Sergey,
Got it, from an API’s perspective, this was using the extensions to Request and Response that were proposed originally.
The new proposal has the following benefits:
(1) It is not limited to using low-level byte streams
(2) Can be extended to manage a stream of thingies (like Pojos, see examples by Pavel)
(3) SSE could potentially be retrofitted as a special case where the thingies are messages
(4) It better integrates with reactive frameworks that can produce Publisher<A>, for example:
Publisher<Pokemon> findThem() {
return DB.query(Pokemon.class).filter(…);
}
— Santiago
> On Mar 7, 2017, at 11:40 AM, Sergey Beryozkin <sberyozkin_at_talend.com> wrote:
>
> Hi Santiago, yes, sure here are the details:
>
> 1. NIO MBW:
>
> https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioMessageBodyWriter.java#L53 <https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioMessageBodyWriter.java#L53>
>
> there the 1st we do is to obtain a CXF specific 'Continuation' which is in case of HTTP is a wrapper around Servlet 3.1 AsyncContext which enforces that the the invocation is asynchronous-aware.
>
> then, the next 3 lines is about registering a WriteListener with the ServletOutputStream, with the WriteListener implemented as follows:
> https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioWriteListenerImpl.java <https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioWriteListenerImpl.java>
>
> though we continue interacting with the underlying Servlet API with something like "cont.isReadyForWrite()"
>
> finally, after this listener is registered, we suspend and return the current thread to the container:
>
> https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioMessageBodyWriter.java#L58 <https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioMessageBodyWriter.java#L58>
>
> with the registered listener finishing the response on the callback thread(s).
>
> 2. NIO MBR:
>
> Sorry I forgot we do not have an MBR, it is just done here:
>
> https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/impl/RequestImpl.java#L410 <https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/impl/RequestImpl.java#L410>
>
> with the actual listener being also straightforward:
> https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioReadListenerImpl.java <https://github.com/apache/cxf/blob/master/rt/frontend/jaxrs/src/main/java/org/apache/cxf/jaxrs/nio/NioReadListenerImpl.java>
>
> which works OK with the samples you provided earlier on where the NIO read process depends on @Suspended
> Though I can imagine how one can similarly implement MBR with the Flow.
>
> Looks like the new proposed NIO writer/reader handlers can allow for a much nicer looking implementation.
> However these are two new interfaces and we'd need to determine where do they sit in the chain relative for example to
> WriterInterceptor and ContainerResponseFilter, sorting order, etc.
>
> Can you please give it another thought to the possibility of making it all happen with the MBR/MBW ?
> Quite likely the new interfaces will make it simpler, I'd only like to make sure we do not add more interfaces unless absolutely needed.
>
> Thanks, Sergey
>
>
> On 07/03/17 15:16, Santiago Pericas-Geertsen wrote:
>> Hi Sergey,
>>
>> Are you referring the NIO proposal we discussed in this context a while back? If the integration is at the level of MBR/MBW, how does application code take advantage of NIO features? Perhaps you can share some links to the implementation that you are referring to.
>>
>> — Santiago
>>
>>> On Mar 7, 2017, at 10:02 AM, Sergey Beryozkin <sberyozkin_at_talend.com <mailto:sberyozkin_at_talend.com>> wrote:
>>>
>>> And just to clarify, these MBR/MBW we use to handle NIO did not obviously started reading or writing immediately on the same thread which entered these MBR/MBW. All we did was to make sure the same existing providers are working without the core runtime doing anything related to NIO
>>>
>>> On 07/03/17 14:59, Sergey Beryozkin wrote:
>>>> Hi
>>>>
>>>> The way we implemented the initial NIO draft was to provide MessageBodyWriter/Reader which would use
>>>> to link InputStream/OutputStream to the corresponding ServletInputStream/OutputStream callback handlers notifying our code
>>>> when the write or read was possible.
>>>>
>>>> I.e the fact MBW or MBR accepts Input/Output stream did not stop us from implementing NIO draft.
>>>>
>>>> May be the introduction of the new NIO-specific MBW/MBR interfaces is justified but these are internal providers the users who would link Flow with other high-level reactive APIs won't use directly thus I'm wondering are they really needed ?
>>>>
>>>> Thanks, Sergey
>>>> On 07/03/17 14:25, Pavel Bucek wrote:
>>>>> Dear EG members,
>>>>>
>>>>> please allow me to share the direction of what we are thinking about JAX-RS NIO support.
>>>>>
>>>>> As stated before, SSE wasn't the only place were Flow APIs should be utilized - NIO is another area where it can be utilized quite heavily. And that was mostly the main idea - to see where it does make sense to use that.
>>>>>
>>>>> Similarly to SSE, there is a plan to minimize / extract the Flow to different classes, but there should always be a clear path how to convert an instance into Flow.* (or org.reactivestreams.*) interfaces. It is not done yet, to keep things as clear as possible.
>>>>>
>>>>> One of the bigger concerns is backwards compatibility. There are interfaces, which do work directly with Input/Output stream, which is always a problem for reactive processing, since it is blocking by design. The specification will need to say something like "The runtime is non-blocking as long as the application code doesn't read from a provided InputStream or doesn't set an OutputStream."
>>>>>
>>>>> The motivation for doing this is to allow the JAX-RS apps to be non-blocking and reactive. JAX-RS 2.0 entity handling is designed around reading / producing Input / Output Stream, which is blocking by design. Non-blocking approach should result in higher throughput and better resource utilization of the server. Also, integration and coexistence with modern reactive frameworks should be possible to do without losing the advantage of having that framework (which was almost completely lost when dealing with blocking inputs/outputs).
>>>>> Let's jump into code snippets.
>>>>>
>>>>>
>>>>> Server - EX1 (byte handling):
>>>>>
>>>>> Snippet below shows how to process request entity body return response entity body, using Publisher<ByteBuffer> - no MessageBodyReader/Writer is involved. This can be used as a low-level integration point for other frameworks, which are also reactive and will do the processing, like serializing/deserializing (mapping) to some java type, filtering, etc. Returning a Publisher<ByteBuffer> is a reactive/nio alternative to javax.ws.rs.core.StreamingOutput, consuming an entity using Publisher<ByteBuffer> is a reactive/nio alternative to consuming entity as an InputStream.
>>>>> @POST
>>>>> @Path("/ex1")
>>>>> public Flow.Publisher<ByteBuffer> ex1(Flow.Publisher<ByteBuffer> entity) {
>>>>> Ex1Processor processor = new Ex1Processor();
>>>>>
>>>>> entity.subscribe(processor);
>>>>> return processor;
>>>>> }
>>>>>
>>>>> // ex1 processor
>>>>> public static class Ex1Processor implements Flow.Processor<ByteBuffer, ByteBuffer> {
>>>>>
>>>>> // ...
>>>>> }
>>>>> And there is already an issue, which is not clearly solved.
>>>>>
>>>>> Returning a Publisher instance from the resource method does put some constraints on the Publisher itself - it needs to cache all events which will be emitted prior subscription of the jax-rs implementation Subscriber instance (which is the only way how to get the data from a Publisher).
>>>>>
>>>>> This can be solved by stating that request entity publisher won't produce any events until the resource method is invoked and the implementation Subscriber subscribed to the returned response entity publisher. Or the resource method can return Consumer<Flow.Subscriber<ByteBuffer>>, which would effectively grant control of the implementation subscription process. Any comments or suggestions welcomed [ref Q1].
>>>>>
>>>>>
>>>>> Server - EX2 (consuming stream of pojos):
>>>>>
>>>>> The next example should be slightly more straightforward. It shows how to process a Publisher of custom type, in this case called "POJO".
>>>>> The only limitation or rule here would be that the subscriber for the request entity must be subscribed before the resource method "ex2" invocation ends.
>>>>>
>>>>> New interface is introduced here - NioBodyReader. It has exactly the same responsibility as good old MessageBodyReader, but without using a blocking OutputStream to write the entity. Note that the "core" type is the Publisher<ByteBuffer>, which is in this case mapped (or converted) into Publisher of POJOs.
>>>>>
>>>>> @POST
>>>>> @Path("/ex2")
>>>>> @Consumes(MediaType.APPLICATION_JSON)
>>>>> public void ex2(Flow.Publisher<POJO> entity,
>>>>> @Suspended AsyncResponse response) {
>>>>>
>>>>> // TODO: introduce a helper or modify AsyncResponse to support this pattern directly?
>>>>> entity.subscribe(
>>>>> // POJO subscriber - consumer
>>>>> new Flow.Subscriber<POJO>() {
>>>>> @Override
>>>>> public void onSubscribe(Flow.Subscription subscription) {
>>>>> // ...
>>>>> }
>>>>>
>>>>> @Override
>>>>> public void onNext(POJO item) {
>>>>> // ...
>>>>> }
>>>>>
>>>>> @Override
>>>>> public void onError(Throwable throwable) {
>>>>> response.resume(throwable);
>>>>> }
>>>>>
>>>>> @Override
>>>>> public void onComplete() {
>>>>> response.resume(Response.ok().build());
>>>>> }
>>>>> }
>>>>> );
>>>>> }
>>>>>
>>>>> @Provider
>>>>> @Consumes(MediaType.APPLICATION_JSON)
>>>>> public static class Ex2NioBodyReader implements NioBodyReader<POJO> {
>>>>> @Override
>>>>> public boolean isReadable(Class<?> type, Type genericType, Annotation[] annotations, MediaType mediaType) {
>>>>> return true;
>>>>> }
>>>>>
>>>>> @Override
>>>>> public Flow.Publisher<POJO> readFrom(Flow.Publisher<ByteBuffer> entity,
>>>>> Class<POJO> type,
>>>>> Type genericType,
>>>>> Annotation[] annotations,
>>>>> MediaType mediaType,
>>>>> MultivaluedMap<String, String> httpHeaders) {
>>>>> Ex2MappingProcessor mappingProcessor = new Ex2MappingProcessor();
>>>>> entity.subscribe(mappingProcessor);
>>>>> return mappingProcessor;
>>>>> }
>>>>> }
>>>>>
>>>>> // mapping Publisher<ByteBuffer> to Publisher<POJO>
>>>>> // ByteBuffers are expected to contain JSON (indicated by @Consumes on the resource method and NioBodyReader).
>>>>> public static class Ex2MappingProcessor implements Flow.Subscriber<ByteBuffer>, Flow.Publisher<POJO> {
>>>>> // ...
>>>>> }
>>>>> Same issue as [Q1] is valid for this as well - same solution will need to be applied for "readFrom" method.
>>>>> Another issue is about what should be passed to "isReadable" method as "type" parameter. I'm not exactly sure whether we can safely obtain generic type of a parameter from the resource method (public void ex2(Flow.Publisher< POJO> entity, ..)). Any comments/suggestions welcomed [ref Q2].
>>>>> Note that using @Suspended shouldn't be enforced here; it should be possible to return a Response directly and still be able to consume the request entity.
>>>>>
>>>>> Server - EX3 (producing list of POJOs):
>>>>>
>>>>> The last (for now) example shows how we can produce and write POJOs. Resource method doesn't take any parameters and provides a Publisher of POJO objects, which will be converted to JSON in NioBodyWriter. NioBodyReader is a reactive alternative to MessageBodyReader from older version of the specification.
>>>>> @GET
>>>>> @Path("/ex3")
>>>>> @Produces(MediaType.APPLICATION_JSON)
>>>>> public Flow.Publisher<POJO> ex3() {
>>>>>
>>>>> Flow.Publisher<POJO> pojoPublisher = null;
>>>>>
>>>>> // source of the POJO "stream" can be anything - database call, client call to
>>>>> // another service, ...
>>>>> //
>>>>> // DB
>>>>> // .getEmployees(department) // StreamPublisher<EmployeeDbModel> -- reactive stream
>>>>> // .map((Function<EmployeeDbModel, EmployeeToReturn>) employeeDbModel -> {
>>>>> // // ...
>>>>> // });
>>>>>
>>>>> return pojoPublisher;
>>>>> }
>>>>>
>>>>> @Provider
>>>>> @Produces(MediaType.APPLICATION_JSON)
>>>>> public static class Ex3NioBodyWriter implements NioBodyWriter<POJO> {
>>>>> @Override
>>>>> public boolean isWriteable(Class<?> type, Type genericType, Annotation[] annotations, MediaType mediaType) {
>>>>> return true;
>>>>> }
>>>>>
>>>>> @Override
>>>>> public void writeTo(Flow.Publisher<POJO> entityObjectPublisher,
>>>>> Flow.Subscriber<ByteBuffer> subscriber,
>>>>> Class<?> type,
>>>>> Type genericType,
>>>>> Annotation[] annotations,
>>>>> MediaType mediaType,
>>>>> MultivaluedMap<String, Object> httpHeaders) {
>>>>> // map Publisher<POJO> to Publisher<ByteBuffer> and subscribe Flow.Subscriber<ByteBuffer> to it.
>>>>> }
>>>>> }
>>>>> Resource method is minimalistic, [Q1] applies here as well.
>>>>>
>>>>> The example introduces NioBodyWriter and its isWriteable method does have [Q2], similarly to NioBodyReader. #writeTo doesn't have any issues - [Q1] is mitigated there because the implementation passes a supplier to the implementation - there doesn't need to be anything returned. Something similar might be able to do for NioBodyWriter as well.
>>>>>
>>>>> Comment to writing multiple POJO instances: https://github.com/pavelbucek/jax-rs/blob/bfc5b3d6caecab2f6304f92ac7b44a7ad6a5fdff/jaxrs-api/src/main/java/javax/ws/rs/ext/NioBodyWriter.java#L82 <https://github.com/pavelbucek/jax-rs/blob/8304c658c923b520ed34201b1f1e6741660daa0b/jaxrs-api/src/main/java/javax/ws/rs/ext/NioBodyWriter.java#L82>
>>>>> Important point to mention is that even when producing multiple instances, the intention here is still to return the single HTTP response.
>>>>> ===
>>>>>
>>>>> We have more, but this email is already too long - I will post more after there is some feedback on the presented concepts and issues. Please let us know if this format is OK or if you'd prefer something else - I guess I could do a screencast, hangout or something similar.
>>>>> Source links:
>>>>>
>>>>> - complete server example: https://github.com/pavelbucek/jax-rs/blob/bfc5b3d6caecab2f6304f92ac7b44a7ad6a5fdff/examples/src/main/java/jaxrs/examples/nio/NioResource.java <https://github.com/pavelbucek/jax-rs/blob/8304c658c923b520ed34201b1f1e6741660daa0b/examples/src/main/java/jaxrs/examples/nio/NioResource.java>
>>>>> - client (to be discussed): https://github.com/pavelbucek/jax-rs/blob/bfc5b3d6caecab2f6304f92ac7b44a7ad6a5fdff/examples/src/main/java/jaxrs/examples/nio/NioClient.java
>>>>> <https://github.com/pavelbucek/jax-rs/blob/8304c658c923b520ed34201b1f1e6741660daa0b/examples/src/main/java/jaxrs/examples/nio/NioClient.java>- server side processing (including interceptors): https://github.com/pavelbucek/jax-rs/blob/bfc5b3d6caecab2f6304f92ac7b44a7ad6a5fdff/examples/src/main/java/jaxrs/examples/nio/ServerSideProcessing.java <https://github.com/pavelbucek/jax-rs/blob/bfc5b3d6caecab2f6304f92ac7b44a7ad6a5fdff/examples/src/main/java/jaxrs/examples/nio/ServerSideProcessing.java>
>>>>> (Not including direct link to individual examples, since we will continue working on them...)
>>>>> Looking forward to your feedback!
>>>>> Thanks and regards,
>>>>> Pavel & Santiago
>>>>
>>>
>>
>