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//
// ========================================================================
// Copyright (c) 1995 Mort Bay Consulting Pty Ltd and others.
//
// This program and the accompanying materials are made available under the
// terms of the Eclipse Public License v. 2.0 which is available at
// https://www.eclipse.org/legal/epl-2.0, or the Apache License, Version 2.0
// which is available at https://www.apache.org/licenses/LICENSE-2.0.
//
// SPDX-License-Identifier: EPL-2.0 OR Apache-2.0
// ========================================================================
//
package org.eclipse.jetty.server;
import java.io.InputStream;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.SocketAddress;
import java.nio.ByteBuffer;
import java.nio.charset.Charset;
import java.nio.charset.IllegalCharsetNameException;
import java.nio.charset.UnsupportedCharsetException;
import java.nio.file.Path;
import java.security.Principal;
import java.util.ArrayList;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.TimeoutException;
import java.util.function.Consumer;
import java.util.function.Function;
import java.util.function.Predicate;
import org.eclipse.jetty.http.ComplianceViolation;
import org.eclipse.jetty.http.HttpCookie;
import org.eclipse.jetty.http.HttpField;
import org.eclipse.jetty.http.HttpFields;
import org.eclipse.jetty.http.HttpHeader;
import org.eclipse.jetty.http.HttpScheme;
import org.eclipse.jetty.http.HttpURI;
import org.eclipse.jetty.http.MetaData;
import org.eclipse.jetty.http.MimeTypes;
import org.eclipse.jetty.http.MultiPartCompliance;
import org.eclipse.jetty.http.MultiPartConfig;
import org.eclipse.jetty.http.Trailers;
import org.eclipse.jetty.io.Content;
import org.eclipse.jetty.io.EndPoint;
import org.eclipse.jetty.server.internal.CompletionStreamWrapper;
import org.eclipse.jetty.server.internal.HttpChannelState;
import org.eclipse.jetty.util.Attributes;
import org.eclipse.jetty.util.Callback;
import org.eclipse.jetty.util.Fields;
import org.eclipse.jetty.util.HostPort;
import org.eclipse.jetty.util.NanoTime;
import org.eclipse.jetty.util.StringUtil;
import org.eclipse.jetty.util.URIUtil;
import org.eclipse.jetty.util.UrlEncoded;
import org.eclipse.jetty.util.annotation.ManagedAttribute;
import org.eclipse.jetty.util.annotation.ManagedObject;
import org.eclipse.jetty.util.thread.Invocable;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* The representation of an HTTP request, for any protocol version (HTTP/1.1, HTTP/2, HTTP/3).
* The typical idiom to read request content is the following:
* {@code
* public boolean handle(Request request, Response response, Callback callback)
* {
* // Reject requests not appropriate for this handler.
* if (!request.getHttpURI().getPath().startsWith("/yourPath"))
* return false;
*
* while (true)
* {
* Content.Chunk chunk = request.read();
* if (chunk == null)
* {
* // The chunk is not currently available, demand to be called back.
* request.demand(() -> handle(request, response, callback));
* return true;
* }
*
* if (Content.Chunk.isError(chunk))
* {
* Throwable failure = error.getCause();
*
* // Handle errors.
* // If the chunk is not last, then the error can be ignored and reading can be tried again.
* // Otherwise, if the chunk is last, or we do not wish to ignore a non-last error, then
* // mark the handling as complete, either generating a custom
* // response and succeeding the callback, or failing the callback.
* callback.failed(failure);
* return true;
* }
*
* if (chunk instanceof Trailers trailers)
* {
* HttpFields fields = trailers.getTrailers();
*
* // Handle trailers.
*
* // Generate a response.
*
* // Mark the handling as complete.
* callback.succeeded();
*
* return true;
* }
*
* // Normal chunk, process it.
* processChunk(chunk);
* // Release the content after processing.
* chunk.release();
*
* // Reached end-of-file?
* if (chunk.isLast())
* {
* // Generate a response.
*
* // Mark the handling as complete.
* callback.succeeded();
*
* return true;
* }
* }
* }
* }
*/
public interface Request extends Attributes, Content.Source
{
Logger LOG = LoggerFactory.getLogger(Request.class);
String COOKIE_ATTRIBUTE = Request.class.getCanonicalName() + ".Cookies";
List DEFAULT_LOCALES = List.of(Locale.getDefault());
/**
* an ID unique within the lifetime scope of the {@link ConnectionMetaData#getId()}).
* This may be a protocol ID (e.g. HTTP/2 stream ID) or it may be unrelated to the protocol.
*
* @see HttpStream#getId()
*/
String getId();
/**
* @return the {@link Components} to be used with this {@code Request}.
*/
Components getComponents();
/**
* @return the {@code ConnectionMetaData} associated to this {@code Request}
*/
ConnectionMetaData getConnectionMetaData();
/**
* @return the HTTP method of this {@code Request}
*/
String getMethod();
/**
* @return the HTTP URI of this {@code Request}
* @see #getContextPath(Request)
* @see #getPathInContext(Request)
*/
HttpURI getHttpURI();
/**
* Get the {@link Context} associated with this {@code Request}.
* Note that a {@code Request} should always have an associated {@link Context} since if the
* {@code Request} is not being handled by a {@link org.eclipse.jetty.server.handler.ContextHandler} then
* the {@link Context} from {@link Server#getContext()} will be used.
* @return the {@link Context} associated with this {@code Request}. Never {@code null}.
* @see org.eclipse.jetty.server.handler.ContextHandler
* @see Server#getContext()
*/
Context getContext();
/**
* Get the context path of this {@code Request}.
* This is equivalent to {@code request.getContext().getContextPath()}.
*
* @param request The request to get the context path from.
* @return The encoded context path of the {@link Context} or {@code null}.
* @see #getContext()
* @see Context#getContextPath()
* @see Server#getContext()
*/
static String getContextPath(Request request)
{
return request.getContext().getContextPath();
}
/**
*
Returns the canonically encoded path of the URI, scoped to the current context.
* For example, when the request has a {@link Context} with {@code contextPath=/ctx} and the request's
* {@link HttpURI} canonical path is {@code canonicalPath=/ctx/foo}, then {@code pathInContext=/foo}.
*
* @return The part of the canonically encoded path of the URI after any context path prefix has been removed.
* @see HttpURI#getCanonicalPath()
* @see Context#getContextPath()
*/
static String getPathInContext(Request request)
{
return request.getContext().getPathInContext(request.getHttpURI().getCanonicalPath());
}
/**
* @return the HTTP headers of this {@code Request}
*/
HttpFields getHeaders();
/**
* {@inheritDoc}
* @param demandCallback the demand callback to invoke when there is a content chunk available.
* @see Content.Source#demand(Runnable)
*/
@Override
void demand(Runnable demandCallback);
/**
* @return the HTTP trailers of this {@code Request}, or {@code null} if they are not present
*/
HttpFields getTrailers();
/**
* Get the millisecond timestamp at which the request was created, obtained with {@link System#currentTimeMillis()}.
* This method should be used for wall clock time, rather than {@link #getHeadersNanoTime()},
* which is appropriate for measuring latencies.
* @return The timestamp that the request was received/created in milliseconds
*/
static long getTimeStamp(Request request)
{
return System.currentTimeMillis() - NanoTime.millisSince(request.getHeadersNanoTime());
}
/**
* Get the nanoTime at which the request arrived to a connector, obtained via {@link System#nanoTime()}.
* This method can be used when measuring latencies.
* @return The nanoTime at which the request was received/created in nanoseconds
*/
long getBeginNanoTime();
/**
* Get the nanoTime at which the request headers were parsed, obtained via {@link System#nanoTime()}.
* This method can be used when measuring latencies.
* @return The nanoTime at which the request was ready in nanoseconds
*/
long getHeadersNanoTime();
// TODO: see above.
boolean isSecure();
/**
* {@inheritDoc}
* In addition, the returned {@link Content.Chunk} may be a
* {@link Trailers} instance, in case of request content trailers.
*/
@Override
Content.Chunk read();
/**
* Consume any available content. This bypasses any request wrappers to process the content in
* {@link Request#read()} and reads directly from the {@link HttpStream}. This reads until
* there is no content currently available, or it reaches EOF.
* The {@link HttpConfiguration#setMaxUnconsumedRequestContentReads(int)} configuration can be used
* to configure how many reads will be attempted by this method.
* @return true if the content was fully consumed.
*/
boolean consumeAvailable();
/**
* Pushes the given {@code resource} to the client.
*
* @param resource the resource to push
* @throws UnsupportedOperationException if the push functionality is not supported
* @see ConnectionMetaData#isPushSupported()
*/
default void push(MetaData.Request resource)
{
throw new UnsupportedOperationException();
}
/**
* Adds a listener for idle timeouts.
* The listener is a predicate function that should return {@code true} to indicate
* that the idle timeout should be handled by the container as a fatal failure
* (see {@link #addFailureListener(Consumer)}); or {@code false} to ignore that specific
* timeout and for another timeout to occur after another idle period.
* Idle timeout listeners are only invoked if there are no pending
* {@link #demand(Runnable)} or {@link Response#write(boolean, ByteBuffer, Callback)}
* operations.
* Listeners are processed in the same order they are added, and the first that
* returns {@code true} stops the processing of subsequent listeners, which are
* therefore not invoked.
*
* @param onIdleTimeout the idle timeout listener as a predicate function
* @see #addFailureListener(Consumer)
*/
void addIdleTimeoutListener(Predicate onIdleTimeout);
/**
* Adds a listener for asynchronous fatal failures.
* When a listener is called, the effects of the failure have already taken place:
*
* - Pending {@link #demand(Runnable)} have been woken up.
* - Calls to {@link #read()} will return the {@code Throwable} failure.
* - Pending and new {@link Response#write(boolean, ByteBuffer, Callback)} calls
* will be failed by calling {@link Callback#failed(Throwable)} on the callback
* passed to {@link Response#write(boolean, ByteBuffer, Callback)}.
*
* Listeners are processed in the same order they are added.
*
* @param onFailure the failure listener as a consumer function
* @see #addIdleTimeoutListener(Predicate)
*/
void addFailureListener(Consumer onFailure);
TunnelSupport getTunnelSupport();
/**
* Add a {@link HttpStream.Wrapper} to the current {@link HttpStream}.
* @param wrapper A function that wraps the passed stream.
* @see #addCompletionListener(Request, Consumer)
*/
void addHttpStreamWrapper(Function wrapper);
/**
* Adds a completion listener that is an optimized equivalent to overriding the
* {@link HttpStream#succeeded()} and {@link HttpStream#failed(Throwable)} methods of a
* {@link HttpStream.Wrapper} created by a call to {@link #addHttpStreamWrapper(Function)}.
* Because adding completion listeners relies on {@link HttpStream} wrapping,
* the completion listeners are invoked in reverse order they are added.
* In the case of a failure, the {@link Throwable} cause is passed to the listener, but unlike
* {@link #addFailureListener(Consumer)} listeners, which are called when the failure occurs, completion
* listeners are called only once the {@link HttpStream} is completed at the very end of processing.
*
* @param listener A {@link Consumer} of {@link Throwable} to call when the request handling is complete.
* The listener is passed a {@code null} {@link Throwable} on success.
* @see #addHttpStreamWrapper(Function)
*/
static void addCompletionListener(Request request, Consumer listener)
{
request.addHttpStreamWrapper(stream ->
{
if (stream instanceof CompletionStreamWrapper completionStreamWrapper)
return completionStreamWrapper.addListener(listener);
return new CompletionStreamWrapper(stream, listener);
});
}
/**
* Get a {@link Session} associated with the request.
* Sessions may not be supported by a given configuration, in which case
* {@code null} will be returned.
* @param create True if the session should be created for the request.
* @return The session associated with the request or {@code null}.
*/
Session getSession(boolean create);
/**
* Returns a copy of the request that throws {@link UnsupportedOperationException}
* from all mutative methods.
* @return a copy of the request
*/
static Request asReadOnly(Request request)
{
return new Request.Wrapper(request)
{
@Override
public void addHttpStreamWrapper(Function wrapper)
{
throw new UnsupportedOperationException();
}
@Override
public Content.Chunk read()
{
throw new UnsupportedOperationException();
}
@Override
public void demand(Runnable demandCallback)
{
throw new UnsupportedOperationException();
}
@Override
public void fail(Throwable failure)
{
throw new UnsupportedOperationException();
}
};
}
static String getHostName(InetSocketAddress inetSocketAddress)
{
if (inetSocketAddress.isUnresolved())
return inetSocketAddress.getHostString();
InetAddress address = inetSocketAddress.getAddress();
String result = address == null
? inetSocketAddress.getHostString()
: address.getHostAddress();
return HostPort.normalizeHost(result);
}
static String getLocalAddr(Request request)
{
if (request == null)
return null;
SocketAddress local = request.getConnectionMetaData().getLocalSocketAddress();
if (local instanceof InetSocketAddress inetSocketAddress)
return getHostName(inetSocketAddress);
return local == null ? null : local.toString();
}
static int getLocalPort(Request request)
{
if (request == null)
return -1;
SocketAddress local = request.getConnectionMetaData().getLocalSocketAddress();
if (local instanceof InetSocketAddress)
return ((InetSocketAddress)local).getPort();
return -1;
}
static String getRemoteAddr(Request request)
{
if (request == null)
return null;
SocketAddress remote = request.getConnectionMetaData().getRemoteSocketAddress();
if (remote instanceof InetSocketAddress inetSocketAddress)
return getHostName(inetSocketAddress);
return remote == null ? null : remote.toString();
}
static int getRemotePort(Request request)
{
if (request == null)
return -1;
SocketAddress remote = request.getConnectionMetaData().getRemoteSocketAddress();
if (remote instanceof InetSocketAddress)
return ((InetSocketAddress)remote).getPort();
return -1;
}
/**
* Get the logical name the request was sent to, which may be from the authority of the
* request; the configured server authority; the actual network name of the server;
* @param request The request to get the server name of
* @return The logical server name or null if it cannot be determined.
*/
static String getServerName(Request request)
{
if (request == null)
return null;
HttpURI uri = request.getHttpURI();
if (uri.hasAuthority())
return HostPort.normalizeHost(uri.getHost());
HostPort authority = request.getConnectionMetaData().getServerAuthority();
if (authority != null)
return authority.getHost();
return null;
}
/**
* Get the logical port a request was received on, which may be from the authority of the request; the
* configured server authority; the default port for the scheme; or the actual network port.
* @param request The request to get the port of
* @return The port for the request if it can be determined, otherwise -1
*/
static int getServerPort(Request request)
{
if (request == null)
return -1;
// Does the request have an explicit port?
HttpURI uri = request.getHttpURI();
if (uri.hasAuthority() && uri.getPort() > 0)
return uri.getPort();
// Is there a configured server authority?
HostPort authority = request.getConnectionMetaData().getHttpConfiguration().getServerAuthority();
if (authority != null && authority.getPort() > 0)
return authority.getPort();
// Is there a scheme with a default port?
HttpScheme scheme = HttpScheme.CACHE.get(request.getHttpURI().getScheme());
if (scheme != null && scheme.getDefaultPort() > 0)
return scheme.getDefaultPort();
// Is there a local port?
SocketAddress local = request.getConnectionMetaData().getLocalSocketAddress();
if (local instanceof InetSocketAddress inetSocketAddress && inetSocketAddress.getPort() > 0)
return inetSocketAddress.getPort();
return -1;
}
static List getLocales(Request request)
{
HttpFields fields = request.getHeaders();
if (fields == null)
return DEFAULT_LOCALES;
List acceptable = fields.getQualityCSV(HttpHeader.ACCEPT_LANGUAGE);
// return sorted list of locals, with known locales in quality order before unknown locales in quality order
return switch (acceptable.size())
{
case 0 -> DEFAULT_LOCALES;
case 1 -> List.of(Locale.forLanguageTag(acceptable.get(0)));
default ->
{
List locales = acceptable.stream().map(Locale::forLanguageTag).toList();
List known = locales.stream().filter(MimeTypes::isKnownLocale).toList();
if (known.size() == locales.size())
yield locales; // All locales are known
List unknown = locales.stream().filter(l -> !MimeTypes.isKnownLocale(l)).toList();
locales = new ArrayList<>(known);
locales.addAll(unknown);
yield locales; // List of known locales before unknown locales
}
};
}
static InputStream asInputStream(Request request)
{
return Content.Source.asInputStream(request);
}
/**
* Get a {@link Charset} from the request {@link HttpHeader#CONTENT_TYPE}, if any.
* @param request The request.
* @return A {@link Charset} or null
* @throws IllegalCharsetNameException If the charset name is illegal
* @throws UnsupportedCharsetException If no support for the charset is available
*/
static Charset getCharset(Request request) throws IllegalCharsetNameException, UnsupportedCharsetException
{
HttpField contentType = request.getHeaders().getField(HttpHeader.CONTENT_TYPE);
if (contentType == null)
return null;
return Objects.requireNonNullElse(request.getContext().getMimeTypes(), MimeTypes.DEFAULTS).getCharset(contentType);
}
static Fields extractQueryParameters(Request request)
{
String query = request.getHttpURI().getQuery();
if (StringUtil.isBlank(query))
return Fields.EMPTY;
Fields fields = new Fields(true);
if (StringUtil.isNotBlank(query))
UrlEncoded.decodeUtf8To(query, fields);
return fields;
}
static Fields extractQueryParameters(Request request, Charset charset)
{
Fields fields = new Fields(true);
String query = request.getHttpURI().getQuery();
if (StringUtil.isNotBlank(query))
UrlEncoded.decodeTo(query, fields::add, charset);
return fields;
}
static Fields getParameters(Request request) throws Exception
{
return getParametersAsync(request).get();
}
static CompletableFuture getParametersAsync(Request request)
{
Fields queryFields = Request.extractQueryParameters(request);
CompletableFuture contentFields = FormFields.from(request);
return contentFields.thenApply(formFields -> Fields.combine(queryFields, formFields));
}
@SuppressWarnings("unchecked")
static List getCookies(Request request)
{
return CookieCache.getCookies(request);
}
/**
* Get a {@link MultiPartConfig.Builder} given a {@link Request} and a location.
*
* If the location is null this will extract the {@link Context} temp directory from the request.
* The {@code maxHeaderSize}, {@link MultiPartCompliance}, {@link ComplianceViolation.Listener}
* are also extracted from the request. Additional settings can be configured through the
* {@link MultiPartConfig.Builder} which is returned.
*
* @param request the request.
* @param location the temp directory location, or null to use the context default.
* @return a {@link MultiPartConfig} with settings extracted from the request.
*/
static MultiPartConfig.Builder getMultiPartConfig(Request request, Path location)
{
HttpChannel httpChannel = HttpChannel.from(request);
HttpConfiguration httpConfiguration = request.getConnectionMetaData().getHttpConfiguration();
MultiPartCompliance multiPartCompliance = httpConfiguration.getMultiPartCompliance();
ComplianceViolation.Listener complianceViolationListener = httpChannel.getComplianceViolationListener();
int maxHeaderSize = httpConfiguration.getRequestHeaderSize();
if (location == null)
location = request.getContext().getTempDirectory().toPath();
return new MultiPartConfig.Builder()
.location(location)
.maxHeadersSize(maxHeaderSize)
.complianceMode(multiPartCompliance)
.violationListener(complianceViolationListener);
}
/**
* Generate a proper "Location" header for redirects.
*
* @param request the request the redirect should be based on (needed when relative locations are provided, so that
* server name, scheme, port can be built out properly)
* @param location the location URL to redirect to (can be a relative path)
* @return the full redirect "Location" URL (including scheme, host, port, path, etc...)
* @deprecated use {@link Response#toRedirectURI(Request, String)}
*/
@Deprecated
static String toRedirectURI(Request request, String location)
{
return Response.toRedirectURI(request, location);
}
/**
* This interface will be detected by the {@link #wrap(Request, HttpURI)} static method to wrap the request
* changing its target to a given path. If a {@link Request} implements this interface it can
* be obtained with the {@link Request#as(Request, Class)} method.
* @see #serveAs(Request, HttpURI)
*/
interface ServeAs extends Request
{
/**
* Wraps a request but changes the uri so that it can be served to a different target.
* @param request the original request.
* @param uri the uri of the new target.
* @return the request wrapped to the new target.
*/
Request wrap(Request request, HttpURI uri);
}
/**
* Return a request with its {@link HttpURI} changed to the supplied target.
* If the passed request or any of the requests that it wraps implements {@link ServeAs} then
* {@link ServeAs#wrap(Request, HttpURI)} will be used to do the wrap,
* otherwise a simple {@link Request.Wrapper} may be returned.
* @param request the original request.
* @param uri the new URI to target.
* @return the possibly wrapped request to target the new URI.
*/
static Request serveAs(Request request, HttpURI uri)
{
if (request.getHttpURI().equals(uri))
return request;
ServeAs serveAs = Request.as(request, ServeAs.class);
if (serveAs != null)
return serveAs.wrap(request, uri);
return new Request.Wrapper(request)
{
@Override
public HttpURI getHttpURI()
{
return uri;
}
};
}
/**
* A handler for an HTTP request and response.
* The handling typically involves reading the request content (if any) and producing a response.
*/
@ManagedObject
@FunctionalInterface
interface Handler extends Invocable
{
/**
* Invoked to handle the passed HTTP request and response.
* The request is accepted by returning true, then handling must be concluded by
* completing the passed callback. The handling may be asynchronous, i.e. this method may return true and
* complete the given callback later, possibly from a different thread. If this method returns false,
* then the callback must not be invoked and any mutation on the response reversed.
* Exceptions thrown by this method may be subsequently handled by an error {@link Request.Handler},
* if present, otherwise a default HTTP 500 error is generated and the
* callback completed while writing the error response.
* The simplest implementation is:
*
* public boolean handle(Request request, Response response, Callback callback)
* {
* callback.succeeded();
* return true;
* }
*
* A HelloWorld implementation is:
*
* public boolean handle(Request request, Response response, Callback callback)
* {
* response.write(true, ByteBuffer.wrap("Hello World\n".getBytes(StandardCharsets.UTF_8)), callback);
* return true;
* }
*
*
* @param request the HTTP request to handle
* @param response the HTTP response to handle
* @param callback the callback to complete when the handling is complete
* @return True if and only if the request will be handled, a response generated and the callback eventually called.
* This may occur within the scope of the call to this method, or asynchronously some time later. If false
* is returned, then this method must not generate a response, nor complete the callback.
* @throws Exception if there is a failure during the handling. Catchers cannot assume that the callback will be
* called and thus should attempt to complete the request as if a false had been returned.
* @see AbortException
*/
boolean handle(Request request, Response response, Callback callback) throws Exception;
@Override
@ManagedAttribute("The InvocationType of this Handler")
default InvocationType getInvocationType()
{
return InvocationType.BLOCKING;
}
/**
* A marker {@link Exception} that can be passed the {@link Callback#failed(Throwable)} of the {@link Callback}
* passed in {@link #handle(Request, Response, Callback)}, to cause request handling to be aborted. For HTTP/1
* an abort is handled with a {@link EndPoint#close()}, for later versions of HTTP, a reset message will be sent.
*/
class AbortException extends Exception
{
public AbortException()
{
super();
}
public AbortException(String message)
{
super(message);
}
public AbortException(String message, Throwable cause)
{
super(message, cause);
}
public AbortException(Throwable cause)
{
super(cause);
}
}
}
/**
* A wrapper for {@code Request} instances.
*/
class Wrapper implements Request
{
/**
* Implementation note: {@link Request.Wrapper} does not extend from {@link Attributes.Wrapper}
* as {@link #getWrapped()} would either need to be implemented as {@code return (Request)getWrapped()}
* which would require a cast from one interface type to another, spoiling the JVM's
* {@code secondary_super_cache}, or by storing the same {@code _wrapped} object in two fields
* (one in {@link Attributes.Wrapper} as type {@link Attributes} and one in {@link Request.Wrapper} as
* type {@link Request}) to save the costly cast from interface type to another.
*/
private final Request _request;
public Wrapper(Request wrapped)
{
_request = Objects.requireNonNull(wrapped);
}
@Override
public String getId()
{
return getWrapped().getId();
}
@Override
public Components getComponents()
{
return getWrapped().getComponents();
}
@Override
public ConnectionMetaData getConnectionMetaData()
{
return getWrapped().getConnectionMetaData();
}
@Override
public String getMethod()
{
return getWrapped().getMethod();
}
@Override
public HttpURI getHttpURI()
{
return getWrapped().getHttpURI();
}
@Override
public Context getContext()
{
return getWrapped().getContext();
}
@Override
public HttpFields getHeaders()
{
return getWrapped().getHeaders();
}
@Override
public HttpFields getTrailers()
{
return getWrapped().getTrailers();
}
@Override
public long getBeginNanoTime()
{
return getWrapped().getBeginNanoTime();
}
@Override
public long getHeadersNanoTime()
{
return getWrapped().getHeadersNanoTime();
}
@Override
public boolean isSecure()
{
return getWrapped().isSecure();
}
@Override
public long getLength()
{
return getWrapped().getLength();
}
@Override
public Content.Chunk read()
{
return getWrapped().read();
}
@Override
public boolean consumeAvailable()
{
return getWrapped().consumeAvailable();
}
@Override
public void demand(Runnable demandCallback)
{
getWrapped().demand(demandCallback);
}
@Override
public void fail(Throwable failure)
{
getWrapped().fail(failure);
}
@Override
public void push(MetaData.Request resource)
{
getWrapped().push(resource);
}
@Override
public void addIdleTimeoutListener(Predicate onIdleTimeout)
{
getWrapped().addIdleTimeoutListener(onIdleTimeout);
}
@Override
public void addFailureListener(Consumer onFailure)
{
getWrapped().addFailureListener(onFailure);
}
@Override
public TunnelSupport getTunnelSupport()
{
return getWrapped().getTunnelSupport();
}
@Override
public void addHttpStreamWrapper(Function wrapper)
{
getWrapped().addHttpStreamWrapper(wrapper);
}
@Override
public Session getSession(boolean create)
{
return getWrapped().getSession(create);
}
@Override
public Object removeAttribute(String name)
{
return getWrapped().removeAttribute(name);
}
@Override
public Object setAttribute(String name, Object attribute)
{
return getWrapped().setAttribute(name, attribute);
}
@Override
public Object getAttribute(String name)
{
return getWrapped().getAttribute(name);
}
@Override
public Set getAttributeNameSet()
{
return getWrapped().getAttributeNameSet();
}
@Override
public Map asAttributeMap()
{
return getWrapped().asAttributeMap();
}
@Override
public void clearAttributes()
{
getWrapped().clearAttributes();
}
public Request getWrapped()
{
return _request;
}
@Override
public String toString()
{
return "%s@%x{%s}".formatted(getClass().getSimpleName(), hashCode(), getWrapped());
}
}
@SuppressWarnings("unchecked")
static T as(Request request, Class type)
{
while (request != null)
{
if (type.isInstance(request))
return (T)request;
request = request instanceof Request.Wrapper wrapper ? wrapper.getWrapped() : null;
}
return null;
}
@SuppressWarnings("unchecked")
static R get(Request request, Class type, Function getter)
{
T t = Request.as(request, type);
return (t == null) ? null : getter.apply(t);
}
static Request unWrap(Request request)
{
while (request instanceof Request.Wrapper wrapped)
{
request = wrapped.getWrapped();
}
return request;
}
static long getContentBytesRead(Request request)
{
Request originalRequest = unWrap(request);
if (originalRequest instanceof HttpChannelState.ChannelRequest channelRequest)
return channelRequest.getContentBytesRead();
return -1;
}
/**
* Creates a new {@link HttpURI} from the given Request's HttpURI and the given path in context.
* For example, for {@code contextPath=/ctx}, {@code request.httpURI=http://host/ctx/path?a=b}, and
* {@code newPathInContext=/newPath}, the returned HttpURI is {@code http://host/ctx/newPath?a=b}.
*
* @param request The request to base the new HttpURI on.
* @param newEncodedPathInContext The new path in context for the new HttpURI
* @return A new immutable HttpURI with the path in context replaced, but query string and path
* parameters retained.
*/
static HttpURI newHttpURIFrom(Request request, String newEncodedPathInContext)
{
return HttpURI.build(request.getHttpURI())
.path(URIUtil.addPaths(getContextPath(request), newEncodedPathInContext))
.asImmutable();
}
/**
* @param request The request to enquire.
* @return the minimal {@link AuthenticationState} of the request, or null if no authentication in process.
*/
static AuthenticationState getAuthenticationState(Request request)
{
if (request.getAttribute(AuthenticationState.class.getName()) instanceof AuthenticationState authenticationState)
return authenticationState;
return null;
}
/**
* @param request The request to enquire.
* @param state the {@link AuthenticationState} of the request, or null if no authentication in process.
*/
static void setAuthenticationState(Request request, AuthenticationState state)
{
request.setAttribute(AuthenticationState.class.getName(), state);
}
/**
* A minimal Authentication interface, primarily used for logging. It is implemented by the
* {@code jetty-security} module's {@code AuthenticationState} to provide full authentication services.
*/
interface AuthenticationState
{
/**
* @return The authenticated user {@link Principal}, or null if the Authentication is in a non-authenticated state.
*/
default Principal getUserPrincipal()
{
return null;
}
}
/**
* A {@link Request.Wrapper} that separately provides the request {@link Attributes}.
* The provided {@link Attributes} should be an {@link Attributes.Wrapper} over the request.
*/
class AttributesWrapper extends Wrapper
{
private final Attributes _attributes;
/**
* @param wrapped the request to wrap
* @param attributes the provided request attributes, typically a {@link Attributes.Wrapper} over the request
*/
public AttributesWrapper(Request wrapped, Attributes attributes)
{
super(wrapped);
_attributes = Objects.requireNonNull(attributes);
}
@Override
public Map asAttributeMap()
{
return _attributes.asAttributeMap();
}
@Override
public void clearAttributes()
{
_attributes.clearAttributes();
}
@Override
public Object removeAttribute(String name)
{
return _attributes.removeAttribute(name);
}
@Override
public Object setAttribute(String name, Object attribute)
{
return _attributes.setAttribute(name, attribute);
}
@Override
public Object getAttribute(String name)
{
return _attributes.getAttribute(name);
}
@Override
public Set getAttributeNameSet()
{
return _attributes.getAttributeNameSet();
}
}
}