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Don't use TcpStream::try_clone for now

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This commit is contained in:
Thomas Gatzweiler 2017-07-20 14:14:31 +02:00
parent 743cb40e39
commit 8c911fec23
2 changed files with 289 additions and 269 deletions
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250
src/connection.rs
View file

@ -1,9 +1,11 @@
use std::io::{self, BufRead, BufReader, Read, Write};
use std::collections::VecDeque;
use std::io::{self, BufReader, Read, Write};
use std::net::TcpStream;
use std::sync::Arc;
use encryption::{AesCtr, Decryptor, Encryption};
use error::{ConnectionError, ConnectionResult};
use key_exchange::{self, KexResult, KeyExchange};
use error::{ConnectionError, ConnectionResult as Result};
use key_exchange::{KexResult, KeyExchange};
use mac::{Hmac, MacAlgorithm};
use message::MessageType;
use packet::{Packet, ReadPacketExt, WritePacketExt};
@ -34,46 +36,64 @@ pub struct Connection {
pub hash_data: HashData,
state: ConnectionState,
key_exchange: Option<Box<KeyExchange>>,
stream: Box<Write>,
session_id: Option<Vec<u8>>,
encryption: Option<(Box<Encryption>, Box<Encryption>)>,
mac: Option<(Box<MacAlgorithm>, Box<MacAlgorithm>)>,
seq: (u32, u32),
tx_queue: VecDeque<Packet>,
}
impl<'a> Connection {
pub fn new(conn_type: ConnectionType, stream: Box<Write>) -> Connection {
pub fn new(conn_type: ConnectionType) -> Connection {
Connection {
conn_type: conn_type,
hash_data: HashData::default(),
state: ConnectionState::Initial,
key_exchange: None,
stream: Box::new(stream),
session_id: None,
encryption: None,
mac: None,
seq: (0, 0),
tx_queue: VecDeque::new(),
}
}
pub fn run(&mut self, stream: &mut Read) -> ConnectionResult<()> {
let mut reader = BufReader::new(stream);
pub fn run(&mut self, mut stream: TcpStream) -> Result<()> {
self.send_id(&mut stream)?;
self.read_id(&stream)?;
self.send_id()?;
self.read_id(&mut reader)?;
let mut reader = BufReader::new(&stream);
loop {
let packet = self.recv(&mut reader)?;
let response = self.process(packet)?;
let mut stream = reader.get_mut();
if let Some(packet) = response {
self.send(&mut stream, packet)?;
}
// Send additional packets from the queue
let mut packets: Vec<Packet> = self.tx_queue.drain(..).collect();
for packet in packets.drain(..) {
self.send(&mut stream, packet)?;
}
}
}
fn recv(&mut self, mut stream: &mut Read) -> Result<Packet> {
let packet = if let Some((ref mut c2s, _)) = self.encryption {
let mut decryptor = Decryptor::new(&mut **c2s, &mut reader);
let mut decryptor = Decryptor::new(&mut **c2s, &mut stream);
Packet::read_from(&mut decryptor)?
}
else {
Packet::read_from(&mut reader)?
Packet::read_from(&mut stream)?
};
if let Some((ref mut mac, _)) = self.mac {
let mut sig = vec![0; mac.size()];
reader.read_exact(&mut sig)?;
stream.read_exact(&mut sig)?;
let mut sig_cmp = vec![0; mac.size()];
mac.sign(packet.data(), self.seq.0, sig_cmp.as_mut_slice());
@ -84,72 +104,82 @@ impl<'a> Connection {
}
trace!("Packet {} received: {:?}", self.seq.0, packet);
self.process(packet)?;
// Count up the received packet sequence number
self.seq.0 = self.seq.0.wrapping_add(1);
}
Ok(packet)
}
pub fn send(&mut self, packet: Packet) -> io::Result<()> {
fn send(&mut self, mut stream: &mut Write, packet: Packet)
-> io::Result<()> {
trace!("Sending packet {}: {:?}", self.seq.1, packet);
let packet = packet.to_raw()?;
if let Some((_, ref mut s2c)) = self.encryption {
let mut encrypted = vec![0; packet.data().len()];
s2c.encrypt(packet.data(), encrypted.as_mut_slice());
// Sending encrypted packet
self.stream.write_all(encrypted.as_slice())?;
stream.write_all(encrypted.as_slice())?;
}
else {
packet.write_to(&mut self.stream)?;
packet.write_to(&mut stream)?;
}
self.seq.1 = self.seq.1.wrapping_add(1);
if let Some((_, ref mut mac)) = self.mac {
let mut sig = vec![0; mac.size()];
mac.sign(packet.data(), self.seq.1, sig.as_mut_slice());
self.stream.write_all(sig.as_slice())?;
stream.write_all(sig.as_slice())?;
}
self.seq.1 = self.seq.1.wrapping_add(1);
Ok(())
}
fn send_id(&mut self) -> io::Result<()> {
fn send_id(&mut self, stream: &mut TcpStream) -> io::Result<()> {
let id = format!("SSH-2.0-RedoxSSH_{}", env!("CARGO_PKG_VERSION"));
info!("Identifying as {:?}", id);
self.stream.write(id.as_bytes())?;
self.stream.write(b"\r\n")?;
self.stream.flush()?;
stream.write(id.as_bytes())?;
stream.write(b"\r\n")?;
stream.flush()?;
self.hash_data.server_id = Some(id);
Ok(())
}
fn read_id(&mut self, mut reader: &mut BufRead) -> io::Result<()> {
// The identification string has a maximum length of 255 bytes
// TODO: Make sure to stop reading if the client sends too much
fn read_id(&mut self, stream: &TcpStream) -> io::Result<()> {
use std::ascii::AsciiExt;
let mut id = String::new();
while !id.starts_with("SSH-") {
reader.read_line(&mut id)?;
for byte in stream.take(255).bytes() {
match byte
{
Ok(b'\n') => break,
Ok(b) if b.is_ascii() => id.push(b as char),
Ok(_) => {}
Err(_) => break,
}
}
let peer_id = id.trim_right().to_owned();
info!("Peer identifies as {:?}", peer_id);
self.hash_data.client_id = Some(peer_id);
let id = id.trim().to_owned();
if id.starts_with("SSH-") {
info!("Peer identifies as {:?}", id);
self.hash_data.client_id = Some(id);
Ok(())
}
else {
Err(io::Error::new(io::ErrorKind::InvalidData, "invalid id"))
}
}
fn generate_key(&mut self, id: &[u8], len: usize)
-> ConnectionResult<Vec<u8>> {
fn generate_key(&mut self, id: &[u8], len: usize) -> Result<Vec<u8>> {
use self::ConnectionError::KeyGenerationError;
let kex = self.key_exchange.take().ok_or(KeyGenerationError)?;
@ -171,14 +201,25 @@ impl<'a> Connection {
Ok(key)
}
pub fn process(&mut self, packet: Packet) -> ConnectionResult<()> {
pub fn process(&mut self, packet: Packet) -> Result<Option<Packet>> {
match packet.msg_type()
{
MessageType::KexInit => {
debug!("Starting key exchange");
self.kex_init(packet)
MessageType::KexInit => self.kex_init(packet),
MessageType::NewKeys => self.new_keys(packet),
MessageType::ServiceRequest => self.service_request(packet),
MessageType::UserAuthRequest => self.user_auth_request(packet),
MessageType::ChannelOpen => self.channel_open(packet),
MessageType::ChannelRequest => self.channel_request(packet),
MessageType::ChannelData => self.channel_data(packet),
MessageType::KeyExchange(_) => self.key_exchange(packet),
_ => {
error!("Unhandled packet: {:?}", packet);
Err(ConnectionError::ProtocolError)
}
MessageType::NewKeys => {
}
}
fn new_keys(&mut self, packet: Packet) -> Result<Option<Packet>> {
debug!("Switching to new keys");
let iv_c2s = self.generate_key(b"A", 256)?;
@ -190,12 +231,8 @@ impl<'a> Connection {
self.encryption =
Some((
Box::new(
AesCtr::new(enc_c2s.as_slice(), iv_c2s.as_slice()),
),
Box::new(
AesCtr::new(enc_s2c.as_slice(), iv_s2c.as_slice()),
),
Box::new(AesCtr::new(enc_c2s.as_slice(), iv_c2s.as_slice())),
Box::new(AesCtr::new(enc_s2c.as_slice(), iv_s2c.as_slice())),
));
self.mac = Some((
@ -203,16 +240,14 @@ impl<'a> Connection {
Box::new(Hmac::new(mac_s2c.as_slice())),
));
Ok(())
Ok(None)
}
MessageType::ServiceRequest => {
fn service_request(&mut self, packet: Packet) -> Result<Option<Packet>> {
let mut reader = packet.reader();
let name = reader.read_string()?;
trace!(
"{:?}",
::std::str::from_utf8(&name.as_slice()).unwrap()
);
trace!("{:?}", ::std::str::from_utf8(&name.as_slice()).unwrap());
let mut res = Packet::new(MessageType::ServiceAccept);
res.with_writer(&|w| {
@ -220,10 +255,10 @@ impl<'a> Connection {
Ok(())
})?;
self.send(res)?;
Ok(())
Ok(Some(res))
}
MessageType::UserAuthRequest => {
fn user_auth_request(&mut self, packet: Packet) -> Result<Option<Packet>> {
let mut reader = packet.reader();
let name = reader.read_utf8()?;
let service = reader.read_utf8()?;
@ -238,8 +273,10 @@ impl<'a> Connection {
false
};
debug!("User Auth {:?}, {:?}, {:?}", name, service, method);
if success {
self.send(Packet::new(MessageType::UserAuthSuccess))?;
Ok(Some(Packet::new(MessageType::UserAuthSuccess)))
}
else {
let mut res = Packet::new(MessageType::UserAuthFailure);
@ -248,14 +285,11 @@ impl<'a> Connection {
w.write_bool(false)?;
Ok(())
})?;
self.send(res)?;
Ok(Some(res))
}
}
debug!("User Auth {:?}, {:?}, {:?}", name, service, method);
Ok(())
}
MessageType::ChannelOpen => {
fn channel_open(&mut self, packet: Packet) -> Result<Option<Packet>> {
let mut reader = packet.reader();
let channel_type = reader.read_utf8()?;
let sender_channel = reader.read_uint32()?;
@ -271,7 +305,6 @@ impl<'a> Connection {
Ok(())
})?;
self.send(res)?;
debug!(
"Channel Open {:?}, {:?}, {:?}, {:?}",
channel_type,
@ -280,9 +313,10 @@ impl<'a> Connection {
max_packet_size
);
Ok(())
Ok(Some(res))
}
MessageType::ChannelRequest => {
fn channel_request(&mut self, packet: Packet) -> Result<Option<Packet>> {
let mut reader = packet.reader();
let channel = reader.read_uint32()?;
let request = reader.read_utf8()?;
@ -321,12 +355,14 @@ impl<'a> Connection {
if want_reply {
let mut res = Packet::new(MessageType::ChannelSuccess);
res.with_writer(&|w| w.write_uint32(0))?;
self.send(res)?;
Ok(Some(res))
}
else {
Ok(None)
}
}
Ok(())
}
MessageType::ChannelData => {
fn channel_data(&mut self, packet: Packet) -> Result<Option<Packet>> {
let mut reader = packet.reader();
let channel = reader.read_uint32()?;
let data = reader.read_string()?;
@ -338,54 +374,17 @@ impl<'a> Connection {
Ok(())
})?;
self.send(res)?;
debug!(
"Channel {} Data ({} bytes): {:?}",
channel,
data.len(),
data
);
Ok(())
}
MessageType::KeyExchange(_) => {
let mut kex = self.key_exchange.take().ok_or(
ConnectionError::KeyExchangeError,
)?;
match kex.process(self, packet)
{
KexResult::Done(packet) => {
self.state = ConnectionState::Established;
self.send(packet)?;
if self.session_id.is_none() {
self.session_id =
kex.exchange_hash().map(|h| h.to_vec());
Ok(Some(res))
}
let packet = Packet::new(MessageType::NewKeys);
self.send(packet)?;
Ok(())
}
KexResult::Ok(packet) => {
self.send(packet)?;
Ok(())
}
KexResult::Error => Err(ConnectionError::KeyExchangeError),
}?;
self.key_exchange = Some(kex);
Ok(())
}
_ => {
error!("Unhandled packet: {:?}", packet);
Err(ConnectionError::ProtocolError)
}
}
}
pub fn kex_init(&mut self, packet: Packet) -> ConnectionResult<()> {
fn kex_init(&mut self, packet: Packet) -> Result<Option<Packet>> {
use algorithm::*;
let (kex_algo, srv_host_key_algo, enc_algo, mac_algo, comp_algo) = {
@ -451,11 +450,36 @@ impl<'a> Connection {
self.state = ConnectionState::KeyExchange;
self.key_exchange = kex_algo.instance();
packet.write_to(&mut self.stream)?;
// Save payload for hash generation
self.hash_data.server_kexinit = Some(packet.payload());
self.hash_data.server_kexinit = Some(packet.data().to_vec());
Ok(())
Ok(Some(packet))
}
fn key_exchange(&mut self, packet: Packet) -> Result<Option<Packet>> {
let mut kex = self.key_exchange.take().ok_or(
ConnectionError::KeyExchangeError,
)?;
let result = match kex.process(self, packet)
{
KexResult::Done(packet) => {
self.state = ConnectionState::Established;
if self.session_id.is_none() {
self.session_id = kex.exchange_hash().map(|h| h.to_vec());
}
self.tx_queue.push_back(Packet::new(MessageType::NewKeys));
Ok(Some(packet))
}
KexResult::Ok(packet) => Ok(Some(packet)),
KexResult::Error => Err(ConnectionError::KeyExchangeError),
};
self.key_exchange = Some(kex);
result
}
}

10
src/server.rs
View file

@ -32,14 +32,10 @@ impl Server {
debug!("Incoming connection from {}", addr);
thread::spawn(move || {
let mut read_stream = stream.try_clone().unwrap();
let mut connection =
Connection::new(ConnectionType::Server(config));
let mut connection = Connection::new(
ConnectionType::Server(config),
Box::new(stream),
);
let result = connection.run(&mut read_stream);
let result = connection.run(stream);
if let Some(error) = result.err() {
println!("sshd: {}", error)