1 /* 2 * Copyright (C) 2014 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 17 package com.android.server.hdmi; 18 19 import static android.hardware.hdmi.HdmiControlManager.CLEAR_TIMER_STATUS_CEC_DISABLE; 20 import static android.hardware.hdmi.HdmiControlManager.CLEAR_TIMER_STATUS_CHECK_RECORDER_CONNECTION; 21 import static android.hardware.hdmi.HdmiControlManager.CLEAR_TIMER_STATUS_FAIL_TO_CLEAR_SELECTED_SOURCE; 22 import static android.hardware.hdmi.HdmiControlManager.ONE_TOUCH_RECORD_CEC_DISABLED; 23 import static android.hardware.hdmi.HdmiControlManager.ONE_TOUCH_RECORD_CHECK_RECORDER_CONNECTION; 24 import static android.hardware.hdmi.HdmiControlManager.ONE_TOUCH_RECORD_FAIL_TO_RECORD_DISPLAYED_SCREEN; 25 import static android.hardware.hdmi.HdmiControlManager.OSD_MESSAGE_ARC_CONNECTED_INVALID_PORT; 26 import static android.hardware.hdmi.HdmiControlManager.TIMER_RECORDING_RESULT_EXTRA_CEC_DISABLED; 27 import static android.hardware.hdmi.HdmiControlManager.TIMER_RECORDING_RESULT_EXTRA_CHECK_RECORDER_CONNECTION; 28 import static android.hardware.hdmi.HdmiControlManager.TIMER_RECORDING_RESULT_EXTRA_FAIL_TO_RECORD_SELECTED_SOURCE; 29 import static android.hardware.hdmi.HdmiControlManager.TIMER_RECORDING_TYPE_ANALOGUE; 30 import static android.hardware.hdmi.HdmiControlManager.TIMER_RECORDING_TYPE_DIGITAL; 31 import static android.hardware.hdmi.HdmiControlManager.TIMER_RECORDING_TYPE_EXTERNAL; 32 33 import android.annotation.Nullable; 34 import android.content.Context; 35 import android.hardware.hdmi.HdmiControlManager; 36 import android.hardware.hdmi.HdmiDeviceInfo; 37 import android.hardware.hdmi.HdmiPortInfo; 38 import android.hardware.hdmi.HdmiRecordSources; 39 import android.hardware.hdmi.HdmiTimerRecordSources; 40 import android.hardware.hdmi.IHdmiControlCallback; 41 import android.media.AudioManager; 42 import android.media.AudioSystem; 43 import android.media.tv.TvInputInfo; 44 import android.media.tv.TvInputManager; 45 import android.media.tv.TvInputManager.TvInputCallback; 46 import android.os.RemoteException; 47 import android.os.SystemProperties; 48 import android.provider.Settings.Global; 49 import android.util.ArraySet; 50 import android.util.Slog; 51 import android.util.SparseArray; 52 53 import com.android.internal.annotations.GuardedBy; 54 import com.android.internal.util.IndentingPrintWriter; 55 import com.android.server.hdmi.DeviceDiscoveryAction.DeviceDiscoveryCallback; 56 import com.android.server.hdmi.HdmiAnnotations.ServiceThreadOnly; 57 import com.android.server.hdmi.HdmiControlService.SendMessageCallback; 58 import com.android.server.SystemService; 59 60 import java.io.UnsupportedEncodingException; 61 import java.util.ArrayList; 62 import java.util.Arrays; 63 import java.util.Collection; 64 import java.util.Collections; 65 import java.util.Iterator; 66 import java.util.List; 67 import java.util.HashMap; 68 69 /** 70 * Represent a logical device of type TV residing in Android system. 71 */ 72 final class HdmiCecLocalDeviceTv extends HdmiCecLocalDevice { 73 private static final String TAG = "HdmiCecLocalDeviceTv"; 74 75 // Whether ARC is available or not. "true" means that ARC is established between TV and 76 // AVR as audio receiver. 77 @ServiceThreadOnly 78 private boolean mArcEstablished = false; 79 80 // Whether ARC feature is enabled or not. The default value is true. 81 // TODO: once adding system setting for it, read the value to it. 82 private boolean mArcFeatureEnabled = true; 83 84 // Whether System audio mode is activated or not. 85 // This becomes true only when all system audio sequences are finished. 86 @GuardedBy("mLock") 87 private boolean mSystemAudioActivated = false; 88 89 // The previous port id (input) before switching to the new one. This is remembered in order to 90 // be able to switch to it upon receiving <Inactive Source> from currently active source. 91 // This remains valid only when the active source was switched via one touch play operation 92 // (either by TV or source device). Manual port switching invalidates this value to 93 // Constants.PORT_INVALID, for which case <Inactive Source> does not do anything. 94 @GuardedBy("mLock") 95 private int mPrevPortId; 96 97 @GuardedBy("mLock") 98 private int mSystemAudioVolume = Constants.UNKNOWN_VOLUME; 99 100 @GuardedBy("mLock") 101 private boolean mSystemAudioMute = false; 102 103 // Copy of mDeviceInfos to guarantee thread-safety. 104 @GuardedBy("mLock") 105 private List<HdmiDeviceInfo> mSafeAllDeviceInfos = Collections.emptyList(); 106 // All external cec input(source) devices. Does not include system audio device. 107 @GuardedBy("mLock") 108 private List<HdmiDeviceInfo> mSafeExternalInputs = Collections.emptyList(); 109 110 // Map-like container of all cec devices including local ones. 111 // device id is used as key of container. 112 // This is not thread-safe. For external purpose use mSafeDeviceInfos. 113 private final SparseArray<HdmiDeviceInfo> mDeviceInfos = new SparseArray<>(); 114 115 // If true, TV going to standby mode puts other devices also to standby. 116 private boolean mAutoDeviceOff; 117 118 // If true, TV wakes itself up when receiving <Text/Image View On>. 119 private boolean mAutoWakeup; 120 121 // List of the logical address of local CEC devices. Unmodifiable, thread-safe. 122 private List<Integer> mLocalDeviceAddresses; 123 124 private final HdmiCecStandbyModeHandler mStandbyHandler; 125 126 // If true, do not do routing control/send active source for internal source. 127 // Set to true when the device was woken up by <Text/Image View On>. 128 private boolean mSkipRoutingControl; 129 130 // Set of physical addresses of CEC switches on the CEC bus. Managed independently from 131 // other CEC devices since they might not have logical address. 132 private final ArraySet<Integer> mCecSwitches = new ArraySet<Integer>(); 133 134 // Message buffer used to buffer selected messages to process later. <Active Source> 135 // from a source device, for instance, needs to be buffered if the device is not 136 // discovered yet. The buffered commands are taken out and when they are ready to 137 // handle. 138 private final DelayedMessageBuffer mDelayedMessageBuffer = new DelayedMessageBuffer(this); 139 140 // Defines the callback invoked when TV input framework is updated with input status. 141 // We are interested in the notification for HDMI input addition event, in order to 142 // process any CEC commands that arrived before the input is added. 143 private final TvInputCallback mTvInputCallback = new TvInputCallback() { 144 @Override 145 public void onInputAdded(String inputId) { 146 TvInputInfo tvInfo = mService.getTvInputManager().getTvInputInfo(inputId); 147 HdmiDeviceInfo info = tvInfo.getHdmiDeviceInfo(); 148 if (info == null) return; 149 addTvInput(inputId, info.getId()); 150 if (info.isCecDevice()) { 151 processDelayedActiveSource(info.getLogicalAddress()); 152 } 153 } 154 155 @Override 156 public void onInputRemoved(String inputId) { 157 removeTvInput(inputId); 158 } 159 }; 160 161 // Keeps the mapping (TV input ID, HDMI device ID) to keep track of the TV inputs ready to 162 // accept input switching request from HDMI devices. Requests for which the corresponding 163 // input ID is not yet registered by TV input framework need to be buffered for delayed 164 // processing. 165 private final HashMap<String, Integer> mTvInputs = new HashMap<>(); 166 167 @ServiceThreadOnly 168 private void addTvInput(String inputId, int deviceId) { 169 assertRunOnServiceThread(); 170 mTvInputs.put(inputId, deviceId); 171 } 172 173 @ServiceThreadOnly 174 private void removeTvInput(String inputId) { 175 assertRunOnServiceThread(); 176 mTvInputs.remove(inputId); 177 } 178 179 @Override 180 @ServiceThreadOnly 181 protected boolean isInputReady(int deviceId) { 182 assertRunOnServiceThread(); 183 return mTvInputs.containsValue(deviceId); 184 } 185 186 HdmiCecLocalDeviceTv(HdmiControlService service) { 187 super(service, HdmiDeviceInfo.DEVICE_TV); 188 mPrevPortId = Constants.INVALID_PORT_ID; 189 mAutoDeviceOff = mService.readBooleanSetting(Global.HDMI_CONTROL_AUTO_DEVICE_OFF_ENABLED, 190 true); 191 mAutoWakeup = mService.readBooleanSetting(Global.HDMI_CONTROL_AUTO_WAKEUP_ENABLED, true); 192 mStandbyHandler = new HdmiCecStandbyModeHandler(service, this); 193 } 194 195 @Override 196 @ServiceThreadOnly 197 protected void onAddressAllocated(int logicalAddress, int reason) { 198 assertRunOnServiceThread(); 199 mService.registerTvInputCallback(mTvInputCallback); 200 mService.sendCecCommand(HdmiCecMessageBuilder.buildReportPhysicalAddressCommand( 201 mAddress, mService.getPhysicalAddress(), mDeviceType)); 202 mService.sendCecCommand(HdmiCecMessageBuilder.buildDeviceVendorIdCommand( 203 mAddress, mService.getVendorId())); 204 mCecSwitches.add(mService.getPhysicalAddress()); // TV is a CEC switch too. 205 mTvInputs.clear(); 206 mSkipRoutingControl = (reason == HdmiControlService.INITIATED_BY_WAKE_UP_MESSAGE); 207 launchRoutingControl(reason != HdmiControlService.INITIATED_BY_ENABLE_CEC && 208 reason != HdmiControlService.INITIATED_BY_BOOT_UP); 209 mLocalDeviceAddresses = initLocalDeviceAddresses(); 210 launchDeviceDiscovery(); 211 startQueuedActions(); 212 } 213 214 215 @ServiceThreadOnly 216 private List<Integer> initLocalDeviceAddresses() { 217 assertRunOnServiceThread(); 218 List<Integer> addresses = new ArrayList<>(); 219 for (HdmiCecLocalDevice device : mService.getAllLocalDevices()) { 220 addresses.add(device.getDeviceInfo().getLogicalAddress()); 221 } 222 return Collections.unmodifiableList(addresses); 223 } 224 225 @Override 226 protected int getPreferredAddress() { 227 return Constants.ADDR_TV; 228 } 229 230 @Override 231 protected void setPreferredAddress(int addr) { 232 Slog.w(TAG, "Preferred addres will not be stored for TV"); 233 } 234 235 @Override 236 @ServiceThreadOnly 237 boolean dispatchMessage(HdmiCecMessage message) { 238 assertRunOnServiceThread(); 239 if (mService.isPowerStandby() && mStandbyHandler.handleCommand(message)) { 240 return true; 241 } 242 return super.onMessage(message); 243 } 244 245 /** 246 * Performs the action 'device select', or 'one touch play' initiated by TV. 247 * 248 * @param id id of HDMI device to select 249 * @param callback callback object to report the result with 250 */ 251 @ServiceThreadOnly 252 void deviceSelect(int id, IHdmiControlCallback callback) { 253 assertRunOnServiceThread(); 254 HdmiDeviceInfo targetDevice = mDeviceInfos.get(id); 255 if (targetDevice == null) { 256 invokeCallback(callback, HdmiControlManager.RESULT_TARGET_NOT_AVAILABLE); 257 return; 258 } 259 int targetAddress = targetDevice.getLogicalAddress(); 260 ActiveSource active = getActiveSource(); 261 if (active.isValid() && targetAddress == active.logicalAddress) { 262 invokeCallback(callback, HdmiControlManager.RESULT_SUCCESS); 263 return; 264 } 265 if (targetAddress == Constants.ADDR_INTERNAL) { 266 handleSelectInternalSource(); 267 // Switching to internal source is always successful even when CEC control is disabled. 268 setActiveSource(targetAddress, mService.getPhysicalAddress()); 269 setActivePath(mService.getPhysicalAddress()); 270 invokeCallback(callback, HdmiControlManager.RESULT_SUCCESS); 271 return; 272 } 273 if (!mService.isControlEnabled()) { 274 setActiveSource(targetDevice); 275 invokeCallback(callback, HdmiControlManager.RESULT_INCORRECT_MODE); 276 return; 277 } 278 removeAction(DeviceSelectAction.class); 279 addAndStartAction(new DeviceSelectAction(this, targetDevice, callback)); 280 } 281 282 @ServiceThreadOnly 283 private void handleSelectInternalSource() { 284 assertRunOnServiceThread(); 285 // Seq #18 286 if (mService.isControlEnabled() && mActiveSource.logicalAddress != mAddress) { 287 updateActiveSource(mAddress, mService.getPhysicalAddress()); 288 if (mSkipRoutingControl) { 289 mSkipRoutingControl = false; 290 return; 291 } 292 HdmiCecMessage activeSource = HdmiCecMessageBuilder.buildActiveSource( 293 mAddress, mService.getPhysicalAddress()); 294 mService.sendCecCommand(activeSource); 295 } 296 } 297 298 @ServiceThreadOnly 299 void updateActiveSource(int logicalAddress, int physicalAddress) { 300 assertRunOnServiceThread(); 301 updateActiveSource(ActiveSource.of(logicalAddress, physicalAddress)); 302 } 303 304 @ServiceThreadOnly 305 void updateActiveSource(ActiveSource newActive) { 306 assertRunOnServiceThread(); 307 // Seq #14 308 if (mActiveSource.equals(newActive)) { 309 return; 310 } 311 setActiveSource(newActive); 312 int logicalAddress = newActive.logicalAddress; 313 if (getCecDeviceInfo(logicalAddress) != null && logicalAddress != mAddress) { 314 if (mService.pathToPortId(newActive.physicalAddress) == getActivePortId()) { 315 setPrevPortId(getActivePortId()); 316 } 317 // TODO: Show the OSD banner related to the new active source device. 318 } else { 319 // TODO: If displayed, remove the OSD banner related to the previous 320 // active source device. 321 } 322 } 323 324 int getPortId(int physicalAddress) { 325 return mService.pathToPortId(physicalAddress); 326 } 327 328 /** 329 * Returns the previous port id kept to handle input switching on <Inactive Source>. 330 */ 331 int getPrevPortId() { 332 synchronized (mLock) { 333 return mPrevPortId; 334 } 335 } 336 337 /** 338 * Sets the previous port id. INVALID_PORT_ID invalidates it, hence no actions will be 339 * taken for <Inactive Source>. 340 */ 341 void setPrevPortId(int portId) { 342 synchronized (mLock) { 343 mPrevPortId = portId; 344 } 345 } 346 347 @ServiceThreadOnly 348 void updateActiveInput(int path, boolean notifyInputChange) { 349 assertRunOnServiceThread(); 350 // Seq #15 351 setPrevPortId(getActivePortId()); 352 setActivePath(path); 353 // TODO: Handle PAP/PIP case. 354 // Show OSD port change banner 355 if (notifyInputChange) { 356 ActiveSource activeSource = getActiveSource(); 357 HdmiDeviceInfo info = getCecDeviceInfo(activeSource.logicalAddress); 358 if (info == null) { 359 info = mService.getDeviceInfoByPort(getActivePortId()); 360 if (info == null) { 361 // No CEC/MHL device is present at the port. Attempt to switch to 362 // the hardware port itself for non-CEC devices that may be connected. 363 info = new HdmiDeviceInfo(path, getActivePortId()); 364 } 365 } 366 mService.invokeInputChangeListener(info); 367 } 368 } 369 370 @ServiceThreadOnly 371 void doManualPortSwitching(int portId, IHdmiControlCallback callback) { 372 assertRunOnServiceThread(); 373 // Seq #20 374 if (!mService.isValidPortId(portId)) { 375 invokeCallback(callback, HdmiControlManager.RESULT_INCORRECT_MODE); 376 return; 377 } 378 if (portId == getActivePortId()) { 379 invokeCallback(callback, HdmiControlManager.RESULT_SUCCESS); 380 return; 381 } 382 mActiveSource.invalidate(); 383 if (!mService.isControlEnabled()) { 384 setActivePortId(portId); 385 invokeCallback(callback, HdmiControlManager.RESULT_INCORRECT_MODE); 386 return; 387 } 388 int oldPath = getActivePortId() != Constants.INVALID_PORT_ID 389 ? mService.portIdToPath(getActivePortId()) : getDeviceInfo().getPhysicalAddress(); 390 setActivePath(oldPath); 391 if (mSkipRoutingControl) { 392 mSkipRoutingControl = false; 393 return; 394 } 395 int newPath = mService.portIdToPath(portId); 396 startRoutingControl(oldPath, newPath, true, callback); 397 } 398 399 @ServiceThreadOnly 400 void startRoutingControl(int oldPath, int newPath, boolean queryDevicePowerStatus, 401 IHdmiControlCallback callback) { 402 assertRunOnServiceThread(); 403 if (oldPath == newPath) { 404 return; 405 } 406 HdmiCecMessage routingChange = 407 HdmiCecMessageBuilder.buildRoutingChange(mAddress, oldPath, newPath); 408 mService.sendCecCommand(routingChange); 409 removeAction(RoutingControlAction.class); 410 addAndStartAction( 411 new RoutingControlAction(this, newPath, queryDevicePowerStatus, callback)); 412 } 413 414 @ServiceThreadOnly 415 int getPowerStatus() { 416 assertRunOnServiceThread(); 417 return mService.getPowerStatus(); 418 } 419 420 /** 421 * Sends key to a target CEC device. 422 * 423 * @param keyCode key code to send. Defined in {@link android.view.KeyEvent}. 424 * @param isPressed true if this is key press event 425 */ 426 @Override 427 @ServiceThreadOnly 428 protected void sendKeyEvent(int keyCode, boolean isPressed) { 429 assertRunOnServiceThread(); 430 if (!HdmiCecKeycode.isSupportedKeycode(keyCode)) { 431 Slog.w(TAG, "Unsupported key: " + keyCode); 432 return; 433 } 434 List<SendKeyAction> action = getActions(SendKeyAction.class); 435 int logicalAddress = findKeyReceiverAddress(); 436 if (logicalAddress == mAddress) { 437 Slog.w(TAG, "Discard key event to itself :" + keyCode + " pressed:" + isPressed); 438 return; 439 } 440 if (!action.isEmpty()) { 441 action.get(0).processKeyEvent(keyCode, isPressed); 442 } else { 443 if (isPressed) { 444 if (logicalAddress != Constants.ADDR_INVALID) { 445 addAndStartAction(new SendKeyAction(this, logicalAddress, keyCode)); 446 return; 447 } 448 } 449 Slog.w(TAG, "Discard key event: " + keyCode + " pressed:" + isPressed); 450 } 451 } 452 453 private int findKeyReceiverAddress() { 454 if (getActiveSource().isValid()) { 455 return getActiveSource().logicalAddress; 456 } 457 HdmiDeviceInfo info = getDeviceInfoByPath(getActivePath()); 458 if (info != null) { 459 return info.getLogicalAddress(); 460 } 461 return Constants.ADDR_INVALID; 462 } 463 464 private static void invokeCallback(IHdmiControlCallback callback, int result) { 465 if (callback == null) { 466 return; 467 } 468 try { 469 callback.onComplete(result); 470 } catch (RemoteException e) { 471 Slog.e(TAG, "Invoking callback failed:" + e); 472 } 473 } 474 475 @Override 476 @ServiceThreadOnly 477 protected boolean handleActiveSource(HdmiCecMessage message) { 478 assertRunOnServiceThread(); 479 int logicalAddress = message.getSource(); 480 int physicalAddress = HdmiUtils.twoBytesToInt(message.getParams()); 481 HdmiDeviceInfo info = getCecDeviceInfo(logicalAddress); 482 if (info == null) { 483 if (!handleNewDeviceAtTheTailOfActivePath(physicalAddress)) { 484 HdmiLogger.debug("Device info %X not found; buffering the command", logicalAddress); 485 mDelayedMessageBuffer.add(message); 486 } 487 } else if (!isInputReady(info.getId())) { 488 HdmiLogger.debug("Input not ready for device: %X; buffering the command", info.getId()); 489 mDelayedMessageBuffer.add(message); 490 } else { 491 ActiveSource activeSource = ActiveSource.of(logicalAddress, physicalAddress); 492 ActiveSourceHandler.create(this, null).process(activeSource, info.getDeviceType()); 493 } 494 return true; 495 } 496 497 @Override 498 @ServiceThreadOnly 499 protected boolean handleInactiveSource(HdmiCecMessage message) { 500 assertRunOnServiceThread(); 501 // Seq #10 502 503 // Ignore <Inactive Source> from non-active source device. 504 if (getActiveSource().logicalAddress != message.getSource()) { 505 return true; 506 } 507 if (isProhibitMode()) { 508 return true; 509 } 510 int portId = getPrevPortId(); 511 if (portId != Constants.INVALID_PORT_ID) { 512 // TODO: Do this only if TV is not showing multiview like PIP/PAP. 513 514 HdmiDeviceInfo inactiveSource = getCecDeviceInfo(message.getSource()); 515 if (inactiveSource == null) { 516 return true; 517 } 518 if (mService.pathToPortId(inactiveSource.getPhysicalAddress()) == portId) { 519 return true; 520 } 521 // TODO: Switch the TV freeze mode off 522 523 doManualPortSwitching(portId, null); 524 setPrevPortId(Constants.INVALID_PORT_ID); 525 } else { 526 // No HDMI port to switch to was found. Notify the input change listers to 527 // switch to the lastly shown internal input. 528 mActiveSource.invalidate(); 529 setActivePath(Constants.INVALID_PHYSICAL_ADDRESS); 530 mService.invokeInputChangeListener(HdmiDeviceInfo.INACTIVE_DEVICE); 531 } 532 return true; 533 } 534 535 @Override 536 @ServiceThreadOnly 537 protected boolean handleRequestActiveSource(HdmiCecMessage message) { 538 assertRunOnServiceThread(); 539 // Seq #19 540 if (mAddress == getActiveSource().logicalAddress) { 541 mService.sendCecCommand( 542 HdmiCecMessageBuilder.buildActiveSource(mAddress, getActivePath())); 543 } 544 return true; 545 } 546 547 @Override 548 @ServiceThreadOnly 549 protected boolean handleGetMenuLanguage(HdmiCecMessage message) { 550 assertRunOnServiceThread(); 551 if (!broadcastMenuLanguage(mService.getLanguage())) { 552 Slog.w(TAG, "Failed to respond to <Get Menu Language>: " + message.toString()); 553 } 554 return true; 555 } 556 557 @ServiceThreadOnly 558 boolean broadcastMenuLanguage(String language) { 559 assertRunOnServiceThread(); 560 HdmiCecMessage command = HdmiCecMessageBuilder.buildSetMenuLanguageCommand( 561 mAddress, language); 562 if (command != null) { 563 mService.sendCecCommand(command); 564 return true; 565 } 566 return false; 567 } 568 569 @Override 570 @ServiceThreadOnly 571 protected boolean handleReportPhysicalAddress(HdmiCecMessage message) { 572 assertRunOnServiceThread(); 573 int path = HdmiUtils.twoBytesToInt(message.getParams()); 574 int address = message.getSource(); 575 int type = message.getParams()[2]; 576 577 if (updateCecSwitchInfo(address, type, path)) return true; 578 579 // Ignore if [Device Discovery Action] is going on. 580 if (hasAction(DeviceDiscoveryAction.class)) { 581 Slog.i(TAG, "Ignored while Device Discovery Action is in progress: " + message); 582 return true; 583 } 584 585 if (!isInDeviceList(address, path)) { 586 handleNewDeviceAtTheTailOfActivePath(path); 587 } 588 589 // Add the device ahead with default information to handle <Active Source> 590 // promptly, rather than waiting till the new device action is finished. 591 HdmiDeviceInfo deviceInfo = new HdmiDeviceInfo(address, path, getPortId(path), type, 592 Constants.UNKNOWN_VENDOR_ID, HdmiUtils.getDefaultDeviceName(address)); 593 addCecDevice(deviceInfo); 594 startNewDeviceAction(ActiveSource.of(address, path), type); 595 return true; 596 } 597 598 @Override 599 protected boolean handleReportPowerStatus(HdmiCecMessage command) { 600 int newStatus = command.getParams()[0] & 0xFF; 601 updateDevicePowerStatus(command.getSource(), newStatus); 602 return true; 603 } 604 605 @Override 606 protected boolean handleTimerStatus(HdmiCecMessage message) { 607 // Do nothing. 608 return true; 609 } 610 611 @Override 612 protected boolean handleRecordStatus(HdmiCecMessage message) { 613 // Do nothing. 614 return true; 615 } 616 617 boolean updateCecSwitchInfo(int address, int type, int path) { 618 if (address == Constants.ADDR_UNREGISTERED 619 && type == HdmiDeviceInfo.DEVICE_PURE_CEC_SWITCH) { 620 mCecSwitches.add(path); 621 updateSafeDeviceInfoList(); 622 return true; // Pure switch does not need further processing. Return here. 623 } 624 if (type == HdmiDeviceInfo.DEVICE_AUDIO_SYSTEM) { 625 mCecSwitches.add(path); 626 } 627 return false; 628 } 629 630 void startNewDeviceAction(ActiveSource activeSource, int deviceType) { 631 for (NewDeviceAction action : getActions(NewDeviceAction.class)) { 632 // If there is new device action which has the same logical address and path 633 // ignore new request. 634 // NewDeviceAction is created whenever it receives <Report Physical Address>. 635 // And there is a chance starting NewDeviceAction for the same source. 636 // Usually, new device sends <Report Physical Address> when it's plugged 637 // in. However, TV can detect a new device from HotPlugDetectionAction, 638 // which sends <Give Physical Address> to the source for newly detected 639 // device. 640 if (action.isActionOf(activeSource)) { 641 return; 642 } 643 } 644 645 addAndStartAction(new NewDeviceAction(this, activeSource.logicalAddress, 646 activeSource.physicalAddress, deviceType)); 647 } 648 649 private boolean handleNewDeviceAtTheTailOfActivePath(int path) { 650 // Seq #22 651 if (isTailOfActivePath(path, getActivePath())) { 652 int newPath = mService.portIdToPath(getActivePortId()); 653 setActivePath(newPath); 654 startRoutingControl(getActivePath(), newPath, false, null); 655 return true; 656 } 657 return false; 658 } 659 660 /** 661 * Whether the given path is located in the tail of current active path. 662 * 663 * @param path to be tested 664 * @param activePath current active path 665 * @return true if the given path is located in the tail of current active path; otherwise, 666 * false 667 */ 668 static boolean isTailOfActivePath(int path, int activePath) { 669 // If active routing path is internal source, return false. 670 if (activePath == 0) { 671 return false; 672 } 673 for (int i = 12; i >= 0; i -= 4) { 674 int curActivePath = (activePath >> i) & 0xF; 675 if (curActivePath == 0) { 676 return true; 677 } else { 678 int curPath = (path >> i) & 0xF; 679 if (curPath != curActivePath) { 680 return false; 681 } 682 } 683 } 684 return false; 685 } 686 687 @Override 688 @ServiceThreadOnly 689 protected boolean handleRoutingChange(HdmiCecMessage message) { 690 assertRunOnServiceThread(); 691 // Seq #21 692 byte[] params = message.getParams(); 693 int currentPath = HdmiUtils.twoBytesToInt(params); 694 if (HdmiUtils.isAffectingActiveRoutingPath(getActivePath(), currentPath)) { 695 mActiveSource.invalidate(); 696 removeAction(RoutingControlAction.class); 697 int newPath = HdmiUtils.twoBytesToInt(params, 2); 698 addAndStartAction(new RoutingControlAction(this, newPath, true, null)); 699 } 700 return true; 701 } 702 703 @Override 704 @ServiceThreadOnly 705 protected boolean handleReportAudioStatus(HdmiCecMessage message) { 706 assertRunOnServiceThread(); 707 708 byte params[] = message.getParams(); 709 int mute = params[0] & 0x80; 710 int volume = params[0] & 0x7F; 711 setAudioStatus(mute == 0x80, volume); 712 return true; 713 } 714 715 @Override 716 @ServiceThreadOnly 717 protected boolean handleTextViewOn(HdmiCecMessage message) { 718 assertRunOnServiceThread(); 719 if (mService.isPowerStandbyOrTransient() && mAutoWakeup) { 720 mService.wakeUp(); 721 } 722 return true; 723 } 724 725 @Override 726 @ServiceThreadOnly 727 protected boolean handleImageViewOn(HdmiCecMessage message) { 728 assertRunOnServiceThread(); 729 // Currently, it's the same as <Text View On>. 730 return handleTextViewOn(message); 731 } 732 733 @Override 734 @ServiceThreadOnly 735 protected boolean handleSetOsdName(HdmiCecMessage message) { 736 int source = message.getSource(); 737 HdmiDeviceInfo deviceInfo = getCecDeviceInfo(source); 738 // If the device is not in device list, ignore it. 739 if (deviceInfo == null) { 740 Slog.e(TAG, "No source device info for <Set Osd Name>." + message); 741 return true; 742 } 743 String osdName = null; 744 try { 745 osdName = new String(message.getParams(), "US-ASCII"); 746 } catch (UnsupportedEncodingException e) { 747 Slog.e(TAG, "Invalid <Set Osd Name> request:" + message, e); 748 return true; 749 } 750 751 if (deviceInfo.getDisplayName().equals(osdName)) { 752 Slog.i(TAG, "Ignore incoming <Set Osd Name> having same osd name:" + message); 753 return true; 754 } 755 756 addCecDevice(new HdmiDeviceInfo(deviceInfo.getLogicalAddress(), 757 deviceInfo.getPhysicalAddress(), deviceInfo.getPortId(), 758 deviceInfo.getDeviceType(), deviceInfo.getVendorId(), osdName)); 759 return true; 760 } 761 762 @ServiceThreadOnly 763 private void launchDeviceDiscovery() { 764 assertRunOnServiceThread(); 765 clearDeviceInfoList(); 766 DeviceDiscoveryAction action = new DeviceDiscoveryAction(this, 767 new DeviceDiscoveryCallback() { 768 @Override 769 public void onDeviceDiscoveryDone(List<HdmiDeviceInfo> deviceInfos) { 770 for (HdmiDeviceInfo info : deviceInfos) { 771 addCecDevice(info); 772 } 773 774 // Since we removed all devices when it's start and 775 // device discovery action does not poll local devices, 776 // we should put device info of local device manually here 777 for (HdmiCecLocalDevice device : mService.getAllLocalDevices()) { 778 addCecDevice(device.getDeviceInfo()); 779 } 780 781 addAndStartAction(new HotplugDetectionAction(HdmiCecLocalDeviceTv.this)); 782 addAndStartAction(new PowerStatusMonitorAction(HdmiCecLocalDeviceTv.this)); 783 784 // If there is AVR, initiate System Audio Auto initiation action, 785 // which turns on and off system audio according to last system 786 // audio setting. 787 HdmiDeviceInfo avr = getAvrDeviceInfo(); 788 if (avr != null) { 789 onNewAvrAdded(avr); 790 } 791 } 792 }); 793 addAndStartAction(action); 794 } 795 796 @ServiceThreadOnly 797 void onNewAvrAdded(HdmiDeviceInfo avr) { 798 assertRunOnServiceThread(); 799 if (getSystemAudioModeSetting() && !isSystemAudioActivated()) { 800 addAndStartAction(new SystemAudioAutoInitiationAction(this, avr.getLogicalAddress())); 801 } 802 if (isArcFeatureEnabled() && !hasAction(SetArcTransmissionStateAction.class)) { 803 startArcAction(true); 804 } 805 } 806 807 // Clear all device info. 808 @ServiceThreadOnly 809 private void clearDeviceInfoList() { 810 assertRunOnServiceThread(); 811 for (HdmiDeviceInfo info : mSafeExternalInputs) { 812 invokeDeviceEventListener(info, HdmiControlManager.DEVICE_EVENT_REMOVE_DEVICE); 813 } 814 mDeviceInfos.clear(); 815 updateSafeDeviceInfoList(); 816 } 817 818 @ServiceThreadOnly 819 // Seq #32 820 void changeSystemAudioMode(boolean enabled, IHdmiControlCallback callback) { 821 assertRunOnServiceThread(); 822 if (!mService.isControlEnabled() || hasAction(DeviceDiscoveryAction.class)) { 823 setSystemAudioMode(false, true); 824 invokeCallback(callback, HdmiControlManager.RESULT_INCORRECT_MODE); 825 return; 826 } 827 HdmiDeviceInfo avr = getAvrDeviceInfo(); 828 if (avr == null) { 829 setSystemAudioMode(false, true); 830 invokeCallback(callback, HdmiControlManager.RESULT_TARGET_NOT_AVAILABLE); 831 return; 832 } 833 834 addAndStartAction( 835 new SystemAudioActionFromTv(this, avr.getLogicalAddress(), enabled, callback)); 836 } 837 838 // # Seq 25 839 void setSystemAudioMode(boolean on, boolean updateSetting) { 840 HdmiLogger.debug("System Audio Mode change[old:%b new:%b]", mSystemAudioActivated, on); 841 842 if (updateSetting) { 843 mService.writeBooleanSetting(Global.HDMI_SYSTEM_AUDIO_ENABLED, on); 844 } 845 updateAudioManagerForSystemAudio(on); 846 synchronized (mLock) { 847 if (mSystemAudioActivated != on) { 848 mSystemAudioActivated = on; 849 mService.announceSystemAudioModeChange(on); 850 } 851 } 852 } 853 854 private void updateAudioManagerForSystemAudio(boolean on) { 855 int device = mService.getAudioManager().setHdmiSystemAudioSupported(on); 856 HdmiLogger.debug("[A]UpdateSystemAudio mode[on=%b] output=[%X]", on, device); 857 } 858 859 boolean isSystemAudioActivated() { 860 if (!hasSystemAudioDevice()) { 861 return false; 862 } 863 synchronized (mLock) { 864 return mSystemAudioActivated; 865 } 866 } 867 868 boolean getSystemAudioModeSetting() { 869 return mService.readBooleanSetting(Global.HDMI_SYSTEM_AUDIO_ENABLED, false); 870 } 871 872 /** 873 * Change ARC status into the given {@code enabled} status. 874 * 875 * @return {@code true} if ARC was in "Enabled" status 876 */ 877 @ServiceThreadOnly 878 boolean setArcStatus(boolean enabled) { 879 assertRunOnServiceThread(); 880 881 HdmiLogger.debug("Set Arc Status[old:%b new:%b]", mArcEstablished, enabled); 882 boolean oldStatus = mArcEstablished; 883 // 1. Enable/disable ARC circuit. 884 mService.setAudioReturnChannel(getAvrDeviceInfo().getPortId(), enabled); 885 // 2. Notify arc status to audio service. 886 notifyArcStatusToAudioService(enabled); 887 // 3. Update arc status; 888 mArcEstablished = enabled; 889 return oldStatus; 890 } 891 892 @ServiceThreadOnly 893 private void updateArcFeatureStatus(int portId, boolean isConnected) { 894 assertRunOnServiceThread(); 895 // HEAC 2.4, HEACT 5-15 896 // Should not activate ARC if +5V status is false. 897 HdmiPortInfo portInfo = mService.getPortInfo(portId); 898 if (portInfo.isArcSupported()) { 899 changeArcFeatureEnabled(isConnected); 900 } 901 } 902 903 private void notifyArcStatusToAudioService(boolean enabled) { 904 // Note that we don't set any name to ARC. 905 mService.getAudioManager().setWiredDeviceConnectionState( 906 AudioSystem.DEVICE_OUT_HDMI_ARC, 907 enabled ? 1 : 0, ""); 908 } 909 910 /** 911 * Returns whether ARC is enabled or not. 912 */ 913 @ServiceThreadOnly 914 boolean isArcEstabilished() { 915 assertRunOnServiceThread(); 916 return mArcFeatureEnabled && mArcEstablished; 917 } 918 919 @ServiceThreadOnly 920 void changeArcFeatureEnabled(boolean enabled) { 921 assertRunOnServiceThread(); 922 923 if (mArcFeatureEnabled != enabled) { 924 mArcFeatureEnabled = enabled; 925 if (enabled) { 926 if (!mArcEstablished) { 927 startArcAction(true); 928 } 929 } else { 930 if (mArcEstablished) { 931 startArcAction(false); 932 } 933 } 934 } 935 } 936 937 @ServiceThreadOnly 938 boolean isArcFeatureEnabled() { 939 assertRunOnServiceThread(); 940 return mArcFeatureEnabled; 941 } 942 943 @ServiceThreadOnly 944 void startArcAction(boolean enabled) { 945 assertRunOnServiceThread(); 946 HdmiDeviceInfo info = getAvrDeviceInfo(); 947 if (info == null) { 948 Slog.w(TAG, "Failed to start arc action; No AVR device."); 949 return; 950 } 951 if (!canStartArcUpdateAction(info.getLogicalAddress(), enabled)) { 952 Slog.w(TAG, "Failed to start arc action; ARC configuration check failed."); 953 if (enabled && !isConnectedToArcPort(info.getPhysicalAddress())) { 954 displayOsd(OSD_MESSAGE_ARC_CONNECTED_INVALID_PORT); 955 } 956 return; 957 } 958 959 // Terminate opposite action and start action if not exist. 960 if (enabled) { 961 removeAction(RequestArcTerminationAction.class); 962 if (!hasAction(RequestArcInitiationAction.class)) { 963 addAndStartAction(new RequestArcInitiationAction(this, info.getLogicalAddress())); 964 } 965 } else { 966 removeAction(RequestArcInitiationAction.class); 967 if (!hasAction(RequestArcTerminationAction.class)) { 968 addAndStartAction(new RequestArcTerminationAction(this, info.getLogicalAddress())); 969 } 970 } 971 } 972 973 private boolean isDirectConnectAddress(int physicalAddress) { 974 return (physicalAddress & Constants.ROUTING_PATH_TOP_MASK) == physicalAddress; 975 } 976 977 void setAudioStatus(boolean mute, int volume) { 978 synchronized (mLock) { 979 mSystemAudioMute = mute; 980 mSystemAudioVolume = volume; 981 int maxVolume = mService.getAudioManager().getStreamMaxVolume( 982 AudioManager.STREAM_MUSIC); 983 mService.setAudioStatus(mute, 984 VolumeControlAction.scaleToCustomVolume(volume, maxVolume)); 985 displayOsd(HdmiControlManager.OSD_MESSAGE_AVR_VOLUME_CHANGED, 986 mute ? HdmiControlManager.AVR_VOLUME_MUTED : volume); 987 } 988 } 989 990 @ServiceThreadOnly 991 void changeVolume(int curVolume, int delta, int maxVolume) { 992 assertRunOnServiceThread(); 993 if (delta == 0 || !isSystemAudioActivated()) { 994 return; 995 } 996 997 int targetVolume = curVolume + delta; 998 int cecVolume = VolumeControlAction.scaleToCecVolume(targetVolume, maxVolume); 999 synchronized (mLock) { 1000 // If new volume is the same as current system audio volume, just ignore it. 1001 // Note that UNKNOWN_VOLUME is not in range of cec volume scale. 1002 if (cecVolume == mSystemAudioVolume) { 1003 // Update tv volume with system volume value. 1004 mService.setAudioStatus(false, 1005 VolumeControlAction.scaleToCustomVolume(mSystemAudioVolume, maxVolume)); 1006 return; 1007 } 1008 } 1009 1010 List<VolumeControlAction> actions = getActions(VolumeControlAction.class); 1011 if (actions.isEmpty()) { 1012 addAndStartAction(new VolumeControlAction(this, 1013 getAvrDeviceInfo().getLogicalAddress(), delta > 0)); 1014 } else { 1015 actions.get(0).handleVolumeChange(delta > 0); 1016 } 1017 } 1018 1019 @ServiceThreadOnly 1020 void changeMute(boolean mute) { 1021 assertRunOnServiceThread(); 1022 HdmiLogger.debug("[A]:Change mute:%b", mute); 1023 synchronized (mLock) { 1024 if (mSystemAudioMute == mute) { 1025 HdmiLogger.debug("No need to change mute."); 1026 return; 1027 } 1028 } 1029 if (!isSystemAudioActivated()) { 1030 HdmiLogger.debug("[A]:System audio is not activated."); 1031 return; 1032 } 1033 1034 // Remove existing volume action. 1035 removeAction(VolumeControlAction.class); 1036 sendUserControlPressedAndReleased(getAvrDeviceInfo().getLogicalAddress(), 1037 mute ? HdmiCecKeycode.CEC_KEYCODE_MUTE_FUNCTION : 1038 HdmiCecKeycode.CEC_KEYCODE_RESTORE_VOLUME_FUNCTION); 1039 } 1040 1041 @Override 1042 @ServiceThreadOnly 1043 protected boolean handleInitiateArc(HdmiCecMessage message) { 1044 assertRunOnServiceThread(); 1045 1046 if (!canStartArcUpdateAction(message.getSource(), true)) { 1047 if (getAvrDeviceInfo() == null) { 1048 // AVR may not have been discovered yet. Delay the message processing. 1049 mDelayedMessageBuffer.add(message); 1050 return true; 1051 } 1052 mService.maySendFeatureAbortCommand(message, Constants.ABORT_REFUSED); 1053 if (!isConnectedToArcPort(message.getSource())) { 1054 displayOsd(OSD_MESSAGE_ARC_CONNECTED_INVALID_PORT); 1055 } 1056 return true; 1057 } 1058 1059 // In case where <Initiate Arc> is started by <Request ARC Initiation> 1060 // need to clean up RequestArcInitiationAction. 1061 removeAction(RequestArcInitiationAction.class); 1062 SetArcTransmissionStateAction action = new SetArcTransmissionStateAction(this, 1063 message.getSource(), true); 1064 addAndStartAction(action); 1065 return true; 1066 } 1067 1068 private boolean canStartArcUpdateAction(int avrAddress, boolean shouldCheckArcFeatureEnabled) { 1069 HdmiDeviceInfo avr = getAvrDeviceInfo(); 1070 if (avr != null 1071 && (avrAddress == avr.getLogicalAddress()) 1072 && isConnectedToArcPort(avr.getPhysicalAddress()) 1073 && isDirectConnectAddress(avr.getPhysicalAddress())) { 1074 if (shouldCheckArcFeatureEnabled) { 1075 return isArcFeatureEnabled(); 1076 } else { 1077 return true; 1078 } 1079 } else { 1080 return false; 1081 } 1082 } 1083 1084 @Override 1085 @ServiceThreadOnly 1086 protected boolean handleTerminateArc(HdmiCecMessage message) { 1087 assertRunOnServiceThread(); 1088 // In cast of termination, do not check ARC configuration in that AVR device 1089 // might be removed already. 1090 1091 // In case where <Terminate Arc> is started by <Request ARC Termination> 1092 // need to clean up RequestArcInitiationAction. 1093 removeAction(RequestArcTerminationAction.class); 1094 SetArcTransmissionStateAction action = new SetArcTransmissionStateAction(this, 1095 message.getSource(), false); 1096 addAndStartAction(action); 1097 return true; 1098 } 1099 1100 @Override 1101 @ServiceThreadOnly 1102 protected boolean handleSetSystemAudioMode(HdmiCecMessage message) { 1103 assertRunOnServiceThread(); 1104 if (!isMessageForSystemAudio(message)) { 1105 if (getAvrDeviceInfo() == null) { 1106 // AVR may not have been discovered yet. Delay the message processing. 1107 mDelayedMessageBuffer.add(message); 1108 return true; 1109 } 1110 HdmiLogger.warning("Invalid <Set System Audio Mode> message:" + message); 1111 mService.maySendFeatureAbortCommand(message, Constants.ABORT_REFUSED); 1112 return true; 1113 } 1114 SystemAudioActionFromAvr action = new SystemAudioActionFromAvr(this, 1115 message.getSource(), HdmiUtils.parseCommandParamSystemAudioStatus(message), null); 1116 addAndStartAction(action); 1117 return true; 1118 } 1119 1120 @Override 1121 @ServiceThreadOnly 1122 protected boolean handleSystemAudioModeStatus(HdmiCecMessage message) { 1123 assertRunOnServiceThread(); 1124 if (!isMessageForSystemAudio(message)) { 1125 HdmiLogger.warning("Invalid <System Audio Mode Status> message:" + message); 1126 // Ignore this message. 1127 return true; 1128 } 1129 setSystemAudioMode(HdmiUtils.parseCommandParamSystemAudioStatus(message), true); 1130 return true; 1131 } 1132 1133 // Seq #53 1134 @Override 1135 @ServiceThreadOnly 1136 protected boolean handleRecordTvScreen(HdmiCecMessage message) { 1137 List<OneTouchRecordAction> actions = getActions(OneTouchRecordAction.class); 1138 if (!actions.isEmpty()) { 1139 // Assumes only one OneTouchRecordAction. 1140 OneTouchRecordAction action = actions.get(0); 1141 if (action.getRecorderAddress() != message.getSource()) { 1142 announceOneTouchRecordResult( 1143 message.getSource(), 1144 HdmiControlManager.ONE_TOUCH_RECORD_PREVIOUS_RECORDING_IN_PROGRESS); 1145 } 1146 return super.handleRecordTvScreen(message); 1147 } 1148 1149 int recorderAddress = message.getSource(); 1150 byte[] recordSource = mService.invokeRecordRequestListener(recorderAddress); 1151 int reason = startOneTouchRecord(recorderAddress, recordSource); 1152 if (reason != Constants.ABORT_NO_ERROR) { 1153 mService.maySendFeatureAbortCommand(message, reason); 1154 } 1155 return true; 1156 } 1157 1158 @Override 1159 protected boolean handleTimerClearedStatus(HdmiCecMessage message) { 1160 byte[] params = message.getParams(); 1161 int timerClearedStatusData = params[0] & 0xFF; 1162 announceTimerRecordingResult(message.getSource(), timerClearedStatusData); 1163 return true; 1164 } 1165 1166 void announceOneTouchRecordResult(int recorderAddress, int result) { 1167 mService.invokeOneTouchRecordResult(recorderAddress, result); 1168 } 1169 1170 void announceTimerRecordingResult(int recorderAddress, int result) { 1171 mService.invokeTimerRecordingResult(recorderAddress, result); 1172 } 1173 1174 void announceClearTimerRecordingResult(int recorderAddress, int result) { 1175 mService.invokeClearTimerRecordingResult(recorderAddress, result); 1176 } 1177 1178 private boolean isMessageForSystemAudio(HdmiCecMessage message) { 1179 return mService.isControlEnabled() 1180 && message.getSource() == Constants.ADDR_AUDIO_SYSTEM 1181 && (message.getDestination() == Constants.ADDR_TV 1182 || message.getDestination() == Constants.ADDR_BROADCAST) 1183 && getAvrDeviceInfo() != null; 1184 } 1185 1186 /** 1187 * Add a new {@link HdmiDeviceInfo}. It returns old device info which has the same 1188 * logical address as new device info's. 1189 * 1190 * <p>Declared as package-private. accessed by {@link HdmiControlService} only. 1191 * 1192 * @param deviceInfo a new {@link HdmiDeviceInfo} to be added. 1193 * @return {@code null} if it is new device. Otherwise, returns old {@HdmiDeviceInfo} 1194 * that has the same logical address as new one has. 1195 */ 1196 @ServiceThreadOnly 1197 private HdmiDeviceInfo addDeviceInfo(HdmiDeviceInfo deviceInfo) { 1198 assertRunOnServiceThread(); 1199 HdmiDeviceInfo oldDeviceInfo = getCecDeviceInfo(deviceInfo.getLogicalAddress()); 1200 if (oldDeviceInfo != null) { 1201 removeDeviceInfo(deviceInfo.getId()); 1202 } 1203 mDeviceInfos.append(deviceInfo.getId(), deviceInfo); 1204 updateSafeDeviceInfoList(); 1205 return oldDeviceInfo; 1206 } 1207 1208 /** 1209 * Remove a device info corresponding to the given {@code logicalAddress}. 1210 * It returns removed {@link HdmiDeviceInfo} if exists. 1211 * 1212 * <p>Declared as package-private. accessed by {@link HdmiControlService} only. 1213 * 1214 * @param id id of device to be removed 1215 * @return removed {@link HdmiDeviceInfo} it exists. Otherwise, returns {@code null} 1216 */ 1217 @ServiceThreadOnly 1218 private HdmiDeviceInfo removeDeviceInfo(int id) { 1219 assertRunOnServiceThread(); 1220 HdmiDeviceInfo deviceInfo = mDeviceInfos.get(id); 1221 if (deviceInfo != null) { 1222 mDeviceInfos.remove(id); 1223 } 1224 updateSafeDeviceInfoList(); 1225 return deviceInfo; 1226 } 1227 1228 /** 1229 * Return a list of all {@link HdmiDeviceInfo}. 1230 * 1231 * <p>Declared as package-private. accessed by {@link HdmiControlService} only. 1232 * This is not thread-safe. For thread safety, call {@link #getSafeExternalInputsLocked} which 1233 * does not include local device. 1234 */ 1235 @ServiceThreadOnly 1236 List<HdmiDeviceInfo> getDeviceInfoList(boolean includeLocalDevice) { 1237 assertRunOnServiceThread(); 1238 if (includeLocalDevice) { 1239 return HdmiUtils.sparseArrayToList(mDeviceInfos); 1240 } else { 1241 ArrayList<HdmiDeviceInfo> infoList = new ArrayList<>(); 1242 for (int i = 0; i < mDeviceInfos.size(); ++i) { 1243 HdmiDeviceInfo info = mDeviceInfos.valueAt(i); 1244 if (!isLocalDeviceAddress(info.getLogicalAddress())) { 1245 infoList.add(info); 1246 } 1247 } 1248 return infoList; 1249 } 1250 } 1251 1252 /** 1253 * Return external input devices. 1254 */ 1255 List<HdmiDeviceInfo> getSafeExternalInputsLocked() { 1256 return mSafeExternalInputs; 1257 } 1258 1259 @ServiceThreadOnly 1260 private void updateSafeDeviceInfoList() { 1261 assertRunOnServiceThread(); 1262 List<HdmiDeviceInfo> copiedDevices = HdmiUtils.sparseArrayToList(mDeviceInfos); 1263 List<HdmiDeviceInfo> externalInputs = getInputDevices(); 1264 synchronized (mLock) { 1265 mSafeAllDeviceInfos = copiedDevices; 1266 mSafeExternalInputs = externalInputs; 1267 } 1268 } 1269 1270 /** 1271 * Return a list of external cec input (source) devices. 1272 * 1273 * <p>Note that this effectively excludes non-source devices like system audio, 1274 * secondary TV. 1275 */ 1276 private List<HdmiDeviceInfo> getInputDevices() { 1277 ArrayList<HdmiDeviceInfo> infoList = new ArrayList<>(); 1278 for (int i = 0; i < mDeviceInfos.size(); ++i) { 1279 HdmiDeviceInfo info = mDeviceInfos.valueAt(i); 1280 if (isLocalDeviceAddress(info.getLogicalAddress())) { 1281 continue; 1282 } 1283 if (info.isSourceType() && !hideDevicesBehindLegacySwitch(info)) { 1284 infoList.add(info); 1285 } 1286 } 1287 return infoList; 1288 } 1289 1290 // Check if we are hiding CEC devices connected to a legacy (non-CEC) switch. 1291 // Returns true if the policy is set to true, and the device to check does not have 1292 // a parent CEC device (which should be the CEC-enabled switch) in the list. 1293 private boolean hideDevicesBehindLegacySwitch(HdmiDeviceInfo info) { 1294 return HdmiConfig.HIDE_DEVICES_BEHIND_LEGACY_SWITCH 1295 && !isConnectedToCecSwitch(info.getPhysicalAddress(), mCecSwitches); 1296 } 1297 1298 private static boolean isConnectedToCecSwitch(int path, Collection<Integer> switches) { 1299 for (int switchPath : switches) { 1300 if (isParentPath(switchPath, path)) { 1301 return true; 1302 } 1303 } 1304 return false; 1305 } 1306 1307 private static boolean isParentPath(int parentPath, int childPath) { 1308 // (A000, AB00) (AB00, ABC0), (ABC0, ABCD) 1309 // If child's last non-zero nibble is removed, the result equals to the parent. 1310 for (int i = 0; i <= 12; i += 4) { 1311 int nibble = (childPath >> i) & 0xF; 1312 if (nibble != 0) { 1313 int parentNibble = (parentPath >> i) & 0xF; 1314 return parentNibble == 0 && (childPath >> i+4) == (parentPath >> i+4); 1315 } 1316 } 1317 return false; 1318 } 1319 1320 private void invokeDeviceEventListener(HdmiDeviceInfo info, int status) { 1321 if (!hideDevicesBehindLegacySwitch(info)) { 1322 mService.invokeDeviceEventListeners(info, status); 1323 } 1324 } 1325 1326 private boolean isLocalDeviceAddress(int address) { 1327 return mLocalDeviceAddresses.contains(address); 1328 } 1329 1330 @ServiceThreadOnly 1331 HdmiDeviceInfo getAvrDeviceInfo() { 1332 assertRunOnServiceThread(); 1333 return getCecDeviceInfo(Constants.ADDR_AUDIO_SYSTEM); 1334 } 1335 1336 /** 1337 * Return a {@link HdmiDeviceInfo} corresponding to the given {@code logicalAddress}. 1338 * 1339 * This is not thread-safe. For thread safety, call {@link #getSafeCecDeviceInfo(int)}. 1340 * 1341 * @param logicalAddress logical address of the device to be retrieved 1342 * @return {@link HdmiDeviceInfo} matched with the given {@code logicalAddress}. 1343 * Returns null if no logical address matched 1344 */ 1345 @ServiceThreadOnly 1346 HdmiDeviceInfo getCecDeviceInfo(int logicalAddress) { 1347 assertRunOnServiceThread(); 1348 return mDeviceInfos.get(HdmiDeviceInfo.idForCecDevice(logicalAddress)); 1349 } 1350 1351 boolean hasSystemAudioDevice() { 1352 return getSafeAvrDeviceInfo() != null; 1353 } 1354 1355 HdmiDeviceInfo getSafeAvrDeviceInfo() { 1356 return getSafeCecDeviceInfo(Constants.ADDR_AUDIO_SYSTEM); 1357 } 1358 1359 /** 1360 * Thread safe version of {@link #getCecDeviceInfo(int)}. 1361 * 1362 * @param logicalAddress logical address to be retrieved 1363 * @return {@link HdmiDeviceInfo} matched with the given {@code logicalAddress}. 1364 * Returns null if no logical address matched 1365 */ 1366 HdmiDeviceInfo getSafeCecDeviceInfo(int logicalAddress) { 1367 synchronized (mLock) { 1368 for (HdmiDeviceInfo info : mSafeAllDeviceInfos) { 1369 if (info.isCecDevice() && info.getLogicalAddress() == logicalAddress) { 1370 return info; 1371 } 1372 } 1373 return null; 1374 } 1375 } 1376 1377 List<HdmiDeviceInfo> getSafeCecDevicesLocked() { 1378 ArrayList<HdmiDeviceInfo> infoList = new ArrayList<>(); 1379 for (HdmiDeviceInfo info : mSafeAllDeviceInfos) { 1380 if (isLocalDeviceAddress(info.getLogicalAddress())) { 1381 continue; 1382 } 1383 infoList.add(info); 1384 } 1385 return infoList; 1386 } 1387 1388 /** 1389 * Called when a device is newly added or a new device is detected or 1390 * existing device is updated. 1391 * 1392 * @param info device info of a new device. 1393 */ 1394 @ServiceThreadOnly 1395 final void addCecDevice(HdmiDeviceInfo info) { 1396 assertRunOnServiceThread(); 1397 HdmiDeviceInfo old = addDeviceInfo(info); 1398 if (info.getLogicalAddress() == mAddress) { 1399 // The addition of TV device itself should not be notified. 1400 return; 1401 } 1402 if (old == null) { 1403 invokeDeviceEventListener(info, HdmiControlManager.DEVICE_EVENT_ADD_DEVICE); 1404 } else if (!old.equals(info)) { 1405 invokeDeviceEventListener(old, HdmiControlManager.DEVICE_EVENT_REMOVE_DEVICE); 1406 invokeDeviceEventListener(info, HdmiControlManager.DEVICE_EVENT_ADD_DEVICE); 1407 } 1408 } 1409 1410 /** 1411 * Called when a device is removed or removal of device is detected. 1412 * 1413 * @param address a logical address of a device to be removed 1414 */ 1415 @ServiceThreadOnly 1416 final void removeCecDevice(int address) { 1417 assertRunOnServiceThread(); 1418 HdmiDeviceInfo info = removeDeviceInfo(HdmiDeviceInfo.idForCecDevice(address)); 1419 1420 mCecMessageCache.flushMessagesFrom(address); 1421 invokeDeviceEventListener(info, HdmiControlManager.DEVICE_EVENT_REMOVE_DEVICE); 1422 } 1423 1424 @ServiceThreadOnly 1425 void handleRemoveActiveRoutingPath(int path) { 1426 assertRunOnServiceThread(); 1427 // Seq #23 1428 if (isTailOfActivePath(path, getActivePath())) { 1429 int newPath = mService.portIdToPath(getActivePortId()); 1430 startRoutingControl(getActivePath(), newPath, true, null); 1431 } 1432 } 1433 1434 /** 1435 * Launch routing control process. 1436 * 1437 * @param routingForBootup true if routing control is initiated due to One Touch Play 1438 * or TV power on 1439 */ 1440 @ServiceThreadOnly 1441 void launchRoutingControl(boolean routingForBootup) { 1442 assertRunOnServiceThread(); 1443 // Seq #24 1444 if (getActivePortId() != Constants.INVALID_PORT_ID) { 1445 if (!routingForBootup && !isProhibitMode()) { 1446 int newPath = mService.portIdToPath(getActivePortId()); 1447 setActivePath(newPath); 1448 startRoutingControl(getActivePath(), newPath, routingForBootup, null); 1449 } 1450 } else { 1451 int activePath = mService.getPhysicalAddress(); 1452 setActivePath(activePath); 1453 if (!routingForBootup 1454 && !mDelayedMessageBuffer.isBuffered(Constants.MESSAGE_ACTIVE_SOURCE)) { 1455 mService.sendCecCommand(HdmiCecMessageBuilder.buildActiveSource(mAddress, 1456 activePath)); 1457 } 1458 } 1459 } 1460 1461 /** 1462 * Returns the {@link HdmiDeviceInfo} instance whose physical address matches 1463 * the given routing path. CEC devices use routing path for its physical address to 1464 * describe the hierarchy of the devices in the network. 1465 * 1466 * @param path routing path or physical address 1467 * @return {@link HdmiDeviceInfo} if the matched info is found; otherwise null 1468 */ 1469 @ServiceThreadOnly 1470 final HdmiDeviceInfo getDeviceInfoByPath(int path) { 1471 assertRunOnServiceThread(); 1472 for (HdmiDeviceInfo info : getDeviceInfoList(false)) { 1473 if (info.getPhysicalAddress() == path) { 1474 return info; 1475 } 1476 } 1477 return null; 1478 } 1479 1480 /** 1481 * Returns the {@link HdmiDeviceInfo} instance whose physical address matches 1482 * the given routing path. This is the version accessible safely from threads 1483 * other than service thread. 1484 * 1485 * @param path routing path or physical address 1486 * @return {@link HdmiDeviceInfo} if the matched info is found; otherwise null 1487 */ 1488 HdmiDeviceInfo getSafeDeviceInfoByPath(int path) { 1489 synchronized (mLock) { 1490 for (HdmiDeviceInfo info : mSafeAllDeviceInfos) { 1491 if (info.getPhysicalAddress() == path) { 1492 return info; 1493 } 1494 } 1495 return null; 1496 } 1497 } 1498 1499 /** 1500 * Whether a device of the specified physical address and logical address exists 1501 * in a device info list. However, both are minimal condition and it could 1502 * be different device from the original one. 1503 * 1504 * @param logicalAddress logical address of a device to be searched 1505 * @param physicalAddress physical address of a device to be searched 1506 * @return true if exist; otherwise false 1507 */ 1508 @ServiceThreadOnly 1509 boolean isInDeviceList(int logicalAddress, int physicalAddress) { 1510 assertRunOnServiceThread(); 1511 HdmiDeviceInfo device = getCecDeviceInfo(logicalAddress); 1512 if (device == null) { 1513 return false; 1514 } 1515 return device.getPhysicalAddress() == physicalAddress; 1516 } 1517 1518 @Override 1519 @ServiceThreadOnly 1520 void onHotplug(int portId, boolean connected) { 1521 assertRunOnServiceThread(); 1522 1523 if (!connected) { 1524 removeCecSwitches(portId); 1525 } 1526 // Tv device will have permanent HotplugDetectionAction. 1527 List<HotplugDetectionAction> hotplugActions = getActions(HotplugDetectionAction.class); 1528 if (!hotplugActions.isEmpty()) { 1529 // Note that hotplug action is single action running on a machine. 1530 // "pollAllDevicesNow" cleans up timer and start poll action immediately. 1531 // It covers seq #40, #43. 1532 hotplugActions.get(0).pollAllDevicesNow(); 1533 } 1534 updateArcFeatureStatus(portId, connected); 1535 } 1536 1537 private void removeCecSwitches(int portId) { 1538 Iterator<Integer> it = mCecSwitches.iterator(); 1539 while (!it.hasNext()) { 1540 int path = it.next(); 1541 if (pathToPortId(path) == portId) { 1542 it.remove(); 1543 } 1544 } 1545 } 1546 1547 @ServiceThreadOnly 1548 void setAutoDeviceOff(boolean enabled) { 1549 assertRunOnServiceThread(); 1550 mAutoDeviceOff = enabled; 1551 } 1552 1553 @ServiceThreadOnly 1554 void setAutoWakeup(boolean enabled) { 1555 assertRunOnServiceThread(); 1556 mAutoWakeup = enabled; 1557 } 1558 1559 @ServiceThreadOnly 1560 boolean getAutoWakeup() { 1561 assertRunOnServiceThread(); 1562 return mAutoWakeup; 1563 } 1564 1565 @Override 1566 @ServiceThreadOnly 1567 protected void disableDevice(boolean initiatedByCec, PendingActionClearedCallback callback) { 1568 super.disableDevice(initiatedByCec, callback); 1569 assertRunOnServiceThread(); 1570 mService.unregisterTvInputCallback(mTvInputCallback); 1571 // Remove any repeated working actions. 1572 // HotplugDetectionAction will be reinstated during the wake up process. 1573 // HdmiControlService.onWakeUp() -> initializeLocalDevices() -> 1574 // LocalDeviceTv.onAddressAllocated() -> launchDeviceDiscovery(). 1575 removeAction(DeviceDiscoveryAction.class); 1576 removeAction(HotplugDetectionAction.class); 1577 removeAction(PowerStatusMonitorAction.class); 1578 // Remove recording actions. 1579 removeAction(OneTouchRecordAction.class); 1580 removeAction(TimerRecordingAction.class); 1581 1582 disableSystemAudioIfExist(); 1583 disableArcIfExist(); 1584 clearDeviceInfoList(); 1585 checkIfPendingActionsCleared(); 1586 } 1587 1588 @ServiceThreadOnly 1589 private void disableSystemAudioIfExist() { 1590 assertRunOnServiceThread(); 1591 if (getAvrDeviceInfo() == null) { 1592 return; 1593 } 1594 1595 // Seq #31. 1596 removeAction(SystemAudioActionFromAvr.class); 1597 removeAction(SystemAudioActionFromTv.class); 1598 removeAction(SystemAudioAutoInitiationAction.class); 1599 removeAction(SystemAudioStatusAction.class); 1600 removeAction(VolumeControlAction.class); 1601 1602 // Turn off the mode but do not write it the settings, so that the next time TV powers on 1603 // the system audio mode setting can be restored automatically. 1604 setSystemAudioMode(false, false); 1605 } 1606 1607 @ServiceThreadOnly 1608 private void disableArcIfExist() { 1609 assertRunOnServiceThread(); 1610 HdmiDeviceInfo avr = getAvrDeviceInfo(); 1611 if (avr == null) { 1612 return; 1613 } 1614 1615 // Seq #44. 1616 removeAction(RequestArcInitiationAction.class); 1617 if (!hasAction(RequestArcTerminationAction.class) && isArcEstabilished()) { 1618 addAndStartAction(new RequestArcTerminationAction(this, avr.getLogicalAddress())); 1619 } 1620 } 1621 1622 @Override 1623 @ServiceThreadOnly 1624 protected void onStandby(boolean initiatedByCec) { 1625 assertRunOnServiceThread(); 1626 // Seq #11 1627 if (!mService.isControlEnabled()) { 1628 return; 1629 } 1630 if (!initiatedByCec && mAutoDeviceOff) { 1631 mService.sendCecCommand(HdmiCecMessageBuilder.buildStandby( 1632 mAddress, Constants.ADDR_BROADCAST)); 1633 } 1634 } 1635 1636 boolean isProhibitMode() { 1637 return mService.isProhibitMode(); 1638 } 1639 1640 boolean isPowerStandbyOrTransient() { 1641 return mService.isPowerStandbyOrTransient(); 1642 } 1643 1644 @ServiceThreadOnly 1645 void displayOsd(int messageId) { 1646 assertRunOnServiceThread(); 1647 mService.displayOsd(messageId); 1648 } 1649 1650 @ServiceThreadOnly 1651 void displayOsd(int messageId, int extra) { 1652 assertRunOnServiceThread(); 1653 mService.displayOsd(messageId, extra); 1654 } 1655 1656 // Seq #54 and #55 1657 @ServiceThreadOnly 1658 int startOneTouchRecord(int recorderAddress, byte[] recordSource) { 1659 assertRunOnServiceThread(); 1660 if (!mService.isControlEnabled()) { 1661 Slog.w(TAG, "Can not start one touch record. CEC control is disabled."); 1662 announceOneTouchRecordResult(recorderAddress, ONE_TOUCH_RECORD_CEC_DISABLED); 1663 return Constants.ABORT_NOT_IN_CORRECT_MODE; 1664 } 1665 1666 if (!checkRecorder(recorderAddress)) { 1667 Slog.w(TAG, "Invalid recorder address:" + recorderAddress); 1668 announceOneTouchRecordResult(recorderAddress, 1669 ONE_TOUCH_RECORD_CHECK_RECORDER_CONNECTION); 1670 return Constants.ABORT_NOT_IN_CORRECT_MODE; 1671 } 1672 1673 if (!checkRecordSource(recordSource)) { 1674 Slog.w(TAG, "Invalid record source." + Arrays.toString(recordSource)); 1675 announceOneTouchRecordResult(recorderAddress, 1676 ONE_TOUCH_RECORD_FAIL_TO_RECORD_DISPLAYED_SCREEN); 1677 return Constants.ABORT_CANNOT_PROVIDE_SOURCE; 1678 } 1679 1680 addAndStartAction(new OneTouchRecordAction(this, recorderAddress, recordSource)); 1681 Slog.i(TAG, "Start new [One Touch Record]-Target:" + recorderAddress + ", recordSource:" 1682 + Arrays.toString(recordSource)); 1683 return Constants.ABORT_NO_ERROR; 1684 } 1685 1686 @ServiceThreadOnly 1687 void stopOneTouchRecord(int recorderAddress) { 1688 assertRunOnServiceThread(); 1689 if (!mService.isControlEnabled()) { 1690 Slog.w(TAG, "Can not stop one touch record. CEC control is disabled."); 1691 announceOneTouchRecordResult(recorderAddress, ONE_TOUCH_RECORD_CEC_DISABLED); 1692 return; 1693 } 1694 1695 if (!checkRecorder(recorderAddress)) { 1696 Slog.w(TAG, "Invalid recorder address:" + recorderAddress); 1697 announceOneTouchRecordResult(recorderAddress, 1698 ONE_TOUCH_RECORD_CHECK_RECORDER_CONNECTION); 1699 return; 1700 } 1701 1702 // Remove one touch record action so that other one touch record can be started. 1703 removeAction(OneTouchRecordAction.class); 1704 mService.sendCecCommand(HdmiCecMessageBuilder.buildRecordOff(mAddress, recorderAddress)); 1705 Slog.i(TAG, "Stop [One Touch Record]-Target:" + recorderAddress); 1706 } 1707 1708 private boolean checkRecorder(int recorderAddress) { 1709 HdmiDeviceInfo device = getCecDeviceInfo(recorderAddress); 1710 return (device != null) 1711 && (HdmiUtils.getTypeFromAddress(recorderAddress) 1712 == HdmiDeviceInfo.DEVICE_RECORDER); 1713 } 1714 1715 private boolean checkRecordSource(byte[] recordSource) { 1716 return (recordSource != null) && HdmiRecordSources.checkRecordSource(recordSource); 1717 } 1718 1719 @ServiceThreadOnly 1720 void startTimerRecording(int recorderAddress, int sourceType, byte[] recordSource) { 1721 assertRunOnServiceThread(); 1722 if (!mService.isControlEnabled()) { 1723 Slog.w(TAG, "Can not start one touch record. CEC control is disabled."); 1724 announceTimerRecordingResult(recorderAddress, 1725 TIMER_RECORDING_RESULT_EXTRA_CEC_DISABLED); 1726 return; 1727 } 1728 1729 if (!checkRecorder(recorderAddress)) { 1730 Slog.w(TAG, "Invalid recorder address:" + recorderAddress); 1731 announceTimerRecordingResult(recorderAddress, 1732 TIMER_RECORDING_RESULT_EXTRA_CHECK_RECORDER_CONNECTION); 1733 return; 1734 } 1735 1736 if (!checkTimerRecordingSource(sourceType, recordSource)) { 1737 Slog.w(TAG, "Invalid record source." + Arrays.toString(recordSource)); 1738 announceTimerRecordingResult( 1739 recorderAddress, 1740 TIMER_RECORDING_RESULT_EXTRA_FAIL_TO_RECORD_SELECTED_SOURCE); 1741 return; 1742 } 1743 1744 addAndStartAction( 1745 new TimerRecordingAction(this, recorderAddress, sourceType, recordSource)); 1746 Slog.i(TAG, "Start [Timer Recording]-Target:" + recorderAddress + ", SourceType:" 1747 + sourceType + ", RecordSource:" + Arrays.toString(recordSource)); 1748 } 1749 1750 private boolean checkTimerRecordingSource(int sourceType, byte[] recordSource) { 1751 return (recordSource != null) 1752 && HdmiTimerRecordSources.checkTimerRecordSource(sourceType, recordSource); 1753 } 1754 1755 @ServiceThreadOnly 1756 void clearTimerRecording(int recorderAddress, int sourceType, byte[] recordSource) { 1757 assertRunOnServiceThread(); 1758 if (!mService.isControlEnabled()) { 1759 Slog.w(TAG, "Can not start one touch record. CEC control is disabled."); 1760 announceClearTimerRecordingResult(recorderAddress, CLEAR_TIMER_STATUS_CEC_DISABLE); 1761 return; 1762 } 1763 1764 if (!checkRecorder(recorderAddress)) { 1765 Slog.w(TAG, "Invalid recorder address:" + recorderAddress); 1766 announceClearTimerRecordingResult(recorderAddress, 1767 CLEAR_TIMER_STATUS_CHECK_RECORDER_CONNECTION); 1768 return; 1769 } 1770 1771 if (!checkTimerRecordingSource(sourceType, recordSource)) { 1772 Slog.w(TAG, "Invalid record source." + Arrays.toString(recordSource)); 1773 announceClearTimerRecordingResult(recorderAddress, 1774 CLEAR_TIMER_STATUS_FAIL_TO_CLEAR_SELECTED_SOURCE); 1775 return; 1776 } 1777 1778 sendClearTimerMessage(recorderAddress, sourceType, recordSource); 1779 } 1780 1781 private void sendClearTimerMessage(final int recorderAddress, int sourceType, 1782 byte[] recordSource) { 1783 HdmiCecMessage message = null; 1784 switch (sourceType) { 1785 case TIMER_RECORDING_TYPE_DIGITAL: 1786 message = HdmiCecMessageBuilder.buildClearDigitalTimer(mAddress, recorderAddress, 1787 recordSource); 1788 break; 1789 case TIMER_RECORDING_TYPE_ANALOGUE: 1790 message = HdmiCecMessageBuilder.buildClearAnalogueTimer(mAddress, recorderAddress, 1791 recordSource); 1792 break; 1793 case TIMER_RECORDING_TYPE_EXTERNAL: 1794 message = HdmiCecMessageBuilder.buildClearExternalTimer(mAddress, recorderAddress, 1795 recordSource); 1796 break; 1797 default: 1798 Slog.w(TAG, "Invalid source type:" + recorderAddress); 1799 announceClearTimerRecordingResult(recorderAddress, 1800 CLEAR_TIMER_STATUS_FAIL_TO_CLEAR_SELECTED_SOURCE); 1801 return; 1802 1803 } 1804 mService.sendCecCommand(message, new SendMessageCallback() { 1805 @Override 1806 public void onSendCompleted(int error) { 1807 if (error != Constants.SEND_RESULT_SUCCESS) { 1808 announceClearTimerRecordingResult(recorderAddress, 1809 CLEAR_TIMER_STATUS_FAIL_TO_CLEAR_SELECTED_SOURCE); 1810 } 1811 } 1812 }); 1813 } 1814 1815 void updateDevicePowerStatus(int logicalAddress, int newPowerStatus) { 1816 HdmiDeviceInfo info = getCecDeviceInfo(logicalAddress); 1817 if (info == null) { 1818 Slog.w(TAG, "Can not update power status of non-existing device:" + logicalAddress); 1819 return; 1820 } 1821 1822 if (info.getDevicePowerStatus() == newPowerStatus) { 1823 return; 1824 } 1825 1826 HdmiDeviceInfo newInfo = HdmiUtils.cloneHdmiDeviceInfo(info, newPowerStatus); 1827 // addDeviceInfo replaces old device info with new one if exists. 1828 addDeviceInfo(newInfo); 1829 1830 invokeDeviceEventListener(newInfo, HdmiControlManager.DEVICE_EVENT_UPDATE_DEVICE); 1831 } 1832 1833 @Override 1834 protected boolean handleMenuStatus(HdmiCecMessage message) { 1835 // Do nothing and just return true not to prevent from responding <Feature Abort>. 1836 return true; 1837 } 1838 1839 @Override 1840 protected void sendStandby(int deviceId) { 1841 HdmiDeviceInfo targetDevice = mDeviceInfos.get(deviceId); 1842 if (targetDevice == null) { 1843 return; 1844 } 1845 int targetAddress = targetDevice.getLogicalAddress(); 1846 mService.sendCecCommand(HdmiCecMessageBuilder.buildStandby(mAddress, targetAddress)); 1847 } 1848 1849 @ServiceThreadOnly 1850 void processAllDelayedMessages() { 1851 assertRunOnServiceThread(); 1852 mDelayedMessageBuffer.processAllMessages(); 1853 } 1854 1855 @ServiceThreadOnly 1856 void processDelayedMessages(int address) { 1857 assertRunOnServiceThread(); 1858 mDelayedMessageBuffer.processMessagesForDevice(address); 1859 } 1860 1861 @ServiceThreadOnly 1862 void processDelayedActiveSource(int address) { 1863 assertRunOnServiceThread(); 1864 mDelayedMessageBuffer.processActiveSource(address); 1865 } 1866 1867 @Override 1868 protected void dump(final IndentingPrintWriter pw) { 1869 super.dump(pw); 1870 pw.println("mArcEstablished: " + mArcEstablished); 1871 pw.println("mArcFeatureEnabled: " + mArcFeatureEnabled); 1872 pw.println("mSystemAudioActivated: " + mSystemAudioActivated); 1873 pw.println("mSystemAudioMute: " + mSystemAudioMute); 1874 pw.println("mAutoDeviceOff: " + mAutoDeviceOff); 1875 pw.println("mAutoWakeup: " + mAutoWakeup); 1876 pw.println("mSkipRoutingControl: " + mSkipRoutingControl); 1877 pw.println("mPrevPortId: " + mPrevPortId); 1878 pw.println("CEC devices:"); 1879 pw.increaseIndent(); 1880 for (HdmiDeviceInfo info : mSafeAllDeviceInfos) { 1881 pw.println(info); 1882 } 1883 pw.decreaseIndent(); 1884 } 1885 } 1886