use std::io::BufReader;
use std::ops::Deref;
use std::sync::Arc;
+use lightning::log_info;
use lightning::routing::gossip::{NetworkGraph, NodeId};
use lightning::util::logger::Logger;
use lightning::util::ser::{ReadableArgs, Writeable};
use tokio::sync::mpsc;
+use tokio_postgres::{Client, NoTls};
use crate::lookup::DeltaSet;
use crate::persistence::GossipPersister;
pub fn new(logger: L) -> Self {
let network = config::network();
let network_graph = if let Ok(file) = File::open(&config::network_graph_cache_path()) {
- println!("Initializing from cached network graph…");
+ log_info!(logger, "Initializing from cached network graph…");
let mut buffered_reader = BufReader::new(file);
let network_graph_result = NetworkGraph::read(&mut buffered_reader, logger.clone());
if let Ok(network_graph) = network_graph_result {
- println!("Initialized from cached network graph!");
+ log_info!(logger, "Initialized from cached network graph!");
network_graph
} else {
- println!("Initialization from cached network graph failed: {}", network_graph_result.err().unwrap());
+ log_info!(logger, "Initialization from cached network graph failed: {}", network_graph_result.err().unwrap());
NetworkGraph::new(network, logger.clone())
}
} else {
let (sync_completion_sender, mut sync_completion_receiver) = mpsc::channel::<()>(1);
if config::DOWNLOAD_NEW_GOSSIP {
- let (mut persister, persistence_sender) = GossipPersister::new(Arc::clone(&self.network_graph));
+ let (mut persister, persistence_sender) = GossipPersister::new(self.network_graph.clone(), self.logger.clone());
- println!("Starting gossip download");
+ log_info!(self.logger, "Starting gossip download");
tokio::spawn(tracking::download_gossip(persistence_sender, sync_completion_sender,
Arc::clone(&self.network_graph), self.logger.clone()));
- println!("Starting gossip db persistence listener");
+ log_info!(self.logger, "Starting gossip db persistence listener");
tokio::spawn(async move { persister.persist_gossip().await; });
} else {
sync_completion_sender.send(()).await.unwrap();
if sync_completion.is_none() {
panic!("Sync failed!");
}
- println!("Initial sync complete!");
+ log_info!(self.logger, "Initial sync complete!");
// start the gossip snapshotting service
- Snapshotter::new(Arc::clone(&self.network_graph)).snapshot_gossip().await;
+ Snapshotter::new(Arc::clone(&self.network_graph), self.logger.clone()).snapshot_gossip().await;
}
}
+pub(crate) async fn connect_to_db() -> Client {
+ let connection_config = config::db_connection_config();
+ let (client, connection) = connection_config.connect(NoTls).await.unwrap();
+
+ tokio::spawn(async move {
+ if let Err(e) = connection.await {
+ panic!("connection error: {}", e);
+ }
+ });
+
+ client.execute("set time zone UTC", &[]).await.unwrap();
+ client
+}
+
/// This method generates a no-op blob that can be used as a delta where none exists.
///
/// The primary purpose of this method is the scenario of a client retrieving and processing a
let mut blob = GOSSIP_PREFIX.to_vec();
let network = config::network();
+ let calc_interval = config::calculate_interval();
let genesis_block = bitcoin::blockdata::constants::genesis_block(network);
let chain_hash = genesis_block.block_hash();
chain_hash.write(&mut blob).unwrap();
- let blob_timestamp = Snapshotter::<Arc<RGSSLogger>>::round_down_to_nearest_multiple(current_timestamp, config::SNAPSHOT_CALCULATION_INTERVAL as u64) as u32;
+ let blob_timestamp = Snapshotter::<Arc<RGSSLogger>>::round_down_to_nearest_multiple(current_timestamp, calc_interval as u64) as u32;
blob_timestamp.write(&mut blob).unwrap();
0u32.write(&mut blob).unwrap(); // node count
blob
}
-async fn serialize_delta<L: Deref>(network_graph: Arc<NetworkGraph<L>>, last_sync_timestamp: u32) -> SerializedResponse where L::Target: Logger {
- let (client, connection) = lookup::connect_to_db().await;
+async fn serialize_delta<L: Deref + Clone>(network_graph: Arc<NetworkGraph<L>>, last_sync_timestamp: u32, logger: L) -> SerializedResponse where L::Target: Logger {
+ let client = connect_to_db().await;
network_graph.remove_stale_channels_and_tracking();
- tokio::spawn(async move {
- if let Err(e) = connection.await {
- panic!("connection error: {}", e);
- }
- });
-
let mut output: Vec<u8> = vec![];
+ let calc_interval = config::calculate_interval();
// set a flag if the chain hash is prepended
// chain hash only necessary if either channel announcements or non-incremental updates are present
};
let mut delta_set = DeltaSet::new();
- lookup::fetch_channel_announcements(&mut delta_set, network_graph, &client, last_sync_timestamp).await;
- println!("announcement channel count: {}", delta_set.len());
- lookup::fetch_channel_updates(&mut delta_set, &client, last_sync_timestamp).await;
- println!("update-fetched channel count: {}", delta_set.len());
- lookup::filter_delta_set(&mut delta_set);
- println!("update-filtered channel count: {}", delta_set.len());
+ lookup::fetch_channel_announcements(&mut delta_set, network_graph, &client, last_sync_timestamp, logger.clone()).await;
+ log_info!(logger, "announcement channel count: {}", delta_set.len());
+ lookup::fetch_channel_updates(&mut delta_set, &client, last_sync_timestamp, logger.clone()).await;
+ log_info!(logger, "update-fetched channel count: {}", delta_set.len());
+ lookup::filter_delta_set(&mut delta_set, logger.clone());
+ log_info!(logger, "update-filtered channel count: {}", delta_set.len());
let serialization_details = serialization::serialize_delta_set(delta_set, last_sync_timestamp);
// process announcements
serialization_details.chain_hash.write(&mut prefixed_output).unwrap();
// always write the latest seen timestamp
let latest_seen_timestamp = serialization_details.latest_seen;
- let overflow_seconds = latest_seen_timestamp % config::SNAPSHOT_CALCULATION_INTERVAL;
+ let overflow_seconds = latest_seen_timestamp % calc_interval;
let serialized_seen_timestamp = latest_seen_timestamp.saturating_sub(overflow_seconds);
serialized_seen_timestamp.write(&mut prefixed_output).unwrap();
prefixed_output.append(&mut output);
- println!("duplicated node ids: {}", duplicate_node_ids);
- println!("latest seen timestamp: {:?}", serialization_details.latest_seen);
+ log_info!(logger, "duplicated node ids: {}", duplicate_node_ids);
+ log_info!(logger, "latest seen timestamp: {:?}", serialization_details.latest_seen);
SerializedResponse {
data: prefixed_output,
projects / rapid-gossip-sync-server / blobdiff