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stub: Use named classes rather than anonymous in ServerCalls 

This has a number of small benefits.  First, it makes stack traces
easier to read.  For example:

Old class names:
```
ServerCalls$1$1.class
ServerCalls$1.class
ServerCalls$2$1.class
ServerCalls$2.class
```

New class names:
```
ServerCalls$StreamingServerCallHandler.class
ServerCalls$StreamingServerCallHandler$StreamingServerCallListener.class
ServerCalls$UnaryServerCallHandler.class
ServerCalls$UnaryServerCallHandler$UnaryServerCallListener.class
```

This is much easier to read quickly, espcially if line numbers don't
match between HEAD and the code that prints the stack trace.

Another benefit of this is that it drops a class file from the jar
(`EmptyServerCallListener`).

Lastly, it makes it easier in the future to test, since the specific
class can be referenced from a test.  Traditionally this class
hasn't been easy to test.
This commit is contained in:
Carl Mastrangelo 2017-07-13 14:33:25 -07:00 committed by GitHub
parent 26caa488a5
commit d387bfe72f
1 changed files with 168 additions and 138 deletions
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306
stub/src/main/java/io/grpc/stub/ServerCalls.java
View File

@ -104,85 +104,182 @@ public final class ServerCalls {
extends StreamingRequestMethod<ReqT, RespT> {
}
private static final class UnaryServerCallHandler<ReqT, RespT>
implements ServerCallHandler<ReqT, RespT> {
private final UnaryRequestMethod<ReqT, RespT> method;
// Non private to avoid synthetic class
UnaryServerCallHandler(UnaryRequestMethod<ReqT, RespT> method) {
this.method = method;
}
@Override
public ServerCall.Listener<ReqT> startCall(ServerCall<ReqT, RespT> call, Metadata headers) {
Preconditions.checkArgument(
call.getMethodDescriptor().getType().clientSendsOneMessage(),
"asyncUnaryRequestCall is only for clientSendsOneMessage methods");
ServerCallStreamObserverImpl<ReqT, RespT> responseObserver =
new ServerCallStreamObserverImpl<ReqT, RespT>(call);
// We expect only 1 request, but we ask for 2 requests here so that if a misbehaving client
// sends more than 1 requests, ServerCall will catch it. Note that disabling auto
// inbound flow control has no effect on unary calls.
call.request(2);
return new UnaryServerCallListener(responseObserver, call);
}
private final class UnaryServerCallListener extends ServerCall.Listener<ReqT> {
private final ServerCall<ReqT, RespT> call;
private final ServerCallStreamObserverImpl<ReqT, RespT> responseObserver;
private boolean canInvoke = true;
private ReqT request;
// Non private to avoid synthetic class
UnaryServerCallListener(
ServerCallStreamObserverImpl<ReqT, RespT> responseObserver,
ServerCall<ReqT, RespT> call) {
this.call = call;
this.responseObserver = responseObserver;
}
@Override
public void onMessage(ReqT request) {
if (this.request != null) {
// Safe to close the call, because the application has not yet been invoked
call.close(
Status.INTERNAL.withDescription(TOO_MANY_REQUESTS),
new Metadata());
canInvoke = false;
return;
}
// We delay calling method.invoke() until onHalfClose() to make sure the client
// half-closes.
this.request = request;
}
@Override
public void onHalfClose() {
if (!canInvoke) {
return;
}
if (request == null) {
// Safe to close the call, because the application has not yet been invoked
call.close(
Status.INTERNAL.withDescription(MISSING_REQUEST),
new Metadata());
return;
}
method.invoke(request, responseObserver);
responseObserver.freeze();
if (call.isReady()) {
// Since we are calling invoke in halfClose we have missed the onReady
// event from the transport so recover it here.
onReady();
}
}
@Override
public void onCancel() {
responseObserver.cancelled = true;
if (responseObserver.onCancelHandler != null) {
responseObserver.onCancelHandler.run();
}
}
@Override
public void onReady() {
if (responseObserver.onReadyHandler != null) {
responseObserver.onReadyHandler.run();
}
}
}
}
/**
* Creates a {@code ServerCallHandler} for a unary request call method of the service.
*
* @param method an adaptor to the actual method on the service implementation.
*/
private static <ReqT, RespT> ServerCallHandler<ReqT, RespT> asyncUnaryRequestCall(
final UnaryRequestMethod<ReqT, RespT> method) {
return new ServerCallHandler<ReqT, RespT>() {
@Override
public ServerCall.Listener<ReqT> startCall(
final ServerCall<ReqT, RespT> call,
Metadata headers) {
Preconditions.checkArgument(
call.getMethodDescriptor().getType().clientSendsOneMessage(),
"asyncUnaryRequestCall is only for clientSendsOneMessage methods");
final ServerCallStreamObserverImpl<ReqT, RespT> responseObserver =
new ServerCallStreamObserverImpl<ReqT, RespT>(call);
// We expect only 1 request, but we ask for 2 requests here so that if a misbehaving client
// sends more than 1 requests, ServerCall will catch it. Note that disabling auto
// inbound flow control has no effect on unary calls.
call.request(2);
return new EmptyServerCallListener<ReqT>() {
boolean canInvoke = true;
ReqT request;
@Override
public void onMessage(ReqT request) {
if (this.request != null) {
// Safe to close the call, because the application has not yet been invoked
call.close(
Status.INTERNAL.withDescription(TOO_MANY_REQUESTS),
new Metadata());
canInvoke = false;
return;
}
UnaryRequestMethod<ReqT, RespT> method) {
return new UnaryServerCallHandler<ReqT, RespT>(method);
}
// We delay calling method.invoke() until onHalfClose() to make sure the client
// half-closes.
this.request = request;
}
private static final class StreamingServerCallHandler<ReqT, RespT>
implements ServerCallHandler<ReqT, RespT> {
@Override
public void onHalfClose() {
if (!canInvoke) {
return;
}
if (request == null) {
// Safe to close the call, because the application has not yet been invoked
call.close(
Status.INTERNAL.withDescription(MISSING_REQUEST),
new Metadata());
return;
}
private final StreamingRequestMethod<ReqT, RespT> method;
method.invoke(request, responseObserver);
responseObserver.freeze();
if (call.isReady()) {
// Since we are calling invoke in halfClose we have missed the onReady
// event from the transport so recover it here.
onReady();
}
}
// Non private to avoid synthetic class
StreamingServerCallHandler(StreamingRequestMethod<ReqT, RespT> method) {
this.method = method;
}
@Override
public void onCancel() {
responseObserver.cancelled = true;
if (responseObserver.onCancelHandler != null) {
responseObserver.onCancelHandler.run();
}
}
@Override
public void onReady() {
if (responseObserver.onReadyHandler != null) {
responseObserver.onReadyHandler.run();
}
}
};
@Override
public ServerCall.Listener<ReqT> startCall(ServerCall<ReqT, RespT> call, Metadata headers) {
ServerCallStreamObserverImpl<ReqT, RespT> responseObserver =
new ServerCallStreamObserverImpl<ReqT, RespT>(call);
StreamObserver<ReqT> requestObserver = method.invoke(responseObserver);
responseObserver.freeze();
if (responseObserver.autoFlowControlEnabled) {
call.request(1);
}
};
return new StreamingServerCallListener(requestObserver, responseObserver, call);
}
private final class StreamingServerCallListener extends ServerCall.Listener<ReqT> {
private final StreamObserver<ReqT> requestObserver;
private final ServerCallStreamObserverImpl<ReqT, RespT> responseObserver;
private final ServerCall<ReqT, RespT> call;
private boolean halfClosed = false;
// Non private to avoid synthetic class
StreamingServerCallListener(
StreamObserver<ReqT> requestObserver,
ServerCallStreamObserverImpl<ReqT, RespT> responseObserver,
ServerCall<ReqT, RespT> call) {
this.requestObserver = requestObserver;
this.responseObserver = responseObserver;
this.call = call;
}
@Override
public void onMessage(ReqT request) {
requestObserver.onNext(request);
// Request delivery of the next inbound message.
if (responseObserver.autoFlowControlEnabled) {
call.request(1);
}
}
@Override
public void onHalfClose() {
halfClosed = true;
requestObserver.onCompleted();
}
@Override
public void onCancel() {
responseObserver.cancelled = true;
if (responseObserver.onCancelHandler != null) {
responseObserver.onCancelHandler.run();
}
if (!halfClosed) {
requestObserver.onError(Status.CANCELLED.asException());
}
}
@Override
public void onReady() {
if (responseObserver.onReadyHandler != null) {
responseObserver.onReadyHandler.run();
}
}
}
}
/**
@ -191,58 +288,8 @@ public final class ServerCalls {
* @param method an adaptor to the actual method on the service implementation.
*/
private static <ReqT, RespT> ServerCallHandler<ReqT, RespT> asyncStreamingRequestCall(
final StreamingRequestMethod<ReqT, RespT> method) {
return new ServerCallHandler<ReqT, RespT>() {
@Override
public ServerCall.Listener<ReqT> startCall(
final ServerCall<ReqT, RespT> call,
Metadata headers) {
final ServerCallStreamObserverImpl<ReqT, RespT> responseObserver =
new ServerCallStreamObserverImpl<ReqT, RespT>(call);
final StreamObserver<ReqT> requestObserver = method.invoke(responseObserver);
responseObserver.freeze();
if (responseObserver.autoFlowControlEnabled) {
call.request(1);
}
return new EmptyServerCallListener<ReqT>() {
boolean halfClosed = false;
@Override
public void onMessage(ReqT request) {
requestObserver.onNext(request);
// Request delivery of the next inbound message.
if (responseObserver.autoFlowControlEnabled) {
call.request(1);
}
}
@Override
public void onHalfClose() {
halfClosed = true;
requestObserver.onCompleted();
}
@Override
public void onCancel() {
responseObserver.cancelled = true;
if (responseObserver.onCancelHandler != null) {
responseObserver.onCancelHandler.run();
}
if (!halfClosed) {
requestObserver.onError(Status.CANCELLED.asException());
}
}
@Override
public void onReady() {
if (responseObserver.onReadyHandler != null) {
responseObserver.onReadyHandler.run();
}
}
};
}
};
StreamingRequestMethod<ReqT, RespT> method) {
return new StreamingServerCallHandler<ReqT, RespT>(method);
}
private static interface UnaryRequestMethod<ReqT, RespT> {
@ -263,6 +310,7 @@ public final class ServerCalls {
private Runnable onReadyHandler;
private Runnable onCancelHandler;
// Non private to avoid synthetic class
ServerCallStreamObserverImpl(ServerCall<ReqT, RespT> call) {
this.call = call;
}
@ -352,24 +400,6 @@ public final class ServerCalls {
}
}
private static class EmptyServerCallListener<ReqT> extends ServerCall.Listener<ReqT> {
@Override
public void onMessage(ReqT request) {
}
@Override
public void onHalfClose() {
}
@Override
public void onCancel() {
}
@Override
public void onComplete() {
}
}
/**
* Sets unimplemented status for method on given response stream for unary call.
*