use crate::{cipher, kex, msg, Error};
use std::str::from_utf8;
use thrussh_keys::key;
use crate::compression::*;
use cryptovec::CryptoVec;
use thrussh_keys::encoding::{Encoding, Reader};
use thrussh_keys::key::{KeyPair, PublicKey};
use rand::RngCore;
#[derive(Debug)]
pub struct Names {
pub kex: kex::Name,
pub key: key::Name,
pub cipher: cipher::Name,
pub mac: Option<&'static str>,
pub server_compression: Compression,
pub client_compression: Compression,
pub ignore_guessed: bool,
}
#[derive(Debug)]
pub struct Preferred {
pub kex: &'static [kex::Name],
pub key: &'static [key::Name],
pub cipher: &'static [cipher::Name],
pub mac: &'static [&'static str],
pub compression: &'static [&'static str],
}
impl Preferred {
#[cfg(feature = "openssl")]
pub const DEFAULT: Preferred = Preferred {
kex: &[kex::CURVE25519],
key: &[key::ED25519, key::RSA_SHA2_256, key::RSA_SHA2_512],
cipher: &[cipher::chacha20poly1305::NAME],
mac: &["none"],
compression: &["none", "zlib", "zlib@openssh.com"],
};
#[cfg(not(feature = "openssl"))]
pub const DEFAULT: Preferred = Preferred {
kex: &[kex::CURVE25519],
key: &[key::ED25519],
cipher: &[cipher::chacha20poly1305::NAME],
mac: &["none"],
compression: &["none", "zlib", "zlib@openssh.com"],
};
pub const COMPRESSED: Preferred = Preferred {
kex: &[kex::CURVE25519],
key: &[key::ED25519, key::RSA_SHA2_256, key::RSA_SHA2_512],
cipher: &[cipher::chacha20poly1305::NAME],
mac: &["none"],
compression: &["zlib", "zlib@openssh.com", "none"],
};
}
impl Default for Preferred {
fn default() -> Preferred {
Preferred::DEFAULT
}
}
pub trait Named {
fn name(&self) -> &'static str;
}
impl Named for () {
fn name(&self) -> &'static str {
""
}
}
#[cfg(feature = "openssl")]
use thrussh_keys::key::{ED25519, SSH_RSA};
#[cfg(not(feature = "openssl"))]
use thrussh_keys::key::{ED25519};
impl Named for PublicKey {
fn name(&self) -> &'static str {
match self {
&PublicKey::Ed25519(_) => ED25519.0,
#[cfg(feature = "openssl")]
&PublicKey::RSA { .. } => SSH_RSA.0,
}
}
}
impl Named for KeyPair {
fn name(&self) -> &'static str {
match self {
&KeyPair::Ed25519 { .. } => ED25519.0,
#[cfg(feature = "openssl")]
&KeyPair::RSA { ref hash, .. } => hash.name().0,
}
}
}
pub trait Select {
fn select<S: AsRef<str> + Copy>(a: &[S], b: &[u8]) -> Option<(bool, S)>;
fn read_kex(buffer: &[u8], pref: &Preferred) -> Result<Names, Error> {
let mut r = buffer.reader(17);
let kex_string = r.read_string()?;
let (kex_both_first, kex_algorithm) = if let Some(x) = Self::select(pref.kex, kex_string) {
x
} else {
debug!(
"Could not find common kex algorithm, other side only supports {:?}, we only support {:?}",
from_utf8(kex_string),
pref.kex
);
return Err(Error::NoCommonKexAlgo.into());
};
let key_string = r.read_string()?;
let (key_both_first, key_algorithm) = if let Some(x) = Self::select(pref.key, key_string) {
x
} else {
debug!(
"Could not find common key algorithm, other side only supports {:?}, we only support {:?}",
from_utf8(key_string),
pref.key
);
return Err(Error::NoCommonKeyAlgo.into());
};
let cipher_string = r.read_string()?;
let cipher = Self::select(pref.cipher, cipher_string);
if cipher.is_none() {
debug!(
"Could not find common cipher, other side only supports {:?}, we only support {:?}",
from_utf8(cipher_string),
pref.cipher
);
return Err(Error::NoCommonCipher.into());
}
r.read_string()?; debug!("kex {}", line!());
let mac = Self::select(pref.mac, r.read_string()?);
let mac = mac.and_then(|(_, x)| Some(x));
r.read_string()?;
debug!("kex {}", line!());
let client_compression =
if let Some((_, c)) = Self::select(pref.compression, r.read_string()?) {
Compression::from_string(c)
} else {
return Err(Error::NoCommonCompression.into());
};
debug!("kex {}", line!());
let server_compression =
if let Some((_, c)) = Self::select(pref.compression, r.read_string()?) {
Compression::from_string(c)
} else {
return Err(Error::NoCommonCompression.into());
};
debug!("client_compression = {:?}", client_compression);
r.read_string()?; r.read_string()?;
let follows = r.read_byte()? != 0;
match (cipher, mac, follows) {
(Some((_, cipher)), mac, fol) => {
Ok(Names {
kex: kex_algorithm,
key: key_algorithm,
cipher,
mac,
client_compression,
server_compression,
ignore_guessed: fol && !(kex_both_first && key_both_first),
})
}
_ => Err(Error::KexInit.into()),
}
}
}
pub struct Server;
pub struct Client;
impl Select for Server {
fn select<S: AsRef<str> + Copy>(server_list: &[S], client_list: &[u8]) -> Option<(bool, S)> {
let mut both_first_choice = true;
for c in client_list.split(|&x| x == b',') {
for &s in server_list {
if c == s.as_ref().as_bytes() {
return Some((both_first_choice, s));
}
both_first_choice = false
}
}
None
}
}
impl Select for Client {
fn select<S: AsRef<str> + Copy>(client_list: &[S], server_list: &[u8]) -> Option<(bool, S)> {
let mut both_first_choice = true;
for &c in client_list {
for s in server_list.split(|&x| x == b',') {
if s == c.as_ref().as_bytes() {
return Some((both_first_choice, c));
}
both_first_choice = false
}
}
None
}
}
pub fn write_kex(prefs: &Preferred, buf: &mut CryptoVec) -> Result<(), Error> {
buf.push(msg::KEXINIT);
let mut cookie = [0; 16];
rand::thread_rng().fill_bytes(&mut cookie);
buf.extend(&cookie); buf.extend_list(prefs.kex.iter());
buf.extend_list(prefs.key.iter());
buf.extend_list(prefs.cipher.iter()); buf.extend_list(prefs.cipher.iter());
buf.extend_list(prefs.mac.iter()); buf.extend_list(prefs.mac.iter()); buf.extend_list(prefs.compression.iter()); buf.extend_list(prefs.compression.iter());
buf.write_empty_list(); buf.write_empty_list();
buf.push(0); buf.extend(&[0, 0, 0, 0]); Ok(())
}