Dont ever run two scan threads

[dnsseed-rust] / src / main.rs

mod printer;
mod reader;
mod peer;
mod timeout_stream;
mod datastore;

use std::env;
use std::collections::HashMap;
use std::sync::{Arc, Mutex};
use std::sync::atomic::{Ordering, AtomicBool};
use std::time::{Duration, Instant};
use std::net::SocketAddr;

use bitcoin_hashes::sha256d;

use bitcoin::blockdata::constants::genesis_block;
use bitcoin::network::constants::Network;
use bitcoin::network::message::NetworkMessage;
use bitcoin::network::message_blockdata::{GetHeadersMessage, Inventory, InvType};
use bitcoin::util::hash::BitcoinHash;

use printer::{Printer, Stat};
use peer::Peer;
use datastore::{AddressState, Store, U64Setting, RegexSetting};
use timeout_stream::TimeoutStream;

use tokio::prelude::*;
use tokio::timer::Delay;

static mut HIGHEST_HEADER: Option<Box<Mutex<(sha256d::Hash, u64)>>> = None;
static mut HEADER_MAP: Option<Box<Mutex<HashMap<sha256d::Hash, u64>>>> = None;
static mut HEIGHT_MAP: Option<Box<Mutex<HashMap<u64, sha256d::Hash>>>> = None;
static mut DATA_STORE: Option<Box<Store>> = None;
static mut PRINTER: Option<Box<Printer>> = None;
pub static START_SHUTDOWN: AtomicBool = AtomicBool::new(false);
static SCANNING: AtomicBool = AtomicBool::new(false);

struct PeerState {
        request: (u64, sha256d::Hash),
        node_services: u64,
        msg: (String, bool),
        fail_reason: AddressState,
        recvd_version: bool,
        recvd_verack: bool,
        recvd_addrs: bool,
        recvd_block: bool,
}

pub fn scan_node(scan_time: Instant, node: SocketAddr) {
        if START_SHUTDOWN.load(Ordering::Relaxed) { return; }
        let printer = unsafe { PRINTER.as_ref().unwrap() };
        let store = unsafe { DATA_STORE.as_ref().unwrap() };

        let peer_state = Arc::new(Mutex::new(PeerState {
                recvd_version: false,
                recvd_verack: false,
                recvd_addrs: false,
                recvd_block: false,
                node_services: 0,
                fail_reason: AddressState::Timeout,
                msg: (String::new(), false),
                request: (0, Default::default()),
        }));
        let final_peer_state = Arc::clone(&peer_state);

        let peer = Delay::new(scan_time).then(move |_| {
                printer.set_stat(Stat::NewConnection);
                let timeout = store.get_u64(U64Setting::RunTimeout);
                Peer::new(node.clone(), Duration::from_secs(timeout), printer)
        });
        tokio::spawn(peer.and_then(move |(mut write, read)| {
                let requested_height = unsafe { HIGHEST_HEADER.as_ref().unwrap() }.lock().unwrap().1 - 1008;
                let requested_block = unsafe { HEIGHT_MAP.as_ref().unwrap() }.lock().unwrap().get(&requested_height).unwrap().clone();
                peer_state.lock().unwrap().request = (requested_height, requested_block);

                TimeoutStream::new_timeout(read, scan_time + Duration::from_secs(store.get_u64(U64Setting::RunTimeout))).map_err(|_| { () }).for_each(move |msg| {
                        let mut state_lock = peer_state.lock().unwrap();
                        macro_rules! check_set_flag {
                                ($recvd_flag: ident, $msg: expr) => { {
                                        if state_lock.$recvd_flag {
                                                state_lock.fail_reason = AddressState::ProtocolViolation;
                                                state_lock.msg = (format!("ProtocolViolation due to dup {}", $msg), true);
                                                state_lock.$recvd_flag = false;
                                                return future::err(());
                                        }
                                        state_lock.$recvd_flag = true;
                                } }
                        }
                        state_lock.fail_reason = AddressState::TimeoutDuringRequest;
                        match msg {
                                NetworkMessage::Version(ver) => {
                                        if ver.start_height < 0 || ver.start_height as u64 > state_lock.request.0 + 1008*2 {
                                                state_lock.fail_reason = AddressState::HighBlockCount;
                                                return future::err(());
                                        }
                                        let safe_ua = ver.user_agent.replace(|c: char| !c.is_ascii() || c < ' ' || c > '~', "");
                                        if (ver.start_height as u64) < state_lock.request.0 {
                                                state_lock.msg = (format!("LowBlockCount ({} < {})", ver.start_height, state_lock.request.0), true);
                                                state_lock.fail_reason = AddressState::LowBlockCount;
                                                return future::err(());
                                        }
                                        let min_version = store.get_u64(U64Setting::MinProtocolVersion);
                                        if (ver.version as u64) < min_version {
                                                state_lock.msg = (format!("LowVersion ({} < {})", ver.version, min_version), true);
                                                state_lock.fail_reason = AddressState::LowVersion;
                                                return future::err(());
                                        }
                                        if ver.services & (1 | (1 << 10)) == 0 {
                                                state_lock.msg = (format!("NotFullNode ({}: services {:x})", safe_ua, ver.services), true);
                                                state_lock.fail_reason = AddressState::NotFullNode;
                                                return future::err(());
                                        }
                                        if !store.get_regex(RegexSetting::SubverRegex).is_match(&ver.user_agent) {
                                                state_lock.msg = (format!("BadVersion subver {}", safe_ua), true);
                                                state_lock.fail_reason = AddressState::BadVersion;
                                                return future::err(());
                                        }
                                        check_set_flag!(recvd_version, "version");
                                        state_lock.node_services = ver.services;
                                        state_lock.msg = (format!("to Good: {}", safe_ua), false);
                                        if let Err(_) = write.try_send(NetworkMessage::Verack) {
                                                return future::err(());
                                        }
                                },
                                NetworkMessage::Verack => {
                                        check_set_flag!(recvd_verack, "verack");
                                        if let Err(_) = write.try_send(NetworkMessage::GetAddr) {
                                                return future::err(());
                                        }
                                },
                                NetworkMessage::Ping(v) => {
                                        if let Err(_) = write.try_send(NetworkMessage::Pong(v)) {
                                                return future::err(())
                                        }
                                },
                                NetworkMessage::Addr(addrs) => {
                                        if addrs.len() > 1000 {
                                                state_lock.fail_reason = AddressState::ProtocolViolation;
                                                state_lock.msg = (format!("ProtocolViolation due to oversized addr: {}", addrs.len()), true);
                                                state_lock.recvd_addrs = false;
                                                return future::err(());
                                        }
                                        if !state_lock.recvd_addrs {
                                                if let Err(_) = write.try_send(NetworkMessage::GetData(vec![Inventory {
                                                        inv_type: InvType::WitnessBlock,
                                                        hash: state_lock.request.1,
                                                }])) {
                                                        return future::err(());
                                                }
                                        }
                                        state_lock.recvd_addrs = true;
                                        unsafe { DATA_STORE.as_ref().unwrap() }.add_fresh_nodes(&addrs);
                                },
                                NetworkMessage::Block(block) => {
                                        if block.header.bitcoin_hash() != state_lock.request.1 ||
                                                        !block.check_merkle_root() || !block.check_witness_commitment() {
                                                state_lock.fail_reason = AddressState::ProtocolViolation;
                                                state_lock.msg = ("ProtocolViolation due to bad block".to_string(), true);
                                                return future::err(());
                                        }
                                        check_set_flag!(recvd_block, "block");
                                },
                                _ => {},
                        }
                        future::ok(())
                }).then(|_| {
                        future::err(())
                })
        }).then(move |_: Result<(), ()>| {
                let printer = unsafe { PRINTER.as_ref().unwrap() };
                let store = unsafe { DATA_STORE.as_ref().unwrap() };
                printer.set_stat(Stat::ConnectionClosed);

                let state_lock = final_peer_state.lock().unwrap();
                if state_lock.recvd_version && state_lock.recvd_verack &&
                                state_lock.recvd_addrs && state_lock.recvd_block {
                        let old_state = store.set_node_state(node, AddressState::Good, state_lock.node_services);
                        if old_state != AddressState::Good && state_lock.msg.0 != "" {
                                printer.add_line(format!("Updating {} from {} to {}", node, old_state.to_str(), &state_lock.msg.0), state_lock.msg.1);
                        }
                } else {
                        assert!(state_lock.fail_reason != AddressState::Good);
                        let old_state = store.set_node_state(node, state_lock.fail_reason, 0);
                        if old_state != state_lock.fail_reason && state_lock.msg.0 != "" && state_lock.msg.1 {
                                printer.add_line(format!("Updating {} from {} to {}", node, old_state.to_str(), &state_lock.msg.0), state_lock.msg.1);
                        }
                }
                future::ok(())
        }));
}

fn scan_net() {
        tokio::spawn(future::lazy(|| {
                let store = unsafe { DATA_STORE.as_ref().unwrap() };
                let mut scan_nodes = store.get_next_scan_nodes();
                let per_iter_time = Duration::from_millis(1000 / store.get_u64(U64Setting::ConnsPerSec));
                let mut iter_time = Instant::now();

                for node in scan_nodes.drain(..) {
                        scan_node(iter_time, node);
                        iter_time += per_iter_time;
                }
                Delay::new(iter_time).then(|_| {
                        let store = unsafe { DATA_STORE.as_ref().unwrap() };
                        store.save_data().then(|_| {
                                if !START_SHUTDOWN.load(Ordering::Relaxed) {
                                        scan_net();
                                }
                                future::ok(())
                        })
                })
        }));
}

fn make_trusted_conn(trusted_sockaddr: SocketAddr) {
        let printer = unsafe { PRINTER.as_ref().unwrap() };
        let trusted_peer = Peer::new(trusted_sockaddr.clone(), Duration::from_secs(600), printer);
        tokio::spawn(trusted_peer.and_then(move |(mut trusted_write, trusted_read)| {
                printer.add_line("Connected to local peer".to_string(), false);
                let mut starting_height = 0;
                TimeoutStream::new_persistent(trusted_read, Duration::from_secs(600)).map_err(|_| { () }).for_each(move |msg| {
                        if START_SHUTDOWN.load(Ordering::Relaxed) {
                                return future::err(());
                        }
                        match msg {
                                NetworkMessage::Version(ver) => {
                                        if let Err(_) = trusted_write.try_send(NetworkMessage::Verack) {
                                                return future::err(())
                                        }
                                        starting_height = ver.start_height;
                                },
                                NetworkMessage::Verack => {
                                        if let Err(_) = trusted_write.try_send(NetworkMessage::GetHeaders(GetHeadersMessage {
                                                version: 70015,
                                                locator_hashes: vec![unsafe { HIGHEST_HEADER.as_ref().unwrap() }.lock().unwrap().0.clone()],
                                                stop_hash: Default::default(),
                                        })) {
                                                return future::err(());
                                        }
                                        if let Err(_) = trusted_write.try_send(NetworkMessage::GetAddr) {
                                                return future::err(());
                                        }
                                },
                                NetworkMessage::Addr(addrs) => {
                                        unsafe { DATA_STORE.as_ref().unwrap() }.add_fresh_nodes(&addrs);
                                },
                                NetworkMessage::Headers(headers) => {
                                        if headers.is_empty() {
                                                return future::ok(());
                                        }
                                        let mut header_map = unsafe { HEADER_MAP.as_ref().unwrap() }.lock().unwrap();
                                        let mut height_map = unsafe { HEIGHT_MAP.as_ref().unwrap() }.lock().unwrap();
                                        if let Some(height) = header_map.get(&headers[0].prev_blockhash).cloned() {
                                                for i in 0..headers.len() {
                                                        let hash = headers[i].bitcoin_hash();
                                                        if i < headers.len() - 1 && headers[i + 1].prev_blockhash != hash {
                                                                return future::err(());
                                                        }
                                                        header_map.insert(headers[i].bitcoin_hash(), height + 1 + (i as u64));
                                                        height_map.insert(height + 1 + (i as u64), headers[i].bitcoin_hash());
                                                }
                                                let top_height = height + headers.len() as u64;
                                                *unsafe { HIGHEST_HEADER.as_ref().unwrap() }.lock().unwrap()
                                                        = (headers.last().unwrap().bitcoin_hash(), top_height);
                                                printer.set_stat(printer::Stat::HeaderCount(top_height));
                                                if top_height >= starting_height as u64 {
                                                        if !SCANNING.swap(true, Ordering::SeqCst) {
                                                                scan_net();
                                                        }
                                                }
                                        } else {
                                                // Wat? Lets start again...
                                                printer.add_line("Got unconnected headers message from local trusted peer".to_string(), true);
                                        }
                                        if let Err(_) = trusted_write.try_send(NetworkMessage::GetHeaders(GetHeadersMessage {
                                                version: 70015,
                                                locator_hashes: vec![unsafe { HIGHEST_HEADER.as_ref().unwrap() }.lock().unwrap().0.clone()],
                                                stop_hash: Default::default(),
                                        })) {
                                                return future::err(())
                                        }
                                },
                                NetworkMessage::Ping(v) => {
                                        if let Err(_) = trusted_write.try_send(NetworkMessage::Pong(v)) {
                                                return future::err(())
                                        }
                                },
                                _ => {},
                        }
                        future::ok(())
                }).then(|_| {
                        future::err(())
                })
        }).then(move |_: Result<(), ()>| {
                if !START_SHUTDOWN.load(Ordering::Relaxed) {
                        printer.add_line("Lost connection from trusted peer".to_string(), true);
                        make_trusted_conn(trusted_sockaddr);
                }
                future::ok(())
        }));
}

fn main() {
        if env::args().len() != 3 {
                println!("USAGE: dnsseed-rust datastore localPeerAddress");
                return;
        }

        unsafe { HEADER_MAP = Some(Box::new(Mutex::new(HashMap::new()))) };
        unsafe { HEIGHT_MAP = Some(Box::new(Mutex::new(HashMap::new()))) };
        unsafe { HEADER_MAP.as_ref().unwrap() }.lock().unwrap().insert(genesis_block(Network::Bitcoin).bitcoin_hash(), 0);
        unsafe { HEIGHT_MAP.as_ref().unwrap() }.lock().unwrap().insert(0, genesis_block(Network::Bitcoin).bitcoin_hash());
        unsafe { HIGHEST_HEADER = Some(Box::new(Mutex::new((genesis_block(Network::Bitcoin).bitcoin_hash(), 0)))) };

        tokio::run(future::lazy(|| {
                let mut args = env::args();
                args.next();
                let path = args.next().unwrap();
                let addr = args.next().unwrap();

                Store::new(path).and_then(move |store| {
                        unsafe { DATA_STORE = Some(Box::new(store)) };
                        let store = unsafe { DATA_STORE.as_ref().unwrap() };
                        unsafe { PRINTER = Some(Box::new(Printer::new(store))) };

                        let trusted_sockaddr: SocketAddr = addr.parse().unwrap();
                        make_trusted_conn(trusted_sockaddr);

                        reader::read(store, unsafe { PRINTER.as_ref().unwrap() });

                        future::ok(())
                }).or_else(|_| {
                        future::err(())
                })
        }));

        tokio::run(future::lazy(|| {
                unsafe { DATA_STORE.as_ref().unwrap() }.save_data()
        }));
}