http-client-branch: use direct buffer pool for reading off SSL encrypted buffers from the socket + minor test fixes.
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* accompanied this code).
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package jdk.internal.net.http;
import java.net.InetSocketAddress;
import java.net.URI;
import java.util.Base64;
import java.util.Collections;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CompletableFuture;
import jdk.internal.net.http.common.Log;
import jdk.internal.net.http.common.Logger;
import jdk.internal.net.http.common.MinimalFuture;
import jdk.internal.net.http.common.Utils;
import jdk.internal.net.http.frame.SettingsFrame;
import static jdk.internal.net.http.frame.SettingsFrame.INITIAL_WINDOW_SIZE;
import static jdk.internal.net.http.frame.SettingsFrame.ENABLE_PUSH;
import static jdk.internal.net.http.frame.SettingsFrame.HEADER_TABLE_SIZE;
import static jdk.internal.net.http.frame.SettingsFrame.MAX_CONCURRENT_STREAMS;
import static jdk.internal.net.http.frame.SettingsFrame.MAX_FRAME_SIZE;
/**
* Http2 specific aspects of HttpClientImpl
*/
class Http2ClientImpl {
final static Logger debug =
Utils.getDebugLogger("Http2ClientImpl"::toString, Utils.DEBUG);
private final HttpClientImpl client;
Http2ClientImpl(HttpClientImpl client) {
this.client = client;
}
/* Map key is "scheme:host:port" */
private final Map<String,Http2Connection> connections = new ConcurrentHashMap<>();
private final Set<String> failures = Collections.synchronizedSet(new HashSet<>());
/**
* When HTTP/2 requested only. The following describes the aggregate behavior including the
* calling code. In all cases, the HTTP2 connection cache
* is checked first for a suitable connection and that is returned if available.
* If not, a new connection is opened, except in https case when a previous negotiate failed.
* In that case, we want to continue using http/1.1. When a connection is to be opened and
* if multiple requests are sent in parallel then each will open a new connection.
*
* If negotiation/upgrade succeeds then
* one connection will be put in the cache and the others will be closed
* after the initial request completes (not strictly necessary for h2, only for h2c)
*
* If negotiate/upgrade fails, then any opened connections remain open (as http/1.1)
* and will be used and cached in the http/1 cache. Note, this method handles the
* https failure case only (by completing the CF with an ALPN exception, handled externally)
* The h2c upgrade is handled externally also.
*
* Specific CF behavior of this method.
* 1. completes with ALPN exception: h2 negotiate failed for first time. failure recorded.
* 2. completes with other exception: failure not recorded. Caller must handle
* 3. completes normally with null: no connection in cache for h2c or h2 failed previously
* 4. completes normally with connection: h2 or h2c connection in cache. Use it.
*/
CompletableFuture<Http2Connection> getConnectionFor(HttpRequestImpl req) {
URI uri = req.uri();
InetSocketAddress proxy = req.proxy();
String key = Http2Connection.keyFor(uri, proxy);
synchronized (this) {
Http2Connection connection = connections.get(key);
if (connection != null) {
if (connection.closed) {
if (debug.on())
debug.log("removing found closed connection: %s", connection);
connections.remove(key);
} else {
// fast path if connection already exists
if (debug.on())
debug.log("found connection in the pool: %s", connection);
return MinimalFuture.completedFuture(connection);
}
}
if (!req.secure() || failures.contains(key)) {
// secure: negotiate failed before. Use http/1.1
// !secure: no connection available in cache. Attempt upgrade
if (debug.on()) debug.log("not found in connection pool");
return MinimalFuture.completedFuture(null);
}
}
return Http2Connection
.createAsync(req, this)
.whenComplete((conn, t) -> {
synchronized (Http2ClientImpl.this) {
if (conn != null) {
offerConnection(conn);
} else {
Throwable cause = Utils.getCompletionCause(t);
if (cause instanceof Http2Connection.ALPNException)
failures.add(key);
}
}
});
}
/*
* Cache the given connection, if no connection to the same
* destination exists. If one exists, then we let the initial stream
* complete but allow it to close itself upon completion.
* This situation should not arise with https because the request
* has not been sent as part of the initial alpn negotiation
*/
boolean offerConnection(Http2Connection c) {
if (debug.on()) debug.log("offering to the connection pool: %s", c);
if (c.closed) {
if (debug.on())
debug.log("skipping offered closed connection: %s", c);
return false;
}
String key = c.key();
synchronized(this) {
Http2Connection c1 = connections.putIfAbsent(key, c);
if (c1 != null) {
c.setSingleStream(true);
if (debug.on())
debug.log("existing entry in connection pool for %s", key);
return false;
}
if (debug.on())
debug.log("put in the connection pool: %s", c);
return true;
}
}
void deleteConnection(Http2Connection c) {
if (debug.on())
debug.log("removing from the connection pool: %s", c);
synchronized (this) {
connections.remove(c.key());
if (debug.on())
debug.log("removed from the connection pool: %s", c);
}
}
void stop() {
if (debug.on()) debug.log("stopping");
connections.values().forEach(this::close);
connections.clear();
}
private void close(Http2Connection h2c) {
try { h2c.close(); } catch (Throwable t) {}
}
HttpClientImpl client() {
return client;
}
/** Returns the client settings as a base64 (url) encoded string */
String getSettingsString() {
SettingsFrame sf = getClientSettings();
byte[] settings = sf.toByteArray(); // without the header
Base64.Encoder encoder = Base64.getUrlEncoder()
.withoutPadding();
return encoder.encodeToString(settings);
}
private static final int K = 1024;
private static int getParameter(String property, int min, int max, int defaultValue) {
int value = Utils.getIntegerNetProperty(property, defaultValue);
// use default value if misconfigured
if (value < min || value > max) {
Log.logError("Property value for {0}={1} not in [{2}..{3}]: " +
"using default={4}", property, value, min, max, defaultValue);
value = defaultValue;
}
return value;
}
// used for the connection window, to have a connection window size
// bigger than the initial stream window size.
int getConnectionWindowSize(SettingsFrame clientSettings) {
// Maximum size is 2^31-1. Don't allow window size to be less
// than the stream window size. HTTP/2 specify a default of 64 * K -1,
// but we use 2^26 by default for better performance.
int streamWindow = clientSettings.getParameter(INITIAL_WINDOW_SIZE);
// The default is the max between the stream window size
// and the connection window size.
int defaultValue = Math.min(Integer.MAX_VALUE,
Math.max(streamWindow, K*K*32));
return getParameter(
"jdk.httpclient.connectionWindowSize",
streamWindow, Integer.MAX_VALUE, defaultValue);
}
SettingsFrame getClientSettings() {
SettingsFrame frame = new SettingsFrame();
// default defined for HTTP/2 is 4 K, we use 16 K.
frame.setParameter(HEADER_TABLE_SIZE, getParameter(
"jdk.httpclient.hpack.maxheadertablesize",
0, Integer.MAX_VALUE, 16 * K));
// O: does not accept push streams. 1: accepts push streams.
frame.setParameter(ENABLE_PUSH, getParameter(
"jdk.httpclient.enablepush",
0, 1, 1));
// HTTP/2 recommends to set the number of concurrent streams
// no lower than 100. We use 100. 0 means no stream would be
// accepted. That would render the client to be non functional,
// so we won't let 0 be configured for our Http2ClientImpl.
frame.setParameter(MAX_CONCURRENT_STREAMS, getParameter(
"jdk.httpclient.maxstreams",
1, Integer.MAX_VALUE, 100));
// Maximum size is 2^31-1. Don't allow window size to be less
// than the minimum frame size as this is likely to be a
// configuration error. HTTP/2 specify a default of 64 * K -1,
// but we use 16 M for better performance.
frame.setParameter(INITIAL_WINDOW_SIZE, getParameter(
"jdk.httpclient.windowsize",
16 * K, Integer.MAX_VALUE, 16*K*K));
// HTTP/2 specify a minimum size of 16 K, a maximum size of 2^24-1,
// and a default of 16 K. We use 16 K as default.
frame.setParameter(MAX_FRAME_SIZE, getParameter(
"jdk.httpclient.maxframesize",
16 * K, 16 * K * K -1, 16 * K));
return frame;
}
}