1/* 2 * Copyright (C) 2006 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17package android.os; 18 19import android.os.MessageProto; 20import android.util.TimeUtils; 21import android.util.proto.ProtoOutputStream; 22 23/** 24 * 25 * Defines a message containing a description and arbitrary data object that can be 26 * sent to a {@link Handler}. This object contains two extra int fields and an 27 * extra object field that allow you to not do allocations in many cases. 28 * 29 * <p class="note">While the constructor of Message is public, the best way to get 30 * one of these is to call {@link #obtain Message.obtain()} or one of the 31 * {@link Handler#obtainMessage Handler.obtainMessage()} methods, which will pull 32 * them from a pool of recycled objects.</p> 33 */ 34public final class Message implements Parcelable { 35 /** 36 * User-defined message code so that the recipient can identify 37 * what this message is about. Each {@link Handler} has its own name-space 38 * for message codes, so you do not need to worry about yours conflicting 39 * with other handlers. 40 */ 41 public int what; 42 43 /** 44 * arg1 and arg2 are lower-cost alternatives to using 45 * {@link #setData(Bundle) setData()} if you only need to store a 46 * few integer values. 47 */ 48 public int arg1; 49 50 /** 51 * arg1 and arg2 are lower-cost alternatives to using 52 * {@link #setData(Bundle) setData()} if you only need to store a 53 * few integer values. 54 */ 55 public int arg2; 56 57 /** 58 * An arbitrary object to send to the recipient. When using 59 * {@link Messenger} to send the message across processes this can only 60 * be non-null if it contains a Parcelable of a framework class (not one 61 * implemented by the application). For other data transfer use 62 * {@link #setData}. 63 * 64 * <p>Note that Parcelable objects here are not supported prior to 65 * the {@link android.os.Build.VERSION_CODES#FROYO} release. 66 */ 67 public Object obj; 68 69 /** 70 * Optional Messenger where replies to this message can be sent. The 71 * semantics of exactly how this is used are up to the sender and 72 * receiver. 73 */ 74 public Messenger replyTo; 75 76 /** 77 * Optional field indicating the uid that sent the message. This is 78 * only valid for messages posted by a {@link Messenger}; otherwise, 79 * it will be -1. 80 */ 81 public int sendingUid = -1; 82 83 /** If set message is in use. 84 * This flag is set when the message is enqueued and remains set while it 85 * is delivered and afterwards when it is recycled. The flag is only cleared 86 * when a new message is created or obtained since that is the only time that 87 * applications are allowed to modify the contents of the message. 88 * 89 * It is an error to attempt to enqueue or recycle a message that is already in use. 90 */ 91 /*package*/ static final int FLAG_IN_USE = 1 << 0; 92 93 /** If set message is asynchronous */ 94 /*package*/ static final int FLAG_ASYNCHRONOUS = 1 << 1; 95 96 /** Flags to clear in the copyFrom method */ 97 /*package*/ static final int FLAGS_TO_CLEAR_ON_COPY_FROM = FLAG_IN_USE; 98 99 /*package*/ int flags; 100 101 /*package*/ long when; 102 103 /*package*/ Bundle data; 104 105 /*package*/ Handler target; 106 107 /*package*/ Runnable callback; 108 109 // sometimes we store linked lists of these things 110 /*package*/ Message next; 111 112 private static final Object sPoolSync = new Object(); 113 private static Message sPool; 114 private static int sPoolSize = 0; 115 116 private static final int MAX_POOL_SIZE = 50; 117 118 private static boolean gCheckRecycle = true; 119 120 /** 121 * Return a new Message instance from the global pool. Allows us to 122 * avoid allocating new objects in many cases. 123 */ 124 public static Message obtain() { 125 synchronized (sPoolSync) { 126 if (sPool != null) { 127 Message m = sPool; 128 sPool = m.next; 129 m.next = null; 130 m.flags = 0; // clear in-use flag 131 sPoolSize--; 132 return m; 133 } 134 } 135 return new Message(); 136 } 137 138 /** 139 * Same as {@link #obtain()}, but copies the values of an existing 140 * message (including its target) into the new one. 141 * @param orig Original message to copy. 142 * @return A Message object from the global pool. 143 */ 144 public static Message obtain(Message orig) { 145 Message m = obtain(); 146 m.what = orig.what; 147 m.arg1 = orig.arg1; 148 m.arg2 = orig.arg2; 149 m.obj = orig.obj; 150 m.replyTo = orig.replyTo; 151 m.sendingUid = orig.sendingUid; 152 if (orig.data != null) { 153 m.data = new Bundle(orig.data); 154 } 155 m.target = orig.target; 156 m.callback = orig.callback; 157 158 return m; 159 } 160 161 /** 162 * Same as {@link #obtain()}, but sets the value for the <em>target</em> member on the Message returned. 163 * @param h Handler to assign to the returned Message object's <em>target</em> member. 164 * @return A Message object from the global pool. 165 */ 166 public static Message obtain(Handler h) { 167 Message m = obtain(); 168 m.target = h; 169 170 return m; 171 } 172 173 /** 174 * Same as {@link #obtain(Handler)}, but assigns a callback Runnable on 175 * the Message that is returned. 176 * @param h Handler to assign to the returned Message object's <em>target</em> member. 177 * @param callback Runnable that will execute when the message is handled. 178 * @return A Message object from the global pool. 179 */ 180 public static Message obtain(Handler h, Runnable callback) { 181 Message m = obtain(); 182 m.target = h; 183 m.callback = callback; 184 185 return m; 186 } 187 188 /** 189 * Same as {@link #obtain()}, but sets the values for both <em>target</em> and 190 * <em>what</em> members on the Message. 191 * @param h Value to assign to the <em>target</em> member. 192 * @param what Value to assign to the <em>what</em> member. 193 * @return A Message object from the global pool. 194 */ 195 public static Message obtain(Handler h, int what) { 196 Message m = obtain(); 197 m.target = h; 198 m.what = what; 199 200 return m; 201 } 202 203 /** 204 * Same as {@link #obtain()}, but sets the values of the <em>target</em>, <em>what</em>, and <em>obj</em> 205 * members. 206 * @param h The <em>target</em> value to set. 207 * @param what The <em>what</em> value to set. 208 * @param obj The <em>object</em> method to set. 209 * @return A Message object from the global pool. 210 */ 211 public static Message obtain(Handler h, int what, Object obj) { 212 Message m = obtain(); 213 m.target = h; 214 m.what = what; 215 m.obj = obj; 216 217 return m; 218 } 219 220 /** 221 * Same as {@link #obtain()}, but sets the values of the <em>target</em>, <em>what</em>, 222 * <em>arg1</em>, and <em>arg2</em> members. 223 * 224 * @param h The <em>target</em> value to set. 225 * @param what The <em>what</em> value to set. 226 * @param arg1 The <em>arg1</em> value to set. 227 * @param arg2 The <em>arg2</em> value to set. 228 * @return A Message object from the global pool. 229 */ 230 public static Message obtain(Handler h, int what, int arg1, int arg2) { 231 Message m = obtain(); 232 m.target = h; 233 m.what = what; 234 m.arg1 = arg1; 235 m.arg2 = arg2; 236 237 return m; 238 } 239 240 /** 241 * Same as {@link #obtain()}, but sets the values of the <em>target</em>, <em>what</em>, 242 * <em>arg1</em>, <em>arg2</em>, and <em>obj</em> members. 243 * 244 * @param h The <em>target</em> value to set. 245 * @param what The <em>what</em> value to set. 246 * @param arg1 The <em>arg1</em> value to set. 247 * @param arg2 The <em>arg2</em> value to set. 248 * @param obj The <em>obj</em> value to set. 249 * @return A Message object from the global pool. 250 */ 251 public static Message obtain(Handler h, int what, 252 int arg1, int arg2, Object obj) { 253 Message m = obtain(); 254 m.target = h; 255 m.what = what; 256 m.arg1 = arg1; 257 m.arg2 = arg2; 258 m.obj = obj; 259 260 return m; 261 } 262 263 /** @hide */ 264 public static void updateCheckRecycle(int targetSdkVersion) { 265 if (targetSdkVersion < Build.VERSION_CODES.LOLLIPOP) { 266 gCheckRecycle = false; 267 } 268 } 269 270 /** 271 * Return a Message instance to the global pool. 272 * <p> 273 * You MUST NOT touch the Message after calling this function because it has 274 * effectively been freed. It is an error to recycle a message that is currently 275 * enqueued or that is in the process of being delivered to a Handler. 276 * </p> 277 */ 278 public void recycle() { 279 if (isInUse()) { 280 if (gCheckRecycle) { 281 throw new IllegalStateException("This message cannot be recycled because it " 282 + "is still in use."); 283 } 284 return; 285 } 286 recycleUnchecked(); 287 } 288 289 /** 290 * Recycles a Message that may be in-use. 291 * Used internally by the MessageQueue and Looper when disposing of queued Messages. 292 */ 293 void recycleUnchecked() { 294 // Mark the message as in use while it remains in the recycled object pool. 295 // Clear out all other details. 296 flags = FLAG_IN_USE; 297 what = 0; 298 arg1 = 0; 299 arg2 = 0; 300 obj = null; 301 replyTo = null; 302 sendingUid = -1; 303 when = 0; 304 target = null; 305 callback = null; 306 data = null; 307 308 synchronized (sPoolSync) { 309 if (sPoolSize < MAX_POOL_SIZE) { 310 next = sPool; 311 sPool = this; 312 sPoolSize++; 313 } 314 } 315 } 316 317 /** 318 * Make this message like o. Performs a shallow copy of the data field. 319 * Does not copy the linked list fields, nor the timestamp or 320 * target/callback of the original message. 321 */ 322 public void copyFrom(Message o) { 323 this.flags = o.flags & ~FLAGS_TO_CLEAR_ON_COPY_FROM; 324 this.what = o.what; 325 this.arg1 = o.arg1; 326 this.arg2 = o.arg2; 327 this.obj = o.obj; 328 this.replyTo = o.replyTo; 329 this.sendingUid = o.sendingUid; 330 331 if (o.data != null) { 332 this.data = (Bundle) o.data.clone(); 333 } else { 334 this.data = null; 335 } 336 } 337 338 /** 339 * Return the targeted delivery time of this message, in milliseconds. 340 */ 341 public long getWhen() { 342 return when; 343 } 344 345 public void setTarget(Handler target) { 346 this.target = target; 347 } 348 349 /** 350 * Retrieve the a {@link android.os.Handler Handler} implementation that 351 * will receive this message. The object must implement 352 * {@link android.os.Handler#handleMessage(android.os.Message) 353 * Handler.handleMessage()}. Each Handler has its own name-space for 354 * message codes, so you do not need to 355 * worry about yours conflicting with other handlers. 356 */ 357 public Handler getTarget() { 358 return target; 359 } 360 361 /** 362 * Retrieve callback object that will execute when this message is handled. 363 * This object must implement Runnable. This is called by 364 * the <em>target</em> {@link Handler} that is receiving this Message to 365 * dispatch it. If 366 * not set, the message will be dispatched to the receiving Handler's 367 * {@link Handler#handleMessage(Message Handler.handleMessage())}. 368 */ 369 public Runnable getCallback() { 370 return callback; 371 } 372 373 /** 374 * Obtains a Bundle of arbitrary data associated with this 375 * event, lazily creating it if necessary. Set this value by calling 376 * {@link #setData(Bundle)}. Note that when transferring data across 377 * processes via {@link Messenger}, you will need to set your ClassLoader 378 * on the Bundle via {@link Bundle#setClassLoader(ClassLoader) 379 * Bundle.setClassLoader()} so that it can instantiate your objects when 380 * you retrieve them. 381 * @see #peekData() 382 * @see #setData(Bundle) 383 */ 384 public Bundle getData() { 385 if (data == null) { 386 data = new Bundle(); 387 } 388 389 return data; 390 } 391 392 /** 393 * Like getData(), but does not lazily create the Bundle. A null 394 * is returned if the Bundle does not already exist. See 395 * {@link #getData} for further information on this. 396 * @see #getData() 397 * @see #setData(Bundle) 398 */ 399 public Bundle peekData() { 400 return data; 401 } 402 403 /** 404 * Sets a Bundle of arbitrary data values. Use arg1 and arg2 members 405 * as a lower cost way to send a few simple integer values, if you can. 406 * @see #getData() 407 * @see #peekData() 408 */ 409 public void setData(Bundle data) { 410 this.data = data; 411 } 412 413 /** 414 * Sends this Message to the Handler specified by {@link #getTarget}. 415 * Throws a null pointer exception if this field has not been set. 416 */ 417 public void sendToTarget() { 418 target.sendMessage(this); 419 } 420 421 /** 422 * Returns true if the message is asynchronous, meaning that it is not 423 * subject to {@link Looper} synchronization barriers. 424 * 425 * @return True if the message is asynchronous. 426 * 427 * @see #setAsynchronous(boolean) 428 */ 429 public boolean isAsynchronous() { 430 return (flags & FLAG_ASYNCHRONOUS) != 0; 431 } 432 433 /** 434 * Sets whether the message is asynchronous, meaning that it is not 435 * subject to {@link Looper} synchronization barriers. 436 * <p> 437 * Certain operations, such as view invalidation, may introduce synchronization 438 * barriers into the {@link Looper}'s message queue to prevent subsequent messages 439 * from being delivered until some condition is met. In the case of view invalidation, 440 * messages which are posted after a call to {@link android.view.View#invalidate} 441 * are suspended by means of a synchronization barrier until the next frame is 442 * ready to be drawn. The synchronization barrier ensures that the invalidation 443 * request is completely handled before resuming. 444 * </p><p> 445 * Asynchronous messages are exempt from synchronization barriers. They typically 446 * represent interrupts, input events, and other signals that must be handled independently 447 * even while other work has been suspended. 448 * </p><p> 449 * Note that asynchronous messages may be delivered out of order with respect to 450 * synchronous messages although they are always delivered in order among themselves. 451 * If the relative order of these messages matters then they probably should not be 452 * asynchronous in the first place. Use with caution. 453 * </p> 454 * 455 * @param async True if the message is asynchronous. 456 * 457 * @see #isAsynchronous() 458 */ 459 public void setAsynchronous(boolean async) { 460 if (async) { 461 flags |= FLAG_ASYNCHRONOUS; 462 } else { 463 flags &= ~FLAG_ASYNCHRONOUS; 464 } 465 } 466 467 /*package*/ boolean isInUse() { 468 return ((flags & FLAG_IN_USE) == FLAG_IN_USE); 469 } 470 471 /*package*/ void markInUse() { 472 flags |= FLAG_IN_USE; 473 } 474 475 /** Constructor (but the preferred way to get a Message is to call {@link #obtain() Message.obtain()}). 476 */ 477 public Message() { 478 } 479 480 @Override 481 public String toString() { 482 return toString(SystemClock.uptimeMillis()); 483 } 484 485 String toString(long now) { 486 StringBuilder b = new StringBuilder(); 487 b.append("{ when="); 488 TimeUtils.formatDuration(when - now, b); 489 490 if (target != null) { 491 if (callback != null) { 492 b.append(" callback="); 493 b.append(callback.getClass().getName()); 494 } else { 495 b.append(" what="); 496 b.append(what); 497 } 498 499 if (arg1 != 0) { 500 b.append(" arg1="); 501 b.append(arg1); 502 } 503 504 if (arg2 != 0) { 505 b.append(" arg2="); 506 b.append(arg2); 507 } 508 509 if (obj != null) { 510 b.append(" obj="); 511 b.append(obj); 512 } 513 514 b.append(" target="); 515 b.append(target.getClass().getName()); 516 } else { 517 b.append(" barrier="); 518 b.append(arg1); 519 } 520 521 b.append(" }"); 522 return b.toString(); 523 } 524 525 void writeToProto(ProtoOutputStream proto, long fieldId) { 526 final long messageToken = proto.start(fieldId); 527 proto.write(MessageProto.WHEN, when); 528 529 if (target != null) { 530 if (callback != null) { 531 proto.write(MessageProto.CALLBACK, callback.getClass().getName()); 532 } else { 533 proto.write(MessageProto.WHAT, what); 534 } 535 536 if (arg1 != 0) { 537 proto.write(MessageProto.ARG1, arg1); 538 } 539 540 if (arg2 != 0) { 541 proto.write(MessageProto.ARG2, arg2); 542 } 543 544 if (obj != null) { 545 proto.write(MessageProto.OBJ, obj.toString()); 546 } 547 548 proto.write(MessageProto.TARGET, target.getClass().getName()); 549 } else { 550 proto.write(MessageProto.BARRIER, arg1); 551 } 552 553 proto.end(messageToken); 554 } 555 556 public static final Parcelable.Creator<Message> CREATOR 557 = new Parcelable.Creator<Message>() { 558 public Message createFromParcel(Parcel source) { 559 Message msg = Message.obtain(); 560 msg.readFromParcel(source); 561 return msg; 562 } 563 564 public Message[] newArray(int size) { 565 return new Message[size]; 566 } 567 }; 568 569 public int describeContents() { 570 return 0; 571 } 572 573 public void writeToParcel(Parcel dest, int flags) { 574 if (callback != null) { 575 throw new RuntimeException( 576 "Can't marshal callbacks across processes."); 577 } 578 dest.writeInt(what); 579 dest.writeInt(arg1); 580 dest.writeInt(arg2); 581 if (obj != null) { 582 try { 583 Parcelable p = (Parcelable)obj; 584 dest.writeInt(1); 585 dest.writeParcelable(p, flags); 586 } catch (ClassCastException e) { 587 throw new RuntimeException( 588 "Can't marshal non-Parcelable objects across processes."); 589 } 590 } else { 591 dest.writeInt(0); 592 } 593 dest.writeLong(when); 594 dest.writeBundle(data); 595 Messenger.writeMessengerOrNullToParcel(replyTo, dest); 596 dest.writeInt(sendingUid); 597 } 598 599 private void readFromParcel(Parcel source) { 600 what = source.readInt(); 601 arg1 = source.readInt(); 602 arg2 = source.readInt(); 603 if (source.readInt() != 0) { 604 obj = source.readParcelable(getClass().getClassLoader()); 605 } 606 when = source.readLong(); 607 data = source.readBundle(); 608 replyTo = Messenger.readMessengerOrNullFromParcel(source); 609 sendingUid = source.readInt(); 610 } 611} 612