Mercurial > 510Connectbot
view src/ch/ethz/ssh2/transport/ClientKexManager.java @ 417:4dcc071e1feb
monitor failure should not kill the TE
author | Carl Byington <carl@five-ten-sg.com> |
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date | Wed, 29 Oct 2014 12:12:48 -0700 |
parents | 2768eb029d73 |
children |
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/* * Copyright (c) 2006-2013 Christian Plattner. All rights reserved. * Please refer to the LICENSE.txt for licensing details. */ package ch.ethz.ssh2.transport; import java.io.IOException; import java.security.DigestException; import java.security.SecureRandom; import java.security.interfaces.DSAPublicKey; import java.security.interfaces.ECPublicKey; import java.security.interfaces.RSAPublicKey; import ch.ethz.ssh2.ConnectionInfo; import ch.ethz.ssh2.PacketTypeException; import ch.ethz.ssh2.ServerHostKeyVerifier; import ch.ethz.ssh2.compression.CompressionFactory; import ch.ethz.ssh2.compression.Compressor; import ch.ethz.ssh2.crypto.CryptoWishList; import ch.ethz.ssh2.crypto.cipher.BlockCipher; import ch.ethz.ssh2.crypto.cipher.BlockCipherFactory; import ch.ethz.ssh2.crypto.dh.GenericDhExchange; import ch.ethz.ssh2.crypto.dh.DhGroupExchange; import ch.ethz.ssh2.crypto.digest.MAC; import ch.ethz.ssh2.packets.PacketKexDHInit; import ch.ethz.ssh2.packets.PacketKexDHReply; import ch.ethz.ssh2.packets.PacketKexDhGexGroup; import ch.ethz.ssh2.packets.PacketKexDhGexInit; import ch.ethz.ssh2.packets.PacketKexDhGexReply; import ch.ethz.ssh2.packets.PacketKexDhGexRequest; import ch.ethz.ssh2.packets.PacketKexDhGexRequestOld; import ch.ethz.ssh2.packets.PacketKexInit; import ch.ethz.ssh2.packets.Packets; import ch.ethz.ssh2.signature.DSASHA1Verify; import ch.ethz.ssh2.signature.ECDSASHA2Verify; import ch.ethz.ssh2.signature.RSASHA1Verify; /** * @version $Id: ClientKexManager.java 160 2014-05-01 14:30:26Z dkocher@sudo.ch $ */ public class ClientKexManager extends KexManager { private final ServerHostKeyVerifier verifier; private final String hostname; private final int port; public ClientKexManager(TransportManager tm, ClientServerHello csh, CryptoWishList initialCwl, String hostname, int port, ServerHostKeyVerifier keyVerifier, SecureRandom rnd) { super(tm, csh, initialCwl, rnd); this.hostname = hostname; this.port = port; this.verifier = keyVerifier; } protected boolean verifySignature(byte[] sig, byte[] hostkey) throws IOException { if (kxs.np.server_host_key_algo.startsWith("ecdsa-sha2-")) { byte[] rs = ECDSASHA2Verify.decodeSSHECDSASignature(sig); ECPublicKey epk = ECDSASHA2Verify.decodeSSHECDSAPublicKey(hostkey); log.debug("Verifying ecdsa signature"); return ECDSASHA2Verify.verifySignature(kxs.H, rs, epk); } if (kxs.np.server_host_key_algo.equals("ssh-rsa")) { byte[] rs = RSASHA1Verify.decodeSSHRSASignature(sig); RSAPublicKey rpk = RSASHA1Verify.decodeSSHRSAPublicKey(hostkey); log.debug("Verifying ssh-rsa signature"); return RSASHA1Verify.verifySignature(kxs.H, rs, rpk); } if (kxs.np.server_host_key_algo.equals("ssh-dss")) { byte[] ds = DSASHA1Verify.decodeSSHDSASignature(sig); DSAPublicKey dpk = DSASHA1Verify.decodeSSHDSAPublicKey(hostkey); log.debug("Verifying ssh-dss signature"); return DSASHA1Verify.verifySignature(kxs.H, ds, dpk); } throw new IOException("Unknown server host key algorithm '" + kxs.np.server_host_key_algo + "'"); } public void handleFailure(final IOException failure) { synchronized (accessLock) { connectionClosed = true; accessLock.notifyAll(); } } public synchronized void handleMessage(byte[] msg) throws IOException { PacketKexInit kip; if (msg == null) { synchronized (accessLock) { connectionClosed = true; accessLock.notifyAll(); return; } } log.debug(String.format("client kex manager, packet type %d", msg[0])); if ((kxs == null) && (msg[0] != Packets.SSH_MSG_KEXINIT)) { throw new PacketTypeException(msg[0]); } if (ignore_next_kex_packet) { ignore_next_kex_packet = false; return; } if (msg[0] == Packets.SSH_MSG_KEXINIT) { if ((kxs != null) && (kxs.state != 0)) { throw new PacketTypeException(msg[0]); } if (kxs == null) { /* * Ah, OK, peer wants to do KEX. Let's be nice and play * together. */ kxs = new KexState(); kxs.dhgexParameters = nextKEXdhgexParameters; kip = new PacketKexInit(nextKEXcryptoWishList, rnd); kxs.localKEX = kip; tm.sendKexMessage(kip.getPayload()); } kip = new PacketKexInit(msg); kxs.remoteKEX = kip; kxs.np = mergeKexParameters(kxs.localKEX.getKexParameters(), kxs.remoteKEX.getKexParameters()); if (kxs.np == null) throw new IOException("Cannot negotiate, proposals do not match."); if (kxs.remoteKEX.isFirst_kex_packet_follows() && (kxs.np.guessOK == false)) { // Guess was wrong, we need to ignore the next kex packet. ignore_next_kex_packet = true; } if (kxs.np.kex_algo.equals("diffie-hellman-group-exchange-sha1") || kxs.np.kex_algo.equals("diffie-hellman-group-exchange-sha256")) { if (kxs.dhgexParameters.getMin_group_len() == 0) { PacketKexDhGexRequestOld dhgexreq = new PacketKexDhGexRequestOld(kxs.dhgexParameters); tm.sendKexMessage(dhgexreq.getPayload()); } else { PacketKexDhGexRequest dhgexreq = new PacketKexDhGexRequest(kxs.dhgexParameters); tm.sendKexMessage(dhgexreq.getPayload()); } if (kxs.np.kex_algo.endsWith("sha1")) { kxs.hashAlgo = "SHA1"; } else { kxs.hashAlgo = "SHA2"; } kxs.state = 1; return; } if (kxs.np.kex_algo.equals("diffie-hellman-group1-sha1") || kxs.np.kex_algo.equals("diffie-hellman-group14-sha1") || kxs.np.kex_algo.equals("ecdh-sha2-nistp256") || kxs.np.kex_algo.equals("ecdh-sha2-nistp384") || kxs.np.kex_algo.equals("ecdh-sha2-nistp521")) { kxs.dhx = GenericDhExchange.getInstance(kxs.np.kex_algo); kxs.dhx.init(kxs.np.kex_algo); kxs.hashAlgo = kxs.dhx.getHashAlgo(); PacketKexDHInit kp = new PacketKexDHInit(kxs.dhx.getE()); tm.sendKexMessage(kp.getPayload()); kxs.state = 1; return; } throw new IllegalStateException("Unkown KEX method!"); } if (msg[0] == Packets.SSH_MSG_NEWKEYS) { if (km == null) { throw new IOException("Peer sent SSH_MSG_NEWKEYS, but I have no key material ready!"); } BlockCipher cbc; MAC mac; Compressor comp; try { cbc = BlockCipherFactory.createCipher(kxs.np.enc_algo_server_to_client, false, km.enc_key_server_to_client, km.initial_iv_server_to_client); try { mac = new MAC(kxs.np.mac_algo_server_to_client, km.integrity_key_server_to_client); } catch (DigestException e) { throw new IOException(e); } comp = CompressionFactory.createCompressor(kxs.np.comp_algo_server_to_client); } catch (IllegalArgumentException e) { throw new IOException(e.getMessage()); } tm.changeRecvCipher(cbc, mac); tm.changeRecvCompression(comp); ConnectionInfo sci = new ConnectionInfo(); kexCount++; sci.keyExchangeAlgorithm = kxs.np.kex_algo; sci.keyExchangeCounter = kexCount; sci.clientToServerCryptoAlgorithm = kxs.np.enc_algo_client_to_server; sci.serverToClientCryptoAlgorithm = kxs.np.enc_algo_server_to_client; sci.clientToServerMACAlgorithm = kxs.np.mac_algo_client_to_server; sci.serverToClientMACAlgorithm = kxs.np.mac_algo_server_to_client; sci.serverHostKeyAlgorithm = kxs.np.server_host_key_algo; sci.serverHostKey = kxs.remote_hostkey; synchronized (accessLock) { lastConnInfo = sci; accessLock.notifyAll(); } kxs = null; return; } if ((kxs == null) || (kxs.state == 0)) { throw new IOException("Unexpected Kex submessage!"); } if (kxs.np.kex_algo.equals("diffie-hellman-group-exchange-sha1") || kxs.np.kex_algo.equals("diffie-hellman-group-exchange-sha256")) { if (kxs.state == 1) { PacketKexDhGexGroup dhgexgrp = new PacketKexDhGexGroup(msg); kxs.dhgx = new DhGroupExchange(dhgexgrp.getP(), dhgexgrp.getG()); kxs.dhgx.init(rnd); PacketKexDhGexInit dhgexinit = new PacketKexDhGexInit(kxs.dhgx.getE()); tm.sendKexMessage(dhgexinit.getPayload()); kxs.state = 2; return; } if (kxs.state == 2) { PacketKexDhGexReply dhgexrpl = new PacketKexDhGexReply(msg); kxs.remote_hostkey = dhgexrpl.getHostKey(); if (verifier != null) { try { if (!verifier.verifyServerHostKey(hostname, port, kxs.np.server_host_key_algo, kxs.remote_hostkey)) { throw new IOException("The server host key was not accepted by the verifier callback"); } } catch (Exception e) { throw new IOException( "The server host key was not accepted by the verifier callback.", e); } } kxs.dhgx.setF(dhgexrpl.getF()); try { kxs.H = kxs.dhgx.calculateH(kxs.hashAlgo, csh.getClientString(), csh.getServerString(), kxs.localKEX.getPayload(), kxs.remoteKEX.getPayload(), dhgexrpl.getHostKey(), kxs.dhgexParameters); } catch (IllegalArgumentException e) { throw new IOException("KEX error.", e); } if (!verifySignature(dhgexrpl.getSignature(), kxs.remote_hostkey)) { throw new IOException("Invalid remote host key signature"); } kxs.K = kxs.dhgx.getK(); finishKex(true); kxs.state = -1; return; } throw new IllegalStateException("Illegal State in KEX Exchange!"); } if (kxs.np.kex_algo.equals("diffie-hellman-group1-sha1") || kxs.np.kex_algo.equals("diffie-hellman-group14-sha1") || kxs.np.kex_algo.equals("ecdh-sha2-nistp256") || kxs.np.kex_algo.equals("ecdh-sha2-nistp384") || kxs.np.kex_algo.equals("ecdh-sha2-nistp521")) { if (kxs.state == 1) { PacketKexDHReply dhr = new PacketKexDHReply(msg); kxs.remote_hostkey = dhr.getHostKey(); if (verifier != null) { try { if (!verifier.verifyServerHostKey(hostname, port, kxs.np.server_host_key_algo, kxs.remote_hostkey)) { throw new IOException("The server host key was not accepted by the verifier callback"); } } catch (Exception e) { throw new IOException("The server host key was not accepted by the verifier callback", e); } } kxs.dhx.setF(dhr.getF().toByteArray()); try { kxs.H = kxs.dhx.calculateH(csh.getClientString(), csh.getServerString(), kxs.localKEX.getPayload(), kxs.remoteKEX.getPayload(), dhr.getHostKey()); } catch (IllegalArgumentException e) { throw new IOException("KEX error.", e); } if (!verifySignature(dhr.getSignature(), kxs.remote_hostkey)) { throw new IOException("Invalid remote host key signature"); } kxs.K = kxs.dhx.getK(); finishKex(true); kxs.state = -1; return; } } throw new IllegalStateException(String.format("Unknown KEX method %s", kxs.np.kex_algo)); } }