/* * Copyright (C) 2010 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; import com.android.internal.util.XmlUtils; import org.xmlpull.v1.XmlPullParser; import android.content.Context; import android.content.pm.PackageManager; import android.content.res.Configuration; import android.os.Environment; import android.os.SystemProperties; import android.util.Slog; import android.util.Xml; import android.view.InputChannel; import android.view.InputDevice; import android.view.InputEvent; import android.view.Surface; import java.io.BufferedReader; import java.io.File; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.FileReader; import java.io.IOException; import java.io.InputStreamReader; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Properties; /* * Wraps the C++ InputManager and provides its callbacks. */ public class InputManager { static final String TAG = "InputManager"; private static final boolean DEBUG = false; private final Callbacks mCallbacks; private final Context mContext; private final WindowManagerService mWindowManagerService; private static native void nativeInit(Callbacks callbacks); private static native void nativeStart(); private static native void nativeSetDisplaySize(int displayId, int width, int height); private static native void nativeSetDisplayOrientation(int displayId, int rotation); private static native int nativeGetScanCodeState(int deviceId, int sourceMask, int scanCode); private static native int nativeGetKeyCodeState(int deviceId, int sourceMask, int keyCode); private static native int nativeGetSwitchState(int deviceId, int sourceMask, int sw); private static native boolean nativeHasKeys(int deviceId, int sourceMask, int[] keyCodes, boolean[] keyExists); private static native void nativeRegisterInputChannel(InputChannel inputChannel, boolean monitor); private static native void nativeUnregisterInputChannel(InputChannel inputChannel); private static native int nativeInjectInputEvent(InputEvent event, int injectorPid, int injectorUid, int syncMode, int timeoutMillis); private static native void nativeSetInputWindows(InputWindow[] windows); private static native void nativeSetInputDispatchMode(boolean enabled, boolean frozen); private static native void nativeSetFocusedApplication(InputApplication application); private static native InputDevice nativeGetInputDevice(int deviceId); private static native void nativeGetInputConfiguration(Configuration configuration); private static native int[] nativeGetInputDeviceIds(); private static native String nativeDump(); // Input event injection constants defined in InputDispatcher.h. static final int INPUT_EVENT_INJECTION_SUCCEEDED = 0; static final int INPUT_EVENT_INJECTION_PERMISSION_DENIED = 1; static final int INPUT_EVENT_INJECTION_FAILED = 2; static final int INPUT_EVENT_INJECTION_TIMED_OUT = 3; // Input event injection synchronization modes defined in InputDispatcher.h static final int INPUT_EVENT_INJECTION_SYNC_NONE = 0; static final int INPUT_EVENT_INJECTION_SYNC_WAIT_FOR_RESULT = 1; static final int INPUT_EVENT_INJECTION_SYNC_WAIT_FOR_FINISH = 2; // Key states (may be returned by queries about the current state of a // particular key code, scan code or switch). /** The key state is unknown or the requested key itself is not supported. */ public static final int KEY_STATE_UNKNOWN = -1; /** The key is up. /*/ public static final int KEY_STATE_UP = 0; /** The key is down. */ public static final int KEY_STATE_DOWN = 1; /** The key is down but is a virtual key press that is being emulated by the system. */ public static final int KEY_STATE_VIRTUAL = 2; public InputManager(Context context, WindowManagerService windowManagerService) { this.mContext = context; this.mWindowManagerService = windowManagerService; this.mCallbacks = new Callbacks(); init(); } private void init() { Slog.i(TAG, "Initializing input manager"); nativeInit(mCallbacks); } public void start() { Slog.i(TAG, "Starting input manager"); nativeStart(); } public void setDisplaySize(int displayId, int width, int height) { if (width <= 0 || height <= 0) { throw new IllegalArgumentException("Invalid display id or dimensions."); } if (DEBUG) { Slog.d(TAG, "Setting display #" + displayId + " size to " + width + "x" + height); } nativeSetDisplaySize(displayId, width, height); } public void setDisplayOrientation(int displayId, int rotation) { if (rotation < Surface.ROTATION_0 || rotation > Surface.ROTATION_270) { throw new IllegalArgumentException("Invalid rotation."); } if (DEBUG) { Slog.d(TAG, "Setting display #" + displayId + " orientation to " + rotation); } nativeSetDisplayOrientation(displayId, rotation); } public void getInputConfiguration(Configuration config) { if (config == null) { throw new IllegalArgumentException("config must not be null."); } nativeGetInputConfiguration(config); } /** * Gets the current state of a key or button by key code. * @param deviceId The input device id, or -1 to consult all devices. * @param sourceMask The input sources to consult, or {@link InputDevice#SOURCE_ANY} to * consider all input sources. An input device is consulted if at least one of its * non-class input source bits matches the specified source mask. * @param keyCode The key code to check. * @return The key state. */ public int getKeyCodeState(int deviceId, int sourceMask, int keyCode) { return nativeGetKeyCodeState(deviceId, sourceMask, keyCode); } /** * Gets the current state of a key or button by scan code. * @param deviceId The input device id, or -1 to consult all devices. * @param sourceMask The input sources to consult, or {@link InputDevice#SOURCE_ANY} to * consider all input sources. An input device is consulted if at least one of its * non-class input source bits matches the specified source mask. * @param scanCode The scan code to check. * @return The key state. */ public int getScanCodeState(int deviceId, int sourceMask, int scanCode) { return nativeGetScanCodeState(deviceId, sourceMask, scanCode); } /** * Gets the current state of a switch by switch code. * @param deviceId The input device id, or -1 to consult all devices. * @param sourceMask The input sources to consult, or {@link InputDevice#SOURCE_ANY} to * consider all input sources. An input device is consulted if at least one of its * non-class input source bits matches the specified source mask. * @param switchCode The switch code to check. * @return The switch state. */ public int getSwitchState(int deviceId, int sourceMask, int switchCode) { return nativeGetSwitchState(deviceId, sourceMask, switchCode); } /** * Determines whether the specified key codes are supported by a particular device. * @param deviceId The input device id, or -1 to consult all devices. * @param sourceMask The input sources to consult, or {@link InputDevice#SOURCE_ANY} to * consider all input sources. An input device is consulted if at least one of its * non-class input source bits matches the specified source mask. * @param keyCodes The array of key codes to check. * @param keyExists An array at least as large as keyCodes whose entries will be set * to true or false based on the presence or absence of support for the corresponding * key codes. * @return True if the lookup was successful, false otherwise. */ public boolean hasKeys(int deviceId, int sourceMask, int[] keyCodes, boolean[] keyExists) { if (keyCodes == null) { throw new IllegalArgumentException("keyCodes must not be null."); } if (keyExists == null || keyExists.length < keyCodes.length) { throw new IllegalArgumentException("keyExists must not be null and must be at " + "least as large as keyCodes."); } return nativeHasKeys(deviceId, sourceMask, keyCodes, keyExists); } /** * Creates an input channel that will receive all input from the input dispatcher. * @param inputChannelName The input channel name. * @return The input channel. */ public InputChannel monitorInput(String inputChannelName) { if (inputChannelName == null) { throw new IllegalArgumentException("inputChannelName must not be null."); } InputChannel[] inputChannels = InputChannel.openInputChannelPair(inputChannelName); nativeRegisterInputChannel(inputChannels[0], true); inputChannels[0].dispose(); // don't need to retain the Java object reference return inputChannels[1]; } /** * Registers an input channel so that it can be used as an input event target. * @param inputChannel The input channel to register. */ public void registerInputChannel(InputChannel inputChannel) { if (inputChannel == null) { throw new IllegalArgumentException("inputChannel must not be null."); } nativeRegisterInputChannel(inputChannel, false); } /** * Unregisters an input channel. * @param inputChannel The input channel to unregister. */ public void unregisterInputChannel(InputChannel inputChannel) { if (inputChannel == null) { throw new IllegalArgumentException("inputChannel must not be null."); } nativeUnregisterInputChannel(inputChannel); } /** * Injects an input event into the event system on behalf of an application. * The synchronization mode determines whether the method blocks while waiting for * input injection to proceed. * * {@link #INPUT_EVENT_INJECTION_SYNC_NONE} never blocks. Injection is asynchronous and * is assumed always to be successful. * * {@link #INPUT_EVENT_INJECTION_SYNC_WAIT_FOR_RESULT} waits for previous events to be * dispatched so that the input dispatcher can determine whether input event injection will * be permitted based on the current input focus. Does not wait for the input event to * finish processing. * * {@link #INPUT_EVENT_INJECTION_SYNC_WAIT_FOR_FINISH} waits for the input event to * be completely processed. * * @param event The event to inject. * @param injectorPid The pid of the injecting application. * @param injectorUid The uid of the injecting application. * @param syncMode The synchronization mode. * @param timeoutMillis The injection timeout in milliseconds. * @return One of the INPUT_EVENT_INJECTION_XXX constants. */ public int injectInputEvent(InputEvent event, int injectorPid, int injectorUid, int syncMode, int timeoutMillis) { if (event == null) { throw new IllegalArgumentException("event must not be null"); } if (injectorPid < 0 || injectorUid < 0) { throw new IllegalArgumentException("injectorPid and injectorUid must not be negative."); } if (timeoutMillis <= 0) { throw new IllegalArgumentException("timeoutMillis must be positive"); } return nativeInjectInputEvent(event, injectorPid, injectorUid, syncMode, timeoutMillis); } /** * Gets information about the input device with the specified id. * @param id The device id. * @return The input device or null if not found. */ public InputDevice getInputDevice(int deviceId) { return nativeGetInputDevice(deviceId); } /** * Gets the ids of all input devices in the system. * @return The input device ids. */ public int[] getInputDeviceIds() { return nativeGetInputDeviceIds(); } public void setInputWindows(InputWindow[] windows) { nativeSetInputWindows(windows); } public void setFocusedApplication(InputApplication application) { nativeSetFocusedApplication(application); } public void setInputDispatchMode(boolean enabled, boolean frozen) { nativeSetInputDispatchMode(enabled, frozen); } public void dump(PrintWriter pw) { String dumpStr = nativeDump(); if (dumpStr != null) { pw.println(dumpStr); } } private static final class VirtualKeyDefinition { public int scanCode; // configured position data, specified in display coords public int centerX; public int centerY; public int width; public int height; } private static final class InputDeviceCalibration { public String[] keys; public String[] values; } /* * Callbacks from native. */ private class Callbacks { static final String TAG = "InputManager-Callbacks"; private static final boolean DEBUG_VIRTUAL_KEYS = false; private static final String EXCLUDED_DEVICES_PATH = "etc/excluded-input-devices.xml"; private static final String CALIBRATION_DIR_PATH = "usr/idc/"; @SuppressWarnings("unused") public void notifyConfigurationChanged(long whenNanos) { mWindowManagerService.sendNewConfiguration(); } @SuppressWarnings("unused") public void notifyLidSwitchChanged(long whenNanos, boolean lidOpen) { mWindowManagerService.mInputMonitor.notifyLidSwitchChanged(whenNanos, lidOpen); } @SuppressWarnings("unused") public void notifyJackSwitchChanged(long whenNanos,int switchCode, boolean jackOpen) { mWindowManagerService.mInputMonitor.notifyJackSwitchChanged(whenNanos,switchCode,jackOpen); } @SuppressWarnings("unused") public void notifyInputChannelBroken(InputChannel inputChannel) { mWindowManagerService.mInputMonitor.notifyInputChannelBroken(inputChannel); } @SuppressWarnings("unused") public long notifyANR(Object token, InputChannel inputChannel) { return mWindowManagerService.mInputMonitor.notifyANR(token, inputChannel); } @SuppressWarnings("unused") public int interceptKeyBeforeQueueing(long whenNanos, int action, int flags, int keyCode, int scanCode, int policyFlags, boolean isScreenOn) { return mWindowManagerService.mInputMonitor.interceptKeyBeforeQueueing( whenNanos, action, flags, keyCode, scanCode, policyFlags, isScreenOn); } @SuppressWarnings("unused") public boolean interceptKeyBeforeDispatching(InputChannel focus, int action, int flags, int keyCode, int scanCode, int metaState, int repeatCount, int policyFlags) { return mWindowManagerService.mInputMonitor.interceptKeyBeforeDispatching(focus, action, flags, keyCode, scanCode, metaState, repeatCount, policyFlags); } @SuppressWarnings("unused") public boolean checkInjectEventsPermission(int injectorPid, int injectorUid) { return mContext.checkPermission( android.Manifest.permission.INJECT_EVENTS, injectorPid, injectorUid) == PackageManager.PERMISSION_GRANTED; } @SuppressWarnings("unused") public boolean filterTouchEvents() { return mContext.getResources().getBoolean( com.android.internal.R.bool.config_filterTouchEvents); } @SuppressWarnings("unused") public boolean filterJumpyTouchEvents() { return mContext.getResources().getBoolean( com.android.internal.R.bool.config_filterJumpyTouchEvents); } @SuppressWarnings("unused") public int getVirtualKeyQuietTimeMillis() { return mContext.getResources().getInteger( com.android.internal.R.integer.config_virtualKeyQuietTimeMillis); } @SuppressWarnings("unused") public VirtualKeyDefinition[] getVirtualKeyDefinitions(String deviceName) { ArrayList keys = new ArrayList(); try { FileInputStream fis = new FileInputStream( "/sys/board_properties/virtualkeys." + deviceName); InputStreamReader isr = new InputStreamReader(fis); BufferedReader br = new BufferedReader(isr, 2048); String str = br.readLine(); if (str != null) { String[] it = str.split(":"); if (DEBUG_VIRTUAL_KEYS) Slog.v(TAG, "***** VIRTUAL KEYS: " + it); final int N = it.length-6; for (int i=0; i<=N; i+=6) { if (!"0x01".equals(it[i])) { Slog.w(TAG, "Unknown virtual key type at elem #" + i + ": " + it[i] + " for device " + deviceName); continue; } try { VirtualKeyDefinition key = new VirtualKeyDefinition(); key.scanCode = Integer.parseInt(it[i+1]); key.centerX = Integer.parseInt(it[i+2]); key.centerY = Integer.parseInt(it[i+3]); key.width = Integer.parseInt(it[i+4]); key.height = Integer.parseInt(it[i+5]); if (DEBUG_VIRTUAL_KEYS) Slog.v(TAG, "Virtual key " + key.scanCode + ": center=" + key.centerX + "," + key.centerY + " size=" + key.width + "x" + key.height); keys.add(key); } catch (NumberFormatException e) { Slog.w(TAG, "Bad number in virtual key definition at region " + i + " in: " + str + " for device " + deviceName, e); } } } br.close(); } catch (FileNotFoundException e) { Slog.i(TAG, "No virtual keys found for device " + deviceName + "."); } catch (IOException e) { Slog.w(TAG, "Error reading virtual keys for device " + deviceName + ".", e); } return keys.toArray(new VirtualKeyDefinition[keys.size()]); } @SuppressWarnings("unused") public InputDeviceCalibration getInputDeviceCalibration(String deviceName) { // Calibration is specified as a sequence of colon-delimited key value pairs. Properties properties = new Properties(); File calibrationFile = new File(Environment.getRootDirectory(), CALIBRATION_DIR_PATH + deviceName + ".idc"); if (calibrationFile.exists()) { try { properties.load(new FileInputStream(calibrationFile)); } catch (IOException ex) { Slog.w(TAG, "Error reading input device calibration properties for device " + deviceName + " from " + calibrationFile + ".", ex); } } else { Slog.i(TAG, "No input device calibration properties found for device " + deviceName + "."); return null; } InputDeviceCalibration calibration = new InputDeviceCalibration(); calibration.keys = properties.keySet().toArray(new String[properties.size()]); calibration.values = properties.values().toArray(new String[properties.size()]); return calibration; } @SuppressWarnings("unused") public String[] getExcludedDeviceNames() { ArrayList names = new ArrayList(); // Read partner-provided list of excluded input devices XmlPullParser parser = null; // Environment.getRootDirectory() is a fancy way of saying ANDROID_ROOT or "/system". File confFile = new File(Environment.getRootDirectory(), EXCLUDED_DEVICES_PATH); FileReader confreader = null; try { confreader = new FileReader(confFile); parser = Xml.newPullParser(); parser.setInput(confreader); XmlUtils.beginDocument(parser, "devices"); while (true) { XmlUtils.nextElement(parser); if (!"device".equals(parser.getName())) { break; } String name = parser.getAttributeValue(null, "name"); if (name != null) { names.add(name); } } } catch (FileNotFoundException e) { // It's ok if the file does not exist. } catch (Exception e) { Slog.e(TAG, "Exception while parsing '" + confFile.getAbsolutePath() + "'", e); } finally { try { if (confreader != null) confreader.close(); } catch (IOException e) { } } return names.toArray(new String[names.size()]); } @SuppressWarnings("unused") public int getMaxEventsPerSecond() { int result = 0; try { result = Integer.parseInt(SystemProperties.get("windowsmgr.max_events_per_sec")); } catch (NumberFormatException e) { } if (result < 1) { result = 60; } return result; } } }