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Norman Maurer 6f5cbf6221 [#2680] NioSocketChannelOutboundBuffer.nioBuffers() / EpollSocketChannelOutboundBuffer.memoryAddresses() should always return non-null array as stated in javadocs
Motivation:

At the moment NioSocketChannelOutboundBuffer.nioBuffers() / EpollSocketChannelOutboundBuffer.memoryAddresses() returns null if something is contained in the ChannelOutboundBuffer which is not a ByteBuf. This is a problem for two reasons:
  1 - In the javadocs we state that it will never return null
  2 - We may do a not optimal write as there may be things that could be written via gathering writes

Modifications:

Change NioSocketChannelOutboundBuffer.nioBuffers() /  EpollSocketChannelOutboundBuffer.memoryAddresses() to never return null but have it contain all ByteBuffer that were found before the non ByteBuf. This way we can do a gathering write and also conform to the javadocs.

Result:

Better speed and also correct implementation in terms of the api.
2014-07-20 19:59:16 +02:00
all Add MQTT protocol codec 2014-06-21 16:51:37 +09:00
buffer Small performance improvements 2014-07-20 09:24:56 +02:00
codec Fixes for compression codecs 2014-07-20 09:32:26 +02:00
codec-dns Don't spin from malformed dns packets containing loops 2014-07-20 14:09:32 +02:00
codec-haproxy Fix NPE problems 2014-07-20 12:55:08 +02:00
codec-http Fix NPE problems 2014-07-20 12:55:08 +02:00
codec-http2 Upgrade to HTTP/2 draft 13 2014-07-08 21:10:46 +02:00
codec-memcache Fix most inspector warnings 2014-07-02 19:04:11 +09:00
codec-mqtt Fix NPE problems 2014-07-20 12:55:08 +02:00
codec-socks Fix most inspector warnings 2014-07-02 19:04:11 +09:00
codec-stomp Fix NPE problems 2014-07-20 12:55:08 +02:00
common Fix NPE problems 2014-07-20 12:55:08 +02:00
example Add WebSocket Extension handlers for client and server. 2014-07-09 16:28:40 +02:00
handler Fix NPE problems 2014-07-20 12:55:08 +02:00
license Implemented a Bzip2Encoder 2014-07-17 16:19:59 +02:00
microbench Fix the inconsistencies between performance tests in ByteBufAllocatorBenchmark 2014-06-21 13:27:28 +09:00
tarball [maven-release-plugin] prepare for next development iteration 2013-12-22 22:06:15 +09:00
testsuite [#2647] Respect IOV_MAX when call writev in native transport 2014-07-09 12:18:48 +02:00
transport [#2680] NioSocketChannelOutboundBuffer.nioBuffers() / EpollSocketChannelOutboundBuffer.memoryAddresses() should always return non-null array as stated in javadocs 2014-07-20 19:59:16 +02:00
transport-native-epoll [#2680] NioSocketChannelOutboundBuffer.nioBuffers() / EpollSocketChannelOutboundBuffer.memoryAddresses() should always return non-null array as stated in javadocs 2014-07-20 19:59:16 +02:00
transport-rxtx Fix most inspector warnings 2014-07-02 19:04:11 +09:00
transport-sctp Fix most inspector warnings 2014-07-02 19:04:11 +09:00
transport-udt Fix most inspector warnings 2014-07-02 19:04:11 +09:00
.fbprefs Updated Find Bugs configuration 2009-03-04 10:33:09 +00:00
.gitignore Add JVM crash logs to .gitignore 2014-05-18 21:34:51 +09:00
.travis.yml Travis CI branch whitelisting 2013-03-11 09:55:43 +09:00
CONTRIBUTING.md Move the pull request guide to the developer guide 2014-03-12 13:17:58 +09:00
LICENSE.txt Relicensed to Apache License v2 2009-08-28 07:15:49 +00:00
NOTICE.txt Implemented a Bzip2Encoder 2014-07-17 16:19:59 +02:00
pom.xml Implemented LZF compression codec 2014-07-17 07:18:53 +02:00
README.md Synchronized between 4.1 and master (part 3) 2014-04-25 16:17:16 +09:00
run-example.sh Overall refactoring of the STOMP codec 2014-06-04 17:09:11 +09:00

Netty Project

Netty is an asynchronous event-driven network application framework for rapid development of maintainable high performance protocol servers & clients.

How to build

For the detailed information about building and developing Netty, please visit the developer guide. This page only gives very basic information.

You require the following to build Netty:

Note that this is build-time requirement. JDK 5 (for 3.x) or 6 (for 4.0+) is enough to run your Netty-based application.

Branches to look

The 'master' branch is where the development of the latest major version lives on. The development of all other versions takes place in each branch whose name is identical to <majorVersion>.<minorVersion>. For example, the development of 3.9 and 4.0 resides in the branch '3.9' and the branch '4.0' respectively.