2b87b01651
This is the first step towards supporting filter state retention in Java. The mechanism will be similar to the one described in [A83] (https://github.com/grpc/proposal/blob/master/A83-xds-gcp-authn-filter.md#filter-call-credentials-cache) for C-core, and will serve the same purpose. However, the implementation details are very different due to the different nature of xDS HTTP filter support in C-core and Java. In Java, xDS HTTP filters are backed by classes implementing `io.grpc.xds.Filter`, from here just called "Filters". To support Filter state retention (next PR), Java's xDS implementation must be able to create unique Filter instances per: - Per HCM `envoy.extensions.filters.network.http_connection_manager.v3.HttpConnectionManager` - Per filter name as specified in `envoy.extensions.filters.network.http_connection_manager.v3.HttpFilter.name` This PR **does not** implements Filter state retention, but lays the groundwork for it by changing how filters are registered and instantiated. To achieve this, all existing Filter classes had to be updated to the new instantiation mechanism described below. Prior to these this PR, Filters had no livecycle. FilterRegistry provided singleton instances for a given typeUrl. This PR introduces a new interface `Filter.Provider`, which instantiates Filter classes. All functionality that doesn't need an instance of a Filter is moved to the Filter.Provider. This includes parsing filter config proto into FilterConfig and determining the filter kind (client-side, server-side, or both). This PR is limited to refactoring, and there's no changes to the existing behavior. Note that all Filter Providers still return singleton Filter instances. However, with this PR, it is now possible to create Providers that return a new Filter instance each time `newInstance` is called. |
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| api | ||
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| binder | ||
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| CODE-OF-CONDUCT.md | ||
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| GOVERNANCE.md | ||
| LICENSE | ||
| MAINTAINERS.md | ||
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| NOTICE.txt | ||
| README.md | ||
| RELEASING.md | ||
| SECURITY.md | ||
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README.md
gRPC-Java - An RPC library and framework
| Homepage: | grpc.io |
| Mailing List: | grpc-io@googlegroups.com |
Supported Platforms
gRPC-Java supports Java 8 and later. Android minSdkVersion 21 (Lollipop) and later are supported with Java 8 language desugaring.
TLS usage on Android typically requires Play Services Dynamic Security Provider. Please see the Security Readme.
Older Java versions are not directly supported, but a branch remains available for fixes and releases. See gRFC P5 JDK Version Support Policy.
| Java version | gRPC Branch |
|---|---|
| 7 | 1.41.x |
Getting Started
For a guided tour, take a look at the quick start guide or the more explanatory gRPC basics.
The examples and the Android example are standalone projects that showcase the usage of gRPC.
Download
Download the JARs. Or for Maven with non-Android, add to your pom.xml:
<dependency>
<groupId>io.grpc</groupId>
<artifactId>grpc-netty-shaded</artifactId>
<version>1.70.0</version>
<scope>runtime</scope>
</dependency>
<dependency>
<groupId>io.grpc</groupId>
<artifactId>grpc-protobuf</artifactId>
<version>1.70.0</version>
</dependency>
<dependency>
<groupId>io.grpc</groupId>
<artifactId>grpc-stub</artifactId>
<version>1.70.0</version>
</dependency>
<dependency> <!-- necessary for Java 9+ -->
<groupId>org.apache.tomcat</groupId>
<artifactId>annotations-api</artifactId>
<version>6.0.53</version>
<scope>provided</scope>
</dependency>
Or for Gradle with non-Android, add to your dependencies:
runtimeOnly 'io.grpc:grpc-netty-shaded:1.70.0'
implementation 'io.grpc:grpc-protobuf:1.70.0'
implementation 'io.grpc:grpc-stub:1.70.0'
compileOnly 'org.apache.tomcat:annotations-api:6.0.53' // necessary for Java 9+
For Android client, use grpc-okhttp instead of grpc-netty-shaded and
grpc-protobuf-lite instead of grpc-protobuf:
implementation 'io.grpc:grpc-okhttp:1.70.0'
implementation 'io.grpc:grpc-protobuf-lite:1.70.0'
implementation 'io.grpc:grpc-stub:1.70.0'
compileOnly 'org.apache.tomcat:annotations-api:6.0.53' // necessary for Java 9+
For Bazel, you can either
use Maven
(with the GAVs from above), or use @io_grpc_grpc_java//api et al (see below).
Development snapshots are available in Sonatypes's snapshot repository.
Generated Code
For protobuf-based codegen, you can put your proto files in the src/main/proto
and src/test/proto directories along with an appropriate plugin.
For protobuf-based codegen integrated with the Maven build system, you can use
protobuf-maven-plugin (Eclipse and NetBeans users should also look at
os-maven-plugin's
IDE documentation):
<build>
<extensions>
<extension>
<groupId>kr.motd.maven</groupId>
<artifactId>os-maven-plugin</artifactId>
<version>1.7.1</version>
</extension>
</extensions>
<plugins>
<plugin>
<groupId>org.xolstice.maven.plugins</groupId>
<artifactId>protobuf-maven-plugin</artifactId>
<version>0.6.1</version>
<configuration>
<protocArtifact>com.google.protobuf:protoc:3.25.5:exe:${os.detected.classifier}</protocArtifact>
<pluginId>grpc-java</pluginId>
<pluginArtifact>io.grpc:protoc-gen-grpc-java:1.70.0:exe:${os.detected.classifier}</pluginArtifact>
</configuration>
<executions>
<execution>
<goals>
<goal>compile</goal>
<goal>compile-custom</goal>
</goals>
</execution>
</executions>
</plugin>
</plugins>
</build>
For non-Android protobuf-based codegen integrated with the Gradle build system, you can use protobuf-gradle-plugin:
plugins {
id 'com.google.protobuf' version '0.9.4'
}
protobuf {
protoc {
artifact = "com.google.protobuf:protoc:3.25.5"
}
plugins {
grpc {
artifact = 'io.grpc:protoc-gen-grpc-java:1.70.0'
}
}
generateProtoTasks {
all()*.plugins {
grpc {}
}
}
}
The prebuilt protoc-gen-grpc-java binary uses glibc on Linux. If you are compiling on Alpine Linux, you may want to use the Alpine grpc-java package which uses musl instead.
For Android protobuf-based codegen integrated with the Gradle build system, also use protobuf-gradle-plugin but specify the 'lite' options:
plugins {
id 'com.google.protobuf' version '0.9.4'
}
protobuf {
protoc {
artifact = "com.google.protobuf:protoc:3.25.5"
}
plugins {
grpc {
artifact = 'io.grpc:protoc-gen-grpc-java:1.70.0'
}
}
generateProtoTasks {
all().each { task ->
task.builtins {
java { option 'lite' }
}
task.plugins {
grpc { option 'lite' }
}
}
}
}
For Bazel, use the proto_library
and the java_proto_library (no load() required)
and load("@io_grpc_grpc_java//:java_grpc_library.bzl", "java_grpc_library") (from this project), as in
this example BUILD.bazel.
API Stability
APIs annotated with @Internal are for internal use by the gRPC library and
should not be used by gRPC users. APIs annotated with @ExperimentalApi are
subject to change in future releases, and library code that other projects
may depend on should not use these APIs.
We recommend using the
grpc-java-api-checker
(an Error Prone plugin)
to check for usages of @ExperimentalApi and @Internal in any library code
that depends on gRPC. It may also be used to check for @Internal usage or
unintended @ExperimentalApi consumption in non-library code.
How to Build
If you are making changes to gRPC-Java, see the compiling instructions.
High-level Components
At a high level there are three distinct layers to the library: Stub, Channel, and Transport.
Stub
The Stub layer is what is exposed to most developers and provides type-safe
bindings to whatever datamodel/IDL/interface you are adapting. gRPC comes with
a plugin to the
protocol-buffers compiler that generates Stub interfaces out of .proto files,
but bindings to other datamodel/IDL are easy and encouraged.
Channel
The Channel layer is an abstraction over Transport handling that is suitable for interception/decoration and exposes more behavior to the application than the Stub layer. It is intended to be easy for application frameworks to use this layer to address cross-cutting concerns such as logging, monitoring, auth, etc.
Transport
The Transport layer does the heavy lifting of putting and taking bytes off the
wire. The interfaces to it are abstract just enough to allow plugging in of
different implementations. Note the transport layer API is considered internal
to gRPC and has weaker API guarantees than the core API under package io.grpc.
gRPC comes with multiple Transport implementations:
- The Netty-based HTTP/2 transport is the main transport implementation based on Netty. It is not officially supported on Android. There is a "grpc-netty-shaded" version of this transport. It is generally preferred over using the Netty-based transport directly as it requires less dependency management and is easier to upgrade within many applications.
- The OkHttp-based HTTP/2 transport is a lightweight transport based on Okio and forked low-level parts of OkHttp. It is mainly for use on Android.
- The in-process transport is for when a server is in the same process as the client. It is used frequently for testing, while also being safe for production use.
- The Binder transport is for Android cross-process communication on a single device.