v1.11.0

changelog.md

@@ -1,5 +1,43 @@
 # Changelog
 
+## 2026-03-30 - 1.11.0 - feat(server)
+unify WireGuard into the shared server transport pipeline
+
+- add integrated WireGuard server support to VpnServer with shared startup, shutdown, status, statistics, and peer management
+- introduce transportMode 'all' as the default and add server config support for wgPrivateKey, wgListenPort, and preconfigured peers
+- register WireGuard peers in the shared client registry and IP pool so they use the same forwarding engine, routing, and monitoring as WebSocket and QUIC clients
+- expose transportType in server client info and update TypeScript interfaces and documentation to reflect unified multi-transport forwarding
+
+## 2026-03-30 - 1.10.2 - fix(client)
+wait for the connection task to shut down cleanly before disconnecting and increase test timeout
+
+- store the spawned client connection task handle and await it during disconnect with a 5 second timeout so the disconnect frame can be sent before closing
+- increase the test script timeout from 60 seconds to 90 seconds to reduce flaky test runs
+
+## 2026-03-29 - 1.10.1 - fix(test, docs, scripts)
+correct test command verbosity, shorten load test timings, and document forwarding modes
+
+- Fixes the test script by removing the duplicated verbose flag in package.json.
+- Reduces load test delays and burst sizes to keep keepalive and connection tests faster and more stable.
+- Updates the README to describe forwardingMode options, userspace NAT support, and related configuration examples.
+
+## 2026-03-29 - 1.10.0 - feat(rust-server, rust-client, ts-interfaces)
+add configurable packet forwarding with TUN and userspace NAT modes
+
+- introduce forwardingMode options for client and server configuration interfaces
+- add server-side forwarding engines for kernel TUN, userspace socket NAT, and testing mode
+- add a smoltcp-based userspace NAT implementation for packet forwarding without root-only TUN routing
+- enable client-side TUN forwarding support with route setup, packet I/O, and cleanup
+- centralize raw packet destination IP extraction in tunnel utilities for shared routing logic
+- update test command timeout and logging flags
+
+## 2026-03-29 - 1.9.0 - feat(server)
+add PROXY protocol v2 support for real client IP handling and connection ACLs
+
+- add PROXY protocol v2 parsing for WebSocket connections, including IPv4/IPv6 support, LOCAL command handling, and header read timeout protection
+- apply server-level connection IP block lists before the Noise handshake and enforce per-client source IP allow/block lists using the resolved remote address
+- expose proxy protocol configuration and remote client address fields in Rust and TypeScript interfaces, and document reverse-proxy usage in the README
+
 ## 2026-03-29 - 1.8.0 - feat(auth,client-registry)
 add Noise IK client authentication with managed client registry and per-client ACL controls
 

package.json

@@ -1,6 +1,6 @@
 {
   "name": "@push.rocks/smartvpn",
-  "version": "1.8.0",
+  "version": "1.11.0",
   "private": false,
   "description": "A VPN solution with TypeScript control plane and Rust data plane daemon",
   "type": "module",
@@ -12,7 +12,7 @@
   "scripts": {
     "build": "(tsbuild tsfolders) && (tsrust)",
     "test:before": "(tsrust)",
-    "test": "tstest test/ --verbose",
+    "test": "tstest test/ --verbose  --logfile --timeout 90",
     "buildDocs": "tsdoc"
   },
   "repository": {

readme.md

@@ -5,9 +5,11 @@ A high-performance VPN solution with a **TypeScript control plane** and a **Rust
 🔐 **Noise IK** mutual authentication — per-client X25519 keypairs, server-side registry
 🚀 **Triple transport**: WebSocket (Cloudflare-friendly), raw **QUIC** (datagrams), and **WireGuard** (standard protocol)
 🛡️ **ACL engine** — deny-overrides-allow IP filtering, aligned with SmartProxy conventions
+🔀 **PROXY protocol v2** — real client IPs behind reverse proxies (HAProxy, SmartProxy, Cloudflare Spectrum)
 📊 **Adaptive QoS**: per-client rate limiting, priority queues, connection quality tracking
 🔄 **Hub API**: one `createClient()` call generates keys, assigns IP, returns both SmartVPN + WireGuard configs
 📡 **Real-time telemetry**: RTT, jitter, loss ratio, link health — all via typed APIs
+🌐 **Unified forwarding pipeline**: all transports share the same engine — TUN (kernel), userspace NAT (no root), or testing mode
 
 ## Issue Reporting and Security
 
@@ -52,7 +54,9 @@ await server.start({
   privateKey: '<server-noise-private-key-base64>',
   publicKey: '<server-noise-public-key-base64>',
   subnet: '10.8.0.0/24',
-  transportMode: 'both', // WebSocket + QUIC simultaneously
+  transportMode: 'all',  // WebSocket + QUIC + WireGuard simultaneously (default)
+  forwardingMode: 'tun', // 'tun' (kernel), 'socket' (userspace NAT), or 'testing'
+  wgPrivateKey: '<server-wg-private-key-base64>', // required for WireGuard transport
   enableNat: true,
   dns: ['1.1.1.1', '8.8.8.8'],
 });
@@ -106,7 +110,7 @@ Every client authenticates with a **Noise IK handshake** (`Noise_IK_25519_ChaCha
 | **QUIC** | UDP (via quinn) | Low latency, datagram support for IP packets |
 | **WireGuard** | UDP (via boringtun) | Standard WG clients (iOS, Android, wg-quick) |
 
-The server can run **all three simultaneously** with `transportMode: 'both'` (WS + QUIC) or `'wireguard'`. Clients auto-negotiate with `transport: 'auto'` (tries QUIC first, falls back to WS).
+The server runs **all three simultaneously** by default with `transportMode: 'all'`. All transports share the same unified forwarding pipeline (`ForwardingEngine`), IP pool, client registry, and stats — so WireGuard peers get the same userspace NAT, rate limiting, and monitoring as WS/QUIC clients. Clients auto-negotiate with `transport: 'auto'` (tries QUIC first, falls back to WS).
 
 ### 🛡️ ACL Engine (SmartProxy-Aligned)
 
@@ -125,6 +129,59 @@ security: {
 
 Supports exact IPs, CIDR, wildcards (`192.168.1.*`), and ranges (`1.1.1.1-1.1.1.100`).
 
+### 🔀 PROXY Protocol v2
+
+When the VPN server sits behind a reverse proxy, enable PROXY protocol v2 to receive the **real client IP** instead of the proxy's address. This makes `ipAllowList` / `ipBlockList` ACLs work correctly through load balancers.
+
+```typescript
+await server.start({
+  // ... other config ...
+  proxyProtocol: true,                            // parse PP v2 headers on WS connections
+  connectionIpBlockList: ['198.51.100.0/24'],     // server-wide block list (pre-handshake)
+});
+```
+
+**Two-phase ACL with real IPs:**
+
+| Phase | When | What Happens |
+|-------|------|-------------|
+| **Pre-handshake** | After TCP accept | Server-level `connectionIpBlockList` rejects known-bad IPs — zero crypto cost |
+| **Post-handshake** | After Noise IK identifies client | Per-client `ipAllowList` / `ipBlockList` checked against real source IP |
+
+- Parses the PP v2 binary header from raw TCP before WebSocket upgrade
+- 5-second timeout protects against stalling attacks
+- LOCAL command (proxy health checks) handled gracefully
+- IPv4 and IPv6 addresses supported
+- `remoteAddr` field on `IVpnClientInfo` exposes the real client IP for monitoring
+- **Security**: must be `false` (default) when accepting direct connections — only enable behind a trusted proxy
+
+### 📦 Packet Forwarding Modes
+
+SmartVPN supports three forwarding modes, configurable per-server and per-client:
+
+| Mode | Flag | Description | Root Required |
+|------|------|-------------|---------------|
+| **TUN** | `'tun'` | Kernel TUN device — real packet forwarding with system routing | ✅ Yes |
+| **Userspace NAT** | `'socket'` | Userspace TCP/UDP proxy via `connect(2)` — no TUN, no root needed | ❌ No |
+| **Testing** | `'testing'` | Monitoring only — packets are counted but not forwarded | ❌ No |
+
+```typescript
+// Server with userspace NAT (no root required)
+await server.start({
+  // ...
+  forwardingMode: 'socket',
+  enableNat: true,
+});
+
+// Client with TUN device
+const { assignedIp } = await client.connect({
+  // ...
+  forwardingMode: 'tun',
+});
+```
+
+The userspace NAT mode extracts destination IP/port from IP packets, opens a real socket to the destination, and relays data — supporting both TCP streams and UDP datagrams without requiring `CAP_NET_ADMIN` or root privileges.
+
 ### 📊 Telemetry & QoS
 
 - **Connection quality**: Smoothed RTT, jitter, min/max RTT, loss ratio, link health (`healthy` / `degraded` / `critical`)
@@ -217,13 +274,13 @@ const unit = VpnInstaller.generateServiceUnit({
 
 | Interface | Purpose |
 |-----------|---------|
-| `IVpnServerConfig` | Server configuration (listen addr, keys, subnet, transport mode, clients) |
-| `IVpnClientConfig` | Client configuration (server URL, keys, transport, WG options) |
+| `IVpnServerConfig` | Server configuration (listen addr, keys, subnet, transport mode, forwarding mode, clients, proxy protocol) |
+| `IVpnClientConfig` | Client configuration (server URL, keys, transport, forwarding mode, WG options) |
 | `IClientEntry` | Server-side client definition (ID, keys, security, priority, tags, expiry) |
 | `IClientSecurity` | Per-client ACLs and rate limits (SmartProxy-aligned naming) |
 | `IClientRateLimit` | Rate limiting config (bytesPerSec, burstBytes) |
 | `IClientConfigBundle` | Full config bundle returned by `createClient()` |
-| `IVpnClientInfo` | Connected client info (IP, stats, authenticated key) |
+| `IVpnClientInfo` | Connected client info (IP, stats, authenticated key, remote addr) |
 | `IVpnConnectionQuality` | RTT, jitter, loss ratio, link health |
 | `IVpnKeypair` | Base64-encoded public/private key pair |
 
@@ -257,19 +314,24 @@ const unit = VpnInstaller.generateServiceUnit({
 ### Server Configuration
 
 ```typescript
+// All transports simultaneously (default) — WS + QUIC + WireGuard
+{ transportMode: 'all', listenAddr: '0.0.0.0:443', wgPrivateKey: '...', wgListenPort: 51820 }
+
+// WS + QUIC only (backward compat)
+{ transportMode: 'both', listenAddr: '0.0.0.0:443', quicListenAddr: '0.0.0.0:4433' }
+
 // WebSocket only
 { transportMode: 'websocket', listenAddr: '0.0.0.0:443' }
 
 // QUIC only
 { transportMode: 'quic', listenAddr: '0.0.0.0:443' }
 
-// Both (WS + QUIC on same or different ports)
-{ transportMode: 'both', listenAddr: '0.0.0.0:443', quicListenAddr: '0.0.0.0:4433' }
-
-// WireGuard
-{ transportMode: 'wireguard', wgListenPort: 51820, wgPeers: [...] }
+// WireGuard only
+{ transportMode: 'wireguard', wgPrivateKey: '...', wgListenPort: 51820, wgPeers: [...] }
 ```
 
+All transport modes share the same `forwardingMode` — WireGuard peers can use `'socket'` (userspace NAT) just like WS/QUIC clients.
+
 ### Client Configuration
 
 ```typescript
@@ -314,7 +376,7 @@ pnpm install
 # Build (TypeScript + Rust cross-compile)
 pnpm build
 
-# Run all tests (79 TS + 121 Rust = 200 tests)
+# Run all tests (79 TS + 132 Rust = 211 tests)
 pnpm test
 
 # Run Rust tests directly
@@ -345,6 +407,7 @@ smartvpn/
 │       ├── crypto.rs           # Noise IK + XChaCha20
 │       ├── client_registry.rs  # Client database
 │       ├── acl.rs              # ACL engine
+│       ├── proxy_protocol.rs   # PROXY protocol v2 parser
 │       ├── management.rs       # JSON-lines IPC
 │       ├── transport.rs        # WebSocket transport
 │       ├── quic_transport.rs   # QUIC transport
@@ -352,6 +415,7 @@ smartvpn/
 │       ├── codec.rs            # Binary frame protocol
 │       ├── keepalive.rs        # Adaptive keepalives
 │       ├── ratelimit.rs        # Token bucket
+│       ├── userspace_nat.rs    # Userspace TCP/UDP NAT proxy
 │       └── ...                 # tunnel, network, telemetry, qos, mtu, reconnect
 ├── test/                       # 9 test files (79 tests)
 ├── dist_ts/                    # Compiled TypeScript

readme.plan.md

@@ -1,444 +1,236 @@
-# Enterprise Auth & Client Management for SmartVPN
+# PROXY Protocol v2 Support for SmartVPN WebSocket Transport
 
 ## Context
 
-SmartVPN's Noise NK mode currently allows **any client that knows the server's public key** to connect — no per-client identity or access control. The goal is to make SmartVPN enterprise-ready with:
+SmartVPN's WebSocket transport is designed to sit behind reverse proxies (Cloudflare, HAProxy, SmartProxy). The recently added ACL engine has `ipAllowList`/`ipBlockList` per client, but without PROXY protocol support the server only sees the proxy's IP — not the real client's. This makes source-IP ACLs useless behind a proxy.
 
-1. **Per-client cryptographic authentication** (Noise IK handshake)
-2. **Rich client definitions** with ACLs, rate limits, and priority
-3. **Hub-generated configs** — server generates typed SmartVPN client configs AND WireGuard .conf files from the same client definition
-4. **Top-notch DX** — one `createClient()` call gives you everything
-
-**This is a breaking change.** No backward compatibility with the old NK anonymous mode.
+PROXY protocol v2 solves this by letting the proxy prepend a binary header with the real client IP/port before the WebSocket upgrade.
 
 ---
 
-## Design Overview
+## Design
 
-### The Hub Model
-
-The server acts as a **hub** that manages client definitions. Each client definition is the **single source of truth** from which both SmartVPN native configs and WireGuard configs are generated.
+### Two-Phase ACL with Real Client IP
 
 ```
-Hub (Server)
-  └── Client Registry
-       ├── "alice-laptop"  →  SmartVPN config  OR  WireGuard .conf
-       ├── "bob-phone"     →  SmartVPN config  OR  WireGuard .conf
-       └── "office-gw"     →  SmartVPN config  OR  WireGuard .conf
+TCP accept → Read PP v2 header → Extract real IP
+  │
+  ├─ Phase 1 (pre-handshake): Check server-level connectionIpBlockList → reject early
+  │
+  ├─ WebSocket upgrade → Noise IK handshake → Client identity known
+  │
+  └─ Phase 2 (post-handshake): Check per-client ipAllowList/ipBlockList → reject if denied
 ```
 
-### Authentication: NK → IK (Breaking Change)
+- **Phase 1**: Server-wide block list (`connectionIpBlockList` on `IVpnServerConfig`). Rejects before any crypto work. Protects server resources.
+- **Phase 2**: Per-client ACL from `IClientSecurity.ipAllowList`/`ipBlockList`. Applied after the Noise IK handshake identifies the client.
 
-**Old (removed):** `Noise_NK_25519_ChaChaPoly_BLAKE2s` — client is anonymous
-**New (always):** `Noise_IK_25519_ChaChaPoly_BLAKE2s` — client presents its static key during handshake
+### No New Dependencies
 
-IK is a 2-message handshake (same count as NK), so **the frame protocol stays identical**. Changes:
-- `create_initiator()` now requires `(client_private_key, server_public_key)` — always
-- `create_responder()` remains `(server_private_key)` — but now uses IK pattern
-- After handshake, server extracts client's public key via `get_remote_static()` and verifies against registry
-- Old NK functions are replaced, not kept alongside
+PROXY protocol v2 is a fixed-format binary header (16-byte signature + variable address block). Manual parsing (~80 lines) follows the same pattern as `codec.rs`. No crate needed.
 
-**Every client must have a keypair. Every server must have a client registry.**
+### Scope: WebSocket Only
+
+- **WebSocket**: Needs PP v2 (sits behind reverse proxies)
+- **QUIC**: Direct UDP, just use `conn.remote_address()`
+- **WireGuard**: Direct UDP, uses boringtun peer tracking
 
 ---
 
-## Core Interface: `IClientEntry`
+## Implementation
 
-This is the server-side client definition — the central config object.
-Naming and structure are aligned with SmartProxy's `IRouteConfig` / `IRouteSecurity` patterns.
+### Phase 1: New Rust module `proxy_protocol.rs`
 
-```typescript
-export interface IClientEntry {
-  /** Human-readable client ID (e.g. "alice-laptop") */
-  clientId: string;
+**New file: `rust/src/proxy_protocol.rs`**
 
-  /** Client's Noise IK public key (base64) — for SmartVPN native transport */
-  publicKey: string;
-  /** Client's WireGuard public key (base64) — for WireGuard transport */
-  wgPublicKey?: string;
-
-  // ── Security (aligned with SmartProxy IRouteSecurity pattern) ─────────
-
-  security?: IClientSecurity;
-
-  // ── QoS ────────────────────────────────────────────────────────────────
-
-  /** Traffic priority (lower = higher priority, default: 100) */
-  priority?: number;
-
-  // ── Metadata (aligned with SmartProxy IRouteConfig pattern) ────────────
-
-  /** Whether this client is enabled (default: true) */
-  enabled?: boolean;
-  /** Tags for grouping (e.g. ["engineering", "office"]) */
-  tags?: string[];
-  /** Optional description */
-  description?: string;
-  /** Optional expiry (ISO 8601 timestamp, omit = never expires) */
-  expiresAt?: string;
-}
-
-/**
- * Security settings per client — mirrors SmartProxy's IRouteSecurity structure.
- * Uses the same ipAllowList/ipBlockList naming convention.
- * Adds VPN-specific destination filtering (destinationAllowList/destinationBlockList).
- */
-export interface IClientSecurity {
-  /** Source IPs/CIDRs the client may connect FROM (empty = any).
-   *  Supports: exact IP, CIDR, wildcard (192.168.1.*), ranges (1.1.1.1-1.1.1.5).
-   *  Same format as SmartProxy's ipAllowList. */
-  ipAllowList?: string[];
-  /** Source IPs blocked — overrides ipAllowList (deny wins).
-   *  Same format as SmartProxy's ipBlockList. */
-  ipBlockList?: string[];
-  /** Destination IPs/CIDRs the client may reach through the VPN (empty = all) */
-  destinationAllowList?: string[];
-  /** Destination IPs blocked — overrides destinationAllowList (deny wins) */
-  destinationBlockList?: string[];
-  /** Max concurrent connections from this client */
-  maxConnections?: number;
-  /** Per-client rate limiting */
-  rateLimit?: IClientRateLimit;
-}
-
-export interface IClientRateLimit {
-  /** Max throughput in bytes/sec */
-  bytesPerSec: number;
-  /** Burst allowance in bytes */
-  burstBytes: number;
-}
+PP v2 binary format:
 ```
-
-### SmartProxy Alignment Notes
-
-| Pattern | SmartProxy | SmartVPN |
-|---------|-----------|---------|
-| ACL naming | `ipAllowList` / `ipBlockList` | Same — `ipAllowList` / `ipBlockList` |
-| Security grouping | `security: IRouteSecurity` sub-object | Same — `security: IClientSecurity` sub-object |
-| Rate limit structure | `rateLimit: IRouteRateLimit` object | Same pattern — `rateLimit: IClientRateLimit` object |
-| IP format support | Exact, CIDR, wildcard, ranges | Same formats |
-| Metadata fields | `priority`, `tags`, `enabled`, `description` | Same fields |
-| ACL evaluation | Block-first, then allow-list | Same — deny overrides allow |
-
-### ACL Evaluation Order
-
+Bytes 0-11:   Signature  \x0D\x0A\x0D\x0A\x00\x0D\x0A\x51\x55\x49\x54\x0A
+Byte 12:      Version (high nibble = 0x2) | Command (low nibble: 0x0=LOCAL, 0x1=PROXY)
+Byte 13:      Address family | Protocol (0x11 = IPv4/TCP, 0x21 = IPv6/TCP)
+Bytes 14-15:  Address data length (big-endian u16)
+Bytes 16+:    IPv4: 4 src_ip + 4 dst_ip + 2 src_port + 2 dst_port (12 bytes)
+              IPv6: 16 src_ip + 16 dst_ip + 2 src_port + 2 dst_port (36 bytes)
 ```
-1. Check ipBlockList / destinationBlockList first (explicit deny wins)
-2. If denied, DROP
-3. Check ipAllowList / destinationAllowList (explicit allow)
-4. If ipAllowList is empty → allow any source
-5. If destinationAllowList is empty → allow all destinations
-```
-
----
-
-## Hub Config Generation
-
-### `createClient()` — The One-Call DX
-
-When the hub creates a client, it:
-1. Generates a Noise IK keypair for the client
-2. Generates a WireGuard keypair for the client
-3. Allocates a VPN IP address
-4. Stores the `IClientEntry` in the registry
-5. Returns a **complete config bundle** with everything the client needs
-
-```typescript
-export interface IClientConfigBundle {
-  /** The server-side client entry */
-  entry: IClientEntry;
-  /** Ready-to-use SmartVPN client config (typed object) */
-  smartvpnConfig: IVpnClientConfig;
-  /** Ready-to-use WireGuard .conf file content (string) */
-  wireguardConfig: string;
-  /** Client's private keys (ONLY returned at creation time, not stored server-side) */
-  secrets: {
-    noisePrivateKey: string;
-    wgPrivateKey: string;
-  };
-}
-```
-
-The `secrets` are returned **only at creation time** — the server stores only public keys.
-
-### `exportClientConfig()` — Re-export (without secrets)
-
-```typescript
-exportClientConfig(clientId: string, format: 'smartvpn' | 'wireguard'): IVpnClientConfig | string
-```
-
----
-
-## Updated `IVpnServerConfig`
-
-```typescript
-export interface IVpnServerConfig {
-  listenAddr: string;
-  tlsCert?: string;
-  tlsKey?: string;
-  privateKey: string;                          // Server's Noise static private key (base64)
-  publicKey: string;                           // Server's Noise static public key (base64)
-  subnet: string;
-  dns?: string[];
-  mtu?: number;
-  keepaliveIntervalSecs?: number;
-  enableNat?: boolean;
-  defaultRateLimitBytesPerSec?: number;
-  defaultBurstBytes?: number;
-  transportMode?: 'websocket' | 'quic' | 'both' | 'wireguard';
-  quicListenAddr?: string;
-  quicIdleTimeoutSecs?: number;
-  wgListenPort?: number;
-  wgPeers?: IWgPeerConfig[];                   // Keep for raw WG mode
-
-  /** Pre-registered clients — REQUIRED for SmartVPN native transport */
-  clients: IClientEntry[];
-}
-```
-
-Note: `clients` is now **required** (not optional), and there is no `authMode` field — IK is always used.
-
----
-
-## Updated `IVpnClientConfig`
-
-```typescript
-export interface IVpnClientConfig {
-  serverUrl: string;
-  serverPublicKey: string;
-  /** Client's Noise IK private key (base64) — REQUIRED for SmartVPN native transport */
-  clientPrivateKey: string;
-  /** Client's Noise IK public key (base64) — for reference/display */
-  clientPublicKey: string;
-  dns?: string[];
-  mtu?: number;
-  keepaliveIntervalSecs?: number;
-  transport?: 'auto' | 'websocket' | 'quic' | 'wireguard';
-  serverCertHash?: string;
-  // WireGuard fields unchanged...
-  wgPrivateKey?: string;
-  wgAddress?: string;
-  wgAddressPrefix?: number;
-  wgPresharedKey?: string;
-  wgPersistentKeepalive?: number;
-  wgEndpoint?: string;
-  wgAllowedIps?: string[];
-}
-```
-
-Note: `clientPrivateKey` and `clientPublicKey` are now **required** (not optional) for non-WireGuard transports.
-
----
-
-## New IPC Commands
-
-Added to `TVpnServerCommands`:
-
-| Command | Params | Result | Description |
-|---------|--------|--------|-------------|
-| `createClient` | `{ client: Partial<IClientEntry> }` | `IClientConfigBundle` | Create client, generate keypairs, assign IP, return full config bundle |
-| `removeClient` | `{ clientId: string }` | `void` | Remove from registry + disconnect if connected |
-| `getClient` | `{ clientId: string }` | `IClientEntry` | Get a single client entry |
-| `listRegisteredClients` | `{}` | `{ clients: IClientEntry[] }` | List all registered clients |
-| `updateClient` | `{ clientId: string, update: Partial<IClientEntry> }` | `void` | Update ACLs, rate limits, tags, etc. |
-| `enableClient` | `{ clientId: string }` | `void` | Enable a disabled client |
-| `disableClient` | `{ clientId: string }` | `void` | Disable (but don't delete) |
-| `rotateClientKey` | `{ clientId: string }` | `IClientConfigBundle` | New keypairs, return fresh config bundle |
-| `exportClientConfig` | `{ clientId: string, format: 'smartvpn' \| 'wireguard' }` | `{ config: string }` | Re-export config (without secrets) |
-| `generateClientKeypair` | `{}` | `IVpnKeypair` | Generate a standalone Noise IK keypair |
-
----
-
-## Implementation Plan
-
-### Phase 1: Rust — Crypto (Replace NK with IK)
-
-**File: `rust/src/crypto.rs`**
-
-- Change `NOISE_PATTERN` from NK to IK: `"Noise_IK_25519_ChaChaPoly_BLAKE2s"`
-- Replace `create_initiator(server_public_key)` → `create_initiator(client_private_key, server_public_key)`
-- `create_responder(private_key)` stays the same signature (IK responder only needs its own key)
-- After handshake, `get_remote_static()` on the responder returns the client's public key
-- Update `perform_handshake()` to pass client keypair
-- Update all tests
-
-### Phase 2: Rust — Client Registry module
-
-**New file: `rust/src/client_registry.rs`**
-**Modify: `rust/src/lib.rs`** — add `pub mod client_registry;`
 
 ```rust
-pub struct ClientEntry {
-    pub client_id: String,
-    pub public_key: String,
-    pub wg_public_key: Option<String>,
-    pub security: Option<ClientSecurity>,
-    pub priority: Option<u32>,
-    pub enabled: Option<bool>,
-    pub tags: Option<Vec<String>>,
-    pub description: Option<String>,
-    pub expires_at: Option<String>,
-    pub assigned_ip: Option<String>,
+pub struct ProxyHeader {
+    pub src_addr: SocketAddr,
+    pub dst_addr: SocketAddr,
+    pub is_local: bool,  // LOCAL command = health check probe
 }
 
-/// Mirrors IClientSecurity — aligned with SmartProxy's IRouteSecurity
-pub struct ClientSecurity {
-    pub ip_allow_list: Option<Vec<String>>,
-    pub ip_block_list: Option<Vec<String>>,
-    pub destination_allow_list: Option<Vec<String>>,
-    pub destination_block_list: Option<Vec<String>>,
-    pub max_connections: Option<u32>,
-    pub rate_limit: Option<ClientRateLimit>,
-}
+/// Read and parse a PROXY protocol v2 header from a TCP stream.
+/// Reads exactly the header bytes — the stream is clean for WS upgrade after.
+pub async fn read_proxy_header(stream: &mut TcpStream) -> Result<ProxyHeader>
+```
 
-pub struct ClientRateLimit {
-    pub bytes_per_sec: u64,
-    pub burst_bytes: u64,
-}
+- 5-second timeout on header read (constant `PROXY_HEADER_TIMEOUT`)
+- Validates 12-byte signature, version nibble, command type
+- Parses IPv4 and IPv6 address blocks
+- LOCAL command returns `is_local: true` (caller closes connection gracefully)
+- Unit tests: valid IPv4/IPv6 headers, LOCAL command, invalid signature, truncated data
 
-pub struct ClientRegistry {
-    entries: HashMap<String, ClientEntry>,    // keyed by clientId
-    key_index: HashMap<String, String>,       // publicKey → clientId (fast lookup)
+**Modify: `rust/src/lib.rs`** — add `pub mod proxy_protocol;`
+
+### Phase 2: Server config + client info fields
+
+**File: `rust/src/server.rs` — `ServerConfig`**
+
+Add:
+```rust
+/// Enable PROXY protocol v2 parsing on WebSocket connections.
+/// SECURITY: Must be false when accepting direct client connections.
+pub proxy_protocol: Option<bool>,
+/// Server-level IP block list — applied at TCP accept time, before Noise handshake.
+pub connection_ip_block_list: Option<Vec<String>>,
+```
+
+**File: `rust/src/server.rs` — `ClientInfo`**
+
+Add:
+```rust
+/// Real client IP:port (from PROXY protocol header or direct TCP connection).
+pub remote_addr: Option<String>,
+```
+
+### Phase 3: ACL helper
+
+**File: `rust/src/acl.rs`**
+
+Add a public function for the server-level pre-handshake check:
+```rust
+/// Check whether a connection source IP is in a block list.
+pub fn is_connection_blocked(ip: Ipv4Addr, block_list: &[String]) -> bool {
+    ip_matches_any(ip, block_list)
 }
 ```
 
-Methods: `add`, `remove`, `get_by_id`, `get_by_key`, `update`, `list`, `is_authorized` (enabled + not expired + key exists), `rotate_key`.
+(Keeps `ip_matches_any` private; exposes only the specific check needed.)
 
-### Phase 3: Rust — ACL enforcement module
+### Phase 4: WebSocket listener integration
 
-**New file: `rust/src/acl.rs`**
-**Modify: `rust/src/lib.rs`** — add `pub mod acl;`
+**File: `rust/src/server.rs` — `run_ws_listener()`**
+
+Between `listener.accept()` and `transport::accept_connection()`:
 
 ```rust
-/// IP matching supports: exact, CIDR, wildcard, ranges — same as SmartProxy's IpMatcher
-pub fn check_acl(security: &ClientSecurity, src_ip: Ipv4Addr, dst_ip: Ipv4Addr) -> AclResult {
-    // 1. Check ip_block_list / destination_block_list (deny overrides)
-    // 2. Check ip_allow_list / destination_allow_list (explicit allow)
-    // 3. Empty list = allow all
+// Determine real client address
+let remote_addr = if state.config.proxy_protocol.unwrap_or(false) {
+    match proxy_protocol::read_proxy_header(&mut tcp_stream).await {
+        Ok(header) if header.is_local => {
+            // Health check probe — close gracefully
+            return;
+        }
+        Ok(header) => {
+            info!("PP v2: real client {} -> {}", header.src_addr, header.dst_addr);
+            Some(header.src_addr)
+        }
+        Err(e) => {
+            warn!("PP v2 parse failed from {}: {}", tcp_addr, e);
+            return; // Drop connection
+        }
+    }
+} else {
+    Some(tcp_addr) // Direct connection — use TCP SocketAddr
+};
+
+// Pre-handshake server-level block list check
+if let (Some(ref block_list), Some(ref addr)) = (&state.config.connection_ip_block_list, &remote_addr) {
+    if let std::net::IpAddr::V4(v4) = addr.ip() {
+        if acl::is_connection_blocked(v4, block_list) {
+            warn!("Connection blocked by server IP block list: {}", addr);
+            return;
+        }
+    }
 }
+
+// Then proceed with WS upgrade + handle_client_connection as before
 ```
 
-Called in `server.rs` packet loop after decryption, before forwarding.
+Key correctness note: `read_proxy_header` reads *exactly* the PP header bytes via `read_exact`. The `TcpStream` is then in a clean state for the WS HTTP upgrade. No buffered wrapper needed.
 
-### Phase 4: Rust — Server changes
+### Phase 5: Update `handle_client_connection` signature
 
 **File: `rust/src/server.rs`**
 
-- Add `clients: Option<Vec<ClientEntry>>` to `ServerConfig`
-- Add `client_registry: RwLock<ClientRegistry>` to `ServerState` (no `auth_mode` — always IK)
-- Modify `handle_client_connection()`:
-  - Always use `create_responder()` (now IK pattern)
-  - Call `get_remote_static()` **before** `into_transport_mode()` to get client's public key
-  - Verify against registry — reject unauthorized clients with Disconnect frame
-  - Use registry entry for rate limits (overrides server defaults)
-  - In packet loop: call `acl::check_acl()` on decrypted packets
-- Add `ClientInfo.authenticated_key: String` and `ClientInfo.registered_client_id: String` (no longer optional)
-- Add methods: `create_client()`, `remove_client()`, `update_client()`, `list_registered_clients()`, `rotate_client_key()`, `export_client_config()`
+Change signature:
+```rust
+async fn handle_client_connection(
+    state: Arc<ServerState>,
+    mut sink: Box<dyn TransportSink>,
+    mut stream: Box<dyn TransportStream>,
+    remote_addr: Option<std::net::SocketAddr>,  // NEW
+) -> Result<()>
+```
 
-### Phase 5: Rust — Client changes
+After Noise IK handshake + registry lookup (where `client_security` is available), add connection-level per-client ACL:
 
-**File: `rust/src/client.rs`**
+```rust
+if let (Some(ref sec), Some(addr)) = (&client_security, &remote_addr) {
+    if let std::net::IpAddr::V4(v4) = addr.ip() {
+        if acl::is_connection_blocked(v4, sec.ip_block_list.as_deref().unwrap_or(&[])) {
+            anyhow::bail!("Client {} connection denied: source IP {} blocked", registered_client_id, addr);
+        }
+        if let Some(ref allow) = sec.ip_allow_list {
+            if !allow.is_empty() && !acl::is_ip_allowed(v4, allow) {
+                anyhow::bail!("Client {} connection denied: source IP {} not in allow list", registered_client_id, addr);
+            }
+        }
+    }
+}
+```
 
-- Add `client_private_key: String` to `ClientConfig` (required, not optional)
-- `connect()` always uses `create_initiator(client_private_key, server_public_key)` (IK)
+Populate `remote_addr` when building `ClientInfo`:
+```rust
+remote_addr: remote_addr.map(|a| a.to_string()),
+```
 
-### Phase 6: Rust — Management IPC handlers
+### Phase 6: QUIC listener — pass remote addr through
 
-**File: `rust/src/management.rs`**
+**File: `rust/src/server.rs` — `run_quic_listener()`**
 
-Add handlers for all 10 new IPC commands following existing patterns.
+QUIC doesn't use PROXY protocol. Just pass `conn.remote_address()` through:
+```rust
+let remote = conn.remote_address();
+// ...
+handle_client_connection(state, Box::new(sink), Box::new(stream), Some(remote)).await
+```
 
-### Phase 7: TypeScript — Interfaces
+### Phase 7: TypeScript interface updates
 
 **File: `ts/smartvpn.interfaces.ts`**
 
-- Add `IClientEntry` interface
-- Add `IClientConfigBundle` interface
-- Update `IVpnServerConfig`: add required `clients: IClientEntry[]`
-- Update `IVpnClientConfig`: add required `clientPrivateKey: string`, `clientPublicKey: string`
-- Update `IVpnClientInfo`: add `authenticatedKey: string`, `registeredClientId: string`
-- Add new commands to `TVpnServerCommands`
+Add to `IVpnServerConfig`:
+```typescript
+/** Enable PROXY protocol v2 on incoming WebSocket connections.
+ *  Required when behind a reverse proxy that sends PP v2 headers. */
+proxyProtocol?: boolean;
+/** Server-level IP block list — applied at TCP accept time, before Noise handshake. */
+connectionIpBlockList?: string[];
+```
 
-### Phase 8: TypeScript — VpnServer class methods
+Add to `IVpnClientInfo`:
+```typescript
+/** Real client IP:port (from PROXY protocol or direct TCP). */
+remoteAddr?: string;
+```
 
-**File: `ts/smartvpn.classes.vpnserver.ts`**
+### Phase 8: Tests
 
-Add methods:
-- `createClient(opts)` → `IClientConfigBundle`
-- `removeClient(clientId)` → `void`
-- `getClient(clientId)` → `IClientEntry`
-- `listRegisteredClients()` → `IClientEntry[]`
-- `updateClient(clientId, update)` → `void`
-- `enableClient(clientId)` / `disableClient(clientId)`
-- `rotateClientKey(clientId)` → `IClientConfigBundle`
-- `exportClientConfig(clientId, format)` → `string | IVpnClientConfig`
+**Rust unit tests in `proxy_protocol.rs`:**
+- `parse_valid_ipv4_header` — construct a valid PP v2 header with known IPs, verify parsed correctly
+- `parse_valid_ipv6_header` — same for IPv6
+- `parse_local_command` — health check probe returns `is_local: true`
+- `reject_invalid_signature` — random bytes rejected
+- `reject_truncated_header` — short reads fail gracefully
+- `reject_v1_header` — PROXY v1 text format rejected (we only support v2)
 
-### Phase 9: TypeScript — Config validation
+**Rust unit tests in `acl.rs`:**
+- `is_connection_blocked` with various IP patterns
 
-**File: `ts/smartvpn.classes.vpnconfig.ts`**
-
-- Server config: validate `clients` present, each entry has valid `clientId` + `publicKey`
-- Client config: validate `clientPrivateKey` and `clientPublicKey` present for non-WG transports
-- Validate CIDRs in ACL fields
-
-### Phase 10: TypeScript — Hub config generation
-
-**File: `ts/smartvpn.classes.wgconfig.ts`** (extend existing)
-
-Add `generateClientConfigFromEntry(entry, serverConfig)` — produces WireGuard .conf from `IClientEntry`.
-
-### Phase 11: Update existing tests
-
-All existing tests that use the old NK handshake or old config shapes need updating:
-- Rust tests in `crypto.rs`, `server.rs`, `client.rs`
-- TS tests in `test/test.vpnconfig.node.ts`, `test/test.flowcontrol.node.ts`, etc.
-- Tests now must provide client keypairs and client registry entries
-
----
-
-## DX Highlights
-
-1. **One call to create a client:**
-   ```typescript
-   const bundle = await server.createClient({ clientId: 'alice-laptop', tags: ['engineering'] });
-   // bundle.smartvpnConfig — typed SmartVPN client config
-   // bundle.wireguardConfig — standard WireGuard .conf string
-   // bundle.secrets — private keys, shown only at creation time
-   ```
-
-2. **Typed config objects throughout** — no raw strings or JSON blobs
-
-3. **Dual transport from same definition** — register once, connect via SmartVPN or WireGuard
-
-4. **ACLs are deny-overrides-allow** — intuitive enterprise model
-
-5. **Hot management** — add/remove/update/disable clients at runtime
-
-6. **Key rotation** — `rotateClientKey()` generates new keys and returns a fresh config bundle
-
----
-
-## Verification Plan
-
-1. **Rust unit tests:**
-   - `crypto.rs`: IK handshake roundtrip, `get_remote_static()` returns correct key, wrong key fails
-   - `client_registry.rs`: CRUD, `is_authorized` with enabled/disabled/expired
-   - `acl.rs`: allow/deny logic, empty lists, deny-overrides-allow
-
-2. **Rust integration tests:**
-   - Server accepts authorized client
-   - Server rejects unknown client public key
-   - ACL filtering drops packets to blocked destinations
-   - Runtime `createClient` / `removeClient` works
-   - Disabled client rejected at handshake
-
-3. **TypeScript tests:**
-   - Config validation with required client fields
-   - `createClient()` returns valid bundle with both formats
-   - `exportClientConfig()` generates valid WireGuard .conf
-   - Full IPC roundtrip: create client → connect → traffic → disconnect
-
-4. **Build:** `pnpm build` (TS + Rust), `cargo test`, `pnpm test`
+**TypeScript tests:**
+- Config validation accepts `proxyProtocol: true` + `connectionIpBlockList`
 
 ---
 
@@ -446,14 +238,16 @@ All existing tests that use the old NK handshake or old config shapes need updat
 
 | File | Changes |
 |------|---------|
-| `rust/src/crypto.rs` | Replace NK with IK pattern, update initiator signature |
-| `rust/src/client_registry.rs` | **NEW** — client registry module |
-| `rust/src/acl.rs` | **NEW** — ACL evaluation module |
-| `rust/src/server.rs` | Registry integration, IK auth in handshake, ACL in packet loop |
-| `rust/src/client.rs` | Required `client_private_key`, IK initiator |
-| `rust/src/management.rs` | 10 new IPC command handlers |
-| `rust/src/lib.rs` | Register new modules |
-| `ts/smartvpn.interfaces.ts` | `IClientEntry`, `IClientConfigBundle`, updated configs & commands |
-| `ts/smartvpn.classes.vpnserver.ts` | New hub methods |
-| `ts/smartvpn.classes.vpnconfig.ts` | Updated validation rules |
-| `ts/smartvpn.classes.wgconfig.ts` | Config generation from client entries |
+| `rust/src/proxy_protocol.rs` | **NEW** — PP v2 parser + tests |
+| `rust/src/lib.rs` | Add `pub mod proxy_protocol;` |
+| `rust/src/server.rs` | `ServerConfig` + `ClientInfo` fields, `run_ws_listener` PP integration, `handle_client_connection` signature + connection ACL, `run_quic_listener` pass-through |
+| `rust/src/acl.rs` | Add `is_connection_blocked` public function |
+| `ts/smartvpn.interfaces.ts` | `proxyProtocol`, `connectionIpBlockList`, `remoteAddr` |
+
+---
+
+## Verification
+
+1. `cargo test` — all existing 121 tests + new PP parser tests pass
+2. `pnpm test` — all 79 TS tests pass (no PP in test setup, just config validation)
+3. Manual: `socat` or test harness to send a PP v2 header before WS upgrade, verify server logs real IP

rust/Cargo.lock

@@ -237,6 +237,12 @@ version = "3.20.2"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "5d20789868f4b01b2f2caec9f5c4e0213b41e3e5702a50157d699ae31ced2fcb"
 
+[[package]]
+name = "byteorder"
+version = "1.5.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "1fd0f2584146f6f2ef48085050886acf353beff7305ebd1ae69500e27c67f64b"
+
 [[package]]
 name = "bytes"
 version = "1.11.1"
@@ -488,6 +494,47 @@ version = "2.10.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "d7a1e2f27636f116493b8b860f5546edb47c8d8f8ea73e1d2a20be88e28d1fea"
 
+[[package]]
+name = "defmt"
+version = "0.3.100"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "f0963443817029b2024136fc4dd07a5107eb8f977eaf18fcd1fdeb11306b64ad"
+dependencies = [
+ "defmt 1.0.1",
+]
+
+[[package]]
+name = "defmt"
+version = "1.0.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "548d977b6da32fa1d1fda2876453da1e7df63ad0304c8b3dae4dbe7b96f39b78"
+dependencies = [
+ "bitflags 1.3.2",
+ "defmt-macros",
+]
+
+[[package]]
+name = "defmt-macros"
+version = "1.0.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "3d4fc12a85bcf441cfe44344c4b72d58493178ce635338a3f3b78943aceb258e"
+dependencies = [
+ "defmt-parser",
+ "proc-macro-error2",
+ "proc-macro2",
+ "quote",
+ "syn",
+]
+
+[[package]]
+name = "defmt-parser"
+version = "1.0.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "10d60334b3b2e7c9d91ef8150abfb6fa4c1c39ebbcf4a81c2e346aad939fee3e"
+dependencies = [
+ "thiserror 2.0.18",
+]
+
 [[package]]
 name = "deranged"
 version = "0.5.8"
@@ -714,6 +761,25 @@ dependencies = [
  "polyval",
 ]
 
+[[package]]
+name = "hash32"
+version = "0.3.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "47d60b12902ba28e2730cd37e95b8c9223af2808df9e902d4df49588d1470606"
+dependencies = [
+ "byteorder",
+]
+
+[[package]]
+name = "heapless"
+version = "0.9.2"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "2af2455f757db2b292a9b1768c4b70186d443bcb3b316252d6b540aec1cd89ed"
+dependencies = [
+ "hash32",
+ "stable_deref_trait",
+]
+
 [[package]]
 name = "heck"
 version = "0.5.0"
@@ -915,6 +981,12 @@ version = "0.1.2"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "112b39cec0b298b6c1999fee3e31427f74f676e4cb9879ed1a121b43661a4154"
 
+[[package]]
+name = "managed"
+version = "0.8.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "0ca88d725a0a943b096803bd34e73a4437208b6077654cc4ecb2947a5f91618d"
+
 [[package]]
 name = "matchers"
 version = "0.2.0"
@@ -1116,6 +1188,28 @@ dependencies = [
  "zerocopy",
 ]
 
+[[package]]
+name = "proc-macro-error-attr2"
+version = "2.0.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "96de42df36bb9bba5542fe9f1a054b8cc87e172759a1868aa05c1f3acc89dfc5"
+dependencies = [
+ "proc-macro2",
+ "quote",
+]
+
+[[package]]
+name = "proc-macro-error2"
+version = "2.0.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "11ec05c52be0a07b08061f7dd003e7d7092e0472bc731b4af7bb1ef876109802"
+dependencies = [
+ "proc-macro-error-attr2",
+ "proc-macro2",
+ "quote",
+ "syn",
+]
+
 [[package]]
 name = "proc-macro2"
 version = "1.0.106"
@@ -1598,6 +1692,7 @@ dependencies = [
  "rustls-pki-types",
  "serde",
  "serde_json",
+ "smoltcp",
  "snow",
  "thiserror 2.0.18",
  "tokio",
@@ -1609,6 +1704,20 @@ dependencies = [
  "webpki-roots 1.0.6",
 ]
 
+[[package]]
+name = "smoltcp"
+version = "0.13.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "ac729b0a77bd092a3f06ddaddc59fe0d67f48ba0de45a9abe707c2842c7f8767"
+dependencies = [
+ "bitflags 1.3.2",
+ "byteorder",
+ "cfg-if",
+ "defmt 0.3.100",
+ "heapless",
+ "managed",
+]
+
 [[package]]
 name = "snow"
 version = "0.9.6"
@@ -1635,6 +1744,12 @@ dependencies = [
  "windows-sys 0.60.2",
 ]
 
+[[package]]
+name = "stable_deref_trait"
+version = "1.2.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "6ce2be8dc25455e1f91df71bfa12ad37d7af1092ae736f3a6cd0e37bc7810596"
+
 [[package]]
 name = "strsim"
 version = "0.11.1"

rust/Cargo.toml

@@ -35,6 +35,7 @@ rustls-pemfile = "2"
 webpki-roots = "1"
 mimalloc = "0.1"
 boringtun = "0.7"
+smoltcp = { version = "0.13", default-features = false, features = ["medium-ip", "proto-ipv4", "socket-tcp", "socket-udp", "alloc"] }
 chrono = { version = "0.4", features = ["serde"] }
 ipnet = "2"
 

rust/src/acl.rs

@@ -11,6 +11,30 @@ pub enum AclResult {
     DenyDst,
 }
 
+/// Check whether a connection source IP is in a server-level block list.
+/// Used for pre-handshake rejection of known-bad IPs.
+pub fn is_connection_blocked(ip: Ipv4Addr, block_list: &[String]) -> bool {
+    ip_matches_any(ip, block_list)
+}
+
+/// Check whether a source IP is allowed by allow/block lists.
+/// Returns true if the IP is permitted (not blocked and passes allow check).
+pub fn is_source_allowed(ip: Ipv4Addr, allow_list: Option<&[String]>, block_list: Option<&[String]>) -> bool {
+    // Deny overrides allow
+    if let Some(bl) = block_list {
+        if ip_matches_any(ip, bl) {
+            return false;
+        }
+    }
+    // If allow list exists and is non-empty, IP must match
+    if let Some(al) = allow_list {
+        if !al.is_empty() && !ip_matches_any(ip, al) {
+            return false;
+        }
+    }
+    true
+}
+
 /// Check whether a packet from `src_ip` to `dst_ip` is allowed by the client's security policy.
 ///
 /// Evaluation order (deny overrides allow):

rust/src/client.rs

@@ -1,6 +1,7 @@
 use anyhow::Result;
 use bytes::BytesMut;
 use serde::Deserialize;
+use std::net::Ipv4Addr;
 use std::sync::Arc;
 use tokio::sync::{mpsc, watch, RwLock};
 use tracing::{info, error, warn, debug};
@@ -12,6 +13,7 @@ use crate::telemetry::ConnectionQuality;
 use crate::transport;
 use crate::transport_trait::{self, TransportSink, TransportStream};
 use crate::quic_transport;
+use crate::tunnel::{self, TunConfig};
 
 /// Client configuration (matches TS IVpnClientConfig).
 #[derive(Debug, Clone, Deserialize)]
@@ -30,6 +32,9 @@ pub struct ClientConfig {
     pub transport: Option<String>,
     /// For QUIC: SHA-256 hash of server certificate (base64) for cert pinning.
     pub server_cert_hash: Option<String>,
+    /// Forwarding mode: "tun" (TUN device, requires root) or "testing" (no TUN).
+    /// Default: "testing".
+    pub forwarding_mode: Option<String>,
 }
 
 /// Client statistics.
@@ -76,6 +81,7 @@ pub struct VpnClient {
     connected_since: Arc<RwLock<Option<std::time::Instant>>>,
     quality_rx: Option<watch::Receiver<ConnectionQuality>>,
     link_health: Arc<RwLock<LinkHealth>>,
+    connection_handle: Option<tokio::task::JoinHandle<()>>,
 }
 
 impl VpnClient {
@@ -88,6 +94,7 @@ impl VpnClient {
             connected_since: Arc::new(RwLock::new(None)),
             quality_rx: None,
             link_health: Arc::new(RwLock::new(LinkHealth::Degraded)),
+            connection_handle: None,
         }
     }
 
@@ -234,6 +241,31 @@ impl VpnClient {
 
         info!("Connected to VPN, assigned IP: {}", assigned_ip);
 
+        // Optionally create TUN device for IP packet forwarding (requires root)
+        let tun_enabled = config.forwarding_mode.as_deref() == Some("tun");
+        let (tun_reader, tun_writer, tun_subnet) = if tun_enabled {
+            let client_tun_ip: Ipv4Addr = assigned_ip.parse()?;
+            let mtu = ip_info["mtu"].as_u64().unwrap_or(1420) as u16;
+            let tun_config = TunConfig {
+                name: "svpn-client0".to_string(),
+                address: client_tun_ip,
+                netmask: Ipv4Addr::new(255, 255, 255, 0),
+                mtu,
+            };
+            let tun_device = tunnel::create_tun(&tun_config)?;
+
+            // Add route for VPN subnet through the TUN device
+            let gateway_str = ip_info["gateway"].as_str().unwrap_or("10.8.0.1");
+            let gateway: Ipv4Addr = gateway_str.parse().unwrap_or(Ipv4Addr::new(10, 8, 0, 1));
+            let subnet = format!("{}/24", Ipv4Addr::from(u32::from(gateway) & 0xFFFFFF00));
+            tunnel::add_route(&subnet, &tun_config.name).await?;
+
+            let (reader, writer) = tokio::io::split(tun_device);
+            (Some(reader), Some(writer), Some(subnet))
+        } else {
+            (None, None, None)
+        };
+
         // Create adaptive keepalive monitor (use custom interval if configured)
         let ka_config = config.keepalive_interval_secs.map(|secs| {
             let mut cfg = keepalive::AdaptiveKeepaliveConfig::default();
@@ -250,7 +282,7 @@ impl VpnClient {
 
         // Spawn packet forwarding loop
         let assigned_ip_clone = assigned_ip.clone();
-        tokio::spawn(client_loop(
+        let join_handle = tokio::spawn(client_loop(
             sink,
             stream,
             noise_transport,
@@ -260,7 +292,11 @@ impl VpnClient {
             handle.signal_rx,
             handle.ack_tx,
             link_health,
+            tun_reader,
+            tun_writer,
+            tun_subnet,
         ));
+        self.connection_handle = Some(join_handle);
 
         Ok(assigned_ip_clone)
     }
@@ -270,6 +306,13 @@ impl VpnClient {
         if let Some(tx) = self.shutdown_tx.take() {
             let _ = tx.send(()).await;
         }
+        // Wait for the connection task to send the Disconnect frame and close
+        if let Some(handle) = self.connection_handle.take() {
+            let _ = tokio::time::timeout(
+                std::time::Duration::from_secs(5),
+                handle,
+            ).await;
+        }
         *self.assigned_ip.write().await = None;
         *self.connected_since.write().await = None;
         *self.state.write().await = ClientState::Disconnected;
@@ -356,8 +399,14 @@ async fn client_loop(
     mut signal_rx: mpsc::Receiver<KeepaliveSignal>,
     ack_tx: mpsc::Sender<()>,
     link_health: Arc<RwLock<LinkHealth>>,
+    mut tun_reader: Option<tokio::io::ReadHalf<tun::AsyncDevice>>,
+    mut tun_writer: Option<tokio::io::WriteHalf<tun::AsyncDevice>>,
+    tun_subnet: Option<String>,
 ) {
+    use tokio::io::{AsyncReadExt, AsyncWriteExt};
+
     let mut buf = vec![0u8; 65535];
+    let mut tun_buf = vec![0u8; 65536];
 
     loop {
         tokio::select! {
@@ -373,6 +422,14 @@ async fn client_loop(
                                             let mut s = stats.write().await;
                                             s.bytes_received += len as u64;
                                             s.packets_received += 1;
+                                            drop(s);
+
+                                            // Write decrypted packet to TUN device (if enabled)
+                                            if let Some(ref mut writer) = tun_writer {
+                                                if let Err(e) = writer.write_all(&buf[..len]).await {
+                                                    warn!("TUN write error: {}", e);
+                                                }
+                                            }
                                         }
                                         Err(e) => {
                                             warn!("Decrypt error: {}", e);
@@ -407,6 +464,50 @@ async fn client_loop(
                     }
                 }
             }
+            // Read outbound packets from TUN and send to server (only when TUN enabled)
+            result = async {
+                match tun_reader {
+                    Some(ref mut reader) => reader.read(&mut tun_buf).await,
+                    None => std::future::pending::<std::io::Result<usize>>().await,
+                }
+            } => {
+                match result {
+                    Ok(0) => {
+                        info!("TUN device closed");
+                        break;
+                    }
+                    Ok(n) => {
+                        match noise_transport.write_message(&tun_buf[..n], &mut buf) {
+                            Ok(len) => {
+                                let frame = Frame {
+                                    packet_type: PacketType::IpPacket,
+                                    payload: buf[..len].to_vec(),
+                                };
+                                let mut frame_bytes = BytesMut::new();
+                                if <FrameCodec as tokio_util::codec::Encoder<Frame>>::encode(
+                                    &mut FrameCodec, frame, &mut frame_bytes
+                                ).is_ok() {
+                                    if sink.send_reliable(frame_bytes.to_vec()).await.is_err() {
+                                        warn!("Failed to send TUN packet to server");
+                                        break;
+                                    }
+                                    let mut s = stats.write().await;
+                                    s.bytes_sent += n as u64;
+                                    s.packets_sent += 1;
+                                }
+                            }
+                            Err(e) => {
+                                warn!("Noise encrypt error: {}", e);
+                                break;
+                            }
+                        }
+                    }
+                    Err(e) => {
+                        warn!("TUN read error: {}", e);
+                        break;
+                    }
+                }
+            }
             signal = signal_rx.recv() => {
                 match signal {
                     Some(KeepaliveSignal::SendPing(timestamp_ms)) => {
@@ -456,6 +557,13 @@ async fn client_loop(
             }
         }
     }
+
+    // Cleanup: remove TUN route if enabled
+    if let Some(ref subnet) = tun_subnet {
+        if let Err(e) = tunnel::remove_route(subnet, "svpn-client0").await {
+            warn!("Failed to remove client TUN route: {}", e);
+        }
+    }
 }
 
 /// Try to connect via QUIC. Returns transport halves on success.

rust/src/lib.rs

@@ -20,3 +20,5 @@ pub mod mtu;
 pub mod wireguard;
 pub mod client_registry;
 pub mod acl;
+pub mod proxy_protocol;
+pub mod userspace_nat;

rust/src/management.rs

@@ -7,7 +7,7 @@ use tracing::{info, error, warn};
 use crate::client::{ClientConfig, VpnClient};
 use crate::crypto;
 use crate::server::{ServerConfig, VpnServer};
-use crate::wireguard::{self, WgClient, WgClientConfig, WgPeerConfig, WgServer, WgServerConfig};
+use crate::wireguard::{self, WgClient, WgClientConfig, WgPeerConfig};
 
 // ============================================================================
 // IPC protocol types
@@ -95,7 +95,6 @@ pub async fn management_loop_stdio(mode: &str) -> Result<()> {
     let mut vpn_client = VpnClient::new();
     let mut vpn_server = VpnServer::new();
     let mut wg_client = WgClient::new();
-    let mut wg_server = WgServer::new();
 
     send_event_stdout("ready", serde_json::json!({ "mode": mode }));
 
@@ -131,7 +130,7 @@ pub async fn management_loop_stdio(mode: &str) -> Result<()> {
 
         let response = match mode {
             "client" => handle_client_request(&request, &mut vpn_client, &mut wg_client).await,
-            "server" => handle_server_request(&request, &mut vpn_server, &mut wg_server).await,
+            "server" => handle_server_request(&request, &mut vpn_server).await,
             _ => ManagementResponse::err(request.id.clone(), format!("Unknown mode: {}", mode)),
         };
         send_response_stdout(&response);
@@ -154,7 +153,6 @@ pub async fn management_loop_socket(socket_path: &str, mode: &str) -> Result<()>
     let vpn_client = std::sync::Arc::new(Mutex::new(VpnClient::new()));
     let vpn_server = std::sync::Arc::new(Mutex::new(VpnServer::new()));
     let wg_client = std::sync::Arc::new(Mutex::new(WgClient::new()));
-    let wg_server = std::sync::Arc::new(Mutex::new(WgServer::new()));
 
     loop {
         match listener.accept().await {
@@ -163,10 +161,9 @@ pub async fn management_loop_socket(socket_path: &str, mode: &str) -> Result<()>
                 let client = vpn_client.clone();
                 let server = vpn_server.clone();
                 let wg_c = wg_client.clone();
-                let wg_s = wg_server.clone();
                 tokio::spawn(async move {
                     if let Err(e) =
-                        handle_socket_connection(stream, &mode, client, server, wg_c, wg_s).await
+                        handle_socket_connection(stream, &mode, client, server, wg_c).await
                     {
                         warn!("Socket connection error: {}", e);
                     }
@@ -185,7 +182,6 @@ async fn handle_socket_connection(
     vpn_client: std::sync::Arc<Mutex<VpnClient>>,
     vpn_server: std::sync::Arc<Mutex<VpnServer>>,
     wg_client: std::sync::Arc<Mutex<WgClient>>,
-    wg_server: std::sync::Arc<Mutex<WgServer>>,
 ) -> Result<()> {
     let (reader, mut writer) = stream.into_split();
     let buf_reader = BufReader::new(reader);
@@ -241,8 +237,7 @@ async fn handle_socket_connection(
             }
             "server" => {
                 let mut server = vpn_server.lock().await;
-                let mut wg_s = wg_server.lock().await;
-                handle_server_request(&request, &mut server, &mut wg_s).await
+                handle_server_request(&request, &mut server).await
             }
             _ => ManagementResponse::err(request.id.clone(), format!("Unknown mode: {}", mode)),
         };
@@ -381,92 +376,46 @@ async fn handle_client_request(
 async fn handle_server_request(
     request: &ManagementRequest,
     vpn_server: &mut VpnServer,
-    wg_server: &mut WgServer,
 ) -> ManagementResponse {
     let id = request.id.clone();
 
     match request.method.as_str() {
         "start" => {
-            // Check if transportMode is "wireguard"
-            let transport_mode = request.params
-                .get("config")
-                .and_then(|c| c.get("transportMode"))
-                .and_then(|t| t.as_str())
-                .unwrap_or("");
-
-            if transport_mode == "wireguard" {
-                let config: WgServerConfig = match serde_json::from_value(
-                    request.params.get("config").cloned().unwrap_or_default(),
-                ) {
-                    Ok(c) => c,
-                    Err(e) => {
-                        return ManagementResponse::err(id, format!("Invalid WG config: {}", e));
-                    }
-                };
-                match wg_server.start(config).await {
-                    Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
-                    Err(e) => ManagementResponse::err(id, format!("WG start failed: {}", e)),
-                }
-            } else {
-                let config: ServerConfig = match serde_json::from_value(
-                    request.params.get("config").cloned().unwrap_or_default(),
-                ) {
-                    Ok(c) => c,
-                    Err(e) => {
-                        return ManagementResponse::err(id, format!("Invalid config: {}", e));
-                    }
-                };
-                match vpn_server.start(config).await {
-                    Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
-                    Err(e) => ManagementResponse::err(id, format!("Start failed: {}", e)),
+            let config: ServerConfig = match serde_json::from_value(
+                request.params.get("config").cloned().unwrap_or_default(),
+            ) {
+                Ok(c) => c,
+                Err(e) => {
+                    return ManagementResponse::err(id, format!("Invalid config: {}", e));
                 }
+            };
+            match vpn_server.start(config).await {
+                Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
+                Err(e) => ManagementResponse::err(id, format!("Start failed: {}", e)),
             }
         }
         "stop" => {
-            if wg_server.is_running() {
-                match wg_server.stop().await {
-                    Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
-                    Err(e) => ManagementResponse::err(id, format!("WG stop failed: {}", e)),
-                }
-            } else {
-                match vpn_server.stop().await {
-                    Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
-                    Err(e) => ManagementResponse::err(id, format!("Stop failed: {}", e)),
-                }
+            match vpn_server.stop().await {
+                Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
+                Err(e) => ManagementResponse::err(id, format!("Stop failed: {}", e)),
             }
         }
         "getStatus" => {
-            if wg_server.is_running() {
-                ManagementResponse::ok(id, wg_server.get_status())
-            } else {
-                let status = vpn_server.get_status();
-                ManagementResponse::ok(id, status)
-            }
+            let status = vpn_server.get_status();
+            ManagementResponse::ok(id, status)
         }
         "getStatistics" => {
-            if wg_server.is_running() {
-                ManagementResponse::ok(id, wg_server.get_statistics().await)
-            } else {
-                let stats = vpn_server.get_statistics().await;
-                match serde_json::to_value(&stats) {
-                    Ok(v) => ManagementResponse::ok(id, v),
-                    Err(e) => ManagementResponse::err(id, format!("Serialize error: {}", e)),
-                }
+            let stats = vpn_server.get_statistics().await;
+            match serde_json::to_value(&stats) {
+                Ok(v) => ManagementResponse::ok(id, v),
+                Err(e) => ManagementResponse::err(id, format!("Serialize error: {}", e)),
             }
         }
         "listClients" => {
-            if wg_server.is_running() {
-                let peers = wg_server.list_peers().await;
-                match serde_json::to_value(&peers) {
-                    Ok(v) => ManagementResponse::ok(id, serde_json::json!({ "clients": v })),
-                    Err(e) => ManagementResponse::err(id, format!("Serialize error: {}", e)),
-                }
-            } else {
-                let clients = vpn_server.list_clients().await;
-                match serde_json::to_value(&clients) {
-                    Ok(v) => ManagementResponse::ok(id, serde_json::json!({ "clients": v })),
-                    Err(e) => ManagementResponse::err(id, format!("Serialize error: {}", e)),
-                }
+            let clients = vpn_server.list_clients().await;
+            match serde_json::to_value(&clients) {
+                Ok(v) => ManagementResponse::ok(id, serde_json::json!({ "clients": v })),
+                Err(e) => ManagementResponse::err(id, format!("Serialize error: {}", e)),
             }
         }
         "disconnectClient" => {
@@ -546,9 +495,6 @@ async fn handle_server_request(
             )
         }
         "addWgPeer" => {
-            if !wg_server.is_running() {
-                return ManagementResponse::err(id, "WireGuard server not running".to_string());
-            }
             let config: WgPeerConfig = match serde_json::from_value(
                 request.params.get("peer").cloned().unwrap_or_default(),
             ) {
@@ -557,29 +503,23 @@ async fn handle_server_request(
                     return ManagementResponse::err(id, format!("Invalid peer config: {}", e));
                 }
             };
-            match wg_server.add_peer(config).await {
+            match vpn_server.add_wg_peer(config).await {
                 Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
                 Err(e) => ManagementResponse::err(id, format!("Add peer failed: {}", e)),
             }
         }
         "removeWgPeer" => {
-            if !wg_server.is_running() {
-                return ManagementResponse::err(id, "WireGuard server not running".to_string());
-            }
             let public_key = match request.params.get("publicKey").and_then(|v| v.as_str()) {
                 Some(k) => k.to_string(),
                 None => return ManagementResponse::err(id, "Missing publicKey".to_string()),
             };
-            match wg_server.remove_peer(&public_key).await {
+            match vpn_server.remove_wg_peer(&public_key).await {
                 Ok(()) => ManagementResponse::ok(id, serde_json::json!({})),
                 Err(e) => ManagementResponse::err(id, format!("Remove peer failed: {}", e)),
             }
         }
         "listWgPeers" => {
-            if !wg_server.is_running() {
-                return ManagementResponse::err(id, "WireGuard server not running".to_string());
-            }
-            let peers = wg_server.list_peers().await;
+            let peers = vpn_server.list_wg_peers().await;
             match serde_json::to_value(&peers) {
                 Ok(v) => ManagementResponse::ok(id, serde_json::json!({ "peers": v })),
                 Err(e) => ManagementResponse::err(id, format!("Serialize error: {}", e)),

rust/src/network.rs

@@ -86,6 +86,16 @@ impl IpPool {
         client_id
     }
 
+    /// Reserve a specific IP for a client (e.g., WireGuard static IP from allowed_ips).
+    pub fn reserve(&mut self, ip: Ipv4Addr, client_id: &str) -> Result<()> {
+        if self.allocated.contains_key(&ip) {
+            anyhow::bail!("IP {} is already allocated", ip);
+        }
+        self.allocated.insert(ip, client_id.to_string());
+        info!("Reserved IP {} for client {}", ip, client_id);
+        Ok(())
+    }
+
     /// Number of currently allocated IPs.
     pub fn allocated_count(&self) -> usize {
         self.allocated.len()

rust/src/proxy_protocol.rs

@@ -0,0 +1,261 @@
+//! PROXY protocol v2 parser for extracting real client addresses
+//! when SmartVPN sits behind a reverse proxy (HAProxy, SmartProxy, etc.).
+//!
+//! Spec: <https://www.haproxy.org/download/2.9/doc/proxy-protocol.txt>
+
+use anyhow::Result;
+use std::net::{Ipv4Addr, Ipv6Addr, SocketAddr, SocketAddrV4, SocketAddrV6};
+use std::time::Duration;
+use tokio::io::AsyncReadExt;
+use tokio::net::TcpStream;
+
+/// Timeout for reading the PROXY protocol header from a new connection.
+const PROXY_HEADER_TIMEOUT: Duration = Duration::from_secs(5);
+
+/// The 12-byte PP v2 signature.
+const PP_V2_SIGNATURE: [u8; 12] = [
+    0x0D, 0x0A, 0x0D, 0x0A, 0x00, 0x0D, 0x0A, 0x51, 0x55, 0x49, 0x54, 0x0A,
+];
+
+/// Parsed PROXY protocol v2 header.
+#[derive(Debug, Clone)]
+pub struct ProxyHeader {
+    /// Real client source address.
+    pub src_addr: SocketAddr,
+    /// Proxy-to-server destination address.
+    pub dst_addr: SocketAddr,
+    /// True if this is a LOCAL command (health check probe from proxy).
+    pub is_local: bool,
+}
+
+/// Read and parse a PROXY protocol v2 header from a TCP stream.
+///
+/// Reads exactly the header bytes — the stream is in a clean state for
+/// WebSocket upgrade afterward. Returns an error on timeout, invalid
+/// signature, or malformed header.
+pub async fn read_proxy_header(stream: &mut TcpStream) -> Result<ProxyHeader> {
+    tokio::time::timeout(PROXY_HEADER_TIMEOUT, read_proxy_header_inner(stream))
+        .await
+        .map_err(|_| anyhow::anyhow!("PROXY protocol header read timed out ({}s)", PROXY_HEADER_TIMEOUT.as_secs()))?
+}
+
+async fn read_proxy_header_inner(stream: &mut TcpStream) -> Result<ProxyHeader> {
+    // Read the 16-byte fixed prefix
+    let mut prefix = [0u8; 16];
+    stream.read_exact(&mut prefix).await?;
+
+    // Validate the 12-byte signature
+    if prefix[..12] != PP_V2_SIGNATURE {
+        anyhow::bail!("Invalid PROXY protocol v2 signature");
+    }
+
+    // Byte 12: version (high nibble) | command (low nibble)
+    let version = (prefix[12] & 0xF0) >> 4;
+    let command = prefix[12] & 0x0F;
+
+    if version != 2 {
+        anyhow::bail!("Unsupported PROXY protocol version: {}", version);
+    }
+
+    // Byte 13: address family (high nibble) | protocol (low nibble)
+    let addr_family = (prefix[13] & 0xF0) >> 4;
+    let _protocol = prefix[13] & 0x0F; // 1 = STREAM (TCP)
+
+    // Bytes 14-15: address data length (big-endian)
+    let addr_len = u16::from_be_bytes([prefix[14], prefix[15]]) as usize;
+
+    // Read the address data
+    let mut addr_data = vec![0u8; addr_len];
+    if addr_len > 0 {
+        stream.read_exact(&mut addr_data).await?;
+    }
+
+    // LOCAL command (0x00) = health check, no real address
+    if command == 0x00 {
+        return Ok(ProxyHeader {
+            src_addr: SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::UNSPECIFIED, 0)),
+            dst_addr: SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::UNSPECIFIED, 0)),
+            is_local: true,
+        });
+    }
+
+    // PROXY command (0x01) — parse address block
+    if command != 0x01 {
+        anyhow::bail!("Unknown PROXY protocol command: {}", command);
+    }
+
+    match addr_family {
+        // AF_INET (IPv4): 4 src + 4 dst + 2 src_port + 2 dst_port = 12 bytes
+        1 => {
+            if addr_data.len() < 12 {
+                anyhow::bail!("IPv4 address block too short: {} bytes", addr_data.len());
+            }
+            let src_ip = Ipv4Addr::new(addr_data[0], addr_data[1], addr_data[2], addr_data[3]);
+            let dst_ip = Ipv4Addr::new(addr_data[4], addr_data[5], addr_data[6], addr_data[7]);
+            let src_port = u16::from_be_bytes([addr_data[8], addr_data[9]]);
+            let dst_port = u16::from_be_bytes([addr_data[10], addr_data[11]]);
+            Ok(ProxyHeader {
+                src_addr: SocketAddr::V4(SocketAddrV4::new(src_ip, src_port)),
+                dst_addr: SocketAddr::V4(SocketAddrV4::new(dst_ip, dst_port)),
+                is_local: false,
+            })
+        }
+        // AF_INET6 (IPv6): 16 src + 16 dst + 2 src_port + 2 dst_port = 36 bytes
+        2 => {
+            if addr_data.len() < 36 {
+                anyhow::bail!("IPv6 address block too short: {} bytes", addr_data.len());
+            }
+            let src_ip = Ipv6Addr::from(<[u8; 16]>::try_from(&addr_data[0..16]).unwrap());
+            let dst_ip = Ipv6Addr::from(<[u8; 16]>::try_from(&addr_data[16..32]).unwrap());
+            let src_port = u16::from_be_bytes([addr_data[32], addr_data[33]]);
+            let dst_port = u16::from_be_bytes([addr_data[34], addr_data[35]]);
+            Ok(ProxyHeader {
+                src_addr: SocketAddr::V6(SocketAddrV6::new(src_ip, src_port, 0, 0)),
+                dst_addr: SocketAddr::V6(SocketAddrV6::new(dst_ip, dst_port, 0, 0)),
+                is_local: false,
+            })
+        }
+        // AF_UNSPEC or unknown
+        _ => {
+            anyhow::bail!("Unsupported address family: {}", addr_family);
+        }
+    }
+}
+
+/// Build a PROXY protocol v2 header (for testing / proxy implementations).
+pub fn build_pp_v2_header(src: SocketAddr, dst: SocketAddr) -> Vec<u8> {
+    let mut buf = Vec::new();
+    buf.extend_from_slice(&PP_V2_SIGNATURE);
+
+    match (src, dst) {
+        (SocketAddr::V4(s), SocketAddr::V4(d)) => {
+            buf.push(0x21); // version 2 | PROXY command
+            buf.push(0x11); // AF_INET | STREAM
+            buf.extend_from_slice(&12u16.to_be_bytes()); // addr length
+            buf.extend_from_slice(&s.ip().octets());
+            buf.extend_from_slice(&d.ip().octets());
+            buf.extend_from_slice(&s.port().to_be_bytes());
+            buf.extend_from_slice(&d.port().to_be_bytes());
+        }
+        (SocketAddr::V6(s), SocketAddr::V6(d)) => {
+            buf.push(0x21); // version 2 | PROXY command
+            buf.push(0x21); // AF_INET6 | STREAM
+            buf.extend_from_slice(&36u16.to_be_bytes()); // addr length
+            buf.extend_from_slice(&s.ip().octets());
+            buf.extend_from_slice(&d.ip().octets());
+            buf.extend_from_slice(&s.port().to_be_bytes());
+            buf.extend_from_slice(&d.port().to_be_bytes());
+        }
+        _ => panic!("Mismatched address families"),
+    }
+    buf
+}
+
+/// Build a PROXY protocol v2 LOCAL header (health check probe).
+pub fn build_pp_v2_local() -> Vec<u8> {
+    let mut buf = Vec::new();
+    buf.extend_from_slice(&PP_V2_SIGNATURE);
+    buf.push(0x20); // version 2 | LOCAL command
+    buf.push(0x00); // AF_UNSPEC
+    buf.extend_from_slice(&0u16.to_be_bytes()); // no address data
+    buf
+}
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+    use tokio::io::AsyncWriteExt;
+    use tokio::net::TcpListener;
+
+    /// Helper: create a TCP pair and write data to the client side, then parse from server side.
+    async fn parse_header_from_bytes(header_bytes: &[u8]) -> Result<ProxyHeader> {
+        let listener = TcpListener::bind("127.0.0.1:0").await.unwrap();
+        let addr = listener.local_addr().unwrap();
+
+        let data = header_bytes.to_vec();
+        let client_task = tokio::spawn(async move {
+            let mut client = TcpStream::connect(addr).await.unwrap();
+            client.write_all(&data).await.unwrap();
+            client // keep alive
+        });
+
+        let (mut server_stream, _) = listener.accept().await.unwrap();
+        let result = read_proxy_header(&mut server_stream).await;
+        let _client = client_task.await.unwrap();
+        result
+    }
+
+    #[tokio::test]
+    async fn parse_valid_ipv4_header() {
+        let src = "203.0.113.50:12345".parse::<SocketAddr>().unwrap();
+        let dst = "10.0.0.1:443".parse::<SocketAddr>().unwrap();
+        let header = build_pp_v2_header(src, dst);
+
+        let parsed = parse_header_from_bytes(&header).await.unwrap();
+        assert!(!parsed.is_local);
+        assert_eq!(parsed.src_addr, src);
+        assert_eq!(parsed.dst_addr, dst);
+    }
+
+    #[tokio::test]
+    async fn parse_valid_ipv6_header() {
+        let src = "[2001:db8::1]:54321".parse::<SocketAddr>().unwrap();
+        let dst = "[2001:db8::2]:443".parse::<SocketAddr>().unwrap();
+        let header = build_pp_v2_header(src, dst);
+
+        let parsed = parse_header_from_bytes(&header).await.unwrap();
+        assert!(!parsed.is_local);
+        assert_eq!(parsed.src_addr, src);
+        assert_eq!(parsed.dst_addr, dst);
+    }
+
+    #[tokio::test]
+    async fn parse_local_command() {
+        let header = build_pp_v2_local();
+        let parsed = parse_header_from_bytes(&header).await.unwrap();
+        assert!(parsed.is_local);
+    }
+
+    #[tokio::test]
+    async fn reject_invalid_signature() {
+        let mut header = build_pp_v2_local();
+        header[0] = 0xFF; // corrupt signature
+        let result = parse_header_from_bytes(&header).await;
+        assert!(result.is_err());
+        assert!(result.unwrap_err().to_string().contains("signature"));
+    }
+
+    #[tokio::test]
+    async fn reject_wrong_version() {
+        let mut header = build_pp_v2_local();
+        header[12] = 0x10; // version 1 instead of 2
+        let result = parse_header_from_bytes(&header).await;
+        assert!(result.is_err());
+        assert!(result.unwrap_err().to_string().contains("version"));
+    }
+
+    #[tokio::test]
+    async fn reject_truncated_header() {
+        // Only 10 bytes — not even the full signature
+        let result = parse_header_from_bytes(&[0x0D, 0x0A, 0x0D, 0x0A, 0x00, 0x0D, 0x0A, 0x51, 0x55, 0x49]).await;
+        assert!(result.is_err());
+    }
+
+    #[tokio::test]
+    async fn ipv4_header_is_exactly_28_bytes() {
+        let src = "1.2.3.4:80".parse::<SocketAddr>().unwrap();
+        let dst = "5.6.7.8:443".parse::<SocketAddr>().unwrap();
+        let header = build_pp_v2_header(src, dst);
+        // 12 sig + 1 ver/cmd + 1 fam/proto + 2 len + 12 addrs = 28
+        assert_eq!(header.len(), 28);
+    }
+
+    #[tokio::test]
+    async fn ipv6_header_is_exactly_52_bytes() {
+        let src = "[::1]:80".parse::<SocketAddr>().unwrap();
+        let dst = "[::2]:443".parse::<SocketAddr>().unwrap();
+        let header = build_pp_v2_header(src, dst);
+        // 12 sig + 1 ver/cmd + 1 fam/proto + 2 len + 36 addrs = 52
+        assert_eq!(header.len(), 52);
+    }
+}

rust/src/server.rs

@@ -19,6 +19,7 @@ use crate::ratelimit::TokenBucket;
 use crate::transport;
 use crate::transport_trait::{self, TransportSink, TransportStream};
 use crate::quic_transport;
+use crate::tunnel::{self, TunConfig};
 
 /// Dead-peer timeout: 3x max keepalive interval (Healthy=60s).
 const DEAD_PEER_TIMEOUT: Duration = Duration::from_secs(180);
@@ -37,6 +38,9 @@ pub struct ServerConfig {
     pub mtu: Option<u16>,
     pub keepalive_interval_secs: Option<u64>,
     pub enable_nat: Option<bool>,
+    /// Forwarding mode: "tun" (kernel TUN, requires root), "socket" (userspace NAT),
+    /// or "testing" (monitoring only, no forwarding). Default: "testing".
+    pub forwarding_mode: Option<String>,
     /// Default rate limit for new clients (bytes/sec). None = unlimited.
     pub default_rate_limit_bytes_per_sec: Option<u64>,
     /// Default burst size for new clients (bytes). None = unlimited.
@@ -49,6 +53,17 @@ pub struct ServerConfig {
     pub quic_idle_timeout_secs: Option<u64>,
     /// Pre-registered clients for IK authentication.
     pub clients: Option<Vec<ClientEntry>>,
+    /// Enable PROXY protocol v2 parsing on incoming WebSocket connections.
+    /// SECURITY: Must be false when accepting direct client connections.
+    pub proxy_protocol: Option<bool>,
+    /// Server-level IP block list — applied at TCP accept, before Noise handshake.
+    pub connection_ip_block_list: Option<Vec<String>>,
+    /// WireGuard: server X25519 private key (base64). Required when transport includes WG.
+    pub wg_private_key: Option<String>,
+    /// WireGuard: UDP listen port (default: 51820).
+    pub wg_listen_port: Option<u16>,
+    /// WireGuard: pre-configured peers.
+    pub wg_peers: Option<Vec<crate::wireguard::WgPeerConfig>>,
 }
 
 /// Information about a connected client.
@@ -70,6 +85,10 @@ pub struct ClientInfo {
     pub authenticated_key: String,
     /// Registered client ID from the client registry.
     pub registered_client_id: String,
+    /// Real client IP:port (from PROXY protocol header or direct TCP connection).
+    pub remote_addr: Option<String>,
+    /// Transport used for this connection: "websocket", "quic", or "wireguard".
+    pub transport_type: String,
 }
 
 /// Server statistics.
@@ -87,6 +106,16 @@ pub struct ServerStatistics {
     pub total_connections: u64,
 }
 
+/// The forwarding engine determines how decrypted IP packets are routed.
+pub enum ForwardingEngine {
+    /// Kernel TUN device — packets written to the TUN, kernel handles routing.
+    Tun(tokio::io::WriteHalf<tun::AsyncDevice>),
+    /// Userspace NAT — packets sent to smoltcp-based NAT engine via channel.
+    Socket(mpsc::Sender<Vec<u8>>),
+    /// Testing/monitoring — packets are counted but not forwarded.
+    Testing,
+}
+
 /// Shared server state.
 pub struct ServerState {
     pub config: ServerConfig,
@@ -97,12 +126,19 @@ pub struct ServerState {
     pub mtu_config: MtuConfig,
     pub started_at: std::time::Instant,
     pub client_registry: RwLock<ClientRegistry>,
+    /// The forwarding engine for decrypted IP packets.
+    pub forwarding_engine: Mutex<ForwardingEngine>,
+    /// Routing table: assigned VPN IP → channel sender for return packets.
+    pub tun_routes: RwLock<HashMap<Ipv4Addr, mpsc::Sender<Vec<u8>>>>,
+    /// Shutdown signal for the forwarding background task (TUN reader or NAT engine).
+    pub tun_shutdown: mpsc::Sender<()>,
 }
 
 /// The VPN server.
 pub struct VpnServer {
     state: Option<Arc<ServerState>>,
     shutdown_tx: Option<mpsc::Sender<()>>,
+    wg_command_tx: Option<mpsc::Sender<crate::wireguard::WgCommand>>,
 }
 
 impl VpnServer {
@@ -110,6 +146,7 @@ impl VpnServer {
         Self {
             state: None,
             shutdown_tx: None,
+            wg_command_tx: None,
         }
     }
 
@@ -132,6 +169,51 @@ impl VpnServer {
         }
 
         let link_mtu = config.mtu.unwrap_or(1420);
+        let mode = config.forwarding_mode.as_deref().unwrap_or("testing");
+        let gateway_ip = ip_pool.gateway_addr();
+
+        // Create forwarding engine based on mode
+        enum ForwardingSetup {
+            Tun {
+                writer: tokio::io::WriteHalf<tun::AsyncDevice>,
+                reader: tokio::io::ReadHalf<tun::AsyncDevice>,
+                shutdown_rx: mpsc::Receiver<()>,
+            },
+            Socket {
+                packet_tx: mpsc::Sender<Vec<u8>>,
+                packet_rx: mpsc::Receiver<Vec<u8>>,
+                shutdown_rx: mpsc::Receiver<()>,
+            },
+            Testing,
+        }
+
+        let (setup, fwd_shutdown_tx) = match mode {
+            "tun" => {
+                let tun_config = TunConfig {
+                    name: "svpn0".to_string(),
+                    address: gateway_ip,
+                    netmask: Ipv4Addr::new(255, 255, 255, 0),
+                    mtu: link_mtu,
+                };
+                let tun_device = tunnel::create_tun(&tun_config)?;
+                tunnel::add_route(&config.subnet, &tun_config.name).await?;
+                let (reader, writer) = tokio::io::split(tun_device);
+                let (tx, rx) = mpsc::channel::<()>(1);
+                (ForwardingSetup::Tun { writer, reader, shutdown_rx: rx }, tx)
+            }
+            "socket" => {
+                info!("Starting userspace NAT forwarding (no root required)");
+                let (packet_tx, packet_rx) = mpsc::channel::<Vec<u8>>(4096);
+                let (tx, rx) = mpsc::channel::<()>(1);
+                (ForwardingSetup::Socket { packet_tx, packet_rx, shutdown_rx: rx }, tx)
+            }
+            _ => {
+                info!("Forwarding disabled (testing/monitoring mode)");
+                let (tx, _rx) = mpsc::channel::<()>(1);
+                (ForwardingSetup::Testing, tx)
+            }
+        };
+
         // Compute effective MTU from overhead
         let overhead = TunnelOverhead::default_overhead();
         let mtu_config = MtuConfig::new(overhead.effective_tun_mtu(1500).max(link_mtu));
@@ -151,61 +233,111 @@ impl VpnServer {
             mtu_config,
             started_at: std::time::Instant::now(),
             client_registry: RwLock::new(registry),
+            forwarding_engine: Mutex::new(ForwardingEngine::Testing),
+            tun_routes: RwLock::new(HashMap::new()),
+            tun_shutdown: fwd_shutdown_tx,
         });
 
-        let (shutdown_tx, mut shutdown_rx) = mpsc::channel::<()>(1);
-        self.state = Some(state.clone());
-        self.shutdown_tx = Some(shutdown_tx);
+        // Spawn the forwarding background task and set the engine
+        match setup {
+            ForwardingSetup::Tun { writer, reader, shutdown_rx } => {
+                *state.forwarding_engine.lock().await = ForwardingEngine::Tun(writer);
+                let tun_state = state.clone();
+                tokio::spawn(async move {
+                    if let Err(e) = run_tun_reader(tun_state, reader, shutdown_rx).await {
+                        error!("TUN reader error: {}", e);
+                    }
+                });
+            }
+            ForwardingSetup::Socket { packet_tx, packet_rx, shutdown_rx } => {
+                *state.forwarding_engine.lock().await = ForwardingEngine::Socket(packet_tx);
+                let nat_engine = crate::userspace_nat::NatEngine::new(
+                    gateway_ip,
+                    link_mtu as usize,
+                    state.clone(),
+                );
+                tokio::spawn(async move {
+                    if let Err(e) = nat_engine.run(packet_rx, shutdown_rx).await {
+                        error!("NAT engine error: {}", e);
+                    }
+                });
+            }
+            ForwardingSetup::Testing => {}
+        }
 
-        let transport_mode = config.transport_mode.as_deref().unwrap_or("both");
+        self.state = Some(state.clone());
+
+        let transport_mode = config.transport_mode.as_deref().unwrap_or("all");
         let listen_addr = config.listen_addr.clone();
 
-        match transport_mode {
-            "quic" => {
-                let quic_addr = config.quic_listen_addr.clone().unwrap_or_else(|| listen_addr.clone());
-                let idle_timeout = config.quic_idle_timeout_secs.unwrap_or(30);
-                tokio::spawn(async move {
-                    if let Err(e) = run_quic_listener(state, quic_addr, idle_timeout, &mut shutdown_rx).await {
-                        error!("QUIC listener error: {}", e);
-                    }
-                });
-            }
-            "both" => {
-                let quic_addr = config.quic_listen_addr.clone().unwrap_or_else(|| listen_addr.clone());
-                let idle_timeout = config.quic_idle_timeout_secs.unwrap_or(30);
-                let state2 = state.clone();
-                let (shutdown_tx2, mut shutdown_rx2) = mpsc::channel::<()>(1);
-                // Store second shutdown sender so both listeners stop
-                let shutdown_tx_orig = self.shutdown_tx.take().unwrap();
-                let (combined_tx, mut combined_rx) = mpsc::channel::<()>(1);
-                self.shutdown_tx = Some(combined_tx);
+        // Determine if WG should be included
+        let include_wg = config.wg_private_key.is_some()
+            && matches!(transport_mode, "all" | "wireguard");
 
-                // Forward combined shutdown to both listeners
-                tokio::spawn(async move {
-                    combined_rx.recv().await;
-                    let _ = shutdown_tx_orig.send(()).await;
-                    let _ = shutdown_tx2.send(()).await;
-                });
+        // Collect shutdown senders for all listeners
+        let mut listener_shutdown_txs: Vec<mpsc::Sender<()>> = Vec::new();
 
-                tokio::spawn(async move {
-                    if let Err(e) = run_ws_listener(state, listen_addr, &mut shutdown_rx).await {
-                        error!("WebSocket listener error: {}", e);
-                    }
-                });
-                tokio::spawn(async move {
-                    if let Err(e) = run_quic_listener(state2, quic_addr, idle_timeout, &mut shutdown_rx2).await {
-                        error!("QUIC listener error: {}", e);
-                    }
-                });
-            }
-            _ => {
-                // "websocket" (default)
-                tokio::spawn(async move {
-                    if let Err(e) = run_ws_listener(state, listen_addr, &mut shutdown_rx).await {
-                        error!("Server listener error: {}", e);
-                    }
-                });
-            }
+        // Spawn transport listeners based on mode
+        let spawn_ws = matches!(transport_mode, "all" | "both" | "websocket");
+        let spawn_quic = matches!(transport_mode, "all" | "both" | "quic");
+
+        if spawn_ws {
+            let (tx, mut rx) = mpsc::channel::<()>(1);
+            listener_shutdown_txs.push(tx);
+            let ws_state = state.clone();
+            let ws_addr = listen_addr.clone();
+            tokio::spawn(async move {
+                if let Err(e) = run_ws_listener(ws_state, ws_addr, &mut rx).await {
+                    error!("WebSocket listener error: {}", e);
+                }
+            });
+        }
+
+        if spawn_quic {
+            let quic_addr = config.quic_listen_addr.clone().unwrap_or_else(|| listen_addr.clone());
+            let idle_timeout = config.quic_idle_timeout_secs.unwrap_or(30);
+            let (tx, mut rx) = mpsc::channel::<()>(1);
+            listener_shutdown_txs.push(tx);
+            let quic_state = state.clone();
+            tokio::spawn(async move {
+                if let Err(e) = run_quic_listener(quic_state, quic_addr, idle_timeout, &mut rx).await {
+                    error!("QUIC listener error: {}", e);
+                }
+            });
+        }
+
+        if include_wg {
+            let wg_config = crate::wireguard::WgListenerConfig {
+                private_key: config.wg_private_key.clone().unwrap(),
+                listen_port: config.wg_listen_port.unwrap_or(51820),
+                peers: config.wg_peers.clone().unwrap_or_default(),
+            };
+            let (tx, rx) = mpsc::channel::<()>(1);
+            listener_shutdown_txs.push(tx);
+            let (cmd_tx, cmd_rx) = mpsc::channel::<crate::wireguard::WgCommand>(32);
+            self.wg_command_tx = Some(cmd_tx);
+            let wg_state = state.clone();
+            tokio::spawn(async move {
+                if let Err(e) = crate::wireguard::run_wg_listener(wg_state, wg_config, rx, cmd_rx).await {
+                    error!("WireGuard listener error: {}", e);
+                }
+            });
+        }
+
+        // Replace self.shutdown_tx with a combined sender that fans out to all listeners
+        if listener_shutdown_txs.len() > 1 {
+            let (combined_tx, mut combined_rx) = mpsc::channel::<()>(1);
+            // Take the original shutdown_tx (from line above)
+            let _ = self.shutdown_tx.take();
+            self.shutdown_tx = Some(combined_tx);
+            tokio::spawn(async move {
+                combined_rx.recv().await;
+                for tx in listener_shutdown_txs {
+                    let _ = tx.send(()).await;
+                }
+            });
+        } else if let Some(single_tx) = listener_shutdown_txs.into_iter().next() {
+            self.shutdown_tx = Some(single_tx);
         }
 
         info!("VPN server started (transport: {})", transport_mode);
@@ -213,9 +345,38 @@ impl VpnServer {
     }
 
     pub async fn stop(&mut self) -> Result<()> {
+        if let Some(ref state) = self.state {
+            let mode = state.config.forwarding_mode.as_deref().unwrap_or("testing");
+
+            match mode {
+                "tun" => {
+                    let _ = state.tun_shutdown.send(()).await;
+                    *state.forwarding_engine.lock().await = ForwardingEngine::Testing;
+                    if let Err(e) = tunnel::remove_route(&state.config.subnet, "svpn0").await {
+                        warn!("Failed to remove TUN route: {}", e);
+                    }
+                }
+                "socket" => {
+                    let _ = state.tun_shutdown.send(()).await;
+                    *state.forwarding_engine.lock().await = ForwardingEngine::Testing;
+                }
+                _ => {}
+            }
+
+            // Clean up NAT rules
+            if state.config.enable_nat.unwrap_or(false) {
+                if let Ok(iface) = crate::network::get_default_interface() {
+                    if let Err(e) = crate::network::remove_nat(&state.config.subnet, &iface).await {
+                        warn!("Failed to remove NAT rules: {}", e);
+                    }
+                }
+            }
+        }
+
         if let Some(tx) = self.shutdown_tx.take() {
             let _ = tx.send(()).await;
         }
+        self.wg_command_tx = None;
         self.state = None;
         info!("VPN server stopped");
         Ok(())
@@ -304,6 +465,54 @@ impl VpnServer {
         Ok(())
     }
 
+    // ── WireGuard Peer Management ────────────────────────────────────────
+
+    /// Add a WireGuard peer dynamically (delegates to the WG event loop).
+    pub async fn add_wg_peer(&self, config: crate::wireguard::WgPeerConfig) -> Result<()> {
+        let tx = self.wg_command_tx.as_ref()
+            .ok_or_else(|| anyhow::anyhow!("WireGuard listener not running"))?;
+        let (resp_tx, resp_rx) = tokio::sync::oneshot::channel();
+        tx.send(crate::wireguard::WgCommand::AddPeer(config, resp_tx))
+            .await
+            .map_err(|_| anyhow::anyhow!("WG event loop closed"))?;
+        resp_rx.await.map_err(|_| anyhow::anyhow!("No response from WG loop"))?
+    }
+
+    /// Remove a WireGuard peer dynamically (delegates to the WG event loop).
+    pub async fn remove_wg_peer(&self, public_key: &str) -> Result<()> {
+        let tx = self.wg_command_tx.as_ref()
+            .ok_or_else(|| anyhow::anyhow!("WireGuard listener not running"))?;
+        let (resp_tx, resp_rx) = tokio::sync::oneshot::channel();
+        tx.send(crate::wireguard::WgCommand::RemovePeer(public_key.to_string(), resp_tx))
+            .await
+            .map_err(|_| anyhow::anyhow!("WG event loop closed"))?;
+        resp_rx.await.map_err(|_| anyhow::anyhow!("No response from WG loop"))?
+    }
+
+    /// List WireGuard peers from the unified client list.
+    pub async fn list_wg_peers(&self) -> Vec<crate::wireguard::WgPeerInfo> {
+        if let Some(ref state) = self.state {
+            state.clients.read().await.values()
+                .filter(|c| c.transport_type == "wireguard")
+                .map(|c| crate::wireguard::WgPeerInfo {
+                    public_key: c.authenticated_key.clone(),
+                    allowed_ips: vec![format!("{}/32", c.assigned_ip)],
+                    endpoint: c.remote_addr.clone(),
+                    persistent_keepalive: None,
+                    stats: crate::wireguard::WgPeerStats {
+                        bytes_sent: c.bytes_sent,
+                        bytes_received: c.bytes_received,
+                        packets_sent: 0,
+                        packets_received: 0,
+                        last_handshake_time: None,
+                    },
+                })
+                .collect()
+        } else {
+            Vec::new()
+        }
+    }
+
     // ── Client Registry (Hub) Methods ───────────────────────────────────
 
     /// Create a new client entry. Generates keypairs and assigns an IP.
@@ -562,8 +771,8 @@ impl VpnServer {
     }
 }
 
-/// WebSocket listener — accepts TCP connections, upgrades to WS, then hands off
-/// to the transport-agnostic `handle_client_connection`.
+/// WebSocket listener — accepts TCP connections, optionally parses PROXY protocol v2,
+/// upgrades to WS, then hands off to `handle_client_connection`.
 async fn run_ws_listener(
     state: Arc<ServerState>,
     listen_addr: String,
@@ -576,17 +785,52 @@ async fn run_ws_listener(
         tokio::select! {
             accept = listener.accept() => {
                 match accept {
-                    Ok((stream, addr)) => {
-                        info!("New connection from {}", addr);
+                    Ok((mut tcp_stream, tcp_addr)) => {
+                        info!("New connection from {}", tcp_addr);
                         let state = state.clone();
                         tokio::spawn(async move {
-                            match transport::accept_connection(stream).await {
+                            // Phase 0: Parse PROXY protocol v2 header if enabled
+                            let remote_addr = if state.config.proxy_protocol.unwrap_or(false) {
+                                match crate::proxy_protocol::read_proxy_header(&mut tcp_stream).await {
+                                    Ok(header) if header.is_local => {
+                                        info!("PP v2 LOCAL probe from {}", tcp_addr);
+                                        return; // Health check — close gracefully
+                                    }
+                                    Ok(header) => {
+                                        info!("PP v2: real client {} (via {})", header.src_addr, tcp_addr);
+                                        Some(header.src_addr)
+                                    }
+                                    Err(e) => {
+                                        warn!("PP v2 parse failed from {}: {}", tcp_addr, e);
+                                        return; // Drop connection
+                                    }
+                                }
+                            } else {
+                                Some(tcp_addr) // Direct connection — use TCP SocketAddr
+                            };
+
+                            // Phase 1: Server-level connection IP block list (pre-handshake)
+                            if let (Some(ref block_list), Some(ref addr)) = (&state.config.connection_ip_block_list, &remote_addr) {
+                                if !block_list.is_empty() {
+                                    if let std::net::IpAddr::V4(v4) = addr.ip() {
+                                        if acl::is_connection_blocked(v4, block_list) {
+                                            warn!("Connection blocked by server IP block list: {}", addr);
+                                            return;
+                                        }
+                                    }
+                                }
+                            }
+
+                            // Phase 2: WebSocket upgrade + VPN handshake
+                            match transport::accept_connection(tcp_stream).await {
                                 Ok(ws) => {
                                     let (sink, stream) = transport_trait::split_ws(ws);
                                     if let Err(e) = handle_client_connection(
                                         state,
                                         Box::new(sink),
                                         Box::new(stream),
+                                        remote_addr,
+                                        "websocket",
                                     ).await {
                                         warn!("Client connection error: {}", e);
                                     }
@@ -662,6 +906,8 @@ async fn run_quic_listener(
                                                 state,
                                                 Box::new(sink),
                                                 Box::new(stream),
+                                                Some(remote),
+                                                "quic",
                                             ).await {
                                                 warn!("QUIC client error: {}", e);
                                             }
@@ -694,12 +940,64 @@ async fn run_quic_listener(
     Ok(())
 }
 
+/// TUN reader task: reads IP packets from the TUN device and dispatches them
+/// to the correct client via the routing table.
+async fn run_tun_reader(
+    state: Arc<ServerState>,
+    mut tun_reader: tokio::io::ReadHalf<tun::AsyncDevice>,
+    mut shutdown_rx: mpsc::Receiver<()>,
+) -> Result<()> {
+    use tokio::io::AsyncReadExt;
+
+    let mut buf = vec![0u8; 65536];
+
+    loop {
+        tokio::select! {
+            result = tun_reader.read(&mut buf) => {
+                let n = match result {
+                    Ok(0) => {
+                        info!("TUN reader: device closed");
+                        break;
+                    }
+                    Ok(n) => n,
+                    Err(e) => {
+                        error!("TUN reader error: {}", e);
+                        break;
+                    }
+                };
+
+                // Extract destination IP from the raw IP packet
+                let dst_ip = match tunnel::extract_dst_ip(&buf[..n]) {
+                    Some(std::net::IpAddr::V4(v4)) => v4,
+                    _ => continue, // IPv6 or malformed — skip
+                };
+
+                // Look up client by destination IP
+                let routes = state.tun_routes.read().await;
+                if let Some(sender) = routes.get(&dst_ip) {
+                    if sender.try_send(buf[..n].to_vec()).is_err() {
+                        // Channel full or closed — drop packet (correct for IP best-effort)
+                    }
+                }
+            }
+            _ = shutdown_rx.recv() => {
+                info!("TUN reader shutting down");
+                break;
+            }
+        }
+    }
+
+    Ok(())
+}
+
 /// Transport-agnostic client handler. Performs the Noise IK handshake, authenticates
 /// the client against the registry, and runs the main packet forwarding loop.
 async fn handle_client_connection(
     state: Arc<ServerState>,
     mut sink: Box<dyn TransportSink>,
     mut stream: Box<dyn TransportStream>,
+    remote_addr: Option<std::net::SocketAddr>,
+    transport_type: &str,
 ) -> Result<()> {
     let server_private_key = base64::Engine::decode(
         &base64::engine::general_purpose::STANDARD,
@@ -779,12 +1077,38 @@ async fn handle_client_connection(
 
     let mut noise_transport = responder.into_transport_mode()?;
 
+    // Connection-level ACL: check real client IP against per-client ipAllowList/ipBlockList
+    if let (Some(ref sec), Some(ref addr)) = (&client_security, &remote_addr) {
+        if let std::net::IpAddr::V4(v4) = addr.ip() {
+            if !acl::is_source_allowed(
+                v4,
+                sec.ip_allow_list.as_deref(),
+                sec.ip_block_list.as_deref(),
+            ) {
+                warn!("Connection-level ACL denied client {} from IP {}", registered_client_id, addr);
+                let disconnect_frame = Frame { packet_type: PacketType::Disconnect, payload: Vec::new() };
+                let mut frame_bytes = BytesMut::new();
+                <FrameCodec as tokio_util::codec::Encoder<Frame>>::encode(&mut FrameCodec, disconnect_frame, &mut frame_bytes)?;
+                let _ = sink.send_reliable(frame_bytes.to_vec()).await;
+                anyhow::bail!("Connection denied: source IP {} not allowed for client {}", addr, registered_client_id);
+            }
+        }
+    }
+
     // Use the registered client ID as the connection ID
     let client_id = registered_client_id.clone();
 
     // Allocate IP
     let assigned_ip = state.ip_pool.lock().await.allocate(&client_id)?;
 
+    // Create return-packet channel for forwarding engine -> client
+    let (tun_return_tx, mut tun_return_rx) = mpsc::channel::<Vec<u8>>(256);
+    let fwd_mode = state.config.forwarding_mode.as_deref().unwrap_or("testing");
+    let forwarding_active = fwd_mode == "tun" || fwd_mode == "socket";
+    if forwarding_active {
+        state.tun_routes.write().await.insert(assigned_ip, tun_return_tx);
+    }
+
     // Determine rate limits: per-client security overrides server defaults
     let (rate_limit, burst) = if let Some(ref sec) = client_security {
         if let Some(ref rl) = sec.rate_limit {
@@ -811,6 +1135,8 @@ async fn handle_client_connection(
         burst_bytes: burst,
         authenticated_key: client_pub_key_b64.clone(),
         registered_client_id: registered_client_id.clone(),
+        remote_addr: remote_addr.map(|a| a.to_string()),
+        transport_type: transport_type.to_string(),
     };
     state.clients.write().await.insert(client_id.clone(), client_info);
 
@@ -845,7 +1171,9 @@ async fn handle_client_connection(
     <FrameCodec as tokio_util::codec::Encoder<Frame>>::encode(&mut FrameCodec, encrypted_info, &mut frame_bytes)?;
     sink.send_reliable(frame_bytes.to_vec()).await?;
 
-    info!("Client {} ({}) connected with IP {}", registered_client_id, &client_pub_key_b64[..8], assigned_ip);
+    info!("Client {} ({}) connected with IP {} from {}",
+        registered_client_id, &client_pub_key_b64[..8], assigned_ip,
+        remote_addr.map(|a| a.to_string()).unwrap_or_else(|| "unknown".to_string()));
 
     // Main packet loop with dead-peer detection
     let mut last_activity = tokio::time::Instant::now();
@@ -909,6 +1237,24 @@ async fn handle_client_connection(
                                             if let Some(info) = clients.get_mut(&client_id) {
                                                 info.bytes_received += len as u64;
                                             }
+                                            drop(clients);
+
+                                            // Forward decrypted packet via the active engine
+                                            {
+                                                let mut engine = state.forwarding_engine.lock().await;
+                                                match &mut *engine {
+                                                    ForwardingEngine::Tun(writer) => {
+                                                        use tokio::io::AsyncWriteExt;
+                                                        if let Err(e) = writer.write_all(&buf[..len]).await {
+                                                            warn!("TUN write error for client {}: {}", client_id, e);
+                                                        }
+                                                    }
+                                                    ForwardingEngine::Socket(sender) => {
+                                                        let _ = sender.try_send(buf[..len].to_vec());
+                                                    }
+                                                    ForwardingEngine::Testing => {}
+                                                }
+                                            }
                                         }
                                         Err(e) => {
                                             warn!("Decrypt error from {}: {}", client_id, e);
@@ -965,6 +1311,37 @@ async fn handle_client_connection(
                     }
                 }
             }
+            // Return packets from TUN device destined for this client
+            Some(packet) = tun_return_rx.recv() => {
+                let pkt_len = packet.len();
+                match noise_transport.write_message(&packet, &mut buf) {
+                    Ok(len) => {
+                        let frame = Frame {
+                            packet_type: PacketType::IpPacket,
+                            payload: buf[..len].to_vec(),
+                        };
+                        let mut frame_bytes = BytesMut::new();
+                        <FrameCodec as tokio_util::codec::Encoder<Frame>>::encode(
+                            &mut FrameCodec, frame, &mut frame_bytes
+                        )?;
+                        sink.send_reliable(frame_bytes.to_vec()).await?;
+
+                        // Update stats
+                        let mut stats = state.stats.write().await;
+                        stats.bytes_sent += pkt_len as u64;
+                        stats.packets_sent += 1;
+                        drop(stats);
+                        let mut clients = state.clients.write().await;
+                        if let Some(info) = clients.get_mut(&client_id) {
+                            info.bytes_sent += pkt_len as u64;
+                        }
+                    }
+                    Err(e) => {
+                        warn!("Noise encrypt error for return packet to {}: {}", client_id, e);
+                        break;
+                    }
+                }
+            }
             _ = tokio::time::sleep_until(last_activity + DEAD_PEER_TIMEOUT) => {
                 warn!("Client {} dead-peer timeout ({}s inactivity)", client_id, DEAD_PEER_TIMEOUT.as_secs());
                 break;
@@ -973,6 +1350,9 @@ async fn handle_client_connection(
     }
 
     // Cleanup
+    if forwarding_active {
+        state.tun_routes.write().await.remove(&assigned_ip);
+    }
     state.clients.write().await.remove(&client_id);
     state.ip_pool.lock().await.release(&assigned_ip);
     state.rate_limiters.lock().await.remove(&client_id);

rust/src/tunnel.rs

@@ -1,5 +1,5 @@
 use anyhow::Result;
-use std::net::Ipv4Addr;
+use std::net::{IpAddr, Ipv4Addr, Ipv6Addr};
 use tracing::info;
 
 /// Configuration for creating a TUN device.
@@ -80,6 +80,26 @@ pub fn check_tun_mtu(packet: &[u8], mtu_config: &crate::mtu::MtuConfig) -> TunMt
     }
 }
 
+/// Extract destination IP from a raw IP packet header.
+pub fn extract_dst_ip(packet: &[u8]) -> Option<IpAddr> {
+    if packet.is_empty() {
+        return None;
+    }
+    let version = packet[0] >> 4;
+    match version {
+        4 if packet.len() >= 20 => {
+            let dst = Ipv4Addr::new(packet[16], packet[17], packet[18], packet[19]);
+            Some(IpAddr::V4(dst))
+        }
+        6 if packet.len() >= 40 => {
+            let mut octets = [0u8; 16];
+            octets.copy_from_slice(&packet[24..40]);
+            Some(IpAddr::V6(Ipv6Addr::from(octets)))
+        }
+        _ => None,
+    }
+}
+
 /// Remove a route.
 pub async fn remove_route(subnet: &str, device_name: &str) -> Result<()> {
     let output = tokio::process::Command::new("ip")

rust/src/userspace_nat.rs

@@ -0,0 +1,640 @@
+use std::collections::{HashMap, VecDeque};
+use std::net::{Ipv4Addr, SocketAddr};
+use std::sync::Arc;
+use std::time::Duration;
+
+use anyhow::Result;
+use smoltcp::iface::{Config, Interface, SocketHandle, SocketSet};
+use smoltcp::phy::{self, Device, DeviceCapabilities, Medium};
+use smoltcp::socket::{tcp, udp};
+use smoltcp::wire::{HardwareAddress, IpAddress, IpCidr, IpEndpoint};
+use tokio::io::{AsyncReadExt, AsyncWriteExt};
+use tokio::net::{TcpStream, UdpSocket};
+use tokio::sync::mpsc;
+use tracing::{debug, info, warn};
+
+use crate::server::ServerState;
+use crate::tunnel;
+
+// ============================================================================
+// Virtual IP device for smoltcp
+// ============================================================================
+
+pub struct VirtualIpDevice {
+    rx_queue: VecDeque<Vec<u8>>,
+    tx_queue: VecDeque<Vec<u8>>,
+    mtu: usize,
+}
+
+impl VirtualIpDevice {
+    pub fn new(mtu: usize) -> Self {
+        Self {
+            rx_queue: VecDeque::new(),
+            tx_queue: VecDeque::new(),
+            mtu,
+        }
+    }
+
+    pub fn inject_packet(&mut self, packet: Vec<u8>) {
+        self.rx_queue.push_back(packet);
+    }
+
+    pub fn drain_tx(&mut self) -> impl Iterator<Item = Vec<u8>> + '_ {
+        self.tx_queue.drain(..)
+    }
+}
+
+pub struct VirtualRxToken {
+    buffer: Vec<u8>,
+}
+
+impl phy::RxToken for VirtualRxToken {
+    fn consume<R, F>(self, f: F) -> R
+    where
+        F: FnOnce(&[u8]) -> R,
+    {
+        f(&self.buffer)
+    }
+}
+
+pub struct VirtualTxToken<'a> {
+    queue: &'a mut VecDeque<Vec<u8>>,
+}
+
+impl<'a> phy::TxToken for VirtualTxToken<'a> {
+    fn consume<R, F>(self, len: usize, f: F) -> R
+    where
+        F: FnOnce(&mut [u8]) -> R,
+    {
+        let mut buffer = vec![0u8; len];
+        let result = f(&mut buffer);
+        self.queue.push_back(buffer);
+        result
+    }
+}
+
+impl Device for VirtualIpDevice {
+    type RxToken<'a> = VirtualRxToken;
+    type TxToken<'a> = VirtualTxToken<'a>;
+
+    fn receive(
+        &mut self,
+        _timestamp: smoltcp::time::Instant,
+    ) -> Option<(Self::RxToken<'_>, Self::TxToken<'_>)> {
+        self.rx_queue.pop_front().map(|buffer| {
+            let rx = VirtualRxToken { buffer };
+            let tx = VirtualTxToken {
+                queue: &mut self.tx_queue,
+            };
+            (rx, tx)
+        })
+    }
+
+    fn transmit(&mut self, _timestamp: smoltcp::time::Instant) -> Option<Self::TxToken<'_>> {
+        Some(VirtualTxToken {
+            queue: &mut self.tx_queue,
+        })
+    }
+
+    fn capabilities(&self) -> DeviceCapabilities {
+        let mut caps = DeviceCapabilities::default();
+        caps.medium = Medium::Ip;
+        caps.max_transmission_unit = self.mtu;
+        caps.max_burst_size = Some(1);
+        caps
+    }
+}
+
+// ============================================================================
+// Session tracking
+// ============================================================================
+
+#[derive(Debug, Clone, Hash, Eq, PartialEq)]
+struct SessionKey {
+    src_ip: Ipv4Addr,
+    src_port: u16,
+    dst_ip: Ipv4Addr,
+    dst_port: u16,
+    protocol: u8,
+}
+
+struct TcpSession {
+    smoltcp_handle: SocketHandle,
+    bridge_data_tx: mpsc::Sender<Vec<u8>>,
+    #[allow(dead_code)]
+    client_ip: Ipv4Addr,
+}
+
+struct UdpSession {
+    smoltcp_handle: SocketHandle,
+    bridge_data_tx: mpsc::Sender<Vec<u8>>,
+    #[allow(dead_code)]
+    client_ip: Ipv4Addr,
+    last_activity: tokio::time::Instant,
+}
+
+enum BridgeMessage {
+    TcpData { key: SessionKey, data: Vec<u8> },
+    TcpClosed { key: SessionKey },
+    UdpData { key: SessionKey, data: Vec<u8> },
+}
+
+// ============================================================================
+// IP packet parsing helpers
+// ============================================================================
+
+fn parse_ipv4_header(packet: &[u8]) -> Option<(u8, Ipv4Addr, Ipv4Addr, u8)> {
+    if packet.len() < 20 {
+        return None;
+    }
+    let version = packet[0] >> 4;
+    if version != 4 {
+        return None;
+    }
+    let ihl = (packet[0] & 0x0F) as usize * 4;
+    let protocol = packet[9];
+    let src = Ipv4Addr::new(packet[12], packet[13], packet[14], packet[15]);
+    let dst = Ipv4Addr::new(packet[16], packet[17], packet[18], packet[19]);
+    Some((ihl as u8, src, dst, protocol))
+}
+
+fn parse_tcp_ports(packet: &[u8], ihl: usize) -> Option<(u16, u16, u8)> {
+    if packet.len() < ihl + 14 {
+        return None;
+    }
+    let src_port = u16::from_be_bytes([packet[ihl], packet[ihl + 1]]);
+    let dst_port = u16::from_be_bytes([packet[ihl + 2], packet[ihl + 3]]);
+    let flags = packet[ihl + 13];
+    Some((src_port, dst_port, flags))
+}
+
+fn parse_udp_ports(packet: &[u8], ihl: usize) -> Option<(u16, u16)> {
+    if packet.len() < ihl + 4 {
+        return None;
+    }
+    let src_port = u16::from_be_bytes([packet[ihl], packet[ihl + 1]]);
+    let dst_port = u16::from_be_bytes([packet[ihl + 2], packet[ihl + 3]]);
+    Some((src_port, dst_port))
+}
+
+// ============================================================================
+// NAT Engine
+// ============================================================================
+
+pub struct NatEngine {
+    device: VirtualIpDevice,
+    iface: Interface,
+    sockets: SocketSet<'static>,
+    tcp_sessions: HashMap<SessionKey, TcpSession>,
+    udp_sessions: HashMap<SessionKey, UdpSession>,
+    state: Arc<ServerState>,
+    bridge_rx: mpsc::Receiver<BridgeMessage>,
+    bridge_tx: mpsc::Sender<BridgeMessage>,
+    start_time: std::time::Instant,
+}
+
+impl NatEngine {
+    pub fn new(gateway_ip: Ipv4Addr, mtu: usize, state: Arc<ServerState>) -> Self {
+        let mut device = VirtualIpDevice::new(mtu);
+        let config = Config::new(HardwareAddress::Ip);
+        let now = smoltcp::time::Instant::from_millis(0);
+        let mut iface = Interface::new(config, &mut device, now);
+
+        // Accept packets to ANY destination IP (essential for NAT)
+        iface.set_any_ip(true);
+
+        // Assign the gateway IP as the interface address
+        iface.update_ip_addrs(|addrs| {
+            addrs
+                .push(IpCidr::new(IpAddress::Ipv4(gateway_ip.into()), 24))
+                .unwrap();
+        });
+
+        // Add a default route so smoltcp knows where to send packets
+        iface.routes_mut().add_default_ipv4_route(gateway_ip.into()).unwrap();
+
+        let sockets = SocketSet::new(Vec::with_capacity(256));
+        let (bridge_tx, bridge_rx) = mpsc::channel(4096);
+
+        Self {
+            device,
+            iface,
+            sockets,
+            tcp_sessions: HashMap::new(),
+            udp_sessions: HashMap::new(),
+            state,
+            bridge_rx,
+            bridge_tx,
+            start_time: std::time::Instant::now(),
+        }
+    }
+
+    fn smoltcp_now(&self) -> smoltcp::time::Instant {
+        smoltcp::time::Instant::from_millis(self.start_time.elapsed().as_millis() as i64)
+    }
+
+    /// Inject a raw IP packet from a VPN client and handle new session creation.
+    fn inject_packet(&mut self, packet: Vec<u8>) {
+        let Some((ihl, src_ip, dst_ip, protocol)) = parse_ipv4_header(&packet) else {
+            return;
+        };
+        let ihl = ihl as usize;
+
+        match protocol {
+            6 => {
+                // TCP
+                let Some((src_port, dst_port, flags)) = parse_tcp_ports(&packet, ihl) else {
+                    return;
+                };
+                let key = SessionKey {
+                    src_ip,
+                    src_port,
+                    dst_ip,
+                    dst_port,
+                    protocol: 6,
+                };
+
+                // SYN without ACK = new connection
+                let is_syn = (flags & 0x02) != 0 && (flags & 0x10) == 0;
+                if is_syn && !self.tcp_sessions.contains_key(&key) {
+                    self.create_tcp_session(&key);
+                }
+            }
+            17 => {
+                // UDP
+                let Some((src_port, dst_port)) = parse_udp_ports(&packet, ihl) else {
+                    return;
+                };
+                let key = SessionKey {
+                    src_ip,
+                    src_port,
+                    dst_ip,
+                    dst_port,
+                    protocol: 17,
+                };
+
+                if !self.udp_sessions.contains_key(&key) {
+                    self.create_udp_session(&key);
+                }
+
+                // Update last_activity for existing sessions
+                if let Some(session) = self.udp_sessions.get_mut(&key) {
+                    session.last_activity = tokio::time::Instant::now();
+                }
+            }
+            _ => {
+                // ICMP and other protocols — not forwarded in socket mode
+                return;
+            }
+        }
+
+        self.device.inject_packet(packet);
+    }
+
+    fn create_tcp_session(&mut self, key: &SessionKey) {
+        // Create smoltcp TCP socket
+        let tcp_rx_buf = tcp::SocketBuffer::new(vec![0u8; 65535]);
+        let tcp_tx_buf = tcp::SocketBuffer::new(vec![0u8; 65535]);
+        let mut socket = tcp::Socket::new(tcp_rx_buf, tcp_tx_buf);
+
+        // Listen on the destination address so smoltcp accepts the SYN
+        let endpoint = IpEndpoint::new(
+            IpAddress::Ipv4(key.dst_ip.into()),
+            key.dst_port,
+        );
+        if socket.listen(endpoint).is_err() {
+            warn!("NAT: failed to listen on {:?}", endpoint);
+            return;
+        }
+
+        let handle = self.sockets.add(socket);
+
+        // Channel for sending data from NAT engine to bridge task
+        let (data_tx, data_rx) = mpsc::channel::<Vec<u8>>(256);
+
+        let session = TcpSession {
+            smoltcp_handle: handle,
+            bridge_data_tx: data_tx,
+            client_ip: key.src_ip,
+        };
+        self.tcp_sessions.insert(key.clone(), session);
+
+        // Spawn bridge task that connects to the real destination
+        let bridge_tx = self.bridge_tx.clone();
+        let key_clone = key.clone();
+        tokio::spawn(async move {
+            tcp_bridge_task(key_clone, data_rx, bridge_tx).await;
+        });
+
+        debug!(
+            "NAT: new TCP session {}:{} -> {}:{}",
+            key.src_ip, key.src_port, key.dst_ip, key.dst_port
+        );
+    }
+
+    fn create_udp_session(&mut self, key: &SessionKey) {
+        // Create smoltcp UDP socket
+        let udp_rx_buf = udp::PacketBuffer::new(
+            vec![udp::PacketMetadata::EMPTY; 32],
+            vec![0u8; 65535],
+        );
+        let udp_tx_buf = udp::PacketBuffer::new(
+            vec![udp::PacketMetadata::EMPTY; 32],
+            vec![0u8; 65535],
+        );
+        let mut socket = udp::Socket::new(udp_rx_buf, udp_tx_buf);
+
+        let endpoint = IpEndpoint::new(
+            IpAddress::Ipv4(key.dst_ip.into()),
+            key.dst_port,
+        );
+        if socket.bind(endpoint).is_err() {
+            warn!("NAT: failed to bind UDP on {:?}", endpoint);
+            return;
+        }
+
+        let handle = self.sockets.add(socket);
+
+        let (data_tx, data_rx) = mpsc::channel::<Vec<u8>>(256);
+
+        let session = UdpSession {
+            smoltcp_handle: handle,
+            bridge_data_tx: data_tx,
+            client_ip: key.src_ip,
+            last_activity: tokio::time::Instant::now(),
+        };
+        self.udp_sessions.insert(key.clone(), session);
+
+        let bridge_tx = self.bridge_tx.clone();
+        let key_clone = key.clone();
+        tokio::spawn(async move {
+            udp_bridge_task(key_clone, data_rx, bridge_tx).await;
+        });
+
+        debug!(
+            "NAT: new UDP session {}:{} -> {}:{}",
+            key.src_ip, key.src_port, key.dst_ip, key.dst_port
+        );
+    }
+
+    /// Poll smoltcp, bridge data between smoltcp sockets and bridge tasks,
+    /// and dispatch outgoing packets to VPN clients.
+    async fn process(&mut self) {
+        let now = self.smoltcp_now();
+        self.iface
+            .poll(now, &mut self.device, &mut self.sockets);
+
+        // Bridge: read data from smoltcp TCP sockets → send to bridge tasks
+        let mut closed_tcp: Vec<SessionKey> = Vec::new();
+        for (key, session) in &self.tcp_sessions {
+            let socket = self.sockets.get_mut::<tcp::Socket>(session.smoltcp_handle);
+            if socket.can_recv() {
+                let _ = socket.recv(|data| {
+                    let _ = session.bridge_data_tx.try_send(data.to_vec());
+                    (data.len(), ())
+                });
+            }
+            // Detect closed connections
+            if !socket.is_open() && !socket.is_listening() {
+                closed_tcp.push(key.clone());
+            }
+        }
+
+        // Clean up closed TCP sessions
+        for key in closed_tcp {
+            if let Some(session) = self.tcp_sessions.remove(&key) {
+                self.sockets.remove(session.smoltcp_handle);
+                debug!("NAT: TCP session closed {}:{} -> {}:{}", key.src_ip, key.src_port, key.dst_ip, key.dst_port);
+            }
+        }
+
+        // Bridge: read data from smoltcp UDP sockets → send to bridge tasks
+        for (_key, session) in &self.udp_sessions {
+            let socket = self.sockets.get_mut::<udp::Socket>(session.smoltcp_handle);
+            while let Ok((data, _meta)) = socket.recv() {
+                let _ = session.bridge_data_tx.try_send(data.to_vec());
+            }
+        }
+
+        // Dispatch outgoing packets from smoltcp to VPN clients
+        let routes = self.state.tun_routes.read().await;
+        for packet in self.device.drain_tx() {
+            if let Some(std::net::IpAddr::V4(dst_ip)) = tunnel::extract_dst_ip(&packet) {
+                if let Some(sender) = routes.get(&dst_ip) {
+                    let _ = sender.try_send(packet);
+                }
+            }
+        }
+    }
+
+    fn handle_bridge_message(&mut self, msg: BridgeMessage) {
+        match msg {
+            BridgeMessage::TcpData { key, data } => {
+                if let Some(session) = self.tcp_sessions.get(&key) {
+                    let socket =
+                        self.sockets.get_mut::<tcp::Socket>(session.smoltcp_handle);
+                    if socket.can_send() {
+                        let _ = socket.send_slice(&data);
+                    }
+                }
+            }
+            BridgeMessage::TcpClosed { key } => {
+                if let Some(session) = self.tcp_sessions.remove(&key) {
+                    let socket =
+                        self.sockets.get_mut::<tcp::Socket>(session.smoltcp_handle);
+                    socket.close();
+                    // Don't remove from SocketSet yet — let smoltcp send FIN
+                    // It will be cleaned up in process() when is_open() returns false
+                    self.tcp_sessions.insert(key, session);
+                }
+            }
+            BridgeMessage::UdpData { key, data } => {
+                if let Some(session) = self.udp_sessions.get_mut(&key) {
+                    session.last_activity = tokio::time::Instant::now();
+                    let socket =
+                        self.sockets.get_mut::<udp::Socket>(session.smoltcp_handle);
+                    let dst_endpoint = IpEndpoint::new(
+                        IpAddress::Ipv4(key.src_ip.into()),
+                        key.src_port,
+                    );
+                    // Send response: from the "server" (dst) back to the "client" (src)
+                    let _ = socket.send_slice(&data, dst_endpoint);
+                }
+            }
+        }
+    }
+
+    fn cleanup_idle_udp_sessions(&mut self) {
+        let timeout = Duration::from_secs(60);
+        let now = tokio::time::Instant::now();
+        let expired: Vec<SessionKey> = self
+            .udp_sessions
+            .iter()
+            .filter(|(_, s)| now.duration_since(s.last_activity) > timeout)
+            .map(|(k, _)| k.clone())
+            .collect();
+
+        for key in expired {
+            if let Some(session) = self.udp_sessions.remove(&key) {
+                self.sockets.remove(session.smoltcp_handle);
+                debug!(
+                    "NAT: UDP session timed out {}:{} -> {}:{}",
+                    key.src_ip, key.src_port, key.dst_ip, key.dst_port
+                );
+            }
+        }
+    }
+
+    /// Main async event loop for the NAT engine.
+    pub async fn run(
+        mut self,
+        mut packet_rx: mpsc::Receiver<Vec<u8>>,
+        mut shutdown_rx: mpsc::Receiver<()>,
+    ) -> Result<()> {
+        info!("Userspace NAT engine started");
+        let mut timer = tokio::time::interval(Duration::from_millis(50));
+        let mut cleanup_timer = tokio::time::interval(Duration::from_secs(10));
+
+        loop {
+            tokio::select! {
+                Some(packet) = packet_rx.recv() => {
+                    self.inject_packet(packet);
+                    self.process().await;
+                }
+                Some(msg) = self.bridge_rx.recv() => {
+                    self.handle_bridge_message(msg);
+                    self.process().await;
+                }
+                _ = timer.tick() => {
+                    // Periodic poll for smoltcp maintenance (TCP retransmit, etc.)
+                    self.process().await;
+                }
+                _ = cleanup_timer.tick() => {
+                    self.cleanup_idle_udp_sessions();
+                }
+                _ = shutdown_rx.recv() => {
+                    info!("Userspace NAT engine shutting down");
+                    break;
+                }
+            }
+        }
+
+        Ok(())
+    }
+}
+
+// ============================================================================
+// Bridge tasks
+// ============================================================================
+
+async fn tcp_bridge_task(
+    key: SessionKey,
+    mut data_rx: mpsc::Receiver<Vec<u8>>,
+    bridge_tx: mpsc::Sender<BridgeMessage>,
+) {
+    let addr = SocketAddr::new(key.dst_ip.into(), key.dst_port);
+
+    // Connect to real destination with timeout
+    let stream = match tokio::time::timeout(Duration::from_secs(30), TcpStream::connect(addr)).await
+    {
+        Ok(Ok(s)) => s,
+        Ok(Err(e)) => {
+            debug!("NAT TCP connect to {} failed: {}", addr, e);
+            let _ = bridge_tx.send(BridgeMessage::TcpClosed { key }).await;
+            return;
+        }
+        Err(_) => {
+            debug!("NAT TCP connect to {} timed out", addr);
+            let _ = bridge_tx.send(BridgeMessage::TcpClosed { key }).await;
+            return;
+        }
+    };
+
+    let (mut reader, mut writer) = stream.into_split();
+
+    // Read from real socket → send to NAT engine
+    let bridge_tx2 = bridge_tx.clone();
+    let key2 = key.clone();
+    let read_task = tokio::spawn(async move {
+        let mut buf = vec![0u8; 65536];
+        loop {
+            match reader.read(&mut buf).await {
+                Ok(0) => break,
+                Ok(n) => {
+                    if bridge_tx2
+                        .send(BridgeMessage::TcpData {
+                            key: key2.clone(),
+                            data: buf[..n].to_vec(),
+                        })
+                        .await
+                        .is_err()
+                    {
+                        break;
+                    }
+                }
+                Err(_) => break,
+            }
+        }
+        let _ = bridge_tx2
+            .send(BridgeMessage::TcpClosed { key: key2 })
+            .await;
+    });
+
+    // Receive from NAT engine → write to real socket
+    while let Some(data) = data_rx.recv().await {
+        if writer.write_all(&data).await.is_err() {
+            break;
+        }
+    }
+
+    read_task.abort();
+}
+
+async fn udp_bridge_task(
+    key: SessionKey,
+    mut data_rx: mpsc::Receiver<Vec<u8>>,
+    bridge_tx: mpsc::Sender<BridgeMessage>,
+) {
+    let socket = match UdpSocket::bind("0.0.0.0:0").await {
+        Ok(s) => s,
+        Err(e) => {
+            warn!("NAT UDP bind failed: {}", e);
+            return;
+        }
+    };
+    let dest = SocketAddr::new(key.dst_ip.into(), key.dst_port);
+
+    let socket = Arc::new(socket);
+    let socket2 = socket.clone();
+    let bridge_tx2 = bridge_tx.clone();
+    let key2 = key.clone();
+
+    // Read responses from real socket
+    let read_task = tokio::spawn(async move {
+        let mut buf = vec![0u8; 65536];
+        loop {
+            match socket2.recv_from(&mut buf).await {
+                Ok((n, _src)) => {
+                    if bridge_tx2
+                        .send(BridgeMessage::UdpData {
+                            key: key2.clone(),
+                            data: buf[..n].to_vec(),
+                        })
+                        .await
+                        .is_err()
+                    {
+                        break;
+                    }
+                }
+                Err(_) => break,
+            }
+        }
+    });
+
+    // Forward data from NAT engine to real socket
+    while let Some(data) = data_rx.recv().await {
+        let _ = socket.send_to(&data, dest).await;
+    }
+
+    read_task.abort();
+}

rust/src/wireguard.rs

@@ -1,9 +1,7 @@
 use std::collections::HashMap;
-use std::net::{IpAddr, Ipv4Addr, Ipv6Addr, SocketAddr};
+use std::net::{IpAddr, Ipv4Addr, SocketAddr};
 use std::sync::atomic::{AtomicU32, Ordering};
 use std::sync::Arc;
-use std::time::Instant;
-
 use anyhow::{anyhow, Result};
 use base64::engine::general_purpose::STANDARD as BASE64;
 use base64::Engine;
@@ -17,7 +15,7 @@ use tokio::net::UdpSocket;
 use tokio::sync::{mpsc, oneshot, RwLock};
 use tracing::{debug, error, info, warn};
 
-use crate::network;
+use crate::server::{ClientInfo, ForwardingEngine, ServerState};
 use crate::tunnel::{self, TunConfig};
 
 // ============================================================================
@@ -29,9 +27,6 @@ const WG_BUFFER_SIZE: usize = MAX_UDP_PACKET;
 /// Minimum dst buffer size for boringtun encapsulate/decapsulate
 const _MIN_DST_BUF: usize = 148;
 const TIMER_TICK_MS: u64 = 100;
-const DEFAULT_WG_PORT: u16 = 51820;
-const DEFAULT_TUN_ADDRESS: &str = "10.8.0.1";
-const DEFAULT_TUN_NETMASK: &str = "255.255.255.0";
 const DEFAULT_MTU: u16 = 1420;
 
 // ============================================================================
@@ -51,27 +46,6 @@ pub struct WgPeerConfig {
     pub persistent_keepalive: Option<u16>,
 }
 
-#[derive(Debug, Clone, Deserialize)]
-#[serde(rename_all = "camelCase")]
-pub struct WgServerConfig {
-    pub private_key: String,
-    #[serde(default)]
-    pub listen_port: Option<u16>,
-    #[serde(default)]
-    pub tun_address: Option<String>,
-    #[serde(default)]
-    pub tun_netmask: Option<String>,
-    #[serde(default)]
-    pub mtu: Option<u16>,
-    pub peers: Vec<WgPeerConfig>,
-    #[serde(default)]
-    pub dns: Option<Vec<String>>,
-    #[serde(default)]
-    pub enable_nat: Option<bool>,
-    #[serde(default)]
-    pub subnet: Option<String>,
-}
-
 #[derive(Debug, Clone, Deserialize)]
 #[serde(rename_all = "camelCase")]
 pub struct WgClientConfig {
@@ -111,17 +85,6 @@ pub struct WgPeerInfo {
     pub stats: WgPeerStats,
 }
 
-#[derive(Debug, Clone, Default, Serialize)]
-#[serde(rename_all = "camelCase")]
-pub struct WgServerStats {
-    pub total_bytes_sent: u64,
-    pub total_bytes_received: u64,
-    pub total_packets_sent: u64,
-    pub total_packets_received: u64,
-    pub active_peers: usize,
-    pub uptime_seconds: f64,
-}
-
 // ============================================================================
 // Key generation and parsing
 // ============================================================================
@@ -228,31 +191,11 @@ impl AllowedIp {
     }
 }
 
-/// Extract destination IP from an IP packet header.
-fn extract_dst_ip(packet: &[u8]) -> Option<IpAddr> {
-    if packet.is_empty() {
-        return None;
-    }
-    let version = packet[0] >> 4;
-    match version {
-        4 if packet.len() >= 20 => {
-            let dst = Ipv4Addr::new(packet[16], packet[17], packet[18], packet[19]);
-            Some(IpAddr::V4(dst))
-        }
-        6 if packet.len() >= 40 => {
-            let mut octets = [0u8; 16];
-            octets.copy_from_slice(&packet[24..40]);
-            Some(IpAddr::V6(Ipv6Addr::from(octets)))
-        }
-        _ => None,
-    }
-}
-
 // ============================================================================
 // Dynamic peer management commands
 // ============================================================================
 
-enum WgCommand {
+pub enum WgCommand {
     AddPeer(WgPeerConfig, oneshot::Sender<Result<()>>),
     RemovePeer(String, oneshot::Sender<Result<()>>),
 }
@@ -277,451 +220,6 @@ impl PeerState {
     }
 }
 
-// ============================================================================
-// WgServer
-// ============================================================================
-
-pub struct WgServer {
-    shutdown_tx: Option<oneshot::Sender<()>>,
-    command_tx: Option<mpsc::Sender<WgCommand>>,
-    shared_stats: Arc<RwLock<HashMap<String, WgPeerStats>>>,
-    server_stats: Arc<RwLock<WgServerStats>>,
-    started_at: Option<Instant>,
-    listen_port: Option<u16>,
-}
-
-impl WgServer {
-    pub fn new() -> Self {
-        Self {
-            shutdown_tx: None,
-            command_tx: None,
-            shared_stats: Arc::new(RwLock::new(HashMap::new())),
-            server_stats: Arc::new(RwLock::new(WgServerStats::default())),
-            started_at: None,
-            listen_port: None,
-        }
-    }
-
-    pub fn is_running(&self) -> bool {
-        self.shutdown_tx.is_some()
-    }
-
-    pub async fn start(&mut self, config: WgServerConfig) -> Result<()> {
-        if self.is_running() {
-            return Err(anyhow!("WireGuard server is already running"));
-        }
-
-        let listen_port = config.listen_port.unwrap_or(DEFAULT_WG_PORT);
-        let tun_address = config
-            .tun_address
-            .as_deref()
-            .unwrap_or(DEFAULT_TUN_ADDRESS);
-        let tun_netmask = config
-            .tun_netmask
-            .as_deref()
-            .unwrap_or(DEFAULT_TUN_NETMASK);
-        let mtu = config.mtu.unwrap_or(DEFAULT_MTU);
-
-        // Parse server private key
-        let server_private = parse_private_key(&config.private_key)?;
-        let server_public = PublicKey::from(&server_private);
-
-        // Create rate limiter for DDoS protection
-        let rate_limiter = Arc::new(RateLimiter::new(&server_public, TIMER_TICK_MS as u64));
-
-        // Build peer state
-        let peer_index = AtomicU32::new(0);
-        let mut peers: Vec<PeerState> = Vec::with_capacity(config.peers.len());
-
-        for peer_config in &config.peers {
-            let peer_public = parse_public_key(&peer_config.public_key)?;
-            let psk = match &peer_config.preshared_key {
-                Some(k) => Some(parse_preshared_key(k)?),
-                None => None,
-            };
-            let idx = peer_index.fetch_add(1, Ordering::Relaxed);
-
-            // Clone the private key for each Tunn (StaticSecret doesn't implement Clone,
-            // so re-parse from config)
-            let priv_copy = parse_private_key(&config.private_key)?;
-
-            let tunn = Tunn::new(
-                priv_copy,
-                peer_public,
-                psk,
-                peer_config.persistent_keepalive,
-                idx,
-                Some(rate_limiter.clone()),
-            );
-
-            let allowed_ips: Vec<AllowedIp> = peer_config
-                .allowed_ips
-                .iter()
-                .map(|cidr| AllowedIp::parse(cidr))
-                .collect::<Result<Vec<_>>>()?;
-
-            let endpoint = match &peer_config.endpoint {
-                Some(ep) => Some(ep.parse::<SocketAddr>()?),
-                None => None,
-            };
-
-            peers.push(PeerState {
-                tunn,
-                public_key_b64: peer_config.public_key.clone(),
-                allowed_ips,
-                endpoint,
-                persistent_keepalive: peer_config.persistent_keepalive,
-                stats: WgPeerStats::default(),
-            });
-        }
-
-        // Create TUN device
-        let tun_config = TunConfig {
-            name: "wg0".to_string(),
-            address: tun_address.parse()?,
-            netmask: tun_netmask.parse()?,
-            mtu,
-        };
-        let tun_device = tunnel::create_tun(&tun_config)?;
-        info!("WireGuard TUN device created: {}", tun_config.name);
-
-        // Bind UDP socket
-        let udp_socket = UdpSocket::bind(format!("0.0.0.0:{}", listen_port)).await?;
-        info!("WireGuard server listening on UDP port {}", listen_port);
-
-        // Enable IP forwarding and NAT if requested
-        if config.enable_nat.unwrap_or(false) {
-            network::enable_ip_forwarding()?;
-            let subnet = config
-                .subnet
-                .as_deref()
-                .unwrap_or("10.8.0.0/24");
-            let iface = network::get_default_interface()?;
-            network::setup_nat(subnet, &iface).await?;
-            info!("NAT enabled for subnet {} via {}", subnet, iface);
-        }
-
-        // Channels
-        let (shutdown_tx, shutdown_rx) = oneshot::channel::<()>();
-        let (command_tx, command_rx) = mpsc::channel::<WgCommand>(32);
-
-        let shared_stats = self.shared_stats.clone();
-        let server_stats = self.server_stats.clone();
-        let started_at = Instant::now();
-
-        // Initialize shared stats
-        {
-            let mut stats = shared_stats.write().await;
-            for peer in &peers {
-                stats.insert(peer.public_key_b64.clone(), WgPeerStats::default());
-            }
-        }
-
-        // Spawn the event loop
-        tokio::spawn(async move {
-            if let Err(e) = wg_server_loop(
-                udp_socket,
-                tun_device,
-                peers,
-                peer_index,
-                rate_limiter,
-                config.private_key.clone(),
-                shared_stats,
-                server_stats,
-                started_at,
-                shutdown_rx,
-                command_rx,
-            )
-            .await
-            {
-                error!("WireGuard server loop error: {}", e);
-            }
-            info!("WireGuard server loop exited");
-        });
-
-        self.shutdown_tx = Some(shutdown_tx);
-        self.command_tx = Some(command_tx);
-        self.started_at = Some(started_at);
-        self.listen_port = Some(listen_port);
-
-        Ok(())
-    }
-
-    pub async fn stop(&mut self) -> Result<()> {
-        if let Some(tx) = self.shutdown_tx.take() {
-            let _ = tx.send(());
-        }
-        self.command_tx = None;
-        self.started_at = None;
-        self.listen_port = None;
-        info!("WireGuard server stopped");
-        Ok(())
-    }
-
-    pub fn get_status(&self) -> serde_json::Value {
-        if self.is_running() {
-            serde_json::json!({
-                "state": "running",
-                "listenPort": self.listen_port,
-                "uptimeSeconds": self.started_at.map(|t| t.elapsed().as_secs_f64()).unwrap_or(0.0),
-            })
-        } else {
-            serde_json::json!({ "state": "stopped" })
-        }
-    }
-
-    pub async fn get_statistics(&self) -> serde_json::Value {
-        let mut stats = self.server_stats.write().await;
-        if let Some(started) = self.started_at {
-            stats.uptime_seconds = started.elapsed().as_secs_f64();
-        }
-        // Aggregate from peer stats
-        let peer_stats = self.shared_stats.read().await;
-        stats.active_peers = peer_stats.len();
-        stats.total_bytes_sent = peer_stats.values().map(|s| s.bytes_sent).sum();
-        stats.total_bytes_received = peer_stats.values().map(|s| s.bytes_received).sum();
-        stats.total_packets_sent = peer_stats.values().map(|s| s.packets_sent).sum();
-        stats.total_packets_received = peer_stats.values().map(|s| s.packets_received).sum();
-        serde_json::to_value(&*stats).unwrap_or_default()
-    }
-
-    pub async fn list_peers(&self) -> Vec<WgPeerInfo> {
-        let stats = self.shared_stats.read().await;
-        stats
-            .iter()
-            .map(|(key, s)| WgPeerInfo {
-                public_key: key.clone(),
-                allowed_ips: vec![], // populated from event loop snapshots
-                endpoint: None,
-                persistent_keepalive: None,
-                stats: s.clone(),
-            })
-            .collect()
-    }
-
-    pub async fn add_peer(&self, config: WgPeerConfig) -> Result<()> {
-        let tx = self
-            .command_tx
-            .as_ref()
-            .ok_or_else(|| anyhow!("Server not running"))?;
-        let (resp_tx, resp_rx) = oneshot::channel();
-        tx.send(WgCommand::AddPeer(config, resp_tx))
-            .await
-            .map_err(|_| anyhow!("Server event loop closed"))?;
-        resp_rx.await.map_err(|_| anyhow!("No response"))?
-    }
-
-    pub async fn remove_peer(&self, public_key: &str) -> Result<()> {
-        let tx = self
-            .command_tx
-            .as_ref()
-            .ok_or_else(|| anyhow!("Server not running"))?;
-        let (resp_tx, resp_rx) = oneshot::channel();
-        tx.send(WgCommand::RemovePeer(public_key.to_string(), resp_tx))
-            .await
-            .map_err(|_| anyhow!("Server event loop closed"))?;
-        resp_rx.await.map_err(|_| anyhow!("No response"))?
-    }
-}
-
-// ============================================================================
-// Server event loop
-// ============================================================================
-
-async fn wg_server_loop(
-    udp_socket: UdpSocket,
-    tun_device: tun::AsyncDevice,
-    mut peers: Vec<PeerState>,
-    peer_index: AtomicU32,
-    rate_limiter: Arc<RateLimiter>,
-    server_private_key_b64: String,
-    shared_stats: Arc<RwLock<HashMap<String, WgPeerStats>>>,
-    _server_stats: Arc<RwLock<WgServerStats>>,
-    _started_at: Instant,
-    mut shutdown_rx: oneshot::Receiver<()>,
-    mut command_rx: mpsc::Receiver<WgCommand>,
-) -> Result<()> {
-    let mut udp_buf = vec![0u8; MAX_UDP_PACKET];
-    let mut tun_buf = vec![0u8; MAX_UDP_PACKET];
-    let mut dst_buf = vec![0u8; WG_BUFFER_SIZE];
-    let mut timer = tokio::time::interval(std::time::Duration::from_millis(TIMER_TICK_MS));
-
-    // Split TUN for concurrent read/write in select
-    let (mut tun_reader, mut tun_writer) = tokio::io::split(tun_device);
-
-    // Stats sync interval
-    let mut stats_timer =
-        tokio::time::interval(std::time::Duration::from_secs(1));
-
-    loop {
-        tokio::select! {
-            // --- UDP receive ---
-            result = udp_socket.recv_from(&mut udp_buf) => {
-                let (n, src_addr) = result?;
-                if n == 0 { continue; }
-
-                // Find which peer this packet belongs to by trying decapsulate
-                let mut handled = false;
-                for peer in peers.iter_mut() {
-                    match peer.tunn.decapsulate(Some(src_addr.ip()), &udp_buf[..n], &mut dst_buf) {
-                        TunnResult::WriteToNetwork(packet) => {
-                            udp_socket.send_to(packet, src_addr).await?;
-                            // Drain loop
-                            loop {
-                                match peer.tunn.decapsulate(None, &[], &mut dst_buf) {
-                                    TunnResult::WriteToNetwork(pkt) => {
-                                        let ep = peer.endpoint.unwrap_or(src_addr);
-                                        udp_socket.send_to(pkt, ep).await?;
-                                    }
-                                    _ => break,
-                                }
-                            }
-                            peer.endpoint = Some(src_addr);
-                            handled = true;
-                            break;
-                        }
-                        TunnResult::WriteToTunnelV4(packet, addr) => {
-                            if peer.matches_dst(IpAddr::V4(addr)) {
-                                let pkt_len = packet.len() as u64;
-                                tun_writer.write_all(packet).await?;
-                                peer.stats.bytes_received += pkt_len;
-                                peer.stats.packets_received += 1;
-                            }
-                            peer.endpoint = Some(src_addr);
-                            handled = true;
-                            break;
-                        }
-                        TunnResult::WriteToTunnelV6(packet, addr) => {
-                            if peer.matches_dst(IpAddr::V6(addr)) {
-                                let pkt_len = packet.len() as u64;
-                                tun_writer.write_all(packet).await?;
-                                peer.stats.bytes_received += pkt_len;
-                                peer.stats.packets_received += 1;
-                            }
-                            peer.endpoint = Some(src_addr);
-                            handled = true;
-                            break;
-                        }
-                        TunnResult::Done => {
-                            // This peer didn't recognize the packet, try next
-                            continue;
-                        }
-                        TunnResult::Err(e) => {
-                            debug!("decapsulate error from {}: {:?}", src_addr, e);
-                            continue;
-                        }
-                    }
-                }
-                if !handled {
-                    debug!("No peer matched UDP packet from {}", src_addr);
-                }
-            }
-
-            // --- TUN read ---
-            result = tun_reader.read(&mut tun_buf) => {
-                let n = result?;
-                if n == 0 { continue; }
-
-                let dst_ip = match extract_dst_ip(&tun_buf[..n]) {
-                    Some(ip) => ip,
-                    None => { continue; }
-                };
-
-                // Find peer whose AllowedIPs match the destination
-                for peer in peers.iter_mut() {
-                    if !peer.matches_dst(dst_ip) {
-                        continue;
-                    }
-                    match peer.tunn.encapsulate(&tun_buf[..n], &mut dst_buf) {
-                        TunnResult::WriteToNetwork(packet) => {
-                            if let Some(endpoint) = peer.endpoint {
-                                let pkt_len = n as u64;
-                                udp_socket.send_to(packet, endpoint).await?;
-                                peer.stats.bytes_sent += pkt_len;
-                                peer.stats.packets_sent += 1;
-                            } else {
-                                debug!("No endpoint for peer {}, dropping packet", peer.public_key_b64);
-                            }
-                        }
-                        TunnResult::Err(e) => {
-                            debug!("encapsulate error for peer {}: {:?}", peer.public_key_b64, e);
-                        }
-                        _ => {}
-                    }
-                    break;
-                }
-            }
-
-            // --- Timer tick (100ms) for WireGuard timers ---
-            _ = timer.tick() => {
-                for peer in peers.iter_mut() {
-                    match peer.tunn.update_timers(&mut dst_buf) {
-                        TunnResult::WriteToNetwork(packet) => {
-                            if let Some(endpoint) = peer.endpoint {
-                                udp_socket.send_to(packet, endpoint).await?;
-                            }
-                        }
-                        TunnResult::Err(e) => {
-                            debug!("Timer error for peer {}: {:?}", peer.public_key_b64, e);
-                        }
-                        _ => {}
-                    }
-                }
-            }
-
-            // --- Sync stats to shared state ---
-            _ = stats_timer.tick() => {
-                let mut shared = shared_stats.write().await;
-                for peer in peers.iter() {
-                    shared.insert(peer.public_key_b64.clone(), peer.stats.clone());
-                }
-            }
-
-            // --- Dynamic peer commands ---
-            cmd = command_rx.recv() => {
-                match cmd {
-                    Some(WgCommand::AddPeer(config, resp_tx)) => {
-                        let result = add_peer_to_loop(
-                            &mut peers,
-                            &config,
-                            &peer_index,
-                            &rate_limiter,
-                            &server_private_key_b64,
-                        );
-                        if result.is_ok() {
-                            let mut shared = shared_stats.write().await;
-                            shared.insert(config.public_key.clone(), WgPeerStats::default());
-                        }
-                        let _ = resp_tx.send(result);
-                    }
-                    Some(WgCommand::RemovePeer(pubkey, resp_tx)) => {
-                        let prev_len = peers.len();
-                        peers.retain(|p| p.public_key_b64 != pubkey);
-                        if peers.len() < prev_len {
-                            let mut shared = shared_stats.write().await;
-                            shared.remove(&pubkey);
-                            let _ = resp_tx.send(Ok(()));
-                        } else {
-                            let _ = resp_tx.send(Err(anyhow!("Peer not found: {}", pubkey)));
-                        }
-                    }
-                    None => {
-                        info!("Command channel closed");
-                        break;
-                    }
-                }
-            }
-
-            // --- Shutdown ---
-            _ = &mut shutdown_rx => {
-                info!("WireGuard server shutdown signal received");
-                break;
-            }
-        }
-    }
-
-    Ok(())
-}
 
 fn add_peer_to_loop(
     peers: &mut Vec<PeerState>,
@@ -776,6 +274,410 @@ fn add_peer_to_loop(
     Ok(())
 }
 
+// ============================================================================
+// Integrated WG listener (shares ServerState with WS/QUIC)
+// ============================================================================
+
+/// Configuration for the integrated WireGuard listener.
+#[derive(Debug, Clone)]
+pub struct WgListenerConfig {
+    pub private_key: String,
+    pub listen_port: u16,
+    pub peers: Vec<WgPeerConfig>,
+}
+
+/// Extract the first /32 IPv4 address from a list of AllowedIp entries.
+/// This is the peer's VPN IP used for return-packet routing.
+fn extract_peer_vpn_ip(allowed_ips: &[AllowedIp]) -> Option<Ipv4Addr> {
+    for aip in allowed_ips {
+        if let IpAddr::V4(v4) = aip.addr {
+            if aip.prefix_len == 32 {
+                return Some(v4);
+            }
+        }
+    }
+    None
+}
+
+/// Timestamp helper (mirrors server.rs timestamp_now).
+fn wg_timestamp_now() -> String {
+    use std::time::SystemTime;
+    let duration = SystemTime::now()
+        .duration_since(SystemTime::UNIX_EPOCH)
+        .unwrap_or_default();
+    format!("{}", duration.as_secs())
+}
+
+/// Register a WG peer in ServerState (tun_routes, clients, ip_pool).
+/// Returns the VPN IP and the per-peer return-packet receiver.
+async fn register_wg_peer(
+    state: &Arc<ServerState>,
+    peer: &PeerState,
+    wg_return_tx: &mpsc::Sender<(String, Vec<u8>)>,
+) -> Result<Option<Ipv4Addr>> {
+    let vpn_ip = match extract_peer_vpn_ip(&peer.allowed_ips) {
+        Some(ip) => ip,
+        None => {
+            warn!("WG peer {} has no /32 IPv4 in allowed_ips, skipping registration",
+                peer.public_key_b64);
+            return Ok(None);
+        }
+    };
+
+    let client_id = format!("wg-{}", &peer.public_key_b64[..8.min(peer.public_key_b64.len())]);
+
+    // Reserve IP in the pool
+    if let Err(e) = state.ip_pool.lock().await.reserve(vpn_ip, &client_id) {
+        warn!("Failed to reserve IP {} for WG peer {}: {}", vpn_ip, client_id, e);
+        return Ok(None);
+    }
+
+    // Create per-peer return channel and register in tun_routes
+    let fwd_mode = state.config.forwarding_mode.as_deref().unwrap_or("testing");
+    let forwarding_active = fwd_mode == "tun" || fwd_mode == "socket";
+    if forwarding_active {
+        let (peer_return_tx, mut peer_return_rx) = mpsc::channel::<Vec<u8>>(256);
+        state.tun_routes.write().await.insert(vpn_ip, peer_return_tx);
+
+        // Spawn relay task: per-peer channel → merged channel tagged with pubkey
+        let relay_tx = wg_return_tx.clone();
+        let pubkey = peer.public_key_b64.clone();
+        tokio::spawn(async move {
+            while let Some(packet) = peer_return_rx.recv().await {
+                if relay_tx.send((pubkey.clone(), packet)).await.is_err() {
+                    break;
+                }
+            }
+        });
+    }
+
+    // Insert ClientInfo
+    let client_info = ClientInfo {
+        client_id: client_id.clone(),
+        assigned_ip: vpn_ip.to_string(),
+        connected_since: wg_timestamp_now(),
+        bytes_sent: 0,
+        bytes_received: 0,
+        packets_dropped: 0,
+        bytes_dropped: 0,
+        last_keepalive_at: None,
+        keepalives_received: 0,
+        rate_limit_bytes_per_sec: None,
+        burst_bytes: None,
+        authenticated_key: peer.public_key_b64.clone(),
+        registered_client_id: client_id,
+        remote_addr: peer.endpoint.map(|e| e.to_string()),
+        transport_type: "wireguard".to_string(),
+    };
+    state.clients.write().await.insert(client_info.client_id.clone(), client_info);
+
+    Ok(Some(vpn_ip))
+}
+
+/// Unregister a WG peer from ServerState.
+async fn unregister_wg_peer(
+    state: &Arc<ServerState>,
+    pubkey: &str,
+    vpn_ip: Option<Ipv4Addr>,
+) {
+    let client_id = format!("wg-{}", &pubkey[..8.min(pubkey.len())]);
+
+    if let Some(ip) = vpn_ip {
+        state.tun_routes.write().await.remove(&ip);
+        state.ip_pool.lock().await.release(&ip);
+    }
+    state.clients.write().await.remove(&client_id);
+    state.rate_limiters.lock().await.remove(&client_id);
+}
+
+/// Integrated WireGuard listener that shares ServerState with WS/QUIC listeners.
+/// Uses the shared ForwardingEngine for packet routing instead of its own TUN device.
+pub async fn run_wg_listener(
+    state: Arc<ServerState>,
+    config: WgListenerConfig,
+    mut shutdown_rx: mpsc::Receiver<()>,
+    mut command_rx: mpsc::Receiver<WgCommand>,
+) -> Result<()> {
+    // Parse server private key
+    let server_private = parse_private_key(&config.private_key)?;
+    let server_public = PublicKey::from(&server_private);
+
+    // Create rate limiter for DDoS protection
+    let rate_limiter = Arc::new(RateLimiter::new(&server_public, TIMER_TICK_MS as u64));
+
+    // Build initial peer state
+    let peer_index = AtomicU32::new(0);
+    let mut peers: Vec<PeerState> = Vec::with_capacity(config.peers.len());
+
+    for peer_config in &config.peers {
+        let peer_public = parse_public_key(&peer_config.public_key)?;
+        let psk = match &peer_config.preshared_key {
+            Some(k) => Some(parse_preshared_key(k)?),
+            None => None,
+        };
+        let idx = peer_index.fetch_add(1, Ordering::Relaxed);
+        let priv_copy = parse_private_key(&config.private_key)?;
+
+        let tunn = Tunn::new(
+            priv_copy,
+            peer_public,
+            psk,
+            peer_config.persistent_keepalive,
+            idx,
+            Some(rate_limiter.clone()),
+        );
+
+        let allowed_ips: Vec<AllowedIp> = peer_config
+            .allowed_ips
+            .iter()
+            .map(|cidr| AllowedIp::parse(cidr))
+            .collect::<Result<Vec<_>>>()?;
+
+        let endpoint = match &peer_config.endpoint {
+            Some(ep) => Some(ep.parse::<SocketAddr>()?),
+            None => None,
+        };
+
+        peers.push(PeerState {
+            tunn,
+            public_key_b64: peer_config.public_key.clone(),
+            allowed_ips,
+            endpoint,
+            persistent_keepalive: peer_config.persistent_keepalive,
+            stats: WgPeerStats::default(),
+        });
+    }
+
+    // Bind UDP socket
+    let udp_socket = UdpSocket::bind(format!("0.0.0.0:{}", config.listen_port)).await?;
+    info!("WireGuard listener started on UDP port {}", config.listen_port);
+
+    // Merged return-packet channel: all per-peer channels feed into this
+    let (wg_return_tx, mut wg_return_rx) = mpsc::channel::<(String, Vec<u8>)>(1024);
+
+    // Register initial peers in ServerState and track their VPN IPs
+    let mut peer_vpn_ips: HashMap<String, Ipv4Addr> = HashMap::new();
+    for peer in &peers {
+        if let Ok(Some(ip)) = register_wg_peer(&state, peer, &wg_return_tx).await {
+            peer_vpn_ips.insert(peer.public_key_b64.clone(), ip);
+        }
+    }
+
+    // Buffers
+    let mut udp_buf = vec![0u8; MAX_UDP_PACKET];
+    let mut dst_buf = vec![0u8; WG_BUFFER_SIZE];
+    let mut timer = tokio::time::interval(std::time::Duration::from_millis(TIMER_TICK_MS));
+    let mut stats_timer = tokio::time::interval(std::time::Duration::from_secs(1));
+
+    loop {
+        tokio::select! {
+            // --- UDP receive → decapsulate → ForwardingEngine ---
+            result = udp_socket.recv_from(&mut udp_buf) => {
+                let (n, src_addr) = result?;
+                if n == 0 { continue; }
+
+                let mut handled = false;
+                for peer in peers.iter_mut() {
+                    match peer.tunn.decapsulate(Some(src_addr.ip()), &udp_buf[..n], &mut dst_buf) {
+                        TunnResult::WriteToNetwork(packet) => {
+                            udp_socket.send_to(packet, src_addr).await?;
+                            loop {
+                                match peer.tunn.decapsulate(None, &[], &mut dst_buf) {
+                                    TunnResult::WriteToNetwork(pkt) => {
+                                        let ep = peer.endpoint.unwrap_or(src_addr);
+                                        udp_socket.send_to(pkt, ep).await?;
+                                    }
+                                    _ => break,
+                                }
+                            }
+                            peer.endpoint = Some(src_addr);
+                            handled = true;
+                            break;
+                        }
+                        TunnResult::WriteToTunnelV4(packet, addr) => {
+                            if peer.matches_dst(IpAddr::V4(addr)) {
+                                let pkt_len = packet.len() as u64;
+                                // Forward via shared forwarding engine
+                                let mut engine = state.forwarding_engine.lock().await;
+                                match &mut *engine {
+                                    ForwardingEngine::Tun(writer) => {
+                                        use tokio::io::AsyncWriteExt;
+                                        if let Err(e) = writer.write_all(packet).await {
+                                            warn!("TUN write error for WG peer: {}", e);
+                                        }
+                                    }
+                                    ForwardingEngine::Socket(sender) => {
+                                        let _ = sender.try_send(packet.to_vec());
+                                    }
+                                    ForwardingEngine::Testing => {}
+                                }
+                                peer.stats.bytes_received += pkt_len;
+                                peer.stats.packets_received += 1;
+                            }
+                            peer.endpoint = Some(src_addr);
+                            handled = true;
+                            break;
+                        }
+                        TunnResult::WriteToTunnelV6(packet, addr) => {
+                            if peer.matches_dst(IpAddr::V6(addr)) {
+                                let pkt_len = packet.len() as u64;
+                                let mut engine = state.forwarding_engine.lock().await;
+                                match &mut *engine {
+                                    ForwardingEngine::Tun(writer) => {
+                                        use tokio::io::AsyncWriteExt;
+                                        if let Err(e) = writer.write_all(packet).await {
+                                            warn!("TUN write error for WG peer: {}", e);
+                                        }
+                                    }
+                                    ForwardingEngine::Socket(sender) => {
+                                        let _ = sender.try_send(packet.to_vec());
+                                    }
+                                    ForwardingEngine::Testing => {}
+                                }
+                                peer.stats.bytes_received += pkt_len;
+                                peer.stats.packets_received += 1;
+                            }
+                            peer.endpoint = Some(src_addr);
+                            handled = true;
+                            break;
+                        }
+                        TunnResult::Done => { continue; }
+                        TunnResult::Err(e) => {
+                            debug!("decapsulate error from {}: {:?}", src_addr, e);
+                            continue;
+                        }
+                    }
+                }
+                if !handled {
+                    debug!("No WG peer matched UDP packet from {}", src_addr);
+                }
+            }
+
+            // --- Return packets from tun_routes → encapsulate → UDP ---
+            Some((pubkey, packet)) = wg_return_rx.recv() => {
+                if let Some(peer) = peers.iter_mut().find(|p| p.public_key_b64 == pubkey) {
+                    match peer.tunn.encapsulate(&packet, &mut dst_buf) {
+                        TunnResult::WriteToNetwork(out) => {
+                            if let Some(endpoint) = peer.endpoint {
+                                let pkt_len = packet.len() as u64;
+                                udp_socket.send_to(out, endpoint).await?;
+                                peer.stats.bytes_sent += pkt_len;
+                                peer.stats.packets_sent += 1;
+                            } else {
+                                debug!("No endpoint for WG peer {}, dropping return packet",
+                                    peer.public_key_b64);
+                            }
+                        }
+                        TunnResult::Err(e) => {
+                            debug!("encapsulate error for WG peer {}: {:?}",
+                                peer.public_key_b64, e);
+                        }
+                        _ => {}
+                    }
+                }
+            }
+
+            // --- WireGuard protocol timers (100ms) ---
+            _ = timer.tick() => {
+                for peer in peers.iter_mut() {
+                    match peer.tunn.update_timers(&mut dst_buf) {
+                        TunnResult::WriteToNetwork(packet) => {
+                            if let Some(endpoint) = peer.endpoint {
+                                udp_socket.send_to(packet, endpoint).await?;
+                            }
+                        }
+                        TunnResult::Err(e) => {
+                            debug!("Timer error for WG peer {}: {:?}",
+                                peer.public_key_b64, e);
+                        }
+                        _ => {}
+                    }
+                }
+            }
+
+            // --- Sync stats to ServerState (every 1s) ---
+            _ = stats_timer.tick() => {
+                let mut clients = state.clients.write().await;
+                let mut stats = state.stats.write().await;
+                for peer in peers.iter() {
+                    let client_id = format!("wg-{}", &peer.public_key_b64[..8.min(peer.public_key_b64.len())]);
+                    if let Some(info) = clients.get_mut(&client_id) {
+                        // Update stats delta
+                        let prev_sent = info.bytes_sent;
+                        let prev_recv = info.bytes_received;
+                        info.bytes_sent = peer.stats.bytes_sent;
+                        info.bytes_received = peer.stats.bytes_received;
+                        info.remote_addr = peer.endpoint.map(|e| e.to_string());
+
+                        // Update aggregate stats
+                        stats.bytes_sent += peer.stats.bytes_sent.saturating_sub(prev_sent);
+                        stats.bytes_received += peer.stats.bytes_received.saturating_sub(prev_recv);
+                    }
+                }
+            }
+
+            // --- Dynamic peer commands ---
+            cmd = command_rx.recv() => {
+                match cmd {
+                    Some(WgCommand::AddPeer(peer_config, resp_tx)) => {
+                        let result = add_peer_to_loop(
+                            &mut peers,
+                            &peer_config,
+                            &peer_index,
+                            &rate_limiter,
+                            &config.private_key,
+                        );
+                        if result.is_ok() {
+                            // Register new peer in ServerState
+                            let peer = peers.last().unwrap();
+                            match register_wg_peer(&state, peer, &wg_return_tx).await {
+                                Ok(Some(ip)) => {
+                                    peer_vpn_ips.insert(peer_config.public_key.clone(), ip);
+                                }
+                                Ok(None) => {}
+                                Err(e) => {
+                                    warn!("Failed to register WG peer: {}", e);
+                                }
+                            }
+                        }
+                        let _ = resp_tx.send(result);
+                    }
+                    Some(WgCommand::RemovePeer(pubkey, resp_tx)) => {
+                        let prev_len = peers.len();
+                        peers.retain(|p| p.public_key_b64 != pubkey);
+                        if peers.len() < prev_len {
+                            let vpn_ip = peer_vpn_ips.remove(&pubkey);
+                            unregister_wg_peer(&state, &pubkey, vpn_ip).await;
+                            let _ = resp_tx.send(Ok(()));
+                        } else {
+                            let _ = resp_tx.send(Err(anyhow!("Peer not found: {}", pubkey)));
+                        }
+                    }
+                    None => {
+                        info!("WG command channel closed");
+                        break;
+                    }
+                }
+            }
+
+            // --- Shutdown ---
+            _ = shutdown_rx.recv() => {
+                info!("WireGuard listener shutdown signal received");
+                break;
+            }
+        }
+    }
+
+    // Cleanup: unregister all peers from ServerState
+    for peer in &peers {
+        let vpn_ip = peer_vpn_ips.get(&peer.public_key_b64).copied();
+        unregister_wg_peer(&state, &peer.public_key_b64, vpn_ip).await;
+    }
+
+    info!("WireGuard listener stopped");
+    Ok(())
+}
+
 // ============================================================================
 // WgClient
 // ============================================================================
@@ -1096,6 +998,8 @@ fn chrono_now() -> String {
 #[cfg(test)]
 mod tests {
     use super::*;
+    use crate::tunnel::extract_dst_ip;
+    use std::net::Ipv6Addr;
 
     #[test]
     fn test_generate_wg_keypair() {

test/test.loadtest.node.ts

@@ -211,8 +211,8 @@ tap.test('throttled connection: handshake succeeds through throttle', async () =
 });
 
 tap.test('sustained keepalive under throttle', async () => {
-  // Wait for at least 2 keepalive cycles (3s interval)
-  await delay(8000);
+  // Wait for at least 1 keepalive cycle (3s interval)
+  await delay(4000);
 
   const client = allClients[0];
   const stats = await client.getStatistics();
@@ -262,14 +262,14 @@ tap.test('rate limiting combined with network throttle', async () => {
   await server.removeClientRateLimit(targetId);
 });
 
-tap.test('burst waves: 3 waves of 3 clients', async () => {
+tap.test('burst waves: 2 waves of 2 clients', async () => {
   const initialCount = (await server.listClients()).length;
 
-  for (let wave = 0; wave < 3; wave++) {
+  for (let wave = 0; wave < 2; wave++) {
     const waveClients: VpnClient[] = [];
 
-    // Connect 3 clients
-    for (let i = 0; i < 3; i++) {
+    // Connect 2 clients
+    for (let i = 0; i < 2; i++) {
       const c = await createConnectedClient(proxyPort);
       waveClients.push(c);
     }
@@ -277,7 +277,7 @@ tap.test('burst waves: 3 waves of 3 clients', async () => {
     // Verify all connected
     await waitFor(async () => {
       const all = await server.listClients();
-      return all.length === initialCount + 3;
+      return all.length === initialCount + 2;
     });
 
     // Disconnect all wave clients
@@ -296,7 +296,7 @@ tap.test('burst waves: 3 waves of 3 clients', async () => {
 
   // Verify total connections accumulated
   const stats = await server.getStatistics();
-  expect(stats.totalConnections).toBeGreaterThanOrEqual(9 + initialCount);
+  expect(stats.totalConnections).toBeGreaterThanOrEqual(4 + initialCount);
 
   // Original clients still connected
   const remaining = await server.listClients();
@@ -315,7 +315,7 @@ tap.test('aggressive throttle: 10 KB/s', async () => {
   expect(status.state).toEqual('connected');
 
   // Wait for keepalive exchange (might take longer due to throttle)
-  await delay(10000);
+  await delay(4000);
 
   const stats = await client.getStatistics();
   expect(stats.keepalivesSent).toBeGreaterThanOrEqual(1);
@@ -332,7 +332,7 @@ tap.test('post-load health: direct connection still works', async () => {
   const status = await directClient.getStatus();
   expect(status.state).toEqual('connected');
 
-  await delay(5000);
+  await delay(3500);
 
   const stats = await directClient.getStatistics();
   expect(stats.keepalivesSent).toBeGreaterThanOrEqual(1);

ts/00_commitinfo_data.ts

@@ -3,6 +3,6 @@
  */
 export const commitinfo = {
   name: '@push.rocks/smartvpn',
-  version: '1.8.0',
+  version: '1.11.0',
   description: 'A VPN solution with TypeScript control plane and Rust data plane daemon'
 }

ts/smartvpn.interfaces.ts

@@ -40,6 +40,9 @@ export interface IVpnClientConfig {
   transport?: 'auto' | 'websocket' | 'quic' | 'wireguard';
   /** For QUIC: SHA-256 hash of server certificate (base64) for cert pinning */
   serverCertHash?: string;
+  /** Forwarding mode: 'tun' (TUN device, requires root) or 'testing' (no TUN).
+   *  Default: 'testing'. */
+  forwardingMode?: 'tun' | 'testing';
   /** WireGuard: client private key (base64, X25519) */
   wgPrivateKey?: string;
   /** WireGuard: client TUN address (e.g. 10.8.0.2) */
@@ -86,22 +89,35 @@ export interface IVpnServerConfig {
   keepaliveIntervalSecs?: number;
   /** Enable NAT/masquerade for client traffic */
   enableNat?: boolean;
+  /** Forwarding mode: 'tun' (kernel TUN, requires root), 'socket' (userspace NAT),
+   *  or 'testing' (monitoring only). Default: 'testing'. */
+  forwardingMode?: 'tun' | 'socket' | 'testing';
   /** Default rate limit for new clients (bytes/sec). Omit for unlimited. */
   defaultRateLimitBytesPerSec?: number;
   /** Default burst size for new clients (bytes). Omit for unlimited. */
   defaultBurstBytes?: number;
-  /** Transport mode: 'both' (default, WS+QUIC), 'websocket', 'quic', or 'wireguard' */
-  transportMode?: 'websocket' | 'quic' | 'both' | 'wireguard';
+  /** Transport mode: 'all' (default, WS+QUIC+WG if configured), 'both' (WS+QUIC),
+   *  'websocket', 'quic', or 'wireguard' */
+  transportMode?: 'websocket' | 'quic' | 'both' | 'all' | 'wireguard';
   /** QUIC listen address (host:port). Defaults to listenAddr. */
   quicListenAddr?: string;
   /** QUIC idle timeout in seconds (default: 30) */
   quicIdleTimeoutSecs?: number;
+  /** WireGuard: server X25519 private key (base64). Required when transport includes WG. */
+  wgPrivateKey?: string;
   /** WireGuard: UDP listen port (default: 51820) */
   wgListenPort?: number;
   /** WireGuard: configured peers */
   wgPeers?: IWgPeerConfig[];
   /** Pre-registered clients for Noise IK authentication */
   clients?: IClientEntry[];
+  /** Enable PROXY protocol v2 on incoming WebSocket connections.
+   *  Required when behind a reverse proxy that sends PP v2 headers (HAProxy, SmartProxy).
+   *  SECURITY: Must be false when accepting direct client connections. */
+  proxyProtocol?: boolean;
+  /** Server-level IP block list — applied at TCP accept, before Noise handshake.
+   *  Supports exact IPs, CIDR, wildcards, ranges. */
+  connectionIpBlockList?: string[];
 }
 
 export interface IVpnServerOptions {
@@ -156,6 +172,10 @@ export interface IVpnClientInfo {
   authenticatedKey: string;
   /** Registered client ID from the client registry */
   registeredClientId: string;
+  /** Real client IP:port (from PROXY protocol or direct TCP connection) */
+  remoteAddr?: string;
+  /** Transport used: "websocket", "quic", or "wireguard" */
+  transportType: string;
 }
 
 export interface IVpnServerStatistics extends IVpnStatistics {