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- #include "pir.hpp"
- #include "pir_client.hpp"
- #include "pir_server.hpp"
- #include <seal/seal.h>
- #include <chrono>
- #include <memory>
- #include <random>
- #include <cstdint>
- #include <cstddef>
- using namespace std::chrono;
- using namespace std;
- using namespace seal;
- int main(int argc, char *argv[]) {
- uint64_t number_of_items = 1 << 12;
- uint64_t size_per_item = 288; // in bytes
- uint32_t N = 4096;
- // Recommended values: (logt, d) = (12, 2) or (8, 1).
- uint32_t logt = 20;
- uint32_t d = 2;
- EncryptionParameters enc_params(scheme_type::bfv);
- PirParams pir_params;
- // Generates all parameters
-
- cout << "Main: Generating SEAL parameters" << endl;
- gen_encryption_params(N, logt, enc_params);
-
- cout << "Main: Verifying SEAL parameters" << endl;
- verify_encryption_params(enc_params);
- cout << "Main: SEAL parameters are good" << endl;
- cout << "Main: Generating PIR parameters" << endl;
- gen_pir_params(number_of_items, size_per_item, d, enc_params, pir_params);
-
-
-
- //gen_params(number_of_items, size_per_item, N, logt, d, enc_params, pir_params);
- print_pir_params(pir_params);
- cout << "Main: Initializing the database (this may take some time) ..." << endl;
- // Create test database
- auto db(make_unique<uint8_t[]>(number_of_items * size_per_item));
- // Copy of the database. We use this at the end to make sure we retrieved
- // the correct element.
- auto db_copy(make_unique<uint8_t[]>(number_of_items * size_per_item));
- random_device rd;
- for (uint64_t i = 0; i < number_of_items; i++) {
- for (uint64_t j = 0; j < size_per_item; j++) {
- uint8_t val = rd() % 256;
- db.get()[(i * size_per_item) + j] = val;
- db_copy.get()[(i * size_per_item) + j] = val;
- }
- }
- // Initialize PIR Server
- cout << "Main: Initializing server and client" << endl;
- PIRServer server(enc_params, pir_params);
- // Initialize PIR client....
- PIRClient client(enc_params, pir_params);
- GaloisKeys galois_keys = client.generate_galois_keys();
- // Set galois key for client with id 0
- cout << "Main: Setting Galois keys...";
- server.set_galois_key(0, galois_keys);
- // Measure database setup
- auto time_pre_s = high_resolution_clock::now();
- server.set_database(move(db), number_of_items, size_per_item);
- server.preprocess_database();
- cout << "Main: database pre processed " << endl;
- auto time_pre_e = high_resolution_clock::now();
- auto time_pre_us = duration_cast<microseconds>(time_pre_e - time_pre_s).count();
- // Choose an index of an element in the DB
- uint64_t ele_index = rd() % number_of_items; // element in DB at random position
- uint64_t index = client.get_fv_index(ele_index, size_per_item); // index of FV plaintext
- uint64_t offset = client.get_fv_offset(ele_index, size_per_item); // offset in FV plaintext
- cout << "Main: element index = " << ele_index << " from [0, " << number_of_items -1 << "]" << endl;
- cout << "Main: FV index = " << index << ", FV offset = " << offset << endl;
- // Measure query generation
- auto time_query_s = high_resolution_clock::now();
- PirQuery query = client.generate_query(index);
- auto time_query_e = high_resolution_clock::now();
- auto time_query_us = duration_cast<microseconds>(time_query_e - time_query_s).count();
- cout << "Main: query generated" << endl;
- //To marshall query to send over the network, you can use serialize/deserialize:
- //std::string query_ser = serialize_query(query);
- //PirQuery query2 = deserialize_query(d, 1, query_ser, CIPHER_SIZE);
- // Measure query processing (including expansion)
- auto time_server_s = high_resolution_clock::now();
- PirReply reply = server.generate_reply(query, 0);
- auto time_server_e = high_resolution_clock::now();
- auto time_server_us = duration_cast<microseconds>(time_server_e - time_server_s).count();
- // Measure response extraction
- auto time_decode_s = chrono::high_resolution_clock::now();
- Plaintext result = client.decode_reply(reply);
- auto time_decode_e = chrono::high_resolution_clock::now();
- auto time_decode_us = duration_cast<microseconds>(time_decode_e - time_decode_s).count();
- logt = floor(log2(enc_params.plain_modulus().value()));
- // Convert from FV plaintext (polynomial) to database element at the client
- vector<uint8_t> elems(N * logt / 8);
- coeffs_to_bytes(logt, result, elems.data(), (N * logt) / 8);
- bool failed = false;
- // Check that we retrieved the correct element
- for (uint32_t i = 0; i < size_per_item; i++) {
- if (elems[(offset * size_per_item) + i] != db_copy.get()[(ele_index * size_per_item) + i]) {
- cout << "Main: elems " << (int)elems[(offset * size_per_item) + i] << ", db "
- << (int) db_copy.get()[(ele_index * size_per_item) + i] << endl;
- cout << "Main: PIR result wrong at " << i << endl;
- failed = true;
- }
- }
- if(failed){
- return -1;
- }
- // Output results
- cout << "Main: PIR result correct!" << endl;
- cout << "Main: PIRServer pre-processing time: " << time_pre_us / 1000 << " ms" << endl;
- cout << "Main: PIRClient query generation time: " << time_query_us / 1000 << " ms" << endl;
- cout << "Main: PIRServer reply generation time: " << time_server_us / 1000 << " ms" << endl;
- cout << "Main: PIRClient answer decode time: " << time_decode_us / 1000 << " ms" << endl;
- cout << "Main: Reply num ciphertexts: " << reply.size() << endl;
- return 0;
- }
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