truffle_core/file_transfer/
mod.rs1pub mod receiver;
37pub mod sender;
38pub mod types;
39
40pub use types::*;
41
42use std::sync::atomic::{AtomicU64, Ordering};
43use std::sync::Arc;
44
45use tokio::sync::{broadcast, mpsc, Mutex};
46use tokio::task::JoinHandle;
47use tracing::info;
48
49use crate::network::NetworkProvider;
50use crate::node::Node;
51
52const DEFAULT_MAX_TRANSFER_SIZE: u64 = 1_073_741_824;
54
55pub(crate) struct FileTransferState {
62 pub(crate) event_tx: broadcast::Sender<FileTransferEvent>,
64 pub(crate) offer_tx: Mutex<Option<mpsc::UnboundedSender<(FileOffer, OfferResponder)>>>,
66 pub(crate) max_transfer_size: AtomicU64,
68 pub(crate) receiver_handle: Mutex<Option<JoinHandle<()>>>,
70}
71
72impl FileTransferState {
73 pub(crate) fn new() -> Self {
75 let (event_tx, _) = broadcast::channel(256);
76 Self {
77 event_tx,
78 offer_tx: Mutex::new(None),
79 max_transfer_size: AtomicU64::new(DEFAULT_MAX_TRANSFER_SIZE),
80 receiver_handle: Mutex::new(None),
81 }
82 }
83}
84
85pub struct FileTransfer<'a, N: NetworkProvider + 'static> {
92 node: &'a Node<N>,
94}
95
96impl<'a, N: NetworkProvider + 'static> FileTransfer<'a, N> {
97 pub(crate) fn new(node: &'a Node<N>) -> Self {
99 Self { node }
100 }
101
102 fn state(&self) -> &FileTransferState {
104 &self.node.file_transfer_state
105 }
106
107 pub fn subscribe(&self) -> broadcast::Receiver<FileTransferEvent> {
112 self.state().event_tx.subscribe()
113 }
114
115 pub fn set_max_transfer_size(&self, bytes: u64) {
119 self.state()
120 .max_transfer_size
121 .store(bytes, Ordering::Relaxed);
122 }
123
124 pub fn max_transfer_size(&self) -> u64 {
126 self.state().max_transfer_size.load(Ordering::Relaxed)
127 }
128
129 pub async fn offer_channel(
142 &self,
143 node: Arc<Node<N>>,
144 ) -> mpsc::UnboundedReceiver<(FileOffer, OfferResponder)> {
145 let (tx, rx) = mpsc::unbounded_channel();
146 {
147 let mut offer_tx = self.state().offer_tx.lock().await;
148 *offer_tx = Some(tx.clone());
149 }
150 self.ensure_receiver_started(node, tx).await;
151 rx
152 }
153
154 pub async fn auto_accept(&self, node: Arc<Node<N>>, output_dir: &str) {
161 let mut rx = self.offer_channel(node).await;
162 let output_dir = output_dir.to_string();
163
164 tokio::spawn(async move {
165 while let Some((offer, responder)) = rx.recv().await {
166 let dest = if offer.suggested_path.is_empty() || offer.suggested_path == "." {
167 format!("{}/{}", output_dir, offer.file_name)
168 } else {
169 offer.suggested_path.clone()
170 };
171 info!(
172 file = offer.file_name.as_str(),
173 dest = dest.as_str(),
174 "Auto-accepting file offer"
175 );
176 responder.accept(&dest);
177 }
178 });
179 }
180
181 pub async fn auto_reject(&self, node: Arc<Node<N>>) {
186 let mut rx = self.offer_channel(node).await;
187
188 tokio::spawn(async move {
189 while let Some((_offer, responder)) = rx.recv().await {
190 responder.reject("auto-rejected");
191 }
192 });
193 }
194
195 pub async fn send_file(
205 &self,
206 peer_id: &str,
207 local_path: &str,
208 remote_path: &str,
209 ) -> Result<TransferResult, TransferError> {
210 let max_size = self.state().max_transfer_size.load(Ordering::Relaxed);
211 sender::send_file(
212 self.node,
213 peer_id,
214 local_path,
215 remote_path,
216 max_size,
217 &self.state().event_tx,
218 )
219 .await
220 }
221
222 pub async fn pull_file(
232 &self,
233 peer_id: &str,
234 remote_path: &str,
235 local_path: &str,
236 ) -> Result<TransferResult, TransferError> {
237 pull_file(
238 self.node,
239 peer_id,
240 remote_path,
241 local_path,
242 &self.state().event_tx,
243 )
244 .await
245 }
246
247 async fn ensure_receiver_started(
252 &self,
253 node: Arc<Node<N>>,
254 offer_tx: mpsc::UnboundedSender<(FileOffer, OfferResponder)>,
255 ) {
256 let mut handle = self.state().receiver_handle.lock().await;
257 if let Some(h) = handle.take() {
259 h.abort();
260 }
261 let h = receiver::spawn_receive_handler(node, offer_tx, self.state().event_tx.clone());
262 *handle = Some(h);
263 }
264}
265
266async fn pull_file<N: NetworkProvider + 'static>(
280 node: &Node<N>,
281 peer_id: &str,
282 remote_path: &str,
283 local_path: &str,
284 event_tx: &broadcast::Sender<FileTransferEvent>,
285) -> Result<TransferResult, TransferError> {
286 use sha2::{Digest, Sha256};
287 use std::time::Instant;
288 use tokio::io::{AsyncReadExt, AsyncWriteExt};
289
290 let start = Instant::now();
291 let token = uuid::Uuid::new_v4().to_string();
292 let requester_id = node.local_info().device_id;
296
297 let peer_id = node
299 .resolve_peer_id(peer_id)
300 .await
301 .map_err(|e| TransferError::Node(e.to_string()))?;
302 let peer_id = peer_id.as_str();
303
304 let pull_req = FtMessage::PullRequest {
306 path: remote_path.to_string(),
307 requester_id,
308 token: token.clone(),
309 };
310
311 let pull_payload = serde_json::to_value(&pull_req)
312 .map_err(|e| TransferError::Protocol(format!("Failed to serialize pull request: {e}")))?;
313
314 tracing::info!(peer = peer_id, path = remote_path, "Sending PULL_REQUEST");
315
316 let (offer_sha256, offer_size, offer_token, file_name) = crate::request_reply::send_and_wait(
317 node,
318 peer_id,
319 "ft",
320 "pull_request",
321 &pull_payload,
322 std::time::Duration::from_secs(30),
323 |msg| {
324 if msg.from != peer_id {
325 return None;
326 }
327 let ft_msg: FtMessage = serde_json::from_value(msg.payload.clone()).ok()?;
328 match ft_msg {
329 FtMessage::Offer {
330 file_name,
331 sha256,
332 size,
333 token: offer_token,
334 ..
335 } => {
336 tracing::info!(size = size, "Received OFFER from peer");
337 Some(Ok((sha256, size, offer_token, file_name)))
338 }
339 FtMessage::Reject { reason, .. } => Some(Err(TransferError::Rejected(reason))),
340 _ => None,
341 }
342 },
343 )
344 .await
345 .map_err(|e| match e {
346 crate::request_reply::RequestError::Timeout => TransferError::Timeout,
347 crate::request_reply::RequestError::Send(e) => TransferError::Node(e.to_string()),
348 crate::request_reply::RequestError::ChannelClosed => {
349 TransferError::Protocol("Channel closed".into())
350 }
351 })?
352 .map_err(|e| e)?;
353
354 let mut listener = node
356 .listen_tcp(0)
357 .await
358 .map_err(|e| TransferError::Node(format!("Failed to listen TCP: {e}")))?;
359
360 let accept = FtMessage::Accept {
361 token: offer_token,
362 tcp_port: listener.port,
363 };
364
365 let accept_payload = serde_json::to_value(&accept)
366 .map_err(|e| TransferError::Protocol(format!("Failed to serialize accept: {e}")))?;
367
368 node.send_typed(peer_id, "ft", "accept", &accept_payload)
369 .await
370 .map_err(|e| TransferError::Node(e.to_string()))?;
371
372 tracing::info!(
373 port = listener.port,
374 "Sent ACCEPT, listening for TCP connection"
375 );
376
377 let incoming = tokio::time::timeout(tokio::time::Duration::from_secs(30), listener.accept())
379 .await
380 .map_err(|_| TransferError::Timeout)?
381 .ok_or_else(|| TransferError::Protocol("Listener closed before accepting".to_string()))?;
382
383 let mut stream = incoming.stream;
384 tracing::info!("TCP connection accepted from peer");
385
386 let mut size_buf = [0u8; 8];
388 stream.read_exact(&mut size_buf).await?;
389 let file_size = u64::from_be_bytes(size_buf);
390
391 let mut sha_buf = [0u8; 64]; stream.read_exact(&mut sha_buf).await?;
393 let received_sha = String::from_utf8_lossy(&sha_buf).to_string();
394
395 if received_sha != offer_sha256 {
397 return Err(TransferError::IntegrityError {
398 expected: offer_sha256,
399 actual: received_sha,
400 });
401 }
402
403 if file_size != offer_size {
404 return Err(TransferError::Protocol(format!(
405 "Size mismatch: offer said {offer_size}, stream header says {file_size}"
406 )));
407 }
408
409 if let Some(parent) = std::path::Path::new(local_path).parent() {
412 tokio::fs::create_dir_all(parent).await?;
413 }
414
415 let temp_path = format!("{local_path}.truffle-tmp");
416 let mut temp_file = tokio::fs::File::create(&temp_path).await?;
417 let mut hasher = Sha256::new();
418 let mut bytes_received: u64 = 0;
419 let progress_start = Instant::now();
420 let mut buf = vec![0u8; 64 * 1024];
421
422 while bytes_received < file_size {
423 let to_read = ((file_size - bytes_received) as usize).min(buf.len());
424 let n = stream.read(&mut buf[..to_read]).await?;
425 if n == 0 {
426 tokio::fs::remove_file(&temp_path).await.ok();
427 return Err(TransferError::Io(std::io::Error::new(
428 std::io::ErrorKind::UnexpectedEof,
429 format!("Connection closed after {bytes_received}/{file_size} bytes"),
430 )));
431 }
432 hasher.update(&buf[..n]);
433 AsyncWriteExt::write_all(&mut temp_file, &buf[..n]).await?;
434 bytes_received += n as u64;
435
436 let elapsed = progress_start.elapsed().as_secs_f64();
437 let speed = if elapsed > 0.0 {
438 bytes_received as f64 / elapsed
439 } else {
440 0.0
441 };
442
443 let _ = event_tx.send(FileTransferEvent::Progress(TransferProgress {
445 token: token.clone(),
446 direction: TransferDirection::Receive,
447 file_name: file_name.clone(),
448 bytes_transferred: bytes_received,
449 total_bytes: file_size,
450 speed_bps: speed,
451 }));
452 }
453
454 AsyncWriteExt::flush(&mut temp_file).await?;
456
457 let actual_sha = hex::encode(hasher.finalize());
459
460 if actual_sha != offer_sha256 {
461 stream.write_all(&[0x00]).await?;
463 tokio::fs::remove_file(&temp_path).await.ok();
464 return Err(TransferError::IntegrityError {
465 expected: offer_sha256,
466 actual: actual_sha,
467 });
468 }
469
470 tokio::fs::rename(&temp_path, local_path).await?;
472
473 stream.write_all(&[0x01]).await?;
475
476 let elapsed = start.elapsed().as_secs_f64();
477 tracing::info!(
478 bytes = file_size,
479 elapsed_ms = (elapsed * 1000.0) as u64,
480 path = local_path,
481 "Download complete"
482 );
483
484 let _ = event_tx.send(FileTransferEvent::Completed {
486 token,
487 direction: TransferDirection::Receive,
488 file_name,
489 bytes_transferred: file_size,
490 sha256: actual_sha.clone(),
491 elapsed_secs: elapsed,
492 });
493
494 Ok(TransferResult {
495 bytes_transferred: file_size,
496 sha256: actual_sha,
497 elapsed_secs: elapsed,
498 })
499}