/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.server.display; import android.graphics.Rect; import android.hardware.display.DisplayViewport; import android.os.IBinder; import android.view.Display; import android.view.Surface; import android.view.SurfaceControl; import java.io.PrintWriter; /** * Represents a physical display device such as the built-in display * an external monitor, or a WiFi display. *

* Display devices are guarded by the {@link DisplayManagerService.SyncRoot} lock. *

*/ abstract class DisplayDevice { private final DisplayAdapter mDisplayAdapter; private final IBinder mDisplayToken; private final String mUniqueId; // The display device does not manage these properties itself, they are set by // the display manager service. The display device shouldn't really be looking at these. private int mCurrentLayerStack = -1; private int mCurrentOrientation = -1; private Rect mCurrentLayerStackRect; private Rect mCurrentDisplayRect; // The display device owns its surface, but it should only set it // within a transaction from performTraversalInTransactionLocked. private Surface mCurrentSurface; // DEBUG STATE: Last device info which was written to the log, or null if none. // Do not use for any other purpose. DisplayDeviceInfo mDebugLastLoggedDeviceInfo; public DisplayDevice(DisplayAdapter displayAdapter, IBinder displayToken, String uniqueId) { mDisplayAdapter = displayAdapter; mDisplayToken = displayToken; mUniqueId = uniqueId; } /** * Gets the display adapter that owns the display device. * * @return The display adapter. */ public final DisplayAdapter getAdapterLocked() { return mDisplayAdapter; } /** * Gets the Surface Flinger display token for this display. * * @return The display token, or null if the display is not being managed * by Surface Flinger. */ public final IBinder getDisplayTokenLocked() { return mDisplayToken; } /** * Gets the name of the display device. * * @return The display device name. */ public final String getNameLocked() { return getDisplayDeviceInfoLocked().name; } /** * Returns the unique id of the display device. */ public final String getUniqueId() { return mUniqueId; } /** * Gets information about the display device. * * The information returned should not change between calls unless the display * adapter sent a {@link DisplayAdapter#DISPLAY_DEVICE_EVENT_CHANGED} event and * {@link #applyPendingDisplayDeviceInfoChangesLocked()} has been called to apply * the pending changes. * * @return The display device info, which should be treated as immutable by the caller. * The display device should allocate a new display device info object whenever * the data changes. */ public abstract DisplayDeviceInfo getDisplayDeviceInfoLocked(); /** * Applies any pending changes to the observable state of the display device * if the display adapter sent a {@link DisplayAdapter#DISPLAY_DEVICE_EVENT_CHANGED} event. */ public void applyPendingDisplayDeviceInfoChangesLocked() { } /** * Gives the display device a chance to update its properties while in a transaction. */ public void performTraversalInTransactionLocked() { } /** * Sets the display state, if supported. * * @param state The new display state. * @param brightness The new display brightness. * @return A runnable containing work to be deferred until after we have * exited the critical section, or null if none. */ public Runnable requestDisplayStateLocked(int state, int brightness) { return null; } /** * Sets the mode, if supported. */ public void requestColorTransformAndModeInTransactionLocked(int colorTransformId, int modeId) { } /** * Sets the display layer stack while in a transaction. */ public final void setLayerStackInTransactionLocked(int layerStack) { if (mCurrentLayerStack != layerStack) { mCurrentLayerStack = layerStack; SurfaceControl.setDisplayLayerStack(mDisplayToken, layerStack); } } /** * Sets the display projection while in a transaction. * * @param orientation defines the display's orientation * @param layerStackRect defines which area of the window manager coordinate * space will be used * @param displayRect defines where on the display will layerStackRect be * mapped to. displayRect is specified post-orientation, that is * it uses the orientation seen by the end-user */ public final void setProjectionInTransactionLocked(int orientation, Rect layerStackRect, Rect displayRect) { if (mCurrentOrientation != orientation || mCurrentLayerStackRect == null || !mCurrentLayerStackRect.equals(layerStackRect) || mCurrentDisplayRect == null || !mCurrentDisplayRect.equals(displayRect)) { mCurrentOrientation = orientation; if (mCurrentLayerStackRect == null) { mCurrentLayerStackRect = new Rect(); } mCurrentLayerStackRect.set(layerStackRect); if (mCurrentDisplayRect == null) { mCurrentDisplayRect = new Rect(); } mCurrentDisplayRect.set(displayRect); SurfaceControl.setDisplayProjection(mDisplayToken, orientation, layerStackRect, displayRect); } } /** * Sets the display surface while in a transaction. */ public final void setSurfaceInTransactionLocked(Surface surface) { if (mCurrentSurface != surface) { mCurrentSurface = surface; SurfaceControl.setDisplaySurface(mDisplayToken, surface); } } /** * Populates the specified viewport object with orientation, * physical and logical rects based on the display's current projection. */ public final void populateViewportLocked(DisplayViewport viewport) { viewport.orientation = mCurrentOrientation; if (mCurrentLayerStackRect != null) { viewport.logicalFrame.set(mCurrentLayerStackRect); } else { viewport.logicalFrame.setEmpty(); } if (mCurrentDisplayRect != null) { viewport.physicalFrame.set(mCurrentDisplayRect); } else { viewport.physicalFrame.setEmpty(); } boolean isRotated = (mCurrentOrientation == Surface.ROTATION_90 || mCurrentOrientation == Surface.ROTATION_270); DisplayDeviceInfo info = getDisplayDeviceInfoLocked(); viewport.deviceWidth = isRotated ? info.height : info.width; viewport.deviceHeight = isRotated ? info.width : info.height; } /** * Dumps the local state of the display device. * Does not need to dump the display device info because that is already dumped elsewhere. */ public void dumpLocked(PrintWriter pw) { pw.println("mAdapter=" + mDisplayAdapter.getName()); pw.println("mUniqueId=" + mUniqueId); pw.println("mDisplayToken=" + mDisplayToken); pw.println("mCurrentLayerStack=" + mCurrentLayerStack); pw.println("mCurrentOrientation=" + mCurrentOrientation); pw.println("mCurrentLayerStackRect=" + mCurrentLayerStackRect); pw.println("mCurrentDisplayRect=" + mCurrentDisplayRect); pw.println("mCurrentSurface=" + mCurrentSurface); } }