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An SDK for interacting with the Concordium blockchain
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package com.concordium.health;
import static io.grpc.MethodDescriptor.generateFullMethodName;
/**
*/
@javax.annotation.Generated(
value = "by gRPC proto compiler (version 1.40.1)",
comments = "Source: v2/concordium/health.proto")
@io.grpc.stub.annotations.GrpcGenerated
public final class HealthGrpc {
private HealthGrpc() {}
public static final String SERVICE_NAME = "concordium.health.Health";
// Static method descriptors that strictly reflect the proto.
private static volatile io.grpc.MethodDescriptor getCheckMethod;
@io.grpc.stub.annotations.RpcMethod(
fullMethodName = SERVICE_NAME + '/' + "Check",
requestType = com.concordium.health.NodeHealthRequest.class,
responseType = com.concordium.health.NodeHealthResponse.class,
methodType = io.grpc.MethodDescriptor.MethodType.UNARY)
public static io.grpc.MethodDescriptor getCheckMethod() {
io.grpc.MethodDescriptor getCheckMethod;
if ((getCheckMethod = HealthGrpc.getCheckMethod) == null) {
synchronized (HealthGrpc.class) {
if ((getCheckMethod = HealthGrpc.getCheckMethod) == null) {
HealthGrpc.getCheckMethod = getCheckMethod =
io.grpc.MethodDescriptor.newBuilder()
.setType(io.grpc.MethodDescriptor.MethodType.UNARY)
.setFullMethodName(generateFullMethodName(SERVICE_NAME, "Check"))
.setSampledToLocalTracing(true)
.setRequestMarshaller(io.grpc.protobuf.ProtoUtils.marshaller(
com.concordium.health.NodeHealthRequest.getDefaultInstance()))
.setResponseMarshaller(io.grpc.protobuf.ProtoUtils.marshaller(
com.concordium.health.NodeHealthResponse.getDefaultInstance()))
.setSchemaDescriptor(new HealthMethodDescriptorSupplier("Check"))
.build();
}
}
}
return getCheckMethod;
}
/**
* Creates a new async stub that supports all call types for the service
*/
public static HealthStub newStub(io.grpc.Channel channel) {
io.grpc.stub.AbstractStub.StubFactory factory =
new io.grpc.stub.AbstractStub.StubFactory() {
@java.lang.Override
public HealthStub newStub(io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
return new HealthStub(channel, callOptions);
}
};
return HealthStub.newStub(factory, channel);
}
/**
* Creates a new blocking-style stub that supports unary and streaming output calls on the service
*/
public static HealthBlockingStub newBlockingStub(
io.grpc.Channel channel) {
io.grpc.stub.AbstractStub.StubFactory factory =
new io.grpc.stub.AbstractStub.StubFactory() {
@java.lang.Override
public HealthBlockingStub newStub(io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
return new HealthBlockingStub(channel, callOptions);
}
};
return HealthBlockingStub.newStub(factory, channel);
}
/**
* Creates a new ListenableFuture-style stub that supports unary calls on the service
*/
public static HealthFutureStub newFutureStub(
io.grpc.Channel channel) {
io.grpc.stub.AbstractStub.StubFactory factory =
new io.grpc.stub.AbstractStub.StubFactory() {
@java.lang.Override
public HealthFutureStub newStub(io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
return new HealthFutureStub(channel, callOptions);
}
};
return HealthFutureStub.newStub(factory, channel);
}
/**
*/
public static abstract class HealthImplBase implements io.grpc.BindableService {
/**
*
* Check the health of the node. By necessity this involves a number of
* heuristics since in a distributed network we have to rely on the local
* information only and we don't have authoritative data on, e.g., last
* finalized block.
* In particular, a node that is not caught up to the head of the chain is not
* healthy.
* If possible the client should use other queries to get a more fine-grained
* understanding of the node health. However this endpoint should provide a
* reasonable default and is usable in cases where an automatic check is
* performed that does not allow for configuration, such as in load-balancers.
*
*/
public void check(com.concordium.health.NodeHealthRequest request,
io.grpc.stub.StreamObserver responseObserver) {
io.grpc.stub.ServerCalls.asyncUnimplementedUnaryCall(getCheckMethod(), responseObserver);
}
@java.lang.Override public final io.grpc.ServerServiceDefinition bindService() {
return io.grpc.ServerServiceDefinition.builder(getServiceDescriptor())
.addMethod(
getCheckMethod(),
io.grpc.stub.ServerCalls.asyncUnaryCall(
new MethodHandlers<
com.concordium.health.NodeHealthRequest,
com.concordium.health.NodeHealthResponse>(
this, METHODID_CHECK)))
.build();
}
}
/**
*/
public static final class HealthStub extends io.grpc.stub.AbstractAsyncStub {
private HealthStub(
io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
super(channel, callOptions);
}
@java.lang.Override
protected HealthStub build(
io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
return new HealthStub(channel, callOptions);
}
/**
*
* Check the health of the node. By necessity this involves a number of
* heuristics since in a distributed network we have to rely on the local
* information only and we don't have authoritative data on, e.g., last
* finalized block.
* In particular, a node that is not caught up to the head of the chain is not
* healthy.
* If possible the client should use other queries to get a more fine-grained
* understanding of the node health. However this endpoint should provide a
* reasonable default and is usable in cases where an automatic check is
* performed that does not allow for configuration, such as in load-balancers.
*
*/
public void check(com.concordium.health.NodeHealthRequest request,
io.grpc.stub.StreamObserver responseObserver) {
io.grpc.stub.ClientCalls.asyncUnaryCall(
getChannel().newCall(getCheckMethod(), getCallOptions()), request, responseObserver);
}
}
/**
*/
public static final class HealthBlockingStub extends io.grpc.stub.AbstractBlockingStub {
private HealthBlockingStub(
io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
super(channel, callOptions);
}
@java.lang.Override
protected HealthBlockingStub build(
io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
return new HealthBlockingStub(channel, callOptions);
}
/**
*
* Check the health of the node. By necessity this involves a number of
* heuristics since in a distributed network we have to rely on the local
* information only and we don't have authoritative data on, e.g., last
* finalized block.
* In particular, a node that is not caught up to the head of the chain is not
* healthy.
* If possible the client should use other queries to get a more fine-grained
* understanding of the node health. However this endpoint should provide a
* reasonable default and is usable in cases where an automatic check is
* performed that does not allow for configuration, such as in load-balancers.
*
*/
public com.concordium.health.NodeHealthResponse check(com.concordium.health.NodeHealthRequest request) {
return io.grpc.stub.ClientCalls.blockingUnaryCall(
getChannel(), getCheckMethod(), getCallOptions(), request);
}
}
/**
*/
public static final class HealthFutureStub extends io.grpc.stub.AbstractFutureStub {
private HealthFutureStub(
io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
super(channel, callOptions);
}
@java.lang.Override
protected HealthFutureStub build(
io.grpc.Channel channel, io.grpc.CallOptions callOptions) {
return new HealthFutureStub(channel, callOptions);
}
/**
*
* Check the health of the node. By necessity this involves a number of
* heuristics since in a distributed network we have to rely on the local
* information only and we don't have authoritative data on, e.g., last
* finalized block.
* In particular, a node that is not caught up to the head of the chain is not
* healthy.
* If possible the client should use other queries to get a more fine-grained
* understanding of the node health. However this endpoint should provide a
* reasonable default and is usable in cases where an automatic check is
* performed that does not allow for configuration, such as in load-balancers.
*
*/
public com.google.common.util.concurrent.ListenableFuture check(
com.concordium.health.NodeHealthRequest request) {
return io.grpc.stub.ClientCalls.futureUnaryCall(
getChannel().newCall(getCheckMethod(), getCallOptions()), request);
}
}
private static final int METHODID_CHECK = 0;
private static final class MethodHandlers implements
io.grpc.stub.ServerCalls.UnaryMethod,
io.grpc.stub.ServerCalls.ServerStreamingMethod,
io.grpc.stub.ServerCalls.ClientStreamingMethod,
io.grpc.stub.ServerCalls.BidiStreamingMethod {
private final HealthImplBase serviceImpl;
private final int methodId;
MethodHandlers(HealthImplBase serviceImpl, int methodId) {
this.serviceImpl = serviceImpl;
this.methodId = methodId;
}
@java.lang.Override
@java.lang.SuppressWarnings("unchecked")
public void invoke(Req request, io.grpc.stub.StreamObserver responseObserver) {
switch (methodId) {
case METHODID_CHECK:
serviceImpl.check((com.concordium.health.NodeHealthRequest) request,
(io.grpc.stub.StreamObserver) responseObserver);
break;
default:
throw new AssertionError();
}
}
@java.lang.Override
@java.lang.SuppressWarnings("unchecked")
public io.grpc.stub.StreamObserver invoke(
io.grpc.stub.StreamObserver responseObserver) {
switch (methodId) {
default:
throw new AssertionError();
}
}
}
private static abstract class HealthBaseDescriptorSupplier
implements io.grpc.protobuf.ProtoFileDescriptorSupplier, io.grpc.protobuf.ProtoServiceDescriptorSupplier {
HealthBaseDescriptorSupplier() {}
@java.lang.Override
public com.google.protobuf.Descriptors.FileDescriptor getFileDescriptor() {
return com.concordium.health.HealthOuterClass.getDescriptor();
}
@java.lang.Override
public com.google.protobuf.Descriptors.ServiceDescriptor getServiceDescriptor() {
return getFileDescriptor().findServiceByName("Health");
}
}
private static final class HealthFileDescriptorSupplier
extends HealthBaseDescriptorSupplier {
HealthFileDescriptorSupplier() {}
}
private static final class HealthMethodDescriptorSupplier
extends HealthBaseDescriptorSupplier
implements io.grpc.protobuf.ProtoMethodDescriptorSupplier {
private final String methodName;
HealthMethodDescriptorSupplier(String methodName) {
this.methodName = methodName;
}
@java.lang.Override
public com.google.protobuf.Descriptors.MethodDescriptor getMethodDescriptor() {
return getServiceDescriptor().findMethodByName(methodName);
}
}
private static volatile io.grpc.ServiceDescriptor serviceDescriptor;
public static io.grpc.ServiceDescriptor getServiceDescriptor() {
io.grpc.ServiceDescriptor result = serviceDescriptor;
if (result == null) {
synchronized (HealthGrpc.class) {
result = serviceDescriptor;
if (result == null) {
serviceDescriptor = result = io.grpc.ServiceDescriptor.newBuilder(SERVICE_NAME)
.setSchemaDescriptor(new HealthFileDescriptorSupplier())
.addMethod(getCheckMethod())
.build();
}
}
}
return result;
}
}