Migrate to YAW/2 protocol: WebRTC transport, anchor signaling, nacl/box crypto

Replace the original raw-TCP peer connections and Blowfish/RSA-era design with
the YAW/2 protocol stack:

Transport
- internal/mesh/peer.go: raw TCP + manual ECDH replaced with pion/webrtc
  DataChannels (ICE, DTLS, SCTP). Peers negotiate via sealed offer/answer/
  candidate exchange rather than direct dialling.
- internal/nat: deleted — ICE subsumes everything this package was going to do.

Signaling
- cmd/anchor: new WebSocket signaling server (replaces cmd/relay). Verifies
  Ed25519 challenge/join signatures, routes opaque nacl/box blobs, broadcasts
  peer-join/peer-leave events. Never sees plaintext signaling content.
- internal/anchor: new anchor client. Manages PeerConnection lifecycle,
  decides offerer by peer-id comparison, seals/opens signaling payloads with
  nacl/box, implements mesh.Anchor.

Crypto (internal/crypto)
- PeerID encoding: base64url → lowercase hex (64 chars, YAW/2 §2).
- Sign/Verify: hex signatures throughout.
- Added CurvePublicKey/CurvePrivateKey: X25519 keys derived from Ed25519
  identity via Montgomery conversion (filippo.io/edwards25519), matching
  libsodium's crypto_sign_ed25519_*_to_curve25519.
- Added SignalingBox/SignalingOpen: nacl/box (XSalsa20-Poly1305) seal/open
  for signaling payloads.

Wire types (internal/proto)
- ChatMessage gains Mid (random 16-byte hex) for mesh deduplication (§8).
- FileChunk removed from PeerMessage — chunks go on a separate binary
  DataChannel labelled "f:<xid>"; FileDone added.
- New types: SignalingPayload, AnchorMessage, HelloMessage, HelloBindString.
- PeerID.Short() now returns first 16 hex chars grouped in 4s.
- IPC: CmdConnect removed; CmdJoinNetwork/CmdLeaveNetwork added;
  EvtSessionReady added (fires when DataChannel opens and hello is received).

IPC (internal/ipc)
- join_network/leave_network replace connect (direct TCP dial).
- Network joins are context-scoped: leave_network or client disconnect
  cancels the anchor connection cleanly.

README updated to reflect new project layout, getting-started commands,
IPC protocol, and roadmap state.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
This commit is contained in:
Fredrik Johansson
2026-06-21 17:48:14 +02:00
parent de2d1cada0
commit 3e058bee9b
14 changed files with 1716 additions and 671 deletions

View File

@@ -5,6 +5,9 @@ package ipc
import (
"bufio"
"context"
"crypto/rand"
"encoding/hex"
"encoding/json"
"fmt"
"log"
@@ -16,8 +19,12 @@ import (
"github.com/waste-go/internal/proto"
)
// JoinFunc is called when the UI issues a join_network command.
// It should connect to the anchor and block until done or ctx is cancelled.
type JoinFunc func(ctx context.Context, networkName string)
// Run starts the IPC listener. Blocks until the listener fails.
func Run(m *mesh.Mesh, port int) error {
func Run(m *mesh.Mesh, port int, join JoinFunc) error {
addr := fmt.Sprintf("127.0.0.1:%d", port)
ln, err := net.Listen("tcp", addr)
if err != nil {
@@ -31,21 +38,18 @@ func Run(m *mesh.Mesh, port int) error {
return fmt.Errorf("ipc accept: %w", err)
}
log.Printf("ipc: UI client connected from %s", conn.RemoteAddr())
go handleClient(conn, m)
go handleClient(conn, m, join)
}
}
func handleClient(conn net.Conn, m *mesh.Mesh) {
func handleClient(conn net.Conn, m *mesh.Mesh, join JoinFunc) {
defer conn.Close()
// Subscribe to mesh events before anything else so we miss nothing.
events := m.Subscribe()
defer m.Unsubscribe(events)
// Channel to serialize writes from two goroutines (event pusher + reply sender).
writeCh := make(chan []byte, 128)
// Writer goroutine — single goroutine owns the connection write side.
go func() {
w := bufio.NewWriter(conn)
for line := range writeCh {
@@ -57,7 +61,6 @@ func handleClient(conn net.Conn, m *mesh.Mesh) {
}
}()
// Event pusher goroutine — forwards mesh events to the UI.
go func() {
for evt := range events {
line, err := json.Marshal(evt)
@@ -71,7 +74,6 @@ func handleClient(conn net.Conn, m *mesh.Mesh) {
}
}()
// Send an initial state snapshot so the UI has something to render.
send(writeCh, proto.IpcMessage{
Type: proto.EvtStateSnapshot,
LocalPeer: ptr(m.Identity.PeerInfo()),
@@ -79,7 +81,11 @@ func handleClient(conn net.Conn, m *mesh.Mesh) {
Rooms: []string{"general"},
})
// Command reader loop.
// Track an active network join so we can cancel it on leave_network.
var (
networkCancel context.CancelFunc
)
scanner := bufio.NewScanner(conn)
for scanner.Scan() {
var cmd proto.IpcMessage
@@ -87,68 +93,67 @@ func handleClient(conn net.Conn, m *mesh.Mesh) {
log.Printf("ipc: bad command: %v", err)
continue
}
handleCommand(cmd, m, writeCh)
switch cmd.Type {
case proto.CmdSendMessage:
msg := &proto.ChatMessage{
Mid: randomHex(16),
ID: uuid.NewString(),
From: m.Identity.PeerID(),
To: cmd.To,
Room: cmd.Room,
Body: cmd.Body,
SentAt: time.Now(),
}
payload, err := json.Marshal(proto.PeerMessage{Type: proto.MsgChat, Chat: msg})
if err != nil {
continue
}
m.Broadcast(payload)
m.Emit(proto.IpcMessage{Type: proto.EvtMessageReceived, Message: msg})
case proto.CmdJoinNetwork:
if cmd.NetworkName == "" {
send(writeCh, errMsg("join_network: network_name is required"))
continue
}
if networkCancel != nil {
networkCancel() // leave any previous network
}
ctx, cancel := context.WithCancel(context.Background())
networkCancel = cancel
go join(ctx, cmd.NetworkName)
case proto.CmdLeaveNetwork:
if networkCancel != nil {
networkCancel()
networkCancel = nil
}
case proto.CmdGetState:
send(writeCh, proto.IpcMessage{
Type: proto.EvtStateSnapshot,
LocalPeer: ptr(m.Identity.PeerInfo()),
ConnectedPeers: m.ConnectedPeers(),
Rooms: []string{"general"},
})
case proto.CmdSendFile:
send(writeCh, errMsg("file transfer not yet implemented"))
default:
send(writeCh, errMsg(fmt.Sprintf("unknown command: %s", cmd.Type)))
}
}
if networkCancel != nil {
networkCancel()
}
close(writeCh)
log.Printf("ipc: UI client disconnected")
}
func handleCommand(cmd proto.IpcMessage, m *mesh.Mesh, writeCh chan<- []byte) {
switch cmd.Type {
case proto.CmdSendMessage:
msg := &proto.ChatMessage{
ID: uuid.NewString(),
From: m.Identity.PeerID(),
To: cmd.To,
Room: cmd.Room,
Body: cmd.Body,
SentAt: time.Now(),
}
payload, err := json.Marshal(proto.PeerMessage{
Type: proto.MsgChat,
Chat: msg,
})
if err != nil {
return
}
m.Broadcast(payload)
// Echo locally so the sender sees their own message.
m.Emit(proto.IpcMessage{Type: proto.EvtMessageReceived, Message: msg})
case proto.CmdConnect:
if cmd.Addr == "" {
send(writeCh, errMsg("connect: addr is required"))
return
}
go func() {
log.Printf("ipc: connecting to peer at %s", cmd.Addr)
conn, err := net.DialTimeout("tcp", cmd.Addr, 10*time.Second)
if err != nil {
log.Printf("ipc: dial %s failed: %v", cmd.Addr, err)
m.Emit(errMsg(fmt.Sprintf("connect to %s failed: %v", cmd.Addr, err)))
return
}
mesh.HandleConn(conn, m, true)
}()
case proto.CmdGetState:
send(writeCh, proto.IpcMessage{
Type: proto.EvtStateSnapshot,
LocalPeer: ptr(m.Identity.PeerInfo()),
ConnectedPeers: m.ConnectedPeers(),
Rooms: []string{"general"},
})
case proto.CmdSendFile:
send(writeCh, errMsg("file transfer not yet implemented"))
default:
send(writeCh, errMsg(fmt.Sprintf("unknown command: %s", cmd.Type)))
}
}
func send(ch chan<- []byte, msg proto.IpcMessage) {
line, err := json.Marshal(msg)
if err != nil {
@@ -165,3 +170,9 @@ func errMsg(s string) proto.IpcMessage {
}
func ptr[T any](v T) *T { return &v }
func randomHex(n int) string {
b := make([]byte, n)
rand.Read(b) //nolint:errcheck
return hex.EncodeToString(b)
}