OpenWPM is a web privacy measurement framework which makes it easy to collect data for privacy studies on a scale of thousands to millions of websites. OpenWPM is built on top of Firefox, with automation provided by Selenium. It includes several hooks for data collection. Check out the instrumentation section below for more details.
Note: The master branch OpenWPM is currently unstable while we push to
complete the upgrade to WebExtensions. If you're running crawls we recommend
using the firefox-52-archive
branch, noting that it is running an outdated
version of Firefox.
OpenWPM has been developed and tested on Ubuntu 14.04/16.04. An installation
script, install.sh
is included to install both the system and python
dependencies automatically. A few of the python dependencies require specific
versions, so you should install the dependencies in a virtual environment if
you're installing a shared machine. If you plan to develop OpenWPM's
instrumentation extension or run tests you will also need to install the
development dependencies included in install-dev.sh
.
It is likely that OpenWPM will work on platforms other than Ubuntu, however we do not officially support anything else. For pointers on alternative platform support see the wiki.
Once installed, it is very easy to run a quick test of OpenWPM. Check out
demo.py
for an example. This will use the default setting specified in
automation/default_manager_params.json
and
automation/default_browser_params.json
, with the exception of the changes
specified in demo.py
.
More information on the instrumentation and configuration parameters is given below.
The wiki provides a more in-depth tutorial, including a platform demo and a description of the additional commands available. You can also take a look at two of our past studies, which use the infrastructure:
OpenWPM provides several instrumentation modules which can be enabled independently of each other for each crawl. More detail on the output is available below.
- HTTP Request and Response Headers, redirects, and POST request bodies
- Set
browser_params['http_instrument'] = True
- Data is saved to the
http_requests
,http_responses
, andhttp_redirects
tables.http_requests
schema documentationchannel_id
can be used to link a request saved in thehttp_requests
table to its corresponding response in thehttp_responses
table.channel_id
can also be used to link a request to the subsequent request that results after an HTTP redirect (3XX response). Use thehttp_redirects
table, which includes a mapping betweenold_channel_id
, thechannel_id
of the HTTP request that resulted in a 3XX response, andnew_channel_id
, the HTTP request that resulted from that redirect.
- OCSP POST request bodies are not recorded
- Note: request and response headers for cached content are also saved, with the exception of images. See: Bug 634073.
- Set
- Javascript Calls
- Records all method calls (with arguments) and property accesses for APIs
of potential fingerprinting interest:
- HTML5 Canvas
- HTML5 WebRTC
- HTML5 Audio
- Plugin access (via
navigator.plugins
) - MIMEType access (via
navigator.mimeTypes
) window.Storage
,window.localStorage
,window.sessionStorage
, andwindow.name
access.- Navigator properties (e.g.
appCodeName
,oscpu
,userAgent
, ...) - Window properties (via
window.screen
)
- Set
browser_params['js_instrument'] = True
- Data is saved to the
javascript
table.
- Records all method calls (with arguments) and property accesses for APIs
of potential fingerprinting interest:
- Response body content
- Saves all files encountered during the crawl to a
LevelDB
database de-duplicated by the md5 hash of the content. - Set
browser_params['save_all_content'] = True
- The
content_hash
column of thehttp_responses
table contains the md5 hash for each script, and can be used to do content lookups in the LevelDB content database. - NOTE: this instrumentation may lead to performance issues when a large number of browsers are in use.
- Set
browser_params['save_javascript'] = True
to save only Javascript files. This will lessen the performance impact of this instrumentation when a large number of browsers are used in parallel.
- Saves all files encountered during the crawl to a
- Flash Cookies
- Recorded by scanning the respective Flash directories after each page visit.
- To enable: call the
CommandSequence::dump_flash_cookies
command after a page visit. Note that calling this command will close the current tab before recording the cookie changes. - Data is saved to the
flash_cookies
table. - NOTE: Flash cookies are shared across browsers, so this instrumentation will not correctly attribute flash cookie changes if more than 1 browser is running on the machine.
- Cookie Access (Experimental -- Needs tests)
- Set
browser_params['cookie_instrument'] = True
- Data is saved to the
javascript_cookies
table. - Will record cookies set both by Javascript and via HTTP Responses
- Set
- Cookie Access (Alternate)
- Recorded by scanning the
cookies.sqlite
database in the Firefox profile directory. - Should contain both cookies added by Javascript and by HTTP Responses
- To enable: call the
CommandSequence::dump_profile_cookies
command after a page visit. Note that calling this command will close the current tab before recording the cookie changes. - Data is saved to the
profile_cookies
table
- Recorded by scanning the
- Log Files
- Stored in the directory specified by
manager_params['data_directory']
. - Name specified by
manager_params['log_file']
.
- Stored in the directory specified by
- Browser Profile
- Contains cookies, Flash objects, and so on that are dumped after a crawl is finished
- Automatically saved when the platform closes or crashes by specifying
browser_params['profile_archive_dir']
. - Save on-demand with the
CommandSequence::dump_profile
command.
- Rendered Page Source
- Save the top-level frame's rendered source with the
CommandSequence::dump_page_source
command. - Save the full rendered source (including all nested iframes) with the
CommandSequence::recursive_dump_page_source
command.- The page source is saved in the following nested json structure:
{ 'doc_url': "http://example.com", 'source': "<html> ... </html>", 'iframes': { 'frame_1': {'doc_url': ..., 'source': ..., 'iframes: { ... }}, 'frame_2': {'doc_url': ..., 'source': ..., 'iframes: { ... }}, 'frame_3': { ... } } }
- Save the top-level frame's rendered source with the
- Screenshots
- Selenium 3 can be used to screenshot an individual element. None of the built-in commands offer this functionality, but you can use it when writing your own. See the Selenium documentation.
- Viewport screenshots (i.e. a screenshot of the portion of the website
visible in the browser's window) are available with the
CommandSequence::save_screenshot
command. - Full-page screenshots (i.e. a screenshot of the entire rendered DOM) are
available with the
CommandSequence::screenshot_full_page
command.- This functionality is not yet supported by Selenium/geckodriver,
though it is planned.
We produce screenshots by using JS to scroll the page and take a
viewport screenshot at each location. This method will save the parts
and a stitched version in the
screenshot_path
. - Since the screenshots are stitched they have some limitations:
- On the area of the page present when the command is called will be captured. Sites which dynamically expand when scrolled (i.e., infinite scroll) will only go as far as the original height.
- We only scroll vertically, so pages that are wider than the viewport will be clipped.
- In geckodriver v0.15 doing any scrolling (or having devtools open) seems to break element-only screenshots. So using this command will cause any future element-only screenshots to be misaligned.
- This functionality is not yet supported by Selenium/geckodriver,
though it is planned.
We produce screenshots by using JS to scroll the page and take a
viewport screenshot at each location. This method will save the parts
and a stitched version in the
By default OpenWPM saves all data locally on disk in a variety of formats.
Most of the instrumentation saves to a SQLite database specified
by manager_params['database_name']
in the main output directory. Response
bodies are saved in a LevelDB database named content.ldb
, and are keyed by
the hash of the content. In addition, the browser commands that dump page
source and save screenshots save them in the sources
and screenshots
subdirectories of the main output directory. The SQLite schema
specified by: automation/schema.sql
. You can specify additional tables
inline by sending a create_table
message to the data aggregator.
As an option, OpenWPM can save data directly to an Amazon S3 bucket as a
Parquet Dataset. This is currently experimental and hasn't been thoroughly
tested. Response body content (both save_javascript
and save_all_content
),
screenshots, and page source saving is not currently supported and will still
be stored in local databases and directories. To enable S3 saving specify the
following configuration parameters in manager_params
:
- Output format:
manager_params['output_format'] = 's3'
- S3 bucket name:
manager_params['s3_bucket'] = 'openwpm-test-crawl'
- Directory within S3 bucket:
manager_params['s3_directory'] = '2018-09-09_test-crawl-new'
In order to save to S3 you must have valid access credentials stored in
~/.aws
. We do not currently allow you to specify an alternate storage
location.
NOTE: The schemas should be kept in sync with the exception of
output-specific columns (e.g., instance_id
in the S3 output). You can compare
the two schemas by running
diff -y automation/schema.sql automation/DataAggregator/parquet_schema.py
.
The browser and platform can be configured by two separate dictionaries. The
platform configuration options can be set in manager_params
, while the
browser configuration options can be set in browser_params
. The default
settings are given in automation/default_manager_params.json
and
automation/default_browser_params.json
.
To load the default configuration parameter dictionaries we provide a helper
function TaskManager::load_default_params
. For example:
from automation import TaskManager
manager_params, browser_params = TaskManager.load_default_params(num_browsers=5)
where manager_params
is a dictionary and browser_params
is a length 5 list
of configuration dictionaries.
data_directory
- The directory in which to output the crawl database and related files. The directory given will be created if it does not exist.
log_directory
- The directory in which to output platform logs. The directory given will be created if it does not exist.
log_file
- The name of the log file to be written to
log_directory
.
- The name of the log file to be written to
database_name
- The name of the database file to be written to
data_directory
- The name of the database file to be written to
failure_limit
- The number of successive command failures the platform will tolerate before
raising a
CommandExecutionError
exception. Otherwise the default is set to 2 x the number of browsers plus 10.
- The number of successive command failures the platform will tolerate before
raising a
testing
- A platform wide flag that can be used to only run certain functionality while testing. For example, the Javascript instrumentation exposes its instrumentation function on the page script global to allow test scripts to instrument objects on-the-fly. Depending on where you would like to add test functionality, you may need to propagate the flag.
- This is not something you should enable during normal crawls.
Note: Instrumentation configuration options are described in the Instrumentation and Data Access section and profile configuration options are described in the Browser Profile Support section. As such, these options are left out of this section.
bot_mitigation
- Performs some actions to prevent the platform from being detected as a bot.
- Note, these aren't comprehensive and automated interaction with the site will still appear very bot-like.
disable_flash
- Flash is disabled by default. Set this to
False
to re-enable. Note that flash cookies are shared between browsers.
- Flash is disabled by default. Set this to
headless
- Launch the browser in a virtual frame buffer, no GUI will be visible.
- Use this when running browsers on a remote machine or to run crawls in the background on a local machine.
browser
- Used to specify which browser to launch. Currently only
firefox
is supported. - Other browsers may be added in the future.
- Used to specify which browser to launch. Currently only
tp_cookies
- Specifies the third-party cookie policy to set in Firefox.
- The following options are supported:
always
: Accept all third-party cookiesnever
: Never accept any third-party cookiesfrom_visited
: Only accept third-party cookies from sites that have been visited as a first party.
donottrack
- Set to
True
to enable Do Not Track in the browser.
- Set to
disconnect
- Set to
True
to enable Disconnect with all blocking enabled - The filter list may be automatically updated. We recommend checking the version of the xpi located here, which may be outdated.
- Set to
ghostery
- Set to
True
to enable Ghostery with all blocking enabled - The filter list won't be automatically updated. We recommend checking the version of the xpi located here, which may be outdated.
- Set to
https-everywhere
- Set to
True
to enable HTTPS Everywhere in the browser. - The filter list won't be automatically updated. We recommend checking the version of the xpi located here, which may be outdated.
- Set to
ublock-origin
- Set to
True
to enable uBlock Origin in the browser. - The filter lists may be automatically updated. We recommend checking the version of the xpi located here, which may be outdated.
- Set to
tracking-protection
- NOT SUPPORTED. See #101.
- Set to
True
to enable Firefox's built-in Tracking Protection.
By default OpenWPM performs a "stateful" crawl, in that it keeps a consistent browser profile between page visits in the same browser. If the browser freezes or crashes during the crawl, the profile is saved to disk and restored before the next page visit.
It's also possible to run "stateless" crawls, in which each new page visit uses
a fresh browser profile. To perform a stateless crawl you can restart the
browser after each command sequence by setting the reset
initialization
argument to True
when creating the command sequence. As an example:
manager = TaskManager.TaskManager(manager_params, browser_params)
for site in sites:
command_sequence = CommandSequence.CommandSequence(site, reset=True)
command_sequence.get(sleep=30, timeout=60)
command_sequence.dump_profile_cookies(120)
manager.execute_command_sequence(command_sequence)
In this example, the browser will get
the requested site
, sleep for 30
seconds, dump the profile cookies to the crawl database, and then restart the
browser before visiting the next site
in sites
.
It's possible to load and save profiles during stateful crawls. Profile dumps currently consist of the following browser storage items:
- cookies
- localStorage
- IndexedDB
- browser history
Other browser state, such as the browser cache, is not saved. In Issue #62 we plan to expand profiles to include all browser storage.
A browser's profile can be saved to disk for use in later crawls. This can be done using a browser command or by setting a browser configuration parameter. For long running crawls we recommend saving the profile using the browser configuration parameter as the platform will take steps to save the profile in the event of a platform-level crash, whereas there is no guarantee the browser command will run before a crash.
Browser configuration parameter: Set the profile_archive_dir
browser
parameter to a directory where the browser profile should be saved. The profile
will be automatically saved when TaskManager::close
is called or when a
platform-level crash occurs.
Browser command: See the command definition wiki page for more information.
To load a profile, specify the profile_tar
browser parameter in the browser
configuration dictionary. This should point to the location of the
profile.tar
or (profile.tar.gz
if compressed) file produced by OpenWPM.
The profile will be automatically extracted and loaded into the browser
instance for which the configuration parameter was set.
Much of OpenWPM's instrumentation is included in a Firefox add-on SDK extension.
Thus, in order to add or change instrumentation you will need a few additional
dependencies, which can be installed with install-dev.sh
.
The instrumentation extension is included in /automation/Extension/firefox/
.
Any edits within this directory will require the extension to be re-built to produce a new openwpm.xpi
with your updates. You can use build_extension.sh
to do this.
The actual instrumentation code is maintained in https://github.com/mozilla/openwpm-webext-instrumentation. To test changes to the instrumentation code, change the dependency in package.json to point to your local clone (e.g. "openwpm-webext-instrumentation": "file:/path/to/openwpm-webext-instrumentation"
). Make sure to run npm run build
in the openwpm-webext-instrumentation
repo to pick up changes.
Manual debugging with OpenWPM can be difficult. By design the platform runs all browsers in separate processes and swallows all exceptions (with the intent of continuing the crawl). We recommend using manual_test.py.
This utility allows manual debugging of the extension instrumentation with or without Selenium enabled, as well as makes it easy to launch a Selenium instance (without any instrumentation)
python -m test.manual_test
usesjpm
to build the current extension directory and launch a Firefox instance with it.python -m test.manual_test --selenium
launches a Firefox Selenium instance after usingjpm
to automatically rebuildopenwpm.xpi
. The script then drops into anipython
shell where the webdriver instance is available through variabledriver
.python -m test.manual_test --selenium --no_extension
launches a Firefox Selenium instance with no instrumentation. The script then drops into anipython
shell where the webdriver instance is available through variabledriver
.
OpenWPM's tests are build on py.test
. To run the tests you will need a few
additional dependencies, which can be installed by running install-dev.sh
.
Once installed, execute py.test -vv
in the test directory to run all tests.
We've added an installation file to make it easier to run tests and develop on
Mac OSX. To install the dependencies on Mac OSX, run install-mac-dev.sh
instead of install.sh
and install-dev.sh
in the official getting started
instructions.
This will install Python packages in a local Python 3 virtualenv, download the latest Unbranded Firefox Release into the current folder, move geckodriver next to the Firefox binary and install development dependencies. For the OpenWPM to be aware of which Firefox installation to run, set the FIREFOX_BINARY environment variable before running any commands.
Example, running a demo crawl on Mac OSX:
source venv/bin/activate
export FIREFOX_BINARY="$(PWD)/Nightly.app/Contents/MacOS/firefox-bin"
python demo.py
Running the OpenWPM tests on Mac OSX:
source venv/bin/activate
export FIREFOX_BINARY="$(PWD)/Nightly.app/Contents/MacOS/firefox-bin"
python -m pytest -vv
For more detailed setup instructions for Mac, see Running OpenWPM natively on macOS.
There are known limitations on Mac:
- Flash cookies are not parsed correctly since we hardcode the Flash storage path to that used on Linux.
- Headless mode does not work since we currently use XVFB and the Firefox
GUI on Mac doesn't make use of X. If XQuartz is
installed, the X virtual frame buffer is created but
is not used by the Firefox GUI. Thus Firefox windows will always be visible
regardless of the
headless
configuration parameter set. If XQuartz is not installed, attempts to use theheadless
configuration will lead to crashes.
We do not run CI tests for Mac, so new issues may arise. We welcome PRs to fix these issues and add full support and CI testing for Mac.
WebDriverException: Message: The browser appears to have exited before we could connect...
This error indicates that Firefox exited during startup (or was prevented from starting). There are many possible causes of this error:
- If you are seeing this error for all browser spawn attempts check that:
-
Both selenium and Firefox are the appropriate versions. Run the following commands and check that the versions output match the required versions in
install.sh
andrequirements.txt
. If not, re-run the install script.cd firefox-bin/ firefox --version
and
pip show selenium
-
If you are running in a headless environment (e.g. a remote server), ensure that all browsers have the
headless
browser parameter set toTrue
before launching.
-
- If you are seeing this error randomly during crawls it can be caused by an overtaxed system, either memory or CPU usage. Try lowering the number of concurrent browsers.
OpenWPM can be run in a Docker container. This is similar to running OpenWPM in a virtual machine, only with less overhead.
Step 1: install Docker on your system. Most Linux distributions have Docker
in their repositories. It can also be installed from
docker.com. For Ubuntu you can use:
sudo apt-get install docker.io
You can test the installation with: sudo docker run hello-world
Note, in order to run Docker without root privileges, add your user to the
docker
group (sudo usermod -a -G docker $USER
). You will have to
logout-login for the change to take effect, and possibly also restart the
Docker service.
Step 2: to build the image, run the following command from a terminal within the root OpenWPM directory:
docker build -f Dockerfile -t openwpm .
After building the above, you may optionally build a docker image for OpenWPM development:
docker build -f Dockerfile-dev -t openwpm-dev .
After a few minutes, the container is ready to use.
You can run the demo measurement from inside the container, as follows:
mkdir -p docker-volume && docker run -v $PWD/docker-volume:/home/user/Desktop \
-e DISPLAY=$DISPLAY -v /tmp/.X11-unix:/tmp/.X11-unix \
-it openwpm python /opt/OpenWPM/demo.py
This command uses bind-mounts to share scripts and output between the container and host, as explained below (note the paths in the command assume it's being run from the root OpenWPM directory):
-
run
starts theopenwpm
container and executes thepython /opt/OpenWPM/demo.py
command. -
-v
binds a directory on the host ($PWD/docker-volume
) to a directory in the container (/home/user
). Binding allows the script's output to be saved on the host (./docker-volume/Desktop
), and also allows you to pass inputs to the docker container (if necessary). We first create thedocker-volume
direction (if it doesn't exist), as docker will otherwise create it with root permissions. -
The
-it
option states the command is to be run interactively (use-d
for detached mode). -
The demo scripts runs instances of Firefox that are not headless. As such, this command requires a connection to the host display server. If you are running headless crawls you can remove the following options:
-e DISPLAY=$DISPLAY -v /tmp/.X11-unix:/tmp/.X11-unix
.
Instruction on how to run Docker GUI applications in Mac OSX are available
here.
Given properly installed prerequisites (including a reboot), the helper script
run-on-osx-via-docker.sh
in the project root folder can be used to facilitate
working with Docker in Mac OSX.
To open a bash session within the environment:
./run-on-osx-via-docker.sh #
Or, run commands directly:
./run-on-osx-via-docker.sh python demo.py
./run-on-osx-via-docker.sh python -m test.manual_test
./run-on-osx-via-docker.sh python -m pytest
./run-on-osx-via-docker.sh python -m pytest -vv -s
Note that OpenWPM is under active development, and should be considered experimental software. The repository may contain experimental features that aren't fully tested. We recommend using a tagged release.
Although OpenWPM is actively used by our group for research studies and we regularly use of the data collected, it is still possible there are unknown bugs in the infrastructure. We are in the process of writing comprehensive tests to verify the integrity of all included instrumentation. Prior to using OpenWPM for your own research we encourage you to write tests (and submit pull requests!) for any instrumentation that isn't currently included in our test scripts.
If you use OpenWPM in your research, please cite our CCS 2016 publication on the infrastructure. You can use the following BibTeX.
@inproceedings{englehardt2016census,
author = "Steven Englehardt and Arvind Narayanan",
title = "{Online tracking: A 1-million-site measurement and analysis}",
booktitle = {Proceedings of ACM CCS 2016},
year = "2016",
}
OpenWPM has been used in over 30 studies.
OpenWPM is licensed under GNU GPLv3. Additional code has been included from FourthParty and Privacy Badger, both of which are licensed GPLv3+.