project/plugins.sbt:
addSbtPlugin("org.lyranthe.fs2-grpc" % "sbt-java-gen" % "<latest-version>")build.sbt:
enablePlugins(Fs2Grpc)The protobuf files should be stored in the directory <project_root>/src/main/protobuf.
If the generated code is used by multiple projects, you may build the client/server code in a common project which other projects depend on. For example:
lazy val protobuf =
project
.in(file("protobuf"))
.enablePlugins(Fs2Grpc)
lazy val client =
project
.in(file("client"))
.dependsOn(protobuf)
lazy val server =
project
.in(file("server"))
.dependsOn(protobuf)A ManagedChannel is the type used by grpc-java to manage a connection to a particular server. This library provides syntax for ManagedChannelBuilder which creates an FS2 Stream which can manage the shutdown of the channel, by calling .stream[F] where F has an instance of the Sync typeclass. This implementation will do a drain of the server, and attempt to shut down the server, forcefully closing after 30 seconds. An example of the syntax is:
val managedChannelStream: Stream[IO, ManagedChannel] =
ManagedChannelBuilder
.forAddress("127.0.0.1", 9999)
.stream[IO]The syntax also offers the method streamWithShutdown which takes a function ManagedChannel => F[Unit] which is used to manage the shutdown. This may be used where requirements before shutdown do not match the default behaviour.
The generated code provides a method stub[F] (for any F which has a Sync instance), and it takes a parameter of type ManagedChannel. It returns an implementation of the service (in a trait), which can be used to make calls.
def runProgram(stub: MyFs2Grpc[IO]): IO[Unit] = ???
for {
managedChannel <- managedChannelStream
client = MyFs2Grpc.stub[IO](managedChannel)
_ <- Stream.eval(runProgram(client))
} yield ()If a ManagedChannelProvider isn't found on your classpath you may receive an error similar to
io.grpc.ManagedChannelProvider$ProviderNotFoundException: No functional channel service provider found. Try adding a dependency on the grpc-okhttp or grpc-netty artifact
This can be fixed by adding a dependency to the netty provider e.g.
libraryDependencies += "io.grpc" % "grpc-netty-shaded" % scalapb.compiler.Version.grpcJavaVersion
The generated code provides a method bindService[F] (for any F which has a Sync instance), and it takes an implementation of the service (in a trait), which is used to serve responses to RPC calls. It returns a ServerServiceDefinition which is given to the server builder when setting up the service.
A Server is the type used by grpc-java to manage the server connections and lifecycle. This library provides syntax for ServerBuilder, which mirrors the pattern for the client. An example is:
import org.lyranthe.fs2_grpc.java_runtime.implicits._
val helloService: ServerServiceDefinition = MyFs2Grpc.bindService(new MyImpl())
ServerBuilder
.forPort(9999)
.addService(helloService)
.addService(ProtoReflectionService.newInstance()) // reflection makes lots of tooling happy
.stream[IO] // or for any F: Sync
.evalMap(server => IO(server.start())) // start server
.evalMap(_ => IO.never) // server now runningTo alter code generation, you can set some flags with scalapbCodeGeneratorOptions, e.g.:
scalapbCodeGeneratorOptions += CodeGeneratorOption.FlatPackageThe full set of options available are:
CodeGeneratorOption.FlatPackage- If true, the compiler does not append the proto base file nameCodeGeneratorOption.JavaConversions- Enable Java conversions for protobufCodeGeneratorOption.Grpc(included by default) - generate grpc bindings based on ObservablesCodeGeneratorOption.Fs2Grpc(included by default) - generate grpc bindings for FS2/catsCodeGeneratorOption.SingleLineToProtoString-toProtoStringgenerates single lineCodeGeneratorOption.AsciiFormatToString-toStringusestoProtoStringfunctionality
PB.protocOptions in Compile := Seq("-xyz")