Motivation:
Some of the HttpPostMultiPartRequestDecoder specific tests were included in HttpPostRequestDecoderTest. We should better move these in the correct test class.
Modifications:
Move specific tests
Result:
Cleanup
Motivation:
2 years ago a change remove the default clearing of all HttpData, whatever
they are disk based or memory based.
A lot of users were probably releasing HttpData directly, so there was no issue.
But now, it seems, and as the Javadoc said, that `decoder.destroy()` shall clean up
also Memory based HttpData, and not only Disk based HttpData as currently.
Change:
- Add in `destroy()` method the necessary code to release if necessary
the underlying Memory based HttpDatas.
- Change one Junit Test (using Mixed, Memory and Disk based factories)
in order to check the correctness of this behavior and to really act
as a handler (releasing buffers or requests).
- Modify one Junit core to check validity when a delimiter is present in the Chunk
but not CRLF/LF (false delimiter), to ensure correctness.
Result:
No more issue on memory leak
Note that still the List and the Map are not cleaned, since they were not
before. No change is done on this, since it could produce backward issue compatibility.
Fix issues #11175 and #11184
__Motivation__
`Http2FrameCodecBuilder` constructor calls `server()` internally which disallows using certain methods on the builder later. Additionally, the constructor is package private which limits extension of the `Builder` as well as usage outside the available `forClient()` and `forServer()` static methods.
__Modification__
- Introduce a `public` no-arg constructor to `Http2FrameCodecBuilder`.
__Result__
`Http2FrameCodecBuilder` can now be used to create the codec with `Http2Connection` or `Http2ConnectionDecoder` and `Http2ConnectionEncoder` which was earlier not possible due to implicit call to `server()` by the `Http2FrameCodecBuilder` constructor.
Motivation:
ReferenceCountedOpenSslEngine may unwrap data and complete the handshake
in a single unwrap() call. However it may return HanshakeStatus of
HandshakeStatus of NEED_UNWRAP instead of FINISHED. This may result in
the SslHandler sending the unwrapped data up the pipeline before
notifying that the handshake has completed, and result in out-of-order
events.
Modifications:
- if ReferenceCountedOpenSslEngine handshake status is NEED_UNWRAP and
produced data, or NEED_WRAP and consumed some data, we should call
handshake() to get the current state.
Result:
ReferenceCountedOpenSslEngine correctly indicates when the handshake has
finished if at the same time data was produced or consumed.
Motivation:
Before throwing TooLongFrameException, should call the skipBytes method to skip the bytes to be read
Modification:
- skip bytes before throw
Result:
Actually skip the bytes when we detect too much data
Signed-off-by: xingrufei <xingrufei@sogou-inc.com>
Co-authored-by: xingrufei <xingrufei@sogou-inc.com>
Motivation:
In the mqtt v3.1 protocol, the default maximum Client Identifier length is 23.However, in (#11114), there are many cases, the server may still receive a client ID with a length greater than 23. Perhaps should consider letting the user decide whether accept client id greater than 23 on the server side
Modification:
- Allow to specify max length.
Result:
Give a choice for app to extend the length limitation of clientId even in mqtt v3.1 on the server side.
Signed-off-by: xingrufei <xingrufei@sogou-inc.com>
Co-authored-by: xingrufei <xingrufei@sogou-inc.com>
Motivation:
We need to call destroy() if the constructor of HttpPostMultipartRequestDecoder throws as otherwise we may leak memory.
Modifications:
- Call destroy() if we throw
- Add unit test
Result:
No more leaks when constructor throws
Co-authored-by: Frederic Bregier <frederic.bregier@waarp.fr>
Motivation:
We didn't correctly handle the case when no content-type header was found or if the charset was illegal and just did throw a NPE or ICE. We should in both cases throw an ErrorDataDecoderException to reflect what is documented in the javadocs.
Modifications:
- Throw correct exception
- Merge private method into the constructor as it is only used there
- Add unit tests
Result:
Throw expected exceptions on decoding errors
Motivation:
In the past we did see problems sometime when run-on-arch-action was used. We are multiple releases behind, lets update and so maybe fix the problems.
Modifications:
Update to latest release
Result:
Use latest run-on-arch-action release
Motivation:
It turned out we didnt run the openssl tests on the CI when we used the non-static version of netty-tcnative.
Modifications:
- Upgrade netty-tcnative to fix segfault when using shared openssl
- Adjust tests to only run session cache tests when openssl supports it
- Fix some more tests to only depend on KeyManager if the underlying openssl version supports it
Result:
Run all openssl test on the CI even when shared library is used
Motivation:
When create a WebSocketServerProtocolConfig to check URI path starts from '/',
only '/' or '//subPath' can be passed by the checker,but '/subPath' should be
passed as well
Modifications:
in `WebSocketServerProtocolHandshakeHandler.isWebSocketPath()` treat '/' a special case
Result:
'/subPath' can be passed
Motivation:
In the latest version of BouncyCastle, BCJSSE:'TLSv1.3' is now a supported protocol for both client and server. So should consider enabling TLSv1.3 when TLSv1.3 is available
Modification:
This pr is to enable TLSv1.3 when using BouncyCastle ALPN support, please review this pr,thanks
Result:
Enable TLSv1.3 when using BouncyCastle ALPN support
Signed-off-by: xingrufei <xingrufei@sogou-inc.com>
Co-authored-by: xingrufei <xingrufei@sogou-inc.com>
Motivation:
RFC 8411 defines a new HTTP/2 pseudo header called `:protocol`:
- https://datatracker.ietf.org/doc/rfc8441/
Netty currently raises an exception when validating an `Http2Headers`.
Modifications:
- Added `Http2Headers.PseudoHeaderNames.PROTOCOL` so that `:protocol`
pseudo header is not rejected.
Result:
- A user can implement WebSockets with HTTP/2.
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved in microbench and resolver-dns
Fixes#11170
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
SimpleChannelPromiseAggregator implements the promise API and allows for
multiple operations to share a common promise. It currently propagates
the last exception to occur, but this may mask the original exception
which lead to the last exception and make debugging more difficult.
Modifications:
- SimpleChannelPromiseAggregator propagates the first exception instead
of the last exception.
Result:
Fixes https://github.com/netty/netty/issues/11161.
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* import static relevant checks
* Replace manual checks with ObjectUtil methods
Result:
All checks needed are done with ObjectUtil, some exception texts are improved.
Fixes#11170
Motivation:
Switch statements should always have a default block to ensure we not "fall-through" by mistake.
Modification:
Add default block
Result:
code cleanup.
Signed-off-by: xingrufei <xingrufei@sogou-inc.com>
Co-authored-by: xingrufei <xingrufei@sogou-inc.com>
Motivation:
NullChecks resulting in a NullPointerException or IllegalArgumentException, numeric ranges (>0, >=0) checks, not empty strings/arrays checks must never be anonymous but with the parameter or variable name which is checked. They must be specific and should not be done with an "OR-Logic" (if a == null || b == null) throw new NullPointerEx.
Modifications:
* Add some checks to ObjectUtil not present today but utilized in the code.
* Add unit test for ObjectUtil
* Update commmons internal usage with ObjectUtil
Result:
All checks needed are present, subsequent changes of usage of ObjectUtil are possible.
Fixes for https://github.com/netty/netty/issues/11170
Motivation:
Under Android it was not possible to load a specific web page. It might be related to the (missing?) ALPN of the internal TLS implementation. BouncyCastle as a replacement works but this was not supported so far by Netty.
BouncyCastle also has the benefit to be a pure Java solution, all the other providers (OpenSSL, Conscrypt) require native libraries which are not available under Android at least.
Modification:
BouncyCastleAlpnSslEngine.java and support classes have been added. It is relying on the JDK code, hence some support classes had to be opened to prevent code duplication.
Result:
BouncyCastle can be used as TLS provider.
Co-authored-by: Norman Maurer <norman_maurer@apple.com>
Motivation:
In the method processHeaderState(), we have checked the http2 payload length against max frame size. But later for
different types of frames, we checked this again.
Modifications:
Removed the duplicate check in verify*() methods. And removed verifyPayloadLength() method, since it will not be used anymore.
Result:
Remove duplicate check and make the code cleaner.
Motivation: We have already calculated the payload length. So no need to calculate again when allocating ByteBuf
Modification: Used payloadLength variable instead of calculating the payload length again
Result: Re-use the variable value and make the code cleaner
Motivation:
While adding support for GRO (b05fdf3ff8) we broke support for IP_RECVORIGDSTADDR when using the native transport. Beside this we also didnt correctly handle IP_RECVORIGDSTADDR when recvmmsg was used.
Modifications:
- Fix support for IP_RECVORIGDSTADDR when using the native epoll transport for normal reads (recvmsg) but also for scattering reads (recvmmsg)
- Remove code from unix code-base as the support is linux specific and we not need the code there anymore
Result:
Fixes https://github.com/netty/netty/issues/11141
Motivation:
At the moment we only expose close(...) methods that take a Channel as paramater. This can be problematic as the write will start at the end of the pipeline which may contain ChannelOutboundHandler implementations that not expect WebSocketFrame objects. We should better also support to pass in a ChannelHandlerContext as starting point for the write which ensures that the WebSocketFrame objects will be handled correctly from this position of the pipeline.
Modifications:
- Add new close(...) methods that take a ChannelHandlerContext
- Add javadoc sentence to point users to the new methods.
Result:
Be able to "start" the close at the right position in the pipeline.
Motivation:
On Windows DnsNameResolver is not able to resolve the host(computer) name as it is not in the hosts file and the DNS server is also not able to resolve it.
The exception below is the result of the resolution:
Caused by: java.net.UnknownHostException: failed to resolve 'host(computer)-name' after 2 queries
at io.netty.resolver.dns.DnsResolveContext.finishResolve(DnsResolveContext.java:1013)
at io.netty.resolver.dns.DnsResolveContext.tryToFinishResolve(DnsResolveContext.java:966)
at io.netty.resolver.dns.DnsResolveContext.query(DnsResolveContext.java:414)
at io.netty.resolver.dns.DnsResolveContext.tryToFinishResolve(DnsResolveContext.java:938)
at io.netty.resolver.dns.DnsResolveContext.access$700(DnsResolveContext.java:63)
at io.netty.resolver.dns.DnsResolveContext$2.operationComplete(DnsResolveContext.java:467)
Modifications:
On Windows DnsNameResolver maps host(computer) name to LOCALHOST
Result:
DnsNameResolver is able to resolve the host(computer) name on Windows
Fixes#11142
Motivation:
There is a bug in `StreamBufferingEncoder` such that when client receives GOWAY while there are pending streams due to MAX_CONCURRENT_STREAMS, we see the following error:
```
io.netty.handler.codec.http2.Http2Exception$StreamException: Maximum active streams violated for this endpoint.
at io.netty.handler.codec.http2.Http2Exception.streamError(Http2Exception.java:147)
at io.netty.handler.codec.http2.DefaultHttp2Connection$DefaultEndpoint.checkNewStreamAllowed(DefaultHttp2Connection.java:896)
at io.netty.handler.codec.http2.DefaultHttp2Connection$DefaultEndpoint.createStream(DefaultHttp2Connection.java:748)
at io.netty.handler.codec.http2.DefaultHttp2Connection$DefaultEndpoint.createStream(DefaultHttp2Connection.java:668)
at io.netty.handler.codec.http2.DefaultHttp2ConnectionEncoder.writeHeaders0(DefaultHttp2ConnectionEncoder.java:201)
at io.netty.handler.codec.http2.DefaultHttp2ConnectionEncoder.writeHeaders(DefaultHttp2ConnectionEncoder.java:167)
at io.netty.handler.codec.http2.DecoratingHttp2FrameWriter.writeHeaders(DecoratingHttp2FrameWriter.java:53)
at io.netty.handler.codec.http2.StreamBufferingEncoder.writeHeaders(StreamBufferingEncoder.java:153)
at io.netty.handler.codec.http2.StreamBufferingEncoder.writeHeaders(StreamBufferingEncoder.java:141)
at io.grpc.netty.NettyClientHandler.createStreamTraced(NettyClientHandler.java:584)
at io.grpc.netty.NettyClientHandler.createStream(NettyClientHandler.java:567)
at io.grpc.netty.NettyClientHandler.write(NettyClientHandler.java:328)
at io.netty.channel.AbstractChannelHandlerContext.invokeWrite0(AbstractChannelHandlerContext.java:717)
at io.netty.channel.AbstractChannelHandlerContext.invokeWrite(AbstractChannelHandlerContext.java:709)
at io.netty.channel.AbstractChannelHandlerContext.write(AbstractChannelHandlerContext.java:792)
at io.netty.channel.AbstractChannelHandlerContext.write(AbstractChannelHandlerContext.java:702)
at io.netty.channel.DefaultChannelPipeline.write(DefaultChannelPipeline.java:1015)
at io.netty.channel.AbstractChannel.write(AbstractChannel.java:289)
at io.grpc.netty.WriteQueue$AbstractQueuedCommand.run(WriteQueue.java:213)
at io.grpc.netty.WriteQueue.flush(WriteQueue.java:128)
at io.grpc.netty.WriteQueue.drainNow(WriteQueue.java:114)
at io.grpc.netty.NettyClientHandler.goingAway(NettyClientHandler.java:783)
at io.grpc.netty.NettyClientHandler.access$300(NettyClientHandler.java:91)
at io.grpc.netty.NettyClientHandler$3.onGoAwayReceived(NettyClientHandler.java:280)
at io.netty.handler.codec.http2.DefaultHttp2Connection.goAwayReceived(DefaultHttp2Connection.java:236)
at io.netty.handler.codec.http2.DefaultHttp2ConnectionDecoder.onGoAwayRead0(DefaultHttp2ConnectionDecoder.java:218)
at io.netty.handler.codec.http2.DefaultHttp2ConnectionDecoder$FrameReadListener.onGoAwayRead(DefaultHttp2ConnectionDecoder.java:551)
at io.netty.handler.codec.http2.Http2InboundFrameLogger$1.onGoAwayRead(Http2InboundFrameLogger.java:119)
at io.netty.handler.codec.http2.DefaultHttp2FrameReader.readGoAwayFrame(DefaultHttp2FrameReader.java:591)
at io.netty.handler.codec.http2.DefaultHttp2FrameReader.processPayloadState(DefaultHttp2FrameReader.java:272)
at io.netty.handler.codec.http2.DefaultHttp2FrameReader.readFrame(DefaultHttp2FrameReader.java:160)
at io.netty.handler.codec.http2.Http2InboundFrameLogger.readFrame(Http2InboundFrameLogger.java:41)
at io.netty.handler.codec.http2.DefaultHttp2ConnectionDecoder.decodeFrame(DefaultHttp2ConnectionDecoder.java:174)
at io.netty.handler.codec.http2.Http2ConnectionHandler$FrameDecoder.decode(Http2ConnectionHandler.java:378)
at io.netty.handler.codec.http2.Http2ConnectionHandler.decode(Http2ConnectionHandler.java:438)
at io.netty.handler.codec.ByteToMessageDecoder.decodeRemovalReentryProtection(ByteToMessageDecoder.java:498)
at io.netty.handler.codec.ByteToMessageDecoder.callDecode(ByteToMessageDecoder.java:437)
at io.netty.handler.codec.ByteToMessageDecoder.channelRead(ByteToMessageDecoder.java:276)
at io.netty.channel.AbstractChannelHandlerContext.invokeChannelRead(AbstractChannelHandlerContext.java:379)
at io.netty.channel.AbstractChannelHandlerContext.invokeChannelRead(AbstractChannelHandlerContext.java:365)
at io.netty.channel.AbstractChannelHandlerContext.fireChannelRead(AbstractChannelHandlerContext.java:357)
at io.netty.handler.ssl.SslHandler.unwrap(SslHandler.java:1486)
at io.netty.handler.ssl.SslHandler.decodeJdkCompatible(SslHandler.java:1235)
at io.netty.handler.ssl.SslHandler.decode(SslHandler.java:1282)
at io.netty.handler.codec.ByteToMessageDecoder.decodeRemovalReentryProtection(ByteToMessageDecoder.java:498)
at io.netty.handler.codec.ByteToMessageDecoder.callDecode(ByteToMessageDecoder.java:437)
at io.netty.handler.codec.ByteToMessageDecoder.channelRead(ByteToMessageDecoder.java:276)
at io.netty.channel.AbstractChannelHandlerContext.invokeChannelRead(AbstractChannelHandlerContext.java:379)
at io.netty.channel.AbstractChannelHandlerContext.invokeChannelRead(AbstractChannelHandlerContext.java:365)
at io.netty.channel.AbstractChannelHandlerContext.fireChannelRead(AbstractChannelHandlerContext.java:357)
at io.netty.channel.DefaultChannelPipeline$HeadContext.channelRead(DefaultChannelPipeline.java:1410)
at io.netty.channel.AbstractChannelHandlerContext.invokeChannelRead(AbstractChannelHandlerContext.java:379)
at io.netty.channel.AbstractChannelHandlerContext.invokeChannelRead(AbstractChannelHandlerContext.java:365)
at io.netty.channel.DefaultChannelPipeline.fireChannelRead(DefaultChannelPipeline.java:919)
at io.netty.channel.epoll.AbstractEpollStreamChannel$EpollStreamUnsafe.epollInReady(AbstractEpollStreamChannel.java:792)
at io.netty.channel.epoll.EpollEventLoop.processReady(EpollEventLoop.java:475)
at io.netty.channel.epoll.EpollEventLoop.run(EpollEventLoop.java:378)
at io.netty.util.concurrent.SingleThreadEventExecutor$4.run(SingleThreadEventExecutor.java:989)
at io.netty.util.internal.ThreadExecutorMap$2.run(ThreadExecutorMap.java:74)
at io.netty.util.concurrent.FastThreadLocalRunnable.run(FastThreadLocalRunnable.java:30)
at java.base/java.lang.Thread.run(Unknown Source)
```
The bug should come from the way that `StreamBufferingEncoder.writeHeaders()` handles the condition `connection().goAwayReceived()`. The current behavior is to delegate to `super.writeHeaders()` and let the stream fail, but this will end up with `Http2Exception` with the message "Maximum active streams violated for this endpoint" which is horrible. See e5951d46fc/codec-http2/src/main/java/io/netty/handler/codec/http2/StreamBufferingEncoder.java (L152-L155)
Modification:
Abort new stream immediately if goaway received *and* MAX_CONCURRENT_STREAM reached in `StreamBufferingEncoder` rather than delegating to the `writeHeaders()` method of its super class.
Result:
In the situation when GOAWAY received as well as MAX_CONCURRENT_STREAM exceeded, the client will fail the buffered streams with `Http2Error.NO_ERROR` and message "GOAWAY received" instead of "Maximum active streams violated for this endpoint".
Co-authored-by: Norman Maurer <norman_maurer@apple.com>
Motivation:
`ThreadLocalRandom` doesn't cause contention. Also `nextInt()` generates only 4 random bytes while `Math.random()` generates 8 bytes.
Modification:
Replaced `(int) Math.random()` with `PlatformDependent.threadLocalRandom().nextInt()`
Result:
No possible contention when random numbers for WebSockets.
Motivation:
We are increasingly running in environments where Unsafe, setAccessible, etc. are not available.
When debug logging is enabled, we log a complete stack trace every time one of these initialisations fail.
Seeing these stack traces can cause people unnecessary concern.
For instance, people might have alerts that are triggered by a stack trace showing up in logs, regardless of its log level.
Modification:
We continue to print debug log messages on the result of our initialisations, but now we only include the full stack trace is _trace_ logging (or FINEST, or equivalent in whatever logging framework is configured) is enabled.
Result:
We now only log these initialisation stack traces when the lowest possible log level is enabled.
Fixes#7817
Motivation:
SslHandler invokes channel.read() during the handshake process. For some
channel implementations (e.g. LocalChannel) this may result in re-entry
conditions into unwrap. Unwrap currently defers updating the input
buffer indexes until the unwrap method returns to avoid intermediate
updates if not necessary, but this may result in unwrapping the same
contents multiple times which leads to handshake failures [1][2].
[1] ssl3_get_record:decryption failed or bad record mac
[2] ssl3_read_bytes:sslv3 alert bad record mac
Modifications:
- SslHandler#unwrap updates buffer indexes on each iteration so that if
reentry scenario happens the correct indexes will be visible.
Result:
Fixes https://github.com/netty/netty/issues/11146
Motivation:
When Memory based Factory is used, if the first chunk starts with Line Break, the HttpData
is not filled with the current available buffer if the delimiter is not found yet, while it may
add some.
Fix JavaDoc to note potential wrong usage of content() or getByteBuf() if HttpDatais has
a huge content with the risk of Out Of Memory Exception.
Fix JavaDoc to explain how to release properly the Factory, whatever it is in Memory,
Disk or Mixed mode.
Fix issue #11143
Modifications:
First, when the delimiter is not found, instead of searching Line Break from readerIndex(), we should search
from readerIndex() + readableBytes() - delimiter size, since this is the only part where usefull
Line Break could be searched for, except if readableBytes is less than delimiter size (then we search from
readerIndex).
Second, when a Memory HttpData is created, it should be assigned an empty buffer to be
consistent with the other implementations (Disk or Mixed mode).
We cannot change the default behavior of the content() or getByteBuf() of the Memory based HttpData
since the ByteBuf is supposed to be null when released, but not empty.
When a new ByteBuf is added, one more check verifies if the current ByteBuf is empty, and if so, it
is released and replaced by the new one, without creating a new CompositeByteBuf.
Result:
In the tests testBIgFileUploadDelimiterInMiddleChunkDecoderMemoryFactory and related for other modes,
the buffers are starting with a CRLF.
When we offer only the prefix part of the multipart (no data at all), the current Partial HttpData has
an empty buffer.
The first time we offer the data starting with CRLF to the decoder, it now
has a correct current Partial HttpData with a buffer not empty.
The Benchmark was re-run against this new version.
Old Benchmark Mode Cnt Score Error Units
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigAdvancedLevel thrpt 6 4,037 ± 0,358 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigDisabledLevel thrpt 6 4,226 ± 0,471 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigParanoidLevel thrpt 6 0,875 ± 0,029 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigSimpleLevel thrpt 6 4,346 ± 0,275 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighAdvancedLevel thrpt 6 2,044 ± 0,020 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighDisabledLevel thrpt 6 2,278 ± 0,159 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighParanoidLevel thrpt 6 0,174 ± 0,004 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighSimpleLevel thrpt 6 2,370 ± 0,065 ops/ms
New Benchmark Mode Cnt Score Error Units
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigAdvancedLevel thrpt 6 5,604 ± 0,415 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigDisabledLevel thrpt 6 6,058 ± 0,111 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigParanoidLevel thrpt 6 0,914 ± 0,031 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderBigSimpleLevel thrpt 6 6,053 ± 0,051 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighAdvancedLevel thrpt 6 2,636 ± 0,141 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighDisabledLevel thrpt 6 3,033 ± 0,181 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighParanoidLevel thrpt 6 0,178 ± 0,006 ops/ms
HttpPostMultipartRequestDecoderBenchmark.multipartRequestDecoderHighSimpleLevel thrpt 6 2,859 ± 0,189 ops/ms
So +20 to +40% improvement due to not searching for CRLF/LF into the full buffer when no delimiter is found,
but only from the end and delimiter size + 2 (CRLF).
Motivation:
SslHandler has many independent boolean member variables. They can be
collapsed into a single variable to save memory.
Modifications:
- SslHandler boolean state consolidated into a single short variable.
Result:
Savings of 8 bytes per SslHandler (which is per connection) observed on
OpenJDK.
Motivation:
`SslHandler#unwrap` may produce `SslHandshakeCompletionEvent` if it
receives `close_notify` alert. This alert indicates that the engine is
closed and no more data are expected in the pipeline. However, it fires
the event before the last data chunk. As the result, further handlers
may loose data if they handle `SslHandshakeCompletionEvent`.
This issue was not visible before #11133 because we did not write
`close_notify` alert reliably.
Modifications:
- Add tests to reproduce described behavior;
- Move `notifyClosePromise` after fire of the last `decodeOut`;
Result:
`SslHandshakeCompletionEvent` correctly indicates that the engine is
closed and no more data are expected on the pipeline.
Motivation:
We should avoid blocking in the event loop as much as possible.
The InputStream.read() is a blocking method, and we don't need to call it if available() returns a positive number.
Modification:
Bypass calling InputStream.read() if available() returns a positive number.
Result:
Fewer blocking calls in the event loop, in general, when ChunkedStream is used.
Motivation:
SslHandler's wrap method notifies the handshakeFuture and sends a
SslHandshakeCompletionEvent user event down the pipeline before writing
the plaintext that has just been wrapped. It is possible the application
may write as a result of these events and re-enter into wrap to write
more data. This will result in out of sequence data and result in alerts
such as SSLV3_ALERT_BAD_RECORD_MAC.
Modifications:
- SslHandler wrap should write any pending data before notifying
promises, generating user events, or anything else that may create a
re-entry scenario.
Result:
SslHandler will wrap/write data in the same order.
Motivation:
This is a regression caused by #11086
Modifications:
AbstractKQueueChannel#writeFilter should be invoked with `!in.isEmpty()`
- false - all messages are written
- true - there are still messages to be written
Result:
AbstractKQueueChannel#writeFilter is invoked with the correct boolean depending on the ChannelOutboundBuffer state
Motivation:
We should skip the deployment of jars that are not meant to be consumed by the user as there is no public API.
Modifications:
Let's skip deployment for modules that are not useful for users
Result:
Build cleanup
Motivation:
We also need to ensure that all the header validation is done when a single header with the endStream flag is received
Modifications:
- Adjust code to always enforce the validation
- Add more unit tests
Result:
Always correctly validate
Motivation:
As we can supported SegmentedDatagramPacket in multiple native
transports (like in epoll and io_uring) we should just move it to
unix-common so we can share code.
Modification:
- Move SegmentedDatagrampPacket to transport-native-unixu
- Mark the SegmentedDatagramPacket in epoll as deprecated
- Update code to use updated package.
Result:
Possibility of code re-use
Motivation:
There are some redundant checks and so these can be removed
Modifications:
- First check frameOpcode != OPCODE_PING is removed because the code executed int the branch where frameOpcode <= 7, while OPCODE_PING is 9.
- Second check frameOpcode != OPCODE_PING is removed because its checked before.
Result:
Code cleanup
Motivation:
UDP_GRO can improve performance when reading UDP datagrams. This patch adds support for it.
See https://lwn.net/Articles/768995/
Modifications:
- Add recvmsg(...)
- Add support for UDP_GRO in recvmsg(...) and recvmmsg(...)
- Remove usage of recvfrom(...) and just always use recvmsg(...) or recvmmsg(...) to simplify things
- Refactor some code for sharing
- Add EpollChannelOption.UDP_GRO and the getter / setter in EpollDatagramConfig
Result:
UDP_GRO is supported when the underlying system supports it.
Motivation:
We had a bug in out DefaulThreadFactory as it always retrieved the ThreadGroup to used during creation time when now explicit ThreadGroup was given. This is problematic as the Thread may die and so the ThreadGroup is destroyed even tho the DefaultThreadFactory is still used.
This could produce exceptions like:
java.lang.IllegalThreadStateException
at java.lang.ThreadGroup.addUnstarted(ThreadGroup.java:867)
at java.lang.Thread.init(Thread.java:405)
at java.lang.Thread.init(Thread.java:349)
at java.lang.Thread.<init>(Thread.java:599)
at io.netty.util.concurrent.FastThreadLocalThread.<init>(FastThreadLocalThread.java:60)
at io.netty.util.concurrent.DefaultThreadFactory.newThread(DefaultThreadFactory.java:122)
at io.netty.util.concurrent.DefaultThreadFactory.newThread(DefaultThreadFactory.java:106)
at io.netty.util.concurrent.ThreadPerTaskExecutor.execute(ThreadPerTaskExecutor.java:32)
at io.netty.util.internal.ThreadExecutorMap$1.execute(ThreadExecutorMap.java:57)
at io.netty.util.concurrent.SingleThreadEventExecutor.doStartThread(SingleThreadEventExecutor.java:978)
at io.netty.util.concurrent.SingleThreadEventExecutor.startThread(SingleThreadEventExecutor.java:947)
at io.netty.util.concurrent.SingleThreadEventExecutor.execute(SingleThreadEventExecutor.java:830)
at io.netty.util.concurrent.SingleThreadEventExecutor.execute(SingleThreadEventExecutor.java:818)
at io.netty.channel.AbstractChannel$AbstractUnsafe.register(AbstractChannel.java:471)
at io.netty.channel.SingleThreadEventLoop.register(SingleThreadEventLoop.java:87)
at io.netty.channel.SingleThreadEventLoop.register(SingleThreadEventLoop.java:81)
at io.netty.channel.MultithreadEventLoopGroup.register(MultithreadEventLoopGroup.java:86)
at io.netty.bootstrap.AbstractBootstrap.initAndRegister(AbstractBootstrap.java:323)
at io.netty.bootstrap.AbstractBootstrap.doBind(AbstractBootstrap.java:272)
at io.netty.bootstrap.AbstractBootstrap.bind(AbstractBootstrap.java:239)
at io.netty.incubator.codec.quic.QuicTestUtils.newServer(QuicTestUtils.java:138)
at io.netty.incubator.codec.quic.QuicTestUtils.newServer(QuicTestUtils.java:143)
at io.netty.incubator.codec.quic.QuicTestUtils.newServer(QuicTestUtils.java:147)
at io.netty.incubator.codec.quic.QuicStreamFrameTest.testCloseHalfClosure(QuicStreamFrameTest.java:48)
at io.netty.incubator.codec.quic.QuicStreamFrameTest.testCloseHalfClosureUnidirectional(QuicStreamFrameTest.java:35)
at sun.reflect.NativeMethodAccessorImpl.invoke0(Native Method)
at sun.reflect.NativeMethodAccessorImpl.invoke(NativeMethodAccessorImpl.java:62)
at sun.reflect.DelegatingMethodAccessorImpl.invoke(DelegatingMethodAccessorImpl.java:43)
at java.lang.reflect.Method.invoke(Method.java:498)
at org.junit.runners.model.FrameworkMethod$1.runReflectiveCall(FrameworkMethod.java:59)
at org.junit.internal.runners.model.ReflectiveCallable.run(ReflectiveCallable.java:12)
at org.junit.runners.model.FrameworkMethod.invokeExplosively(FrameworkMethod.java:56)
at org.junit.internal.runners.statements.InvokeMethod.evaluate(InvokeMethod.java:17)
at org.junit.internal.runners.statements.FailOnTimeout$CallableStatement.call(FailOnTimeout.java:288)
at org.junit.internal.runners.statements.FailOnTimeout$CallableStatement.call(FailOnTimeout.java:282)
at java.util.concurrent.FutureTask.run(FutureTask.java:266)
at java.lang.Thread.run(Thread.java:748)
Modifications:
- If the user dont specify a ThreadGroup we will just pass null to the constructor of FastThreadLocalThread and so let it retrieve on creation time
- Adjust tests
Result:
Don't risk to see IllegalThreadStateExceptions.
Motivation:
The offsets were accidentally typed as int, where they should have been typed as long.
Modification:
Change type of offset arguments to PlatformDependent.put*(Object,int,?) from int to long.
Result:
It is now possible to use these methods to store to memory at absolute memory addresses.