/
RouteExecutor.java
863 lines (792 loc) · 39.6 KB
/
RouteExecutor.java
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/*
* Copyright 2017-2021 original authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package io.micronaut.http.server;
import io.micronaut.context.BeanContext;
import io.micronaut.context.exceptions.BeanCreationException;
import io.micronaut.core.annotation.Internal;
import io.micronaut.core.annotation.NonNull;
import io.micronaut.core.annotation.Nullable;
import io.micronaut.core.async.publisher.Publishers;
import io.micronaut.core.io.buffer.ReferenceCounted;
import io.micronaut.core.type.Argument;
import io.micronaut.core.type.ReturnType;
import io.micronaut.http.HttpAttributes;
import io.micronaut.http.HttpHeaders;
import io.micronaut.http.HttpMethod;
import io.micronaut.http.HttpRequest;
import io.micronaut.http.HttpResponse;
import io.micronaut.http.HttpStatus;
import io.micronaut.http.MediaType;
import io.micronaut.http.MutableHttpHeaders;
import io.micronaut.http.MutableHttpResponse;
import io.micronaut.http.bind.binders.ContinuationArgumentBinder;
import io.micronaut.http.context.ServerRequestContext;
import io.micronaut.http.exceptions.HttpStatusException;
import io.micronaut.http.filter.HttpFilter;
import io.micronaut.http.filter.ServerFilterChain;
import io.micronaut.http.server.binding.RequestArgumentSatisfier;
import io.micronaut.http.server.exceptions.ExceptionHandler;
import io.micronaut.http.server.exceptions.response.ErrorContext;
import io.micronaut.http.server.exceptions.response.ErrorResponseProcessor;
import io.micronaut.inject.BeanDefinition;
import io.micronaut.inject.BeanType;
import io.micronaut.inject.ExecutableMethod;
import io.micronaut.inject.MethodReference;
import io.micronaut.inject.qualifiers.Qualifiers;
import io.micronaut.scheduling.executor.ExecutorSelector;
import io.micronaut.web.router.MethodBasedRouteMatch;
import io.micronaut.web.router.RouteInfo;
import io.micronaut.web.router.RouteMatch;
import io.micronaut.web.router.Router;
import io.micronaut.web.router.exceptions.UnsatisfiedRouteException;
import jakarta.inject.Singleton;
import org.reactivestreams.Publisher;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import reactor.core.publisher.Flux;
import reactor.core.publisher.Mono;
import reactor.core.scheduler.Scheduler;
import reactor.core.scheduler.Schedulers;
import java.io.IOException;
import java.time.LocalDateTime;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Optional;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.Function;
import java.util.function.Supplier;
import java.util.regex.Pattern;
import static io.micronaut.core.util.KotlinUtils.isKotlinCoroutineSuspended;
import static io.micronaut.inject.util.KotlinExecutableMethodUtils.isKotlinFunctionReturnTypeUnit;
/**
* A class responsible for executing routes.
*
* @author James Kleeh
* @since 3.0.0
*/
@Singleton
public final class RouteExecutor {
private static final Logger LOG = LoggerFactory.getLogger(RouteExecutor.class);
/**
* Also present in netty RoutingInBoundHandler.
*/
private static final Pattern IGNORABLE_ERROR_MESSAGE = Pattern.compile(
"^.*(?:connection (?:reset|closed|abort|broken)|broken pipe).*$", Pattern.CASE_INSENSITIVE);
private final Router router;
private final BeanContext beanContext;
private final RequestArgumentSatisfier requestArgumentSatisfier;
private final HttpServerConfiguration serverConfiguration;
private final ErrorResponseProcessor<?> errorResponseProcessor;
private final ExecutorSelector executorSelector;
private final Optional<CoroutineHelper> coroutineHelper;
/**
* Default constructor.
*
* @param router The router
* @param beanContext The bean context
* @param requestArgumentSatisfier The request argument satisfier
* @param serverConfiguration The server configuration
* @param errorResponseProcessor The error response processor
* @param executorSelector The executor selector
*/
public RouteExecutor(Router router,
BeanContext beanContext,
RequestArgumentSatisfier requestArgumentSatisfier,
HttpServerConfiguration serverConfiguration,
ErrorResponseProcessor<?> errorResponseProcessor,
ExecutorSelector executorSelector) {
this.router = router;
this.beanContext = beanContext;
this.requestArgumentSatisfier = requestArgumentSatisfier;
this.serverConfiguration = serverConfiguration;
this.errorResponseProcessor = errorResponseProcessor;
this.executorSelector = executorSelector;
this.coroutineHelper = beanContext.findBean(CoroutineHelper.class);
}
/**
* @return The router
*/
public @NonNull Router getRouter() {
return router;
}
/**
* @return The request argument satisfier
*/
@Internal
public @NonNull RequestArgumentSatisfier getRequestArgumentSatisfier() {
return requestArgumentSatisfier;
}
/**
* @return The error response processor
*/
public @NonNull ErrorResponseProcessor<?> getErrorResponseProcessor() {
return errorResponseProcessor;
}
/**
* @return The executor selector
*/
public @NonNull ExecutorSelector getExecutorSelector() {
return executorSelector;
}
/**
* @return The kotlin coroutine helper
*/
public Optional<CoroutineHelper> getCoroutineHelper() {
return coroutineHelper;
}
/**
* Creates a response publisher to represent the response after being handled
* by any available error route or exception handler.
*
* @param t The exception that occurred
* @param httpRequest The request that caused the exception
* @return A response publisher
*/
public Flux<MutableHttpResponse<?>> onError(Throwable t, HttpRequest<?> httpRequest) {
// find the origination of of the route
Class declaringType = httpRequest.getAttribute(HttpAttributes.ROUTE_INFO, RouteInfo.class).map(RouteInfo::getDeclaringType).orElse(null);
final Throwable cause;
// top level exceptions returned by CompletableFutures. These always wrap the real exception thrown.
if ((t instanceof CompletionException || t instanceof ExecutionException) && t.getCause() != null) {
cause = t.getCause();
} else {
cause = t;
}
RouteMatch<?> errorRoute = findErrorRoute(cause, declaringType, httpRequest);
if (errorRoute != null) {
if (serverConfiguration.isLogHandledExceptions()) {
logException(cause);
}
try {
AtomicReference<HttpRequest<?>> requestReference = new AtomicReference<>(httpRequest);
return buildRouteResponsePublisher(
requestReference,
Flux.just(errorRoute))
.doOnNext(response -> response.setAttribute(HttpAttributes.EXCEPTION, cause))
.onErrorResume(throwable -> createDefaultErrorResponsePublisher(requestReference.get(), throwable));
} catch (Throwable e) {
return createDefaultErrorResponsePublisher(httpRequest, e).flux();
}
} else {
Optional<BeanDefinition<ExceptionHandler>> optionalDefinition = beanContext.findBeanDefinition(ExceptionHandler.class, Qualifiers.byTypeArgumentsClosest(cause.getClass(), Object.class));
if (optionalDefinition.isPresent()) {
BeanDefinition<ExceptionHandler> handlerDefinition = optionalDefinition.get();
final Optional<ExecutableMethod<ExceptionHandler, Object>> optionalMethod = handlerDefinition.findPossibleMethods("handle").findFirst();
RouteInfo<Object> routeInfo;
if (optionalMethod.isPresent()) {
routeInfo = new ExecutableRouteInfo(optionalMethod.get(), true);
} else {
routeInfo = new RouteInfo<Object>() {
@Override
public ReturnType<?> getReturnType() {
return ReturnType.of(Object.class);
}
@Override
public Class<?> getDeclaringType() {
return handlerDefinition.getBeanType();
}
@Override
public boolean isErrorRoute() {
return true;
}
@Override
public List<MediaType> getProduces() {
return MediaType.fromType(getDeclaringType())
.map(Collections::singletonList)
.orElse(Collections.emptyList());
}
};
}
Flux<MutableHttpResponse<?>> reactiveSequence = Flux.defer(() -> {
ExceptionHandler handler = beanContext.getBean(handlerDefinition);
try {
if (serverConfiguration.isLogHandledExceptions()) {
logException(cause);
}
Object result = handler.handle(httpRequest, cause);
return createResponseForBody(httpRequest, result, routeInfo);
} catch (Throwable e) {
return createDefaultErrorResponsePublisher(httpRequest, e);
}
});
final ExecutorService executor = findExecutor(routeInfo);
if (executor != null) {
reactiveSequence = applyExecutorToPublisher(reactiveSequence, executor);
}
return reactiveSequence
.doOnNext(response -> response.setAttribute(HttpAttributes.EXCEPTION, cause))
.onErrorResume(throwable -> createDefaultErrorResponsePublisher(httpRequest, throwable));
} else {
if (isIgnorable(cause)) {
logIgnoredException(cause);
return Flux.empty();
} else {
return createDefaultErrorResponsePublisher(
httpRequest,
cause).flux();
}
}
}
}
/**
* Creates a default error response. Should be used when a response could not be retrieved
* from any other method.
*
* @param httpRequest The request that case the exception
* @param cause The exception that occurred
* @return A response to represent the exception
*/
public MutableHttpResponse<?> createDefaultErrorResponse(HttpRequest<?> httpRequest,
Throwable cause) {
logException(cause);
final MutableHttpResponse<Object> response = HttpResponse.serverError();
response.setAttribute(HttpAttributes.EXCEPTION, cause);
response.setAttribute(HttpAttributes.ROUTE_INFO, new RouteInfo<MutableHttpResponse>() {
@Override
public ReturnType<MutableHttpResponse> getReturnType() {
return ReturnType.of(MutableHttpResponse.class, Argument.OBJECT_ARGUMENT);
}
@Override
public Class<?> getDeclaringType() {
return Object.class;
}
@Override
public boolean isErrorRoute() {
return true;
}
});
MutableHttpResponse<?> mutableHttpResponse = errorResponseProcessor.processResponse(
ErrorContext.builder(httpRequest)
.cause(cause)
.errorMessage("Internal Server Error: " + cause.getMessage())
.build(), response);
applyConfiguredHeaders(mutableHttpResponse.getHeaders());
if (!mutableHttpResponse.getContentType().isPresent() && httpRequest.getMethod() != HttpMethod.HEAD) {
return mutableHttpResponse.contentType(MediaType.APPLICATION_JSON_TYPE);
}
return mutableHttpResponse;
}
/**
* @param request The request
* @param finalRoute The route
* @return The default content type declared on the route
*/
public MediaType resolveDefaultResponseContentType(HttpRequest<?> request, RouteInfo<?> finalRoute) {
final List<MediaType> producesList = finalRoute.getProduces();
if (request != null) {
final Iterator<MediaType> i = request.accept().iterator();
if (i.hasNext()) {
final MediaType mt = i.next();
if (producesList.contains(mt)) {
return mt;
}
}
}
MediaType defaultResponseMediaType;
final Iterator<MediaType> produces = producesList.iterator();
if (produces.hasNext()) {
defaultResponseMediaType = produces.next();
} else {
defaultResponseMediaType = MediaType.APPLICATION_JSON_TYPE;
}
return defaultResponseMediaType;
}
/**
* Executes a route.
*
* @param request The request that matched to the route
* @param executeFilters Whether or not to execute server filters
* @param routePublisher The route match publisher
* @return A response publisher
*/
public Flux<MutableHttpResponse<?>> executeRoute(
HttpRequest<?> request,
boolean executeFilters,
Flux<RouteMatch<?>> routePublisher) {
AtomicReference<HttpRequest<?>> requestReference = new AtomicReference<>(request);
return buildResultEmitter(
requestReference,
executeFilters,
routePublisher
);
}
/**
* Applies server filters to a request/response.
*
* @param requestReference The request reference
* @param upstreamResponsePublisher The original response publisher
* @return A new response publisher that executes server filters
*/
public Publisher<MutableHttpResponse<?>> filterPublisher(
AtomicReference<HttpRequest<?>> requestReference,
Publisher<MutableHttpResponse<?>> upstreamResponsePublisher) {
List<HttpFilter> httpFilters = router.findFilters(requestReference.get());
if (httpFilters.isEmpty()) {
return upstreamResponsePublisher;
}
List<HttpFilter> filters = new ArrayList<>(httpFilters);
AtomicInteger integer = new AtomicInteger();
int len = filters.size();
final Function<MutableHttpResponse<?>, Publisher<MutableHttpResponse<?>>> handleStatusException = (response) ->
handleStatusException(requestReference.get(), response);
final Function<Throwable, Publisher<MutableHttpResponse<?>>> onError = (t) ->
onError(t, requestReference.get());
ServerFilterChain filterChain = new ServerFilterChain() {
@SuppressWarnings("unchecked")
@Override
public Publisher<MutableHttpResponse<?>> proceed(io.micronaut.http.HttpRequest<?> request) {
int pos = integer.incrementAndGet();
if (pos > len) {
throw new IllegalStateException("The FilterChain.proceed(..) method should be invoked exactly once per filter execution. The method has instead been invoked multiple times by an erroneous filter definition.");
}
if (pos == len) {
return upstreamResponsePublisher;
}
HttpFilter httpFilter = filters.get(pos);
requestReference.set(request);
try {
return Flux.from((Publisher<MutableHttpResponse<?>>) httpFilter.doFilter(request, this))
.flatMap(handleStatusException)
.onErrorResume(onError);
} catch (Throwable t) {
return onError.apply(t);
}
}
};
HttpFilter httpFilter = filters.get(0);
HttpRequest<?> request = requestReference.get();
try {
return Flux.from((Publisher<MutableHttpResponse<?>>) httpFilter.doFilter(request, filterChain))
.flatMap(handleStatusException)
.onErrorResume(onError);
} catch (Throwable t) {
return onError.apply(t);
}
}
private Mono<MutableHttpResponse<?>> createDefaultErrorResponsePublisher(HttpRequest<?> httpRequest,
Throwable cause) {
return Mono.fromCallable(() -> createDefaultErrorResponse(httpRequest, cause));
}
private MutableHttpResponse<?> newNotFoundError(HttpRequest<?> request) {
MutableHttpResponse<?> response = errorResponseProcessor.processResponse(
ErrorContext.builder(request)
.errorMessage("Page Not Found")
.build(), HttpResponse.notFound());
if (!response.getContentType().isPresent() && request.getMethod() != HttpMethod.HEAD) {
return response.contentType(MediaType.APPLICATION_JSON_TYPE);
}
return response;
}
private Mono<MutableHttpResponse<?>> createNotFoundErrorResponsePublisher(HttpRequest<?> httpRequest) {
return Mono.fromCallable(() -> newNotFoundError(httpRequest));
}
private void logException(Throwable cause) {
//handling connection reset by peer exceptions
if (isIgnorable(cause)) {
logIgnoredException(cause);
} else {
if (LOG.isErrorEnabled()) {
LOG.error("Unexpected error occurred: " + cause.getMessage(), cause);
}
}
}
private boolean isIgnorable(Throwable cause) {
String message = cause.getMessage();
return cause instanceof IOException && message != null && IGNORABLE_ERROR_MESSAGE.matcher(message).matches();
}
private void logIgnoredException(Throwable cause) {
if (LOG.isDebugEnabled()) {
LOG.debug("Swallowed an IOException caused by client connectivity: " + cause.getMessage(), cause);
}
}
private RouteMatch<?> findErrorRoute(Throwable cause,
Class<?> declaringType,
HttpRequest<?> httpRequest) {
RouteMatch<?> errorRoute = null;
if (cause instanceof BeanCreationException && declaringType != null) {
// If the controller could not be instantiated, don't look for a local error route
Optional<Class> rootBeanType = ((BeanCreationException) cause).getRootBeanType().map(BeanType::getBeanType);
if (rootBeanType.isPresent() && declaringType == rootBeanType.get()) {
if (LOG.isDebugEnabled()) {
LOG.debug("Failed to instantiate [{}]. Skipping lookup of a local error route", declaringType.getName());
}
declaringType = null;
}
}
// First try to find an error route by the exception
if (declaringType != null) {
// handle error with a method that is non global with exception
errorRoute = router.findErrorRoute(declaringType, cause, httpRequest).orElse(null);
}
if (errorRoute == null) {
// handle error with a method that is global with exception
errorRoute = router.findErrorRoute(cause, httpRequest).orElse(null);
}
if (errorRoute == null) {
// Second try is by status route if the status is known
HttpStatus errorStatus = null;
if (cause instanceof UnsatisfiedRouteException) {
// when arguments do not match, then there is UnsatisfiedRouteException, we can handle this with a routed bad request
errorStatus = HttpStatus.BAD_REQUEST;
} else if (cause instanceof HttpStatusException) {
errorStatus = ((HttpStatusException) cause).getStatus();
}
if (errorStatus != null) {
if (declaringType != null) {
// handle error with a method that is non global with bad request
errorRoute = router.findStatusRoute(declaringType, errorStatus, httpRequest).orElse(null);
}
if (errorRoute == null) {
// handle error with a method that is global with bad request
errorRoute = router.findStatusRoute(errorStatus, httpRequest).orElse(null);
}
}
}
if (errorRoute != null) {
if (LOG.isDebugEnabled()) {
LOG.debug("Found matching exception handler for exception [{}]: {}", cause.getMessage(), errorRoute);
}
errorRoute = requestArgumentSatisfier.fulfillArgumentRequirements(errorRoute, httpRequest, false);
}
return errorRoute;
}
private Publisher<MutableHttpResponse<?>> handleStatusException(HttpRequest<?> request,
MutableHttpResponse<?> response) {
HttpStatus status = response.status();
RouteInfo<?> routeInfo = response.getAttribute(HttpAttributes.ROUTE_INFO, RouteInfo.class).orElse(null);
if (status.getCode() >= 400 && routeInfo != null && !routeInfo.isErrorRoute()) {
RouteMatch<Object> statusRoute = findStatusRoute(request, status, routeInfo);
if (statusRoute != null) {
return executeRoute(
request,
false,
Flux.just(statusRoute)
);
}
}
return Flux.just(response);
}
private RouteMatch<Object> findStatusRoute(HttpRequest<?> incomingRequest, HttpStatus status, RouteInfo<?> finalRoute) {
Class<?> declaringType = finalRoute.getDeclaringType();
// handle re-mapping of errors
RouteMatch<Object> statusRoute = null;
// if declaringType is not null, this means its a locally marked method handler
if (declaringType != null) {
statusRoute = router.findStatusRoute(declaringType, status, incomingRequest)
.orElseGet(() -> router.findStatusRoute(status, incomingRequest).orElse(null));
}
return statusRoute;
}
private ExecutorService findExecutor(RouteInfo<?> routeMatch) {
// Select the most appropriate Executor
ExecutorService executor;
if (routeMatch instanceof MethodReference) {
executor = executorSelector.select((MethodReference<?, ?>) routeMatch, serverConfiguration.getThreadSelection()).orElse(null);
} else {
executor = null;
}
return executor;
}
private <T> Flux<T> applyExecutorToPublisher(
Publisher<T> publisher,
@Nullable ExecutorService executor) {
if (executor != null) {
final Scheduler scheduler = Schedulers.fromExecutorService(executor);
return Flux.from(publisher)
.subscribeOn(scheduler)
.publishOn(scheduler);
} else {
return Flux.from(publisher);
}
}
private boolean isSingle(RouteInfo<?> finalRoute, Class<?> bodyClass) {
return finalRoute.isSpecifiedSingle() || (finalRoute.isSingleResult() &&
(finalRoute.isAsync() || finalRoute.isSuspended() || Publishers.isSingle(bodyClass)));
}
private MutableHttpResponse<?> toMutableResponse(HttpResponse<?> message) {
MutableHttpResponse<?> mutableHttpResponse;
if (message instanceof MutableHttpResponse) {
mutableHttpResponse = (MutableHttpResponse<?>) message;
} else {
HttpStatus httpStatus = message.status();
mutableHttpResponse = HttpResponse.status(httpStatus, httpStatus.getReason());
mutableHttpResponse.body(message.body());
message.getHeaders().forEach((name, value) -> {
for (String val : value) {
mutableHttpResponse.header(name, val);
}
});
mutableHttpResponse.getAttributes().putAll(message.getAttributes());
}
return mutableHttpResponse;
}
private Mono<MutableHttpResponse<?>> toMutableResponse(HttpRequest<?> request, RouteInfo<?> routeInfo, HttpStatus defaultHttpStatus, Object body) {
if (body instanceof HttpResponse) {
MutableHttpResponse<?> outgoingResponse = toMutableResponse((HttpResponse<?>) body);
final Argument<?> bodyArgument = routeInfo.getReturnType().getFirstTypeVariable().orElse(Argument.OBJECT_ARGUMENT);
if (bodyArgument.isAsyncOrReactive()) {
return processPublisherBody(request, outgoingResponse, routeInfo);
} else {
return Mono.just(outgoingResponse);
}
} else {
return Mono.just(forStatus(routeInfo, defaultHttpStatus)
.body(body));
}
}
private Flux<MutableHttpResponse<?>> buildRouteResponsePublisher(AtomicReference<HttpRequest<?>> requestReference,
Flux<RouteMatch<?>> routeMatchPublisher) {
// build the result emitter. This result emitter emits the response from a controller action
return routeMatchPublisher
.flatMap((route) -> {
final ExecutorService executor = findExecutor(route);
Flux<MutableHttpResponse<?>> reactiveSequence = executeRoute(requestReference, route);
if (executor != null) {
reactiveSequence = applyExecutorToPublisher(reactiveSequence, executor);
}
return reactiveSequence;
});
}
private Flux<MutableHttpResponse<?>> buildResultEmitter(
AtomicReference<HttpRequest<?>> requestReference,
boolean executeFilters,
Flux<RouteMatch<?>> routeMatchPublisher) {
Publisher<MutableHttpResponse<?>> executeRoutePublisher = buildRouteResponsePublisher(requestReference, routeMatchPublisher)
.flatMap((response) -> handleStatusException(requestReference.get(), response))
.onErrorResume((t) -> onError(t, requestReference.get()));
if (executeFilters) {
executeRoutePublisher = filterPublisher(requestReference, executeRoutePublisher);
}
return Flux.from(executeRoutePublisher);
}
private Flux<MutableHttpResponse<?>> executeRoute(AtomicReference<HttpRequest<?>> requestReference,
RouteMatch<?> routeMatch) {
return Flux.deferContextual(contextView -> {
try {
final RouteMatch<?> finalRoute;
// ensure the route requirements are completely satisfied
final HttpRequest<?> httpRequest = requestReference.get();
if (!routeMatch.isExecutable()) {
finalRoute = requestArgumentSatisfier
.fulfillArgumentRequirements(routeMatch, httpRequest, true);
} else {
finalRoute = routeMatch;
}
if (finalRoute.isSuspended() && coroutineHelper.isPresent()) {
coroutineHelper.get().setupCoroutineContext(httpRequest, contextView);
}
Object body = ServerRequestContext.with(httpRequest, (Supplier<Object>) finalRoute::execute);
if (body instanceof Optional) {
body = ((Optional<?>) body).orElse(null);
}
return createResponseForBody(httpRequest, body, finalRoute);
} catch (Throwable e) {
return Flux.error(e);
}
});
}
private Flux<MutableHttpResponse<?>> createResponseForBody(HttpRequest<?> request,
Object body,
RouteInfo<?> routeInfo) {
return Flux.<MutableHttpResponse<?>>defer(() -> {
Mono<MutableHttpResponse<?>> outgoingResponse;
if (body == null) {
if (routeInfo.isVoid()) {
MutableHttpResponse<Object> data = forStatus(routeInfo);
if (HttpMethod.permitsRequestBody(request.getMethod())) {
data.header(HttpHeaders.CONTENT_LENGTH, "0");
}
outgoingResponse = Mono.just(data);
} else {
outgoingResponse = Mono.just(newNotFoundError(request));
}
} else {
HttpStatus defaultHttpStatus = routeInfo.isErrorRoute() ? HttpStatus.INTERNAL_SERVER_ERROR : HttpStatus.OK;
boolean isReactive = routeInfo.isAsyncOrReactive() || Publishers.isConvertibleToPublisher(body);
if (isReactive) {
Class<?> bodyClass = body.getClass();
boolean isSingle = isSingle(routeInfo, bodyClass);
boolean isCompletable = !isSingle && routeInfo.isVoid() && Publishers.isCompletable(bodyClass);
if (isSingle || isCompletable) {
// full response case
Publisher<Object> publisher = Publishers.convertPublisher(body, Publisher.class);
Supplier<MutableHttpResponse<?>> emptyResponse = () -> {
MutableHttpResponse<?> singleResponse;
if (isCompletable || routeInfo.isVoid()) {
singleResponse = forStatus(routeInfo, HttpStatus.OK)
.header(HttpHeaders.CONTENT_LENGTH, "0");
} else {
singleResponse = newNotFoundError(request);
}
return singleResponse;
};
return Flux.from(publisher)
.flatMap(o -> {
MutableHttpResponse<?> singleResponse;
if (o instanceof Optional) {
Optional optional = (Optional) o;
if (optional.isPresent()) {
o = ((Optional<?>) o).get();
} else {
return Flux.just(emptyResponse.get());
}
}
if (o instanceof HttpResponse) {
singleResponse = toMutableResponse((HttpResponse<?>) o);
final Argument<?> bodyArgument = routeInfo.getReturnType() //Mono
.getFirstTypeVariable().orElse(Argument.OBJECT_ARGUMENT) //HttpResponse
.getFirstTypeVariable().orElse(Argument.OBJECT_ARGUMENT); //Mono
if (bodyArgument.isAsyncOrReactive()) {
return processPublisherBody(request, singleResponse, routeInfo);
}
} else if (o instanceof HttpStatus) {
singleResponse = forStatus(routeInfo, (HttpStatus) o);
} else {
singleResponse = forStatus(routeInfo, defaultHttpStatus)
.body(o);
}
return Flux.just(singleResponse);
})
.switchIfEmpty(Mono.fromSupplier(emptyResponse));
} else {
// streaming case
Argument<?> typeArgument = routeInfo.getReturnType().getFirstTypeVariable().orElse(Argument.OBJECT_ARGUMENT);
if (HttpResponse.class.isAssignableFrom(typeArgument.getType())) {
// a response stream
Publisher<HttpResponse<?>> bodyPublisher = Publishers.convertPublisher(body, Publisher.class);
Flux<MutableHttpResponse<?>> response = Flux.from(bodyPublisher)
.map(this::toMutableResponse);
Argument<?> bodyArgument = typeArgument.getFirstTypeVariable().orElse(Argument.OBJECT_ARGUMENT);
if (bodyArgument.isAsyncOrReactive()) {
return response.flatMap((resp) ->
processPublisherBody(request, resp, routeInfo));
}
return response;
} else {
MutableHttpResponse<?> response = forStatus(routeInfo, defaultHttpStatus).body(body);
return processPublisherBody(request, response, routeInfo);
}
}
}
// now we have the raw result, transform it as necessary
if (body instanceof HttpStatus) {
outgoingResponse = Mono.just(HttpResponse.status((HttpStatus) body));
} else {
if (routeInfo.isSuspended()) {
boolean isKotlinFunctionReturnTypeUnit =
routeInfo instanceof MethodBasedRouteMatch &&
isKotlinFunctionReturnTypeUnit(((MethodBasedRouteMatch) routeInfo).getExecutableMethod());
final Supplier<CompletableFuture<?>> supplier = ContinuationArgumentBinder.extractContinuationCompletableFutureSupplier(request);
if (isKotlinCoroutineSuspended(body)) {
return Mono.fromCompletionStage(supplier)
.<MutableHttpResponse<?>>flatMap(obj -> {
MutableHttpResponse<?> response;
if (obj instanceof HttpResponse) {
response = toMutableResponse((HttpResponse<?>) obj);
final Argument<?> bodyArgument = routeInfo.getReturnType().getFirstTypeVariable().orElse(Argument.OBJECT_ARGUMENT);
if (bodyArgument.isAsyncOrReactive()) {
return processPublisherBody(request, response, routeInfo);
}
} else {
response = forStatus(routeInfo, defaultHttpStatus);
if (!isKotlinFunctionReturnTypeUnit) {
response = response.body(obj);
}
}
return Mono.just(response);
})
.switchIfEmpty(createNotFoundErrorResponsePublisher(request));
} else {
Object suspendedBody;
if (isKotlinFunctionReturnTypeUnit) {
suspendedBody = Mono.empty();
} else {
suspendedBody = body;
}
outgoingResponse = toMutableResponse(request, routeInfo, defaultHttpStatus, suspendedBody);
}
} else {
outgoingResponse = toMutableResponse(request, routeInfo, defaultHttpStatus, body);
}
}
}
// for head request we never emit the body
if (request != null && request.getMethod().equals(HttpMethod.HEAD)) {
outgoingResponse = outgoingResponse.map(r -> {
final Object o = r.getBody().orElse(null);
if (o instanceof ReferenceCounted) {
((ReferenceCounted) o).release();
}
r.body(null);
return r;
});
}
return outgoingResponse;
})
.doOnNext((response) -> {
applyConfiguredHeaders(response.getHeaders());
if (routeInfo instanceof RouteMatch) {
response.setAttribute(HttpAttributes.ROUTE_MATCH, routeInfo);
}
response.setAttribute(HttpAttributes.ROUTE_INFO, routeInfo);
});
}
private Mono<MutableHttpResponse<?>> processPublisherBody(HttpRequest<?> request,
MutableHttpResponse<?> response,
RouteInfo<?> routeInfo) {
Object body = response.body();
if (body == null) {
return Mono.just(response);
} else if (Publishers.isSingle(body.getClass())) {
return Mono.from(Publishers.convertPublisher(body, Publisher.class)).map(b -> {
response.body(b);
return response;
});
} else {
MediaType mediaType = response.getContentType().orElseGet(() -> resolveDefaultResponseContentType(request, routeInfo));
Flux<Object> bodyPublisher = applyExecutorToPublisher(
Publishers.convertPublisher(body, Publisher.class),
findExecutor(routeInfo));
return Mono.just(response
.header(HttpHeaders.TRANSFER_ENCODING, "chunked")
.header(HttpHeaders.CONTENT_TYPE, mediaType)
.body(bodyPublisher));
}
}
private void applyConfiguredHeaders(MutableHttpHeaders headers) {
if (serverConfiguration.isDateHeader() && !headers.contains(HttpHeaders.DATE)) {
headers.date(LocalDateTime.now());
}
if (!headers.contains(HttpHeaders.SERVER)) {
serverConfiguration.getServerHeader()
.ifPresent(header -> headers.add(HttpHeaders.SERVER, header));
}
}
private MutableHttpResponse<Object> forStatus(RouteInfo<?> routeMatch) {
return forStatus(routeMatch, HttpStatus.OK);
}
private MutableHttpResponse<Object> forStatus(RouteInfo<?> routeMatch, HttpStatus defaultStatus) {
HttpStatus status = routeMatch.findStatus(defaultStatus);
return HttpResponse.status(status);
}
}