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- /* Copyright (C) 2014 Carlos Aguilar Melchor, Joris Barrier, Marc-Olivier Killijian
- * This file is part of XPIR.
- *
- * XPIR is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * XPIR is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with XPIR. If not, see <http://www.gnu.org/licenses/>.
- */
- #include "PIRReplyGeneratorNFL_internal.hpp"
- #include "sys/time.h"
- //#define SIMULATE_PRE_NFL_DATA //Use this to simulate imported data is in NFL form
- //#define TEST_NFL_PERF_ITERATIONS //Loop to simulate very large databases
- //#define SNIFFER_CHUNK_BYTESIZE 12800
- //#define SNIFFER_CHUNK_BYTESIZE 2560
- //#define SNIFFER_CHUNK_BYTESIZE 1500
- //#define SNIFFER_CHUNK_BYTESIZE 600
- //#define SNIFFER //Use this to activate a sniffer like behavior
- PIRReplyGeneratorNFL_internal::PIRReplyGeneratorNFL_internal():
- lwe(false)
- {
- }
- /**
- * Constructor of the class.
- * Params :
- * - vector <File*>& database : reference of a File pointer vector.
- * - PIRParameters& param : reference to a PIRParameters object.
- **/
- PIRReplyGeneratorNFL_internal::PIRReplyGeneratorNFL_internal( PIRParameters& param, DBHandler* db):
- lwe(false),
- currentMaxNbPolys(1),
- GenericPIRReplyGenerator(param,db),
- current_query_index(0),
- current_dim_index(0)
- {
- // cryptoMethod will be set later by setCryptoMethod
- }
- void PIRReplyGeneratorNFL_internal::importFakeData(uint64_t plaintext_nbr)
- {
- uint64_t files_nbr = 1;
- for (unsigned int i = 0 ; i < pirParam.d ; i++) files_nbr *= pirParam.n[i];
-
- uint64_t plain_bytesize = cryptoMethod->getnflInstance().getpolyDegree()*cryptoMethod->getnflInstance().getnbModuli()*8;
- dbhandler = new DBGenerator(files_nbr, plaintext_nbr*plain_bytesize, true);
-
- currentMaxNbPolys = plaintext_nbr;
-
- importDataNFL(0, plaintext_nbr*plain_bytesize);
- }
- /**
- * Convert raw data from file in usable NFL data.
- **/
- void PIRReplyGeneratorNFL_internal::importDataNFL(uint64_t offset, uint64_t bytes_per_file)
- {
- uint64_t fileByteSize = min(bytes_per_file, dbhandler->getmaxFileBytesize()-offset);
- uint64_t theoretical_files_nbr = 1;
- uint64_t nbFiles = dbhandler->getNbStream();
- for (unsigned int i = 0 ; i < pirParam.d ; i++) theoretical_files_nbr *= pirParam.n[i];
- input_data = new lwe_in_data[theoretical_files_nbr];
- char *rawBits = (char*)calloc(fileByteSize*pirParam.alpha, sizeof(char));
- currentMaxNbPolys=0;
- #ifdef PERF_TIMERS
- double vtstart = omp_get_wtime();
- bool wasVerbose = false;
- uint64_t lastindex = 0;
- #endif
- // For global time measurement
- double start = omp_get_wtime();double now,delta;
- int nbruns=ceil((double)nbFiles/pirParam.alpha);
-
- // WARNING this section should not be multithreade as rawbits is shared and readAggregatedStream
- // is not threadsafe
- for (int i=0; i < nbruns; i++)
- {
- dbhandler->readAggregatedStream(i, pirParam.alpha, offset, bytes_per_file, rawBits);
-
- #ifdef SIMULATE_PRE_NFL_DATA
- uint64_t abssize = cryptoMethod->getPublicParameters().getAbsorptionBitsize();
- uint64_t polysize = cryptoMethod->getpolyDegree() * cryptoMethod->getnbModuli()*sizeof(uint64_t);
- uint64_t nbpolys = ceil((double)fileByteSize * pirParam.alpha * 8 / abssize);
- input_data[i].p = (poly64*) malloc(nbpolys*sizeof(poly64*));
- input_data[i].p[0] = (poly64) malloc(nbpolys*polysize);
- for (unsigned j = 0; j < nbpolys ; j++)
- {
- input_data[i].p[j] = input_data[i].p[0]+j*polysize/8;
- memcpy(input_data[i].p[j], rawBits, min(fileByteSize, polysize));
- }
- input_data[i].nbPolys = nbpolys;
- #else
- input_data[i].p = cryptoMethod->deserializeDataNFL((unsigned char**)&rawBits, (uint64_t) 1, fileByteSize*pirParam.alpha*GlobalConstant::kBitsPerByte, input_data[i].nbPolys);
- #endif
- #ifdef PERF_TIMERS
- // Give some feedback if it takes too long
- double vtstop = omp_get_wtime();
- if (vtstop - vtstart > 1)
- {
- vtstart = vtstop;
- std::cout <<"PIRReplyGeneratorNFL_internal: Element " << i+1 << "/" << nbruns << " imported\r" << std::flush;
- wasVerbose = true;
- lastindex = i+1;
- }
- #endif
- }
-
- for (int i=0; i < nbruns; i++)
- if (input_data[i].nbPolys>currentMaxNbPolys) currentMaxNbPolys=input_data[i].nbPolys;
- #ifdef PERF_TIMERS
- // If feedback was given say we finished
- if (wasVerbose && lastindex != nbFiles) std::cout <<"PIRReplyGeneratorNFL_internal: Element " << nbruns << "/" << nbFiles/pirParam.alpha << " imported" << std::endl;
- #endif
-
- /** FILE PADDING **/
- for (uint64_t i = ceil((double)nbFiles/pirParam.alpha) ; i < theoretical_files_nbr ; i++)
- {
- input_data[i].p = (poly64 *) malloc(currentMaxNbPolys*sizeof(poly64));
-
- input_data[i].p[0] = (poly64) calloc(cryptoMethod->getpolyDegree()*cryptoMethod->getnbModuli()*currentMaxNbPolys,sizeof(uint64_t));
- for (uint64_t j = 1 ; j < currentMaxNbPolys ; j++) input_data[i].p[j] = input_data[i].p[0]+cryptoMethod->getpolyDegree()*cryptoMethod->getnbModuli()*j;
-
- input_data[i].nbPolys = currentMaxNbPolys;
- }
- free(rawBits);
- std::cout<<"PIRReplyGeneratorNFL_internal: Finished importing the database in " << omp_get_wtime() - start << " seconds" << std::endl;
- }
- #ifdef SNIFFER
- imported_database_t PIRReplyGeneratorNFL_internal::generateReplyGeneric(bool keep_imported_data)
- {
- imported_database_t database_wrapper;
- boost::mutex::scoped_lock l(mutex);
- const uint64_t chunkBytesize = SNIFFER_CHUNK_BYTESIZE;
- const uint64_t iterations = dbhandler->getmaxFileBytesize()/(chunkBytesize+1);
- // std::ifstream *is = dbhandler->openStream(0,0);
- const uint64_t nbFiles = dbhandler->getNbStream();
- const unsigned int polysize = cryptoMethod->getpolyDegree()*cryptoMethod->getnbModuli();
- const unsigned int jumpcipher = 2*polysize / sizeof(uint64_t);
- currentMaxNbPolys=0;
- lwe_in_data *input = new lwe_in_data[iterations];
- lwe_cipher *resul = new lwe_cipher[iterations];
- uint64_t index;
- lwe_query **queries;
- char **rawBits = (char**) malloc(iterations*sizeof(char*));
- cryptoMethod->setandgetAbsBitPerCiphertext(1);
- queries = queriesBuf[0];
- const uint64_t mask = (1<<((int)log2(nbFiles)))-1;
- for (uint64_t it = 0 ; it < iterations ; it++)
- {
- resul[it].a = (uint64_t *) malloc(2*polysize*sizeof(uint64_t));
- resul[it].b = (uint64_t *) resul[it].a + polysize;
- rawBits[it] = (char*)malloc(((chunkBytesize)*sizeof(char)+sizeof(int)));
- }
- double start = omp_get_wtime();
- #pragma omp parallel for firstprivate(input,queries,resul)
- for (uint64_t it = 0 ; it < iterations ; it++)
- {
- dbhandler->readStream(0, rawBits[it], chunkBytesize+sizeof(int));
- input[it].p = cryptoMethod->deserializeDataNFL((unsigned char**)&(rawBits[it]), (uint64_t) 1, chunkBytesize*GlobalConstant::kBitsPerByte, input[it].nbPolys);
- index = *(int *)(rawBits[it]+chunkBytesize) & mask;
- cryptoMethod->mul(resul[it], input[it], queries[0][index],queries[1][index], 0, 0);
- }
- double end = omp_get_wtime();
- std::cout<<"PIRReplyGeneratorNFL_internal: Finished processing the sniffed data in " << end - start << " seconds" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: Processing throughput " << (double)chunkBytesize*8*iterations / ((end - start)*1000000000ULL) << " Gbps" << std::endl;
- return database_wrapper;
- }
- #else
- imported_database_t PIRReplyGeneratorNFL_internal::generateReplyGeneric(bool keep_imported_data)
- {
- imported_database_t database_wrapper;
- uint64_t usable_memory, database_size, max_memory_per_file, max_readable_size, nbr_of_iterations;
- double start, end;
- // Init database_wrapper to NULL values so that we are able to know if it has been initialized
- database_wrapper.imported_database_ptr = NULL;
- database_wrapper.nbElements = 0;
- database_wrapper.polysPerElement = 0;
- // Don't use more than half of the computer's memory
- usable_memory = getTotalSystemMemory()/2;
- database_size = dbhandler->getmaxFileBytesize() * dbhandler->getNbStream();
- #ifndef TEST_NFL_PERF_ITERATIONS
- // This is the maximum amount of data per file we can get in memory
- max_memory_per_file = usable_memory / dbhandler->getNbStream();
- // Given the expansion factor of importation we get the max we can read per file
- max_readable_size = max_memory_per_file / 4 ;
- // Reduce it so that we have full absorption in all the ciphertexts sent
- max_readable_size = (max_readable_size * GlobalConstant::kBitsPerByte / cryptoMethod->getPublicParameters().getAbsorptionBitsize(0)) * cryptoMethod->getPublicParameters().getAbsorptionBitsize(0)/GlobalConstant::kBitsPerByte;
- #else
- // For our tests we will need to have databases of an integer amount of gigabits
- max_readable_size = 1280000000UL/dbhandler->getNbStream();
- #endif
- // If we reduced it too much set it at least to a ciphertext
- if (max_readable_size == 0) max_readable_size = cryptoMethod->getPublicParameters().getAbsorptionBitsize(0);
- // Ensure it is not larger than maxfilebytesize
- max_readable_size = min(max_readable_size, dbhandler->getmaxFileBytesize());
- // Given readable size we get how many iterations we need
- nbr_of_iterations = ceil((double)dbhandler->getmaxFileBytesize()/max_readable_size);
- #ifndef TEST_NFL_PERF_ITERATIONS
- // If aggregation is used we cannot iterate
- if ((pirParam.alpha != 1 || pirParam.d > 1) && nbr_of_iterations > 1)
- {
- std::cout << "PIRReplyGeneratorNFL_internal: Cannot handle aggregation or dimensions on databases requiring multiple iterations" << std::endl;
- std::cout << "PIRReplyGeneratorNFL_internal: Handling the database on a single iteration, this can cause memory issues ..." << std::endl;
- nbr_of_iterations = 1;
- max_readable_size = dbhandler->getmaxFileBytesize();
- }
- // If we cannot read the whole database we cannot store it precomputed
- if (nbr_of_iterations > 1) keep_imported_data = false;
- #endif
- // If we need to do more than an iteration say it
- if (nbr_of_iterations > 1)
- {
- std::cout << "PIRReplyGeneratorNFL_internal: Database is considered too large, processing it in "
- << nbr_of_iterations << " iterations" << std::endl;
- }
- start = omp_get_wtime();
- // #pragma omp parallel for
- for (unsigned iteration = 0; iteration < nbr_of_iterations; iteration++)
- {
- if (nbr_of_iterations > 1) cout << "PIRReplyGeneratorNFL_internal: Iteration " << iteration << endl;
- repliesIndex = computeReplySizeInChunks(iteration*max_readable_size);
- // Import a chunk of max_readable_size bytes per file with an adapted offset
- importDataNFL(iteration*max_readable_size, max_readable_size);
- if(keep_imported_data && iteration == nbr_of_iterations - 1) // && added for Perf test but is no harmful
- {
- database_wrapper.polysPerElement = currentMaxNbPolys;
- }
- boost::mutex::scoped_lock l(mutex);
- generateReply();
- end = omp_get_wtime();
- if(keep_imported_data && iteration == nbr_of_iterations - 1) // && added for Perf test but is no harmful
- {
- database_wrapper.imported_database_ptr = (void*)input_data;
- }
- else
- {
- freeInputData();
- }
- }
- std::cout<<"PIRReplyGeneratorNFL_internal: Total process time " << end - start << " seconds" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: DB processing throughput " << 8*database_size/(end - start) << "bps" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: Client cleartext reception throughput " << 8*dbhandler->getmaxFileBytesize()/(end - start) << "bps" << std::endl;
- freeQuery();
- return database_wrapper;
- }
- #endif
- // Function used to generate a PIR reply if:
- // - database is small enough to be kept in memory
- // - it has already been imported to it
- void PIRReplyGeneratorNFL_internal::generateReplyGenericFromData(const imported_database_t database)
- {
- #ifndef TEST_NFL_PERF_ITERATIONS
- input_data = (lwe_in_data*) database.imported_database_ptr;
- currentMaxNbPolys = database.polysPerElement;
- boost::mutex::scoped_lock l(mutex);
- double start = omp_get_wtime();
- generateReply();
- #else
- uint64_t max_readable_size, database_size, nbr_of_iterations;
- database_size = dbhandler->getmaxFileBytesize() * dbhandler->getNbStream();
- max_readable_size = 1280000000UL/dbhandler->getNbStream();
- // Ensure it is not larger than maxfilebytesize
- max_readable_size = min(max_readable_size, dbhandler->getmaxFileBytesize());
- // Given readable size we get how many iterations we need
- nbr_of_iterations = ceil((double)dbhandler->getmaxFileBytesize()/max_readable_size);
- boost::mutex::scoped_lock l(mutex);
- double start = omp_get_wtime();
- for (unsigned iteration = 0; iteration < nbr_of_iterations; iteration++)
- {
- input_data = (lwe_in_data*) database.imported_database_ptr;
- currentMaxNbPolys = database.polysPerElement;
- generateReply();
- }
- freeInputData();
- #endif
- double end = omp_get_wtime();
- std::cout<<"PIRReplyGeneratorNFL_internal: Total process time " << end - start << " seconds" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: DB processing throughput " << 8*dbhandler->getmaxFileBytesize()*dbhandler->getNbStream()/(end - start) << "bps" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: Client cleartext reception throughput " << 8*dbhandler->getmaxFileBytesize()/(end - start) << "bps" << std::endl;
- freeQuery();
- }
- // Function used to generate a PIR reply if:
- // - database is small enough to be kept in memory
- // - it has already been imported to it
- void PIRReplyGeneratorNFL_internal::generateReplyExternal(imported_database_t* database)
- {
- uint64_t max_readable_size, database_size, nbr_of_iterations;
- database_size = dbhandler->getmaxFileBytesize() * dbhandler->getNbStream();
- max_readable_size = 1280000000UL/dbhandler->getNbStream();
- // Ensure it is not larger than maxfilebytesize
- max_readable_size = min(max_readable_size, dbhandler->getmaxFileBytesize());
- // Given readable size we get how many iterations we need
- nbr_of_iterations = ceil((double)dbhandler->getmaxFileBytesize()/max_readable_size);
- boost::mutex::scoped_lock l(mutex);
- double start = omp_get_wtime();
- for (unsigned iteration = 0; iteration < nbr_of_iterations; iteration++)
- {
- input_data = (lwe_in_data*) database->imported_database_ptr;
- currentMaxNbPolys = database->polysPerElement;
- generateReply();
- }
- freeInputData();
- double end = omp_get_wtime();
- std::cout<<"PIRReplyGeneratorNFL_internal: Total process time " << end - start << " seconds" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: DB processing throughput " << 8*dbhandler->getmaxFileBytesize()*dbhandler->getNbStream()/(end - start) << "bps" << std::endl;
- std::cout<<"PIRReplyGeneratorNFL_internal: Client cleartext reception throughput " << 8*dbhandler->getmaxFileBytesize()/(end - start) << "bps" << std::endl;
- freeQuery();
- }
- /**
- * Prepare reply and start absoptions.
- **/
- void PIRReplyGeneratorNFL_internal::generateReply()
- {
- lwe_in_data *in_data = input_data;
- lwe_cipher **inter_reply;
- #ifdef SHOUP
- lwe_query **queries;
- #else
- lwe_query *queries;
- #endif
- uint64_t old_reply_elt_nbr = 0;
- uint64_t reply_elt_nbr = 1;
- uint64_t old_poly_nbr = 1;
-
- // Allocate memory for the reply array
- repliesAmount = computeReplySizeInChunks(dbhandler->getmaxFileBytesize());
- repliesArray = (char**)calloc(repliesAmount,sizeof(char*));
- // Start global timers
- double start = omp_get_wtime();
- #ifdef PERF_TIMERS
- double vtstart = start;
- bool wasVerbose = false;
- #endif
- for (unsigned int i = 0 ; i < pirParam.d ; i++) // For each recursion level
- {
- old_reply_elt_nbr = reply_elt_nbr;
- reply_elt_nbr = 1;
- for (unsigned int j = i + 1 ; j < pirParam.d ; j++ ) reply_elt_nbr *= pirParam.n[j];
- #ifdef DEBUG
- cout << "PIRReplyGeneratorNFL_internal: currentMaxNbPolys = " << currentMaxNbPolys << endl;
- #endif
-
- inter_reply = new lwe_cipher*[reply_elt_nbr]();
- queries = queriesBuf[i];
-
- for (uint64_t j = 0 ; j < reply_elt_nbr ; j++) // Boucle de reply_elt_nbr PIR
- {
- inter_reply[j] = new lwe_cipher[currentMaxNbPolys];
- // Warning of the trick in case SHOUP is defined : we cast quesries to a (lwe_query*) and will have to uncast it
- generateReply((lwe_query*)queries , in_data + (pirParam.n[i] * j ), i, inter_reply[j]);
- #ifdef DEBUG_WITH_FILE_OUTPUT
- if (i ==0 && j==1) {
- std::ofstream file(std::string("output_level_"+ std::to_string(i)).c_str(), std::ios::out| std::ios::binary);
- for (int k = 0 ; k < currentMaxNbPolys ; k++)
- {
- file.write((char*)inter_reply[j][k].a,1024*2*8);
- }
- file.close();
- }
- #endif
- #ifdef PERF_TIMERS
- // Give some feedback if it takes too long
- double vtstop = omp_get_wtime();
- if (vtstop - vtstart > 1)
- {
- vtstart = vtstop;
- std::cout <<"PIRReplyGeneratorNFL_internal: Reply " << j+1 << "/" << reply_elt_nbr << " generated\r" << std::flush;
- wasVerbose = true;
- }
- #endif
- }
- /*****************/
- /*MEMORY CLEANING*/
- /*****************/
- if ( i > 0)
- {
- #ifdef DEBUG
- cout << "PIRReplyGeneratorNFL_internal: reply_elt_nbr_OLD: " << old_reply_elt_nbr << endl;
- #endif
- // for (unsigned int j = 0 ; j < old_reply_elt_nbr ; j++) {
- // free(in_data[j].p[0]);
- // free(in_data[j].p);
- // }
- // delete[] in_data;
- }
- // When i i=> 2 clean old in_data.
- if (i < pirParam.d - 1) {
- old_poly_nbr = currentMaxNbPolys;
- in_data = fromResulttoInData(inter_reply, reply_elt_nbr, i);
- }
- for (uint64_t j = 0 ; j < reply_elt_nbr ; j++) {
- for (uint64_t k = 0 ; (k < old_poly_nbr) && (i < pirParam.d - 1); k++) free(inter_reply[j][k].a);
- delete[] inter_reply[j];
- }
- delete[] inter_reply; // allocated with a 'new' above.
- }
- // Compute execution time
- printf( "PIRReplyGeneratorNFL_internal: Global reply generation took %f (omp)seconds\n", omp_get_wtime() - start);
- }
- double PIRReplyGeneratorNFL_internal::generateReplySimulation(const PIRParameters& pir_params, uint64_t plaintext_nbr)
- {
- setPirParams((PIRParameters&)pir_params);
- initQueriesBuffer();
- pushFakeQuery();
-
- importFakeData(plaintext_nbr);
- uint64_t repliesAmount = computeReplySizeInChunks(cryptoMethod->getPublicParameters().getCiphertextBitsize() / CHAR_BIT);
- repliesArray = (char**)calloc(repliesAmount,sizeof(char*));
- repliesIndex = 0;
- double start = omp_get_wtime();
- generateReply();
- double result = omp_get_wtime() - start;
- freeQuery();
- freeInputData();
- freeResult();
- delete dbhandler;
- return result;
- }
- double PIRReplyGeneratorNFL_internal::precomputationSimulation(const PIRParameters& pir_params, uint64_t plaintext_nbr)
- {
- NFLlib *nflptr = &(cryptoMethod->getnflInstance());
- setPirParams((PIRParameters&)pir_params);
- initQueriesBuffer();
- pushFakeQuery();
- importFakeData(plaintext_nbr);
- uint64_t files_nbr = 1;
- for (unsigned int i = 0 ; i < pir_params.d ; i++) files_nbr *= pir_params.n[i];
- double start = omp_get_wtime();
- for (unsigned int i = 0 ; i < files_nbr ; i++)
- {
- {
- poly64 *tmp;
- tmp= cryptoMethod->deserializeDataNFL((unsigned char**)(input_data[i].p), (uint64_t) plaintext_nbr, cryptoMethod->getPublicParameters().getCiphertextBitsize()/2 , input_data[i].nbPolys);
- free(tmp[0]);
- }
- }
- double result = omp_get_wtime() - start;
- std::cout << "PIRReplyGeneratorNFL_internal: Deserialize took " << result << " (omp)seconds" << std::endl;
- freeQuery();
- freeInputData();
- freeResult();
- delete dbhandler;
- return result;
- }
- /**
- * Multiply each query parts by each files and sum the result.
- * Params :
- * - lwe_queries* : the query ;
- * - lwe_in_data* : data to be processed.
- * - int begin_data : index where begins the data absorption
- * - int lvl : recursion level ;
- * - lwe_cipher* result : Array to store the result.
- **/
- void PIRReplyGeneratorNFL_internal::generateReply( lwe_query *queries_,
- lwe_in_data* data,
- unsigned int lvl,
- lwe_cipher* result)
- {
- #ifdef SHOUP
- lwe_query **queries=(lwe_query**)queries_;
- #else
- lwe_query *queries=queries_;
- #endif
- unsigned int query_size = pirParam.n[lvl];
- #ifdef PERF_TIMERS
- bool wasVerbose = false;
- double vtstart = omp_get_wtime();
- #endif
- // In order to parallelize we must ensure replies are somehow ordered
- // (see comment at the end of PIRReplyExtraction)
- //#pragma omp parallel for firstprivate(result,data, lvl, queries)
- #ifdef MULTI_THREAD
- # pragma omp parallel for
- #endif
- for (unsigned int current_poly=0 ; current_poly < currentMaxNbPolys ; current_poly++)
- {
- posix_memalign((void**) &(result[current_poly].a), 32,
- 2*cryptoMethod->getpolyDegree()*cryptoMethod->getnbModuli()*sizeof(uint64_t));
- memset(result[current_poly].a,0,
- 2*cryptoMethod->getpolyDegree()*cryptoMethod->getnbModuli()*sizeof(uint64_t));
- result[current_poly].b = (uint64_t *) result[current_poly].a +
- cryptoMethod->getpolyDegree()*cryptoMethod->getnbModuli();
- for (unsigned int offset = 0; offset < query_size; offset += 200)
- {
- for (unsigned int query_index = offset, ggg=0; query_index < query_size && ggg < 200 ;
- query_index++, ggg++)
- {
- #ifdef SHOUP
- #ifdef CRYPTO_DEBUG
- if(current_poly==0)
- {
- std::cout<<"Query poped.a ";NFLTools::print_poly64hex(queries[0][query_index].a,4);
- if (lwe)
- {
- std::cout<<"Query poped.b ";NFLTools::print_poly64hex(queries[0][query_index].b,4);
- }
- std::cout<<"Query poped.a' ";NFLTools::print_poly64hex(queries[1][query_index].a,4);
- if (lwe)
- {
- std::cout<<"Query poped.b' ";NFLTools::print_poly64hex(queries[1][query_index].b,4);
- }
- }
- #endif
- cryptoMethod->mulandadd(result[current_poly], data[query_index], queries[0][query_index],
- queries[1][query_index], current_poly, lvl);
- #else
- cryptoMethod->mulandadd(result[current_poly], data[query_index], queries[query_index],
- current_poly, lvl);
- #endif
- }
- if ( lvl == pirParam.d-1 && offset + 200 >= query_size)
- {
- // Watchout lwe_cipher.a and .b need to be allocated contiguously
- repliesArray[repliesIndex+current_poly] = (char*)result[current_poly].a;
- }
- #ifdef PERF_TIMERS
- // Give some feedback if it takes too long
- double vtstop = omp_get_wtime();
- if (vtstop - vtstart > 1)
- {
- vtstart = vtstop;
- if(currentMaxNbPolys != 1) std::cout <<"PIRReplyGeneratorNFL_internal: Dealt with chunk " <<
- current_poly+1 << "/" << currentMaxNbPolys << "\r" << std::flush;
- wasVerbose = true;
- }
- #endif
- }
- }
- #ifdef PERF_TIMERS
- if (wasVerbose) std::cout <<" \r" << std::flush;
- #endif
- }
- // New version using the multiple buffer serialize function
- lwe_in_data* PIRReplyGeneratorNFL_internal::fromResulttoInData(lwe_cipher** inter_reply, uint64_t reply_elt_nbr, unsigned int reply_rec_lvl)
- {
- uint64_t in_data2b_bytes = cryptoMethod->getPublicParameters().getAbsorptionBitsize()/8;
- uint64_t in_data2b_nbr_polys = ceil((double(currentMaxNbPolys * cryptoMethod->getPublicParameters().getCiphertextBitsize())/8.)/double(in_data2b_bytes));
- lwe_in_data *in_data2b = new lwe_in_data[reply_elt_nbr]();
- uint64_t **bufferOfBuffers = (uint64_t **) calloc(currentMaxNbPolys,sizeof(uint64_t*));
- //For each element in the reply
- for (uint64_t i = 0 ; i < reply_elt_nbr ; i++)
- {
- //Build the buffer of buffers
- for (uint64_t j = 0 ; j < currentMaxNbPolys ; j++)
- {
- bufferOfBuffers[j]=inter_reply[i][j].a;
- }
- // Ciphertexts can be serialized in a single block as a,b are allocatted contiguously
- in_data2b[i].p = cryptoMethod->deserializeDataNFL((unsigned char**)bufferOfBuffers,
- currentMaxNbPolys,
- cryptoMethod->getPublicParameters().getCiphertextBitsize(),
- in_data2b[i].nbPolys);
- //delete[] inter_reply[i]; free in generateReplyGeneric
- }
- //delete[] inter_reply;
- free(bufferOfBuffers);
- currentMaxNbPolys = in_data2b_nbr_polys;
- return in_data2b;
- }
- //// Original function
- //lwe_in_data* PIRReplyGeneratorNFL_internal::fromResulttoInData(lwe_cipher** inter_reply, uint64_t reply_elt_nbr, unsigned int reply_rec_lvl)
- //{
- // uint64_t in_data2b_bytes = cryptoMethod->getPublicParameters().getAbsorptionBitsize()/8;
- // uint64_t in_data2b_polys_per_reply_poly = ceil((double)(cryptoMethod->getPublicParameters().getCiphertextBitsize()/8)/in_data2b_bytes);
- // uint64_t in_data2b_nbr_polys = currentMaxNbPolys * in_data2b_polys_per_reply_poly;
- //
- // lwe_in_data *in_data2b = new lwe_in_data[reply_elt_nbr]();
- // lwe_in_data tmp_in_data;
- //
- // //For each element in the reply
- // for (uint64_t i = 0 ; i < reply_elt_nbr ; i++)
- // {
- // in_data2b[i].p = (poly64 *) malloc(in_data2b_nbr_polys*sizeof(poly64));
- // in_data2b[i].nbPolys = 0;
- //
- // // For each polynomial in a reply element
- // for (uint64_t j = 0 ; j < currentMaxNbPolys ; j++)
- // {
- // // Ciphertexts can be serialized in a single block as a,b are allocatted contiguously
- // tmp_in_data.p = cryptoMethod->deserializeDataNFL((unsigned char*)inter_reply[i][j].a, cryptoMethod->getPublicParameters().getCiphertextBitsize(), tmp_in_data.nbPolys);
- // for (uint64_t k = 0 ; k < in_data2b_polys_per_reply_poly; k++)
- // {
- // in_data2b[i].p[k + j * in_data2b_polys_per_reply_poly] = tmp_in_data.p[k];
- // }
- // in_data2b[i].nbPolys += in_data2b_polys_per_reply_poly;
- // }
- // delete[] inter_reply[i];
- // }
- // delete[] inter_reply;
- //
- // currentMaxNbPolys = in_data2b_nbr_polys;
- // return in_data2b;
- //}
- /**
- * Compute Reply Size une chunks.
- * WARNING blocking function.
- **/
- unsigned long PIRReplyGeneratorNFL_internal::computeReplySizeInChunks(unsigned long int maxFileBytesize)
- {
- using namespace GlobalConstant;
-
- unsigned int out = ceil((double)maxFileBytesize*kBitsPerByte*pirParam.alpha/cryptoMethod->getPublicParameters().getAbsorptionBitsize(0));
- for (unsigned int i = 1; i < pirParam.d; i++) {
- out = ceil(out * double(cryptoMethod->getPublicParameters().getCiphBitsizeFromRecLvl(i)/kBitsPerByte) / double(cryptoMethod->getPublicParameters().getAbsorptionBitsize(i) / kBitsPerByte));
-
- }
- return out;
- }
- /**
- * Overloaded fonction from GenericPIRReplyGenerator.
- * Initalise queriesBuf.
- **/
- void PIRReplyGeneratorNFL_internal::initQueriesBuffer() {
- const unsigned int nbQueriesBuf=pirParam.d;;
- #ifdef SHOUP
- queriesBuf = new lwe_query**[nbQueriesBuf]();
- for (unsigned int i = 0 ; i < nbQueriesBuf ; i++)
- {
- queriesBuf[i] = new lwe_query*[2];
- queriesBuf[i][0] = new lwe_query[pirParam.n[i]]();
- queriesBuf[i][1] = new lwe_query[pirParam.n[i]]();
- }
- #else
- queriesBuf = new lwe_query*[nbQueriesBuf]();
- for (unsigned int i = 0 ; i < nbQueriesBuf ; i++)
- {
- queriesBuf[i] = new lwe_query[pirParam.n[i]]();
- }
- #endif
- #ifdef DEBUG
- std::cout<<"Created a queriesBuf for "<<nbQueriesBuf<<" queries"<<std::endl;
- #endif
- }
- void PIRReplyGeneratorNFL_internal::pushFakeQuery()
- {
- char* query_element = cryptoMethod->encrypt(0, 1);
- for (unsigned int dim = 0 ; dim < pirParam.d ; dim++) {
- for(unsigned int j = 0 ; j < pirParam.n[dim] ; j++) {
- pushQuery(query_element, cryptoMethod->getPublicParameters().getCiphertextBitsize()/8, dim, j);
- }
- }
- free(query_element);
- }
- void PIRReplyGeneratorNFL_internal::pushQuery(char* rawQuery)
- {
- pushQuery(rawQuery, cryptoMethod->getPublicParameters().getCiphertextBitsize()/8, current_dim_index, current_query_index);
- current_query_index++;
- if (current_query_index >= pirParam.n[current_dim_index])
- {
- current_query_index = 0;
- current_dim_index++;
- }
- if (current_dim_index >= pirParam.d)
- {
- std::cout << "PIRReplyGeneratorNFL: Finished importing query (this message should appear only once)" << std::endl;
- }
- }
- void PIRReplyGeneratorNFL_internal::pushQuery(char* rawQuery, unsigned int size, int dim, int nbr)
- {
- unsigned int polyDegree = cryptoMethod->getpolyDegree();
- unsigned int nbModuli = cryptoMethod->getnbModuli();
- // Trick, we get both a and b at the same time, b needs to be set afterwards
- uint64_t *a,*b;
- a = (poly64) calloc(size, 1);
- memcpy(a,rawQuery,size);
- if (lwe) b = a+nbModuli*polyDegree;
- #ifdef CRYPTO_DEBUG
- std::cout<<"\nQuery received.a ";NFLTools::print_poly64(a,4);
- if (lwe) {std::cout<<"Query received.b ";NFLTools::print_poly64hex(b,4);}
- #endif
- #ifdef SHOUP
- uint64_t *ap,*bp;
- ap = (poly64) calloc(size, 1);
- if (lwe) bp = ap+nbModuli*polyDegree;
-
- for (unsigned int cm = 0 ; cm < nbModuli ; cm++)
- {
- for (unsigned i = 0 ; i < polyDegree ;i++)
- {
- ap[i+cm*polyDegree] = ((uint128_t) a[i+cm*polyDegree] << 64) / cryptoMethod->getmoduli()[cm];
- if (lwe) bp[i+cm*polyDegree] = ((uint128_t) b[i+cm*polyDegree] << 64) / cryptoMethod->getmoduli()[cm];
- }
- }
- queriesBuf[dim][0][nbr].a = a;
- queriesBuf[dim][0][nbr].b = b;
- queriesBuf[dim][1][nbr].a = ap;
- queriesBuf[dim][1][nbr].b = bp;
- #ifdef CRYPTO_DEBUG
- std::cout << "Query NFL pushed.a' "; NFLTools::print_poly64hex(queriesBuf[dim][1][nbr].a,4);
- if (lwe) { std::cout << "Query NFL pushed.b' "; NFLTools::print_poly64hex(queriesBuf[dim][1][nbr].b,4);}
- #endif
- #else
- queriesBuf[dim][nbr].a = a;
- queriesBuf[dim][nbr].b = b;
- #endif
- }
- size_t PIRReplyGeneratorNFL_internal::getTotalSystemMemory()
- {
- #ifdef __APPLE__
- int m[2];
- m[0] = CTL_HW;
- m[1] = HW_MEMSIZE;
- int64_t size = 0;
- size_t len = sizeof( size );
- sysctl( m, 2, &size, &len, NULL, 0 );
-
- return (size_t)size;
- #else
- long pages = /*get_phys_pages();*/sysconf(_SC_PHYS_PAGES);
- long page_size = /*getpagesize();*/sysconf(_SC_PAGE_SIZE);
- return pages * page_size;
- #endif
- }
- PIRReplyGeneratorNFL_internal::~PIRReplyGeneratorNFL_internal()
- {
- freeResult();
- }
- void PIRReplyGeneratorNFL_internal::setPirParams(PIRParameters& param)
- {
- pirParam = param;
- cryptoMethod->setandgetAbsBitPerCiphertext(pirParam.n[0]);
- }
- void PIRReplyGeneratorNFL_internal::setCryptoMethod(CryptographicSystem* cm)
- {
- //cryptoMethod = (NFLLWE*) cm;
- cryptoMethod = (LatticesBasedCryptosystem*) cm;
- lwe = (cryptoMethod->toString() == "LWE") ? true : false;
- }
- void PIRReplyGeneratorNFL_internal::freeInputData()
- {
- uint64_t theoretical_files_nbr = 1;
- for (unsigned int i = 0 ; i < pirParam.d ; i++) theoretical_files_nbr *= pirParam.n[i];
- for (unsigned int i = 0 ; i < theoretical_files_nbr ; i++){
- #ifdef DEBUG
- printf( "PIRReplyGeneratorNFL_internal: freeing input_data[%d]\n",i);
- #endif
- free(input_data[i].p[0]);
- free(input_data[i].p);
- }
- delete[] input_data;
- #ifdef DEBUG
- printf( "PIRReplyGeneratorNFL_internal: input_data freed\n");
- #endif
- }
- void PIRReplyGeneratorNFL_internal::freeQuery()
- {
- for (unsigned int i = 0; i < pirParam.d; i++)
- {
- #ifdef SHOUP
- for (unsigned int j = 0 ; j < pirParam.n[i] ; j++) {
- free(queriesBuf[i][0][j].a); //only free a because a and b and contingus, see pushQuery
- free(queriesBuf[i][1][j].a); //only free a because a and b and contingus, see pushQuery
- }
- delete[] queriesBuf[i][0]; //allocated in intQueriesBuf with new.
- delete[] queriesBuf[i][1]; //allocated in intQueriesBuf with new.
- delete[] queriesBuf[i];
- #else
- for (unsigned int j = 0 ; j < pirParam.n[i] ; j++) free(queriesBuf[i][j].a); //only free a because a and b and contingus, see pushQuery
- delete[] queriesBuf[i]; //allocated in intQueriesBuf with new.
- #endif
- }
- delete[] queriesBuf;//allocated in intQueriesBuf with new.
- #ifdef DEBUG
- printf( "queriesBuf freed\n");
- #endif
-
- }
- void PIRReplyGeneratorNFL_internal::freeResult()
- {
- if(repliesArray!=NULL)
- {
- for(unsigned i=0 ; i < repliesAmount; i++)
- {
- if(repliesArray[i]!=NULL) free(repliesArray[i]);
- repliesArray[i] = NULL;
- }
- free(repliesArray);
- repliesArray=NULL;
- }
- }
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