Motivation:
In later Java8 versions our Atomic*FieldUpdater are slower then the JDK implementations so we should not use ours anymore. Even worse the JDK implementations provide for example an optimized version of addAndGet(...) using intrinsics which makes it a lot faster for this use-case.
Modifications:
- Remove methods that return our own Atomic*FieldUpdaters.
- Use the JDK implementations everywhere.
Result:
Faster code.
Motivation:
To keep our code clean we should fail the build when unused c code is detected.
Modifications:
- Add '-Wunused-variable' to build flags
Result:
Cleaner code.
request with a 'content-encoding: chunked' header
Motivation:
It is valid to send a response to a HEAD request that contains a transfer-encoding: chunked header, but it is not valid to include a body, and there is no way to do this using the netty4 HttpServerCodec.
The root cause is that the netty4 HttpObjectEncoder will transition to the state ST_CONTENT_CHUNK and the only way to transition back to ST_INIT is through the encodeChunkedContent method which will write the terminating length (0\r\n\r\n\r\n), a protocol error when responding to a HEAD request
Modifications:
- Keep track of the method of the request and depending on it handle the response differently when encoding it.
- Added a unit test.
Result:
Correclty handle HEAD responses that are chunked.
Motivation:
The 2 second timeout to bootstrap the test can timeout on the build servers. We should increase the timeout so it is less likely under powered or over worked machines are less likely to generate false failures.
Modifications:
- HttpToHttp2ConnectionHandlerTest setup timeout changed from 2 to 5 seconds
Result:
Less false build failures.
Motivation:
We should assert that the leak aware buffers correctly close the ResourceLeakTracker in the unit tests.
Modifications:
- Keep track of NoopResourceLeakTrackers and check if these were closed once the test completes
- Fix bugs in tests so the buffers are all released.
Result:
Better tests for leak aware buffers
Motivation:
c2f4daa739 added a unit test but used a too small test timeout.
Modifications:
Increase timeout.
Result:
Test should have enough time to complete on the CI.
Motivation:
Often its useful to run the tests with different commandline arguments (like different system properties).
Modifications:
Introduce argLine.javaProperties which can be set from the commandline as well to add arguments that should be append when run the unit tests.
Result:
More flexible way to run the tests.
Motivation:
InternalLoggerFactory either sets a default logger factory
implementation based on the logging implementations on the classpath, or
applications can set a logger factory explicitly. If applications wait
too long to set the logger factory, Netty will have already set a logger
factory leading to some objects using one logging implementation and
other objets using another logging implementation. This can happen too
if the application tries to set the logger factory twice, which is
likely a bug in the application. Yet, the Javadocs for
InternalLoggerFactory warn against this saying that
InternalLoggerFactory#setLoggerFactory "should be called as early as
possible and shouldn't be called more than once". Instead, Netty should
guard against this.
Modications:
We replace the logger factory field with an atomic reference on which we
can do CAS operations to safely guard against it being set twice. We
also add an internal holder class that captures the static interface of
InternalLoggerFactory that can aid in testing.
Result:
The logging factory can not be set twice, and applications that want to
set the logging factory must do it before any Netty classes are
initialized (or the default logger factory will be set).
Motivation:
If caches are disabled it does not make sense to schedule a task that will free up memory consumed by the caches.
Modifications:
Do not schedule if caches are disabled.
Result:
Less overhead.
Motivation:
We need to ensure we handle the case when BUFFER_OVERFLOW happens during unwrap but the readable bytes are bigger then the expected applicationBufferSize. Otherwise we may produce an IllegalArgumentException as we will try to allocate a buffer with capacity < 0.
Modifications:
- Guard against this case.
- Ensure we not double release buffer on exception when doing unwrap.
Result:
No more exception when running testsuite with java 9.
Motivation:
boringssl uses different messages for the ssl alerts which are all uppercase. As we try to match case as well this fails in SSLErrorTest as we expect lower-case.
This test was introduced by 9b7fb2f362.
Modifications:
Ensure we first translate everything to lower-case before doing the assert.
Result:
SSLErrorTest also pass when boringssl is used.
Motivation:
When attempting to flamegraph netty w/ epoll it was noticed the stacks are lost going from
java to epoll lib.
Modifications:
added the -fno-omit-framepointer flag to compiler flags to ensure the fp is kept intact
Result:
Flamegraphs will now show native code in the same stack as java code using perf-java-flames
Motivation:
e102a008b6 changed a conditional where previously the NIO ServerChannel would not be closed in the event of an exception.
Modifications:
- Restore the logic prior to e102a008b6 which does not automatically close ServerChannels for IOExceptions
Result:
NIO ServerChannel doesn't close automatically for an IOException.
Motivation:
We should not catch ConcurrentModificationException as this can never happen because things are executed on the EventLoop thread.
Modifications:
Remove try / catch
Result:
Cleaner code.
Motivation:
We need to ensure the tracked object can not be GC'ed before ResourceLeak.close() is called as otherwise we may get false-positives reported by the ResourceLeakDetector. This can happen as the JIT / GC may be able to figure out that we do not need the tracked object anymore and so already enqueue it for collection before we actually get a chance to close the enclosing ResourceLeak.
Modifications:
- Add ResourceLeakTracker and deprecate the old ResourceLeak
- Fix some javadocs to correctly release buffers.
- Add a unit test for ResourceLeakDetector that shows that ResourceLeakTracker has not the problems.
Result:
No more false-positives reported by ResourceLeakDetector when ResourceLeakDetector.track(...) is used.
Motivation:
We need to ensure we not call handshake() when the engine is already closed. Beside this our implementation of isOutboundDone() was not correct as it not took the pending data in the outbound buffer into acount (which may be also generated as part of an ssl alert). Beside this we also called SSL_shutdown(...) while we were still in init state which will produce an error and so noise in the log with openssl later versions.
This is also in some extend related to #5931 .
Modifications:
- Ensure we not call handshake() when already closed
- Correctly implement isOutboundDone()
- Not call SSL_shutdown(...) when still in init state
- Added test-cases
Result:
More correct behaviour of our openssl SSLEngine implementation.
Motivation:
When non SSL data is passed into SSLEngine.unwrap(...) we need to throw an SSLException. This was not done at the moment. Even worse we threw an IllegalArgumentException as we tried to allocate a direct buffer with capacity of -1.
Modifications:
- Guard against non SSL data and added an unit test.
- Make code more consistent
Result:
Correct behaving SSLEngine implementation.
Motivation:
Java9 will be released soon so we should ensure we can compile netty with Java9 and run all our tests. This will help to make sure Netty will be usable with Java9.
Modification:
- Add some workarounds to be able to compile with Java9, note that the full profile is not supported with Java9 atm.
- Remove some usage of internal APIs to be able to compile on java9
- Not support Alpn / Npn and so not run the tests when using Java9 for now. We will do a follow up PR to add support.
Result:
Its possible to build netty and run its testsuite with Java9.
Motivation:
While working on #6087 some buffer leaks showed up.
Modifications:
Correctly release buffers.
Result:
No more buffer leaks in memcache and stomp codec tests.
Motivation:
562d8d2200 added codec-smtp but we missed to add it to the all jar.
Modifications:
Include codec-smtp in the all jar.
Result:
Include all codecs in the all jar.
Motivation:
PooledByteBufAllocatorTest uses an ArrayQueue but access it from multiple threads (not concurrently but still from different threads). This may leak to memory visibility issues.
Modifications:
- Use a concurrent queue
- Some cleanup
Result:
Non racy test code.
Motivation:
If a user allocates a lot from outside the EventLoop we may end up creating a lot of caches in the PooledByteBufAllocator. This may be wasteful and so it may be useful for an other to configure that caches should only be used from within EventLoops.
Modifications:
Add new constructor which allows to configure the caching behaviour.
Result:
More flexible configuration of PooledByteBufAllocator possible
Motivation:
42fba015ce changed the implemention of ResourceLeakDetector to improve performance. While this was done a branch was missed that can be removed. Beside this using a Boolean as value for the ConcurrentMap is sub-optimal as when calling remove(key, value) an uncessary instanceof check and cast is needed on each removal.
Modifications:
- Remove branch which is not needed anymore
- Replace usage of Boolean as value type of the ConcurrentMap and use our own special type which only compute hash-code one time and use a == operation for equals(...) to reduce overhead present when using Boolean.
Result:
Faster and cleaner ResourceLeakDetector.
Motivation:
We missed to set active = true in EpollServerDomainSocketChannel.doBind(...) which also means that channelActive(...) was never triggered.
Modifications:
Correct set active = true in doBind(...)
Result:
EpollServerDomainSocketChannel is correctly set to active when bound.
Motivation:
We support using Netty without sun.misc.Unsafe, so we should also support building it without it. This way we can also run all tests without sun.misc.Unsafe and so see if it works as expected.
Modifications:
Correctly skip tests that depend on sun.misc.Unsafe if its not present or -Dio.netty.noUnsafe=true is used.
Result:
Be able to build netty without sun.misc.Unsafe
Motivation:
SwappedByteBuf.unwrap() not returned the wrapped buffer but the buffer that was wrapped by the original buffer. This is not correct.
Modifications:
Correctly return wrapped buffer and fix test.
Result:
SwappedByteBuf.unwrap() works as expected.
Motivation:
It's important that we do not pass in the original ChannelPromise to safeClose(...) as when flush(...) will throw an Exception it will be propagated to the AbstractChannelHandlerContext which will try to fail the promise because of this. This will then fail as it was already completed by safeClose(...).
Modifications:
Create a new ChannelPromise and pass it to safeClose(...).
Result:
No more confusing logs because of failing to fail the promise.
Motivation:
RedisEncoderTest did not release all buffers correctly which could lead to leaks.
Modifications:
Call ByteBuf.release() after buffer is read.
Result:
No more leaks in RedisEncoderTest.
Motivation:
We had a few tests PooledByteBufAllocatorTests which used parkNanos(...) to give a resource enough time to get destroyed. This is race and may not be good enough.
Modifications:
Ensure the ThreadCache is really destroyed.
Result:
No more racy tests that depend on ThreadCaches.
Motivation:
According to https://www.ietf.org/rfc/rfc2388.txt 4.4, filename after "content-disposition" is optional and arbitrary (does not need to match a real filename).
Modifications:
This change supports an extra addBodyFileUpload overload to precise the filename (default to File.getName). If empty or null this argument should be ignored during encoding.
Result:
- A backward-compatible addBodyFileUpload(String, File, String, boolean) to use file.getName() as filename.
- A new addBodyFileUpload(String, String, File, String, boolean) overload to precise filename
- Couple of tests for the empty use case
Motivation:
We are now more careful to flush alerts that are generated when errors occur. We should also be more careful in unit tests to release any buffers that may be queued due to potential errors wich result in alerts.
Modifications:
- When SslHandlerTest uses EmbeddedChannel we should always call finishAndReleaseAll
Results:
Fixes https://github.com/netty/netty/issues/6057
Motivation:
Netty has a flag (io.netty.noUnsafe) for specifying to Netty to not be
unsafe. Yet, when initializing PlatformDependent0, Netty still tries to
be unsafe. For application that specify to Netty to not be unsafe and
run under a security manager, this can lead to an obnoxious (debug
level) stack trace. Since Netty was told not to be unsafe, Netty should
not try to be unsafe.
Modifications:
The initialization logic in PlatformDependent0 should take into account
that Netty was told not to be unsafe. This means that we need to
initialize PlatformDependent#IS_EXPLICIT_NO_UNSAFE as soon as possible,
before the static initializer for PlatformDependent0 has a chance to
run. Thus the following modifications are made:
- initialize PlatformDependent#IS_EXPLICIT_NO_UNSAFE before any other
code in PlatformDependent causes PlatformDependent0 to initialize
- expose the value of PlatformDependent#IS_EXPLICIT_NO_UNSAFE for
reading in PlatformDependent0
- take the value of PlatformDependent#IS_EXPLICIT_NO_UNSAFE into
account in PlatformDependent0
Result:
Netty does not try to be unsafe when told not to be unsafe.
Motivation:
For applications that set their own logger factory, they want that
logger factory to be the one logger factory. Yet, Netty eagerly
initializes this and then triggers initialization of other classes
before the application has had a chance to set its preferred logger
factory.
Modifications:
With this commit there are two key changes:
- Netty does not attempt to eagerly initialize the default logger
factory, only doing so if the application layer above Netty has not
already set a logger factory
- do not eagerly initialize unrelated classes from the logger factory;
while the motivation behind this was to initialize ThreadLocalRandom
as soon as possible in case it has to block reading from /dev/random,
this can be worked around for applications where it is problematic by
setting securerandom.source=file:/dev/urandom in their Java system
security policy (no, it is not less secure; do not even get me
started on myths about /dev/random)
Result:
Netty uses the logger factory that the application prefers, and does not
initialize unrelated classes.
Motivation:
IntelliJ issues several warnings.
Modifications:
* `ClientCookieDecoder` and `ServerCookieDecoder`:
* `nameEnd`, `valueBegin` and `valueEnd` don't need to be initialized
* `keyValLoop` loop doesn't been to be labelled, as it's the most inner one (same thing for labelled breaks)
* Remove `if (i != headerLen)` as condition is always true
* `ClientCookieEncoder` javadoc still mention old logic
* `DefaultCookie`, `ServerCookieEncoder` and `DefaultHttpHeaders` use ternary ops that can be turned into simple boolean ones
* `DefaultHeaders` uses a for(int) loop over an array. It can be turned into a foreach one as javac doesn't allocate an iterator to iterate over arrays
* `DefaultHttp2Headers` and `AbstractByteBuf` `equal` can be turned into a single boolean statement
Result:
Cleaner code
Motivation:
Windows 7 hosts file is empty by default (at least on my machine? see
http://serverfault.com/questions/4689/windows-7-localhost-name-resolution-is-handled-within-dns-itself-why
for details and reasoning.
the test relies on the file containing an entry for localhost.
Modifications:
refactor class code to 1st normalize the input host name and then look it up, change the test to verify
that hostnames are normalized in a case-insensitive way before being looked up (which was the intent
of the original test)
Result:
test should pass on vanilla windows 7 (and any other machine with no
localhost in the hosts file). no effect anywhere else or on actual netty
code.
Signed-off-by: radai-rosenblatt <radai.rosenblatt@gmail.com>
Motivation:
* DefaultHeaders from netty-codec has some duplicated logic for header date parsing
* Several classes keep on using deprecated HttpHeaderDateFormat
Modifications:
* Move HttpHeaderDateFormatter to netty-codec and rename it into HeaderDateFormatter
* Make DefaultHeaders use HeaderDateFormatter
* Replace HttpHeaderDateFormat usage with HeaderDateFormatter
Result:
Faster and more consistent code
Motivation:
4bba7526e2 introduced changes which made pooled and unpooled derived buffers inconsistent in a few ways:
- Pooled derived buffers always generated a duplicate buffer when duplicate() was called and always generated a sliced buffer when slice() was called. Unpooled derived buffers some times generated a sliced buffer when duplicate() was called.
- The indexes that were set for duplicate buffers generated from slices were not always consistent.
There were also some various bugs in the derived pooled buffer implementation.
Modifications:
- Make pooled/unpooled consistently generate duplicate buffers when duplicate() is called and sliced buffers when slice() is called.
- Fix bugs in the derived pooled buffer
Result:
More consistent behavior from the derived pooled/unpooled buffers.
Motivation:
When the SslHandler.unwrap(...) (which is called via decode(...)) method did produce an SSLException it was possible that the produced alert was not send to the remote peer. This could lead to staling connections if the remote peer did wait for such an alert and the connection was not closed.
Modifications:
- Ensure we try to flush any pending data when a SSLException is thrown during unwrapping.
- Fix SniHandlerTest to correct test this
- Add explicit new test in SslHandlerTest to verify behaviour with all SslProviders.
Result:
The alert is correctly send to the remote peer in all cases.
Modifications:
LocalChannel#releaseInboundBuffers should always clear/release the queue and set readInProgress to false
Result:
LocalChannel queue is more reliably cleaned up.
Motivation:
LocalChannel attempts to close its peer socket when ever it is closed. However if the channels are on different EventLoops we may attempt to process events for the peer channel on the wrong EventLoop.
Modifications:
- Ensure the close process ensures we are on the correct thread before accessing data
Result:
More correct LocalChannel close code.
Motivation:
code assumes a numeric value of 0 means no digits were read between separators, which fails for timestamps like 00:00:00.
also code accepts invalid timestamps like 0:0:000
Modifications:
explicitly check for number of digits between separators instead of relying on the numeric value.
also add tests.
Result:
timestamps with 00 successfully parse, timestamps with 000 no longer
Signed-off-by: radai-rosenblatt <radai.rosenblatt@gmail.com>
Motivation:
We tried to detect the correct alert to use depending on the CertificateException that is thrown by the TrustManager. This not worked all the time as depending on the TrustManager implementation it may also wrap a CertPathValidatorException.
Modification:
- Try to unwrap the CertificateException if needed and detect the right alert via the CertPathValidatorException.
- Add unit to verify
Result:
Send the correct alert depending on the CertificateException when using OpenSslEngine.
Motivation:
LastInboundHandler maintains 2 queues which may contain the same data and tries to match these up when you read elements out of it. Because of this it can happen that you remove an element only out of one queue and so double free stuff later.
Modifications:
Just use one "queue" to store things.
Result:
Not possible to only remove things from one queue and so get into trouble later when release everything that sits in the handler.
Motivation:
The method HttpUtil.getCharsetAsString(...) is missleading as its return type is CharSequence and not String.
Modifications:
Deprecate HttpUtil.getCharsetAsString(...) and introduce HttpUtil.getCharsetAsSe
quence(...).
Result:
Less confusing method name.
Motivation:
When a LocalChannel is closed it is responsible to ensure all queued objects are released. When a LocalChannel is closed it will also close its peer channel. However in HTTP/2 unit tests we may not wait until all channels have completed the shutdown process before destroying the threads and exiting the test. This may mean buffers are GCed before they are released and be reported as a leak.
Modifications:
- In HTTP/2 tests when we use LocalChannel we should wait for all channels to close before exiting the test and cleaning up the associated EventLoopGroups.
Result:
More correct usage of LocalChannel in HTTP/2 tests.