Commit Graph

40 Commits

Author SHA1 Message Date
Chris Vest
602389712c Add working HttpSnoop example 2021-03-06 11:18:14 +01:00
Chris Vest
78f04eeb49 Update docs and examples 2021-03-01 11:21:25 +01:00
Chris Vest
1b65bf9a23 Make the incubating buffers exposable as ByteBuf
Motivation:
This makes it possible to use the new buffer API in Netty as is.

Modification:
Make the MemSegBuffer implementation class implement AsByteBuf and ReferenceCounted.
The produced ByteBuf instance delegates all calls to the underlying Buffer instance as faithfully as possible.
One area where the two deviates, is that it's not possible to create non-retained duplicates and slices with the new buffer API.

Result:
It is now possible to use the new buffer API on both client and server side.
The Echo* examples demonstrate this, and the EchoIT proves it with a test.
The API is used more directly on the client side, since the server-side allocator in Netty does not know how to allocate buffers with the incubating API.
2021-03-01 10:49:09 +01:00
Chris Vest
6175f8f4c5 Make ReadableComponent expose ByteCursors
Motivation:
Another way to process the readable data in a buffer.
This might be faster for composite buffers, since their byte cursors are a bit slower than the MemSegBuffer due to the indirections and more complicated logic.

Modification:
ReadableComponent now have openCursor method.

Note that we *don't* add an openReverseCursor method on ReadableComponent.
The reason is that forEachReadable iterates the components in the forward direction, and it's really confusing to then iterate the bytes in a backwards direction.
Working with both directions at the same time is very error prone.

Result:
It is now possible to process readable components with byte cursors.
2021-02-27 11:04:44 +01:00
Chris Vest
7185a59f7a Move composite buffer methods to Buffer
Motivation:
There is no reason for `compose()` to be an instance method on `BufferAllocator` since the allocator implementation should not influence how this method is implemented.

Modification:
Make `compose()` a static method and move it to the `Buffer` interface.
Also move its companion methods `extendComposite()` and `isComposite()` to the `Buffer` interface.

Result:
The composite buffer methods are now in a more sensible place.

Also: decided _against_ making `extendComposite()` and `isComposite()` instance methods, because the subtle behaviours of `extendComposite()` means it would behave quite differently for non-composite buffers.
Also: `isComposite()` is not an instance method because it relates to the hard-coded and concrete `CompositeBuffer` implementation.
2021-02-15 17:46:23 +01:00
Chris Vest
eef97dd1fd Rename Buf to Buffer and Allocator to BufferAllocator 2021-02-12 18:22:07 +01:00
Chris Vest
492977d9be Introduce Deref abstraction
Motivation:
Sometimes, we wish to operate on both buffers and anything that can produce a buffer.
For instance, when making a composite buffer, we could compose either buffers or sends.

Modification:
Introduce a Deref interface, which is extended by both Rc and Send.
A Deref can be used to acquire an Rc instance, and in doing so will also acquire a reference to the Rc.
That is, dereferencing increases the reference count.
For Rc itself, this just delegates to Rc.acquire, while for Send it delegates to Send.receive, and can only be called once.
The Allocator.compose method has been changed to take Derefs.
This allows us to compose either Bufs or Sends of bufs.
Or a mix.
Extra care and caution has been added to the code, to make sure the reference counts are managed correctly when composing buffers, now that it's a more complicated operation.
A handful of convenience methods for working with Sends have also been added to the Send interface.

Result:
We can now build a composite buffer out of sends of buffers.
2021-02-11 14:26:57 +01:00
Chris Vest
2df000ad9a Update examples
Motivation:
The forEachReadable/Writable permit a cleaner FileCopyExample implementation.

Modification:
Simplify FileCopyExample.
Also add examples of various good and bad ways to transfer buffer ownership between threads.
Update the forEachReadable/Writable APIs to let exceptions pass through.

Result:
Cleaner code and more useful forEachReadable/Writable APIs.
2021-01-25 13:23:26 +01:00
Chris Vest
14d55c3e0b Avoid nesting composite buffers
Motivation:
There is no reason that composite buffers should nest when composed.
Instead, when composite buffers are used to compose or extend other composite buffers, we should unwrap them and copy the references to their constituent buffers.

Modification:
Composite buffers now always unwrap and flatten themselves when they participate in composition or extension of other composite buffers.

Result:
Composite buffers are now always guaranteed* to contain a single level of non-composed leaf buffers.

*assuming no other unknown buffer-wrapping buffer type is in the mix.
2021-01-18 16:06:53 +01:00
Chris Vest
1c10770e82 Implement segregated readable/writable component interfaces and processing 2021-01-15 21:32:24 +01:00
Chris Vest
46ed14577c Add Buf.forEachWritable
Pass iteration indexes through.
2021-01-15 16:11:21 +01:00
Chris Vest
d382017dc6 Add support for iterating underlying buffer components
Motivation:
It's desirable to be able to access the contents of a Buf via an array or a ByteBuffer.
However, we would also like to have a unified API that works for both composite and non-composite buffers.
Even for nested composite buffers.

Modification:
Add a forEachReadable method, which uses internal iteration to process all buffer components.
The internal iteration allows us to hide any nesting of composite buffers.
The consumer in the internal iteration is presented with a Component object, which exposes the contents in various ways.
The data is exposed from the Component via methods, such that anything that is expensive to create, will not have to be paid for unless it is used.
This mechanism also let us avoid any allocation unnecessary allocation; the ByteBuffers and arrays will necessarily have to be allocated, but the consumer may or may not need allocation depending on how it's implemented, and the component objects do not need to be allocated, because the non-composite buffers can directly implement the Component interface.

Result:
It's now possible to access the contents of Buf instances as arrays or ByteBuffers, without having to copy the data.
2021-01-11 16:31:36 +01:00
Chris Vest
617d9ccef1 Add support for read-only buffers
Motivation:
There are cases where you want a buffer to be "constant."
Buffers are inherently mutable, but it's possible to block off write access to the buffer contents.
This doesn't make it completely safe to share the buffer across multiple threads, but it does catch most races that could occur.

Modification:
Add a method to Buf for toggling read-only mode.
When a buffer is read-only, the write accessors throw exceptions when called.
In the MemSegBuf, this is implemented by having separate read and write references to the underlying memory segment.
In a read-only buffer, the write reference is redirected to point to a closed memory segment, thus preventing all writes to the memory backing the buffer.

Result:
It is now possible to make buffers read-only.
Note, however, that it is also possible to toggle a read-only buffer back to writable.
We need that in order for buffer pools to be able to fully reset the state of a buffer, regardless of the buffer implementation.
2021-01-05 16:53:21 +01:00
Chris Vest
41b3c02812 Remove thread-confinement of Buffers
Motivation:
Thread-confinement ends up being too confusing to code for, and also prevents some legitimate use cases.
Additionally, thread-confinement exposed implementation specific behavioural differences of buffers, where we would ideally like all buffers to always behave the same, regardless of implementation.

Modification:
All MemorySegment based buffers now always use shared segments.
For heap-based segments, we avoid the overhead associated with the closing of shared segments, by just not closing them, and instead just leave the whole thing for the GC to deal with.

Result:
Buffers can now always be accessed from multiple different threads at the same time.
2020-12-30 15:42:33 +01:00
Chris Vest
dc281c704c Buffers always have a cleaner attached
Motivation:
Although having a cleaner attached adds a bit of overhead when allocating or closing buffers,
it is more important to make our systems, libraries and frameworks misuse resistant and safe by default.

Modification:
Remove the ability to allocate a buffer that does not have a cleaner attached.
Reference counting and the ability to explicitly release memory remains.
This just makes sure that we always have a safety net to fall back on.

Result:
This will make systems less prone to crashes through running out of memory, native or otherwise, even in the face of true memory leaks.
(Leaks through retained strong references cannot be fixed in any way)
2020-12-17 16:13:43 +01:00
Chris Vest
5697af4be3 Add a benchmark that explore the overhead of always attaching a cleaner to buffers
Looks like the overhead is not too bad, so I think we can just always do that:

```
Benchmark                       (workload)  Mode  Cnt  Score   Error  Units
explicitPooledClose                  light  avgt  150  1,094 ± 0,017  us/op
pooledWithCleanerExplicitClose       light  avgt  150  1,181 ± 0,009  us/op
```
2020-12-17 15:24:28 +01:00
Chris Vest
4036dac84d Add a flag to allow Buf.ensureWritable to compact buffer
Motivation:
The main use case with Buf.compact is in conjunction with ensureWritable.
It turns out we can get a simpler API, and faster methods, by combining those two operations, because it allows us to relax some guarantees and skip some steps in certain cases, which wouldn't be as neat or clean if they were two separate steps.

Modification:
Add a new Buf.ensureWritable method, which takes an allowCompaction argument.
In MemSegBuf, we can just delegate to compact() when applicable.
In CompositeBuf, we can sometimes get away with just reorganising the bufs array.

Result:
We can now do ensureWritable without allocating in some cases, and this can in particular make the operation faster for CompositeBuf.
2020-12-17 12:29:55 +01:00
Chris Vest
0f303c7971 Add a Buf.compact method
Motivation:
Compaction makes more space available at the end of a buffer, by discarding bytes at the beginning that have already been processed.

Modification:
Add a copying compact method to Buf.

Result:
It is now possible to discard read bytes by calling `compact()`.
2020-12-17 12:29:55 +01:00
Chris Vest
008c5ed6ec Make BufHolder protected methods final if they're not meant to be overwritten 2020-12-16 17:06:22 +01:00
Chris Vest
f83e7fa618 Add BufHolder and BufRef helper classes
Motivation:
There are many use cases where other objects will have fields that are buffers.
Since buffers are reference counted, their life cycle needs to be managed carefully.

Modification:
Add the abstract BufHolder, and the concrete sub-class BufRef, as neat building blocks for building other classes that contain field references to buffers.

The behaviours of closed/sent buffers have also been specified in tests, and tightened up in the code.

Result:
It is now easier to create classes/objects that wrap buffers.
2020-12-14 14:22:37 +01:00
Chris Vest
cccec1ae4c Add two more tests for interactions between bifurcation and send 2020-12-10 14:27:45 +01:00
Chris Vest
b749106c0c Add a Buf.bifurcate method
Motivation:
There are use cases that involve accumulating data into a buffer, then carving out prefix slices and sending them off on their own journey for further processing.

Modification:
Add a Buf.bifurcate API, that split a buffer, and its ownership, in two.
Internally, the API will inject and maintain an atomically reference counted Drop instance, so that the original memory segment is not released until all bifurcated parts are closed.
This works particularly well for composite buffers, where only the buffer (if any) wherein the bifurcation point lands, will actually have its memory split. A composite buffer can otherwise just crack its buffer array in two.

Result:
We now have a safe way of breaking the single ownership of some memory into multiple parts, that can be sent and owned independently.
2020-12-10 10:29:31 +01:00
Chris Vest
a7701c04b5 Update ByteCursor method names and related javadocs 2020-12-09 11:03:30 +01:00
Chris Vest
6cc49c1c62 Turn ByteIterator into ByteCursor
Motivation:
Cursors are better than iterators in that they only need to check boundary conditions once per iteration, when processed in a loop.
This should make them easier for the compiler to optimise.

Modification:
Change the ByteIterator to a ByteCursor. The API is almost the same, but with a few subtle differences in semantics.
The primary difference is that the cursor movement and boundary condition checking and position movement happen at the same time, and do not need to occur when the values are fetched out of the cursor.
An iterator, on the other hand, needs to throw an exception if "next" is called too many times.

Result:
Simpler code, and hopefully faster code as well.
2020-12-09 11:02:51 +01:00
Chris Vest
3aeebdd058
Merge pull request #12 from netty/extend-composite
Make it possible to extend composite buffers after creation
2020-12-08 19:25:32 +01:00
Chris Vest
0c40143f5f Fix license header years, and style updates 2020-12-04 18:48:06 +01:00
Chris Vest
80185abec4 Add a benchmark for Buf.send()
Motivation:
This will likely be a somewhat common operation, as buffers move between eventloop and worker threads, so it's important to have an understanding of how it performs.

Modification:
Add a benchmark that specifically targets the send() operation on buffers.

Result:
We got benchmark numbers that clearly show the cost of confinement transfer
2020-12-04 16:27:08 +01:00
Chris Vest
236097e081 Make it possible to extend composite buffers after creation
Motivation:
Composite buffers are uniquely positioned to be able to extend their underlying storage relatively cheaply.
This fact is relied upon in a couple of buffer use cases within Netty, that we wish to support.

Modification:
Add a static `extend` method to Allocator, so that the CompositeBuf class can remain internal.
The `extend` method inserts the extension buffer at the end of the composite buffer as if it had been included from the start.
This involves checking offsets and byte order invariants.
We also require that the composite buffer be in an owned state.

Result:
It's now possible to extend a composite buffer with a specific buffer, after the composite buffer has been created.
2020-12-03 17:48:28 +01:00
Chris Vest
6b7ea5f5cb Add benchmarks for ByteIterator
Motivation:
Capture the performance characteristics of this primitive for various buffer implementations.

Modification:
Add a benchmark that iterate 4KiB buffers forwards, and backwards, on various buffer implementations.

Result:
Another aspect of the implementation covered by benchmarks.
Turns out the composite iterators a somewhat slow.
2020-12-02 14:54:02 +01:00
Chris Vest
4a409d2458 Add benchmark for closing pooled buffers
Motivation:
Pooled buffers are a very important use case, and they change the cost dynamics around shared memory segments, so it's worth looking into in detail.

Modification:
Add another explicit close of pooled direct buffers to MemorySegmentClosedByCleanerBenchmark

Result:
Explicitly closing of pooled buffers is even out-performing cleaner close on the "heavy" workload, so this is currently the fastest way to run that workload:

Benchmark                                                  (workload)  Mode  Cnt   Score   Error  Units
MemorySegmentClosedByCleanerBenchmark.cleanerClose              heavy  avgt  150  14,194 ± 0,558  us/op
MemorySegmentClosedByCleanerBenchmark.explicitClose             heavy  avgt  150  40,496 ± 0,414  us/op
MemorySegmentClosedByCleanerBenchmark.explicitPooledClose       heavy  avgt  150  12,723 ± 0,134  us/op
2020-12-01 11:15:44 +01:00
Chris Vest
6364c4d170 Add a benchmark for examining the performance difference between explicitly closing memory segments, versus having them closed by cleaners 2020-11-26 10:37:14 +01:00
Chris Vest
6078465721 Add a benchmark for opening and closing shared/confined native/heap memory segments 2020-11-24 10:56:22 +01:00
Chris Vest
92c178ceb9 The BufTest.pooledBuffersMustResetStateBeforeReuse should run for all allocators 2020-11-23 18:10:58 +01:00
Chris Vest
eb7717b00a Move benchmarks to their own directory 2020-11-23 18:10:27 +01:00
Chris Vest
1f9ab72a44 Add more examples 2020-11-20 22:22:01 +01:00
Chris Vest
f3e494bce3 Add first example on how to use the new buffer API 2020-11-20 16:07:52 +01:00
Chris Vest
53d2e4b955 Pooled buffers must reset their state before reuse
Motivation:
Buffers should always behave the same, regardless of their underlying implementation and how they are allocated.

Modification:
The SizeClassedMemoryPool did not properly reset the internal buffer state prior to reusing them.
The offsets, byte order, and contents are now cleared before a buffer is reused.

Result:
There is no way to observe externally whether a buffer was reused or not.
2020-11-20 11:53:26 +01:00
Chris Vest
59b564ddc8 Add a docker-based build
Motivation:
Because of the current dependency on snapshot versions of the Panama Foreign version of OpenJDK 16, this project is fairly involved to build.

Modification:
To make it easier for newcomers to build the binaries for this project, a docker-based build is added.
The docker image is constructed such that it contains a fresh snapshot build of the right fork of Java.
A make file has also been added, which encapsulates the common commands one would use for working with the docker build.

Result:
It is now easy for newcomers to make builds, and run tests, of this project, as long as they have a working docker installation.
2020-11-18 17:16:37 +01:00
Chris Vest
a1785e8161 Move the MemorySegment based Buf implementation to its own package, and break the remaining bits of tight coupling. 2020-11-17 15:53:40 +01:00
Chris Vest
3efa93841e Rename the 'b2' package to 'api' 2020-11-17 15:40:13 +01:00