/* * 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.content.res.Resources; import com.android.server.LocalServices; import com.android.server.lights.Light; import com.android.server.lights.LightsManager; import android.content.Context; import android.os.Build; import android.os.Handler; import android.os.IBinder; import android.os.Looper; import android.os.PowerManager; import android.os.SystemProperties; import android.os.Trace; import android.util.Slog; import android.util.SparseArray; import android.view.Display; import android.view.DisplayEventReceiver; import android.view.Surface; import android.view.SurfaceControl; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; /** * A display adapter for the local displays managed by Surface Flinger. *

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

*/ final class LocalDisplayAdapter extends DisplayAdapter { private static final String TAG = "LocalDisplayAdapter"; private static final boolean DEBUG = false; private static final String UNIQUE_ID_PREFIX = "local:"; private static final String PROPERTY_EMULATOR_CIRCULAR = "ro.emulator.circular"; private static final int[] BUILT_IN_DISPLAY_IDS_TO_SCAN = new int[] { SurfaceControl.BUILT_IN_DISPLAY_ID_MAIN, SurfaceControl.BUILT_IN_DISPLAY_ID_HDMI, }; private final SparseArray mDevices = new SparseArray(); @SuppressWarnings("unused") // Becomes active at instantiation time. private HotplugDisplayEventReceiver mHotplugReceiver; // Called with SyncRoot lock held. public LocalDisplayAdapter(DisplayManagerService.SyncRoot syncRoot, Context context, Handler handler, Listener listener) { super(syncRoot, context, handler, listener, TAG); } @Override public void registerLocked() { super.registerLocked(); mHotplugReceiver = new HotplugDisplayEventReceiver(getHandler().getLooper()); for (int builtInDisplayId : BUILT_IN_DISPLAY_IDS_TO_SCAN) { tryConnectDisplayLocked(builtInDisplayId); } } private void tryConnectDisplayLocked(int builtInDisplayId) { IBinder displayToken = SurfaceControl.getBuiltInDisplay(builtInDisplayId); if (displayToken != null) { SurfaceControl.PhysicalDisplayInfo[] configs = SurfaceControl.getDisplayConfigs(displayToken); if (configs == null) { // There are no valid configs for this device, so we can't use it Slog.w(TAG, "No valid configs found for display device " + builtInDisplayId); return; } int activeConfig = SurfaceControl.getActiveConfig(displayToken); if (activeConfig < 0) { // There is no active config, and for now we don't have the // policy to set one. Slog.w(TAG, "No active config found for display device " + builtInDisplayId); return; } LocalDisplayDevice device = mDevices.get(builtInDisplayId); if (device == null) { // Display was added. device = new LocalDisplayDevice(displayToken, builtInDisplayId, configs, activeConfig); mDevices.put(builtInDisplayId, device); sendDisplayDeviceEventLocked(device, DISPLAY_DEVICE_EVENT_ADDED); } else if (device.updatePhysicalDisplayInfoLocked(configs, activeConfig)) { // Display properties changed. sendDisplayDeviceEventLocked(device, DISPLAY_DEVICE_EVENT_CHANGED); } } else { // The display is no longer available. Ignore the attempt to add it. // If it was connected but has already been disconnected, we'll get a // disconnect event that will remove it from mDevices. } } private void tryDisconnectDisplayLocked(int builtInDisplayId) { LocalDisplayDevice device = mDevices.get(builtInDisplayId); if (device != null) { // Display was removed. mDevices.remove(builtInDisplayId); sendDisplayDeviceEventLocked(device, DISPLAY_DEVICE_EVENT_REMOVED); } } static int getPowerModeForState(int state) { switch (state) { case Display.STATE_OFF: return SurfaceControl.POWER_MODE_OFF; case Display.STATE_DOZE: return SurfaceControl.POWER_MODE_DOZE; case Display.STATE_DOZE_SUSPEND: return SurfaceControl.POWER_MODE_DOZE_SUSPEND; default: return SurfaceControl.POWER_MODE_NORMAL; } } private final class LocalDisplayDevice extends DisplayDevice { private final int mBuiltInDisplayId; private final Light mBacklight; private final SparseArray mSupportedModes = new SparseArray<>(); private final SparseArray mSupportedColorTransforms = new SparseArray<>(); private DisplayDeviceInfo mInfo; private boolean mHavePendingChanges; private int mState = Display.STATE_UNKNOWN; private int mBrightness = PowerManager.BRIGHTNESS_DEFAULT; private int mActivePhysIndex; private int mDefaultModeId; private int mActiveModeId; private boolean mActiveModeInvalid; private int mDefaultColorTransformId; private int mActiveColorTransformId; private boolean mActiveColorTransformInvalid; private Display.HdrCapabilities mHdrCapabilities; private SurfaceControl.PhysicalDisplayInfo mDisplayInfos[]; public LocalDisplayDevice(IBinder displayToken, int builtInDisplayId, SurfaceControl.PhysicalDisplayInfo[] physicalDisplayInfos, int activeDisplayInfo) { super(LocalDisplayAdapter.this, displayToken, UNIQUE_ID_PREFIX + builtInDisplayId); mBuiltInDisplayId = builtInDisplayId; updatePhysicalDisplayInfoLocked(physicalDisplayInfos, activeDisplayInfo); if (mBuiltInDisplayId == SurfaceControl.BUILT_IN_DISPLAY_ID_MAIN) { LightsManager lights = LocalServices.getService(LightsManager.class); mBacklight = lights.getLight(LightsManager.LIGHT_ID_BACKLIGHT); } else { mBacklight = null; } mHdrCapabilities = SurfaceControl.getHdrCapabilities(displayToken); } public boolean updatePhysicalDisplayInfoLocked( SurfaceControl.PhysicalDisplayInfo[] physicalDisplayInfos, int activeDisplayInfo) { mDisplayInfos = Arrays.copyOf(physicalDisplayInfos, physicalDisplayInfos.length); mActivePhysIndex = activeDisplayInfo; ArrayList colorTransforms = new ArrayList<>(); // Build an updated list of all existing color transforms. boolean colorTransformsAdded = false; Display.ColorTransform activeColorTransform = null; for (int i = 0; i < physicalDisplayInfos.length; i++) { SurfaceControl.PhysicalDisplayInfo info = physicalDisplayInfos[i]; // First check to see if we've already added this color transform boolean existingMode = false; for (int j = 0; j < colorTransforms.size(); j++) { if (colorTransforms.get(j).getColorTransform() == info.colorTransform) { existingMode = true; break; } } if (existingMode) { continue; } Display.ColorTransform colorTransform = findColorTransform(info); if (colorTransform == null) { colorTransform = createColorTransform(info.colorTransform); colorTransformsAdded = true; } colorTransforms.add(colorTransform); if (i == activeDisplayInfo) { activeColorTransform = colorTransform; } } // Build an updated list of all existing modes. ArrayList records = new ArrayList(); boolean modesAdded = false; for (int i = 0; i < physicalDisplayInfos.length; i++) { SurfaceControl.PhysicalDisplayInfo info = physicalDisplayInfos[i]; // First, check to see if we've already added a matching mode. Since not all // configuration options are exposed via Display.Mode, it's possible that we have // multiple PhysicalDisplayInfos that would generate the same Display.Mode. boolean existingMode = false; for (int j = 0; j < records.size(); j++) { if (records.get(j).hasMatchingMode(info)) { existingMode = true; break; } } if (existingMode) { continue; } // If we haven't already added a mode for this configuration to the new set of // supported modes then check to see if we have one in the prior set of supported // modes to reuse. DisplayModeRecord record = findDisplayModeRecord(info); if (record == null) { record = new DisplayModeRecord(info); modesAdded = true; } records.add(record); } // Get the currently active mode DisplayModeRecord activeRecord = null; for (int i = 0; i < records.size(); i++) { DisplayModeRecord record = records.get(i); if (record.hasMatchingMode(physicalDisplayInfos[activeDisplayInfo])){ activeRecord = record; break; } } // Check whether surface flinger spontaneously changed modes out from under us. Schedule // traversals to ensure that the correct state is reapplied if necessary. if (mActiveModeId != 0 && mActiveModeId != activeRecord.mMode.getModeId()) { mActiveModeInvalid = true; sendTraversalRequestLocked(); } // Check whether surface flinger spontaneously changed color transforms out from under // us. if (mActiveColorTransformId != 0 && mActiveColorTransformId != activeColorTransform.getId()) { mActiveColorTransformInvalid = true; sendTraversalRequestLocked(); } boolean colorTransformsChanged = colorTransforms.size() != mSupportedColorTransforms.size() || colorTransformsAdded; boolean recordsChanged = records.size() != mSupportedModes.size() || modesAdded; // If neither the records nor the supported color transforms have changed then we're // done here. if (!recordsChanged && !colorTransformsChanged) { return false; } // Update the index of modes. mHavePendingChanges = true; mSupportedModes.clear(); for (DisplayModeRecord record : records) { mSupportedModes.put(record.mMode.getModeId(), record); } mSupportedColorTransforms.clear(); for (Display.ColorTransform colorTransform : colorTransforms) { mSupportedColorTransforms.put(colorTransform.getId(), colorTransform); } // Update the default mode and color transform if needed. This needs to be done in // tandem so we always have a default state to fall back to. if (findDisplayInfoIndexLocked(mDefaultColorTransformId, mDefaultModeId) < 0) { if (mDefaultModeId != 0) { Slog.w(TAG, "Default display mode no longer available, using currently" + " active mode as default."); } mDefaultModeId = activeRecord.mMode.getModeId(); if (mDefaultColorTransformId != 0) { Slog.w(TAG, "Default color transform no longer available, using currently" + " active color transform as default"); } mDefaultColorTransformId = activeColorTransform.getId(); } // Determine whether the active mode is still there. if (mSupportedModes.indexOfKey(mActiveModeId) < 0) { if (mActiveModeId != 0) { Slog.w(TAG, "Active display mode no longer available, reverting to default" + " mode."); } mActiveModeId = mDefaultModeId; mActiveModeInvalid = true; } // Determine whether the active color transform is still there. if (mSupportedColorTransforms.indexOfKey(mActiveColorTransformId) < 0) { if (mActiveColorTransformId != 0) { Slog.w(TAG, "Active color transform no longer available, reverting" + " to default transform."); } mActiveColorTransformId = mDefaultColorTransformId; mActiveColorTransformInvalid = true; } // Schedule traversals so that we apply pending changes. sendTraversalRequestLocked(); return true; } private DisplayModeRecord findDisplayModeRecord(SurfaceControl.PhysicalDisplayInfo info) { for (int i = 0; i < mSupportedModes.size(); i++) { DisplayModeRecord record = mSupportedModes.valueAt(i); if (record.hasMatchingMode(info)) { return record; } } return null; } private Display.ColorTransform findColorTransform(SurfaceControl.PhysicalDisplayInfo info) { for (int i = 0; i < mSupportedColorTransforms.size(); i++) { Display.ColorTransform transform = mSupportedColorTransforms.valueAt(i); if (transform.getColorTransform() == info.colorTransform) { return transform; } } return null; } @Override public void applyPendingDisplayDeviceInfoChangesLocked() { if (mHavePendingChanges) { mInfo = null; mHavePendingChanges = false; } } @Override public DisplayDeviceInfo getDisplayDeviceInfoLocked() { if (mInfo == null) { SurfaceControl.PhysicalDisplayInfo phys = mDisplayInfos[mActivePhysIndex]; mInfo = new DisplayDeviceInfo(); mInfo.width = phys.width; mInfo.height = phys.height; mInfo.modeId = mActiveModeId; mInfo.defaultModeId = mDefaultModeId; mInfo.supportedModes = new Display.Mode[mSupportedModes.size()]; for (int i = 0; i < mSupportedModes.size(); i++) { DisplayModeRecord record = mSupportedModes.valueAt(i); mInfo.supportedModes[i] = record.mMode; } mInfo.colorTransformId = mActiveColorTransformId; mInfo.defaultColorTransformId = mDefaultColorTransformId; mInfo.supportedColorTransforms = new Display.ColorTransform[mSupportedColorTransforms.size()]; for (int i = 0; i < mSupportedColorTransforms.size(); i++) { mInfo.supportedColorTransforms[i] = mSupportedColorTransforms.valueAt(i); } mInfo.hdrCapabilities = mHdrCapabilities; mInfo.appVsyncOffsetNanos = phys.appVsyncOffsetNanos; mInfo.presentationDeadlineNanos = phys.presentationDeadlineNanos; mInfo.state = mState; mInfo.uniqueId = getUniqueId(); // Assume that all built-in displays that have secure output (eg. HDCP) also // support compositing from gralloc protected buffers. if (phys.secure) { mInfo.flags = DisplayDeviceInfo.FLAG_SECURE | DisplayDeviceInfo.FLAG_SUPPORTS_PROTECTED_BUFFERS; } final Resources res = getContext().getResources(); if (mBuiltInDisplayId == SurfaceControl.BUILT_IN_DISPLAY_ID_MAIN) { mInfo.name = res.getString( com.android.internal.R.string.display_manager_built_in_display_name); mInfo.flags |= DisplayDeviceInfo.FLAG_DEFAULT_DISPLAY | DisplayDeviceInfo.FLAG_ROTATES_WITH_CONTENT; if (res.getBoolean(com.android.internal.R.bool.config_mainBuiltInDisplayIsRound) || (Build.IS_EMULATOR && SystemProperties.getBoolean(PROPERTY_EMULATOR_CIRCULAR, false))) { mInfo.flags |= DisplayDeviceInfo.FLAG_ROUND; } mInfo.type = Display.TYPE_BUILT_IN; mInfo.densityDpi = (int)(phys.density * 160 + 0.5f); mInfo.xDpi = phys.xDpi; mInfo.yDpi = phys.yDpi; mInfo.touch = DisplayDeviceInfo.TOUCH_INTERNAL; } else { mInfo.type = Display.TYPE_HDMI; mInfo.flags |= DisplayDeviceInfo.FLAG_PRESENTATION; mInfo.name = getContext().getResources().getString( com.android.internal.R.string.display_manager_hdmi_display_name); mInfo.touch = DisplayDeviceInfo.TOUCH_EXTERNAL; mInfo.setAssumedDensityForExternalDisplay(phys.width, phys.height); // For demonstration purposes, allow rotation of the external display. // In the future we might allow the user to configure this directly. if ("portrait".equals(SystemProperties.get("persist.demo.hdmirotation"))) { mInfo.rotation = Surface.ROTATION_270; } // For demonstration purposes, allow rotation of the external display // to follow the built-in display. if (SystemProperties.getBoolean("persist.demo.hdmirotates", false)) { mInfo.flags |= DisplayDeviceInfo.FLAG_ROTATES_WITH_CONTENT; } if (!res.getBoolean( com.android.internal.R.bool.config_localDisplaysMirrorContent)) { mInfo.flags |= DisplayDeviceInfo.FLAG_OWN_CONTENT_ONLY; } } } return mInfo; } @Override public Runnable requestDisplayStateLocked(final int state, final int brightness) { // Assume that the brightness is off if the display is being turned off. assert state != Display.STATE_OFF || brightness == PowerManager.BRIGHTNESS_OFF; final boolean stateChanged = (mState != state); final boolean brightnessChanged = (mBrightness != brightness) && mBacklight != null; if (stateChanged || brightnessChanged) { final int displayId = mBuiltInDisplayId; final IBinder token = getDisplayTokenLocked(); final int oldState = mState; if (stateChanged) { mState = state; updateDeviceInfoLocked(); } if (brightnessChanged) { mBrightness = brightness; } // Defer actually setting the display state until after we have exited // the critical section since it can take hundreds of milliseconds // to complete. return new Runnable() { @Override public void run() { // Exit a suspended state before making any changes. int currentState = oldState; if (Display.isSuspendedState(oldState) || oldState == Display.STATE_UNKNOWN) { if (!Display.isSuspendedState(state)) { setDisplayState(state); currentState = state; } else if (state == Display.STATE_DOZE_SUSPEND || oldState == Display.STATE_DOZE_SUSPEND) { setDisplayState(Display.STATE_DOZE); currentState = Display.STATE_DOZE; } else { return; // old state and new state is off } } // Apply brightness changes given that we are in a non-suspended state. if (brightnessChanged) { setDisplayBrightness(brightness); } // Enter the final desired state, possibly suspended. if (state != currentState) { setDisplayState(state); } } private void setDisplayState(int state) { if (DEBUG) { Slog.d(TAG, "setDisplayState(" + "id=" + displayId + ", state=" + Display.stateToString(state) + ")"); } Trace.traceBegin(Trace.TRACE_TAG_POWER, "setDisplayState(" + "id=" + displayId + ", state=" + Display.stateToString(state) + ")"); try { final int mode = getPowerModeForState(state); SurfaceControl.setDisplayPowerMode(token, mode); } finally { Trace.traceEnd(Trace.TRACE_TAG_POWER); } } private void setDisplayBrightness(int brightness) { if (DEBUG) { Slog.d(TAG, "setDisplayBrightness(" + "id=" + displayId + ", brightness=" + brightness + ")"); } Trace.traceBegin(Trace.TRACE_TAG_POWER, "setDisplayBrightness(" + "id=" + displayId + ", brightness=" + brightness + ")"); try { mBacklight.setBrightness(brightness); } finally { Trace.traceEnd(Trace.TRACE_TAG_POWER); } } }; } return null; } @Override public void requestColorTransformAndModeInTransactionLocked( int colorTransformId, int modeId) { if (modeId == 0) { modeId = mDefaultModeId; } else if (mSupportedModes.indexOfKey(modeId) < 0) { Slog.w(TAG, "Requested mode " + modeId + " is not supported by this display," + " reverting to default display mode."); modeId = mDefaultModeId; } if (colorTransformId == 0) { colorTransformId = mDefaultColorTransformId; } else if (mSupportedColorTransforms.indexOfKey(colorTransformId) < 0) { Slog.w(TAG, "Requested color transform " + colorTransformId + " is not supported" + " by this display, reverting to the default color transform"); colorTransformId = mDefaultColorTransformId; } int physIndex = findDisplayInfoIndexLocked(colorTransformId, modeId); if (physIndex < 0) { Slog.w(TAG, "Requested color transform, mode ID pair (" + colorTransformId + ", " + modeId + ") not available, trying color transform with default mode ID"); modeId = mDefaultModeId; physIndex = findDisplayInfoIndexLocked(colorTransformId, modeId); if (physIndex < 0) { Slog.w(TAG, "Requested color transform with default mode ID still not" + " available, falling back to default color transform with default" + " mode."); colorTransformId = mDefaultColorTransformId; physIndex = findDisplayInfoIndexLocked(colorTransformId, modeId); } } if (mActivePhysIndex == physIndex) { return; } SurfaceControl.setActiveConfig(getDisplayTokenLocked(), physIndex); mActivePhysIndex = physIndex; mActiveModeId = modeId; mActiveModeInvalid = false; mActiveColorTransformId = colorTransformId; mActiveColorTransformInvalid = false; updateDeviceInfoLocked(); } @Override public void dumpLocked(PrintWriter pw) { super.dumpLocked(pw); pw.println("mBuiltInDisplayId=" + mBuiltInDisplayId); pw.println("mActivePhysIndex=" + mActivePhysIndex); pw.println("mActiveModeId=" + mActiveModeId); pw.println("mActiveColorTransformId=" + mActiveColorTransformId); pw.println("mState=" + Display.stateToString(mState)); pw.println("mBrightness=" + mBrightness); pw.println("mBacklight=" + mBacklight); pw.println("mDisplayInfos="); for (int i = 0; i < mDisplayInfos.length; i++) { pw.println(" " + mDisplayInfos[i]); } pw.println("mSupportedModes="); for (int i = 0; i < mSupportedModes.size(); i++) { pw.println(" " + mSupportedModes.valueAt(i)); } pw.println("mSupportedColorTransforms=["); for (int i = 0; i < mSupportedColorTransforms.size(); i++) { if (i != 0) { pw.print(", "); } pw.print(mSupportedColorTransforms.valueAt(i)); } pw.println("]"); } private int findDisplayInfoIndexLocked(int colorTransformId, int modeId) { DisplayModeRecord record = mSupportedModes.get(modeId); Display.ColorTransform transform = mSupportedColorTransforms.get(colorTransformId); if (record != null && transform != null) { for (int i = 0; i < mDisplayInfos.length; i++) { SurfaceControl.PhysicalDisplayInfo info = mDisplayInfos[i]; if (info.colorTransform == transform.getColorTransform() && record.hasMatchingMode(info)){ return i; } } } return -1; } private void updateDeviceInfoLocked() { mInfo = null; sendDisplayDeviceEventLocked(this, DISPLAY_DEVICE_EVENT_CHANGED); } } /** * Keeps track of a display configuration. */ private static final class DisplayModeRecord { public final Display.Mode mMode; public DisplayModeRecord(SurfaceControl.PhysicalDisplayInfo phys) { mMode = createMode(phys.width, phys.height, phys.refreshRate); } /** * Returns whether the mode generated by the given PhysicalDisplayInfo matches the mode * contained by the record modulo mode ID. * * Note that this doesn't necessarily mean the the PhysicalDisplayInfos are identical, just * that they generate identical modes. */ public boolean hasMatchingMode(SurfaceControl.PhysicalDisplayInfo info) { int modeRefreshRate = Float.floatToIntBits(mMode.getRefreshRate()); int displayInfoRefreshRate = Float.floatToIntBits(info.refreshRate); return mMode.getPhysicalWidth() == info.width && mMode.getPhysicalHeight() == info.height && modeRefreshRate == displayInfoRefreshRate; } public String toString() { return "DisplayModeRecord{mMode=" + mMode + "}"; } } private final class HotplugDisplayEventReceiver extends DisplayEventReceiver { public HotplugDisplayEventReceiver(Looper looper) { super(looper); } @Override public void onHotplug(long timestampNanos, int builtInDisplayId, boolean connected) { synchronized (getSyncRoot()) { if (connected) { tryConnectDisplayLocked(builtInDisplayId); } else { tryDisconnectDisplayLocked(builtInDisplayId); } } } } }