This version is still in development and is not considered stable yet. For the latest stable version, please use spring-cloud-stream 4.1.3! |
Spring Cloud Stream Schema Registry
Introduction
When organizations have a messaging based pub/sub architecture and multiple producer and consumer microservices communicate with each other, it is often necessary for all those microservices to agree on a contract that is based on a schema. When such a schema needs to evolve to accommodate new business requirements, the existing components are still required to continue to work. Spring Cloud Stream provides support for a standalone schema registry server using which aforementioned schema can be registered and used by the applications. Spring Cloud Stream schema registry support also provides support for avro based schema registry clients, which essentially provide message converters that communicates with the schema registry for reconciling schema during message conversion. The schema evolution support provided by Spring Cloud Stream works both with the aforementioned standalone schema registry as well as the schema registry provided by Confluent that specifically works with Apache Kafka.
Spring Cloud Stream Schema Registry overview
Spring Cloud Stream Schema Registry provides support for schema evolution so that the data can be evolved over time and still work with older or newer producers and consumers and vice versa. Most serialization models, especially the ones that aim for portability across different platforms and languages, rely on a schema that describes how the data is serialized in the binary payload. In order to serialize the data and then to interpret it, both the sending and receiving sides must have access to a schema that describes the binary format. In certain cases, the schema can be inferred from the payload type on serialization or from the target type on deserialization. However, many applications benefit from having access to an explicit schema that describes the binary data format. A schema registry lets you store schema information in a textual format (typically JSON) and makes that information accessible to various applications that need it to receive and send data in binary format. A schema is referenceable as a tuple consisting of:
-
A subject that is the logical name of the schema
-
The schema version
-
The schema format, which describes the binary format of the data
Spring Cloud Stream Schema Registry provides the following components
-
Standalone Schema Registry Server
By default, it is using an H2 database, but server can be used with PostgreSQL or MySQL by providing appropriate datasource configuration.
-
Schema registry clients capable of message marshalling by communicating with a Schema Registry.
Currently, the client can communicate to the standalone schema registry or the Confluent Schema Registry.
Schema Registry Client
The client-side abstraction for interacting with schema registry servers is the SchemaRegistryClient
interface, which has the following structure:
public interface SchemaRegistryClient {
SchemaRegistrationResponse register(String subject, String format, String schema);
String fetch(SchemaReference schemaReference);
String fetch(Integer id);
}
Spring Cloud Stream provides out-of-the-box implementations for interacting with its own schema server and for interacting with the Confluent Schema Registry.
A client for the Spring Cloud Stream schema registry can be configured by using the @EnableSchemaRegistryClient
, as follows:
@SpringBootApplication
@EnableSchemaRegistryClient
public class ConsumerApplication {
}
The default converter is optimized to cache not only the schemas from the remote server but also the parse() and toString() methods, which are quite expensive.
Because of this, it uses a DefaultSchemaRegistryClient that does not cache responses.
If you intend to change the default behavior, you can use the client directly on your code and override it to the desired outcome.
To do so, you have to add the property spring.cloud.stream.schemaRegistryClient.cached=true to your application properties.
|
Schema Registry Client Properties
The Schema Registry Client supports the following properties:
spring.cloud.stream.schemaRegistryClient.endpoint
-
The location of the schema-server. When setting this, use a full URL, including protocol (
http
orhttps
) , port, and context path. - Default
spring.cloud.stream.schemaRegistryClient.cached
-
Whether the client should cache schema server responses. Normally set to
false
, as the caching happens in the message converter. Clients using the schema registry client should set this totrue
. - Default
-
false
Avro Schema Registry Client Message Converters
For applications that have a SchemaRegistryClient bean registered with the application context, Spring Cloud Stream auto-configures an Apache Avro message converter for schema management. This eases schema evolution, as applications that receive messages can get easy access to a writer schema that can be reconciled with their own reader schema.
For outbound messages, if the content type of the binding is set to application/*+avro
, the MessageConverter
is activated, as shown in the following example:
spring.cloud.stream.stream.bindings.<output-binding-name>.contentType=application/*+avro
During the outbound conversion, the message converter tries to infer the schema of each outbound messages (based on its type) and register it to a subject (based on the payload type) by using the SchemaRegistryClient
.
If an identical schema is already found, then a reference to it is retrieved.
If not, the schema is registered, and a new version number is provided.
The message is sent with a contentType
header by using the following scheme: application/[prefix].[subject].v[version]+avro
, where prefix
is configurable and subject
is deduced from the payload type.
For example, a message of the type User
might be sent as a binary payload with a content type of application/vnd.user.v2+avro
, where user
is the subject and 2
is the version number.
When receiving messages, the converter infers the schema reference from the header of the incoming message and tries to retrieve it. The schema is used as the writer schema in the deserialization process.
Avro Schema Registry Message Converter Properties
If you have enabled Avro based schema registry client by setting spring.cloud.stream.stream.bindings.<output-binding-name>.contentType=application/*+avro
, you can customize the behavior of the registration by setting the following properties.
- spring.cloud.stream.schema.avro.dynamicSchemaGenerationEnabled
-
Enable if you want the converter to use reflection to infer a Schema from a POJO.
Default:
false
- spring.cloud.stream.schema.avro.readerSchema
-
Avro compares schema versions by looking at a writer schema (origin payload) and a reader schema (your application payload). See the Avro documentation for more information. If set, this overrides any lookups at the schema server and uses the local schema as the reader schema. Default:
null
- spring.cloud.stream.schema.avro.schemaLocations
-
Registers any
.avsc
files listed in this property with the Schema Server.Default:
empty
- spring.cloud.stream.schema.avro.prefix
-
The prefix to be used on the Content-Type header.
Default:
vnd
- spring.cloud.stream.schema.avro.subjectNamingStrategy
-
Determines the subject name used to register the Avro schema in the schema registry. Two implementations are available,
org.springframework.cloud.stream.schema.avro.DefaultSubjectNamingStrategy
, where the subject is the schema name, andorg.springframework.cloud.stream.schema.avro.QualifiedSubjectNamingStrategy
, which returns a fully qualified subject using the Avro schema namespace and name. Custom strategies can be created by implementingorg.springframework.cloud.stream.schema.avro.SubjectNamingStrategy
.Default:
org.springframework.cloud.stream.schema.avro.DefaultSubjectNamingStrategy
- spring.cloud.stream.schema.avro.ignoreSchemaRegistryServer
-
Ignore any schema registry communication. Useful for testing purposes so that when running a unit test, it does not unnecessarily try to connect to a Schema Registry server.
Default:
false
Apache Avro Message Converters
Spring Cloud Stream provides support for schema-based message converters through its spring-cloud-stream-schema-registry-client
module.
Currently, the only serialization format supported out of the box for schema-based message converters is Apache Avro, with more formats to be added in future versions.
The spring-cloud-stream-schema-registry-client
module contains two types of message converters that can be used for Apache Avro serialization:
-
Converters that use the class information of the serialized or deserialized objects or a schema with a location known at startup.
-
Converters that use a schema registry. They locate the schemas at runtime and dynamically register new schemas as domain objects evolve.
Converters with Schema Support
The AvroSchemaMessageConverter
supports serializing and deserializing messages either by using a predefined schema or by using the schema information available in the class (either reflectively or contained in the SpecificRecord
).
If you provide a custom converter, then the default AvroSchemaMessageConverter bean is not created.
The following example shows a custom converter:
To use custom converters, you can simply add it to the application context, optionally specifying one or more MimeTypes
with which to associate it.
The default MimeType
is application/avro
.
If the target type of the conversion is a GenericRecord
, a schema must be set.
The following example shows how to configure a converter in a sink application by registering the Apache Avro MessageConverter
without a predefined schema.
In this example, note that the mime type value is avro/bytes
, not the default application/avro
.
@SpringBootApplication
public static class SinkApplication {
//...
@Bean
public MessageConverter userMessageConverter() {
return new AvroSchemaMessageConverter(MimeType.valueOf("avro/bytes"));
}
}
Conversely, the following application registers a converter with a predefined schema (found on the classpath):
@SpringBootApplication
public static class SinkApplication {
//...
@Bean
public MessageConverter userMessageConverter() {
AvroSchemaMessageConverter converter = new AvroSchemaMessageConverter(MimeType.valueOf("avro/bytes"));
converter.setSchemaLocation(new ClassPathResource("schemas/User.avro"));
return converter;
}
}
Schema Registry Server
Spring Cloud Stream provides a schema registry server implementation.
To use it, you can download latest spring-cloud-stream-schema-registry-server
release and run it as standalone application:
wget https://repo1.maven.org/maven2/org/springframework/cloud/spring-cloud-stream-schema-registry-server/4.0.3/spring-cloud-stream-schema-registry-server-4.0.3.jar
java -jar ./spring-cloud-stream-schema-registry-server-4.0.3.jar
You can embed the schema registry in your existing Spring Boot web application.
To do this, add the
|
The spring.cloud.stream.schema.server.path
property can be used to control the root path of the schema server (especially when it is embedded in other applications).
The spring.cloud.stream.schema.server.allowSchemaDeletion
boolean property enables the deletion of a schema. By default, this is disabled.
The schema registry server uses a relational database to store the schemas. By default, it uses an embedded database. You can customize the schema storage by using the Spring Boot SQL database and JDBC configuration options.
Schema Registry Server API
The Schema Registry Server API consists of the following operations:
-
POST /
— seeRegistering a New Schema
-
GET /{subject}/{format}/{version}
— seeRetrieving an Existing Schema by Subject, Format, and Version
-
GET /{subject}/{format}
— seeRetrieving an Existing Schema by Subject and Format
-
GET /schemas/{id}
— seeRetrieving an Existing Schema by ID
-
DELETE /{subject}/{format}/{version}
— seeDeleting a Schema by Subject, Format, and Version
-
DELETE /schemas/{id}
— seeDeleting a Schema by ID
-
DELETE /{subject}
— seeDeleting a Schema by Subject
Registering a New Schema
To register a new schema, send a POST
request to the /
endpoint.
The /
accepts a JSON payload with the following fields:
-
subject
: The schema subject -
format
: The schema format -
definition
: The schema definition
Its response is a schema object in JSON, with the following fields:
-
id
: The schema ID -
subject
: The schema subject -
format
: The schema format -
version
: The schema version -
definition
: The schema definition
Retrieving an Existing Schema by Subject, Format, and Version
To retrieve an existing schema by subject, format, and version, send GET
request to the {subject}/{format}/{version}
endpoint.
Its response is a schema object in JSON, with the following fields:
-
id
: The schema ID -
subject
: The schema subject -
format
: The schema format -
version
: The schema version -
definition
: The schema definition
Retrieving an Existing Schema by Subject and Format
To retrieve an existing schema by subject and format, send a GET
request to the /subject/format
endpoint.
Its response is a list of schemas with each schema object in JSON, with the following fields:
-
id
: The schema ID -
subject
: The schema subject -
format
: The schema format -
version
: The schema version -
definition
: The schema definition
Retrieving an Existing Schema by ID
To retrieve a schema by its ID, send a GET
request to the /schemas/{id}
endpoint.
Its response is a schema object in JSON, with the following fields:
-
id
: The schema ID -
subject
: The schema subject -
format
: The schema format -
version
: The schema version -
definition
: The schema definition
Deleting a Schema by Subject, Format, and Version
To delete a schema identified by its subject, format, and version, send a DELETE
request to the {subject}/{format}/{version}
endpoint.
Deleting a Schema by ID
To delete a schema by its ID, send a DELETE
request to the /schemas/{id}
endpoint.
Deleting a Schema by Subject
DELETE /{subject}
Delete existing schemas by their subject.
This note applies to users of Spring Cloud Stream 1.1.0.RELEASE only.
Spring Cloud Stream 1.1.0.RELEASE used the table name, schema , for storing Schema objects. Schema is a keyword in a number of database implementations.
To avoid any conflicts in the future, starting with 1.1.1.RELEASE, we have opted for the name SCHEMA_REPOSITORY for the storage table.
Any Spring Cloud Stream 1.1.0.RELEASE users who upgrade should migrate their existing schemas to the new table before upgrading.
|
Using Confluent’s Schema Registry
The default configuration creates a DefaultSchemaRegistryClient
bean.
If you want to use the Confluent schema registry, you need to create a bean of type ConfluentSchemaRegistryClient
, which supersedes the one configured by default by the framework. The following example shows how to create such a bean:
@Bean
public SchemaRegistryClient schemaRegistryClient(@Value("${spring.cloud.stream.schemaRegistryClient.endpoint}") String endpoint){
ConfluentSchemaRegistryClient client = new ConfluentSchemaRegistryClient();
client.setEndpoint(endpoint);
return client;
}
The ConfluentSchemaRegistryClient is tested against Confluent platform version 4.0.0. |
Schema Registration and Resolution
To better understand how Spring Cloud Stream registers and resolves new schemas and its use of Avro schema comparison features, we provide two separate subsections:
Schema Registration Process (Serialization)
The first part of the registration process is extracting a schema from the payload that is being sent over a channel.
Avro types such as SpecificRecord
or GenericRecord
already contain a schema, which can be retrieved immediately from the instance.
In the case of POJOs, a schema is inferred if the spring.cloud.stream.schema.avro.dynamicSchemaGenerationEnabled
property is set to true
(the default).
Ones a schema is obtained, the converter loads its metadata (version) from the remote server. First, it queries a local cache. If no result is found, it submits the data to the server, which replies with versioning information. The converter always caches the results to avoid the overhead of querying the Schema Server for every new message that needs to be serialized.
With the schema version information, the converter sets the contentType
header of the message to carry the version information — for example: application/vnd.user.v1+avro
.
Schema Resolution Process (Deserialization)
When reading messages that contain version information (that is, a contentType
header with a scheme like the one described under Schema Registration Process (Serialization)
, the converter queries the Schema server to fetch the writer schema of the message.
Once it has found the correct schema of the incoming message, it retrieves the reader schema and, by using Avro’s schema resolution support, reads it into the reader definition (setting defaults and any missing properties).
You should understand the difference between a writer schema (the application that wrote the message) and a reader schema (the receiving application).
We suggest taking a moment to read the Avro terminology and understand the process.
Spring Cloud Stream always fetches the writer schema to determine how to read a message.
If you want to get Avro’s schema evolution support working, you need to make sure that a readerSchema was properly set for your application.
|