Commit Graph

465 Commits

Author SHA1 Message Date
Leo Gomes
2cc7466266 Updates the javadoc of Unpooled to remove mention to methods it does not provide
Motivation:

`Unpooled` javadoc's mentioned the generation of hex dump and swapping an integer's byte order,
which are actually provided by `ByteBufUtil`.

Modifications:

 Sentence moved to `ByteBufUtil` javadoc.

Result:

`Unpooled` javadoc is correct.
2015-03-04 12:03:50 +09:00
Norman Maurer
37264bb72b [maven-release-plugin] prepare for next development iteration 2015-03-02 01:31:30 -05:00
Norman Maurer
0dbc96cffd [maven-release-plugin] prepare release netty-4.0.26.Final 2015-03-02 01:30:58 -05:00
Norman Maurer
e99d89c04d [maven-release-plugin] rollback the release of netty-4.0.26.Final 2015-02-28 21:28:06 +01:00
Norman Maurer
b86e2e6ac0 [maven-release-plugin] prepare release netty-4.0.26.Final 2015-02-28 13:55:01 -05:00
Norman Maurer
5f71b6dc54 Ensure CompositeByteBuf.addComponent* handles buffer in consistent way and not causes leaks
Motivation:

At the moment we have two problems:
 - CompositeByteBuf.addComponent(...) will not add the supplied buffer to the CompositeByteBuf if its empty, which means it will not be released on CompositeByteBuf.release() call. This is a problem as a user will expect everything added will be released (the user not know we not added it).
 - CompositeByteBuf.addComponents(...) will either add no buffers if none is readable and so has the same problem as addComponent(...) or directly release the ByteBuf if at least one ByteBuf is readable. Again this gives inconsistent handling and may lead to memory leaks.

Modifications:

 - Always add the buffer to the CompositeByteBuf and so release it on release call.

Result:

Consistent handling and no buffer leaks.
2015-02-12 16:09:24 +01:00
Trustin Lee
0e61aeb849 [maven-release-plugin] prepare for next development iteration 2014-12-31 20:58:44 +09:00
Trustin Lee
087db82e78 [maven-release-plugin] prepare release netty-4.0.25.Final 2014-12-31 20:58:33 +09:00
Trustin Lee
0b8f47da04 Implement internal memory access methods of CompositeByteBuf correctly
Motivation:

When a CompositeByteBuf is empty (i.e. has no component), its internal
memory access operations do not always behave as expected.

Modifications:

Check if the nunmber of components is zero. If so, return an empty
array or an empty NIO buffer, etc.

Result:

More robustness
2014-12-30 15:52:57 +09:00
Trustin Lee
38fae09f23 Add more tests to EmptyByteBufTest
- Ensure an EmptyByteBuf has an array, an NIO buffer, and a memory
  address at the same time
- Add an assertion that checks if EMPTY_BUFFER is an EmptyByteBuf,
  just in case we make a mistake in the future
2014-12-30 15:50:49 +09:00
Norman Maurer
61a5e60513 Provide helper methods in ByteBufUtil to write UTF-8/ASCII CharSequences. Related to [#909]
Motivation:

We expose no methods in ByteBuf to directly write a CharSequence into it. This leads to have the user either convert the CharSequence first to a byte array or use CharsetEncoder. Both cases have some overheads and we can do a lot better for well known Charsets like UTF-8 and ASCII.

Modifications:

Add ByteBufUtil.writeAscii(...) and ByteBufUtil.writeUtf8(...) which can do the task in an optimized way. This is especially true if the passed in ByteBuf extends AbstractByteBuf which is true for all of our implementations which not wrap another ByteBuf.

Result:

Writing an ASCII and UTF-8 CharSequence into a AbstractByteBuf is a lot faster then what the user could do by himself as we can make use of some package private methods and so eliminate reference and range checks. When the Charseq is not ASCII or UTF-8 we can still do a very good job and are on par in most of the cases with what the user would do.

The following benchmark shows the improvements:

Result: 2456866.966 ?(99.9%) 59066.370 ops/s [Average]
  Statistics: (min, avg, max) = (2297025.189, 2456866.966, 2586003.225), stdev = 78851.914
  Confidence interval (99.9%): [2397800.596, 2515933.336]

Benchmark                                                        Mode   Samples        Score  Score error    Units
i.n.m.b.ByteBufUtilBenchmark.writeAscii                         thrpt        50  9398165.238   131503.098    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiString                   thrpt        50  9695177.968   176684.821    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiStringViaArray           thrpt        50  4788597.415    83181.549    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiStringViaArrayWrapped    thrpt        50  4722297.435    98984.491    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiStringWrapped            thrpt        50  4028689.762    66192.505    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiViaArray                 thrpt        50  3234841.565    91308.009    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiViaArrayWrapped          thrpt        50  3311387.474    39018.933    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeAsciiWrapped                  thrpt        50  3379764.250    66735.415    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8                          thrpt        50  5671116.821   101760.081    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8String                    thrpt        50  5682733.440   111874.084    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8StringViaArray            thrpt        50  3564548.995    55709.512    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8StringViaArrayWrapped     thrpt        50  3621053.671    47632.820    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8StringWrapped             thrpt        50  2634029.071    52304.876    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8ViaArray                  thrpt        50  3397049.332    57784.119    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8ViaArrayWrapped           thrpt        50  3318685.262    35869.562    ops/s
i.n.m.b.ByteBufUtilBenchmark.writeUtf8Wrapped                   thrpt        50  2473791.249    46423.114    ops/s
Tests run: 1, Failures: 0, Errors: 0, Skipped: 0, Time elapsed: 1,387.417 sec - in io.netty.microbench.buffer.ByteBufUtilBenchmark

Results :

Tests run: 1, Failures: 0, Errors: 0, Skipped: 0

Results :

Tests run: 1, Failures: 0, Errors: 0, Skipped: 0

The *ViaArray* benchmarks are basically doing a toString().getBytes(Charset) which the others are using ByteBufUtil.write*(...).
2014-12-26 15:57:59 +09:00
Norman Maurer
93237d435f CompositeByteBuf.nioBuffers(...) must not return an empty ByteBuffer array
Motivation:

CompositeByteBuf.nioBuffers(...) returns an empty ByteBuffer array if the specified length is 0. This is not consistent with other ByteBuf implementations which return an ByteBuffer array of size 1 with an empty ByteBuffer included.

Modifications:

Make CompositeByteBuf.nioBuffers(...) consistent with other ByteBuf implementations.

Result:

Consistent and correct behaviour of nioBufffers(...)
2014-12-22 11:17:53 +01:00
Norman Maurer
fa079baf29 Always return SliceByteBuf on slice(...) to eliminate possible leak
Motivation:

When calling slice(...) on a ByteBuf the returned ByteBuf should be the slice of a ByteBuf and shares it's reference count. This is important as it is perfect legal to use buf.slice(...).release() and have both, the slice and the original ByteBuf released. At the moment this is only the case if the requested slice size is > 0. This makes the behavior inconsistent and so may lead to a memory leak.

Modifications:

- Never return Unpooled.EMPTY_BUFFER when calling slice(...).
- Adding test case for buffer.slice(...).release() and buffer.duplicate(...).release()

Result:

Consistent behaviour and so no more leaks possible.
2014-12-22 11:15:28 +01:00
Norman Maurer
d62932c7de Ensure buffer is not released when call array() / memoryAddress()
Motivation:

Before we missed to check if a buffer was released before we return the backing byte array or memoryaddress. This could lead to JVM crashes when someone tried various bulk operations on the Unsafe*ByteBuf implementations.

Modifications:

Always check if the buffer is released before all to return the byte array and memoryaddress.

Result:

No more JVM crashes because of released buffers when doing bulk operations on Unsafe*ByteBuf implementations.
2014-12-11 11:30:10 +01:00
Idel Pivnitskiy
3d200085a4 Small performance improvements
Motivation:

Found performance issues via FindBugs and PMD.

Modifications:

- Removed unnecessary boxing/unboxing operations in DefaultTextHeaders.convertToInt(CharSequence) and DefaultTextHeaders.convertToLong(CharSequence). A boxed primitive is created from a string, just to extract the unboxed primitive value.
- Added a static modifier for DefaultHttp2Connection.ParentChangedEvent class. This class is an inner class, but does not use its embedded reference to the object which created it. This reference makes the instances of the class larger, and may keep the reference to the creator object alive longer than necessary.
- Added a static compiled Pattern to avoid compile it each time it is used when we need to replace some part of authority.
- Improved using of StringBuilders.

Result:

Performance improvements.
2014-11-20 00:58:35 -05:00
Norman Maurer
1914b77c71 [maven-release-plugin] prepare for next development iteration 2014-10-29 11:48:40 +01:00
Norman Maurer
c170e7df3f [maven-release-plugin] prepare release netty-4.0.24.Final 2014-10-29 11:47:19 +01:00
Norman Maurer
cb85ed9d66 Disable caching of PooledByteBuf for different threads.
Motivation:

We introduced a PoolThreadCache which is used in our PooledByteBufAllocator to reduce the synchronization overhead on PoolArenas when allocate / deallocate PooledByteBuf instances. This cache is used for both the allocation path and deallocation path by:
  - Look for cached memory in the PoolThreadCache for the Thread that tries to allocate a new PooledByteBuf and if one is found return it.
  - Add the memory that is used by a PooledByteBuf to the PoolThreadCache of the Thread that release the PooledByteBuf

This works out very well when all allocation / deallocation is done in the EventLoop as the EventLoop will be used for read and write. On the otherside this can lead to surprising side-effects if the user allocate from outside the EventLoop and and pass the ByteBuf over for writing. The problem here is that the memory will be added to the PoolThreadCache that did the actual write on the underlying transport and not on the Thread that previously allocated the buffer.

Modifications:

Don't cache if different Threads are used for allocating/deallocating

Result:

Less confusing behavior for users that allocate PooledByteBufs from outside the EventLoop.
2014-09-22 13:38:35 +02:00
Norman Maurer
687d3d3b5c [#2924] Correctly update head in MemoryRegionCache.trim()
Motivation:
When MemoryRegionCache.trim() is called, some unused cache entries will be freed (started from head). However, in MeoryRegionCache.trim() the head is not updated, which make entry list's head point to an entry whose chunk is null now and following allocate of MeoryRegionCache will return false immediately.

In other word, cache is no longer usable once trim happen.

Modifications:

Update head to correct idx after free entries in trim().

Result:

MemoryRegionCache behaves correctly even after calling trim().
2014-09-22 10:56:17 +02:00
Norman Maurer
0bab6116f3 [#2843] Add test-case to show correct behavior of ByteBuf.refCnt() and ByteBuf.release(...)
Motivation:

We received a bug-report that the ByteBuf.refCnt() does sometimes not show the correct value when release() and refCnt() is called from different Threads.

Modifications:

Add test-case which shows that all is working like expected

Result:

Test-case added which shows everything is ok.
2014-09-01 08:48:15 +02:00
Trustin Lee
7710e7da44 [maven-release-plugin] prepare for next development iteration 2014-08-16 03:02:02 +09:00
Trustin Lee
208198c0cb [maven-release-plugin] prepare release netty-4.0.23.Final 2014-08-16 03:01:57 +09:00
Trustin Lee
a2d508711d [maven-release-plugin] prepare for next development iteration 2014-08-14 09:41:33 +09:00
Trustin Lee
3051db9d59 [maven-release-plugin] prepare release netty-4.0.22.Final 2014-08-14 09:41:28 +09:00
Trustin Lee
2b5aa716ba Use heap buffers for Unpooled.copiedBuffer()
Related issue: #2028

Motivation:

Some copiedBuffer() methods in Unpooled allocated a direct buffer.  An
allocation of a direct buffer is an expensive operation, and thus should
be avoided for unpooled buffers.

Modifications:

- Use heap buffers in all copiedBuffer() methods

Result:

Unpooled.copiedBuffers() are less expensive now.
2014-08-13 15:10:00 -07:00
Trustin Lee
fb5583d788 Refactoring in preparation to unify I/O logic for all branches
Motivation:

While trying to merge our ChannelOutboundBuffer changes we've made last
week, I realized that we have quite a bit of conflicting changes at 4.1
and master. It was primarily because we added
ChannelOutboundBuffer.beforeAdd() and moved some logic there, such as
direct buffer conversion.

However, this is not possible with the changes we've made for 4.0. We
made ChannelOutboundBuffer final for example.

Maintaining multiple branch is already getting painful and having
different core will make it even worse, so I think we should keep the
differences between 4.0 and other branches minimal.

Modifications:

- Move ChannelOutboundBuffer.safeRelease() to ReferenceCountUtil
- Add ByteBufUtil.threadLocalBuffer()
  - Backported from ThreadLocalPooledDirectByteBuf
- Make most methods in AbstractUnsafe final
  - Add AbstractChannel.filterOutboundMessage() so that a transport can
    convert a message to another (e.g. heap -> off-heap), and also
    reject unsupported messages
  - Move all direct buffer conversions to filterOutboundMessage()
  - Move all type checks to filterOutboundMessage()
- Move AbstractChannel.checkEOF() to OioByteStreamChannel, because it's
  the only place it is used at all
- Remove ChannelOutboundBuffer.current(Object), because it's not used
  anymore
- Add protected direct buffer conversion methods to AbstractNioChannel
  and AbstractEpollChannel so that they can be used by their subtypes
- Update all transport implementations according to the changes above

Result:

- The missing extension point in 4.0 has been added.
  - AbstractChannel.filterOutboundMessage()
  - Thanks to the new extension point, we moved all transport-specific
    logic from ChannelOutboundBuffer to each transport implementation
- We can copy most of the transport implementations in 4.0 to 4.1 and
  master now, so that we have much less merge conflict when we modify
  the core.
2014-08-05 08:04:23 +02:00
Trustin Lee
07801d7b38 Remove duplicate range check in AbstractByteBuf.skipBytes() 2014-07-29 15:58:38 -07:00
Idel Pivnitskiy
01b11ca2cb Small performance improvements
Modifications:

- Added a static modifier for CompositeByteBuf.Component.
This class is an inner class, but does not use its embedded reference to the object which created it. This reference makes the instances of the class larger, and may keep the reference to the creator object alive longer than necessary.
A boxed primitive is created from a String, just to extract the unboxed primitive value.
- Removed unnecessary checks if file exists before call mkdirs() in NativeLibraryLoader and PlatformDependent.
Because the method mkdirs() has this check inside.

Conflicts:
	codec-http/src/main/java/io/netty/handler/codec/http/multipart/DiskAttribute.java
	codec-stomp/src/main/java/io/netty/handler/codec/stomp/StompSubframeAggregator.java
	codec-stomp/src/main/java/io/netty/handler/codec/stomp/StompSubframeDecoder.java
2014-07-20 09:29:33 +02:00
Norman Maurer
c4d0a87e19 [#2653] Remove unnecessary ensureAccessible() calls
Motivation:

I introduced ensureAccessible() class as part of 6c47cc9711 in some places. Unfortunally I also added some where these are not needed and so caused a performance regression.

Modification:

Remove calls where not needed.

Result:

Fixed performance regression.
2014-07-14 21:02:07 +02:00
Norman Maurer
ccd88596f3 [#2653] Remove uncessary range checks for performance reasons
Motivation:

I introduced range checks as part of 6c47cc9711 in some places. Unfortunally I also added some where these are not needed and so caused a performance regression.

Modification:

Remove range checks where not needed

Result:

Fixed performance regression.
2014-07-14 11:40:27 +02:00
Brendt Lucas
5061be1b03 [#2642] CompositeByteBuf.deallocate memory/GC improvement
Motivation:

CompositeByteBuf.deallocate generates unnecessary GC pressure when using the 'foreach' loop, as a 'foreach' loop creates an iterator when looping.

Modification:

Convert 'foreach' loop into regular 'for' loop.

Result:

Less GC pressure (and possibly more throughput) as the 'for' loop does not create an iterator
2014-07-08 21:08:34 +02:00
Trustin Lee
3d8d843198 Fix the build timeout when 'leak' profile is active
Motivation:

AbstractByteBufTest.testInternalBuffer() uses writeByte() operations to
populate the sample data.  Usually, this isn't a problem, but it starts
to take a lot of time when the resource leak detection level gets
higher.

In our CI machine, testInternalBuffer() takes more than 30 minutes,
causing the build timeout when the 'leak' profile is active (paranoid
level resource detection.)

Modification:

Populate the sample data using ThreadLocalRandom.nextBytes() instead of
using millions of writeByte() operations.

Result:

Test runs much faster when leak detection level is high.
2014-07-03 17:55:18 +09:00
Trustin Lee
0a8ff3b52d Fix most inspector warnings
Motivation:

It's good to minimize potentially broken windows.

Modifications:

Fix most inspector warnings from our profile
Update IntObjectHashMap

Result:

Cleaner code
2014-07-02 20:21:30 +09:00
Norman Maurer
e8f4def2a3 [maven-release-plugin] prepare for next development iteration 2014-06-30 14:31:08 +02:00
Norman Maurer
25e3c8ce3d [maven-release-plugin] prepare release netty-4.0.21.Final 2014-06-30 14:29:15 +02:00
Norman Maurer
6c47cc9711 [#2622] Correctly check reference count before try to work on the underlying memory
Motivation:

Because of how we use reference counting we need to check for the reference count before each operation that touches the underlying memory. This is especially true as we use sun.misc.Cleaner.clean() to release the memory ASAP when possible. Because of this the user may cause a SEGFAULT if an operation is called that tries to access the backing memory after it was released.

Modification:

Correctly check the reference count on all methods that access the underlying memory or expose it via a ByteBuffer.

Result:

Safer usage of ByteBuf
2014-06-30 07:10:12 +02:00
Trustin Lee
d8d0bbfc26 Optimize PoolChunk
- Using short[] for memoryMap did not improve performance. Reverting
  back to the original dual-byte[] structure in favor of simplicity.
- Optimize allocateRun() which yields small performence improvement
- Use local variable when member fields are accessed more than once
2014-06-26 17:06:29 +09:00
Trustin Lee
c41538050c Fix inspector warnings 2014-06-26 17:06:29 +09:00
Pavan Kumar
d2e36a49c7 Improve the allocation algorithm in PoolChunk
Motivation:

Depth-first search is not always efficient for buddy allocation.

Modification:

Employ a new faster search algorithm with different memoryMap layout.

Result:

With thread-local cache disabled, we see a lot of performance
improvment, especially when the size of the allocation is as small as
the page size, which had the largest search space previously.
2014-06-26 17:06:29 +09:00
Trustin Lee
4a13f66e13 Remove 'get' prefix from all HTTP/SPDY messages
Motivation:

Persuit for the consistency in method naming

Modifications:

- Remove the 'get' prefix from all HTTP/SPDY message classes
- Fix some inspector warnings

Result:

Consistency
Fixes #2594
2014-06-24 18:33:30 +09:00
Norman Maurer
22f16e52bf MessageToByteEncoder always starts with ByteBuf that use initalCapacity == 0
Motivation:

MessageToByteEncoder always starts with ByteBuf that use initalCapacity == 0 when preferDirect is used. This is really wasteful in terms of performance as every first write into the buffer will cause an expand of the buffer itself.

Modifications:

 - Change ByteBufAllocator.ioBuffer() use the same default initialCapacity as heapBuffer() and directBuffer()
 - Add new allocateBuffer method to MessageToByteEncoder that allow the user to do some smarter allocation based on the message that will be encoded.

Result:

Less expanding of buffer and more flexibilty when allocate the buffer for encoding.
2014-06-24 13:55:02 +09:00
Trustin Lee
7162d96ed5 Revert "Improve the allocation algorithm in PoolChunk"
This reverts commit 36305d7dce, which
seems to cause an assertion failure on our CI machine.
2014-06-21 19:19:49 +09:00
Pavan Kumar
004ffbad90 Improve the allocation algorithm in PoolChunk
Motivation:

Depth-first search is not always efficient for buddy allocation.

Modification:

Employ a new faster search algorithm with different memoryMap layout.

Result:

With thread-local cache disabled, we see a lot of performance
improvment, especially when the size of the allocation is as small as
the page size, which had the largest search space previously:

-- master head --
Benchmark                (size) Mode    Score  Error Units
pooledDirectAllocAndFree  8192 thrpt  215.392  1.565 ops/ms
pooledDirectAllocAndFree 16384 thrpt  594.625  2.154 ops/ms
pooledDirectAllocAndFree 65536 thrpt 1221.520 18.965 ops/ms
pooledHeapAllocAndFree    8192 thrpt  217.175  1.653 ops/ms
pooledHeapAllocAndFree   16384 thrpt  587.250 14.827 ops/ms
pooledHeapAllocAndFree   65536 thrpt 1217.023 44.963 ops/ms

-- changes --
Benchmark                (size) Mode    Score  Error Units
pooledDirectAllocAndFree  8192 thrpt 3656.744 94.093 ops/ms
pooledDirectAllocAndFree 16384 thrpt 4087.152 22.921 ops/ms
pooledDirectAllocAndFree 65536 thrpt 4058.814 29.276 ops/ms
pooledHeapAllocAndFree    8192 thrpt 3640.355 44.418 ops/ms
pooledHeapAllocAndFree   16384 thrpt 4030.206 24.365 ops/ms
pooledHeapAllocAndFree   65536 thrpt 4103.991 70.991 ops/ms
2014-06-21 13:20:56 +09:00
Norman Maurer
19a1b603d0 Remove System.out.println(...) debug messages 2014-06-20 19:42:08 +02:00
Norman Maurer
d2b8560a76 [#2580] [#2587] Fix buffer corruption regression when ByteBuf.order(LITTLE_ENDIAN) is used
Motivation:

To improve the speed of ByteBuf with order LITTLE_ENDIAN and where the native order is also LITTLE_ENDIAN (intel) we introduces a new special SwappedByteBuf before in commit 4ad3984c8b. Unfortunally the commit has a flaw which does not handle correctly the case when a ByteBuf expands. This was caused because the memoryAddress was cached and never changed again even if the underlying buffer expanded. This can lead to corrupt data or even to SEGFAULT the JVM if you are lucky enough.

Modification:

Always lookup the actual memoryAddress of the wrapped ByteBuf.

Result:

No more data-corruption for ByteBuf with order LITTLE_ENDIAN and no JVM crashes.
2014-06-20 18:25:54 +02:00
Trustin Lee
fb538ea532 Refactor FastThreadLocal to simplify TLV management
Motivation:

When Netty runs in a managed environment such as web application server,
Netty needs to provide an explicit way to remove the thread-local
variables it created to prevent class loader leaks.

FastThreadLocal uses different execution paths for storing a
thread-local variable depending on the type of the current thread.
It increases the complexity of thread-local removal.

Modifications:

- Moved FastThreadLocal and FastThreadLocalThread out of the internal
  package so that a user can use it.
- FastThreadLocal now keeps track of all thread local variables it has
  initialized, and calling FastThreadLocal.removeAll() will remove all
  thread-local variables of the caller thread.
- Added FastThreadLocal.size() for diagnostics and tests
- Introduce InternalThreadLocalMap which is a mixture of hard-wired
  thread local variable fields and extensible indexed variables
- FastThreadLocal now uses InternalThreadLocalMap to implement a
  thread-local variable.
- Added ThreadDeathWatcher.unwatch() so that PooledByteBufAllocator
  tells it to stop watching when its thread-local cache has been freed
  by FastThreadLocal.removeAll().
- Added FastThreadLocalTest to ensure that removeAll() works
- Added microbenchmark for FastThreadLocal and JDK ThreadLocal
- Upgraded to JMH 0.9

Result:

- A user can remove all thread-local variables Netty created, as long as
  he or she did not exit from the current thread. (Note that there's no
  way to remove a thread-local variable from outside of the thread.)
- FastThreadLocal exposes more useful operations such as isSet() because
  we always implement a thread local variable via InternalThreadLocalMap
  instead of falling back to JDK ThreadLocal.
- FastThreadLocalBenchmark shows that this change improves the
  performance of FastThreadLocal even more.
2014-06-19 21:08:16 +09:00
Norman Maurer
6fdf1138ca [#2573] UnpooledUnsafeDirectByteBuf.setBytes(int,ByteBuf,int,int) fails to use fast-path when src has array
Motivation:

UnpooledUnsafeDirectByteBuf.setBytes(int,ByteBuf,int,int) fails to use fast-path when src uses an array as backing storage. This is because the if else uses the wrong ByteBuf for its check.

Modifications:

- Use correct ByteBuf when check for array as backing storage
- Also eliminate unecessary check in UnpooledDirectByteBuf which always fails anyway

Result:

Faster setBytes(...) when src ByteBuf is backed by an array.

No more IndexOutOfBoundsException or data-corruption.
2014-06-16 11:11:54 +02:00
Norman Maurer
b737d631f1 [maven-release-plugin] prepare for next development iteration 2014-06-12 16:20:52 +02:00
Norman Maurer
1709113a1f [maven-release-plugin] prepare release netty-4.0.20.Final 2014-06-12 16:14:48 +02:00
Norman Maurer
76043bc8c8 Make use of an array to store FastThreadLocals and so allow to also use it in PooledByteBufAllocator that is instanced by users.
Motivation:
Allow to make use of our new FastThreadLocal whereever possible

Modification:
Make use of an array to store FastThreadLocals and so allow to also use it in PooledByteBufAllocator that is instanced by users.
The maximal size of the array is configurable per system property to allow to tune it if needed. As default we use 64 entries which should be good enough.

Result:
More flexible usage of FastThreadLocal
2014-06-12 15:43:20 +02:00