Remote and embedded caches can store keys and values in different encodings, or media types. Infinispan also includes an implementation of the ProtoStream API to marshall Java objects as Protocol Buffers (Protobuf).
1. Configuring cache encoding
Find out how to configure Infinispan caches with different media types and how encoding affects the ways you can use Infinispan.
1.1. Cache encoding
Encoding is the format, identified by a media type, that Infinispan uses to store entries (key/value pairs) in caches.
Remote caches
Infinispan Server stores entries in remote caches with the encoding that is set in the cache configuration.
Hot Rod and REST clients include a media type with each request they make to Infinispan Server. To handle multiple clients making read and write requests with different media types, Infinispan Server converts data on-demand to and from the media type that is set in the cache configuration.
If the remote cache does not have any encoding configuration, Infinispan Server stores keys and values as generic byte[]
without any media type information, which can lead to unexpected results when converting data for clients request different formats.
Infinispan Server returns an error when client requests include a media type that it cannot convert to or from the media type that is set in the cache configuration.
Infinispan recommends always configuring cache encoding with the application/x-protostream
media type if you want to use multiple clients, such as Infinispan Console or CLI, Hot Rod, or REST.
ProtoStream encoding also lets you use server-side tasks and perform indexed queries on remote caches.
Embedded caches
Infinispan stores entries in embedded caches as Plain Old Java Objects (POJOs) by default.
For clustered embedded caches, Infinispan needs to marshall any POJOs to a byte array that can be replicated between nodes and then unmarshalled back into POJOs. This means you must ensure that Infinispan can serialize your POJOs with the ProtoStream marshaller if you do not configure another marshaller.
If you store mutable POJOs in embedded caches, you should always update values using new POJO instances.
For example, if you store a |
1.2. Protobuf cache encoding
Protocol Buffers (Protobuf) is a lightweight binary media type for structured data. As a cache encoding, Protobuf gives you excellent performance as well as interoperability between client applications in different programming languages for both Hot Rod and REST endpoints.
Infinispan uses a ProtoStream library to encode caches as Protobuf with the application/x-protostream
media type.
The following example shows a Protobuf message that describes a Person
object:
message Person {
optional int32 id = 1;
optional string name = 2;
optional string surname = 3;
optional Address address = 4;
repeated PhoneNumber phoneNumbers = 5;
optional uint32 age = 6;
enum Gender {
MALE = 0;
FEMALE = 1;
}
}
Interoperability
Because it is language neutral, Protobuf encoding means Infinispan can handle requests from client applications written in Java, C++, C#, Python, Go, and more.
Protobuf also enables clients on different remote endpoints, Hot Rod or REST, to operate on the same data. Because it uses the REST API, you can access and work with Protobuf-encoded caches through Infinispan Console.
You cannot use Infinispan Console with any binary encoding other than |
Queries
Infinispan needs a structured representation of data in caches for fast and reliable queries. To search caches with the Ickle query language, you register Protobuf schema that describe your objects.
Custom types
Infinispan includes an implementation of the ProtoStream API with native support for frequently used types, including String
and Integer
.
If you want to store custom types in your caches, use ProtoStream marshalling to generate and register serialization contexts with Infinispan so that it can marshall your objects.
1.2.1. Encoding caches as ProtoStream
Configure Infinispan to use the ProtoStream library to store cache entries as Protocol Buffers (Protobuf).
-
Specify the
application/x-protostream
media type for keys and values.
<distributed-cache>
<encoding>
<key media-type="application/x-protostream"/>
<value media-type="application/x-protostream"/>
</encoding>
</distributed-cache>
//Create cache configuration that encodes keys and values as ProtoStream
ConfigurationBuilder builder = new ConfigurationBuilder();
builder.clustering().cacheMode(CacheMode.DIST_SYNC)
.encoding().key().mediaType("application/x-protostream")
.encoding().value().mediaType("application/x-protostream");
Alternatively you can use the same encoding for keys and values:
<encoding media-type="application/x-protostream"/>
.encoding().mediaType("application/x-protostream");
1.3. Text-based cache encoding
Text-based encoding is human-readable content such as plain text. The classic "Hello World" example entry could be stored in a cache as follows:
key=hello
value=world
If you encode caches with the text/plain
media type, Infinispan can convert to and from the following media types:
-
application/xml
-
application/json
-
application/x-protostream
The following example configuration encodes keys and values with the text/plain; charset=UTF-8
media type:
<distributed-cache>
<encoding>
<key media-type="text/plain; charset=UTF-8"/>
<value media-type="text/plain; charset=UTF-8"/>
</encoding>
</distributed-cache>
1.3.1. Clients and text-based encoding
If you configure encoding to store keys and values with a text-based media type, then you also need to configure clients to operate on those caches.
Hot Rod clients
Infinispan uses the ProtoStream library to handle String
and byte[]
types natively.
If you configure cache encoding with the text/plain
media type, Hot Rod clients might not necessarily require any marshaller configuration to perform cache operations.
For other text-based media types, such as JSON or XML, Hot Rod clients can use the org.infinispan.commons.marshall.UTF8StringMarshaller
marshaller that converts to and from the text/plain
media type.
REST clients
REST clients must include the media type for caches in the request headers.
For example if you configure cache encoding as text/plain; charset=UTF-8
then REST clients should send the following headers:
-
Accept: text/plain; charset=UTF-8
for read operations. -
Content-Type: text/plain; charset=UTF-8
orKey-Content-Type: text/plain; charset=UTF-8
for write operations.
1.4. Marshalled Java objects
Infinispan stores marshalled Java objects in caches as byte arrays.
For example, the following is a simple representation of a Person
object stored as a value in memory:
value=[61 6c 61 6e 0a 70 61 72 74 72 69 64 67 65]
To store marshalled objects in caches, you should use the ProtoStream marshaller unless a strict requirement exists. For example, when migrating client applications from older versions of Infinispan, you might need to temporarily use JBoss marshalling with your Hot Rod Java clients.
Infinispan stores marshalled Java objects as byte arrays with the following media types:
-
application/x-protostream
-
application/x-jboss-marshalling
-
application/x-java-serialized-object
When storing unmarshalled Java objects, Infinispan uses the object implementation of |
1.4.1. Clients and marshalled objects
When you configure Hot Rod Java clients to use a marshaller, you must configure your cache with the encoding for that marshaller.
Each marshaller uses a different media type to produce byte[]
content that the client can transmit to Infinispan Server.
When reading from the server, the client marshaller performs the opposite operation, using the media type to produce data from byte[]
content.
Your cache encoding must be compatible with the Hot Rod client marshaller.
For example, if you configure a cache encoding as application/x-protostream
, you can use the ProtoStream marshaller with your clients to operate on that cache.
However if the client marshaller uses an encoding that Infinispan cannot convert to and from application/x-protostream
, Infinispan throws an error message.
If you use JavaSerializationMarshaller
or GenericJBossMarshaller
you should encode caches with the application/x-java-serialized-object
or application/x-jboss-marshalling
media type, respectively.
Infinispan converts keys and values encoded with the application/x-protostream
media type to application/json
.
This allows REST clients to include the JSON media type in request headers and perform operations on caches that use ProtoStream encoding:
-
Accept: application/json
for read operations. -
Content-Type: application/json
for write operations.
1.5. Plain Old Java Objects (POJO)
For best performance, Infinispan recommends storing unmarshalled POJOs in embedded caches only. However, you can configure keys and values with the following media type:
-
application/x-java-object
1.5.1. Clients and POJOs
Even though Infinispan does not recommend doing so, clients can operate on caches that store unmarshalled POJOs with the application/x-java-object
media type.
Hot Rod clients
Hot Rod client marshallers must be available to Infinispan Server so it can deserialize your Java objects. By default, the ProtoStream and Java Serialization marshallers are available on the server.
REST clients
REST clients must use either JSON or XML for keys and values so Infinispan can convert to and from POJOs.
Infinispan requires you to add Java classes to the deserialization allowlist to convert XML to and from POJOs. |
1.6. Adding JARs to Infinispan Server installations
Make custom JAR files available to Infinispan Server by adding them to the classpath.
|
-
Stop Infinispan Server if it is running.
-
Add JAR files to the
server/lib
directory, for example:├── server │ └── lib │ └── UserObjects.jar
1.7. Configuring cache encoding for Memcached clients
Infinispan Server disables the Memcached endpoint by default. If you enable the Memcached endpoint, you should configure your Memcached cache with a suitable encoding.
The Memcached endpoint does not support authentication. For security purposes you should use dedicated caches for Memcached clients. You should not use REST or Hot Rod clients to interact on the same data set as Memcached clients. |
-
Configure cache encoding for keys and values as appropriate.
-
Specify any appropriate media type for values.
<distributed-cache> <encoding> <key media-type="text/plain"/> <value media-type="application/x-protostream"/> </encoding> </distributed-cache>
The Memcached endpoint includes a client-encoding
attribute that converts the
encoding of values.
For example, as in the preceding configuration example, you store values encoded as Protobuf. If you want Memcached clients to read and write values as JSON, you can use the following configuration:
<memcached-connector cache="memcachedCache" client-encoding="application/json">
2. Marshalling custom objects with ProtoStream
Marshalling is a process that converts Java objects into a binary format that can be transferred across the network or stored to disk. The reverse process, unmarshalling, transforms data from a binary format back into Java objects.
Infinispan performs marshalling and unmarshalling to:
-
Send data to other Infinispan nodes in a cluster.
-
Store data in persistent cache stores.
-
Transmit objects between clients and remote caches.
-
Store objects in native memory outside the JVM heap.
-
Store objects in JVM heap memory when the cache encoding is not
application/x-java-object
.
When storing custom objects in Infinispan caches, you should use Protobuf-based marshalling with the ProtoStream marshaller.
2.1. ProtoStream marshalling
Infinispan provides the ProtoStream API so you can marshall Java objects as Protocol Buffers (Protobuf).
ProtoStream natively supports many different Java data types, which means you do not need to configure ProtoStream marshalling for those types. For custom or user types, you need to provide some information so that Infinispan can marshall those objects to and from your caches.
SerializationContext
-
A repository that contains Protobuf type definitions, loaded from Protobuf schemas (
.proto
files), and the accompanying marshallers. SerializationContextInitializer
-
An interface that initializes a
SerializationContext
.
2.1.1. ProtoStream types
Infinispan uses a ProtoStream library that can handle the following types for keys and values, as well as the unboxed equivalents in the case of primitive types:
-
byte[]
-
Byte
-
String
-
Integer
-
Long
-
Double
-
Float
-
Boolean
-
Short
-
Character
-
java.util.Date
-
java.time.Instant
Additional type collections
The ProtoStream library includes several adapter classes for common Java types, for example:
-
java.math.BigDecimal
-
java.math.BigInteger
-
java.util.UUID
Infinispan provides all adapter classes for some common JDK classes in the protostream-types
artifact, which is included in the infinispan-core
and infinispan-client-hotrod
dependencies.
You do not need any configuration to store adapter classes as keys or values.
However, if you want to use adapter classes as marshallable fields in ProtoStream-annotated POJOS, you can do so in the following ways:
-
Specify the
CommonTypesSchema
andCommonContainerTypesSchema
classes with thedependsOn
element of theAutoProtoSchemaBuilder
annotation.
@AutoProtoSchemaBuilder(dependsOn = {org.infinispan.protostream.types.java.CommonTypes, org.infinispan.protostream.types.java.CommonContainerTypes}, schemaFileName = "library.proto", schemaFilePath = "proto", schemaPackageName = "example")
public interface LibraryInitalizer extends SerializationContextInitializer {
}
-
Specify the required adapter classes with the
includeClasses
element of theAutoProtoSchemaBuilder
annotation
@AutoProtoSchemaBuilder(includeClasses = { Author.class, Book.class, UUIDAdapter.class, java.math.BigInteger }, schemaFileName = "library.proto", schemaFilePath = "proto", schemaPackageName = "library")
public interface LibraryInitalizer extends SerializationContextInitializer {
}
2.1.2. ProtoStream annotations
The ProtoStream API includes annotations that you can add to Java applications to define Protobuf schemas, which provide a structured format for your objects.
This topic provides additional details about ProtoStream annotations. You should refer to the documentation in the org.infinispan.protostream.annotations package for complete information.
ProtoField
@ProtoField
defines a Protobuf message field.
This annotation is required and applies to fields as well as getter and setter methods.
A class must have at least one field annotated with @ProtoField
before Infinispan can marshall it as Protobuf.
Parameter | Value | Optional or required | Description |
---|---|---|---|
|
Integer |
Required |
Tag numbers must be unique within the class. |
|
Type |
Optional |
Declares the Protobuf type of the field. If you do not specify a type, it is inferred from the Java property. You can use the |
|
Class |
Optional |
Indicates the actual collection type if the property type is an interface or abstract class. |
|
Class |
Optional |
Indicates the actual Java type if the property type is an abstract class or interface. The value must be an instantiable Java type assignable to the property type. If you declare a type with the |
|
String |
Optional |
Specifies a name for the Protobuf schema. |
|
String |
Optional |
Specifies the default value for fields if they are not available when reading from the cache. The value must follow the correct syntax for the Java field type. |
ProtoFactory
@ProtoFactory
marks a single constructor or static factory method for creating instances of the message class.
You can use this annotation to support immutable message classes.
All fields annotated with @ProtoField
must be included in the parameters.
-
Field names and parameters of the
@ProtoFactory
constructor or method must match the corresponding Protobuf message, however, the order is not important. -
If you do not add a
@ProtoFactory
annotated constructor to a class, that class must have a default no-argument constructor, otherwise errors occur during compilation.
AutoProtoSchemaBuilder
@AutoProtoSchemaBuilder
generates an implementation of a class or interface that extends SerializationContextInitializer
.
If active, the ProtoStream processor generates the implementation at compile time in the same package with the Impl
suffix or a name that you specify with the className
parameter.
The includeClasses
or basePackages
parameters reference classes that the ProtoStream processor should scan and include in the Protobuf schema and marshaller.
If you do not set either of these parameters, the ProtoStream processor scans the entire source path, which can lead to unexpected results and is not recommended.
You can also use the excludeClasses
parameter with the basePackages
parameter to exclude classes.
The schemaFileName
and schemaPackageName
parameters register the generated Protobuf schema under this name.
If you do not set these parameters, the annotated simple class name is used with the unnamed, or default, package.
Schema names must end with the .proto
file extension.
You can also use the marshallersOnly
to generate marshallers only and suppress the Protobuf schema generation.
The ProtoStream process automatically generates META-INF/services
service metadata files, which you can use so that Infinispan Server automatically picks up the JAR to register the Protobuf schema.
The dependsOn
parameter lists annotated classes that implement SerializedContextInitializer
to execute first.
If the class does not implement SerializedContextInitializer
or is not annotated with AutoProtoSchemaBuilder
, a compile time error occurs.
ProtoAdapter
@ProtoAdapter
is a marshalling adapter for a class or enum that you cannot annotate directly.
If you use this annotation for:
-
Classes, the annotated class must have one
@ProtoFactory
annotated factory method for the marshalled class and annotated accessor methods for each field. These methods can be instance or static methods and their first argument must be the marshalled class. -
Enums, an identically named enum value must exist in the target enum.
ProtoDoc and ProtoDocs
@ProtoDoc
and @ProtoDocs
are human-readable text that document message types, enums, or fields for the generated schema.
You use these annotation to configure indexing for Ickle queries.
ProtoName
@ProtoName
is an optional annotation that specifies the Protobuf message or enum type name and replaces the @ProtoMessage
annotation.
ProtoEnumValue
@ProtoEnumValue
defines a Protobuf enum value. You can apply this annotation to members of a Java enum only.
ProtoReserved and ProtoReservedStatements
@ProtoReserved
and @ProtoReservedStatements
add reserved
statements to generated messages or enum definitions to prevent future usage of numbers, ranges, and names.
ProtoTypeId
@ProtoTypeId
optionally specifies a globally unique numeric type identifier for a Protobuf message or enum type.
You should not add this annotation to classes because Infinispan uses it internally and identifiers can change without notice. |
ProtoUnknownFieldSet
@ProtoUnknownFieldSet
optionally indicates the field, or JavaBean property of type {@link org.infinispan.protostream.UnknownFieldSet}
, which stores any unknown fields.
Infinispan does not recommend using this annotation because it is no longer supported by Google and is likely to be removed in future. |
2.2. Creating serialization context initializers
A serialization context initializer lets you register the following with Infinispan:
-
Protobuf schemas that describe user types.
-
Marshallers that provide serialization and deserialization capabilities.
From a high level, you should do the following to create a serialization context initializer:
-
Add ProtoStream annotations to your Java classes.
-
Use the ProtoStream processor that Infinispan provides to compile your
SerializationContextInitializer
implementation.
The |
2.2.1. Adding the ProtoStream processor
Infinispan provides a ProtoStream processor artifact that processes Java annotations in your classes at compile time to generate Protobuf schemas, accompanying marshallers, and a concrete implementation of the SerializationContextInitializer
interface.
-
Add the
protostream-processor
dependency to yourpom.xml
with theprovided
scope.This dependency is required at compile-time only so you should use the
provided
scope or mark it as optional. You should also ensure theprotostream-processor
is not propagated as a transitive dependency.<dependencyManagement> <dependencies> <dependency> <groupId>org.infinispan</groupId> <artifactId>infinispan-bom</artifactId> <version>${version.infinispan}</version> <type>pom</type> </dependency> </dependencies> </dependencyManagement> <dependencies> <dependency> <groupId>org.infinispan.protostream</groupId> <artifactId>protostream-processor</artifactId> <scope>provided</scope> </dependency> </dependencies>
2.2.2. Adding ProtoStream annotations to Java classes
Declare ProtoStream metadata by adding annotations to a Java class and its members. Infinispan then uses the ProtoStream processor to generate Protobuf schema and related marshallers from those annotations.
-
Annotate the Java fields that you want to marshall with
@ProtoField
, either directly on the field or on the getter or setter method.Any non-annotated fields in your Java class are transient. For example, you have a Java class with 15 fields and annotate five of them. The resulting schema contains only those five fields and only those five fields are marshalled when storing a class instance in Infinispan.
-
Use
@ProtoFactory
to annotate constructors for immutable objects. The annotated constructors must initialize all fields annotated with@ProtoField
. -
Annotate members of any Java enum with
@ProtoEnumValue
.
The following Author.java
and Book.java
examples show Java classes annotated with @ProtoField
and @ProtoFactory
:
import org.infinispan.protostream.annotations.ProtoFactory;
import org.infinispan.protostream.annotations.ProtoField;
public class Author {
@ProtoField(1)
final String name;
@ProtoField(2)
final String surname;
@ProtoFactory
Author(String name, String surname) {
this.name = name;
this.surname = surname;
}
// public Getter methods omitted for brevity
}
import org.infinispan.protostream.annotations.ProtoFactory;
import org.infinispan.protostream.annotations.ProtoField;
public class Book {
@ProtoField(number = 1)
public final UUID id;
@ProtoField(number = 2)
final String title;
@ProtoField(number = 3)
final String description;
@ProtoField(number = 4, defaultValue = "0")
final int publicationYear;
@ProtoField(number = 5, collectionImplementation = ArrayList.class)
final List<Author> authors;
@ProtoField(number = 6)
public Language language;
@ProtoFactory
Book(UUID id, String title, String description, int publicationYear, List<Author> authors, Language language) {
this.id = id;
this.title = title;
this.description = description;
this.publicationYear = publicationYear;
this.authors = authors;
this.language = language;
}
// public Getter methods not included for brevity
}
The following Language.java
example shows a Java enum annotated with @ProtoEnumValue
along with the corresponding Protobuf schema:
import org.infinispan.protostream.annotations.ProtoEnumValue;
public enum Language {
@ProtoEnumValue(number = 0, name = "EN")
ENGLISH,
@ProtoEnumValue(number = 1, name = "DE")
GERMAN,
@ProtoEnumValue(number = 2, name = "IT")
ITALIAN,
@ProtoEnumValue(number = 3, name = "ES")
SPANISH,
@ProtoEnumValue(number = 4, name = "FR")
FRENCH;
}
enum Language {
EN = 0;
DE = 1;
IT = 2;
ES = 3;
FR = 4;
}
2.2.3. Creating ProtoStream adapter classes
ProtoStream provides a @ProtoAdapter
annotation that you can use to marshall external, third-party Java object classes that you cannot annotate directly.
-
Create an
Adapter
class and add the@ProtoAdapter
annotation, as in the following example:import java.util.UUID; import org.infinispan.protostream.annotations.ProtoAdapter; import org.infinispan.protostream.annotations.ProtoFactory; import org.infinispan.protostream.annotations.ProtoField; import org.infinispan.protostream.descriptors.Type; /** * Human readable UUID adapter for UUID marshalling */ @ProtoAdapter(UUID.class) public class UUIDAdapter { @ProtoFactory UUID create(String stringUUID) { return UUID.fromString(stringUUID); } @ProtoField(1) String getStringUUID(UUID uuid) { return uuid.toString(); } }
2.2.4. Generating serialization context initializers
After you add the ProtoStream processor and annotate your Java classes, you can add the @AutoProtoSchemaBuilder
annotation to an interface so that Infinispan generates the Protobuf schema, accompanying marshallers, and a concrete implementation of the SerializationContextInitializer
.
By default, generated implementation names are the annotated class name with an "Impl" suffix. |
-
Define an interface that extends
GeneratedSchema
or its super interface,SerializationContextInitializer
.The
GeneratedSchema
interface includes a method to access the Protobuf schema whereas theSerializationContextInitializer
interface supports only registration methods. -
Annotate the interface with
@AutoProtoSchemaBuilder
. -
Ensure that
includeClasses
parameter includes all classes for the generatedSerializationContextInitializer
implementation. -
Specify a name for the generated
.proto
schema with theschemaFileName
parameter. -
Set a path under
target/classes
where schema files are generated with theschemaFilePath
parameter. -
Specify a package name for the generated
.proto
schema with theschemaPackageName
parameter.
The following example shows a GeneratedSchema
interface annotated with @AutoProtoSchemaBuilder
:
@AutoProtoSchemaBuilder(
includeClasses = {
Book.class,
Author.class,
UUIDAdapter.class,
Language.class
},
schemaFileName = "library.proto",
schemaFilePath = "proto/",
schemaPackageName = "book_sample")
interface LibraryInitializer extends GeneratedSchema {
}
If you use embedded caches, Infinispan automatically registers your SerializationContextInitializer
implementation.
If you use remote caches, you must register your SerializationContextInitializer
implementation with Infinispan Server.
2.2.5. Registering serialization context initializers
For embedded caches, Infinispan automatically registers serialization contexts and marshallers in your annotated SerializationContextInitializer
implementation using the java.util.ServiceLoader
.
If you prefer, you can disable automatic registration of SerializationContextInitializer
implementations and then register them manually.
If you manually register one |
-
Set a value of
false
for theAutoProtoSchemaBuilder.service
annotation.@AutoProtoSchemaBuilder( includeClasses = SomeClass.class, ... service = false )
-
Manually register
SerializationContextInitializer
implementations either programmatically or declaratively, as in the following examples:
<serialization>
<context-initializer class="org.infinispan.example.LibraryInitializerImpl"/>
<context-initializer class="org.infinispan.example.another.SCIImpl"/>
</serialization>
GlobalConfigurationBuilder builder = new GlobalConfigurationBuilder();
builder.serialization()
.addContextInitializers(new LibraryInitializerImpl(), new SCIImpl());
2.2.6. Registering Protobuf schemas with Infinispan Server
Register Protobuf schemas with Infinispan Server to perform Ickle queries or convert from application/x-protostream
to other media types such as application/json
.
-
Generate Protobuf schema with the ProtoStream processor.
You can find generated Protobuf schema in the
target/<schemaFilePath>/
directory. -
Have a user with
CREATE
permissions.Security authorization requires
CREATE
permissions to add schemas. With the default settings, you need thedeployer
role at minimum.
Add Protobuf schema to Infinispan Server in one of the following ways:
-
Open the Infinispan Console in any browser, select the Schema tab and then Add Protobuf schema.
-
Use the
schema
command with the--upload=
argument from the Infinispan command line interface (CLI).schema --upload=person.proto person
-
Include the Protobuf schema in the payload of a
POST
request with the REST API.POST/rest/v2/schemas/<schema_name>
-
Use the generated
SerializationContextInitializer
implementation with a Hot Rod client to register the Protobuf schema, as in the following example:/** * Register generated Protobuf schema with Infinispan Server. * This requires the RemoteCacheManager to be initialized. * * @param initializer The serialization context initializer for the schema. */ private void registerSchemas(SerializationContextInitializer initializer) { // Store schemas in the '___protobuf_metadata' cache to register them. // Using ProtobufMetadataManagerConstants might require the query dependency. final RemoteCache<String, String> protoMetadataCache = remoteCacheManager.getCache(ProtobufMetadataManagerConstants.PROTOBUF_METADATA_CACHE_NAME); // Add the generated schema to the cache. protoMetadataCache.put(initializer.getProtoFileName(), initializer.getProtoFile()); // Ensure the registered Protobuf schemas do not contain errors. // Throw an exception if errors exist. String errors = protoMetadataCache.get(ProtobufMetadataManagerConstants.ERRORS_KEY_SUFFIX); if (errors != null) { throw new IllegalStateException("Some Protobuf schema files contain errors: " + errors + "\nSchema :\n" + initializer.getProtoFileName()); } }
-
Add a JAR file with the
SerializationContextInitializer
implementation and custom classes to the$ISPN_HOME/server/lib
directory.When you do this, Infinispan Server registers your Protobuf schema at startup. However, you must add the archive to each server installation because the schema are not saved in the
___protobuf_metadata
cache or automatically distributed across the cluster.You must do this if you require Infinispan Server to perform any
application/x-protostream
toapplication/x-java-object
conversions, in which case you must also add any JAR files for your POJOs.
Register the SerializationContextInitializer
with your Hot Rod clients, as in the following example:
ConfigurationBuilder remoteBuilder = new ConfigurationBuilder();
remoteBuilder.addServer().host(host).port(Integer.parseInt(port));
// Add your generated SerializationContextInitializer implementation.
LibraryInitalizer initializer = new LibraryInitalizerImpl();
remoteBuilder.addContextInitializer(initializer);
2.2.7. Manual serialization context initializer implementations
Infinispan strongly recommends against manually implementing the |
It is possible to manually implement SerializationContextInitializer
or GeneratedSchema
interfaces using ProtobufTagMarshaller
and RawProtobufMarshaller
annotations.
However, manual implementations require a lot of tedious overhead and are prone to error.
Implementations that you generate with the protostream-processor
artifact are a much more efficient and reliable way to configure ProtoStream marshalling.
3. Using alternative and custom marshaller implementations
Infinispan recommends you use Protobuf-based marshalling with the ProtoStream marshaller so you can take advantage of Ickle queries and use the Infinispan CLI and Console. However, if required, you can use alternative marshallers or a custom marshaller implementation.
3.1. Allowing deserialization of Java classes
For security reasons Infinispan does not allow deserialization of arbitrary Java classes.
If you use JavaSerializationMarshaller
or GenericJBossMarshaller
, you must add your Java classes to a deserialization allow list.
The deserialization allow list applies to the Cache Manager so your Java classes can be deserialized by all caches. |
-
Add Java classes to the deserialization allow list in the Infinispan configuration or in system properties.
<infinispan>
<cache-container>
<serialization version="1.0"
marshaller="org.infinispan.marshall.TestObjectStreamMarshaller">
<allow-list>
<class>org.infinispan.test.data.Person</class>
<regex>org.infinispan.test.data.*</regex>
</allow-list>
</serialization>
</cache-container>
</infinispan>
// Specify a comma-separated list of fully qualified class names
-Dinfinispan.deserialization.allowlist.classes=java.time.Instant,com.myclass.Entity
// Specify a regular expression to match classes
-Dinfinispan.deserialization.allowlist.regexps=.*
3.2. Using JBoss Marshalling
JBoss Marshalling is a serialization-based marshalling library and was the default marshaller in previous Infinispan versions but is now deprecated.
JBoss Marshalling is deprecated. You should use it only as a temporary measure while migrating your applications from an older version of Infinispan. |
-
Add the
infinispan-jboss-marshalling
dependency to your classpath. -
Configure Infinispan to use the
GenericJBossMarshaller
. -
Add your Java classes to the deserialization allowlist.
<serialization marshaller="org.infinispan.jboss.marshalling.commons.GenericJBossMarshaller">
<allow-list>
<class>org.infinispan.concrete.SomeClass</class>
<regex>org.infinispan.example.*</regex>
</allow-list>
</serialization>
GlobalConfigurationBuilder builder = new GlobalConfigurationBuilder();
builder.serialization()
.marshaller(new GenericJBossMarshaller())
.allowList()
.addRegexps("org.infinispan.example.", "org.infinispan.concrete.SomeClass");
3.3. Using Java serialization
You can use Java serialization with Infinispan to marshall objects that implement the Java Serializable
interface.
Java serialization offers worse performance than ProtoStream marshalling. You should use Java serialization only if there is a strict requirement to do so. |
-
Configure Infinispan to use
JavaSerializationMarshaller
. -
Add your Java classes to the deserialization allowlist.
<serialization marshaller="org.infinispan.commons.marshall.JavaSerializationMarshaller">
<allow-list>
<class>org.infinispan.concrete.SomeClass</class>
<regex>org.infinispan.example.*</regex>
</allow-list>
</serialization>
GlobalConfigurationBuilder builder = new GlobalConfigurationBuilder();
builder.serialization()
.marshaller(new JavaSerializationMarshaller())
.allowList()
.addRegexps("org.infinispan.example.", "org.infinispan.concrete.SomeClass");
3.4. Using custom marshallers
Infinispan provides a Marshaller
interface that you can implement for custom marshallers.
Custom marshaller implementations can access a configured access list via the initialize() method, which is called during startup. |
-
Implement the
Marshaller
interface. -
Configure Infinispan to use your marshaller.
-
Add your Java classes to the deserialization allowlist.
<serialization marshaller="org.infinispan.example.marshall.CustomMarshaller">
<allow-list>
<class>org.infinispan.concrete.SomeClass</class>
<regex>org.infinispan.example.*</regex>
</allow-list>
</serialization>
GlobalConfigurationBuilder builder = new GlobalConfigurationBuilder();
builder.serialization()
.marshaller(new org.infinispan.example.marshall.CustomMarshaller())
.allowList().addRegexp("org.infinispan.example.*");
4. Data conversion
Infinispan uses transcoders to convert data between various encodings that are identified by media types.
4.1. Hot Rod DataFormat API
Read and write operations on remote caches via the Hot Rod endpoint use the client marshaller by default.
Hot Rod provides a DataFormat
API for Java clients that you can use to perform cache operations with different media type encodings and/or marshallers.
You can override marshallers for keys and values at run time.
For example, to bypass all serialization in the Hot Rod client and read the byte[]
array stored in the remote cache:
// Existing RemoteCache instance
RemoteCache<String, Pojo> remoteCache = ...
// IdentityMarshaller is a no-op marshaller
DataFormat rawKeyAndValues =
DataFormat.builder()
.keyMarshaller(IdentityMarshaller.INSTANCE)
.valueMarshaller(IdentityMarshaller.INSTANCE)
.build();
// Creates a new instance of RemoteCache with the supplied DataFormat
RemoteCache<byte[], byte[]> rawResultsCache =
remoteCache.withDataFormat(rawKeyAndValues);
Using different marshallers and data formats for keys with |
Request and send data in different encodings specified by a org.infinispan.commons.dataconversion.MediaType
as follows:
// Existing remote cache using ProtostreamMarshaller
RemoteCache<String, Pojo> protobufCache = ...
// Request values returned as JSON
// Use the UTF8StringMarshaller to convert UTF-8 to String
DataFormat jsonString =
DataFormat.builder()
.valueType(MediaType.APPLICATION_JSON)
.valueMarshaller(new UTF8StringMarshaller())
.build();
RemoteCache<byte[], byte[]> rawResultsCache =
protobufCache.withDataFormat(jsonString);
You can use custom marshallers for values, as in the following example that returns values as org.codehaus.jackson.JsonNode
objects.
In this example, Infinispan Server handles the data conversion and throws an exception if it does not support the specified media type.
DataFormat jsonNode =
DataFormat.builder()
.valueType(MediaType.APPLICATION_JSON)
.valueMarshaller(new CustomJacksonMarshaller()
.build();
RemoteCache<String, JsonNode> jsonNodeCache =
remoteCache.withDataFormat(jsonNode);
The following code snippet returns values as XML:
Object xmlValue = remoteCache
.withDataFormat(DataFormat.builder()
.valueType(MediaType.APPLICATION_XML)
.valueMarshaller(new UTF8StringMarshaller())
.build())
.get(key);
For example, the preceding get(key)
call returns values such as:
<?xml version="1.0" ?><string>Hello!</string>
4.2. Converting data on demand with embedded caches
Embedded caches have a default request encoding of application/x-java-object
and a storage encoding that corresponds to the media type that you configure for the cache.
This means that Infinispan marshalls POJOs from the application to the storage encoding for the cache and then returns POJOs back to the application.
In some complex scenarios you can use the AdvancedCache
API to change the default conversion to and from POJOs to other encodings.
The following example uses the withMediaType()
method to return values as application/json
on demand.
DefaultCacheManager cacheManager = new DefaultCacheManager();
// Encode keys and values as Protobuf
ConfigurationBuilder cfg = new ConfigurationBuilder();
cfg.encoding().key().mediaType("application/x-protostream");
cfg.encoding().value().mediaType("application/x-protostream");
cacheManager.defineConfiguration("mycache", cfg.build());
Cache<Integer, Person> cache = cacheManager.getCache("mycache");
cache.put(1, new Person("John","Doe"));
// Use Protobuf for keys and JSON for values
Cache<Integer, byte[]> jsonValuesCache = (Cache<Integer, byte[]>) cache.getAdvancedCache().withMediaType("application/x-protostream", "application/json");
byte[] json = jsonValuesCache.get(1);
{
"_type":"org.infinispan.sample.Person",
"name":"John",
"surname":"Doe"
}