udp: request workers: handle TorrentData updates in methods

aquatic_udp/src/workers/request/mod.rs

@@ -8,7 +8,7 @@ use std::time::Instant;
 use crossbeam_channel::Receiver;
 use rand::{rngs::SmallRng, SeedableRng};
 
-use aquatic_common::{extract_response_peers, CanonicalSocketAddr, PanicSentinel, ValidUntil};
+use aquatic_common::{CanonicalSocketAddr, PanicSentinel, ValidUntil};
 
 use aquatic_udp_protocol::*;
 
@@ -117,72 +117,38 @@ fn handle_announce_request<I: Ip>(
     peer_ip: I,
     peer_valid_until: ValidUntil,
 ) -> AnnounceResponse<I> {
-    let peer_status = PeerStatus::from_event_and_bytes_left(request.event, request.bytes_left);
+    let max_num_peers_to_take = if request.peers_wanted.0 <= 0 {
+        config.protocol.max_response_peers as usize
+    } else {
+        ::std::cmp::min(
+            config.protocol.max_response_peers as usize,
+            request.peers_wanted.0.try_into().unwrap(),
+        )
+    };
 
     let peer = Peer {
         ip_address: peer_ip,
         port: request.port,
-        status: peer_status,
+        status: PeerStatus::from_event_and_bytes_left(request.event, request.bytes_left),
         valid_until: peer_valid_until,
     };
 
     let torrent_data = torrents.0.entry(request.info_hash).or_default();
 
-    let opt_removed_peer = match peer_status {
-        PeerStatus::Leeching => {
-            torrent_data.num_leechers += 1;
+    torrent_data.update_peer(request.peer_id, peer);
 
-            torrent_data.peers.insert(request.peer_id, peer)
-        }
-        PeerStatus::Seeding => {
-            torrent_data.num_seeders += 1;
-
-            torrent_data.peers.insert(request.peer_id, peer)
-        }
-        PeerStatus::Stopped => torrent_data.peers.remove(&request.peer_id),
-    };
-
-    match opt_removed_peer.map(|peer| peer.status) {
-        Some(PeerStatus::Leeching) => {
-            torrent_data.num_leechers -= 1;
-        }
-        Some(PeerStatus::Seeding) => {
-            torrent_data.num_seeders -= 1;
-        }
-        _ => {}
-    }
-
-    let max_num_peers_to_take = calc_max_num_peers_to_take(config, request.peers_wanted.0);
-
-    let response_peers = extract_response_peers(
-        rng,
-        &torrent_data.peers,
-        max_num_peers_to_take,
-        request.peer_id,
-        Peer::to_response_peer,
-    );
+    let response_peers =
+        torrent_data.extract_response_peers(rng, request.peer_id, max_num_peers_to_take);
 
     AnnounceResponse {
         transaction_id: request.transaction_id,
         announce_interval: AnnounceInterval(config.protocol.peer_announce_interval),
-        leechers: NumberOfPeers(torrent_data.num_leechers as i32),
-        seeders: NumberOfPeers(torrent_data.num_seeders as i32),
+        leechers: NumberOfPeers(torrent_data.num_leechers() as i32),
+        seeders: NumberOfPeers(torrent_data.num_seeders() as i32),
         peers: response_peers,
     }
 }
 
-#[inline]
-fn calc_max_num_peers_to_take(config: &Config, peers_wanted: i32) -> usize {
-    if peers_wanted <= 0 {
-        config.protocol.max_response_peers as usize
-    } else {
-        ::std::cmp::min(
-            config.protocol.max_response_peers as usize,
-            peers_wanted as usize,
-        )
-    }
-}
-
 fn handle_scrape_request<I: Ip>(
     torrents: &mut TorrentMap<I>,
     request: PendingScrapeRequest,
@@ -196,12 +162,7 @@ fn handle_scrape_request<I: Ip>(
             let stats = torrents
                 .0
                 .get(&info_hash)
-                .map(|torrent_data| {
-                    create_torrent_scrape_statistics(
-                        torrent_data.num_seeders as i32,
-                        torrent_data.num_leechers as i32,
-                    )
-                })
+                .map(|torrent_data| torrent_data.scrape_statistics())
                 .unwrap_or(EMPTY_STATS);
 
             (i, stats)
@@ -222,95 +183,3 @@ const fn create_torrent_scrape_statistics(seeders: i32, leechers: i32) -> Torren
         leechers: NumberOfPeers(leechers),
     }
 }
-
-#[cfg(test)]
-mod tests {
-    use std::collections::HashSet;
-    use std::net::Ipv4Addr;
-
-    use quickcheck::{quickcheck, TestResult};
-    use rand::thread_rng;
-
-    use super::*;
-
-    fn gen_peer_id(i: u32) -> PeerId {
-        let mut peer_id = PeerId([0; 20]);
-
-        peer_id.0[0..4].copy_from_slice(&i.to_ne_bytes());
-
-        peer_id
-    }
-    fn gen_peer(i: u32) -> Peer<Ipv4Addr> {
-        Peer {
-            ip_address: Ipv4Addr::from(i.to_be_bytes()),
-            port: Port(1),
-            status: PeerStatus::Leeching,
-            valid_until: ValidUntil::new(0),
-        }
-    }
-
-    #[test]
-    fn test_extract_response_peers() {
-        fn prop(data: (u16, u16)) -> TestResult {
-            let gen_num_peers = data.0 as u32;
-            let req_num_peers = data.1 as usize;
-
-            let mut peer_map: storage::PeerMap<Ipv4Addr> = Default::default();
-
-            let mut opt_sender_key = None;
-            let mut opt_sender_peer = None;
-
-            for i in 0..gen_num_peers {
-                let key = gen_peer_id(i);
-                let peer = gen_peer((i << 16) + i);
-
-                if i == 0 {
-                    opt_sender_key = Some(key);
-                    opt_sender_peer = Some(peer.to_response_peer());
-                }
-
-                peer_map.insert(key, peer);
-            }
-
-            let mut rng = thread_rng();
-
-            let peers = extract_response_peers(
-                &mut rng,
-                &peer_map,
-                req_num_peers,
-                opt_sender_key.unwrap_or_else(|| gen_peer_id(1)),
-                Peer::to_response_peer,
-            );
-
-            // Check that number of returned peers is correct
-
-            let mut success = peers.len() <= req_num_peers;
-
-            if req_num_peers >= gen_num_peers as usize {
-                success &= peers.len() == gen_num_peers as usize
-                    || peers.len() + 1 == gen_num_peers as usize;
-            }
-
-            // Check that returned peers are unique (no overlap) and that sender
-            // isn't returned
-
-            let mut ip_addresses = HashSet::with_capacity(peers.len());
-
-            for peer in peers {
-                if peer == opt_sender_peer.clone().unwrap()
-                    || ip_addresses.contains(&peer.ip_address)
-                {
-                    success = false;
-
-                    break;
-                }
-
-                ip_addresses.insert(peer.ip_address);
-            }
-
-            TestResult::from_bool(success)
-        }
-
-        quickcheck(prop as fn((u16, u16)) -> TestResult);
-    }
-}

aquatic_udp/src/workers/request/storage.rs

@@ -5,14 +5,17 @@ use std::time::Instant;
 
 use aquatic_common::{
     access_list::{create_access_list_cache, AccessListArcSwap, AccessListCache, AccessListMode},
-    AmortizedIndexMap, ValidUntil,
+    extract_response_peers, AmortizedIndexMap, ValidUntil,
 };
 
 use aquatic_udp_protocol::*;
+use rand::prelude::SmallRng;
 
 use crate::common::*;
 use crate::config::Config;
 
+use super::create_torrent_scrape_statistics;
+
 #[derive(Clone, Debug)]
 pub struct Peer<I: Ip> {
     pub ip_address: I,
@@ -33,12 +36,68 @@ impl<I: Ip> Peer<I> {
 pub type PeerMap<I> = AmortizedIndexMap<PeerId, Peer<I>>;
 
 pub struct TorrentData<I: Ip> {
-    pub peers: PeerMap<I>,
-    pub num_seeders: usize,
-    pub num_leechers: usize,
+    peers: PeerMap<I>,
+    num_seeders: usize,
+    num_leechers: usize,
 }
 
 impl<I: Ip> TorrentData<I> {
+    pub fn update_peer(&mut self, peer_id: PeerId, peer: Peer<I>) {
+        let opt_removed_peer = match peer.status {
+            PeerStatus::Leeching => {
+                self.num_leechers += 1;
+
+                self.peers.insert(peer_id, peer)
+            }
+            PeerStatus::Seeding => {
+                self.num_seeders += 1;
+
+                self.peers.insert(peer_id, peer)
+            }
+            PeerStatus::Stopped => self.peers.remove(&peer_id),
+        };
+
+        match opt_removed_peer.map(|peer| peer.status) {
+            Some(PeerStatus::Leeching) => {
+                self.num_leechers -= 1;
+            }
+            Some(PeerStatus::Seeding) => {
+                self.num_seeders -= 1;
+            }
+            _ => {}
+        }
+    }
+
+    pub fn extract_response_peers(
+        &self,
+        rng: &mut SmallRng,
+        peer_id: PeerId,
+        max_num_peers_to_take: usize,
+    ) -> Vec<ResponsePeer<I>> {
+        extract_response_peers(
+            rng,
+            &self.peers,
+            max_num_peers_to_take,
+            peer_id,
+            Peer::to_response_peer,
+        )
+    }
+
+    pub fn num_leechers(&self) -> usize {
+        self.num_leechers
+    }
+
+    pub fn num_seeders(&self) -> usize {
+        self.num_seeders
+    }
+
+    pub fn scrape_statistics(&self) -> TorrentScrapeStatistics {
+        create_torrent_scrape_statistics(
+            self.num_seeders.try_into().unwrap_or(i32::MAX),
+            self.num_leechers.try_into().unwrap_or(i32::MAX),
+        )
+    }
+
     /// Remove inactive peers and reclaim space
     fn clean(&mut self, now: Instant) {
         self.peers.retain(|_, peer| {
@@ -144,3 +203,95 @@ impl TorrentMaps {
         (ipv4, ipv6)
     }
 }
+
+#[cfg(test)]
+mod tests {
+    use std::collections::HashSet;
+    use std::net::Ipv4Addr;
+
+    use quickcheck::{quickcheck, TestResult};
+    use rand::thread_rng;
+
+    use super::*;
+
+    fn gen_peer_id(i: u32) -> PeerId {
+        let mut peer_id = PeerId([0; 20]);
+
+        peer_id.0[0..4].copy_from_slice(&i.to_ne_bytes());
+
+        peer_id
+    }
+    fn gen_peer(i: u32) -> Peer<Ipv4Addr> {
+        Peer {
+            ip_address: Ipv4Addr::from(i.to_be_bytes()),
+            port: Port(1),
+            status: PeerStatus::Leeching,
+            valid_until: ValidUntil::new(0),
+        }
+    }
+
+    #[test]
+    fn test_extract_response_peers() {
+        fn prop(data: (u16, u16)) -> TestResult {
+            let gen_num_peers = data.0 as u32;
+            let req_num_peers = data.1 as usize;
+
+            let mut peer_map: PeerMap<Ipv4Addr> = Default::default();
+
+            let mut opt_sender_key = None;
+            let mut opt_sender_peer = None;
+
+            for i in 0..gen_num_peers {
+                let key = gen_peer_id(i);
+                let peer = gen_peer((i << 16) + i);
+
+                if i == 0 {
+                    opt_sender_key = Some(key);
+                    opt_sender_peer = Some(peer.to_response_peer());
+                }
+
+                peer_map.insert(key, peer);
+            }
+
+            let mut rng = thread_rng();
+
+            let peers = extract_response_peers(
+                &mut rng,
+                &peer_map,
+                req_num_peers,
+                opt_sender_key.unwrap_or_else(|| gen_peer_id(1)),
+                Peer::to_response_peer,
+            );
+
+            // Check that number of returned peers is correct
+
+            let mut success = peers.len() <= req_num_peers;
+
+            if req_num_peers >= gen_num_peers as usize {
+                success &= peers.len() == gen_num_peers as usize
+                    || peers.len() + 1 == gen_num_peers as usize;
+            }
+
+            // Check that returned peers are unique (no overlap) and that sender
+            // isn't returned
+
+            let mut ip_addresses = HashSet::with_capacity(peers.len());
+
+            for peer in peers {
+                if peer == opt_sender_peer.clone().unwrap()
+                    || ip_addresses.contains(&peer.ip_address)
+                {
+                    success = false;
+
+                    break;
+                }
+
+                ip_addresses.insert(peer.ip_address);
+            }
+
+            TestResult::from_bool(success)
+        }
+
+        quickcheck(prop as fn((u16, u16)) -> TestResult);
+    }
+}