Motivation:
Unsafe.invokeCleaner(...) checks if the passed in ByteBuffer is a slice or duplicate and if so throws an IllegalArgumentException on Java9. We need to ensure we never try to free a ByteBuffer that was provided by the user directly as we not know if its a slice / duplicate or not.
Modifications:
Never try to free a ByteBuffer that was passed into UnpooledUnsafeDirectByteBuf constructor by an user (via Unpooled.wrappedBuffer(....)).
Result:
Build passes again on Java9
Motivation:
Java9 added a new method to Unsafe which allows to allocate a byte[] without memset it. This can have a massive impact in allocation times when the byte[] is big. This change allows to enable this when using Java9 with the io.netty.tryAllocateUninitializedArray property when running Java9+. Please note that you will need to open up the jdk.internal.misc package via '--add-opens java.base/jdk.internal.misc=ALL-UNNAMED' as well.
Modifications:
Allow to allocate byte[] without memset on Java9+
Result:
Better performance when allocate big heap buffers and using java9.
Motivation:
UnreleasableByteBuf operations are designed to not modify the reference count of the underlying buffer. The Retained[Duplicate|Slice] operations violate this assumption and can cause the underlying buffer's reference count to be increased, but never allow for it to be decreased. This may lead to memory leaks.
Modifications:
- UnreleasableByteBuf's Retained[Duplicate|Slice] should leave the reference count of the parent buffer unchanged after the operation completes.
Result:
No more memory leaks due to usage of the Retained[Duplicate|Slice] on an UnreleasableByteBuf object.
Motiviation:
UnsafeByteBufUtil has some bugs related to using an incorrect index, and also omitting the array paramter when dealing with byte[] objects. There is also some simplification possible with respect to type casting, and minor formatting consistentcy issues.
Modifications:
- Ensure indexing is correct when dealing with native memory
- Fix the native access and endianness for the medium/unsigned medium methods
- Ensure array is used when dealing with heap memory
- Remove unecessary casts when using long
- Fix formating and alignment
Result:
UnsafeByteBufUtil is more correct and won't access direct memory when heap arrays are used.
Motivation:
The contract of `ByteBuf.writeBytes(ByteBuf src)` is such that it will
throw an `IndexOutOfBoundsException if `src.readableBytes()` is greater than
`this.writableBytes()`. The EmptyByteBuf class will throw the exception,
even if the source buffer has zero readable bytes, in violation of the
contract.
Modifications:
Use the helper method `checkLength(..)` to check the length and throw
the exception, if appropriate.
Result:
Conformance with the stated behavior of ByteBuf.
Motivation:
PR [#6460] added a way to access the used memory of an allocator. The used naming was not very good and how things were exposed are not consistent.
Modifications:
- Add a new ByteBufAllocatorMetric and ByteBufAllocatorMetricProvider interface
- Let the ByteBufAllocator implementations implement ByteBufAllocatorMetricProvider
- Move exposed stats / metric from PooledByteBufAllocator to PooledByteBufAllocatorMetric and mark old methods as `@Deprecated`.
Result:
More consistent way to expose metric / stats for ByteBufAllocator
Motivation:
There are numerous usages of internalNioBuffer which hard code 0 for the index when the intention was to use the readerIndex().
Modifications:
- Remove hard coded 0 for the index and use readerIndex()
Result:
We are less susceptible to using the wrong index, and don't make assumptions about the ByteBufAllocator.
Motivation:
Often its useful for the user to be able to get some stats about the memory allocated via an allocator.
Modifications:
- Allow to obtain the used heap and direct memory for an allocator
- Add test case
Result:
Fixes [#6341]
Motivation:
As we may access the metrics exposed of PooledByteBufAllocator from another thread then the allocations happen we need to ensure we synchronize on the PoolArena to ensure correct visibility.
Modifications:
Synchronize on the PoolArena to ensure correct visibility.
Result:
Fix multi-thread issues on the metrics
Motivation:
Commit 8dda984afe introduced a regression which lead to the situation that the allocator is not set when PooledByteBuf.initUnpooled(...) is called. Thus it was possible that PooledByteBuf.alloc() returns null or the wrong allocator if multiple PooledByteBufAllocator are used in an application.
Modifications:
- Correctly set the allocator
- Add test-case
Result:
Fixes [#6436].
Motivation:
We have our own ThreadLocalRandom implementation to support older JDKs . That said we should prefer the JDK provided when running on JDK >= 7
Modification:
Using ThreadLocalRandom implementation of the JDK when possible.
Result:
Make use of JDK implementations when possible.
Motivation:
Java9 does not allow changing access level via reflection by default. This lead to the situation that netty disabled Unsafe completely as ByteBuffer.address could not be read.
Modification:
Use Unsafe to read the address field as this works on all Java versions.
Result:
Again be able to use Unsafe optimisations when using Netty with Java9
Motivation:
When sun.misc.Unsafe is present we want to use *Unsafe*ByteBuf implementations. We missed to do so in PooledByteBufAllocator when the heapArena is null.
Modifications:
- Correctly use UnpooledUnsafeHeapByteBuf
- Add unit tests
Result:
Use most optimal ByteBuf implementation.
Motivation:
We can eliminate unnessary wrapping when call ByteBuf.asReadOnly() in some cases to reduce indirection.
Modifications:
- Check if asReadOnly() needs to create a new instance or not
- Add test cases
Result:
Less object creation / wrapping.
Motivation:
We need to ensure we pass all tests when sun.misc.Unsafe is not present.
Modifications:
- Make *ByteBufAllocatorTest work whenever sun.misc.Unsafe is present or not
- Let Lz4FrameEncoderTest not depend on AbstractByteBufAllocator implementation details which take into account if sun.misc.Unsafe is present or not
Result:
Tests pass even without sun.misc.Unsafe.
Motivation:
We should only try to calculate the direct memory offset when sun.misc.Unsafe is present as otherwise it will fail with an NPE as PlatformDependent.directBufferAddress(...) will throw it.
This problem was introduced by 66b9be3a46.
Modifications:
Use offset of 0 if no sun.misc.Unsafe is present.
Result:
PooledByteBufAllocator also works again when no sun.misc.Unsafe is present.
Motivation:
ReadOnlyByteBufTest contains two tests which are missing the `@Test` annotation and so will never run.
Modifications:
Add missing annotation.
Result:
Tests run as expected.
Motivation:
We used various mocking frameworks. We should only use one...
Modifications:
Make usage of mocking framework consistent by only using Mockito.
Result:
Less dependencies and more consistent mocking usage.
Motivation:
64-byte alignment is recommended by the Intel performance guide (https://software.intel.com/en-us/articles/practical-intel-avx-optimization-on-2nd-generation-intel-core-processors) for data-structures over 64 bytes.
Requiring padding to a multiple of 64 bytes allows for using SIMD instructions consistently in loops without additional conditional checks. This should allow for simpler and more efficient code.
Modification:
At the moment cache alignment must be setup manually. But probably it might be taken from the system. The original code was introduced by @normanmaurer https://github.com/netty/netty/pull/4726/files
Result:
Buffer alignment works better than miss-align cache.
Motivation:
We not had tests for ByteBufAllocator implementations in general.
Modifications:
Added ByteBufAllocatorTest, AbstractByteBufAllocatorTest and UnpooledByteBufAllocatorTest
Result:
More tests for allocator implementations.
Motivation:
PooledByteBuf.capacity(...) miss to enforce maxCapacity() and so its possible to increase the capacity of the buffer even if it will be bigger then maxCapacity().
Modifications:
- Correctly enforce maxCapacity()
- Add unit tests for capacity(...) calls.
Result:
Correctly enforce maxCapacity().
Motivation:
When An HTTP server is listening in plaintext mode, it doesn't have
a chance to negotiate "h2" in the tls handshake. HTTP 1 clients
that are not expecting an HTTP2 server will accidentally a request
that isn't an upgrade, which the HTTP/2 decoder will not
understand. The decoder treats the bytes as hex and adds them to
the error message.
These error messages are hard to understand by humans, and result
in extra, manual work to decode.
Modification:
If the first bytes of the request are not the preface, the decoder
will now see if they are an HTTP/1 request first. If so, the error
message will include the method and path of the original request in
the error message.
In case the path is long, the decoder will check up to the first
1024 bytes to see if it matches. This could be a DoS vector if
tons of bad requests or other garbage come in. A future optimization
would be to treat the first few bytes as an AsciiString and not do
any Charset decoding. ByteBuf.toCharSequence alludes to such an
optimization.
The code has been left simple for the time being.
Result:
Faster identification of errant HTTP requests.
Motivation:
Disable ThreadLocal Cache, then allocate Pooled ByteBuf and release all these buffers, PoolArena's tiny/small/normal allocation count is incorrect.
Modifications:
- Calculate PoolArena's tiny/small/normal allocation one time
- Add testAllocationCounter TestCase
Result:
Fixes#6282 .
Motivation:
In PooledByteBuf we missed to null out the chunk and tmpNioBuf fields before recycle it to the Recycler. This could lead to keep objects longer alive then necessary which may hold a lot of memory.
Modifications:
Null out tmpNioBuf and chunk before recycle.
Result:
Possible to earlier GC objects.
Motivation:
ByteBufUtil.compare uses long arithmetic but doesn't check for underflow on when converting from long to int to satisfy the Comparable interface. This will result in incorrect comparisons and violate the Comparable interface contract.
Modifications:
- ByteBufUtil.compare should protect against int underflow
Result:
Fixes https://github.com/netty/netty/issues/6169
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:
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:
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 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:
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:
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:
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.