Geoffrey Frogeye
095e51fad9
For some reason some server output part of their response as upper case. This fails the reading process as it's designed to only work on lower case for performance reasons. |
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dist | ||
last_updates | ||
nameservers | ||
rules | ||
rules_adblock | ||
rules_asn | ||
rules_hosts | ||
rules_ip | ||
subdomains | ||
temp | ||
tests | ||
websites | ||
.env.default | ||
.gitignore | ||
adblock_to_domain_list.py | ||
collect_subdomains.py | ||
collect_subdomains.sh | ||
database.py | ||
db.py | ||
eulaurarien.sh | ||
export.py | ||
export_lists.sh | ||
feed_asn.py | ||
feed_dns.py | ||
feed_rules.py | ||
fetch_resources.sh | ||
import_rapid7.sh | ||
import_rules.sh | ||
LICENSE | ||
prune.sh | ||
README.md | ||
resolve_subdomains.sh | ||
run_tests.py | ||
validate_list.py |
eulaurarien
This program is able to generate a list of every hostnames being a DNS redirection to a list of DNS zones and IP networks.
It is primarilyy used to generate Geoffrey Frogeye's block list of first-party trackers (learn about first-party trackers by following this link).
If you want to contribute but don't want to create an account on this forge, contact me the way you like: https://geoffrey.frogeye.fr
How does this work
This program takes as input:
- Lists of hostnames to match
- Lists of DNS zone to match (a domain and their subdomains)
- Lists of IP address / IP networks to match
- Lists of Autonomous System numbers to match
- An enormous quantity of DNS records
It will be able to output hostnames being a DNS redirection to any item in the lists provided.
DNS records can either come from Rapid7 Open Data Sets or can be locally resolved from a list of subdomains using MassDNS.
Those subdomains can either be provided as is, come from Cisco Umbrella Popularity List, from your browsing history, or from analyzing the traffic a web browser makes when opening an URL (the program provides utility to do all that).
Usage
Remember you can get an already generated and up-to-date list of first-party trackers from here.
The following is for the people wanting to build their own list.
Requirements
Depending on the sources you'll be using to generate the list, you'll need to install some of the following:
- Bash
- Coreutils
- curl
- pv
- Python 3.4+
- coloredlogs (sorry I can't help myself)
- numpy
- python-abp (only if you intend to use AdBlock rules as a rule source)
- jq (only if you have a Rapid7 API key)
- massdns in your
$PATH
(only if you have subdomains as a source) - Firefox (only if you have websites as a source)
- selenium (Python bindings) (only if you have websites as a source)
- selenium-wire (only if you have websites as a source)
Create a new database
The so-called database (in the form of blocking.p
) is a file storing all the matching entities (ASN, IPs, hostnames, zones…) and every entity leading to it.
It exists because the list cannot be generated in one pass, as DNS redirections chain links do not have to be inputed in order.
You can purge of old records the database by running ./prune.sh
.
When you remove a source of data, remove its corresponding file in last_updates
to fix the pruning process.
Gather external sources
External sources are not stored in this repository.
You'll need to fetch them by running ./fetch_resources.sh
.
Those include:
- Third-party trackers lists
- TLD lists (used to test the validity of hostnames)
- List of public DNS resolvers (for DNS resolving from subdomains)
- Top 1M subdomains
Import rules into the database
You need to put the lists of rules for matching in the different subfolders:
rules
: Lists of DNS zonesrules_ip
: Lists of IP networks (for IP addresses append/32
)rules_asn
: Lists of Autonomous Systems numbers (IP ranges will be deducted from them)rules_adblock
: Lists of DNS zones, but in the form of AdBlock lists (only the ones concerning domains will be extracted)rules_hosts
: Lists of DNS zones, but in the form of hosts lists
See the provided examples for syntax.
In each folder:
first-party.ext
will be the only files considered for the first-party variant of the list*.cache.ext
are from external sources, and thus might be deleted / overwrote*.custom.ext
are for sources that you don't want commited
Then, run ./import_rules.sh
.
If you removed rules and you want to remove every record depending on those rules immediately, run the following command:
./db.py --prune --prune-before "$(cat "last_updates/rules.txt")" --prune-base
Add subdomains
If you plan to resolve DNS records yourself (as the DNS records datasets are not exhaustive), the top 1M subdomains provided might not be enough.
You can add them into the subdomains
folder.
It follows the same specificities as the rules folder for *.cache.ext
and *.custom.ext
files.
Add personal sources
Adding your own browsing history will help create a more suited subdomains list. Here's reference command for possible sources:
- Pi-hole:
sqlite3 /etc/pihole-FTL.db "select distinct domain from queries" > /path/to/eulaurarien/subdomains/my-pihole.custom.list
- Firefox:
cp ~/.mozilla/firefox/<your_profile>.default/places.sqlite temp; sqlite3 temp "select distinct rev_host from moz_places" | rev | sed 's|^\.||' > /path/to/eulaurarien/subdomains/my-firefox.custom.list; rm temp
Collect subdomains from websites
You can add the websites URLs into the websites
folder.
It follows the same specificities as the rules folder for *.cache.ext
and *.custom.ext
files.
Then, run collect_subdomain.sh
.
This is a long step, and might be memory-intensive from time to time.
Note: For first-party tracking, a list of subdomains issued from the websites in the repository is avaliable here: https://hostfiles.frogeye.fr/from_websites.cache.list
Resolve DNS records
Once you've added subdomains, you'll need to resolve them to get their DNS records.
The program will use a list of public nameservers to do that, but you can add your own in the nameservers
directory.
Then, run ./resolve_subdomains.sh
.
Note that this is a network intensive process, not in term of bandwith, but in terms of packet number.
Note: Some VPS providers might detect this as a DDoS attack and cut the network access. Some Wi-Fi connections can be rendered unusable for other uses, some routers might cease to work. Since massdns does not support yet rate limiting, my best bet was a Raspberry Pi with a slow ethernet link (Raspberry Pi < 4).
The DNS records will automatically be imported into the database.
If you want to re-import the records without re-doing the resolving, just run the last line of the ./resolve_subdomains.sh
script.
Import DNS records from Rapid7
If you have a Rapid7 Organization API key, make sure to append to .env
:
RAPID7_API_KEY=xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
Then, run ./import_rapid7.sh
.
This will download about 35 GiB of data the first time, but only the matching records will be stored (about a few MiB for the tracking rules).
Note the download speed will most likely be limited by the database operation thoughput (a quick RAM will help).
The script remembers which were the last sets downloaded, and will only import newer sets.
If you want to force re-importing, run rm last_updates/rapid7_*.txt
.
Export the lists
For the tracking list, use ./export_lists.sh
, the output will be in the dist
forlder (please change the links before distributing them).
For other purposes, tinker with the ./export.py
program.
Everything
Once you've made sure every step runs fine, you can use ./eulaurarien.sh
to run every step consecutively.