690 lines
22 KiB
Rust
690 lines
22 KiB
Rust
// Copyright 2015-2017 Parity Technologies (UK) Ltd.
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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use std::sync::Arc;
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use std::collections::VecDeque;
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use std::net::SocketAddr;
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use std::sync::atomic::{AtomicBool, Ordering as AtomicOrdering};
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use mio::{Token, Ready, PollOpt};
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use mio::deprecated::{Handler, EventLoop, TryRead, TryWrite};
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use mio::tcp::*;
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use util::hash::*;
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use util::sha3::*;
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use util::bytes::*;
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use rlp::*;
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use std::io::{self, Cursor, Read, Write};
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use error::*;
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use io::{IoContext, StreamToken};
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use handshake::Handshake;
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use stats::NetworkStats;
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use rcrypto::blockmodes::*;
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use rcrypto::aessafe::*;
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use rcrypto::symmetriccipher::*;
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use rcrypto::buffer::*;
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use tiny_keccak::Keccak;
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use bytes::{Buf, BufMut};
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use crypto;
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const ENCRYPTED_HEADER_LEN: usize = 32;
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const RECIEVE_PAYLOAD_TIMEOUT: u64 = 30000;
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pub trait GenericSocket : Read + Write {
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}
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impl GenericSocket for TcpStream {
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}
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pub struct GenericConnection<Socket: GenericSocket> {
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/// Connection id (token)
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pub token: StreamToken,
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/// Network socket
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pub socket: Socket,
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/// Receive buffer
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rec_buf: Bytes,
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/// Expected size
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rec_size: usize,
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/// Send out packets FIFO
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send_queue: VecDeque<Cursor<Bytes>>,
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/// Event flags this connection expects
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interest: Ready,
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/// Shared network statistics
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stats: Arc<NetworkStats>,
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/// Registered flag
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registered: AtomicBool,
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}
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impl<Socket: GenericSocket> GenericConnection<Socket> {
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pub fn expect(&mut self, size: usize) {
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trace!(target:"network", "Expect to read {} bytes", size);
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if self.rec_size != self.rec_buf.len() {
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warn!(target:"network", "Unexpected connection read start");
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}
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self.rec_size = size;
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}
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/// Readable IO handler. Called when there is some data to be read.
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pub fn readable(&mut self) -> io::Result<Option<Bytes>> {
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if self.rec_size == 0 || self.rec_buf.len() >= self.rec_size {
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return Ok(None);
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}
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let sock_ref = <Socket as Read>::by_ref(&mut self.socket);
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loop {
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let max = self.rec_size - self.rec_buf.len();
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match sock_ref.take(max as u64).try_read(unsafe { self.rec_buf.bytes_mut() }) {
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Ok(Some(size)) if size != 0 => {
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unsafe { self.rec_buf.advance_mut(size); }
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self.stats.inc_recv(size);
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trace!(target:"network", "{}: Read {} of {} bytes", self.token, self.rec_buf.len(), self.rec_size);
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if self.rec_size != 0 && self.rec_buf.len() == self.rec_size {
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self.rec_size = 0;
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return Ok(Some(::std::mem::replace(&mut self.rec_buf, Bytes::new())))
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}
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else if self.rec_buf.len() > self.rec_size {
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warn!(target:"network", "Read past buffer {} bytes", self.rec_buf.len() - self.rec_size);
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return Ok(Some(::std::mem::replace(&mut self.rec_buf, Bytes::new())))
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}
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},
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Ok(_) => return Ok(None),
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Err(e) => {
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debug!(target:"network", "Read error {} ({})", self.token, e);
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return Err(e)
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}
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}
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}
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}
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/// Add a packet to send queue.
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pub fn send<Message>(&mut self, io: &IoContext<Message>, data: Bytes) where Message: Send + Clone + Sync + 'static {
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if !data.is_empty() {
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trace!(target:"network", "{}: Sending {} bytes", self.token, data.len());
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self.send_queue.push_back(Cursor::new(data));
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if !self.interest.is_writable() {
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self.interest.insert(Ready::writable());
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}
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io.update_registration(self.token).ok();
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}
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}
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/// Check if this connection has data to be sent.
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pub fn is_sending(&self) -> bool {
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self.interest.is_writable()
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}
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/// Writable IO handler. Called when the socket is ready to send.
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pub fn writable<Message>(&mut self, io: &IoContext<Message>) -> Result<WriteStatus, NetworkError> where Message: Send + Clone + Sync + 'static {
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{
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let buf = match self.send_queue.front_mut() {
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Some(buf) => buf,
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None => return Ok(WriteStatus::Complete),
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};
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let send_size = buf.get_ref().len();
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let pos = buf.position() as usize;
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if (pos as usize) >= send_size {
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warn!(target:"net", "Unexpected connection data");
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return Ok(WriteStatus::Complete)
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}
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match self.socket.try_write(Buf::bytes(&buf)) {
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Ok(Some(size)) if (pos + size) < send_size => {
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buf.advance(size);
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self.stats.inc_send(size);
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Ok(WriteStatus::Ongoing)
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},
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Ok(Some(size)) if (pos + size) == send_size => {
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self.stats.inc_send(size);
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trace!(target:"network", "{}: Wrote {} bytes", self.token, send_size);
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Ok(WriteStatus::Complete)
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},
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Ok(Some(_)) => { panic!("Wrote past buffer");},
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Ok(None) => Ok(WriteStatus::Ongoing),
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Err(e) => Err(e)?
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}
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}.and_then(|r| {
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if r == WriteStatus::Complete {
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self.send_queue.pop_front();
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}
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if self.send_queue.is_empty() {
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self.interest.remove(Ready::writable());
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}
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io.update_registration(self.token)?;
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Ok(r)
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})
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}
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}
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/// Low level tcp connection
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pub type Connection = GenericConnection<TcpStream>;
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impl Connection {
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/// Create a new connection with given id and socket.
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pub fn new(token: StreamToken, socket: TcpStream, stats: Arc<NetworkStats>) -> Connection {
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Connection {
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token: token,
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socket: socket,
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send_queue: VecDeque::new(),
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rec_buf: Bytes::new(),
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rec_size: 0,
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interest: Ready::hup() | Ready::readable(),
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stats: stats,
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registered: AtomicBool::new(false),
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}
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}
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/// Get socket token
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pub fn token(&self) -> StreamToken {
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self.token
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}
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/// Get remote peer address
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pub fn remote_addr(&self) -> io::Result<SocketAddr> {
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self.socket.peer_addr()
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}
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/// Get remote peer address string
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pub fn remote_addr_str(&self) -> String {
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self.socket.peer_addr().map(|a| a.to_string()).unwrap_or_else(|_| "Unknown".to_owned())
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}
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/// Get local peer address string
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pub fn local_addr_str(&self) -> String {
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self.socket.local_addr().map(|a| a.to_string()).unwrap_or_else(|_| "Unknown".to_owned())
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}
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/// Clone this connection. Clears the receiving buffer of the returned connection.
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pub fn try_clone(&self) -> io::Result<Self> {
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Ok(Connection {
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token: self.token,
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socket: self.socket.try_clone()?,
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rec_buf: Vec::new(),
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rec_size: 0,
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send_queue: self.send_queue.clone(),
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interest: Ready::hup(),
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stats: self.stats.clone(),
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registered: AtomicBool::new(false),
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})
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}
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/// Register this connection with the IO event loop.
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pub fn register_socket<Host: Handler>(&self, reg: Token, event_loop: &mut EventLoop<Host>) -> io::Result<()> {
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if self.registered.load(AtomicOrdering::SeqCst) {
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return Ok(());
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}
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trace!(target: "network", "connection register; token={:?}", reg);
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if let Err(e) = event_loop.register(&self.socket, reg, self.interest, PollOpt::edge() /* | PollOpt::oneshot() */) { // TODO: oneshot is broken on windows
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trace!(target: "network", "Failed to register {:?}, {:?}", reg, e);
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}
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self.registered.store(true, AtomicOrdering::SeqCst);
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Ok(())
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}
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/// Update connection registration. Should be called at the end of the IO handler.
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pub fn update_socket<Host: Handler>(&self, reg: Token, event_loop: &mut EventLoop<Host>) -> io::Result<()> {
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trace!(target: "network", "connection reregister; token={:?}", reg);
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if !self.registered.load(AtomicOrdering::SeqCst) {
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self.register_socket(reg, event_loop)
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} else {
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event_loop.reregister(&self.socket, reg, self.interest, PollOpt::edge() /* | PollOpt::oneshot() */ ).unwrap_or_else(|e| { // TODO: oneshot is broken on windows
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trace!(target: "network", "Failed to reregister {:?}, {:?}", reg, e);
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});
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Ok(())
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}
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}
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/// Delete connection registration. Should be called at the end of the IO handler.
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pub fn deregister_socket<Host: Handler>(&self, event_loop: &mut EventLoop<Host>) -> io::Result<()> {
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trace!(target: "network", "connection deregister; token={:?}", self.token);
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event_loop.deregister(&self.socket).ok(); // ignore errors here
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Ok(())
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}
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}
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/// Connection write status.
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#[derive(PartialEq, Eq)]
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pub enum WriteStatus {
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/// Some data is still pending for current packet
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Ongoing,
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/// All data sent.
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Complete
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}
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/// `RLPx` packet
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pub struct Packet {
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pub protocol: u16,
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pub data: Bytes,
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}
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/// Encrypted connection receiving state.
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enum EncryptedConnectionState {
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/// Reading a header.
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Header,
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/// Reading the rest of the packet.
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Payload,
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}
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/// Connection implementing `RLPx` framing
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/// https://github.com/ethereum/devp2p/blob/master/rlpx.md#framing
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pub struct EncryptedConnection {
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/// Underlying tcp connection
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pub connection: Connection,
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/// Egress data encryptor
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encoder: CtrMode<AesSafe256Encryptor>,
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/// Ingress data decryptor
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decoder: CtrMode<AesSafe256Encryptor>,
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/// Ingress data decryptor
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mac_encoder: EcbEncryptor<AesSafe256Encryptor, EncPadding<NoPadding>>,
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/// MAC for egress data
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egress_mac: Keccak,
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/// MAC for ingress data
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ingress_mac: Keccak,
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/// Read state
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read_state: EncryptedConnectionState,
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/// Protocol id for the last received packet
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protocol_id: u16,
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/// Payload expected to be received for the last header.
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payload_len: usize,
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}
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impl EncryptedConnection {
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/// Create an encrypted connection out of the handshake.
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pub fn new(handshake: &mut Handshake) -> Result<EncryptedConnection, NetworkError> {
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let shared = crypto::ecdh::agree(handshake.ecdhe.secret(), &handshake.remote_ephemeral)?;
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let mut nonce_material = H512::new();
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if handshake.originated {
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handshake.remote_nonce.copy_to(&mut nonce_material[0..32]);
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handshake.nonce.copy_to(&mut nonce_material[32..64]);
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}
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else {
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handshake.nonce.copy_to(&mut nonce_material[0..32]);
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handshake.remote_nonce.copy_to(&mut nonce_material[32..64]);
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}
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let mut key_material = H512::new();
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shared.copy_to(&mut key_material[0..32]);
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nonce_material.sha3_into(&mut key_material[32..64]);
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key_material.sha3().copy_to(&mut key_material[32..64]);
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key_material.sha3().copy_to(&mut key_material[32..64]);
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let iv = vec![0u8; 16];
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let encoder = CtrMode::new(AesSafe256Encryptor::new(&key_material[32..64]), iv);
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let iv = vec![0u8; 16];
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let decoder = CtrMode::new(AesSafe256Encryptor::new(&key_material[32..64]), iv);
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key_material.sha3().copy_to(&mut key_material[32..64]);
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let mac_encoder = EcbEncryptor::new(AesSafe256Encryptor::new(&key_material[32..64]), NoPadding);
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let mut egress_mac = Keccak::new_keccak256();
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let mut mac_material = &H256::from_slice(&key_material[32..64]) ^ &handshake.remote_nonce;
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egress_mac.update(&mac_material);
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egress_mac.update(if handshake.originated { &handshake.auth_cipher } else { &handshake.ack_cipher });
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let mut ingress_mac = Keccak::new_keccak256();
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mac_material = &H256::from_slice(&key_material[32..64]) ^ &handshake.nonce;
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ingress_mac.update(&mac_material);
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ingress_mac.update(if handshake.originated { &handshake.ack_cipher } else { &handshake.auth_cipher });
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let old_connection = handshake.connection.try_clone()?;
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let connection = ::std::mem::replace(&mut handshake.connection, old_connection);
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let mut enc = EncryptedConnection {
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connection: connection,
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encoder: encoder,
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decoder: decoder,
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mac_encoder: mac_encoder,
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egress_mac: egress_mac,
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ingress_mac: ingress_mac,
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read_state: EncryptedConnectionState::Header,
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protocol_id: 0,
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payload_len: 0
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};
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enc.connection.expect(ENCRYPTED_HEADER_LEN);
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Ok(enc)
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}
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/// Send a packet
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pub fn send_packet<Message>(&mut self, io: &IoContext<Message>, payload: &[u8]) -> Result<(), NetworkError> where Message: Send + Clone + Sync + 'static {
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let mut header = RlpStream::new();
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let len = payload.len();
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if len >= (1 << 24) {
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return Err(NetworkError::OversizedPacket);
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}
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header.append_raw(&[(len >> 16) as u8, (len >> 8) as u8, len as u8], 1);
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header.append_raw(&[0xc2u8, 0x80u8, 0x80u8], 1);
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//TODO: ger rid of vectors here
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let mut header = header.out();
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let padding = (16 - (payload.len() % 16)) % 16;
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header.resize(16, 0u8);
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let mut packet = vec![0u8; (32 + payload.len() + padding + 16)];
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self.encoder.encrypt(&mut RefReadBuffer::new(&header), &mut RefWriteBuffer::new(&mut packet), false).expect("Invalid length or padding");
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EncryptedConnection::update_mac(&mut self.egress_mac, &mut self.mac_encoder, &packet[0..16]);
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self.egress_mac.clone().finalize(&mut packet[16..32]);
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self.encoder.encrypt(&mut RefReadBuffer::new(payload), &mut RefWriteBuffer::new(&mut packet[32..(32 + len)]), padding == 0).expect("Invalid length or padding");
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if padding != 0 {
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let pad = [0u8; 16];
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self.encoder.encrypt(&mut RefReadBuffer::new(&pad[0..padding]), &mut RefWriteBuffer::new(&mut packet[(32 + len)..(32 + len + padding)]), true).expect("Invalid length or padding");
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}
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self.egress_mac.update(&packet[32..(32 + len + padding)]);
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EncryptedConnection::update_mac(&mut self.egress_mac, &mut self.mac_encoder, &[0u8; 0]);
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self.egress_mac.clone().finalize(&mut packet[(32 + len + padding)..]);
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self.connection.send(io, packet);
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Ok(())
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}
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/// Decrypt and authenticate an incoming packet header. Prepare for receiving payload.
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fn read_header(&mut self, header: &[u8]) -> Result<(), NetworkError> {
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if header.len() != ENCRYPTED_HEADER_LEN {
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return Err(From::from(NetworkError::Auth));
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}
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EncryptedConnection::update_mac(&mut self.ingress_mac, &mut self.mac_encoder, &header[0..16]);
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let mac = &header[16..];
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let mut expected = H256::new();
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self.ingress_mac.clone().finalize(&mut expected);
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if mac != &expected[0..16] {
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return Err(From::from(NetworkError::Auth));
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}
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let mut hdec = H128::new();
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self.decoder.decrypt(&mut RefReadBuffer::new(&header[0..16]), &mut RefWriteBuffer::new(&mut hdec), false).expect("Invalid length or padding");
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let length = ((((hdec[0] as u32) << 8) + (hdec[1] as u32)) << 8) + (hdec[2] as u32);
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let header_rlp = UntrustedRlp::new(&hdec[3..6]);
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let protocol_id = header_rlp.val_at::<u16>(0)?;
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self.payload_len = length as usize;
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self.protocol_id = protocol_id;
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self.read_state = EncryptedConnectionState::Payload;
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let padding = (16 - (length % 16)) % 16;
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let full_length = length + padding + 16;
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self.connection.expect(full_length as usize);
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Ok(())
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}
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/// Decrypt and authenticate packet payload.
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fn read_payload(&mut self, payload: &[u8]) -> Result<Packet, NetworkError> {
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let padding = (16 - (self.payload_len % 16)) % 16;
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let full_length = self.payload_len + padding + 16;
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if payload.len() != full_length {
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return Err(From::from(NetworkError::Auth));
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}
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self.ingress_mac.update(&payload[0..payload.len() - 16]);
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EncryptedConnection::update_mac(&mut self.ingress_mac, &mut self.mac_encoder, &[0u8; 0]);
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let mac = &payload[(payload.len() - 16)..];
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let mut expected = H128::new();
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self.ingress_mac.clone().finalize(&mut expected);
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if mac != &expected[..] {
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return Err(From::from(NetworkError::Auth));
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}
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let mut packet = vec![0u8; self.payload_len];
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self.decoder.decrypt(&mut RefReadBuffer::new(&payload[0..self.payload_len]), &mut RefWriteBuffer::new(&mut packet), false).expect("Invalid length or padding");
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let mut pad_buf = [0u8; 16];
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self.decoder.decrypt(&mut RefReadBuffer::new(&payload[self.payload_len..(payload.len() - 16)]), &mut RefWriteBuffer::new(&mut pad_buf), false).expect("Invalid length or padding");
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Ok(Packet {
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protocol: self.protocol_id,
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data: packet
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})
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}
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/// Update MAC after reading or writing any data.
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fn update_mac(mac: &mut Keccak, mac_encoder: &mut EcbEncryptor<AesSafe256Encryptor, EncPadding<NoPadding>>, seed: &[u8]) {
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let mut prev = H128::new();
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mac.clone().finalize(&mut prev);
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let mut enc = H128::new();
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mac_encoder.encrypt(&mut RefReadBuffer::new(&prev), &mut RefWriteBuffer::new(&mut enc), true).expect("Error updating MAC");
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mac_encoder.reset();
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|
enc = enc ^ if seed.is_empty() { prev } else { H128::from_slice(seed) };
|
|
mac.update(&enc);
|
|
}
|
|
|
|
/// Readable IO handler. Tracker receive status and returns decoded packet if avaialable.
|
|
pub fn readable<Message>(&mut self, io: &IoContext<Message>) -> Result<Option<Packet>, NetworkError> where Message: Send + Clone + Sync + 'static {
|
|
io.clear_timer(self.connection.token)?;
|
|
if let EncryptedConnectionState::Header = self.read_state {
|
|
if let Some(data) = self.connection.readable()? {
|
|
self.read_header(&data)?;
|
|
io.register_timer(self.connection.token, RECIEVE_PAYLOAD_TIMEOUT)?;
|
|
}
|
|
};
|
|
if let EncryptedConnectionState::Payload = self.read_state {
|
|
match self.connection.readable()? {
|
|
Some(data) => {
|
|
self.read_state = EncryptedConnectionState::Header;
|
|
self.connection.expect(ENCRYPTED_HEADER_LEN);
|
|
Ok(Some(self.read_payload(&data)?))
|
|
},
|
|
None => Ok(None)
|
|
}
|
|
} else {
|
|
Ok(None)
|
|
}
|
|
}
|
|
|
|
/// Writable IO handler. Processes send queeue.
|
|
pub fn writable<Message>(&mut self, io: &IoContext<Message>) -> Result<(), NetworkError> where Message: Send + Clone + Sync + 'static {
|
|
self.connection.writable(io)?;
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
#[test]
|
|
pub fn test_encryption() {
|
|
use util::hash::*;
|
|
use std::str::FromStr;
|
|
let key = H256::from_str("2212767d793a7a3d66f869ae324dd11bd17044b82c9f463b8a541a4d089efec5").unwrap();
|
|
let before = H128::from_str("12532abaec065082a3cf1da7d0136f15").unwrap();
|
|
let before2 = H128::from_str("7e99f682356fdfbc6b67a9562787b18a").unwrap();
|
|
let after = H128::from_str("89464c6b04e7c99e555c81d3f7266a05").unwrap();
|
|
let after2 = H128::from_str("85c070030589ef9c7a2879b3a8489316").unwrap();
|
|
|
|
let mut got = H128::new();
|
|
|
|
let mut encoder = EcbEncryptor::new(AesSafe256Encryptor::new(&key), NoPadding);
|
|
encoder.encrypt(&mut RefReadBuffer::new(&before), &mut RefWriteBuffer::new(&mut got), true).unwrap();
|
|
encoder.reset();
|
|
assert_eq!(got, after);
|
|
got = H128::new();
|
|
encoder.encrypt(&mut RefReadBuffer::new(&before2), &mut RefWriteBuffer::new(&mut got), true).unwrap();
|
|
encoder.reset();
|
|
assert_eq!(got, after2);
|
|
}
|
|
|
|
#[cfg(test)]
|
|
mod tests {
|
|
use super::*;
|
|
use std::sync::Arc;
|
|
use std::sync::atomic::AtomicBool;
|
|
use super::super::stats::*;
|
|
use std::io::{Read, Write, Error, Cursor, ErrorKind};
|
|
use mio::{Ready};
|
|
use std::collections::VecDeque;
|
|
use util::bytes::Bytes;
|
|
use devtools::*;
|
|
use io::*;
|
|
|
|
impl GenericSocket for TestSocket {}
|
|
|
|
struct TestBrokenSocket {
|
|
error: String
|
|
}
|
|
|
|
impl Read for TestBrokenSocket {
|
|
fn read(&mut self, _: &mut [u8]) -> Result<usize, Error> {
|
|
Err(Error::new(ErrorKind::Other, self.error.clone()))
|
|
}
|
|
}
|
|
|
|
impl Write for TestBrokenSocket {
|
|
fn write(&mut self, _: &[u8]) -> Result<usize, Error> {
|
|
Err(Error::new(ErrorKind::Other, self.error.clone()))
|
|
}
|
|
|
|
fn flush(&mut self) -> Result<(), Error> {
|
|
unimplemented!();
|
|
}
|
|
}
|
|
|
|
impl GenericSocket for TestBrokenSocket {}
|
|
|
|
type TestConnection = GenericConnection<TestSocket>;
|
|
|
|
impl Default for TestConnection {
|
|
fn default() -> Self {
|
|
TestConnection::new()
|
|
}
|
|
}
|
|
|
|
impl TestConnection {
|
|
pub fn new() -> Self {
|
|
TestConnection {
|
|
token: 999998888usize,
|
|
socket: TestSocket::new(),
|
|
send_queue: VecDeque::new(),
|
|
rec_buf: Bytes::new(),
|
|
rec_size: 0,
|
|
interest: Ready::hup() | Ready::readable(),
|
|
stats: Arc::<NetworkStats>::new(NetworkStats::new()),
|
|
registered: AtomicBool::new(false),
|
|
}
|
|
}
|
|
}
|
|
|
|
type TestBrokenConnection = GenericConnection<TestBrokenSocket>;
|
|
|
|
impl Default for TestBrokenConnection {
|
|
fn default() -> Self {
|
|
TestBrokenConnection::new()
|
|
}
|
|
}
|
|
|
|
impl TestBrokenConnection {
|
|
pub fn new() -> Self {
|
|
TestBrokenConnection {
|
|
token: 999998888usize,
|
|
socket: TestBrokenSocket { error: "test broken socket".to_owned() },
|
|
send_queue: VecDeque::new(),
|
|
rec_buf: Bytes::new(),
|
|
rec_size: 0,
|
|
interest: Ready::hup() | Ready::readable(),
|
|
stats: Arc::<NetworkStats>::new(NetworkStats::new()),
|
|
registered: AtomicBool::new(false),
|
|
}
|
|
}
|
|
}
|
|
|
|
fn test_io() -> IoContext<i32> {
|
|
IoContext::new(IoChannel::disconnected(), 0)
|
|
}
|
|
|
|
#[test]
|
|
fn connection_expect() {
|
|
let mut connection = TestConnection::new();
|
|
connection.expect(1024);
|
|
assert_eq!(1024, connection.rec_size);
|
|
}
|
|
|
|
#[test]
|
|
fn connection_write_empty() {
|
|
let mut connection = TestConnection::new();
|
|
let status = connection.writable(&test_io());
|
|
assert!(status.is_ok());
|
|
assert!(WriteStatus::Complete == status.unwrap());
|
|
}
|
|
|
|
#[test]
|
|
fn connection_write() {
|
|
let mut connection = TestConnection::new();
|
|
let data = Cursor::new(vec![0; 10240]);
|
|
connection.send_queue.push_back(data);
|
|
|
|
let status = connection.writable(&test_io());
|
|
assert!(status.is_ok());
|
|
assert!(WriteStatus::Complete == status.unwrap());
|
|
assert_eq!(10240, connection.socket.write_buffer.len());
|
|
}
|
|
|
|
#[test]
|
|
fn connection_write_is_buffered() {
|
|
let mut connection = TestConnection::new();
|
|
connection.socket = TestSocket::new_buf(1024);
|
|
let data = Cursor::new(vec![0; 10240]);
|
|
connection.send_queue.push_back(data);
|
|
|
|
let status = connection.writable(&test_io());
|
|
|
|
assert!(status.is_ok());
|
|
assert!(WriteStatus::Ongoing == status.unwrap());
|
|
assert_eq!(1024, connection.socket.write_buffer.len());
|
|
}
|
|
|
|
#[test]
|
|
fn connection_write_to_broken() {
|
|
let mut connection = TestBrokenConnection::new();
|
|
let data = Cursor::new(vec![0; 10240]);
|
|
connection.send_queue.push_back(data);
|
|
|
|
let status = connection.writable(&test_io());
|
|
|
|
assert!(!status.is_ok());
|
|
assert_eq!(1, connection.send_queue.len());
|
|
}
|
|
|
|
#[test]
|
|
fn connection_read() {
|
|
let mut connection = TestConnection::new();
|
|
connection.rec_size = 2048;
|
|
connection.rec_buf = vec![10; 1024];
|
|
connection.socket.read_buffer = vec![99; 2048];
|
|
|
|
let status = connection.readable();
|
|
|
|
assert!(status.is_ok());
|
|
assert_eq!(1024, connection.socket.cursor);
|
|
}
|
|
|
|
#[test]
|
|
fn connection_read_from_broken() {
|
|
let mut connection = TestBrokenConnection::new();
|
|
connection.rec_size = 2048;
|
|
|
|
let status = connection.readable();
|
|
assert!(!status.is_ok());
|
|
assert_eq!(0, connection.rec_buf.len());
|
|
}
|
|
|
|
#[test]
|
|
fn connection_read_nothing() {
|
|
let mut connection = TestConnection::new();
|
|
connection.rec_size = 2048;
|
|
|
|
let status = connection.readable();
|
|
|
|
assert!(status.is_ok());
|
|
assert_eq!(0, connection.rec_buf.len());
|
|
}
|
|
|
|
#[test]
|
|
fn connection_read_full() {
|
|
let mut connection = TestConnection::new();
|
|
connection.rec_size = 1024;
|
|
connection.rec_buf = vec![76;1024];
|
|
|
|
let status = connection.readable();
|
|
|
|
assert!(status.is_ok());
|
|
assert_eq!(0, connection.socket.cursor);
|
|
}
|
|
}
|