765f8989ca
Motivation: In Netty 5 we wish to have a simpler, safe, future proof, and more consistent buffer API. We developed such an API in the incubating buffer repository, and taking it through multiple rounds of review and adjustments. This PR/commit bring the results of that work into the Netty 5 branch of the main Netty repository. Modifications: * `Buffer` is an interface, and all implementations are hidden behind it. There is no longer an inheritance hierarchy of abstract classes and implementations. * Reference counting is gone. After a buffer has been allocated, calling `close` on it will deallocate it. It is then up to users and integrators to ensure that the life-times of buffers are managed correctly. This is usually not a problem as buffers tend to flow through the pipeline to be released after a terminal IO operation. * Slice and duplicate methods are replaced with `split`. By removing slices, duplicate, and reference counting, there is no longer a possibility that a buffer and/or its memory can be shared and accessible through multiple routes. This solves the problem of data being accessed from multiple places in an uncoordinated way, and the problem of buffer memory being closed while being in use by some unsuspecting piece of code. Some adjustments will have to be made to other APIs, idioms, and usages, since `split` is not always a replacement for `slice` in some use cases. * The `split` has been added which allows memory to be shared among multiple buffers, but in non-overlapping regions. When the memory regions don't overlap, it will not be possible for the different buffers to interfere with each other. An internal, and completely transparent, reference counting system ensures that the backing memory is released once the last buffer view is closed. * A Send API has been introduced that can be used to enforce (in the type system) the transfer of buffer ownership. This is not expected to be used in the pipeline flow itself, but rather for other objects that wrap buffers and wish to avoid becoming "shared views" — the absence of "shared views" of memory is important for avoiding bugs in the absence of reference counting. * A new BufferAllocator API, where the choice of implementation determines factors like on-/off-heap, pooling or not. How access to the different allocators will be exposed to integrators will be decided later. Perhaps they'll be directly accessible on the `ChannelHandlerContext`. * The `PooledBufferAllocator` has been copied and modified to match the new allocator API. This includes unifying its implementation that was previously split across on-heap and off-heap. * The `PooledBufferAllocator` implementation has also been adjusted to allocate 4 MiB chunks by default, and a few changes have been made to the implementation to make a newly created, empty allocator use significantly less heap memory. * A `Resource` interface has been added, which defines the life-cycle methods and the `send` method. The `Buffer` interface extends this. * Analogues for `ByteBufHolder` has been added in the `BufferHolder` and `BufferRef` classes. * `ByteCursor` is added as a new way to iterate the data in buffers. The byte cursor API is designed to be more JIT friendly than an iterator, or the existing `ByteProcessor` interface. * `CompositeBuffer` no longer permit the same level of access to its internal components. The composite buffer enforces its ownership of its components via the `Send` API, and the components can only be individually accessed with the `forEachReadable` and `forEachWritable` methods. This keeps the API and behavioral differences between composite and non-composite buffers to a minimum. * Two implementations of the `Buffer` interface are provided with the API: One based on `ByteBuffer`, and one based on `sun.misc.Unsafe`. The `ByteBuffer` implementation is used by default. More implementations can be loaded from the classpath via service loading. The `MemorySegment` based implementation is left behind in the incubator repository. * An extensive and highly parameterised test suite has been added, to ensure that all implementations have consistent and correct behaviour, regardless of their configuration or composition. Result: We have a new buffer API that is simpler, better tested, more consistent in behaviour, and safer by design, than the existing `ByteBuf` API. The next legs of this journey will be about integrating this new API into Netty proper, and deprecate (and eventually remove) the `ByteBuf` API. This fixes #11024, #8601, #8543, #8542, #8534, #3358, and #3306. |
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docker-compose.centos-6.111.yaml | ||
docker-compose.centos-6.116.yaml | ||
docker-compose.centos-6.graalvm111.yaml | ||
docker-compose.centos-6.openj9111.yaml | ||
docker-compose.centos-7.yaml | ||
docker-compose.yaml | ||
Dockerfile.centos6 | ||
Dockerfile.cross_compile_aarch64 | ||
README.md |
Using the docker images
cd /path/to/netty/
centos 6 with java 11
docker-compose -f docker/docker-compose.yaml -f docker/docker-compose.centos-6.111.yaml run test
aarch64 cross compile for transport-native-epoll on X86_64
docker-compose -f docker/docker-compose.yaml run cross-compile-aarch64-build
The default version of aarch64 gcc is 4.9-2016.02
. Update the parameter gcc_version
in docker-compose.yaml
to use a version you want.
etc, etc