001/* 002 * Copyright (C) 2007 The Guava Authors 003 * 004 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except 005 * in compliance with the License. You may obtain a copy of the License at 006 * 007 * http://www.apache.org/licenses/LICENSE-2.0 008 * 009 * Unless required by applicable law or agreed to in writing, software distributed under the License 010 * is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express 011 * or implied. See the License for the specific language governing permissions and limitations under 012 * the License. 013 */ 014 015package com.google.common.base; 016 017import static com.google.common.base.Preconditions.checkNotNull; 018import static java.util.Arrays.asList; 019import static java.util.Collections.unmodifiableList; 020import static java.util.Objects.requireNonNull; 021 022import com.google.common.annotations.GwtCompatible; 023import com.google.common.annotations.GwtIncompatible; 024import com.google.common.annotations.J2ktIncompatible; 025import com.google.common.annotations.VisibleForTesting; 026import com.google.errorprone.annotations.CanIgnoreReturnValue; 027import java.io.IOException; 028import java.io.PrintWriter; 029import java.io.StringWriter; 030import java.lang.reflect.InvocationTargetException; 031import java.lang.reflect.Method; 032import java.util.AbstractList; 033import java.util.ArrayList; 034import java.util.Collections; 035import java.util.List; 036import org.jspecify.annotations.Nullable; 037 038/** 039 * Static utility methods pertaining to instances of {@link Throwable}. 040 * 041 * <p>See the Guava User Guide entry on <a 042 * href="https://github.com/google/guava/wiki/ThrowablesExplained">Throwables</a>. 043 * 044 * @author Kevin Bourrillion 045 * @author Ben Yu 046 * @since 1.0 047 */ 048@GwtCompatible(emulated = true) 049public final class Throwables { 050 private Throwables() {} 051 052 /** 053 * Throws {@code throwable} if it is an instance of {@code declaredType}. Example usage: 054 * 055 * <pre> 056 * for (Foo foo : foos) { 057 * try { 058 * foo.bar(); 059 * } catch (BarException | RuntimeException | Error t) { 060 * failure = t; 061 * } 062 * } 063 * if (failure != null) { 064 * throwIfInstanceOf(failure, BarException.class); 065 * throwIfUnchecked(failure); 066 * throw new AssertionError(failure); 067 * } 068 * </pre> 069 * 070 * @since 20.0 071 */ 072 @GwtIncompatible // Class.cast, Class.isInstance 073 public static <X extends Throwable> void throwIfInstanceOf( 074 Throwable throwable, Class<X> declaredType) throws X { 075 checkNotNull(throwable); 076 if (declaredType.isInstance(throwable)) { 077 throw declaredType.cast(throwable); 078 } 079 } 080 081 /** 082 * Propagates {@code throwable} exactly as-is, if and only if it is an instance of {@code 083 * declaredType}. Example usage: 084 * 085 * <pre> 086 * try { 087 * someMethodThatCouldThrowAnything(); 088 * } catch (IKnowWhatToDoWithThisException e) { 089 * handle(e); 090 * } catch (Throwable t) { 091 * Throwables.propagateIfInstanceOf(t, IOException.class); 092 * Throwables.propagateIfInstanceOf(t, SQLException.class); 093 * throw Throwables.propagate(t); 094 * } 095 * </pre> 096 * 097 * @deprecated Use {@link #throwIfInstanceOf}, which has the same behavior but rejects {@code 098 * null}. 099 */ 100 @Deprecated 101 @J2ktIncompatible 102 @GwtIncompatible // throwIfInstanceOf 103 public static <X extends Throwable> void propagateIfInstanceOf( 104 @Nullable Throwable throwable, Class<X> declaredType) throws X { 105 if (throwable != null) { 106 throwIfInstanceOf(throwable, declaredType); 107 } 108 } 109 110 /** 111 * Throws {@code throwable} if it is a {@link RuntimeException} or {@link Error}. Example usage: 112 * 113 * <pre> 114 * for (Foo foo : foos) { 115 * try { 116 * foo.bar(); 117 * } catch (RuntimeException | Error t) { 118 * failure = t; 119 * } 120 * } 121 * if (failure != null) { 122 * throwIfUnchecked(failure); 123 * throw new AssertionError(failure); 124 * } 125 * </pre> 126 * 127 * @since 20.0 128 */ 129 public static void throwIfUnchecked(Throwable throwable) { 130 checkNotNull(throwable); 131 if (throwable instanceof RuntimeException) { 132 throw (RuntimeException) throwable; 133 } 134 if (throwable instanceof Error) { 135 throw (Error) throwable; 136 } 137 } 138 139 /** 140 * Propagates {@code throwable} exactly as-is, if and only if it is an instance of {@link 141 * RuntimeException} or {@link Error}. 142 * 143 * @deprecated Use {@link #throwIfUnchecked}, which has the same behavior but rejects {@code 144 * null}. 145 */ 146 @Deprecated 147 @J2ktIncompatible 148 @GwtIncompatible 149 public static void propagateIfPossible(@Nullable Throwable throwable) { 150 if (throwable != null) { 151 throwIfUnchecked(throwable); 152 } 153 } 154 155 /** 156 * Propagates {@code throwable} exactly as-is, if and only if it is an instance of {@link 157 * RuntimeException}, {@link Error}, or {@code declaredType}. 158 * 159 * <p><b>Discouraged</b> in favor of calling {@link #throwIfInstanceOf} and {@link 160 * #throwIfUnchecked}. 161 * 162 * @param throwable the Throwable to possibly propagate 163 * @param declaredType the single checked exception type declared by the calling method 164 * @deprecated Use a combination of {@link #throwIfInstanceOf} and {@link #throwIfUnchecked}, 165 * which togther provide the same behavior except that they reject {@code null}. 166 */ 167 @Deprecated 168 @J2ktIncompatible 169 @GwtIncompatible // propagateIfInstanceOf 170 public static <X extends Throwable> void propagateIfPossible( 171 @Nullable Throwable throwable, Class<X> declaredType) throws X { 172 propagateIfInstanceOf(throwable, declaredType); 173 propagateIfPossible(throwable); 174 } 175 176 /** 177 * Propagates {@code throwable} exactly as-is, if and only if it is an instance of {@link 178 * RuntimeException}, {@link Error}, {@code declaredType1}, or {@code declaredType2}. 179 * 180 * @param throwable the Throwable to possibly propagate 181 * @param declaredType1 any checked exception type declared by the calling method 182 * @param declaredType2 any other checked exception type declared by the calling method 183 * @deprecated Use a combination of two calls to {@link #throwIfInstanceOf} and one call to {@link 184 * #throwIfUnchecked}, which togther provide the same behavior except that they reject {@code 185 * null}. 186 */ 187 @Deprecated 188 @J2ktIncompatible 189 @GwtIncompatible // propagateIfInstanceOf 190 public static <X1 extends Throwable, X2 extends Throwable> void propagateIfPossible( 191 @Nullable Throwable throwable, Class<X1> declaredType1, Class<X2> declaredType2) 192 throws X1, X2 { 193 checkNotNull(declaredType2); 194 propagateIfInstanceOf(throwable, declaredType1); 195 propagateIfPossible(throwable, declaredType2); 196 } 197 198 /** 199 * Propagates {@code throwable} as-is if it is an instance of {@link RuntimeException} or {@link 200 * Error}, or else as a last resort, wraps it in a {@code RuntimeException} and then propagates. 201 * 202 * <p>This method always throws an exception. The {@code RuntimeException} return type allows 203 * client code to signal to the compiler that statements after the call are unreachable. Example 204 * usage: 205 * 206 * <pre> 207 * T doSomething() { 208 * try { 209 * return someMethodThatCouldThrowAnything(); 210 * } catch (IKnowWhatToDoWithThisException e) { 211 * return handle(e); 212 * } catch (Throwable t) { 213 * throw Throwables.propagate(t); 214 * } 215 * } 216 * </pre> 217 * 218 * @param throwable the Throwable to propagate 219 * @return nothing will ever be returned; this return type is only for your convenience, as 220 * illustrated in the example above 221 * @deprecated To preserve behavior, use {@code throw e} or {@code throw new RuntimeException(e)} 222 * directly, or use a combination of {@link #throwIfUnchecked} and {@code throw new 223 * RuntimeException(e)}. But consider whether users would be better off if your API threw a 224 * different type of exception. For background on the deprecation, read <a 225 * href="https://github.com/google/guava/wiki/Why-we-deprecated-Throwables.propagate">Why we 226 * deprecated {@code Throwables.propagate}</a>. 227 */ 228 @CanIgnoreReturnValue 229 @J2ktIncompatible 230 @GwtIncompatible 231 @Deprecated 232 public static RuntimeException propagate(Throwable throwable) { 233 throwIfUnchecked(throwable); 234 throw new RuntimeException(throwable); 235 } 236 237 /** 238 * Returns the innermost cause of {@code throwable}. The first throwable in a chain provides 239 * context from when the error or exception was initially detected. Example usage: 240 * 241 * <pre> 242 * assertEquals("Unable to assign a customer id", Throwables.getRootCause(e).getMessage()); 243 * </pre> 244 * 245 * @throws IllegalArgumentException if there is a loop in the causal chain 246 */ 247 public static Throwable getRootCause(Throwable throwable) { 248 // Keep a second pointer that slowly walks the causal chain. If the fast pointer ever catches 249 // the slower pointer, then there's a loop. 250 Throwable slowPointer = throwable; 251 boolean advanceSlowPointer = false; 252 253 Throwable cause; 254 while ((cause = throwable.getCause()) != null) { 255 throwable = cause; 256 257 if (throwable == slowPointer) { 258 throw new IllegalArgumentException("Loop in causal chain detected.", throwable); 259 } 260 if (advanceSlowPointer) { 261 slowPointer = slowPointer.getCause(); 262 } 263 advanceSlowPointer = !advanceSlowPointer; // only advance every other iteration 264 } 265 return throwable; 266 } 267 268 /** 269 * Gets a {@code Throwable} cause chain as a list. The first entry in the list will be {@code 270 * throwable} followed by its cause hierarchy. Note that this is a snapshot of the cause chain and 271 * will not reflect any subsequent changes to the cause chain. 272 * 273 * <p>Here's an example of how it can be used to find specific types of exceptions in the cause 274 * chain: 275 * 276 * <pre> 277 * Iterables.filter(Throwables.getCausalChain(e), IOException.class)); 278 * </pre> 279 * 280 * @param throwable the non-null {@code Throwable} to extract causes from 281 * @return an unmodifiable list containing the cause chain starting with {@code throwable} 282 * @throws IllegalArgumentException if there is a loop in the causal chain 283 */ 284 public static List<Throwable> getCausalChain(Throwable throwable) { 285 checkNotNull(throwable); 286 List<Throwable> causes = new ArrayList<>(4); 287 causes.add(throwable); 288 289 // Keep a second pointer that slowly walks the causal chain. If the fast pointer ever catches 290 // the slower pointer, then there's a loop. 291 Throwable slowPointer = throwable; 292 boolean advanceSlowPointer = false; 293 294 Throwable cause; 295 while ((cause = throwable.getCause()) != null) { 296 throwable = cause; 297 causes.add(throwable); 298 299 if (throwable == slowPointer) { 300 throw new IllegalArgumentException("Loop in causal chain detected.", throwable); 301 } 302 if (advanceSlowPointer) { 303 slowPointer = slowPointer.getCause(); 304 } 305 advanceSlowPointer = !advanceSlowPointer; // only advance every other iteration 306 } 307 return Collections.unmodifiableList(causes); 308 } 309 310 /** 311 * Returns {@code throwable}'s cause, cast to {@code expectedCauseType}. 312 * 313 * <p>Prefer this method instead of manually casting an exception's cause. For example, {@code 314 * (IOException) e.getCause()} throws a {@link ClassCastException} that discards the original 315 * exception {@code e} if the cause is not an {@link IOException}, but {@code 316 * Throwables.getCauseAs(e, IOException.class)} keeps {@code e} as the {@link 317 * ClassCastException}'s cause. 318 * 319 * @throws ClassCastException if the cause cannot be cast to the expected type. The {@code 320 * ClassCastException}'s cause is {@code throwable}. 321 * @since 22.0 322 */ 323 @GwtIncompatible // Class.cast(Object) 324 public static <X extends Throwable> @Nullable X getCauseAs( 325 Throwable throwable, Class<X> expectedCauseType) { 326 try { 327 return expectedCauseType.cast(throwable.getCause()); 328 } catch (ClassCastException e) { 329 e.initCause(throwable); 330 throw e; 331 } 332 } 333 334 /** 335 * Returns a string containing the result of {@link Throwable#toString() toString()}, followed by 336 * the full, recursive stack trace of {@code throwable}. Note that you probably should not be 337 * parsing the resulting string; if you need programmatic access to the stack frames, you can call 338 * {@link Throwable#getStackTrace()}. 339 */ 340 @GwtIncompatible // java.io.PrintWriter, java.io.StringWriter 341 public static String getStackTraceAsString(Throwable throwable) { 342 StringWriter stringWriter = new StringWriter(); 343 throwable.printStackTrace(new PrintWriter(stringWriter)); 344 return stringWriter.toString(); 345 } 346 347 /** 348 * Returns the stack trace of {@code throwable}, possibly providing slower iteration over the full 349 * trace but faster iteration over parts of the trace. Here, "slower" and "faster" are defined in 350 * comparison to the normal way to access the stack trace, {@link Throwable#getStackTrace() 351 * throwable.getStackTrace()}. Note, however, that this method's special implementation is not 352 * available for all platforms and configurations. If that implementation is unavailable, this 353 * method falls back to {@code getStackTrace}. Callers that require the special implementation can 354 * check its availability with {@link #lazyStackTraceIsLazy()}. 355 * 356 * <p>The expected (but not guaranteed) performance of the special implementation differs from 357 * {@code getStackTrace} in one main way: The {@code lazyStackTrace} call itself returns quickly 358 * by delaying the per-stack-frame work until each element is accessed. Roughly speaking: 359 * 360 * <ul> 361 * <li>{@code getStackTrace} takes {@code stackSize} time to return but then negligible time to 362 * retrieve each element of the returned list. 363 * <li>{@code lazyStackTrace} takes negligible time to return but then {@code 1/stackSize} time 364 * to retrieve each element of the returned list (probably slightly more than {@code 365 * 1/stackSize}). 366 * </ul> 367 * 368 * <p>Note: The special implementation does not respect calls to {@link Throwable#setStackTrace 369 * throwable.setStackTrace}. Instead, it always reflects the original stack trace from the 370 * exception's creation. 371 * 372 * @since 19.0 373 * @deprecated This method is equivalent to {@link Throwable#getStackTrace()} on JDK versions past 374 * JDK 8 and on all Android versions. Use {@link Throwable#getStackTrace()} directly, or where 375 * possible use the {@code java.lang.StackWalker.walk} method introduced in JDK 9. 376 */ 377 @Deprecated 378 @J2ktIncompatible 379 @GwtIncompatible // lazyStackTraceIsLazy, jlaStackTrace 380 public static List<StackTraceElement> lazyStackTrace(Throwable throwable) { 381 return lazyStackTraceIsLazy() 382 ? jlaStackTrace(throwable) 383 : unmodifiableList(asList(throwable.getStackTrace())); 384 } 385 386 /** 387 * Returns whether {@link #lazyStackTrace} will use the special implementation described in its 388 * documentation. 389 * 390 * @since 19.0 391 * @deprecated This method always returns false on JDK versions past JDK 8 and on all Android 392 * versions. 393 */ 394 @Deprecated 395 @J2ktIncompatible 396 @GwtIncompatible // getStackTraceElementMethod 397 public static boolean lazyStackTraceIsLazy() { 398 return getStackTraceElementMethod != null && getStackTraceDepthMethod != null; 399 } 400 401 @J2ktIncompatible 402 @GwtIncompatible // invokeAccessibleNonThrowingMethod 403 private static List<StackTraceElement> jlaStackTrace(Throwable t) { 404 checkNotNull(t); 405 /* 406 * TODO(cpovirk): Consider optimizing iterator() to catch IOOBE instead of doing bounds checks. 407 * 408 * TODO(cpovirk): Consider the UnsignedBytes pattern if it performs faster and doesn't cause 409 * AOSP grief. 410 */ 411 return new AbstractList<StackTraceElement>() { 412 /* 413 * The following requireNonNull calls are safe because we use jlaStackTrace() only if 414 * lazyStackTraceIsLazy() returns true. 415 */ 416 @Override 417 public StackTraceElement get(int n) { 418 return (StackTraceElement) 419 invokeAccessibleNonThrowingMethod( 420 requireNonNull(getStackTraceElementMethod), requireNonNull(jla), t, n); 421 } 422 423 @Override 424 public int size() { 425 return (Integer) 426 invokeAccessibleNonThrowingMethod( 427 requireNonNull(getStackTraceDepthMethod), requireNonNull(jla), t); 428 } 429 }; 430 } 431 432 @J2ktIncompatible 433 @GwtIncompatible // java.lang.reflect 434 private static Object invokeAccessibleNonThrowingMethod( 435 Method method, Object receiver, Object... params) { 436 try { 437 return method.invoke(receiver, params); 438 } catch (IllegalAccessException e) { 439 throw new RuntimeException(e); 440 } catch (InvocationTargetException e) { 441 throw propagate(e.getCause()); 442 } 443 } 444 445 /** JavaLangAccess class name to load using reflection */ 446 @J2ktIncompatible @GwtIncompatible // not used by GWT emulation 447 private static final String JAVA_LANG_ACCESS_CLASSNAME = "sun.misc.JavaLangAccess"; 448 449 /** SharedSecrets class name to load using reflection */ 450 @J2ktIncompatible 451 @GwtIncompatible // not used by GWT emulation 452 @VisibleForTesting 453 static final String SHARED_SECRETS_CLASSNAME = "sun.misc.SharedSecrets"; 454 455 /** Access to some fancy internal JVM internals. */ 456 @J2ktIncompatible @GwtIncompatible // java.lang.reflect 457 private static final @Nullable Object jla = getJLA(); 458 459 /** 460 * The "getStackTraceElementMethod" method, only available on some JDKs so we use reflection to 461 * find it when available. When this is null, use the slow way. 462 */ 463 @J2ktIncompatible @GwtIncompatible // java.lang.reflect 464 private static final @Nullable Method getStackTraceElementMethod = 465 (jla == null) ? null : getGetMethod(); 466 467 /** 468 * The "getStackTraceDepth" method, only available on some JDKs so we use reflection to find it 469 * when available. When this is null, use the slow way. 470 */ 471 @J2ktIncompatible @GwtIncompatible // java.lang.reflect 472 private static final @Nullable Method getStackTraceDepthMethod = 473 (jla == null) ? null : getSizeMethod(jla); 474 475 /** 476 * Returns the JavaLangAccess class that is present in all Sun JDKs. It is not allowed in 477 * AppEngine, and not present in non-Sun JDKs. 478 */ 479 @SuppressWarnings("removal") // b/318391980 480 @J2ktIncompatible 481 @GwtIncompatible // java.lang.reflect 482 private static @Nullable Object getJLA() { 483 try { 484 /* 485 * We load sun.misc.* classes using reflection since Android doesn't support these classes and 486 * would result in compilation failure if we directly refer to these classes. 487 */ 488 Class<?> sharedSecrets = Class.forName(SHARED_SECRETS_CLASSNAME, false, null); 489 Method langAccess = sharedSecrets.getMethod("getJavaLangAccess"); 490 return langAccess.invoke(null); 491 } catch (ThreadDeath death) { 492 throw death; 493 } catch (Throwable t) { 494 /* 495 * This is not one of AppEngine's allowed classes, so even in Sun JDKs, this can fail with 496 * a NoClassDefFoundError. Other apps might deny access to sun.misc packages. 497 */ 498 return null; 499 } 500 } 501 502 /** 503 * Returns the Method that can be used to resolve an individual StackTraceElement, or null if that 504 * method cannot be found (it is only to be found in fairly recent JDKs). 505 */ 506 @J2ktIncompatible 507 @GwtIncompatible // java.lang.reflect 508 private static @Nullable Method getGetMethod() { 509 return getJlaMethod("getStackTraceElement", Throwable.class, int.class); 510 } 511 512 /** 513 * Returns the Method that can be used to return the size of a stack, or null if that method 514 * cannot be found (it is only to be found in fairly recent JDKs). Tries to test method {@link 515 * sun.misc.JavaLangAccess#getStackTraceDepth(Throwable) getStackTraceDepth} prior to return it 516 * (might fail some JDKs). 517 * 518 * <p>See <a href="https://github.com/google/guava/issues/2887">Throwables#lazyStackTrace throws 519 * UnsupportedOperationException</a>. 520 */ 521 @J2ktIncompatible 522 @GwtIncompatible // java.lang.reflect 523 private static @Nullable Method getSizeMethod(Object jla) { 524 try { 525 Method getStackTraceDepth = getJlaMethod("getStackTraceDepth", Throwable.class); 526 if (getStackTraceDepth == null) { 527 return null; 528 } 529 getStackTraceDepth.invoke(jla, new Throwable()); 530 return getStackTraceDepth; 531 } catch (UnsupportedOperationException | IllegalAccessException | InvocationTargetException e) { 532 return null; 533 } 534 } 535 536 @SuppressWarnings("removal") // b/318391980 537 @J2ktIncompatible 538 @GwtIncompatible // java.lang.reflect 539 private static @Nullable Method getJlaMethod(String name, Class<?>... parameterTypes) 540 throws ThreadDeath { 541 try { 542 return Class.forName(JAVA_LANG_ACCESS_CLASSNAME, false, null).getMethod(name, parameterTypes); 543 } catch (ThreadDeath death) { 544 throw death; 545 } catch (Throwable t) { 546 /* 547 * Either the JavaLangAccess class itself is not found, or the method is not supported on the 548 * JVM. 549 */ 550 return null; 551 } 552 } 553}