use crate::tx_vault::Bank;
use broadcast_stage::BroadcastStage;
use crate::crdt::{Crdt, Node, NodeInfo};
use crate::token_service::DRONE_PORT;
use crate::entry::Entry;
use crate::ledger::read_ledger;
use crate::ncp::Ncp;
use rpc::{JsonRpcService, RPC_PORT};
use rpu::Rpu;
use crate::service::Service;
use buffett_crypto::signature::{Keypair, KeypairUtil};
use buffett_interface::pubkey::Pubkey;
use std::net::UdpSocket;
use std::net::{IpAddr, Ipv4Addr, SocketAddr};
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::{Arc, RwLock};
use std::thread::Result;
use crate::tpu::{Tpu, TpuReturnType};
use crate::tvu::{Tvu, TvuReturnType};
use untrusted::Input;
use crate::window;
pub enum NodeRole {
Leader(LeaderServices),
Validator(ValidatorServices),
}
pub struct LeaderServices {
tpu: Tpu,
broadcast_stage: BroadcastStage,
}
impl LeaderServices {
fn new(tpu: Tpu, broadcast_stage: BroadcastStage) -> Self {
LeaderServices {
tpu,
broadcast_stage,
}
}
pub fn join(self) -> Result<Option<TpuReturnType>> {
self.broadcast_stage.join()?;
self.tpu.join()
}
pub fn exit(&self) -> () {
self.tpu.exit();
}
}
pub struct ValidatorServices {
tvu: Tvu,
}
impl ValidatorServices {
fn new(tvu: Tvu) -> Self {
ValidatorServices { tvu }
}
pub fn join(self) -> Result<Option<TvuReturnType>> {
self.tvu.join()
}
pub fn exit(&self) -> () {
self.tvu.exit()
}
}
pub enum FullnodeReturnType {
LeaderRotation,
}
pub struct Fullnode {
pub node_role: Option<NodeRole>,
keypair: Arc<Keypair>,
exit: Arc<AtomicBool>,
rpu: Option<Rpu>,
rpc_service: JsonRpcService,
ncp: Ncp,
bank: Arc<Bank>,
crdt: Arc<RwLock<Crdt>>,
ledger_path: String,
sigverify_disabled: bool,
shared_window: window::SharedWindow,
replicate_socket: Vec<UdpSocket>,
repair_socket: UdpSocket,
retransmit_socket: UdpSocket,
transaction_sockets: Vec<UdpSocket>,
broadcast_socket: UdpSocket,
requests_socket: UdpSocket,
respond_socket: UdpSocket,
}
#[derive(Serialize, Deserialize, Clone, Debug, PartialEq)]
pub struct Config {
pub node_info: NodeInfo,
pkcs8: Vec<u8>,
}
impl Config {
pub fn new(bind_addr: &SocketAddr, pkcs8: Vec<u8>) -> Self {
let keypair =
Keypair::from_pkcs8(Input::from(&pkcs8)).expect("from_pkcs8 in fullnode::Config new");
let pubkey = keypair.pubkey();
let node_info = NodeInfo::new_with_pubkey_socketaddr(pubkey, bind_addr);
Config { node_info, pkcs8 }
}
pub fn keypair(&self) -> Keypair {
Keypair::from_pkcs8(Input::from(&self.pkcs8))
.expect("from_pkcs8 in fullnode::Config keypair")
}
}
impl Fullnode {
pub fn new(
node: Node,
ledger_path: &str,
keypair: Keypair,
leader_addr: Option<SocketAddr>,
sigverify_disabled: bool,
leader_rotation_interval: Option<u64>,
) -> Self {
info!("Tx_Valut created");
let (bank, entry_height, ledger_tail) = Self::new_bank_from_ledger(ledger_path);
info!("Local_Gossip network set up.");
let local_gossip_addr = node.sockets.gossip.local_addr().unwrap();
info!(
"Local_Gossip Ip: {} (Listening On {})",
local_gossip_addr, node.info.contact_info.ncp
);
let local_requests_addr = node.sockets.requests.local_addr().unwrap();
let requests_addr = node.info.contact_info.rpu;
let leader_info = leader_addr.map(|i| NodeInfo::new_entry_point(&i));
let server = Self::new_with_bank(
keypair,
bank,
entry_height,
&ledger_tail,
node,
leader_info.as_ref(),
ledger_path,
sigverify_disabled,
leader_rotation_interval,
None,
);
match leader_addr {
Some(leader_addr) => {
info!(
"Voter Node is running on {} / {} for Leader Node on {}",
local_requests_addr, requests_addr, leader_addr
);
}
None => {
info!(
"Leader Node is running on {} / {}",
local_requests_addr, requests_addr
);
}
}
server
}
#[cfg_attr(feature = "cargo-clippy", allow(too_many_arguments))]
pub fn new_with_bank(
keypair: Keypair,
bank: Bank,
entry_height: u64,
ledger_tail: &[Entry],
mut node: Node,
leader_info: Option<&NodeInfo>,
ledger_path: &str,
sigverify_disabled: bool,
leader_rotation_interval: Option<u64>,
rpc_port: Option<u16>,
) -> Self {
if leader_info.is_none() {
node.info.leader_id = node.info.id;
}
let exit = Arc::new(AtomicBool::new(false));
let bank = Arc::new(bank);
let rpu = Some(Rpu::new(
&bank,
node.sockets
.requests
.try_clone()
.expect("Failed to clone requests socket"),
node.sockets
.respond
.try_clone()
.expect("Failed to clone respond socket"),
));
let mut drone_addr = node.info.contact_info.tpu;
drone_addr.set_port(DRONE_PORT);
let rpc_addr = SocketAddr::new(IpAddr::V4(Ipv4Addr::from(0)), rpc_port.unwrap_or(RPC_PORT));
let rpc_service = JsonRpcService::new(
&bank,
node.info.contact_info.tpu,
drone_addr,
rpc_addr,
exit.clone(),
);
let window = window::new_window_from_entries(ledger_tail, entry_height, &node.info);
let shared_window = Arc::new(RwLock::new(window));
let mut crdt = Crdt::new(node.info).expect("Crdt::new");
if let Some(interval) = leader_rotation_interval {
crdt.set_leader_rotation_interval(interval);
}
let crdt = Arc::new(RwLock::new(crdt));
let ncp = Ncp::new(
&crdt,
shared_window.clone(),
Some(ledger_path),
node.sockets.gossip,
exit.clone(),
);
let keypair = Arc::new(keypair);
let node_role;
match leader_info {
Some(leader_info) => {
crdt.write().unwrap().insert(leader_info);
let tvu = Tvu::new(
keypair.clone(),
&bank,
entry_height,
crdt.clone(),
shared_window.clone(),
node.sockets
.replicate
.iter()
.map(|s| s.try_clone().expect("Failed to clone replicate sockets"))
.collect(),
node.sockets
.repair
.try_clone()
.expect("Failed to clone repair socket"),
node.sockets
.retransmit
.try_clone()
.expect("Failed to clone retransmit socket"),
Some(ledger_path),
);
let validator_state = ValidatorServices::new(tvu);
node_role = Some(NodeRole::Validator(validator_state));
}
None => {
let (tpu, entry_receiver, tpu_exit) = Tpu::new(
keypair.clone(),
&bank,
&crdt,
Default::default(),
node.sockets
.transaction
.iter()
.map(|s| s.try_clone().expect("Failed to clone transaction sockets"))
.collect(),
ledger_path,
sigverify_disabled,
entry_height,
);
let broadcast_stage = BroadcastStage::new(
node.sockets
.broadcast
.try_clone()
.expect("Failed to clone broadcast socket"),
crdt.clone(),
shared_window.clone(),
entry_height,
entry_receiver,
tpu_exit,
);
let leader_state = LeaderServices::new(tpu, broadcast_stage);
node_role = Some(NodeRole::Leader(leader_state));
}
}
Fullnode {
keypair,
crdt,
shared_window,
bank,
sigverify_disabled,
rpu,
ncp,
rpc_service,
node_role,
ledger_path: ledger_path.to_owned(),
exit,
replicate_socket: node.sockets.replicate,
repair_socket: node.sockets.repair,
retransmit_socket: node.sockets.retransmit,
transaction_sockets: node.sockets.transaction,
broadcast_socket: node.sockets.broadcast,
requests_socket: node.sockets.requests,
respond_socket: node.sockets.respond,
}
}
fn leader_to_validator(&mut self) -> Result<()> {
let (bank, entry_height, _) = Self::new_bank_from_ledger(&self.ledger_path);
self.bank = Arc::new(bank);
{
let mut wcrdt = self.crdt.write().unwrap();
let scheduled_leader = wcrdt.get_scheduled_leader(entry_height);
match scheduled_leader {
None => (),
Some(leader_id) => wcrdt.set_leader(leader_id),
}
}
if self.rpu.is_some() {
let old_rpu = self.rpu.take().unwrap();
old_rpu.close()?;
self.rpu = Some(Rpu::new(
&self.bank,
self.requests_socket
.try_clone()
.expect("Failed to clone requests socket"),
self.respond_socket
.try_clone()
.expect("Failed to clone respond socket"),
));
}
let tvu = Tvu::new(
self.keypair.clone(),
&self.bank,
entry_height,
self.crdt.clone(),
self.shared_window.clone(),
self.replicate_socket
.iter()
.map(|s| s.try_clone().expect("Failed to clone replicate sockets"))
.collect(),
self.repair_socket
.try_clone()
.expect("Failed to clone repair socket"),
self.retransmit_socket
.try_clone()
.expect("Failed to clone retransmit socket"),
Some(&self.ledger_path),
);
let validator_state = ValidatorServices::new(tvu);
self.node_role = Some(NodeRole::Validator(validator_state));
Ok(())
}
fn validator_to_leader(&mut self, entry_height: u64) {
self.crdt.write().unwrap().set_leader(self.keypair.pubkey());
let (tpu, blob_receiver, tpu_exit) = Tpu::new(
self.keypair.clone(),
&self.bank,
&self.crdt,
Default::default(),
self.transaction_sockets
.iter()
.map(|s| s.try_clone().expect("Failed to clone transaction sockets"))
.collect(),
&self.ledger_path,
self.sigverify_disabled,
entry_height,
);
let broadcast_stage = BroadcastStage::new(
self.broadcast_socket
.try_clone()
.expect("Failed to clone broadcast socket"),
self.crdt.clone(),
self.shared_window.clone(),
entry_height,
blob_receiver,
tpu_exit,
);
let leader_state = LeaderServices::new(tpu, broadcast_stage);
self.node_role = Some(NodeRole::Leader(leader_state));
}
pub fn handle_role_transition(&mut self) -> Result<Option<FullnodeReturnType>> {
let node_role = self.node_role.take();
match node_role {
Some(NodeRole::Leader(leader_services)) => match leader_services.join()? {
Some(TpuReturnType::LeaderRotation) => {
self.leader_to_validator()?;
Ok(Some(FullnodeReturnType::LeaderRotation))
}
_ => Ok(None),
},
Some(NodeRole::Validator(validator_services)) => match validator_services.join()? {
Some(TvuReturnType::LeaderRotation(entry_height)) => {
self.validator_to_leader(entry_height);
Ok(Some(FullnodeReturnType::LeaderRotation))
}
_ => Ok(None),
},
None => Ok(None),
}
}
pub fn exit(&self) {
self.exit.store(true, Ordering::Relaxed);
if let Some(ref rpu) = self.rpu {
rpu.exit();
}
match self.node_role {
Some(NodeRole::Leader(ref leader_services)) => leader_services.exit(),
Some(NodeRole::Validator(ref validator_services)) => validator_services.exit(),
_ => (),
}
}
pub fn close(self) -> Result<(Option<FullnodeReturnType>)> {
self.exit();
self.join()
}
pub fn set_scheduled_leader(&self, leader_id: Pubkey, entry_height: u64) {
self.crdt
.write()
.unwrap()
.set_scheduled_leader(entry_height, leader_id);
}
fn new_bank_from_ledger(ledger_path: &str) -> (Bank, u64, Vec<Entry>) {
let bank = Bank::new_default(false);
let entries = read_ledger(ledger_path, true).expect("opening ledger");
let entries = entries
.map(|e| e.unwrap_or_else(|err| panic!("failed to parse entry. error: {}", err)));
info!("processing ledger...");
let (entry_height, ledger_tail) = bank.process_ledger(entries).expect("process_ledger");
info!("processed {} ledger...", entry_height);
(bank, entry_height, ledger_tail)
}
}
impl Service for Fullnode {
type JoinReturnType = Option<FullnodeReturnType>;
fn join(self) -> Result<Option<FullnodeReturnType>> {
if let Some(rpu) = self.rpu {
rpu.join()?;
}
self.ncp.join()?;
self.rpc_service.join()?;
match self.node_role {
Some(NodeRole::Validator(validator_service)) => {
if let Some(TvuReturnType::LeaderRotation(_)) = validator_service.join()? {
return Ok(Some(FullnodeReturnType::LeaderRotation));
}
}
Some(NodeRole::Leader(leader_service)) => {
if let Some(TpuReturnType::LeaderRotation) = leader_service.join()? {
return Ok(Some(FullnodeReturnType::LeaderRotation));
}
}
_ => (),
}
Ok(None)
}
}