Gatekeeper is the first open source DoS protection system. It is designed to scale to any peak bandwidth, so it can withstand DoS attacks both of today and of tomorrow. In spite of the geographically distributed architecture of Gatekeeper, the network policy that describes all decisions that have to be enforced on the incoming traffic is centralized. This centralized policy enables network operators to leverage distributed algorithms that would not be viable under very high latency (e.g. distributed databases) and to fight multiple multi-vector DoS attacks at once.
The intended users of Gatekeeper are network operators of institutions, service and content providers, enterprise networks, etc. It is not intended to be used by individual Internet users.
For more information, see the Gatekeeper wiki.
DPDK requires the use of hugepages; instructions for mounting hugepages are available in the requirements documentation. On many systems, the following hugepages setup is sufficient:
$ echo 256 | sudo tee /sys/kernel/mm/hugepages/hugepages-2048kB/nr_hugepages
Debian packages for Gatekeeper are available at the project's Releases page.
Once the packages are downloaded, they can be installed with the commands below:
$ sudo dpkg -i libgkrte-*.deb \
gatekeeper-dpdk_18.11.0-0_amd64.deb \
gatekeeper-dpdk-dev_18.11.0-0_amd64.deb \
gatekeeper-dpdk-igb-uio-dkms_18.11.0-0_amd64.deb \
gatekeeper-dpdk-rte-kni-dkms_18.11.0-0_amd64.deb \
gatekeeper-bird_2.0.4-0_amd64.deb \
gatekeeper-1.0.0-0_amd64.deb
The gatekeeper-dpdk-dev
package is a dependency of the DKMS packages, which
build their respective kernel modules during package installation and kernel
upgrades.
Edit the /etc/gatekeeper/envvars
file and insert names of the network adapters
to be bound to DPDK. For example:
GATEKEEPER_INTERFACES="eth0 eth1"
Alternatively, the interfaces' PCI addresses can be specified:
GATEKEEPER_INTERFACES="0000:00:07.0 0000:00:08.0"
In the same file, you can optionally specify
Environmental Abstraction Layer options
in the DPDK_ARGS
variable and
Gatekeeper-specific options
in GATEKEEPER_ARGS
.
Run the commands below to start Gatekeeper and to ensure it is started automatically on reboots.
$ sudo systemctl start gatekeeper
$ sudo systemctl enable gatekeeper
Install the following software dependencies:
$ sudo apt-get update
$ sudo apt-get -y -q install git clang devscripts doxygen hugepages \
build-essential linux-headers-`uname -r` libmnl0 libmnl-dev \
libkmod2 libkmod-dev libnuma-dev libelf1 libelf-dev libc6-dev-i386 \
autoconf flex bison libncurses5-dev libreadline-dev
Note: Both libmnl0
and libmnl-dev
are needed to compile and run
gatekeeper
, but only libmnl0
is needed for simply running gatekeeper
.
Both libkmod2
and libkmod-dev
are needed to compile and run gatekeeper
,
but only libkmod2
is needed for simply running gatekeeper
.
libnuma-dev
is needed to compile the latest DPDK and to support NUMA systems.
The package libelf-dev
is needed to compile DPDK with support to reading
BPF programs from ELF files, but only libelf1
is needed to run it.
The package libc6-dev-i386
is needed to compile the BPF programs in
the folder bpf/
.
The autoconf
, flex
, bison
, libncurses5-dev
, and
libreadline-dev
packages are for BIRD. The devscripts
package is used to
build Gatekeeper Debian packages.
To use DPDK, make sure you have all of the environmental requirements.
Clone the Gatekeeper repository, including the submodules that contain Gatekeeper dependencies:
$ git clone --recursive http://github.com/AltraMayor/gatekeeper.git
If you do not use the --recursive
clone option, you need to obtain the
submodules that contain the dependences from within the gatekeeper
directory:
$ git submodule init
$ git submodule update
This section explains how to build Gatekeeper manually. If you want to build Debian packages, refer to the section How to build packages.
While in the gatekeeper
directory, run the setup script:
$ . setup.sh
This script compiles DPDK, LuaJIT, and BIRD, and loads the needed
kernel modules. Additionally, it saves the interface names and their
respective PCI addresses in the file lua/if_map.lua
so that interface
names can be used in the Gatekeeper configuration files.
It also sets two environmental variables: RTE_SDK
and RTE_TARGET
.
They must be set before gatekeeper
will compile.
After running the setup script, you may want to save the environmental variables in your shell's preferences file. For example, in Bash, you can do:
$ echo "export RTE_SDK=${RTE_SDK}" >> ${HOME}/.profile
$ echo "export RTE_TARGET=${RTE_TARGET}" >> ${HOME}/.profile
Otherwise, each time you login you will need to set these environmental variables again.
Once DPDK is compiled and the variables are set, gatekeeper
can be compiled:
$ make
Before gatekeeper
can be used, the network adapters must be bound to DPDK.
For this, you can use the script dependencies/dpdk/usertools/dpdk-devbind.py
.
For example:
$ sudo dependencies/dpdk/usertools/dpdk-devbind.py --bind=uio_pci_generic enp131s0f0
This command binds the interface enp131s0f0
to the uio_pci_generic
driver
so that frames can be passed directly to DPDK instead of the kernel. Note
that this binding must take place after Gatekeeper is setup in the steps
above so that the bound interface appears in the list of interfaces in
lua/if_map.lua
.
Once gatekeeper
is compiled and the environment is configured correctly, run:
$ sudo build/gatekeeper [EAL OPTIONS] -- [GATEKEEPER OPTIONS]
Where [EAL OPTIONS]
are specified before a double dash and represent the
parameters for DPDK's Environmental Abstraction Layer
and [GATEKEEPER OPTIONS]
are specified after the double dash and
represent Gatekeeper-specific options.
The early configuration of the system, including device and memory configuration in DPDK, will be logged to stdout. Once Gatekeeper is booted, all information is output to the Gatekeeper log.
Gatekeeper Debian packages can be built with the commands below. They are meant to be run from the repository root and assume the git submodules have been pulled, and that the build dependencies have been installed, as instructed above. Gatekeeper and the submodules will be automatically compiled during the package build process.
$ tar --exclude-vcs -Jcvf ../gatekeeper_1.0.0.orig.tar.xz -C .. gatekeeper
$ debuild -uc -us
The Gatekeeper package will be available in the parent directory.