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FilterPassword

Ubuntu 22.04 Sanitized CI (GCC 11)

What is this?

Suppose that you have a database made of half a billion passwords. You want to check quickly whether a given password is in this database. We allow a small probability of false positives (that can be later checked against the full database) but we otherwise do not want any false negatives (if the password is in the set, we absolutely want to know about it).

The typical approach to this problem is to apply a Bloom filters. We test here a binary fuse filter. The goal is for the filter to use very little memory.

Note: This software project is a demonstration. If you wish to use this software in your own projects, the corresponding software library is the Header-only Xor and Binary Fuse Filter library.

Requirement

We expect Linux or macOS.

Though the constructed filter may use only about a byte per set entry, the construction itself may need 64 bytes per entry (only during the construction process). A machine with much RAM is recommended when constructing large filters. It may be a good strategy to fragment your set and construct several smaller filters.

Limitations

The expectation is that the filter is built once. To build the filter over the full 550 million passwords, you currently need a machine with a sizeable amount of free RAM. It will almost surely fail on a laptop with 4GB of RAM; 64 GB of RAM or more is recommended. We could further partition the problem (by dividing up the set) for lower memory usage or better parallelization.

Queries are very fast, however.

We support hundreds of millions of entries and more, if you have the available memory.

Preparing the data file

For quick experiments, we provide a sample.txt file but if you want to simulate a realistic application, you need a password data file.

Grab password file from https://haveibeenpwned.com/passwords

Most likely, you will download a 7z archive. On macOS, you can uncompress it as follows assuming you are a brew user:

brew install p7zip
7z x  pwned-passwords-sha1-ordered-by-count-v4.7z

where 'pwned-passwords-sha1-ordered-by-count-v4.7z' is the name of the file you downloaded.

The process is similar under Linux. On Linux Ubuntu, try:

sudo apt-get install p7zip-full
7z x  pwned-passwords-sha1-ordered-by-count-v4.7z

This takes a long time. The rest of our process is faster.

Design of the filter

Though the filter can use little memory (less than a GB), it seems unwarranted to load it up entirely in memory to query a few times. Thus we use memory-file mapping instead. Given that the filter is immutable, it is even safe to use it as part of multithreaded applications.

Usage

There are two executables:

  • build_filter is the expensive program that parses the large text files containing password hashes. If you want to check the filter at construction time, you can use the -V flag. You may also specify the filter type with the -f flag: -f binaryfuse8, -f binaryfuse16, -f xor8, -f bloom12.
  • query_filter is a simple program that takes a 64-bit hash in hexadecimal for (the first 16 hexadecimal characters from the SHA1 hash) and checks whether the hash is contained in our set.

Do

make
./build_filter -o filter.bin pwned-passwords-sha1-ordered-by-count-v4.txt
./query_filter filter.bin 7C4A8D09CA3762AF
./query_filter -s filter.bin shadow

where 'pwned-passwords-sha1-ordered-by-count-v4.txt' is the file you want to process.

Sample output:

$./build_filter pwned-passwords-sha1-ordered-by-count-v4.txt
I read 551509767 hashes in total (121.942 seconds).
Constructing the filter...
Done in 102.147 seconds.

$ ./query_filter filter.bin 7C4A8D09CA3762AF
hexval = 0x7c4a8d09ca3762af
I expect the file to span 678357069 bytes.
memory mapping is a success.
Probably in the set.
Processing time 58.000 microseconds.
Expected number of queries per second: 17241.379

After building the code with make, we recommend testing the code with make test.

Performance comparisons

For a comparable false positive probability (about 0.3%), the Bloom filter uses more space and is slower. The binary fuse 8 uses less space, is constructed faster, and has faster queries.

$ ./build_filter -m 10000000 -o binaryfuse8.bin -f binaryfuse8 pwned-passwords-sha1-ordered-by-count-v4.txt
setting the max. number of entries to 10000000
read 10000000 hashes.Reached the maximum number of lines 10000000.
I read 10000000 hashes in total (12.644 seconds).
Bytes read = 452288199.
Constructing the filter...
Done in 0.420 seconds.
filter data saved to binaryfuse8.bin. Total bytes = 11272228.


$ ./build_filter -m 10000000 -o bloom12.bin -f bloom12 pwned-passwords-sha1-ordered-by-count-v4.txt
setting the max. number of entries to 10000000
read 10000000 hashes.Reached the maximum number of lines 10000000.
I read 10000000 hashes in total (12.696 seconds).
Bytes read = 452288199.
Constructing the filter...
Done in 0.613 seconds.
filter data saved to bloom12.bin. Total bytes = 15000024.



$./query_filter binaryfuse8.bin 7C4A8D09CA3762AF6
using database: binaryfuse8.bin
hexval = 0x7c4a8d09ca3762af
Binary fuse filter detected.
I expect the file to span 11206692 bytes.
memory mapping is a success.
Surely not in the set.
Processing time 241.000 microseconds.
Expected number of queries per second: 4149.377

$ ./query_filter bloom12.bin 7C4A8D09CA3762AF6 ; done
using database: bloom12.bin
hexval = 0x7c4a8d09ca3762af
Bloom filter detected.
I expect the file to span 15000024 bytes.
memory mapping is a success.
Probably in the set.
Processing time 344.000 microseconds.
Expected number of queries per second: 2906.977

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