Files
nym/mixnode/src/node/mod.rs
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Jędrzej Stuczyński fb253e53a4 Removed all sphinx key caching from mixnodes and gateways (#713)
* Removed all sphinx key caching from mixnodes and gateways

* Missing change in network monitor
2021-08-11 12:47:35 +01:00

243 lines
9.4 KiB
Rust

// Copyright 2020 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::config::Config;
use crate::node::http::{
description::description,
not_found,
stats::stats,
verloc::{verloc as verlocRoute, VerlocState},
};
use crate::node::listener::connection_handler::packet_processing::PacketProcessor;
use crate::node::listener::connection_handler::ConnectionHandler;
use crate::node::listener::Listener;
use crate::node::node_description::NodeDescription;
use crate::node::node_statistics::NodeStatsWrapper;
use crate::node::packet_delayforwarder::{DelayForwarder, PacketDelayForwardSender};
use crypto::asymmetric::{encryption, identity};
use log::{error, info, warn};
use mixnode_common::verloc::{self, AtomicVerlocResult, VerlocMeasurer};
use std::net::SocketAddr;
use std::process;
use std::sync::Arc;
use tokio::runtime::Runtime;
use version_checker::parse_version;
pub(crate) mod http;
mod listener;
// mod metrics;
pub(crate) mod node_description;
pub(crate) mod node_statistics;
pub(crate) mod packet_delayforwarder;
// the MixNode will live for whole duration of this program
pub struct MixNode {
config: Config,
descriptor: NodeDescription,
identity_keypair: Arc<identity::KeyPair>,
sphinx_keypair: Arc<encryption::KeyPair>,
}
impl MixNode {
pub fn new(
config: Config,
descriptor: NodeDescription,
identity_keypair: identity::KeyPair,
sphinx_keypair: encryption::KeyPair,
) -> Self {
MixNode {
config,
descriptor,
identity_keypair: Arc::new(identity_keypair),
sphinx_keypair: Arc::new(sphinx_keypair),
}
}
fn start_http_api(
&self,
atomic_verloc_result: AtomicVerlocResult,
node_stats_pointer: NodeStatsWrapper,
) {
info!("Starting HTTP API on http://localhost:8000");
let mut config = rocket::config::Config::release_default();
// bind to the same address as we are using for mixnodes
config.address = self.config.get_listening_address();
config.port = self.config.get_http_api_port();
let verloc_state = VerlocState::new(atomic_verloc_result);
let descriptor = self.descriptor.clone();
tokio::spawn(async move {
rocket::build()
.configure(config)
.mount("/", routes![verlocRoute, description, stats])
.register("/", catchers![not_found])
.manage(verloc_state)
.manage(descriptor)
.manage(node_stats_pointer)
.launch()
.await
});
}
fn start_node_stats_controller(&self) -> (NodeStatsWrapper, node_statistics::UpdateSender) {
info!("Starting node stats controller...");
let controller = node_statistics::Controller::new(
self.config.get_node_stats_logging_delay(),
self.config.get_node_stats_updating_delay(),
);
let node_stats_pointer = controller.get_node_stats_data_pointer();
let update_sender = controller.start();
(node_stats_pointer, update_sender)
}
fn start_socket_listener(
&self,
node_stats_update_sender: node_statistics::UpdateSender,
delay_forwarding_channel: PacketDelayForwardSender,
) {
info!("Starting socket listener...");
let packet_processor =
PacketProcessor::new(self.sphinx_keypair.private_key(), node_stats_update_sender);
let connection_handler = ConnectionHandler::new(packet_processor, delay_forwarding_channel);
let listening_address = SocketAddr::new(
self.config.get_listening_address(),
self.config.get_mix_port(),
);
Listener::new(listening_address).start(connection_handler);
}
fn start_packet_delay_forwarder(
&mut self,
node_stats_update_sender: node_statistics::UpdateSender,
) -> PacketDelayForwardSender {
info!("Starting packet delay-forwarder...");
let mut packet_forwarder = DelayForwarder::new(
self.config.get_packet_forwarding_initial_backoff(),
self.config.get_packet_forwarding_maximum_backoff(),
self.config.get_initial_connection_timeout(),
self.config.get_maximum_connection_buffer_size(),
node_stats_update_sender,
);
let packet_sender = packet_forwarder.sender();
tokio::spawn(async move { packet_forwarder.run().await });
packet_sender
}
fn start_verloc_measurements(&self) -> AtomicVerlocResult {
info!("Starting the round-trip-time measurer...");
// this is a sanity check to make sure we didn't mess up with the minimum version at some point
// and whether the user has run update if they're using old config
// if this code exists in the node, it MUST BE compatible
let config_version =
parse_version(self.config.get_version()).expect("malformed version in the config file");
let minimum_version = parse_version(verloc::MINIMUM_NODE_VERSION).unwrap();
if config_version < minimum_version {
error!("You seem to have not updated your mixnode configuration file - please run `upgrade` before attempting again");
process::exit(1)
}
// use the same binding address with the HARDCODED port for time being (I don't like that approach personally)
let listening_address = SocketAddr::new(
self.config.get_listening_address(),
self.config.get_verloc_port(),
);
let config = verloc::ConfigBuilder::new()
.listening_address(listening_address)
.packets_per_node(self.config.get_measurement_packets_per_node())
.connection_timeout(self.config.get_measurement_connection_timeout())
.packet_timeout(self.config.get_measurement_packet_timeout())
.delay_between_packets(self.config.get_measurement_delay_between_packets())
.tested_nodes_batch_size(self.config.get_measurement_tested_nodes_batch_size())
.testing_interval(self.config.get_measurement_testing_interval())
.retry_timeout(self.config.get_measurement_retry_timeout())
.validator_urls(self.config.get_validator_rest_endpoints())
.mixnet_contract_address(self.config.get_validator_mixnet_contract_address())
.build();
let mut verloc_measurer = VerlocMeasurer::new(config, Arc::clone(&self.identity_keypair));
let atomic_verloc_results = verloc_measurer.get_verloc_results_pointer();
tokio::spawn(async move { verloc_measurer.run().await });
atomic_verloc_results
}
// TODO: ask DH whether this function still makes sense in ^0.10
async fn check_if_same_ip_node_exists(&mut self) -> Option<String> {
let validator_client_config = validator_client::Config::new(
self.config.get_validator_rest_endpoints(),
self.config.get_validator_mixnet_contract_address(),
);
let validator_client = validator_client::Client::new(validator_client_config);
let existing_nodes = match validator_client.get_cached_mix_nodes().await {
Ok(nodes) => nodes,
Err(err) => {
error!("failed to grab initial network mixnodes - {}\n Please try to startup again in few minutes", err);
process::exit(1);
}
};
let our_host = self.config.get_announce_address();
existing_nodes
.iter()
.find(|node| node.mix_node.host == our_host)
.map(|node| node.mix_node.identity_key.clone())
}
async fn wait_for_interrupt(&self) {
if let Err(e) = tokio::signal::ctrl_c().await {
error!(
"There was an error while capturing SIGINT - {:?}. We will terminate regardless",
e
);
}
println!(
"Received SIGINT - the mixnode will terminate now (threads are not yet nicely stopped, if you see stack traces that's alright)."
);
}
pub fn run(&mut self) {
info!("Starting nym mixnode");
let runtime = Runtime::new().unwrap();
runtime.block_on(async {
if let Some(duplicate_node_key) = self.check_if_same_ip_node_exists().await {
if duplicate_node_key == self.identity_keypair.public_key().to_base58_string() {
warn!("You seem to have bonded your mixnode before starting it - that's highly unrecommended as in the future it might result in slashing");
} else {
log::error!(
"Our announce-host is identical to an existing node's announce-host! (its key is {:?})",
duplicate_node_key
);
return;
}
}
let (node_stats_pointer, node_stats_update_sender) = self.start_node_stats_controller();
let delay_forwarding_channel = self.start_packet_delay_forwarder(node_stats_update_sender.clone());
self.start_socket_listener(node_stats_update_sender, delay_forwarding_channel);
let atomic_verloc_results= self.start_verloc_measurements();
self.start_http_api(atomic_verloc_results, node_stats_pointer);
info!("Finished nym mixnode startup procedure - it should now be able to receive mix traffic!");
self.wait_for_interrupt().await
});
}
}