io.netty.handler.codec.http.HttpRequestDecoder Maven / Gradle / Ivy
/*
* Copyright 2012 The Netty Project
*
* The Netty Project licenses this file to you 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:
*
* https://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 io.netty.handler.codec.http;
import io.netty.buffer.ByteBuf;
import io.netty.buffer.Unpooled;
import io.netty.channel.ChannelPipeline;
import io.netty.util.AsciiString;
/**
* Decodes {@link ByteBuf}s into {@link HttpRequest}s and {@link HttpContent}s.
*
* Parameters that prevents excessive memory consumption
*
*
* Name Meaning
*
*
* {@code maxInitialLineLength}
* The maximum length of the initial line (e.g. {@code "GET / HTTP/1.0"})
* If the length of the initial line exceeds this value, a
* {@link TooLongHttpLineException} will be raised.
*
*
* {@code maxHeaderSize}
* The maximum length of all headers. If the sum of the length of each
* header exceeds this value, a {@link TooLongHttpHeaderException} will be raised.
*
*
* {@code maxChunkSize}
* The maximum length of the content or each chunk. If the content length
* exceeds this value, the transfer encoding of the decoded request will be
* converted to 'chunked' and the content will be split into multiple
* {@link HttpContent}s. If the transfer encoding of the HTTP request is
* 'chunked' already, each chunk will be split into smaller chunks if the
* length of the chunk exceeds this value. If you prefer not to handle
* {@link HttpContent}s in your handler, insert {@link HttpObjectAggregator}
* after this decoder in the {@link ChannelPipeline}.
*
*
*
* Parameters that control parsing behavior
*
*
* Name Default value Meaning
*
*
* {@code allowDuplicateContentLengths}
* {@value #DEFAULT_ALLOW_DUPLICATE_CONTENT_LENGTHS}
* When set to {@code false}, will reject any messages that contain multiple Content-Length header fields.
* When set to {@code true}, will allow multiple Content-Length headers only if they are all the same decimal value.
* The duplicated field-values will be replaced with a single valid Content-Length field.
* See RFC 7230, Section 3.3.2.
*
*
* {@code allowPartialChunks}
* {@value #DEFAULT_ALLOW_PARTIAL_CHUNKS}
* If the length of a chunk exceeds the {@link ByteBuf}s readable bytes and {@code allowPartialChunks}
* is set to {@code true}, the chunk will be split into multiple {@link HttpContent}s.
* Otherwise, if the chunk size does not exceed {@code maxChunkSize} and {@code allowPartialChunks}
* is set to {@code false}, the {@link ByteBuf} is not decoded into an {@link HttpContent} until
* the readable bytes are greater or equal to the chunk size.
*
*
*
* Header Validation
*
* It is recommended to always enable header validation.
*
* Without header validation, your system can become vulnerable to
*
* CWE-113: Improper Neutralization of CRLF Sequences in HTTP Headers ('HTTP Response Splitting')
* .
*
* This recommendation stands even when both peers in the HTTP exchange are trusted,
* as it helps with defence-in-depth.
*/
public class HttpRequestDecoder extends HttpObjectDecoder {
private static final AsciiString Accept = AsciiString.cached("Accept");
private static final AsciiString Host = AsciiString.cached("Host");
private static final AsciiString Connection = AsciiString.cached("Connection");
private static final AsciiString ContentType = AsciiString.cached("Content-Type");
private static final AsciiString ContentLength = AsciiString.cached("Content-Length");
private static final int GET_AS_INT = 'G' | 'E' << 8 | 'T' << 16;
private static final int POST_AS_INT = 'P' | 'O' << 8 | 'S' << 16 | 'T' << 24;
private static final long HTTP_1_1_AS_LONG = 'H' | 'T' << 8 | 'T' << 16 | 'P' << 24 | (long) '/' << 32 |
(long) '1' << 40 | (long) '.' << 48 | (long) '1' << 56;
private static final long HTTP_1_0_AS_LONG = 'H' | 'T' << 8 | 'T' << 16 | 'P' << 24 | (long) '/' << 32 |
(long) '1' << 40 | (long) '.' << 48 | (long) '0' << 56;
private static final int HOST_AS_INT = 'H' | 'o' << 8 | 's' << 16 | 't' << 24;
private static final long CONNECTION_AS_LONG_0 = 'C' | 'o' << 8 | 'n' << 16 | 'n' << 24 |
(long) 'e' << 32 | (long) 'c' << 40 | (long) 't' << 48 | (long) 'i' << 56;
private static final short CONNECTION_AS_SHORT_1 = 'o' | 'n' << 8;
private static final long CONTENT_AS_LONG = 'C' | 'o' << 8 | 'n' << 16 | 't' << 24 |
(long) 'e' << 32 | (long) 'n' << 40 | (long) 't' << 48 | (long) '-' << 56;
private static final int TYPE_AS_INT = 'T' | 'y' << 8 | 'p' << 16 | 'e' << 24;
private static final long LENGTH_AS_LONG = 'L' | 'e' << 8 | 'n' << 16 | 'g' << 24 |
(long) 't' << 32 | (long) 'h' << 40;
private static final long ACCEPT_AS_LONG = 'A' | 'c' << 8 | 'c' << 16 | 'e' << 24 |
(long) 'p' << 32 | (long) 't' << 40;
/**
* Creates a new instance with the default
* {@code maxInitialLineLength (4096)}, {@code maxHeaderSize (8192)}, and
* {@code maxChunkSize (8192)}.
*/
public HttpRequestDecoder() {
}
/**
* Creates a new instance with the specified parameters.
*/
public HttpRequestDecoder(
int maxInitialLineLength, int maxHeaderSize, int maxChunkSize) {
this(new HttpDecoderConfig()
.setMaxInitialLineLength(maxInitialLineLength)
.setMaxHeaderSize(maxHeaderSize)
.setMaxChunkSize(maxChunkSize));
}
/**
* @deprecated Prefer the {@link #HttpRequestDecoder(HttpDecoderConfig)} constructor,
* to always have header validation enabled.
*/
@Deprecated
public HttpRequestDecoder(
int maxInitialLineLength, int maxHeaderSize, int maxChunkSize, boolean validateHeaders) {
super(maxInitialLineLength, maxHeaderSize, maxChunkSize, DEFAULT_CHUNKED_SUPPORTED, validateHeaders);
}
/**
* @deprecated Prefer the {@link #HttpRequestDecoder(HttpDecoderConfig)} constructor,
* to always have header validation enabled.
*/
@Deprecated
public HttpRequestDecoder(
int maxInitialLineLength, int maxHeaderSize, int maxChunkSize, boolean validateHeaders,
int initialBufferSize) {
super(maxInitialLineLength, maxHeaderSize, maxChunkSize, DEFAULT_CHUNKED_SUPPORTED, validateHeaders,
initialBufferSize);
}
/**
* @deprecated Prefer the {@link #HttpRequestDecoder(HttpDecoderConfig)} constructor,
* to always have header validation enabled.
*/
@Deprecated
public HttpRequestDecoder(
int maxInitialLineLength, int maxHeaderSize, int maxChunkSize, boolean validateHeaders,
int initialBufferSize, boolean allowDuplicateContentLengths) {
super(maxInitialLineLength, maxHeaderSize, maxChunkSize, DEFAULT_CHUNKED_SUPPORTED, validateHeaders,
initialBufferSize, allowDuplicateContentLengths);
}
/**
* @deprecated Prefer the {@link #HttpRequestDecoder(HttpDecoderConfig)} constructor,
* to always have header validation enabled.
*/
@Deprecated
public HttpRequestDecoder(
int maxInitialLineLength, int maxHeaderSize, int maxChunkSize, boolean validateHeaders,
int initialBufferSize, boolean allowDuplicateContentLengths, boolean allowPartialChunks) {
super(maxInitialLineLength, maxHeaderSize, maxChunkSize, DEFAULT_CHUNKED_SUPPORTED, validateHeaders,
initialBufferSize, allowDuplicateContentLengths, allowPartialChunks);
}
/**
* Creates a new instance with the specified configuration.
*/
public HttpRequestDecoder(HttpDecoderConfig config) {
super(config);
}
@Override
protected HttpMessage createMessage(String[] initialLine) throws Exception {
return new DefaultHttpRequest(
// Do strict version checking
HttpVersion.valueOf(initialLine[2], true),
HttpMethod.valueOf(initialLine[0]), initialLine[1], headersFactory);
}
@Override
protected AsciiString splitHeaderName(final byte[] sb, final int start, final int length) {
final byte firstChar = sb[start];
if (firstChar == 'H') {
if (length == 4 && isHost(sb, start)) {
return Host;
}
} else if (firstChar == 'A') {
if (length == 6 && isAccept(sb, start)) {
return Accept;
}
} else if (firstChar == 'C') {
if (length == 10) {
if (isConnection(sb, start)) {
return Connection;
}
} else if (length == 12) {
if (isContentType(sb, start)) {
return ContentType;
}
} else if (length == 14) {
if (isContentLength(sb, start)) {
return ContentLength;
}
}
}
return super.splitHeaderName(sb, start, length);
}
private static boolean isAccept(byte[] sb, int start) {
final long maybeAccept = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24 |
(long) sb[start + 4] << 32 |
(long) sb[start + 5] << 40;
return maybeAccept == ACCEPT_AS_LONG;
}
private static boolean isHost(byte[] sb, int start) {
final int maybeHost = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24;
return maybeHost == HOST_AS_INT;
}
private static boolean isConnection(byte[] sb, int start) {
final long maybeConnecti = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24 |
(long) sb[start + 4] << 32 |
(long) sb[start + 5] << 40 |
(long) sb[start + 6] << 48 |
(long) sb[start + 7] << 56;
if (maybeConnecti != CONNECTION_AS_LONG_0) {
return false;
}
final short maybeOn = (short) (sb[start + 8] | sb[start + 9] << 8);
return maybeOn == CONNECTION_AS_SHORT_1;
}
private static boolean isContentType(byte[] sb, int start) {
final long maybeContent = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24 |
(long) sb[start + 4] << 32 |
(long) sb[start + 5] << 40 |
(long) sb[start + 6] << 48 |
(long) sb[start + 7] << 56;
if (maybeContent != CONTENT_AS_LONG) {
return false;
}
final int maybeType = sb[start + 8] |
sb[start + 9] << 8 |
sb[start + 10] << 16 |
sb[start + 11] << 24;
return maybeType == TYPE_AS_INT;
}
private static boolean isContentLength(byte[] sb, int start) {
final long maybeContent = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24 |
(long) sb[start + 4] << 32 |
(long) sb[start + 5] << 40 |
(long) sb[start + 6] << 48 |
(long) sb[start + 7] << 56;
if (maybeContent != CONTENT_AS_LONG) {
return false;
}
final long maybeLength = sb[start + 8] |
sb[start + 9] << 8 |
sb[start + 10] << 16 |
sb[start + 11] << 24 |
(long) sb[start + 12] << 32 |
(long) sb[start + 13] << 40;
return maybeLength == LENGTH_AS_LONG;
}
private static boolean isGetMethod(final byte[] sb, int start) {
final int maybeGet = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16;
return maybeGet == GET_AS_INT;
}
private static boolean isPostMethod(final byte[] sb, int start) {
final int maybePost = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24;
return maybePost == POST_AS_INT;
}
@Override
protected String splitFirstWordInitialLine(final byte[] sb, final int start, final int length) {
if (length == 3) {
if (isGetMethod(sb, start)) {
return HttpMethod.GET.name();
}
} else if (length == 4) {
if (isPostMethod(sb, start)) {
return HttpMethod.POST.name();
}
}
return super.splitFirstWordInitialLine(sb, start, length);
}
@Override
protected String splitThirdWordInitialLine(final byte[] sb, final int start, final int length) {
if (length == 8) {
final long maybeHttp1_x = sb[start] |
sb[start + 1] << 8 |
sb[start + 2] << 16 |
sb[start + 3] << 24 |
(long) sb[start + 4] << 32 |
(long) sb[start + 5] << 40 |
(long) sb[start + 6] << 48 |
(long) sb[start + 7] << 56;
if (maybeHttp1_x == HTTP_1_1_AS_LONG) {
return HttpVersion.HTTP_1_1_STRING;
} else if (maybeHttp1_x == HTTP_1_0_AS_LONG) {
return HttpVersion.HTTP_1_0_STRING;
}
}
return super.splitThirdWordInitialLine(sb, start, length);
}
@Override
protected HttpMessage createInvalidMessage() {
return new DefaultFullHttpRequest(HttpVersion.HTTP_1_0, HttpMethod.GET, "/bad-request",
Unpooled.buffer(0), headersFactory, trailersFactory);
}
@Override
protected boolean isDecodingRequest() {
return true;
}
@Override
protected boolean isContentAlwaysEmpty(final HttpMessage msg) {
// fast-path to save expensive O(n) checks; users can override createMessage
// and extends DefaultHttpRequest making implementing HttpResponse:
// this is why we cannot use instanceof DefaultHttpRequest here :(
if (msg.getClass() == DefaultHttpRequest.class) {
return false;
}
return super.isContentAlwaysEmpty(msg);
}
}