/** * Jexer - Java Text User Interface * * License: LGPLv3 or later * * This module is licensed under the GNU Lesser General Public License * Version 3. Please see the file "COPYING" in this directory for more * information about the GNU Lesser General Public License Version 3. * * Copyright (C) 2015 Kevin Lamonte * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License * as published by the Free Software Foundation; either version 3 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see * http://www.gnu.org/licenses/, or write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA * * @author Kevin Lamonte [kevin.lamonte@gmail.com] * @version 1 */ package jexer.net; import java.io.InputStream; import java.io.IOException; import java.util.ArrayList; import java.util.Map; import java.util.TreeMap; import jexer.session.SessionInfo; import static jexer.net.TelnetSocket.*; /** * TelnetInputStream works with TelnetSocket to perform the telnet protocol. */ public final class TelnetInputStream extends InputStream implements SessionInfo { /** * The root TelnetSocket that has my telnet protocol state. */ private TelnetSocket master; /** * The raw socket's InputStream. */ private InputStream input; /** * The telnet-aware OutputStream. */ private TelnetOutputStream output; /** * Persistent read buffer. In practice this will only be used if the * single-byte read() is called sometime. */ private byte [] readBuffer; /** * Current writing position in readBuffer - what is passed into * input.read(). */ private int readBufferEnd; /** * Current read position in readBuffer - what is passed to the client in * response to this.read(). */ private int readBufferStart; /** * Package private constructor. * * @param master the master TelnetSocket * @param input the underlying socket's InputStream * @param output the telnet-aware OutputStream */ TelnetInputStream(final TelnetSocket master, final InputStream input, final TelnetOutputStream output) { this.master = master; this.input = input; this.output = output; // Setup new read buffer readBuffer = new byte[1024]; readBufferStart = 0; readBufferEnd = 0; subnegBuffer = new ArrayList(); } // SessionInfo interface -------------------------------------------------- /** * User name. */ private String username = ""; /** * Language. */ private String language = "en_US"; /** * Text window width. */ private int windowWidth = 80; /** * Text window height. */ private int windowHeight = 24; /** * Username getter. * * @return the username */ public String getUsername() { return this.username; } /** * Username setter. * * @param username the value */ public void setUsername(final String username) { this.username = username; } /** * Language getter. * * @return the language */ public String getLanguage() { return this.language; } /** * Language setter. * * @param language the value */ public void setLanguage(final String language) { this.language = language; } /** * Text window width getter. * * @return the window width */ public int getWindowWidth() { return windowWidth; } /** * Text window height getter. * * @return the window height */ public int getWindowHeight() { return windowHeight; } /** * Re-query the text window size. */ public void queryWindowSize() { // NOP } // InputStream interface -------------------------------------------------- /** * Returns an estimate of the number of bytes that can be read (or * skipped over) from this input stream without blocking by the next * invocation of a method for this input stream. * * @return an estimate of the number of bytes that can be read (or * skipped over) from this input stream without blocking or 0 when it * reaches the end of the input stream. * @throws IOException if an I/O error occurs */ @Override public int available() throws IOException { if (readBuffer == null) { throw new IOException("InputStream is closed"); } if (readBufferEnd - readBufferStart > 0) { return (readBufferEnd - readBufferStart); } return input.available(); } /** * Closes this input stream and releases any system resources associated * with the stream. * * @throws IOException if an I/O error occurs */ @Override public void close() throws IOException { if (readBuffer != null) { readBuffer = null; input.close(); } } /** * Marks the current position in this input stream. * * @param readLimit the maximum limit of bytes that can be read before * the mark position becomes invalid */ @Override public void mark(final int readLimit) { // Do nothing } /** * Tests if this input stream supports the mark and reset methods. * * @return true if this stream instance supports the mark and reset * methods; false otherwise */ @Override public boolean markSupported() { return false; } /** * Reads the next byte of data from the input stream. * * @return the next byte of data, or -1 if there is no more data because * the end of the stream has been reached. * @throws IOException if an I/O error occurs */ @Override public int read() throws IOException { // If the post-processed buffer has bytes, use that. if (readBufferEnd - readBufferStart > 0) { readBufferStart++; return readBuffer[readBufferStart - 1]; } // The buffer is empty, so reset the indexes to 0. readBufferStart = 0; readBufferEnd = 0; // Read some fresh data and run it through the telnet protocol. int rc = readImpl(readBuffer, readBufferEnd, readBuffer.length - readBufferEnd); // If we got something, return it. if (rc > 0) { readBufferStart++; return readBuffer[readBufferStart - 1]; } // If we read 0, I screwed up big time. assert (rc != 0); // We read -1 (EOF). return rc; } /** * Reads some number of bytes from the input stream and stores them into * the buffer array b. * * @param b the buffer into which the data is read. * @return the total number of bytes read into the buffer, or -1 if there * is no more data because the end of the stream has been reached. * @throws IOException if an I/O error occurs */ @Override public int read(final byte[] b) throws IOException { return read(b, 0, b.length); } /** * Reads up to len bytes of data from the input stream into an array of * bytes. * * @param b the buffer into which the data is read. * @param off the start offset in array b at which the data is written. * @param len the maximum number of bytes to read. * @return the total number of bytes read into the buffer, or -1 if there * is no more data because the end of the stream has been reached. * @throws IOException if an I/O error occurs */ @Override public int read(final byte[] b, final int off, final int len) throws IOException { // The only time we can return 0 is if len is 0, as per the // InputStream contract. if (len == 0) { return 0; } // If the post-processed buffer has bytes, use that. if (readBufferEnd - readBufferStart > 0) { int n = Math.min(len, readBufferEnd - readBufferStart); System.arraycopy(b, off, readBuffer, readBufferStart, n); readBufferStart += n; return n; } // The buffer is empty, so reset the indexes to 0. readBufferStart = 0; readBufferEnd = 0; // The maximum number of bytes we will ask for will definitely be // within the bounds of what we can return in a single call. int n = Math.min(len, readBuffer.length); // Read some fresh data and run it through the telnet protocol. int rc = readImpl(readBuffer, readBufferEnd, n); // If we got something, return it. if (rc > 0) { System.arraycopy(readBuffer, 0, b, off, rc); return rc; } // If we read 0, I screwed up big time. assert (rc != 0); // We read -1 (EOF). return rc; } /** * Repositions this stream to the position at the time the mark method * was last called on this input stream. This is not supported by * TelnetInputStream, so IOException is always thrown. * * @throws IOException if this function is used */ @Override public void reset() throws IOException { throw new IOException("InputStream does not support mark/reset"); } /** * Skips over and discards n bytes of data from this input stream. * * @param n the number of bytes to be skipped * @return the actual number of bytes skipped * @throws IOException if an I/O error occurs */ @Override public long skip(final long n) throws IOException { if (n < 0) { return 0; } for (int i = 0; i < n; i++) { read(); } return n; } // Telnet protocol -------------------------------------------------------- /** * When true, the last read byte from the remote side was IAC. */ private boolean iac = false; /** * When true, we are in the middle of a DO/DONT/WILL/WONT negotiation. */ private boolean dowill = false; /** * The telnet option being negotiated. */ private int dowillType = 0; /** * When true, we are waiting to see the end of the sub-negotiation * sequence. */ private boolean subnegEnd = false; /** * When true, the last byte read from the remote side was CR. */ private boolean readCR = false; /** * The subnegotiation buffer. */ private ArrayList subnegBuffer; /** * For debugging, return a descriptive string for this telnet option. * These are pulled from: http://www.iana.org/assignments/telnet-options * * @param option the telnet option byte * @return a string describing the telnet option code */ private String optionString(final int option) { switch (option) { case 0: return "Binary Transmission"; case 1: return "Echo"; case 2: return "Reconnection"; case 3: return "Suppress Go Ahead"; case 4: return "Approx Message Size Negotiation"; case 5: return "Status"; case 6: return "Timing Mark"; case 7: return "Remote Controlled Trans and Echo"; case 8: return "Output Line Width"; case 9: return "Output Page Size"; case 10: return "Output Carriage-Return Disposition"; case 11: return "Output Horizontal Tab Stops"; case 12: return "Output Horizontal Tab Disposition"; case 13: return "Output Formfeed Disposition"; case 14: return "Output Vertical Tabstops"; case 15: return "Output Vertical Tab Disposition"; case 16: return "Output Linefeed Disposition"; case 17: return "Extended ASCII"; case 18: return "Logout"; case 19: return "Byte Macro"; case 20: return "Data Entry Terminal"; case 21: return "SUPDUP"; case 22: return "SUPDUP Output"; case 23: return "Send Location"; case 24: return "Terminal Type"; case 25: return "End of Record"; case 26: return "TACACS User Identification"; case 27: return "Output Marking"; case 28: return "Terminal Location Number"; case 29: return "Telnet 3270 Regime"; case 30: return "X.3 PAD"; case 31: return "Negotiate About Window Size"; case 32: return "Terminal Speed"; case 33: return "Remote Flow Control"; case 34: return "Linemode"; case 35: return "X Display Location"; case 36: return "Environment Option"; case 37: return "Authentication Option"; case 38: return "Encryption Option"; case 39: return "New Environment Option"; case 40: return "TN3270E"; case 41: return "XAUTH"; case 42: return "CHARSET"; case 43: return "Telnet Remote Serial Port (RSP)"; case 44: return "Com Port Control Option"; case 45: return "Telnet Suppress Local Echo"; case 46: return "Telnet Start TLS"; case 47: return "KERMIT"; case 48: return "SEND-URL"; case 49: return "FORWARD_X"; case 138: return "TELOPT PRAGMA LOGON"; case 139: return "TELOPT SSPI LOGON"; case 140: return "TELOPT PRAGMA HEARTBEAT"; case 255: return "Extended-Options-List"; default: if ((option >= 50) && (option <= 137)) { return "Unassigned"; } return "UNKNOWN - OTHER"; } } /** * Send a DO/DON'T/WILL/WON'T response to the remote side. * * @param response a TELNET_DO/DONT/WILL/WONT byte * @param option telnet option byte (binary mode, term type, etc.) * @throws IOException if an I/O error occurs */ private void respond(final int response, final int option) throws IOException { byte [] buffer = new byte[3]; buffer[0] = (byte)TELNET_IAC; buffer[1] = (byte)response; buffer[2] = (byte)option; output.rawWrite(buffer); } /** * Tell the remote side we WILL support an option. * * @param option telnet option byte (binary mode, term type, etc.) * @throws IOException if an I/O error occurs */ private void WILL(final int option) throws IOException { respond(TELNET_WILL, option); } /** * Tell the remote side we WON'T support an option. * * @param option telnet option byte (binary mode, term type, etc.) * @throws IOException if an I/O error occurs */ private void WONT(final int option) throws IOException { respond(TELNET_WONT, option); } /** * Tell the remote side we DO support an option. * * @param option telnet option byte (binary mode, term type, etc.) * @throws IOException if an I/O error occurs */ private void DO(final int option) throws IOException { respond(TELNET_DO, option); } /** * Tell the remote side we DON'T support an option. * * @param option telnet option byte (binary mode, term type, etc.) * @throws IOException if an I/O error occurs */ private void DONT(final int option) throws IOException { respond(TELNET_DONT, option); } /** * Tell the remote side we WON't or DON'T support an option. * * @param remoteQuery a TELNET_DO/DONT/WILL/WONT byte * @param option telnet option byte (binary mode, term type, etc.) * @throws IOException if an I/O error occurs */ private void refuse(final int remoteQuery, final int option) throws IOException { if (remoteQuery == TELNET_DO) { WONT(option); } else { DONT(option); } } /** * Build sub-negotiation packet (RFC 855). * * @param option telnet option * @param response output buffer of response bytes * @throws IOException if an I/O error occurs */ private void telnetSendSubnegResponse(final int option, final byte [] response) throws IOException { byte [] buffer = new byte[response.length + 5]; buffer[0] = (byte)TELNET_IAC; buffer[1] = (byte)TELNET_SB; buffer[2] = (byte)option; System.arraycopy(response, 0, buffer, 3, response.length); buffer[response.length + 3] = (byte)TELNET_IAC; buffer[response.length + 4] = (byte)TELNET_SE; output.rawWrite(buffer); } /** * Telnet option: Terminal Speed (RFC 1079). Client side. * * @throws IOException if an I/O error occurs */ private void telnetSendTerminalSpeed() throws IOException { byte [] response = {0, '3', '8', '4', '0', '0', ',', '3', '8', '4', '0', '0'}; telnetSendSubnegResponse(32, response); } /** * Telnet option: Terminal Type (RFC 1091). Client side. * * @throws IOException if an I/O error occurs */ private void telnetSendTerminalType() throws IOException { byte [] response = {0, 'v', 't', '1', '0', '0' }; telnetSendSubnegResponse(24, response); } /** * Telnet option: Terminal Type (RFC 1091). Server side. * * @throws IOException if an I/O error occurs */ private void requestTerminalType() throws IOException { byte [] response = new byte[1]; response[0] = 1; telnetSendSubnegResponse(24, response); } /** * Telnet option: Terminal Speed (RFC 1079). Server side. * * @throws IOException if an I/O error occurs */ private void requestTerminalSpeed() throws IOException { byte [] response = new byte[1]; response[0] = 1; telnetSendSubnegResponse(32, response); } /** * Telnet option: New Environment (RFC 1572). Server side. * * @throws IOException if an I/O error occurs */ private void requestEnvironment() throws IOException { byte [] response = new byte[1]; response[0] = 1; telnetSendSubnegResponse(39, response); } /** * Send the options we want to negotiate on. * *

The options we use are: * *

* 

     *     Binary Transmission           RFC 856
     *     Suppress Go Ahead             RFC 858
     *     Negotiate About Window Size   RFC 1073
     *     Terminal Type                 RFC 1091
     *     Terminal Speed                RFC 1079
     *     New Environment               RFC 1572
     *
     * When run as a server:
     *     Echo                          RFC 857
     *
* * @throws IOException if an I/O error occurs */ void telnetSendOptions() throws IOException { if (master.binaryMode == false) { // Binary Transmission: must ask both do and will DO(0); WILL(0); } if (master.goAhead == true) { // Suppress Go Ahead DO(3); WILL(3); } // Server only options if (master.isServer == true) { // Enable Echo - I echo to them, they do not echo back to me. DONT(1); WILL(1); if (master.doTermType == true) { // Terminal type - request it DO(24); } if (master.doTermSpeed == true) { // Terminal speed - request it DO(32); } if (master.doNAWS == true) { // NAWS - request it DO(31); } if (master.doEnvironment == true) { // Environment - request it DO(39); } } else { if (master.doTermType == true) { // Terminal type - request it WILL(24); } if (master.doTermSpeed == true) { // Terminal speed - request it WILL(32); } if (master.doNAWS == true) { // NAWS - request it WILL(31); } if (master.doEnvironment == true) { // Environment - request it WILL(39); } } // Push it all out output.flush(); } /** * New Environment parsing state. */ private enum EnvState { INIT, TYPE, NAME, VALUE } /** * Handle the New Environment option. Note that this implementation * fails to handle ESC as defined in RFC 1572. */ private void handleNewEnvironment() { Map newEnv = new TreeMap(); EnvState state = EnvState.INIT; StringBuilder name = new StringBuilder(); StringBuilder value = new StringBuilder(); for (int i = 0; i < subnegBuffer.size(); i++) { Byte b = subnegBuffer.get(i); switch (state) { case INIT: // Looking for "IS" if (b == 0) { state = EnvState.TYPE; } else { // The other side isn't following the rules, see ya. return; } break; case TYPE: // Looking for "VAR" or "USERVAR" if (b == 0) { // VAR state = EnvState.NAME; name = new StringBuilder(); } else if (b == 3) { // USERVAR state = EnvState.NAME; name = new StringBuilder(); } else { // The other side isn't following the rules, see ya return; } break; case NAME: // Looking for "VALUE" or a name byte if (b == 1) { // VALUE state = EnvState.VALUE; value = new StringBuilder(); } else { // Take it as an environment variable name/key byte name.append((char)b.byteValue()); } break; case VALUE: // Looking for "VAR", "USERVAR", or a name byte, or the end if (b == 0) { // VAR state = EnvState.NAME; if (value.length() > 0) { newEnv.put(name, value); } name = new StringBuilder(); } else if (b == 3) { // USERVAR state = EnvState.NAME; if (value.length() > 0) { newEnv.put(name, value); } name = new StringBuilder(); } else { // Take it as an environment variable value byte value.append((char)b.byteValue()); } break; default: throw new RuntimeException("Invalid state: " + state); } } if ((name.length() > 0) && (value.length() > 0)) { newEnv.put(name, value); } for (StringBuilder key: newEnv.keySet()) { if (key.equals("LANG")) { language = newEnv.get(key).toString(); } if (key.equals("LOGNAME")) { username = newEnv.get(key).toString(); } if (key.equals("USER")) { username = newEnv.get(key).toString(); } } } /** * Handle an option sub-negotiation. * * @throws IOException if an I/O error occurs */ private void handleSubneg() throws IOException { Byte option; // Sanity check: there must be at least 1 byte in subnegBuffer if (subnegBuffer.size() < 1) { // Buffer too small: the other side is a broken telnetd, it did // not send the right sub-negotiation data. Bail out now. return; } option = subnegBuffer.get(0); switch (option) { case 24: // Terminal Type if ((subnegBuffer.size() > 1) && (subnegBuffer.get(1) == 1)) { // Server sent "SEND", we say "IS" telnetSendTerminalType(); } if ((subnegBuffer.size() > 1) && (subnegBuffer.get(1) == 0)) { // Client sent "IS", record it StringBuilder terminalString = new StringBuilder(); for (int i = 2; i < subnegBuffer.size(); i++) { terminalString.append((char)subnegBuffer. get(i).byteValue()); } master.terminalType = terminalString.toString(); } break; case 32: // Terminal Speed if ((subnegBuffer.size() > 1) && (subnegBuffer.get(1) == 1)) { // Server sent "SEND", we say "IS" telnetSendTerminalSpeed(); } if ((subnegBuffer.size() > 1) && (subnegBuffer.get(1) == 0)) { // Client sent "IS", record it StringBuilder speedString = new StringBuilder(); for (int i = 2; i < subnegBuffer.size(); i++) { speedString.append((char)subnegBuffer.get(i).byteValue()); } String termSpeed = speedString.toString(); master.terminalSpeed = speedString.toString(); } break; case 31: // NAWS if (subnegBuffer.size() >= 5) { int i = 0; i++; if (subnegBuffer.get(i) == (byte)TELNET_IAC) { i++; } windowWidth = subnegBuffer.get(i) * 256; i++; if (subnegBuffer.get(i) == (byte)TELNET_IAC) { i++; } windowWidth += subnegBuffer.get(i); i++; if (subnegBuffer.get(i) == (byte)TELNET_IAC) { i++; } windowHeight = subnegBuffer.get(i) * 256; i++; if (subnegBuffer.get(i) == (byte)TELNET_IAC) { i++; } windowHeight += subnegBuffer.get(i); } break; case 39: // Environment handleNewEnvironment(); break; default: // Ignore this one break; } } /** * Reads up to len bytes of data from the input stream into an array of * bytes. * * @param buf the buffer into which the data is read. * @param off the start offset in array b at which the data is written. * @param len the maximum number of bytes to read. * @return the total number of bytes read into the buffer, or -1 if there * is no more data because the end of the stream has been reached. * @throws IOException if an I/O error occurs */ private int readImpl(final byte[] buf, final int off, final int len) throws IOException { assert (len > 0); // The current writing position in buf. int bufN = 0; // We will keep trying to read() until we have something to return. do { // Read up to len bytes byte [] buffer = new byte[len]; int bufferN = 0; // Read some data from the other end int rc = input.read(buffer); // Check for EOF or error if (rc > 0) { // More data came in bufferN = rc; } else { // EOF, just return it. return rc; } // Loop through the read bytes for (int i = 0; i < bufferN; i++) { byte b = buffer[i]; if (subnegEnd == true) { // Looking for IAC SE to end this subnegotiation if (b == (byte)TELNET_SE) { if (iac == true) { iac = false; subnegEnd = false; handleSubneg(); } } else if (b == (byte)TELNET_IAC) { if (iac == true) { // An argument to the subnegotiation option subnegBuffer.add((byte)TELNET_IAC); } else { iac = true; } } else { // An argument to the subnegotiation option subnegBuffer.add(b); } continue; } // Look for DO/DON'T/WILL/WON'T option if (dowill == true) { // Look for option/ switch (b) { case 0: // Binary Transmission if (dowillType == (byte)TELNET_WILL) { // Server will use binary transmission, yay. master.binaryMode = true; } else if (dowillType == (byte)TELNET_DO) { // Server asks for binary transmission. WILL(b); master.binaryMode = true; } else if (dowillType == (byte)TELNET_WONT) { // We're screwed, server won't do binary // transmission. master.binaryMode = false; } else { // Server demands NVT ASCII mode. master.binaryMode = false; } break; case 1: // Echo if (dowillType == (byte)TELNET_WILL) { // Server will use echo, yay. master.echoMode = true; } else if (dowillType == (byte)TELNET_DO) { // Server asks for echo. WILL(b); master.echoMode = true; } else if (dowillType == (byte)TELNET_WONT) { // We're screwed, server won't do echo. master.echoMode = false; } else { // Server demands no echo. master.echoMode = false; } break; case 3: // Suppress Go Ahead if (dowillType == (byte)TELNET_WILL) { // Server will use suppress go-ahead, yay. master.goAhead = false; } else if (dowillType == (byte)TELNET_DO) { // Server asks for suppress go-ahead. WILL(b); master.goAhead = false; } else if (dowillType == (byte)TELNET_WONT) { // We're screwed, server won't do suppress // go-ahead. master.goAhead = true; } else { // Server demands Go-Ahead mode. master.goAhead = true; } break; case 24: // Terminal Type - send what's in TERM if (dowillType == (byte)TELNET_WILL) { // Server will use terminal type, yay. if (master.isServer && master.doTermType ) { requestTerminalType(); master.doTermType = false; } else if (!master.isServer) { master.doTermType = true; } } else if (dowillType == (byte)TELNET_DO) { // Server asks for terminal type. WILL(b); master.doTermType = true; } else if (dowillType == (byte)TELNET_WONT) { // We're screwed, server won't do terminal type. master.doTermType = false; } else { // Server will not listen to terminal type. master.doTermType = false; } break; case 31: // NAWS if (dowillType == (byte)TELNET_WILL) { // Server will use NAWS, yay. master.doNAWS = true; // NAWS cannot be requested by the server, it is // only sent by the client. } else if (dowillType == (byte)TELNET_DO) { // Server asks for NAWS. WILL(b); master.doNAWS = true; } else if (dowillType == (byte)TELNET_WONT) { // Server won't do NAWS. master.doNAWS = false; } else { // Server will not listen to NAWS. master.doNAWS = false; } break; case 32: // Terminal Speed if (dowillType == (byte)TELNET_WILL) { // Server will use terminal speed, yay. if (master.isServer && master.doTermSpeed ) { requestTerminalSpeed(); master.doTermSpeed = false; } else if (!master.isServer) { master.doTermSpeed = true; } } else if (dowillType == (byte)TELNET_DO) { // Server asks for terminal speed. WILL(b); master.doTermSpeed = true; } else if (dowillType == (byte)TELNET_WONT) { // We're screwed, server won't do terminal speed. master.doTermSpeed = false; } else { // Server will not listen to terminal speed. master.doTermSpeed = false; } break; case 39: // New Environment if (dowillType == (byte)TELNET_WILL) { // Server will use NewEnvironment, yay. if (master.isServer && master.doEnvironment ) { requestEnvironment(); master.doEnvironment = false; } else if (!master.isServer) { master.doEnvironment = true; } } else if (dowillType == (byte)TELNET_DO) { // Server asks for NewEnvironment. WILL(b); master.doEnvironment = true; } else if (dowillType == (byte)TELNET_WONT) { // Server won't do NewEnvironment. master.doEnvironment = false; } else { // Server will not listen to New Environment. master.doEnvironment = false; } break; default: // Other side asked for something we don't // understand. Tell them we will not do this option. refuse(dowillType, b); break; } dowill = false; continue; } // if (dowill == true) // Perform read processing if (b == (byte)TELNET_IAC) { // Telnet command if (iac == true) { // IAC IAC -> IAC buf[bufN++] = (byte)TELNET_IAC; iac = false; } else { iac = true; } continue; } else { if (iac == true) { switch (b) { case (byte)TELNET_SE: // log.debug1(" END Sub-Negotiation"); break; case (byte)TELNET_NOP: // log.debug1(" NOP"); break; case (byte)TELNET_DM: // log.debug1(" Data Mark"); break; case (byte)TELNET_BRK: // log.debug1(" Break"); break; case (byte)TELNET_IP: // log.debug1(" Interrupt Process"); break; case (byte)TELNET_AO: // log.debug1(" Abort Output"); break; case (byte)TELNET_AYT: // log.debug1(" Are You There?"); break; case (byte)TELNET_EC: // log.debug1(" Erase Character"); break; case (byte)TELNET_EL: // log.debug1(" Erase Line"); break; case (byte)TELNET_GA: // log.debug1(" Go Ahead"); break; case (byte)TELNET_SB: // log.debug1(" START Sub-Negotiation"); // From here we wait for the IAC SE subnegEnd = true; subnegBuffer.clear(); break; case (byte)TELNET_WILL: // log.debug1(" WILL"); dowill = true; dowillType = b; break; case (byte)TELNET_WONT: // log.debug1(" WON'T"); dowill = true; dowillType = b; break; case (byte)TELNET_DO: // log.debug1(" DO"); dowill = true; dowillType = b; if (master.binaryMode == true) { // log.debug1("Telnet DO in binary mode"); } break; case (byte)TELNET_DONT: // log.debug1(" DON'T"); dowill = true; dowillType = b; break; default: // This should be equivalent to IAC NOP // log.debug1("Will treat as IAC NOP"); break; } iac = false; continue; } // if (iac == true) /* * All of the regular IAC processing is completed at this * point. Now we need to handle the CR and CR LF cases. * * According to RFC 854, in NVT ASCII mode: * Bare CR -> CR NUL * CR LF -> CR LF * */ if (master.binaryMode == false) { if (b == C_LF) { if (readCR == true) { // This is CR LF. Send CR LF and turn the cr // flag off. buf[bufN++] = C_CR; buf[bufN++] = C_LF; readCR = false; continue; } // This is bare LF. Send LF. buf[bufN++] = C_LF; continue; } if (b == C_NUL) { if (readCR == true) { // This is CR NUL. Send CR and turn the cr // flag off. buf[bufN++] = C_CR; readCR = false; continue; } // This is bare NUL. Send NUL. buf[bufN++] = C_NUL; continue; } if (b == C_CR) { if (readCR == true) { // This is CR CR. Send a CR NUL and leave // the cr flag on. buf[bufN++] = C_CR; buf[bufN++] = C_NUL; continue; } // This is the first CR. Set the cr flag. readCR = true; continue; } if (readCR == true) { // This was a bare CR in the stream. buf[bufN++] = C_CR; readCR = false; } // This is a regular character. Pass it on. buf[bufN++] = b; continue; } /* * This is the case for any of: * * 1) A NVT ASCII character that isn't CR, LF, or * NUL. * * 2) A NVT binary character. * * For all of these cases, we just pass the character on. */ buf[bufN++] = b; } // if (b == TELNET_IAC) } // for (int i = 0; i < bufferN; i++) } while (bufN == 0); // Return bytes read return bufN; } }