Mercurial > 510Connectbot
view src/ch/ethz/ssh2/transport/KexManager.java @ 346:d6ab7b606a50
compensate for SecureRandom bug on older devices
author | Carl Byington <carl@five-ten-sg.com> |
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date | Thu, 31 Jul 2014 18:51:21 -0700 |
parents | a1a2e33b3565 |
children | 37f4a3b506d9 |
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/* * Copyright (c) 2006-2011 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.io.InterruptedIOException; import java.security.DigestException; import java.security.KeyPair; import java.security.PrivateKey; import java.security.SecureRandom; import java.security.interfaces.DSAPrivateKey; import java.security.interfaces.RSAPrivateKey; import java.security.interfaces.ECPrivateKey; import java.util.Arrays; import java.util.Set; import java.util.TreeSet; import ch.ethz.ssh2.ConnectionInfo; import ch.ethz.ssh2.DHGexParameters; import ch.ethz.ssh2.compression.CompressionFactory; import ch.ethz.ssh2.compression.Compressor; import ch.ethz.ssh2.crypto.CryptoWishList; import ch.ethz.ssh2.crypto.KeyMaterial; import ch.ethz.ssh2.crypto.cipher.BlockCipher; import ch.ethz.ssh2.crypto.cipher.BlockCipherFactory; import ch.ethz.ssh2.crypto.digest.MAC; import ch.ethz.ssh2.log.Logger; import ch.ethz.ssh2.packets.PacketKexInit; import ch.ethz.ssh2.packets.PacketNewKeys; import java.security.interfaces.DSAPrivateKey; import java.security.interfaces.RSAPrivateKey; import java.security.interfaces.ECPrivateKey; /** * @version $Id: KexManager.java 152 2014-04-28 11:02:23Z dkocher@sudo.ch $ */ public abstract class KexManager implements MessageHandler { protected static final Logger log = Logger.getLogger(KexManager.class); private static final Set<String> HOSTKEY_ALGS = new TreeSet<String>(); static { HOSTKEY_ALGS.add("ecdsa-sha2-nistp256"); HOSTKEY_ALGS.add("ecdsa-sha2-nistp384"); HOSTKEY_ALGS.add("ecdsa-sha2-nistp521"); HOSTKEY_ALGS.add("ssh-rsa"); HOSTKEY_ALGS.add("ssh-dss"); } private static final Set<String> KEX_ALGS = new TreeSet<String>(); static { KEX_ALGS.add("ecdh-sha2-nistp256"); KEX_ALGS.add("ecdh-sha2-nistp384"); KEX_ALGS.add("ecdh-sha2-nistp521"); KEX_ALGS.add("diffie-hellman-group-exchange-sha256"); KEX_ALGS.add("diffie-hellman-group-exchange-sha1"); KEX_ALGS.add("diffie-hellman-group14-sha1"); KEX_ALGS.add("diffie-hellman-group1-sha1"); } KexState kxs; int kexCount = 0; KeyMaterial km; byte[] sessionId; ClientServerHello csh; final Object accessLock = new Object(); ConnectionInfo lastConnInfo = null; boolean connectionClosed = false; boolean ignore_next_kex_packet = false; final TransportManager tm; CryptoWishList nextKEXcryptoWishList; DHGexParameters nextKEXdhgexParameters; KeyPair nextKEXdsakey; KeyPair nextKEXrsakey; KeyPair nextKEXeckey; final SecureRandom rnd; public KexManager(TransportManager tm, ClientServerHello csh, CryptoWishList initialCwl, SecureRandom rnd) { this.tm = tm; this.csh = csh; this.nextKEXcryptoWishList = initialCwl; this.nextKEXdhgexParameters = new DHGexParameters(); this.rnd = rnd; } public ConnectionInfo getOrWaitForConnectionInfo(int minKexCount) throws IOException { synchronized (accessLock) { while (true) { if ((lastConnInfo != null) && (lastConnInfo.keyExchangeCounter >= minKexCount)) { return lastConnInfo; } if (connectionClosed) { throw(IOException) new IOException("Key exchange was not finished, connection is closed.").initCause(tm.getReasonClosedCause()); } try { accessLock.wait(); } catch (InterruptedException e) { throw new InterruptedIOException(e.getMessage()); } } } } private String getFirstMatch(String[] client, String[] server) throws NegotiateException { if (client == null || server == null) { throw new IllegalArgumentException(); } for (String c : client) { for (String s : server) { if (c.equals(s)) { return c; } } } throw new NegotiateException(String.format("Negotiation failed for %s", Arrays.toString(server))); } private boolean compareFirstOfNameList(String[] a, String[] b) { if (a == null || b == null) { throw new IllegalArgumentException(); } if ((a.length == 0) && (b.length == 0)) { return true; } if ((a.length == 0) || (b.length == 0)) { return false; } return (a[0].equals(b[0])); } private boolean isGuessOK(KexParameters cpar, KexParameters spar) { if (cpar == null || spar == null) { throw new IllegalArgumentException(); } if (!compareFirstOfNameList(cpar.kex_algorithms, spar.kex_algorithms)) { return false; } if (!compareFirstOfNameList(cpar.server_host_key_algorithms, spar.server_host_key_algorithms)) { return false; } /* * We do NOT check here if the other algorithms can be agreed on, this * is just a check if kex_algorithms and server_host_key_algorithms were * guessed right! */ return true; } protected NegotiatedParameters mergeKexParameters(KexParameters client, KexParameters server) throws NegotiateException { NegotiatedParameters np = new NegotiatedParameters(); np.kex_algo = getFirstMatch(client.kex_algorithms, server.kex_algorithms); log.info("kex_algo=" + np.kex_algo); np.server_host_key_algo = getFirstMatch(client.server_host_key_algorithms, server.server_host_key_algorithms); log.info("server_host_key_algo=" + np.server_host_key_algo); np.enc_algo_client_to_server = getFirstMatch(client.encryption_algorithms_client_to_server, server.encryption_algorithms_client_to_server); np.enc_algo_server_to_client = getFirstMatch(client.encryption_algorithms_server_to_client, server.encryption_algorithms_server_to_client); log.info("enc_algo_client_to_server=" + np.enc_algo_client_to_server); log.info("enc_algo_server_to_client=" + np.enc_algo_server_to_client); np.mac_algo_client_to_server = getFirstMatch(client.mac_algorithms_client_to_server, server.mac_algorithms_client_to_server); np.mac_algo_server_to_client = getFirstMatch(client.mac_algorithms_server_to_client, server.mac_algorithms_server_to_client); log.info("mac_algo_client_to_server=" + np.mac_algo_client_to_server); log.info("mac_algo_server_to_client=" + np.mac_algo_server_to_client); np.comp_algo_client_to_server = getFirstMatch(client.compression_algorithms_client_to_server, server.compression_algorithms_client_to_server); np.comp_algo_server_to_client = getFirstMatch(client.compression_algorithms_server_to_client, server.compression_algorithms_server_to_client); log.info("comp_algo_client_to_server=" + np.comp_algo_client_to_server); log.info("comp_algo_server_to_client=" + np.comp_algo_server_to_client); np.lang_client_to_server = getFirstMatch(client.languages_client_to_server, server.languages_client_to_server); np.lang_server_to_client = getFirstMatch(client.languages_server_to_client, server.languages_server_to_client); if (isGuessOK(client, server)) { np.guessOK = true; } return np; } public synchronized void initiateKEX(CryptoWishList cwl, DHGexParameters dhgex, KeyPair dsa, KeyPair rsa, KeyPair ec) throws IOException { nextKEXcryptoWishList = cwl; nextKEXdhgexParameters = dhgex; nextKEXdsakey = dsa; nextKEXrsakey = rsa; nextKEXeckey = ec; if (kxs == null) { kxs = new KexState(); kxs.local_dsa_key = dsa; kxs.local_rsa_key = rsa; kxs.local_ec_key = ec; kxs.dhgexParameters = nextKEXdhgexParameters; kxs.localKEX = new PacketKexInit(nextKEXcryptoWishList, rnd); tm.sendKexMessage(kxs.localKEX.getPayload()); } } private boolean establishKeyMaterial() throws IOException { try { int mac_cs_key_len = MAC.getKeyLen(kxs.np.mac_algo_client_to_server); int enc_cs_key_len = BlockCipherFactory.getKeySize(kxs.np.enc_algo_client_to_server); int enc_cs_block_len = BlockCipherFactory.getBlockSize(kxs.np.enc_algo_client_to_server); int mac_sc_key_len = MAC.getKeyLen(kxs.np.mac_algo_server_to_client); int enc_sc_key_len = BlockCipherFactory.getKeySize(kxs.np.enc_algo_server_to_client); int enc_sc_block_len = BlockCipherFactory.getBlockSize(kxs.np.enc_algo_server_to_client); km = KeyMaterial.create("SHA1", kxs.H, kxs.K, sessionId, enc_cs_key_len, enc_cs_block_len, mac_cs_key_len, enc_sc_key_len, enc_sc_block_len, mac_sc_key_len); } catch (IllegalArgumentException e) { return false; } return true; } protected void finishKex(boolean clientMode) throws IOException { if (sessionId == null) { sessionId = kxs.H; } establishKeyMaterial(); /* Tell the other side that we start using the new material */ PacketNewKeys ign = new PacketNewKeys(); tm.sendKexMessage(ign.getPayload()); BlockCipher cbc; MAC mac; Compressor comp; try { cbc = BlockCipherFactory.createCipher(clientMode ? kxs.np.enc_algo_client_to_server : kxs.np.enc_algo_server_to_client, true, clientMode ? km.enc_key_client_to_server : km.enc_key_server_to_client, clientMode ? km.initial_iv_client_to_server : km.initial_iv_server_to_client); try { mac = new MAC(clientMode ? kxs.np.mac_algo_client_to_server : kxs.np.mac_algo_server_to_client, clientMode ? km.integrity_key_client_to_server : km.integrity_key_server_to_client); } catch (DigestException e) { throw new IOException(e); } comp = CompressionFactory.createCompressor(kxs.np.comp_algo_client_to_server); } catch (IllegalArgumentException f) { throw new IOException(String.format("Fatal error initializing ciphers. %s", f.getMessage())); } tm.changeSendCipher(cbc, mac); tm.changeSendCompression(comp); tm.kexFinished(); } public static String[] getDefaultServerHostkeyAlgorithmList() { return HOSTKEY_ALGS.toArray(new String[HOSTKEY_ALGS.size()]); } public static void checkServerHostkeyAlgorithmsList(String[] algos) { for (final String algo : algos) { if (!HOSTKEY_ALGS.contains(algo)) throw new IllegalArgumentException("Unknown server host key algorithm '" + algo + "'"); } } public static String[] getDefaultClientKexAlgorithmList() { return KEX_ALGS.toArray(new String[KEX_ALGS.size()]); } public static String[] getDefaultServerKexAlgorithmList() { return KEX_ALGS.toArray(new String[KEX_ALGS.size()]); } public static void checkKexAlgorithmList(String[] algos) { for (final String algo : algos) { if (!KEX_ALGS.contains(algo)) throw new IllegalArgumentException("Unknown kex algorithm '" + algo + "'"); } } }