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# Getting started |
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|
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Welcome to the developer documentation for gRPC, a language-neutral, |
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platform-neutral remote procedure call (RPC) system developed at Google. |
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This document introduces you to gRPC with a quick overview and a simple |
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Hello World example. You'll find more tutorials and reference docs in this repository - more documentation is coming soon! |
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<a name="quickstart"></a> |
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## Quick start |
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You can find quick start guides for each language, including installation instructions, examples, and tutorials here: |
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* [C++](https://github.com/grpc/grpc-common/tree/master/cpp) |
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* [Java](https://github.com/grpc/grpc-common/tree/master/java) |
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* [Go](https://github.com/grpc/grpc-common/tree/master/go) |
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* [ruby](https://github.com/grpc/grpc-common/tree/master/ruby) |
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* [Node.js](https://github.com/grpc/grpc-common/tree/master/node) |
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* [Android Java](https://github.com/grpc/grpc-common/tree/master/java/android) |
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* [Python](https://github.com/grpc/grpc-common/tree/master/python/helloworld) |
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## What's in this repository? |
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The `grpc-common` repository contains documentation, resources, and examples |
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for all gRPC users. You can find examples and instructions specific to your |
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favourite language in the relevant subdirectory. |
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You can find out about the gRPC source code repositories in |
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[`grpc`](https://github.com/grpc/grpc). Each repository provides instructions |
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for building the appropriate libraries for your language. |
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## What is gRPC? |
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In gRPC a *client* application can directly call |
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methods on a *server* application on a different machine as if it was a |
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local object, making it easier for you to create distributed applications and |
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services. As in many RPC systems, gRPC is based around the idea of defining |
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a *service*, specifying the methods that can be called remotely with their |
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parameters and return types. On the server side, the server implements this |
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interface and runs a gRPC server to handle client calls. On the client side, |
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the client has a *stub* that provides exactly the same methods as the server. |
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##TODO: diagram? |
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gRPC clients and servers can run and talk to each other in a variety of |
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environments - from servers inside Google to your own desktop - and can |
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be written in any of gRPC's [supported languages](link to list). So, for |
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example, you can easily create a gRPC server in Java with clients in Go, |
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Python, or Ruby. In addition, the latest Google APIs will have gRPC versions |
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of their interfaces, letting you easily build Google functionality into |
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your applications. |
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<a name="protocolbuffers"></a> |
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### Working with protocol buffers |
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By default gRPC uses *protocol buffers*, Google’s |
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mature open source mechanism for serializing structured data (although it |
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can be used with other data formats such as JSON). As you'll |
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see in our example below, you define gRPC services using *proto files*, |
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with method parameters and return types specified as protocol buffer message |
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types. You |
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can find out lots more about protocol buffers in the [Protocol Buffers |
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documentation](https://developers.google.com/protocol-buffers/docs/overview). |
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#### Protocol buffer versions |
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While protocol buffers have been available for open source users for some |
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time, our examples use a new flavour of protocol buffers called proto3, |
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which has a slightly simplified syntax, some useful new features, and supports |
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lots more languages. This is currently available as an alpha release in |
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Java, C++, Java_nano (Android Java), Python, and Ruby from [the protocol buffers Github |
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repo](https://github.com/google/protobuf/releases), as well as a Go language |
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generator from [the golang/protobuf Github repo](https://github.com/golang/protobuf), with more languages in development. Full documentation for proto3 is currently in development, but you can see |
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the major differences from the current default version in the [release notes](https://github.com/google/protobuf/releases). |
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In general, while you *can* use proto2 (the current default protocol buffers version), we recommend that you use proto3 with gRPC as it lets you use the full range of gRPC-supported languages, as well as avoiding compatibility |
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issues with proto2 clients talking to proto3 servers and vice versa. |
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<a name="hello"></a> |
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## Hello gRPC! |
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Now that you know a bit more about gRPC, the easiest way to see how it |
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works is to look at a simple example. Our Hello World walks you through the |
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construction of a simple gRPC client-server application, showing you how to: |
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- Create a protocol buffers schema that defines a simple RPC service with |
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a single |
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Hello World method. |
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- Create a Java server that implements this interface. |
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- Create a Java client that accesses the Java server. |
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- Create a Go client that accesses |
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the same Java server. |
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The complete code for the example is available in the `grpc-common` GitHub |
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repository. We use the Git versioning system for source code management: |
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however, you don't need to know anything about Git to follow along other |
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than how to install and run a few git commands. |
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This is an introductory example rather than a comprehensive tutorial, so |
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don't worry if you're not a Go or |
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Java developer - the concepts are similar for all languages, and you can |
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find more implementations of our Hello World example in other languages (and full tutorials where available) in |
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the [language-specific folders](#quickstart) in this repository. Complete tutorials and |
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reference documentation for all gRPC languages are coming soon. |
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<a name="setup"></a> |
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### Setup |
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This section explains how to set up your local machine to work with |
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the example code. If you just want to read the example, you can go straight |
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to the [next step](#servicedef). |
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#### Install Git |
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You can download and install Git from http://git-scm.com/download. Once |
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installed you should have access to the git command line tool. The main |
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commands that you will need to use are: |
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- git clone ... : clone a remote repository onto your local machine |
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- git checkout ... : check out a particular branch or a tagged version of |
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the code to hack on |
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#### Get the source code |
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The example code for this and our other examples lives in the `grpc-common` |
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GitHub repository. Clone this repository to your local machine by running the |
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following command: |
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``` |
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git clone https://github.com/google/grpc-common.git |
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``` |
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Change your current directory to grpc-common/java |
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``` |
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cd grpc-common/java |
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``` |
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#### Install Java 8 |
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Java gRPC is designed to work with both Java 7 and Java 8 - our example uses |
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Java 8. See |
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[Install Java |
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8](http://docs.oracle.com/javase/8/docs/technotes/guides/install/install_overview.html) |
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for instructions if you need to install Java 8. |
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#### Install Maven |
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To simplify building and managing gRPC's dependencies, the Java client |
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and server are structured as a standard |
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[Maven](http://maven.apache.org/guides/getting-started/) |
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project. See [Install Maven](http://maven.apache.org/users/index.html) |
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for instructions. |
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#### Install Go 1.4 |
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Go gRPC requires Go 1.4, the latest version of Go. See |
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[Install Go](https://golang.org/doc/install) for instructions. |
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#### (optional) Install protoc |
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gRPC uses the latest version of the [protocol |
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buffer](https://developers.google.com/protocol-buffers/docs/overview) |
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compiler, protoc. |
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Having protoc installed isn't strictly necessary to follow along with this |
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example, as all the |
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generated code is checked into the Git repository. However, if you want |
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to experiment |
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with generating the code yourself, download and install protoc from its |
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[Git repo](https://github.com/google/protobuf) |
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<a name="servicedef"></a> |
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### Defining a service |
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The first step in creating our example is to define a *service*: an RPC |
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service specifies the methods that can be called remotely with their parameters |
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and return types. As you saw in the |
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[overview](#protocolbuffers) above, gRPC does this using [protocol |
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buffers](https://developers.google.com/protocol-buffers/docs/overview). We |
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use the protocol buffers interface definition language (IDL) to define our |
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service methods, and define the parameters and return |
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types as protocol buffer message types. Both the client and the |
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server use interface code generated from the service definition. |
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Here's our example service definition, defined using protocol buffers IDL in |
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[helloworld.proto](protos/helloworld.proto). The `Greeting` |
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service has one method, `hello`, that lets the server receive a single |
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`HelloRequest` |
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message from the remote client containing the user's name, then send back |
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a greeting in a single `HelloReply`. This is the simplest type of RPC you |
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can specify in gRPC - we'll look at some other types later in this document. |
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``` |
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syntax = "proto3"; |
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option java_package = "ex.grpc"; |
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package helloworld; |
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// The greeting service definition. |
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service Greeter { |
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// Sends a greeting |
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rpc SayHello (HelloRequest) returns (HelloReply) {} |
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} |
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// The request message containing the user's name. |
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message HelloRequest { |
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string name = 1; |
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} |
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// The response message containing the greetings |
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message HelloReply { |
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string message = 1; |
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} |
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``` |
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<a name="generating"></a> |
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### Generating gRPC code |
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Once we've defined our service, we use the protocol buffer compiler |
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`protoc` to generate the special client and server code we need to create |
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our application - right now we're going to generate Java code, though you |
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can generate gRPC code in any gRPC-supported language (as you'll see later |
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in this example). The generated code contains both stub code for clients to |
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use and an abstract interface for servers to implement, both with the method |
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defined in our `Greeting` service. |
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(If you didn't install `protoc` on your system and are working along with |
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the example, you can skip this step and move |
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onto the next one where we examine the generated code.) |
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As this is our first time using gRPC, we need to build the protobuf plugin |
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that generates our RPC |
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classes. By default `protoc` just generates code for reading and writing |
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protocol buffers, so you need to use plugins to add additional features |
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to generated code. As we're creating Java code, we use the gRPC Java plugin. |
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To build the plugin, follow the instructions in the relevant repo: for Java, |
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the instructions are in [`grpc-java`](https://github.com/grpc/grpc-java). |
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To use it to generate the code: |
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```sh |
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$ mkdir -p src/main/java |
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$ protoc -I . helloworld.proto |
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--plugin=protoc-gen-grpc=external/grpc_java/bins/opt/java_plugin \ |
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--grpc_out=src/main/java \ |
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--java_out=src/main/java |
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``` |
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[need to update this once I get the plugin built] |
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This generates the following classes, which contain all the generated code |
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we need to create our example: |
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- [`Helloworld.java`](java/src/main/java/ex/grpc/Helloworld.java), which |
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has all the protocol buffer code to populate, serialize, and retrieve our |
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`HelloRequest` and `HelloReply` message types |
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- [`GreeterGrpc.java`](java/src/main/java/ex/grpc/GreeterGrpc.java), |
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which contains (along with some other useful code): |
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- an interface for `Greeter` servers to implement |
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```java |
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public static interface Greeter { |
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public void SayHello(ex.grpc.Helloworld.HelloRequest request, |
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com.google.net.stubby.stub.StreamObserver<ex.grpc.Helloworld.HelloReply> |
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responseObserver); |
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} |
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``` |
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- _stub_ classes that clients can use to talk to a `Greeter` server. As you can see, they also implement the `Greeter` interface. |
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```java |
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public static class GreeterStub extends |
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com.google.net.stubby.stub.AbstractStub<GreeterStub, |
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GreeterServiceDescriptor> |
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implements Greeter { |
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... |
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} |
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``` |
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<a name="server"></a> |
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### Writing a server |
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Now let's write some code! First we'll create a server application to implement |
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our service. Note that we're not going to go into a lot of detail about how |
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to create a server in this section. More detailed information will be in the |
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tutorial for your chosen language: check if there's one available yet in the relevant [quick start](#quickstart). |
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Our server application has two classes: |
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- a simple service implementation |
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[GreeterImpl.java](java/src/main/java/ex/grpc/GreeterImpl.java). |
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- a server that hosts the service implementation and allows access over the |
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network: [GreeterServer.java](java/src/main/java/ex/grpc/GreeterServer.java). |
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#### Service implementation |
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[GreeterImpl.java](java/src/main/java/ex/grpc/GreeterImpl.java) |
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actually implements our GreetingService's required behaviour. |
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As you can see, the class `GreeterImpl` implements the interface |
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`GreeterGrpc.Greeter` that we [generated](#generating) from our proto |
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[IDL](java/src/main/proto/helloworld.proto) by implementing the method `hello`: |
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```java |
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public void hello(Helloworld.HelloRequest req, |
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StreamObserver<Helloworld.HelloReply> responseObserver) { |
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Helloworld.HelloReply reply = |
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Helloworld.HelloReply.newBuilder().setMessage( |
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"Hello " + req.getName()).build(); |
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responseObserver.onValue(reply); |
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responseObserver.onCompleted(); |
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} |
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``` |
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- `hello` takes two parameters: |
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- `Helloworld.HelloRequest`: the request |
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- `StreamObserver<Helloworld.HelloReply>`: a response observer, which is |
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a special interface for the server to call with its response |
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To return our response to the client and complete the call: |
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1. We construct and populate a `HelloReply` response object with our exciting |
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message, as specified in our interface definition. |
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2. We use the`responseObserver` to return the `HelloReply` to the client |
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and then specify that we've finished dealing with the RPC |
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#### Server implementation |
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[GreeterServer.java](java/src/main/java/ex/grpc/GreeterServer.java) |
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shows the other main feature required to provide a gRPC service; making the service |
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implementation available from the network. |
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```java |
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private ServerImpl server; |
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... |
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private void start() throws Exception { |
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server = NettyServerBuilder.forPort(port) |
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.addService(GreeterGrpc.bindService(new GreeterImpl())) |
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.build(); |
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server.startAsync(); |
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server.awaitRunning(5, TimeUnit.SECONDS); |
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} |
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``` |
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Here we create an appropriate gRPC server, binding the `GreeterService` |
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implementation that we created to a port. Then we start the server running: the server is now ready to receive |
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requests from `Greeter` service clients on our specified port. We'll cover |
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how all this works in a bit more detail in our language-specific documentation. |
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#### Build it |
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Once we've implemented everything, we use Maven to build the server: |
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``` |
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$ mvn package |
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``` |
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We'll look at using a client to access the server in the next section. |
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<a name="client"></a> |
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### Writing a client |
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Client-side gRPC is pretty simple. In this step, we'll use the generated code |
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to write a simple client that can access the `Greeter` server we created |
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in the [previous section](#server). You can see the complete client code in |
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[GreeterClient.java](java/src/main/java/ex/grpc/GreeterClient.java). |
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Again, we're not going to go into much detail about how to implement a client; |
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we'll leave that for the tutorial. |
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#### Connecting to the service |
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First let's look at how we connect to the `Greetings` server. First we need |
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to create a gRPC channel, specifying the hostname and port of the server we |
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want to connect to. Then we use the channel to construct the stub instance. |
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```java |
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private final ChannelImpl channel; |
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private final GreeterGrpc.GreeterBlockingStub blockingStub; |
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public HelloClient(String host, int port) { |
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channel = NettyChannelBuilder.forAddress(host, port) |
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.negotiationType(NegotiationType.PLAINTEXT) |
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.build(); |
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blockingStub = GreeterGrpc.newBlockingStub(channel); |
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} |
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``` |
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In this case, we create a blocking stub. This means that the RPC call waits |
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for the server to respond, and will either return a response or raise an |
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exception. gRPC Java has other kinds of stubs that make non-blocking calls |
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to the server, where the response is returned asynchronously. |
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#### Calling an RPC |
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Now we can contact the service and obtain a greeting: |
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1. We construct and fill in a `HelloRequest` to send to the service. |
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2. We call the stub's `hello()` RPC with our request and get a `HelloReply` |
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back, |
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from which we can get our greeting. |
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```java |
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public void greet(String name) { |
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logger.debug("Will try to greet " + name + " ..."); |
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try { |
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Helloworld.HelloRequest request = |
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Helloworld.HelloRequest.newBuilder().setName(name).build(); |
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Helloworld.HelloReply reply = blockingStub.SayHello(request); |
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logger.info("Greeting: " + reply.getMessage()); |
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} catch (RuntimeException e) { |
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logger.log(Level.WARNING, "RPC failed", e); |
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return; |
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} |
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} |
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``` |
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#### Build the client |
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This is the same as building the server: our client and server are part of |
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the same maven package so the same command builds both. |
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``` |
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$ mvn package |
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``` |
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<a name="run"></a> |
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### Try it out! |
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We've added simple shell scripts to simplifying running the examples. Now |
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that they are built, you can run the server with: |
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```sh |
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$ ./run_greeter_server.sh |
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``` |
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and in another terminal window confirm that it receives a message. |
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```sh |
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$ ./run_greeter_client.sh |
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``` |
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### Adding another client |
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Finally, let's look at one of gRPC's most useful features - interoperability |
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between code in different languages. So far, we've just looked at Java code |
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generated from and implementing our `Greeter` service definition. However, |
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as you'll see if you look at the language-specific subdirectories |
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in this repository, we've also generated and implemented `Greeter` |
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in some of gRPC's other supported languages. Each service |
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and client uses interface code generated from [exactly the same |
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.proto](https://github.com/grpc/grpc-common/blob/master/protos/helloworld.proto) |
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that we used for the Java example. |
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So, for example, if we visit the [`go` |
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directory](https://github.com/grpc/grpc-common/tree/master/go) and look at the |
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[`greeter_client`](https://github.com/grpc/grpc-common/blob/master/go/greeter_client/main.go), |
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we can see that like the Java client, it connects to a `Greeter` service |
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at `localhost:50051` and uses a stub to call the `SayHello` method with a |
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`HelloRequest`: |
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```go |
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const ( |
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address = "localhost:50051" |
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defaultName = "world" |
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) |
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func main() { |
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// Set up a connection to the server. |
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conn, err := grpc.Dial(address) |
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if err != nil { |
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log.Fatalf("did not connect: %v", err) |
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} |
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defer conn.Close() |
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c := pb.NewGreeterClient(conn) |
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// Contact the server and print out its response. |
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name := defaultName |
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if len(os.Args) > 1 { |
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name = os.Args[1] |
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} |
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r, err := c.SayHello(context.Background(), &pb.HelloRequest{Name: |
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name}) |
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if err != nil { |
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log.Fatalf("could not greet: %v", err) |
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} |
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log.Printf("Greeting: %s", r.Message) |
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} |
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``` |
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If we run the Java server from earlier in another terminal window, we can |
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run the Go client and connect to it just like the Java client, even though |
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it's written in a different language. |
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``` |
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$ greeter_client |
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``` |
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