LINC is a pure OpenFlow software switch written in Erlang. It's implemented in operating system's userspace as an Erlang node. Such approach is not the most efficient one, but it gives a lot of flexibility and allows quick development and testing of new OpenFlow features.
- Support for OpenFlow Protocol 1.2 and OpenFlow Protocol 1.3,
- OpenFlow Capable Switch - ability to run multiple logical switches,
- Support for OF-Config 1.1.1 management protocol,
- Modular architecture, easily extensible.
To use LINC you need to have an Erlang runtime installed on your machine. Required version is R15B+.
To build Erlang from sources first you have to install some required system packages.
On Ubuntu:
# apt-get install gcc wget make autoconf openssl libssl0.9.8 libssl-dev libncurses5 libncurses5-dev
On RedHat/CentOS:
# yum install gcc wget make autoconf openssl openssl-devel ncurses ncurses-devel
On other Linux systems you need to install the counterparts of aforementioned packages.
When your system environment is ready download the sources from erlang.org. Unpack, compile and install:
% ./configure
% make
# make install
If you're lazy you can also use Erlang binary packages created by Erlang Solutions.
To build the switch you need to install the following additional libraries and tools.
On Ubuntu:
# apt-get install git-core bridge-utils libpcap0.8 libpcap-dev libcap2-bin uml-utilities
On RedHat/CentOS:
# yum install git sudo bridge-utils libpcap libpcap-devel libcap tunctl
Note that on RedHat/CentOS 5.x you need a newer version of libpcap:
# yum erase libpcap libpcap-devel
# yum install flex byacc
# wget http://www.tcpdump.org/release/libpcap-1.2.1.tar.gz
# tar xzf libpcap-1.2.1.tar.gz
# cd libpcap-1.2.1
# ./configure
# make && make install
On other Linux systems you need to install the counterparts of aforementioned packages.
When your environment is set up you are ready to build and run LINC.
Clone this git repository:
% git clone <REPO>
Compile everything:
% make
Adjust switch configuration by editing the rel/linc/releases/0.1/sys.config
file which looks like this:
{linc,
[
{of_config, enabled},
{capable_switch_ports,
[
{port, 1, [{interface, "eth0"}]},
{port, 2, [{interface, "tap0"}]}
]},
{logical_switches,
[
{switch, 0,
[
{backend, linc_us4},
{controllers,
[
{"Switch0-DefaultController", "localhost", 6633, tcp}
]},
{queues_status, disabled},
{ports,
[
{port, 1, {queues, []}},
{port, 2, {queues, []}}
]}
]}
]}
]}.
At the moment you can change the list of controllers and ports used by the switch.
Start LINC switch in console
mode:
% rel/linc/bin/linc console
For further instructions on how to use LINC check the "Ping example".
For detailed explanation on how to setup simple LINC testbed check the "Testbed setup".
To facilitate developing LINC application the appropriate environment was prepared. It consists of the following components:
- "Sync" - scans all the beam files and their corresponding source files and reloads or recompiles them respectively if necessary.
- "EDTS" - Emacs mode that among others provides automatic files compilation, finding function declaration etc. For this to work you have to configure your emacs to use EDTS.
- Makefile targets - start the development Erlang VM.
Assuming that you have Emacs and EDTS installed and properly configured, to start developing LINC you have follow these steps:
- Clone the repo.
- Enter the project root dir and issue:
make dev_prepare
If you get and error saying "beam.smp executable not found!" follow the guidelines and export the BEAMSMP_PATH variable pointing to your
beam.smp
and run the make target againg. - By default only the
procket
module is excluded from scanning by Sync. If you want to prevent additional modules from being scanned modify sync configuration inrel/files/sys.config
file. - Next start the development Erlang VM: make dev
Now you can develop the LINC application without restarting the Erlang VM.
If you have any technical questions, problems or suggestions regarding LINC please send them to [email protected] mailing list or create an Issue. Thanks.