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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 "PIRSession.hpp"
- #include "pir/replyGenerator/PIROptimizer.hpp"
- #define NDSS_UPLOAD_SPEED 100000000UL
- PIRSession::pointer PIRSession::create(boost::asio::io_service& ios)
- {
- return PIRSession::pointer(new PIRSession(ios));
- }
- PIRSession::PIRSession(boost::asio::io_service& ios) :
- sessionSocket(ios),
- handmadeExceptionRaised(false),
- finished(false),
- cryptoMethod(NULL),
- generator(NULL),
- no_pipeline_mode(false)
- {
- }
- void PIRSession::setDBHandler(DBHandler *db)
- {
- dbhandler = db;
- }
- /**
- * Do the PIR protocol
- **/
- bool PIRSession::start(session_option_t session_option)
- {
-
- uint64_t nbFiles=dbhandler->getNbStream();
- maxFileBytesize = dbhandler->getmaxFileBytesize();
- short exchange_method = (session_option.driven_mode) ? CLIENT_DRIVEN : SERVER_DRIVEN;
- bool rcv_paramsandkey = true;
- // Deal with Optimizer dry-run queries if requested
- if(!rcvIsClient())
- {
- std::cout << "PIRSession: Incoming dry-run optimizer request, dealing with it ..." << std::endl;
- PIROptimizer optimizer(dbhandler);
- optimizer.prepareOptimData();
- optimizer.controlAndCommand(sessionSocket);
- std::cout << "PIRSession: Session finished" << std::endl << std::endl;
- finished = true;
- return 1; // Did deal with a dry-run query
- }
- sendCatalog();
- sendPIRParamsExchangeMethod(exchange_method);
- if(session_option.driven_mode) {
- PIROptimizer optimizer(dbhandler);
- optimizer.prepareOptimData();
- optimizer.controlAndCommand(sessionSocket);
- rcvCryptoParams(rcv_paramsandkey);
- rcvPirParams();
- }
- else //not driven
- {
- std::vector<std::string> fields;
- boost::algorithm::split(fields, pirParam.crypto_params, boost::algorithm::is_any_of(GlobalConstant::kDelim));
- cryptoMethod = HomomorphicCryptoFactory_internal::getCrypto(fields.at(0));
- cryptoMethod->setNewParameters(pirParam.crypto_params);
- generator = PIRReplyGeneratorFactory::getPIRReplyGenerator(fields.at(0), pirParam,dbhandler);
- generator->setCryptoMethod(cryptoMethod);
- sendCryptoParams();
- rcvCryptoParams(!rcv_paramsandkey);
- sendPirParams();
- }
- // If one of the functions above generates an error, handmadeExceptionRaised is set
- if (!handmadeExceptionRaised)
- {
- // This is just a download thread. Reply generation is unlocked (by a mutex)
- // when this thread finishes.
- startProcessQuery();
- // Import the database
- // Start reply generation when mutex unlocked
- // Start a thread which uploads the reply as it is generated
- startProcessResult(session_option);
- }
- // Wait for child threads
- if (upThread.joinable()) upThread.join();
- if (downThread.joinable()) downThread.join();
- std::cout << "PIRSession: Session finished" << std::endl << std::endl;
- // Note that we have finished so that the PIRServer can do garbage collection
- finished = true;
- if (generator != NULL) delete generator;
- return 0; // Did deal with a client query
- }
- /**
- * Getter for other classes (such as PIRServer)
- **/
- tcp::socket& PIRSession::getSessionSocket()
- {
- return sessionSocket;
- }
- /**
- * Send the catalog to the client as a string.
- * Format : file_list_size \n filename1 \n filesize1 \n filename2 \n ... filesizeN \n
- * if SEND_CATALOG is defined and catalog size is less than 1000, the full catalog is sent
- * otherwise only the size of the catalog is sent
- **/
- void PIRSession::sendCatalog()
- {
- string buf;
- #ifdef SEND_CATALOG
- if(dbhandler->getNbStream()>1000) {
- buf=dbhandler->getCatalog(false);
- } else {
- buf=dbhandler->getCatalog(true);
- }
- #else
- buf = dbhandler->getCatalog(false);
- #endif
- // Send the buffer
- const boost::uint64_t size = buf.size();
-
- try
- {
- if (write(sessionSocket, boost::asio::buffer(&size, sizeof(size))) <= 0)
- exitWithErrorMessage(__FUNCTION__,"Error sending catalog size");
- if (write(sessionSocket, boost::asio::buffer(buf.c_str(), size)) < size)
- exitWithErrorMessage(__FUNCTION__,"Error sending catalog");
- } catch (std::exception const& ex) {
- exitWithErrorMessage(__FUNCTION__,"Error sending catalog: " + string(ex.what()));
- }
- writeWarningMessage(__FUNCTION__ , "done.");
- }
- void PIRSession::sendCryptoParams()
- {
- std::cout << "PIRSession: Mandatory crypto params sent to the client are " << pirParam.crypto_params << std::endl;
- try
- {
- int crypto_params_size = pirParam.crypto_params.size();
- write(sessionSocket, boost::asio::buffer(&crypto_params_size, sizeof(crypto_params_size)));
- write(sessionSocket, boost::asio::buffer(pirParam.crypto_params));
- }
- catch(std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- }
- }
- bool PIRSession::rcvIsClient()
- {
- try{
- int is_client;
- while ( read(sessionSocket, boost::asio::buffer(&(is_client), sizeof(int))) == 0)
- boost::this_thread::yield();
- //exitWithErrorMessage(__FUNCTION__, "No client or optim choice recieved");
- return is_client == 1;
- }catch (std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- }
- }
- /**
- * Receive client's cryptographic parameters as:
- * - An int describing a string size
- * - A string of the given size containing the public parameters
- * - A second int describing a byte size
- * - A buffer of bytes of the given size with key material
- **/
- void PIRSession::rcvCryptoParams(bool paramsandkey)
- {
- unsigned int size = 0;
- try{
- std::vector<std::string> fields;
-
- if(paramsandkey == true)
- {
- // First get the int and allocate space for the string (plus the null caracter)
- read(sessionSocket, boost::asio::buffer(&size, sizeof(int)));
- char params_buf[size + 1];
- // Get the string in the buffer and add a null character
- read(sessionSocket, boost::asio::buffer(params_buf, size));
- params_buf[size] = '\0';
- cout << "PIRSession: Received crypto parameters " << params_buf << " processing them ..." << endl;
- #ifdef DEBUG
- cout << "PIRSession: Parameter string size is " << size << endl;
- #endif
- // Extract cryptosystem's name
- string crypto_system_desc(params_buf);
- boost::algorithm::split(fields, crypto_system_desc, boost::algorithm::is_any_of(":"));
- // Create cryptosystem using a factory and the extracted name
- cryptoMethod = HomomorphicCryptoFactory_internal::getCrypto(fields[0]);
-
- // Set cryptosystem with received parameters and key material
- cryptoMethod->setNewParameters(params_buf);
- // Create the PIR reply generator object using a factory to have
- // the correct object given the cryptosystem used (for optimization
- // reply generation is cryptosystem dependent)
- generator = PIRReplyGeneratorFactory::getPIRReplyGenerator(fields[0], pirParam, dbhandler);
- if (generator == NULL)
- {
- std::cout << "PIRSession: CRITICAL no reply generator found, exiting session" << std::endl;
- pthread_exit(this);
- }
- else
- {
- generator->setCryptoMethod(cryptoMethod);
- }
- }
-
- // Use again size to describe the key size
- if (read(sessionSocket, boost::asio::buffer(&size ,sizeof(size))) <= 0)
- exitWithErrorMessage(__FUNCTION__,"No key received, abort.");
- #ifdef DEBUG
- cout << "PIRSession: Size of received key material is " << size << endl;
- #endif
- // Get the key material only if there is some
- if(size > 0)
- {
- // This time we don't use a string so no need for an extra character
- char buf[size];
- if (read(sessionSocket, boost::asio::buffer(buf, size)) < size)
- exitWithErrorMessage(__FUNCTION__,"No parameters received, abort.");
-
- cryptoMethod->getPublicParameters().setModulus(buf);
- }
- }catch(std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- }
- std::cout << "PIRSession: Finished processing crypto parameters" << std::endl;
- }
- void PIRSession::sendPIRParamsExchangeMethod(short exchange_method)
- {
- if (exchange_method == CLIENT_DRIVEN)
- {
- cout << "PIRSession: Notifying the client this is a client-driven session" << endl;
- }
- else
- {
- cout << "PIRSession: Notifying the client this is a server-driven session" << endl;
- }
- try
- {
- write(sessionSocket, boost::asio::buffer(&exchange_method, sizeof(exchange_method)));
- }catch(std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- }
- }
- /**
- * Receive client's PIR parameters.
- **/
- void PIRSession::rcvPirParams()
- {
- try{
- // First we get an int with the recursion level
- if ( read(sessionSocket, boost::asio::buffer(&(pirParam.d), sizeof(int))) <= 0)
- exitWithErrorMessage(__FUNCTION__, "No pir param recieved");
- // Then we get an int with the aggregation
- if ( read(sessionSocket, boost::asio::buffer(&(pirParam.alpha), sizeof(int))) <= 0)
- exitWithErrorMessage(__FUNCTION__, "No pir param recieved");
- // Finally for each level we get an int withe the corresponding dimension size
- for (unsigned int i = 0 ; i < pirParam.d ; i++)
- {
- if ( read(sessionSocket, boost::asio::buffer( &(pirParam.n[i]), sizeof(int))) <= 0)
- exitWithErrorMessage(__FUNCTION__, "No pir param recieved");
- }
- // The last dimension + 1 is set to 1 (used in some functions to compute the number of
- // elements after a PIR recursion level)
- pirParam.n[pirParam.d] = 1;
- // Pass the PIR parameters to the reply generator
- generator->setPirParams(pirParam);
- cout << "PIRSession: PIR params recieved from the client are d=" << pirParam.d << ", alpha=" << pirParam.alpha << ", data_layout=";
- for (unsigned int i = 0; i < pirParam.d; i++)
- {
- if (pirParam.d == 1) cout << "1x";
- cout << pirParam.n[i];
- if (i != pirParam.d-1) cout << "x";
- }
- cout << endl;
- }catch (std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- }
- }
- void PIRSession::sendPirParams()
- {
- cout << "PIRSession: Mandatory PIR params sent to the client are d=" << pirParam.d << ", alpha=" << pirParam.alpha << ", data_layout=";
- for (unsigned int i = 0; i < pirParam.d; i++)
- {
- if (pirParam.d == 1) cout << "1x";
- cout << pirParam.n[i];
- if (i != pirParam.d-1) cout << "x";
- }
- cout << endl;
- try{
- // First we send an int with the recursion level
- if ( write(sessionSocket, boost::asio::buffer(&(pirParam.d), sizeof(int))) <= 0)
- exitWithErrorMessage(__FUNCTION__, "No pir param sended");
- // Then we send an int with the aggregation
- if ( write(sessionSocket, boost::asio::buffer(&(pirParam.alpha), sizeof(int))) <= 0)
- exitWithErrorMessage(__FUNCTION__, "No pir param sended");
- // Finally for each level we send an int withe the corresponding dimension size
- for (unsigned int i = 0 ; i < pirParam.d ; i++)
- {
- if ( write(sessionSocket, boost::asio::buffer( &(pirParam.n[i]), sizeof(int))) <= 0)
- exitWithErrorMessage(__FUNCTION__, "No pir param sended");
- }
- // The last dimension + 1 is set to 1 (used in some functions to compute the number of
- // elements after a PIR recursion level)
- pirParam.n[pirParam.d] = 1;
- // Pass the PIR parameters to the reply generator
- generator->setPirParams(pirParam);
- }catch (std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- }
- }
- /**
- * Start downloadworker in downThread.
- **/
- void PIRSession::startProcessQuery ()
- {
- if(no_pipeline_mode) {
- std::cout << "No pipeline in query processing." << std::endl;
- downloadWorker();
- } else {
- downThread = boost::thread(&PIRSession::downloadWorker, this);
- }
- }
- /**
- * Recieve queries n messages with n = nbr of files.
- **/
- void blo(const boost::system::error_code& err) {
- std::cout <<"rec "<<omp_get_wtime()<<std::endl;
- }
- void PIRSession::downloadWorker()
- {
- double start = omp_get_wtime();
- unsigned int msg_size = 0;
- // Allocate an array with d dimensions with pointers to arrays of n[i] lwe_query elements
- generator->initQueriesBuffer();
- #ifdef PERF_TIMERS
- double vtstart = omp_get_wtime();
- bool wasVerbose = false;
- unsigned int previous_elts = 0;
- unsigned int total_elts = 0;
- for (unsigned int k = 0 ; k < pirParam.d ; k++) total_elts += pirParam.n[k];
- #endif
- try{
- for (unsigned int j = 0 ; j < pirParam.d ; j++)
- {
- // Compute and allocate the size in bytes of a query ELEMENT of dimension j
- msg_size = cryptoMethod->getPublicParameters().getQuerySizeFromRecLvl(j+1) / 8;
- boost::asio::socket_base::receive_buffer_size opt(65535);
- sessionSocket.set_option(opt);
- // boost_buffer = new boost::asio::buffer(buf, msg_size);
- #ifdef DEBUG
- cout << "PIRSession: Size of the query element to be received is " << msg_size << endl;
- cout << "PIRSession: Number of query elements to be received is " << pirParam.n[j] << endl;
- #endif
- // Iterate over all the elements of the query corresponding to the j-th dimension
- for (unsigned int i = 0; i < pirParam.n[j]; i++)
- {
- char *buf = (char *) malloc(msg_size*sizeof(char));
- auto boost_buffer = boost::asio::buffer(buf,msg_size);
- if (i==0 && j == 0) cout << "PIRSession: Waiting for query elements ..." << endl;
- // Get a query element
- //( async_read(sessionSocket, boost_buffer,boost::bind(&blo,boost::asio::placeholders::error)) );
- if (read(sessionSocket, boost_buffer) < msg_size )
- writeWarningMessage(__FUNCTION__, "Query element not entirely recieved");
- // std::cout <<"PIRSession: " << total_elts << " query elements received in " << omp_get_wtime() - start << std::endl;
- // Allocate the memory for the element, copy it, and point to it with the query buffer
- if (i==0 && j == 0) cout << "PIRSession: Starting query element reception" << endl;
- #ifdef PERF_TIMERS
- // Give some feedback if it takes too long
- double vtstop = omp_get_wtime();
- if (vtstop - vtstart > 1)
- {
- vtstart = vtstop;
- previous_elts = 0;
- for (unsigned int k = 0 ; k < j ; k++) previous_elts += pirParam.n[k];
- std::cout <<"PIRSession: Query element " << i+1+previous_elts << "/" << total_elts << " received\r" << std::flush;
- wasVerbose = true;
- }
- #endif
-
- generator->pushQuery(buf, msg_size, j, i);
- }
- }
- }catch (std::exception const& ex)
- {
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- return;
- }
- #ifdef PERF_TIMERS
- std::cout <<"PIRSession: Query element " << total_elts << "/" << total_elts << " received" << std::endl;
- std::cout <<"PIRSession: " << total_elts << " query elements received in " << omp_get_wtime() - start << std::endl;
- #endif
-
- // All the query elements received, unlock reply generation
- generator->mutex.unlock();
- // Output we are done
- writeWarningMessage(__FUNCTION__, "done.");
- }
- /**
- * Start uploadWorker in a thread.
- **/
- void PIRSession::startProcessResult(session_option_t session_option)
- {
- if (no_pipeline_mode) {
- std::cout << "No pipeline in query Generation." << std::endl;
- }
- else {
- upThread = boost::thread(&PIRSession::uploadWorker, this);
- }
- // Import and generate reply once unlocked by the query downloader thread
- // If we got a preimported database generate reply directly from it
- if (session_option.got_preimported_database == true)
- {
- std::cout << "PIRSession: Already got an imported database available, using it" << std::endl;
- generator->generateReplyGenericFromData(session_option.data);
- }
- else if (session_option.keep_database == true) {
- savedDatabase = generator->generateReplyGeneric(true);
- }
- else if (session_option.keep_database == false)
- {
- generator->generateReplyGeneric(false);
- }
-
- if (no_pipeline_mode) {
- uploadWorker();
- }
- }
- void sleepForBytes(unsigned int bytes) {
- #ifdef NDSS_UPLOAD_SPEED
- uint64_t seconds=(bytes*8)/NDSS_UPLOAD_SPEED;
- uint64_t nanoseconds=((((double)bytes*8.)/(double)NDSS_UPLOAD_SPEED)-(double)seconds)*1000000000UL;
- struct timespec req={0},rem={0};
- req.tv_sec=seconds;
- req.tv_nsec=nanoseconds;
- nanosleep(&req,&rem);
- #endif
- }
- /**
- * Send PIR's result, asynchronously.
- **/
- void PIRSession::uploadWorker()
- {
- // Ciphertext byte size
- unsigned int byteSize = cryptoMethod->getPublicParameters().getCiphBitsizeFromRecLvl(pirParam.d)/GlobalConstant::kBitsPerByte;
- uint64_t totalbytesent=0;
- // Number of ciphertexts in the reply
- unsigned long reply_nbr = generator->computeReplySizeInChunks(maxFileBytesize), i = 0;
- #ifdef DEBUG
- cout << "PIRSession: Number of ciphertexts to send is " << reply_nbr << endl;
- cout << "PIRSession: maxFileBytesize is " << maxFileBytesize << endl;
- cout << "PIRSession: Ciphertext bytesize is " << byteSize << endl;
- #endif
- try
- {
- // Pointer for the ciphertexts to be sent
- char *ptr;
- // For each ciphertext in the reply
- for (unsigned i = 0 ; i < reply_nbr ; i++)
- {
- while (generator->repliesArray == NULL || generator->repliesArray[i] == NULL)
- {
- boost::this_thread::sleep(boost::posix_time::milliseconds(10));
- }
- ptr = generator->repliesArray[i];
-
- // Send it
- //int byteSent=sessionSocket.send(boost::asio::buffer(ptr, byteSize));
- if (write(sessionSocket,boost::asio::buffer(ptr, byteSize)) <= 0)
- exitWithErrorMessage(__FUNCTION__,"Error sending request" );
- totalbytesent+=byteSize;
- #ifdef NDSS_UPLOAD_SPEED
- sleepForBytes(byteSize);
- #endif
- // Free its memory
- free(ptr);
- generator->repliesArray[i]=NULL;
- }
- // When everythind is send close the socket
- sessionSocket.close();
- }
- // If there was a problem sending the reply
- catch (std::exception const& ex)
- {
- #ifdef DEBUG
- std::cerr << "Number of chunks sent: " << i << "/" << reply_nbr << std::endl;
- #endif
- exitWithErrorMessage(__FUNCTION__, string(ex.what()));
- return;
- }
- // Tell when we have finished
- writeWarningMessage(__FUNCTION__ , "done.");;
- }
- // Functions for displaying logs
- void PIRSession::writeErrorMessage(string funcName, string message)
- {
- cerr << BOLD << funcName << " : " << RESET_COLOR << RED << message << RESET_COLOR <<endl;
- }
- void PIRSession::writeWarningMessage(string funcName, string message)
- {
- cerr << BOLD << funcName << " : " << RESET_COLOR << ORANGE << message << RESET_COLOR <<endl;
- }
- // For critical erros
- void PIRSession::exitWithErrorMessage(string funcName, string message)
- {
- writeErrorMessage(funcName, message);
- // This is used in the main function (start()) to skip costly operations if an error occurred
- handmadeExceptionRaised = true;
- }
- // Used by the PIRServer for garbage collection
- bool PIRSession::isFinished()
- {
- return finished;
- }
- // Destructor
- PIRSession::~PIRSession()
- {
- if (cryptoMethod != NULL) delete cryptoMethod;
- }
- PIRParameters PIRSession::getPIRParams()
- {
- pirParam.crypto_params = cryptoMethod->getPublicParameters().getSerializedParams(false);
- return pirParam;
- }
- void PIRSession::setPIRParams(PIRParameters pir_parameters)
- {
- pirParam = pir_parameters;
- }
- imported_database_t PIRSession::getSavedDatabase() {
- return savedDatabase;
- }
- void PIRSession::no_pipeline(bool b)
- {
- no_pipeline_mode = b;
- }
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