This is the implementation of our CRYPTO 2019 paper: SpOT-Light: Lightweight Private Set Intersection from Sparse OT Extension[ePrint].

Evaluating on a single server (2 36-cores Intel Xeon CPU E5-2699 v3 @ 2.30GHz and 256GB of RAM) with a single thread per party, each party has 2^20 items, our spot-low protocol requires 270 seconds and 63.1 MB , and our spot-fast protocol requires 25.6 seconds and 76.4 MB.

git clone --recursive git@github.com:osu-crypto/SpOT-PSI.git

$ cd SpOT-PSI
$ bash buildAll.get

If you have any problem, see below.

C++ compiler with C++14 support. There are several library dependencies including Boost, Miracl, NTL with GMP, and libOTe. For libOTe, it requires CPU supporting PCLMUL, AES-NI, and SSE4.1. Optional: nasm for improved SHA1 performance. Our code has been tested on both Windows (Microsoft Visual Studio) and Linux. To install the required libraries:

• For building boost, miracl and libOTe, please follow the more instructions at libOTe. A quick try for linux: cd libOTe/cryptoTools/thirdparty/linux/, bash all.get, cd back to libOTe, cmake . and then make -j
• For NTL with GMP and gf2x, cd ./thirdparty/linux, and run all.get. Then, you can run cmake . in SpOT-PSI folder, and then make -j
• See here for full setup script

NOTE: if you meet problem with NTL, try to do the following and read Building and using NTL with GMP. If you see an error message cmd.exe not found, try to install https://www.nasm.us/

   struct MatPrime_crt_helper_deleter_policy {
      static void deleter(MatPrime_crt_helper *p) { MatPrime_crt_helper_deleter(p); }
   };

to

   struct MatPrime_crt_helper_deleter_policy {
      static void deleter(MatPrime_crt_helper *p) {; }
   };

In lip.h (line 645), change "class _ntl_general_rem_one_struct" to be "struct _ntl_general_rem_one_struct;".

After cloning project from git,

1. build cryptoTools,libOTe, and libOPRF projects in order.
2. add argument for bOPRFmain project (for example: -u)
3. run bOPRFmain project

1. make (requirements: CMake, Make, g++ or similar)
2. for test: ./bin/frontend.exe -t

The database is generated randomly. The outputs include the average online/offline/total runtime that displayed on the screen and output.txt.

-t		unit test which computes PSI of 2 paries, each with set size 2^8 in semi-honest setting
-n		log of set size (e.g. n=8 => setsize =2^8)
-N		set size
-echd	        evaluating DH-based PSI
                 -c: curve type (0: k283 vs 1: Curve25519)
-p              evaluating our protocols (0: `spot-fast` vs 1: `spot-low`)
-t		number of thread
-ip		ip address and port (eg. 172.31.22.179:1212)

./bin/frontend.exe -t

ECHD

./bin/frontend.exe -r 1 -echd -c 0 -n 8 -ip 172.31.77.224:1212
& ./bin/frontend.exe -r 0 -echd -c 0 -n 8 -ip 172.31.77.224:1212

spot-fast

./bin/frontend.exe -r 1 -n 8 -t 1 -p 0 -ip 172.31.77.224:1212
& ./bin/frontend.exe -r 0 -n 8 -t 1 -p 0 -ip 172.31.77.224:1212

spot-low

./bin/frontend.exe -r 1 -n 8 -t 1 -p 1 -ip 172.31.77.224:1212
& ./bin/frontend.exe -r 0 -n 8 -t 1 -p 1 -ip 172.31.77.224:1212

For any questions on building or running the library, please contact Ni Trieu at trieun at oregonstate dot edu