WasGood,
}
+impl AddressState {
+ pub fn from_num(num: u8) -> Option<AddressState> {
+ match num {
+ 0x0 => Some(AddressState::Untested),
+ 0x1 => Some(AddressState::LowBlockCount),
+ 0x2 => Some(AddressState::HighBlockCount),
+ 0x3 => Some(AddressState::LowVersion),
+ 0x4 => Some(AddressState::BadVersion),
+ 0x5 => Some(AddressState::NotFullNode),
+ 0x6 => Some(AddressState::ProtocolViolation),
+ 0x7 => Some(AddressState::Timeout),
+ 0x8 => Some(AddressState::TimeoutDuringRequest),
+ 0x9 => Some(AddressState::Good),
+ 0xa => Some(AddressState::WasGood),
+ _ => None,
+ }
+ }
+
+ pub fn to_num(&self) -> u8 {
+ match *self {
+ AddressState::Untested => 0,
+ AddressState::LowBlockCount => 1,
+ AddressState::HighBlockCount => 2,
+ AddressState::LowVersion => 3,
+ AddressState::BadVersion => 4,
+ AddressState::NotFullNode => 5,
+ AddressState::ProtocolViolation => 6,
+ AddressState::Timeout => 7,
+ AddressState::TimeoutDuringRequest => 8,
+ AddressState::Good => 9,
+ AddressState::WasGood => 10,
+ }
+ }
+
+ pub fn to_str(&self) -> &'static str {
+ match *self {
+ AddressState::Untested => "Untested",
+ AddressState::LowBlockCount => "Low Block Count",
+ AddressState::HighBlockCount => "High Block Count",
+ AddressState::LowVersion => "Low Version",
+ AddressState::BadVersion => "Bad Version",
+ AddressState::NotFullNode => "Not Full Node",
+ AddressState::ProtocolViolation => "Protocol Violation",
+ AddressState::Timeout => "Timeout",
+ AddressState::TimeoutDuringRequest => "Timeout During Request",
+ AddressState::Good => "Good",
+ AddressState::WasGood => "Was Good",
+ }
+ }
+
+ pub fn get_count() -> u8 {
+ 11
+ }
+}
+
#[derive(Hash, PartialEq, Eq)]
pub enum U64Setting {
ConnsPerSec,
}
struct Node {
- state: AddressState,
- last_services: u64,
last_update: Instant,
+ last_good: Instant, // Ignored unless state is Good or WasGood
+ last_services: u64,
+ state: AddressState,
}
struct Nodes {
let state = try_read!(line_iter, u8);
let last_services = try_read!(line_iter, u64);
let node = Node {
- state: match state {
- 0x0 => AddressState::Untested,
- 0x1 => AddressState::LowBlockCount,
- 0x2 => AddressState::HighBlockCount,
- 0x3 => AddressState::LowVersion,
- 0x4 => AddressState::BadVersion,
- 0x5 => AddressState::NotFullNode,
- 0x6 => AddressState::ProtocolViolation,
- 0x7 => AddressState::Timeout,
- 0x8 => AddressState::TimeoutDuringRequest,
- 0x9 => AddressState::Good,
- 0xa => AddressState::WasGood,
- _ => return future::ok(res),
+ state: match AddressState::from_num(state) {
+ Some(v) => v,
+ None => return future::ok(res),
},
last_services,
last_update: Instant::now(),
+ last_good: Instant::now(),
};
if node.state == AddressState::Good {
for i in 0..64 {
state: AddressState::Untested,
last_services: 0,
last_update: cur_time,
+ last_good: Instant::now(),
});
nodes.state_next_scan.get_mut(&AddressState::Untested).unwrap().push((cur_time, socketaddr));
},
}
}
- pub fn set_node_state(&self, addr: SocketAddr, state: AddressState, services: u64) {
+ pub fn set_node_state(&self, addr: SocketAddr, state: AddressState, services: u64) -> bool {
let mut nodes_lock = self.nodes.write().unwrap();
let nodes = nodes_lock.borrow_mut();
let state_ref = nodes.nodes_to_state.get_mut(&addr).unwrap();
- state_ref.last_update = Instant::now();
- if state_ref.state == AddressState::Good && state != AddressState::Good {
+ let ret = state != state_ref.state;
+ let now = Instant::now();
+ if (state_ref.state == AddressState::Good || state_ref.state == AddressState::WasGood)
+ && state != AddressState::Good
+ && state_ref.last_good >= now - Duration::from_secs(self.get_u64(U64Setting::WasGoodTimeout)) {
state_ref.state = AddressState::WasGood;
for i in 0..64 {
if state_ref.last_services & (1 << i) != 0 {
}
}
state_ref.last_services = 0;
- nodes.state_next_scan.get_mut(&AddressState::WasGood).unwrap().push((state_ref.last_update, addr));
+ nodes.state_next_scan.get_mut(&AddressState::WasGood).unwrap().push((now, addr));
} else {
state_ref.state = state;
if state == AddressState::Good {
nodes.good_node_services.get_mut(&i).unwrap().remove(&addr);
}
}
+ state_ref.last_services = services;
+ state_ref.last_good = now;
}
- nodes.state_next_scan.get_mut(&state).unwrap().push((state_ref.last_update, addr));
+ nodes.state_next_scan.get_mut(&state).unwrap().push((now, addr));
}
+ state_ref.last_update = now;
+ ret
}
pub fn save_data(&'static self) -> impl Future<Item=(), Error=()> {
for (ref sockaddr, ref node) in nodes.nodes_to_state.iter() {
nodes_buff += &sockaddr.to_string();
nodes_buff += ",";
- nodes_buff += &match node.state {
- AddressState::Untested => 0u8,
- AddressState::LowBlockCount => 1u8,
- AddressState::HighBlockCount => 2u8,
- AddressState::LowVersion => 3u8,
- AddressState::BadVersion => 4u8,
- AddressState::NotFullNode => 5u8,
- AddressState::ProtocolViolation => 6u8,
- AddressState::Timeout => 7u8,
- AddressState::TimeoutDuringRequest => 8u8,
- AddressState::Good => 9u8,
- AddressState::WasGood => 10u8,
- }.to_string();
+ nodes_buff += &node.state.to_num().to_string();
nodes_buff += ",";
nodes_buff += &node.last_services.to_string();
nodes_buff += "\n";
.choose_multiple(&mut rng, 12).iter().map(|e| e.ip()).collect();
}
for a in v4_set {
- dns_buff += &format!("x{:x}.dnsseed.bluematt.me\tIN\tA\t{}\n", i, a);
+ dns_buff += &format!("x{:x}.dnsseed\tIN\tA\t{}\n", i, a);
}
for a in v6_set {
- dns_buff += &format!("x{:x}.dnsseed.bluematt.me\tIN\tAAAA\t{}\n", i, a);
+ dns_buff += &format!("x{:x}.dnsseed\tIN\tAAAA\t{}\n", i, a);
}
}
}