dhcplb
is Facebook's implementation of:
- a DHCP v4/v6 relayer with load balancing capabilities
- a DHCP v4/v6 server framework
Both modes currently only support handling messages sent by a relayer which is unicast traffic. It doesn't support broadcast (v4) and multicast (v6) requests. Facebook currently uses it in production, and it's deployed at global scale across all of our data centers. It is based on @insomniacslk dhcp library.
Facebook uses DHCP to provide network configuration to bare-metal machines at provisioning phase and to assign IPs to out-of-band interfaces.
dhcplb
was created because the previous infrastructure surrounding DHCP led
to very unbalanced load across the DHCP servers in a region when simply using
Anycast+ECMP alone (for example 1 server out of 10 would receive >65% of
requests).
Facebook's DHCP infrastructure was presented at SRECon15 Ireland.
Later, support for making it responsible for serving dhcp requests (server mode) was added. This was done because having a single threaded application (ISC KEA) queuing up packets while doing backend calls to another services wasn't scaling well for us.
- All the relayer implementations available on the internet lack the load balancing functionality.
- Having control of the code gives you the ability to:
- perform A/B testing on new builds of our DHCP server
- implement override mechanism
- implement anything additional you need
We needed a server implementation which allow us to have both:
- Multithreaded design, to avoid blocking requests when doing backend calls
- An interface to be able to call other services for getting the IP assignment, boot file url, etc.
This picture shows how we have deployed dhcplb
in our production
infrastructure:
TORs (Top of Rack switch) at Facebook run DHCP relayers, these relayers are responsible for relaying broadcast DHCP traffic (DISCOVERY and SOLICIT messages) originating within their racks to anycast VIPs, one DHCPv4 and one for DHCPv6.
In a Cisco switch the configuration would look like this:
ip helper-address 10.127.255.67
ipv6 dhcp relay destination 2401:db00:eef0:a67::
We have a bunch of dhcplb
Tupperware instances in every region listening on
those VIPs.
They are responsible for received traffic relayed by TORs agents and load
balancing them amongst the actual dhcplb
servers distributed across clusters
in that same region.
Having 2 layers allows us to A/B test changes of the server implementation.
The configuration for dhcplb
consists of 3 files:
- json config file: contains the main configuration for the server as explained in the Getting Started section
- host lists file: contains a list of dhcp servers, one per line, those are the servers
dhcplb
will try to balance on - overrides file: a file containing per mac overrides. See the Getting Started section.
dhcplb
does not support relaying/responding broadcasted DHCPv4 DISCOVERY
packets or DHCPv6 SOLICIT packets sent to ff02::1:2
multicast address. We
don't need this in our production environment but adding that support should be
trivial though.
TODOs and improvements are tracked here
PRs are welcome!
When operating in v4 dhcplb
will relay relayed messages coming from other
relayers (in our production network those are rack switches), the response from
the server will be relayed back to the rack switches:
dhcp client <---> rsw relayer ---> dhcplb (relay) ---> dhcplb (server)
^ |
| |
+--------------------------------------+
In DHCPv6 responses by the dhcp server will traverse the load balancer.
To install dhcplb
into $GOPATH/bin/dhcplb
, simply run:
$ go install github.com/facebookincubator/dhcplb@latest
If you wish to clone the repo you can do the following:
$ mkdir -p $GOPATH/src/github.com/facebookincubator
$ cd $_
$ git clone https://github.com/facebookincubator/dhcplb
$ go install github.com/facebookincubator/dhcplb
You can run tests with:
$ cd $GOPATH/src/github.com/facebookincubator/dhcplb/lib
$ go test
dhcplb
can be run out of the box after compilation.
To start immediately, you can run
sudo dhcplb -config config.json -version 6
.
That will start the relay in v6 mode using the default configuration.
Should you need to integrate dhcplb
with your infrastructure please
see Extending DHCPLB.
You can bring up a virtual lab using vagrant. This will replicate our production environment, you can spawn VMs containing various components like:
- N instances of
ISC dhcpd
- An instance of
dhcplb
- An instance of
dhcrelay
, simulating a top of rack switch. - a VM where you can run
dhclient
orISC perfdhcp
All of that is managed by vagrant
and chef-solo
cookbooks.
You can use this lab to test your dhcplb
changes.
For more information have a look at the vagrant directory.
dhcplb
started in April 2016 during a 3 days hackathon in the Facebook
Dublin office, the hackathon project proved the feasibility of the tool.
In June we were joined by Vinnie Magro (@vmagro) for a 3 months internship in
which he worked with two production engineers on turning the hack into a
production ready system.
Original Hackathon project members:
- Angelo Failla (@pallotron), Production Engineer
- Roman Gushchin (@rgushchin), Production Engineer
- Mateusz Kaczanowski (@mkaczanowski), Production Engineer
- Jake Bunce, Network Engineer
Internship project members:
- Vinnie Magro (@vmagro), Production Engineer intern
- Angelo Failla (@pallotron), Intern mentor, Production Engineer
- Mateusz Kaczanowski (@mkaczanowski), Production Engineer
Other contributors:
- Emre Cantimur, Production Engineer, Facebook, Throttling support
- Andrea Barberio, Production Engineer, Facebook
- Pablo Mazzini, Production Engineer, Facebook
BSD License. See the LICENSE file.