Mercurial > 510Connectbot
view src/com/trilead/ssh2/transport/TransportConnection.java @ 42:7ac846a07ed4 tn5250
start tn5250 integration
author | Carl Byington <carl@five-ten-sg.com> |
---|---|
date | Wed, 11 Jun 2014 09:14:31 -0700 |
parents | 0ce5cc452d02 |
children |
line wrap: on
line source
package com.trilead.ssh2.transport; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.security.SecureRandom; import com.trilead.ssh2.compression.ICompressor; import com.trilead.ssh2.crypto.cipher.BlockCipher; import com.trilead.ssh2.crypto.cipher.CipherInputStream; import com.trilead.ssh2.crypto.cipher.CipherOutputStream; import com.trilead.ssh2.crypto.cipher.NullCipher; import com.trilead.ssh2.crypto.digest.MAC; import com.trilead.ssh2.log.Logger; import com.trilead.ssh2.packets.Packets; /** * TransportConnection. * * @author Christian Plattner, plattner@trilead.com * @version $Id: TransportConnection.java,v 1.1 2007/10/15 12:49:56 cplattne Exp $ */ public class TransportConnection { private static final Logger log = Logger.getLogger(TransportConnection.class); int send_seq_number = 0; int recv_seq_number = 0; CipherInputStream cis; CipherOutputStream cos; boolean useRandomPadding = false; /* Depends on current MAC and CIPHER */ MAC send_mac; byte[] send_mac_buffer; int send_padd_blocksize = 8; MAC recv_mac; byte[] recv_mac_buffer; byte[] recv_mac_buffer_cmp; int recv_padd_blocksize = 8; ICompressor recv_comp = null; ICompressor send_comp = null; boolean can_recv_compress = false; boolean can_send_compress = false; byte[] recv_comp_buffer; byte[] send_comp_buffer; /* won't change */ final byte[] send_padding_buffer = new byte[256]; final byte[] send_packet_header_buffer = new byte[5]; final byte[] recv_padding_buffer = new byte[256]; final byte[] recv_packet_header_buffer = new byte[5]; boolean recv_packet_header_present = false; ClientServerHello csh; final SecureRandom rnd; public TransportConnection(InputStream is, OutputStream os, SecureRandom rnd) { this.cis = new CipherInputStream(new NullCipher(), is); this.cos = new CipherOutputStream(new NullCipher(), os); this.rnd = rnd; } public void changeRecvCipher(BlockCipher bc, MAC mac) { cis.changeCipher(bc); recv_mac = mac; recv_mac_buffer = (mac != null) ? new byte[mac.size()] : null; recv_mac_buffer_cmp = (mac != null) ? new byte[mac.size()] : null; recv_padd_blocksize = bc.getBlockSize(); if (recv_padd_blocksize < 8) recv_padd_blocksize = 8; } public void changeSendCipher(BlockCipher bc, MAC mac) { if ((bc instanceof NullCipher) == false) { /* Only use zero byte padding for the first few packets */ useRandomPadding = true; /* Once we start encrypting, there is no way back */ } cos.changeCipher(bc); send_mac = mac; send_mac_buffer = (mac != null) ? new byte[mac.size()] : null; send_padd_blocksize = bc.getBlockSize(); if (send_padd_blocksize < 8) send_padd_blocksize = 8; } public void changeRecvCompression(ICompressor comp) { recv_comp = comp; if (comp != null) { recv_comp_buffer = new byte[comp.getBufferSize()]; can_recv_compress |= recv_comp.canCompressPreauth(); } } public void changeSendCompression(ICompressor comp) { send_comp = comp; if (comp != null) { send_comp_buffer = new byte[comp.getBufferSize()]; can_send_compress |= send_comp.canCompressPreauth(); } } public void sendMessage(byte[] message) throws IOException { sendMessage(message, 0, message.length, 0); } public void sendMessage(byte[] message, int off, int len) throws IOException { sendMessage(message, off, len, 0); } public int getPacketOverheadEstimate() { // return an estimate for the paket overhead (for send operations) return 5 + 4 + (send_padd_blocksize - 1) + send_mac_buffer.length; } public void sendMessage(byte[] message, int off, int len, int padd) throws IOException { if (padd < 4) padd = 4; else if (padd > 64) padd = 64; if (send_comp != null && can_send_compress) { if (send_comp_buffer.length < message.length + 1024) send_comp_buffer = new byte[message.length + 1024]; len = send_comp.compress(message, off, len, send_comp_buffer); message = send_comp_buffer; } int packet_len = 5 + len + padd; /* Minimum allowed padding is 4 */ int slack = packet_len % send_padd_blocksize; if (slack != 0) { packet_len += (send_padd_blocksize - slack); } if (packet_len < 16) packet_len = 16; int padd_len = packet_len - (5 + len); if (useRandomPadding) { for (int i = 0; i < padd_len; i = i + 4) { /* * don't waste calls to rnd.nextInt() (by using only 8bit of the * output). just believe me: even though we may write here up to 3 * bytes which won't be used, there is no "buffer overflow" (i.e., * arrayindexoutofbounds). the padding buffer is big enough =) (256 * bytes, and that is bigger than any current cipher block size + 64). */ int r = rnd.nextInt(); send_padding_buffer[i] = (byte) r; send_padding_buffer[i + 1] = (byte)(r >> 8); send_padding_buffer[i + 2] = (byte)(r >> 16); send_padding_buffer[i + 3] = (byte)(r >> 24); } } else { /* use zero padding for unencrypted traffic */ for (int i = 0; i < padd_len; i++) send_padding_buffer[i] = 0; /* Actually this code is paranoid: we never filled any * bytes into the padding buffer so far, therefore it should * consist of zeros only. */ } send_packet_header_buffer[0] = (byte)((packet_len - 4) >> 24); send_packet_header_buffer[1] = (byte)((packet_len - 4) >> 16); send_packet_header_buffer[2] = (byte)((packet_len - 4) >> 8); send_packet_header_buffer[3] = (byte)((packet_len - 4)); send_packet_header_buffer[4] = (byte) padd_len; cos.write(send_packet_header_buffer, 0, 5); cos.write(message, off, len); cos.write(send_padding_buffer, 0, padd_len); if (send_mac != null) { send_mac.initMac(send_seq_number); send_mac.update(send_packet_header_buffer, 0, 5); send_mac.update(message, off, len); send_mac.update(send_padding_buffer, 0, padd_len); send_mac.getMac(send_mac_buffer, 0); cos.writePlain(send_mac_buffer, 0, send_mac_buffer.length); } cos.flush(); if (log.isEnabled()) { log.log(90, "Sent " + Packets.getMessageName(message[off] & 0xff) + " " + len + " bytes payload"); } send_seq_number++; } public int peekNextMessageLength() throws IOException { if (recv_packet_header_present == false) { cis.read(recv_packet_header_buffer, 0, 5); recv_packet_header_present = true; } int packet_length = ((recv_packet_header_buffer[0] & 0xff) << 24) | ((recv_packet_header_buffer[1] & 0xff) << 16) | ((recv_packet_header_buffer[2] & 0xff) << 8) | ((recv_packet_header_buffer[3] & 0xff)); int padding_length = recv_packet_header_buffer[4] & 0xff; if (packet_length > 35000 || packet_length < 12) throw new IOException("Illegal packet size! (" + packet_length + ")"); int payload_length = packet_length - padding_length - 1; if (payload_length < 0) throw new IOException("Illegal padding_length in packet from remote (" + padding_length + ")"); return payload_length; } public int receiveMessage(byte buffer[], int off, int len) throws IOException { if (recv_packet_header_present == false) { cis.read(recv_packet_header_buffer, 0, 5); } else recv_packet_header_present = false; int packet_length = ((recv_packet_header_buffer[0] & 0xff) << 24) | ((recv_packet_header_buffer[1] & 0xff) << 16) | ((recv_packet_header_buffer[2] & 0xff) << 8) | ((recv_packet_header_buffer[3] & 0xff)); int padding_length = recv_packet_header_buffer[4] & 0xff; if (packet_length > 35000 || packet_length < 12) throw new IOException("Illegal packet size! (" + packet_length + ")"); int payload_length = packet_length - padding_length - 1; if (payload_length < 0) throw new IOException("Illegal padding_length in packet from remote (" + padding_length + ")"); if (payload_length >= len) throw new IOException("Receive buffer too small (" + len + ", need " + payload_length + ")"); cis.read(buffer, off, payload_length); cis.read(recv_padding_buffer, 0, padding_length); if (recv_mac != null) { cis.readPlain(recv_mac_buffer, 0, recv_mac_buffer.length); recv_mac.initMac(recv_seq_number); recv_mac.update(recv_packet_header_buffer, 0, 5); recv_mac.update(buffer, off, payload_length); recv_mac.update(recv_padding_buffer, 0, padding_length); recv_mac.getMac(recv_mac_buffer_cmp, 0); for (int i = 0; i < recv_mac_buffer.length; i++) { if (recv_mac_buffer[i] != recv_mac_buffer_cmp[i]) throw new IOException("Remote sent corrupt MAC."); } } recv_seq_number++; if (log.isEnabled()) { log.log(90, "Received " + Packets.getMessageName(buffer[off] & 0xff) + " " + payload_length + " bytes payload"); } if (recv_comp != null && can_recv_compress) { int[] uncomp_len = new int[] { payload_length }; buffer = recv_comp.uncompress(buffer, off, uncomp_len); if (buffer == null) { throw new IOException("Error while inflating remote data"); } else { return uncomp_len[0]; } } else { return payload_length; } } /** * */ public void startCompression() { can_recv_compress = true; can_send_compress = true; } }