In the last lecture, we have finished writing out protocol buffer messages and generate Go codes from them. Now we're gonna do the same for Java. First we will install Java Development Kit, install Intellij IDEA. Then we will create a new Gradle project, setup some plugins and config them to automatically generate Java codes. We also learn how to use option to customize the generated codes.
OK, let's start! First, open the terminal and run javac to check if Java
runtime is available or not. If it's not there, you will be asked to install a
JDK or Java Development Kit. We will need at least Java 8 in order to use all
features of gRPC. So let's click "More info" to open Java Oracle website. The
latest version is JDK 13, which is more than enough for us. We must accept the
License Agreement, then choose the correct package for our OS. I'm using macOS,
so I will download this dmg file. Once the download is completed, open the file
to start installation. Alright, now let's run javac to make sure that it's
working.
javac -versionCool! Next step is installing Intellij IDEA. Search for Intellij IDEA java in
your browser. Open this jetbrains website and click Download. We will use
free community version. The installation is very straight-forward. Just open
the dmg file and drag IntelliJ IDEA to the Applications folder. When we
open the app, macOS will ask for confirmation, because this app is downloaded
from the internet, not from the App store. We just go ahead and click Open.
No need to import settings. We must accept the terms of the Jetbrains privacy
policy. Click Continue and we're all set.
Let's create a new project. We will use Gradle because Google has official
gradle plugin for protobuf. For the project SDK, make sure that the correct
Java version is selected. The click Next. Fill in the GroupID. I'm gonna
use com.gitlab.techschool. The ArtifactID will be pcbook. Check the
project name and its location to be exactly what you want. Then click Finish.
It might take a few seconds for IntelliJ IDEA to setup the project. OK the
project is ready. Now we will open the build.grandle file to setup some
plugins. The first one is protobuf-grandle plugins from Google. Open the
browser and search for protobuf java grandle. This is the one we're looking
for. Now scroll down a bit, copy Using the Gradle plugin DSL block and paste
it to our build.grandle file. Next, we need to add a dependency:
protobuf-java to our project. Let's get back to our browser and look for
maven protobuf java. This will bring us to the maven repository. As you can
see, we're inside the protobuf-java artifact of com.google.protobuf
package. The latest released version is 3.15.6 so let's select it. Click on the
Gradle tab and copy this setting,
// https://mvnrepository.com/artifact/com.google.protobuf/protobuf-java
implementation group: 'com.google.protobuf', name: 'protobuf-java', version: '3.15.6'
then paste it into the dependencies block of our build.gradle file. We
will need a package to work with gRPC as well, so let's go back to the maven
repository and search for grpc-all. Select the latest version. For me it's
1.36.1. Similar to before, open the Gradle tab and copy the setting. Then
paste it to dependencies block. IntelliJ IDEA will automatically detect and
configure it for us. Now we will setup protobuf compiler. By default, the
protobuf-gradle-plugin will search for protoc executable in the system. We
already installed it in previous lecture with Homebrew. However, if you come
here directly for Java, I will show you another way to get the pre-compiled
protoc. First, go to the maven repository and look for protoc. The latest
version is 3.15.6 but we don't add it to the dependencies block as before.
Instead, we will config it in a separate block. Let's go back to the
protobuf-gradle-plugin github page, and copy Locate external executables
block. Paste it in our build.gradle file. Replace the version with the latest
one: 3.15.6 and IntelliJ will take care of the rest. Now, a very important
thing that we should do is to tell protoc to use the gRPC plugin when
generating Java codes. We can do that by getting back to the github page of
protobuf-gradle-plugin and look for this plugin block.
protobuf {
...
// Locate the codegen plugins
plugins {
// Locate a plugin with name 'grpc'. This step is optional.
// If you don't locate it, protoc will try to use "protoc-gen-grpc" from
// system search path.
grpc {
artifact = 'io.grpc:protoc-gen-grpc-java:1.0.0-pre2'
// or
// path = 'tools/protoc-gen-grpc-java'
}
// Any other plugins
...
}
...
}
There's an artifact for protoc-gen-grpc-java. So let's search for its latest
version on maven repository. It's 1.36.1. Alright, now we copy this block and
paste it here. Change the version to 1.36.1. Let's clean up the code a little
bit. Then we should add generateProtoTasks settings to guide protoc to use
out grpc plugin.
protobuf {
protoc {
artifact = 'com.google.protobuf:protoc:3.15.6'
}
plugins {
grpc {
artifact = 'io.grpc:protoc-gen-grpc-java:1.36.1'
}
}
generateProtoTasks {
all()*.plugins {
grpc {}
}
}
}
I know it looks complicated and there are too many stuffs. But believe me, it
will help us speed up a lot in the development phase. There's one more thing
left before we're good to go. That's to tell IntelliJ IDEA where our generated
codes will be located. That way it can easily and correctly do code analysis
and code suggestion for us later. To do that, we use the sourceSets block.
And inside this block, we specify 2 source directories: one for gRPC and the
other for normal protobuf messages. OK, now we are really good to go.
Let's create a new proto folder inside src/main (Create src/main if not
exists). Then copy all proto files that we have written in previous lectures
to this folder. We can see the files here, but there's no colours in the codes
yet. IntelliJ IDEA is asking to install plugins for that so let's go ahead and
click Install. We have to restart IntelliJ IDEA for the plugins to take
effects. Still no colours because it's indexing. This will take a while. Yee,
the colours are back. I love it! Now comes the interesting part. Once we click
this Build icon IntelliJ IDEA will start some background tasks to generate
codes for us. As you can see in this build output logs, there are quite a
number of tasks. When they finished, we can find the generated codes in
build/generated/source/proto/main/java. The grpc folder is empty now because
we haven't written any RPC yet. In java folder, there are 6 java files, one
for each of the messages. There are a lot of codes in 1 single file. And the
generated package name is the same as protobuf package: techschool_pcbook. We
can easily change this package name similar to what we did for Go by setting
the option java_package. I'm gonna use com.github.techschool.pcbook.pb. We
can also tell protoc to split the codes into smaller files instead of putting
them inside 1 single big file. It's pretty simple, just set the
java_multiple_files option to true.
option java_package = "com.github.techschool.pcbook.pb";
option java_multiple_files = true;Let's copy and paste these new options to all of our proto files. Now I'm gonna delete the old generated codes, then rebuild the project. Cool, there are many java files now, and the package name is changed to what we want. One last thing before we finish, I will copy all of our modified proto files back to the Go project, since we always want our proto files in all components of the system to be synchronised.
And that's it! We're done! In the next lecture, we will start writing codes in Go and Java to serialise protobuf messages. Thank you for reading and see you then.