/*
* Copyright (c) 2015, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package jdk.internal.net.http;
import java.io.Closeable;
import java.io.IOException;
import java.net.InetSocketAddress;
import java.nio.ByteBuffer;
import java.nio.channels.SocketChannel;
import java.util.Arrays;
import java.util.IdentityHashMap;
import java.util.List;
import java.util.Map;
import java.util.TreeMap;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionStage;
import java.util.concurrent.ConcurrentLinkedDeque;
import java.util.concurrent.Flow;
import java.util.function.BiPredicate;
import java.util.function.Predicate;
import java.net.http.HttpClient;
import java.net.http.HttpClient.Version;
import java.net.http.HttpHeaders;
import jdk.internal.net.http.common.Demand;
import jdk.internal.net.http.common.FlowTube;
import jdk.internal.net.http.common.Logger;
import jdk.internal.net.http.common.SequentialScheduler;
import jdk.internal.net.http.common.SequentialScheduler.DeferredCompleter;
import jdk.internal.net.http.common.Log;
import jdk.internal.net.http.common.Utils;
import static java.net.http.HttpClient.Version.HTTP_2;
Wraps socket channel layer and takes care of SSL also.
Subtypes are:
PlainHttpConnection: regular direct TCP connection to server
PlainProxyConnection: plain text proxy connection
PlainTunnelingConnection: opens plain text (CONNECT) tunnel to server
AsyncSSLConnection: TLS channel direct to server
AsyncSSLTunnelConnection: TLS channel via (CONNECT) proxy tunnel
/**
* Wraps socket channel layer and takes care of SSL also.
*
* Subtypes are:
* PlainHttpConnection: regular direct TCP connection to server
* PlainProxyConnection: plain text proxy connection
* PlainTunnelingConnection: opens plain text (CONNECT) tunnel to server
* AsyncSSLConnection: TLS channel direct to server
* AsyncSSLTunnelConnection: TLS channel via (CONNECT) proxy tunnel
*/
abstract class HttpConnection implements Closeable {
final Logger debug = Utils.getDebugLogger(this::dbgString, Utils.DEBUG);
final static Logger DEBUG_LOGGER = Utils.getDebugLogger(
() -> "HttpConnection(SocketTube(?))", Utils.DEBUG);
The address this connection is connected to. Could be a server or a proxy. /** The address this connection is connected to. Could be a server or a proxy. */
final InetSocketAddress address;
private final HttpClientImpl client;
private final TrailingOperations trailingOperations;
HttpConnection(InetSocketAddress address, HttpClientImpl client) {
this.address = address;
this.client = client;
trailingOperations = new TrailingOperations();
}
private static final class TrailingOperations {
private final Map<CompletionStage<?>, Boolean> operations =
new IdentityHashMap<>();
void add(CompletionStage<?> cf) {
synchronized(operations) {
cf.whenComplete((r,t)-> remove(cf));
operations.put(cf, Boolean.TRUE);
}
}
boolean remove(CompletionStage<?> cf) {
synchronized(operations) {
return operations.remove(cf);
}
}
}
final void addTrailingOperation(CompletionStage<?> cf) {
trailingOperations.add(cf);
}
// final void removeTrailingOperation(CompletableFuture<?> cf) {
// trailingOperations.remove(cf);
// }
final HttpClientImpl client() {
return client;
}
Initiates the connect phase.
Returns a CompletableFuture that completes when the underlying
TCP connection has been established or an error occurs.
/**
* Initiates the connect phase.
*
* Returns a CompletableFuture that completes when the underlying
* TCP connection has been established or an error occurs.
*/
public abstract CompletableFuture<Void> connectAsync(Exchange<?> exchange);
Finishes the connection phase.
Returns a CompletableFuture that completes when any additional,
type specific, setup has been done. Must be called after connectAsync. /**
* Finishes the connection phase.
*
* Returns a CompletableFuture that completes when any additional,
* type specific, setup has been done. Must be called after connectAsync. */
public abstract CompletableFuture<Void> finishConnect();
Tells whether, or not, this connection is connected to its destination. /** Tells whether, or not, this connection is connected to its destination. */
abstract boolean connected();
Tells whether, or not, this connection is secure ( over SSL ) /** Tells whether, or not, this connection is secure ( over SSL ) */
abstract boolean isSecure();
Tells whether, or not, this connection is proxied.
Returns true for tunnel connections, or clear connection to
any host through proxy.
/**
* Tells whether, or not, this connection is proxied.
* Returns true for tunnel connections, or clear connection to
* any host through proxy.
*/
abstract boolean isProxied();
Tells whether, or not, this connection is open. /** Tells whether, or not, this connection is open. */
final boolean isOpen() {
return channel().isOpen() &&
(connected() ? !getConnectionFlow().isFinished() : true);
}
interface HttpPublisher extends FlowTube.TubePublisher {
void enqueue(List<ByteBuffer> buffers) throws IOException;
void enqueueUnordered(List<ByteBuffer> buffers) throws IOException;
void signalEnqueued() throws IOException;
}
Returns the HTTP publisher associated with this connection. May be null
if invoked before connecting.
/**
* Returns the HTTP publisher associated with this connection. May be null
* if invoked before connecting.
*/
abstract HttpPublisher publisher();
// HTTP/2 MUST use TLS version 1.2 or higher for HTTP/2 over TLS
private static final Predicate<String> testRequiredHTTP2TLSVersion = proto ->
proto.equals("TLSv1.2") || proto.equals("TLSv1.3");
Returns true if the given client's SSL parameter protocols contains at
least one TLS version that HTTP/2 requires.
/**
* Returns true if the given client's SSL parameter protocols contains at
* least one TLS version that HTTP/2 requires.
*/
private static final boolean hasRequiredHTTP2TLSVersion(HttpClient client) {
String[] protos = client.sslParameters().getProtocols();
if (protos != null) {
return Arrays.stream(protos).filter(testRequiredHTTP2TLSVersion).findAny().isPresent();
} else {
return false;
}
}
Factory for retrieving HttpConnections. A connection can be retrieved from the connection pool, or a new one created if none available. The given addr
is the ultimate destination. Any proxies, etc, are determined from the request. Returns a concrete instance which is one of the following: PlainHttpConnection
PlainTunnelingConnection
The returned connection, if not from the connection pool, must have its, connect() or connectAsync() method invoked, which ( when it completes successfully ) renders the connection usable for requests. /**
* Factory for retrieving HttpConnections. A connection can be retrieved
* from the connection pool, or a new one created if none available.
*
* The given {@code addr} is the ultimate destination. Any proxies,
* etc, are determined from the request. Returns a concrete instance which
* is one of the following:
* {@link PlainHttpConnection}
* {@link PlainTunnelingConnection}
*
* The returned connection, if not from the connection pool, must have its,
* connect() or connectAsync() method invoked, which ( when it completes
* successfully ) renders the connection usable for requests.
*/
public static HttpConnection getConnection(InetSocketAddress addr,
HttpClientImpl client,
HttpRequestImpl request,
Version version) {
// The default proxy selector may select a proxy whose address is
// unresolved. We must resolve the address before connecting to it.
InetSocketAddress proxy = Utils.resolveAddress(request.proxy());
HttpConnection c = null;
boolean secure = request.secure();
ConnectionPool pool = client.connectionPool();
if (!secure) {
c = pool.getConnection(false, addr, proxy);
if (c != null && c.isOpen() /* may have been eof/closed when in the pool */) {
final HttpConnection conn = c;
if (DEBUG_LOGGER.on())
DEBUG_LOGGER.log(conn.getConnectionFlow()
+ ": plain connection retrieved from HTTP/1.1 pool");
return c;
} else {
return getPlainConnection(addr, proxy, request, client);
}
} else { // secure
if (version != HTTP_2) { // only HTTP/1.1 connections are in the pool
c = pool.getConnection(true, addr, proxy);
}
if (c != null && c.isOpen()) {
final HttpConnection conn = c;
if (DEBUG_LOGGER.on())
DEBUG_LOGGER.log(conn.getConnectionFlow()
+ ": SSL connection retrieved from HTTP/1.1 pool");
return c;
} else {
String[] alpn = null;
if (version == HTTP_2 && hasRequiredHTTP2TLSVersion(client)) {
alpn = new String[] { "h2", "http/1.1" };
}
return getSSLConnection(addr, proxy, alpn, request, client);
}
}
}
private static HttpConnection getSSLConnection(InetSocketAddress addr,
InetSocketAddress proxy,
String[] alpn,
HttpRequestImpl request,
HttpClientImpl client) {
if (proxy != null)
return new AsyncSSLTunnelConnection(addr, client, alpn, proxy,
proxyTunnelHeaders(request));
else
return new AsyncSSLConnection(addr, client, alpn);
}
This method is used to build a filter that will accept or
veto (header-name, value) tuple for transmission on the
wire.
The filter is applied to the headers when sending the headers
to the remote party.
Which tuple is accepted/vetoed depends on:
- whether the connection is a tunnel connection
[talking to a server through a proxy tunnel]
- whether the method is CONNECT
[establishing a CONNECT tunnel through a proxy]
- whether the request is using a proxy
(and the connection is not a tunnel)
[talking to a server through a proxy]
- whether the request is a direct connection to
a server (no tunnel, no proxy).
Params: - request –
Returns:
/**
* This method is used to build a filter that will accept or
* veto (header-name, value) tuple for transmission on the
* wire.
* The filter is applied to the headers when sending the headers
* to the remote party.
* Which tuple is accepted/vetoed depends on:
* <pre>
* - whether the connection is a tunnel connection
* [talking to a server through a proxy tunnel]
* - whether the method is CONNECT
* [establishing a CONNECT tunnel through a proxy]
* - whether the request is using a proxy
* (and the connection is not a tunnel)
* [talking to a server through a proxy]
* - whether the request is a direct connection to
* a server (no tunnel, no proxy).
* </pre>
* @param request
* @return
*/
BiPredicate<String,String> headerFilter(HttpRequestImpl request) {
if (isTunnel()) {
// talking to a server through a proxy tunnel
// don't send proxy-* headers to a plain server
assert !request.isConnect();
return Utils.NO_PROXY_HEADERS_FILTER;
} else if (request.isConnect()) {
// establishing a proxy tunnel
// check for proxy tunnel disabled schemes
// assert !this.isTunnel();
assert request.proxy() == null;
return Utils.PROXY_TUNNEL_FILTER;
} else if (request.proxy() != null) {
// talking to a server through a proxy (no tunnel)
// check for proxy disabled schemes
// assert !isTunnel() && !request.isConnect();
return Utils.PROXY_FILTER;
} else {
// talking to a server directly (no tunnel, no proxy)
// don't send proxy-* headers to a plain server
// assert request.proxy() == null && !request.isConnect();
return Utils.NO_PROXY_HEADERS_FILTER;
}
}
// Composes a new immutable HttpHeaders that combines the
// user and system header but only keeps those headers that
// start with "proxy-"
private static HttpHeaders proxyTunnelHeaders(HttpRequestImpl request) {
Map<String, List<String>> combined = new TreeMap<>(String.CASE_INSENSITIVE_ORDER);
combined.putAll(request.getSystemHeadersBuilder().map());
combined.putAll(request.headers().map()); // let user override system
// keep only proxy-* - and also strip authorization headers
// for disabled schemes
return HttpHeaders.of(combined, Utils.PROXY_TUNNEL_FILTER);
}
/* Returns either a plain HTTP connection or a plain tunnelling connection
* for proxied WebSocket */
private static HttpConnection getPlainConnection(InetSocketAddress addr,
InetSocketAddress proxy,
HttpRequestImpl request,
HttpClientImpl client) {
if (request.isWebSocket() && proxy != null)
return new PlainTunnelingConnection(addr, proxy, client,
proxyTunnelHeaders(request));
if (proxy == null)
return new PlainHttpConnection(addr, client);
else
return new PlainProxyConnection(proxy, client);
}
void closeOrReturnToCache(HttpHeaders hdrs) {
if (hdrs == null) {
// the connection was closed by server, eof
close();
return;
}
if (!isOpen()) {
return;
}
HttpClientImpl client = client();
if (client == null) {
close();
return;
}
ConnectionPool pool = client.connectionPool();
boolean keepAlive = hdrs.firstValue("Connection")
.map((s) -> !s.equalsIgnoreCase("close"))
.orElse(true);
if (keepAlive) {
Log.logTrace("Returning connection to the pool: {0}", this);
pool.returnToPool(this);
} else {
close();
}
}
/* Tells whether or not this connection is a tunnel through a proxy */
boolean isTunnel() { return false; }
abstract SocketChannel channel();
final InetSocketAddress address() {
return address;
}
abstract ConnectionPool.CacheKey cacheKey();
Closes this connection, by returning the socket to its connection pool.
/**
* Closes this connection, by returning the socket to its connection pool.
*/
@Override
public abstract void close();
abstract FlowTube getConnectionFlow();
A publisher that makes it possible to publish (write) ordered (normal
priority) and unordered (high priority) buffers downstream.
/**
* A publisher that makes it possible to publish (write) ordered (normal
* priority) and unordered (high priority) buffers downstream.
*/
final class PlainHttpPublisher implements HttpPublisher {
final Object reading;
PlainHttpPublisher() {
this(new Object());
}
PlainHttpPublisher(Object readingLock) {
this.reading = readingLock;
}
final ConcurrentLinkedDeque<List<ByteBuffer>> queue = new ConcurrentLinkedDeque<>();
final ConcurrentLinkedDeque<List<ByteBuffer>> priority = new ConcurrentLinkedDeque<>();
volatile Flow.Subscriber<? super List<ByteBuffer>> subscriber;
volatile HttpWriteSubscription subscription;
final SequentialScheduler writeScheduler =
new SequentialScheduler(this::flushTask);
@Override
public void subscribe(Flow.Subscriber<? super List<ByteBuffer>> subscriber) {
synchronized (reading) {
//assert this.subscription == null;
//assert this.subscriber == null;
if (subscription == null) {
subscription = new HttpWriteSubscription();
}
this.subscriber = subscriber;
}
// TODO: should we do this in the flow?
subscriber.onSubscribe(subscription);
signal();
}
void flushTask(DeferredCompleter completer) {
try {
HttpWriteSubscription sub = subscription;
if (sub != null) sub.flush();
} finally {
completer.complete();
}
}
void signal() {
writeScheduler.runOrSchedule();
}
final class HttpWriteSubscription implements Flow.Subscription {
final Demand demand = new Demand();
@Override
public void request(long n) {
if (n <= 0) throw new IllegalArgumentException("non-positive request");
demand.increase(n);
if (debug.on())
debug.log("HttpPublisher: got request of " + n + " from "
+ getConnectionFlow());
writeScheduler.runOrSchedule();
}
@Override
public void cancel() {
if (debug.on())
debug.log("HttpPublisher: cancelled by " + getConnectionFlow());
}
private boolean isEmpty() {
return queue.isEmpty() && priority.isEmpty();
}
private List<ByteBuffer> poll() {
List<ByteBuffer> elem = priority.poll();
return elem == null ? queue.poll() : elem;
}
void flush() {
while (!isEmpty() && demand.tryDecrement()) {
List<ByteBuffer> elem = poll();
if (debug.on())
debug.log("HttpPublisher: sending "
+ Utils.remaining(elem) + " bytes ("
+ elem.size() + " buffers) to "
+ getConnectionFlow());
subscriber.onNext(elem);
}
}
}
@Override
public void enqueue(List<ByteBuffer> buffers) throws IOException {
queue.add(buffers);
int bytes = buffers.stream().mapToInt(ByteBuffer::remaining).sum();
debug.log("added %d bytes to the write queue", bytes);
}
@Override
public void enqueueUnordered(List<ByteBuffer> buffers) throws IOException {
// Unordered frames are sent before existing frames.
int bytes = buffers.stream().mapToInt(ByteBuffer::remaining).sum();
priority.add(buffers);
debug.log("added %d bytes in the priority write queue", bytes);
}
@Override
public void signalEnqueued() throws IOException {
debug.log("signalling the publisher of the write queue");
signal();
}
}
String dbgTag;
final String dbgString() {
FlowTube flow = getConnectionFlow();
String tag = dbgTag;
if (tag == null && flow != null) {
dbgTag = tag = this.getClass().getSimpleName() + "(" + flow + ")";
} else if (tag == null) {
tag = this.getClass().getSimpleName() + "(?)";
}
return tag;
}
@Override
public String toString() {
return "HttpConnection: " + channel().toString();
}
}