Mercurial > 510Connectbot
view app/src/main/java/ch/ethz/ssh2/ServerConnection.java @ 520:e6fa2c27140f
add more debug code
author | Carl Byington <carl@five-ten-sg.com> |
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date | Fri, 31 May 2024 14:37:18 -0600 |
parents | d29cce60f393 |
children |
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/* * Copyright (c) 2012-2013 Christian Plattner. All rights reserved. * Please refer to the LICENSE.txt for licensing details. */ package ch.ethz.ssh2; import java.io.CharArrayWriter; import java.io.File; import java.io.FileReader; import java.io.IOException; import java.net.Socket; import java.util.List; import java.util.ArrayList; import ch.ethz.ssh2.crypto.CryptoWishList; import ch.ethz.ssh2.crypto.PEMDecoder; import ch.ethz.ssh2.server.ServerConnectionState; import java.security.KeyPair; import java.security.PrivateKey; import java.security.interfaces.DSAPrivateKey; import java.security.interfaces.ECPrivateKey; import java.security.interfaces.RSAPrivateKey; import ch.ethz.ssh2.transport.ServerTransportManager; /** * A server-side SSH-2 connection. * * @author Christian * */ public class ServerConnection { /** * The softwareversion presented to the SSH-2 client. */ private String softwareversion = String.format("Ganymed_SSHD_%s", Version.getSpecification()); private final ServerConnectionState state = new ServerConnectionState(this); /** * Creates a new <code>ServerConnection</code> that will communicate * with the client over the given <code>Socket</code>. * <p> * Note: you need to call {@link #connect()} or {@link #connect(int)} to * perform the initial handshake and establish the encrypted communication. * * @see #connect(int) * * @param s The socket */ public ServerConnection(Socket s) { this(s, null, null, null); } public ServerConnection(Socket s, String softwareversion) { this(s, null, null, null); this.softwareversion = softwareversion; } /** * Creates a new <code>ServerConnection</code> that will communicate * with the client over the given <code>Socket</code>. * <p> * Note: you need to call {@link #connect()} or {@link #connect(int)} to * perform the initial handshake and establish the encrypted communication. * <p> * Please read the javadoc for the {@link #connect(int)} method. * * @see #connect(int) * * @param s The socket * @param dsa_key The DSA hostkey, may be <code>NULL</code> * @param rsa_key The RSA hostkey, may be <code>NULL</code> * @param ec_key The EC hostkey, may be <code>NULL</code> */ public ServerConnection(Socket s, KeyPair dsa_key, KeyPair rsa_key, KeyPair ec_key) { state.s = s; state.softwareversion = softwareversion; state.next_dsa_key = dsa_key; state.next_rsa_key = rsa_key; state.next_ec_key = ec_key; fixCryptoWishList(state.next_cryptoWishList, state.next_dsa_key, state.next_rsa_key, state.next_ec_key); } /** * Establish the connection and block until the first handshake has completed. * <p> * Note: this is a wrapper that calls <code>connect(0)</code> (i.e., connect with no timeout). * <p> * Please read the javadoc for the {@link #connect(int)} method. * * @see #connect(int) * * @throws IOException */ public synchronized void connect() throws IOException { connect(0); } /** * Establish the connection and block until the first handshake has completed. * <p> * Note 1: at least one DSA, RSA or EC hostkey must be set before calling this method. * <p> * Note 2: You must set the callbacks for authentication ({@link #setAuthenticationCallback(ServerAuthenticationCallback)}) * and connection events ({@link #setServerConnectionCallback(ServerConnectionCallback)}). * * @see #setPEMHostKey(char[], String) * @see #setPEMHostKey(File, String) * @see #setRsaHostKey(RSAPrivateKey) * @see #setDsaHostKey(DSAPrivateKey) * * @param timeout_milliseconds Timeout in milliseconds, <code>0</code> means no timeout. * @throws IOException */ public synchronized void connect(int timeout_milliseconds) throws IOException { synchronized (state) { if (state.cb_conn == null) throw new IllegalStateException("The callback for connection events has not been set."); if (state.cb_auth == null) throw new IllegalStateException("The callback for authentication events has not been set."); if (state.tm != null) throw new IllegalStateException("The initial handshake has already been started."); if ((state.next_dsa_key == null) && (state.next_rsa_key == null) && (state.next_ec_key == null)) throw new IllegalStateException("Neither an RSA nor a DSA nor an EC host key has been specified!"); state.tm = new ServerTransportManager(state.s); } state.tm.connect(state); /* Wait until first KEX has finished */ state.tm.getConnectionInfo(1); } /** * Retrieve the underlying socket. * * @return the socket that has been passed to the constructor. */ public Socket getSocket() { return state.s; } /** * Force an asynchronous key re-exchange (the call does not block). The * latest values set for MAC, Cipher and DH group exchange parameters will * be used. If a key exchange is currently in progress, then this method has * the only effect that the so far specified parameters will be used for the * next (client driven) key exchange. You may call this method only after * the initial key exchange has been established. * <p> * Note: This implementation will never start automatically a key exchange (other than the initial one) * unless you or the connected SSH-2 client ask for it. * * @throws IOException * In case of any failure behind the scenes. */ public synchronized void forceKeyExchange() throws IOException { synchronized (state) { if (state.tm == null) throw new IllegalStateException( "Cannot force another key exchange, you need to start the key exchange first."); state.tm.forceKeyExchange(state.next_cryptoWishList, null, state.next_dsa_key, state.next_rsa_key, state.next_ec_key); } } /** * Returns a {@link ConnectionInfo} object containing the details of * the connection. May be called as soon as the first key exchange has been * started. The method blocks in case the first key exchange has not been completed. * <p> * Note: upon return of this method, authentication may still be pending. * * @return A {@link ConnectionInfo} object. * @throws IOException * In case of any failure behind the scenes; e.g., first key exchange was aborted. */ public synchronized ConnectionInfo getConnectionInfo() throws IOException { synchronized (state) { if (state.tm == null) throw new IllegalStateException( "Cannot get details of connection, you need to start the key exchange first."); } return state.tm.getConnectionInfo(1); } /** * Change the current DSA hostkey. Either a DSA or RSA or EC private key must be set for a successful handshake with * the client. * <p> * Note: You can change an existing DSA hostkey after the initial kex exchange (the new value will * be used during the next server initiated key exchange), but you cannot remove (i.e., set to <code>null</code>) the * current DSA key, otherwise the next key exchange may fail in case the client supports only DSA hostkeys. * * @param dsa_hostkey */ public synchronized void setDsaHostKey(KeyPair dsa_hostkey) { synchronized (state) { if ((dsa_hostkey == null) && (state.next_dsa_key != null) && (state.tm != null)) throw new IllegalStateException("Cannot remove DSA hostkey after first key exchange."); state.next_dsa_key = dsa_hostkey; fixCryptoWishList(state.next_cryptoWishList, state.next_dsa_key, state.next_rsa_key, state.next_ec_key); } } /** * Change the current RSA hostkey. Either a DSA or RSA or EC private key must be set for a successful handshake with * the client. * <p> * Note: You can change an existing RSA hostkey after the initial kex exchange (the new value will * be used during the next server initiated key exchange), but you cannot remove (i.e., set to <code>null</code>) the * current RSA key, otherwise the next key exchange may fail in case the client supports only RSA hostkeys. * * @param rsa_hostkey */ public synchronized void setRsaHostKey(KeyPair rsa_hostkey) { synchronized (state) { if ((rsa_hostkey == null) && (state.next_rsa_key != null) && (state.tm != null)) throw new IllegalStateException("Cannot remove RSA hostkey after first key exchange."); state.next_rsa_key = rsa_hostkey; fixCryptoWishList(state.next_cryptoWishList, state.next_dsa_key, state.next_rsa_key, state.next_ec_key); } } /** * Change the current EC hostkey. Either a DSA or RSA or EC private key must be set for a successful handshake with * the client. * <p> * Note: You can change an existing EC hostkey after the initial kex exchange (the new value will * be used during the next server initiated key exchange), but you cannot remove (i.e., set to <code>null</code>) the * current EC key, otherwise the next key exchange may fail in case the client supports only EC hostkeys. * * @param rsa_hostkey */ public synchronized void setEcHostKey(KeyPair ec_hostkey) { synchronized (state) { if ((ec_hostkey == null) && (state.next_ec_key != null) && (state.tm != null)) throw new IllegalStateException("Cannot remove EC hostkey after first key exchange."); state.next_ec_key = ec_hostkey; fixCryptoWishList(state.next_cryptoWishList, state.next_dsa_key, state.next_rsa_key, state.next_ec_key); } } /** * Utility method that loads a PEM based hostkey (either RSA or DSA based) and * calls either <code>setRsaHostKey()</code> or <code>setDsaHostKey()</code>. * * @param pemdata The PEM data * @param password Password, may be null in case the PEM data is not password protected * @throws IOException In case of any error. */ public void setPEMHostKey(char[] pemdata, String password) throws IOException { KeyPair pair = PEMDecoder.decode(pemdata, password); PrivateKey key = pair.getPrivate(); if (key instanceof DSAPrivateKey) setDsaHostKey(pair); if (key instanceof RSAPrivateKey) setRsaHostKey(pair); if (key instanceof ECPrivateKey) setEcHostKey(pair); } /** * Utility method that loads a hostkey from a PEM file (either RSA or DSA based) and * calls either <code>setRsaHostKey()</code> or <code>setDsaHostKey()</code>. * * @param pemFile The PEM file * @param password Password, may be null in case the PEM file is not password protected * @throws IOException */ public void setPEMHostKey(File pemFile, String password) throws IOException { if (pemFile == null) throw new IllegalArgumentException("pemfile argument is null"); char[] buff = new char[256]; CharArrayWriter cw = new CharArrayWriter(); FileReader fr = new FileReader(pemFile); while (true) { int len = fr.read(buff); if (len < 0) break; cw.write(buff, 0, len); } fr.close(); setPEMHostKey(cw.toCharArray(), password); } private void fixCryptoWishList(CryptoWishList next_cryptoWishList, KeyPair next_dsa_key, KeyPair next_rsa_key, KeyPair next_ec_key) { List<String> algos = new ArrayList<String>(); if (next_rsa_key != null) algos.add("ssh-rsa"); if (next_dsa_key != null) algos.add("ssh-dss"); if (next_ec_key != null) algos.add("ecdsa-sha2-nistp521"); if (next_ec_key != null) algos.add("ecdsa-sha2-nistp384"); if (next_ec_key != null) algos.add("ecdsa-sha2-nistp256"); next_cryptoWishList.serverHostKeyAlgorithms = new String[algos.size()]; algos.toArray(next_cryptoWishList.serverHostKeyAlgorithms); } /** * Callback interface with methods that will be called upon events * generated by the client (e.g., client opens a new Session which results in a <code>ServerSession</code>). * <p> * Note: This must be set before the first handshake. * * @param cb The callback implementation */ public synchronized void setServerConnectionCallback(ServerConnectionCallback cb) { synchronized (state) { state.cb_conn = cb; } } /** * Callback interface with methods that will be called upon authentication events. * <p> * Note: This must be set before the first handshake. * * @param cb The callback implementation */ public synchronized void setAuthenticationCallback(ServerAuthenticationCallback cb) { synchronized (state) { state.cb_auth = cb; } } /** * Close the connection to the SSH-2 server. All assigned sessions will be * closed, too. Can be called at any time. Don't forget to call this once * you don't need a connection anymore - otherwise the receiver thread may * run forever. */ public void close() { synchronized (state) { if (state.cm != null) state.cm.closeAllChannels(); if (state.tm != null) { state.tm.close(new Throwable("Closed due to user request."), false); } } } public void close(IOException t) { synchronized (state) { if (state.cm != null) state.cm.closeAllChannels(); if (state.tm != null) { state.tm.close(t, false); } } } }