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truffle_core/network/
mod.rs

1//! Layer 3: Network — Peer discovery, addressing, encrypted tunnels.
2//!
3//! This module defines the [`NetworkProvider`] trait, the public API for Layer 3.
4//! The trait is generic — no Tailscale-specific types leak through.
5//!
6//! The [`tailscale`] submodule contains the [`TailscaleProvider`] implementation
7//! that wraps the Go sidecar (tsnet) and bridge.
8
9pub mod tailscale;
10
11use std::net::{IpAddr, Ipv4Addr, SocketAddr};
12use std::time::Duration;
13
14use tokio::net::TcpStream;
15use tokio::sync::broadcast;
16
17// ---------------------------------------------------------------------------
18// NetworkProvider trait — the public API of Layer 3
19// ---------------------------------------------------------------------------
20
21/// Provides network-level peer discovery and raw connectivity.
22///
23/// The primary implementation is [`TailscaleProvider`](tailscale::TailscaleProvider)
24/// which uses tsnet via a Go sidecar. The trait is designed to be swappable —
25/// future providers could use mDNS (LAN), STUN/TURN (internet), or Bluetooth.
26///
27/// # Layer rules
28///
29/// - Layer 3 does NOT know about WebSocket, QUIC, or any Layer 4 protocol
30/// - Layer 3 does NOT know about envelopes, namespaces, or messages
31/// - Layer 3 provides raw `TcpStream` — not framed connections
32/// - `peer_events()` is the ONLY source of peer events — no polling, no announce
33///
34/// All async methods return `Send` futures so that `Node<N>` can be used
35/// inside `tokio::spawn` tasks (required by the file transfer subsystem
36/// and any other code that needs to spawn tasks with node access).
37pub trait NetworkProvider: Send + Sync {
38    /// Start the network provider.
39    ///
40    /// This spawns child processes, binds ports, and performs authentication.
41    /// If authentication is required (e.g., Tailscale browser auth), the provider
42    /// emits `NetworkPeerEvent::AuthRequired { url }` via `peer_events()` and
43    /// **keeps waiting** until auth completes or the timeout is reached.
44    ///
45    /// Callers should subscribe to `peer_events()` BEFORE calling `start()` to
46    /// receive auth URLs and display them to the user.
47    ///
48    /// Returns `Ok(())` when the provider is fully online, or `Err` if auth
49    /// times out or a fatal error occurs.
50    fn start(&mut self) -> impl std::future::Future<Output = Result<(), NetworkError>> + Send;
51
52    /// Stop the network provider and clean up all resources.
53    fn stop(&mut self) -> impl std::future::Future<Output = Result<(), NetworkError>> + Send;
54
55    /// Local node's identity (stable ID, hostname, display name).
56    ///
57    /// Returns a clone of the current cached identity. The identity is
58    /// populated after [`start()`](Self::start) completes and may be
59    /// updated when the sidecar reports `tsnet:status`.
60    fn local_identity(&self) -> NodeIdentity;
61
62    /// Local node's network address.
63    ///
64    /// Returns a clone of the current cached address. The address is
65    /// populated after [`start()`](Self::start) completes and may be
66    /// updated when the sidecar reports `tsnet:status`.
67    fn local_addr(&self) -> PeerAddr;
68
69    // ── Discovery (event-driven, NOT polling) ──
70
71    /// Subscribe to peer events. Fires immediately when peers join/leave/update.
72    ///
73    /// Uses `WatchIPNBus` for real-time notifications instead of polling.
74    fn peer_events(&self) -> broadcast::Receiver<NetworkPeerEvent>;
75
76    /// Snapshot of all currently known peers.
77    fn peers(&self) -> impl std::future::Future<Output = Vec<NetworkPeer>> + Send;
78
79    // ── Connectivity primitives for Layer 4 ──
80
81    /// Dial a TCP connection to a peer via the encrypted Tailscale tunnel.
82    ///
83    /// Returns a plain `TcpStream` — all bridge internals (pending_dials,
84    /// session token, binary headers) are hidden inside the provider.
85    fn dial_tcp(&self, addr: &str, port: u16) -> impl std::future::Future<Output = Result<TcpStream, NetworkError>> + Send;
86
87    /// Listen for incoming TCP connections on a port via the Tailscale tunnel.
88    ///
89    /// The returned receiver yields `TcpStream`s for each accepted connection.
90    fn listen_tcp(
91        &self,
92        port: u16,
93    ) -> impl std::future::Future<Output = Result<NetworkTcpListener, NetworkError>> + Send;
94
95    /// Stop listening on a previously opened port.
96    fn unlisten_tcp(&self, port: u16) -> impl std::future::Future<Output = Result<(), NetworkError>> + Send;
97
98    /// Bind a UDP socket on a port via the network tunnel.
99    ///
100    /// Returns a [`NetworkUdpSocket`] that transparently relays datagrams
101    /// through the network provider. The socket supports `send_to` / `recv_from`
102    /// with full remote address information.
103    ///
104    /// Not all providers support UDP. Returns [`NetworkError::Internal`] if
105    /// the provider has not implemented UDP transport yet.
106    fn bind_udp(&self, port: u16) -> impl std::future::Future<Output = Result<NetworkUdpSocket, NetworkError>> + Send;
107
108    // ── Diagnostics ──
109
110    /// Ping a peer via the network layer (Tailscale TSMP).
111    fn ping(&self, addr: &str) -> impl std::future::Future<Output = Result<PingResult, NetworkError>> + Send;
112
113    /// Node health info (key expiry, connection quality, warnings).
114    fn health(&self) -> impl std::future::Future<Output = HealthInfo> + Send;
115}
116
117// ---------------------------------------------------------------------------
118// Public types
119// ---------------------------------------------------------------------------
120
121/// A peer as seen by the network layer (Layer 3).
122///
123/// Contains only information available from the network provider itself
124/// (e.g., Tailscale status). No transport or session state.
125#[derive(Debug, Clone)]
126pub struct NetworkPeer {
127    /// Stable node ID from the network provider.
128    pub id: String,
129    /// Hostname on the network (e.g., "truffle-cli-abc123").
130    pub hostname: String,
131    /// Network IP address (e.g., 100.x.x.x for Tailscale).
132    pub ip: IpAddr,
133    /// Whether the peer is currently online.
134    pub online: bool,
135    /// Direct endpoint address, if connected directly.
136    pub cur_addr: Option<String>,
137    /// DERP relay name if connection is relayed.
138    pub relay: Option<String>,
139    /// Operating system of the peer.
140    pub os: Option<String>,
141    /// Last time the peer was seen online (RFC 3339 string).
142    pub last_seen: Option<String>,
143    /// Key expiry timestamp (RFC 3339 string).
144    pub key_expiry: Option<String>,
145    /// DNS name on the tailnet (e.g., "truffle-cli-abc123.tailnet.ts.net").
146    pub dns_name: Option<String>,
147}
148
149/// Events emitted when network peers change state.
150#[derive(Debug, Clone)]
151pub enum NetworkPeerEvent {
152    /// A new peer appeared on the network.
153    Joined(NetworkPeer),
154    /// A peer left the network (by stable node ID).
155    Left(String),
156    /// A peer's metadata changed (IP, relay, online status, etc.).
157    Updated(NetworkPeer),
158    /// Authentication is required. The URL should be shown to the user.
159    /// Emitted during `start()` — the provider keeps waiting for auth to complete.
160    /// May be emitted multiple times if the URL expires and is refreshed.
161    AuthRequired {
162        /// URL the user should open in a browser.
163        url: String,
164    },
165}
166
167/// Network address of a peer.
168#[derive(Debug, Clone, Default)]
169pub struct PeerAddr {
170    /// IP address (100.x.x.x for Tailscale).
171    pub ip: Option<IpAddr>,
172    /// Hostname on the network.
173    pub hostname: String,
174    /// DNS name on the tailnet.
175    pub dns_name: Option<String>,
176}
177
178/// Identity of the local node on the network.
179#[derive(Debug, Clone, Default)]
180pub struct NodeIdentity {
181    /// Stable node ID from the network provider.
182    pub id: String,
183    /// Hostname on the network.
184    pub hostname: String,
185    /// Human-readable display name.
186    pub name: String,
187    /// DNS name on the tailnet.
188    pub dns_name: Option<String>,
189    /// Tailscale IP address.
190    pub ip: Option<IpAddr>,
191}
192
193/// Result of a network-level ping.
194#[derive(Debug, Clone)]
195pub struct PingResult {
196    /// Round-trip latency.
197    pub latency: Duration,
198    /// Connection type description (e.g., "direct" or "relay:sfo").
199    pub connection: String,
200    /// Direct peer endpoint address, if available.
201    pub peer_addr: Option<String>,
202}
203
204/// Health information from the network provider.
205#[derive(Debug, Clone, Default)]
206pub struct HealthInfo {
207    /// Current backend state (e.g., "Running", "NeedsLogin").
208    pub state: String,
209    /// Key expiry timestamp (RFC 3339), if applicable.
210    pub key_expiry: Option<String>,
211    /// Active health warnings.
212    pub warnings: Vec<String>,
213    /// Whether the network is fully operational.
214    pub healthy: bool,
215}
216
217/// A listener for incoming TCP connections via the network provider.
218///
219/// Wraps a channel that receives `TcpStream`s from the bridge. The bridge
220/// internals (binary headers, session tokens) are completely hidden.
221pub struct NetworkTcpListener {
222    /// Port this listener is bound to.
223    pub port: u16,
224    /// Receiver for incoming connections.
225    pub incoming: tokio::sync::mpsc::Receiver<IncomingConnection>,
226}
227
228/// An incoming TCP connection with metadata.
229#[derive(Debug)]
230pub struct IncomingConnection {
231    /// The raw TCP stream (bridge headers already consumed).
232    pub stream: TcpStream,
233    /// Remote address of the connecting peer.
234    pub remote_addr: String,
235    /// Remote DNS name or peer identity JSON.
236    pub remote_identity: String,
237    /// Port the connection arrived on.
238    pub port: u16,
239}
240
241// ---------------------------------------------------------------------------
242// NetworkUdpSocket — address-framed UDP relay wrapper
243// ---------------------------------------------------------------------------
244
245/// A UDP socket that relays datagrams through the network provider.
246///
247/// Under the hood, the Rust side talks to a local relay socket. Each outbound
248/// datagram is prefixed with a 6-byte address header (`[4-byte IPv4][2-byte port BE]`)
249/// so the relay (Go sidecar) knows where to forward the packet on the tsnet
250/// network. Inbound datagrams arrive with the same header prepended by the relay.
251///
252/// This struct hides the framing — callers use `send_to` / `recv_from` with
253/// normal `SocketAddr` values.
254pub struct NetworkUdpSocket {
255    /// The underlying tokio UDP socket connected to the local relay.
256    inner: tokio::net::UdpSocket,
257    /// The tsnet-bound port (the logical port on the Tailscale network).
258    tsnet_port: u16,
259}
260
261/// Address header size: 4 bytes IPv4 + 2 bytes port (big-endian).
262const UDP_ADDR_HEADER_SIZE: usize = 6;
263
264impl NetworkUdpSocket {
265    /// Create a new `NetworkUdpSocket` from a tokio UdpSocket and the tsnet port.
266    pub(crate) fn new(inner: tokio::net::UdpSocket, tsnet_port: u16) -> Self {
267        Self { inner, tsnet_port }
268    }
269
270    /// Send a datagram to the specified address via the relay.
271    ///
272    /// The relay will forward the datagram to the target on the tsnet network.
273    pub async fn send_to(&self, data: &[u8], addr: SocketAddr) -> Result<usize, NetworkError> {
274        let ip = match addr.ip() {
275            IpAddr::V4(v4) => v4,
276            IpAddr::V6(_) => {
277                return Err(NetworkError::Internal(
278                    "NetworkUdpSocket: IPv6 not supported in relay framing".into(),
279                ));
280            }
281        };
282        let port = addr.port();
283
284        // Build framed packet: [4-byte IPv4][2-byte port BE][payload]
285        let mut framed = Vec::with_capacity(UDP_ADDR_HEADER_SIZE + data.len());
286        framed.extend_from_slice(&ip.octets());
287        framed.extend_from_slice(&port.to_be_bytes());
288        framed.extend_from_slice(data);
289
290        tracing::debug!(
291            target_addr = %addr,
292            payload_len = data.len(),
293            framed_len = framed.len(),
294            relay_addr = ?self.inner.peer_addr().ok(),
295            "NetworkUdpSocket: sending framed datagram to relay"
296        );
297
298        let n = self
299            .inner
300            .send(&framed)
301            .await
302            .map_err(NetworkError::Io)?;
303
304        tracing::debug!(
305            bytes_sent = n,
306            "NetworkUdpSocket: framed datagram sent to relay"
307        );
308
309        // Return the number of payload bytes sent (subtract header)
310        Ok(n.saturating_sub(UDP_ADDR_HEADER_SIZE))
311    }
312
313    /// Receive a datagram from the relay, returning the payload and sender address.
314    ///
315    /// The relay prepends a 6-byte address header to each inbound datagram.
316    pub async fn recv_from(&self, buf: &mut [u8]) -> Result<(usize, SocketAddr), NetworkError> {
317        tracing::debug!("NetworkUdpSocket: waiting for inbound datagram from relay...");
318
319        // Read into a temporary buffer that includes space for the header
320        let mut tmp = vec![0u8; UDP_ADDR_HEADER_SIZE + buf.len()];
321        let n = self
322            .inner
323            .recv(&mut tmp)
324            .await
325            .map_err(NetworkError::Io)?;
326
327        if n < UDP_ADDR_HEADER_SIZE {
328            return Err(NetworkError::Internal(
329                "NetworkUdpSocket: received packet too short for address header".into(),
330            ));
331        }
332
333        // Parse address header
334        let ip = Ipv4Addr::new(tmp[0], tmp[1], tmp[2], tmp[3]);
335        let port = u16::from_be_bytes([tmp[4], tmp[5]]);
336        let addr = SocketAddr::new(IpAddr::V4(ip), port);
337
338        // Copy payload to caller's buffer
339        let payload_len = n - UDP_ADDR_HEADER_SIZE;
340        buf[..payload_len].copy_from_slice(&tmp[UDP_ADDR_HEADER_SIZE..n]);
341
342        tracing::debug!(
343            raw_bytes = n,
344            payload_len = payload_len,
345            sender_addr = %addr,
346            "NetworkUdpSocket: received inbound datagram from relay"
347        );
348
349        Ok((payload_len, addr))
350    }
351
352    /// Return the local address of the underlying relay socket.
353    pub fn local_addr(&self) -> Result<SocketAddr, NetworkError> {
354        self.inner.local_addr().map_err(NetworkError::Io)
355    }
356
357    /// Return the tsnet-bound port (the logical port on the Tailscale network).
358    pub fn tsnet_port(&self) -> u16 {
359        self.tsnet_port
360    }
361
362    /// Get a reference to the inner tokio UdpSocket.
363    ///
364    /// This is the socket connected to the local relay. Direct reads/writes
365    /// bypass the address framing — prefer `send_to` / `recv_from` instead.
366    pub fn inner(&self) -> &tokio::net::UdpSocket {
367        &self.inner
368    }
369}
370
371impl std::fmt::Debug for NetworkUdpSocket {
372    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
373        f.debug_struct("NetworkUdpSocket")
374            .field("tsnet_port", &self.tsnet_port)
375            .field("local_addr", &self.inner.local_addr().ok())
376            .finish()
377    }
378}
379
380// ---------------------------------------------------------------------------
381// Errors
382// ---------------------------------------------------------------------------
383
384/// Errors from Layer 3 network operations.
385#[derive(Debug, thiserror::Error)]
386pub enum NetworkError {
387    /// The network provider is not running.
388    #[error("network provider not running")]
389    NotRunning,
390
391    /// The network provider is already running.
392    #[error("network provider already running")]
393    AlreadyRunning,
394
395    /// Failed to start the network provider.
396    #[error("start failed: {0}")]
397    StartFailed(String),
398
399    /// Failed to stop the network provider.
400    #[error("stop failed: {0}")]
401    StopFailed(String),
402
403    /// Authentication is required.
404    #[error("authentication required: {url}")]
405    AuthRequired { url: String },
406
407    /// A dial operation failed.
408    #[error("dial failed: {0}")]
409    DialFailed(String),
410
411    /// A dial operation timed out.
412    #[error("dial timed out after {0:?}")]
413    DialTimeout(Duration),
414
415    /// A listen operation failed.
416    #[error("listen failed: {0}")]
417    ListenFailed(String),
418
419    /// A ping operation failed.
420    #[error("ping failed: {0}")]
421    PingFailed(String),
422
423    /// The sidecar process crashed or is unavailable.
424    #[error("sidecar error: {0}")]
425    SidecarError(String),
426
427    /// Bridge communication error.
428    #[error("bridge error: {0}")]
429    BridgeError(String),
430
431    /// I/O error.
432    #[error("io error: {0}")]
433    Io(#[from] std::io::Error),
434
435    /// Serialization error.
436    #[error("serialization error: {0}")]
437    Serialize(#[from] serde_json::Error),
438
439    /// Generic internal error.
440    #[error("internal error: {0}")]
441    Internal(String),
442}