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/*
 * Copyright 2017 Google Inc.
 *
 * 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.google.firebase.database;

import com.google.api.core.ApiFuture;
import com.google.firebase.database.core.CompoundWrite;
import com.google.firebase.database.core.DatabaseConfig;
import com.google.firebase.database.core.Path;
import com.google.firebase.database.core.Repo;
import com.google.firebase.database.core.RepoManager;
import com.google.firebase.database.core.ValidationPath;
import com.google.firebase.database.snapshot.ChildKey;
import com.google.firebase.database.snapshot.Node;
import com.google.firebase.database.snapshot.NodeUtilities;
import com.google.firebase.database.snapshot.PriorityUtilities;
import com.google.firebase.database.utilities.Pair;
import com.google.firebase.database.utilities.ParsedUrl;
import com.google.firebase.database.utilities.PushIdGenerator;
import com.google.firebase.database.utilities.Utilities;
import com.google.firebase.database.utilities.Validation;
import com.google.firebase.database.utilities.encoding.CustomClassMapper;

import java.io.UnsupportedEncodingException;
import java.net.URLEncoder;
import java.util.Map;

/**
 * A Firebase reference represents a particular location in your Database and can be used for
 * reading or writing data to that Database location.
 *
 * 

This class is the starting point for all Database operations. After you've initialized it with * a URL, you can use it to read data, write data, and to create new DatabaseReferences. */ public class DatabaseReference extends Query { private static DatabaseConfig defaultConfig; /** * @param repo The repo for this ref * @param path The path to reference */ DatabaseReference(Repo repo, Path path) { super(repo, path); } /** Legacy method left here (as package private) for tests. */ DatabaseReference(String url, DatabaseConfig config) { this(Utilities.parseUrl(url), config); } private DatabaseReference(ParsedUrl parsedUrl, DatabaseConfig config) { this(RepoManager.getRepo(config, parsedUrl.repoInfo), parsedUrl.path); } /** * Manually disconnect the Firebase Database client from the server and disable automatic * reconnection. * *

Note: Invoking this method will impact all Firebase Database connections. */ public static void goOffline() { goOffline(getDefaultConfig()); } static void goOffline(DatabaseConfig config) { RepoManager.interrupt(config); } /** * Manually reestablish a connection to the Firebase Database server and enable automatic * reconnection. * *

Note: Invoking this method will impact all Firebase Database connections. */ public static void goOnline() { goOnline(getDefaultConfig()); } static void goOnline(DatabaseConfig config) { RepoManager.resume(config); } /** * Legacy method for legacy creation of DatabaseReference for tests. * * @return A reference to the default config object. This can be modified up until your first * Database call */ private static synchronized DatabaseConfig getDefaultConfig() { if (defaultConfig == null) { defaultConfig = new DatabaseConfig(); } return defaultConfig; } /** * Get a reference to location relative to this one * * @param pathString The relative path from this reference to the new one that should be created * @return A new DatabaseReference to the given path */ public DatabaseReference child(String pathString) { if (pathString == null) { throw new NullPointerException("Can't pass null for argument 'pathString' in child()"); } if (getPath().isEmpty()) { // If this is the root of the tree, allow '.info' nodes. Validation.validateRootPathString(pathString); } else { Validation.validatePathString(pathString); } Path childPath = getPath().child(new Path(pathString)); return new DatabaseReference(repo, childPath); } /** * Create a reference to an auto-generated child location. The child key is generated client-side * and incorporates an estimate of the server's time for sorting purposes. Locations generated on * a single client will be sorted in the order that they are created, and will be sorted * approximately in order across all clients. * * @return A DatabaseReference pointing to the new location */ public DatabaseReference push() { String childNameStr = PushIdGenerator.generatePushChildName(repo.getServerTime()); ChildKey childKey = ChildKey.fromString(childNameStr); return new DatabaseReference(repo, getPath().child(childKey)); } /** * Set the data at this location to the given value. Passing null to setValue() will delete the * data at the specified location. The native types accepted by this method for the value * correspond to the JSON types: * *

    *
  • Boolean *
  • Long *
  • Double *
  • Map<String, Object> *
  • List<Object> *
* *
*
* In addition, you can set instances of your own class into this location, provided they satisfy * the following constraints: * *
    *
  1. The class must have a default constructor that takes no arguments *
  2. The class must define public getters for the properties to be assigned. Properties * without a public getter will be set to their default value when an instance is * deserialized *
* *
*
* Generic collections of objects that satisfy the above constraints are also permitted, i.e. * Map<String, MyPOJO>, as well as null values. * * @param value The value to set at this location * @return The ApiFuture for this operation. */ public ApiFuture setValueAsync(Object value) { return setValueInternal(value, PriorityUtilities.parsePriority(this.path, null), null); } /** * Set the data and priority to the given values. Passing null to setValue() will delete the data * at the specified location. The native types accepted by this method for the value correspond to * the JSON types: * *
    *
  • Boolean *
  • Long *
  • Double *
  • Map<String, Object> *
  • List<Object> *
* *
*
* In addition, you can set instances of your own class into this location, provided they satisfy * the following constraints: * *
    *
  1. The class must have a default constructor that takes no arguments *
  2. The class must define public getters for the properties to be assigned. Properties * without a public getter will be set to their default value when an instance is * deserialized *
* *
*
* Generic collections of objects that satisfy the above constraints are also permitted, i.e. * Map<String, MyPOJO>, as well as null values. * * @param value The value to set at this location * @param priority The priority to set at this location * @return The ApiFuture for this operation. */ public ApiFuture setValueAsync(Object value, Object priority) { return setValueInternal(value, PriorityUtilities.parsePriority(this.path, priority), null); } /** * Set the data at this location to the given value. Passing null to setValue() will delete the * data at the specified location. The native types accepted by this method for the value * correspond to the JSON types: * *
    *
  • Boolean *
  • Long *
  • Double *
  • Map<String, Object> *
  • List<Object> *
* *
*
* In addition, you can set instances of your own class into this location, provided they satisfy * the following constraints: * *
    *
  1. The class must have a default constructor that takes no arguments *
  2. The class must define public getters for the properties to be assigned. Properties * without a public getter will be set to their default value when an instance is * deserialized *
* *
*
* Generic collections of objects that satisfy the above constraints are also permitted, i.e. * Map<String, MyPOJO>, as well as null values. * * @param value The value to set at this location * @param listener A listener that will be triggered with the results of the operation */ public void setValue(Object value, CompletionListener listener) { setValueInternal(value, PriorityUtilities.parsePriority(this.path, null), listener); } /** * Set the data and priority to the given values. The native types accepted by this method for the * value correspond to the JSON types: * *
    *
  • Boolean *
  • Long *
  • Double *
  • Map<String, Object> *
  • List<Object> *
* *
*
* In addition, you can set instances of your own class into this location, provided they satisfy * the following constraints: * *
    *
  1. The class must have a default constructor that takes no arguments *
  2. The class must define public getters for the properties to be assigned. Properties * without a public getter will be set to their default value when an instance is * deserialized *
* *
*
* Generic collections of objects that satisfy the above constraints are also permitted, i.e. * Map<String, MyPOJO>, as well as null values. * * @param value The value to set at this location * @param priority The priority to set at this location * @param listener A listener that will be triggered with the results of the operation */ public void setValue(Object value, Object priority, CompletionListener listener) { setValueInternal(value, PriorityUtilities.parsePriority(this.path, priority), listener); } private ApiFuture setValueInternal(Object value, Node priority, CompletionListener optListener) { Validation.validateWritablePath(getPath()); ValidationPath.validateWithObject(getPath(), value); Object bouncedValue = CustomClassMapper.convertToPlainJavaTypes(value); Validation.validateWritableObject(bouncedValue); final Node node = NodeUtilities.NodeFromJSON(bouncedValue, priority); final Pair, CompletionListener> wrapped = Utilities.wrapOnComplete(optListener); repo.scheduleNow( new Runnable() { @Override public void run() { repo.setValue(getPath(), node, wrapped.getSecond()); } }); return wrapped.getFirst(); } // Set priority /** * Set a priority for the data at this Database location. Priorities can be used to provide a * custom ordering for the children at a location (if no priorities are specified, the children * are ordered by key).
*
* You cannot set a priority on an empty location. For this reason setValue(data, priority) should * be used when setting initial data with a specific priority and setPriority should be used when * updating the priority of existing data.
*
* Children are sorted based on this priority using the following rules: * *
    *
  • Children with no priority come first. *
  • Children with a number as their priority come next. They are sorted numerically by * priority (small to large). *
  • Children with a string as their priority come last. They are sorted lexicographically by * priority. *
  • Whenever two children have the same priority (including no priority), they are sorted by * key. Numeric keys come first (sorted numerically), followed by the remaining keys (sorted * lexicographically). *
* *

Note that numerical priorities are parsed and ordered as IEEE 754 double-precision * floating-point numbers. Keys are always stored as strings and are treated as numeric only when * they can be parsed as a 32-bit integer. * * @param priority The priority to set at the specified location. * @return The ApiFuture for this operation. */ public ApiFuture setPriorityAsync(Object priority) { return setPriorityInternal(PriorityUtilities.parsePriority(this.path, priority), null); } /** * Set a priority for the data at this Database location. Priorities can be used to provide a * custom ordering for the children at a location (if no priorities are specified, the children * are ordered by key).
*
* You cannot set a priority on an empty location. For this reason setValue(data, priority) should * be used when setting initial data with a specific priority and setPriority should be used when * updating the priority of existing data.
*
* Children are sorted based on this priority using the following rules: * *

    *
  • Children with no priority come first. *
  • Children with a number as their priority come next. They are sorted numerically by * priority (small to large). *
  • Children with a string as their priority come last. They are sorted lexicographically by * priority. *
  • Whenever two children have the same priority (including no priority), they are sorted by * key. Numeric keys come first (sorted numerically), followed by the remaining keys (sorted * lexicographically). *
* *

Note that numerical priorities are parsed and ordered as IEEE 754 double-precision * floating-point numbers. Keys are always stored as strings and are treated as numeric only when * they can be parsed as a 32-bit integer. * * @param priority The priority to set at the specified location. * @param listener A listener that will be triggered with results of the operation */ public void setPriority(Object priority, CompletionListener listener) { setPriorityInternal(PriorityUtilities.parsePriority(this.path, priority), listener); } // Remove private ApiFuture setPriorityInternal(final Node priority, CompletionListener optListener) { Validation.validateWritablePath(getPath()); final Pair, CompletionListener> wrapped = Utilities.wrapOnComplete(optListener); repo.scheduleNow( new Runnable() { @Override public void run() { repo.setValue( getPath().child(ChildKey.getPriorityKey()), priority, wrapped.getSecond()); } }); return wrapped.getFirst(); } // Update /** * Update the specific child keys to the specified values. Passing null in a map to * updateChildren() will remove the value at the specified location. * * @param update The paths to update and their new values * @return The ApiFuture for this operation. */ public ApiFuture updateChildrenAsync(Map update) { return updateChildrenInternal(update, null); } // Access to disconnect operations /** * Update the specific child keys to the specified values. Passing null in a map to * updateChildren() will remove the value at the specified location. * * @param update The paths to update and their new values * @param listener A listener that will be triggered with results of the operation */ public void updateChildren(final Map update, final CompletionListener listener) { updateChildrenInternal(update, listener); } // Transactions private ApiFuture updateChildrenInternal( final Map update, final CompletionListener optListener) { if (update == null) { throw new NullPointerException("Can't pass null for argument 'update' in updateChildren()"); } final Map bouncedUpdate = CustomClassMapper.convertToPlainJavaTypes(update); final Map parsedUpdate = Validation.parseAndValidateUpdate(getPath(), bouncedUpdate); final CompoundWrite merge = CompoundWrite.fromPathMerge(parsedUpdate); final Pair, CompletionListener> wrapped = Utilities.wrapOnComplete(optListener); repo.scheduleNow( new Runnable() { @Override public void run() { repo.updateChildren(getPath(), merge, wrapped.getSecond(), bouncedUpdate); } }); return wrapped.getFirst(); } /** * Set the value at this location to 'null' * * @return The ApiFuture for this operation. */ public ApiFuture removeValueAsync() { return setValueAsync(null); } // Manual Connection Management /* * The Firebase Database client automatically maintains a persistent connection to the Database * server, which will remain active indefinitely and reconnect when disconnected. However, the * goOffline( ) and goOnline( ) methods may be used to manually control the client connection in * cases where a persistent connection is undesirable. * *

While offline, the Firebase Database client will no longer receive data updates from the * server. However, all Database operations performed locally will continue to immediately fire * events, allowing your application to continue behaving normally. Additionally, each operation * performed locally will automatically be queued and retried upon reconnection to the Database * server. * *

To reconnect to the Database server and begin receiving remote events, see goOnline( ). Once * the connection is reestablished, the Database client will transmit the appropriate data and * fire the appropriate events so that your client "catches up" automatically. */ /** * Set the value at this location to 'null' * * @param listener A listener that will be triggered when the operation is complete */ public void removeValue(CompletionListener listener) { setValue(null, listener); } /** * Provides access to disconnect operations at this location * * @return An object for managing disconnect operations at this location */ public OnDisconnect onDisconnect() { Validation.validateWritablePath(getPath()); return new OnDisconnect(repo, getPath()); } /** * Run a transaction on the data at this location. For more information on running transactions, * see {@link com.google.firebase.database.Transaction.Handler Transaction.Handler}. * * @param handler An object to handle running the transaction */ public void runTransaction(Transaction.Handler handler) { runTransaction(handler, true); } /** * Run a transaction on the data at this location. For more information on running transactions, * see {@link com.google.firebase.database.Transaction.Handler Transaction.Handler}. * * @param handler An object to handle running the transaction * @param fireLocalEvents Defaults to true. If set to false, events will only be fired for the * final result state of the transaction, and not for any intermediate states */ public void runTransaction(final Transaction.Handler handler, final boolean fireLocalEvents) { if (handler == null) { throw new NullPointerException("Can't pass null for argument 'handler' in runTransaction()"); } Validation.validateWritablePath(getPath()); repo.scheduleNow( new Runnable() { @Override public void run() { repo.startTransaction(getPath(), handler, fireLocalEvents); } }); } // Getters and other auxiliary methods /** * Gets the Database instance associated with this reference. * * @return The Database object for this reference. */ public FirebaseDatabase getDatabase() { return this.repo.getDatabase(); } /** * @return The full location url for this reference */ @Override public String toString() { DatabaseReference parent = getParent(); if (parent == null) { return repo.toString(); } else { try { return parent.toString() + "/" + URLEncoder.encode(getKey(), "UTF-8").replace("+", "%20"); } catch (UnsupportedEncodingException e) { throw new DatabaseException("Failed to URLEncode key: " + getKey(), e); } } } /** * @return A DatabaseReference to the parent location, or null if this instance references the * root location */ public DatabaseReference getParent() { Path parentPath = getPath().getParent(); if (parentPath != null) { return new DatabaseReference(repo, parentPath); } else { return null; } } /** * @return A reference to the root location of this Firebase Database */ public DatabaseReference getRoot() { return new DatabaseReference(repo, new Path("")); } /** * @return The last token in the location pointed to by this reference */ public String getKey() { if (getPath().isEmpty()) { return null; } return getPath().getBack().asString(); } @Override public boolean equals(Object other) { return other instanceof DatabaseReference && toString().equals(other.toString()); } @Override public int hashCode() { return toString().hashCode(); } void setHijackHash(final boolean hijackHash) { repo.scheduleNow( new Runnable() { @Override public void run() { repo.setHijackHash(hijackHash); } }); } /** * This interface is used as a method of being notified when an operation has been acknowledged by * the Database servers and can be considered complete * * @since 1.1 */ public interface CompletionListener { /** * This method will be triggered when the operation has either succeeded or failed. If it has * failed, an error will be given. If it has succeeded, the error will be null * * @param error A description of any errors that occurred or null on success * @param ref A reference to the specified Firebase Database location */ void onComplete(final DatabaseError error, final DatabaseReference ref); } }





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