Reconnect on network errors; use Mutexes to control Socket access more precisely
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9be493eeaf
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@ -77,8 +77,9 @@ pub trait Listener {
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recv_tx.send(payload);
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}
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Err(e) => {
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println!("Received error {:} when decoding message. Pausing for 1sec.", e);
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timer::sleep(1000);
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println!("Received error {:} when decoding message. Pausing for 5 seconds then reconnecting.", e);
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timer::sleep(5000);
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sock.reconnect();
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}
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}
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}
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@ -20,8 +20,10 @@
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use time::now;
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use std::rand::task_rng;
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use rand::Rng;
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use std::io::{BufferedReader, BufferedWriter};
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use std::io::{IoError, IoResult, NotConnected, OtherIoError, standard_error};
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use std::io::net::{ip, tcp};
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use std::sync::{Arc, Mutex};
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use network::constants;
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use network::address::Address;
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@ -47,8 +49,14 @@ fn ipaddr_to_bitcoin_addr(ipaddr: &ip::IpAddr) -> [u8, ..16] {
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/// A network socket along with information about the peer
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#[deriving(Clone)]
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pub struct Socket {
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/// The underlying network data stream
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stream: Option<tcp::TcpStream>,
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/// The underlying socket, which is only used directly to (a) get
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/// information about the socket, and (b) to close down the socket,
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/// quickly cancelling any read/writes and unlocking the Mutexes.
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socket: Option<tcp::TcpStream>,
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/// The underlying network data stream read buffer
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buffered_reader: Arc<Mutex<Option<BufferedReader<tcp::TcpStream>>>>,
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/// The underlying network data stream write buffer
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buffered_writer: Arc<Mutex<Option<BufferedWriter<tcp::TcpStream>>>>,
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/// Services supported by us
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pub services: u64,
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/// Our user agent
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@ -65,7 +73,9 @@ impl Socket {
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pub fn new(network: constants::Network) -> Socket {
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let mut rng = task_rng();
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Socket {
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stream: None,
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socket: None,
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buffered_reader: Arc::new(Mutex::new(None)),
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buffered_writer: Arc::new(Mutex::new(None)),
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services: 0,
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version_nonce: rng.gen(),
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user_agent: String::from_str(constants::USER_AGENT),
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@ -75,18 +85,40 @@ impl Socket {
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/// Connect to the peer
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pub fn connect(&mut self, host: &str, port: u16) -> IoResult<()> {
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// Boot off any lingering readers or writers
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if self.socket.is_some() {
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let _ = self.socket.get_mut_ref().close_read();
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let _ = self.socket.get_mut_ref().close_write();
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}
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// These locks should just pop open now
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let mut reader_lock = self.buffered_reader.lock();
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let mut writer_lock = self.buffered_writer.lock();
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match tcp::TcpStream::connect(host, port) {
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Ok(s) => {
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self.stream = Some(s);
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*reader_lock = Some(BufferedReader::new(s.clone()));
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*writer_lock = Some(BufferedWriter::new(s.clone()));
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self.socket = Some(s);
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Ok(())
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}
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Err(e) => Err(e)
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}
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}
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/// Reset the connection to the peer
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pub fn reconnect(&mut self) -> IoResult<()> {
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let (host, port) = match self.socket {
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Some(ref mut s) => match s.peer_name() {
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Ok(addr) => (format!("{}", addr.ip), addr.port),
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Err(e) => { return Err(e); }
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},
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None => { return Err(standard_error(NotConnected)); }
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};
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self.connect(host.as_slice(), port)
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}
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/// Peer address
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pub fn receiver_address(&mut self) -> IoResult<Address> {
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match self.stream {
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match self.socket {
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Some(ref mut s) => match s.peer_name() {
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Ok(addr) => {
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Ok(Address {
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@ -103,7 +135,7 @@ impl Socket {
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/// Our own address
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pub fn sender_address(&mut self) -> IoResult<Address> {
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match self.stream {
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match self.socket {
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Some(ref mut s) => match s.socket_name() {
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Ok(addr) => {
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Ok(Address {
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@ -148,15 +180,13 @@ impl Socket {
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/// Send a general message across the line
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pub fn send_message(&mut self, payload: NetworkMessage) -> IoResult<()> {
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if self.stream.is_none() {
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Err(standard_error(NotConnected))
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}
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else {
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let stream = self.stream.get_mut_ref();
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let message = RawNetworkMessage { magic: self.magic, payload: payload };
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match stream.write(message.serialize().as_slice()) {
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Ok(_) => Ok(()),
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Err(e) => Err(e)
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let mut writer_lock = self.buffered_writer.lock();
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match *writer_lock.deref_mut() {
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None => Err(standard_error(NotConnected)),
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Some(ref mut writer) => {
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let message = RawNetworkMessage { magic: self.magic, payload: payload };
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try!(writer.write(message.serialize().as_slice()));
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writer.flush()
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}
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}
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}
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@ -164,15 +194,16 @@ impl Socket {
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/// Receive the next message from the peer, decoding the network header
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/// and verifying its correctness. Returns the undecoded payload.
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pub fn receive_message(&mut self) -> IoResult<NetworkMessage> {
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match self.stream {
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let mut reader_lock = self.buffered_reader.lock();
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match *reader_lock.deref_mut() {
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None => Err(standard_error(NotConnected)),
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Some(ref mut s) => {
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Some(ref mut buf) => {
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let mut read_err = None;
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// We need a new scope since the closure in here borrows read_err,
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// and we try to read it afterward. Letting `iter` go out fixes it.
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let ret: IoResult<RawNetworkMessage> = {
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// Set up iterator so we will catch network errors properly
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let iter = s.bytes().filter_map(|res|
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let iter = buf.bytes().filter_map(|res|
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match res {
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Ok(ch) => Some(ch),
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Err(e) => { read_err = Some(e); None }
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@ -183,11 +214,15 @@ impl Socket {
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// Return
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match read_err {
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// Network errors get priority since they are probably more meaningful
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Some(e) => prepend_err("network", Err(e)),
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Some(e) => {
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prepend_err("network", Err(e))
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},
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_ => {
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match ret {
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// Next come parse errors
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Err(e) => prepend_err("decode", Err(e)),
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Err(e) => {
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prepend_err("decode", Err(e))
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},
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Ok(ret) => {
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// Finally magic (this should come before parse error, but we can't
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// get to it if the deserialization failed). TODO restructure this
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