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MarkLogic XML Contentbase Connector for Java (XCC/J)
/*
* Copyright (c) 2021 MarkLogic Corporation
*
* 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
*
* http://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 com.marklogic.http;
import java.io.IOException;
import java.io.InputStream;
import java.nio.ByteBuffer;
import java.nio.channels.ByteChannel;
import java.nio.channels.ReadableByteChannel;
import java.nio.channels.SelectableChannel;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.SocketChannel;
import java.util.List;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.logging.Level;
import java.util.logging.Logger;
import com.marklogic.io.ChunkedInputStream;
import com.marklogic.io.LengthLimitedInputStream;
import com.marklogic.io.SslByteChannel;
public class HttpChannel {
// IN CASE OF EMERGENCY BREAK GLASS
public static final String USEHTTP_PROPERTY_NAME = "xcc.httpcompliant";
public static final String RCV_TIME_HEADER = "X-XCC-Received";
static final int DEFAULT_BUFFER_SIZE = 64 * 1024;
static final int MINIMUM_BUFFER_SIZE = 1024;
static final int MAXIMUM_BUFFER_SIZE = 32 * 1024 * 1024;
static final int KEEP_ALIVE_TIME = 5;
// Keep-alive timeout for inserting a batch. This value is hard-coded in
// HTTPRequestTask::handleXDBCInsert
static final int KEEP_ALIVE_TIME_MULTI_TXN = 120;
private final ByteChannel channel;
private final HttpHeaders requestHeaders = new HttpHeaders();
private final HttpHeaders responseHeaders = new HttpHeaders();
private final InputStream inStream;
private final ByteBuffer bodyBuffer;
private final Logger logger;
private int bufSize = Integer.MAX_VALUE;
private boolean suppressHeaders = false;
private boolean closeOutputIfNoContentLength = false;
private boolean headersParsed = false;
private boolean headersWritten = false;
private static AtomicBoolean useHTTP =
new AtomicBoolean("true".equalsIgnoreCase(
System.getProperty(USEHTTP_PROPERTY_NAME)));
private boolean commit = true;
private boolean isChunked() {
String te = getRequestHeader("Transfer-Encoding");
return te == null ? false : te.equalsIgnoreCase("chunked");
}
private boolean isKeepAlive() {
String ka = getRequestHeader("Connection");
return ka == null ? false : ka.equalsIgnoreCase("keep-alive");
}
public static boolean isUseHTTP() {
return useHTTP.get();
}
public static void setUseHTTP(boolean val) {
useHTTP.set(val);
}
public void setCommit(boolean val) {
commit = val;
}
// TODO: Add more logging calls to this class
// --------------------------------------------------------------
public HttpChannel(ByteChannel channel, String method, String path, int bufferSize, int timeoutMillis, Logger logger) {
this.channel = channel;
this.logger = (logger == null) ? Logger.getLogger(getClass().getName()) : logger;
requestHeaders.setRequestValues(method, path,
isUseHTTP()?"HTTP/1.1":"XDBC/1.0");
if (this.logger.isLoggable(Level.FINE)) {
this.logger.fine("XDBC request: " + requestHeaders.getRequestLine());
}
bodyBuffer = allocBuffer(bufferSize);
inStream = (new ChannelInputStream(channel, bodyBuffer, timeoutMillis));
}
public void reset(String method, String path) {
suppressHeaders = false;
closeOutputIfNoContentLength = false;
headersParsed = false;
headersWritten = false;
requestHeaders.clear();
responseHeaders.clear();
bodyBuffer.clear();
requestHeaders.setRequestValues(method, path,
isUseHTTP()?"HTTP/1.1":"XDBC/1.0");
}
// --------------------------------------------------------------
public ByteChannel getChannel() {
return channel;
}
public void setCloseOutputIfNoContentLength(boolean value) {
this.closeOutputIfNoContentLength = value;
}
// --------------------------------------------------------------
public int write(byte[] bytes, int offset, int length) throws IOException {
int srcRemaining = length;
while (srcRemaining > 0) {
if (bodyBuffer.remaining() == 0) {
flushRequest(false);
}
int len = Math.min(srcRemaining, bodyBuffer.remaining());
bodyBuffer.put(bytes, offset + (length - srcRemaining), len);
srcRemaining -= len;
}
return (length);
}
public int write(byte[] bytes) throws IOException {
return (write(bytes, 0, bytes.length));
}
public void writeString(String value) throws IOException {
write(value.getBytes("UTF-8"));
}
public void write(ByteBuffer buffer) throws IOException {
if (buffer.limit() < bodyBuffer.remaining()) {
write(buffer.array(), buffer.arrayOffset() + buffer.position(), buffer.remaining());
return;
}
flushRequest(false);
writeBuffer(channel, buffer);
}
// --------------------------------------------------------------
public InputStream getResponseStream() throws IOException {
receiveMode();
if (isResponseChunked()) {
return new ChunkedInputStream(inStream);
}
if (getResponseContentLength() != -1) {
return new LengthLimitedInputStream(inStream, getResponseContentLength());
}
return (inStream);
}
// --------------------------------------------------------------
public void setRequestHeader(String header, String value) {
requestHeaders.setHeader(header, value);
}
public String getRequestHeader(String header) {
return (requestHeaders.getHeader(header));
}
// --------------------------------------------------------------
public void setRequestContentType(String value) {
requestHeaders.setHeader("Content-Type", value);
}
public void setRequestContentLength(int length) {
requestHeaders.setHeader("Content-Length", "" + length);
}
// --------------------------------------------------------------
public String getResponseHeader(String headerName) throws IOException {
receiveMode();
return (responseHeaders.getHeaderNormalized(headerName));
}
public List getResponseHeaders(String headerName)
throws IOException {
receiveMode();
return responseHeaders.getAllHeadersNormalized(headerName);
}
public int getResponseCode() throws IOException {
receiveMode();
return responseHeaders.getResponseCode();
}
public String getResponseMessage() throws IOException {
receiveMode();
return responseHeaders.getResponseMessage();
}
public int getResponseContentLength() throws IOException {
receiveMode();
return responseHeaders.getContentLength();
}
public String getResponseContentType() throws IOException {
receiveMode();
return responseHeaders.getContentType();
}
public String getResponseContentTypeField(String fieldName) throws IOException {
receiveMode();
return responseHeaders.getContentTypeField(fieldName);
}
public String getResponseContentBoundary() throws IOException {
getResponseContentType(); // insure headers are parsed
return (responseHeaders.getHeaderSubValue("content-type", "boundary", ";"));
}
public String getReponseCookieValue(String key) throws IOException {
receiveMode();
return responseHeaders.getHeaderSubValue("set-cookie", key, ";");
}
public boolean isResponseChunked() throws IOException {
receiveMode();
return responseHeaders.isChunked();
}
public long getResponseHeaderRecvTime() throws IOException {
receiveMode();
// check normalized first, unit testing hack. Real header is mixed case.
String val = responseHeaders.getHeaderNormalized(RCV_TIME_HEADER);
if (val == null) {
val = responseHeaders.getHeader(RCV_TIME_HEADER);
}
if (val == null) {
return 0;
}
return Long.parseLong(val);
}
public long getResponseKeepaliveExpireTime() throws IOException {
receiveMode();
int keepAliveSeconds = getResponseKeepaliveSeconds();
if (keepAliveSeconds == 0) {
return 0;
}
return getResponseHeaderRecvTime() + (keepAliveSeconds * 1000);
}
public int getResponseKeepaliveSeconds() throws IOException {
receiveMode();
String header = responseHeaders.getHeader("connection");
if ((header == null) || (!header.equalsIgnoreCase("keep-alive"))) {
return (0);
}
// Keep-alive timeout is not forwarded when xcc is talking to a load balancer
Integer val = responseHeaders.getHeaderSubValueInt("keep-alive", "timeout", ",");
if (val != null) {
return val.intValue();
} else if ((val == null) && isUseHTTP() && commit) {
return KEEP_ALIVE_TIME;
} else if ((val == null) && isUseHTTP() && (!commit)) {
// xcc is talking to a load balancer, xcc.httpcompliant=true, and within
// a multi-statement transaction
return KEEP_ALIVE_TIME_MULTI_TXN;
} else {
return 0;
}
}
public String getResponseConnection() throws IOException {
receiveMode();
return responseHeaders.getResponseConnection();
}
// --------------------------------------------------------------
public void suppressHeaders() {
this.suppressHeaders = true;
}
// --------------------------------------------------------------
private void receiveMode() throws IOException {
flushRequest(true);
checkCloseOutput();
if (headersParsed) {
return;
}
parseHeaders();
}
// If buffer fills up, content-length can't be computed, so we must issue a close
// on the output side of the socket so the server will see the end of input.
// Don't always do this, some code handles keep-alives separately.
private void checkCloseOutput() throws IOException {
if (!closeOutputIfNoContentLength) {
return;
}
String connHeader = getRequestHeader("Connection"); // careful: case-sensitive
if ((connHeader == null) || (!connHeader.equalsIgnoreCase("keep-alive"))) {
if (channel instanceof SocketChannel) {
SocketChannel sockChannel = (SocketChannel)channel;
sockChannel.socket().shutdownOutput();
} else if (channel instanceof SslByteChannel) {
((SslByteChannel)channel).close(false);
}
}
}
private void parseHeaders() throws IOException {
long now = System.currentTimeMillis();
logger.finer("parsing response headers");
responseHeaders.parseResponseHeaders(inStream);
// conditional for unit testing, never sent by the server
if (responseHeaders.getHeader(RCV_TIME_HEADER) == null) {
responseHeaders.setHeader(RCV_TIME_HEADER, "" + now);
}
headersParsed = true;
}
public String getServerVersion() throws IOException {
receiveMode();
String header = getResponseHeader("server");
if ((header != null) && (header.startsWith("MarkLogic "))) {
return header.substring(10);
}
/*
String responseLine = responseHeaders.getResponseLine();
if ((responseLine != null) && responseLine.startsWith("XDBC/")) {
return responseLine.substring(5).split(" ")[0];
}
*/
return null;
}
// --------------------------------------------------------------
private void flushRequest(boolean finished) throws IOException {
if (!headersWritten) {
if (finished) {
if (!isChunked()) {
setRequestContentLength(bodyBuffer.position());
}
if (!isKeepAlive()) {
setRequestHeader("Connection", "keep-alive");
}
}
writeHeaders();
}
writeBody();
}
private void writeBody() throws IOException {
bodyBuffer.flip();
writeBuffer(channel, bodyBuffer);
bodyBuffer.clear();
}
private void writeHeaders() throws IOException {
if (!suppressHeaders) {
byte[] headerBytes = requestHeaders.toString().getBytes("UTF-8");
ByteBuffer headersBuffer = ByteBuffer.wrap(headerBytes);
writeBuffer(channel, headersBuffer);
}
headersWritten = true;
}
private void writeBuffer(ByteChannel channel, ByteBuffer buffer) throws IOException {
while (buffer.hasRemaining()) {
channel.write(buffer);
}
}
// --------------------------------------------------------------
// On some JVMs, specifically IBM's, direct buffers are not GC'ed
// properly. If allocation of a direct buffer fails, try a regular one.
ByteBuffer allocBuffer(int size) {
bufSize = (size <= 0) ? DEFAULT_BUFFER_SIZE : size;
bufSize = Math.max(bufSize, MINIMUM_BUFFER_SIZE);
bufSize = Math.min(bufSize, MAXIMUM_BUFFER_SIZE);
try {
return ByteBuffer.allocateDirect(bufSize);
} catch (OutOfMemoryError e) {
return ByteBuffer.allocate(bufSize);
}
}
public int getBufferSize() {
return bufSize;
}
// --------------------------------------------------------------
private static class ChannelInputStream extends InputStream {
private static final int DIRECT_READ_THRESHOLD = 8 * 1024;
private final ReadableByteChannel channel;
private final ByteBuffer buffer;
private int timeoutMillis;
private Selector selector = null;
public ChannelInputStream(ReadableByteChannel channel, ByteBuffer buffer, int timeoutMillis) {
this.channel = channel;
this.buffer = buffer.duplicate();
this.timeoutMillis = timeoutMillis;
this.buffer.clear();
this.buffer.flip();
}
@Override
public int read(byte bytes[], int off, int len) throws IOException {
if (len == 0)
return 0;
if ((off < 0) || (off > bytes.length) || (len < 0) || ((off + len) > bytes.length) || ((off + len) < 0)) {
throw new IndexOutOfBoundsException();
}
int rc = attemptCopyOut(bytes, off, len);
if (rc != 0)
return rc;
if (len >= DIRECT_READ_THRESHOLD) {
ByteBuffer buffer = ByteBuffer.wrap(bytes, off, len);
buffer.position(off);
buffer.limit(Math.min(off + len, buffer.capacity()));
return (channel.read(buffer));
}
rc = fillBuffer();
if (rc < 0)
return -1;
return attemptCopyOut(bytes, off, len);
}
@Override
public int read(byte b[]) throws IOException {
return read(b, 0, b.length);
}
@Override
public int read() throws IOException {
if (buffer.hasRemaining()) {
return (buffer.get() & 0xff);
}
byte[] buf = new byte[1];
int rc = read(buf, 0, 1);
if (rc == -1)
return -1;
return buf[0] & 255;
}
private int attemptCopyOut(byte[] bytes, int off, int len) {
int bufferedCount = buffer.remaining();
int toRead = (bufferedCount < len) ? bufferedCount : len;
if (toRead != 0) {
buffer.get(bytes, off, toRead);
}
return toRead;
}
private int fillBuffer() throws IOException {
buffer.clear();
int rc = timedRead(buffer);
buffer.flip();
return rc;
}
private int timedRead(ByteBuffer buffer) throws IOException {
if (channel instanceof SslByteChannel) {
SslByteChannel ch = (SslByteChannel)channel;
int tmp = ch.getTimeout();
ch.setTimeout(timeoutMillis);
try {
return ch.read(buffer);
} finally {
ch.setTimeout(tmp);
}
}
if ((timeoutMillis <= 0) || (!(channel instanceof SelectableChannel))) {
return channel.read(buffer);
}
SelectableChannel schannel = (SelectableChannel)channel;
synchronized (channel) {
SelectionKey key = null;
if (selector == null) {
selector = Selector.open();
}
try {
selector.selectNow(); // Needed to clear old key state
schannel.configureBlocking(false);
key = schannel.register(selector, SelectionKey.OP_READ);
selector.select(timeoutMillis);
int rc = channel.read(buffer);
if (rc == 0) {
throw new IOException("Timeout waiting for read (" + timeoutMillis + " milliseconds)");
}
return rc;
} finally {
if (key != null)
key.cancel();
schannel.configureBlocking(true);
}
}
}
}
}