1 /* 2 * Copyright (c) 2005, 2012, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. Oracle designates this 8 * particular file as subject to the "Classpath" exception as provided 9 * by Oracle in the LICENSE file that accompanied this code. 10 * 11 * This code is distributed in the hope that it will be useful, but WITHOUT 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14 * version 2 for more details (a copy is included in the LICENSE file that 15 * accompanied this code). 16 * 17 * You should have received a copy of the GNU General Public License version 18 * 2 along with this work; if not, write to the Free Software Foundation, 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 20 * 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 22 * or visit www.oracle.com if you need additional information or have any 23 * questions. 24 */ 25 26 package java.util; 27 28 import java.io.BufferedReader; 29 import java.io.IOException; 30 import java.io.InputStream; 31 import java.io.InputStreamReader; 32 import java.net.URL; 33 import java.util.ArrayList; 34 import java.util.Enumeration; 35 import java.util.Iterator; 36 import java.util.List; 37 import java.util.NoSuchElementException; 38 39 40 /** 41 * A simple service-provider loading facility. 42 * 43 * <p> A <i>service</i> is a well-known set of interfaces and (usually 44 * abstract) classes. A <i>service provider</i> is a specific implementation 45 * of a service. The classes in a provider typically implement the interfaces 46 * and subclass the classes defined in the service itself. Service providers 47 * can be installed in an implementation of the Java platform in the form of 48 * extensions, that is, jar files placed into any of the usual extension 49 * directories. Providers can also be made available by adding them to the 50 * application's class path or by some other platform-specific means. 51 * 52 * <p> For the purpose of loading, a service is represented by a single type, 53 * that is, a single interface or abstract class. (A concrete class can be 54 * used, but this is not recommended.) A provider of a given service contains 55 * one or more concrete classes that extend this <i>service type</i> with data 56 * and code specific to the provider. The <i>provider class</i> is typically 57 * not the entire provider itself but rather a proxy which contains enough 58 * information to decide whether the provider is able to satisfy a particular 59 * request together with code that can create the actual provider on demand. 60 * The details of provider classes tend to be highly service-specific; no 61 * single class or interface could possibly unify them, so no such type is 62 * defined here. The only requirement enforced by this facility is that 63 * provider classes must have a zero-argument constructor so that they can be 64 * instantiated during loading. 65 * 66 * <p><a name="format"> A service provider is identified by placing a 67 * <i>provider-configuration file</i> in the resource directory 68 * <tt>META-INF/services</tt>. The file's name is the fully-qualified <a 69 * href="../lang/ClassLoader.html#name">binary name</a> of the service's type. 70 * The file contains a list of fully-qualified binary names of concrete 71 * provider classes, one per line. Space and tab characters surrounding each 72 * name, as well as blank lines, are ignored. The comment character is 73 * <tt>'#'</tt> (<tt>'\u0023'</tt>, <font size="-1">NUMBER SIGN</font>); on 74 * each line all characters following the first comment character are ignored. 75 * The file must be encoded in UTF-8. 76 * 77 * <p> If a particular concrete provider class is named in more than one 78 * configuration file, or is named in the same configuration file more than 79 * once, then the duplicates are ignored. The configuration file naming a 80 * particular provider need not be in the same jar file or other distribution 81 * unit as the provider itself. The provider must be accessible from the same 82 * class loader that was initially queried to locate the configuration file; 83 * note that this is not necessarily the class loader from which the file was 84 * actually loaded. 85 * 86 * <p> Providers are located and instantiated lazily, that is, on demand. A 87 * service loader maintains a cache of the providers that have been loaded so 88 * far. Each invocation of the {@link #iterator iterator} method returns an 89 * iterator that first yields all of the elements of the cache, in 90 * instantiation order, and then lazily locates and instantiates any remaining 91 * providers, adding each one to the cache in turn. The cache can be cleared 92 * via the {@link #reload reload} method. 93 * 94 * <p> Service loaders always execute in the security context of the caller. 95 * Trusted system code should typically invoke the methods in this class, and 96 * the methods of the iterators which they return, from within a privileged 97 * security context. 98 * 99 * <p> Instances of this class are not safe for use by multiple concurrent 100 * threads. 101 * 102 * <p> Unless otherwise specified, passing a <tt>null</tt> argument to any 103 * method in this class will cause a {@link NullPointerException} to be thrown. 104 * 105 * 106 * <p><span style="font-weight: bold; padding-right: 1em">Example</span> 107 * Suppose we have a service type <tt>com.example.CodecSet</tt> which is 108 * intended to represent sets of encoder/decoder pairs for some protocol. In 109 * this case it is an abstract class with two abstract methods: 110 * 111 * <blockquote><pre> 112 * public abstract Encoder getEncoder(String encodingName); 113 * public abstract Decoder getDecoder(String encodingName);</pre></blockquote> 114 * 115 * Each method returns an appropriate object or <tt>null</tt> if the provider 116 * does not support the given encoding. Typical providers support more than 117 * one encoding. 118 * 119 * <p> If <tt>com.example.impl.StandardCodecs</tt> is an implementation of the 120 * <tt>CodecSet</tt> service then its jar file also contains a file named 121 * 122 * <blockquote><pre> 123 * META-INF/services/com.example.CodecSet</pre></blockquote> 124 * 125 * <p> This file contains the single line: 126 * 127 * <blockquote><pre> 128 * com.example.impl.StandardCodecs # Standard codecs</pre></blockquote> 129 * 130 * <p> The <tt>CodecSet</tt> class creates and saves a single service instance 131 * at initialization: 132 * 133 * <blockquote><pre> 134 * private static ServiceLoader<CodecSet> codecSetLoader 135 * = ServiceLoader.load(CodecSet.class);</pre></blockquote> 136 * 137 * <p> To locate an encoder for a given encoding name it defines a static 138 * factory method which iterates through the known and available providers, 139 * returning only when it has located a suitable encoder or has run out of 140 * providers. 141 * 142 * <blockquote><pre> 143 * public static Encoder getEncoder(String encodingName) { 144 * for (CodecSet cp : codecSetLoader) { 145 * Encoder enc = cp.getEncoder(encodingName); 146 * if (enc != null) 147 * return enc; 148 * } 149 * return null; 150 * }</pre></blockquote> 151 * 152 * <p> A <tt>getDecoder</tt> method is defined similarly. 153 * 154 * 155 * <p><span style="font-weight: bold; padding-right: 1em">Usage Note</span> If 156 * the class path of a class loader that is used for provider loading includes 157 * remote network URLs then those URLs will be dereferenced in the process of 158 * searching for provider-configuration files. 159 * 160 * <p> This activity is normal, although it may cause puzzling entries to be 161 * created in web-server logs. If a web server is not configured correctly, 162 * however, then this activity may cause the provider-loading algorithm to fail 163 * spuriously. 164 * 165 * <p> A web server should return an HTTP 404 (Not Found) response when a 166 * requested resource does not exist. Sometimes, however, web servers are 167 * erroneously configured to return an HTTP 200 (OK) response along with a 168 * helpful HTML error page in such cases. This will cause a {@link 169 * ServiceConfigurationError} to be thrown when this class attempts to parse 170 * the HTML page as a provider-configuration file. The best solution to this 171 * problem is to fix the misconfigured web server to return the correct 172 * response code (HTTP 404) along with the HTML error page. 173 * 174 * @param <S> 175 * The type of the service to be loaded by this loader 176 * 177 * @author Mark Reinhold 178 * @since 1.6 179 */ 180 181 public final class ServiceLoader<S> 182 implements Iterable<S> 183 { 184 185 private static final String PREFIX = "META-INF/services/"; 186 187 // The class or interface representing the service being loaded 188 private Class<S> service; 189 190 // The class loader used to locate, load, and instantiate providers 191 private ClassLoader loader; 192 193 // Cached providers, in instantiation order 194 private LinkedHashMap<String,S> providers = new LinkedHashMap<>(); 195 196 // The current lazy-lookup iterator 197 private LazyIterator lookupIterator; 198 199 /** 200 * Clear this loader's provider cache so that all providers will be 201 * reloaded. 202 * 203 * <p> After invoking this method, subsequent invocations of the {@link 204 * #iterator() iterator} method will lazily look up and instantiate 205 * providers from scratch, just as is done by a newly-created loader. 206 * 207 * <p> This method is intended for use in situations in which new providers 208 * can be installed into a running Java virtual machine. 209 */ 210 public void reload() { 211 providers.clear(); 212 lookupIterator = new LazyIterator(service, loader); 213 } 214 215 private ServiceLoader(Class<S> svc, ClassLoader cl) { 216 service = Objects.requireNonNull(svc, "Service interface cannot be null"); 217 loader = (cl == null) ? ClassLoader.getSystemClassLoader() : cl; 218 reload(); 219 } 220 221 private static void fail(Class<?> service, String msg, Throwable cause) 222 throws ServiceConfigurationError 223 { 224 throw new ServiceConfigurationError(service.getName() + ": " + msg, 225 cause); 226 } 227 228 private static void fail(Class<?> service, String msg) 229 throws ServiceConfigurationError 230 { 231 throw new ServiceConfigurationError(service.getName() + ": " + msg); 232 } 233 234 private static void fail(Class<?> service, URL u, int line, String msg) 235 throws ServiceConfigurationError 236 { 237 fail(service, u + ":" + line + ": " + msg); 238 } 239 240 // Parse a single line from the given configuration file, adding the name 241 // on the line to the names list. 242 // 243 private int parseLine(Class<?> service, URL u, BufferedReader r, int lc, 244 List<String> names) 245 throws IOException, ServiceConfigurationError 246 { 247 String ln = r.readLine(); 248 if (ln == null) { 249 return -1; 250 } 251 int ci = ln.indexOf('#'); 252 if (ci >= 0) ln = ln.substring(0, ci); 253 ln = ln.trim(); 254 int n = ln.length(); 255 if (n != 0) { 256 if ((ln.indexOf(' ') >= 0) || (ln.indexOf('\t') >= 0)) 257 fail(service, u, lc, "Illegal configuration-file syntax"); 258 int cp = ln.codePointAt(0); 259 if (!Character.isJavaIdentifierStart(cp)) 260 fail(service, u, lc, "Illegal provider-class name: " + ln); 261 for (int i = Character.charCount(cp); i < n; i += Character.charCount(cp)) { 262 cp = ln.codePointAt(i); 263 if (!Character.isJavaIdentifierPart(cp) && (cp != '.')) 264 fail(service, u, lc, "Illegal provider-class name: " + ln); 265 } 266 if (!providers.containsKey(ln) && !names.contains(ln)) 267 names.add(ln); 268 } 269 return lc + 1; 270 } 271 272 // Parse the content of the given URL as a provider-configuration file. 273 // 274 // @param service 275 // The service type for which providers are being sought; 276 // used to construct error detail strings 277 // 278 // @param u 279 // The URL naming the configuration file to be parsed 280 // 281 // @return A (possibly empty) iterator that will yield the provider-class 282 // names in the given configuration file that are not yet members 283 // of the returned set 284 // 285 // @throws ServiceConfigurationError 286 // If an I/O error occurs while reading from the given URL, or 287 // if a configuration-file format error is detected 288 // 289 private Iterator<String> parse(Class<?> service, URL u) 290 throws ServiceConfigurationError 291 { 292 InputStream in = null; 293 BufferedReader r = null; 294 ArrayList<String> names = new ArrayList<>(); 295 try { 296 in = u.openStream(); 297 r = new BufferedReader(new InputStreamReader(in, "utf-8")); 298 int lc = 1; 299 while ((lc = parseLine(service, u, r, lc, names)) >= 0); 300 } catch (IOException x) { 301 fail(service, "Error reading configuration file", x); 302 } finally { 303 try { 304 if (r != null) r.close(); 305 if (in != null) in.close(); 306 } catch (IOException y) { 307 fail(service, "Error closing configuration file", y); 308 } 309 } 310 return names.iterator(); 311 } 312 313 // Private inner class implementing fully-lazy provider lookup 314 // 315 private class LazyIterator 316 implements Iterator<S> 317 { 318 319 Class<S> service; 320 ClassLoader loader; 321 Enumeration<URL> configs = null; 322 Iterator<String> pending = null; 323 String nextName = null; 324 325 private LazyIterator(Class<S> service, ClassLoader loader) { 326 this.service = service; 327 this.loader = loader; 328 } 329 330 public boolean hasNext() { 331 if (nextName != null) { 332 return true; 333 } 334 if (configs == null) { 335 try { 336 String fullName = PREFIX + service.getName(); 337 if (loader == null) 338 configs = ClassLoader.getSystemResources(fullName); 339 else 340 configs = loader.getResources(fullName); 341 } catch (IOException x) { 342 fail(service, "Error locating configuration files", x); 343 } 344 } 345 while ((pending == null) || !pending.hasNext()) { 346 if (!configs.hasMoreElements()) { 347 return false; 348 } 349 pending = parse(service, configs.nextElement()); 350 } 351 nextName = pending.next(); 352 return true; 353 } 354 355 public S next() { 356 if (!hasNext()) { 357 throw new NoSuchElementException(); 358 } 359 String cn = nextName; 360 nextName = null; 361 Class<?> c = null; 362 try { 363 c = Class.forName(cn, false, loader); 364 } catch (ClassNotFoundException x) { 365 fail(service, 366 "Provider " + cn + " not found"); 367 } 368 if (!service.isAssignableFrom(c)) { 369 fail(service, 370 "Provider " + cn + " not a subtype"); 371 } 372 try { 373 S p = service.cast(c.newInstance()); 374 providers.put(cn, p); 375 return p; 376 } catch (Throwable x) { 377 fail(service, 378 "Provider " + cn + " could not be instantiated: " + x, 379 x); 380 } 381 throw new Error(); // This cannot happen 382 } 383 384 public void remove() { 385 throw new UnsupportedOperationException(); 386 } 387 388 } 389 390 /** 391 * Lazily loads the available providers of this loader's service. 392 * 393 * <p> The iterator returned by this method first yields all of the 394 * elements of the provider cache, in instantiation order. It then lazily 395 * loads and instantiates any remaining providers, adding each one to the 396 * cache in turn. 397 * 398 * <p> To achieve laziness the actual work of parsing the available 399 * provider-configuration files and instantiating providers must be done by 400 * the iterator itself. Its {@link java.util.Iterator#hasNext hasNext} and 401 * {@link java.util.Iterator#next next} methods can therefore throw a 402 * {@link ServiceConfigurationError} if a provider-configuration file 403 * violates the specified format, or if it names a provider class that 404 * cannot be found and instantiated, or if the result of instantiating the 405 * class is not assignable to the service type, or if any other kind of 406 * exception or error is thrown as the next provider is located and 407 * instantiated. To write robust code it is only necessary to catch {@link 408 * ServiceConfigurationError} when using a service iterator. 409 * 410 * <p> If such an error is thrown then subsequent invocations of the 411 * iterator will make a best effort to locate and instantiate the next 412 * available provider, but in general such recovery cannot be guaranteed. 413 * 414 * <blockquote style="font-size: smaller; line-height: 1.2"><span 415 * style="padding-right: 1em; font-weight: bold">Design Note</span> 416 * Throwing an error in these cases may seem extreme. The rationale for 417 * this behavior is that a malformed provider-configuration file, like a 418 * malformed class file, indicates a serious problem with the way the Java 419 * virtual machine is configured or is being used. As such it is 420 * preferable to throw an error rather than try to recover or, even worse, 421 * fail silently.</blockquote> 422 * 423 * <p> The iterator returned by this method does not support removal. 424 * Invoking its {@link java.util.Iterator#remove() remove} method will 425 * cause an {@link UnsupportedOperationException} to be thrown. 426 * 427 * @return An iterator that lazily loads providers for this loader's 428 * service 429 */ 430 public Iterator<S> iterator() { 431 return new Iterator<S>() { 432 433 Iterator<Map.Entry<String,S>> knownProviders 434 = providers.entrySet().iterator(); 435 436 public boolean hasNext() { 437 if (knownProviders.hasNext()) 438 return true; 439 return lookupIterator.hasNext(); 440 } 441 442 public S next() { 443 if (knownProviders.hasNext()) 444 return knownProviders.next().getValue(); 445 return lookupIterator.next(); 446 } 447 448 public void remove() { 449 throw new UnsupportedOperationException(); 450 } 451 452 }; 453 } 454 455 /** 456 * Creates a new service loader for the given service type and class 457 * loader. 458 * 459 * @param service 460 * The interface or abstract class representing the service 461 * 462 * @param loader 463 * The class loader to be used to load provider-configuration files 464 * and provider classes, or <tt>null</tt> if the system class 465 * loader (or, failing that, the bootstrap class loader) is to be 466 * used 467 * 468 * @return A new service loader 469 */ 470 public static <S> ServiceLoader<S> load(Class<S> service, 471 ClassLoader loader) 472 { 473 return new ServiceLoader<>(service, loader); 474 } 475 476 /** 477 * Creates a new service loader for the given service type, using the 478 * current thread's {@linkplain java.lang.Thread#getContextClassLoader 479 * context class loader}. 480 * 481 * <p> An invocation of this convenience method of the form 482 * 483 * <blockquote><pre> 484 * ServiceLoader.load(<i>service</i>)</pre></blockquote> 485 * 486 * is equivalent to 487 * 488 * <blockquote><pre> 489 * ServiceLoader.load(<i>service</i>, 490 * Thread.currentThread().getContextClassLoader())</pre></blockquote> 491 * 492 * @param service 493 * The interface or abstract class representing the service 494 * 495 * @return A new service loader 496 */ 497 public static <S> ServiceLoader<S> load(Class<S> service) { 498 ClassLoader cl = Thread.currentThread().getContextClassLoader(); 499 return ServiceLoader.load(service, cl); 500 } 501 502 /** 503 * Creates a new service loader for the given service type, using the 504 * extension class loader. 505 * 506 * <p> This convenience method simply locates the extension class loader, 507 * call it <tt><i>extClassLoader</i></tt>, and then returns 508 * 509 * <blockquote><pre> 510 * ServiceLoader.load(<i>service</i>, <i>extClassLoader</i>)</pre></blockquote> 511 * 512 * <p> If the extension class loader cannot be found then the system class 513 * loader is used; if there is no system class loader then the bootstrap 514 * class loader is used. 515 * 516 * <p> This method is intended for use when only installed providers are 517 * desired. The resulting service will only find and load providers that 518 * have been installed into the current Java virtual machine; providers on 519 * the application's class path will be ignored. 520 * 521 * @param service 522 * The interface or abstract class representing the service 523 * 524 * @return A new service loader 525 */ 526 public static <S> ServiceLoader<S> loadInstalled(Class<S> service) { 527 ClassLoader cl = ClassLoader.getSystemClassLoader(); 528 ClassLoader prev = null; 529 while (cl != null) { 530 prev = cl; 531 cl = cl.getParent(); 532 } 533 return ServiceLoader.load(service, prev); 534 } 535 536 /** 537 * Returns a string describing this service. 538 * 539 * @return A descriptive string 540 */ 541 public String toString() { 542 return "java.util.ServiceLoader[" + service.getName() + "]"; 543 } 544 545 }