n3map is a tool that can enumerate DNS zone entries based on DNSSEC
NSEC or NSEC3 record chains. It can be used to discover hosts
in a DNS zone quickly and with a minimum amount of queries if said zone is
DNSSEC-enabled.
n3map was written primarily to show that NSEC3 does not offer meaningful
protection against zone enumeration.
Although originally only intended as a PoC and written in Python, it is
actually quite fast and able to enumerate even large zones (with a million or
more entries) in a short time given adequate hardware.
It also includes a simple John the Ripper plugin that can be used to crack the obtained NSEC3 hashes.
Some typical usage examples are shown below. For a more detailed documentation,
refer to the man pages or the output of n3map --help.
The most basic example is to enumerate a particular zone (e.g. example.com) and store the retrieved NSEC/NSEC3 records in a file example.com.zone:
$ n3map -v -o example.com.zone example.com
n3map 0.4.0: starting mapping of example.com
looking up nameservers for zone example.com.
using nameserver: 199.43.133.53:53 (b.iana-servers.net.)
using nameserver: 199.43.132.53:53 (a.iana-servers.net.)
checking SOA...
detecting zone type...
zone uses NSEC records
starting enumeration in mixed query mode...
discovered owner: example.com. A NS SOA TXT AAAA RRSIG NSEC DNSKEY
discovered owner: www.example.com. A TXT AAAA RRSIG NSEC
;; walking example.com.: records = 2; queries = 4; ............. q/s = 11 ;;
finished mapping of example.com. in 0:00:00.196471
The -v switch is only used for more verbosity and not generally needed. With
no further arguments, nsec3map detects automatically whether the zone uses
NSEC or NSEC3 and uses the corresponding enumeration method. It also looks up
the zone's nameservers by itself.
Some nameservers do not accept NSEC queries. In such a case, --query-mode A
(short -A) can be used instead. For example, to enumerate the root zone, one
could run the command:
n3map -v -A --output root.zone .
Note that the above command will likely print a lot of warnings about sub-zones
(children of the zone that we want to enumerate). n3map tries its best to
avoid descending into sub-zones and instead tries to jump over them
automatically.
If you wish to avoid most of these warnings, you can tell n3map to never add
prefix labels to the queries it sends using the --no-prefix-labels option.
For example:
n3map -vA --no-prefix-labels -o root.zone .
This option is particularly useful to enumerate top-level domain (TLD) zones. Note however that using it can sometimes lead to a less complete enumeration for zones with nested subdomains.
Alternatively, you can try to find nameservers that respond to
direct NSEC queries (find them e.g. by trying --query-mode=NSEC) and tell
n3map to only use those:
n3map -vo example.com.zone goodns{1,2}.example.com example.com
The following example shows the enumeration of a NSEC3 chain at example.com
using a nameserver at 192.168.1.37. It also shows the NSEC3 zone size
prediction and progress indicator (enabled using the -p switch).
$ n3map -3po example.com.zone 192.168.1.37 example.com
;; mapping example.com.: 79% [=========================================================================== ] ;;
;; records = 797; queries = 802; hashes = 3840; predicted zone size = 1003; ............... q/s = 513; coverage = 95.677595% ;;
received SIGINT, terminating
Note that the enumeration will proceed slower towards the end as it becomes harder to find domain names that are not covered by any retrieved NSEC3 records. Therefore, finishing the enumeration of a large zone can take quite some time and computing resources. It is advisable to manually cancel the enumeration once the query rate drops under a certain limit.
You should also make use of the --limit-rate option to reduce stress on the
nameservers. If you think the enumeration is too slow because of a high
round-trip time to the nameservers, you can also use a more aggressive mode
which sends multiple queries simultaneously (--aggressive option). The
following example shows how to use these options:
n3map -3pvo example.com.zone --aggressive 16 --limit-rate 100/s example.com
This will cause nsec3map to send a maximum of 16 queries in parallel while at the same time keeping the query rate at or below roughly 100 queries per second.
It is also possible to continue the enumeration from a partially obtained NSEC3 (or NSEC) chain, as long as the zone's NSEC3 parameters (salt, iteration count) have not been changed:
n3map -3pv --input example.com.partial --output example.com.zone --ignore-overlapping example.com
This will first read the NSEC3 records from example.com.partial and then
continue the enumeration, saving the NSEC3 chain to example.com.zone.
The --ignore-overlapping option should be used for large zones, or if it is
otherwise likely that changes are made to the zone during the enumeration. If
specified, nsec3map will not abort the enumeration when it receives an NSEC3
record which overlaps with another record that was received earlier. Note
however that you will not get a completely consistent view of the NSEC3 chain
if you use this option.
Once you obtained some NSEC3 records from a particular zone, you can (try to) crack them using John the Ripper and the supplied NSEC3 patch (see John the Ripper Plugin below on how to install it).
First, the NSEC3 records need to be converted to a different format used by the JtR patch:
n3map-johnify example.com.zone example.com.john
The records can then be cracked simply by running john on the resulting file:
john example.com.john
Refer to the JtR documentation for more information on how to make use of john's different cracking modes, wordlist rules and so on. It is probably a good idea to adapt the wordlist and mangling rules to the kind of zone you are trying to map.
You can also try to crack NSEC3 records using hashcat, using hashes converted to a slightly different format:
n3map-hashcatify example.com.zone example.com.hashcat
The records can then be cracked simply by running hashcat on the resulting file:
hashcat -m 8300 example.com.hashcat
The PyPI package still needs to compile the C extension module for faster hashing, which means you need a C compiler as well as the necessary header files for Python and libcrypto (OpenSSL) installed.
For Debian-based systems:
sudo apt-get install python3 python3-pip python3-dev gcc libssl3 libssl-dev
To then install nsec3map from PyPI, simply run:
python3 -m pip install n3map[predict]
If you do not care about NSEC3 zone size prediction and don't want numpy and scipy installed, you can use:
python3 -m pip install n3map
It may be advisable to install n3map into a Python venv, especially if you are faced with any dependency problems:
mkdir venv
python3 -m venv venv
source venv/bin/activate
python3 -m pip install n3map[predict]
More conveniently, you can also use pipx:
pipx install n3map[predict]
Note that you still need libssl, libssl-dev, gcc and python3-dev.
Dependencies:
- Python >= 3.9
- dnspython >= 2.0
- OpenSSL (libcrypto) >= 3.0.0
- Optionally numpy and scipy for zone size prediction (recommended)
Additionally, pip, setuptools and GCC (for the extension module) are required during setup.
On a Debian system, just run
sudo apt-get install python3 python3-dev gcc python3-pip \
python3-setuptools python3-dnspython libssl3 libssl-dev \
python3-numpy python3-scipy
Installation:
After cloning the repositry / unpacking the tarball, cd into the project directory and run:
python3 -m pip install .[predict]
This will compile the extension modules(s) and install the scripts, python modules as well as the man pages. It will make a user install if you are not root.
If you do not care about NSEC3 zone size prediction and don't want numpy and scipy installed, you can use:
python3 -m pip install .
Alternatively, you can install it w/o pip:
sudo python3 setup.py install
Alternatively, you can also run nsec3map directly from the source directory without installing it:
./map.py [options]
If you want to use OpenSSL accelerated hashing however, you still need to build the extension module:
python3 setup.py build_ext
This should compile a shared object nsec3hash.so in the build/ directory. You can then copy this file to the n3map/ directory.
Update: The latest version of John the Ripper jumbo includes the NSEC3 cracking patch from this project. There is no need to install it separately, just follow the build instructions for JtR-Jumbo. Using the latest source version is recommended.
Alternatively, you can also use hashcat.
Building the docker container.
docker build -t nsec3map .
Running n3map or e.g. n3map-hashcatify:
docker run -it --rm -v "${PWD}:/host" nsec3map -v -o example.com.zone example.com
docker run -it --entrypoint n3map-hashcatify --rm -v "${PWD}:/host" nsec3map example.com.zone example.com.hashcat
- Many DNS errors are not handled correctly
- No automatic parallelization of NSEC walking (though it is possible to do this manually by partitioning the namespace)
- High memory usage (mostly as a result of using CPython)
- ...
(remember that nsec3map is still mostly a PoC tool...)