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1 771 jeremybenn
/* System.java -- useful methods to interface with the system
2
   Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2007
3
   Free Software Foundation, Inc.
4
 
5
This file is part of GNU Classpath.
6
 
7
GNU Classpath is free software; you can redistribute it and/or modify
8
it under the terms of the GNU General Public License as published by
9
the Free Software Foundation; either version 2, or (at your option)
10
any later version.
11
 
12
GNU Classpath is distributed in the hope that it will be useful, but
13
WITHOUT ANY WARRANTY; without even the implied warranty of
14
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15
General Public License for more details.
16
 
17
You should have received a copy of the GNU General Public License
18
along with GNU Classpath; see the file COPYING.  If not, write to the
19
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
20
02110-1301 USA.
21
 
22
Linking this library statically or dynamically with other modules is
23
making a combined work based on this library.  Thus, the terms and
24
conditions of the GNU General Public License cover the whole
25
combination.
26
 
27
As a special exception, the copyright holders of this library give you
28
permission to link this library with independent modules to produce an
29
executable, regardless of the license terms of these independent
30
modules, and to copy and distribute the resulting executable under
31
terms of your choice, provided that you also meet, for each linked
32
independent module, the terms and conditions of the license of that
33
module.  An independent module is a module which is not derived from
34
or based on this library.  If you modify this library, you may extend
35
this exception to your version of the library, but you are not
36
obligated to do so.  If you do not wish to do so, delete this
37
exception statement from your version. */
38
 
39
 
40
package java.lang;
41
 
42
import gnu.classpath.SystemProperties;
43
import gnu.classpath.VMStackWalker;
44
 
45
import java.io.IOException;
46
import java.io.InputStream;
47
import java.io.PrintStream;
48
import java.nio.channels.Channel;
49
import java.nio.channels.spi.SelectorProvider;
50
import java.util.AbstractCollection;
51
import java.util.Collection;
52
import java.util.Collections;
53
import java.util.HashMap;
54
import java.util.Iterator;
55
import java.util.List;
56
import java.util.Map;
57
import java.util.Set;
58
import java.util.Properties;
59
import java.util.PropertyPermission;
60
 
61
/**
62
 * System represents system-wide resources; things that represent the
63
 * general environment.  As such, all methods are static.
64
 *
65
 * @author John Keiser
66
 * @author Eric Blake (ebb9@email.byu.edu)
67
 * @since 1.0
68
 * @status still missing 1.4 functionality
69
 */
70
public final class System
71
{
72
  // WARNING: System is a CORE class in the bootstrap cycle. See the comments
73
  // in vm/reference/java/lang/Runtime for implications of this fact.
74
 
75
  /**
76
   * The standard InputStream. This is assigned at startup and starts its
77
   * life perfectly valid. Although it is marked final, you can change it
78
   * using {@link #setIn(InputStream)} through some hefty VM magic.
79
   *
80
   * <p>This corresponds to the C stdin and C++ cin variables, which
81
   * typically input from the keyboard, but may be used to pipe input from
82
   * other processes or files.  That should all be transparent to you,
83
   * however.
84
   */
85
  public static final InputStream in = VMSystem.makeStandardInputStream();
86
 
87
  /**
88
   * The standard output PrintStream.  This is assigned at startup and
89
   * starts its life perfectly valid. Although it is marked final, you can
90
   * change it using {@link #setOut(PrintStream)} through some hefty VM magic.
91
   *
92
   * <p>This corresponds to the C stdout and C++ cout variables, which
93
   * typically output normal messages to the screen, but may be used to pipe
94
   * output to other processes or files.  That should all be transparent to
95
   * you, however.
96
   */
97
  public static final PrintStream out = VMSystem.makeStandardOutputStream();
98
 
99
  /**
100
   * The standard output PrintStream.  This is assigned at startup and
101
   * starts its life perfectly valid. Although it is marked final, you can
102
   * change it using {@link #setErr(PrintStream)} through some hefty VM magic.
103
   *
104
   * <p>This corresponds to the C stderr and C++ cerr variables, which
105
   * typically output error messages to the screen, but may be used to pipe
106
   * output to other processes or files.  That should all be transparent to
107
   * you, however.
108
   */
109
  public static final PrintStream err = VMSystem.makeStandardErrorStream();
110
 
111
  /**
112
   * A cached copy of the environment variable map.
113
   */
114
  private static Map<String,String> environmentMap;
115
 
116
  /**
117
   * This class is uninstantiable.
118
   */
119
  private System()
120
  {
121
  }
122
 
123
  /**
124
   * Set {@link #in} to a new InputStream. This uses some VM magic to change
125
   * a "final" variable, so naturally there is a security check,
126
   * <code>RuntimePermission("setIO")</code>.
127
   *
128
   * @param in the new InputStream
129
   * @throws SecurityException if permission is denied
130
   * @since 1.1
131
   */
132
  public static void setIn(InputStream in)
133
  {
134
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
135
    if (sm != null)
136
      sm.checkPermission(new RuntimePermission("setIO"));
137
 
138
    VMSystem.setIn(in);
139
  }
140
 
141
  /**
142
   * Set {@link #out} to a new PrintStream. This uses some VM magic to change
143
   * a "final" variable, so naturally there is a security check,
144
   * <code>RuntimePermission("setIO")</code>.
145
   *
146
   * @param out the new PrintStream
147
   * @throws SecurityException if permission is denied
148
   * @since 1.1
149
   */
150
  public static void setOut(PrintStream out)
151
  {
152
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
153
    if (sm != null)
154
      sm.checkPermission(new RuntimePermission("setIO"));
155
    VMSystem.setOut(out);
156
  }
157
 
158
  /**
159
   * Set {@link #err} to a new PrintStream. This uses some VM magic to change
160
   * a "final" variable, so naturally there is a security check,
161
   * <code>RuntimePermission("setIO")</code>.
162
   *
163
   * @param err the new PrintStream
164
   * @throws SecurityException if permission is denied
165
   * @since 1.1
166
   */
167
  public static void setErr(PrintStream err)
168
  {
169
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
170
    if (sm != null)
171
      sm.checkPermission(new RuntimePermission("setIO"));
172
    VMSystem.setErr(err);
173
  }
174
 
175
  /**
176
   * Set the current SecurityManager. If a security manager already exists,
177
   * then <code>RuntimePermission("setSecurityManager")</code> is checked
178
   * first. Since this permission is denied by the default security manager,
179
   * setting the security manager is often an irreversible action.
180
   *
181
   * <STRONG>Spec Note:</STRONG> Don't ask me, I didn't write it.  It looks
182
   * pretty vulnerable; whoever gets to the gate first gets to set the policy.
183
   * There is probably some way to set the original security manager as a
184
   * command line argument to the VM, but I don't know it.
185
   *
186
   * @param sm the new SecurityManager
187
   * @throws SecurityException if permission is denied
188
   */
189
  public static synchronized void setSecurityManager(SecurityManager sm)
190
  {
191
    // Implementation note: the field lives in SecurityManager because of
192
    // bootstrap initialization issues. This method is synchronized so that
193
    // no other thread changes it to null before this thread makes the change.
194
    if (SecurityManager.current != null)
195
      SecurityManager.current.checkPermission
196
        (new RuntimePermission("setSecurityManager"));
197
 
198
    // java.security.Security's class initialiser loads and parses the
199
    // policy files.  If it hasn't been run already it will be run
200
    // during the first permission check.  That initialisation will
201
    // fail if a very restrictive security manager is in force, so we
202
    // preload it here.
203
    if (SecurityManager.current == null)
204
      {
205
        try
206
          {
207
            Class.forName("java.security.Security");
208
          }
209
        catch (ClassNotFoundException e)
210
          {
211
          }
212
      }
213
 
214
    SecurityManager.current = sm;
215
  }
216
 
217
  /**
218
   * Get the current SecurityManager. If the SecurityManager has not been
219
   * set yet, then this method returns null.
220
   *
221
   * @return the current SecurityManager, or null
222
   */
223
  public static SecurityManager getSecurityManager()
224
  {
225
    return SecurityManager.current;
226
  }
227
 
228
  /**
229
   * Get the current time, measured in the number of milliseconds from the
230
   * beginning of Jan. 1, 1970. This is gathered from the system clock, with
231
   * any attendant incorrectness (it may be timezone dependent).
232
   *
233
   * @return the current time
234
   * @see java.util.Date
235
   */
236
  public static long currentTimeMillis()
237
  {
238
    return VMSystem.currentTimeMillis();
239
  }
240
 
241
  /**
242
   * <p>
243
   * Returns the current value of a nanosecond-precise system timer.
244
   * The value of the timer is an offset relative to some arbitrary fixed
245
   * time, which may be in the future (making the value negative).  This
246
   * method is useful for timing events where nanosecond precision is
247
   * required.  This is achieved by calling this method before and after the
248
   * event, and taking the difference betweent the two times:
249
   * </p>
250
   * <p>
251
   * <code>long startTime = System.nanoTime();</code><br />
252
   * <code>... <emph>event code</emph> ...</code><br />
253
   * <code>long endTime = System.nanoTime();</code><br />
254
   * <code>long duration = endTime - startTime;</code><br />
255
   * </p>
256
   * <p>
257
   * Note that the value is only nanosecond-precise, and not accurate; there
258
   * is no guarantee that the difference between two values is really a
259
   * nanosecond.  Also, the value is prone to overflow if the offset
260
   * exceeds 2^63.
261
   * </p>
262
   *
263
   * @return the time of a system timer in nanoseconds.
264
   * @since 1.5
265
   */
266
  public static long nanoTime()
267
  {
268
    return VMSystem.nanoTime();
269
  }
270
 
271
  /**
272
   * Copy one array onto another from <code>src[srcStart]</code> ...
273
   * <code>src[srcStart+len-1]</code> to <code>dest[destStart]</code> ...
274
   * <code>dest[destStart+len-1]</code>. First, the arguments are validated:
275
   * neither array may be null, they must be of compatible types, and the
276
   * start and length must fit within both arrays. Then the copying starts,
277
   * and proceeds through increasing slots.  If src and dest are the same
278
   * array, this will appear to copy the data to a temporary location first.
279
   * An ArrayStoreException in the middle of copying will leave earlier
280
   * elements copied, but later elements unchanged.
281
   *
282
   * @param src the array to copy elements from
283
   * @param srcStart the starting position in src
284
   * @param dest the array to copy elements to
285
   * @param destStart the starting position in dest
286
   * @param len the number of elements to copy
287
   * @throws NullPointerException if src or dest is null
288
   * @throws ArrayStoreException if src or dest is not an array, if they are
289
   *         not compatible array types, or if an incompatible runtime type
290
   *         is stored in dest
291
   * @throws IndexOutOfBoundsException if len is negative, or if the start or
292
   *         end copy position in either array is out of bounds
293
   */
294
  public static void arraycopy(Object src, int srcStart,
295
                               Object dest, int destStart, int len)
296
  {
297
    VMSystem.arraycopy(src, srcStart, dest, destStart, len);
298
  }
299
 
300
  /**
301
   * Get a hash code computed by the VM for the Object. This hash code will
302
   * be the same as Object's hashCode() method.  It is usually some
303
   * convolution of the pointer to the Object internal to the VM.  It
304
   * follows standard hash code rules, in that it will remain the same for a
305
   * given Object for the lifetime of that Object.
306
   *
307
   * @param o the Object to get the hash code for
308
   * @return the VM-dependent hash code for this Object
309
   * @since 1.1
310
   */
311
  public static int identityHashCode(Object o)
312
  {
313
    return VMSystem.identityHashCode(o);
314
  }
315
 
316
  /**
317
   * Get all the system properties at once. A security check may be performed,
318
   * <code>checkPropertiesAccess</code>. Note that a security manager may
319
   * allow getting a single property, but not the entire group.
320
   *
321
   * <p>The required properties include:
322
   * <dl>
323
   * <dt>java.version</dt>         <dd>Java version number</dd>
324
   * <dt>java.vendor</dt>          <dd>Java vendor specific string</dd>
325
   * <dt>java.vendor.url</dt>      <dd>Java vendor URL</dd>
326
   * <dt>java.home</dt>            <dd>Java installation directory</dd>
327
   * <dt>java.vm.specification.version</dt> <dd>VM Spec version</dd>
328
   * <dt>java.vm.specification.vendor</dt>  <dd>VM Spec vendor</dd>
329
   * <dt>java.vm.specification.name</dt>    <dd>VM Spec name</dd>
330
   * <dt>java.vm.version</dt>      <dd>VM implementation version</dd>
331
   * <dt>java.vm.vendor</dt>       <dd>VM implementation vendor</dd>
332
   * <dt>java.vm.name</dt>         <dd>VM implementation name</dd>
333
   * <dt>java.specification.version</dt>    <dd>Java Runtime Environment version</dd>
334
   * <dt>java.specification.vendor</dt>     <dd>Java Runtime Environment vendor</dd>
335
   * <dt>java.specification.name</dt>       <dd>Java Runtime Environment name</dd>
336
   * <dt>java.class.version</dt>   <dd>Java class version number</dd>
337
   * <dt>java.class.path</dt>      <dd>Java classpath</dd>
338
   * <dt>java.library.path</dt>    <dd>Path for finding Java libraries</dd>
339
   * <dt>java.io.tmpdir</dt>       <dd>Default temp file path</dd>
340
   * <dt>java.compiler</dt>        <dd>Name of JIT to use</dd>
341
   * <dt>java.ext.dirs</dt>        <dd>Java extension path</dd>
342
   * <dt>os.name</dt>              <dd>Operating System Name</dd>
343
   * <dt>os.arch</dt>              <dd>Operating System Architecture</dd>
344
   * <dt>os.version</dt>           <dd>Operating System Version</dd>
345
   * <dt>file.separator</dt>       <dd>File separator ("/" on Unix)</dd>
346
   * <dt>path.separator</dt>       <dd>Path separator (":" on Unix)</dd>
347
   * <dt>line.separator</dt>       <dd>Line separator ("\n" on Unix)</dd>
348
   * <dt>user.name</dt>            <dd>User account name</dd>
349
   * <dt>user.home</dt>            <dd>User home directory</dd>
350
   * <dt>user.dir</dt>             <dd>User's current working directory</dd>
351
   * </dl>
352
   *
353
   * In addition, gnu defines several other properties, where ? stands for
354
   * each character in '0' through '9':
355
   * <dl>
356
   * <dt>gnu.classpath.home</dt>         <dd>Path to the classpath libraries.</dd>
357
   * <dt>gnu.classpath.version</dt>      <dd>Version of the classpath libraries.</dd>
358
   * <dt>gnu.classpath.vm.shortname</dt> <dd>Succinct version of the VM name;
359
   *     used for finding property files in file system</dd>
360
   * <dt>gnu.classpath.home.url</dt>     <dd> Base URL; used for finding
361
   *     property files in file system</dd>
362
   * <dt>gnu.cpu.endian</dt>             <dd>big or little</dd>
363
   * <dt>gnu.java.io.encoding_scheme_alias.iso-8859-?</dt>   <dd>8859_?</dd>
364
   * <dt>gnu.java.io.encoding_scheme_alias.iso8859_?</dt>    <dd>8859_?</dd>
365
   * <dt>gnu.java.io.encoding_scheme_alias.iso-latin-_?</dt> <dd>8859_?</dd>
366
   * <dt>gnu.java.io.encoding_scheme_alias.latin?</dt>       <dd>8859_?</dd>
367
   * <dt>gnu.java.io.encoding_scheme_alias.utf-8</dt>        <dd>UTF8</dd>
368
   * <dt>gnu.java.util.zoneinfo.dir</dt>        <dd>Root of zoneinfo tree</dd>
369
   * <dt>gnu.javax.print.server</dt>     <dd>Hostname of external CUPS server.</dd>
370
   * </dl>
371
   *
372
   * @return the system properties, will never be null
373
   * @throws SecurityException if permission is denied
374
   */
375
  public static Properties getProperties()
376
  {
377
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
378
    if (sm != null)
379
      sm.checkPropertiesAccess();
380
    return SystemProperties.getProperties();
381
  }
382
 
383
  /**
384
   * Set all the system properties at once. A security check may be performed,
385
   * <code>checkPropertiesAccess</code>. Note that a security manager may
386
   * allow setting a single property, but not the entire group. An argument
387
   * of null resets the properties to the startup default.
388
   *
389
   * @param properties the new set of system properties
390
   * @throws SecurityException if permission is denied
391
   */
392
  public static void setProperties(Properties properties)
393
  {
394
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
395
    if (sm != null)
396
      sm.checkPropertiesAccess();
397
    SystemProperties.setProperties(properties);
398
  }
399
 
400
  /**
401
   * Get a single system property by name. A security check may be performed,
402
   * <code>checkPropertyAccess(key)</code>.
403
   *
404
   * @param key the name of the system property to get
405
   * @return the property, or null if not found
406
   * @throws SecurityException if permission is denied
407
   * @throws NullPointerException if key is null
408
   * @throws IllegalArgumentException if key is ""
409
   */
410
  public static String getProperty(String key)
411
  {
412
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
413
    if (sm != null)
414
      sm.checkPropertyAccess(key);
415
    if (key.length() == 0)
416
      throw new IllegalArgumentException("key can't be empty");
417
    return SystemProperties.getProperty(key);
418
  }
419
 
420
  /**
421
   * Get a single system property by name. A security check may be performed,
422
   * <code>checkPropertyAccess(key)</code>.
423
   *
424
   * @param key the name of the system property to get
425
   * @param def the default
426
   * @return the property, or def if not found
427
   * @throws SecurityException if permission is denied
428
   * @throws NullPointerException if key is null
429
   * @throws IllegalArgumentException if key is ""
430
   */
431
  public static String getProperty(String key, String def)
432
  {
433
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
434
    if (sm != null)
435
      sm.checkPropertyAccess(key);
436
    // This handles both the null pointer exception and the illegal
437
    // argument exception.
438
    if (key.length() == 0)
439
      throw new IllegalArgumentException("key can't be empty");
440
    return SystemProperties.getProperty(key, def);
441
  }
442
 
443
  /**
444
   * Set a single system property by name. A security check may be performed,
445
   * <code>checkPropertyAccess(key, "write")</code>.
446
   *
447
   * @param key the name of the system property to set
448
   * @param value the new value
449
   * @return the previous value, or null
450
   * @throws SecurityException if permission is denied
451
   * @throws NullPointerException if key is null
452
   * @throws IllegalArgumentException if key is ""
453
   * @since 1.2
454
   */
455
  public static String setProperty(String key, String value)
456
  {
457
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
458
    if (sm != null)
459
      sm.checkPermission(new PropertyPermission(key, "write"));
460
    // This handles both the null pointer exception and the illegal
461
    // argument exception.
462
    if (key.length() == 0)
463
      throw new IllegalArgumentException("key can't be empty");
464
    return SystemProperties.setProperty(key, value);
465
  }
466
 
467
  /**
468
   * Remove a single system property by name. A security check may be
469
   * performed, <code>checkPropertyAccess(key, "write")</code>.
470
   *
471
   * @param key the name of the system property to remove
472
   * @return the previous value, or null
473
   * @throws SecurityException if permission is denied
474
   * @throws NullPointerException if key is null
475
   * @throws IllegalArgumentException if key is ""
476
   * @since 1.5
477
   */
478
  public static String clearProperty(String key)
479
  {
480
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
481
    if (sm != null)
482
      sm.checkPermission(new PropertyPermission(key, "write"));
483
    // This handles both the null pointer exception and the illegal
484
    // argument exception.
485
    if (key.length() == 0)
486
      throw new IllegalArgumentException("key can't be empty");
487
    return SystemProperties.remove(key);
488
  }
489
 
490
  /**
491
   * Gets the value of an environment variable.
492
   *
493
   * @param name the name of the environment variable
494
   * @return the string value of the variable or null when the
495
   *         environment variable is not defined.
496
   * @throws NullPointerException
497
   * @throws SecurityException if permission is denied
498
   * @since 1.5
499
   * @specnote This method was deprecated in some JDK releases, but
500
   *           was restored in 1.5.
501
   */
502
  public static String getenv(String name)
503
  {
504
    if (name == null)
505
      throw new NullPointerException();
506
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
507
    if (sm != null)
508
      sm.checkPermission(new RuntimePermission("getenv." + name));
509
    return VMSystem.getenv(name);
510
  }
511
 
512
  /**
513
   * <p>
514
   * Returns an unmodifiable view of the system environment variables.
515
   * If the underlying system does not support environment variables,
516
   * an empty map is returned.
517
   * </p>
518
   * <p>
519
   * The returned map is read-only and does not accept queries using
520
   * null keys or values, or those of a type other than <code>String</code>.
521
   * Attempts to modify the map will throw an
522
   * <code>UnsupportedOperationException</code>, while attempts
523
   * to pass in a null value will throw a
524
   * <code>NullPointerException</code>.  Types other than <code>String</code>
525
   * throw a <code>ClassCastException</code>.
526
   * </p>
527
   * <p>
528
   * As the returned map is generated using data from the underlying
529
   * platform, it may not comply with the <code>equals()</code>
530
   * and <code>hashCode()</code> contracts.  It is also likely that
531
   * the keys of this map will be case-sensitive.
532
   * </p>
533
   * <p>
534
   * Use of this method may require a security check for the
535
   * RuntimePermission "getenv.*".
536
   * </p>
537
   *
538
   * @return a map of the system environment variables.
539
   * @throws SecurityException if the checkPermission method of
540
   *         an installed security manager prevents access to
541
   *         the system environment variables.
542
   * @since 1.5
543
   */
544
  public static Map<String, String> getenv()
545
  {
546
    SecurityManager sm = SecurityManager.current; // Be thread-safe.
547
    if (sm != null)
548
      sm.checkPermission(new RuntimePermission("getenv.*"));
549
 
550
    if (environmentMap == null)
551
      {
552
        Map<String,String> variables = new EnvironmentMap();
553
        List<String> environ = (List<String>)VMSystem.environ();
554
        for (String envEntry : environ)
555
          {
556
            // avoid broken and null entries
557
            if (envEntry != null && !envEntry.endsWith("="))
558
              {
559
                // it's perfectly legal that some entries may be in the form
560
                // key=value=value=value
561
                int equalSignIndex = envEntry.indexOf('=');
562
                String key = envEntry.substring(0, equalSignIndex);
563
                String value = envEntry.substring(equalSignIndex + 1);
564
                variables.put(key, value);
565
              }
566
          }
567
 
568
        environmentMap = Collections.unmodifiableMap(variables);
569
      }
570
 
571
    return environmentMap;
572
  }
573
 
574
  /**
575
   * Terminate the Virtual Machine. This just calls
576
   * <code>Runtime.getRuntime().exit(status)</code>, and never returns.
577
   * Obviously, a security check is in order, <code>checkExit</code>.
578
   *
579
   * @param status the exit status; by convention non-zero is abnormal
580
   * @throws SecurityException if permission is denied
581
   * @see Runtime#exit(int)
582
   */
583
  public static void exit(int status)
584
  {
585
    Runtime.getRuntime().exit(status);
586
  }
587
 
588
  /**
589
   * Calls the garbage collector. This is only a hint, and it is up to the
590
   * implementation what this hint suggests, but it usually causes a
591
   * best-effort attempt to reclaim unused memory from discarded objects.
592
   * This calls <code>Runtime.getRuntime().gc()</code>.
593
   *
594
   * @see Runtime#gc()
595
   */
596
  public static void gc()
597
  {
598
    Runtime.getRuntime().gc();
599
  }
600
 
601
  /**
602
   * Runs object finalization on pending objects. This is only a hint, and
603
   * it is up to the implementation what this hint suggests, but it usually
604
   * causes a best-effort attempt to run finalizers on all objects ready
605
   * to be reclaimed. This calls
606
   * <code>Runtime.getRuntime().runFinalization()</code>.
607
   *
608
   * @see Runtime#runFinalization()
609
   */
610
  public static void runFinalization()
611
  {
612
    Runtime.getRuntime().runFinalization();
613
  }
614
 
615
  /**
616
   * Tell the Runtime whether to run finalization before exiting the
617
   * JVM.  This is inherently unsafe in multi-threaded applications,
618
   * since it can force initialization on objects which are still in use
619
   * by live threads, leading to deadlock; therefore this is disabled by
620
   * default. There may be a security check, <code>checkExit(0)</code>. This
621
   * calls <code>Runtime.runFinalizersOnExit()</code>.
622
   *
623
   * @param finalizeOnExit whether to run finalizers on exit
624
   * @throws SecurityException if permission is denied
625
   * @see Runtime#runFinalizersOnExit(boolean)
626
   * @since 1.1
627
   * @deprecated never rely on finalizers to do a clean, thread-safe,
628
   *             mop-up from your code
629
   */
630
  public static void runFinalizersOnExit(boolean finalizeOnExit)
631
  {
632
    Runtime.runFinalizersOnExit(finalizeOnExit);
633
  }
634
 
635
  /**
636
   * Load a code file using its explicit system-dependent filename. A security
637
   * check may be performed, <code>checkLink</code>. This just calls
638
   * <code>Runtime.getRuntime().load(filename)</code>.
639
   *
640
   * <p>
641
   * The library is loaded using the class loader associated with the
642
   * class associated with the invoking method.
643
   *
644
   * @param filename the code file to load
645
   * @throws SecurityException if permission is denied
646
   * @throws UnsatisfiedLinkError if the file cannot be loaded
647
   * @see Runtime#load(String)
648
   */
649
  public static void load(String filename)
650
  {
651
    Runtime.getRuntime().load(filename, VMStackWalker.getCallingClassLoader());
652
  }
653
 
654
  /**
655
   * Load a library using its explicit system-dependent filename. A security
656
   * check may be performed, <code>checkLink</code>. This just calls
657
   * <code>Runtime.getRuntime().load(filename)</code>.
658
   *
659
   * <p>
660
   * The library is loaded using the class loader associated with the
661
   * class associated with the invoking method.
662
   *
663
   * @param libname the library file to load
664
   * @throws SecurityException if permission is denied
665
   * @throws UnsatisfiedLinkError if the file cannot be loaded
666
   * @see Runtime#load(String)
667
   */
668
  public static void loadLibrary(String libname)
669
  {
670
    Runtime.getRuntime().loadLibrary(libname,
671
      VMStackWalker.getCallingClassLoader());
672
  }
673
 
674
  /**
675
   * Convert a library name to its platform-specific variant.
676
   *
677
   * @param libname the library name, as used in <code>loadLibrary</code>
678
   * @return the platform-specific mangling of the name
679
   * @since 1.2
680
   */
681
  public static String mapLibraryName(String libname)
682
  {
683
    return VMRuntime.mapLibraryName(libname);
684
  }
685
 
686
  /**
687
   * Returns the inherited channel of the VM.
688
   *
689
   * This wraps the inheritedChannel() call of the system's default
690
   * {@link SelectorProvider}.
691
   *
692
   * @return the inherited channel of the VM
693
   *
694
   * @throws IOException If an I/O error occurs
695
   * @throws SecurityException If an installed security manager denies access
696
   *         to RuntimePermission("inheritedChannel")
697
   *
698
   * @since 1.5
699
   */
700
  public static Channel inheritedChannel()
701
    throws IOException
702
  {
703
    return SelectorProvider.provider().inheritedChannel();
704
  }
705
 
706
  /**
707
   * This is a specialised <code>Collection</code>, providing
708
   * the necessary provisions for the collections used by the
709
   * environment variable map.  Namely, it prevents
710
   * querying anything but <code>String</code>s.
711
   *
712
   * @author Andrew John Hughes (gnu_andrew@member.fsf.org)
713
   */
714
  private static class EnvironmentCollection
715
    extends AbstractCollection<String>
716
  {
717
 
718
    /**
719
     * The wrapped collection.
720
     */
721
    protected Collection<String> c;
722
 
723
    /**
724
     * Constructs a new environment collection, which
725
     * wraps the elements of the supplied collection.
726
     *
727
     * @param coll the collection to use as a base for
728
     *             this collection.
729
     */
730
    public EnvironmentCollection(Collection<String> coll)
731
    {
732
      c = coll;
733
    }
734
 
735
    /**
736
     * Blocks queries containing a null object or an object which
737
     * isn't of type <code>String</code>.  All other queries
738
     * are forwarded to the underlying collection.
739
     *
740
     * @param obj the object to look for.
741
     * @return true if the object exists in the collection.
742
     * @throws NullPointerException if the specified object is null.
743
     * @throws ClassCastException if the specified object is not a String.
744
     */
745
    public boolean contains(Object obj)
746
    {
747
      if (obj == null)
748
          throw new
749
            NullPointerException("This collection does not support " +
750
                                 "null values.");
751
      if (!(obj instanceof String))
752
          throw new
753
            ClassCastException("This collection only supports Strings.");
754
      return c.contains(obj);
755
    }
756
 
757
    /**
758
     * Blocks queries where the collection contains a null object or
759
     * an object which isn't of type <code>String</code>.  All other
760
     * queries are forwarded to the underlying collection.
761
     *
762
     * @param coll the collection of objects to look for.
763
     * @return true if the collection contains all elements in the collection.
764
     * @throws NullPointerException if the collection is null.
765
     * @throws NullPointerException if any collection entry is null.
766
     * @throws ClassCastException if any collection entry is not a String.
767
     */
768
    public boolean containsAll(Collection<?> coll)
769
    {
770
      for (Object o: coll)
771
        {
772
          if (o == null)
773
              throw new
774
                NullPointerException("This collection does not support " +
775
                                     "null values.");
776
          if (!(o instanceof String))
777
              throw new
778
                ClassCastException("This collection only supports Strings.");
779
        }
780
      return c.containsAll(coll);
781
    }
782
 
783
    /**
784
     * This returns an iterator over the map elements, with the
785
     * same provisions as for the collection and underlying map.
786
     *
787
     * @return an iterator over the map elements.
788
     */
789
    public Iterator<String> iterator()
790
    {
791
      return c.iterator();
792
    }
793
 
794
    /**
795
     * Blocks the removal of elements from the collection.
796
     *
797
     * @return true if the removal was sucessful.
798
     * @throws NullPointerException if the collection is null.
799
     * @throws NullPointerException if any collection entry is null.
800
     * @throws ClassCastException if any collection entry is not a String.
801
     */
802
    public boolean remove(Object key)
803
    {
804
      if (key == null)
805
          throw new
806
            NullPointerException("This collection does not support " +
807
                                 "null values.");
808
      if (!(key instanceof String))
809
          throw new
810
            ClassCastException("This collection only supports Strings.");
811
      return c.contains(key);
812
    }
813
 
814
    /**
815
     * Blocks the removal of all elements in the specified
816
     * collection from the collection.
817
     *
818
     * @param coll the collection of elements to remove.
819
     * @return true if the elements were removed.
820
     * @throws NullPointerException if the collection is null.
821
     * @throws NullPointerException if any collection entry is null.
822
     * @throws ClassCastException if any collection entry is not a String.
823
     */
824
    public boolean removeAll(Collection<?> coll)
825
    {
826
      for (Object o: coll)
827
        {
828
          if (o == null)
829
              throw new
830
                NullPointerException("This collection does not support " +
831
                                     "null values.");
832
          if (!(o instanceof String))
833
            throw new
834
              ClassCastException("This collection only supports Strings.");
835
        }
836
      return c.removeAll(coll);
837
    }
838
 
839
    /**
840
     * Blocks the retention of all elements in the specified
841
     * collection from the collection.
842
     *
843
     * @param coll the collection of elements to retain.
844
     * @return true if the other elements were removed.
845
     * @throws NullPointerException if the collection is null.
846
     * @throws NullPointerException if any collection entry is null.
847
     * @throws ClassCastException if any collection entry is not a String.
848
     */
849
    public boolean retainAll(Collection<?> coll)
850
    {
851
      for (Object o: coll)
852
        {
853
          if (o == null)
854
              throw new
855
                NullPointerException("This collection does not support " +
856
                                     "null values.");
857
          if (!(o instanceof String))
858
            throw new
859
              ClassCastException("This collection only supports Strings.");
860
        }
861
      return c.containsAll(coll);
862
    }
863
 
864
    /**
865
     * This simply calls the same method on the wrapped
866
     * collection.
867
     *
868
     * @return the size of the underlying collection.
869
     */
870
    public int size()
871
    {
872
      return c.size();
873
    }
874
 
875
  } // class EnvironmentCollection<String>
876
 
877
  /**
878
   * This is a specialised <code>HashMap</code>, which
879
   * prevents the addition or querying of anything other than
880
   * <code>String</code> objects.
881
   *
882
   * @author Andrew John Hughes (gnu_andrew@member.fsf.org)
883
   */
884
  static class EnvironmentMap
885
    extends HashMap<String,String>
886
  {
887
 
888
    /**
889
     * Cache the entry set.
890
     */
891
    private transient Set<Map.Entry<String,String>> entries;
892
 
893
    /**
894
     * Cache the key set.
895
     */
896
    private transient Set<String> keys;
897
 
898
    /**
899
     * Cache the value collection.
900
     */
901
    private transient Collection<String> values;
902
 
903
    /**
904
     * Constructs a new empty <code>EnvironmentMap</code>.
905
     */
906
    EnvironmentMap()
907
    {
908
      super();
909
    }
910
 
911
    /**
912
     * Constructs a new <code>EnvironmentMap</code> containing
913
     * the contents of the specified map.
914
     *
915
     * @param m the map to be added to this.
916
     * @throws NullPointerException if a key or value is null.
917
     * @throws ClassCastException if a key or value is not a String.
918
     */
919
    EnvironmentMap(Map<String,String> m)
920
    {
921
      super(m);
922
    }
923
 
924
    /**
925
     * Blocks queries containing a null key or one which is not
926
     * of type <code>String</code>.  All other queries
927
     * are forwarded to the superclass.
928
     *
929
     * @param key the key to look for in the map.
930
     * @return true if the key exists in the map.
931
     * @throws NullPointerException if the specified key is null.
932
     */
933
    public boolean containsKey(Object key)
934
    {
935
      if (key == null)
936
        throw new
937
          NullPointerException("This map does not support null keys.");
938
      if (!(key instanceof String))
939
        throw new
940
          ClassCastException("This map only allows queries using Strings.");
941
      return super.containsKey(key);
942
    }
943
 
944
    /**
945
     * Blocks queries using a null or non-<code>String</code> value.
946
     * All other queries are forwarded to the superclass.
947
     *
948
     * @param value the value to look for in the map.
949
     * @return true if the value exists in the map.
950
     * @throws NullPointerException if the specified value is null.
951
     */
952
    public boolean containsValue(Object value)
953
    {
954
      if (value == null)
955
          throw new
956
            NullPointerException("This map does not support null values.");
957
      if (!(value instanceof String))
958
        throw new
959
          ClassCastException("This map only allows queries using Strings.");
960
      return super.containsValue(value);
961
    }
962
 
963
    /**
964
     * Returns a set view of the map entries, with the same
965
     * provisions as for the underlying map.
966
     *
967
     * @return a set containing the map entries.
968
     */
969
    public Set<Map.Entry<String,String>> entrySet()
970
    {
971
      if (entries == null)
972
        entries = super.entrySet();
973
      return entries;
974
    }
975
 
976
    /**
977
     * Blocks queries containing a null or non-<code>String</code> key.
978
     * All other queries are passed on to the superclass.
979
     *
980
     * @param key the key to retrieve the value for.
981
     * @return the value associated with the given key.
982
     * @throws NullPointerException if the specified key is null.
983
     * @throws ClassCastException if the specified key is not a String.
984
     */
985
    public String get(Object key)
986
    {
987
      if (key == null)
988
        throw new
989
          NullPointerException("This map does not support null keys.");
990
      if (!(key instanceof String))
991
        throw new
992
          ClassCastException("This map only allows queries using Strings.");
993
      return super.get(key);
994
    }
995
 
996
    /**
997
     * Returns a set view of the keys, with the same
998
     * provisions as for the underlying map.
999
     *
1000
     * @return a set containing the keys.
1001
     */
1002
    public Set<String> keySet()
1003
    {
1004
      if (keys == null)
1005
        keys = new EnvironmentSet(super.keySet());
1006
      return keys;
1007
    }
1008
 
1009
    /**
1010
     * Associates the given key to the given value. If the
1011
     * map already contains the key, its value is replaced.
1012
     * The map does not accept null keys or values, or keys
1013
     * and values not of type {@link String}.
1014
     *
1015
     * @param key the key to map.
1016
     * @param value the value to be mapped.
1017
     * @return the previous value of the key, or null if there was no mapping
1018
     * @throws NullPointerException if a key or value is null.
1019
     * @throws ClassCastException if a key or value is not a String.
1020
     */
1021
    public String put(String key, String value)
1022
    {
1023
      if (key == null)
1024
        throw new NullPointerException("A new key is null.");
1025
      if (value == null)
1026
        throw new NullPointerException("A new value is null.");
1027
      if (!(key instanceof String))
1028
        throw new ClassCastException("A new key is not a String.");
1029
      if (!(value instanceof String))
1030
        throw new ClassCastException("A new value is not a String.");
1031
      return super.put(key, value);
1032
    }
1033
 
1034
    /**
1035
     * Removes a key-value pair from the map.  The queried key may not
1036
     * be null or of a type other than a <code>String</code>.
1037
     *
1038
     * @param key the key of the entry to remove.
1039
     * @return the removed value.
1040
     * @throws NullPointerException if the specified key is null.
1041
     * @throws ClassCastException if the specified key is not a String.
1042
     */
1043
    public String remove(Object key)
1044
    {
1045
      if (key == null)
1046
        throw new
1047
          NullPointerException("This map does not support null keys.");
1048
      if (!(key instanceof String))
1049
        throw new
1050
          ClassCastException("This map only allows queries using Strings.");
1051
      return super.remove(key);
1052
    }
1053
 
1054
    /**
1055
     * Returns a collection view of the values, with the same
1056
     * provisions as for the underlying map.
1057
     *
1058
     * @return a collection containing the values.
1059
     */
1060
    public Collection<String> values()
1061
    {
1062
      if (values == null)
1063
        values = new EnvironmentCollection(super.values());
1064
      return values;
1065
    }
1066
 
1067
  }
1068
 
1069
  /**
1070
   * This is a specialised <code>Set</code>, providing
1071
   * the necessary provisions for the collections used by the
1072
   * environment variable map.  Namely, it prevents
1073
   * modifications and the use of queries with null
1074
   * or non-<code>String</code> values.
1075
   *
1076
   * @author Andrew John Hughes (gnu_andrew@member.fsf.org)
1077
   */
1078
  private static class EnvironmentSet
1079
    extends EnvironmentCollection
1080
    implements Set<String>
1081
  {
1082
 
1083
    /**
1084
     * Constructs a new environment set, which
1085
     * wraps the elements of the supplied set.
1086
     *
1087
     * @param set the set to use as a base for
1088
     *             this set.
1089
     */
1090
    public EnvironmentSet(Set<String> set)
1091
    {
1092
      super(set);
1093
    }
1094
 
1095
    /**
1096
     * This simply calls the same method on the wrapped
1097
     * collection.
1098
     *
1099
     * @param obj the object to compare with.
1100
     * @return true if the two objects are equal.
1101
     */
1102
    public boolean equals(Object obj)
1103
    {
1104
      return c.equals(obj);
1105
    }
1106
 
1107
    /**
1108
     * This simply calls the same method on the wrapped
1109
     * collection.
1110
     *
1111
     * @return the hashcode of the collection.
1112
     */
1113
    public int hashCode()
1114
    {
1115
      return c.hashCode();
1116
    }
1117
 
1118
  } // class EnvironmentSet<String>
1119
 
1120
} // class System

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