Full documentation for the project is available at http://facebook.github.io/augmented-traffic-control/.
Augmented Traffic Control (ATC) is a tool to simulate network conditions. It allows controlling the connection that a device has to the internet. Developers can use ATC
to test their application across varying network conditions, easily emulating high speed, mobile, and even severely impaired networks.
Aspects of the connection that can be controlled include:
- bandwidth
- latency
- packet loss
- corrupted packets
- packets ordering
In order to be able to shape the network traffic, ATC must be running on a device that routes the traffic and sees the real IP address of the device, like your network gateway for instance. This also allows any devices that route through ATC
to be able to shape their traffic. Traffic can be shaped/unshaped using a web interface allowing any devices with a web browser to use ATC
without the need for a client application.
ATC is made of multiple components that interact together:
atcd
: The ATC daemon which is responsible for setting/unsetting traffic shaping.atcd
exposes a Thrift interface to interact with it.django-atc-api
: A Django app based on Django Rest Framework that provides a RESTful interface toatcd
.django-atc-demo-ui
: A Django app that provides a simple Web UI to useatc
from a mobile phone.django-atc-profile-storage
: A Django app that can be used to save shaping profiles, making it easier to re-use them later without manually re-entering those settings.
By splitting ATC
in sub-components, it make it easier to hack on it or build on top of it. While django-atc-demo-ui
is shipped as part of ATC
's main repository to allow people to be able to use ATC
out of the box, by providing a REST API to atcd
, it makes it relatively easy to interact with atcd
via the command line and opens the path for the community to be able to build creative command line tools, web UI or mobile apps that interact with ATC
.
Most requirements are handled automatically by pip, the packaging system used by ATC, and each ATC
package may have different requirements and the README.md files of the respective packages should be checked for more details. Anyhow, some requirements apply to the overall codebase:
- Python 2.7+
- Django 1.7+
The fact that ATC
is splitted in multiple packages allows for multiple deployment scenarii. However, deploying all the packages on the same host is the simplest and most likely fitting most use cases.
To get more details on how to install/configure each packages, please refer to the packages'respective READMEs.
The easiest way to install ATC
is by using pip
.
pip install atc_thrift atcd django-atc-api django-atc-demo-ui django-atc-profile-storage
Now that we have all the packages installed, we need to create a new Django project in which we will use our Django app.
django-admin startproject atcui
cd atcui
Now that we have our django project, we need to configure it to use our apps and we need to tell it how to route to our apps.
Open atcui/settings.py
and enable the ATC
apps by adding to INSTALLED_APPS
:
INSTALLED_APPS = (
...
# Django ATC API
'rest_framework',
'atc_api',
# Django ATC Demo UI
'bootstrap_themes',
'django_static_jquery',
'atc_demo_ui',
# Django ATC Profile Storage
'atc_profile_storage',
)
Now, open atcui/urls.py
and enable routing to the ATC
apps by adding the routes to urlpatterns
:
...
...
from django.views.generic.base import RedirectView
urlpatterns = patterns('',
...
# Django ATC API
url(r'^api/v1/', include('atc_api.urls')),
# Django ATC Demo UI
url(r'^atc_demo_ui/', include('atc_demo_ui.urls')),
# Django ATC profile storage
url(r'^api/v1/profiles/', include('atc_profile_storage.urls')),
url(r'^$', RedirectView.as_view(url='/atc_demo_ui/', permanent=False)),
)
Finally, let's update the Django DB:
python manage.py migrate
All require packages should now be installed and configured. We now need to run the daemon and the UI interface. While we will run ATC
straight from the command line in this example, you can refer to example sysvinit and upstart scripts.
atcd
modifies network related settings and as such needs to run in privileged mode:
sudo atcd
Supposing eth0
is your interface to connect to the internet and eth1
, your interface to connec to your lan, this should just work. If your setting is slightly different, use the command line arguments --atcd-wan
and --atcd-lan
to adapt to your configuration.
The UI on the other hand is a standard Django Web app and can be run as a normal user. Make sure you are in the directory that was created when you ran django-admin startproject atcui
and run:
python manage.py runserver 0.0.0.0:8000
You should now be able to access the web UI at http://localhost:8000
ATC source code is available under the atc directory, it is currently composed of:
- atc_thrift the thrift interface's library
- atcd the ATC daemon that runs on the router doing the traffic shaping
- django-atc-api A django app that provides a RESTful interface to
atcd
- django-atc-demo-ui A django app that provides a simple demo UI leveraging the RESTful API
- django-atc-profile-storage A django app that allows saving shaping profiles to DB allowing users to select their favorite profile from a list instead of re-entering all the profile details every time.
The chef directory contains 2 chef cookbooks:
- atc A cookbook to deploy ATC. It also allows to deploy ATC in a Virtual Box VM in order to develop on ATC.
- atclient Set up a Linux Desktop VM that can be used to test shaping end to end.
atcd
is the daemon that runs on the router that does the shaping. Interaction with the daemon is done using thrift. The interface definition can be found in atc_thrift.thrift.
atc_thrift
defines the thrift interface to communicate with the atcd
daemon.
django-atc-api
is a django app that provide a REST API to the atcd
daemon. Web applications, command line tools can use the API in order to shape/unshape traffic.
django-atc-demo-ui
is a simple Web UI to enable/disable traffic shaping. The UI is mostly written in React
django-atc-profile-storage
allows saving profiles to DB. A typical use case will be to save a list of predefined/often used shaping settings that you want to be able to accessing in just a few clicks/taps.
To make ATC development easier, we use Virtual Box and Vagrant to provision and run a VM that will run the ATC daemon and the ATC UI from your git checkout.
Interacting with ATC will only shape the traffic within the VM and not on the host.
You will need to install VirtualBox, Vagrant and a couple of plugins:
- VirtualBox
- Vagrant
- Chef DK
- Install some vagrant plugins:
- vagrant plugin install vagrant-berkshelf --plugin-version '>= 2.0.1'
- vagrant plugin install vagrant-omnibus
- Clone this repo: git clone [email protected]:facebook/augmented-traffic-control.git atc
Once in the repo, go to the chef/atc
directory and run:
vagrant up trusty
This will take some time before it completes, once the VM is provision, SSH into it:
vagrant ssh trusty
You should now be able to access ATC at: http://localhost:8080/
Hacking on ATC is done from the host and tested in the VM. In order to reflect the changes, you will need to start the services manually.
Both atcd
and atcui
have their python libraries installed in a python virtualenv so you will need to activate the environment in order to be able to run the services.
The virtualenv is installed in /usr/local/atc/venv/bin/activate .
source /usr/local/atc/venv/bin/activate
The atcd
daemon is running under the root user privileges, all operations below needs to be done as root.
To run the daemon manually, first make sure it is not running in the background:
service atcd stop
And run the daemon:
atcd
Once you are happy with your changes and you want to test them, you will need to kill the daemon and restart it in order to apply the changes.
This is a django project and, when running the django built-in HTTP server, will detect code changes and reload automatically.
To run the HTTP REST API and UI:
cd /var/django && python manage.py runserver 0.0.0.0:8000