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9fdadd321c6beaf436ef6c62759f151387aed165
nix-config/common/network/pia-vpn/vpn-container.nix
Zuckerberg 9fdadd321c
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Details
Verify RSA-SHA256 signatures on all PIA API responses 
Every PIA API response includes a trailing RSA-SHA256 signature
(line 1 = JSON, lines 3+ = base64-encoded signature) which was
previously ignored entirely. Add verifyPIAResponse() that checks
each response against PIA's public signing key before trusting
the data. On verification failure the service aborts and systemd
restarts it.

Also bump RestartSec to 5m to avoid hammering PIA servers on
repeated failures.
2026-02-26 22:06:35 -08:00

233 lines
8.7 KiB
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{ config, lib, allModules, ... }:
# VPN container: runs all PIA logic, acts as WireGuard gateway + NAT for service containers.
with lib;
let
cfg = config.pia-vpn;
scripts = import ./scripts.nix;
# Port forwarding derived state
forwardingContainers = filterAttrs (_: c: c.receiveForwardedPort != null) cfg.containers;
portForwarding = forwardingContainers != { };
forwardingContainerName = if portForwarding then head (attrNames forwardingContainers) else null;
forwardingContainer = if portForwarding then forwardingContainers.${forwardingContainerName} else null;
serverFile = "/var/lib/pia-vpn/server.json";
wgFile = "/var/lib/pia-vpn/wg.conf";
portRenewalFile = "/var/lib/pia-vpn/port-renewal.json";
proxy = "http://${cfg.hostAddress}:${toString cfg.proxyPort}";
# DNAT/forwarding rules for port forwarding
dnatSetupScript = optionalString portForwarding (
let
fwd = forwardingContainer.receiveForwardedPort;
targetIp = forwardingContainer.ip;
dnatTarget = if fwd.port != null then "${targetIp}:${toString fwd.port}" else targetIp;
targetPort = if fwd.port != null then toString fwd.port else "$PORT";
tcpRules = optionalString (fwd.protocol == "tcp" || fwd.protocol == "both") ''
echo "Setting up TCP DNAT: port $PORT ${targetIp}:${targetPort}"
iptables -t nat -A PREROUTING -i ${cfg.interfaceName} -p tcp --dport $PORT -j DNAT --to ${dnatTarget}
iptables -A FORWARD -i ${cfg.interfaceName} -d ${targetIp} -p tcp --dport ${targetPort} -j ACCEPT
'';
udpRules = optionalString (fwd.protocol == "udp" || fwd.protocol == "both") ''
echo "Setting up UDP DNAT: port $PORT ${targetIp}:${targetPort}"
iptables -t nat -A PREROUTING -i ${cfg.interfaceName} -p udp --dport $PORT -j DNAT --to ${dnatTarget}
iptables -A FORWARD -i ${cfg.interfaceName} -d ${targetIp} -p udp --dport ${targetPort} -j ACCEPT
'';
onPortForwarded = optionalString (forwardingContainer.onPortForwarded != null) ''
TARGET_IP="${targetIp}"
export PORT TARGET_IP
echo "Running onPortForwarded hook for ${forwardingContainerName} (port=$PORT, target=$TARGET_IP)"
${forwardingContainer.onPortForwarded}
'';
in
''
if [ "$PORT" -lt 10000 ]; then
echo "ERROR: PIA assigned low port $PORT (< 10000), refusing to set up DNAT" >&2
else
${tcpRules}
${udpRules}
${onPortForwarded}
fi
''
);
in
{
config = mkIf cfg.enable {
# Give the container more time to boot (pia-vpn-setup retries can delay readiness)
systemd.services."container@pia-vpn".serviceConfig.TimeoutStartSec = mkForce "180s";
containers.pia-vpn = {
autoStart = true;
ephemeral = true;
privateNetwork = true;
hostBridge = cfg.bridgeName;
interfaces = [ cfg.interfaceName ];
bindMounts."/run/agenix" = {
hostPath = "/run/agenix";
isReadOnly = true;
};
config = { config, pkgs, lib, ... }:
let
scriptPkgs = with pkgs; [ wireguard-tools iproute2 curl jq iptables coreutils openssl ];
in
{
imports = allModules;
networking.hosts = cfg.containerHosts;
# Static IP on bridge — no gateway (VPN container routes via WG only)
networking.useNetworkd = true;
systemd.network.enable = true;
networking.useDHCP = false;
systemd.network.networks."20-eth0" = {
matchConfig.Name = "eth0";
networkConfig = {
Address = "${cfg.vpnAddress}/${cfg.subnetPrefixLen}";
DHCPServer = false;
};
};
# Ignore WG interface for wait-online (it's configured manually, not by networkd)
systemd.network.wait-online.ignoredInterfaces = [ cfg.interfaceName ];
# Route ntfy alerts through the host proxy (VPN container has no gateway on eth0)
ntfy-alerts.curlExtraArgs = "--proxy http://${cfg.hostAddress}:${toString cfg.proxyPort}";
# Enable forwarding so bridge traffic can go through WG
boot.kernel.sysctl."net.ipv4.ip_forward" = 1;
# Trust bridge interface
networking.firewall.trustedInterfaces = [ "eth0" ];
# DNS: use systemd-resolved listening on bridge IP so service containers
# can use VPN container as DNS server (queries go through WG tunnel = no DNS leak)
services.resolved = {
enable = true;
settings.Resolve.DNSStubListenerExtra = cfg.vpnAddress;
};
# Don't use host resolv.conf — resolved manages DNS
networking.useHostResolvConf = false;
# State directory for PIA config files
systemd.tmpfiles.rules = [
"d /var/lib/pia-vpn 0700 root root -"
];
# PIA VPN setup service — does all the PIA auth, WG config, and NAT setup
systemd.services.pia-vpn-setup = {
description = "PIA VPN WireGuard Setup";
wants = [ "network-online.target" ];
after = [ "network.target" "network-online.target" "systemd-networkd.service" ];
wantedBy = [ "multi-user.target" ];
path = scriptPkgs;
serviceConfig = {
Type = "simple";
Restart = "always";
RestartSec = "5m";
RuntimeMaxSec = "30d";
};
script = ''
set -euo pipefail
${scripts.scriptCommon}
trap 'cleanupVpn ${cfg.interfaceName}' EXIT
cleanupVpn ${cfg.interfaceName}
proxy="${proxy}"
# 1. Authenticate with PIA via proxy (VPN container has no internet yet)
echo "Choosing PIA server in region '${cfg.serverLocation}'..."
choosePIAServer '${cfg.serverLocation}'
echo "Fetching PIA authentication token..."
fetchPIAToken
# 2. Generate WG keys and authorize with PIA server
echo "Generating WireGuard keypair..."
generateWireguardKey
echo "Authorizing key with PIA server $WG_HOSTNAME..."
authorizeKeyWithPIAServer
# 3. Configure WG interface (already created by host and moved into our namespace)
echo "Configuring WireGuard interface ${cfg.interfaceName}..."
writeWireguardQuickFile '${wgFile}' ${toString cfg.wireguardListenPort}
writeChosenServerToFile '${serverFile}'
connectToServer '${wgFile}' '${cfg.interfaceName}'
# 4. Default route through WG
ip route replace default dev ${cfg.interfaceName}
echo "Default route set through ${cfg.interfaceName}"
# 5. NAT: masquerade bridge WG (so service containers' traffic appears to come from VPN IP)
echo "Setting up NAT masquerade..."
iptables -t nat -A POSTROUTING -o ${cfg.interfaceName} -j MASQUERADE
iptables -A FORWARD -i eth0 -o ${cfg.interfaceName} -j ACCEPT
iptables -A FORWARD -i ${cfg.interfaceName} -o eth0 -m state --state RELATED,ESTABLISHED -j ACCEPT
${optionalString portForwarding ''
# 6. Port forwarding setup
echo "Reserving port forward..."
reservePortForward
writePortRenewalFile '${portRenewalFile}'
# First bindPort triggers actual port allocation
echo "Binding port $PORT..."
refreshPIAPort
echo "PIA assigned port: $PORT"
# DNAT rules to forward PIA port to target container
${dnatSetupScript}
''}
echo "PIA VPN setup complete"
exec sleep infinity
'';
};
# Port refresh timer (every 10 min) — keeps PIA port forwarding alive
systemd.services.pia-vpn-port-refresh = mkIf portForwarding {
description = "PIA VPN Port Forward Refresh";
after = [ "pia-vpn-setup.service" ];
requires = [ "pia-vpn-setup.service" ];
path = scriptPkgs;
serviceConfig.Type = "oneshot";
script = ''
set -euo pipefail
${scripts.scriptCommon}
loadChosenServerFromFile '${serverFile}'
readPortRenewalFile '${portRenewalFile}'
echo "Refreshing PIA port forward..."
refreshPIAPort
'';
};
systemd.timers.pia-vpn-port-refresh = mkIf portForwarding {
partOf = [ "pia-vpn-port-refresh.service" ];
wantedBy = [ "timers.target" ];
timerConfig = {
OnCalendar = "*:0/10";
RandomizedDelaySec = "1m";
};
};
};
};
};
}
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