risotto_lib/
state.rs

1use anyhow::Result;
2use chrono::Utc;
3use core::net::IpAddr;
4use metrics::{counter, gauge};
5use serde::{Deserialize, Serialize};
6use std::hash::{Hash, Hasher};
7use std::sync::Arc;
8use std::time::Duration;
9use tokio::sync::mpsc::Sender;
10use tokio::sync::Mutex;
11use tokio::time::sleep;
12use tracing::{debug, trace};
13
14use crate::state_store::store::StateStore;
15use crate::update::{map_to_ipv6, Update, UpdateMetadata};
16
17pub type AsyncState<T> = Arc<Mutex<State<T>>>;
18pub type RouterPeerUpdate = (IpAddr, IpAddr, TimedPrefix);
19
20pub fn new_state<T: StateStore + Send>(store: T) -> AsyncState<T> {
21    Arc::new(Mutex::new(State::new(store)))
22}
23
24pub struct State<T: StateStore> {
25    pub store: T,
26}
27
28impl<T: StateStore> State<T> {
29    pub fn new(store: T) -> State<T> {
30        State { store }
31    }
32
33    pub fn get_updates_by_peer(
34        &self,
35        router_addr: &IpAddr,
36        peer_addr: &IpAddr,
37    ) -> Result<Vec<TimedPrefix>> {
38        Ok(self.store.get_updates_by_peer(router_addr, peer_addr))
39    }
40
41    pub fn add_peer(&mut self, router_addr: &IpAddr, peer_addr: &IpAddr) -> Result<()> {
42        self.store.add_peer(router_addr, peer_addr);
43        Ok(())
44    }
45
46    pub fn remove_peer(&mut self, router_addr: &IpAddr, peer_addr: &IpAddr) -> Result<()> {
47        self.store.remove_peer(router_addr, peer_addr);
48        gauge!(
49            "risotto_state_updates",
50            "router" => router_addr.to_string(),
51            "peer" => peer_addr.to_string()
52        )
53        .set(0);
54        Ok(())
55    }
56
57    pub fn update(
58        &mut self,
59        router_addr: &IpAddr,
60        peer_addr: &IpAddr,
61        update: &Update,
62    ) -> Result<bool> {
63        let emit = self.store.update(router_addr, &peer_addr, update);
64        if emit {
65            let delta = if update.announced { 1.0 } else { -1.0 };
66            gauge!(
67                "risotto_state_updates",
68                "router" => router_addr.to_string(),
69                "peer" => peer_addr.to_string()
70            )
71            .increment(delta);
72        }
73        Ok(emit)
74    }
75}
76
77#[derive(Serialize, Deserialize, Eq, Clone)]
78pub struct TimedPrefix {
79    pub prefix_addr: IpAddr,
80    pub prefix_len: u8,
81    pub is_post_policy: bool,
82    pub is_adj_rib_out: bool,
83    pub timestamp: i64,
84}
85
86impl PartialEq for TimedPrefix {
87    fn eq(&self, other: &Self) -> bool {
88        self.prefix_addr == other.prefix_addr
89            && self.prefix_len == other.prefix_len
90            && self.is_post_policy == other.is_post_policy
91            && self.is_adj_rib_out == other.is_adj_rib_out
92    }
93}
94
95impl Hash for TimedPrefix {
96    fn hash<H: Hasher>(&self, state: &mut H) {
97        self.prefix_addr.hash(state);
98        self.prefix_len.hash(state);
99        self.is_post_policy.hash(state);
100        self.is_adj_rib_out.hash(state);
101    }
102}
103
104pub fn synthesize_withdraw_update(prefix: TimedPrefix, metadata: UpdateMetadata) -> Update {
105    Update {
106        time_received_ns: Utc::now(),
107        time_bmp_header_ns: Utc::now(),
108        router_addr: map_to_ipv6(metadata.router_socket.ip()),
109        router_port: metadata.router_socket.port(),
110        peer_addr: map_to_ipv6(metadata.peer_addr),
111        peer_bgp_id: metadata.peer_bgp_id,
112        peer_asn: metadata.peer_asn,
113        prefix_addr: map_to_ipv6(prefix.prefix_addr),
114        prefix_len: prefix.prefix_len,
115        is_post_policy: prefix.is_post_policy,
116        is_adj_rib_out: prefix.is_adj_rib_out,
117        announced: false,
118        next_hop: None,
119        origin: "INCOMPLETE".to_string(),
120        path: vec![],
121        local_preference: None,
122        med: None,
123        communities: vec![],
124        synthetic: true,
125    }
126}
127
128pub async fn peer_up_withdraws_handler<T: StateStore>(
129    state: AsyncState<T>,
130    tx: Sender<Update>,
131    metadata: UpdateMetadata,
132    sleep_time: u64,
133) -> Result<()> {
134    let startup = chrono::Utc::now();
135    sleep(Duration::from_secs(sleep_time)).await;
136
137    debug!(
138        "[{} - {} - removing updates older than {} after waited {} seconds",
139        metadata.router_socket, metadata.peer_addr, startup, sleep_time
140    );
141
142    let state_lock = state.lock().await;
143    let timed_prefixes = state_lock
144        .store
145        .get_updates_by_peer(&metadata.router_socket.ip(), &metadata.peer_addr);
146
147    drop(state_lock);
148
149    let mut synthetic_updates = Vec::new();
150    for timed_prefix in timed_prefixes {
151        if timed_prefix.timestamp < startup.timestamp_millis() {
152            // This update has not been re-announced after startup
153            // Emit a synthetic withdraw update
154            synthetic_updates.push(synthesize_withdraw_update(timed_prefix, metadata.clone()));
155        }
156    }
157
158    debug!(
159        "[{} - {} - emitting {} synthetic withdraw updates",
160        metadata.router_socket,
161        metadata.peer_addr,
162        synthetic_updates.len()
163    );
164
165    counter!(
166        "risotto_tx_updates_total",
167        "router" => metadata.router_socket.ip().to_string(),
168        "peer" => metadata.peer_addr.to_string(),
169    )
170    .increment(synthetic_updates.len() as u64);
171
172    let mut state_lock = state.lock().await;
173    for update in &mut synthetic_updates {
174        trace!("{:?}", update);
175
176        // Sent to the event pipeline
177        tx.send(update.clone()).await?;
178
179        // Remove the update from the state
180        state_lock
181            .store
182            .update(&update.router_addr, &metadata.peer_addr, update);
183    }
184
185    Ok(())
186}