svc-proxy

Standalone UDP tunnel for Simple Voice Chat. Per-server public UDP port → backend voice address. Routes read from Postgres via LISTEN/NOTIFY, same pattern as mc-router.

What it does

Each MC server in the automc fleet runs SVC on its own UDP port inside its container (default 24454). svc-proxy exposes a public UDP port per server and tunnels client traffic to the backend. SVC's own SecretPacket is configured per backend to advertise the public proxy hostname + the assigned proxy port, so the client connects directly to the proxy — no MITM, no plugin-channel sniffing.

SVC client ──UDP──► svc-proxy.timemachine.center:24455
                        │
                        ├── (per-server tunnel)
                        │
                        └──UDP──► mc-gtnh:24454 (backend SVC)

The proxy is opaque to the SVC payload — it can read the cleartext outer header (magic byte + player UUID) but the AES-GCM body stays end-to-end. Per-client tunnels (one ephemeral upstream socket per client SocketAddress) survive NAT rebinds within the idle TTL.

pg schema

Two new columns on servers:

Column	Type	Meaning
voice_address	text	Backend SVC address — <host>:<port> reachable from svc-proxy
voice_proxy_port	int	Public UDP port svc-proxy binds for this server

Rows with both NULL are ignored. Owner of allocation: server-manager (assigns the next free port from a configured pool when the server is provisioned; clears on delete).

NOTIFY channel

Reuses automc_routes_changed from mc-router. The trigger on servers already fires on UPDATE, so adding/clearing the voice columns refreshes svc-proxy's bindings without restart.

Environment

Env	Default	Effect
DATABASE_URL	(required)	pgx DSN
BIND_HOST	0.0.0.0	host for the per-server UDP listeners
BRIDGE_IDLE_TTL	5m	tear down per-client upstream sockets after this much silence
LOG_LEVEL	info	debug / info / warn

Operator UX

# Allocate voice ports for an existing server (server-manager does this normally)
UPDATE servers
   SET voice_address = 'mc-gtnh:24454',
       voice_proxy_port = 24455
 WHERE name = 'gtnh';
NOTIFY automc_routes_changed;

svc-proxy logs listener open: :24455 → mc-gtnh:24454 (gtnh) and is ready.

To retire a server's voice routing:

UPDATE servers SET voice_address = NULL, voice_proxy_port = NULL WHERE name = 'gtnh';
NOTIFY automc_routes_changed;

svc-proxy logs listener close: :24455 (gtnh). In-flight tunnels are torn down.

Backend-side configuration

The SVC plugin on the backend must advertise the public proxy address to clients (not the backend's own LAN address). Set in the backend's SVC config (config/voicechat-server.properties):

voice_host=svc-proxy.timemachine.center:24455

…or via env if mc-wrapper templates it. SVC bakes this into SecretPacket.voiceHost, the client uses it verbatim.

Why not the SVC bundled proxy

SVC ships proxy support for BungeeCord/Velocity (common-proxy module). It sniffs the MC voicechat:secret plugin message and rewrites the host on the fly, then NAT-bridges UDP. That requires the SVC proxy to live inside the MC proxy process. We run mc-router (Go) instead of a Java MC proxy on the edge, so the bundled approach doesn't apply.

svc-proxy is the equivalent for the mc-router shape: pure UDP data plane, pg-driven config, no plugin hooks.

Limitations

• No replay protection at the proxy layer (SVC's AES-GCM is the only freshness guarantee — same as upstream).
• No client rate-limiting (SVC's plugin-channel rate limit covers TCP setup; UDP audio relies on Opus payload caps + the BRIDGE_IDLE_TTL env to bound per-tunnel sockets).
• Per-tunnel ephemeral upstream sockets aren't pooled — one syscall per concurrent client. Fine up to a few thousand concurrent voice tunnels on a single proxy host.

Related

• mc-router (Timemachine fork) — same NOTIFY channel, same pg-driven route source.
• Simple Voice Chat — upstream mod whose wire protocol we pass through.