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// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
package com.microsoft.azure.sdk.iot.service.twin;
import com.google.gson.JsonElement;
import com.google.gson.JsonObject;
import com.microsoft.azure.sdk.iot.service.ParserUtility;
import java.util.HashMap;
import java.util.Map;
/**
* Representation of a single Twin collection.
*
* The TwinCollection is an extension of a {@code HashMap} of {@code String} and
* {@code Object} that contain individual and general versioning mechanism.
*
*
By the Twin definition, the {@code Object} can contain types of {@code Boolean},
* {@code Number}, {@code String}, {@code Object}, or a sub-TwinCollection, but
* it cannot be types defined by the user or arrays.
*
*
A TwinCollection can contain up to 5 levels of sub TwinCollections. Once the
* TwinCollection is a extension of the {@code HashMap}, both TwinCollection as well
* as its sub-TwinCollections can be casted to Map of String and Object.
*
*
The collection will be represented in the rest API as a JSON in the body. It can
* or cannot contain the metadata (identified by the $ character at the
* beginning of the key.
*
*
Because of the Twin metadata, the character $ is not allowed in the entry key.
*
*
For instance, the following JSON is a valid TwinCollection with its metadata.
*
* {@code
* {
* "Color":"White",
* "MaxSpeed":{
* "Value":500,
* "NewValue":300
* },
* "$metadata":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4,
* "Color":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4,
* },
* "MaxSpeed":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4,
* "Value":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4
* },
* "NewValue":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4
* }
* }
* },
* "$version":4
* }
* }
*
*
* This class exposes the Twin collection with or without metadata as a Map here
* user can get both the value and the metadata. For instance, in the above TwinCollection,
* {@link #get(Object)} for Color will return White and the {@link #getTwinMetadata(String)}
* for Color will return the Object TwinMetadata that contain {@link TwinMetadata#getLastUpdated()}
* that will returns the {@code Date} for example 2017-09-21T02:07:44.238Z, {@link TwinMetadata#getLastUpdatedBy()}
* that will return the {@code String} for example testConfig, {@link TwinMetadata#getLastUpdatedByDigest()}
* that will return the {@code String} for example 637570515479675333, and {@link TwinMetadata#getLastUpdatedVersion()}
* that will return the {@code Integer} for example 4.
*
*
For the nested TwinCollection, you can do the same, for instance, the following code will return the
* value and metadata of the NewValue nested in MaxSpeed:
*
* {@code
* // Get the value of the MaxSpeed, which is a inner TwinCollection.
* TwinCollection innerMaxSpeed = (TwinCollection) twinCollection.getJob("MaxSpeed");
*
* // From the inner TwinCollection, get the value of the NewValue.
* Long maxSpeedNewValue = innerMaxSpeed.getJob("NewValue");
*
* // As in the root TwinCollection, the inner TwinCollection contain its own metadata.
* // So, get the metadata information for the inner NewValue.
* TwinMetadata maxSpeedNewValueMetadata = innerMaxSpeed.getTwinMetadata("NewValue");
* Date newValueLastUpdated = maxSpeedNewValueMetadata.getLastUpdated(); //Shall contain `2017-09-21T02:07:44.238Z`
* Integer newValueLastUpdatedVersion = maxSpeedNewValueMetadata.getLastUpdatedVersion(); //Shall contain `4`
* }
*
*
* @see Understand and use device twins in IoT Hub
* @see Device Twin Api
*/
// Unchecked casts of Maps to Map are safe as long as service is returning valid twin json payloads. Since all json keys are Strings, all maps must be Map
@SuppressWarnings("unchecked")
public class TwinCollection extends HashMap {
// the Twin collection version
private static final String VERSION_TAG = "$version";
private Integer version;
// the Twin collection metadata
private static final String METADATA_TAG = "$metadata";
private TwinMetadata twinMetadata;
private final Map metadataMap = new HashMap<>();
/**
* Constructor
*
* Creates an empty collection. Fill it with {@link #put(String, Object)}
* or {@link #putAll(Map)}.
*/
public TwinCollection() {
super();
}
/**
* Constructor
*
*
Creates a new Twin collection coping the provided Map.
*
* @param map the Map of {@code ? extends String} and {@code Object} with the Twin collection
*/
public TwinCollection(Map map) {
if ((map != null) && !map.isEmpty()) {
this.putAll(map);
}
}
/**
* Constructor
*
*
Creates a new Twin collection coping the provided collection.
*
* @param collection the Collection of {@code ? extends String} and {@code Object} with the Twin collection
*/
public TwinCollection(TwinCollection collection) {
if ((collection != null) && !collection.isEmpty()) {
this.version = collection.getVersion();
this.twinMetadata = collection.getTwinMetadata();
for (Entry entry : collection.entrySet()) {
if (entry.getValue() instanceof TwinCollection) {
super.put(entry.getKey(), new TwinCollection((TwinCollection) entry.getValue()));
} else {
super.put(entry.getKey(), entry.getValue());
}
this.metadataMap.put(entry.getKey(), collection.getTwinMetadata(entry.getKey()));
}
}
}
/**
* Getter for the TwinCollection metadata map.
*
* @return The metadata map for this TwinCollection.
*/
final Map getMetadataMap()
{
return metadataMap;
}
/**
* Add all information in the provided Map to the TwinCollection.
*
* Override {@code HashMap.putAll(Map)}.
*
*
This function will add all entries in the Map to the TwinCollection. If the provided
* key already exists, it will replace the value by the new one. This function will not
* delete or change the content of the other keys in the Map.
*
*
As defined by the Twin, the value of a entry can be an inner Map. TwinCollection will
* accept up to 5 levels of inner Maps.
*
* @param map A {@code Map} of entries to add to the TwinCollection.
*/
@Override
public void putAll(Map map) {
if ((map == null) || map.isEmpty()) {
throw new IllegalArgumentException("map to add cannot be null or empty.");
}
for (Entry entry : map.entrySet()) {
this.put(entry.getKey(), entry.getValue());
}
}
/**
* Add a single new entry in the TwinCollection.
*
*
Override {@code HashMap.put(String, Object)}.
*
*
This function will add a single pair key value to the TwinCollection. By the
* Twin definition, the {@code Object} can contain types of {@code Boolean},
* {@code Number}, {@code String}, {@code Object}, or up to 5 levels of
* sub-TwinCollection, but it cannot be types defined by the user or arrays.
*
* @param key the {@code String} that represents the key of the new entry. It cannot be {@code null} or empty.
* @param value the {@code Object} that represents the value of the new entry. It cannot be user defined type or array.
* @return The {@code Object} that correspond to the last value of this key. It will be {@code null} if there is no previous value.
*/
@Override
public Object put(String key, Object value) {
if (key == null || key.isEmpty()) {
throw new IllegalArgumentException("Key cannot be null or empty");
}
Object last = get(key);
if (value instanceof Map) {
super.put(key, new TwinCollection((Map) value));
} else {
super.put(key, value);
}
if (!key.equals(VERSION_TAG) && !key.equals(METADATA_TAG)) {
ParserUtility.validateMap(this);
}
return last;
}
/**
* Internal Constructor from raw map.
*
*
This internal constructor is used to the deserialization process.
*
*
During the deserialization process, the GSON will convert both tags and
* properties to a raw Map, which will includes the $version and $metadata
* as part of the collection. So, we need to reorganize this map using the
* TwinCollection format. This constructor will do that.
*
*
For instance, the following JSON is a valid TwinCollection with its metadata.
*
* {@code
* {
* "Color":"White",
* "MaxSpeed":{
* "Value":500,
* "NewValue":300
* },
* "$metadata":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4,
* "Color":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4,
* },
* "MaxSpeed":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4,
* "Value":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4
* },
* "NewValue":{
* "$lastUpdated":"2017-09-21T02:07:44.238Z",
* "$lastUpdatedVersion":4
* }
* }
* },
* "$version":4
* }
* }
*
*
* @param rawCollection the {@code Map} with contain all TwinCollection information, without
* any differentiation between each entity is the Twin information and each entity is part
* of the Twin metadata.
* @return The instance of the {@link TwinCollection}.
* @throws IllegalArgumentException If the provided rowCollection contain an invalid parameter.
*/
static TwinCollection createFromRawCollection(Map rawCollection) {
TwinCollection twinCollection = new TwinCollection();
Map metadata = null;
for (Entry entry : rawCollection.entrySet()) {
if (entry.getKey().equals(VERSION_TAG)) {
if (!(entry.getValue() instanceof Number)) {
throw new IllegalArgumentException("version is not a number");
}
twinCollection.version = ((Number) entry.getValue()).intValue();
} else if (entry.getKey().equals(METADATA_TAG)) {
metadata = (Map) entry.getValue();
} else {
twinCollection.put(entry.getKey(), entry.getValue());
}
}
if (metadata != null) {
TwinCollection.addMetadata(twinCollection, metadata);
}
return twinCollection;
}
private static void addMetadata(TwinCollection twinCollection, Map metadata) {
String lastUpdated = null;
Integer lastUpdatedVersion = null;
String lastUpdatedBy = null;
String lastUpdatedByDigest = null;
for (Entry entry : metadata.entrySet()) {
String key = entry.getKey();
if (key.equals(TwinMetadata.LAST_UPDATE_TAG)) {
lastUpdated = (String) entry.getValue();
} else if ((key.equals(TwinMetadata.LAST_UPDATE_VERSION_TAG)) && (entry.getValue() instanceof Number)) {
lastUpdatedVersion = ((Number) entry.getValue()).intValue();
} else if (key.equals(TwinMetadata.LAST_UPDATED_BY)) {
lastUpdatedBy = (String) entry.getValue();
} else if (key.equals(TwinMetadata.LAST_UPDATED_BY_DIGEST)) {
lastUpdatedByDigest = (String) entry.getValue();
} else {
TwinMetadata twinMetadata = TwinMetadata.tryExtractFromMap(entry.getValue());
if (twinMetadata != null) {
twinCollection.metadataMap.put(key, twinMetadata);
}
Object valueInCollection = twinCollection.get(key);
if (valueInCollection instanceof TwinCollection) {
TwinCollection.addMetadata((TwinCollection) valueInCollection, (Map) entry.getValue());
}
}
}
if ((lastUpdatedVersion != null) || !Tools.isNullOrEmpty(lastUpdated)) {
twinCollection.twinMetadata = new TwinMetadata(lastUpdated, lastUpdatedVersion, lastUpdatedBy, lastUpdatedByDigest);
}
}
/**
* Serializer
*
* Creates a {@code JsonElement}, which the content represents
* the information in this class and its subclasses in a JSON format.
*
*
This is useful if the caller will integrate this JSON with JSON from
* other classes to generate a consolidated JSON.
*
* @return The {@code JsonElement} with the content of this class.
*/
public JsonObject toJsonObject() {
JsonObject object = ParserUtility.mapToJsonElement(this).getAsJsonObject();
if (this.version != null)
{
object.addProperty(VERSION_TAG, this.version);
}
return object;
}
/**
* Serializer with metadata.
*
*
Return a JsonElement with the full content of this class,
* including the metadata.
*
* @return The {@code JsonElement} with the full content of this class.
*/
JsonElement toJsonElementWithMetadata() {
JsonObject jsonObject = ParserUtility.mapToJsonElement(this).getAsJsonObject();
if (this.version != null) {
jsonObject.addProperty(VERSION_TAG, this.version);
}
JsonObject jsonMetadata = new JsonObject();
this.fillJsonMetadata(jsonMetadata);
if (!jsonMetadata.entrySet().isEmpty()) {
jsonObject.add(METADATA_TAG, jsonMetadata);
}
return jsonObject;
}
private void fillJsonMetadata(JsonObject jsonMetadata) {
if (this.twinMetadata != null) {
jsonMetadata.addProperty(TwinMetadata.LAST_UPDATE_TAG, ParserUtility.dateTimeUtcToString(this.twinMetadata.getLastUpdated()));
jsonMetadata.addProperty(TwinMetadata.LAST_UPDATE_VERSION_TAG, this.twinMetadata.getLastUpdatedVersion());
if (this.twinMetadata.getLastUpdatedBy() != null) {
jsonMetadata.addProperty(TwinMetadata.LAST_UPDATED_BY, this.twinMetadata.getLastUpdatedBy());
}
if (this.twinMetadata.getLastUpdatedByDigest() != null) {
jsonMetadata.addProperty(TwinMetadata.LAST_UPDATED_BY_DIGEST, this.twinMetadata.getLastUpdatedByDigest());
}
}
for (Entry entry : this.metadataMap.entrySet()) {
if (entry.getValue() != null) {
JsonObject subMapJson = entry.getValue().toJsonElement().getAsJsonObject();
Object value = get(entry.getKey());
if (value instanceof TwinCollection) {
((TwinCollection) value).fillJsonMetadata(subMapJson);
}
jsonMetadata.add(entry.getKey(), subMapJson);
}
}
}
/**
* Getter for the version.
*
* @return The {@code Integer} with the version content. It can be {@code null}.
*/
public final Integer getVersion() {
return this.version;
}
/**
* Setter for the version of this twin collection.
* @param version the version.
*/
public final void setVersion(Integer version)
{
this.version = version;
}
/**
* Getter for the TwinCollection metadata
*
* @return the {@link TwinMetadata} of the Whole TwinCollection. It can be {@code null}.
*/
public final TwinMetadata getTwinMetadata() {
return this.twinMetadata;
}
/**
* Setter for the TwinCollection metadata
*
* @param twinMetadata the metadata to assign to this TwinCollection.
*/
final void setTwinMetadata(TwinMetadata twinMetadata) {
this.twinMetadata = twinMetadata;
}
/**
* Getter for the entry metadata in the TwinCollection.
*
* @param key the {@code String} with the name of the entry to retrieve the metadata.
* @return the {@link TwinMetadata} ot the specific entry in the TwinCollection. It can be {@code null}.
*/
public final TwinMetadata getTwinMetadata(String key) {
return this.metadataMap.get(key);
}
/**
* Creates a pretty print JSON with the content of this class and subclasses.
*
* @return The {@code String} with the pretty print JSON.
*/
@Override
public String toString() {
return toJsonElementWithMetadata().toString();
}
}