Go to file
Trustin Lee bd9ad4b532 Perform cross-tests between NIO and epoll transport
Motivation:

The epoll testsuite tests the epoll transport only against itself (i.e. epoll x epoll only).  We should test the epoll transport also against the well-tested NIO transport, too.

Modifications:

- Make SocketTestPermutation extensible and reusable so that the epoll testsuite can take advantage of it.
- Rename EpollTestUtils to EpollSocketTestPermutation and make it extend SocketTestPermutation.
- Overall clean-up of SocketTestPermutation
  - Use Arrays.asList() for simplicity
  - Add combo() method to remove code duplication

Result:

The epoll transport is now also tested against the NIO transport.  SocketTestPermutation got cleaner.
2014-03-17 10:35:48 +09:00
all Ensure native transport is included in all and tarball 2014-02-17 22:46:07 +01:00
buffer Fix limit computation of NIO ByteBuffers obtained via ReadOnlyByteBufferBuf.nioBuffer 2014-03-14 08:10:18 +01:00
codec Remove condition in ChannelHandlerAdapter.isSharable() by caching the result of the annotation lookup. 2014-03-12 12:31:52 +01:00
codec-http [#2305] Fix issue related to decoding post request raized an exception due to a split of information by chunk not correctly taken into account by the decoder 2014-03-14 09:45:40 +01:00
codec-memcache [codec-memcache] Simplify object hierachy and remove Headers. 2014-03-04 13:05:30 +01:00
codec-socks Update the version to 4.1.0.Alpha1-SNAPSHOT 2014-02-13 18:32:26 -08:00
common [#2307] Remove synchronized bottleneck in SingleThreadEventExecutor.execute(...) 2014-03-13 10:08:01 +01:00
example Ensure the HttpResponseEncoder is always placed before the HttpObjectAggregator. Part of [#2219] 2014-03-05 06:58:04 +01:00
handler Do not use finally to propagate events in AbstractRemoteAddressFilter 2014-03-12 16:17:40 +09:00
license [#1259] Add optimized queue for SCMP pattern and use it in NIO and native transport 2014-02-27 13:28:37 +01:00
microbench Upgrade JMH to 0.4.1 and make use of @Params. 2014-02-23 16:39:39 +01:00
tarball Update the version to 4.1.0.Alpha1-SNAPSHOT 2014-02-13 18:32:26 -08:00
testsuite Perform cross-tests between NIO and epoll transport 2014-03-17 10:35:48 +09:00
transport [#2326] Add constructor to NioServerSocketChannel which accepts a ServerSocketChannel 2014-03-16 07:03:14 -07:00
transport-native-epoll Perform cross-tests between NIO and epoll transport 2014-03-17 10:35:48 +09:00
transport-rxtx Apply receive timeout to commPort when using RxtxChannel. Part of [#1390] 2014-02-23 16:31:34 +01:00
transport-sctp Directly use memory addresses for gathering writes to reduce gc pressure. Part of [#2239] 2014-02-21 13:37:33 +01:00
transport-udt Update the version to 4.1.0.Alpha1-SNAPSHOT 2014-02-13 18:32:26 -08:00
.fbfilter.xml Update license headers 2012-06-04 13:31:44 -07:00
.fbprefs Updated Find Bugs configuration 2009-03-04 10:33:09 +00:00
.gitignore Format and partially describe Gitignore 2013-12-10 07:04:38 +01:00
.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 13:13:58 +09:00
LICENSE.txt Relicensed to Apache License v2 2009-08-28 07:15:49 +00:00
NOTICE.txt [#1259] Add optimized queue for SCMP pattern and use it in NIO and native transport 2014-02-27 13:28:37 +01:00
pom.xml Remove sniffer whitelist entries for NIO.2 2014-03-13 07:00:41 +01:00
README.md Update README.md 2014-01-16 14:38:36 +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 major versions takes place in each branch whose name is identical to its major version number. For example, the development of 3.x and 4.x resides in the branch '3' and the branch '4' respectively.