use std::{collections::VecDeque, mem::take}; use crate::crypto::{ self, AlgorithmName, EncryptionAlgorithm, HostKeySigningAlgorithm, SupportedAlgorithms, }; use crate::packet::{ KeyExchangeEcDhInitPacket, KeyExchangeInitPacket, Packet, PacketTransport, ProtocolIdentParser, }; use crate::parse::{NameList, Parser, Writer}; use crate::{numbers, Result}; use crate::{peer_error, Msg, SshRng, SshStatus}; use tracing::{debug, info, trace}; // This is definitely who we are. pub const SERVER_IDENTIFICATION: &[u8] = b"SSH-2.0-OpenSSH_9.7\r\n"; pub struct ServerConnection { state: ServerState, packet_transport: PacketTransport, rng: Box, plaintext_packets: VecDeque, } enum ServerState { ProtoExchange { ident_parser: ProtocolIdentParser, }, KeyExchangeInit { client_identification: Vec, }, DhKeyInit { client_identification: Vec, client_kexinit: Vec, server_kexinit: Vec, kex_algorithm: crypto::KexAlgorithm, server_host_key_algorithm: HostKeySigningAlgorithm, encryption_client_to_server: EncryptionAlgorithm, encryption_server_to_client: EncryptionAlgorithm, }, NewKeys { h: [u8; 32], k: Vec, encryption_client_to_server: EncryptionAlgorithm, encryption_server_to_client: EncryptionAlgorithm, }, ServiceRequest, Open, } impl ServerConnection { pub fn new(rng: impl SshRng + Send + Sync + 'static) -> Self { Self { state: ServerState::ProtoExchange { ident_parser: ProtocolIdentParser::new(), }, packet_transport: PacketTransport::new(), rng: Box::new(rng), plaintext_packets: VecDeque::new(), } } pub fn recv_bytes(&mut self, bytes: &[u8]) -> Result<()> { if let ServerState::ProtoExchange { ident_parser } = &mut self.state { ident_parser.recv_bytes(bytes); if let Some(client_identification) = ident_parser.get_peer_ident() { self.packet_transport .queue_send_protocol_info(SERVER_IDENTIFICATION.to_vec()); self.state = ServerState::KeyExchangeInit { client_identification, }; } // This means that we must be called at least twice, which is fine I think. return Ok(()); } self.packet_transport.recv_bytes(bytes)?; while let Some(packet) = self.packet_transport.recv_next_packet() { let packet_type = packet.payload.first().unwrap_or(&0xFF); let packet_type_string = numbers::packet_type_to_string(*packet_type); trace!(%packet_type, %packet_type_string, packet_len = %packet.payload.len(), "Received packet"); // Handle some packets ignoring the state. match packet.payload.first().copied() { Some(numbers::SSH_MSG_DISCONNECT) => { // let mut disconnect = Parser::new(&packet.payload[1..]); let reason = disconnect.u32()?; let description = disconnect.utf8_string()?; let _language_tag = disconnect.utf8_string()?; let reason_string = numbers::disconnect_reason_to_string(reason).unwrap_or(""); info!(%reason, %reason_string, %description, "Client disconnecting"); return Err(SshStatus::Disconnect); } _ => {} } match &mut self.state { ServerState::ProtoExchange { .. } => unreachable!("handled above"), ServerState::KeyExchangeInit { client_identification, } => { let kex = KeyExchangeInitPacket::parse(&packet.payload)?; let sup_algs = SupportedAlgorithms::secure(); let kex_algorithm = sup_algs.key_exchange.find(kex.kex_algorithms.0)?; debug!(name = %kex_algorithm.name(), "Using KEX algorithm"); let server_host_key_algorithm = sup_algs.hostkey.find(kex.server_host_key_algorithms.0)?; debug!(name = %server_host_key_algorithm.name(), "Using host key algorithm"); // TODO: Implement aes128-ctr let _ = crypto::encrypt::ENC_AES128_CTR; let encryption_client_to_server = sup_algs .encryption_from_peer .find(kex.encryption_algorithms_client_to_server.0)?; debug!(name = %encryption_client_to_server.name(), "Using encryption algorithm C->S"); let encryption_server_to_client = sup_algs .encryption_to_peer .find(kex.encryption_algorithms_server_to_client.0)?; debug!(name = %encryption_server_to_client.name(), "Using encryption algorithm S->C"); let mac_algorithm_client_to_server = sup_algs .mac_from_peer .find(kex.mac_algorithms_client_to_server.0)?; let mac_algorithm_server_to_client = sup_algs .mac_to_peer .find(kex.mac_algorithms_server_to_client.0)?; let compression_algorithm_client_to_server = sup_algs .compression_from_peer .find(kex.compression_algorithms_client_to_server.0)?; let compression_algorithm_server_to_client = sup_algs .compression_to_peer .find(kex.compression_algorithms_server_to_client.0)?; let _ = kex.languages_client_to_server; let _ = kex.languages_server_to_client; if kex.first_kex_packet_follows { return Err(peer_error!( "the client wants to send a guessed packet, that's annoying :(" )); } let mut cookie = [0; 16]; self.rng.fill_bytes(&mut cookie); let server_kexinit = KeyExchangeInitPacket { cookie, kex_algorithms: NameList::one(kex_algorithm.name()), server_host_key_algorithms: NameList::one(server_host_key_algorithm.name()), encryption_algorithms_client_to_server: NameList::one( encryption_client_to_server.name(), ), encryption_algorithms_server_to_client: NameList::one( encryption_server_to_client.name(), ), mac_algorithms_client_to_server: NameList::one( mac_algorithm_client_to_server, ), mac_algorithms_server_to_client: NameList::one( mac_algorithm_server_to_client, ), compression_algorithms_client_to_server: NameList::one( compression_algorithm_client_to_server, ), compression_algorithms_server_to_client: NameList::one( compression_algorithm_server_to_client, ), languages_client_to_server: NameList::none(), languages_server_to_client: NameList::none(), first_kex_packet_follows: false, }; let client_identification = take(client_identification); let server_kexinit_payload = server_kexinit.to_bytes(); self.packet_transport.queue_packet(Packet { payload: server_kexinit_payload.clone(), }); self.state = ServerState::DhKeyInit { client_identification, client_kexinit: packet.payload, server_kexinit: server_kexinit_payload, kex_algorithm, server_host_key_algorithm, encryption_client_to_server, encryption_server_to_client, }; } ServerState::DhKeyInit { client_identification, client_kexinit, server_kexinit, kex_algorithm, server_host_key_algorithm, encryption_client_to_server, encryption_server_to_client, } => { let dh = KeyExchangeEcDhInitPacket::parse(&packet.payload)?; let client_public_key = dh.qc; let server_secret = (kex_algorithm.generate_secret)(&mut *self.rng); let server_public_key = server_secret.pubkey; let shared_secret = (server_secret.exchange)(client_public_key)?; let pub_hostkey = server_host_key_algorithm.public_key(); let hash = crypto::key_exchange_hash( client_identification, SERVER_IDENTIFICATION, client_kexinit, server_kexinit, &pub_hostkey.0, client_public_key, &server_public_key, &shared_secret, ); let signature = server_host_key_algorithm.sign(&hash); // eprintln!("client_public_key: {:x?}", client_public_key); // eprintln!("server_public_key: {:x?}", server_public_key); // eprintln!("shared_secret: {:x?}", shared_secret); // eprintln!("hash: {:x?}", hash); let packet = Packet::new_msg_kex_ecdh_reply( &pub_hostkey.0, &server_public_key, &signature.0, ); self.packet_transport.queue_packet(packet); self.state = ServerState::NewKeys { h: hash, k: shared_secret, encryption_client_to_server: *encryption_client_to_server, encryption_server_to_client: *encryption_server_to_client, }; } ServerState::NewKeys { h, k, encryption_client_to_server, encryption_server_to_client, } => { if packet.payload != [numbers::SSH_MSG_NEWKEYS] { return Err(peer_error!("did not send SSH_MSG_NEWKEYS")); } self.packet_transport.queue_packet(Packet { payload: vec![numbers::SSH_MSG_NEWKEYS], }); self.packet_transport.set_key( *h, k, *encryption_client_to_server, *encryption_server_to_client, true, ); self.state = ServerState::ServiceRequest {}; } ServerState::ServiceRequest => { // TODO: this should probably move out of here? unsure. if packet.payload.first() != Some(&numbers::SSH_MSG_SERVICE_REQUEST) { return Err(peer_error!("did not send SSH_MSG_SERVICE_REQUEST")); } let mut p = Parser::new(&packet.payload[1..]); let service = p.utf8_string()?; debug!(%service, "Client requesting service"); if service != "ssh-userauth" { return Err(peer_error!("only supports ssh-userauth")); } self.packet_transport.queue_packet(Packet { payload: { let mut writer = Writer::new(); writer.u8(numbers::SSH_MSG_SERVICE_ACCEPT); writer.string(service.as_bytes()); writer.finish() }, }); self.state = ServerState::Open; } ServerState::Open => { self.plaintext_packets.push_back(packet); } } } Ok(()) } pub fn next_msg_to_send(&mut self) -> Option { self.packet_transport.next_msg_to_send() } pub fn next_plaintext_packet(&mut self) -> Option { self.plaintext_packets.pop_front() } pub fn send_plaintext_packet(&mut self, packet: Packet) { self.packet_transport.queue_packet(packet); } } /// Manually extracted from the key using , probably wrong /// ```text /// ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIOk5zfpvwNc3MztTTpE90zLI1Ref4AwwRVdSFyJLGbj2 testkey /// ``` /// ```text /// -----BEGIN OPENSSH PRIVATE KEY----- /// b3BlbnNzaC1rZXktdjEAAAAABG5vbmUAAAAEbm9uZQAAAAAAAAABAAAAMwAAAAtzc2gtZW /// QyNTUxOQAAACDpOc36b8DXNzM7U06RPdMyyNUXn+AMMEVXUhciSxm49gAAAJDpgLSk6YC0 /// pAAAAAtzc2gtZWQyNTUxOQAAACDpOc36b8DXNzM7U06RPdMyyNUXn+AMMEVXUhciSxm49g /// AAAECSeskxuEtJrr9L7ZkbpogXC5pKRNVHx1ueMX2h1XUnmek5zfpvwNc3MztTTpE90zLI /// 1Ref4AwwRVdSFyJLGbj2AAAAB3Rlc3RrZXkBAgMEBQY= /// -----END OPENSSH PRIVATE KEY----- /// ``` // todo: remove this lol, lmao pub(crate) const ED25519_PRIVKEY_BYTES: &[u8; 32] = &[ 0x92, 0x7a, 0xc9, 0x31, 0xb8, 0x4b, 0x49, 0xae, 0xbf, 0x4b, 0xed, 0x99, 0x1b, 0xa6, 0x88, 0x17, 0x0b, 0x9a, 0x4a, 0x44, 0xd5, 0x47, 0xc7, 0x5b, 0x9e, 0x31, 0x7d, 0xa1, 0xd5, 0x75, 0x27, 0x99, ]; pub(crate) const ECDSA_P256_PRIVKEY_BYTES: &[u8; 32] = &[ 0x89, 0xdd, 0x0c, 0x96, 0x22, 0x85, 0x10, 0xec, 0x3c, 0xa4, 0xa1, 0xb8, 0xac, 0x2a, 0x77, 0xa8, 0xd4, 0x4d, 0xcb, 0x9d, 0x90, 0x25, 0xc6, 0xd8, 0x3a, 0x02, 0x74, 0x4f, 0x9e, 0x44, 0xcd, 0xa3, ]; #[cfg(test)] mod tests { use hex_literal::hex; use crate::{packet::MsgKind, server::ServerConnection, SshRng}; struct NoRng; impl SshRng for NoRng { fn fill_bytes(&mut self, _: &mut [u8]) { unreachable!() } } struct HardcodedRng(Vec); impl SshRng for HardcodedRng { fn fill_bytes(&mut self, dest: &mut [u8]) { dest.copy_from_slice(&self.0[..dest.len()]); self.0.splice(0..dest.len(), []); } } #[test] fn protocol_exchange() { let mut con = ServerConnection::new(NoRng); con.recv_bytes(b"SSH-2.0-OpenSSH_9.7\r\n").unwrap(); let msg = con.next_msg_to_send().unwrap(); assert!(matches!(msg.0, MsgKind::ServerProtocolInfo(_))); } #[test] fn protocol_exchange_slow_client() { let mut con = ServerConnection::new(NoRng); con.recv_bytes(b"SSH-2.0-").unwrap(); con.recv_bytes(b"OpenSSH_9.7\r\n").unwrap(); let msg = con.next_msg_to_send().unwrap(); assert!(matches!(msg.0, MsgKind::ServerProtocolInfo(_))); } #[test] #[ignore = "this is super annoying, use expect-test please"] fn handshake() { #[rustfmt::skip] let rng = vec![ 0x14, 0xa2, 0x04, 0xa5, 0x4b, 0x2f, 0x5f, 0xa7, 0xff, 0x53, 0x13, 0x67, 0x57, 0x67, 0xbc, 0x55, 0x3f, 0xc0, 0x6c, 0x0d, 0x07, 0x8f, 0xe2, 0x75, 0x95, 0x18, 0x4b, 0xd2, 0xcb, 0xd0, 0x64, 0x06, 0x14, 0xa2, 0x04, 0xa5, 0x4b, 0x2f, 0x5f, 0xa7, 0xff, 0x53, 0x13, 0x67, 0x57, 0x67, 0xbc, 0x55, 0x3f, 0xc0, 0x6c, 0x0d, 0x07, 0x8f, 0xe2, 0x75, 0x95, 0x18, 0x4b, 0xd2, 0xcb, 0xd0, 0x64, 0x06, 0x67, 0xbc, 0x55, 0x3f, 0xc0, 0x6c, 0x0d, 0x07, 0x8f, 0xe2, 0x75, 0x95, 0x18, 0x4b, 0xd2, 0xcb, 0xd0, 0x64, 0x06, ]; struct Part { client: &'static [u8], server: &'static [u8], } // Extracted from a real OpenSSH client using this server (with hardcoded creds) using Wireshark. let conversation = [ Part { client: &hex!("5353482d322e302d4f70656e5353485f392e370d0a"), server: &hex!("5353482d322e302d4f70656e5353485f392e370d0a"), }, // KEX Init Part { client: &hex!( "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" ), server: &hex!( "000000bc051414a204a54b2f5fa7ff5313675767bc5500000011637572766532353531392d7368613235360000000b7373682d656432353531390000001d63686163686132302d706f6c7931333035406f70656e7373682e636f6d0000001d63686163686132302d706f6c7931333035406f70656e7373682e636f6d0000000d686d61632d736861322d3235360000000d686d61632d736861322d323536000000046e6f6e65000000046e6f6e65000000000000000000000000000000000000" ), }, // ECDH KEX Init Part { client: &hex!( "0000002c061e000000204c646d1281abf23264d63db96e05c0223cfead668d9d38c62579b8856e67ae19000000000000" ), server: &hex!( "000000bc081f000000330000000b7373682d6564323535313900000020e939cdfa6fc0d737333b534e913dd332c8d5179fe00c3045575217224b19b8f6000000204260e2c5e5383f1a021c9631fa61f60f305b29183fd219d4c8207c664e063410000000530000000b7373682d65643235353139000000406504a045499f26aa4ee17606ea6bd9e3f288838591f25d8604a63f77a52f5b9e909c00d10f386553e585d86ab329bbde0fca5c64b1b1982d7adcac17cf7f06010000000000000000" ), }, // New Keys Part { client: &hex!("0000000c0a1500000000000000000000"), server: &hex!("0000000c0a1500000000000000000000"), }, // Service Request (encrypted) Part { client: &hex!("09ca4db7baeb24836a1f7d22368055bf4c26981ed86738ac7a5c31d0730ad656f1967853781dff91ee1c4de8"), server: &hex!("7b444c0d5faf740d350701a054ea469fab1c98e4b669e4872a454163edb42ec5e4fa95c404ab601f016bd259"), }, ]; let mut con = ServerConnection::new(HardcodedRng(rng)); for part in conversation { con.recv_bytes(&part.client).unwrap(); eprintln!("client: {:x?}", part.client); let bytes = con.next_msg_to_send().unwrap().to_bytes(); if part.server != bytes { panic!( "expected != found\nexpected: {:x?}\nfound: {:x?}", part.server, bytes ); } } } }