This project was created by researchers from ModSecurity and Fastly to help provide rigorous tests for WAF rules. It uses the OWASP Core Ruleset V3 as a baseline to test rules on a WAF. Each rule from the ruleset is loaded into a YAML file that issues HTTP requests that will trigger these rules.
Goals / Use cases include:
- Find regressions in WAF deployments by using continuous integration and issuing repeatable attacks to a WAF
- Provide a testing framework for new rules into ModSecurity, if a rule is submitted it MUST have corresponding positive & negative tests
- Evaluate WAFs against a common, agreeable baseline ruleset (OWASP)
- Test and verify custom rules for WAFs that are not part of the core rule set
git clone git@github.com:fastly/ftw.git
cd ftw
- Make sure that pip is installed
apt-get install python-pip
pip install -r requirements.txt
- Create YAML files that point to your webserver with a WAF in front of it
py.test test/test_default.py --ruledir test/yaml
If you require an environment for testing WAF rules, there has been one created with Apache, Modsecurity and version 3.0.0 of the OWASP core ruleset. This can be deployed by:
- Checking out the repository:
git clone https://github.com/fastly/waf_testbed.git
- Typing
vagrant up
- start your test web server
py.test test/test_default.py --ruledir=test/yaml --destaddr=domain.com --port 443 --protocol https
py.test test/integration/test_logcontains.py -s --ruledir=test/integration/
- Create a
*.py
file with the necessary imports, an example is shown intest/integration/test_logcontains.py
- All functions with
test*
in the beginning will be ran bypy.test
, so make a functiondef test_somewaf
- Implement a class that inherits
LogChecker
- Implement the
get_logs()
function. FTW will call this function after it runs the test, and it will set datetimes ofself.start
andself.end
- Use the information from the datetime variables to retrieve the files from your WAF, whether its a file or an API call
- Get the logs, store them in an array of strings and return it from
get_logs()
- Make use of
py.test fixtures
. Use a function decorator@pytest.fixture
, return your newLogChecker
object. Whenever you use a function argument in your tests that matches the name of that@pytest.fixture
, it will instantiate your object and make it easier to run tests. An example of this is in the python file from step 1. - Write a testing configuration in the
*.yaml
format as seen intest/integration/LOGCONTAINSFIXTURE.yaml
, thelog_contains
line requires a string that is a regex. FTW will compile thelog_contains
string from each stage in the YAML file into a regex. This regex will then be used alongside the lines of logs passed in fromget_logs()
to look for a match. Thelog_contains
string, then, should be a unique rule-id as FTW is greedy and will pass on the first match. False positives are mitigated from the start/end time passed to theLogChecker
object, but it is best to stay safe and use unique regexes. - For each stage, the
get_logs()
function is called, so be sure to account for API calls if thats how you retrieve your logs.
Although it is preferred to make requests using the YAML format, often automated tests require making many dynamic requests. In such a case it is recommended to make use of the py.test framework in order to produce test cases that can be run as part of the whole. Generally making an HTTP request is simple:
- create an instance of the
HttpUA()
class - create an instance of the
Input()
class providing whatever parameters you don't want to be defaulted - provide the instance of the input class to
HttpUA.send_request()
For some examples see the http integration tests