/* * Copyright (C) 2020 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 android.view; import static android.view.KeyEvent.FLAG_CANCELED; import static android.view.KeyEvent.FLAG_IS_ACCESSIBILITY_EVENT; import static java.lang.annotation.RetentionPolicy.SOURCE; import android.annotation.IntDef; import android.annotation.Nullable; import android.annotation.SuppressLint; import android.os.Parcel; import android.os.Parcelable; import com.android.internal.util.DataClass; import java.lang.annotation.Retention; /** * KeyEvent that has been verified by the system. * The data contained in this class is always a subset of a {@link KeyEvent}. Use this class to * check which data has been confirmed by the system to be authentic. * * Most applications do not need to use this class. * * {@see android.hardware.input.InputManager#verifyInputEvent} */ @DataClass(genHiddenConstructor = true, genEqualsHashCode = true) public final class VerifiedKeyEvent extends VerifiedInputEvent implements Parcelable { private static final String TAG = "VerifiedKeyEvent"; /** @hide */ @Retention(SOURCE) @IntDef({KeyEvent.ACTION_DOWN, KeyEvent.ACTION_UP}) public @interface KeyEventAction {}; /** * The action of this key event. May be either {@link KeyEvent#ACTION_DOWN} or * {@link KeyEvent#ACTION_UP}. * * @see KeyEvent#getAction() */ @KeyEventAction private int mAction; /** * Retrieve the time of the most recent key down event, in the * {@link android.os.SystemClock#uptimeMillis} time base, but in nanoseconds. If this * is a down event, this will be the same as {@link VerifiedInputEvent#getEventTimeNanos()}. * * @see KeyEvent#getDownTime() */ @SuppressLint({"MethodNameUnits"}) private long mDownTimeNanos; /** * Returns the flags for this key event. * * @see KeyEvent#getFlags() * @see KeyEvent#FLAG_CANCELED * @see KeyEvent#FLAG_IS_ACCESSIBILITY_EVENT * * @hide */ private int mFlags; /** * Retrieve the key code of the key event. * * @see KeyEvent#getKeyCode() */ private int mKeyCode; /** * Retrieve the hardware key id of this key event. These values are not reliable * and vary from device to device. * * @see KeyEvent#getScanCode() */ private int mScanCode; /** *

Returns the state of the meta keys.

* * @return an integer in which each bit set to 1 represents a pressed meta key * @see KeyEvent#getMetaState() */ private int mMetaState; /** * Retrieve the repeat count of the event. For key down events, this is the number of times * the key has repeated with the first down starting at 0 and counting up from there. * For key up events, this is always equal to zero. For multiple key events, * this is the number of down/up pairs that have occurred. */ private int mRepeatCount; /** * Get a specific flag of this key event, if possible. Return null if the flag value could * not be checked. * * @param flag the flag of interest * @return Boolean(true) if the key event has the requested flag * Boolean(false) if the key event does not have the requested flag * null if the flag value could not be checked * * @see KeyEvent#getFlags() * @see KeyEvent#FLAG_CANCELED */ public @Nullable Boolean getFlag(int flag) { switch(flag) { // InputDispatcher only verifies a subset of the KeyEvent flags. // These values must be kept in sync with Input.cpp case FLAG_CANCELED: case FLAG_IS_ACCESSIBILITY_EVENT: return (mFlags & flag) != 0; } return null; } // The codegen tool doesn't fully support subclasses, since it works on a per-file basis. // To modify this file: // 1. run codegen on this file // 2. edit the constructor signature // 3. add the "super" call for constructor that receives a Parcel // 4. add the "super" call to the writeToParcel method // 5. Update "equals" and "hashcode" methods to include VerifiedInputEvent fields // Code below generated by codegen v1.0.20. // // DO NOT MODIFY! // CHECKSTYLE:OFF Generated code // // To regenerate run: // $ codegen $ANDROID_BUILD_TOP/frameworks/base/core/java/android/view/VerifiedKeyEvent.java // // To exclude the generated code from IntelliJ auto-formatting enable (one-time): // Settings > Editor > Code Style > Formatter Control //@formatter:off /** * Creates a new VerifiedKeyEvent. * * @param action * The action of this key event. May be either {@link KeyEvent#ACTION_DOWN} or * {@link KeyEvent#ACTION_UP}. * @param downTimeNanos * Retrieve the time of the most recent key down event, in the * {@link android.os.SystemClock#uptimeMillis} time base, but in nanoseconds. If this * is a down event, this will be the same as {@link VerifiedInputEvent#getEventTimeNanos()}. * @param flags * Returns the flags for this key event. * @param keyCode * Retrieve the key code of the key event. * @param scanCode * Retrieve the hardware key id of this key event. These values are not reliable * and vary from device to device. * @param metaState *

Returns the state of the meta keys.

* @param repeatCount * Retrieve the repeat count of the event. For key down events, this is the number of times * the key has repeated with the first down starting at 0 and counting up from there. * For key up events, this is always equal to zero. For multiple key events, * this is the number of down/up pairs that have occurred. * @hide */ public VerifiedKeyEvent( int deviceId, long eventTimeNanos, int source, int displayId, @KeyEventAction int action, @SuppressLint({ "MethodNameUnits" }) long downTimeNanos, int flags, int keyCode, int scanCode, int metaState, int repeatCount) { super(VERIFIED_KEY, deviceId, eventTimeNanos, source, displayId); this.mAction = action; com.android.internal.util.AnnotationValidations.validate( KeyEventAction.class, null, mAction); this.mDownTimeNanos = downTimeNanos; this.mFlags = flags; this.mKeyCode = keyCode; this.mScanCode = scanCode; this.mMetaState = metaState; this.mRepeatCount = repeatCount; } /** * The action of this key event. May be either {@link KeyEvent#ACTION_DOWN} or * {@link KeyEvent#ACTION_UP}. * * @see KeyEvent#getAction() */ @DataClass.Generated.Member public @KeyEventAction int getAction() { return mAction; } /** * Retrieve the time of the most recent key down event, in the * {@link android.os.SystemClock#uptimeMillis} time base, but in nanoseconds. If this * is a down event, this will be the same as {@link VerifiedInputEvent#getEventTimeNanos()}. * * @see KeyEvent#getDownTime() */ @DataClass.Generated.Member public @SuppressLint({ "MethodNameUnits" }) long getDownTimeNanos() { return mDownTimeNanos; } /** * Returns the flags for this key event. * * @see KeyEvent#getFlags() * @see KeyEvent#FLAG_CANCELED * @hide */ @DataClass.Generated.Member public int getFlags() { return mFlags; } /** * Retrieve the key code of the key event. * * @see KeyEvent#getKeyCode() */ @DataClass.Generated.Member public int getKeyCode() { return mKeyCode; } /** * Retrieve the hardware key id of this key event. These values are not reliable * and vary from device to device. * * @see KeyEvent#getScanCode() */ @DataClass.Generated.Member public int getScanCode() { return mScanCode; } /** *

Returns the state of the meta keys.

* * @return an integer in which each bit set to 1 represents a pressed meta key * @see KeyEvent#getMetaState() */ @DataClass.Generated.Member public int getMetaState() { return mMetaState; } /** * Retrieve the repeat count of the event. For key down events, this is the number of times * the key has repeated with the first down starting at 0 and counting up from there. * For key up events, this is always equal to zero. For multiple key events, * this is the number of down/up pairs that have occurred. */ @DataClass.Generated.Member public int getRepeatCount() { return mRepeatCount; } @Override @DataClass.Generated.Member public boolean equals(@Nullable Object o) { // You can override field equality logic by defining either of the methods like: // boolean fieldNameEquals(VerifiedKeyEvent other) { ... } // boolean fieldNameEquals(FieldType otherValue) { ... } if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; @SuppressWarnings("unchecked") VerifiedKeyEvent that = (VerifiedKeyEvent) o; //noinspection PointlessBooleanExpression return true && super.equals(that) && mAction == that.mAction && mDownTimeNanos == that.mDownTimeNanos && mFlags == that.mFlags && mKeyCode == that.mKeyCode && mScanCode == that.mScanCode && mMetaState == that.mMetaState && mRepeatCount == that.mRepeatCount; } @Override @DataClass.Generated.Member public int hashCode() { // You can override field hashCode logic by defining methods like: // int fieldNameHashCode() { ... } int _hash = 1; _hash = 31 * _hash + super.hashCode(); _hash = 31 * _hash + mAction; _hash = 31 * _hash + Long.hashCode(mDownTimeNanos); _hash = 31 * _hash + mFlags; _hash = 31 * _hash + mKeyCode; _hash = 31 * _hash + mScanCode; _hash = 31 * _hash + mMetaState; _hash = 31 * _hash + mRepeatCount; return _hash; } @Override @DataClass.Generated.Member public void writeToParcel(@android.annotation.NonNull Parcel dest, int flags) { // You can override field parcelling by defining methods like: // void parcelFieldName(Parcel dest, int flags) { ... } super.writeToParcel(dest, flags); dest.writeInt(mAction); dest.writeLong(mDownTimeNanos); dest.writeInt(mFlags); dest.writeInt(mKeyCode); dest.writeInt(mScanCode); dest.writeInt(mMetaState); dest.writeInt(mRepeatCount); } @Override @DataClass.Generated.Member public int describeContents() { return 0; } /** @hide */ @SuppressWarnings({"unchecked", "RedundantCast"}) @DataClass.Generated.Member /* package-private */ VerifiedKeyEvent(@android.annotation.NonNull Parcel in) { // You can override field unparcelling by defining methods like: // static FieldType unparcelFieldName(Parcel in) { ... } super(in, VERIFIED_KEY); int action = in.readInt(); long downTimeNanos = in.readLong(); int flags = in.readInt(); int keyCode = in.readInt(); int scanCode = in.readInt(); int metaState = in.readInt(); int repeatCount = in.readInt(); this.mAction = action; com.android.internal.util.AnnotationValidations.validate( KeyEventAction.class, null, mAction); this.mDownTimeNanos = downTimeNanos; this.mFlags = flags; this.mKeyCode = keyCode; this.mScanCode = scanCode; this.mMetaState = metaState; this.mRepeatCount = repeatCount; // onConstructed(); // You can define this method to get a callback } @DataClass.Generated.Member public static final @android.annotation.NonNull Parcelable.Creator CREATOR = new Parcelable.Creator() { @Override public VerifiedKeyEvent[] newArray(int size) { return new VerifiedKeyEvent[size]; } @Override public VerifiedKeyEvent createFromParcel(@android.annotation.NonNull Parcel in) { return new VerifiedKeyEvent(in); } }; @DataClass.Generated( time = 1604509197793L, codegenVersion = "1.0.20", sourceFile = "frameworks/base/core/java/android/view/VerifiedKeyEvent.java", inputSignatures = "private static final java.lang.String TAG\nprivate @android.view.VerifiedKeyEvent.KeyEventAction int mAction\nprivate @android.annotation.SuppressLint long mDownTimeNanos\nprivate int mFlags\nprivate int mKeyCode\nprivate int mScanCode\nprivate int mMetaState\nprivate int mRepeatCount\npublic @android.annotation.Nullable java.lang.Boolean getFlag(int)\nclass VerifiedKeyEvent extends android.view.VerifiedInputEvent implements [android.os.Parcelable]\n@com.android.internal.util.DataClass(genHiddenConstructor=true, genEqualsHashCode=true)") @Deprecated private void __metadata() {} //@formatter:on // End of generated code }