MediaPlayer.java revision 791c48458e03a7f884abc19a398fb766d4480133
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.media; 18 19import android.annotation.IntDef; 20import android.annotation.NonNull; 21import android.annotation.Nullable; 22import android.app.ActivityThread; 23import android.content.ContentProvider; 24import android.content.ContentResolver; 25import android.content.Context; 26import android.content.res.AssetFileDescriptor; 27import android.net.Uri; 28import android.os.Handler; 29import android.os.HandlerThread; 30import android.os.IBinder; 31import android.os.Looper; 32import android.os.Message; 33import android.os.Parcel; 34import android.os.Parcelable; 35import android.os.Process; 36import android.os.PowerManager; 37import android.os.SystemProperties; 38import android.provider.Settings; 39import android.system.ErrnoException; 40import android.system.OsConstants; 41import android.util.Log; 42import android.util.Pair; 43import android.view.Surface; 44import android.view.SurfaceHolder; 45import android.widget.VideoView; 46import android.graphics.SurfaceTexture; 47import android.media.AudioManager; 48import android.media.MediaFormat; 49import android.media.MediaTimeProvider; 50import android.media.PlaybackParams; 51import android.media.SubtitleController; 52import android.media.SubtitleController.Anchor; 53import android.media.SubtitleData; 54import android.media.SubtitleTrack.RenderingWidget; 55import android.media.SyncParams; 56 57import com.android.internal.util.Preconditions; 58 59import libcore.io.IoBridge; 60import libcore.io.Libcore; 61 62import java.io.ByteArrayOutputStream; 63import java.io.File; 64import java.io.FileDescriptor; 65import java.io.FileInputStream; 66import java.io.IOException; 67import java.io.InputStream; 68import java.lang.Runnable; 69import java.lang.annotation.Retention; 70import java.lang.annotation.RetentionPolicy; 71import java.net.InetSocketAddress; 72import java.util.BitSet; 73import java.util.Map; 74import java.util.Scanner; 75import java.util.Set; 76import java.util.Vector; 77import java.lang.ref.WeakReference; 78 79/** 80 * MediaPlayer class can be used to control playback 81 * of audio/video files and streams. An example on how to use the methods in 82 * this class can be found in {@link android.widget.VideoView}. 83 * 84 * <p>Topics covered here are: 85 * <ol> 86 * <li><a href="#StateDiagram">State Diagram</a> 87 * <li><a href="#Valid_and_Invalid_States">Valid and Invalid States</a> 88 * <li><a href="#Permissions">Permissions</a> 89 * <li><a href="#Callbacks">Register informational and error callbacks</a> 90 * </ol> 91 * 92 * <div class="special reference"> 93 * <h3>Developer Guides</h3> 94 * <p>For more information about how to use MediaPlayer, read the 95 * <a href="{@docRoot}guide/topics/media/mediaplayer.html">Media Playback</a> developer guide.</p> 96 * </div> 97 * 98 * <a name="StateDiagram"></a> 99 * <h3>State Diagram</h3> 100 * 101 * <p>Playback control of audio/video files and streams is managed as a state 102 * machine. The following diagram shows the life cycle and the states of a 103 * MediaPlayer object driven by the supported playback control operations. 104 * The ovals represent the states a MediaPlayer object may reside 105 * in. The arcs represent the playback control operations that drive the object 106 * state transition. There are two types of arcs. The arcs with a single arrow 107 * head represent synchronous method calls, while those with 108 * a double arrow head represent asynchronous method calls.</p> 109 * 110 * <p><img src="../../../images/mediaplayer_state_diagram.gif" 111 * alt="MediaPlayer State diagram" 112 * border="0" /></p> 113 * 114 * <p>From this state diagram, one can see that a MediaPlayer object has the 115 * following states:</p> 116 * <ul> 117 * <li>When a MediaPlayer object is just created using <code>new</code> or 118 * after {@link #reset()} is called, it is in the <em>Idle</em> state; and after 119 * {@link #release()} is called, it is in the <em>End</em> state. Between these 120 * two states is the life cycle of the MediaPlayer object. 121 * <ul> 122 * <li>There is a subtle but important difference between a newly constructed 123 * MediaPlayer object and the MediaPlayer object after {@link #reset()} 124 * is called. It is a programming error to invoke methods such 125 * as {@link #getCurrentPosition()}, 126 * {@link #getDuration()}, {@link #getVideoHeight()}, 127 * {@link #getVideoWidth()}, {@link #setAudioAttributes(AudioAttributes)}, 128 * {@link #setLooping(boolean)}, 129 * {@link #setVolume(float, float)}, {@link #pause()}, {@link #start()}, 130 * {@link #stop()}, {@link #seekTo(int, int)}, {@link #prepare()} or 131 * {@link #prepareAsync()} in the <em>Idle</em> state for both cases. If any of these 132 * methods is called right after a MediaPlayer object is constructed, 133 * the user supplied callback method OnErrorListener.onError() won't be 134 * called by the internal player engine and the object state remains 135 * unchanged; but if these methods are called right after {@link #reset()}, 136 * the user supplied callback method OnErrorListener.onError() will be 137 * invoked by the internal player engine and the object will be 138 * transfered to the <em>Error</em> state. </li> 139 * <li>It is also recommended that once 140 * a MediaPlayer object is no longer being used, call {@link #release()} immediately 141 * so that resources used by the internal player engine associated with the 142 * MediaPlayer object can be released immediately. Resource may include 143 * singleton resources such as hardware acceleration components and 144 * failure to call {@link #release()} may cause subsequent instances of 145 * MediaPlayer objects to fallback to software implementations or fail 146 * altogether. Once the MediaPlayer 147 * object is in the <em>End</em> state, it can no longer be used and 148 * there is no way to bring it back to any other state. </li> 149 * <li>Furthermore, 150 * the MediaPlayer objects created using <code>new</code> is in the 151 * <em>Idle</em> state, while those created with one 152 * of the overloaded convenient <code>create</code> methods are <em>NOT</em> 153 * in the <em>Idle</em> state. In fact, the objects are in the <em>Prepared</em> 154 * state if the creation using <code>create</code> method is successful. 155 * </li> 156 * </ul> 157 * </li> 158 * <li>In general, some playback control operation may fail due to various 159 * reasons, such as unsupported audio/video format, poorly interleaved 160 * audio/video, resolution too high, streaming timeout, and the like. 161 * Thus, error reporting and recovery is an important concern under 162 * these circumstances. Sometimes, due to programming errors, invoking a playback 163 * control operation in an invalid state may also occur. Under all these 164 * error conditions, the internal player engine invokes a user supplied 165 * OnErrorListener.onError() method if an OnErrorListener has been 166 * registered beforehand via 167 * {@link #setOnErrorListener(android.media.MediaPlayer.OnErrorListener)}. 168 * <ul> 169 * <li>It is important to note that once an error occurs, the 170 * MediaPlayer object enters the <em>Error</em> state (except as noted 171 * above), even if an error listener has not been registered by the application.</li> 172 * <li>In order to reuse a MediaPlayer object that is in the <em> 173 * Error</em> state and recover from the error, 174 * {@link #reset()} can be called to restore the object to its <em>Idle</em> 175 * state.</li> 176 * <li>It is good programming practice to have your application 177 * register a OnErrorListener to look out for error notifications from 178 * the internal player engine.</li> 179 * <li>IllegalStateException is 180 * thrown to prevent programming errors such as calling {@link #prepare()}, 181 * {@link #prepareAsync()}, or one of the overloaded <code>setDataSource 182 * </code> methods in an invalid state. </li> 183 * </ul> 184 * </li> 185 * <li>Calling 186 * {@link #setDataSource(FileDescriptor)}, or 187 * {@link #setDataSource(String)}, or 188 * {@link #setDataSource(Context, Uri)}, or 189 * {@link #setDataSource(FileDescriptor, long, long)}, or 190 * {@link #setDataSource(MediaDataSource)} transfers a 191 * MediaPlayer object in the <em>Idle</em> state to the 192 * <em>Initialized</em> state. 193 * <ul> 194 * <li>An IllegalStateException is thrown if 195 * setDataSource() is called in any other state.</li> 196 * <li>It is good programming 197 * practice to always look out for <code>IllegalArgumentException</code> 198 * and <code>IOException</code> that may be thrown from the overloaded 199 * <code>setDataSource</code> methods.</li> 200 * </ul> 201 * </li> 202 * <li>A MediaPlayer object must first enter the <em>Prepared</em> state 203 * before playback can be started. 204 * <ul> 205 * <li>There are two ways (synchronous vs. 206 * asynchronous) that the <em>Prepared</em> state can be reached: 207 * either a call to {@link #prepare()} (synchronous) which 208 * transfers the object to the <em>Prepared</em> state once the method call 209 * returns, or a call to {@link #prepareAsync()} (asynchronous) which 210 * first transfers the object to the <em>Preparing</em> state after the 211 * call returns (which occurs almost right way) while the internal 212 * player engine continues working on the rest of preparation work 213 * until the preparation work completes. When the preparation completes or when {@link #prepare()} call returns, 214 * the internal player engine then calls a user supplied callback method, 215 * onPrepared() of the OnPreparedListener interface, if an 216 * OnPreparedListener is registered beforehand via {@link 217 * #setOnPreparedListener(android.media.MediaPlayer.OnPreparedListener)}.</li> 218 * <li>It is important to note that 219 * the <em>Preparing</em> state is a transient state, and the behavior 220 * of calling any method with side effect while a MediaPlayer object is 221 * in the <em>Preparing</em> state is undefined.</li> 222 * <li>An IllegalStateException is 223 * thrown if {@link #prepare()} or {@link #prepareAsync()} is called in 224 * any other state.</li> 225 * <li>While in the <em>Prepared</em> state, properties 226 * such as audio/sound volume, screenOnWhilePlaying, looping can be 227 * adjusted by invoking the corresponding set methods.</li> 228 * </ul> 229 * </li> 230 * <li>To start the playback, {@link #start()} must be called. After 231 * {@link #start()} returns successfully, the MediaPlayer object is in the 232 * <em>Started</em> state. {@link #isPlaying()} can be called to test 233 * whether the MediaPlayer object is in the <em>Started</em> state. 234 * <ul> 235 * <li>While in the <em>Started</em> state, the internal player engine calls 236 * a user supplied OnBufferingUpdateListener.onBufferingUpdate() callback 237 * method if a OnBufferingUpdateListener has been registered beforehand 238 * via {@link #setOnBufferingUpdateListener(OnBufferingUpdateListener)}. 239 * This callback allows applications to keep track of the buffering status 240 * while streaming audio/video.</li> 241 * <li>Calling {@link #start()} has not effect 242 * on a MediaPlayer object that is already in the <em>Started</em> state.</li> 243 * </ul> 244 * </li> 245 * <li>Playback can be paused and stopped, and the current playback position 246 * can be adjusted. Playback can be paused via {@link #pause()}. When the call to 247 * {@link #pause()} returns, the MediaPlayer object enters the 248 * <em>Paused</em> state. Note that the transition from the <em>Started</em> 249 * state to the <em>Paused</em> state and vice versa happens 250 * asynchronously in the player engine. It may take some time before 251 * the state is updated in calls to {@link #isPlaying()}, and it can be 252 * a number of seconds in the case of streamed content. 253 * <ul> 254 * <li>Calling {@link #start()} to resume playback for a paused 255 * MediaPlayer object, and the resumed playback 256 * position is the same as where it was paused. When the call to 257 * {@link #start()} returns, the paused MediaPlayer object goes back to 258 * the <em>Started</em> state.</li> 259 * <li>Calling {@link #pause()} has no effect on 260 * a MediaPlayer object that is already in the <em>Paused</em> state.</li> 261 * </ul> 262 * </li> 263 * <li>Calling {@link #stop()} stops playback and causes a 264 * MediaPlayer in the <em>Started</em>, <em>Paused</em>, <em>Prepared 265 * </em> or <em>PlaybackCompleted</em> state to enter the 266 * <em>Stopped</em> state. 267 * <ul> 268 * <li>Once in the <em>Stopped</em> state, playback cannot be started 269 * until {@link #prepare()} or {@link #prepareAsync()} are called to set 270 * the MediaPlayer object to the <em>Prepared</em> state again.</li> 271 * <li>Calling {@link #stop()} has no effect on a MediaPlayer 272 * object that is already in the <em>Stopped</em> state.</li> 273 * </ul> 274 * </li> 275 * <li>The playback position can be adjusted with a call to 276 * {@link #seekTo(int, int)}. 277 * <ul> 278 * <li>Although the asynchronuous {@link #seekTo(int, int)} 279 * call returns right away, the actual seek operation may take a while to 280 * finish, especially for audio/video being streamed. When the actual 281 * seek operation completes, the internal player engine calls a user 282 * supplied OnSeekComplete.onSeekComplete() if an OnSeekCompleteListener 283 * has been registered beforehand via 284 * {@link #setOnSeekCompleteListener(OnSeekCompleteListener)}.</li> 285 * <li>Please 286 * note that {@link #seekTo(int, int)} can also be called in the other states, 287 * such as <em>Prepared</em>, <em>Paused</em> and <em>PlaybackCompleted 288 * </em> state. When {@link #seekTo(int, int)} is called in those states, 289 * one video frame will be displayed if the stream has video and the requested 290 * position is valid. 291 * </li> 292 * <li>Furthermore, the actual current playback position 293 * can be retrieved with a call to {@link #getCurrentPosition()}, which 294 * is helpful for applications such as a Music player that need to keep 295 * track of the playback progress.</li> 296 * </ul> 297 * </li> 298 * <li>When the playback reaches the end of stream, the playback completes. 299 * <ul> 300 * <li>If the looping mode was being set to <var>true</var>with 301 * {@link #setLooping(boolean)}, the MediaPlayer object shall remain in 302 * the <em>Started</em> state.</li> 303 * <li>If the looping mode was set to <var>false 304 * </var>, the player engine calls a user supplied callback method, 305 * OnCompletion.onCompletion(), if a OnCompletionListener is registered 306 * beforehand via {@link #setOnCompletionListener(OnCompletionListener)}. 307 * The invoke of the callback signals that the object is now in the <em> 308 * PlaybackCompleted</em> state.</li> 309 * <li>While in the <em>PlaybackCompleted</em> 310 * state, calling {@link #start()} can restart the playback from the 311 * beginning of the audio/video source.</li> 312 * </ul> 313 * 314 * 315 * <a name="Valid_and_Invalid_States"></a> 316 * <h3>Valid and invalid states</h3> 317 * 318 * <table border="0" cellspacing="0" cellpadding="0"> 319 * <tr><td>Method Name </p></td> 320 * <td>Valid Sates </p></td> 321 * <td>Invalid States </p></td> 322 * <td>Comments </p></td></tr> 323 * <tr><td>attachAuxEffect </p></td> 324 * <td>{Initialized, Prepared, Started, Paused, Stopped, PlaybackCompleted} </p></td> 325 * <td>{Idle, Error} </p></td> 326 * <td>This method must be called after setDataSource. 327 * Calling it does not change the object state. </p></td></tr> 328 * <tr><td>getAudioSessionId </p></td> 329 * <td>any </p></td> 330 * <td>{} </p></td> 331 * <td>This method can be called in any state and calling it does not change 332 * the object state. </p></td></tr> 333 * <tr><td>getCurrentPosition </p></td> 334 * <td>{Idle, Initialized, Prepared, Started, Paused, Stopped, 335 * PlaybackCompleted} </p></td> 336 * <td>{Error}</p></td> 337 * <td>Successful invoke of this method in a valid state does not change the 338 * state. Calling this method in an invalid state transfers the object 339 * to the <em>Error</em> state. </p></td></tr> 340 * <tr><td>getDuration </p></td> 341 * <td>{Prepared, Started, Paused, Stopped, PlaybackCompleted} </p></td> 342 * <td>{Idle, Initialized, Error} </p></td> 343 * <td>Successful invoke of this method in a valid state does not change the 344 * state. Calling this method in an invalid state transfers the object 345 * to the <em>Error</em> state. </p></td></tr> 346 * <tr><td>getVideoHeight </p></td> 347 * <td>{Idle, Initialized, Prepared, Started, Paused, Stopped, 348 * PlaybackCompleted}</p></td> 349 * <td>{Error}</p></td> 350 * <td>Successful invoke of this method in a valid state does not change the 351 * state. Calling this method in an invalid state transfers the object 352 * to the <em>Error</em> state. </p></td></tr> 353 * <tr><td>getVideoWidth </p></td> 354 * <td>{Idle, Initialized, Prepared, Started, Paused, Stopped, 355 * PlaybackCompleted}</p></td> 356 * <td>{Error}</p></td> 357 * <td>Successful invoke of this method in a valid state does not change 358 * the state. Calling this method in an invalid state transfers the 359 * object to the <em>Error</em> state. </p></td></tr> 360 * <tr><td>isPlaying </p></td> 361 * <td>{Idle, Initialized, Prepared, Started, Paused, Stopped, 362 * PlaybackCompleted}</p></td> 363 * <td>{Error}</p></td> 364 * <td>Successful invoke of this method in a valid state does not change 365 * the state. Calling this method in an invalid state transfers the 366 * object to the <em>Error</em> state. </p></td></tr> 367 * <tr><td>pause </p></td> 368 * <td>{Started, Paused, PlaybackCompleted}</p></td> 369 * <td>{Idle, Initialized, Prepared, Stopped, Error}</p></td> 370 * <td>Successful invoke of this method in a valid state transfers the 371 * object to the <em>Paused</em> state. Calling this method in an 372 * invalid state transfers the object to the <em>Error</em> state.</p></td></tr> 373 * <tr><td>prepare </p></td> 374 * <td>{Initialized, Stopped} </p></td> 375 * <td>{Idle, Prepared, Started, Paused, PlaybackCompleted, Error} </p></td> 376 * <td>Successful invoke of this method in a valid state transfers the 377 * object to the <em>Prepared</em> state. Calling this method in an 378 * invalid state throws an IllegalStateException.</p></td></tr> 379 * <tr><td>prepareAsync </p></td> 380 * <td>{Initialized, Stopped} </p></td> 381 * <td>{Idle, Prepared, Started, Paused, PlaybackCompleted, Error} </p></td> 382 * <td>Successful invoke of this method in a valid state transfers the 383 * object to the <em>Preparing</em> state. Calling this method in an 384 * invalid state throws an IllegalStateException.</p></td></tr> 385 * <tr><td>release </p></td> 386 * <td>any </p></td> 387 * <td>{} </p></td> 388 * <td>After {@link #release()}, the object is no longer available. </p></td></tr> 389 * <tr><td>reset </p></td> 390 * <td>{Idle, Initialized, Prepared, Started, Paused, Stopped, 391 * PlaybackCompleted, Error}</p></td> 392 * <td>{}</p></td> 393 * <td>After {@link #reset()}, the object is like being just created.</p></td></tr> 394 * <tr><td>seekTo </p></td> 395 * <td>{Prepared, Started, Paused, PlaybackCompleted} </p></td> 396 * <td>{Idle, Initialized, Stopped, Error}</p></td> 397 * <td>Successful invoke of this method in a valid state does not change 398 * the state. Calling this method in an invalid state transfers the 399 * object to the <em>Error</em> state. </p></td></tr> 400 * <tr><td>setAudioAttributes </p></td> 401 * <td>{Idle, Initialized, Stopped, Prepared, Started, Paused, 402 * PlaybackCompleted}</p></td> 403 * <td>{Error}</p></td> 404 * <td>Successful invoke of this method does not change the state. In order for the 405 * target audio attributes type to become effective, this method must be called before 406 * prepare() or prepareAsync().</p></td></tr> 407 * <tr><td>setAudioSessionId </p></td> 408 * <td>{Idle} </p></td> 409 * <td>{Initialized, Prepared, Started, Paused, Stopped, PlaybackCompleted, 410 * Error} </p></td> 411 * <td>This method must be called in idle state as the audio session ID must be known before 412 * calling setDataSource. Calling it does not change the object state. </p></td></tr> 413 * <tr><td>setAudioStreamType (deprecated)</p></td> 414 * <td>{Idle, Initialized, Stopped, Prepared, Started, Paused, 415 * PlaybackCompleted}</p></td> 416 * <td>{Error}</p></td> 417 * <td>Successful invoke of this method does not change the state. In order for the 418 * target audio stream type to become effective, this method must be called before 419 * prepare() or prepareAsync().</p></td></tr> 420 * <tr><td>setAuxEffectSendLevel </p></td> 421 * <td>any</p></td> 422 * <td>{} </p></td> 423 * <td>Calling this method does not change the object state. </p></td></tr> 424 * <tr><td>setDataSource </p></td> 425 * <td>{Idle} </p></td> 426 * <td>{Initialized, Prepared, Started, Paused, Stopped, PlaybackCompleted, 427 * Error} </p></td> 428 * <td>Successful invoke of this method in a valid state transfers the 429 * object to the <em>Initialized</em> state. Calling this method in an 430 * invalid state throws an IllegalStateException.</p></td></tr> 431 * <tr><td>setDisplay </p></td> 432 * <td>any </p></td> 433 * <td>{} </p></td> 434 * <td>This method can be called in any state and calling it does not change 435 * the object state. </p></td></tr> 436 * <tr><td>setSurface </p></td> 437 * <td>any </p></td> 438 * <td>{} </p></td> 439 * <td>This method can be called in any state and calling it does not change 440 * the object state. </p></td></tr> 441 * <tr><td>setVideoScalingMode </p></td> 442 * <td>{Initialized, Prepared, Started, Paused, Stopped, PlaybackCompleted} </p></td> 443 * <td>{Idle, Error}</p></td> 444 * <td>Successful invoke of this method does not change the state.</p></td></tr> 445 * <tr><td>setLooping </p></td> 446 * <td>{Idle, Initialized, Stopped, Prepared, Started, Paused, 447 * PlaybackCompleted}</p></td> 448 * <td>{Error}</p></td> 449 * <td>Successful invoke of this method in a valid state does not change 450 * the state. Calling this method in an 451 * invalid state transfers the object to the <em>Error</em> state.</p></td></tr> 452 * <tr><td>isLooping </p></td> 453 * <td>any </p></td> 454 * <td>{} </p></td> 455 * <td>This method can be called in any state and calling it does not change 456 * the object state. </p></td></tr> 457 * <tr><td>setOnBufferingUpdateListener </p></td> 458 * <td>any </p></td> 459 * <td>{} </p></td> 460 * <td>This method can be called in any state and calling it does not change 461 * the object state. </p></td></tr> 462 * <tr><td>setOnCompletionListener </p></td> 463 * <td>any </p></td> 464 * <td>{} </p></td> 465 * <td>This method can be called in any state and calling it does not change 466 * the object state. </p></td></tr> 467 * <tr><td>setOnErrorListener </p></td> 468 * <td>any </p></td> 469 * <td>{} </p></td> 470 * <td>This method can be called in any state and calling it does not change 471 * the object state. </p></td></tr> 472 * <tr><td>setOnPreparedListener </p></td> 473 * <td>any </p></td> 474 * <td>{} </p></td> 475 * <td>This method can be called in any state and calling it does not change 476 * the object state. </p></td></tr> 477 * <tr><td>setOnSeekCompleteListener </p></td> 478 * <td>any </p></td> 479 * <td>{} </p></td> 480 * <td>This method can be called in any state and calling it does not change 481 * the object state. </p></td></tr> 482 * <tr><td>setPlaybackParams</p></td> 483 * <td>{Initialized, Prepared, Started, Paused, PlaybackCompleted, Error}</p></td> 484 * <td>{Idle, Stopped} </p></td> 485 * <td>This method will change state in some cases, depending on when it's called. 486 * </p></td></tr> 487 * <tr><td>setScreenOnWhilePlaying</></td> 488 * <td>any </p></td> 489 * <td>{} </p></td> 490 * <td>This method can be called in any state and calling it does not change 491 * the object state. </p></td></tr> 492 * <tr><td>setVolume </p></td> 493 * <td>{Idle, Initialized, Stopped, Prepared, Started, Paused, 494 * PlaybackCompleted}</p></td> 495 * <td>{Error}</p></td> 496 * <td>Successful invoke of this method does not change the state. 497 * <tr><td>setWakeMode </p></td> 498 * <td>any </p></td> 499 * <td>{} </p></td> 500 * <td>This method can be called in any state and calling it does not change 501 * the object state.</p></td></tr> 502 * <tr><td>start </p></td> 503 * <td>{Prepared, Started, Paused, PlaybackCompleted}</p></td> 504 * <td>{Idle, Initialized, Stopped, Error}</p></td> 505 * <td>Successful invoke of this method in a valid state transfers the 506 * object to the <em>Started</em> state. Calling this method in an 507 * invalid state transfers the object to the <em>Error</em> state.</p></td></tr> 508 * <tr><td>stop </p></td> 509 * <td>{Prepared, Started, Stopped, Paused, PlaybackCompleted}</p></td> 510 * <td>{Idle, Initialized, Error}</p></td> 511 * <td>Successful invoke of this method in a valid state transfers the 512 * object to the <em>Stopped</em> state. Calling this method in an 513 * invalid state transfers the object to the <em>Error</em> state.</p></td></tr> 514 * <tr><td>getTrackInfo </p></td> 515 * <td>{Prepared, Started, Stopped, Paused, PlaybackCompleted}</p></td> 516 * <td>{Idle, Initialized, Error}</p></td> 517 * <td>Successful invoke of this method does not change the state.</p></td></tr> 518 * <tr><td>addTimedTextSource </p></td> 519 * <td>{Prepared, Started, Stopped, Paused, PlaybackCompleted}</p></td> 520 * <td>{Idle, Initialized, Error}</p></td> 521 * <td>Successful invoke of this method does not change the state.</p></td></tr> 522 * <tr><td>selectTrack </p></td> 523 * <td>{Prepared, Started, Stopped, Paused, PlaybackCompleted}</p></td> 524 * <td>{Idle, Initialized, Error}</p></td> 525 * <td>Successful invoke of this method does not change the state.</p></td></tr> 526 * <tr><td>deselectTrack </p></td> 527 * <td>{Prepared, Started, Stopped, Paused, PlaybackCompleted}</p></td> 528 * <td>{Idle, Initialized, Error}</p></td> 529 * <td>Successful invoke of this method does not change the state.</p></td></tr> 530 * 531 * </table> 532 * 533 * <a name="Permissions"></a> 534 * <h3>Permissions</h3> 535 * <p>One may need to declare a corresponding WAKE_LOCK permission {@link 536 * android.R.styleable#AndroidManifestUsesPermission <uses-permission>} 537 * element. 538 * 539 * <p>This class requires the {@link android.Manifest.permission#INTERNET} permission 540 * when used with network-based content. 541 * 542 * <a name="Callbacks"></a> 543 * <h3>Callbacks</h3> 544 * <p>Applications may want to register for informational and error 545 * events in order to be informed of some internal state update and 546 * possible runtime errors during playback or streaming. Registration for 547 * these events is done by properly setting the appropriate listeners (via calls 548 * to 549 * {@link #setOnPreparedListener(OnPreparedListener)}setOnPreparedListener, 550 * {@link #setOnVideoSizeChangedListener(OnVideoSizeChangedListener)}setOnVideoSizeChangedListener, 551 * {@link #setOnSeekCompleteListener(OnSeekCompleteListener)}setOnSeekCompleteListener, 552 * {@link #setOnCompletionListener(OnCompletionListener)}setOnCompletionListener, 553 * {@link #setOnBufferingUpdateListener(OnBufferingUpdateListener)}setOnBufferingUpdateListener, 554 * {@link #setOnInfoListener(OnInfoListener)}setOnInfoListener, 555 * {@link #setOnErrorListener(OnErrorListener)}setOnErrorListener, etc). 556 * In order to receive the respective callback 557 * associated with these listeners, applications are required to create 558 * MediaPlayer objects on a thread with its own Looper running (main UI 559 * thread by default has a Looper running). 560 * 561 */ 562public class MediaPlayer extends PlayerBase 563 implements SubtitleController.Listener 564{ 565 /** 566 Constant to retrieve only the new metadata since the last 567 call. 568 // FIXME: unhide. 569 // FIXME: add link to getMetadata(boolean, boolean) 570 {@hide} 571 */ 572 public static final boolean METADATA_UPDATE_ONLY = true; 573 574 /** 575 Constant to retrieve all the metadata. 576 // FIXME: unhide. 577 // FIXME: add link to getMetadata(boolean, boolean) 578 {@hide} 579 */ 580 public static final boolean METADATA_ALL = false; 581 582 /** 583 Constant to enable the metadata filter during retrieval. 584 // FIXME: unhide. 585 // FIXME: add link to getMetadata(boolean, boolean) 586 {@hide} 587 */ 588 public static final boolean APPLY_METADATA_FILTER = true; 589 590 /** 591 Constant to disable the metadata filter during retrieval. 592 // FIXME: unhide. 593 // FIXME: add link to getMetadata(boolean, boolean) 594 {@hide} 595 */ 596 public static final boolean BYPASS_METADATA_FILTER = false; 597 598 static { 599 System.loadLibrary("media_jni"); 600 native_init(); 601 } 602 603 private final static String TAG = "MediaPlayer"; 604 // Name of the remote interface for the media player. Must be kept 605 // in sync with the 2nd parameter of the IMPLEMENT_META_INTERFACE 606 // macro invocation in IMediaPlayer.cpp 607 private final static String IMEDIA_PLAYER = "android.media.IMediaPlayer"; 608 609 private long mNativeContext; // accessed by native methods 610 private long mNativeSurfaceTexture; // accessed by native methods 611 private int mListenerContext; // accessed by native methods 612 private SurfaceHolder mSurfaceHolder; 613 private EventHandler mEventHandler; 614 private PowerManager.WakeLock mWakeLock = null; 615 private boolean mScreenOnWhilePlaying; 616 private boolean mStayAwake; 617 private int mStreamType = AudioManager.USE_DEFAULT_STREAM_TYPE; 618 private int mUsage = -1; 619 private boolean mBypassInterruptionPolicy; 620 621 /** 622 * Default constructor. Consider using one of the create() methods for 623 * synchronously instantiating a MediaPlayer from a Uri or resource. 624 * <p>When done with the MediaPlayer, you should call {@link #release()}, 625 * to free the resources. If not released, too many MediaPlayer instances may 626 * result in an exception.</p> 627 */ 628 public MediaPlayer() { 629 super(new AudioAttributes.Builder().build(), 630 AudioPlaybackConfiguration.PLAYER_TYPE_JAM_MEDIAPLAYER); 631 632 Looper looper; 633 if ((looper = Looper.myLooper()) != null) { 634 mEventHandler = new EventHandler(this, looper); 635 } else if ((looper = Looper.getMainLooper()) != null) { 636 mEventHandler = new EventHandler(this, looper); 637 } else { 638 mEventHandler = null; 639 } 640 641 mTimeProvider = new TimeProvider(this); 642 mOpenSubtitleSources = new Vector<InputStream>(); 643 644 /* Native setup requires a weak reference to our object. 645 * It's easier to create it here than in C++. 646 */ 647 native_setup(new WeakReference<MediaPlayer>(this)); 648 } 649 650 /* 651 * Update the MediaPlayer SurfaceTexture. 652 * Call after setting a new display surface. 653 */ 654 private native void _setVideoSurface(Surface surface); 655 656 /* Do not change these values (starting with INVOKE_ID) without updating 657 * their counterparts in include/media/mediaplayer.h! 658 */ 659 private static final int INVOKE_ID_GET_TRACK_INFO = 1; 660 private static final int INVOKE_ID_ADD_EXTERNAL_SOURCE = 2; 661 private static final int INVOKE_ID_ADD_EXTERNAL_SOURCE_FD = 3; 662 private static final int INVOKE_ID_SELECT_TRACK = 4; 663 private static final int INVOKE_ID_DESELECT_TRACK = 5; 664 private static final int INVOKE_ID_SET_VIDEO_SCALE_MODE = 6; 665 private static final int INVOKE_ID_GET_SELECTED_TRACK = 7; 666 667 /** 668 * Create a request parcel which can be routed to the native media 669 * player using {@link #invoke(Parcel, Parcel)}. The Parcel 670 * returned has the proper InterfaceToken set. The caller should 671 * not overwrite that token, i.e it can only append data to the 672 * Parcel. 673 * 674 * @return A parcel suitable to hold a request for the native 675 * player. 676 * {@hide} 677 */ 678 public Parcel newRequest() { 679 Parcel parcel = Parcel.obtain(); 680 parcel.writeInterfaceToken(IMEDIA_PLAYER); 681 return parcel; 682 } 683 684 /** 685 * Invoke a generic method on the native player using opaque 686 * parcels for the request and reply. Both payloads' format is a 687 * convention between the java caller and the native player. 688 * Must be called after setDataSource to make sure a native player 689 * exists. On failure, a RuntimeException is thrown. 690 * 691 * @param request Parcel with the data for the extension. The 692 * caller must use {@link #newRequest()} to get one. 693 * 694 * @param reply Output parcel with the data returned by the 695 * native player. 696 * {@hide} 697 */ 698 public void invoke(Parcel request, Parcel reply) { 699 int retcode = native_invoke(request, reply); 700 reply.setDataPosition(0); 701 if (retcode != 0) { 702 throw new RuntimeException("failure code: " + retcode); 703 } 704 } 705 706 /** 707 * Sets the {@link SurfaceHolder} to use for displaying the video 708 * portion of the media. 709 * 710 * Either a surface holder or surface must be set if a display or video sink 711 * is needed. Not calling this method or {@link #setSurface(Surface)} 712 * when playing back a video will result in only the audio track being played. 713 * A null surface holder or surface will result in only the audio track being 714 * played. 715 * 716 * @param sh the SurfaceHolder to use for video display 717 * @throws IllegalStateException if the internal player engine has not been 718 * initialized or has been released. 719 */ 720 public void setDisplay(SurfaceHolder sh) { 721 mSurfaceHolder = sh; 722 Surface surface; 723 if (sh != null) { 724 surface = sh.getSurface(); 725 } else { 726 surface = null; 727 } 728 _setVideoSurface(surface); 729 updateSurfaceScreenOn(); 730 } 731 732 /** 733 * Sets the {@link Surface} to be used as the sink for the video portion of 734 * the media. This is similar to {@link #setDisplay(SurfaceHolder)}, but 735 * does not support {@link #setScreenOnWhilePlaying(boolean)}. Setting a 736 * Surface will un-set any Surface or SurfaceHolder that was previously set. 737 * A null surface will result in only the audio track being played. 738 * 739 * If the Surface sends frames to a {@link SurfaceTexture}, the timestamps 740 * returned from {@link SurfaceTexture#getTimestamp()} will have an 741 * unspecified zero point. These timestamps cannot be directly compared 742 * between different media sources, different instances of the same media 743 * source, or multiple runs of the same program. The timestamp is normally 744 * monotonically increasing and is unaffected by time-of-day adjustments, 745 * but it is reset when the position is set. 746 * 747 * @param surface The {@link Surface} to be used for the video portion of 748 * the media. 749 * @throws IllegalStateException if the internal player engine has not been 750 * initialized or has been released. 751 */ 752 public void setSurface(Surface surface) { 753 if (mScreenOnWhilePlaying && surface != null) { 754 Log.w(TAG, "setScreenOnWhilePlaying(true) is ineffective for Surface"); 755 } 756 mSurfaceHolder = null; 757 _setVideoSurface(surface); 758 updateSurfaceScreenOn(); 759 } 760 761 /* Do not change these video scaling mode values below without updating 762 * their counterparts in system/window.h! Please do not forget to update 763 * {@link #isVideoScalingModeSupported} when new video scaling modes 764 * are added. 765 */ 766 /** 767 * Specifies a video scaling mode. The content is stretched to the 768 * surface rendering area. When the surface has the same aspect ratio 769 * as the content, the aspect ratio of the content is maintained; 770 * otherwise, the aspect ratio of the content is not maintained when video 771 * is being rendered. Unlike {@link #VIDEO_SCALING_MODE_SCALE_TO_FIT_WITH_CROPPING}, 772 * there is no content cropping with this video scaling mode. 773 */ 774 public static final int VIDEO_SCALING_MODE_SCALE_TO_FIT = 1; 775 776 /** 777 * Specifies a video scaling mode. The content is scaled, maintaining 778 * its aspect ratio. The whole surface area is always used. When the 779 * aspect ratio of the content is the same as the surface, no content 780 * is cropped; otherwise, content is cropped to fit the surface. 781 */ 782 public static final int VIDEO_SCALING_MODE_SCALE_TO_FIT_WITH_CROPPING = 2; 783 /** 784 * Sets video scaling mode. To make the target video scaling mode 785 * effective during playback, this method must be called after 786 * data source is set. If not called, the default video 787 * scaling mode is {@link #VIDEO_SCALING_MODE_SCALE_TO_FIT}. 788 * 789 * <p> The supported video scaling modes are: 790 * <ul> 791 * <li> {@link #VIDEO_SCALING_MODE_SCALE_TO_FIT} 792 * <li> {@link #VIDEO_SCALING_MODE_SCALE_TO_FIT_WITH_CROPPING} 793 * </ul> 794 * 795 * @param mode target video scaling mode. Must be one of the supported 796 * video scaling modes; otherwise, IllegalArgumentException will be thrown. 797 * 798 * @see MediaPlayer#VIDEO_SCALING_MODE_SCALE_TO_FIT 799 * @see MediaPlayer#VIDEO_SCALING_MODE_SCALE_TO_FIT_WITH_CROPPING 800 */ 801 public void setVideoScalingMode(int mode) { 802 if (!isVideoScalingModeSupported(mode)) { 803 final String msg = "Scaling mode " + mode + " is not supported"; 804 throw new IllegalArgumentException(msg); 805 } 806 Parcel request = Parcel.obtain(); 807 Parcel reply = Parcel.obtain(); 808 try { 809 request.writeInterfaceToken(IMEDIA_PLAYER); 810 request.writeInt(INVOKE_ID_SET_VIDEO_SCALE_MODE); 811 request.writeInt(mode); 812 invoke(request, reply); 813 } finally { 814 request.recycle(); 815 reply.recycle(); 816 } 817 } 818 819 /** 820 * Convenience method to create a MediaPlayer for a given Uri. 821 * On success, {@link #prepare()} will already have been called and must not be called again. 822 * <p>When done with the MediaPlayer, you should call {@link #release()}, 823 * to free the resources. If not released, too many MediaPlayer instances will 824 * result in an exception.</p> 825 * <p>Note that since {@link #prepare()} is called automatically in this method, 826 * you cannot change the audio 827 * session ID (see {@link #setAudioSessionId(int)}) or audio attributes 828 * (see {@link #setAudioAttributes(AudioAttributes)} of the new MediaPlayer.</p> 829 * 830 * @param context the Context to use 831 * @param uri the Uri from which to get the datasource 832 * @return a MediaPlayer object, or null if creation failed 833 */ 834 public static MediaPlayer create(Context context, Uri uri) { 835 return create (context, uri, null); 836 } 837 838 /** 839 * Convenience method to create a MediaPlayer for a given Uri. 840 * On success, {@link #prepare()} will already have been called and must not be called again. 841 * <p>When done with the MediaPlayer, you should call {@link #release()}, 842 * to free the resources. If not released, too many MediaPlayer instances will 843 * result in an exception.</p> 844 * <p>Note that since {@link #prepare()} is called automatically in this method, 845 * you cannot change the audio 846 * session ID (see {@link #setAudioSessionId(int)}) or audio attributes 847 * (see {@link #setAudioAttributes(AudioAttributes)} of the new MediaPlayer.</p> 848 * 849 * @param context the Context to use 850 * @param uri the Uri from which to get the datasource 851 * @param holder the SurfaceHolder to use for displaying the video 852 * @return a MediaPlayer object, or null if creation failed 853 */ 854 public static MediaPlayer create(Context context, Uri uri, SurfaceHolder holder) { 855 int s = AudioSystem.newAudioSessionId(); 856 return create(context, uri, holder, null, s > 0 ? s : 0); 857 } 858 859 /** 860 * Same factory method as {@link #create(Context, Uri, SurfaceHolder)} but that lets you specify 861 * the audio attributes and session ID to be used by the new MediaPlayer instance. 862 * @param context the Context to use 863 * @param uri the Uri from which to get the datasource 864 * @param holder the SurfaceHolder to use for displaying the video, may be null. 865 * @param audioAttributes the {@link AudioAttributes} to be used by the media player. 866 * @param audioSessionId the audio session ID to be used by the media player, 867 * see {@link AudioManager#generateAudioSessionId()} to obtain a new session. 868 * @return a MediaPlayer object, or null if creation failed 869 */ 870 public static MediaPlayer create(Context context, Uri uri, SurfaceHolder holder, 871 AudioAttributes audioAttributes, int audioSessionId) { 872 873 try { 874 MediaPlayer mp = new MediaPlayer(); 875 final AudioAttributes aa = audioAttributes != null ? audioAttributes : 876 new AudioAttributes.Builder().build(); 877 mp.setAudioAttributes(aa); 878 mp.setAudioSessionId(audioSessionId); 879 mp.setDataSource(context, uri); 880 if (holder != null) { 881 mp.setDisplay(holder); 882 } 883 mp.prepare(); 884 return mp; 885 } catch (IOException ex) { 886 Log.d(TAG, "create failed:", ex); 887 // fall through 888 } catch (IllegalArgumentException ex) { 889 Log.d(TAG, "create failed:", ex); 890 // fall through 891 } catch (SecurityException ex) { 892 Log.d(TAG, "create failed:", ex); 893 // fall through 894 } 895 896 return null; 897 } 898 899 // Note no convenience method to create a MediaPlayer with SurfaceTexture sink. 900 901 /** 902 * Convenience method to create a MediaPlayer for a given resource id. 903 * On success, {@link #prepare()} will already have been called and must not be called again. 904 * <p>When done with the MediaPlayer, you should call {@link #release()}, 905 * to free the resources. If not released, too many MediaPlayer instances will 906 * result in an exception.</p> 907 * <p>Note that since {@link #prepare()} is called automatically in this method, 908 * you cannot change the audio 909 * session ID (see {@link #setAudioSessionId(int)}) or audio attributes 910 * (see {@link #setAudioAttributes(AudioAttributes)} of the new MediaPlayer.</p> 911 * 912 * @param context the Context to use 913 * @param resid the raw resource id (<var>R.raw.<something></var>) for 914 * the resource to use as the datasource 915 * @return a MediaPlayer object, or null if creation failed 916 */ 917 public static MediaPlayer create(Context context, int resid) { 918 int s = AudioSystem.newAudioSessionId(); 919 return create(context, resid, null, s > 0 ? s : 0); 920 } 921 922 /** 923 * Same factory method as {@link #create(Context, int)} but that lets you specify the audio 924 * attributes and session ID to be used by the new MediaPlayer instance. 925 * @param context the Context to use 926 * @param resid the raw resource id (<var>R.raw.<something></var>) for 927 * the resource to use as the datasource 928 * @param audioAttributes the {@link AudioAttributes} to be used by the media player. 929 * @param audioSessionId the audio session ID to be used by the media player, 930 * see {@link AudioManager#generateAudioSessionId()} to obtain a new session. 931 * @return a MediaPlayer object, or null if creation failed 932 */ 933 public static MediaPlayer create(Context context, int resid, 934 AudioAttributes audioAttributes, int audioSessionId) { 935 try { 936 AssetFileDescriptor afd = context.getResources().openRawResourceFd(resid); 937 if (afd == null) return null; 938 939 MediaPlayer mp = new MediaPlayer(); 940 941 final AudioAttributes aa = audioAttributes != null ? audioAttributes : 942 new AudioAttributes.Builder().build(); 943 mp.setAudioAttributes(aa); 944 mp.setAudioSessionId(audioSessionId); 945 946 mp.setDataSource(afd.getFileDescriptor(), afd.getStartOffset(), afd.getLength()); 947 afd.close(); 948 mp.prepare(); 949 return mp; 950 } catch (IOException ex) { 951 Log.d(TAG, "create failed:", ex); 952 // fall through 953 } catch (IllegalArgumentException ex) { 954 Log.d(TAG, "create failed:", ex); 955 // fall through 956 } catch (SecurityException ex) { 957 Log.d(TAG, "create failed:", ex); 958 // fall through 959 } 960 return null; 961 } 962 963 /** 964 * Sets the data source as a content Uri. 965 * 966 * @param context the Context to use when resolving the Uri 967 * @param uri the Content URI of the data you want to play 968 * @throws IllegalStateException if it is called in an invalid state 969 */ 970 public void setDataSource(@NonNull Context context, @NonNull Uri uri) 971 throws IOException, IllegalArgumentException, SecurityException, IllegalStateException { 972 setDataSource(context, uri, null); 973 } 974 975 /** 976 * Sets the data source as a content Uri. 977 * 978 * @param context the Context to use when resolving the Uri 979 * @param uri the Content URI of the data you want to play 980 * @param headers the headers to be sent together with the request for the data 981 * Note that the cross domain redirection is allowed by default, but that can be 982 * changed with key/value pairs through the headers parameter with 983 * "android-allow-cross-domain-redirect" as the key and "0" or "1" as the value 984 * to disallow or allow cross domain redirection. 985 * @throws IllegalStateException if it is called in an invalid state 986 */ 987 public void setDataSource(@NonNull Context context, @NonNull Uri uri, 988 @Nullable Map<String, String> headers) throws IOException, IllegalArgumentException, 989 SecurityException, IllegalStateException { 990 // The context and URI usually belong to the calling user. Get a resolver for that user 991 // and strip out the userId from the URI if present. 992 final ContentResolver resolver = context.getContentResolver(); 993 final String scheme = uri.getScheme(); 994 final String authority = ContentProvider.getAuthorityWithoutUserId(uri.getAuthority()); 995 if (ContentResolver.SCHEME_FILE.equals(scheme)) { 996 setDataSource(uri.getPath()); 997 return; 998 } else if (ContentResolver.SCHEME_CONTENT.equals(scheme) 999 && Settings.AUTHORITY.equals(authority)) { 1000 // Try cached ringtone first since the actual provider may not be 1001 // encryption aware, or it may be stored on CE media storage 1002 final int type = RingtoneManager.getDefaultType(uri); 1003 final Uri cacheUri = RingtoneManager.getCacheForType(type, context.getUserId()); 1004 final Uri actualUri = RingtoneManager.getActualDefaultRingtoneUri(context, type); 1005 if (attemptDataSource(resolver, cacheUri)) { 1006 return; 1007 } else if (attemptDataSource(resolver, actualUri)) { 1008 return; 1009 } else { 1010 setDataSource(uri.toString(), headers); 1011 } 1012 } else { 1013 // Try requested Uri locally first, or fallback to media server 1014 if (attemptDataSource(resolver, uri)) { 1015 return; 1016 } else { 1017 setDataSource(uri.toString(), headers); 1018 } 1019 } 1020 } 1021 1022 private boolean attemptDataSource(ContentResolver resolver, Uri uri) { 1023 try (AssetFileDescriptor afd = resolver.openAssetFileDescriptor(uri, "r")) { 1024 setDataSource(afd); 1025 return true; 1026 } catch (NullPointerException | SecurityException | IOException ex) { 1027 Log.w(TAG, "Couldn't open " + uri + ": " + ex); 1028 return false; 1029 } 1030 } 1031 1032 /** 1033 * Sets the data source (file-path or http/rtsp URL) to use. 1034 * 1035 * @param path the path of the file, or the http/rtsp URL of the stream you want to play 1036 * @throws IllegalStateException if it is called in an invalid state 1037 * 1038 * <p>When <code>path</code> refers to a local file, the file may actually be opened by a 1039 * process other than the calling application. This implies that the pathname 1040 * should be an absolute path (as any other process runs with unspecified current working 1041 * directory), and that the pathname should reference a world-readable file. 1042 * As an alternative, the application could first open the file for reading, 1043 * and then use the file descriptor form {@link #setDataSource(FileDescriptor)}. 1044 */ 1045 public void setDataSource(String path) 1046 throws IOException, IllegalArgumentException, SecurityException, IllegalStateException { 1047 setDataSource(path, null, null); 1048 } 1049 1050 /** 1051 * Sets the data source (file-path or http/rtsp URL) to use. 1052 * 1053 * @param path the path of the file, or the http/rtsp URL of the stream you want to play 1054 * @param headers the headers associated with the http request for the stream you want to play 1055 * @throws IllegalStateException if it is called in an invalid state 1056 * @hide pending API council 1057 */ 1058 public void setDataSource(String path, Map<String, String> headers) 1059 throws IOException, IllegalArgumentException, SecurityException, IllegalStateException 1060 { 1061 String[] keys = null; 1062 String[] values = null; 1063 1064 if (headers != null) { 1065 keys = new String[headers.size()]; 1066 values = new String[headers.size()]; 1067 1068 int i = 0; 1069 for (Map.Entry<String, String> entry: headers.entrySet()) { 1070 keys[i] = entry.getKey(); 1071 values[i] = entry.getValue(); 1072 ++i; 1073 } 1074 } 1075 setDataSource(path, keys, values); 1076 } 1077 1078 private void setDataSource(String path, String[] keys, String[] values) 1079 throws IOException, IllegalArgumentException, SecurityException, IllegalStateException { 1080 final Uri uri = Uri.parse(path); 1081 final String scheme = uri.getScheme(); 1082 if ("file".equals(scheme)) { 1083 path = uri.getPath(); 1084 } else if (scheme != null) { 1085 // handle non-file sources 1086 nativeSetDataSource( 1087 MediaHTTPService.createHttpServiceBinderIfNecessary(path), 1088 path, 1089 keys, 1090 values); 1091 return; 1092 } 1093 1094 final File file = new File(path); 1095 if (file.exists()) { 1096 FileInputStream is = new FileInputStream(file); 1097 FileDescriptor fd = is.getFD(); 1098 setDataSource(fd); 1099 is.close(); 1100 } else { 1101 throw new IOException("setDataSource failed."); 1102 } 1103 } 1104 1105 private native void nativeSetDataSource( 1106 IBinder httpServiceBinder, String path, String[] keys, String[] values) 1107 throws IOException, IllegalArgumentException, SecurityException, IllegalStateException; 1108 1109 /** 1110 * Sets the data source (AssetFileDescriptor) to use. It is the caller's 1111 * responsibility to close the file descriptor. It is safe to do so as soon 1112 * as this call returns. 1113 * 1114 * @param afd the AssetFileDescriptor for the file you want to play 1115 * @throws IllegalStateException if it is called in an invalid state 1116 * @throws IllegalArgumentException if afd is not a valid AssetFileDescriptor 1117 * @throws IOException if afd can not be read 1118 */ 1119 public void setDataSource(@NonNull AssetFileDescriptor afd) 1120 throws IOException, IllegalArgumentException, IllegalStateException { 1121 Preconditions.checkNotNull(afd); 1122 // Note: using getDeclaredLength so that our behavior is the same 1123 // as previous versions when the content provider is returning 1124 // a full file. 1125 if (afd.getDeclaredLength() < 0) { 1126 setDataSource(afd.getFileDescriptor()); 1127 } else { 1128 setDataSource(afd.getFileDescriptor(), afd.getStartOffset(), afd.getDeclaredLength()); 1129 } 1130 } 1131 1132 /** 1133 * Sets the data source (FileDescriptor) to use. It is the caller's responsibility 1134 * to close the file descriptor. It is safe to do so as soon as this call returns. 1135 * 1136 * @param fd the FileDescriptor for the file you want to play 1137 * @throws IllegalStateException if it is called in an invalid state 1138 * @throws IllegalArgumentException if fd is not a valid FileDescriptor 1139 * @throws IOException if fd can not be read 1140 */ 1141 public void setDataSource(FileDescriptor fd) 1142 throws IOException, IllegalArgumentException, IllegalStateException { 1143 // intentionally less than LONG_MAX 1144 setDataSource(fd, 0, 0x7ffffffffffffffL); 1145 } 1146 1147 /** 1148 * Sets the data source (FileDescriptor) to use. The FileDescriptor must be 1149 * seekable (N.B. a LocalSocket is not seekable). It is the caller's responsibility 1150 * to close the file descriptor. It is safe to do so as soon as this call returns. 1151 * 1152 * @param fd the FileDescriptor for the file you want to play 1153 * @param offset the offset into the file where the data to be played starts, in bytes 1154 * @param length the length in bytes of the data to be played 1155 * @throws IllegalStateException if it is called in an invalid state 1156 * @throws IllegalArgumentException if fd is not a valid FileDescriptor 1157 * @throws IOException if fd can not be read 1158 */ 1159 public void setDataSource(FileDescriptor fd, long offset, long length) 1160 throws IOException, IllegalArgumentException, IllegalStateException { 1161 _setDataSource(fd, offset, length); 1162 } 1163 1164 private native void _setDataSource(FileDescriptor fd, long offset, long length) 1165 throws IOException, IllegalArgumentException, IllegalStateException; 1166 1167 /** 1168 * Sets the data source (MediaDataSource) to use. 1169 * 1170 * @param dataSource the MediaDataSource for the media you want to play 1171 * @throws IllegalStateException if it is called in an invalid state 1172 * @throws IllegalArgumentException if dataSource is not a valid MediaDataSource 1173 */ 1174 public void setDataSource(MediaDataSource dataSource) 1175 throws IllegalArgumentException, IllegalStateException { 1176 _setDataSource(dataSource); 1177 } 1178 1179 private native void _setDataSource(MediaDataSource dataSource) 1180 throws IllegalArgumentException, IllegalStateException; 1181 1182 /** 1183 * Prepares the player for playback, synchronously. 1184 * 1185 * After setting the datasource and the display surface, you need to either 1186 * call prepare() or prepareAsync(). For files, it is OK to call prepare(), 1187 * which blocks until MediaPlayer is ready for playback. 1188 * 1189 * @throws IllegalStateException if it is called in an invalid state 1190 */ 1191 public void prepare() throws IOException, IllegalStateException { 1192 _prepare(); 1193 scanInternalSubtitleTracks(); 1194 } 1195 1196 private native void _prepare() throws IOException, IllegalStateException; 1197 1198 /** 1199 * Prepares the player for playback, asynchronously. 1200 * 1201 * After setting the datasource and the display surface, you need to either 1202 * call prepare() or prepareAsync(). For streams, you should call prepareAsync(), 1203 * which returns immediately, rather than blocking until enough data has been 1204 * buffered. 1205 * 1206 * @throws IllegalStateException if it is called in an invalid state 1207 */ 1208 public native void prepareAsync() throws IllegalStateException; 1209 1210 /** 1211 * Starts or resumes playback. If playback had previously been paused, 1212 * playback will continue from where it was paused. If playback had 1213 * been stopped, or never started before, playback will start at the 1214 * beginning. 1215 * 1216 * @throws IllegalStateException if it is called in an invalid state 1217 */ 1218 public void start() throws IllegalStateException { 1219 baseStart(); 1220 stayAwake(true); 1221 _start(); 1222 } 1223 1224 private native void _start() throws IllegalStateException; 1225 1226 1227 private int getAudioStreamType() { 1228 if (mStreamType == AudioManager.USE_DEFAULT_STREAM_TYPE) { 1229 mStreamType = _getAudioStreamType(); 1230 } 1231 return mStreamType; 1232 } 1233 1234 private native int _getAudioStreamType() throws IllegalStateException; 1235 1236 /** 1237 * Stops playback after playback has been stopped or paused. 1238 * 1239 * @throws IllegalStateException if the internal player engine has not been 1240 * initialized. 1241 */ 1242 public void stop() throws IllegalStateException { 1243 stayAwake(false); 1244 _stop(); 1245 baseStop(); 1246 } 1247 1248 private native void _stop() throws IllegalStateException; 1249 1250 /** 1251 * Pauses playback. Call start() to resume. 1252 * 1253 * @throws IllegalStateException if the internal player engine has not been 1254 * initialized. 1255 */ 1256 public void pause() throws IllegalStateException { 1257 stayAwake(false); 1258 _pause(); 1259 basePause(); 1260 } 1261 1262 private native void _pause() throws IllegalStateException; 1263 1264 /** 1265 * Set the low-level power management behavior for this MediaPlayer. This 1266 * can be used when the MediaPlayer is not playing through a SurfaceHolder 1267 * set with {@link #setDisplay(SurfaceHolder)} and thus can use the 1268 * high-level {@link #setScreenOnWhilePlaying(boolean)} feature. 1269 * 1270 * <p>This function has the MediaPlayer access the low-level power manager 1271 * service to control the device's power usage while playing is occurring. 1272 * The parameter is a combination of {@link android.os.PowerManager} wake flags. 1273 * Use of this method requires {@link android.Manifest.permission#WAKE_LOCK} 1274 * permission. 1275 * By default, no attempt is made to keep the device awake during playback. 1276 * 1277 * @param context the Context to use 1278 * @param mode the power/wake mode to set 1279 * @see android.os.PowerManager 1280 */ 1281 public void setWakeMode(Context context, int mode) { 1282 boolean washeld = false; 1283 1284 /* Disable persistant wakelocks in media player based on property */ 1285 if (SystemProperties.getBoolean("audio.offload.ignore_setawake", false) == true) { 1286 Log.w(TAG, "IGNORING setWakeMode " + mode); 1287 return; 1288 } 1289 1290 if (mWakeLock != null) { 1291 if (mWakeLock.isHeld()) { 1292 washeld = true; 1293 mWakeLock.release(); 1294 } 1295 mWakeLock = null; 1296 } 1297 1298 PowerManager pm = (PowerManager)context.getSystemService(Context.POWER_SERVICE); 1299 mWakeLock = pm.newWakeLock(mode|PowerManager.ON_AFTER_RELEASE, MediaPlayer.class.getName()); 1300 mWakeLock.setReferenceCounted(false); 1301 if (washeld) { 1302 mWakeLock.acquire(); 1303 } 1304 } 1305 1306 /** 1307 * Control whether we should use the attached SurfaceHolder to keep the 1308 * screen on while video playback is occurring. This is the preferred 1309 * method over {@link #setWakeMode} where possible, since it doesn't 1310 * require that the application have permission for low-level wake lock 1311 * access. 1312 * 1313 * @param screenOn Supply true to keep the screen on, false to allow it 1314 * to turn off. 1315 */ 1316 public void setScreenOnWhilePlaying(boolean screenOn) { 1317 if (mScreenOnWhilePlaying != screenOn) { 1318 if (screenOn && mSurfaceHolder == null) { 1319 Log.w(TAG, "setScreenOnWhilePlaying(true) is ineffective without a SurfaceHolder"); 1320 } 1321 mScreenOnWhilePlaying = screenOn; 1322 updateSurfaceScreenOn(); 1323 } 1324 } 1325 1326 private void stayAwake(boolean awake) { 1327 if (mWakeLock != null) { 1328 if (awake && !mWakeLock.isHeld()) { 1329 mWakeLock.acquire(); 1330 } else if (!awake && mWakeLock.isHeld()) { 1331 mWakeLock.release(); 1332 } 1333 } 1334 mStayAwake = awake; 1335 updateSurfaceScreenOn(); 1336 } 1337 1338 private void updateSurfaceScreenOn() { 1339 if (mSurfaceHolder != null) { 1340 mSurfaceHolder.setKeepScreenOn(mScreenOnWhilePlaying && mStayAwake); 1341 } 1342 } 1343 1344 /** 1345 * Returns the width of the video. 1346 * 1347 * @return the width of the video, or 0 if there is no video, 1348 * no display surface was set, or the width has not been determined 1349 * yet. The OnVideoSizeChangedListener can be registered via 1350 * {@link #setOnVideoSizeChangedListener(OnVideoSizeChangedListener)} 1351 * to provide a notification when the width is available. 1352 */ 1353 public native int getVideoWidth(); 1354 1355 /** 1356 * Returns the height of the video. 1357 * 1358 * @return the height of the video, or 0 if there is no video, 1359 * no display surface was set, or the height has not been determined 1360 * yet. The OnVideoSizeChangedListener can be registered via 1361 * {@link #setOnVideoSizeChangedListener(OnVideoSizeChangedListener)} 1362 * to provide a notification when the height is available. 1363 */ 1364 public native int getVideoHeight(); 1365 1366 /** 1367 * Checks whether the MediaPlayer is playing. 1368 * 1369 * @return true if currently playing, false otherwise 1370 * @throws IllegalStateException if the internal player engine has not been 1371 * initialized or has been released. 1372 */ 1373 public native boolean isPlaying(); 1374 1375 /** 1376 * Change playback speed of audio by resampling the audio. 1377 * <p> 1378 * Specifies resampling as audio mode for variable rate playback, i.e., 1379 * resample the waveform based on the requested playback rate to get 1380 * a new waveform, and play back the new waveform at the original sampling 1381 * frequency. 1382 * When rate is larger than 1.0, pitch becomes higher. 1383 * When rate is smaller than 1.0, pitch becomes lower. 1384 * 1385 * @hide 1386 */ 1387 public static final int PLAYBACK_RATE_AUDIO_MODE_RESAMPLE = 2; 1388 1389 /** 1390 * Change playback speed of audio without changing its pitch. 1391 * <p> 1392 * Specifies time stretching as audio mode for variable rate playback. 1393 * Time stretching changes the duration of the audio samples without 1394 * affecting its pitch. 1395 * <p> 1396 * This mode is only supported for a limited range of playback speed factors, 1397 * e.g. between 1/2x and 2x. 1398 * 1399 * @hide 1400 */ 1401 public static final int PLAYBACK_RATE_AUDIO_MODE_STRETCH = 1; 1402 1403 /** 1404 * Change playback speed of audio without changing its pitch, and 1405 * possibly mute audio if time stretching is not supported for the playback 1406 * speed. 1407 * <p> 1408 * Try to keep audio pitch when changing the playback rate, but allow the 1409 * system to determine how to change audio playback if the rate is out 1410 * of range. 1411 * 1412 * @hide 1413 */ 1414 public static final int PLAYBACK_RATE_AUDIO_MODE_DEFAULT = 0; 1415 1416 /** @hide */ 1417 @IntDef( 1418 value = { 1419 PLAYBACK_RATE_AUDIO_MODE_DEFAULT, 1420 PLAYBACK_RATE_AUDIO_MODE_STRETCH, 1421 PLAYBACK_RATE_AUDIO_MODE_RESAMPLE, 1422 }) 1423 @Retention(RetentionPolicy.SOURCE) 1424 public @interface PlaybackRateAudioMode {} 1425 1426 /** 1427 * Sets playback rate and audio mode. 1428 * 1429 * @param rate the ratio between desired playback rate and normal one. 1430 * @param audioMode audio playback mode. Must be one of the supported 1431 * audio modes. 1432 * 1433 * @throws IllegalStateException if the internal player engine has not been 1434 * initialized. 1435 * @throws IllegalArgumentException if audioMode is not supported. 1436 * 1437 * @hide 1438 */ 1439 @NonNull 1440 public PlaybackParams easyPlaybackParams(float rate, @PlaybackRateAudioMode int audioMode) { 1441 PlaybackParams params = new PlaybackParams(); 1442 params.allowDefaults(); 1443 switch (audioMode) { 1444 case PLAYBACK_RATE_AUDIO_MODE_DEFAULT: 1445 params.setSpeed(rate).setPitch(1.0f); 1446 break; 1447 case PLAYBACK_RATE_AUDIO_MODE_STRETCH: 1448 params.setSpeed(rate).setPitch(1.0f) 1449 .setAudioFallbackMode(params.AUDIO_FALLBACK_MODE_FAIL); 1450 break; 1451 case PLAYBACK_RATE_AUDIO_MODE_RESAMPLE: 1452 params.setSpeed(rate).setPitch(rate); 1453 break; 1454 default: 1455 final String msg = "Audio playback mode " + audioMode + " is not supported"; 1456 throw new IllegalArgumentException(msg); 1457 } 1458 return params; 1459 } 1460 1461 /** 1462 * Sets playback rate using {@link PlaybackParams}. The object sets its internal 1463 * PlaybackParams to the input, except that the object remembers previous speed 1464 * when input speed is zero. This allows the object to resume at previous speed 1465 * when start() is called. Calling it before the object is prepared does not change 1466 * the object state. After the object is prepared, calling it with zero speed is 1467 * equivalent to calling pause(). After the object is prepared, calling it with 1468 * non-zero speed is equivalent to calling start(). 1469 * 1470 * @param params the playback params. 1471 * 1472 * @throws IllegalStateException if the internal player engine has not been 1473 * initialized or has been released. 1474 * @throws IllegalArgumentException if params is not supported. 1475 */ 1476 public native void setPlaybackParams(@NonNull PlaybackParams params); 1477 1478 /** 1479 * Gets the playback params, containing the current playback rate. 1480 * 1481 * @return the playback params. 1482 * @throws IllegalStateException if the internal player engine has not been 1483 * initialized. 1484 */ 1485 @NonNull 1486 public native PlaybackParams getPlaybackParams(); 1487 1488 /** 1489 * Sets A/V sync mode. 1490 * 1491 * @param params the A/V sync params to apply 1492 * 1493 * @throws IllegalStateException if the internal player engine has not been 1494 * initialized. 1495 * @throws IllegalArgumentException if params are not supported. 1496 */ 1497 public native void setSyncParams(@NonNull SyncParams params); 1498 1499 /** 1500 * Gets the A/V sync mode. 1501 * 1502 * @return the A/V sync params 1503 * 1504 * @throws IllegalStateException if the internal player engine has not been 1505 * initialized. 1506 */ 1507 @NonNull 1508 public native SyncParams getSyncParams(); 1509 1510 /** 1511 * Seek modes used in method seekTo(int, int) to move media position 1512 * to a specified location. 1513 * 1514 * Do not change these mode values without updating their counterparts 1515 * in include/media/IMediaSource.h! 1516 */ 1517 /** 1518 * This mode is used with {@link #seekTo(int, int)} to move media position to 1519 * a sync (or key) frame associated with a data source that is located 1520 * right before or at the given time. 1521 * 1522 * @see #seekTo(int, int) 1523 */ 1524 public static final int SEEK_PREVIOUS_SYNC = 0x00; 1525 /** 1526 * This mode is used with {@link #seekTo(int, int)} to move media position to 1527 * a sync (or key) frame associated with a data source that is located 1528 * right after or at the given time. 1529 * 1530 * @see #seekTo(int, int) 1531 */ 1532 public static final int SEEK_NEXT_SYNC = 0x01; 1533 /** 1534 * This mode is used with {@link #seekTo(int, int)} to move media position to 1535 * a sync (or key) frame associated with a data source that is located 1536 * closest to (in time) or at the given time. 1537 * 1538 * @see #seekTo(int, int) 1539 */ 1540 public static final int SEEK_CLOSEST_SYNC = 0x02; 1541 /** 1542 * This mode is used with {@link #seekTo(int, int)} to move media position to 1543 * a frame (not necessarily a key frame) associated with a data source that 1544 * is located closest to or at the given time. 1545 * 1546 * @see #seekTo(int, int) 1547 */ 1548 public static final int SEEK_CLOSEST = 0x03; 1549 1550 /** @hide */ 1551 @IntDef( 1552 value = { 1553 SEEK_PREVIOUS_SYNC, 1554 SEEK_NEXT_SYNC, 1555 SEEK_CLOSEST_SYNC, 1556 SEEK_CLOSEST, 1557 }) 1558 @Retention(RetentionPolicy.SOURCE) 1559 public @interface SeekMode {} 1560 1561 private native final void _seekTo(int msec, int mode); 1562 1563 /** 1564 * Moves the media to specified time position by considering the given mode. 1565 * <p> 1566 * When seekTo is finished, the user will be notified via OnSeekComplete supplied by the user. 1567 * There is at most one active seekTo processed at any time. If there is a to-be-completed 1568 * seekTo, new seekTo requests will be queued in such a way that only the last request 1569 * is kept. When current seekTo is completed, the queued request will be processed if 1570 * that request is different from just-finished seekTo operation, i.e., the requested 1571 * position or mode is different. 1572 * 1573 * @param msec the offset in milliseconds from the start to seek to. 1574 * When seeking to the given time position, there is no guarantee that the data source 1575 * has a frame located at the position. When this happens, a frame nearby will be rendered. 1576 * If msec is negative, time position zero will be used. 1577 * If msec is larger than duration, duration will be used. 1578 * @param mode the mode indicating where exactly to seek to. 1579 * Use {@link #SEEK_PREVIOUS_SYNC} if one wants to seek to a sync frame 1580 * that has a timestamp earlier than or the same as msec. Use 1581 * {@link #SEEK_NEXT_SYNC} if one wants to seek to a sync frame 1582 * that has a timestamp later than or the same as msec. Use 1583 * {@link #SEEK_CLOSEST_SYNC} if one wants to seek to a sync frame 1584 * that has a timestamp closest to or the same as msec. Use 1585 * {@link #SEEK_CLOSEST} if one wants to seek to a frame that may 1586 * or may not be a sync frame but is closest to or the same as msec. 1587 * {@link #SEEK_CLOSEST} often has larger performance overhead compared 1588 * to the other options if there is no sync frame located at msec. 1589 * @throws IllegalStateException if the internal player engine has not been 1590 * initialized 1591 * @throws IllegalArgumentException if the mode is invalid. 1592 */ 1593 public void seekTo(int msec, @SeekMode int mode) throws IllegalStateException { 1594 if (mode < SEEK_PREVIOUS_SYNC || mode > SEEK_CLOSEST) { 1595 final String msg = "Illegal seek mode: " + mode; 1596 throw new IllegalArgumentException(msg); 1597 } 1598 _seekTo(msec, mode); 1599 } 1600 1601 /** 1602 * Seeks to specified time position. 1603 * Same as {@link #seekTo(int, int)} with {@code mode = SEEK_PREVIOUS_SYNC}. 1604 * 1605 * @param msec the offset in milliseconds from the start to seek to 1606 * @throws IllegalStateException if the internal player engine has not been 1607 * initialized 1608 */ 1609 public void seekTo(int msec) throws IllegalStateException { 1610 seekTo(msec, SEEK_PREVIOUS_SYNC /* mode */); 1611 } 1612 1613 /** 1614 * Get current playback position as a {@link MediaTimestamp}. 1615 * <p> 1616 * The MediaTimestamp represents how the media time correlates to the system time in 1617 * a linear fashion using an anchor and a clock rate. During regular playback, the media 1618 * time moves fairly constantly (though the anchor frame may be rebased to a current 1619 * system time, the linear correlation stays steady). Therefore, this method does not 1620 * need to be called often. 1621 * <p> 1622 * To help users get current playback position, this method always anchors the timestamp 1623 * to the current {@link System#nanoTime system time}, so 1624 * {@link MediaTimestamp#getAnchorMediaTimeUs} can be used as current playback position. 1625 * 1626 * @return a MediaTimestamp object if a timestamp is available, or {@code null} if no timestamp 1627 * is available, e.g. because the media player has not been initialized. 1628 * 1629 * @see MediaTimestamp 1630 */ 1631 @Nullable 1632 public MediaTimestamp getTimestamp() 1633 { 1634 try { 1635 // TODO: get the timestamp from native side 1636 return new MediaTimestamp( 1637 getCurrentPosition() * 1000L, 1638 System.nanoTime(), 1639 isPlaying() ? getPlaybackParams().getSpeed() : 0.f); 1640 } catch (IllegalStateException e) { 1641 return null; 1642 } 1643 } 1644 1645 /** 1646 * Gets the current playback position. 1647 * 1648 * @return the current position in milliseconds 1649 */ 1650 public native int getCurrentPosition(); 1651 1652 /** 1653 * Gets the duration of the file. 1654 * 1655 * @return the duration in milliseconds, if no duration is available 1656 * (for example, if streaming live content), -1 is returned. 1657 */ 1658 public native int getDuration(); 1659 1660 /** 1661 * Gets the media metadata. 1662 * 1663 * @param update_only controls whether the full set of available 1664 * metadata is returned or just the set that changed since the 1665 * last call. See {@see #METADATA_UPDATE_ONLY} and {@see 1666 * #METADATA_ALL}. 1667 * 1668 * @param apply_filter if true only metadata that matches the 1669 * filter is returned. See {@see #APPLY_METADATA_FILTER} and {@see 1670 * #BYPASS_METADATA_FILTER}. 1671 * 1672 * @return The metadata, possibly empty. null if an error occured. 1673 // FIXME: unhide. 1674 * {@hide} 1675 */ 1676 public Metadata getMetadata(final boolean update_only, 1677 final boolean apply_filter) { 1678 Parcel reply = Parcel.obtain(); 1679 Metadata data = new Metadata(); 1680 1681 if (!native_getMetadata(update_only, apply_filter, reply)) { 1682 reply.recycle(); 1683 return null; 1684 } 1685 1686 // Metadata takes over the parcel, don't recycle it unless 1687 // there is an error. 1688 if (!data.parse(reply)) { 1689 reply.recycle(); 1690 return null; 1691 } 1692 return data; 1693 } 1694 1695 /** 1696 * Set a filter for the metadata update notification and update 1697 * retrieval. The caller provides 2 set of metadata keys, allowed 1698 * and blocked. The blocked set always takes precedence over the 1699 * allowed one. 1700 * Metadata.MATCH_ALL and Metadata.MATCH_NONE are 2 sets available as 1701 * shorthands to allow/block all or no metadata. 1702 * 1703 * By default, there is no filter set. 1704 * 1705 * @param allow Is the set of metadata the client is interested 1706 * in receiving new notifications for. 1707 * @param block Is the set of metadata the client is not interested 1708 * in receiving new notifications for. 1709 * @return The call status code. 1710 * 1711 // FIXME: unhide. 1712 * {@hide} 1713 */ 1714 public int setMetadataFilter(Set<Integer> allow, Set<Integer> block) { 1715 // Do our serialization manually instead of calling 1716 // Parcel.writeArray since the sets are made of the same type 1717 // we avoid paying the price of calling writeValue (used by 1718 // writeArray) which burns an extra int per element to encode 1719 // the type. 1720 Parcel request = newRequest(); 1721 1722 // The parcel starts already with an interface token. There 1723 // are 2 filters. Each one starts with a 4bytes number to 1724 // store the len followed by a number of int (4 bytes as well) 1725 // representing the metadata type. 1726 int capacity = request.dataSize() + 4 * (1 + allow.size() + 1 + block.size()); 1727 1728 if (request.dataCapacity() < capacity) { 1729 request.setDataCapacity(capacity); 1730 } 1731 1732 request.writeInt(allow.size()); 1733 for(Integer t: allow) { 1734 request.writeInt(t); 1735 } 1736 request.writeInt(block.size()); 1737 for(Integer t: block) { 1738 request.writeInt(t); 1739 } 1740 return native_setMetadataFilter(request); 1741 } 1742 1743 /** 1744 * Set the MediaPlayer to start when this MediaPlayer finishes playback 1745 * (i.e. reaches the end of the stream). 1746 * The media framework will attempt to transition from this player to 1747 * the next as seamlessly as possible. The next player can be set at 1748 * any time before completion, but shall be after setDataSource has been 1749 * called successfully. The next player must be prepared by the 1750 * app, and the application should not call start() on it. 1751 * The next MediaPlayer must be different from 'this'. An exception 1752 * will be thrown if next == this. 1753 * The application may call setNextMediaPlayer(null) to indicate no 1754 * next player should be started at the end of playback. 1755 * If the current player is looping, it will keep looping and the next 1756 * player will not be started. 1757 * 1758 * @param next the player to start after this one completes playback. 1759 * 1760 */ 1761 public native void setNextMediaPlayer(MediaPlayer next); 1762 1763 /** 1764 * Releases resources associated with this MediaPlayer object. 1765 * It is considered good practice to call this method when you're 1766 * done using the MediaPlayer. In particular, whenever an Activity 1767 * of an application is paused (its onPause() method is called), 1768 * or stopped (its onStop() method is called), this method should be 1769 * invoked to release the MediaPlayer object, unless the application 1770 * has a special need to keep the object around. In addition to 1771 * unnecessary resources (such as memory and instances of codecs) 1772 * being held, failure to call this method immediately if a 1773 * MediaPlayer object is no longer needed may also lead to 1774 * continuous battery consumption for mobile devices, and playback 1775 * failure for other applications if no multiple instances of the 1776 * same codec are supported on a device. Even if multiple instances 1777 * of the same codec are supported, some performance degradation 1778 * may be expected when unnecessary multiple instances are used 1779 * at the same time. 1780 */ 1781 public void release() { 1782 baseRelease(); 1783 stayAwake(false); 1784 updateSurfaceScreenOn(); 1785 mOnPreparedListener = null; 1786 mOnBufferingUpdateListener = null; 1787 mOnCompletionListener = null; 1788 mOnSeekCompleteListener = null; 1789 mOnErrorListener = null; 1790 mOnInfoListener = null; 1791 mOnVideoSizeChangedListener = null; 1792 mOnTimedTextListener = null; 1793 if (mTimeProvider != null) { 1794 mTimeProvider.close(); 1795 mTimeProvider = null; 1796 } 1797 mOnSubtitleDataListener = null; 1798 _release(); 1799 } 1800 1801 private native void _release(); 1802 1803 /** 1804 * Resets the MediaPlayer to its uninitialized state. After calling 1805 * this method, you will have to initialize it again by setting the 1806 * data source and calling prepare(). 1807 */ 1808 public void reset() { 1809 mSelectedSubtitleTrackIndex = -1; 1810 synchronized(mOpenSubtitleSources) { 1811 for (final InputStream is: mOpenSubtitleSources) { 1812 try { 1813 is.close(); 1814 } catch (IOException e) { 1815 } 1816 } 1817 mOpenSubtitleSources.clear(); 1818 } 1819 if (mSubtitleController != null) { 1820 mSubtitleController.reset(); 1821 } 1822 if (mTimeProvider != null) { 1823 mTimeProvider.close(); 1824 mTimeProvider = null; 1825 } 1826 1827 stayAwake(false); 1828 _reset(); 1829 // make sure none of the listeners get called anymore 1830 if (mEventHandler != null) { 1831 mEventHandler.removeCallbacksAndMessages(null); 1832 } 1833 1834 synchronized (mIndexTrackPairs) { 1835 mIndexTrackPairs.clear(); 1836 mInbandTrackIndices.clear(); 1837 }; 1838 } 1839 1840 private native void _reset(); 1841 1842 /** 1843 * Sets the audio stream type for this MediaPlayer. See {@link AudioManager} 1844 * for a list of stream types. Must call this method before prepare() or 1845 * prepareAsync() in order for the target stream type to become effective 1846 * thereafter. 1847 * 1848 * @param streamtype the audio stream type 1849 * @deprecated use {@link #setAudioAttributes(AudioAttributes)} 1850 * @see android.media.AudioManager 1851 */ 1852 public void setAudioStreamType(int streamtype) { 1853 deprecateStreamTypeForPlayback(streamtype, "MediaPlayer", "setAudioStreamType()"); 1854 baseUpdateAudioAttributes( 1855 new AudioAttributes.Builder().setInternalLegacyStreamType(streamtype).build()); 1856 _setAudioStreamType(streamtype); 1857 mStreamType = streamtype; 1858 } 1859 1860 private native void _setAudioStreamType(int streamtype); 1861 1862 // Keep KEY_PARAMETER_* in sync with include/media/mediaplayer.h 1863 private final static int KEY_PARAMETER_AUDIO_ATTRIBUTES = 1400; 1864 /** 1865 * Sets the parameter indicated by key. 1866 * @param key key indicates the parameter to be set. 1867 * @param value value of the parameter to be set. 1868 * @return true if the parameter is set successfully, false otherwise 1869 * {@hide} 1870 */ 1871 private native boolean setParameter(int key, Parcel value); 1872 1873 /** 1874 * Sets the audio attributes for this MediaPlayer. 1875 * See {@link AudioAttributes} for how to build and configure an instance of this class. 1876 * You must call this method before {@link #prepare()} or {@link #prepareAsync()} in order 1877 * for the audio attributes to become effective thereafter. 1878 * @param attributes a non-null set of audio attributes 1879 */ 1880 public void setAudioAttributes(AudioAttributes attributes) throws IllegalArgumentException { 1881 if (attributes == null) { 1882 final String msg = "Cannot set AudioAttributes to null"; 1883 throw new IllegalArgumentException(msg); 1884 } 1885 baseUpdateAudioAttributes(attributes); 1886 mUsage = attributes.getUsage(); 1887 mBypassInterruptionPolicy = (attributes.getAllFlags() 1888 & AudioAttributes.FLAG_BYPASS_INTERRUPTION_POLICY) != 0; 1889 Parcel pattributes = Parcel.obtain(); 1890 attributes.writeToParcel(pattributes, AudioAttributes.FLATTEN_TAGS); 1891 setParameter(KEY_PARAMETER_AUDIO_ATTRIBUTES, pattributes); 1892 pattributes.recycle(); 1893 } 1894 1895 /** 1896 * Sets the player to be looping or non-looping. 1897 * 1898 * @param looping whether to loop or not 1899 */ 1900 public native void setLooping(boolean looping); 1901 1902 /** 1903 * Checks whether the MediaPlayer is looping or non-looping. 1904 * 1905 * @return true if the MediaPlayer is currently looping, false otherwise 1906 */ 1907 public native boolean isLooping(); 1908 1909 /** 1910 * Sets the volume on this player. 1911 * This API is recommended for balancing the output of audio streams 1912 * within an application. Unless you are writing an application to 1913 * control user settings, this API should be used in preference to 1914 * {@link AudioManager#setStreamVolume(int, int, int)} which sets the volume of ALL streams of 1915 * a particular type. Note that the passed volume values are raw scalars in range 0.0 to 1.0. 1916 * UI controls should be scaled logarithmically. 1917 * 1918 * @param leftVolume left volume scalar 1919 * @param rightVolume right volume scalar 1920 */ 1921 /* 1922 * FIXME: Merge this into javadoc comment above when setVolume(float) is not @hide. 1923 * The single parameter form below is preferred if the channel volumes don't need 1924 * to be set independently. 1925 */ 1926 public void setVolume(float leftVolume, float rightVolume) { 1927 baseSetVolume(leftVolume, rightVolume); 1928 } 1929 1930 @Override 1931 void playerSetVolume(boolean muting, float leftVolume, float rightVolume) { 1932 _setVolume(muting ? 0.0f : leftVolume, muting ? 0.0f : rightVolume); 1933 } 1934 1935 private native void _setVolume(float leftVolume, float rightVolume); 1936 1937 /** 1938 * Similar, excepts sets volume of all channels to same value. 1939 * @hide 1940 */ 1941 public void setVolume(float volume) { 1942 setVolume(volume, volume); 1943 } 1944 1945 /** 1946 * Sets the audio session ID. 1947 * 1948 * @param sessionId the audio session ID. 1949 * The audio session ID is a system wide unique identifier for the audio stream played by 1950 * this MediaPlayer instance. 1951 * The primary use of the audio session ID is to associate audio effects to a particular 1952 * instance of MediaPlayer: if an audio session ID is provided when creating an audio effect, 1953 * this effect will be applied only to the audio content of media players within the same 1954 * audio session and not to the output mix. 1955 * When created, a MediaPlayer instance automatically generates its own audio session ID. 1956 * However, it is possible to force this player to be part of an already existing audio session 1957 * by calling this method. 1958 * This method must be called before one of the overloaded <code> setDataSource </code> methods. 1959 * @throws IllegalStateException if it is called in an invalid state 1960 */ 1961 public native void setAudioSessionId(int sessionId) throws IllegalArgumentException, IllegalStateException; 1962 1963 /** 1964 * Returns the audio session ID. 1965 * 1966 * @return the audio session ID. {@see #setAudioSessionId(int)} 1967 * Note that the audio session ID is 0 only if a problem occured when the MediaPlayer was contructed. 1968 */ 1969 public native int getAudioSessionId(); 1970 1971 /** 1972 * Attaches an auxiliary effect to the player. A typical auxiliary effect is a reverberation 1973 * effect which can be applied on any sound source that directs a certain amount of its 1974 * energy to this effect. This amount is defined by setAuxEffectSendLevel(). 1975 * See {@link #setAuxEffectSendLevel(float)}. 1976 * <p>After creating an auxiliary effect (e.g. 1977 * {@link android.media.audiofx.EnvironmentalReverb}), retrieve its ID with 1978 * {@link android.media.audiofx.AudioEffect#getId()} and use it when calling this method 1979 * to attach the player to the effect. 1980 * <p>To detach the effect from the player, call this method with a null effect id. 1981 * <p>This method must be called after one of the overloaded <code> setDataSource </code> 1982 * methods. 1983 * @param effectId system wide unique id of the effect to attach 1984 */ 1985 public native void attachAuxEffect(int effectId); 1986 1987 1988 /** 1989 * Sets the send level of the player to the attached auxiliary effect. 1990 * See {@link #attachAuxEffect(int)}. The level value range is 0 to 1.0. 1991 * <p>By default the send level is 0, so even if an effect is attached to the player 1992 * this method must be called for the effect to be applied. 1993 * <p>Note that the passed level value is a raw scalar. UI controls should be scaled 1994 * logarithmically: the gain applied by audio framework ranges from -72dB to 0dB, 1995 * so an appropriate conversion from linear UI input x to level is: 1996 * x == 0 -> level = 0 1997 * 0 < x <= R -> level = 10^(72*(x-R)/20/R) 1998 * @param level send level scalar 1999 */ 2000 public void setAuxEffectSendLevel(float level) { 2001 baseSetAuxEffectSendLevel(level); 2002 } 2003 2004 @Override 2005 int playerSetAuxEffectSendLevel(boolean muting, float level) { 2006 _setAuxEffectSendLevel(muting ? 0.0f : level); 2007 return AudioSystem.SUCCESS; 2008 } 2009 2010 private native void _setAuxEffectSendLevel(float level); 2011 2012 /* 2013 * @param request Parcel destinated to the media player. The 2014 * Interface token must be set to the IMediaPlayer 2015 * one to be routed correctly through the system. 2016 * @param reply[out] Parcel that will contain the reply. 2017 * @return The status code. 2018 */ 2019 private native final int native_invoke(Parcel request, Parcel reply); 2020 2021 2022 /* 2023 * @param update_only If true fetch only the set of metadata that have 2024 * changed since the last invocation of getMetadata. 2025 * The set is built using the unfiltered 2026 * notifications the native player sent to the 2027 * MediaPlayerService during that period of 2028 * time. If false, all the metadatas are considered. 2029 * @param apply_filter If true, once the metadata set has been built based on 2030 * the value update_only, the current filter is applied. 2031 * @param reply[out] On return contains the serialized 2032 * metadata. Valid only if the call was successful. 2033 * @return The status code. 2034 */ 2035 private native final boolean native_getMetadata(boolean update_only, 2036 boolean apply_filter, 2037 Parcel reply); 2038 2039 /* 2040 * @param request Parcel with the 2 serialized lists of allowed 2041 * metadata types followed by the one to be 2042 * dropped. Each list starts with an integer 2043 * indicating the number of metadata type elements. 2044 * @return The status code. 2045 */ 2046 private native final int native_setMetadataFilter(Parcel request); 2047 2048 private static native final void native_init(); 2049 private native final void native_setup(Object mediaplayer_this); 2050 private native final void native_finalize(); 2051 2052 /** 2053 * Class for MediaPlayer to return each audio/video/subtitle track's metadata. 2054 * 2055 * @see android.media.MediaPlayer#getTrackInfo 2056 */ 2057 static public class TrackInfo implements Parcelable { 2058 /** 2059 * Gets the track type. 2060 * @return TrackType which indicates if the track is video, audio, timed text. 2061 */ 2062 public int getTrackType() { 2063 return mTrackType; 2064 } 2065 2066 /** 2067 * Gets the language code of the track. 2068 * @return a language code in either way of ISO-639-1 or ISO-639-2. 2069 * When the language is unknown or could not be determined, 2070 * ISO-639-2 language code, "und", is returned. 2071 */ 2072 public String getLanguage() { 2073 String language = mFormat.getString(MediaFormat.KEY_LANGUAGE); 2074 return language == null ? "und" : language; 2075 } 2076 2077 /** 2078 * Gets the {@link MediaFormat} of the track. If the format is 2079 * unknown or could not be determined, null is returned. 2080 */ 2081 public MediaFormat getFormat() { 2082 if (mTrackType == MEDIA_TRACK_TYPE_TIMEDTEXT 2083 || mTrackType == MEDIA_TRACK_TYPE_SUBTITLE) { 2084 return mFormat; 2085 } 2086 return null; 2087 } 2088 2089 public static final int MEDIA_TRACK_TYPE_UNKNOWN = 0; 2090 public static final int MEDIA_TRACK_TYPE_VIDEO = 1; 2091 public static final int MEDIA_TRACK_TYPE_AUDIO = 2; 2092 public static final int MEDIA_TRACK_TYPE_TIMEDTEXT = 3; 2093 public static final int MEDIA_TRACK_TYPE_SUBTITLE = 4; 2094 public static final int MEDIA_TRACK_TYPE_METADATA = 5; 2095 2096 final int mTrackType; 2097 final MediaFormat mFormat; 2098 2099 TrackInfo(Parcel in) { 2100 mTrackType = in.readInt(); 2101 // TODO: parcel in the full MediaFormat; currently we are using createSubtitleFormat 2102 // even for audio/video tracks, meaning we only set the mime and language. 2103 String mime = in.readString(); 2104 String language = in.readString(); 2105 mFormat = MediaFormat.createSubtitleFormat(mime, language); 2106 2107 if (mTrackType == MEDIA_TRACK_TYPE_SUBTITLE) { 2108 mFormat.setInteger(MediaFormat.KEY_IS_AUTOSELECT, in.readInt()); 2109 mFormat.setInteger(MediaFormat.KEY_IS_DEFAULT, in.readInt()); 2110 mFormat.setInteger(MediaFormat.KEY_IS_FORCED_SUBTITLE, in.readInt()); 2111 } 2112 } 2113 2114 /** @hide */ 2115 TrackInfo(int type, MediaFormat format) { 2116 mTrackType = type; 2117 mFormat = format; 2118 } 2119 2120 /** 2121 * {@inheritDoc} 2122 */ 2123 @Override 2124 public int describeContents() { 2125 return 0; 2126 } 2127 2128 /** 2129 * {@inheritDoc} 2130 */ 2131 @Override 2132 public void writeToParcel(Parcel dest, int flags) { 2133 dest.writeInt(mTrackType); 2134 dest.writeString(getLanguage()); 2135 2136 if (mTrackType == MEDIA_TRACK_TYPE_SUBTITLE) { 2137 dest.writeString(mFormat.getString(MediaFormat.KEY_MIME)); 2138 dest.writeInt(mFormat.getInteger(MediaFormat.KEY_IS_AUTOSELECT)); 2139 dest.writeInt(mFormat.getInteger(MediaFormat.KEY_IS_DEFAULT)); 2140 dest.writeInt(mFormat.getInteger(MediaFormat.KEY_IS_FORCED_SUBTITLE)); 2141 } 2142 } 2143 2144 @Override 2145 public String toString() { 2146 StringBuilder out = new StringBuilder(128); 2147 out.append(getClass().getName()); 2148 out.append('{'); 2149 switch (mTrackType) { 2150 case MEDIA_TRACK_TYPE_VIDEO: 2151 out.append("VIDEO"); 2152 break; 2153 case MEDIA_TRACK_TYPE_AUDIO: 2154 out.append("AUDIO"); 2155 break; 2156 case MEDIA_TRACK_TYPE_TIMEDTEXT: 2157 out.append("TIMEDTEXT"); 2158 break; 2159 case MEDIA_TRACK_TYPE_SUBTITLE: 2160 out.append("SUBTITLE"); 2161 break; 2162 default: 2163 out.append("UNKNOWN"); 2164 break; 2165 } 2166 out.append(", " + mFormat.toString()); 2167 out.append("}"); 2168 return out.toString(); 2169 } 2170 2171 /** 2172 * Used to read a TrackInfo from a Parcel. 2173 */ 2174 static final Parcelable.Creator<TrackInfo> CREATOR 2175 = new Parcelable.Creator<TrackInfo>() { 2176 @Override 2177 public TrackInfo createFromParcel(Parcel in) { 2178 return new TrackInfo(in); 2179 } 2180 2181 @Override 2182 public TrackInfo[] newArray(int size) { 2183 return new TrackInfo[size]; 2184 } 2185 }; 2186 2187 }; 2188 2189 // We would like domain specific classes with more informative names than the `first` and `second` 2190 // in generic Pair, but we would also like to avoid creating new/trivial classes. As a compromise 2191 // we document the meanings of `first` and `second` here: 2192 // 2193 // Pair.first - inband track index; non-null iff representing an inband track. 2194 // Pair.second - a SubtitleTrack registered with mSubtitleController; non-null iff representing 2195 // an inband subtitle track or any out-of-band track (subtitle or timedtext). 2196 private Vector<Pair<Integer, SubtitleTrack>> mIndexTrackPairs = new Vector<>(); 2197 private BitSet mInbandTrackIndices = new BitSet(); 2198 2199 /** 2200 * Returns an array of track information. 2201 * 2202 * @return Array of track info. The total number of tracks is the array length. 2203 * Must be called again if an external timed text source has been added after any of the 2204 * addTimedTextSource methods are called. 2205 * @throws IllegalStateException if it is called in an invalid state. 2206 */ 2207 public TrackInfo[] getTrackInfo() throws IllegalStateException { 2208 TrackInfo trackInfo[] = getInbandTrackInfo(); 2209 // add out-of-band tracks 2210 synchronized (mIndexTrackPairs) { 2211 TrackInfo allTrackInfo[] = new TrackInfo[mIndexTrackPairs.size()]; 2212 for (int i = 0; i < allTrackInfo.length; i++) { 2213 Pair<Integer, SubtitleTrack> p = mIndexTrackPairs.get(i); 2214 if (p.first != null) { 2215 // inband track 2216 allTrackInfo[i] = trackInfo[p.first]; 2217 } else { 2218 SubtitleTrack track = p.second; 2219 allTrackInfo[i] = new TrackInfo(track.getTrackType(), track.getFormat()); 2220 } 2221 } 2222 return allTrackInfo; 2223 } 2224 } 2225 2226 private TrackInfo[] getInbandTrackInfo() throws IllegalStateException { 2227 Parcel request = Parcel.obtain(); 2228 Parcel reply = Parcel.obtain(); 2229 try { 2230 request.writeInterfaceToken(IMEDIA_PLAYER); 2231 request.writeInt(INVOKE_ID_GET_TRACK_INFO); 2232 invoke(request, reply); 2233 TrackInfo trackInfo[] = reply.createTypedArray(TrackInfo.CREATOR); 2234 return trackInfo; 2235 } finally { 2236 request.recycle(); 2237 reply.recycle(); 2238 } 2239 } 2240 2241 /* Do not change these values without updating their counterparts 2242 * in include/media/stagefright/MediaDefs.h and media/libstagefright/MediaDefs.cpp! 2243 */ 2244 /** 2245 * MIME type for SubRip (SRT) container. Used in addTimedTextSource APIs. 2246 */ 2247 public static final String MEDIA_MIMETYPE_TEXT_SUBRIP = "application/x-subrip"; 2248 2249 /** 2250 * MIME type for WebVTT subtitle data. 2251 * @hide 2252 */ 2253 public static final String MEDIA_MIMETYPE_TEXT_VTT = "text/vtt"; 2254 2255 /** 2256 * MIME type for CEA-608 closed caption data. 2257 * @hide 2258 */ 2259 public static final String MEDIA_MIMETYPE_TEXT_CEA_608 = "text/cea-608"; 2260 2261 /** 2262 * MIME type for CEA-708 closed caption data. 2263 * @hide 2264 */ 2265 public static final String MEDIA_MIMETYPE_TEXT_CEA_708 = "text/cea-708"; 2266 2267 /* 2268 * A helper function to check if the mime type is supported by media framework. 2269 */ 2270 private static boolean availableMimeTypeForExternalSource(String mimeType) { 2271 if (MEDIA_MIMETYPE_TEXT_SUBRIP.equals(mimeType)) { 2272 return true; 2273 } 2274 return false; 2275 } 2276 2277 private SubtitleController mSubtitleController; 2278 2279 /** @hide */ 2280 public void setSubtitleAnchor( 2281 SubtitleController controller, 2282 SubtitleController.Anchor anchor) { 2283 // TODO: create SubtitleController in MediaPlayer 2284 mSubtitleController = controller; 2285 mSubtitleController.setAnchor(anchor); 2286 } 2287 2288 /** 2289 * The private version of setSubtitleAnchor is used internally to set mSubtitleController if 2290 * necessary when clients don't provide their own SubtitleControllers using the public version 2291 * {@link #setSubtitleAnchor(SubtitleController, Anchor)} (e.g. {@link VideoView} provides one). 2292 */ 2293 private synchronized void setSubtitleAnchor() { 2294 if ((mSubtitleController == null) && (ActivityThread.currentApplication() != null)) { 2295 final HandlerThread thread = new HandlerThread("SetSubtitleAnchorThread"); 2296 thread.start(); 2297 Handler handler = new Handler(thread.getLooper()); 2298 handler.post(new Runnable() { 2299 @Override 2300 public void run() { 2301 Context context = ActivityThread.currentApplication(); 2302 mSubtitleController = new SubtitleController(context, mTimeProvider, MediaPlayer.this); 2303 mSubtitleController.setAnchor(new Anchor() { 2304 @Override 2305 public void setSubtitleWidget(RenderingWidget subtitleWidget) { 2306 } 2307 2308 @Override 2309 public Looper getSubtitleLooper() { 2310 return Looper.getMainLooper(); 2311 } 2312 }); 2313 thread.getLooper().quitSafely(); 2314 } 2315 }); 2316 try { 2317 thread.join(); 2318 } catch (InterruptedException e) { 2319 Thread.currentThread().interrupt(); 2320 Log.w(TAG, "failed to join SetSubtitleAnchorThread"); 2321 } 2322 } 2323 } 2324 2325 private int mSelectedSubtitleTrackIndex = -1; 2326 private Vector<InputStream> mOpenSubtitleSources; 2327 2328 private OnSubtitleDataListener mSubtitleDataListener = new OnSubtitleDataListener() { 2329 @Override 2330 public void onSubtitleData(MediaPlayer mp, SubtitleData data) { 2331 int index = data.getTrackIndex(); 2332 synchronized (mIndexTrackPairs) { 2333 for (Pair<Integer, SubtitleTrack> p : mIndexTrackPairs) { 2334 if (p.first != null && p.first == index && p.second != null) { 2335 // inband subtitle track that owns data 2336 SubtitleTrack track = p.second; 2337 track.onData(data); 2338 } 2339 } 2340 } 2341 } 2342 }; 2343 2344 /** @hide */ 2345 @Override 2346 public void onSubtitleTrackSelected(SubtitleTrack track) { 2347 if (mSelectedSubtitleTrackIndex >= 0) { 2348 try { 2349 selectOrDeselectInbandTrack(mSelectedSubtitleTrackIndex, false); 2350 } catch (IllegalStateException e) { 2351 } 2352 mSelectedSubtitleTrackIndex = -1; 2353 } 2354 setOnSubtitleDataListener(null); 2355 if (track == null) { 2356 return; 2357 } 2358 2359 synchronized (mIndexTrackPairs) { 2360 for (Pair<Integer, SubtitleTrack> p : mIndexTrackPairs) { 2361 if (p.first != null && p.second == track) { 2362 // inband subtitle track that is selected 2363 mSelectedSubtitleTrackIndex = p.first; 2364 break; 2365 } 2366 } 2367 } 2368 2369 if (mSelectedSubtitleTrackIndex >= 0) { 2370 try { 2371 selectOrDeselectInbandTrack(mSelectedSubtitleTrackIndex, true); 2372 } catch (IllegalStateException e) { 2373 } 2374 setOnSubtitleDataListener(mSubtitleDataListener); 2375 } 2376 // no need to select out-of-band tracks 2377 } 2378 2379 /** @hide */ 2380 public void addSubtitleSource(InputStream is, MediaFormat format) 2381 throws IllegalStateException 2382 { 2383 final InputStream fIs = is; 2384 final MediaFormat fFormat = format; 2385 2386 if (is != null) { 2387 // Ensure all input streams are closed. It is also a handy 2388 // way to implement timeouts in the future. 2389 synchronized(mOpenSubtitleSources) { 2390 mOpenSubtitleSources.add(is); 2391 } 2392 } else { 2393 Log.w(TAG, "addSubtitleSource called with null InputStream"); 2394 } 2395 2396 getMediaTimeProvider(); 2397 2398 // process each subtitle in its own thread 2399 final HandlerThread thread = new HandlerThread("SubtitleReadThread", 2400 Process.THREAD_PRIORITY_BACKGROUND + Process.THREAD_PRIORITY_MORE_FAVORABLE); 2401 thread.start(); 2402 Handler handler = new Handler(thread.getLooper()); 2403 handler.post(new Runnable() { 2404 private int addTrack() { 2405 if (fIs == null || mSubtitleController == null) { 2406 return MEDIA_INFO_UNSUPPORTED_SUBTITLE; 2407 } 2408 2409 SubtitleTrack track = mSubtitleController.addTrack(fFormat); 2410 if (track == null) { 2411 return MEDIA_INFO_UNSUPPORTED_SUBTITLE; 2412 } 2413 2414 // TODO: do the conversion in the subtitle track 2415 Scanner scanner = new Scanner(fIs, "UTF-8"); 2416 String contents = scanner.useDelimiter("\\A").next(); 2417 synchronized(mOpenSubtitleSources) { 2418 mOpenSubtitleSources.remove(fIs); 2419 } 2420 scanner.close(); 2421 synchronized (mIndexTrackPairs) { 2422 mIndexTrackPairs.add(Pair.<Integer, SubtitleTrack>create(null, track)); 2423 } 2424 Handler h = mTimeProvider.mEventHandler; 2425 int what = TimeProvider.NOTIFY; 2426 int arg1 = TimeProvider.NOTIFY_TRACK_DATA; 2427 Pair<SubtitleTrack, byte[]> trackData = Pair.create(track, contents.getBytes()); 2428 Message m = h.obtainMessage(what, arg1, 0, trackData); 2429 h.sendMessage(m); 2430 return MEDIA_INFO_EXTERNAL_METADATA_UPDATE; 2431 } 2432 2433 public void run() { 2434 int res = addTrack(); 2435 if (mEventHandler != null) { 2436 Message m = mEventHandler.obtainMessage(MEDIA_INFO, res, 0, null); 2437 mEventHandler.sendMessage(m); 2438 } 2439 thread.getLooper().quitSafely(); 2440 } 2441 }); 2442 } 2443 2444 private void scanInternalSubtitleTracks() { 2445 if (mSubtitleController == null) { 2446 Log.d(TAG, "setSubtitleAnchor in MediaPlayer"); 2447 setSubtitleAnchor(); 2448 } 2449 2450 populateInbandTracks(); 2451 2452 if (mSubtitleController != null) { 2453 mSubtitleController.selectDefaultTrack(); 2454 } 2455 } 2456 2457 private void populateInbandTracks() { 2458 TrackInfo[] tracks = getInbandTrackInfo(); 2459 synchronized (mIndexTrackPairs) { 2460 for (int i = 0; i < tracks.length; i++) { 2461 if (mInbandTrackIndices.get(i)) { 2462 continue; 2463 } else { 2464 mInbandTrackIndices.set(i); 2465 } 2466 2467 // newly appeared inband track 2468 if (tracks[i].getTrackType() == TrackInfo.MEDIA_TRACK_TYPE_SUBTITLE) { 2469 SubtitleTrack track = mSubtitleController.addTrack( 2470 tracks[i].getFormat()); 2471 mIndexTrackPairs.add(Pair.create(i, track)); 2472 } else { 2473 mIndexTrackPairs.add(Pair.<Integer, SubtitleTrack>create(i, null)); 2474 } 2475 } 2476 } 2477 } 2478 2479 /* TODO: Limit the total number of external timed text source to a reasonable number. 2480 */ 2481 /** 2482 * Adds an external timed text source file. 2483 * 2484 * Currently supported format is SubRip with the file extension .srt, case insensitive. 2485 * Note that a single external timed text source may contain multiple tracks in it. 2486 * One can find the total number of available tracks using {@link #getTrackInfo()} to see what 2487 * additional tracks become available after this method call. 2488 * 2489 * @param path The file path of external timed text source file. 2490 * @param mimeType The mime type of the file. Must be one of the mime types listed above. 2491 * @throws IOException if the file cannot be accessed or is corrupted. 2492 * @throws IllegalArgumentException if the mimeType is not supported. 2493 * @throws IllegalStateException if called in an invalid state. 2494 */ 2495 public void addTimedTextSource(String path, String mimeType) 2496 throws IOException, IllegalArgumentException, IllegalStateException { 2497 if (!availableMimeTypeForExternalSource(mimeType)) { 2498 final String msg = "Illegal mimeType for timed text source: " + mimeType; 2499 throw new IllegalArgumentException(msg); 2500 } 2501 2502 File file = new File(path); 2503 if (file.exists()) { 2504 FileInputStream is = new FileInputStream(file); 2505 FileDescriptor fd = is.getFD(); 2506 addTimedTextSource(fd, mimeType); 2507 is.close(); 2508 } else { 2509 // We do not support the case where the path is not a file. 2510 throw new IOException(path); 2511 } 2512 } 2513 2514 /** 2515 * Adds an external timed text source file (Uri). 2516 * 2517 * Currently supported format is SubRip with the file extension .srt, case insensitive. 2518 * Note that a single external timed text source may contain multiple tracks in it. 2519 * One can find the total number of available tracks using {@link #getTrackInfo()} to see what 2520 * additional tracks become available after this method call. 2521 * 2522 * @param context the Context to use when resolving the Uri 2523 * @param uri the Content URI of the data you want to play 2524 * @param mimeType The mime type of the file. Must be one of the mime types listed above. 2525 * @throws IOException if the file cannot be accessed or is corrupted. 2526 * @throws IllegalArgumentException if the mimeType is not supported. 2527 * @throws IllegalStateException if called in an invalid state. 2528 */ 2529 public void addTimedTextSource(Context context, Uri uri, String mimeType) 2530 throws IOException, IllegalArgumentException, IllegalStateException { 2531 String scheme = uri.getScheme(); 2532 if(scheme == null || scheme.equals("file")) { 2533 addTimedTextSource(uri.getPath(), mimeType); 2534 return; 2535 } 2536 2537 AssetFileDescriptor fd = null; 2538 try { 2539 ContentResolver resolver = context.getContentResolver(); 2540 fd = resolver.openAssetFileDescriptor(uri, "r"); 2541 if (fd == null) { 2542 return; 2543 } 2544 addTimedTextSource(fd.getFileDescriptor(), mimeType); 2545 return; 2546 } catch (SecurityException ex) { 2547 } catch (IOException ex) { 2548 } finally { 2549 if (fd != null) { 2550 fd.close(); 2551 } 2552 } 2553 } 2554 2555 /** 2556 * Adds an external timed text source file (FileDescriptor). 2557 * 2558 * It is the caller's responsibility to close the file descriptor. 2559 * It is safe to do so as soon as this call returns. 2560 * 2561 * Currently supported format is SubRip. Note that a single external timed text source may 2562 * contain multiple tracks in it. One can find the total number of available tracks 2563 * using {@link #getTrackInfo()} to see what additional tracks become available 2564 * after this method call. 2565 * 2566 * @param fd the FileDescriptor for the file you want to play 2567 * @param mimeType The mime type of the file. Must be one of the mime types listed above. 2568 * @throws IllegalArgumentException if the mimeType is not supported. 2569 * @throws IllegalStateException if called in an invalid state. 2570 */ 2571 public void addTimedTextSource(FileDescriptor fd, String mimeType) 2572 throws IllegalArgumentException, IllegalStateException { 2573 // intentionally less than LONG_MAX 2574 addTimedTextSource(fd, 0, 0x7ffffffffffffffL, mimeType); 2575 } 2576 2577 /** 2578 * Adds an external timed text file (FileDescriptor). 2579 * 2580 * It is the caller's responsibility to close the file descriptor. 2581 * It is safe to do so as soon as this call returns. 2582 * 2583 * Currently supported format is SubRip. Note that a single external timed text source may 2584 * contain multiple tracks in it. One can find the total number of available tracks 2585 * using {@link #getTrackInfo()} to see what additional tracks become available 2586 * after this method call. 2587 * 2588 * @param fd the FileDescriptor for the file you want to play 2589 * @param offset the offset into the file where the data to be played starts, in bytes 2590 * @param length the length in bytes of the data to be played 2591 * @param mime The mime type of the file. Must be one of the mime types listed above. 2592 * @throws IllegalArgumentException if the mimeType is not supported. 2593 * @throws IllegalStateException if called in an invalid state. 2594 */ 2595 public void addTimedTextSource(FileDescriptor fd, long offset, long length, String mime) 2596 throws IllegalArgumentException, IllegalStateException { 2597 if (!availableMimeTypeForExternalSource(mime)) { 2598 throw new IllegalArgumentException("Illegal mimeType for timed text source: " + mime); 2599 } 2600 2601 final FileDescriptor dupedFd; 2602 try { 2603 dupedFd = Libcore.os.dup(fd); 2604 } catch (ErrnoException ex) { 2605 Log.e(TAG, ex.getMessage(), ex); 2606 throw new RuntimeException(ex); 2607 } 2608 2609 final MediaFormat fFormat = new MediaFormat(); 2610 fFormat.setString(MediaFormat.KEY_MIME, mime); 2611 fFormat.setInteger(MediaFormat.KEY_IS_TIMED_TEXT, 1); 2612 2613 // A MediaPlayer created by a VideoView should already have its mSubtitleController set. 2614 if (mSubtitleController == null) { 2615 setSubtitleAnchor(); 2616 } 2617 2618 if (!mSubtitleController.hasRendererFor(fFormat)) { 2619 // test and add not atomic 2620 Context context = ActivityThread.currentApplication(); 2621 mSubtitleController.registerRenderer(new SRTRenderer(context, mEventHandler)); 2622 } 2623 final SubtitleTrack track = mSubtitleController.addTrack(fFormat); 2624 synchronized (mIndexTrackPairs) { 2625 mIndexTrackPairs.add(Pair.<Integer, SubtitleTrack>create(null, track)); 2626 } 2627 2628 getMediaTimeProvider(); 2629 2630 final long offset2 = offset; 2631 final long length2 = length; 2632 final HandlerThread thread = new HandlerThread( 2633 "TimedTextReadThread", 2634 Process.THREAD_PRIORITY_BACKGROUND + Process.THREAD_PRIORITY_MORE_FAVORABLE); 2635 thread.start(); 2636 Handler handler = new Handler(thread.getLooper()); 2637 handler.post(new Runnable() { 2638 private int addTrack() { 2639 final ByteArrayOutputStream bos = new ByteArrayOutputStream(); 2640 try { 2641 Libcore.os.lseek(dupedFd, offset2, OsConstants.SEEK_SET); 2642 byte[] buffer = new byte[4096]; 2643 for (long total = 0; total < length2;) { 2644 int bytesToRead = (int) Math.min(buffer.length, length2 - total); 2645 int bytes = IoBridge.read(dupedFd, buffer, 0, bytesToRead); 2646 if (bytes < 0) { 2647 break; 2648 } else { 2649 bos.write(buffer, 0, bytes); 2650 total += bytes; 2651 } 2652 } 2653 Handler h = mTimeProvider.mEventHandler; 2654 int what = TimeProvider.NOTIFY; 2655 int arg1 = TimeProvider.NOTIFY_TRACK_DATA; 2656 Pair<SubtitleTrack, byte[]> trackData = Pair.create(track, bos.toByteArray()); 2657 Message m = h.obtainMessage(what, arg1, 0, trackData); 2658 h.sendMessage(m); 2659 return MEDIA_INFO_EXTERNAL_METADATA_UPDATE; 2660 } catch (Exception e) { 2661 Log.e(TAG, e.getMessage(), e); 2662 return MEDIA_INFO_TIMED_TEXT_ERROR; 2663 } finally { 2664 try { 2665 Libcore.os.close(dupedFd); 2666 } catch (ErrnoException e) { 2667 Log.e(TAG, e.getMessage(), e); 2668 } 2669 } 2670 } 2671 2672 public void run() { 2673 int res = addTrack(); 2674 if (mEventHandler != null) { 2675 Message m = mEventHandler.obtainMessage(MEDIA_INFO, res, 0, null); 2676 mEventHandler.sendMessage(m); 2677 } 2678 thread.getLooper().quitSafely(); 2679 } 2680 }); 2681 } 2682 2683 /** 2684 * Returns the index of the audio, video, or subtitle track currently selected for playback, 2685 * The return value is an index into the array returned by {@link #getTrackInfo()}, and can 2686 * be used in calls to {@link #selectTrack(int)} or {@link #deselectTrack(int)}. 2687 * 2688 * @param trackType should be one of {@link TrackInfo#MEDIA_TRACK_TYPE_VIDEO}, 2689 * {@link TrackInfo#MEDIA_TRACK_TYPE_AUDIO}, or 2690 * {@link TrackInfo#MEDIA_TRACK_TYPE_SUBTITLE} 2691 * @return index of the audio, video, or subtitle track currently selected for playback; 2692 * a negative integer is returned when there is no selected track for {@code trackType} or 2693 * when {@code trackType} is not one of audio, video, or subtitle. 2694 * @throws IllegalStateException if called after {@link #release()} 2695 * 2696 * @see #getTrackInfo() 2697 * @see #selectTrack(int) 2698 * @see #deselectTrack(int) 2699 */ 2700 public int getSelectedTrack(int trackType) throws IllegalStateException { 2701 if (mSubtitleController != null 2702 && (trackType == TrackInfo.MEDIA_TRACK_TYPE_SUBTITLE 2703 || trackType == TrackInfo.MEDIA_TRACK_TYPE_TIMEDTEXT)) { 2704 SubtitleTrack subtitleTrack = mSubtitleController.getSelectedTrack(); 2705 if (subtitleTrack != null) { 2706 synchronized (mIndexTrackPairs) { 2707 for (int i = 0; i < mIndexTrackPairs.size(); i++) { 2708 Pair<Integer, SubtitleTrack> p = mIndexTrackPairs.get(i); 2709 if (p.second == subtitleTrack && subtitleTrack.getTrackType() == trackType) { 2710 return i; 2711 } 2712 } 2713 } 2714 } 2715 } 2716 2717 Parcel request = Parcel.obtain(); 2718 Parcel reply = Parcel.obtain(); 2719 try { 2720 request.writeInterfaceToken(IMEDIA_PLAYER); 2721 request.writeInt(INVOKE_ID_GET_SELECTED_TRACK); 2722 request.writeInt(trackType); 2723 invoke(request, reply); 2724 int inbandTrackIndex = reply.readInt(); 2725 synchronized (mIndexTrackPairs) { 2726 for (int i = 0; i < mIndexTrackPairs.size(); i++) { 2727 Pair<Integer, SubtitleTrack> p = mIndexTrackPairs.get(i); 2728 if (p.first != null && p.first == inbandTrackIndex) { 2729 return i; 2730 } 2731 } 2732 } 2733 return -1; 2734 } finally { 2735 request.recycle(); 2736 reply.recycle(); 2737 } 2738 } 2739 2740 /** 2741 * Selects a track. 2742 * <p> 2743 * If a MediaPlayer is in invalid state, it throws an IllegalStateException exception. 2744 * If a MediaPlayer is in <em>Started</em> state, the selected track is presented immediately. 2745 * If a MediaPlayer is not in Started state, it just marks the track to be played. 2746 * </p> 2747 * <p> 2748 * In any valid state, if it is called multiple times on the same type of track (ie. Video, 2749 * Audio, Timed Text), the most recent one will be chosen. 2750 * </p> 2751 * <p> 2752 * The first audio and video tracks are selected by default if available, even though 2753 * this method is not called. However, no timed text track will be selected until 2754 * this function is called. 2755 * </p> 2756 * <p> 2757 * Currently, only timed text tracks or audio tracks can be selected via this method. 2758 * In addition, the support for selecting an audio track at runtime is pretty limited 2759 * in that an audio track can only be selected in the <em>Prepared</em> state. 2760 * </p> 2761 * @param index the index of the track to be selected. The valid range of the index 2762 * is 0..total number of track - 1. The total number of tracks as well as the type of 2763 * each individual track can be found by calling {@link #getTrackInfo()} method. 2764 * @throws IllegalStateException if called in an invalid state. 2765 * 2766 * @see android.media.MediaPlayer#getTrackInfo 2767 */ 2768 public void selectTrack(int index) throws IllegalStateException { 2769 selectOrDeselectTrack(index, true /* select */); 2770 } 2771 2772 /** 2773 * Deselect a track. 2774 * <p> 2775 * Currently, the track must be a timed text track and no audio or video tracks can be 2776 * deselected. If the timed text track identified by index has not been 2777 * selected before, it throws an exception. 2778 * </p> 2779 * @param index the index of the track to be deselected. The valid range of the index 2780 * is 0..total number of tracks - 1. The total number of tracks as well as the type of 2781 * each individual track can be found by calling {@link #getTrackInfo()} method. 2782 * @throws IllegalStateException if called in an invalid state. 2783 * 2784 * @see android.media.MediaPlayer#getTrackInfo 2785 */ 2786 public void deselectTrack(int index) throws IllegalStateException { 2787 selectOrDeselectTrack(index, false /* select */); 2788 } 2789 2790 private void selectOrDeselectTrack(int index, boolean select) 2791 throws IllegalStateException { 2792 // handle subtitle track through subtitle controller 2793 populateInbandTracks(); 2794 2795 Pair<Integer,SubtitleTrack> p = null; 2796 try { 2797 p = mIndexTrackPairs.get(index); 2798 } catch (ArrayIndexOutOfBoundsException e) { 2799 // ignore bad index 2800 return; 2801 } 2802 2803 SubtitleTrack track = p.second; 2804 if (track == null) { 2805 // inband (de)select 2806 selectOrDeselectInbandTrack(p.first, select); 2807 return; 2808 } 2809 2810 if (mSubtitleController == null) { 2811 return; 2812 } 2813 2814 if (!select) { 2815 // out-of-band deselect 2816 if (mSubtitleController.getSelectedTrack() == track) { 2817 mSubtitleController.selectTrack(null); 2818 } else { 2819 Log.w(TAG, "trying to deselect track that was not selected"); 2820 } 2821 return; 2822 } 2823 2824 // out-of-band select 2825 if (track.getTrackType() == TrackInfo.MEDIA_TRACK_TYPE_TIMEDTEXT) { 2826 int ttIndex = getSelectedTrack(TrackInfo.MEDIA_TRACK_TYPE_TIMEDTEXT); 2827 synchronized (mIndexTrackPairs) { 2828 if (ttIndex >= 0 && ttIndex < mIndexTrackPairs.size()) { 2829 Pair<Integer,SubtitleTrack> p2 = mIndexTrackPairs.get(ttIndex); 2830 if (p2.first != null && p2.second == null) { 2831 // deselect inband counterpart 2832 selectOrDeselectInbandTrack(p2.first, false); 2833 } 2834 } 2835 } 2836 } 2837 mSubtitleController.selectTrack(track); 2838 } 2839 2840 private void selectOrDeselectInbandTrack(int index, boolean select) 2841 throws IllegalStateException { 2842 Parcel request = Parcel.obtain(); 2843 Parcel reply = Parcel.obtain(); 2844 try { 2845 request.writeInterfaceToken(IMEDIA_PLAYER); 2846 request.writeInt(select? INVOKE_ID_SELECT_TRACK: INVOKE_ID_DESELECT_TRACK); 2847 request.writeInt(index); 2848 invoke(request, reply); 2849 } finally { 2850 request.recycle(); 2851 reply.recycle(); 2852 } 2853 } 2854 2855 2856 /** 2857 * @param reply Parcel with audio/video duration info for battery 2858 tracking usage 2859 * @return The status code. 2860 * {@hide} 2861 */ 2862 public native static int native_pullBatteryData(Parcel reply); 2863 2864 /** 2865 * Sets the target UDP re-transmit endpoint for the low level player. 2866 * Generally, the address portion of the endpoint is an IP multicast 2867 * address, although a unicast address would be equally valid. When a valid 2868 * retransmit endpoint has been set, the media player will not decode and 2869 * render the media presentation locally. Instead, the player will attempt 2870 * to re-multiplex its media data using the Android@Home RTP profile and 2871 * re-transmit to the target endpoint. Receiver devices (which may be 2872 * either the same as the transmitting device or different devices) may 2873 * instantiate, prepare, and start a receiver player using a setDataSource 2874 * URL of the form... 2875 * 2876 * aahRX://<multicastIP>:<port> 2877 * 2878 * to receive, decode and render the re-transmitted content. 2879 * 2880 * setRetransmitEndpoint may only be called before setDataSource has been 2881 * called; while the player is in the Idle state. 2882 * 2883 * @param endpoint the address and UDP port of the re-transmission target or 2884 * null if no re-transmission is to be performed. 2885 * @throws IllegalStateException if it is called in an invalid state 2886 * @throws IllegalArgumentException if the retransmit endpoint is supplied, 2887 * but invalid. 2888 * 2889 * {@hide} pending API council 2890 */ 2891 public void setRetransmitEndpoint(InetSocketAddress endpoint) 2892 throws IllegalStateException, IllegalArgumentException 2893 { 2894 String addrString = null; 2895 int port = 0; 2896 2897 if (null != endpoint) { 2898 addrString = endpoint.getAddress().getHostAddress(); 2899 port = endpoint.getPort(); 2900 } 2901 2902 int ret = native_setRetransmitEndpoint(addrString, port); 2903 if (ret != 0) { 2904 throw new IllegalArgumentException("Illegal re-transmit endpoint; native ret " + ret); 2905 } 2906 } 2907 2908 private native final int native_setRetransmitEndpoint(String addrString, int port); 2909 2910 @Override 2911 protected void finalize() { 2912 baseRelease(); 2913 native_finalize(); 2914 } 2915 2916 /* Do not change these values without updating their counterparts 2917 * in include/media/mediaplayer.h! 2918 */ 2919 private static final int MEDIA_NOP = 0; // interface test message 2920 private static final int MEDIA_PREPARED = 1; 2921 private static final int MEDIA_PLAYBACK_COMPLETE = 2; 2922 private static final int MEDIA_BUFFERING_UPDATE = 3; 2923 private static final int MEDIA_SEEK_COMPLETE = 4; 2924 private static final int MEDIA_SET_VIDEO_SIZE = 5; 2925 private static final int MEDIA_STARTED = 6; 2926 private static final int MEDIA_PAUSED = 7; 2927 private static final int MEDIA_STOPPED = 8; 2928 private static final int MEDIA_SKIPPED = 9; 2929 private static final int MEDIA_TIMED_TEXT = 99; 2930 private static final int MEDIA_ERROR = 100; 2931 private static final int MEDIA_INFO = 200; 2932 private static final int MEDIA_SUBTITLE_DATA = 201; 2933 private static final int MEDIA_META_DATA = 202; 2934 2935 private TimeProvider mTimeProvider; 2936 2937 /** @hide */ 2938 public MediaTimeProvider getMediaTimeProvider() { 2939 if (mTimeProvider == null) { 2940 mTimeProvider = new TimeProvider(this); 2941 } 2942 return mTimeProvider; 2943 } 2944 2945 private class EventHandler extends Handler 2946 { 2947 private MediaPlayer mMediaPlayer; 2948 2949 public EventHandler(MediaPlayer mp, Looper looper) { 2950 super(looper); 2951 mMediaPlayer = mp; 2952 } 2953 2954 @Override 2955 public void handleMessage(Message msg) { 2956 if (mMediaPlayer.mNativeContext == 0) { 2957 Log.w(TAG, "mediaplayer went away with unhandled events"); 2958 return; 2959 } 2960 switch(msg.what) { 2961 case MEDIA_PREPARED: 2962 try { 2963 scanInternalSubtitleTracks(); 2964 } catch (RuntimeException e) { 2965 // send error message instead of crashing; 2966 // send error message instead of inlining a call to onError 2967 // to avoid code duplication. 2968 Message msg2 = obtainMessage( 2969 MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, MEDIA_ERROR_UNSUPPORTED, null); 2970 sendMessage(msg2); 2971 } 2972 OnPreparedListener onPreparedListener = mOnPreparedListener; 2973 if (onPreparedListener != null) 2974 onPreparedListener.onPrepared(mMediaPlayer); 2975 return; 2976 2977 case MEDIA_PLAYBACK_COMPLETE: 2978 { 2979 mOnCompletionInternalListener.onCompletion(mMediaPlayer); 2980 OnCompletionListener onCompletionListener = mOnCompletionListener; 2981 if (onCompletionListener != null) 2982 onCompletionListener.onCompletion(mMediaPlayer); 2983 } 2984 stayAwake(false); 2985 return; 2986 2987 case MEDIA_STOPPED: 2988 { 2989 TimeProvider timeProvider = mTimeProvider; 2990 if (timeProvider != null) { 2991 timeProvider.onStopped(); 2992 } 2993 } 2994 break; 2995 2996 case MEDIA_STARTED: 2997 case MEDIA_PAUSED: 2998 { 2999 TimeProvider timeProvider = mTimeProvider; 3000 if (timeProvider != null) { 3001 timeProvider.onPaused(msg.what == MEDIA_PAUSED); 3002 } 3003 } 3004 break; 3005 3006 case MEDIA_BUFFERING_UPDATE: 3007 OnBufferingUpdateListener onBufferingUpdateListener = mOnBufferingUpdateListener; 3008 if (onBufferingUpdateListener != null) 3009 onBufferingUpdateListener.onBufferingUpdate(mMediaPlayer, msg.arg1); 3010 return; 3011 3012 case MEDIA_SEEK_COMPLETE: 3013 OnSeekCompleteListener onSeekCompleteListener = mOnSeekCompleteListener; 3014 if (onSeekCompleteListener != null) { 3015 onSeekCompleteListener.onSeekComplete(mMediaPlayer); 3016 } 3017 // fall through 3018 3019 case MEDIA_SKIPPED: 3020 { 3021 TimeProvider timeProvider = mTimeProvider; 3022 if (timeProvider != null) { 3023 timeProvider.onSeekComplete(mMediaPlayer); 3024 } 3025 } 3026 return; 3027 3028 case MEDIA_SET_VIDEO_SIZE: 3029 OnVideoSizeChangedListener onVideoSizeChangedListener = mOnVideoSizeChangedListener; 3030 if (onVideoSizeChangedListener != null) { 3031 onVideoSizeChangedListener.onVideoSizeChanged( 3032 mMediaPlayer, msg.arg1, msg.arg2); 3033 } 3034 return; 3035 3036 case MEDIA_ERROR: 3037 Log.e(TAG, "Error (" + msg.arg1 + "," + msg.arg2 + ")"); 3038 boolean error_was_handled = false; 3039 OnErrorListener onErrorListener = mOnErrorListener; 3040 if (onErrorListener != null) { 3041 error_was_handled = onErrorListener.onError(mMediaPlayer, msg.arg1, msg.arg2); 3042 } 3043 { 3044 mOnCompletionInternalListener.onCompletion(mMediaPlayer); 3045 OnCompletionListener onCompletionListener = mOnCompletionListener; 3046 if (onCompletionListener != null && ! error_was_handled) { 3047 onCompletionListener.onCompletion(mMediaPlayer); 3048 } 3049 } 3050 stayAwake(false); 3051 return; 3052 3053 case MEDIA_INFO: 3054 switch (msg.arg1) { 3055 case MEDIA_INFO_VIDEO_TRACK_LAGGING: 3056 Log.i(TAG, "Info (" + msg.arg1 + "," + msg.arg2 + ")"); 3057 break; 3058 case MEDIA_INFO_METADATA_UPDATE: 3059 try { 3060 scanInternalSubtitleTracks(); 3061 } catch (RuntimeException e) { 3062 Message msg2 = obtainMessage( 3063 MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, MEDIA_ERROR_UNSUPPORTED, null); 3064 sendMessage(msg2); 3065 } 3066 // fall through 3067 3068 case MEDIA_INFO_EXTERNAL_METADATA_UPDATE: 3069 msg.arg1 = MEDIA_INFO_METADATA_UPDATE; 3070 // update default track selection 3071 if (mSubtitleController != null) { 3072 mSubtitleController.selectDefaultTrack(); 3073 } 3074 break; 3075 case MEDIA_INFO_BUFFERING_START: 3076 case MEDIA_INFO_BUFFERING_END: 3077 TimeProvider timeProvider = mTimeProvider; 3078 if (timeProvider != null) { 3079 timeProvider.onBuffering(msg.arg1 == MEDIA_INFO_BUFFERING_START); 3080 } 3081 break; 3082 } 3083 3084 OnInfoListener onInfoListener = mOnInfoListener; 3085 if (onInfoListener != null) { 3086 onInfoListener.onInfo(mMediaPlayer, msg.arg1, msg.arg2); 3087 } 3088 // No real default action so far. 3089 return; 3090 case MEDIA_TIMED_TEXT: 3091 OnTimedTextListener onTimedTextListener = mOnTimedTextListener; 3092 if (onTimedTextListener == null) 3093 return; 3094 if (msg.obj == null) { 3095 onTimedTextListener.onTimedText(mMediaPlayer, null); 3096 } else { 3097 if (msg.obj instanceof Parcel) { 3098 Parcel parcel = (Parcel)msg.obj; 3099 TimedText text = new TimedText(parcel); 3100 parcel.recycle(); 3101 onTimedTextListener.onTimedText(mMediaPlayer, text); 3102 } 3103 } 3104 return; 3105 3106 case MEDIA_SUBTITLE_DATA: 3107 OnSubtitleDataListener onSubtitleDataListener = mOnSubtitleDataListener; 3108 if (onSubtitleDataListener == null) { 3109 return; 3110 } 3111 if (msg.obj instanceof Parcel) { 3112 Parcel parcel = (Parcel) msg.obj; 3113 SubtitleData data = new SubtitleData(parcel); 3114 parcel.recycle(); 3115 onSubtitleDataListener.onSubtitleData(mMediaPlayer, data); 3116 } 3117 return; 3118 3119 case MEDIA_META_DATA: 3120 OnTimedMetaDataAvailableListener onTimedMetaDataAvailableListener = 3121 mOnTimedMetaDataAvailableListener; 3122 if (onTimedMetaDataAvailableListener == null) { 3123 return; 3124 } 3125 if (msg.obj instanceof Parcel) { 3126 Parcel parcel = (Parcel) msg.obj; 3127 TimedMetaData data = TimedMetaData.createTimedMetaDataFromParcel(parcel); 3128 parcel.recycle(); 3129 onTimedMetaDataAvailableListener.onTimedMetaDataAvailable(mMediaPlayer, data); 3130 } 3131 return; 3132 3133 case MEDIA_NOP: // interface test message - ignore 3134 break; 3135 3136 default: 3137 Log.e(TAG, "Unknown message type " + msg.what); 3138 return; 3139 } 3140 } 3141 } 3142 3143 /* 3144 * Called from native code when an interesting event happens. This method 3145 * just uses the EventHandler system to post the event back to the main app thread. 3146 * We use a weak reference to the original MediaPlayer object so that the native 3147 * code is safe from the object disappearing from underneath it. (This is 3148 * the cookie passed to native_setup().) 3149 */ 3150 private static void postEventFromNative(Object mediaplayer_ref, 3151 int what, int arg1, int arg2, Object obj) 3152 { 3153 MediaPlayer mp = (MediaPlayer)((WeakReference)mediaplayer_ref).get(); 3154 if (mp == null) { 3155 return; 3156 } 3157 3158 if (what == MEDIA_INFO && arg1 == MEDIA_INFO_STARTED_AS_NEXT) { 3159 // this acquires the wakelock if needed, and sets the client side state 3160 mp.start(); 3161 } 3162 if (mp.mEventHandler != null) { 3163 Message m = mp.mEventHandler.obtainMessage(what, arg1, arg2, obj); 3164 mp.mEventHandler.sendMessage(m); 3165 } 3166 } 3167 3168 /** 3169 * Interface definition for a callback to be invoked when the media 3170 * source is ready for playback. 3171 */ 3172 public interface OnPreparedListener 3173 { 3174 /** 3175 * Called when the media file is ready for playback. 3176 * 3177 * @param mp the MediaPlayer that is ready for playback 3178 */ 3179 void onPrepared(MediaPlayer mp); 3180 } 3181 3182 /** 3183 * Register a callback to be invoked when the media source is ready 3184 * for playback. 3185 * 3186 * @param listener the callback that will be run 3187 */ 3188 public void setOnPreparedListener(OnPreparedListener listener) 3189 { 3190 mOnPreparedListener = listener; 3191 } 3192 3193 private OnPreparedListener mOnPreparedListener; 3194 3195 /** 3196 * Interface definition for a callback to be invoked when playback of 3197 * a media source has completed. 3198 */ 3199 public interface OnCompletionListener 3200 { 3201 /** 3202 * Called when the end of a media source is reached during playback. 3203 * 3204 * @param mp the MediaPlayer that reached the end of the file 3205 */ 3206 void onCompletion(MediaPlayer mp); 3207 } 3208 3209 /** 3210 * Register a callback to be invoked when the end of a media source 3211 * has been reached during playback. 3212 * 3213 * @param listener the callback that will be run 3214 */ 3215 public void setOnCompletionListener(OnCompletionListener listener) 3216 { 3217 mOnCompletionListener = listener; 3218 } 3219 3220 private OnCompletionListener mOnCompletionListener; 3221 3222 /** 3223 * @hide 3224 * Internal completion listener to update PlayerBase of the play state. Always "registered". 3225 */ 3226 private final OnCompletionListener mOnCompletionInternalListener = new OnCompletionListener() { 3227 @Override 3228 public void onCompletion(MediaPlayer mp) { 3229 baseStop(); 3230 } 3231 }; 3232 3233 /** 3234 * Interface definition of a callback to be invoked indicating buffering 3235 * status of a media resource being streamed over the network. 3236 */ 3237 public interface OnBufferingUpdateListener 3238 { 3239 /** 3240 * Called to update status in buffering a media stream received through 3241 * progressive HTTP download. The received buffering percentage 3242 * indicates how much of the content has been buffered or played. 3243 * For example a buffering update of 80 percent when half the content 3244 * has already been played indicates that the next 30 percent of the 3245 * content to play has been buffered. 3246 * 3247 * @param mp the MediaPlayer the update pertains to 3248 * @param percent the percentage (0-100) of the content 3249 * that has been buffered or played thus far 3250 */ 3251 void onBufferingUpdate(MediaPlayer mp, int percent); 3252 } 3253 3254 /** 3255 * Register a callback to be invoked when the status of a network 3256 * stream's buffer has changed. 3257 * 3258 * @param listener the callback that will be run. 3259 */ 3260 public void setOnBufferingUpdateListener(OnBufferingUpdateListener listener) 3261 { 3262 mOnBufferingUpdateListener = listener; 3263 } 3264 3265 private OnBufferingUpdateListener mOnBufferingUpdateListener; 3266 3267 /** 3268 * Interface definition of a callback to be invoked indicating 3269 * the completion of a seek operation. 3270 */ 3271 public interface OnSeekCompleteListener 3272 { 3273 /** 3274 * Called to indicate the completion of a seek operation. 3275 * 3276 * @param mp the MediaPlayer that issued the seek operation 3277 */ 3278 public void onSeekComplete(MediaPlayer mp); 3279 } 3280 3281 /** 3282 * Register a callback to be invoked when a seek operation has been 3283 * completed. 3284 * 3285 * @param listener the callback that will be run 3286 */ 3287 public void setOnSeekCompleteListener(OnSeekCompleteListener listener) 3288 { 3289 mOnSeekCompleteListener = listener; 3290 } 3291 3292 private OnSeekCompleteListener mOnSeekCompleteListener; 3293 3294 /** 3295 * Interface definition of a callback to be invoked when the 3296 * video size is first known or updated 3297 */ 3298 public interface OnVideoSizeChangedListener 3299 { 3300 /** 3301 * Called to indicate the video size 3302 * 3303 * The video size (width and height) could be 0 if there was no video, 3304 * no display surface was set, or the value was not determined yet. 3305 * 3306 * @param mp the MediaPlayer associated with this callback 3307 * @param width the width of the video 3308 * @param height the height of the video 3309 */ 3310 public void onVideoSizeChanged(MediaPlayer mp, int width, int height); 3311 } 3312 3313 /** 3314 * Register a callback to be invoked when the video size is 3315 * known or updated. 3316 * 3317 * @param listener the callback that will be run 3318 */ 3319 public void setOnVideoSizeChangedListener(OnVideoSizeChangedListener listener) 3320 { 3321 mOnVideoSizeChangedListener = listener; 3322 } 3323 3324 private OnVideoSizeChangedListener mOnVideoSizeChangedListener; 3325 3326 /** 3327 * Interface definition of a callback to be invoked when a 3328 * timed text is available for display. 3329 */ 3330 public interface OnTimedTextListener 3331 { 3332 /** 3333 * Called to indicate an avaliable timed text 3334 * 3335 * @param mp the MediaPlayer associated with this callback 3336 * @param text the timed text sample which contains the text 3337 * needed to be displayed and the display format. 3338 */ 3339 public void onTimedText(MediaPlayer mp, TimedText text); 3340 } 3341 3342 /** 3343 * Register a callback to be invoked when a timed text is available 3344 * for display. 3345 * 3346 * @param listener the callback that will be run 3347 */ 3348 public void setOnTimedTextListener(OnTimedTextListener listener) 3349 { 3350 mOnTimedTextListener = listener; 3351 } 3352 3353 private OnTimedTextListener mOnTimedTextListener; 3354 3355 /** 3356 * Interface definition of a callback to be invoked when a 3357 * track has data available. 3358 * 3359 * @hide 3360 */ 3361 public interface OnSubtitleDataListener 3362 { 3363 public void onSubtitleData(MediaPlayer mp, SubtitleData data); 3364 } 3365 3366 /** 3367 * Register a callback to be invoked when a track has data available. 3368 * 3369 * @param listener the callback that will be run 3370 * 3371 * @hide 3372 */ 3373 public void setOnSubtitleDataListener(OnSubtitleDataListener listener) 3374 { 3375 mOnSubtitleDataListener = listener; 3376 } 3377 3378 private OnSubtitleDataListener mOnSubtitleDataListener; 3379 3380 /** 3381 * Interface definition of a callback to be invoked when a 3382 * track has timed metadata available. 3383 * 3384 * @see MediaPlayer#setOnTimedMetaDataAvailableListener(OnTimedMetaDataAvailableListener) 3385 */ 3386 public interface OnTimedMetaDataAvailableListener 3387 { 3388 /** 3389 * Called to indicate avaliable timed metadata 3390 * <p> 3391 * This method will be called as timed metadata is extracted from the media, 3392 * in the same order as it occurs in the media. The timing of this event is 3393 * not controlled by the associated timestamp. 3394 * 3395 * @param mp the MediaPlayer associated with this callback 3396 * @param data the timed metadata sample associated with this event 3397 */ 3398 public void onTimedMetaDataAvailable(MediaPlayer mp, TimedMetaData data); 3399 } 3400 3401 /** 3402 * Register a callback to be invoked when a selected track has timed metadata available. 3403 * <p> 3404 * Currently only HTTP live streaming data URI's embedded with timed ID3 tags generates 3405 * {@link TimedMetaData}. 3406 * 3407 * @see MediaPlayer#selectTrack(int) 3408 * @see MediaPlayer.OnTimedMetaDataAvailableListener 3409 * @see TimedMetaData 3410 * 3411 * @param listener the callback that will be run 3412 */ 3413 public void setOnTimedMetaDataAvailableListener(OnTimedMetaDataAvailableListener listener) 3414 { 3415 mOnTimedMetaDataAvailableListener = listener; 3416 } 3417 3418 private OnTimedMetaDataAvailableListener mOnTimedMetaDataAvailableListener; 3419 3420 /* Do not change these values without updating their counterparts 3421 * in include/media/mediaplayer.h! 3422 */ 3423 /** Unspecified media player error. 3424 * @see android.media.MediaPlayer.OnErrorListener 3425 */ 3426 public static final int MEDIA_ERROR_UNKNOWN = 1; 3427 3428 /** Media server died. In this case, the application must release the 3429 * MediaPlayer object and instantiate a new one. 3430 * @see android.media.MediaPlayer.OnErrorListener 3431 */ 3432 public static final int MEDIA_ERROR_SERVER_DIED = 100; 3433 3434 /** The video is streamed and its container is not valid for progressive 3435 * playback i.e the video's index (e.g moov atom) is not at the start of the 3436 * file. 3437 * @see android.media.MediaPlayer.OnErrorListener 3438 */ 3439 public static final int MEDIA_ERROR_NOT_VALID_FOR_PROGRESSIVE_PLAYBACK = 200; 3440 3441 /** File or network related operation errors. */ 3442 public static final int MEDIA_ERROR_IO = -1004; 3443 /** Bitstream is not conforming to the related coding standard or file spec. */ 3444 public static final int MEDIA_ERROR_MALFORMED = -1007; 3445 /** Bitstream is conforming to the related coding standard or file spec, but 3446 * the media framework does not support the feature. */ 3447 public static final int MEDIA_ERROR_UNSUPPORTED = -1010; 3448 /** Some operation takes too long to complete, usually more than 3-5 seconds. */ 3449 public static final int MEDIA_ERROR_TIMED_OUT = -110; 3450 3451 /** Unspecified low-level system error. This value originated from UNKNOWN_ERROR in 3452 * system/core/include/utils/Errors.h 3453 * @see android.media.MediaPlayer.OnErrorListener 3454 * @hide 3455 */ 3456 public static final int MEDIA_ERROR_SYSTEM = -2147483648; 3457 3458 /** 3459 * Interface definition of a callback to be invoked when there 3460 * has been an error during an asynchronous operation (other errors 3461 * will throw exceptions at method call time). 3462 */ 3463 public interface OnErrorListener 3464 { 3465 /** 3466 * Called to indicate an error. 3467 * 3468 * @param mp the MediaPlayer the error pertains to 3469 * @param what the type of error that has occurred: 3470 * <ul> 3471 * <li>{@link #MEDIA_ERROR_UNKNOWN} 3472 * <li>{@link #MEDIA_ERROR_SERVER_DIED} 3473 * </ul> 3474 * @param extra an extra code, specific to the error. Typically 3475 * implementation dependent. 3476 * <ul> 3477 * <li>{@link #MEDIA_ERROR_IO} 3478 * <li>{@link #MEDIA_ERROR_MALFORMED} 3479 * <li>{@link #MEDIA_ERROR_UNSUPPORTED} 3480 * <li>{@link #MEDIA_ERROR_TIMED_OUT} 3481 * <li><code>MEDIA_ERROR_SYSTEM (-2147483648)</code> - low-level system error. 3482 * </ul> 3483 * @return True if the method handled the error, false if it didn't. 3484 * Returning false, or not having an OnErrorListener at all, will 3485 * cause the OnCompletionListener to be called. 3486 */ 3487 boolean onError(MediaPlayer mp, int what, int extra); 3488 } 3489 3490 /** 3491 * Register a callback to be invoked when an error has happened 3492 * during an asynchronous operation. 3493 * 3494 * @param listener the callback that will be run 3495 */ 3496 public void setOnErrorListener(OnErrorListener listener) 3497 { 3498 mOnErrorListener = listener; 3499 } 3500 3501 private OnErrorListener mOnErrorListener; 3502 3503 3504 /* Do not change these values without updating their counterparts 3505 * in include/media/mediaplayer.h! 3506 */ 3507 /** Unspecified media player info. 3508 * @see android.media.MediaPlayer.OnInfoListener 3509 */ 3510 public static final int MEDIA_INFO_UNKNOWN = 1; 3511 3512 /** The player was started because it was used as the next player for another 3513 * player, which just completed playback. 3514 * @see android.media.MediaPlayer.OnInfoListener 3515 * @hide 3516 */ 3517 public static final int MEDIA_INFO_STARTED_AS_NEXT = 2; 3518 3519 /** The player just pushed the very first video frame for rendering. 3520 * @see android.media.MediaPlayer.OnInfoListener 3521 */ 3522 public static final int MEDIA_INFO_VIDEO_RENDERING_START = 3; 3523 3524 /** The video is too complex for the decoder: it can't decode frames fast 3525 * enough. Possibly only the audio plays fine at this stage. 3526 * @see android.media.MediaPlayer.OnInfoListener 3527 */ 3528 public static final int MEDIA_INFO_VIDEO_TRACK_LAGGING = 700; 3529 3530 /** MediaPlayer is temporarily pausing playback internally in order to 3531 * buffer more data. 3532 * @see android.media.MediaPlayer.OnInfoListener 3533 */ 3534 public static final int MEDIA_INFO_BUFFERING_START = 701; 3535 3536 /** MediaPlayer is resuming playback after filling buffers. 3537 * @see android.media.MediaPlayer.OnInfoListener 3538 */ 3539 public static final int MEDIA_INFO_BUFFERING_END = 702; 3540 3541 /** Estimated network bandwidth information (kbps) is available; currently this event fires 3542 * simultaneously as {@link #MEDIA_INFO_BUFFERING_START} and {@link #MEDIA_INFO_BUFFERING_END} 3543 * when playing network files. 3544 * @see android.media.MediaPlayer.OnInfoListener 3545 * @hide 3546 */ 3547 public static final int MEDIA_INFO_NETWORK_BANDWIDTH = 703; 3548 3549 /** Bad interleaving means that a media has been improperly interleaved or 3550 * not interleaved at all, e.g has all the video samples first then all the 3551 * audio ones. Video is playing but a lot of disk seeks may be happening. 3552 * @see android.media.MediaPlayer.OnInfoListener 3553 */ 3554 public static final int MEDIA_INFO_BAD_INTERLEAVING = 800; 3555 3556 /** The media cannot be seeked (e.g live stream) 3557 * @see android.media.MediaPlayer.OnInfoListener 3558 */ 3559 public static final int MEDIA_INFO_NOT_SEEKABLE = 801; 3560 3561 /** A new set of metadata is available. 3562 * @see android.media.MediaPlayer.OnInfoListener 3563 */ 3564 public static final int MEDIA_INFO_METADATA_UPDATE = 802; 3565 3566 /** A new set of external-only metadata is available. Used by 3567 * JAVA framework to avoid triggering track scanning. 3568 * @hide 3569 */ 3570 public static final int MEDIA_INFO_EXTERNAL_METADATA_UPDATE = 803; 3571 3572 /** Failed to handle timed text track properly. 3573 * @see android.media.MediaPlayer.OnInfoListener 3574 * 3575 * {@hide} 3576 */ 3577 public static final int MEDIA_INFO_TIMED_TEXT_ERROR = 900; 3578 3579 /** Subtitle track was not supported by the media framework. 3580 * @see android.media.MediaPlayer.OnInfoListener 3581 */ 3582 public static final int MEDIA_INFO_UNSUPPORTED_SUBTITLE = 901; 3583 3584 /** Reading the subtitle track takes too long. 3585 * @see android.media.MediaPlayer.OnInfoListener 3586 */ 3587 public static final int MEDIA_INFO_SUBTITLE_TIMED_OUT = 902; 3588 3589 /** 3590 * Interface definition of a callback to be invoked to communicate some 3591 * info and/or warning about the media or its playback. 3592 */ 3593 public interface OnInfoListener 3594 { 3595 /** 3596 * Called to indicate an info or a warning. 3597 * 3598 * @param mp the MediaPlayer the info pertains to. 3599 * @param what the type of info or warning. 3600 * <ul> 3601 * <li>{@link #MEDIA_INFO_UNKNOWN} 3602 * <li>{@link #MEDIA_INFO_VIDEO_TRACK_LAGGING} 3603 * <li>{@link #MEDIA_INFO_VIDEO_RENDERING_START} 3604 * <li>{@link #MEDIA_INFO_BUFFERING_START} 3605 * <li>{@link #MEDIA_INFO_BUFFERING_END} 3606 * <li><code>MEDIA_INFO_NETWORK_BANDWIDTH (703)</code> - 3607 * bandwidth information is available (as <code>extra</code> kbps) 3608 * <li>{@link #MEDIA_INFO_BAD_INTERLEAVING} 3609 * <li>{@link #MEDIA_INFO_NOT_SEEKABLE} 3610 * <li>{@link #MEDIA_INFO_METADATA_UPDATE} 3611 * <li>{@link #MEDIA_INFO_UNSUPPORTED_SUBTITLE} 3612 * <li>{@link #MEDIA_INFO_SUBTITLE_TIMED_OUT} 3613 * </ul> 3614 * @param extra an extra code, specific to the info. Typically 3615 * implementation dependent. 3616 * @return True if the method handled the info, false if it didn't. 3617 * Returning false, or not having an OnInfoListener at all, will 3618 * cause the info to be discarded. 3619 */ 3620 boolean onInfo(MediaPlayer mp, int what, int extra); 3621 } 3622 3623 /** 3624 * Register a callback to be invoked when an info/warning is available. 3625 * 3626 * @param listener the callback that will be run 3627 */ 3628 public void setOnInfoListener(OnInfoListener listener) 3629 { 3630 mOnInfoListener = listener; 3631 } 3632 3633 private OnInfoListener mOnInfoListener; 3634 3635 /* 3636 * Test whether a given video scaling mode is supported. 3637 */ 3638 private boolean isVideoScalingModeSupported(int mode) { 3639 return (mode == VIDEO_SCALING_MODE_SCALE_TO_FIT || 3640 mode == VIDEO_SCALING_MODE_SCALE_TO_FIT_WITH_CROPPING); 3641 } 3642 3643 /** @hide */ 3644 static class TimeProvider implements MediaPlayer.OnSeekCompleteListener, 3645 MediaTimeProvider { 3646 private static final String TAG = "MTP"; 3647 private static final long MAX_NS_WITHOUT_POSITION_CHECK = 5000000000L; 3648 private static final long MAX_EARLY_CALLBACK_US = 1000; 3649 private static final long TIME_ADJUSTMENT_RATE = 2; /* meaning 1/2 */ 3650 private long mLastTimeUs = 0; 3651 private MediaPlayer mPlayer; 3652 private boolean mPaused = true; 3653 private boolean mStopped = true; 3654 private boolean mBuffering; 3655 private long mLastReportedTime; 3656 private long mTimeAdjustment; 3657 // since we are expecting only a handful listeners per stream, there is 3658 // no need for log(N) search performance 3659 private MediaTimeProvider.OnMediaTimeListener mListeners[]; 3660 private long mTimes[]; 3661 private long mLastNanoTime; 3662 private Handler mEventHandler; 3663 private boolean mRefresh = false; 3664 private boolean mPausing = false; 3665 private boolean mSeeking = false; 3666 private static final int NOTIFY = 1; 3667 private static final int NOTIFY_TIME = 0; 3668 private static final int REFRESH_AND_NOTIFY_TIME = 1; 3669 private static final int NOTIFY_STOP = 2; 3670 private static final int NOTIFY_SEEK = 3; 3671 private static final int NOTIFY_TRACK_DATA = 4; 3672 private HandlerThread mHandlerThread; 3673 3674 /** @hide */ 3675 public boolean DEBUG = false; 3676 3677 public TimeProvider(MediaPlayer mp) { 3678 mPlayer = mp; 3679 try { 3680 getCurrentTimeUs(true, false); 3681 } catch (IllegalStateException e) { 3682 // we assume starting position 3683 mRefresh = true; 3684 } 3685 3686 Looper looper; 3687 if ((looper = Looper.myLooper()) == null && 3688 (looper = Looper.getMainLooper()) == null) { 3689 // Create our own looper here in case MP was created without one 3690 mHandlerThread = new HandlerThread("MediaPlayerMTPEventThread", 3691 Process.THREAD_PRIORITY_FOREGROUND); 3692 mHandlerThread.start(); 3693 looper = mHandlerThread.getLooper(); 3694 } 3695 mEventHandler = new EventHandler(looper); 3696 3697 mListeners = new MediaTimeProvider.OnMediaTimeListener[0]; 3698 mTimes = new long[0]; 3699 mLastTimeUs = 0; 3700 mTimeAdjustment = 0; 3701 } 3702 3703 private void scheduleNotification(int type, long delayUs) { 3704 // ignore time notifications until seek is handled 3705 if (mSeeking && 3706 (type == NOTIFY_TIME || type == REFRESH_AND_NOTIFY_TIME)) { 3707 return; 3708 } 3709 3710 if (DEBUG) Log.v(TAG, "scheduleNotification " + type + " in " + delayUs); 3711 mEventHandler.removeMessages(NOTIFY); 3712 Message msg = mEventHandler.obtainMessage(NOTIFY, type, 0); 3713 mEventHandler.sendMessageDelayed(msg, (int) (delayUs / 1000)); 3714 } 3715 3716 /** @hide */ 3717 public void close() { 3718 mEventHandler.removeMessages(NOTIFY); 3719 if (mHandlerThread != null) { 3720 mHandlerThread.quitSafely(); 3721 mHandlerThread = null; 3722 } 3723 } 3724 3725 /** @hide */ 3726 protected void finalize() { 3727 if (mHandlerThread != null) { 3728 mHandlerThread.quitSafely(); 3729 } 3730 } 3731 3732 /** @hide */ 3733 public void onPaused(boolean paused) { 3734 synchronized(this) { 3735 if (DEBUG) Log.d(TAG, "onPaused: " + paused); 3736 if (mStopped) { // handle as seek if we were stopped 3737 mStopped = false; 3738 mSeeking = true; 3739 scheduleNotification(NOTIFY_SEEK, 0 /* delay */); 3740 } else { 3741 mPausing = paused; // special handling if player disappeared 3742 mSeeking = false; 3743 scheduleNotification(REFRESH_AND_NOTIFY_TIME, 0 /* delay */); 3744 } 3745 } 3746 } 3747 3748 /** @hide */ 3749 public void onBuffering(boolean buffering) { 3750 synchronized (this) { 3751 if (DEBUG) Log.d(TAG, "onBuffering: " + buffering); 3752 mBuffering = buffering; 3753 scheduleNotification(REFRESH_AND_NOTIFY_TIME, 0 /* delay */); 3754 } 3755 } 3756 3757 /** @hide */ 3758 public void onStopped() { 3759 synchronized(this) { 3760 if (DEBUG) Log.d(TAG, "onStopped"); 3761 mPaused = true; 3762 mStopped = true; 3763 mSeeking = false; 3764 mBuffering = false; 3765 scheduleNotification(NOTIFY_STOP, 0 /* delay */); 3766 } 3767 } 3768 3769 /** @hide */ 3770 @Override 3771 public void onSeekComplete(MediaPlayer mp) { 3772 synchronized(this) { 3773 mStopped = false; 3774 mSeeking = true; 3775 scheduleNotification(NOTIFY_SEEK, 0 /* delay */); 3776 } 3777 } 3778 3779 /** @hide */ 3780 public void onNewPlayer() { 3781 if (mRefresh) { 3782 synchronized(this) { 3783 mStopped = false; 3784 mSeeking = true; 3785 mBuffering = false; 3786 scheduleNotification(NOTIFY_SEEK, 0 /* delay */); 3787 } 3788 } 3789 } 3790 3791 private synchronized void notifySeek() { 3792 mSeeking = false; 3793 try { 3794 long timeUs = getCurrentTimeUs(true, false); 3795 if (DEBUG) Log.d(TAG, "onSeekComplete at " + timeUs); 3796 3797 for (MediaTimeProvider.OnMediaTimeListener listener: mListeners) { 3798 if (listener == null) { 3799 break; 3800 } 3801 listener.onSeek(timeUs); 3802 } 3803 } catch (IllegalStateException e) { 3804 // we should not be there, but at least signal pause 3805 if (DEBUG) Log.d(TAG, "onSeekComplete but no player"); 3806 mPausing = true; // special handling if player disappeared 3807 notifyTimedEvent(false /* refreshTime */); 3808 } 3809 } 3810 3811 private synchronized void notifyTrackData(Pair<SubtitleTrack, byte[]> trackData) { 3812 SubtitleTrack track = trackData.first; 3813 byte[] data = trackData.second; 3814 track.onData(data, true /* eos */, ~0 /* runID: keep forever */); 3815 } 3816 3817 private synchronized void notifyStop() { 3818 for (MediaTimeProvider.OnMediaTimeListener listener: mListeners) { 3819 if (listener == null) { 3820 break; 3821 } 3822 listener.onStop(); 3823 } 3824 } 3825 3826 private int registerListener(MediaTimeProvider.OnMediaTimeListener listener) { 3827 int i = 0; 3828 for (; i < mListeners.length; i++) { 3829 if (mListeners[i] == listener || mListeners[i] == null) { 3830 break; 3831 } 3832 } 3833 3834 // new listener 3835 if (i >= mListeners.length) { 3836 MediaTimeProvider.OnMediaTimeListener[] newListeners = 3837 new MediaTimeProvider.OnMediaTimeListener[i + 1]; 3838 long[] newTimes = new long[i + 1]; 3839 System.arraycopy(mListeners, 0, newListeners, 0, mListeners.length); 3840 System.arraycopy(mTimes, 0, newTimes, 0, mTimes.length); 3841 mListeners = newListeners; 3842 mTimes = newTimes; 3843 } 3844 3845 if (mListeners[i] == null) { 3846 mListeners[i] = listener; 3847 mTimes[i] = MediaTimeProvider.NO_TIME; 3848 } 3849 return i; 3850 } 3851 3852 public void notifyAt( 3853 long timeUs, MediaTimeProvider.OnMediaTimeListener listener) { 3854 synchronized(this) { 3855 if (DEBUG) Log.d(TAG, "notifyAt " + timeUs); 3856 mTimes[registerListener(listener)] = timeUs; 3857 scheduleNotification(NOTIFY_TIME, 0 /* delay */); 3858 } 3859 } 3860 3861 public void scheduleUpdate(MediaTimeProvider.OnMediaTimeListener listener) { 3862 synchronized(this) { 3863 if (DEBUG) Log.d(TAG, "scheduleUpdate"); 3864 int i = registerListener(listener); 3865 3866 if (!mStopped) { 3867 mTimes[i] = 0; 3868 scheduleNotification(NOTIFY_TIME, 0 /* delay */); 3869 } 3870 } 3871 } 3872 3873 public void cancelNotifications( 3874 MediaTimeProvider.OnMediaTimeListener listener) { 3875 synchronized(this) { 3876 int i = 0; 3877 for (; i < mListeners.length; i++) { 3878 if (mListeners[i] == listener) { 3879 System.arraycopy(mListeners, i + 1, 3880 mListeners, i, mListeners.length - i - 1); 3881 System.arraycopy(mTimes, i + 1, 3882 mTimes, i, mTimes.length - i - 1); 3883 mListeners[mListeners.length - 1] = null; 3884 mTimes[mTimes.length - 1] = NO_TIME; 3885 break; 3886 } else if (mListeners[i] == null) { 3887 break; 3888 } 3889 } 3890 3891 scheduleNotification(NOTIFY_TIME, 0 /* delay */); 3892 } 3893 } 3894 3895 private synchronized void notifyTimedEvent(boolean refreshTime) { 3896 // figure out next callback 3897 long nowUs; 3898 try { 3899 nowUs = getCurrentTimeUs(refreshTime, true); 3900 } catch (IllegalStateException e) { 3901 // assume we paused until new player arrives 3902 mRefresh = true; 3903 mPausing = true; // this ensures that call succeeds 3904 nowUs = getCurrentTimeUs(refreshTime, true); 3905 } 3906 long nextTimeUs = nowUs; 3907 3908 if (mSeeking) { 3909 // skip timed-event notifications until seek is complete 3910 return; 3911 } 3912 3913 if (DEBUG) { 3914 StringBuilder sb = new StringBuilder(); 3915 sb.append("notifyTimedEvent(").append(mLastTimeUs).append(" -> ") 3916 .append(nowUs).append(") from {"); 3917 boolean first = true; 3918 for (long time: mTimes) { 3919 if (time == NO_TIME) { 3920 continue; 3921 } 3922 if (!first) sb.append(", "); 3923 sb.append(time); 3924 first = false; 3925 } 3926 sb.append("}"); 3927 Log.d(TAG, sb.toString()); 3928 } 3929 3930 Vector<MediaTimeProvider.OnMediaTimeListener> activatedListeners = 3931 new Vector<MediaTimeProvider.OnMediaTimeListener>(); 3932 for (int ix = 0; ix < mTimes.length; ix++) { 3933 if (mListeners[ix] == null) { 3934 break; 3935 } 3936 if (mTimes[ix] <= NO_TIME) { 3937 // ignore, unless we were stopped 3938 } else if (mTimes[ix] <= nowUs + MAX_EARLY_CALLBACK_US) { 3939 activatedListeners.add(mListeners[ix]); 3940 if (DEBUG) Log.d(TAG, "removed"); 3941 mTimes[ix] = NO_TIME; 3942 } else if (nextTimeUs == nowUs || mTimes[ix] < nextTimeUs) { 3943 nextTimeUs = mTimes[ix]; 3944 } 3945 } 3946 3947 if (nextTimeUs > nowUs && !mPaused) { 3948 // schedule callback at nextTimeUs 3949 if (DEBUG) Log.d(TAG, "scheduling for " + nextTimeUs + " and " + nowUs); 3950 scheduleNotification(NOTIFY_TIME, nextTimeUs - nowUs); 3951 } else { 3952 mEventHandler.removeMessages(NOTIFY); 3953 // no more callbacks 3954 } 3955 3956 for (MediaTimeProvider.OnMediaTimeListener listener: activatedListeners) { 3957 listener.onTimedEvent(nowUs); 3958 } 3959 } 3960 3961 private long getEstimatedTime(long nanoTime, boolean monotonic) { 3962 if (mPaused) { 3963 mLastReportedTime = mLastTimeUs + mTimeAdjustment; 3964 } else { 3965 long timeSinceRead = (nanoTime - mLastNanoTime) / 1000; 3966 mLastReportedTime = mLastTimeUs + timeSinceRead; 3967 if (mTimeAdjustment > 0) { 3968 long adjustment = 3969 mTimeAdjustment - timeSinceRead / TIME_ADJUSTMENT_RATE; 3970 if (adjustment <= 0) { 3971 mTimeAdjustment = 0; 3972 } else { 3973 mLastReportedTime += adjustment; 3974 } 3975 } 3976 } 3977 return mLastReportedTime; 3978 } 3979 3980 public long getCurrentTimeUs(boolean refreshTime, boolean monotonic) 3981 throws IllegalStateException { 3982 synchronized (this) { 3983 // we always refresh the time when the paused-state changes, because 3984 // we expect to have received the pause-change event delayed. 3985 if (mPaused && !refreshTime) { 3986 return mLastReportedTime; 3987 } 3988 3989 long nanoTime = System.nanoTime(); 3990 if (refreshTime || 3991 nanoTime >= mLastNanoTime + MAX_NS_WITHOUT_POSITION_CHECK) { 3992 try { 3993 mLastTimeUs = mPlayer.getCurrentPosition() * 1000L; 3994 mPaused = !mPlayer.isPlaying() || mBuffering; 3995 if (DEBUG) Log.v(TAG, (mPaused ? "paused" : "playing") + " at " + mLastTimeUs); 3996 } catch (IllegalStateException e) { 3997 if (mPausing) { 3998 // if we were pausing, get last estimated timestamp 3999 mPausing = false; 4000 getEstimatedTime(nanoTime, monotonic); 4001 mPaused = true; 4002 if (DEBUG) Log.d(TAG, "illegal state, but pausing: estimating at " + mLastReportedTime); 4003 return mLastReportedTime; 4004 } 4005 // TODO get time when prepared 4006 throw e; 4007 } 4008 mLastNanoTime = nanoTime; 4009 if (monotonic && mLastTimeUs < mLastReportedTime) { 4010 /* have to adjust time */ 4011 mTimeAdjustment = mLastReportedTime - mLastTimeUs; 4012 if (mTimeAdjustment > 1000000) { 4013 // schedule seeked event if time jumped significantly 4014 // TODO: do this properly by introducing an exception 4015 mStopped = false; 4016 mSeeking = true; 4017 scheduleNotification(NOTIFY_SEEK, 0 /* delay */); 4018 } 4019 } else { 4020 mTimeAdjustment = 0; 4021 } 4022 } 4023 4024 return getEstimatedTime(nanoTime, monotonic); 4025 } 4026 } 4027 4028 private class EventHandler extends Handler { 4029 public EventHandler(Looper looper) { 4030 super(looper); 4031 } 4032 4033 @Override 4034 public void handleMessage(Message msg) { 4035 if (msg.what == NOTIFY) { 4036 switch (msg.arg1) { 4037 case NOTIFY_TIME: 4038 notifyTimedEvent(false /* refreshTime */); 4039 break; 4040 case REFRESH_AND_NOTIFY_TIME: 4041 notifyTimedEvent(true /* refreshTime */); 4042 break; 4043 case NOTIFY_STOP: 4044 notifyStop(); 4045 break; 4046 case NOTIFY_SEEK: 4047 notifySeek(); 4048 break; 4049 case NOTIFY_TRACK_DATA: 4050 notifyTrackData((Pair<SubtitleTrack, byte[]>)msg.obj); 4051 break; 4052 } 4053 } 4054 } 4055 } 4056 } 4057} 4058