/* * Copyright 2005-2006 Sun Microsystems, Inc. All Rights Reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Sun designates this * particular file as subject to the "Classpath" exception as provided * by Sun in the LICENSE file that accompanied this code. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. */ package java.io; import java.util.*; import java.nio.charset.Charset; import sun.nio.cs.StreamDecoder; import sun.nio.cs.StreamEncoder; /** * Methods to access the character-based console device, if any, associated * with the current Java virtual machine. * *
Whether a virtual machine has a console is dependent upon the * underlying platform and also upon the manner in which the virtual * machine is invoked. If the virtual machine is started from an * interactive command line without redirecting the standard input and * output streams then its console will exist and will typically be * connected to the keyboard and display from which the virtual machine * was launched. If the virtual machine is started automatically, for * example by a background job scheduler, then it will typically not * have a console. *
* If this virtual machine has a console then it is represented by a * unique instance of this class which can be obtained by invoking the * {@link java.lang.System#console()} method. If no console device is * available then an invocation of that method will return null. *
* Read and write operations are synchronized to guarantee the atomic * completion of critical operations; therefore invoking methods * {@link #readLine()}, {@link #readPassword()}, {@link #format format()}, * {@link #printf printf()} as well as the read, format and write operations * on the objects returned by {@link #reader()} and {@link #writer()} may * block in multithreaded scenarios. *
* Invoking close() on the objects returned by the {@link #reader()} * and the {@link #writer()} will not close the underlying stream of those * objects. *
* The console-read methods return null when the end of the * console input stream is reached, for example by typing control-D on * Unix or control-Z on Windows. Subsequent read operations will succeed * if additional characters are later entered on the console's input * device. *
* Unless otherwise specified, passing a null argument to any method * in this class will cause a {@link NullPointerException} to be thrown. *
* Security note: * If an application needs to read a password or other secure data, it should * use {@link #readPassword()} or {@link #readPassword(String, Object...)} and * manually zero the returned character array after processing to minimize the * lifetime of sensitive data in memory. * *
* * @author Xueming Shen * @since 1.6 */ public final class Console implements Flushable { /** * Retrieves the unique {@link java.io.PrintWriter PrintWriter} object * associated with this console. * * @return The printwriter associated with this console */ public PrintWriter writer() { return pw; } /** * Retrieves the unique {@link java.io.Reader Reader} object associated * with this console. ** Console cons; * char[] passwd; * if ((cons = System.console()) != null && * (passwd = cons.readPassword("[%s]", "Password:")) != null) { * ... * java.util.Arrays.fill(passwd, ' '); * } *
* This method is intended to be used by sophisticated applications, for * example, a {@link java.util.Scanner} object which utilizes the rich * parsing/scanning functionality provided by the Scanner: *
** Console con = System.console(); * if (con != null) { * Scanner sc = new Scanner(con.reader()); * ... * } *
* For simple applications requiring only line-oriented reading, use * {@link #readLine}. *
* The bulk read operations {@link java.io.Reader#read(char[]) read(char[]) }, * {@link java.io.Reader#read(char[], int, int) read(char[], int, int) } and * {@link java.io.Reader#read(java.nio.CharBuffer) read(java.nio.CharBuffer)} * on the returned object will not read in characters beyond the line * bound for each invocation, even if the destination buffer has space for * more characters. A line bound is considered to be any one of a line feed * ('\n'), a carriage return ('\r'), a carriage return * followed immediately by a linefeed, or an end of stream. * * @return The reader associated with this console */ public Reader reader() { return reader; } /** * Writes a formatted string to this console's output stream using * the specified format string and arguments. * * @param fmt * A format string as described in Format string syntax * * @param args * Arguments referenced by the format specifiers in the format * string. If there are more arguments than format specifiers, the * extra arguments are ignored. The number of arguments is * variable and may be zero. The maximum number of arguments is * limited by the maximum dimension of a Java array as defined by * the Java * Virtual Machine Specification. The behaviour on a * null argument depends on the conversion. * * @throws IllegalFormatException * If a format string contains an illegal syntax, a format * specifier that is incompatible with the given arguments, * insufficient arguments given the format string, or other * illegal conditions. For specification of all possible * formatting errors, see the Details section * of the formatter class specification. * * @return This console */ public Console format(String fmt, Object ...args) { formatter.format(fmt, args).flush(); return this; } /** * A convenience method to write a formatted string to this console's * output stream using the specified format string and arguments. * *
An invocation of this method of the form con.printf(format, * args) behaves in exactly the same way as the invocation of *
con.format(format, args). * * @param format * A format string as described in Format string syntax. * * @param args * Arguments referenced by the format specifiers in the format * string. If there are more arguments than format specifiers, the * extra arguments are ignored. The number of arguments is * variable and may be zero. The maximum number of arguments is * limited by the maximum dimension of a Java array as defined by * the Java * Virtual Machine Specification. The behaviour on a * null argument depends on the conversion. * * @throws IllegalFormatException * If a format string contains an illegal syntax, a format * specifier that is incompatible with the given arguments, * insufficient arguments given the format string, or other * illegal conditions. For specification of all possible * formatting errors, see the Details section of the * formatter class specification. * * @return This console */ public Console printf(String format, Object ... args) { return format(format, args); } /** * Provides a formatted prompt, then reads a single line of text from the * console. * * @param fmt * A format string as described in Format string syntax. * * @param args * Arguments referenced by the format specifiers in the format * string. If there are more arguments than format specifiers, the * extra arguments are ignored. The maximum number of arguments is * limited by the maximum dimension of a Java array as defined by * the Java * Virtual Machine Specification. * * @throws IllegalFormatException * If a format string contains an illegal syntax, a format * specifier that is incompatible with the given arguments, * insufficient arguments given the format string, or other * illegal conditions. For specification of all possible * formatting errors, see the Details section * of the formatter class specification. * * @throws IOError * If an I/O error occurs. * * @return A string containing the line read from the console, not * including any line-termination characters, or null * if an end of stream has been reached. */ public String readLine(String fmt, Object ... args) { String line = null; synchronized (writeLock) { synchronized(readLock) { if (fmt.length() != 0) pw.format(fmt, args); try { char[] ca = readline(false); if (ca != null) line = new String(ca); } catch (IOException x) { throw new IOError(x); } } } return line; } /** * Reads a single line of text from the console. * * @throws IOError * If an I/O error occurs. * * @return A string containing the line read from the console, not * including any line-termination characters, or null * if an end of stream has been reached. */ public String readLine() { return readLine(""); } /** * Provides a formatted prompt, then reads a password or passphrase from * the console with echoing disabled. * * @param fmt * A format string as described in Format string syntax * for the prompt text. * * @param args * Arguments referenced by the format specifiers in the format * string. If there are more arguments than format specifiers, the * extra arguments are ignored. The maximum number of arguments is * limited by the maximum dimension of a Java array as defined by * the Java * Virtual Machine Specification. * * @throws IllegalFormatException * If a format string contains an illegal syntax, a format * specifier that is incompatible with the given arguments, * insufficient arguments given the format string, or other * illegal conditions. For specification of all possible * formatting errors, see the Details * section of the formatter class specification. * * @throws IOError * If an I/O error occurs. * * @return A character array containing the password or passphrase read * from the console, not including any line-termination characters, * or null if an end of stream has been reached. */ public char[] readPassword(String fmt, Object ... args) { char[] passwd = null; synchronized (writeLock) { synchronized(readLock) { if (fmt.length() != 0) pw.format(fmt, args); try { echoOff = echo(false); passwd = readline(true); } catch (IOException x) { throw new IOError(x); } finally { try { echoOff = echo(true); } catch (IOException xx) {} } pw.println(); } } return passwd; } /** * Reads a password or passphrase from the console with echoing disabled * * @throws IOError * If an I/O error occurs. * * @return A character array containing the password or passphrase read * from the console, not including any line-termination characters, * or null if an end of stream has been reached. */ public char[] readPassword() { return readPassword(""); } /** * Flushes the console and forces any buffered output to be written * immediately . */ public void flush() { pw.flush(); } private Object readLock; private Object writeLock; private Reader reader; private Writer out; private PrintWriter pw; private Formatter formatter; private Charset cs; private char[] rcb; private static native String encoding(); private static native boolean echo(boolean on) throws IOException; private static boolean echoOff; private char[] readline(boolean zeroOut) throws IOException { int len = reader.read(rcb, 0, rcb.length); if (len < 0) return null; //EOL if (rcb[len-1] == '\r') len--; //remove CR at end; else if (rcb[len-1] == '\n') { len--; //remove LF at end; if (len > 0 && rcb[len-1] == '\r') len--; //remove the CR, if there is one } char[] b = new char[len]; if (len > 0) { System.arraycopy(rcb, 0, b, 0, len); if (zeroOut) { Arrays.fill(rcb, 0, len, ' '); } } return b; } private char[] grow() { assert Thread.holdsLock(readLock); char[] t = new char[rcb.length * 2]; System.arraycopy(rcb, 0, t, 0, rcb.length); rcb = t; return rcb; } class LineReader extends Reader { private Reader in; private char[] cb; private int nChars, nextChar; boolean leftoverLF; LineReader(Reader in) { this.in = in; cb = new char[1024]; nextChar = nChars = 0; leftoverLF = false; } public void close () {} public boolean ready() throws IOException { //in.ready synchronizes on readLock already return in.ready(); } public int read(char cbuf[], int offset, int length) throws IOException { int off = offset; int end = offset + length; if (offset < 0 || offset > cbuf.length || length < 0 || end < 0 || end > cbuf.length) { throw new IndexOutOfBoundsException(); } synchronized(readLock) { boolean eof = false; char c = 0; for (;;) { if (nextChar >= nChars) { //fill int n = 0; do { n = in.read(cb, 0, cb.length); } while (n == 0); if (n > 0) { nChars = n; nextChar = 0; if (n < cb.length && cb[n-1] != '\n' && cb[n-1] != '\r') { /* * we're in canonical mode so each "fill" should * come back with an eol. if there no lf or nl at * the end of returned bytes we reached an eof. */ eof = true; } } else { /*EOF*/ if (off - offset == 0) return -1; return off - offset; } } if (leftoverLF && cbuf == rcb && cb[nextChar] == '\n') { /* * if invoked by our readline, skip the leftover, otherwise * return the LF. */ nextChar++; } leftoverLF = false; while (nextChar < nChars) { c = cbuf[off++] = cb[nextChar]; cb[nextChar++] = 0; if (c == '\n') { return off - offset; } else if (c == '\r') { if (off == end) { /* no space left even the next is LF, so return * whatever we have if the invoker is not our * readLine() */ if (cbuf == rcb) { cbuf = grow(); end = cbuf.length; } else { leftoverLF = true; return off - offset; } } if (nextChar == nChars && in.ready()) { /* * we have a CR and we reached the end of * the read in buffer, fill to make sure we * don't miss a LF, if there is one, it's possible * that it got cut off during last round reading * simply because the read in buffer was full. */ nChars = in.read(cb, 0, cb.length); nextChar = 0; } if (nextChar < nChars && cb[nextChar] == '\n') { cbuf[off++] = '\n'; nextChar++; } return off - offset; } else if (off == end) { if (cbuf == rcb) { cbuf = grow(); end = cbuf.length; } else { return off - offset; } } } if (eof) return off - offset; } } } } // Set up JavaIOAccess in SharedSecrets static { sun.misc.SharedSecrets.setJavaIOAccess(new sun.misc.JavaIOAccess() { public Console console() { if (istty()) { if (cons == null) cons = new Console(); return cons; } return null; } // Add a shutdown hook to restore console's echo state should // it be necessary. public Runnable consoleRestoreHook() { return new Runnable() { public void run() { try { if (echoOff) { echo(true); } } catch (IOException x) {} } }; } public Charset charset() { // This method is called in sun.security.util.Password, // cons already exists when this method is called return cons.cs; } }); } private static Console cons; private native static boolean istty(); private Console() { readLock = new Object(); writeLock = new Object(); String csname = encoding(); if (csname != null) { try { cs = Charset.forName(csname); } catch (Exception x) {} } if (cs == null) cs = Charset.defaultCharset(); out = StreamEncoder.forOutputStreamWriter( new FileOutputStream(FileDescriptor.out), writeLock, cs); pw = new PrintWriter(out, true) { public void close() {} }; formatter = new Formatter(out); reader = new LineReader(StreamDecoder.forInputStreamReader( new FileInputStream(FileDescriptor.in), readLock, cs)); rcb = new char[1024]; } }