TLSH is a fuzzy matching library. Given a byte stream with a minimum length of 50 bytes TLSH generates a hash value which can be used for similarity comparisons. Similar objects will have similar hash values which allows for the detection of similar objects by comparing their hash values. Note that the byte stream should have a sufficient amount of complexity. For example, a byte stream of identical bytes will not generate a hash value.
16/09/2024
Release version 4.10.x - a Python clustering tool.
- See the directory tlshCluster.
I am going to try to make 4.12.0 a release version and build a py-tlsh Python library from 4.12.0 4.12.0 includes: Merge pull request #137 - this fixed a memory leak in py-tlsh Merge pull request #134 - this improved the ifdef WINDOWS to be more portable
2020
- adopted by Virus Total
- adopted by Malware Bazaar
We have added a version identifier ("T1") to the start of the digest. Please use versions of TLSH that have the T1 header The code is backwards compatible, it can still read and interpret 70 hex character strings as TLSH digests. And data sets can include mixes of the old and new digests. If you need old style TLSH digests to be outputted, then use the command line option '-old'
Thanks to Chun Cheng, who was a humble and talented engineer.
The program in default mode requires an input byte stream with a minimum length of 50 bytes (and a minimum amount of randomness - see note in Python extension below).
For consistency with older versions, there is a -conservative option which enforces a 256 byte limit. See notes for version 3.17.0 of TLSH
The computed hash is 35 bytes of data (output as 'T1' followed 70 hexidecimal characters. Total length 72 characters). The 'T1' has been added as a version number for the hash - so that we can adapt the algorithm and still maintain backwards compatibility. To get the old style 70 hex hashes, use the -old command line option.
Bytes 3,4,5 are used to capture the information about the file as a whole (length, ...), while the last 32 bytes are used to capture information about incremental parts of the file. (Note that the length of the hash can be increased by changing build parameters described below in CMakeLists.txt, which will increase the information stored in the hash. For some applications this might increase the accuracy in predicting similarities between files.)
Building TLSH (see below) will create a static library in the lib
directory,
and the tlsh
executable (a symbolic link to tlsh_unittest
).
'tlsh' links to the static library, in the bin
directory.
The library has functionality to generate the hash value from a given
file, and to compute the similarity between two hash values.
tlsh
is a utility for generating TLSH hash values and comparing TLSH
hash values to determine similarity. Run it with no parameters for detailed usage.
- A JavaScript port available in the
js_ext
directory. - A Java port is available in the
java
directory.
We list these ports just for reference. We have not checked the code in these repositories, and we have not checked that the results are identical to TLSH here. We also request that any ports include the files LICENSE and NOTICE.txt exactly as they appear in this repository.
- Another Java port is available here.
- Another Java port is available here.
- A Golang port is available here.
- A Ruby port is available here
Download TLSH as follows:
wget https://github.com/trendmicro/tlsh/archive/master.zip -O master.zip
unzip master.zip
cd tlsh-master
or
git clone git://github.com/trendmicro/tlsh.git
cd tlsh
git checkout master
Edit CMakeLists.txt to build TLSH with different options.
- TLSH_BUCKETS: determines using 128 or 256 buckets use the default 128 buckets unless you are an expert and know you need 256 buckets
- TLSH_CHECKSUM_1B: determines checksum length, longer means less collision use the default 1 byte unless you are an expert and know you need a larger checksum
Execute:
make.sh
Note: Building TLSH on Linux depends upon cmake
to create the Makefile
and then
make
the project, so the build will fail if cmake
is not installed.
To install cmake/gcc compiler on CentOs or Amazon Linux:
$ sudo yum install cmake
$ sudo yum install gcc-c++
Added in March 2020. See the instructions in README.mingw
Use the version-specific tlsh solution files (tlsh.VC2005.sln, tlsh.VC2008.sln, ...) under the Windows directory.
See tlsh.h for the tlsh library interface and tlsh_unittest.cpp and
simple_unittest.cpp under the test
directory for example code.
We have recently created a Python package on PyPi: https://pypi.org/project/py-tlsh/
The py-tlsh replaces the python-tlsh package. For details see issue 94
To install this package
$ pip install py-tlsh
If you need to build your own Python package, then there is a README.python with notes about the python version
(1) compile the C++ code
$./make.sh
(2) build the python version
$ cd py_ext/
$ python ./setup.py build
(3) install - possibly - sudo, run as root or administrator
$ python ./setup.py install
(4) test it
$ cd ../Testing
$ ./python_test.sh
import tlsh
tlsh.hash(data)
Note data needs to be bytes - not a string. This is because TLSH is for binary data and binary data can contain a NULL (zero) byte.
In default mode the data must contain at least 50 bytes to generate a hash value and that it must have a certain amount of randomness. To get the hash value of a file, try
tlsh.hash(open(file, 'rb').read())
Note: the open statement has opened the file in binary mode.
import tlsh
h1 = tlsh.hash(data)
h2 = tlsh.hash(similar_data)
score = tlsh.diff(h1, h2)
h3 = tlsh.Tlsh()
with open('file', 'rb') as f:
for buf in iter(lambda: f.read(512), b''):
h3.update(buf)
h3.final()
# this assertion is stating that the distance between a TLSH and itself must be zero
assert h3.diff(h3) == 0
score = h3.diff(h1)
The diffxlen
function removes the file length component of the tlsh header from the comparison.
tlsh.diffxlen(h1, h2)
If a file with a repeating pattern is compared to a file with only a single instance of the pattern,
then the difference will be increased if the file lenght is included.
But by using the diffxlen
function, the file length will be removed from consideration.
If you use the "conservative" option, then the data must contain at least 256 characters. For example,
import os
tlsh.conservativehash(os.urandom(256))
should generate a hash, but
tlsh.conservativehash(os.urandom(100))
will generate TNULL as it is less than 256 bytes.
If you need to generate old style hashes (without the "T1" prefix) then use
tlsh.oldhash(os.urandom(100))
The old and conservative options may be combined:
tlsh.oldconservativehash(os.urandom(500))
- To improve comparison accuracy, TLSH tracks counting bucket height distribution in quartiles. Bigger quartile difference results in higher difference score.
- Use specially 6 trigrams to give equal representation of the bytes in the 5 byte sliding window which produces improved results.
- Pearson hash is used to distribute the trigram counts to the counting buckets.
- The global similarity score distances objects with significant size difference. Global similarity can be disabled. It also distances objects with different quartile distributions.
- TLSH can be compiled to generate 70 or 134 characters hash strings. The longer version has been created to use of the 70 char hash strings is not working for your application.
TLSH similarity is expressed as a difference score:
- A score of 0 means the objects are almost identical.
- For the 72 characters hash, there is a detailed table of experimental Detection rates and False Positive rates based on the threshhold. see Table II on page 5
- See the Python code and Jupyter notebooks in tlshCluster.
- We provide Python code for the HAC-T method. We also provide code so that users can use DBSCAN.
- We show users how to create dendograms for files, which are a useful diagram showing relationships between files and groups.
- We provide tools for clustering the Malware Bazaar dataset, which contains a few hundred thousand samples.
- The HAC-T method is described in HAC-T and fast search for similarity in security
- Jonathan Oliver, Chun Cheng, and Yanggui Chen, TLSH - A Locality Sensitive Hash. 4th Cybercrime and Trustworthy Computing Workshop, Sydney, November 2013
- Jonathan Oliver, Scott Forman, and Chun Cheng, Using Randomization to Attack Similarity Digests. ATIS 2014, November, 2014, pages 199-210
- Jonathan Oliver, Muqeet Ali, and Josiah Hagen. HAC-T and fast search for similarity in security 2020 International Conference on Omni-layer Intelligent Systems (COINS). IEEE, 2020.
4.12.0
16/09/2024 document what has changed since **4.11.2** on 23/10/2021 Merge pull request #137 - this fixed a memory leak in py-tlsh Merge pull request #134 - this improved the ifdef WINDOWS to be more portable