// Copyright 2023 The Grim Developers // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. use std::{fs, thread}; use std::fmt::format; use std::ops::Deref; use std::path::{Path, PathBuf}; use std::sync::{Arc, LockResult, RwLock, RwLockReadGuard}; use std::sync::atomic::{AtomicBool, AtomicPtr, Ordering}; use std::thread::JoinHandle; use std::time::Duration; use futures::channel::oneshot; use grin_chain::SyncStatus; use grin_config::config; use grin_core::global; use grin_core::global::ChainTypes; use grin_servers::{Server, ServerStats}; use grin_servers::common::types::Error; use grin_util::logger::LogEntry; use grin_util::StopState; use log::info; pub struct Node { /// Node state updated from the separate thread pub(crate) state: Arc, } impl Node { /// Instantiate new node with provided chain type, start server if needed pub fn new(chain_type: ChainTypes, start: bool) -> Self { let state = Arc::new(NodeState::new(chain_type)); if start { start_server_thread(state.clone(), chain_type); } Self { state } } /// Stop server pub fn stop(&self) { self.state.stop_needed.store(true, Ordering::Relaxed); } /// Start server with provided chain type pub fn start(&self, chain_type: ChainTypes) { if !self.state.is_running() { start_server_thread(self.state.clone(), chain_type); } } /// Restart server or start when not running pub fn restart(&mut self) { if self.state.is_running() { self.state.restart_needed.store(true, Ordering::Relaxed); } else { self.start(*self.state.chain_type); } } } pub struct NodeState { /// Data for UI, None means server is not running stats: Arc>>, /// Chain type of launched server chain_type: Arc, /// Thread flag to stop the server and start it again restart_needed: AtomicBool, /// Thread flag to stop the server stop_needed: AtomicBool, } impl NodeState { /// Instantiate new node state with provided chain type and server state pub fn new(chain_type: ChainTypes) -> Self { Self { stats: Arc::new(RwLock::new(None)), chain_type: Arc::new(chain_type), restart_needed: AtomicBool::new(false), stop_needed: AtomicBool::new(false), } } /// Check if server is running when stats are not empty pub fn is_running(&self) -> bool { self.get_stats().is_some() } /// Check if server is stopping pub fn is_stopping(&self) -> bool { self.stop_needed.load(Ordering::Relaxed) } /// Check if server is restarting pub fn is_restarting(&self) -> bool { self.restart_needed.load(Ordering::Relaxed) } /// Get server stats pub fn get_stats(&self) -> RwLockReadGuard<'_, Option> { self.stats.read().unwrap() } /// Get server sync status, empty when server is not running pub fn get_sync_status(&self) -> Option { // return shutdown status when node is stopping if self.is_stopping() { return Some(SyncStatus::Shutdown) } let stats = self.get_stats(); // return sync status when server is running (stats are not empty) if stats.is_some() { return Some(stats.as_ref().unwrap().sync_status) } None } /// Check if server is syncing based on sync status pub fn is_syncing(&self) -> bool { let sync_status = self.get_sync_status(); match sync_status { None => { self.is_restarting() } Some(s) => { s!= SyncStatus::NoSync } } } } /// Start a thread to launch server and update node state with server stats fn start_server_thread(state: Arc, chain_type: ChainTypes) -> JoinHandle<()> { thread::spawn(move || { let mut server = start_server(&chain_type); loop { thread::sleep(Duration::from_millis(500)); if state.is_restarting() { server.stop(); // Create new server with current chain type server = start_server(&state.chain_type); state.restart_needed.store(false, Ordering::Relaxed); } else if state.is_stopping() { server.stop(); let mut w_stats = state.stats.write().unwrap(); *w_stats = None; state.stop_needed.store(false, Ordering::Relaxed); break; } else { let stats = server.get_server_stats(); if stats.is_ok() { let mut w_stats = state.stats.write().unwrap(); *w_stats = Some(stats.as_ref().ok().unwrap().clone()); } } } }) } /// Start server with provided chain type fn start_server(chain_type: &ChainTypes) -> Server { let mut node_config_result = config::initial_setup_server(chain_type); if node_config_result.is_err() { // Remove config file on init error let mut grin_path = dirs::home_dir().unwrap(); grin_path.push(".grin"); grin_path.push(chain_type.shortname()); grin_path.push(config::SERVER_CONFIG_FILE_NAME); fs::remove_file(grin_path).unwrap(); // Reinit config node_config_result = config::initial_setup_server(chain_type); } let node_config = node_config_result.ok(); let config = node_config.clone().unwrap(); let server_config = config.members.as_ref().unwrap().server.clone(); // Remove lock file (in case if we have running node from another app) { let mut db_path = PathBuf::from(&server_config.db_root); db_path.push("grin.lock"); fs::remove_file(db_path).unwrap(); } // Initialize our global chain_type, feature flags (NRD kernel support currently), // accept_fee_base, and future_time_limit. // These are read via global and not read from config beyond this point. if !global::GLOBAL_CHAIN_TYPE.is_init() { global::init_global_chain_type(config.members.as_ref().unwrap().server.chain_type); } info!("Chain: {:?}", global::get_chain_type()); if !global::GLOBAL_NRD_FEATURE_ENABLED.is_init() { match global::get_chain_type() { ChainTypes::Mainnet => { // Set various mainnet specific feature flags. global::init_global_nrd_enabled(false); } _ => { // Set various non-mainnet feature flags. global::init_global_nrd_enabled(true); } } } if !global::GLOBAL_ACCEPT_FEE_BASE.is_init() { let afb = config .members .as_ref() .unwrap() .server .pool_config .accept_fee_base; global::init_global_accept_fee_base(afb); info!("Accept Fee Base: {:?}", global::get_accept_fee_base()); } if !global::GLOBAL_FUTURE_TIME_LIMIT.is_init() { global::init_global_future_time_limit(config.members.unwrap().server.future_time_limit); info!("Future Time Limit: {:?}", global::get_future_time_limit()); } let api_chan: &'static mut (oneshot::Sender<()>, oneshot::Receiver<()>) = Box::leak(Box::new(oneshot::channel::<()>())); let mut server_result = Server::new(server_config.clone(), None, api_chan); if server_result.is_err() { let mut db_path = PathBuf::from(&server_config.db_root); db_path.push("grin.lock"); fs::remove_file(db_path).unwrap(); // Remove chain data on server start error let dirs_to_remove: Vec<&str> = vec!["header", "lmdb", "txhashset"]; for dir in dirs_to_remove { let mut path = PathBuf::from(&server_config.db_root); path.push(dir); fs::remove_dir_all(path).unwrap(); } // Recreate server let config = node_config.clone().unwrap(); let server_config = config.members.as_ref().unwrap().server.clone(); let api_chan: &'static mut (oneshot::Sender<()>, oneshot::Receiver<()>) = Box::leak(Box::new(oneshot::channel::<()>())); server_result = Server::new(server_config.clone(), None, api_chan); } server_result.unwrap() }