[rapid-gossip-sync-server] / src / lookup.rs

use std::collections::{BTreeMap, HashSet};
use std::io::Cursor;
use std::ops::Add;
use std::sync::Arc;
use std::time::{Duration, Instant, SystemTime};

use lightning::ln::msgs::{ChannelAnnouncement, ChannelUpdate, UnsignedChannelAnnouncement, UnsignedChannelUpdate};
use lightning::routing::gossip::NetworkGraph;
use lightning::util::ser::Readable;
use tokio_postgres::{Client, Connection, NoTls, Socket};
use tokio_postgres::tls::NoTlsStream;

use crate::{config, TestLogger};
use crate::serialization::MutatedProperties;

/// The delta set needs to be a BTreeMap so the keys are sorted.
/// That way, the scids in the response automatically grow monotonically
pub(super) type DeltaSet = BTreeMap<u64, ChannelDelta>;

pub(super) struct AnnouncementDelta {
        pub(super) seen: u32,
        pub(super) announcement: UnsignedChannelAnnouncement,
}

pub(super) struct UpdateDelta {
        pub(super) seen: u32,
        pub(super) update: UnsignedChannelUpdate,
}

pub(super) struct DirectedUpdateDelta {
        pub(super) last_update_before_seen: Option<UnsignedChannelUpdate>,
        pub(super) mutated_properties: MutatedProperties,
        pub(super) latest_update_after_seen: Option<UpdateDelta>,
        pub(super) serialization_update_flags: Option<u8>,
}

pub(super) struct ChannelDelta {
        pub(super) announcement: Option<AnnouncementDelta>,
        pub(super) updates: (Option<DirectedUpdateDelta>, Option<DirectedUpdateDelta>),
        pub(super) first_bidirectional_updates_seen: Option<u32>,
        /// The seen timestamp of the older of the two latest directional updates
        pub(super) requires_reminder: bool,
}

impl Default for ChannelDelta {
        fn default() -> Self {
                Self {
                        announcement: None,
                        updates: (None, None),
                        first_bidirectional_updates_seen: None,
                        requires_reminder: false,
                }
        }
}

impl Default for DirectedUpdateDelta {
        fn default() -> Self {
                Self {
                        last_update_before_seen: None,
                        mutated_properties: MutatedProperties::default(),
                        latest_update_after_seen: None,
                        serialization_update_flags: None,
                }
        }
}

pub(super) async fn connect_to_db() -> (Client, Connection<Socket, NoTlsStream>) {
        let connection_config = config::db_connection_config();
        connection_config.connect(NoTls).await.unwrap()
}

/// Fetch all the channel announcements that are presently in the network graph, regardless of
/// whether they had been seen before.
/// Also include all announcements for which the first update was announced
/// after `last_sync_timestamp`
pub(super) async fn fetch_channel_announcements(delta_set: &mut DeltaSet, network_graph: Arc<NetworkGraph<TestLogger>>, client: &Client, last_sync_timestamp: u32) {
        println!("Obtaining channel ids from network graph");
        let channel_ids = {
                let read_only_graph = network_graph.read_only();
                println!("Retrieved read-only network graph copy");
                let channel_iterator = read_only_graph.channels().unordered_iter();
                channel_iterator
                        .filter(|c| c.1.announcement_message.is_some())
                        .map(|c| c.1.announcement_message.as_ref().unwrap().contents.short_channel_id as i64)
                        .collect::<Vec<_>>()
        };

        println!("Obtaining corresponding database entries");
        // get all the channel announcements that are currently in the network graph
        let announcement_rows = client.query("SELECT announcement_signed, seen FROM channel_announcements WHERE short_channel_id = any($1) ORDER BY short_channel_id ASC", &[&channel_ids]).await.unwrap();

        for current_announcement_row in announcement_rows {
                let blob: Vec<u8> = current_announcement_row.get("announcement_signed");
                let mut readable = Cursor::new(blob);
                let unsigned_announcement = ChannelAnnouncement::read(&mut readable).unwrap().contents;

                let scid = unsigned_announcement.short_channel_id;
                let current_seen_timestamp_object: SystemTime = current_announcement_row.get("seen");
                let current_seen_timestamp: u32 = current_seen_timestamp_object.duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() as u32;

                let current_channel_delta = delta_set.entry(scid).or_insert(ChannelDelta::default());
                (*current_channel_delta).announcement = Some(AnnouncementDelta {
                        announcement: unsigned_announcement,
                        seen: current_seen_timestamp,
                });
        }

        {
                // THIS STEP IS USED TO DETERMINE IF A CHANNEL SHOULD BE OMITTED FROM THE DELTA

                println!("Annotating channel announcements whose oldest channel update in a given direction occurred after the last sync");
                // Steps:
                // — Obtain all updates, distinct by (scid, direction), ordered by seen DESC // to find the oldest update in a given direction
                // — From those updates, select distinct by (scid), ordered by seen DESC (to obtain the newer one per direction)
                // This will allow us to mark the first time updates in both directions were seen

                // here is where the channels whose first update in either direction occurred after
                // `last_seen_timestamp` are added to the selection
                let newer_oldest_directional_updates = client.query("
                SELECT DISTINCT ON (short_channel_id) *
                FROM (
                        SELECT DISTINCT ON (short_channel_id, direction) short_channel_id, seen
                        FROM channel_updates
                        WHERE short_channel_id = any($1)
                        ORDER BY seen ASC, short_channel_id ASC, direction ASC
                ) AS directional_last_seens
                ORDER BY short_channel_id ASC, seen DESC
        ", &[&channel_ids]).await.unwrap();

                for current_row in newer_oldest_directional_updates {
                        let scid: i64 = current_row.get("short_channel_id");
                        let current_seen_timestamp_object: SystemTime = current_row.get("seen");
                        let current_seen_timestamp: u32 = current_seen_timestamp_object.duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() as u32;

                        if current_seen_timestamp > last_sync_timestamp {
                                // the newer of the two oldest seen directional updates came after last sync timestamp
                                let current_channel_delta = delta_set.entry(scid as u64).or_insert(ChannelDelta::default());
                                // first time a channel was seen in both directions
                                (*current_channel_delta).first_bidirectional_updates_seen = Some(current_seen_timestamp);
                        }
                }
        }

        {
                // THIS STEP IS USED TO DETERMINE IF A REMINDER UPDATE SHOULD BE SENT

                println!("Annotating channel announcements whose latest channel update in a given direction occurred more than six days ago");
                // Steps:
                // — Obtain all updates, distinct by (scid, direction), ordered by seen DESC
                // — From those updates, select distinct by (scid), ordered by seen ASC (to obtain the older one per direction)
                let current_timestamp = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() as u32;
                let reminder_threshold_timestamp = current_timestamp.saturating_sub(config::CHANNEL_REMINDER_AGE);
                let read_only_graph = network_graph.read_only();

                let older_latest_directional_updates = client.query("
                SELECT DISTINCT ON (short_channel_id) *
                FROM (
                        SELECT DISTINCT ON (short_channel_id, direction) short_channel_id, seen
                        FROM channel_updates
                        WHERE short_channel_id = any($1)
                        ORDER BY short_channel_id ASC, direction ASC, seen DESC
                ) AS directional_last_seens
                ORDER BY short_channel_id ASC, seen ASC
        ", &[&channel_ids]).await.unwrap();

                for current_row in older_latest_directional_updates {
                        let scid: i64 = current_row.get("short_channel_id");
                        let current_seen_timestamp_object: SystemTime = current_row.get("seen");
                        let current_seen_timestamp: u32 = current_seen_timestamp_object.duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() as u32;

                        if current_seen_timestamp <= reminder_threshold_timestamp {
                                // annotate this channel as requiring that reminders be sent to the client
                                let current_channel_delta = delta_set.entry(scid as u64).or_insert(ChannelDelta::default());

                                // way might be able to get away with not using this
                                (*current_channel_delta).requires_reminder = true;

                                if let Some(current_channel_info) = read_only_graph.channel(scid as u64) {
                                        if current_channel_info.one_to_two.is_none() || current_channel_info.two_to_one.is_none() {
                                                // we don't send reminders if we don't have bidirectional update data
                                                continue;
                                        }

                                        if let Some(info) = current_channel_info.one_to_two.as_ref() {
                                                let flags: u8 = if info.enabled { 0 } else { 2 };
                                                let current_update = (*current_channel_delta).updates.0.get_or_insert(DirectedUpdateDelta::default());
                                                current_update.serialization_update_flags = Some(flags);
                                        }

                                        if let Some(info) = current_channel_info.two_to_one.as_ref() {
                                                let flags: u8 = if info.enabled { 1 } else { 3 };
                                                let current_update = (*current_channel_delta).updates.1.get_or_insert(DirectedUpdateDelta::default());
                                                current_update.serialization_update_flags = Some(flags);
                                        }
                                } else {
                                        // we don't send reminders if we don't have the channel
                                        continue;
                                }
                        }
                }
        }
}

pub(super) async fn fetch_channel_updates(delta_set: &mut DeltaSet, client: &Client, last_sync_timestamp: u32, consider_intermediate_updates: bool) {
        let start = Instant::now();
        let last_sync_timestamp_object = SystemTime::UNIX_EPOCH.add(Duration::from_secs(last_sync_timestamp as u64));

        // get the latest channel update in each direction prior to last_sync_timestamp, provided
        // there was an update in either direction that happened after the last sync (to avoid
        // collecting too many reference updates)
        let reference_rows = client.query("SELECT DISTINCT ON (short_channel_id, direction) id, direction, blob_signed FROM channel_updates WHERE seen < $1 AND short_channel_id IN (SELECT short_channel_id FROM channel_updates WHERE seen >= $1 GROUP BY short_channel_id) ORDER BY short_channel_id ASC, direction ASC, seen DESC", &[&last_sync_timestamp_object]).await.unwrap();

        println!("Fetched reference rows ({}): {:?}", reference_rows.len(), start.elapsed());

        let mut last_seen_update_ids: Vec<i32> = Vec::with_capacity(reference_rows.len());
        let mut non_intermediate_ids: HashSet<i32> = HashSet::new();

        for current_reference in reference_rows {
                let update_id: i32 = current_reference.get("id");
                last_seen_update_ids.push(update_id);
                non_intermediate_ids.insert(update_id);

                let direction: bool = current_reference.get("direction");
                let blob: Vec<u8> = current_reference.get("blob_signed");
                let mut readable = Cursor::new(blob);
                let unsigned_channel_update = ChannelUpdate::read(&mut readable).unwrap().contents;
                let scid = unsigned_channel_update.short_channel_id;

                let current_channel_delta = delta_set.entry(scid).or_insert(ChannelDelta::default());
                let update_delta = if !direction {
                        (*current_channel_delta).updates.0.get_or_insert(DirectedUpdateDelta::default())
                } else {
                        (*current_channel_delta).updates.1.get_or_insert(DirectedUpdateDelta::default())
                };
                update_delta.last_update_before_seen = Some(unsigned_channel_update);
        }

        println!("Processed reference rows (delta size: {}): {:?}", delta_set.len(), start.elapsed());

        // get all the intermediate channel updates
        // (to calculate the set of mutated fields for snapshotting, where intermediate updates may
        // have been omitted)

        let mut intermediate_update_prefix = "";
        if !consider_intermediate_updates {
                intermediate_update_prefix = "DISTINCT ON (short_channel_id, direction)";
        }

        let query_string = format!("SELECT {} id, direction, blob_signed, seen FROM channel_updates WHERE seen >= $1 ORDER BY short_channel_id ASC, direction ASC, seen DESC", intermediate_update_prefix);
        let intermediate_updates = client.query(&query_string, &[&last_sync_timestamp_object]).await.unwrap();
        println!("Fetched intermediate rows ({}): {:?}", intermediate_updates.len(), start.elapsed());

        let mut previous_scid = u64::MAX;
        let mut previously_seen_directions = (false, false);

        // let mut previously_seen_directions = (false, false);
        let mut intermediate_update_count = 0;
        for intermediate_update in intermediate_updates {
                let update_id: i32 = intermediate_update.get("id");
                if non_intermediate_ids.contains(&update_id) {
                        continue;
                }
                intermediate_update_count += 1;

                let direction: bool = intermediate_update.get("direction");
                let current_seen_timestamp_object: SystemTime = intermediate_update.get("seen");
                let current_seen_timestamp: u32 = current_seen_timestamp_object.duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() as u32;
                let blob: Vec<u8> = intermediate_update.get("blob_signed");
                let mut readable = Cursor::new(blob);
                let unsigned_channel_update = ChannelUpdate::read(&mut readable).unwrap().contents;

                let scid = unsigned_channel_update.short_channel_id;
                if scid != previous_scid {
                        previous_scid = scid;
                        previously_seen_directions = (false, false);
                }

                // get the write configuration for this particular channel's directional details
                let current_channel_delta = delta_set.entry(scid).or_insert(ChannelDelta::default());
                let update_delta = if !direction {
                        (*current_channel_delta).updates.0.get_or_insert(DirectedUpdateDelta::default())
                } else {
                        (*current_channel_delta).updates.1.get_or_insert(DirectedUpdateDelta::default())
                };

                {
                        // handle the latest deltas
                        if !direction && !previously_seen_directions.0 {
                                previously_seen_directions.0 = true;
                                update_delta.latest_update_after_seen = Some(UpdateDelta {
                                        seen: current_seen_timestamp,
                                        update: unsigned_channel_update.clone(),
                                });
                        } else if direction && !previously_seen_directions.1 {
                                previously_seen_directions.1 = true;
                                update_delta.latest_update_after_seen = Some(UpdateDelta {
                                        seen: current_seen_timestamp,
                                        update: unsigned_channel_update.clone(),
                                });
                        }
                }

                // determine mutations
                if let Some(last_seen_update) = update_delta.last_update_before_seen.as_ref() {
                        if unsigned_channel_update.flags != last_seen_update.flags {
                                update_delta.mutated_properties.flags = true;
                        }
                        if unsigned_channel_update.cltv_expiry_delta != last_seen_update.cltv_expiry_delta {
                                update_delta.mutated_properties.cltv_expiry_delta = true;
                        }
                        if unsigned_channel_update.htlc_minimum_msat != last_seen_update.htlc_minimum_msat {
                                update_delta.mutated_properties.htlc_minimum_msat = true;
                        }
                        if unsigned_channel_update.fee_base_msat != last_seen_update.fee_base_msat {
                                update_delta.mutated_properties.fee_base_msat = true;
                        }
                        if unsigned_channel_update.fee_proportional_millionths != last_seen_update.fee_proportional_millionths {
                                update_delta.mutated_properties.fee_proportional_millionths = true;
                        }
                        if unsigned_channel_update.htlc_maximum_msat != last_seen_update.htlc_maximum_msat {
                                update_delta.mutated_properties.htlc_maximum_msat = true;
                        }
                }
        }
        println!("Processed intermediate rows ({}) (delta size: {}): {:?}", intermediate_update_count, delta_set.len(), start.elapsed());
}

pub(super) fn filter_delta_set(delta_set: &mut DeltaSet) {
        let original_length = delta_set.len();
        let keys: Vec<u64> = delta_set.keys().cloned().collect();
        for k in keys {
                let v = delta_set.get(&k).unwrap();
                if v.announcement.is_none() {
                        // this channel is not currently in the network graph
                        delta_set.remove(&k);
                        continue;
                }

                let update_meets_criteria = |update: &Option<DirectedUpdateDelta>| {
                        if update.is_none() {
                                return false;
                        };
                        let update_reference = update.as_ref().unwrap();
                        // update_reference.latest_update_after_seen.is_some() && !update_reference.intermediate_updates.is_empty()
                        // if there has been an update after the channel was first seen

                        v.requires_reminder || update_reference.latest_update_after_seen.is_some()
                };

                let direction_a_meets_criteria = update_meets_criteria(&v.updates.0);
                let direction_b_meets_criteria = update_meets_criteria(&v.updates.1);

                if !v.requires_reminder && !direction_a_meets_criteria && !direction_b_meets_criteria {
                        delta_set.remove(&k);
                }
        }

        let new_length = delta_set.len();
        if original_length != new_length {
                println!("length modified!");
        }
}