org.jboss.resteasy.reactive.client.handlers.ClientSendRequestHandler Maven / Gradle / Ivy
package org.jboss.resteasy.reactive.client.handlers;
import java.io.ByteArrayInputStream;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.net.MalformedURLException;
import java.net.URI;
import java.net.URL;
import java.nio.file.Path;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.function.Consumer;
import java.util.function.Function;
import jakarta.ws.rs.InternalServerErrorException;
import jakarta.ws.rs.ProcessingException;
import jakarta.ws.rs.client.Entity;
import jakarta.ws.rs.core.HttpHeaders;
import jakarta.ws.rs.core.MediaType;
import jakarta.ws.rs.core.MultivaluedMap;
import jakarta.ws.rs.core.Response;
import jakarta.ws.rs.core.Variant;
import jakarta.ws.rs.ext.WriterInterceptor;
import org.jboss.logging.Logger;
import org.jboss.resteasy.reactive.client.AsyncResultUni;
import org.jboss.resteasy.reactive.client.api.ClientLogger;
import org.jboss.resteasy.reactive.client.api.LoggingScope;
import org.jboss.resteasy.reactive.client.api.QuarkusRestClientProperties;
import org.jboss.resteasy.reactive.client.impl.AsyncInvokerImpl;
import org.jboss.resteasy.reactive.client.impl.InputStreamReadStream;
import org.jboss.resteasy.reactive.client.impl.RestClientRequestContext;
import org.jboss.resteasy.reactive.client.impl.multipart.PausableHttpPostRequestEncoder;
import org.jboss.resteasy.reactive.client.impl.multipart.QuarkusMultipartForm;
import org.jboss.resteasy.reactive.client.impl.multipart.QuarkusMultipartFormUpload;
import org.jboss.resteasy.reactive.client.impl.multipart.QuarkusMultipartResponseDecoder;
import org.jboss.resteasy.reactive.client.spi.ClientRestHandler;
import org.jboss.resteasy.reactive.client.spi.MultipartResponseData;
import org.jboss.resteasy.reactive.common.core.Serialisers;
import org.jboss.resteasy.reactive.common.util.MultivaluedTreeMap;
import io.netty.handler.codec.DecoderException;
import io.netty.handler.codec.http.HttpHeaderValues;
import io.netty.handler.codec.http.LastHttpContent;
import io.netty.handler.codec.http.multipart.InterfaceHttpData;
import io.smallrye.mutiny.Multi;
import io.smallrye.mutiny.Uni;
import io.smallrye.mutiny.vertx.ReadStreamSubscriber;
import io.smallrye.stork.api.ServiceInstance;
import io.vertx.core.AsyncResult;
import io.vertx.core.Future;
import io.vertx.core.Handler;
import io.vertx.core.MultiMap;
import io.vertx.core.Promise;
import io.vertx.core.Vertx;
import io.vertx.core.buffer.Buffer;
import io.vertx.core.file.AsyncFile;
import io.vertx.core.file.OpenOptions;
import io.vertx.core.http.HttpClient;
import io.vertx.core.http.HttpClientRequest;
import io.vertx.core.http.HttpClientResponse;
import io.vertx.core.http.HttpClosedException;
import io.vertx.core.http.HttpMethod;
import io.vertx.core.http.HttpVersion;
import io.vertx.core.http.RequestOptions;
import io.vertx.core.streams.Pipe;
import io.vertx.core.streams.Pump;
public class ClientSendRequestHandler implements ClientRestHandler {
private static final Logger log = Logger.getLogger(ClientSendRequestHandler.class);
public static final String CONTENT_TYPE = "Content-Type";
private final boolean followRedirects;
private final LoggingScope loggingScope;
private final ClientLogger clientLogger;
private final Map, MultipartResponseData> multipartResponseDataMap;
private final int maxChunkSize;
public ClientSendRequestHandler(int maxChunkSize, boolean followRedirects, LoggingScope loggingScope, ClientLogger logger,
Map, MultipartResponseData> multipartResponseDataMap) {
this.maxChunkSize = maxChunkSize;
this.followRedirects = followRedirects;
this.loggingScope = loggingScope;
this.clientLogger = logger;
this.multipartResponseDataMap = multipartResponseDataMap;
}
@Override
public void handle(RestClientRequestContext requestContext) {
if (requestContext.isAborted()) {
return;
}
requestContext.suspend();
Uni future = createRequest(requestContext);
// DNS failures happen before we send the request
future.subscribe().with(new Consumer<>() {
@Override
public void accept(HttpClientRequest httpClientRequest) {
// adapt headers to HTTP/2 depending on the underlying HTTP connection
ClientSendRequestHandler.this.adaptRequest(httpClientRequest);
if (requestContext.isMultipart()) {
Promise requestPromise = Promise.promise();
QuarkusMultipartFormUpload actualEntity;
try {
actualEntity = ClientSendRequestHandler.this.setMultipartHeadersAndPrepareBody(httpClientRequest,
requestContext);
if (loggingScope != LoggingScope.NONE) {
clientLogger.logRequest(httpClientRequest, null, true);
}
Pipe pipe = actualEntity.pipe(); // Shouldn't this be called in an earlier phase ?
requestPromise.future().onComplete(ar -> {
if (ar.succeeded()) {
HttpClientRequest req = ar.result();
if (httpClientRequest.headers() == null
|| !httpClientRequest.headers().contains(HttpHeaders.CONTENT_LENGTH)) {
req.setChunked(true);
}
pipe.endOnFailure(false);
pipe.to(req, ar2 -> {
if (ar2.failed()) {
req.reset(0L, ar2.cause());
}
});
actualEntity.run();
} else {
pipe.close();
}
});
Future sent = httpClientRequest.response();
requestPromise.complete(httpClientRequest);
attachSentHandlers(sent, httpClientRequest, requestContext);
} catch (Throwable e) {
reportFinish(e, requestContext);
requestContext.resume(e);
return;
}
} else if (requestContext.isFileUpload()) {
Vertx vertx = Vertx.currentContext().owner();
Object entity = requestContext.getEntity().getEntity();
String filePathToUpload = null;
if (entity instanceof File) {
filePathToUpload = ((File) entity).getAbsolutePath();
} else if (entity instanceof Path) {
filePathToUpload = ((Path) entity).toAbsolutePath().toString();
}
vertx.fileSystem()
.open(filePathToUpload, new OpenOptions().setRead(true).setWrite(false),
new Handler<>() {
@Override
public void handle(AsyncResult openedAsyncFile) {
if (openedAsyncFile.failed()) {
requestContext.resume(openedAsyncFile.cause());
return;
}
MultivaluedMap headerMap = requestContext.getRequestHeadersAsMap();
updateRequestHeadersFromConfig(requestContext, headerMap);
// set the Vertx headers after we've run the interceptors because they can modify them
setVertxHeaders(httpClientRequest, headerMap);
Future sent = httpClientRequest.send(openedAsyncFile.result());
attachSentHandlers(sent, httpClientRequest, requestContext);
}
});
} else if (requestContext.isInputStreamUpload() && !hasWriterInterceptors(requestContext)) {
MultivaluedMap headerMap = requestContext.getRequestHeadersAsMap();
updateRequestHeadersFromConfig(requestContext, headerMap);
setVertxHeaders(httpClientRequest, headerMap);
Future sent = httpClientRequest.send(
new InputStreamReadStream(
Vertx.currentContext().owner(), (InputStream) requestContext.getEntity().getEntity(),
httpClientRequest));
attachSentHandlers(sent, httpClientRequest, requestContext);
} else if (requestContext.isMultiBufferUpload()) {
MultivaluedMap headerMap = requestContext.getRequestHeadersAsMap();
updateRequestHeadersFromConfig(requestContext, headerMap);
setVertxHeaders(httpClientRequest, headerMap);
Future sent = httpClientRequest.send(ReadStreamSubscriber.asReadStream(
(Multi) requestContext.getEntity().getEntity(),
new Function<>() {
@Override
public Buffer apply(io.vertx.mutiny.core.buffer.Buffer buffer) {
return buffer.getDelegate();
}
}));
attachSentHandlers(sent, httpClientRequest, requestContext);
} else {
Future sent;
Buffer actualEntity;
try {
actualEntity = ClientSendRequestHandler.this
.setRequestHeadersAndPrepareBody(httpClientRequest, requestContext);
} catch (Throwable e) {
requestContext.resume(e);
return;
}
if (actualEntity == AsyncInvokerImpl.EMPTY_BUFFER) {
sent = httpClientRequest.send();
if (loggingScope != LoggingScope.NONE) {
clientLogger.logRequest(httpClientRequest, null, false);
}
} else {
sent = httpClientRequest.send(actualEntity);
if (loggingScope != LoggingScope.NONE) {
clientLogger.logRequest(httpClientRequest, actualEntity, false);
}
}
attachSentHandlers(sent, httpClientRequest, requestContext);
}
}
}, new Consumer<>() {
@Override
public void accept(Throwable event) {
// set some properties to prevent NPEs down the chain
requestContext.setResponseHeaders(new MultivaluedTreeMap<>());
requestContext.setResponseReasonPhrase("unknown");
if (event instanceof IOException) {
ProcessingException throwable = new ProcessingException(event);
reportFinish(throwable, requestContext);
requestContext.resume(throwable);
} else {
requestContext.resume(event);
reportFinish(event, requestContext);
}
}
});
}
private void attachSentHandlers(Future sent,
HttpClientRequest httpClientRequest,
RestClientRequestContext requestContext) {
sent.onSuccess(new Handler<>() {
@Override
public void handle(HttpClientResponse clientResponse) {
try {
requestContext.initialiseResponse(clientResponse);
int status = clientResponse.statusCode();
if (requestContext.getCallStatsCollector() != null) {
if (status >= 500 && status < 600) {
reportFinish(new InternalServerErrorException(),
requestContext);
} else {
reportFinish(null, requestContext);
}
}
if (isResponseMultipart(requestContext)) {
QuarkusMultipartResponseDecoder multipartDecoder = new QuarkusMultipartResponseDecoder(
clientResponse);
clientResponse.handler(multipartDecoder::offer);
clientResponse.endHandler(new Handler<>() {
@Override
public void handle(Void event) {
multipartDecoder.offer(LastHttpContent.EMPTY_LAST_CONTENT);
List datas = multipartDecoder.getBodyHttpDatas();
requestContext.setResponseMultipartParts(datas);
if (loggingScope != LoggingScope.NONE) {
clientLogger.logResponse(clientResponse, false);
}
requestContext.resume();
}
});
} else if (!requestContext.isRegisterBodyHandler()
&& (Response.Status.Family.familyOf(status) == Response.Status.Family.SUCCESSFUL)) { // we force the registration of a body handler if there was an error, so we can ensure the body can be read
clientResponse.pause();
if (loggingScope != LoggingScope.NONE) {
clientLogger.logResponse(clientResponse, false);
}
requestContext.resume();
} else {
if (requestContext.isFileDownload()) {
// when downloading a file we copy the bytes to the file system and manually set the entity type
// this is needed because large files can cause OOM or exceed the InputStream limit (of 2GB)
clientResponse.pause();
Vertx vertx = Vertx.currentContext().owner();
vertx.fileSystem().createTempFile("rest-client", "",
new Handler<>() {
@Override
public void handle(AsyncResult tempFileCreation) {
if (tempFileCreation.failed()) {
reportFinish(tempFileCreation.cause(), requestContext);
requestContext.resume(tempFileCreation.cause());
return;
}
String tmpFilePath = tempFileCreation.result();
vertx.fileSystem().open(tmpFilePath,
new OpenOptions().setWrite(true),
new Handler<>() {
@Override
public void handle(AsyncResult asyncFileOpened) {
if (asyncFileOpened.failed()) {
reportFinish(asyncFileOpened.cause(), requestContext);
requestContext.resume(asyncFileOpened.cause());
return;
}
final AsyncFile tmpAsyncFile = asyncFileOpened.result();
final Pump downloadPump = Pump.pump(clientResponse,
tmpAsyncFile);
downloadPump.start();
clientResponse.resume();
clientResponse.endHandler(new Handler<>() {
public void handle(Void event) {
tmpAsyncFile.flush(new Handler<>() {
public void handle(AsyncResult flushed) {
if (flushed.failed()) {
reportFinish(flushed.cause(),
requestContext);
requestContext.resume(flushed.cause());
return;
}
if (loggingScope != LoggingScope.NONE) {
clientLogger.logRequest(
httpClientRequest, null, false);
}
requestContext.setTmpFilePath(tmpFilePath);
requestContext.resume();
}
});
}
});
}
});
}
});
} else if (requestContext.isInputStreamDownload()) {
if (loggingScope != LoggingScope.NONE) {
clientLogger.logResponse(clientResponse, false);
}
//TODO: make timeout configureable
requestContext
.setResponseEntityStream(
new VertxClientInputStream(clientResponse, 100000, requestContext));
requestContext.resume();
} else {
clientResponse.body(new Handler<>() {
@Override
public void handle(AsyncResult ar) {
if (ar.succeeded()) {
if (loggingScope != LoggingScope.NONE) {
clientLogger.logResponse(clientResponse, false);
}
Buffer buffer = ar.result();
try {
if (buffer.length() > 0) {
requestContext.setResponseEntityStream(
new ByteArrayInputStream(buffer.getBytes()));
} else {
requestContext.setResponseEntityStream(null);
}
requestContext.resume();
} catch (Throwable t) {
requestContext.resume(t);
}
} else {
requestContext.resume(ar.cause());
}
}
});
}
}
} catch (Throwable t) {
reportFinish(t, requestContext);
requestContext.resume(t);
}
}
})
.onFailure(new Handler<>() {
@Override
public void handle(Throwable failure) {
if (failure instanceof HttpClosedException || failure instanceof DecoderException) {
// This is because of the Rest Client TCK
// HttpClosedException / DecoderException are runtime exceptions. If we complete with that
// exception, it gets unwrapped by the rest client proxy and thus fails the TCK.
// By creating an IOException, we avoid that and provide a meaningful exception (because
// it's an I/O exception)
requestContext.resume(new ProcessingException(new IOException(failure.getMessage())));
} else if (failure instanceof IOException) {
requestContext.resume(new ProcessingException(failure));
} else {
requestContext.resume(failure);
}
}
});
}
private boolean isResponseMultipart(RestClientRequestContext requestContext) {
MultivaluedMap responseHeaders = requestContext.getResponseHeaders();
List contentTypes = responseHeaders.get(CONTENT_TYPE);
if (contentTypes != null) {
for (String contentType : contentTypes) {
if (contentType.toLowerCase(Locale.ROOT).startsWith(MediaType.MULTIPART_FORM_DATA)) {
return true;
}
}
}
return false;
}
private void reportFinish(Throwable throwable, RestClientRequestContext requestContext) {
ServiceInstance serviceInstance = requestContext.getCallStatsCollector();
if (serviceInstance != null) {
serviceInstance.recordReply();
serviceInstance.recordEnd(throwable);
}
}
public Uni createRequest(RestClientRequestContext state) {
HttpClient httpClient = state.getHttpClient();
URI uri = state.getUri();
Object readTimeout = state.getConfiguration().getProperty(QuarkusRestClientProperties.READ_TIMEOUT);
Uni requestOptions;
state.setMultipartResponsesData(multipartResponseDataMap);
if (uri.getScheme() == null) { // invalid URI
return Uni.createFrom()
.failure(new IllegalArgumentException("Invalid REST Client URL used: '" + uri + "'"));
}
try {
URL ignored = uri.toURL();
} catch (MalformedURLException mue) {
log.error("Invalid REST Client URL used: '" + uri + "'");
return Uni.createFrom()
.failure(new IllegalArgumentException("Invalid REST Client URL used: '" + uri + "'"));
}
boolean isHttps = "https".equals(uri.getScheme());
int port = getPort(isHttps, uri.getPort());
requestOptions = Uni.createFrom().item(new RequestOptions().setHost(uri.getHost())
.setPort(port).setSsl(isHttps));
return requestOptions.onItem()
.transform(r -> r.setMethod(HttpMethod.valueOf(state.getHttpMethod()))
.setURI(uri.getRawPath() + (uri.getRawQuery() == null ? "" : "?" + uri.getRawQuery()))
.setFollowRedirects(followRedirects))
.onItem().invoke(r -> {
if (readTimeout instanceof Long) {
r.setTimeout((Long) readTimeout);
}
})
.onItem().transformToUni(new Function>() {
@Override
public Uni apply(RequestOptions options) {
return AsyncResultUni.toUni(handler -> httpClient.request(options, handler));
}
});
}
private boolean shouldMeasureTime(RestClientRequestContext state) {
return !Multi.class.equals(state.getResponseType().getRawType());
}
private int getPort(boolean isHttps, int specifiedPort) {
return specifiedPort != -1 ? specifiedPort : defaultPort(isHttps);
}
private int defaultPort(boolean isHttps) {
return isHttps ? 443 : 80;
}
private QuarkusMultipartFormUpload setMultipartHeadersAndPrepareBody(HttpClientRequest httpClientRequest,
RestClientRequestContext state) throws Exception {
if (!(state.getEntity().getEntity() instanceof QuarkusMultipartForm)) {
throw new IllegalArgumentException(
"Multipart form upload expects an entity of type MultipartForm, got: " + state.getEntity().getEntity());
}
MultivaluedMap headerMap = state.getRequestHeadersAsMap();
updateRequestHeadersFromConfig(state, headerMap);
QuarkusMultipartForm multipartForm = (QuarkusMultipartForm) state.getEntity().getEntity();
multipartForm.preparePojos(state);
Object property = state.getConfiguration().getProperty(QuarkusRestClientProperties.MULTIPART_ENCODER_MODE);
PausableHttpPostRequestEncoder.EncoderMode mode = PausableHttpPostRequestEncoder.EncoderMode.RFC1738;
if (property != null) {
mode = (PausableHttpPostRequestEncoder.EncoderMode) property;
}
QuarkusMultipartFormUpload multipartFormUpload = new QuarkusMultipartFormUpload(Vertx.currentContext(), multipartForm,
true, maxChunkSize, mode);
httpClientRequest.setChunked(multipartFormUpload.isChunked());
setEntityRelatedHeaders(headerMap, state.getEntity());
// multipart has its own headers:
MultiMap multipartHeaders = multipartFormUpload.headers();
for (String multipartHeader : multipartHeaders.names()) {
headerMap.put(multipartHeader, multipartHeaders.getAll(multipartHeader));
}
if (state.getEntity().getVariant() != null) {
Variant v = state.getEntity().getVariant();
String variantContentType = v.getMediaType().toString();
String multipartContentType = headerMap.getFirst(HttpHeaders.CONTENT_TYPE);
if (multipartContentType.startsWith(HttpHeaderValues.MULTIPART_FORM_DATA.toString())
&& !variantContentType.startsWith(HttpHeaderValues.MULTIPART_FORM_DATA.toString())) {
// this is a total hack whose purpose is to allow the @Consumes annotation to override the media type
int semicolonIndex = multipartContentType.indexOf(';');
headerMap.put(HttpHeaders.CONTENT_TYPE,
List.of(variantContentType + multipartContentType.substring(semicolonIndex)));
}
}
setVertxHeaders(httpClientRequest, headerMap);
return multipartFormUpload;
}
private Buffer setRequestHeadersAndPrepareBody(HttpClientRequest httpClientRequest,
RestClientRequestContext state)
throws IOException {
MultivaluedMap headerMap = state.getRequestHeadersAsMap();
updateRequestHeadersFromConfig(state, headerMap);
Buffer actualEntity = AsyncInvokerImpl.EMPTY_BUFFER;
Entity entity = state.getEntity();
if (entity != null) {
// no need to set the entity.getMediaType, it comes from the variant
setEntityRelatedHeaders(headerMap, entity);
actualEntity = state.writeEntity(entity, headerMap, getWriterInterceptors(state));
} else {
// some servers don't like the fact that a POST or PUT does not have a method body if there is no content-length header associated
if (state.getHttpMethod().equals("POST") || state.getHttpMethod().equals("PUT")) {
headerMap.putSingle(HttpHeaders.CONTENT_LENGTH, "0");
}
}
// set the Vertx headers after we've run the interceptors because they can modify them
setVertxHeaders(httpClientRequest, headerMap);
return actualEntity;
}
private WriterInterceptor[] getWriterInterceptors(RestClientRequestContext context) {
return context.getConfiguration().getWriterInterceptors().toArray(Serialisers.NO_WRITER_INTERCEPTOR);
}
private boolean hasWriterInterceptors(RestClientRequestContext context) {
WriterInterceptor[] interceptors = getWriterInterceptors(context);
return interceptors != null && interceptors.length > 0;
}
private void adaptRequest(HttpClientRequest request) {
if (request.version() == HttpVersion.HTTP_2) {
// When using the protocol HTTP/2, Netty which is internally used by Vert.x will validate the headers and reject
// the requests with invalid metadata.
// When we start a new connection, the Vert.x client will automatically upgrade the first request we make to be
// valid in HTTP/2.
// The problem is that in next requests, the Vert.x client reuses the same connection within the same window time
// and hence does not upgrade the following requests. Therefore, even though the first request works fine, the
// next requests won't work.
// This has been reported in https://github.com/eclipse-vertx/vert.x/issues/4618.
// To workaround this issue, we need to "upgrade" the next requests by ourselves when the version is already set
// to HTTP/2:
if (request.path() == null || request.path().length() == 0) {
// HTTP/2 does not allow empty paths
request.setURI(request.getURI() + "/");
}
}
}
private void updateRequestHeadersFromConfig(RestClientRequestContext state, MultivaluedMap headerMap) {
Object staticHeaders = state.getConfiguration().getProperty(QuarkusRestClientProperties.STATIC_HEADERS);
if (staticHeaders instanceof Map) {
for (Map.Entry entry : ((Map) staticHeaders).entrySet()) {
headerMap.putSingle(entry.getKey(), entry.getValue());
}
}
}
private void setVertxHeaders(HttpClientRequest httpClientRequest, MultivaluedMap headerMap) {
MultiMap vertxHttpHeaders = httpClientRequest.headers();
for (Map.Entry> entry : headerMap.entrySet()) {
vertxHttpHeaders.add(entry.getKey(), entry.getValue());
}
}
private void setEntityRelatedHeaders(MultivaluedMap headerMap, Entity entity) {
if (entity.getVariant() != null) {
Variant v = entity.getVariant();
if (!headerMap.containsKey(HttpHeaders.CONTENT_TYPE)) {
headerMap.putSingle(HttpHeaders.CONTENT_TYPE, v.getMediaType().toString());
}
if ((v.getLanguageString() != null) && !headerMap.containsKey(HttpHeaders.CONTENT_LANGUAGE)) {
headerMap.putSingle(HttpHeaders.CONTENT_LANGUAGE, v.getLanguageString());
}
if ((v.getEncoding() != null) && !headerMap.containsKey(HttpHeaders.CONTENT_ENCODING)) {
headerMap.putSingle(HttpHeaders.CONTENT_ENCODING, v.getEncoding());
}
}
}
}
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