mirror of
https://github.com/YGGverse/aquatic.git
synced 2026-03-31 17:55:36 +00:00
254 lines
No EOL
7.8 KiB
Rust
254 lines
No EOL
7.8 KiB
Rust
use std::time::Duration;
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use std::vec::Drain;
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use hashbrown::HashMap;
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use parking_lot::MutexGuard;
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use rand::{Rng, SeedableRng, rngs::SmallRng};
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use aquatic_common::extract_response_peers;
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use crate::common::*;
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use crate::config::Config;
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use crate::protocol::*;
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pub fn run_request_worker(
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config: Config,
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state: State,
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in_message_receiver: InMessageReceiver,
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out_message_sender: OutMessageSender,
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){
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let mut out_messages = Vec::new();
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let mut announce_requests = Vec::new();
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let mut scrape_requests = Vec::new();
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let mut rng = SmallRng::from_entropy();
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let timeout = Duration::from_micros(
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config.handlers.channel_recv_timeout_microseconds
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);
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loop {
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let mut opt_torrent_map_guard: Option<MutexGuard<TorrentMaps>> = None;
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for i in 0..config.handlers.max_requests_per_iter {
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let opt_in_message = if i == 0 {
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in_message_receiver.recv().ok()
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} else {
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in_message_receiver.recv_timeout(timeout).ok()
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};
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match opt_in_message {
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Some((meta, InMessage::AnnounceRequest(r))) => {
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announce_requests.push((meta, r));
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},
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Some((meta, InMessage::ScrapeRequest(r))) => {
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scrape_requests.push((meta, r));
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},
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None => {
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if let Some(torrent_guard) = state.torrent_maps.try_lock(){
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opt_torrent_map_guard = Some(torrent_guard);
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break
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}
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}
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}
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}
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let mut torrent_map_guard = opt_torrent_map_guard
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.unwrap_or_else(|| state.torrent_maps.lock());
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handle_announce_requests(
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&config,
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&mut rng,
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&mut torrent_map_guard,
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&mut out_messages,
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announce_requests.drain(..)
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);
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handle_scrape_requests(
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&config,
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&mut torrent_map_guard,
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&mut out_messages,
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scrape_requests.drain(..)
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);
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::std::mem::drop(torrent_map_guard);
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for (meta, out_message) in out_messages.drain(..){
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out_message_sender.send(meta, out_message);
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}
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}
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}
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pub fn handle_announce_requests(
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config: &Config,
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rng: &mut impl Rng,
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torrent_maps: &mut TorrentMaps,
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messages_out: &mut Vec<(ConnectionMeta, OutMessage)>,
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requests: Drain<(ConnectionMeta, AnnounceRequest)>,
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){
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let valid_until = ValidUntil::new(config.cleaning.max_peer_age);
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for (sender_meta, request) in requests {
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let info_hash = request.info_hash;
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let peer_id = request.peer_id;
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let torrent_data: &mut TorrentData = if sender_meta.peer_addr.is_ipv4(){
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torrent_maps.ipv4.entry(info_hash).or_default()
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} else {
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torrent_maps.ipv6.entry(info_hash).or_default()
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};
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// If there is already a peer with this peer_id, check that socket
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// addr is same as that of request sender. Otherwise, ignore request.
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// Since peers have access to each others peer_id's, they could send
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// requests using them, causing all sorts of issues.
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if let Some(previous_peer) = torrent_data.peers.get(&peer_id){
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if sender_meta.peer_addr != previous_peer.connection_meta.peer_addr {
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continue;
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}
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}
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let peer_status = PeerStatus::from_event_and_bytes_left(
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request.event,
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request.bytes_left
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);
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let peer = Peer {
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connection_meta: sender_meta,
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status: peer_status,
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valid_until,
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};
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let opt_removed_peer = match peer_status {
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PeerStatus::Leeching => {
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torrent_data.num_leechers += 1;
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torrent_data.peers.insert(peer_id, peer)
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},
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PeerStatus::Seeding => {
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torrent_data.num_seeders += 1;
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torrent_data.peers.insert(peer_id, peer)
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},
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PeerStatus::Stopped => {
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torrent_data.peers.remove(&peer_id)
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}
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};
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match opt_removed_peer.map(|peer| peer.status){
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Some(PeerStatus::Leeching) => {
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torrent_data.num_leechers -= 1;
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},
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Some(PeerStatus::Seeding) => {
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torrent_data.num_seeders -= 1;
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},
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_ => {}
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}
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// If peer sent offers, send them on to random peers
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if let Some(offers) = request.offers {
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// FIXME: config: also maybe check this when parsing request
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let max_num_peers_to_take = offers.len()
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.min(config.protocol.max_offers);
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#[inline]
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fn f(peer: &Peer) -> Peer {
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*peer
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}
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let peers = extract_response_peers(
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rng,
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&torrent_data.peers,
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max_num_peers_to_take,
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f
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);
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for (offer, peer) in offers.into_iter().zip(peers){
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let middleman_offer = MiddlemanOfferToPeer {
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info_hash,
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peer_id,
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offer: offer.offer,
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offer_id: offer.offer_id,
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};
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messages_out.push((
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peer.connection_meta,
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OutMessage::Offer(middleman_offer)
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));
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}
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}
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// If peer sent answer, send it on to relevant peer
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match (request.answer, request.to_peer_id, request.offer_id){
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(Some(answer), Some(to_peer_id), Some(offer_id)) => {
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if let Some(to_peer) = torrent_data.peers.get(&to_peer_id){
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let middleman_answer = MiddlemanAnswerToPeer {
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peer_id,
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info_hash,
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answer,
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offer_id,
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};
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messages_out.push((
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to_peer.connection_meta,
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OutMessage::Answer(middleman_answer)
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));
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}
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},
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_ => (),
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}
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let response = OutMessage::AnnounceResponse(AnnounceResponse {
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info_hash,
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complete: torrent_data.num_seeders,
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incomplete: torrent_data.num_leechers,
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announce_interval: config.protocol.peer_announce_interval,
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});
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messages_out.push((sender_meta, response));
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}
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}
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pub fn handle_scrape_requests(
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config: &Config,
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torrent_maps: &mut TorrentMaps,
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messages_out: &mut Vec<(ConnectionMeta, OutMessage)>,
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requests: Drain<(ConnectionMeta, ScrapeRequest)>,
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){
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messages_out.extend(requests.map(|(meta, request)| {
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let num_to_take = request.info_hashes.len().min(
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config.protocol.max_scrape_torrents
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);
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let mut response = ScrapeResponse {
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files: HashMap::with_capacity(num_to_take),
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};
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let torrent_map: &mut TorrentMap = if meta.peer_addr.is_ipv4(){
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&mut torrent_maps.ipv4
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} else {
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&mut torrent_maps.ipv6
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};
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// If request.info_hashes is empty, don't return scrape for all
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// torrents, even though reference server does it. It is too expensive.
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for info_hash in request.info_hashes.into_iter().take(num_to_take){
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if let Some(torrent_data) = torrent_map.get(&info_hash){
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let stats = ScrapeStatistics {
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complete: torrent_data.num_seeders,
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downloaded: 0, // No implementation planned
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incomplete: torrent_data.num_leechers,
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};
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response.files.insert(info_hash, stats);
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}
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}
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(meta, OutMessage::ScrapeResponse(response))
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}));
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} |