b3a4af15ca3dbf0508d5e88a8e74bcc45c528bf8
Ed25519/X25519/ChaCha20-Poly1305 crypto, peer handshake, mesh state, IPC server, relay server, and NAT stub. Builds clean on Go 1.22+. Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
waste-go
A modern reimagining of WASTE — decentralized, friend-to-friend encrypted mesh networking with chat and file sharing. Written in Go.
Project layout
waste-go/
├── cmd/
│ ├── daemon/ The peer process — run one on each friend's machine
│ └── relay/ Bootstrap/relay server — run this on your Hetzner VPS
└── internal/
├── proto/ All wire types (shared by daemon and relay)
├── crypto/ Ed25519 identity, X25519 ECDH, ChaCha20-Poly1305
├── mesh/ Connected peer state + per-connection handler
├── ipc/ Local JSON API (UI talks to daemon here, port 17337)
└── nat/ Relay client (hole-punching lives here later)
Prerequisites
- Go 1.22+ → https://go.dev/dl/
- VS Code with the Go extension (
golang.go)
On first open VS Code will prompt you to install gopls, dlv, and goimports — accept all of them.
Getting started
# Fetch dependencies
go mod tidy
# Build everything (confirms it compiles)
go build ./...
# Terminal 1 — relay (optional for LAN testing, required across internet)
go run ./cmd/relay -bind 127.0.0.1:17339
# Terminal 2 — peer A
go run ./cmd/daemon -alias alice -data-dir /tmp/waste-alice -peer-port 17338 -ipc-port 17337
# Terminal 3 — peer B
go run ./cmd/daemon -alias bob -data-dir /tmp/waste-bob -peer-port 17340 -ipc-port 17341
Then connect B → A and send a message (netcat works fine as a quick test):
# Tell peer B to connect to peer A
echo '{"type":"connect","addr":"127.0.0.1:17338"}' | nc 127.0.0.1 17341
# In another terminal — subscribe to peer A's events, then send a message from B
nc 127.0.0.1 17337 &
echo '{"type":"send_message","room":"general","body":"hello from bob"}' | nc 127.0.0.1 17341
On Windows — use PowerShell's built-in TCP client instead of nc:
# Open a connection to peer B's IPC port and keep it open
$c = [System.Net.Sockets.TcpClient]::new('127.0.0.1', 17341)
$w = [System.IO.StreamWriter]::new($c.GetStream()); $w.AutoFlush = $true
# Tell peer B to connect to peer A
$w.WriteLine('{"type":"connect","addr":"127.0.0.1:17338"}')
# Send a chat message from B
$w.WriteLine('{"type":"send_message","room":"general","body":"hello from bob"}')
# In a separate terminal — subscribe to peer A's events
$r = [System.Net.Sockets.TcpClient]::new('127.0.0.1', 17337)
$reader = [System.IO.StreamReader]::new($r.GetStream())
while ($true) { $reader.ReadLine() }
Keep $c / $w in scope for the session; closing them disconnects the peer.
Deploying the relay on your Hetzner VPS
GOOS=linux GOARCH=amd64 go build -o bin/waste-relay ./cmd/relay
scp bin/waste-relay user@your-vps:~/
# On the VPS
./waste-relay -bind 0.0.0.0:17339
Then start daemons with -relay your-vps-ip:17339 and they'll register and
be able to find each other across NAT.
IPC protocol (plain JSON over TCP)
Everything is newline-delimited JSON. You can test with nc 127.0.0.1 17337.
Commands you send:
{"type":"connect","addr":"1.2.3.4:17338"}
{"type":"send_message","room":"general","body":"hi"}
{"type":"get_state"}
Events the daemon pushes:
{"type":"state_snapshot","local_peer":{...},"connected_peers":[...]}
{"type":"peer_connected","peer":{...}}
{"type":"message_received","message":{"from":"...","body":"hi","room":"general"}}
{"type":"peer_disconnected","peer_id":"..."}
Crypto choices
| Purpose | Algorithm | Notes |
|---|---|---|
| Identity | Ed25519 | Fast, small keys, standard |
| Key exchange | X25519 ECDH | Per-session ephemeral keys |
| Symmetric | ChaCha20-Poly1305 | No AES-NI needed, authenticated |
| Hashing | SHA-256 | File integrity |
Replaces WASTE's original Blowfish/PCBC (broken cipher mode) + RSA.
Roadmap
- UDP hole-punching (STUN) in
internal/nat - Invite file format (
.waste-invite) — share a keypair + address hint - Peer gossip → auto-connect to friends-of-friends
- File transfer
- Message persistence (SQLite via
modernc.org/sqlite) - Tauri or simple web UI consuming the IPC port
Description