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Lawnchair/src/com/android/launcher3/model/GridBackupTable.java
T
Tracy Zhou be13d109b7 Render user's actual workspace in ThemePicker preview (Part 3)
go/grid-migration-preview

With this change, we can see actual grid migration in wallpaper preview.

The approach here: we use a tmp table (favorites_preview) here specifically for this preview (to write off the migration results), and load from this tmp table workspace items if migration is necessary and successful. Otherwise, we load from the current workspace.

UPDATED: this change should be completely compatible with the new multi-db grid migration algorithm. Here is why
1. In LauncherPreviewRender#renderScreenShot, I added a check to decide which grid migration preview method we should call. Once v2 preview method is implemented, it should be integrated with other parts of this change perfectly (the reason will be mentioned below).
2. While we have multiple DBs, mOpenHelper in LauncherProvider always points to the current db we are using. Queries using CONTENT_URI is routed to whatever DB mOpenHelper points to, so it works perfectly to directly operate on CONTENT_URI even when we use multi-db underneath the hood.
3. With 1 and 2 mentioned, I believe in order for this preview change to support multi-db, we only need to implement the V2 grid migration algorithm. Because most of what we are doing in this change is wrapped in GridSizeMigrationTask, it's perfectly safeguarded.

Bug: 144052839
Change-Id: Ie6d6048d77326f96546c8a180a7cd8f15b47e4c4
2020-02-21 15:49:00 -08:00

211 lines
7.6 KiB
Java

/*
* Copyright (C) 2018 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.launcher3.model;
import static com.android.launcher3.LauncherSettings.Favorites.BACKUP_TABLE_NAME;
import static com.android.launcher3.provider.LauncherDbUtils.dropTable;
import static com.android.launcher3.provider.LauncherDbUtils.tableExists;
import android.content.ContentValues;
import android.content.Context;
import android.database.Cursor;
import android.database.sqlite.SQLiteDatabase;
import android.graphics.Point;
import android.os.Process;
import android.util.Log;
import androidx.annotation.IntDef;
import com.android.launcher3.LauncherSettings.Favorites;
import com.android.launcher3.LauncherSettings.Settings;
import com.android.launcher3.pm.UserCache;
/**
* Helper class to backup and restore Favorites table into a separate table
* within the same data base.
*/
public class GridBackupTable {
private static final String TAG = "GridBackupTable";
private static final int ID_PROPERTY = -1;
private static final String KEY_HOTSEAT_SIZE = Favorites.SCREEN;
private static final String KEY_GRID_X_SIZE = Favorites.SPANX;
private static final String KEY_GRID_Y_SIZE = Favorites.SPANY;
private static final String KEY_DB_VERSION = Favorites.RANK;
public static final int OPTION_REQUIRES_SANITIZATION = 1;
/** STATE_NOT_FOUND indicates backup doesn't exist in the db. */
private static final int STATE_NOT_FOUND = 0;
/**
* STATE_RAW indicates the backup has not yet been sanitized. This implies it might still
* posses app info that doesn't exist in the workspace and needed to be sanitized before
* put into use.
*/
private static final int STATE_RAW = 1;
/** STATE_SANITIZED indicates the backup has already been sanitized, thus can be used as-is. */
private static final int STATE_SANITIZED = 2;
private final Context mContext;
private final SQLiteDatabase mDb;
private final int mOldHotseatSize;
private final int mOldGridX;
private final int mOldGridY;
private int mRestoredHotseatSize;
private int mRestoredGridX;
private int mRestoredGridY;
@IntDef({STATE_NOT_FOUND, STATE_RAW, STATE_SANITIZED})
private @interface BackupState { }
public GridBackupTable(Context context, SQLiteDatabase db, int hotseatSize, int gridX,
int gridY) {
mContext = context;
mDb = db;
mOldHotseatSize = hotseatSize;
mOldGridX = gridX;
mOldGridY = gridY;
}
/**
* Create a backup from current workspace layout if one isn't created already (Note backup
* created this way is always sanitized). Otherwise restore from the backup instead.
*/
public boolean backupOrRestoreAsNeeded() {
// Check if backup table exists
if (!tableExists(mDb, BACKUP_TABLE_NAME)) {
if (Settings.call(mContext.getContentResolver(), Settings.METHOD_WAS_EMPTY_DB_CREATED)
.getBoolean(Settings.EXTRA_VALUE, false)) {
// No need to copy if empty DB was created.
return false;
}
doBackup(UserCache.INSTANCE.get(mContext).getSerialNumberForUser(
Process.myUserHandle()), 0);
return false;
}
return restoreIfBackupExists(Favorites.TABLE_NAME);
}
public boolean restoreToPreviewIfBackupExists() {
if (!tableExists(mDb, BACKUP_TABLE_NAME)) {
return false;
}
return restoreIfBackupExists(Favorites.PREVIEW_TABLE_NAME);
}
private boolean restoreIfBackupExists(String toTableName) {
if (loadDBProperties() != STATE_SANITIZED) {
return false;
}
long userSerial = UserCache.INSTANCE.get(mContext).getSerialNumberForUser(
Process.myUserHandle());
copyTable(mDb, BACKUP_TABLE_NAME, toTableName, userSerial);
Log.d(TAG, "Backup table found");
return true;
}
public int getRestoreHotseatAndGridSize(Point outGridSize) {
outGridSize.set(mRestoredGridX, mRestoredGridY);
return mRestoredHotseatSize;
}
/**
* Copy valid grid entries from one table to another.
*/
private static void copyTable(SQLiteDatabase db, String from, String to, long userSerial) {
dropTable(db, to);
Favorites.addTableToDb(db, userSerial, false, to);
db.execSQL("INSERT INTO " + to + " SELECT * FROM " + from + " where _id > " + ID_PROPERTY);
}
private void encodeDBProperties(int options) {
ContentValues values = new ContentValues();
values.put(Favorites._ID, ID_PROPERTY);
values.put(KEY_DB_VERSION, mDb.getVersion());
values.put(KEY_GRID_X_SIZE, mOldGridX);
values.put(KEY_GRID_Y_SIZE, mOldGridY);
values.put(KEY_HOTSEAT_SIZE, mOldHotseatSize);
values.put(Favorites.OPTIONS, options);
mDb.insert(BACKUP_TABLE_NAME, null, values);
}
/**
* Load DB properties from grid backup table.
*/
public @BackupState int loadDBProperties() {
try (Cursor c = mDb.query(BACKUP_TABLE_NAME, new String[] {
KEY_DB_VERSION, // 0
KEY_GRID_X_SIZE, // 1
KEY_GRID_Y_SIZE, // 2
KEY_HOTSEAT_SIZE, // 3
Favorites.OPTIONS}, // 4
"_id=" + ID_PROPERTY, null, null, null, null)) {
if (!c.moveToNext()) {
Log.e(TAG, "Meta data not found in backup table");
return STATE_NOT_FOUND;
}
if (!validateDBVersion(mDb.getVersion(), c.getInt(0))) {
return STATE_NOT_FOUND;
}
mRestoredGridX = c.getInt(1);
mRestoredGridY = c.getInt(2);
mRestoredHotseatSize = c.getInt(3);
boolean isSanitized = (c.getInt(4) & OPTION_REQUIRES_SANITIZATION) == 0;
return isSanitized ? STATE_SANITIZED : STATE_RAW;
}
}
/**
* Restore workspace from raw backup if available.
*/
public boolean restoreFromRawBackupIfAvailable(long oldProfileId) {
if (!tableExists(mDb, Favorites.BACKUP_TABLE_NAME)
|| loadDBProperties() != STATE_RAW
|| mOldHotseatSize != mRestoredHotseatSize
|| mOldGridX != mRestoredGridX
|| mOldGridY != mRestoredGridY) {
// skip restore if dimensions in backup table differs from current setup.
return false;
}
copyTable(mDb, Favorites.BACKUP_TABLE_NAME, Favorites.TABLE_NAME, oldProfileId);
Log.d(TAG, "Backup restored");
return true;
}
/**
* Performs a backup on the workspace layout.
*/
public void doBackup(long profileId, int options) {
copyTable(mDb, Favorites.TABLE_NAME, Favorites.BACKUP_TABLE_NAME, profileId);
encodeDBProperties(options);
}
private static boolean validateDBVersion(int expected, int actual) {
if (expected != actual) {
Log.e(TAG, String.format("Launcher.db version mismatch, expecting %d but %d was found",
expected, actual));
return false;
}
return true;
}
}