add "$host/31" dev "$dev"
ip link set "$dev" up
echo " $dev host=$host guest=$(guest_ip "$i") $own_desc"
done
_install_nft
echo "nftables table inet $TABLE installed (fail-closed boundary)"
echo "done."
}
_install_nft() {
# Own table: dropping only matches our bbfc* interfaces, so no other
# tool's traffic is affected. Priority -10 runs before Docker's
# filter hooks (priority 0); a drop here is terminal for the packet.
#
# forward: VM egress is DNAT'd to the sidecar (established via
# `ct status dnat`); return traffic via `ct state established`.
# Anything else from a VM is dropped -> no route to the internet
# or the rest of the host except through the sidecar proxy.
# input: a VM never needs host-local delivery (its sidecar is
# reached via DNAT->forward), so drop all direct input from VMs
# -> host services bound on 0.0.0.0 are unreachable from the VM.
nft -f - <<EOF
table inet $TABLE {
chain forward {
type filter hook forward priority -10; policy accept;
iifname != "${PREFIX}*" return
ct state established,related accept
ct status dnat accept
drop
}
chain input {
type filter hook input priority -10; policy accept;
iifname != "${PREFIX}*" return
ct state established,related accept
drop
}
}
EOF
}
cmd_down() {
require_root down
nft delete table inet "$TABLE" 2>/dev/null || true
for i in $(seq 0 $((POOL_SIZE-1))); do
local dev ; dev="$(iface "$i")"
if ip link show "$dev" >/dev/null 2>&1; then
ip link set "$dev" down 2>/dev/null || true
ip tuntap del dev "$dev" mode tap 2>/dev/null || true
echo " removed $dev"
fi
done
echo "done."
}
cmd_status() {
echo "table inet $TABLE:"
nft list table inet "$TABLE" 2>/dev/null || echo " (absent)"
echo "taps:"
for i in $(seq 0 $((POOL_SIZE-1))); do
local dev ; dev="$(iface "$i")"
if ip -brief addr show "$dev" >/dev/null 2>&1; then
ip -brief addr show "$dev" | sed 's/^/ /'
fi
done
}
case "${1:-}" in
up) cmd_up ;;
down) cmd_down ;;
status) cmd_status ;;
*) echo "usage: $0 {up|down|status}" >&2 ; exit 2 ;;
esac