/* * Copyright (C) 2016 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.car.hardware; import android.annotation.IntDef; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.SystemApi; import android.car.VehicleAreaType; import android.car.VehicleAreaType.VehicleAreaTypeValue; import android.car.VehiclePropertyType; import android.os.Parcel; import android.os.Parcelable; import android.util.SparseArray; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.reflect.Array; import java.util.ArrayList; import java.util.Collections; import java.util.List; /** * Represents general information about car property such as data type and min/max ranges for car * areas (if applicable). This class supposed to be immutable, parcelable and could be passed over. * * @param refer to Parcel#writeValue(Object) to get a list of all supported types. The class * should be visible to framework as default class loader is being used here. * */ public final class CarPropertyConfig implements Parcelable { private final int mAccess; private final int mAreaType; private final int mChangeMode; private final ArrayList mConfigArray; private final String mConfigString; private final float mMaxSampleRate; private final float mMinSampleRate; private final int mPropertyId; private final SparseArray> mSupportedAreas; private final Class mType; private CarPropertyConfig(int access, int areaType, int changeMode, ArrayList configArray, String configString, float maxSampleRate, float minSampleRate, int propertyId, SparseArray> supportedAreas, Class type) { mAccess = access; mAreaType = areaType; mChangeMode = changeMode; mConfigArray = configArray; mConfigString = configString; mMaxSampleRate = maxSampleRate; mMinSampleRate = minSampleRate; mPropertyId = propertyId; mSupportedAreas = supportedAreas; mType = type; } /** @hide */ @IntDef(prefix = {"VEHICLE_PROPERTY_ACCESS"}, value = { VEHICLE_PROPERTY_ACCESS_NONE, VEHICLE_PROPERTY_ACCESS_READ, VEHICLE_PROPERTY_ACCESS_WRITE, VEHICLE_PROPERTY_ACCESS_READ_WRITE }) @Retention(RetentionPolicy.SOURCE) public @interface VehiclePropertyAccessType {} /** Property Access Unknown */ public static final int VEHICLE_PROPERTY_ACCESS_NONE = 0; /** The property is readable */ public static final int VEHICLE_PROPERTY_ACCESS_READ = 1; /** The property is writable */ public static final int VEHICLE_PROPERTY_ACCESS_WRITE = 2; /** The property is readable and writable */ public static final int VEHICLE_PROPERTY_ACCESS_READ_WRITE = 3; /** @hide */ @IntDef(prefix = {"VEHICLE_PROPERTY_CHANGE_MODE"}, value = { VEHICLE_PROPERTY_CHANGE_MODE_STATIC, VEHICLE_PROPERTY_CHANGE_MODE_ONCHANGE, VEHICLE_PROPERTY_CHANGE_MODE_CONTINUOUS, }) @Retention(RetentionPolicy.SOURCE) public @interface VehiclePropertyChangeModeType {} /** Properties of this type must never be changed. */ public static final int VEHICLE_PROPERTY_CHANGE_MODE_STATIC = 0; /** Properties of this type must report when there is a change. */ public static final int VEHICLE_PROPERTY_CHANGE_MODE_ONCHANGE = 1; /** Properties of this type change continuously. */ public static final int VEHICLE_PROPERTY_CHANGE_MODE_CONTINUOUS = 2; /** * Return the access type of the car property. *

The access type could be one of the following: *

    *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_ACCESS_NONE}
  • *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_ACCESS_READ}
  • *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_ACCESS_WRITE}
  • *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_ACCESS_READ_WRITE}
  • *
* * @return the access type of the car property. */ public @VehiclePropertyAccessType int getAccess() { return mAccess; } /** * Return the area type of the car property. *

The area type could be one of the following: *

    *
  • {@link VehicleAreaType#VEHICLE_AREA_TYPE_GLOBAL}
  • *
  • {@link VehicleAreaType#VEHICLE_AREA_TYPE_WINDOW}
  • *
  • {@link VehicleAreaType#VEHICLE_AREA_TYPE_SEAT}
  • *
  • {@link VehicleAreaType#VEHICLE_AREA_TYPE_DOOR}
  • *
  • {@link VehicleAreaType#VEHICLE_AREA_TYPE_MIRROR}
  • *
  • {@link VehicleAreaType#VEHICLE_AREA_TYPE_WHEEL}
  • *
* * @return the area type of the car property. */ public @VehicleAreaTypeValue int getAreaType() { return mAreaType; } /** * Return the change mode of the car property. * *

The change mode could be one of the following: *

    *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_CHANGE_MODE_STATIC }
  • *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_CHANGE_MODE_ONCHANGE}
  • *
  • {@link CarPropertyConfig#VEHICLE_PROPERTY_CHANGE_MODE_CONTINUOUS}
  • *
* * @return the change mode of properties. */ public @VehiclePropertyChangeModeType int getChangeMode() { return mChangeMode; } /** * * @return Additional configuration parameters. For different properties, configArrays have * different information. */ @NonNull public List getConfigArray() { return Collections.unmodifiableList(mConfigArray); } /** * * @return Some properties may require additional information passed over this * string. Most properties do not need to set this. * @hide */ public String getConfigString() { return mConfigString; } /** * * @return Max sample rate in Hz. Must be defined for VehiclePropertyChangeMode::CONTINUOUS * return 0 if change mode is not continuous. */ public float getMaxSampleRate() { return mMaxSampleRate; } /** * * @return Min sample rate in Hz.Must be defined for VehiclePropertyChangeMode::CONTINUOUS * return 0 if change mode is not continuous. */ public float getMinSampleRate() { return mMinSampleRate; } /** * @return Property identifier */ public int getPropertyId() { return mPropertyId; } /** * Returns the value type of the vehicle property. *

The value type could be one of the following: *

    *
  • Boolean
  • *
  • Float
  • *
  • Float[]
  • *
  • Integer
  • *
  • Integer[]
  • *
  • Long
  • *
  • Long[]
  • *
  • String
  • *
  • byte[]
  • *
  • Object[]
  • *
* * @return the value type of the vehicle property. */ @NonNull public Class getPropertyType() { return mType; } /** * * @return true if this property doesn't hold car area-specific configuration. */ public boolean isGlobalProperty() { return mAreaType == VehicleAreaType.VEHICLE_AREA_TYPE_GLOBAL; } /** * * @return the number of areaIds for properties. * @hide */ public int getAreaCount() { return mSupportedAreas.size(); } /** * * @return Array of areaIds. An AreaID is a combination of one or more areas, * and is represented using a bitmask of Area enums. Different AreaTypes may * not be mixed in a single AreaID. For instance, a window area cannot be * combined with a seat area in an AreaID. * Rules for mapping a zoned property to AreaIDs: * - A property must be mapped to an array of AreaIDs that are impacted when * the property value changes. * - Each element in the array must represent an AreaID, in which, the * property value can only be changed together in all the areas within * an AreaID and never independently. That is, when the property value * changes in one of the areas in an AreaID in the array, then it must * automatically change in all other areas in the AreaID. * - The property value must be independently controllable in any two * different AreaIDs in the array. * - An area must only appear once in the array of AreaIDs. That is, an * area must only be part of a single AreaID in the array. */ @NonNull public int[] getAreaIds() { int[] areaIds = new int[mSupportedAreas.size()]; for (int i = 0; i < areaIds.length; i++) { areaIds[i] = mSupportedAreas.keyAt(i); } return areaIds; } /** * @return the first areaId. * Throws {@link IllegalStateException} if supported area count not equals to one. * @hide */ public int getFirstAndOnlyAreaId() { if (mSupportedAreas.size() != 1) { throw new IllegalStateException("Expected one and only area in this property. Prop: 0x" + Integer.toHexString(mPropertyId)); } return mSupportedAreas.keyAt(0); } /** * * @param areaId * @return true if areaId is existing. * @hide */ public boolean hasArea(int areaId) { return mSupportedAreas.indexOfKey(areaId) >= 0; } /** * * @param areaId * @return Min value in given areaId. Null if not have min value in given area. */ @Nullable public T getMinValue(int areaId) { AreaConfig area = mSupportedAreas.get(areaId); return area == null ? null : area.getMinValue(); } /** * * @param areaId * @return Max value in given areaId. Null if not have max value in given area. */ @Nullable public T getMaxValue(int areaId) { AreaConfig area = mSupportedAreas.get(areaId); return area == null ? null : area.getMaxValue(); } /** * * @return Min value in areaId 0. Null if not have min value. */ @Nullable public T getMinValue() { AreaConfig area = mSupportedAreas.get(0); return area == null ? null : area.getMinValue(); } /** * * @return Max value in areaId 0. Null if not have max value. */ @Nullable public T getMaxValue() { AreaConfig area = mSupportedAreas.get(0); return area == null ? null : area.getMaxValue(); } @Override public int describeContents() { return 0; } @Override public void writeToParcel(Parcel dest, int flags) { dest.writeInt(mAccess); dest.writeInt(mAreaType); dest.writeInt(mChangeMode); dest.writeInt(mConfigArray.size()); for (int i = 0; i < mConfigArray.size(); i++) { dest.writeInt(mConfigArray.get(i)); } dest.writeString(mConfigString); dest.writeFloat(mMaxSampleRate); dest.writeFloat(mMinSampleRate); dest.writeInt(mPropertyId); dest.writeInt(mSupportedAreas.size()); for (int i = 0; i < mSupportedAreas.size(); i++) { dest.writeInt(mSupportedAreas.keyAt(i)); dest.writeParcelable(mSupportedAreas.valueAt(i), flags); } dest.writeString(mType.getName()); } @SuppressWarnings("unchecked") private CarPropertyConfig(Parcel in) { mAccess = in.readInt(); mAreaType = in.readInt(); mChangeMode = in.readInt(); int configArraySize = in.readInt(); mConfigArray = new ArrayList(configArraySize); for (int i = 0; i < configArraySize; i++) { mConfigArray.add(in.readInt()); } mConfigString = in.readString(); mMaxSampleRate = in.readFloat(); mMinSampleRate = in.readFloat(); mPropertyId = in.readInt(); int areaSize = in.readInt(); mSupportedAreas = new SparseArray<>(areaSize); for (int i = 0; i < areaSize; i++) { int areaId = in.readInt(); AreaConfig area = in.readParcelable(getClass().getClassLoader()); mSupportedAreas.put(areaId, area); } String className = in.readString(); try { mType = (Class) Class.forName(className); } catch (ClassNotFoundException e) { throw new IllegalArgumentException("Class not found: " + className); } } public static final Creator CREATOR = new Creator() { @Override public CarPropertyConfig createFromParcel(Parcel in) { return new CarPropertyConfig(in); } @Override public CarPropertyConfig[] newArray(int size) { return new CarPropertyConfig[size]; } }; /** @hide */ @Override public String toString() { return "CarPropertyConfig{" + "mPropertyId=" + mPropertyId + ", mAccess=" + mAccess + ", mAreaType=" + mAreaType + ", mChangeMode=" + mChangeMode + ", mConfigArray=" + mConfigArray + ", mConfigString=" + mConfigString + ", mMaxSampleRate=" + mMaxSampleRate + ", mMinSampleRate=" + mMinSampleRate + ", mSupportedAreas=" + mSupportedAreas + ", mType=" + mType + '}'; } /** * Represents min/max value of car property. * @param * @hide */ public static class AreaConfig implements Parcelable { @Nullable private final T mMinValue; @Nullable private final T mMaxValue; private AreaConfig(T minValue, T maxValue) { mMinValue = minValue; mMaxValue = maxValue; } public static final Parcelable.Creator> CREATOR = getCreator(Object.class); private static Parcelable.Creator> getCreator(final Class clazz) { return new Creator>() { @Override public AreaConfig createFromParcel(Parcel source) { return new AreaConfig<>(source); } @Override @SuppressWarnings("unchecked") public AreaConfig[] newArray(int size) { return (AreaConfig[]) Array.newInstance(clazz, size); } }; } @SuppressWarnings("unchecked") private AreaConfig(Parcel in) { mMinValue = (T) in.readValue(getClass().getClassLoader()); mMaxValue = (T) in.readValue(getClass().getClassLoader()); } @Nullable public T getMinValue() { return mMinValue; } @Nullable public T getMaxValue() { return mMaxValue; } @Override public int describeContents() { return 0; } @Override public void writeToParcel(Parcel dest, int flags) { dest.writeValue(mMinValue); dest.writeValue(mMaxValue); } @Override public String toString() { return "CarAreaConfig{" + "mMinValue=" + mMinValue + ", mMaxValue=" + mMaxValue + '}'; } } /** * Prepare an instance of CarPropertyConfig * * @return Builder * @hide */ @SystemApi public static Builder newBuilder(Class type, int propertyId, int areaType, int areaCapacity) { return new Builder<>(areaCapacity, areaType, propertyId, type); } /** * Prepare an instance of CarPropertyConfig * * @return Builder * @hide */ public static Builder newBuilder(Class type, int propertyId, int areaType) { return new Builder<>(0, areaType, propertyId, type); } /** * @param * @hide * */ @SystemApi public static class Builder { private int mAccess; private final int mAreaType; private int mChangeMode; private final ArrayList mConfigArray; private String mConfigString; private float mMaxSampleRate; private float mMinSampleRate; private final int mPropertyId; private final SparseArray> mSupportedAreas; private final Class mType; private Builder(int areaCapacity, int areaType, int propertyId, Class type) { mAreaType = areaType; mConfigArray = new ArrayList<>(); mPropertyId = propertyId; if (areaCapacity != 0) { mSupportedAreas = new SparseArray<>(areaCapacity); } else { mSupportedAreas = new SparseArray<>(); } mType = type; } /** * Add supported areas parameter to CarPropertyConfig * * @return Builder */ public Builder addAreas(int[] areaIds) { for (int id : areaIds) { mSupportedAreas.put(id, null); } return this; } /** * Add area to CarPropertyConfig * * @return Builder */ public Builder addArea(int areaId) { return addAreaConfig(areaId, null, null); } /** * Add areaConfig to CarPropertyConfig * * @return Builder */ public Builder addAreaConfig(int areaId, T min, T max) { if (!isRangeAvailable(min, max)) { mSupportedAreas.put(areaId, null); } else { mSupportedAreas.put(areaId, new AreaConfig<>(min, max)); } return this; } /** * Set access parameter to CarPropertyConfig * * @return Builder */ public Builder setAccess(int access) { mAccess = access; return this; } /** * Set changeMode parameter to CarPropertyConfig * * @return Builder */ public Builder setChangeMode(int changeMode) { mChangeMode = changeMode; return this; } /** * Set configArray parameter to CarPropertyConfig * * @return Builder */ public Builder setConfigArray(ArrayList configArray) { mConfigArray.clear(); mConfigArray.addAll(configArray); return this; } /** * Set configString parameter to CarPropertyConfig * * @return Builder */ public Builder setConfigString(String configString) { mConfigString = configString; return this; } /** * Set maxSampleRate parameter to CarPropertyConfig * * @return Builder */ public Builder setMaxSampleRate(float maxSampleRate) { mMaxSampleRate = maxSampleRate; return this; } /** * Set minSampleRate parameter to CarPropertyConfig * * @return Builder */ public Builder setMinSampleRate(float minSampleRate) { mMinSampleRate = minSampleRate; return this; } /** * Builds a new {@link CarPropertyConfig}. */ public CarPropertyConfig build() { return new CarPropertyConfig<>(mAccess, mAreaType, mChangeMode, mConfigArray, mConfigString, mMaxSampleRate, mMinSampleRate, mPropertyId, mSupportedAreas, mType); } private boolean isRangeAvailable(T min, T max) { if (min == null || max == null) { return false; } int propertyType = mPropertyId & VehiclePropertyType.MASK; switch (propertyType) { case VehiclePropertyType.INT32: return (Integer) min != 0 || (Integer) max != 0; case VehiclePropertyType.INT64: return (Long) min != 0L || (Long) max != 0L; case VehiclePropertyType.FLOAT: return (Float) min != 0f || (Float) max != 0f; default: return false; } } } }